diff --git a/doc/RELEASE.TXT b/doc/RELEASE.TXT index 90c99ad9..c16e29ad 100644 --- a/doc/RELEASE.TXT +++ b/doc/RELEASE.TXT @@ -3,21 +3,24 @@ Version @PHREEQC_VER@: @PHREEQC_DATE@ ----------------- October 8, 2024 ----------------- - PHREEQC: Improved algorithem for transport of heat in TRANSPORT, and included - additional viscosity effects in transport calculations. + PHREEQC: Revised the multicomponent diffusion calculation of heat and solutes, + accounting now for the heat also for the T-dependent viscosity of the solutions. ----------------- October 8, 2024 ----------------- - PHREEQC: Corrected spelling errors thoughout PHREEQC as supplied by Mike Toews. + PHREEQC: Corrected spelling errors throughout PHREEQC as supplied by Mike Toews. Modified "lamda" to "lambda" internally as suggested by Toews, but "lamda" and - "lambda" are both acceptable in Ptzer database files for backward compatibility. + "lambda" are both acceptable in Pitzer database files for backward compatibility. ----------------- October 8, 2024 ----------------- PHREEQC: Fixed bug in MIX that produced erroneous temperature and pressure - if the solutions being mixed did not have 1 kg of water. + if the solutions being mixed did not have 1 kg of water. (Note that PHREEQC does + not consider the heat content of the solutions when the temperature of the mixture + is calculated.) + Version 3.8.2: August 29, 2024 ----------------- diff --git a/examples/ex11trn.sel b/examples/ex11trn.sel index 79b36acc..c7d13157 100644 --- a/examples/ex11trn.sel +++ b/examples/ex11trn.sel @@ -56,28 +56,28 @@ 54 8.761960899973e-04 1.119606249493e-03 3.238039099878e-04 0.000000000000e+00 1.362500000000e+00 55 8.344533301406e-04 1.131625845338e-03 3.655466698441e-04 0.000000000000e+00 1.387500000000e+00 56 7.847919650475e-04 1.142020362045e-03 4.152080349369e-04 0.000000000000e+00 1.412500000000e+00 - 57 7.284538372959e-04 1.150973656035e-03 4.715461626881e-04 3.531139650212e-28 1.437500000000e+00 + 57 7.284538372959e-04 1.150973656035e-03 4.715461626881e-04 3.531139650213e-28 1.437500000000e+00 58 6.674661295231e-04 1.158656441394e-03 5.325338704605e-04 4.216133178352e-26 1.462500000000e+00 59 6.042301758578e-04 1.165225432017e-03 5.957698241254e-04 2.112623929847e-24 1.487500000000e+00 - 60 5.410707042902e-04 1.170823053923e-03 6.589292956926e-04 9.154192241147e-23 1.512500000000e+00 - 61 4.799177066706e-04 1.175577598779e-03 7.200822933118e-04 3.514353871101e-21 1.537500000000e+00 + 60 5.410707042902e-04 1.170823053923e-03 6.589292956926e-04 9.154192241148e-23 1.512500000000e+00 + 61 4.799177066706e-04 1.175577598779e-03 7.200822933118e-04 3.514353871102e-21 1.537500000000e+00 62 4.221746364521e-04 1.179603706071e-03 7.778253635299e-04 1.207213754642e-19 1.562500000000e+00 63 3.687296865690e-04 1.183003078326e-03 8.312703134126e-04 3.694071268301e-18 1.587500000000e+00 - 64 3.200378094467e-04 1.185865350144e-03 8.799621905343e-04 1.035721724514e-16 1.612500000000e+00 + 64 3.200378094467e-04 1.185865350144e-03 8.799621905343e-04 1.035721724513e-16 1.612500000000e+00 65 2.762284431584e-04 1.188269047043e-03 9.237715568171e-04 2.657316487700e-15 1.637500000000e+00 - 66 2.371960440990e-04 1.190282583741e-03 9.628039557559e-04 6.272120678986e-14 1.662500000000e+00 + 66 2.371960440990e-04 1.190282583741e-03 9.628039557559e-04 6.272120678985e-14 1.662500000000e+00 67 2.026802660677e-04 1.191965263410e-03 9.973197311041e-04 1.404108206640e-12 1.687500000000e+00 68 1.723175379753e-04 1.193368249524e-03 1.027682402586e-03 2.970943178734e-11 1.712500000000e+00 - 69 1.456986526365e-04 1.194535490349e-03 1.054300174205e-03 5.865691832667e-10 1.737500000000e+00 - 70 1.223834694923e-04 1.195504582884e-03 1.077593516927e-03 1.150677988346e-08 1.762500000000e+00 - 71 1.019262303182e-04 1.196307568531e-03 1.097657241059e-03 2.082643005568e-07 1.787500000000e+00 + 69 1.456986526365e-04 1.194535490349e-03 1.054300174205e-03 5.865691832666e-10 1.737500000000e+00 + 70 1.223834694923e-04 1.195504582884e-03 1.077593516927e-03 1.150677988345e-08 1.762500000000e+00 + 71 1.019262303182e-04 1.196307568531e-03 1.097657241059e-03 2.082643005567e-07 1.787500000000e+00 72 8.381480436917e-05 1.196971656899e-03 1.109525476375e-03 3.329859617448e-06 1.812500000000e+00 73 6.668225222783e-05 1.197519877322e-03 1.024937206784e-03 5.419027048446e-05 1.837500000000e+00 74 5.053198367604e-05 1.197971659937e-03 7.350507107061e-04 2.072086528030e-04 1.862500000000e+00 75 3.879701357395e-05 1.198343349753e-03 5.356918142767e-04 3.127555860708e-04 1.887500000000e+00 76 3.007678322722e-05 1.198648658204e-03 4.021188008094e-04 3.839022079790e-04 1.912500000000e+00 77 2.344463549483e-05 1.198899057198e-03 3.068522371411e-04 4.348515636801e-04 1.937500000000e+00 - 78 1.834047972307e-05 1.199104120993e-03 2.366187847944e-04 4.725203677398e-04 1.962500000000e+00 + 78 1.834047972307e-05 1.199104120993e-03 2.366187847945e-04 4.725203677398e-04 1.962500000000e+00 79 1.438416333582e-05 1.199271821253e-03 1.838015689086e-04 5.009071338768e-04 1.987500000000e+00 80 1.130287552755e-05 1.199408780437e-03 1.435541337153e-04 5.225714953778e-04 2.012500000000e+00 81 8.894854154099e-06 1.199520488471e-03 1.125953626079e-04 5.392548916185e-04 2.037500000000e+00 @@ -86,7 +86,7 @@ 84 4.362237388672e-06 1.199745698858e-03 5.532050326743e-05 5.701586296717e-04 2.112500000000e+00 85 3.445231625616e-06 1.199794545990e-03 4.384740222256e-05 5.763536830758e-04 2.137500000000e+00 86 2.722483623513e-06 1.199834157394e-03 3.481279241283e-05 5.812323619826e-04 2.162500000000e+00 - 87 2.152343734153e-06 1.199866246232e-03 2.768046312192e-05 5.850835965725e-04 2.187500000000e+00 + 87 2.152343734153e-06 1.199866246232e-03 2.768046312193e-05 5.850835965725e-04 2.187500000000e+00 88 1.702259902002e-06 1.199892215323e-03 2.203774543638e-05 5.881299973317e-04 2.212500000000e+00 89 1.346733078607e-06 1.199913211686e-03 1.756522033724e-05 5.905440232928e-04 2.237500000000e+00 90 1.065752199293e-06 1.199930171882e-03 1.401446577327e-05 5.924598910143e-04 2.262500000000e+00 diff --git a/examples/ex12.sel b/examples/ex12.sel index d549d47f..50a93134 100644 --- a/examples/ex12.sel +++ b/examples/ex12.sel @@ -64,63 +64,63 @@ 19.5 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 19.8333 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 0 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 - 0.166666 2.173421535788e+01 2.173403615953e+01 2.265963837554e+00 2.269804797032e+01 - 0.499999 1.732877881413e+01 1.732819001087e+01 6.671809981447e+00 2.011807085412e+01 - 0.833333 1.328084086748e+01 1.327978568454e+01 1.072021430458e+01 1.760856603204e+01 - 1.16667 9.764795286473e+00 9.763307030585e+00 1.423669295683e+01 1.521227157407e+01 - 1.5 6.876991640216e+00 6.875215357913e+00 1.712478462908e+01 1.296595961051e+01 - 1.83333 4.633455928133e+00 4.631602980060e+00 1.936839700747e+01 1.089879733963e+01 - 2.16666 2.983966658034e+00 2.982242889576e+00 2.101775709910e+01 9.031344427781e+00 - 2.5 1.835677067050e+00 1.834226374349e+00 2.216577361580e+01 7.375229710910e+00 - 2.83333 1.078314727713e+00 1.077198297073e+00 2.292280169464e+01 5.933476222844e+00 - 3.16666 6.047305557783e-01 6.039382767914e-01 2.339606171644e+01 4.701379781820e+00 - 3.5 3.237709470080e-01 3.232490525632e-01 2.367675094204e+01 3.667800399953e+00 - 3.83333 1.655104664086e-01 1.651896628002e-01 2.383481033299e+01 2.816701882844e+00 - 4.16666 8.080257204240e-02 8.061777229753e-02 2.391938222449e+01 2.128773573946e+00 - 4.5 3.768568646672e-02 3.758557520676e-02 2.396241442239e+01 1.582986272153e+00 - 4.83333 1.679767756894e-02 1.674652868459e-02 2.398325346955e+01 1.157966472262e+00 - 5.16666 7.158752063679e-03 7.134045500782e-03 2.399286595322e+01 8.331126368298e-01 - 5.49999 2.918449214332e-03 2.907143229955e-03 2.399709285586e+01 5.894176946328e-01 - 5.83333 1.138722696040e-03 1.133812460285e-03 2.399886618691e+01 4.099979928622e-01 - 6.16666 4.254688736287e-04 4.234417524596e-04 2.399957655782e+01 2.803568840129e-01 - 6.49999 1.523139982618e-04 1.515173752178e-04 2.399984848233e+01 1.884293356574e-01 - 6.83333 5.227267557720e-05 5.197429168637e-05 2.399994802552e+01 1.244625136586e-01 - 7.16666 1.720732480116e-05 1.710067686712e-05 2.399998289920e+01 8.078763518547e-02 - 7.49999 5.436192373459e-06 5.399780020770e-06 2.399999460014e+01 5.153271367855e-02 - 7.83333 1.649130959657e-06 1.637243353861e-06 2.399999836271e+01 3.231654723819e-02 - 8.16666 4.806491381349e-07 4.769347036557e-07 2.399999952303e+01 1.995365519988e-02 - 8.49999 1.346725366297e-07 1.335606226401e-07 2.399999986642e+01 1.218958904340e-02 - 8.83332 3.634765898121e-08 3.602792250445e-08 2.399999996396e+01 7.477287156789e-03 - 9.16666 9.688623034758e-09 9.597781456237e-09 2.399999999039e+01 4.798487471577e-03 - 9.49999 3.521368975345e-09 3.486221174512e-09 2.399999999651e+01 3.529761278078e-03 - 9.83332 5.266906600210e-09 5.215747970494e-09 2.399999999478e+01 3.350250042338e-03 - 10.1667 1.826871464229e-08 1.810246493779e-08 2.399999998189e+01 4.187235209478e-03 - 10.5 6.734356349056e-08 6.676736728859e-08 2.399999993322e+01 6.195716015130e-03 - 10.8333 2.402639314420e-07 2.383343475339e-07 2.399999976165e+01 9.768664014259e-03 - 11.1667 8.242843018529e-07 8.180891310115e-07 2.399999918189e+01 1.557505013666e-02 - 11.5 2.716922549622e-06 2.697877300187e-06 2.399999730208e+01 2.462264894765e-02 - 11.8333 8.598959192629e-06 8.542946913518e-06 2.399999145699e+01 3.834165440595e-02 - 12.1667 2.611819663843e-05 2.596074280454e-05 2.399997403917e+01 5.868305693760e-02 - 12.5 7.608967015818e-05 7.566701745618e-05 2.399992433285e+01 8.822247450200e-02 - 12.8333 2.124941138159e-04 2.114118449125e-04 2.399978858795e+01 1.302558794738e-01 - 13.1667 5.685367828663e-04 5.658959587685e-04 2.399943410375e+01 1.888688939345e-01 - 13.5 1.456506511045e-03 1.450373187822e-03 2.399854962640e+01 2.689568433456e-01 - 13.8333 3.570772369452e-03 3.557230846966e-03 2.399644276858e+01 3.761696764504e-01 - 14.1667 8.372702446682e-03 8.344318209114e-03 2.399165568100e+01 5.167554989993e-01 - 14.5 1.876668623423e-02 1.871028306262e-02 2.398128971588e+01 6.972801618698e-01 - 14.8333 4.018855158439e-02 4.008246069532e-02 2.395991753791e+01 9.242091443386e-01 - 15.1667 8.218587185627e-02 8.199729506180e-02 2.391800270313e+01 1.203352315083e+00 - 15.5 1.604262488969e-01 1.601100284715e-01 2.383988996925e+01 1.539191520808e+00 - 15.8333 2.987859018573e-01 2.982865097097e-01 2.370171348749e+01 1.934133647612e+00 - 16.1667 5.307585250720e-01 5.300169112943e-01 2.346998308535e+01 2.387754908519e+00 - 16.5 8.989956902916e-01 8.979611508074e-01 2.310203884528e+01 2.896121734265e+00 - 16.8333 1.451582042996e+00 1.450226361452e+00 2.254977363414e+01 3.451285434101e+00 - 17.1666 2.233972730862e+00 2.232300602876e+00 2.176769939234e+01 4.041047732561e+00 - 17.5 3.276610346604e+00 3.274658958333e+00 2.072534103671e+01 4.649079608377e+00 - 17.8333 4.580032365347e+00 4.577856581120e+00 1.942214341402e+01 5.255445898756e+00 - 18.1666 6.101263069883e+00 6.098911107801e+00 1.790108888775e+01 5.837544906627e+00 - 18.5 7.746550873541e+00 7.744044086582e+00 1.625595590970e+01 6.371420572385e+00 - 18.8333 9.375124349924e+00 9.372456106636e+00 1.462754389061e+01 6.833351769770e+00 - 19.1666 1.081616435699e+01 1.081332243663e+01 1.318667756164e+01 7.201577340318e+00 - 19.5 1.189711477283e+01 1.189411416971e+01 1.210588582943e+01 7.457984760712e+00 - 19.8333 1.247718192302e+01 1.247408415261e+01 1.152591584704e+01 7.589581188889e+00 + 0.166666 2.173421535646e+01 2.173403615953e+01 2.265963837554e+00 2.269804797032e+01 + 0.499999 1.732877881136e+01 1.732819001087e+01 6.671809981447e+00 2.011807085412e+01 + 0.833333 1.328084086481e+01 1.327978568454e+01 1.072021430458e+01 1.760856603204e+01 + 1.16667 9.764795284605e+00 9.763307030585e+00 1.423669295683e+01 1.521227157407e+01 + 1.5 6.876991639258e+00 6.875215357913e+00 1.712478462908e+01 1.296595961051e+01 + 1.83333 4.633455927868e+00 4.631602980060e+00 1.936839700747e+01 1.089879733963e+01 + 2.16666 2.983966658160e+00 2.982242889576e+00 2.101775709910e+01 9.031344427781e+00 + 2.5 1.835677067321e+00 1.834226374349e+00 2.216577361580e+01 7.375229710910e+00 + 2.83333 1.078314727984e+00 1.077198297073e+00 2.292280169464e+01 5.933476222844e+00 + 3.16666 6.047305559881e-01 6.039382767914e-01 2.339606171644e+01 4.701379781820e+00 + 3.5 3.237709471477e-01 3.232490525632e-01 2.367675094204e+01 3.667800399953e+00 + 3.83333 1.655104664919e-01 1.651896628002e-01 2.383481033299e+01 2.816701882844e+00 + 4.16666 8.080257208790e-02 8.061777229753e-02 2.391938222449e+01 2.128773573946e+00 + 4.5 3.768568648974e-02 3.758557520676e-02 2.396241442239e+01 1.582986272153e+00 + 4.83333 1.679767757983e-02 1.674652868459e-02 2.398325346955e+01 1.157966472262e+00 + 5.16666 7.158752068527e-03 7.134045500783e-03 2.399286595322e+01 8.331126368298e-01 + 5.49999 2.918449216371e-03 2.907143229955e-03 2.399709285586e+01 5.894176946328e-01 + 5.83333 1.138722696853e-03 1.133812460285e-03 2.399886618691e+01 4.099979928622e-01 + 6.16666 4.254688739372e-04 4.234417524596e-04 2.399957655782e+01 2.803568840129e-01 + 6.49999 1.523139983733e-04 1.515173752178e-04 2.399984848233e+01 1.884293356574e-01 + 6.83333 5.227267561574e-05 5.197429168637e-05 2.399994802552e+01 1.244625136586e-01 + 7.16666 1.720732481390e-05 1.710067686712e-05 2.399998289920e+01 8.078763518547e-02 + 7.49999 5.436192377492e-06 5.399780020770e-06 2.399999460014e+01 5.153271367855e-02 + 7.83333 1.649130960882e-06 1.637243353861e-06 2.399999836271e+01 3.231654723819e-02 + 8.16666 4.806491384918e-07 4.769347036557e-07 2.399999952303e+01 1.995365519988e-02 + 8.49999 1.346725367296e-07 1.335606226401e-07 2.399999986642e+01 1.218958904340e-02 + 8.83332 3.634765900813e-08 3.602792250445e-08 2.399999996396e+01 7.477287156789e-03 + 9.16666 9.688623041821e-09 9.597781456237e-09 2.399999999039e+01 4.798487471577e-03 + 9.49999 3.521368977494e-09 3.486221174512e-09 2.399999999651e+01 3.529761278078e-03 + 9.83332 5.266906602284e-09 5.215747970494e-09 2.399999999478e+01 3.350250042338e-03 + 10.1667 1.826871464878e-08 1.810246493779e-08 2.399999998189e+01 4.187235209478e-03 + 10.5 6.734356351424e-08 6.676736728859e-08 2.399999993322e+01 6.195716015130e-03 + 10.8333 2.402639315261e-07 2.383343475339e-07 2.399999976165e+01 9.768664014259e-03 + 11.1667 8.242843021403e-07 8.180891310115e-07 2.399999918189e+01 1.557505013666e-02 + 11.5 2.716922550563e-06 2.697877300187e-06 2.399999730208e+01 2.462264894765e-02 + 11.8333 8.598959195576e-06 8.542946913518e-06 2.399999145699e+01 3.834165440595e-02 + 12.1667 2.611819664726e-05 2.596074280454e-05 2.399997403917e+01 5.868305693760e-02 + 12.5 7.608967018345e-05 7.566701745618e-05 2.399992433285e+01 8.822247450201e-02 + 12.8333 2.124941138848e-04 2.114118449125e-04 2.399978858795e+01 1.302558794738e-01 + 13.1667 5.685367830447e-04 5.658959587685e-04 2.399943410375e+01 1.888688939345e-01 + 13.5 1.456506511482e-03 1.450373187822e-03 2.399854962640e+01 2.689568433456e-01 + 13.8333 3.570772370464e-03 3.557230846966e-03 2.399644276858e+01 3.761696764504e-01 + 14.1667 8.372702448878e-03 8.344318209114e-03 2.399165568100e+01 5.167554989993e-01 + 14.5 1.876668623866e-02 1.871028306262e-02 2.398128971588e+01 6.972801618698e-01 + 14.8333 4.018855159260e-02 4.008246069532e-02 2.395991753791e+01 9.242091443387e-01 + 15.1667 8.218587186998e-02 8.199729506180e-02 2.391800270313e+01 1.203352315083e+00 + 15.5 1.604262489166e-01 1.601100284715e-01 2.383988996925e+01 1.539191520809e+00 + 15.8333 2.987859018794e-01 2.982865097097e-01 2.370171348749e+01 1.934133647612e+00 + 16.1667 5.307585250826e-01 5.300169112943e-01 2.346998308535e+01 2.387754908519e+00 + 16.5 8.989956902585e-01 8.979611508074e-01 2.310203884528e+01 2.896121734266e+00 + 16.8333 1.451582042860e+00 1.450226361452e+00 2.254977363414e+01 3.451285434102e+00 + 17.1666 2.233972730531e+00 2.232300602876e+00 2.176769939234e+01 4.041047732562e+00 + 17.5 3.276610345963e+00 3.274658958333e+00 2.072534103671e+01 4.649079608378e+00 + 17.8333 4.580032364282e+00 4.577856581120e+00 1.942214341402e+01 5.255445898757e+00 + 18.1666 6.101263068319e+00 6.098911107801e+00 1.790108888775e+01 5.837544906627e+00 + 18.5 7.746550871479e+00 7.744044086582e+00 1.625595590970e+01 6.371420572385e+00 + 18.8333 9.375124347455e+00 9.372456106636e+00 1.462754389061e+01 6.833351769771e+00 + 19.1666 1.081616435426e+01 1.081332243663e+01 1.318667756164e+01 7.201577340319e+00 + 19.5 1.189711476997e+01 1.189411416971e+01 1.210588582943e+01 7.457984760712e+00 + 19.8333 1.247718192013e+01 1.247408415261e+01 1.152591584704e+01 7.589581188890e+00 diff --git a/examples/ex12a.sel b/examples/ex12a.sel index caa7d6cc..4ad41f40 100644 --- a/examples/ex12a.sel +++ b/examples/ex12a.sel @@ -21,26 +21,26 @@ 18.5 0.000000000000e+00 0.000000000000e+00 2.400000000010e+01 0.000000000000e+00 19.5 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 0 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 -2.400000337355e-11 -2.400000684299e-11 - 0.5 1.686181418415e+01 1.686133609177e+01 7.138663899854e+00 2.011377529319e+01 4.381717856952e-06 5.068336357464e-04 - 1.5 6.421492325960e+00 6.419558988189e+00 1.758044099840e+01 1.294968671940e+01 1.730376476416e-05 5.127073405313e-04 - 2.5 1.759908541854e+00 1.758534659759e+00 2.224146533044e+01 7.342808261286e+00 3.561257293540e-05 9.186006161037e-05 - 3.5 3.571924631562e-01 3.567054178264e-01 2.364329457693e+01 3.623408283676e+00 4.959925524514e-05 -3.682506955347e-05 - 4.5 5.490209781371e-02 5.479279662416e-02 2.394520720113e+01 1.538555967128e+00 5.006313596864e-05 -1.968447681416e-05 - 5.5 6.484238380348e-03 6.467124486998e-03 2.399353287476e+01 5.556625533105e-01 3.820767165789e-05 -4.051252484614e-06 - 6.5 5.926340095484e-04 5.906785140029e-04 2.399940932133e+01 1.684990632467e-01 2.262672987221e-05 -4.873052767777e-07 - 7.5 4.190926756604e-05 4.174299654826e-05 2.399995825704e+01 4.224784404200e-02 1.054699173428e-05 -3.900783491551e-08 - 8.5 2.276345750780e-06 2.265781717011e-06 2.399999773430e+01 8.664946370886e-03 3.823149392516e-06 -2.221207693063e-09 - 9.5 1.396593677778e-07 1.389123928275e-07 2.399999986118e+01 2.055609847092e-03 - 10.5 1.138869021831e-06 1.133447609651e-06 2.399999886664e+01 4.374443607422e-03 - 11.5 2.090811414205e-05 2.082226931298e-05 2.399997917780e+01 2.044715368546e-02 - 12.5 2.951795282278e-04 2.941575642002e-04 2.399970584241e+01 7.995922685932e-02 - 13.5 3.221164570742e-03 3.212049565193e-03 2.399678795014e+01 2.567109777338e-01 - 14.5 2.715473190226e-02 2.709461903675e-02 2.397290538002e+01 6.850286499837e-01 - 15.5 1.753541123879e-01 1.750694114109e-01 2.382493058642e+01 1.533872870595e+00 - 16.5 8.525032220200e-01 8.515834471049e-01 2.314841654903e+01 2.902126148036e+00 - 17.5 3.032149931402e+00 3.030261194920e+00 2.096973880000e+01 4.663139220088e+00 - 18.5 7.550952821146e+00 7.548456392624e+00 1.645154360352e+01 6.385483516912e+00 - 19.5 1.235834674495e+01 1.235529368931e+01 1.164470631041e+01 7.468268986451e+00 + 0.5 1.686181418171e+01 1.686133609177e+01 7.138663899854e+00 2.011377529319e+01 4.381717856952e-06 5.068336357464e-04 + 1.5 6.421492325340e+00 6.419558988189e+00 1.758044099840e+01 1.294968671940e+01 1.730376476416e-05 5.127073405313e-04 + 2.5 1.759908542190e+00 1.758534659759e+00 2.224146533044e+01 7.342808261286e+00 3.561257293540e-05 9.186006161036e-05 + 3.5 3.571924633149e-01 3.567054178264e-01 2.364329457693e+01 3.623408283676e+00 4.959925524514e-05 -3.682506955347e-05 + 4.5 5.490209784602e-02 5.479279662416e-02 2.394520720113e+01 1.538555967128e+00 5.006313596864e-05 -1.968447681416e-05 + 5.5 6.484238384543e-03 6.467124486998e-03 2.399353287476e+01 5.556625533105e-01 3.820767165789e-05 -4.051252484614e-06 + 6.5 5.926340099388e-04 5.906785140030e-04 2.399940932133e+01 1.684990632467e-01 2.262672987221e-05 -4.873052767777e-07 + 7.5 4.190926759329e-05 4.174299654826e-05 2.399995825704e+01 4.224784404200e-02 1.054699173428e-05 -3.900783491551e-08 + 8.5 2.276345752225e-06 2.265781717011e-06 2.399999773430e+01 8.664946370886e-03 3.823149392516e-06 -2.221207693063e-09 + 9.5 1.396593678491e-07 1.389123928275e-07 2.399999986118e+01 2.055609847092e-03 + 10.5 1.138869022165e-06 1.133447609651e-06 2.399999886664e+01 4.374443607422e-03 + 11.5 2.090811414807e-05 2.082226931298e-05 2.399997917780e+01 2.044715368546e-02 + 12.5 2.951795283095e-04 2.941575642002e-04 2.399970584241e+01 7.995922685932e-02 + 13.5 3.221164571556e-03 3.212049565193e-03 2.399678795014e+01 2.567109777338e-01 + 14.5 2.715473190776e-02 2.709461903675e-02 2.397290538002e+01 6.850286499837e-01 + 15.5 1.753541124074e-01 1.750694114109e-01 2.382493058642e+01 1.533872870595e+00 + 16.5 8.525032219987e-01 8.515834471049e-01 2.314841654903e+01 2.902126148036e+00 + 17.5 3.032149930886e+00 3.030261194920e+00 2.096973880000e+01 4.663139220088e+00 + 18.5 7.550952819370e+00 7.548456392624e+00 1.645154360352e+01 6.385483516912e+00 + 19.5 1.235834674267e+01 1.235529368931e+01 1.164470631041e+01 7.468268986451e+00 0.166667 0.000000000000e+00 0.000000000000e+00 2.400000000000e+01 0.000000000000e+00 0.5 0.000000000000e+00 0.000000000000e+00 2.400000000000e+01 0.000000000000e+00 0.833333 0.000000000000e+00 0.000000000000e+00 2.400000000000e+01 0.000000000000e+00 @@ -101,64 +101,64 @@ 19.1667 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 19.5 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 19.8333 2.400000000000e+01 2.400000000000e+01 0.000000000000e+00 2.400000000000e+01 - 0.166667 2.173421305916e+01 2.173403386063e+01 2.265966136452e+00 2.269804666231e+01 - 0.5 1.732877230198e+01 1.732818349806e+01 6.671816494265e+00 2.011806700218e+01 9.000885944563e-08 3.998622946029e-05 - 0.833333 1.328083118787e+01 1.327977600374e+01 1.072022398538e+01 1.760855984595e+01 - 1.16667 9.764783869793e+00 9.763295612551e+00 1.423670437487e+01 1.521226338238e+01 - 1.5 6.876979954453e+00 6.875203671273e+00 1.712479631572e+01 1.296594983169e+01 1.040652470925e-06 5.706265744742e-05 - 1.83333 4.633445178532e+00 4.631592230628e+00 1.936840775690e+01 1.089878644681e+01 - 2.16667 2.983957613764e+00 2.982233846716e+00 2.101776614197e+01 9.031332911150e+00 - 2.5 1.835670035272e+00 1.834219344984e+00 2.216578064517e+01 7.375218041922e+00 3.202792299443e-06 1.617537638526e-05 - 2.83333 1.078309641703e+00 1.077193213980e+00 2.292280677773e+01 5.933464823767e+00 - 3.16667 6.047271172834e-01 6.039348411906e-01 2.339606515204e+01 4.701369003156e+00 - 3.5 3.237687663205e-01 3.232468743679e-01 2.367675312023e+01 3.667790507028e+00 5.217031892201e-06 -3.366526094913e-06 - 3.83333 1.655091653734e-01 1.651883636811e-01 2.383481163211e+01 2.816693051604e+00 - 4.16667 8.080184009388e-02 8.061704168687e-02 2.391938295510e+01 2.128765894911e+00 - 4.5 3.768529738011e-02 3.758518697824e-02 2.396241481061e+01 1.582979760724e+00 5.639342372485e-06 -2.476867168242e-06 - 4.83333 1.679748179371e-02 1.674633341902e-02 2.398325366481e+01 1.157961083143e+00 - 5.16667 7.158658672534e-03 7.133952391643e-03 2.399286604633e+01 8.331082803354e-01 - 5.5 2.918406916536e-03 2.907101078212e-03 2.399709289802e+01 5.894142528789e-01 4.455972089510e-06 -4.912290758279e-07 - 5.83333 1.138704483513e-03 1.133794318823e-03 2.399886620505e+01 4.099953343114e-01 - 6.16667 4.254614091982e-04 4.234343206137e-04 2.399957656525e+01 2.803548753976e-01 - 6.5 1.523110828883e-04 1.515144739607e-04 2.399984848524e+01 1.884278508358e-01 2.697942283073e-06 -4.814123673546e-08 - 6.83333 5.227158933236e-05 5.197321123247e-05 2.399994802660e+01 1.244614394110e-01 - 7.16667 1.720693831522e-05 1.710029263504e-05 2.399998289958e+01 8.078687428981e-02 - 7.5 5.436060934909e-06 5.399649415897e-06 2.399999460027e+01 5.153218579103e-02 1.262649985252e-06 -2.664487783140e-09 - 7.83333 1.649088195275e-06 1.637200882995e-06 2.399999836275e+01 3.231618817631e-02 - 8.16667 4.806358157844e-07 4.769214798034e-07 2.399999952305e+01 1.995341519604e-02 - 8.5 1.346685590700e-07 1.335566766312e-07 2.399999986642e+01 1.218943044882e-02 2.986653145795e-07 -8.898265268244e-11 - 8.83333 3.634651793240e-08 3.602679113544e-08 2.399999996396e+01 7.477181955864e-03 - 9.16667 9.688299803978e-09 9.597461159243e-09 2.399999999040e+01 4.798414843917e-03 - 9.5 3.521245209155e-09 3.486098607350e-09 2.399999999651e+01 3.529705336616e-03 - 9.83333 5.266729325119e-09 5.215572366276e-09 2.399999999478e+01 3.350197792357e-03 - 10.1667 1.826814042878e-08 1.810189577525e-08 2.399999998189e+01 4.187174719459e-03 - 10.5 6.734157441183e-08 6.676539459885e-08 2.399999993322e+01 6.195634766519e-03 - 10.8333 2.402572726136e-07 2.383277400061e-07 2.399999976166e+01 9.768547401637e-03 - 11.1667 8.242629300769e-07 8.180679126564e-07 2.399999918191e+01 1.557488011882e-02 - 11.5 2.716856871595e-06 2.697812059732e-06 2.399999730215e+01 2.462240289906e-02 - 11.8333 8.598766106045e-06 8.542755015542e-06 2.399999145719e+01 3.834130428025e-02 - 12.1667 2.611765408526e-05 2.596020332212e-05 2.399997403971e+01 5.868256892109e-02 - 12.5 7.608821445992e-05 7.566556929142e-05 2.399992433429e+01 8.822180939210e-02 - 12.8333 2.124903882618e-04 2.114081368791e-04 2.399978859166e+01 1.302549940497e-01 - 13.1667 5.685276979853e-04 5.658869124423e-04 2.399943411280e+01 1.888677435760e-01 - 13.5 1.456485427866e-03 1.450352184743e-03 2.399854964740e+01 2.689553860821e-01 - 13.8333 3.570725867122e-03 3.557184501357e-03 2.399644281492e+01 3.761678784769e-01 - 14.1667 8.372605102191e-03 8.344221152563e-03 2.399165577806e+01 5.167533414733e-01 - 14.5 1.876649314861e-02 1.871009047208e-02 2.398128990847e+01 6.972776485204e-01 - 14.8333 4.018818934234e-02 4.008209924661e-02 2.395991789936e+01 9.242063091066e-01 - 15.1667 8.218523044497e-02 8.199665482934e-02 2.391800334337e+01 1.203349228728e+00 - 15.5 1.604251797020e-01 1.601089608909e-01 2.383989103683e+01 1.539188295218e+00 - 15.8333 2.987842293055e-01 2.982848391787e-01 2.370171515802e+01 1.934130436525e+00 - 16.1667 5.307560799548e-01 5.300144684670e-01 2.346998552818e+01 2.387751903539e+00 - 16.5 8.989923689458e-01 8.979578317801e-01 2.310204216431e+01 2.896119155486e+00 - 16.8333 1.451577886835e+00 1.450222207355e+00 2.254977778824e+01 3.451283515303e+00 - 17.1667 2.233968006579e+00 2.232295880177e+00 2.176770411504e+01 4.041046701772e+00 - 17.5 3.276605594066e+00 3.274654206826e+00 2.072534578822e+01 4.649079665430e+00 - 17.8333 4.580028376255e+00 4.577852592597e+00 1.942214740254e+01 5.255447192243e+00 - 18.1667 6.101260773083e+00 6.098908811274e+00 1.790109118428e+01 5.837547513122e+00 - 18.5 7.746551133352e+00 7.744044346459e+00 1.625595564982e+01 6.371424480909e+00 - 18.8333 9.375127722697e+00 9.372459479193e+00 1.462754051805e+01 6.833356874077e+00 - 19.1667 1.081617088116e+01 1.081332896013e+01 1.318667103814e+01 7.201583440738e+00 - 19.5 1.189712387179e+01 1.189412326748e+01 1.210587673167e+01 7.457991576092e+00 - 19.8333 1.247719247117e+01 1.247409469920e+01 1.152590530045e+01 7.589588377780e+00 + 0.166667 2.173421305774e+01 2.173403386063e+01 2.265966136452e+00 2.269804666231e+01 + 0.5 1.732877229921e+01 1.732818349806e+01 6.671816494265e+00 2.011806700218e+01 9.000885942481e-08 3.998622946025e-05 + 0.833333 1.328083118520e+01 1.327977600374e+01 1.072022398538e+01 1.760855984595e+01 + 1.16667 9.764783867926e+00 9.763295612551e+00 1.423670437487e+01 1.521226338238e+01 + 1.5 6.876979953496e+00 6.875203671273e+00 1.712479631572e+01 1.296594983169e+01 1.040652470932e-06 5.706265744738e-05 + 1.83333 4.633445178267e+00 4.631592230628e+00 1.936840775690e+01 1.089878644681e+01 + 2.16667 2.983957613890e+00 2.982233846716e+00 2.101776614196e+01 9.031332911150e+00 + 2.5 1.835670035543e+00 1.834219344984e+00 2.216578064517e+01 7.375218041922e+00 3.202792299458e-06 1.617537638523e-05 + 2.83333 1.078309641974e+00 1.077193213980e+00 2.292280677773e+01 5.933464823767e+00 + 3.16667 6.047271174932e-01 6.039348411906e-01 2.339606515204e+01 4.701369003156e+00 + 3.5 3.237687664602e-01 3.232468743679e-01 2.367675312023e+01 3.667790507028e+00 5.217031892212e-06 -3.366526094922e-06 + 3.83333 1.655091654568e-01 1.651883636811e-01 2.383481163211e+01 2.816693051604e+00 + 4.16667 8.080184013938e-02 8.061704168687e-02 2.391938295510e+01 2.128765894911e+00 + 4.5 3.768529740313e-02 3.758518697825e-02 2.396241481061e+01 1.582979760724e+00 5.639342372492e-06 -2.476867168244e-06 + 4.83333 1.679748180460e-02 1.674633341902e-02 2.398325366481e+01 1.157961083143e+00 + 5.16667 7.158658677381e-03 7.133952391644e-03 2.399286604633e+01 8.331082803354e-01 + 5.5 2.918406918575e-03 2.907101078212e-03 2.399709289802e+01 5.894142528789e-01 4.455972089512e-06 -4.912290758281e-07 + 5.83333 1.138704484326e-03 1.133794318823e-03 2.399886620505e+01 4.099953343114e-01 + 6.16667 4.254614095066e-04 4.234343206137e-04 2.399957656525e+01 2.803548753976e-01 + 6.5 1.523110829998e-04 1.515144739607e-04 2.399984848524e+01 1.884278508358e-01 2.697942283073e-06 -4.814123673548e-08 + 6.83333 5.227158937090e-05 5.197321123247e-05 2.399994802660e+01 1.244614394110e-01 + 7.16667 1.720693832796e-05 1.710029263504e-05 2.399998289958e+01 8.078687428981e-02 + 7.5 5.436060938942e-06 5.399649415898e-06 2.399999460027e+01 5.153218579103e-02 1.262649985252e-06 -2.664487783141e-09 + 7.83333 1.649088196500e-06 1.637200882995e-06 2.399999836275e+01 3.231618817631e-02 + 8.16667 4.806358161413e-07 4.769214798035e-07 2.399999952305e+01 1.995341519604e-02 + 8.5 1.346685591699e-07 1.335566766312e-07 2.399999986642e+01 1.218943044882e-02 2.986653145795e-07 -8.898265268248e-11 + 8.83333 3.634651795932e-08 3.602679113545e-08 2.399999996396e+01 7.477181955864e-03 + 9.16667 9.688299811041e-09 9.597461159246e-09 2.399999999039e+01 4.798414843917e-03 + 9.5 3.521245211305e-09 3.486098607351e-09 2.399999999651e+01 3.529705336616e-03 + 9.83333 5.266729327194e-09 5.215572366278e-09 2.399999999478e+01 3.350197792357e-03 + 10.1667 1.826814043527e-08 1.810189577526e-08 2.399999998189e+01 4.187174719459e-03 + 10.5 6.734157443551e-08 6.676539459886e-08 2.399999993322e+01 6.195634766519e-03 + 10.8333 2.402572726978e-07 2.383277400061e-07 2.399999976166e+01 9.768547401637e-03 + 11.1667 8.242629303642e-07 8.180679126566e-07 2.399999918191e+01 1.557488011882e-02 + 11.5 2.716856872536e-06 2.697812059732e-06 2.399999730215e+01 2.462240289906e-02 + 11.8333 8.598766108992e-06 8.542755015543e-06 2.399999145719e+01 3.834130428025e-02 + 12.1667 2.611765409409e-05 2.596020332213e-05 2.399997403971e+01 5.868256892109e-02 + 12.5 7.608821448518e-05 7.566556929143e-05 2.399992433429e+01 8.822180939210e-02 + 12.8333 2.124903883306e-04 2.114081368791e-04 2.399978859166e+01 1.302549940497e-01 + 13.1667 5.685276981636e-04 5.658869124423e-04 2.399943411280e+01 1.888677435760e-01 + 13.5 1.456485428304e-03 1.450352184743e-03 2.399854964740e+01 2.689553860821e-01 + 13.8333 3.570725868134e-03 3.557184501357e-03 2.399644281492e+01 3.761678784769e-01 + 14.1667 8.372605104386e-03 8.344221152564e-03 2.399165577806e+01 5.167533414733e-01 + 14.5 1.876649315304e-02 1.871009047208e-02 2.398128990847e+01 6.972776485204e-01 + 14.8333 4.018818935056e-02 4.008209924661e-02 2.395991789935e+01 9.242063091066e-01 + 15.1667 8.218523045868e-02 8.199665482934e-02 2.391800334337e+01 1.203349228728e+00 + 15.5 1.604251797218e-01 1.601089608909e-01 2.383989103683e+01 1.539188295218e+00 + 15.8333 2.987842293275e-01 2.982848391787e-01 2.370171515802e+01 1.934130436525e+00 + 16.1667 5.307560799654e-01 5.300144684670e-01 2.346998552817e+01 2.387751903539e+00 + 16.5 8.989923689127e-01 8.979578317801e-01 2.310204216431e+01 2.896119155486e+00 + 16.8333 1.451577886699e+00 1.450222207355e+00 2.254977778824e+01 3.451283515303e+00 + 17.1667 2.233968006248e+00 2.232295880177e+00 2.176770411504e+01 4.041046701772e+00 + 17.5 3.276605593426e+00 3.274654206826e+00 2.072534578822e+01 4.649079665430e+00 + 17.8333 4.580028375190e+00 4.577852592597e+00 1.942214740254e+01 5.255447192243e+00 + 18.1667 6.101260771518e+00 6.098908811274e+00 1.790109118428e+01 5.837547513122e+00 + 18.5 7.746551131291e+00 7.744044346459e+00 1.625595564982e+01 6.371424480909e+00 + 18.8333 9.375127720227e+00 9.372459479193e+00 1.462754051805e+01 6.833356874077e+00 + 19.1667 1.081617087842e+01 1.081332896013e+01 1.318667103814e+01 7.201583440738e+00 + 19.5 1.189712386893e+01 1.189412326748e+01 1.210587673167e+01 7.457991576092e+00 + 19.8333 1.247719246828e+01 1.247409469920e+01 1.152590530045e+01 7.589588377780e+00 -99 2.500000000000e+01 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 diff --git a/examples/ex12b b/examples/ex12b index f7f3af99..0130b7dc 100644 --- a/examples/ex12b +++ b/examples/ex12b @@ -1,4 +1,4 @@ -#DATABASE ../database/phreeqc.dat +DATABASE ../database/phreeqc.dat #PRINT # -reset false @@ -15,14 +15,16 @@ EXCHANGE 1-31 KX 0.048 END TRANSPORT - -cells 30 + -cells 10 -lengths 0.3333333 -shifts 1 -flow_direction diffusion -boundary_conditions constant closed -thermal_diffusion 3.0 # heat is retarded equal to Na -diffusion_coefficient 0.3e-9 # m^2/s - -time_step 1.0e+10 1 # max_mixf = 2/9 = Dt_max * De / Dx^2. Dt_max = 8.2140e+07 seconds, Number of mixes = 1e10 / 8.214e7 = 122 +# -multi_d true 0.3e-9 1 0.05 1.0 false +# -implicit true + -time_step 1.0e+9 1 # max_mixf = 2/9 = Dt_max * De / Dx^2. Dt_max = 8.2140e+07 seconds, Number of mixes = 1e10 / 8.214e7 = 122 USER_GRAPH 1 Example 12b -headings Tradit:Na Cl TC Analyt # -headings TC Analyt @@ -57,18 +59,35 @@ USER_GRAPH 1 Example 12b -end END -Reinitialize the column... +# Reinitialize the column... copy cell 31 1-30 END TRANSPORT - -multi_d true 0.3e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout - -thermal_diffusion 3.0 1.33e-9 # efine the diffusion coefficient for heat to be equal to Na - -implicit true 3 -12 # max_mixf = 3, min_dif_LM = -12 +-shifts 1 + -multi_d true 2.33e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout + -thermal_diffusion 3.0 2.33e-9 # define the diffusion coefficient for heat equal to Na USER_GRAPH 1 Example 12b - -headings MultiD&Visc&Implicit:Na Cl TC + -headings MultiD&Visc:Na Cl TC -start 10 x = DIST 20 PLOT_XY x, TOT("Na")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Red 30 PLOT_XY x, TOT("Cl")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Green - 40 PLOT_XY x, TC, symbol = Circle, line_width = 0, symbol_size = 8, y-axis 2, color = Blue + 40 PLOT_XY x, TC, symbol = Circle, line_width = 0, symbol_size = 5, y-axis 2, color = Blue +END +# Reinitialize the column... +copy cell 31 1-30 +USER_GRAPH 1; -connect_simulations false +END +TRANSPORT +-shifts 1 + -multi_d true 2.33e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout + -thermal_diffusion 3.0 2.33e-9 # define the diffusion coefficient for heat equal to Na + -implicit true 3 -12 # max_mixf = 3, min_dif_LM = -12 +USER_GRAPH 1 Example 12b + -headings MultiD&Visc&Implicit:Na Cl TC + -start + 10 x = DIST + 20 PLOT_XY x, TOT("Na")*1000, symbol = XCross, line_width = 0, symbol_size = 9, color = Red + 30 PLOT_XY x, TOT("Cl")*1000, symbol = XCross, line_width = 0, symbol_size = 9, color = Green + 40 PLOT_XY x, TC, symbol = XCross, line_width = 0, symbol_size = 9, y-axis 2, color = Blue END diff --git a/examples/ex12b.out b/examples/ex12b.out index 00f8b1d0..291017e7 100644 --- a/examples/ex12b.out +++ b/examples/ex12b.out @@ -118,10 +118,10 @@ Initial solution 1. 24 mM KBr, initial temp 0C pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -249,16 +249,16 @@ Reading input data for simulation 2. ------------------------------------ TRANSPORT - cells 30 + cells 10 lengths 0.3333333 shifts 1 flow_direction diffusion boundary_conditions constant closed thermal_diffusion 3.0 # heat is retarded equal to Na diffusion_coefficient 0.3e-9 # m^2/s - time_step 1.0e+10 1 # max_mixf = 2/9 = Dt_max * De / Dx^2. Dt_max = 8.2140e+07 seconds, Number of mixes = 1e10 / 8.214e7 = 122 + time_step 1.0e+9 1 # max_mixf = 2/9 = Dt_max * De / Dx^2. Dt_max = 8.2140e+07 seconds, Number of mixes = 1e10 / 8.214e7 = 122 USER_GRAPH 1 Example 12b -WARNING: Cell-lengths were read for 1 cells. Last value is used till cell 30. +WARNING: Cell-lengths were read for 1 cells. Last value is used till cell 10. WARNING: No dispersivities were read; disp = 0 assumed. -headings Tradit:Na Cl TC Analyt -chart_title "Compare traditional and multicomponent diffusive transport" @@ -376,10 +376,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -442,10 +442,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -508,10 +508,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -574,10 +574,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -640,10 +640,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -706,10 +706,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -772,10 +772,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -838,10 +838,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -904,10 +904,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -970,10 +970,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -1013,41 +1013,61 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 11. 24 mM KBr, initial temp 0C -Using exchange 11. +WARNING: +Calculating transport: 10 (mobile) cells, 1 shifts, 13 mixruns... ------------------------------Exchange composition------------------------------ -X 4.800e-02 mol +Transport step 1. Mixrun 1. - Equiv- Equivalent Log - Species Moles alents Fraction Gamma +Transport step 1. Mixrun 2. - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 +Transport step 1. Mixrun 3. + +Transport step 1. Mixrun 4. + +Transport step 1. Mixrun 5. + +Transport step 1. Mixrun 6. + +Transport step 1. Mixrun 7. + +Transport step 1. Mixrun 8. + +Transport step 1. Mixrun 9. + +Transport step 1. Mixrun 10. + +Transport step 1. Mixrun 11. + +Transport step 1. Mixrun 12. + +Transport step 1. Mixrun 13. + +Using solution 0. Solution after simulation 2. -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Cl 2.400e-02 2.400e-02 + Na 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pe = 4.000 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 24°C) = 2687 + Density (g/cm³) = 0.99829 + Volume (L) = 1.00312 + Viscosity (mPa s) = 0.91317 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -4.679e-09 + Temperature (°C) = 24.00 + Electrical balance (eq) = 4.679e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (143 overall) + Iterations = 0 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1056,31 +1076,39 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 + OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 +Cl 2.400e-02 + Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 + HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) +H(0) 1.422e-25 + H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 +Na 2.400e-02 + Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(297 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -22.05 -25.15 -3.10 H2 + H2O(g) -1.53 -0.00 1.53 H2O + Halite -4.94 -3.37 1.57 NaCl + O2(g) -39.53 -42.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 12. 24 mM KBr, initial temp 0C -Using exchange 12. +Using mix 1. +Using exchange 1. Exchange assemblage after simulation 2. + +Mixture 1. + + 4.154e-01 Solution 0 Solution after simulation 2. + 3.769e-01 Solution 1 Solution after simulation 2. + 2.077e-01 Solution 2 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1089,31 +1117,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + NaX 3.418e-02 3.418e-02 7.121e-01 -0.063 + KX 1.382e-02 1.382e-02 2.879e-01 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Br 4.098e-03 4.098e-03 + Cl 1.990e-02 1.990e-02 + K 7.678e-03 7.678e-03 + Na 1.632e-02 1.632e-02 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pH = 7.086 Charge balance + pe = 12.300 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 16°C) = 2435 + Density (g/cm³) = 1.00009 + Volume (L) = 1.00162 + Viscosity (mPa s) = 1.09808 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -2.086e-08 + Temperature (°C) = 16.41 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.086e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (156 overall) + Iterations = 9 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1122,31 +1154,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 + H+ 9.278e-08 8.203e-08 -7.033 -7.086 -0.053 0.00 + OH- 7.242e-08 6.218e-08 -7.140 -7.206 -0.066 -4.40 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 +Br 4.098e-03 + Br- 4.098e-03 3.507e-03 -2.387 -2.455 -0.068 24.19 +Cl 1.990e-02 + Cl- 1.990e-02 1.712e-02 -1.701 -1.766 -0.065 17.86 + HCl 4.984e-10 5.103e-10 -9.302 -9.292 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H2 0.000e+00 0.000e+00 -41.887 -41.885 0.002 28.62 +K 7.678e-03 + K+ 7.678e-03 6.599e-03 -2.115 -2.181 -0.066 8.79 +Na 1.632e-02 + Na+ 1.632e-02 1.413e-02 -1.787 -1.850 -0.063 -1.81 +O(0) 6.791e-12 + O2 3.395e-12 3.414e-12 -11.469 -11.467 0.002 29.65 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(289 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -38.81 -41.88 -3.08 H2 + H2O(g) -1.73 -0.00 1.73 H2O + Halite -5.18 -3.62 1.56 NaCl + O2(g) -8.64 -11.47 -2.82 O2 + Sylvite -4.80 -3.95 0.86 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 13. 24 mM KBr, initial temp 0C -Using exchange 13. +Using mix 2. +Using exchange 2. Exchange assemblage after simulation 2. + +Mixture 2. + + 2.077e-01 Solution 1 Solution after simulation 2. + 5.846e-01 Solution 2 Solution after simulation 2. + 2.077e-01 Solution 3 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1155,31 +1200,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 3.576e-02 3.576e-02 7.450e-01 0.000 + NaX 1.224e-02 1.224e-02 2.550e-01 -0.062 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Br 1.158e-02 1.158e-02 + Cl 1.242e-02 1.242e-02 + K 1.854e-02 1.854e-02 + Na 5.464e-03 5.464e-03 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pH = 7.138 Charge balance + pe = 13.226 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 6°C) = 2040 + Density (g/cm³) = 1.00154 + Volume (L) = 1.00067 + Viscosity (mPa s) = 1.47979 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -5.042e-08 + Temperature (°C) = 5.80 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.042e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (169 overall) + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1188,31 +1237,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 8.216e-08 7.276e-08 -7.085 -7.138 -0.053 0.00 + OH- 3.204e-08 2.757e-08 -7.494 -7.560 -0.065 -5.30 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 1.158e-02 + Br- 1.158e-02 9.936e-03 -1.936 -2.003 -0.067 23.24 +Cl 1.242e-02 + Cl- 1.242e-02 1.071e-02 -1.906 -1.970 -0.064 17.14 + HCl 2.953e-10 3.023e-10 -9.530 -9.520 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H2 0.000e+00 0.000e+00 -43.792 -43.790 0.002 28.63 +K 1.854e-02 + K+ 1.854e-02 1.597e-02 -1.732 -1.797 -0.065 8.25 +Na 5.464e-03 + Na+ 5.464e-03 4.742e-03 -2.262 -2.324 -0.062 -2.69 +O(0) 7.479e-12 + O2 3.739e-12 3.760e-12 -11.427 -11.425 0.002 28.40 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(278 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -40.75 -43.79 -3.04 H2 + H2O(g) -2.03 -0.00 2.03 H2O + Halite -5.85 -4.29 1.55 NaCl + O2(g) -8.70 -11.42 -2.72 O2 + Sylvite -4.56 -3.77 0.80 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 14. 24 mM KBr, initial temp 0C -Using exchange 14. +Using mix 3. +Using exchange 3. Exchange assemblage after simulation 2. + +Mixture 3. + + 2.077e-01 Solution 2 Solution after simulation 2. + 5.846e-01 Solution 3 Solution after simulation 2. + 2.077e-01 Solution 4 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1221,31 +1283,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.514e-02 4.514e-02 9.405e-01 0.000 + NaX 2.855e-03 2.855e-03 5.948e-02 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Br 1.728e-02 1.728e-02 + Cl 6.719e-03 6.719e-03 + K 2.276e-02 2.276e-02 + Na 1.241e-03 1.241e-03 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pH = 7.090 Charge balance + pe = 13.856 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 1°C) = 1862 + Density (g/cm³) = 1.00177 + Volume (L) = 1.00076 + Viscosity (mPa s) = 1.70216 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -7.292e-08 + Temperature (°C) = 1.44 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.292e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (182 overall) + Iterations = 4 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1254,31 +1320,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 9.168e-08 8.125e-08 -7.038 -7.090 -0.052 0.00 + OH- 1.895e-08 1.632e-08 -7.722 -7.787 -0.065 -5.84 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 1.728e-02 + Br- 1.728e-02 1.484e-02 -1.762 -1.829 -0.066 22.70 +Cl 6.719e-03 + Cl- 6.719e-03 5.798e-03 -2.173 -2.237 -0.064 16.70 + HCl 1.835e-10 1.879e-10 -9.736 -9.726 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H2 0.000e+00 0.000e+00 -44.935 -44.932 0.002 28.64 +K 2.276e-02 + K+ 2.276e-02 1.962e-02 -1.643 -1.707 -0.064 7.95 +Na 1.241e-03 + Na+ 1.241e-03 1.078e-03 -2.906 -2.967 -0.061 -3.16 +O(0) 3.370e-11 + O2 1.685e-11 1.694e-11 -10.773 -10.771 0.002 27.74 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -41.91 -44.93 -3.02 H2 + H2O(g) -2.17 -0.00 2.17 H2O + Halite -6.75 -5.20 1.55 NaCl + O2(g) -8.10 -10.77 -2.68 O2 + Sylvite -4.72 -3.94 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 15. 24 mM KBr, initial temp 0C -Using exchange 15. +Using mix 4. +Using exchange 4. Exchange assemblage after simulation 2. + +Mixture 4. + + 2.077e-01 Solution 3 Solution after simulation 2. + 5.846e-01 Solution 4 Solution after simulation 2. + 2.077e-01 Solution 5 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1287,31 +1366,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.753e-02 4.753e-02 9.902e-01 0.000 + NaX 4.680e-04 4.680e-04 9.751e-03 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Br 2.089e-02 2.089e-02 + Cl 3.110e-03 3.110e-03 + K 2.380e-02 2.380e-02 + Na 2.021e-04 2.021e-04 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pH = 7.043 Charge balance + pe = 14.257 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1813 + Density (g/cm³) = 1.00186 + Volume (L) = 1.00085 + Viscosity (mPa s) = 1.77161 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -8.717e-08 + Temperature (°C) = 0.26 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.717e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (195 overall) + Iterations = 7 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1320,31 +1403,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 1.022e-07 9.060e-08 -6.991 -7.043 -0.052 0.00 + OH- 1.513e-08 1.304e-08 -7.820 -7.885 -0.065 -6.01 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 2.089e-02 + Br- 2.089e-02 1.794e-02 -1.680 -1.746 -0.066 22.53 +Cl 3.110e-03 + Cl- 3.110e-03 2.684e-03 -2.507 -2.571 -0.064 16.57 + HCl 9.542e-11 9.769e-11 -10.020 -10.010 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H2 0.000e+00 0.000e+00 -45.635 -45.633 0.002 28.64 +K 2.380e-02 + K+ 2.380e-02 2.052e-02 -1.623 -1.688 -0.064 7.86 +Na 2.021e-04 + Na+ 2.021e-04 1.755e-04 -3.694 -3.756 -0.061 -3.30 +O(0) 3.001e-10 + O2 1.501e-10 1.509e-10 -9.824 -9.821 0.002 27.53 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -42.62 -45.63 -3.01 H2 + H2O(g) -2.20 -0.00 2.20 H2O + Halite -7.88 -6.33 1.55 NaCl + O2(g) -7.16 -9.82 -2.66 O2 + Sylvite -5.02 -4.26 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 16. 24 mM KBr, initial temp 0C -Using exchange 16. +Using mix 5. +Using exchange 5. Exchange assemblage after simulation 2. + +Mixture 5. + + 2.077e-01 Solution 4 Solution after simulation 2. + 5.846e-01 Solution 5 Solution after simulation 2. + 2.077e-01 Solution 6 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1353,31 +1449,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.794e-02 4.794e-02 9.988e-01 0.000 + NaX 5.659e-05 5.659e-05 1.179e-03 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Br 2.278e-02 2.278e-02 + Cl 1.216e-03 1.216e-03 + K 2.398e-02 2.398e-02 + Na 2.441e-05 2.441e-05 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pH = 7.017 Charge balance + pe = 14.153 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00192 + Volume (L) = 1.00088 + Viscosity (mPa s) = 1.78531 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -9.465e-08 + Temperature (°C) = 0.04 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.465e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (208 overall) + Iterations = 14 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1386,31 +1486,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 1.085e-07 9.622e-08 -6.964 -7.017 -0.052 0.00 + OH- 1.393e-08 1.201e-08 -7.856 -7.921 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 2.278e-02 + Br- 2.278e-02 1.957e-02 -1.642 -1.708 -0.066 22.49 +Cl 1.216e-03 + Cl- 1.216e-03 1.049e-03 -2.915 -2.979 -0.064 16.54 + HCl 3.967e-11 4.061e-11 -10.402 -10.391 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H2 0.000e+00 0.000e+00 -45.374 -45.371 0.002 28.65 +K 2.398e-02 + K+ 2.398e-02 2.068e-02 -1.620 -1.685 -0.064 7.84 +Na 2.441e-05 + Na+ 2.441e-05 2.120e-05 -4.613 -4.674 -0.061 -3.33 +O(0) 7.373e-11 + O2 3.687e-11 3.707e-11 -10.433 -10.431 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -42.36 -45.37 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -9.20 -7.65 1.55 NaCl + O2(g) -7.77 -10.43 -2.66 O2 + Sylvite -5.43 -4.66 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 17. 24 mM KBr, initial temp 0C -Using exchange 17. +Using mix 6. +Using exchange 6. Exchange assemblage after simulation 2. + +Mixture 6. + + 2.077e-01 Solution 5 Solution after simulation 2. + 5.846e-01 Solution 6 Solution after simulation 2. + 2.077e-01 Solution 7 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1419,31 +1532,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.799e-02 4.799e-02 9.999e-01 0.000 + NaX 5.158e-06 5.158e-06 1.074e-04 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 + Br 2.360e-02 2.360e-02 + Cl 3.957e-04 3.957e-04 K 2.400e-02 2.400e-02 + Na 2.224e-06 2.224e-06 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium + pH = 7.005 Charge balance + pe = 13.211 Adjusted to redox equilibrium Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 + Density (g/cm³) = 1.00195 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78721 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 + Total alkalinity (eq/kg) = -9.789e-08 Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Electrical balance (eq) = 9.787e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (221 overall) + Iterations = 14 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1452,31 +1568,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 1.114e-07 9.876e-08 -6.953 -7.005 -0.052 0.00 + OH- 1.353e-08 1.166e-08 -7.869 -7.933 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 2.360e-02 + Br- 2.360e-02 2.027e-02 -1.627 -1.693 -0.066 22.49 +Cl 3.957e-04 + Cl- 3.957e-04 3.416e-04 -3.403 -3.466 -0.064 16.53 + HCl 1.326e-11 1.357e-11 -10.878 -10.867 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 + H2 0.000e+00 0.000e+00 -43.467 -43.464 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 +Na 2.224e-06 + Na+ 2.224e-06 1.932e-06 -5.653 -5.714 -0.061 -3.34 +O(0) 1.099e-14 + O2 5.495e-15 5.525e-15 -14.260 -14.258 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -40.45 -43.46 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -10.73 -9.18 1.55 NaCl + O2(g) -11.60 -14.26 -2.66 O2 + Sylvite -5.91 -5.15 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 18. 24 mM KBr, initial temp 0C -Using exchange 18. +Using mix 7. +Using exchange 7. Exchange assemblage after simulation 2. + +Mixture 7. + + 2.077e-01 Solution 6 Solution after simulation 2. + 5.846e-01 Solution 7 Solution after simulation 2. + 2.077e-01 Solution 8 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1485,31 +1614,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 3.567e-07 3.567e-07 7.432e-06 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 + Br 2.389e-02 2.389e-02 + Cl 1.056e-04 1.056e-04 K 2.400e-02 2.400e-02 + Na 1.538e-07 1.538e-07 ----------------------------Description of solution---------------------------- - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium + pH = 7.001 Charge balance + pe = 13.764 Adjusted to redox equilibrium Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 + Density (g/cm³) = 1.00196 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78739 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 + Total alkalinity (eq/kg) = -9.903e-08 Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Electrical balance (eq) = 9.900e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (234 overall) + Iterations = 8 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1518,31 +1650,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 1.124e-07 9.967e-08 -6.949 -7.001 -0.052 0.00 + OH- 1.341e-08 1.155e-08 -7.873 -7.937 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 2.389e-02 + Br- 2.389e-02 2.052e-02 -1.622 -1.688 -0.066 22.49 +Cl 1.056e-04 + Cl- 1.056e-04 9.118e-05 -3.976 -4.040 -0.064 16.53 + HCl 3.571e-12 3.656e-12 -11.447 -11.437 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 + H2 0.000e+00 0.000e+00 -44.566 -44.563 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 +Na 1.538e-07 + Na+ 1.538e-07 1.336e-07 -6.813 -6.874 -0.061 -3.34 +O(0) 1.729e-12 + O2 8.646e-13 8.694e-13 -12.063 -12.061 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -41.55 -44.56 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -12.46 -10.91 1.55 NaCl + O2(g) -9.40 -12.06 -2.66 O2 + Sylvite -6.49 -5.72 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 19. 24 mM KBr, initial temp 0C -Using exchange 19. +Using mix 8. +Using exchange 8. Exchange assemblage after simulation 2. + +Mixture 8. + + 2.077e-01 Solution 7 Solution after simulation 2. + 5.846e-01 Solution 8 Solution after simulation 2. + 2.077e-01 Solution 9 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1551,31 +1696,35 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 1.866e-08 1.866e-08 3.887e-07 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 + Br 2.398e-02 2.398e-02 + Cl 2.266e-05 2.266e-05 K 2.400e-02 2.400e-02 + Na 8.045e-09 8.045e-09 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + pe = 13.704 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 + Total alkalinity (eq/kg) = -9.936e-08 Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.932e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (247 overall) + Iterations = 5 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1584,31 +1733,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H+ 1.127e-07 9.993e-08 -6.948 -7.000 -0.052 0.00 + OH- 1.337e-08 1.152e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Br 2.398e-02 + Br- 2.398e-02 2.059e-02 -1.620 -1.686 -0.066 22.49 +Cl 2.266e-05 + Cl- 2.266e-05 1.956e-05 -4.645 -4.709 -0.064 16.53 + HCl 7.682e-13 7.865e-13 -12.115 -12.104 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 + H2 0.000e+00 0.000e+00 -44.444 -44.441 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 +Na 8.045e-09 + Na+ 8.045e-09 6.989e-09 -8.094 -8.156 -0.061 -3.34 +O(0) 9.863e-13 + O2 4.932e-13 4.959e-13 -12.307 -12.305 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -41.43 -44.44 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -14.41 -12.86 1.55 NaCl + O2(g) -9.65 -12.30 -2.66 O2 + Sylvite -7.16 -6.39 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 20. 24 mM KBr, initial temp 0C -Using exchange 20. +Using mix 9. +Using exchange 9. Exchange assemblage after simulation 2. + +Mixture 9. + + 2.077e-01 Solution 8 Solution after simulation 2. + 5.846e-01 Solution 9 Solution after simulation 2. + 2.077e-01 Solution 10 Solution after simulation 2. -----------------------------Exchange composition------------------------------ @@ -1617,31 +1779,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 7.270e-10 7.270e-10 1.515e-08 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles Br 2.400e-02 2.400e-02 + Cl 3.808e-06 3.808e-06 K 2.400e-02 2.400e-02 + Na 3.135e-10 3.135e-10 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + pe = 13.610 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 + Total alkalinity (eq/kg) = -9.943e-08 Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Electrical balance (eq) = 9.940e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (260 overall) + Iterations = 6 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1650,31 +1815,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + H+ 1.128e-07 9.999e-08 -6.948 -7.000 -0.052 0.00 OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 Br 2.400e-02 Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Cl 3.808e-06 + Cl- 3.808e-06 3.287e-06 -5.419 -5.483 -0.064 16.53 + HCl 1.291e-13 1.322e-13 -12.889 -12.879 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 + H2 0.000e+00 0.000e+00 -44.255 -44.252 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 +Na 3.135e-10 + Na+ 3.135e-10 2.723e-10 -9.504 -9.565 -0.061 -3.34 +O(0) 4.131e-13 + O2 2.065e-13 2.077e-13 -12.685 -12.683 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -41.24 -44.25 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -16.60 -15.05 1.55 NaCl + O2(g) -10.02 -12.68 -2.66 O2 + Sylvite -7.93 -7.17 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 21. 24 mM KBr, initial temp 0C -Using exchange 21. +Using mix 10. +Using exchange 10. Exchange assemblage after simulation 2. + +Mixture 10. + + 2.077e-01 Solution 9 Solution after simulation 2. + 7.923e-01 Solution 10 Solution after simulation 2. + 0.000e+00 Solution 11 24 mM KBr, initial temp 0C -----------------------------Exchange composition------------------------------ @@ -1683,31 +1861,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 2.088e-11 2.088e-11 4.350e-10 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles Br 2.400e-02 2.400e-02 + Cl 5.237e-07 5.237e-07 K 2.400e-02 2.400e-02 + Na 9.004e-12 9.004e-12 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + pe = 13.522 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Electrical balance (eq) = 9.943e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (273 overall) + Iterations = 5 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1721,59 +1902,99 @@ X 4.800e-02 mol H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 Br 2.400e-02 Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +Cl 5.237e-07 + Cl- 5.237e-07 4.521e-07 -6.281 -6.345 -0.064 16.53 + HCl 1.777e-14 1.819e-14 -13.750 -13.740 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 + H2 0.000e+00 0.000e+00 -44.078 -44.076 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 +Na 9.004e-12 + Na+ 9.004e-12 7.822e-12 -11.046 -11.107 -0.061 -3.34 +O(0) 1.831e-13 + O2 9.154e-14 9.204e-14 -13.038 -13.036 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 + H2(g) -41.06 -44.08 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + Halite -19.00 -17.45 1.55 NaCl + O2(g) -10.38 -13.04 -2.66 O2 + Sylvite -8.79 -8.03 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 22. 24 mM KBr, initial temp 0C -Using exchange 22. +------------------ +End of simulation. +------------------ ------------------------------Exchange composition------------------------------ +------------------------------------ +Reading input data for simulation 3. +------------------------------------ -X 4.800e-02 mol + copy cell 31 1-30 + END +------------------ +End of simulation. +------------------ - Equiv- Equivalent Log - Species Moles alents Fraction Gamma +------------------------------------ +Reading input data for simulation 4. +------------------------------------ - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + TRANSPORT + shifts 1 + multi_d true 2.33e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout + thermal_diffusion 3.0 2.33e-9 # define the diffusion coefficient for heat equal to Na + USER_GRAPH 1 Example 12b +WARNING: No porosities were read; used the value 1.00e+00 from -multi_D. +------------------------------------ +Column data retained from former run +------------------------------------ + + -headings MultiD&Visc:Na Cl TC + -start + 10 x = DIST + 20 PLOT_XY x, TOT("Na")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Red + 30 PLOT_XY x, TOT("Cl")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Green + 40 PLOT_XY x, TC, symbol = Circle, line_width = 0, symbol_size = 5, y-axis 2, color = Blue + END +------------------------------------ +Beginning of transport calculations. +------------------------------------ + +------------------------------- +Equilibrating initial solutions +------------------------------- + +Using solution 0. Solution after simulation 2. -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 + Cl 2.400e-02 2.400e-02 + Na 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + pe = 4.000 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 24°C) = 2687 + Density (g/cm³) = 0.99829 + Volume (L) = 1.00312 + Viscosity (mPa s) = 0.91317 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -4.679e-09 + Temperature (°C) = 24.00 + Electrical balance (eq) = 4.679e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (286 overall) + Iterations = 0 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1782,31 +2003,33 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 + H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 + OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 +Cl 2.400e-02 + Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 + HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) +H(0) 1.422e-25 + H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 +Na 2.400e-02 + Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(297 K, 1 atm) - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 + H2(g) -22.05 -25.15 -3.10 H2 + H2O(g) -1.53 -0.00 1.53 H2O + Halite -4.94 -3.37 1.57 NaCl + O2(g) -39.53 -42.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 23. 24 mM KBr, initial temp 0C -Using exchange 23. +Using solution 1. 24 mM KBr, initial temp 0C +Using exchange 1. -----------------------------Exchange composition------------------------------ @@ -1828,10 +2051,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -1839,7 +2062,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (299 overall) + Iterations = 13 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1871,8 +2094,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 24. 24 mM KBr, initial temp 0C -Using exchange 24. +Using solution 2. 24 mM KBr, initial temp 0C +Using exchange 2. -----------------------------Exchange composition------------------------------ @@ -1894,10 +2117,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -1905,7 +2128,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (312 overall) + Iterations = 13 (26 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -1937,8 +2160,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 25. 24 mM KBr, initial temp 0C -Using exchange 25. +Using solution 3. 24 mM KBr, initial temp 0C +Using exchange 3. -----------------------------Exchange composition------------------------------ @@ -1960,10 +2183,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -1971,7 +2194,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (325 overall) + Iterations = 13 (39 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2003,8 +2226,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 26. 24 mM KBr, initial temp 0C -Using exchange 26. +Using solution 4. 24 mM KBr, initial temp 0C +Using exchange 4. -----------------------------Exchange composition------------------------------ @@ -2026,10 +2249,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -2037,7 +2260,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (338 overall) + Iterations = 13 (52 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2069,8 +2292,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 27. 24 mM KBr, initial temp 0C -Using exchange 27. +Using solution 5. 24 mM KBr, initial temp 0C +Using exchange 5. -----------------------------Exchange composition------------------------------ @@ -2092,10 +2315,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -2103,7 +2326,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (351 overall) + Iterations = 13 (65 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2135,8 +2358,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 28. 24 mM KBr, initial temp 0C -Using exchange 28. +Using solution 6. 24 mM KBr, initial temp 0C +Using exchange 6. -----------------------------Exchange composition------------------------------ @@ -2158,10 +2381,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -2169,7 +2392,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (364 overall) + Iterations = 13 (78 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2201,8 +2424,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 29. 24 mM KBr, initial temp 0C -Using exchange 29. +Using solution 7. 24 mM KBr, initial temp 0C +Using exchange 7. -----------------------------Exchange composition------------------------------ @@ -2224,10 +2447,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -2235,7 +2458,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (377 overall) + Iterations = 13 (91 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2267,8 +2490,8 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using solution 30. 24 mM KBr, initial temp 0C -Using exchange 30. +Using solution 8. 24 mM KBr, initial temp 0C +Using exchange 8. -----------------------------Exchange composition------------------------------ @@ -2290,10 +2513,10 @@ X 4.800e-02 mol pH = 7.000 Charge balance pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 + Specific Conductance (µS/cm, 0°C) = 1805 Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -2301,7 +2524,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (390 overall) + Iterations = 13 (104 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2333,256 +2556,145 @@ O(0) 1.011e-15 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -WARNING: -Calculating transport: 30 (mobile) cells, 1 shifts, 122 mixruns... - - -Transport step 1. Mixrun 1. - -Transport step 1. Mixrun 2. - -Transport step 1. Mixrun 3. - -Transport step 1. Mixrun 4. - -Transport step 1. Mixrun 5. - -Transport step 1. Mixrun 6. - -Transport step 1. Mixrun 7. - -Transport step 1. Mixrun 8. - -Transport step 1. Mixrun 9. - -Transport step 1. Mixrun 10. - -Transport step 1. Mixrun 11. - -Transport step 1. Mixrun 12. - -Transport step 1. Mixrun 13. - -Transport step 1. Mixrun 14. - -Transport step 1. Mixrun 15. - -Transport step 1. Mixrun 16. - -Transport step 1. Mixrun 17. - -Transport step 1. Mixrun 18. - -Transport step 1. Mixrun 19. - -Transport step 1. Mixrun 20. - -Transport step 1. Mixrun 21. - -Transport step 1. Mixrun 22. - -Transport step 1. Mixrun 23. - -Transport step 1. Mixrun 24. - -Transport step 1. Mixrun 25. - -Transport step 1. Mixrun 26. - -Transport step 1. Mixrun 27. - -Transport step 1. Mixrun 28. - -Transport step 1. Mixrun 29. - -Transport step 1. Mixrun 30. - -Transport step 1. Mixrun 31. - -Transport step 1. Mixrun 32. - -Transport step 1. Mixrun 33. - -Transport step 1. Mixrun 34. - -Transport step 1. Mixrun 35. - -Transport step 1. Mixrun 36. - -Transport step 1. Mixrun 37. - -Transport step 1. Mixrun 38. - -Transport step 1. Mixrun 39. - -Transport step 1. Mixrun 40. - -Transport step 1. Mixrun 41. - -Transport step 1. Mixrun 42. - -Transport step 1. Mixrun 43. - -Transport step 1. Mixrun 44. - -Transport step 1. Mixrun 45. - -Transport step 1. Mixrun 46. - -Transport step 1. Mixrun 47. - -Transport step 1. Mixrun 48. - -Transport step 1. Mixrun 49. - -Transport step 1. Mixrun 50. - -Transport step 1. Mixrun 51. - -Transport step 1. Mixrun 52. - -Transport step 1. Mixrun 53. - -Transport step 1. Mixrun 54. - -Transport step 1. Mixrun 55. - -Transport step 1. Mixrun 56. - -Transport step 1. Mixrun 57. - -Transport step 1. Mixrun 58. - -Transport step 1. Mixrun 59. - -Transport step 1. Mixrun 60. - -Transport step 1. Mixrun 61. - -Transport step 1. Mixrun 62. - -Transport step 1. Mixrun 63. - -Transport step 1. Mixrun 64. - -Transport step 1. Mixrun 65. - -Transport step 1. Mixrun 66. - -Transport step 1. Mixrun 67. - -Transport step 1. Mixrun 68. - -Transport step 1. Mixrun 69. - -Transport step 1. Mixrun 70. - -Transport step 1. Mixrun 71. - -Transport step 1. Mixrun 72. - -Transport step 1. Mixrun 73. - -Transport step 1. Mixrun 74. - -Transport step 1. Mixrun 75. - -Transport step 1. Mixrun 76. - -Transport step 1. Mixrun 77. - -Transport step 1. Mixrun 78. - -Transport step 1. Mixrun 79. - -Transport step 1. Mixrun 80. - -Transport step 1. Mixrun 81. - -Transport step 1. Mixrun 82. - -Transport step 1. Mixrun 83. - -Transport step 1. Mixrun 84. - -Transport step 1. Mixrun 85. - -Transport step 1. Mixrun 86. +Using solution 9. 24 mM KBr, initial temp 0C +Using exchange 9. -Transport step 1. Mixrun 87. +-----------------------------Exchange composition------------------------------ -Transport step 1. Mixrun 88. +X 4.800e-02 mol -Transport step 1. Mixrun 89. + Equiv- Equivalent Log + Species Moles alents Fraction Gamma -Transport step 1. Mixrun 90. + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -Transport step 1. Mixrun 91. +-----------------------------Solution composition------------------------------ -Transport step 1. Mixrun 92. + Elements Molality Moles -Transport step 1. Mixrun 93. + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 -Transport step 1. Mixrun 94. +----------------------------Description of solution---------------------------- -Transport step 1. Mixrun 95. + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 + Activity of water = 0.999 + Ionic strength (mol/kgw) = 2.400e-02 + Mass of water (kg) = 1.000e+00 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 13 (117 overall) + Total H = 1.110124e+02 + Total O = 5.550622e+01 -Transport step 1. Mixrun 96. +----------------------------Distribution of species---------------------------- -Transport step 1. Mixrun 97. + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol -Transport step 1. Mixrun 98. + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +H(0) 0.000e+00 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 -Transport step 1. Mixrun 99. +------------------------------Saturation indices------------------------------- -Transport step 1. Mixrun 100. + Phase SI** log IAP log K(273 K, 1 atm) -Transport step 1. Mixrun 101. + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 -Transport step 1. Mixrun 102. +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. -Transport step 1. Mixrun 103. +Using solution 10. 24 mM KBr, initial temp 0C +Using exchange 10. -Transport step 1. Mixrun 104. +-----------------------------Exchange composition------------------------------ -Transport step 1. Mixrun 105. +X 4.800e-02 mol -Transport step 1. Mixrun 106. + Equiv- Equivalent Log + Species Moles alents Fraction Gamma -Transport step 1. Mixrun 107. + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -Transport step 1. Mixrun 108. +-----------------------------Solution composition------------------------------ -Transport step 1. Mixrun 109. + Elements Molality Moles -Transport step 1. Mixrun 110. + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 -Transport step 1. Mixrun 111. +----------------------------Description of solution---------------------------- -Transport step 1. Mixrun 112. + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 + Activity of water = 0.999 + Ionic strength (mol/kgw) = 2.400e-02 + Mass of water (kg) = 1.000e+00 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 13 (130 overall) + Total H = 1.110124e+02 + Total O = 5.550622e+01 -Transport step 1. Mixrun 113. +----------------------------Distribution of species---------------------------- -Transport step 1. Mixrun 114. + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol -Transport step 1. Mixrun 115. + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 +H(0) 0.000e+00 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 -Transport step 1. Mixrun 116. +------------------------------Saturation indices------------------------------- -Transport step 1. Mixrun 117. + Phase SI** log IAP log K(273 K, 1 atm) -Transport step 1. Mixrun 118. + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 -Transport step 1. Mixrun 119. +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. -Transport step 1. Mixrun 120. +WARNING: +Calculating transport: 10 (mobile) cells, 1 shifts, 373 mixruns... -Transport step 1. Mixrun 121. -Transport step 1. Mixrun 122. +Transport step 1. Multicomponent diffusion run 373. - 24 1.9917e-09 -Using solution 0. Solution after simulation 2. +Using solution 0. Solution after simulation 4. -----------------------------Solution composition------------------------------ @@ -2640,15 +2752,14 @@ O(0) 0.000e+00 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 2.1734e+01 1.8991e-09 Using mix 1. -Using exchange 1. Exchange assemblage after simulation 2. +Using exchange 1. Exchange assemblage after simulation 4. Mixture 1. - 4.426e-01 Solution 0 Solution after simulation 2. - 3.361e-01 Solution 1 Solution after simulation 2. - 2.213e-01 Solution 2 Solution after simulation 2. + 0.000e+00 Solution 0 Solution after simulation 4. + 1.000e+00 Solution 1 Solution after simulation 4. + 0.000e+00 Solution 2 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -2657,35 +2768,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 4.400e-02 4.400e-02 9.168e-01 -0.063 - KX 3.995e-03 3.995e-03 8.323e-02 0.000 + NaX 4.315e-02 4.315e-02 8.990e-01 -0.063 + KX 4.847e-03 4.847e-03 1.010e-01 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.302e-03 1.302e-03 - Cl 2.270e-02 2.270e-02 - K 2.296e-03 2.296e-03 - Na 2.170e-02 2.170e-02 + Br 1.468e-03 1.468e-03 + Cl 2.205e-02 2.205e-02 + K 2.719e-03 2.719e-03 + Na 2.080e-02 2.080e-02 ----------------------------Description of solution---------------------------- - pH = 7.027 Charge balance - pe = 11.834 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 22°C) = 2615 - Density (g/cm³) = 0.99889 - Volume (L) = 1.00261 - Viscosity (mPa s) = 0.96277 + pH = 7.015 Charge balance + pe = 12.225 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 22°C) = 2564 + Density (g/cm³) = 0.99893 + Volume (L) = 1.00256 + Viscosity (mPa s) = 0.96748 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.352e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.820e-09 - Temperature (°C) = 21.73 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.826e-09 + Total alkalinity (eq/kg) = -1.672e-08 + Temperature (°C) = 21.53 + Electrical balance (eq) = 1.018e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 8 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2694,45 +2804,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.065e-07 9.407e-08 -6.973 -7.027 -0.054 0.00 - OH- 9.732e-08 8.346e-08 -7.012 -7.079 -0.067 -4.11 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 -Br 1.302e-03 - Br- 1.302e-03 1.113e-03 -2.885 -2.954 -0.068 24.51 -Cl 2.270e-02 - Cl- 2.270e-02 1.950e-02 -1.644 -1.710 -0.066 18.08 - HCl 6.299e-10 6.449e-10 -9.201 -9.191 0.010 (0) + H+ 1.092e-07 9.656e-08 -6.962 -7.015 -0.054 0.00 + OH- 9.314e-08 7.998e-08 -7.031 -7.097 -0.066 -4.12 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.05 +Br 1.468e-03 + Br- 1.468e-03 1.257e-03 -2.833 -2.901 -0.068 24.50 +Cl 2.205e-02 + Cl- 2.205e-02 1.897e-02 -1.657 -1.722 -0.065 18.07 + HCl 6.302e-10 6.449e-10 -9.201 -9.191 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.859 -40.857 0.002 28.61 -K 2.296e-03 - K+ 2.296e-03 1.971e-03 -2.639 -2.705 -0.066 9.00 -Na 2.170e-02 - Na+ 2.170e-02 1.877e-02 -1.663 -1.727 -0.063 -1.48 -O(0) 3.678e-12 - O2 1.839e-12 1.849e-12 -11.735 -11.733 0.002 30.14 + H2 0.000e+00 0.000e+00 -41.617 -41.615 0.002 28.61 +K 2.719e-03 + K+ 2.719e-03 2.337e-03 -2.566 -2.631 -0.066 8.99 +Na 2.080e-02 + Na+ 2.080e-02 1.801e-02 -1.682 -1.744 -0.063 -1.50 +O(0) 1.031e-10 + O2 5.156e-11 5.184e-11 -10.288 -10.285 0.002 30.12 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(294 K, 1 atm) - H2(g) -37.76 -40.86 -3.09 H2 + H2(g) -38.52 -41.61 -3.09 H2 H2O(g) -1.59 -0.00 1.59 H2O - Halite -5.00 -3.44 1.57 NaCl - O2(g) -8.87 -11.73 -2.87 O2 - Sylvite -5.30 -4.42 0.88 KCl + Halite -5.03 -3.47 1.57 NaCl + O2(g) -7.42 -10.29 -2.87 O2 + Sylvite -5.24 -4.35 0.88 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.7329e+01 1.7225e-09 Using mix 2. -Using exchange 2. Exchange assemblage after simulation 2. +Using exchange 2. Exchange assemblage after simulation 4. Mixture 2. - 2.213e-01 Solution 1 Solution after simulation 2. - 5.574e-01 Solution 2 Solution after simulation 2. - 2.213e-01 Solution 3 Solution after simulation 2. + 0.000e+00 Solution 1 Solution after simulation 4. + 1.000e+00 Solution 2 Solution after simulation 4. + 0.000e+00 Solution 3 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -2741,35 +2850,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 3.589e-02 3.589e-02 7.476e-01 -0.063 - KX 1.211e-02 1.211e-02 2.524e-01 0.000 + NaX 3.173e-02 3.173e-02 6.611e-01 -0.061 + KX 1.627e-02 1.627e-02 3.389e-01 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 3.882e-03 3.882e-03 - Cl 2.012e-02 2.012e-02 - K 6.770e-03 6.770e-03 - Na 1.723e-02 1.723e-02 + Br 4.424e-03 4.424e-03 + Cl 1.815e-02 1.815e-02 + K 8.416e-03 8.416e-03 + Na 1.416e-02 1.416e-02 ----------------------------Description of solution---------------------------- - pH = 7.074 Charge balance - pe = 12.143 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 17°C) = 2468 - Density (g/cm³) = 0.99992 - Volume (L) = 1.00177 - Viscosity (mPa s) = 1.07259 + pH = 7.043 Charge balance + pe = 12.789 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 16°C) = 2304 + Density (g/cm³) = 1.00010 + Volume (L) = 1.00155 + Viscosity (mPa s) = 1.10687 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.258e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.001e-08 - Temperature (°C) = 17.33 - Pressure (atm) = 1.00 - Electrical balance (eq) = 2.002e-08 + Total alkalinity (eq/kg) = -3.923e-08 + Temperature (°C) = 16.09 + Electrical balance (eq) = 1.002e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2778,45 +2886,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.547e-08 8.439e-08 -7.020 -7.074 -0.054 0.00 - OH- 7.598e-08 6.523e-08 -7.119 -7.186 -0.066 -4.34 + H+ 1.023e-07 9.067e-08 -6.990 -7.043 -0.052 0.00 + OH- 6.356e-08 5.480e-08 -7.197 -7.261 -0.064 -4.43 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 -Br 3.882e-03 - Br- 3.882e-03 3.322e-03 -2.411 -2.479 -0.068 24.25 -Cl 2.012e-02 - Cl- 2.012e-02 1.730e-02 -1.696 -1.762 -0.065 17.90 - HCl 5.153e-10 5.275e-10 -9.288 -9.278 0.010 (0) +Br 4.424e-03 + Br- 4.424e-03 3.802e-03 -2.354 -2.420 -0.066 24.16 +Cl 1.815e-02 + Cl- 1.815e-02 1.568e-02 -1.741 -1.805 -0.064 17.84 + HCl 5.062e-10 5.175e-10 -9.296 -9.286 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.551 -41.549 0.002 28.61 -K 6.770e-03 - K+ 6.770e-03 5.817e-03 -2.169 -2.235 -0.066 8.83 -Na 1.723e-02 - Na+ 1.723e-02 1.491e-02 -1.764 -1.826 -0.063 -1.75 -O(0) 2.986e-12 - O2 1.493e-12 1.501e-12 -11.826 -11.824 0.002 29.74 + H2 0.000e+00 0.000e+00 -42.776 -42.774 0.002 28.62 +K 8.416e-03 + K+ 8.416e-03 7.261e-03 -2.075 -2.139 -0.064 8.78 +Na 1.416e-02 + Na+ 1.416e-02 1.231e-02 -1.849 -1.910 -0.061 -1.84 +O(0) 3.178e-10 + O2 1.589e-10 1.597e-10 -9.799 -9.797 0.002 29.62 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(290 K, 1 atm) + Phase SI** log IAP log K(289 K, 1 atm) - H2(g) -38.47 -41.55 -3.08 H2 - H2O(g) -1.71 -0.00 1.71 H2O - Halite -5.15 -3.59 1.56 NaCl - O2(g) -8.99 -11.82 -2.83 O2 - Sylvite -4.86 -4.00 0.86 KCl + H2(g) -39.70 -42.77 -3.08 H2 + H2O(g) -1.74 -0.00 1.74 H2O + Halite -5.28 -3.71 1.56 NaCl + O2(g) -6.97 -9.80 -2.82 O2 + Sylvite -4.80 -3.94 0.85 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.3281e+01 1.5645e-09 Using mix 3. -Using exchange 3. Exchange assemblage after simulation 2. +Using exchange 3. Exchange assemblage after simulation 4. Mixture 3. - 2.213e-01 Solution 2 Solution after simulation 2. - 5.574e-01 Solution 3 Solution after simulation 2. - 2.213e-01 Solution 4 Solution after simulation 2. + 0.000e+00 Solution 2 Solution after simulation 4. + 1.000e+00 Solution 3 Solution after simulation 4. + 0.000e+00 Solution 4 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -2825,35 +2932,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 2.799e-02 2.799e-02 5.830e-01 -0.062 - KX 2.001e-02 2.001e-02 4.170e-01 0.000 + KX 2.914e-02 2.914e-02 6.071e-01 0.000 + NaX 1.886e-02 1.886e-02 3.929e-01 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 6.391e-03 6.391e-03 - Cl 1.761e-02 1.761e-02 - K 1.090e-02 1.090e-02 - Na 1.310e-02 1.310e-02 + Br 7.490e-03 7.490e-03 + Cl 1.435e-02 1.435e-02 + K 1.400e-02 1.400e-02 + Na 7.840e-03 7.840e-03 ----------------------------Description of solution---------------------------- - pH = 7.109 Charge balance - pe = 12.441 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 13°C) = 2325 - Density (g/cm³) = 1.00067 - Volume (L) = 1.00119 - Viscosity (mPa s) = 1.19248 + pH = 7.059 Charge balance + pe = 13.313 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 11°C) = 2066 + Density (g/cm³) = 1.00094 + Volume (L) = 1.00090 + Viscosity (mPa s) = 1.27974 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.184e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.992e-08 - Temperature (°C) = 13.28 - Pressure (atm) = 1.00 - Electrical balance (eq) = 2.993e-08 + Total alkalinity (eq/kg) = -5.732e-08 + Temperature (°C) = 10.72 + Electrical balance (eq) = 9.993e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2862,45 +2968,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 8.801e-08 7.786e-08 -7.055 -7.109 -0.053 0.00 - OH- 5.852e-08 5.029e-08 -7.233 -7.299 -0.066 -4.62 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.03 -Br 6.391e-03 - Br- 6.391e-03 5.474e-03 -2.194 -2.262 -0.067 23.96 -Cl 1.761e-02 - Cl- 1.761e-02 1.516e-02 -1.754 -1.819 -0.065 17.68 - HCl 4.271e-10 4.372e-10 -9.370 -9.359 0.010 (0) + H+ 9.835e-08 8.738e-08 -7.007 -7.059 -0.051 0.00 + OH- 4.144e-08 3.584e-08 -7.383 -7.446 -0.063 -4.83 + H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 +Br 7.490e-03 + Br- 7.490e-03 6.458e-03 -2.126 -2.190 -0.064 23.73 +Cl 1.435e-02 + Cl- 1.435e-02 1.243e-02 -1.843 -1.906 -0.062 17.52 + HCl 4.002e-10 4.088e-10 -9.398 -9.388 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.199 -42.197 0.002 28.62 -K 1.090e-02 - K+ 1.090e-02 9.371e-03 -1.963 -2.028 -0.065 8.65 -Na 1.310e-02 - Na+ 1.310e-02 1.135e-02 -1.883 -1.945 -0.062 -2.04 -O(0) 2.368e-12 - O2 1.184e-12 1.190e-12 -11.927 -11.924 0.002 29.32 + H2 0.000e+00 0.000e+00 -43.831 -43.829 0.002 28.62 +K 1.400e-02 + K+ 1.400e-02 1.212e-02 -1.854 -1.917 -0.063 8.52 +Na 7.840e-03 + Na+ 7.840e-03 6.832e-03 -2.106 -2.165 -0.060 -2.25 +O(0) 5.419e-10 + O2 2.710e-10 2.723e-10 -9.567 -9.565 0.002 29.03 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(286 K, 1 atm) + Phase SI** log IAP log K(283 K, 1 atm) - H2(g) -39.13 -42.20 -3.07 H2 - H2O(g) -1.82 -0.00 1.82 H2O - Halite -5.32 -3.76 1.56 NaCl - O2(g) -9.13 -11.92 -2.80 O2 - Sylvite -4.69 -3.85 0.84 KCl + H2(g) -40.77 -43.83 -3.06 H2 + H2O(g) -1.89 -0.00 1.89 H2O + Halite -5.63 -4.07 1.56 NaCl + O2(g) -6.79 -9.56 -2.77 O2 + Sylvite -4.65 -3.82 0.83 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 9.7648e+00 1.4309e-09 Using mix 4. -Using exchange 4. Exchange assemblage after simulation 2. +Using exchange 4. Exchange assemblage after simulation 4. Mixture 4. - 2.213e-01 Solution 3 Solution after simulation 2. - 5.574e-01 Solution 4 Solution after simulation 2. - 2.213e-01 Solution 5 Solution after simulation 2. + 0.000e+00 Solution 3 Solution after simulation 4. + 1.000e+00 Solution 4 Solution after simulation 4. + 0.000e+00 Solution 5 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -2909,35 +3014,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 2.723e-02 2.723e-02 5.672e-01 0.000 - NaX 2.077e-02 2.077e-02 4.328e-01 -0.062 + KX 3.971e-02 3.971e-02 8.274e-01 0.000 + NaX 8.286e-03 8.286e-03 1.726e-01 -0.059 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 8.788e-03 8.788e-03 - Cl 1.521e-02 1.521e-02 - K 1.449e-02 1.449e-02 - Na 9.513e-03 9.513e-03 + Br 1.068e-02 1.068e-02 + Cl 1.093e-02 1.093e-02 + K 1.829e-02 1.829e-02 + Na 3.309e-03 3.309e-03 ----------------------------Description of solution---------------------------- - pH = 7.129 Charge balance - pe = 12.714 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 2194 - Density (g/cm³) = 1.00117 - Volume (L) = 1.00085 - Viscosity (mPa s) = 1.31518 + pH = 7.065 Charge balance + pe = 13.763 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 6°C) = 1889 + Density (g/cm³) = 1.00139 + Volume (L) = 1.00064 + Viscosity (mPa s) = 1.46185 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.160e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.938e-08 - Temperature (°C) = 9.76 - Pressure (atm) = 1.00 - Electrical balance (eq) = 3.939e-08 + Total alkalinity (eq/kg) = -6.914e-08 + Temperature (°C) = 6.19 + Electrical balance (eq) = 9.964e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2946,82 +3050,80 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 8.402e-08 7.437e-08 -7.076 -7.129 -0.053 0.00 - OH- 4.500e-08 3.870e-08 -7.347 -7.412 -0.066 -4.91 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 8.788e-03 - Br- 8.788e-03 7.532e-03 -2.056 -2.123 -0.067 23.65 -Cl 1.521e-02 - Cl- 1.521e-02 1.311e-02 -1.818 -1.883 -0.065 17.45 - HCl 3.605e-10 3.691e-10 -9.443 -9.433 0.010 (0) + H+ 9.674e-08 8.605e-08 -7.014 -7.065 -0.051 0.00 + OH- 2.791e-08 2.418e-08 -7.554 -7.617 -0.062 -5.27 + H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 +Br 1.068e-02 + Br- 1.068e-02 9.222e-03 -1.972 -2.035 -0.064 23.28 +Cl 1.093e-02 + Cl- 1.093e-02 9.481e-03 -1.962 -2.023 -0.062 17.16 + HCl 3.092e-10 3.159e-10 -9.510 -9.501 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.767 -42.765 0.002 28.63 -K 1.449e-02 - K+ 1.449e-02 1.247e-02 -1.839 -1.904 -0.065 8.48 -Na 9.513e-03 - Na+ 9.513e-03 8.249e-03 -2.022 -2.084 -0.062 -2.32 -O(0) 1.845e-12 - O2 9.226e-13 9.277e-13 -12.035 -12.033 0.002 28.92 + H2 0.000e+00 0.000e+00 -44.722 -44.720 0.002 28.63 +K 1.829e-02 + K+ 1.829e-02 1.586e-02 -1.738 -1.800 -0.062 8.26 +Na 3.309e-03 + Na+ 3.309e-03 2.888e-03 -2.480 -2.539 -0.059 -2.66 +O(0) 7.563e-10 + O2 3.781e-10 3.800e-10 -9.422 -9.420 0.002 28.46 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(282 K, 1 atm) + Phase SI** log IAP log K(279 K, 1 atm) - H2(g) -39.71 -42.76 -3.05 H2 - H2O(g) -1.92 -0.00 1.92 H2O - Halite -5.52 -3.97 1.56 NaCl - O2(g) -9.27 -12.03 -2.76 O2 - Sylvite -4.61 -3.79 0.82 KCl + H2(g) -41.68 -44.72 -3.04 H2 + H2O(g) -2.02 -0.00 2.02 H2O + Halite -6.12 -4.56 1.55 NaCl + O2(g) -6.69 -9.42 -2.73 O2 + Sylvite -4.62 -3.82 0.80 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 6.8770e+00 1.3238e-09 Using mix 5. -Using exchange 5. Exchange assemblage after simulation 2. +Using exchange 5. Exchange assemblage after simulation 4. Mixture 5. - 2.213e-01 Solution 4 Solution after simulation 2. - 5.574e-01 Solution 5 Solution after simulation 2. - 2.213e-01 Solution 6 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ + 0.000e+00 Solution 4 Solution after simulation 4. + 1.000e+00 Solution 5 Solution after simulation 4. + 0.000e+00 Solution 6 Solution after simulation 4. + +-----------------------------Exchange composition------------------------------ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.337e-02 3.337e-02 6.953e-01 0.000 - NaX 1.463e-02 1.463e-02 3.047e-01 -0.062 + KX 4.530e-02 4.530e-02 9.438e-01 0.000 + NaX 2.700e-03 2.700e-03 5.625e-02 -0.059 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.103e-02 1.103e-02 - Cl 1.297e-02 1.297e-02 - K 1.742e-02 1.742e-02 - Na 6.576e-03 6.576e-03 + Br 1.388e-02 1.388e-02 + Cl 8.013e-03 8.013e-03 + K 2.082e-02 2.082e-02 + Na 1.075e-03 1.075e-03 ----------------------------Description of solution---------------------------- - pH = 7.134 Charge balance - pe = 12.949 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 7°C) = 2083 - Density (g/cm³) = 1.00147 - Volume (L) = 1.00070 - Viscosity (mPa s) = 1.43191 + pH = 7.068 Charge balance + pe = 14.080 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 3°C) = 1788 + Density (g/cm³) = 1.00158 + Volume (L) = 1.00065 + Viscosity (mPa s) = 1.61216 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.189e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.825e-08 - Temperature (°C) = 6.88 - Pressure (atm) = 1.00 - Electrical balance (eq) = 4.826e-08 + Total alkalinity (eq/kg) = -7.547e-08 + Temperature (°C) = 3.09 + Electrical balance (eq) = 9.935e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3030,45 +3132,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 8.299e-08 7.349e-08 -7.081 -7.134 -0.053 0.00 - OH- 3.505e-08 3.016e-08 -7.455 -7.521 -0.065 -5.19 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.103e-02 - Br- 1.103e-02 9.464e-03 -1.957 -2.024 -0.067 23.36 -Cl 1.297e-02 - Cl- 1.297e-02 1.118e-02 -1.887 -1.952 -0.064 17.23 - HCl 3.093e-10 3.167e-10 -9.510 -9.499 0.010 (0) + H+ 9.621e-08 8.557e-08 -7.017 -7.068 -0.051 0.00 + OH- 2.097e-08 1.816e-08 -7.678 -7.741 -0.062 -5.63 + H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 +Br 1.388e-02 + Br- 1.388e-02 1.198e-02 -1.858 -1.921 -0.064 22.91 +Cl 8.013e-03 + Cl- 8.013e-03 6.951e-03 -2.096 -2.158 -0.062 16.87 + HCl 2.298e-10 2.348e-10 -9.639 -9.629 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.235 -43.233 0.002 28.63 -K 1.742e-02 - K+ 1.742e-02 1.501e-02 -1.759 -1.824 -0.065 8.31 -Na 6.576e-03 - Na+ 6.576e-03 5.705e-03 -2.182 -2.244 -0.062 -2.58 -O(0) 1.434e-12 - O2 7.171e-13 7.210e-13 -12.144 -12.142 0.002 28.55 + H2 0.000e+00 0.000e+00 -45.345 -45.343 0.002 28.64 +K 2.082e-02 + K+ 2.082e-02 1.804e-02 -1.682 -1.744 -0.062 8.06 +Na 1.075e-03 + Na+ 1.075e-03 9.384e-04 -2.968 -3.028 -0.059 -2.98 +O(0) 9.363e-10 + O2 4.682e-10 4.705e-10 -9.330 -9.327 0.002 28.00 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(280 K, 1 atm) + Phase SI** log IAP log K(276 K, 1 atm) - H2(g) -40.19 -43.23 -3.04 H2 - H2O(g) -2.00 -0.00 2.00 H2O - Halite -5.75 -4.20 1.55 NaCl - O2(g) -9.41 -12.14 -2.73 O2 - Sylvite -4.58 -3.78 0.80 KCl + H2(g) -42.32 -45.34 -3.03 H2 + H2O(g) -2.12 -0.00 2.11 H2O + Halite -6.74 -5.19 1.55 NaCl + O2(g) -6.63 -9.33 -2.69 O2 + Sylvite -4.68 -3.90 0.78 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 4.6334e+00 1.2424e-09 Using mix 6. -Using exchange 6. Exchange assemblage after simulation 2. +Using exchange 6. Exchange assemblage after simulation 4. Mixture 6. - 2.213e-01 Solution 5 Solution after simulation 2. - 5.574e-01 Solution 6 Solution after simulation 2. - 2.213e-01 Solution 7 Solution after simulation 2. + 0.000e+00 Solution 5 Solution after simulation 4. + 1.000e+00 Solution 6 Solution after simulation 4. + 0.000e+00 Solution 7 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -3077,35 +3178,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.826e-02 3.826e-02 7.970e-01 0.000 - NaX 9.745e-03 9.745e-03 2.030e-01 -0.062 + KX 4.730e-02 4.730e-02 9.854e-01 0.000 + NaX 7.029e-04 7.029e-04 1.464e-02 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.310e-02 1.310e-02 - Cl 1.090e-02 1.090e-02 - K 1.968e-02 1.968e-02 - Na 4.319e-03 4.319e-03 + Br 1.678e-02 1.678e-02 + Cl 5.626e-03 5.626e-03 + K 2.212e-02 2.212e-02 + Na 2.847e-04 2.847e-04 ----------------------------Description of solution---------------------------- - pH = 7.127 Charge balance - pe = 13.142 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 1993 - Density (g/cm³) = 1.00163 - Volume (L) = 1.00067 - Viscosity (mPa s) = 1.53455 + pH = 7.068 Charge balance + pe = 14.262 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 1°C) = 1751 + Density (g/cm³) = 1.00168 + Volume (L) = 1.00073 + Viscosity (mPa s) = 1.70747 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.241e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.641e-08 - Temperature (°C) = 4.63 - Pressure (atm) = 1.00 - Electrical balance (eq) = 5.642e-08 + Total alkalinity (eq/kg) = -7.855e-08 + Temperature (°C) = 1.35 + Electrical balance (eq) = 9.910e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3114,45 +3214,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 8.418e-08 7.457e-08 -7.075 -7.127 -0.053 0.00 - OH- 2.803e-08 2.413e-08 -7.552 -7.617 -0.065 -5.44 + H+ 9.617e-08 8.547e-08 -7.017 -7.068 -0.051 0.00 + OH- 1.777e-08 1.538e-08 -7.750 -7.813 -0.063 -5.86 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.310e-02 - Br- 1.310e-02 1.124e-02 -1.883 -1.949 -0.066 23.11 -Cl 1.090e-02 - Cl- 1.090e-02 9.399e-03 -1.963 -2.027 -0.064 17.03 - HCl 2.676e-10 2.740e-10 -9.572 -9.562 0.010 (0) +Br 1.678e-02 + Br- 1.678e-02 1.447e-02 -1.775 -1.839 -0.064 22.68 +Cl 5.626e-03 + Cl- 5.626e-03 4.876e-03 -2.250 -2.312 -0.062 16.69 + HCl 1.626e-10 1.663e-10 -9.789 -9.779 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.596 -43.594 0.002 28.64 -K 1.968e-02 - K+ 1.968e-02 1.696e-02 -1.706 -1.771 -0.065 8.17 -Na 4.319e-03 - Na+ 4.319e-03 3.749e-03 -2.365 -2.426 -0.062 -2.80 -O(0) 1.123e-12 - O2 5.613e-13 5.644e-13 -12.251 -12.248 0.002 28.23 + H2 0.000e+00 0.000e+00 -45.702 -45.700 0.002 28.64 +K 2.212e-02 + K+ 2.212e-02 1.916e-02 -1.655 -1.718 -0.063 7.94 +Na 2.847e-04 + Na+ 2.847e-04 2.482e-04 -3.546 -3.605 -0.060 -3.18 +O(0) 1.066e-09 + O2 5.330e-10 5.358e-10 -9.273 -9.271 0.002 27.72 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(277 K, 1 atm) + Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -40.56 -43.59 -3.03 H2 - H2O(g) -2.07 -0.00 2.07 H2O - Halite -6.01 -4.45 1.55 NaCl - O2(g) -9.54 -12.25 -2.71 O2 - Sylvite -4.59 -3.80 0.79 KCl + H2(g) -42.68 -45.70 -3.02 H2 + H2O(g) -2.17 -0.00 2.17 H2O + Halite -7.47 -5.92 1.55 NaCl + O2(g) -6.60 -9.27 -2.67 O2 + Sylvite -4.80 -4.03 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 2.9840e+00 1.1834e-09 Using mix 7. -Using exchange 7. Exchange assemblage after simulation 2. +Using exchange 7. Exchange assemblage after simulation 4. Mixture 7. - 2.213e-01 Solution 6 Solution after simulation 2. - 5.574e-01 Solution 7 Solution after simulation 2. - 2.213e-01 Solution 8 Solution after simulation 2. + 0.000e+00 Solution 6 Solution after simulation 4. + 1.000e+00 Solution 7 Solution after simulation 4. + 0.000e+00 Solution 8 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -3161,35 +3260,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.186e-02 4.186e-02 8.721e-01 -0.000 - NaX 6.140e-03 6.140e-03 1.279e-01 -0.061 + KX 4.784e-02 4.784e-02 9.967e-01 0.000 + NaX 1.567e-04 1.567e-04 3.264e-03 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.497e-02 1.497e-02 - Cl 9.031e-03 9.031e-03 - K 2.131e-02 2.131e-02 - Na 2.694e-03 2.694e-03 + Br 1.911e-02 1.911e-02 + Cl 3.791e-03 3.791e-03 + K 2.284e-02 2.284e-02 + Na 6.468e-05 6.468e-05 ----------------------------Description of solution---------------------------- - pH = 7.114 Charge balance - pe = 13.287 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 3°C) = 1926 - Density (g/cm³) = 1.00172 - Volume (L) = 1.00069 - Viscosity (mPa s) = 1.61774 + pH = 7.067 Charge balance + pe = 14.352 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 1°C) = 1748 + Density (g/cm³) = 1.00175 + Volume (L) = 1.00080 + Viscosity (mPa s) = 1.75568 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.290e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.379e-08 - Temperature (°C) = 2.98 - Pressure (atm) = 1.00 - Electrical balance (eq) = 6.379e-08 + Total alkalinity (eq/kg) = -8.018e-08 + Temperature (°C) = 0.53 + Electrical balance (eq) = 9.886e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3198,45 +3296,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 8.679e-08 7.690e-08 -7.062 -7.114 -0.053 0.00 - OH- 2.324e-08 2.001e-08 -7.634 -7.699 -0.065 -5.64 + H+ 9.645e-08 8.566e-08 -7.016 -7.067 -0.052 0.00 + OH- 1.638e-08 1.416e-08 -7.786 -7.849 -0.063 -5.98 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.497e-02 - Br- 1.497e-02 1.285e-02 -1.825 -1.891 -0.066 22.90 -Cl 9.031e-03 - Cl- 9.031e-03 7.791e-03 -2.044 -2.108 -0.064 16.87 - HCl 2.311e-10 2.366e-10 -9.636 -9.626 0.010 (0) +Br 1.911e-02 + Br- 1.911e-02 1.646e-02 -1.719 -1.783 -0.065 22.56 +Cl 3.791e-03 + Cl- 3.791e-03 3.282e-03 -2.421 -2.484 -0.063 16.59 + HCl 1.102e-10 1.127e-10 -9.958 -9.948 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.852 -43.850 0.002 28.64 -K 2.131e-02 - K+ 2.131e-02 1.836e-02 -1.671 -1.736 -0.065 8.06 -Na 2.694e-03 - Na+ 2.694e-03 2.339e-03 -2.570 -2.631 -0.061 -2.98 -O(0) 8.835e-13 - O2 4.417e-13 4.442e-13 -12.355 -12.352 0.002 27.98 + H2 0.000e+00 0.000e+00 -45.875 -45.873 0.002 28.64 +K 2.284e-02 + K+ 2.284e-02 1.975e-02 -1.641 -1.704 -0.063 7.88 +Na 6.468e-05 + Na+ 6.468e-05 5.633e-05 -4.189 -4.249 -0.060 -3.28 +O(0) 1.146e-09 + O2 5.732e-10 5.763e-10 -9.242 -9.239 0.002 27.58 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(276 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -40.82 -43.85 -3.03 H2 - H2O(g) -2.12 -0.00 2.12 H2O - Halite -6.29 -4.74 1.55 NaCl - O2(g) -9.66 -12.35 -2.69 O2 - Sylvite -4.63 -3.84 0.78 KCl + H2(g) -42.86 -45.87 -3.01 H2 + H2O(g) -2.19 -0.00 2.19 H2O + Halite -8.28 -6.73 1.55 NaCl + O2(g) -6.57 -9.24 -2.66 O2 + Sylvite -4.96 -4.19 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.8357e+00 1.1429e-09 Using mix 8. -Using exchange 8. Exchange assemblage after simulation 2. +Using exchange 8. Exchange assemblage after simulation 4. Mixture 8. - 2.213e-01 Solution 7 Solution after simulation 2. - 5.574e-01 Solution 8 Solution after simulation 2. - 2.213e-01 Solution 9 Solution after simulation 2. + 0.000e+00 Solution 7 Solution after simulation 4. + 1.000e+00 Solution 8 Solution after simulation 4. + 0.000e+00 Solution 9 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -3245,35 +3342,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.434e-02 4.434e-02 9.237e-01 0.000 - NaX 3.660e-03 3.660e-03 7.625e-02 -0.061 + KX 4.797e-02 4.797e-02 9.994e-01 0.000 + NaX 3.110e-05 3.110e-05 6.480e-04 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.662e-02 1.662e-02 - Cl 7.375e-03 7.375e-03 - K 2.241e-02 2.241e-02 - Na 1.594e-03 1.594e-03 + Br 2.078e-02 2.078e-02 + Cl 2.497e-03 2.497e-03 + K 2.327e-02 2.327e-02 + Na 1.303e-05 1.303e-05 ----------------------------Description of solution---------------------------- - pH = 7.098 Charge balance - pe = 13.392 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 2°C) = 1879 - Density (g/cm³) = 1.00176 - Volume (L) = 1.00074 - Viscosity (mPa s) = 1.68000 + pH = 7.066 Charge balance + pe = 14.391 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1759 + Density (g/cm³) = 1.00182 + Volume (L) = 1.00084 + Viscosity (mPa s) = 1.77619 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.328e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.033e-08 - Temperature (°C) = 1.84 - Pressure (atm) = 1.00 - Electrical balance (eq) = 7.033e-08 + Total alkalinity (eq/kg) = -8.111e-08 + Temperature (°C) = 0.19 + Electrical balance (eq) = 9.860e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 2 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3282,45 +3378,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.015e-08 7.989e-08 -7.045 -7.098 -0.052 0.00 - OH- 2.002e-08 1.725e-08 -7.699 -7.763 -0.065 -5.79 + H+ 9.684e-08 8.595e-08 -7.014 -7.066 -0.052 0.00 + OH- 1.581e-08 1.365e-08 -7.801 -7.865 -0.064 -6.03 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.662e-02 - Br- 1.662e-02 1.427e-02 -1.779 -1.845 -0.066 22.75 -Cl 7.375e-03 - Cl- 7.375e-03 6.364e-03 -2.132 -2.196 -0.064 16.75 - HCl 1.975e-10 2.022e-10 -9.704 -9.694 0.010 (0) +Br 2.078e-02 + Br- 2.078e-02 1.788e-02 -1.682 -1.748 -0.065 22.51 +Cl 2.497e-03 + Cl- 2.497e-03 2.159e-03 -2.603 -2.666 -0.063 16.55 + HCl 7.290e-11 7.459e-11 -10.137 -10.127 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.023 -44.021 0.002 28.64 -K 2.241e-02 - K+ 2.241e-02 1.932e-02 -1.650 -1.714 -0.064 7.98 -Na 1.594e-03 - Na+ 1.594e-03 1.385e-03 -2.797 -2.859 -0.061 -3.11 -O(0) 7.146e-13 - O2 3.573e-13 3.593e-13 -12.447 -12.445 0.002 27.80 + H2 0.000e+00 0.000e+00 -45.948 -45.946 0.002 28.65 +K 2.327e-02 + K+ 2.327e-02 2.010e-02 -1.633 -1.697 -0.063 7.85 +Na 1.303e-05 + Na+ 1.303e-05 1.134e-05 -4.885 -4.945 -0.060 -3.32 +O(0) 1.190e-09 + O2 5.952e-10 5.984e-10 -9.225 -9.223 0.002 27.52 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.00 -44.02 -3.02 H2 - H2O(g) -2.15 -0.00 2.15 H2O - Halite -6.60 -5.05 1.55 NaCl - O2(g) -9.76 -12.44 -2.68 O2 - Sylvite -4.68 -3.91 0.77 KCl + H2(g) -42.93 -45.95 -3.01 H2 + H2O(g) -2.20 -0.00 2.20 H2O + Halite -9.16 -7.61 1.55 NaCl + O2(g) -6.56 -9.22 -2.66 O2 + Sylvite -5.13 -4.36 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.0783e+00 1.1165e-09 Using mix 9. -Using exchange 9. Exchange assemblage after simulation 2. +Using exchange 9. Exchange assemblage after simulation 4. Mixture 9. - 2.213e-01 Solution 8 Solution after simulation 2. - 5.574e-01 Solution 9 Solution after simulation 2. - 2.213e-01 Solution 10 Solution after simulation 2. + 0.000e+00 Solution 8 Solution after simulation 4. + 1.000e+00 Solution 9 Solution after simulation 4. + 0.000e+00 Solution 10 Solution after simulation 4. -----------------------------Exchange composition------------------------------ @@ -3329,33 +3424,32 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.593e-02 4.593e-02 9.570e-01 0.000 - NaX 2.066e-03 2.066e-03 4.303e-02 -0.061 + KX 4.799e-02 4.799e-02 9.999e-01 -0.000 + NaX 5.623e-06 5.623e-06 1.172e-04 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.807e-02 1.807e-02 - Cl 5.933e-03 5.933e-03 - K 2.310e-02 2.310e-02 - Na 8.958e-04 8.958e-04 + Br 2.183e-02 2.183e-02 + Cl 1.689e-03 1.689e-03 + K 2.351e-02 2.351e-02 + Na 2.379e-06 2.379e-06 ----------------------------Description of solution---------------------------- - pH = 7.081 Charge balance - pe = 13.461 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1847 - Density (g/cm³) = 1.00179 - Volume (L) = 1.00079 - Viscosity (mPa s) = 1.72318 + pH = 7.064 Charge balance + pe = 14.406 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1771 + Density (g/cm³) = 1.00186 + Volume (L) = 1.00086 + Viscosity (mPa s) = 1.78379 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.352e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.602e-08 - Temperature (°C) = 1.08 - Pressure (atm) = 1.00 - Electrical balance (eq) = 7.602e-08 + Total alkalinity (eq/kg) = -8.165e-08 + Temperature (°C) = 0.06 + Electrical balance (eq) = 9.833e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -3366,45 +3460,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.374e-08 8.308e-08 -7.028 -7.081 -0.052 0.00 - OH- 1.788e-08 1.541e-08 -7.748 -7.812 -0.065 -5.89 + H+ 9.717e-08 8.621e-08 -7.012 -7.064 -0.052 0.00 + OH- 1.557e-08 1.344e-08 -7.808 -7.872 -0.064 -6.04 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.807e-02 - Br- 1.807e-02 1.551e-02 -1.743 -1.809 -0.066 22.65 -Cl 5.933e-03 - Cl- 5.933e-03 5.121e-03 -2.227 -2.291 -0.064 16.66 - HCl 1.661e-10 1.700e-10 -9.780 -9.770 0.010 (0) +Br 2.183e-02 + Br- 2.183e-02 1.877e-02 -1.661 -1.726 -0.065 22.50 +Cl 1.689e-03 + Cl- 1.689e-03 1.459e-03 -2.772 -2.836 -0.063 16.54 + HCl 4.945e-11 5.060e-11 -10.306 -10.296 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.122 -44.120 0.002 28.64 -K 2.310e-02 - K+ 2.310e-02 1.992e-02 -1.636 -1.701 -0.064 7.92 -Na 8.958e-04 - Na+ 8.958e-04 7.780e-04 -3.048 -3.109 -0.061 -3.20 -O(0) 5.807e-13 - O2 2.903e-13 2.919e-13 -12.537 -12.535 0.002 27.67 + H2 0.000e+00 0.000e+00 -45.976 -45.974 0.002 28.65 +K 2.351e-02 + K+ 2.351e-02 2.030e-02 -1.629 -1.692 -0.064 7.84 +Na 2.379e-06 + Na+ 2.379e-06 2.069e-06 -5.624 -5.684 -0.061 -3.33 +O(0) 1.212e-09 + O2 6.059e-10 6.092e-10 -9.218 -9.215 0.002 27.50 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.10 -44.12 -3.02 H2 - H2O(g) -2.18 -0.00 2.18 H2O - Halite -6.95 -5.40 1.55 NaCl - O2(g) -9.86 -12.53 -2.67 O2 - Sylvite -4.76 -3.99 0.77 KCl + H2(g) -42.96 -45.97 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + Halite -10.07 -8.52 1.55 NaCl + O2(g) -6.56 -9.22 -2.66 O2 + Sylvite -5.29 -4.53 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 6.0473e-01 1.1000e-09 Using mix 10. -Using exchange 10. Exchange assemblage after simulation 2. +Using exchange 10. Exchange assemblage after simulation 4. Mixture 10. - 2.213e-01 Solution 9 Solution after simulation 2. - 5.574e-01 Solution 10 Solution after simulation 2. - 2.213e-01 Solution 11 Solution after simulation 2. + 0.000e+00 Solution 9 Solution after simulation 4. + 1.000e+00 Solution 10 Solution after simulation 4. + 0.000e+00 Solution 11 24 mM KBr, initial temp 0C -----------------------------Exchange composition------------------------------ @@ -3413,33 +3506,32 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.690e-02 4.690e-02 9.770e-01 0.000 - NaX 1.105e-03 1.105e-03 2.302e-02 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 1.066e-06 1.066e-06 2.220e-05 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.930e-02 1.930e-02 - Cl 4.701e-03 4.701e-03 - K 2.352e-02 2.352e-02 - Na 4.779e-04 4.779e-04 + Br 2.233e-02 2.233e-02 + Cl 1.304e-03 1.304e-03 + K 2.363e-02 2.363e-02 + Na 4.529e-07 4.529e-07 ----------------------------Description of solution---------------------------- - pH = 7.065 Charge balance - pe = 13.504 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1827 - Density (g/cm³) = 1.00182 - Volume (L) = 1.00082 - Viscosity (mPa s) = 1.75106 + pH = 7.064 Charge balance + pe = 14.412 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1777 + Density (g/cm³) = 1.00189 + Volume (L) = 1.00087 + Viscosity (mPa s) = 1.78613 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.363e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.088e-08 - Temperature (°C) = 0.60 - Pressure (atm) = 1.00 - Electrical balance (eq) = 8.089e-08 + Total alkalinity (eq/kg) = -8.190e-08 + Temperature (°C) = 0.02 + Electrical balance (eq) = 9.887e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -3450,82 +3542,107 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.721e-08 8.616e-08 -7.012 -7.065 -0.052 0.00 - OH- 1.646e-08 1.418e-08 -7.784 -7.848 -0.065 -5.96 + H+ 9.735e-08 8.636e-08 -7.012 -7.064 -0.052 0.00 + OH- 1.549e-08 1.336e-08 -7.810 -7.874 -0.064 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.930e-02 - Br- 1.930e-02 1.657e-02 -1.714 -1.781 -0.066 22.58 -Cl 4.701e-03 - Cl- 4.701e-03 4.058e-03 -2.328 -2.392 -0.064 16.61 - HCl 1.369e-10 1.401e-10 -9.864 -9.853 0.010 (0) +Br 2.233e-02 + Br- 2.233e-02 1.919e-02 -1.651 -1.717 -0.066 22.49 +Cl 1.304e-03 + Cl- 1.304e-03 1.127e-03 -2.885 -2.948 -0.063 16.54 + HCl 3.824e-11 3.913e-11 -10.418 -10.407 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.176 -44.173 0.002 28.64 -K 2.352e-02 - K+ 2.352e-02 2.028e-02 -1.629 -1.693 -0.064 7.88 -Na 4.779e-04 - Na+ 4.779e-04 4.151e-04 -3.321 -3.382 -0.061 -3.26 -O(0) 4.898e-13 - O2 2.449e-13 2.462e-13 -12.611 -12.609 0.002 27.59 + H2 0.000e+00 0.000e+00 -45.985 -45.983 0.002 28.65 +K 2.363e-02 + K+ 2.363e-02 2.040e-02 -1.627 -1.690 -0.064 7.84 +Na 4.529e-07 + Na+ 4.529e-07 3.938e-07 -6.344 -6.405 -0.061 -3.34 +O(0) 1.221e-09 + O2 6.103e-10 6.136e-10 -9.214 -9.212 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.16 -44.17 -3.01 H2 - H2O(g) -2.19 -0.00 2.19 H2O - Halite -7.32 -5.77 1.55 NaCl - O2(g) -9.94 -12.61 -2.67 O2 - Sylvite -4.85 -4.08 0.77 KCl + H2(g) -42.97 -45.98 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + Halite -10.90 -9.35 1.55 NaCl + O2(g) -6.55 -9.21 -2.66 O2 + Sylvite -5.40 -4.64 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 3.2377e-01 1.0903e-09 -Using mix 11. -Using exchange 11. Exchange assemblage after simulation 2. +------------------ +End of simulation. +------------------ + +------------------------------------ +Reading input data for simulation 5. +------------------------------------ -Mixture 11. + copy cell 31 1-30 + USER_GRAPH 1 + -connect_simulations false + END +------------------ +End of simulation. +------------------ - 2.213e-01 Solution 10 Solution after simulation 2. - 5.574e-01 Solution 11 Solution after simulation 2. - 2.213e-01 Solution 12 Solution after simulation 2. +------------------------------------ +Reading input data for simulation 6. +------------------------------------ ------------------------------Exchange composition------------------------------ + TRANSPORT + shifts 1 + multi_d true 2.33e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout + thermal_diffusion 3.0 2.33e-9 # define the diffusion coefficient for heat equal to Na + implicit true 3 -12 # max_mixf = 3, min_dif_LM = -12 + USER_GRAPH 1 Example 12b +WARNING: No porosities were read; used the value 1.00e+00 from -multi_D. +------------------------------------ +Column data retained from former run +------------------------------------ -X 4.800e-02 mol + -headings MultiD&Visc&Implicit:Na Cl TC + -start + 10 x = DIST + 20 PLOT_XY x, TOT("Na")*1000, symbol = XCross, line_width = 0, symbol_size = 9, color = Red + 30 PLOT_XY x, TOT("Cl")*1000, symbol = XCross, line_width = 0, symbol_size = 9, color = Green + 40 PLOT_XY x, TC, symbol = XCross, line_width = 0, symbol_size = 9, y-axis 2, color = Blue + END +------------------------------------ +Beginning of transport calculations. +------------------------------------ - Equiv- Equivalent Log - Species Moles alents Fraction Gamma +------------------------------- +Equilibrating initial solutions +------------------------------- - KX 4.744e-02 4.744e-02 9.883e-01 0.000 - NaX 5.610e-04 5.610e-04 1.169e-02 -0.061 +Using solution 0. Solution after simulation 4. -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.033e-02 2.033e-02 - Cl 3.668e-03 3.668e-03 - K 2.376e-02 2.376e-02 - Na 2.423e-04 2.423e-04 + Cl 2.400e-02 2.400e-02 + Na 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.051 Charge balance - pe = 13.530 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1816 - Density (g/cm³) = 1.00184 - Volume (L) = 1.00084 - Viscosity (mPa s) = 1.76793 + pH = 7.000 Charge balance + pe = 4.000 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 24°C) = 2687 + Density (g/cm³) = 0.99829 + Volume (L) = 1.00312 + Viscosity (mPa s) = 0.91317 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.497e-08 - Temperature (°C) = 0.32 - Pressure (atm) = 1.00 - Electrical balance (eq) = 8.497e-08 + Total alkalinity (eq/kg) = -4.679e-09 + Temperature (°C) = 24.00 + Electrical balance (eq) = 4.679e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 0 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3534,45 +3651,33 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.004e-07 8.896e-08 -6.998 -7.051 -0.052 0.00 - OH- 1.551e-08 1.336e-08 -7.809 -7.874 -0.065 -6.00 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.033e-02 - Br- 2.033e-02 1.746e-02 -1.692 -1.758 -0.066 22.54 -Cl 3.668e-03 - Cl- 3.668e-03 3.166e-03 -2.436 -2.500 -0.064 16.57 - HCl 1.105e-10 1.131e-10 -9.957 -9.947 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.198 -44.196 0.002 28.64 -K 2.376e-02 - K+ 2.376e-02 2.049e-02 -1.624 -1.689 -0.064 7.86 -Na 2.423e-04 - Na+ 2.423e-04 2.104e-04 -3.616 -3.677 -0.061 -3.30 -O(0) 4.239e-13 - O2 2.120e-13 2.131e-13 -12.674 -12.671 0.002 27.54 + H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 + OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 +Cl 2.400e-02 + Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 + HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) +H(0) 1.422e-25 + H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 +Na 2.400e-02 + Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(297 K, 1 atm) - H2(g) -41.18 -44.20 -3.01 H2 - H2O(g) -2.20 -0.00 2.20 H2O - Halite -7.72 -6.18 1.55 NaCl - O2(g) -10.01 -12.67 -2.66 O2 - Sylvite -4.95 -4.19 0.77 KCl + H2(g) -22.05 -25.15 -3.10 H2 + H2O(g) -1.53 -0.00 1.53 H2O + Halite -4.94 -3.37 1.57 NaCl + O2(g) -39.53 -42.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.6551e-01 1.0848e-09 -Using mix 12. -Using exchange 12. Exchange assemblage after simulation 2. - -Mixture 12. - - 2.213e-01 Solution 11 Solution after simulation 2. - 5.574e-01 Solution 12 Solution after simulation 2. - 2.213e-01 Solution 13 Solution after simulation 2. +Using solution 1. 24 mM KBr, initial temp 0C +Using exchange 1. -----------------------------Exchange composition------------------------------ @@ -3581,35 +3686,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.773e-02 4.773e-02 9.944e-01 0.000 - NaX 2.705e-04 2.705e-04 5.636e-03 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.118e-02 2.118e-02 - Cl 2.817e-03 2.817e-03 - K 2.388e-02 2.388e-02 - Na 1.167e-04 1.167e-04 + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.039 Charge balance - pe = 13.544 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1809 - Density (g/cm³) = 1.00187 - Volume (L) = 1.00086 - Viscosity (mPa s) = 1.77752 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.833e-08 - Temperature (°C) = 0.17 - Pressure (atm) = 1.00 - Electrical balance (eq) = 8.833e-08 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3618,45 +3719,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.031e-07 9.139e-08 -6.987 -7.039 -0.052 0.00 - OH- 1.486e-08 1.280e-08 -7.828 -7.893 -0.065 -6.03 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.118e-02 - Br- 2.118e-02 1.819e-02 -1.674 -1.740 -0.066 22.51 -Cl 2.817e-03 - Cl- 2.817e-03 2.431e-03 -2.550 -2.614 -0.064 16.55 - HCl 8.723e-11 8.930e-11 -10.059 -10.049 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.202 -44.200 0.002 28.65 -K 2.388e-02 - K+ 2.388e-02 2.060e-02 -1.622 -1.686 -0.064 7.85 -Na 1.167e-04 - Na+ 1.167e-04 1.014e-04 -3.933 -3.994 -0.061 -3.32 -O(0) 3.758e-13 - O2 1.879e-13 1.889e-13 -12.726 -12.724 0.002 27.52 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.19 -44.20 -3.01 H2 - H2O(g) -2.21 -0.00 2.20 H2O - Halite -8.16 -6.61 1.55 NaCl - O2(g) -10.06 -12.72 -2.66 O2 - Sylvite -5.07 -4.30 0.76 KCl + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 8.0802e-02 1.0819e-09 -Using mix 13. -Using exchange 13. Exchange assemblage after simulation 2. - -Mixture 13. - - 2.213e-01 Solution 12 Solution after simulation 2. - 5.574e-01 Solution 13 Solution after simulation 2. - 2.213e-01 Solution 14 Solution after simulation 2. +Using solution 2. 24 mM KBr, initial temp 0C +Using exchange 2. -----------------------------Exchange composition------------------------------ @@ -3665,35 +3752,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.788e-02 4.788e-02 9.974e-01 0.000 - NaX 1.241e-04 1.241e-04 2.585e-03 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.187e-02 2.187e-02 - Cl 2.129e-03 2.129e-03 - K 2.395e-02 2.395e-02 - Na 5.352e-05 5.352e-05 + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.030 Charge balance - pe = 13.541 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1806 - Density (g/cm³) = 1.00189 - Volume (L) = 1.00087 - Viscosity (mPa s) = 1.78267 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.104e-08 - Temperature (°C) = 0.08 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.104e-08 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (26 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3702,45 +3785,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.054e-07 9.342e-08 -6.977 -7.030 -0.052 0.00 - OH- 1.442e-08 1.242e-08 -7.841 -7.906 -0.065 -6.04 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.187e-02 - Br- 2.187e-02 1.878e-02 -1.660 -1.726 -0.066 22.50 -Cl 2.129e-03 - Cl- 2.129e-03 1.838e-03 -2.672 -2.736 -0.064 16.54 - HCl 6.743e-11 6.903e-11 -10.171 -10.161 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.176 -44.173 0.002 28.65 -K 2.395e-02 - K+ 2.395e-02 2.065e-02 -1.621 -1.685 -0.064 7.84 -Na 5.352e-05 - Na+ 5.352e-05 4.649e-05 -4.272 -4.333 -0.061 -3.33 -O(0) 3.084e-13 - O2 1.542e-13 1.551e-13 -12.812 -12.809 0.002 27.50 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.16 -44.17 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.62 -7.07 1.55 NaCl - O2(g) -10.15 -12.81 -2.66 O2 - Sylvite -5.19 -4.42 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 3.7685e-02 1.0804e-09 -Using mix 14. -Using exchange 14. Exchange assemblage after simulation 2. - -Mixture 14. - - 2.213e-01 Solution 13 Solution after simulation 2. - 5.574e-01 Solution 14 Solution after simulation 2. - 2.213e-01 Solution 15 Solution after simulation 2. +Using solution 3. 24 mM KBr, initial temp 0C +Using exchange 3. -----------------------------Exchange composition------------------------------ @@ -3749,35 +3818,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.795e-02 4.795e-02 9.989e-01 0.000 - NaX 5.415e-05 5.415e-05 1.128e-03 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.242e-02 2.242e-02 - Cl 1.583e-03 1.583e-03 - K 2.398e-02 2.398e-02 - Na 2.335e-05 2.335e-05 + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.022 Charge balance - pe = 13.534 Adjusted to redox equilibrium + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium Specific Conductance (µS/cm, 0°C) = 1805 - Density (g/cm³) = 1.00191 - Volume (L) = 1.00088 - Viscosity (mPa s) = 1.78529 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.320e-08 - Temperature (°C) = 0.04 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.320e-08 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (39 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -3786,213 +3851,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.073e-07 9.507e-08 -6.970 -7.022 -0.052 0.00 - OH- 1.411e-08 1.215e-08 -7.851 -7.915 -0.065 -6.04 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.242e-02 - Br- 2.242e-02 1.925e-02 -1.649 -1.715 -0.066 22.49 -Cl 1.583e-03 - Cl- 1.583e-03 1.366e-03 -2.801 -2.864 -0.064 16.54 - HCl 5.104e-11 5.225e-11 -10.292 -10.282 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.147 -44.145 0.002 28.65 -K 2.398e-02 - K+ 2.398e-02 2.068e-02 -1.620 -1.685 -0.064 7.84 -Na 2.335e-05 - Na+ 2.335e-05 2.029e-05 -4.632 -4.693 -0.061 -3.33 -O(0) 2.600e-13 - O2 1.300e-13 1.307e-13 -12.886 -12.884 0.002 27.49 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.13 -44.14 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -9.11 -7.56 1.55 NaCl - O2(g) -10.22 -12.88 -2.66 O2 - Sylvite -5.31 -4.55 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 1.6798e-02 1.0797e-09 -Using mix 15. -Using exchange 15. Exchange assemblage after simulation 2. - -Mixture 15. - - 2.213e-01 Solution 14 Solution after simulation 2. - 5.574e-01 Solution 15 Solution after simulation 2. - 2.213e-01 Solution 16 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.798e-02 4.798e-02 9.995e-01 0.000 - NaX 2.251e-05 2.251e-05 4.690e-04 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.284e-02 2.284e-02 - Cl 1.158e-03 1.158e-03 - K 2.399e-02 2.399e-02 - Na 9.707e-06 9.707e-06 - -----------------------------Description of solution---------------------------- - - pH = 7.016 Charge balance - pe = 13.532 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00192 - Volume (L) = 1.00088 - Viscosity (mPa s) = 1.78655 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.488e-08 - Temperature (°C) = 0.02 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.488e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.087e-07 9.638e-08 -6.964 -7.016 -0.052 0.00 - OH- 1.389e-08 1.197e-08 -7.857 -7.922 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.284e-02 - Br- 2.284e-02 1.962e-02 -1.641 -1.707 -0.066 22.49 -Cl 1.158e-03 - Cl- 1.158e-03 9.995e-04 -2.936 -3.000 -0.064 16.54 - HCl 3.785e-11 3.875e-11 -10.422 -10.412 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.131 -44.129 0.002 28.65 -K 2.399e-02 - K+ 2.399e-02 2.069e-02 -1.620 -1.684 -0.064 7.84 -Na 9.707e-06 - Na+ 9.707e-06 8.433e-06 -5.013 -5.074 -0.061 -3.34 -O(0) 2.376e-13 - O2 1.188e-13 1.195e-13 -12.925 -12.923 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -41.12 -44.13 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -9.62 -8.07 1.55 NaCl - O2(g) -10.26 -12.92 -2.66 O2 - Sylvite -5.45 -4.68 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 7.1587e-03 1.0793e-09 -Using mix 16. -Using exchange 16. Exchange assemblage after simulation 2. - -Mixture 16. - - 2.213e-01 Solution 15 Solution after simulation 2. - 5.574e-01 Solution 16 Solution after simulation 2. - 2.213e-01 Solution 17 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.799e-02 4.799e-02 9.998e-01 0.000 - NaX 8.920e-06 8.920e-06 1.858e-04 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.317e-02 2.317e-02 - Cl 8.331e-04 8.331e-04 - K 2.400e-02 2.400e-02 - Na 3.846e-06 3.846e-06 - -----------------------------Description of solution---------------------------- - - pH = 7.012 Charge balance - pe = 13.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00193 - Volume (L) = 1.00088 - Viscosity (mPa s) = 1.78712 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.616e-08 - Temperature (°C) = 0.01 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.616e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.099e-07 9.739e-08 -6.959 -7.012 -0.052 0.00 - OH- 1.373e-08 1.183e-08 -7.862 -7.927 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.317e-02 - Br- 2.317e-02 1.990e-02 -1.635 -1.701 -0.066 22.49 -Cl 8.331e-04 - Cl- 8.331e-04 7.191e-04 -3.079 -3.143 -0.064 16.53 - HCl 2.752e-11 2.818e-11 -10.560 -10.550 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.091 -44.088 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.069e-02 -1.620 -1.684 -0.064 7.84 -Na 3.846e-06 - Na+ 3.846e-06 3.341e-06 -5.415 -5.476 -0.061 -3.34 -O(0) 1.952e-13 - O2 9.760e-14 9.814e-14 -13.011 -13.008 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -41.08 -44.09 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -10.17 -8.62 1.55 NaCl - O2(g) -10.35 -13.01 -2.66 O2 - Sylvite -5.59 -4.83 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 2.9184e-03 1.0792e-09 -Using mix 17. -Using exchange 17. Exchange assemblage after simulation 2. - -Mixture 17. - - 2.213e-01 Solution 16 Solution after simulation 2. - 5.574e-01 Solution 17 Solution after simulation 2. - 2.213e-01 Solution 18 Solution after simulation 2. +Using solution 4. 24 mM KBr, initial temp 0C +Using exchange 4. -----------------------------Exchange composition------------------------------ @@ -4001,35 +3884,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 9.999e-01 0.000 - NaX 3.371e-06 3.371e-06 7.023e-05 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.341e-02 2.341e-02 - Cl 5.894e-04 5.894e-04 + Br 2.400e-02 2.400e-02 K 2.400e-02 2.400e-02 - Na 1.454e-06 1.454e-06 ----------------------------Description of solution---------------------------- - pH = 7.008 Charge balance - pe = 13.506 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00194 - Volume (L) = 1.00088 - Viscosity (mPa s) = 1.78736 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.712e-08 + Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.712e-08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (52 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4038,45 +3917,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.107e-07 9.815e-08 -6.956 -7.008 -0.052 0.00 - OH- 1.362e-08 1.173e-08 -7.866 -7.931 -0.065 -6.05 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.341e-02 - Br- 2.341e-02 2.011e-02 -1.631 -1.697 -0.066 22.49 -Cl 5.894e-04 - Cl- 5.894e-04 5.088e-04 -3.230 -3.293 -0.064 16.53 - HCl 1.962e-11 2.009e-11 -10.707 -10.697 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.063 -44.061 0.002 28.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.454e-06 - Na+ 1.454e-06 1.263e-06 -5.838 -5.899 -0.061 -3.34 -O(0) 1.716e-13 - O2 8.580e-14 8.627e-14 -13.067 -13.064 0.002 27.49 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.05 -44.06 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -10.74 -9.19 1.55 NaCl - O2(g) -10.41 -13.06 -2.66 O2 - Sylvite -5.74 -4.98 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.1387e-03 1.0791e-09 -Using mix 18. -Using exchange 18. Exchange assemblage after simulation 2. - -Mixture 18. - - 2.213e-01 Solution 17 Solution after simulation 2. - 5.574e-01 Solution 18 Solution after simulation 2. - 2.213e-01 Solution 19 Solution after simulation 2. +Using solution 5. 24 mM KBr, initial temp 0C +Using exchange 5. -----------------------------Exchange composition------------------------------ @@ -4085,35 +3950,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 1.216e-06 1.216e-06 2.534e-05 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.359e-02 2.359e-02 - Cl 4.100e-04 4.100e-04 + Br 2.400e-02 2.400e-02 K 2.400e-02 2.400e-02 - Na 5.244e-07 5.244e-07 ----------------------------Description of solution---------------------------- - pH = 7.006 Charge balance - pe = 13.488 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00195 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78746 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.783e-08 + Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.783e-08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (65 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4122,45 +3983,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.114e-07 9.871e-08 -6.953 -7.006 -0.052 0.00 - OH- 1.354e-08 1.166e-08 -7.868 -7.933 -0.065 -6.05 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.359e-02 - Br- 2.359e-02 2.026e-02 -1.627 -1.693 -0.066 22.49 -Cl 4.100e-04 - Cl- 4.100e-04 3.539e-04 -3.387 -3.451 -0.064 16.53 - HCl 1.373e-11 1.405e-11 -10.862 -10.852 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.022 -44.020 0.002 28.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 5.244e-07 - Na+ 5.244e-07 4.555e-07 -6.280 -6.341 -0.061 -3.34 -O(0) 1.415e-13 - O2 7.077e-14 7.116e-14 -13.150 -13.148 0.002 27.49 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -41.01 -44.02 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -11.34 -9.79 1.55 NaCl - O2(g) -10.49 -13.15 -2.66 O2 - Sylvite -5.90 -5.14 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 4.2546e-04 1.0791e-09 -Using mix 19. -Using exchange 19. Exchange assemblage after simulation 2. - -Mixture 19. - - 2.213e-01 Solution 18 Solution after simulation 2. - 5.574e-01 Solution 19 Solution after simulation 2. - 2.213e-01 Solution 20 Solution after simulation 2. +Using solution 6. 24 mM KBr, initial temp 0C +Using exchange 6. -----------------------------Exchange composition------------------------------ @@ -4169,35 +4016,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 4.191e-07 4.191e-07 8.731e-06 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.372e-02 2.372e-02 - Cl 2.804e-04 2.804e-04 + Br 2.400e-02 2.400e-02 K 2.400e-02 2.400e-02 - Na 1.807e-07 1.807e-07 ----------------------------Description of solution---------------------------- - pH = 7.004 Charge balance - pe = 13.473 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00196 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78749 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.834e-08 + Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.834e-08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (78 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4206,45 +4049,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.118e-07 9.912e-08 -6.952 -7.004 -0.052 0.00 - OH- 1.348e-08 1.162e-08 -7.870 -7.935 -0.065 -6.05 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.372e-02 - Br- 2.372e-02 2.037e-02 -1.625 -1.691 -0.066 22.49 -Cl 2.804e-04 - Cl- 2.804e-04 2.420e-04 -3.552 -3.616 -0.064 16.53 - HCl 9.426e-12 9.650e-12 -11.026 -11.015 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.987 -43.985 0.002 28.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.807e-07 - Na+ 1.807e-07 1.570e-07 -6.743 -6.804 -0.061 -3.34 -O(0) 1.206e-13 - O2 6.030e-14 6.064e-14 -13.220 -13.217 0.002 27.49 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -40.97 -43.98 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -11.97 -10.42 1.55 NaCl - O2(g) -10.56 -13.22 -2.66 O2 - Sylvite -6.06 -5.30 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 1.5231e-04 1.0791e-09 -Using mix 20. -Using exchange 20. Exchange assemblage after simulation 2. - -Mixture 20. - - 2.213e-01 Solution 19 Solution after simulation 2. - 5.574e-01 Solution 20 Solution after simulation 2. - 2.213e-01 Solution 21 Solution after simulation 2. +Using solution 7. 24 mM KBr, initial temp 0C +Using exchange 7. -----------------------------Exchange composition------------------------------ @@ -4253,35 +4082,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 1.381e-07 1.381e-07 2.876e-06 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.381e-02 2.381e-02 - Cl 1.884e-04 1.884e-04 + Br 2.400e-02 2.400e-02 K 2.400e-02 2.400e-02 - Na 5.953e-08 5.953e-08 ----------------------------Description of solution---------------------------- - pH = 7.003 Charge balance - pe = 13.444 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00196 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.870e-08 + Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.870e-08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (91 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4290,45 +4115,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.121e-07 9.941e-08 -6.950 -7.003 -0.052 0.00 - OH- 1.344e-08 1.158e-08 -7.872 -7.936 -0.065 -6.05 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.381e-02 - Br- 2.381e-02 2.045e-02 -1.623 -1.689 -0.066 22.49 -Cl 1.884e-04 - Cl- 1.884e-04 1.626e-04 -3.725 -3.789 -0.064 16.53 - HCl 6.354e-12 6.505e-12 -11.197 -11.187 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.928 -43.925 0.002 28.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 5.953e-08 - Na+ 5.953e-08 5.172e-08 -7.225 -7.286 -0.061 -3.34 -O(0) 9.158e-14 - O2 4.579e-14 4.604e-14 -13.339 -13.337 0.002 27.49 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -40.91 -43.93 -3.01 H2 + H2(g) -39.94 -42.95 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -12.62 -11.08 1.55 NaCl - O2(g) -10.68 -13.34 -2.66 O2 - Sylvite -6.24 -5.47 0.76 KCl + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. - 5.2272e-05 1.0791e-09 -Using mix 21. -Using exchange 21. Exchange assemblage after simulation 2. - -Mixture 21. - - 2.213e-01 Solution 20 Solution after simulation 2. - 5.574e-01 Solution 21 Solution after simulation 2. - 2.213e-01 Solution 22 Solution after simulation 2. +Using solution 8. 24 mM KBr, initial temp 0C +Using exchange 8. -----------------------------Exchange composition------------------------------ @@ -4337,35 +4148,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 4.351e-08 4.351e-08 9.065e-07 -0.061 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.388e-02 2.388e-02 - Cl 1.245e-04 1.245e-04 + Br 2.400e-02 2.400e-02 K 2.400e-02 2.400e-02 - Na 1.876e-08 1.876e-08 ----------------------------Description of solution---------------------------- - pH = 7.002 Charge balance - pe = 13.436 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00196 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.896e-08 + Total alkalinity (eq/kg) = -9.945e-08 Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.896e-08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 13 (104 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4374,4358 +4181,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.124e-07 9.961e-08 -6.949 -7.002 -0.052 0.00 - OH- 1.341e-08 1.156e-08 -7.872 -7.937 -0.065 -6.05 + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.388e-02 - Br- 2.388e-02 2.051e-02 -1.622 -1.688 -0.066 22.49 -Cl 1.245e-04 - Cl- 1.245e-04 1.074e-04 -3.905 -3.969 -0.064 16.53 - HCl 4.205e-12 4.305e-12 -11.376 -11.366 0.010 (0) +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.909 -43.907 0.002 28.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.876e-08 - Na+ 1.876e-08 1.630e-08 -7.727 -7.788 -0.061 -3.34 -O(0) 8.413e-14 - O2 4.206e-14 4.230e-14 -13.376 -13.374 0.002 27.49 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.90 -43.91 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -13.30 -11.76 1.55 NaCl - O2(g) -10.72 -13.37 -2.66 O2 - Sylvite -6.42 -5.65 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 1.7207e-05 1.0791e-09 -Using mix 22. -Using exchange 22. Exchange assemblage after simulation 2. - -Mixture 22. - - 2.213e-01 Solution 21 Solution after simulation 2. - 5.574e-01 Solution 22 Solution after simulation 2. - 2.213e-01 Solution 23 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - NaX 1.313e-08 1.313e-08 2.735e-07 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.392e-02 2.392e-02 - Cl 8.078e-05 8.078e-05 - K 2.400e-02 2.400e-02 - Na 5.660e-09 5.660e-09 - -----------------------------Description of solution---------------------------- - - pH = 7.001 Charge balance - pe = 13.429 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00196 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.913e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.913e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.125e-07 9.975e-08 -6.949 -7.001 -0.052 0.00 - OH- 1.340e-08 1.154e-08 -7.873 -7.938 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.392e-02 - Br- 2.392e-02 2.054e-02 -1.621 -1.687 -0.066 22.49 -Cl 8.078e-05 - Cl- 8.078e-05 6.973e-05 -4.093 -4.157 -0.064 16.53 - HCl 2.733e-12 2.798e-12 -11.563 -11.553 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.895 -43.892 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 5.660e-09 - Na+ 5.660e-09 4.917e-09 -8.247 -8.308 -0.061 -3.34 -O(0) 7.871e-14 - O2 3.935e-14 3.957e-14 -13.405 -13.403 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.88 -43.89 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -14.01 -12.46 1.55 NaCl - O2(g) -10.74 -13.40 -2.66 O2 - Sylvite -6.60 -5.84 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 5.4361e-06 1.0791e-09 -Using mix 23. -Using exchange 23. Exchange assemblage after simulation 2. - -Mixture 23. - - 2.213e-01 Solution 22 Solution after simulation 2. - 5.574e-01 Solution 23 Solution after simulation 2. - 2.213e-01 Solution 24 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 3.794e-09 3.794e-09 7.904e-08 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.395e-02 2.395e-02 - Cl 5.151e-05 5.151e-05 - K 2.400e-02 2.400e-02 - Na 1.636e-09 1.636e-09 - -----------------------------Description of solution---------------------------- - - pH = 7.001 Charge balance - pe = 13.405 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00196 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.925e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.925e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.126e-07 9.984e-08 -6.948 -7.001 -0.052 0.00 - OH- 1.338e-08 1.153e-08 -7.873 -7.938 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.395e-02 - Br- 2.395e-02 2.057e-02 -1.621 -1.687 -0.066 22.49 -Cl 5.151e-05 - Cl- 5.151e-05 4.446e-05 -4.288 -4.352 -0.064 16.53 - HCl 1.744e-12 1.786e-12 -11.758 -11.748 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.846 -43.844 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.636e-09 - Na+ 1.636e-09 1.421e-09 -8.786 -8.847 -0.061 -3.34 -O(0) 6.298e-14 - O2 3.149e-14 3.167e-14 -13.502 -13.499 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.83 -43.84 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -14.75 -13.20 1.55 NaCl - O2(g) -10.84 -13.50 -2.66 O2 - Sylvite -6.80 -6.04 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 1.6491e-06 1.0791e-09 -Using mix 24. -Using exchange 24. Exchange assemblage after simulation 2. - -Mixture 24. - - 2.213e-01 Solution 23 Solution after simulation 2. - 5.574e-01 Solution 24 Solution after simulation 2. - 2.213e-01 Solution 25 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - NaX 1.051e-09 1.051e-09 2.190e-08 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.397e-02 2.397e-02 - Cl 3.228e-05 3.228e-05 - K 2.400e-02 2.400e-02 - Na 4.532e-10 4.532e-10 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.416 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.932e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.932e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.127e-07 9.990e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.337e-08 1.152e-08 -7.874 -7.938 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.397e-02 - Br- 2.397e-02 2.059e-02 -1.620 -1.686 -0.066 22.49 -Cl 3.228e-05 - Cl- 3.228e-05 2.786e-05 -4.491 -4.555 -0.064 16.53 - HCl 1.094e-12 1.120e-12 -11.961 -11.951 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.866 -43.864 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 4.532e-10 - Na+ 4.532e-10 3.937e-10 -9.344 -9.405 -0.061 -3.34 -O(0) 6.910e-14 - O2 3.455e-14 3.474e-14 -13.462 -13.459 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.85 -43.86 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -15.51 -13.96 1.55 NaCl - O2(g) -10.80 -13.46 -2.66 O2 - Sylvite -7.00 -6.24 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 4.8063e-07 1.0791e-09 -Using mix 25. -Using exchange 25. Exchange assemblage after simulation 2. - -Mixture 25. - - 2.213e-01 Solution 24 Solution after simulation 2. - 5.574e-01 Solution 25 Solution after simulation 2. - 2.213e-01 Solution 26 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 2.793e-10 2.793e-10 5.819e-09 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.398e-02 2.398e-02 - Cl 1.988e-05 1.988e-05 - K 2.400e-02 2.400e-02 - Na 1.204e-10 1.204e-10 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.376 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.937e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.937e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.127e-07 9.994e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.337e-08 1.152e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.398e-02 - Br- 2.398e-02 2.060e-02 -1.620 -1.686 -0.066 22.49 -Cl 1.988e-05 - Cl- 1.988e-05 1.716e-05 -4.702 -4.766 -0.064 16.53 - HCl 6.739e-13 6.899e-13 -12.171 -12.161 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.788 -43.785 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.204e-10 - Na+ 1.204e-10 1.046e-10 -9.919 -9.980 -0.061 -3.34 -O(0) 4.806e-14 - O2 2.403e-14 2.416e-14 -13.619 -13.617 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.77 -43.79 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -16.29 -14.75 1.55 NaCl - O2(g) -10.96 -13.62 -2.66 O2 - Sylvite -7.21 -6.45 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 1.3465e-07 1.0791e-09 -Using mix 26. -Using exchange 26. Exchange assemblage after simulation 2. - -Mixture 26. - - 2.213e-01 Solution 25 Solution after simulation 2. - 5.574e-01 Solution 26 Solution after simulation 2. - 2.213e-01 Solution 27 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 7.125e-11 7.125e-11 1.484e-09 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.399e-02 2.399e-02 - Cl 1.205e-05 1.205e-05 - K 2.400e-02 2.400e-02 - Na 3.072e-11 3.072e-11 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.376 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.940e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.940e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 9.996e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.337e-08 1.152e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.399e-02 - Br- 2.399e-02 2.060e-02 -1.620 -1.686 -0.066 22.49 -Cl 1.205e-05 - Cl- 1.205e-05 1.040e-05 -4.919 -4.983 -0.064 16.53 - HCl 4.086e-13 4.183e-13 -12.389 -12.378 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.787 -43.785 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 3.072e-11 - Na+ 3.072e-11 2.669e-11 -10.513 -10.574 -0.061 -3.34 -O(0) 4.792e-14 - O2 2.396e-14 2.409e-14 -13.620 -13.618 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.77 -43.78 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -17.10 -15.56 1.55 NaCl - O2(g) -10.96 -13.62 -2.66 O2 - Sylvite -7.43 -6.67 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 3.6283e-08 1.0791e-09 -Using mix 27. -Using exchange 27. Exchange assemblage after simulation 2. - -Mixture 27. - - 2.213e-01 Solution 26 Solution after simulation 2. - 5.574e-01 Solution 27 Solution after simulation 2. - 2.213e-01 Solution 28 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - NaX 1.746e-11 1.746e-11 3.637e-10 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.399e-02 2.399e-02 - Cl 7.227e-06 7.227e-06 - K 2.400e-02 2.400e-02 - Na 7.527e-12 7.527e-12 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.381 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.942e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.942e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 9.998e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.152e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.399e-02 - Br- 2.399e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -Cl 7.227e-06 - Cl- 7.227e-06 6.238e-06 -5.141 -5.205 -0.064 16.53 - HCl 2.451e-13 2.509e-13 -12.611 -12.600 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.796 -43.794 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 7.527e-12 - Na+ 7.527e-12 6.538e-12 -11.123 -11.185 -0.061 -3.34 -O(0) 4.999e-14 - O2 2.500e-14 2.513e-14 -13.602 -13.600 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.78 -43.79 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -17.94 -16.39 1.55 NaCl - O2(g) -10.94 -13.60 -2.66 O2 - Sylvite -7.65 -6.89 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 9.4125e-09 1.0791e-09 -Using mix 28. -Using exchange 28. Exchange assemblage after simulation 2. - -Mixture 28. - - 2.213e-01 Solution 27 Solution after simulation 2. - 5.574e-01 Solution 28 Solution after simulation 2. - 2.213e-01 Solution 29 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - NaX 4.111e-12 4.111e-12 8.565e-11 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - Cl 4.357e-06 4.357e-06 - K 2.400e-02 2.400e-02 - Na 1.773e-12 1.773e-12 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.943e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.943e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 9.999e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -Cl 4.357e-06 - Cl- 4.357e-06 3.761e-06 -5.361 -5.425 -0.064 16.53 - HCl 1.478e-13 1.513e-13 -12.830 -12.820 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.775 -43.773 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.773e-12 - Na+ 1.773e-12 1.540e-12 -11.751 -11.812 -0.061 -3.34 -O(0) 4.538e-14 - O2 2.269e-14 2.282e-14 -13.644 -13.642 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.76 -43.77 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -18.79 -17.24 1.55 NaCl - O2(g) -10.98 -13.64 -2.66 O2 - Sylvite -7.87 -7.11 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 2.3768e-09 1.0791e-09 -Using mix 29. -Using exchange 29. Exchange assemblage after simulation 2. - -Mixture 29. - - 2.213e-01 Solution 28 Solution after simulation 2. - 5.574e-01 Solution 29 Solution after simulation 2. - 2.213e-01 Solution 30 Solution after simulation 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 9.388e-13 9.388e-13 1.956e-11 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - Cl 2.769e-06 2.769e-06 - K 2.400e-02 2.400e-02 - Na 4.048e-13 4.048e-13 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.313 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.944e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 9.999e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -Cl 2.769e-06 - Cl- 2.769e-06 2.390e-06 -5.558 -5.622 -0.064 16.53 - HCl 9.391e-14 9.615e-14 -13.027 -13.017 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.661 -43.658 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 4.048e-13 - Na+ 4.048e-13 3.517e-13 -12.393 -12.454 -0.061 -3.34 -O(0) 2.678e-14 - O2 1.339e-14 1.346e-14 -13.873 -13.871 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.65 -43.66 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -19.62 -18.08 1.55 NaCl - O2(g) -11.21 -13.87 -2.66 O2 - Sylvite -8.07 -7.31 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - - 6.9499e-10 1.0791e-09 -Using mix 30. -Using exchange 30. Exchange assemblage after simulation 2. - -Mixture 30. - - 2.213e-01 Solution 29 Solution after simulation 2. - 7.787e-01 Solution 30 Solution after simulation 2. - 0.000e+00 Solution 31 24 mM KBr, initial temp 0C - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - NaX 2.451e-13 2.451e-13 5.105e-12 -0.061 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - Cl 2.066e-06 2.066e-06 - K 2.400e-02 2.400e-02 - Na 1.057e-13 1.057e-13 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 13.323 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.944e-08 - Temperature (°C) = 0.00 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 9.999e-08 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -Cl 2.066e-06 - Cl- 2.066e-06 1.783e-06 -5.685 -5.749 -0.064 16.53 - HCl 7.007e-14 7.174e-14 -13.154 -13.144 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.680 -43.678 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -Na 1.057e-13 - Na+ 1.057e-13 9.179e-14 -12.976 -13.037 -0.061 -3.34 -O(0) 2.933e-14 - O2 1.467e-14 1.475e-14 -13.834 -13.831 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -40.67 -43.68 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -20.33 -18.79 1.55 NaCl - O2(g) -11.17 -13.83 -2.66 O2 - Sylvite -8.20 -7.43 0.76 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - ------------------- -End of simulation. ------------------- - ------------------------------------- -Reading input data for simulation 3. ------------------------------------- - - Reinitialize the column... -WARNING: Unknown input, no keyword has been specified. - copy cell 31 1-30 - END ------------------- -End of simulation. ------------------- - ------------------------------------- -Reading input data for simulation 4. ------------------------------------- - - TRANSPORT - multi_d true 0.3e-9 1 0.05 0 false # will give the traditional results when tc = 25 throughout - thermal_diffusion 3.0 1.33e-9 # efine the diffusion coefficient for heat to be equal to Na - implicit true 3 -12 # max_mixf = 3, min_dif_LM = -12 - USER_GRAPH 1 Example 12b -WARNING: No porosities were read; used the value 1.00e+00 from -multi_D. ------------------------------------- -Column data retained from former run ------------------------------------- - - -headings MultiD&Visc&Implicit:Na Cl TC - -start - 10 x = DIST - 20 PLOT_XY x, TOT("Na")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Red - 30 PLOT_XY x, TOT("Cl")*1000, symbol = Circle, line_width = 0, symbol_size = 5, color = Green - 40 PLOT_XY x, TC, symbol = Circle, line_width = 0, symbol_size = 8, y-axis 2, color = Blue - END ------------------------------------- -Beginning of transport calculations. ------------------------------------- - -------------------------------- -Equilibrating initial solutions -------------------------------- - -Using solution 0. Solution after simulation 2. - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Cl 2.400e-02 2.400e-02 - Na 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 24°C) = 2687 - Density (g/cm³) = 0.99829 - Volume (L) = 1.00312 - Viscosity (mPa s) = 0.91317 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.679e-09 - Temperature (°C) = 24.00 - Electrical balance (eq) = 4.679e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 - OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 -Cl 2.400e-02 - Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 - HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) -H(0) 1.422e-25 - H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 -Na 2.400e-02 - Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 -O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(297 K, 1 atm) - - H2(g) -22.05 -25.15 -3.10 H2 - H2O(g) -1.53 -0.00 1.53 H2O - Halite -4.94 -3.37 1.57 NaCl - O2(g) -39.53 -42.41 -2.89 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 1. 24 mM KBr, initial temp 0C -Using exchange 1. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 2. 24 mM KBr, initial temp 0C -Using exchange 2. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (26 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 3. 24 mM KBr, initial temp 0C -Using exchange 3. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (39 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 4. 24 mM KBr, initial temp 0C -Using exchange 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (52 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 5. 24 mM KBr, initial temp 0C -Using exchange 5. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (65 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 6. 24 mM KBr, initial temp 0C -Using exchange 6. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (78 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 7. 24 mM KBr, initial temp 0C -Using exchange 7. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (91 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 8. 24 mM KBr, initial temp 0C -Using exchange 8. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (104 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 9. 24 mM KBr, initial temp 0C -Using exchange 9. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (117 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 10. 24 mM KBr, initial temp 0C -Using exchange 10. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (130 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 11. 24 mM KBr, initial temp 0C -Using exchange 11. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (143 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 12. 24 mM KBr, initial temp 0C -Using exchange 12. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (156 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 13. 24 mM KBr, initial temp 0C -Using exchange 13. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (169 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 14. 24 mM KBr, initial temp 0C -Using exchange 14. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (182 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 15. 24 mM KBr, initial temp 0C -Using exchange 15. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (195 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 16. 24 mM KBr, initial temp 0C -Using exchange 16. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (208 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 17. 24 mM KBr, initial temp 0C -Using exchange 17. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (221 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 18. 24 mM KBr, initial temp 0C -Using exchange 18. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (234 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 19. 24 mM KBr, initial temp 0C -Using exchange 19. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (247 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 20. 24 mM KBr, initial temp 0C -Using exchange 20. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (260 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 21. 24 mM KBr, initial temp 0C -Using exchange 21. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (273 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 22. 24 mM KBr, initial temp 0C -Using exchange 22. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (286 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 23. 24 mM KBr, initial temp 0C -Using exchange 23. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (299 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 24. 24 mM KBr, initial temp 0C -Using exchange 24. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (312 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 25. 24 mM KBr, initial temp 0C -Using exchange 25. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (325 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 26. 24 mM KBr, initial temp 0C -Using exchange 26. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (338 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 27. 24 mM KBr, initial temp 0C -Using exchange 27. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (351 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 28. 24 mM KBr, initial temp 0C -Using exchange 28. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (364 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 29. 24 mM KBr, initial temp 0C -Using exchange 29. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (377 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using solution 30. 24 mM KBr, initial temp 0C -Using exchange 30. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.400e-02 2.400e-02 - K 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 12.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1804 - Density (g/cm³) = 1.00197 - Volume (L) = 1.00089 - Viscosity (mPa s) = 1.78750 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.945e-08 - Temperature (°C) = 0.00 - Electrical balance (eq) = 9.945e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 13 (390 overall) - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 - OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.400e-02 - Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 -K 2.400e-02 - K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 -O(0) 1.011e-15 - O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(273 K, 1 atm) - - H2(g) -39.94 -42.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - O2(g) -12.64 -15.29 -2.66 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -WARNING: -Calculating implicit transport: 30 (mobile) cells, 1 shifts, 723 mixruns, max. mixf = 3. - - -Transport step 1. Multicomponent diffusion run 723. - -Using solution 0. Solution after simulation 4. - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Cl 2.400e-02 2.400e-02 - Na 2.400e-02 2.400e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.000 Charge balance - pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 24°C) = 2687 - Density (g/cm³) = 0.99829 - Volume (L) = 1.00312 - Viscosity (mPa s) = 0.91317 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.679e-09 - Temperature (°C) = 24.00 - Electrical balance (eq) = 4.679e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 - OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 -Cl 2.400e-02 - Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 - HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) -H(0) 1.422e-25 - H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 -Na 2.400e-02 - Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 -O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(297 K, 1 atm) - - H2(g) -22.05 -25.15 -3.10 H2 - H2O(g) -1.53 -0.00 1.53 H2O - Halite -4.94 -3.37 1.57 NaCl - O2(g) -39.53 -42.41 -2.89 O2 - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 1. -Using exchange 1. Exchange assemblage after simulation 4. - -Mixture 1. - - 0.000e+00 Solution 0 Solution after simulation 4. - 1.000e+00 Solution 1 Solution after simulation 4. - 0.000e+00 Solution 2 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 4.651e-02 4.651e-02 9.689e-01 -0.063 - KX 1.493e-03 1.493e-03 3.111e-02 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 5.009e-04 5.009e-04 - Cl 2.337e-02 2.337e-02 - K 8.607e-04 8.607e-04 - Na 2.301e-02 2.301e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.009 Charge balance - pe = 11.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 23°C) = 2634 - Density (g/cm³) = 0.99857 - Volume (L) = 1.00286 - Viscosity (mPa s) = 0.93620 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.387e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.009e-09 - Temperature (°C) = 22.92 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.972e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.109e-07 9.797e-08 -6.955 -7.009 -0.054 0.00 - OH- 1.026e-07 8.798e-08 -6.989 -7.056 -0.067 -4.05 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 -Br 5.009e-04 - Br- 5.009e-04 4.281e-04 -3.300 -3.368 -0.068 24.57 -Cl 2.337e-02 - Cl- 2.337e-02 2.008e-02 -1.631 -1.697 -0.066 18.12 - HCl 6.705e-10 6.864e-10 -9.174 -9.163 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.128 -41.126 0.002 28.61 -K 8.607e-04 - K+ 8.607e-04 7.388e-04 -3.065 -3.131 -0.066 9.04 -Na 2.301e-02 - Na+ 2.301e-02 1.990e-02 -1.638 -1.701 -0.063 -1.41 -O(0) 3.126e-11 - O2 1.563e-11 1.572e-11 -10.806 -10.804 0.002 30.23 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(296 K, 1 atm) - - H2(g) -38.03 -41.13 -3.10 H2 - H2O(g) -1.56 -0.00 1.56 H2O - Halite -4.97 -3.40 1.57 NaCl - O2(g) -7.93 -10.80 -2.88 O2 - Sylvite -5.72 -4.83 0.89 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 2. -Using exchange 2. Exchange assemblage after simulation 4. - -Mixture 2. - - 0.000e+00 Solution 1 Solution after simulation 4. - 1.000e+00 Solution 2 Solution after simulation 4. - 0.000e+00 Solution 3 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 4.341e-02 4.341e-02 9.044e-01 -0.063 - KX 4.590e-03 4.590e-03 9.563e-02 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.489e-03 1.489e-03 - Cl 2.212e-02 2.212e-02 - K 2.587e-03 2.587e-03 - Na 2.102e-02 2.102e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.025 Charge balance - pe = 12.267 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 21°C) = 2530 - Density (g/cm³) = 0.99910 - Volume (L) = 1.00239 - Viscosity (mPa s) = 0.98472 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.361e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.733e-08 - Temperature (°C) = 20.79 - Pressure (atm) = 1.00 - Electrical balance (eq) = 1.008e-07 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.067e-07 9.431e-08 -6.972 -7.025 -0.054 0.00 - OH- 8.998e-08 7.727e-08 -7.046 -7.112 -0.066 -4.15 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.05 -Br 1.489e-03 - Br- 1.489e-03 1.274e-03 -2.827 -2.895 -0.068 24.46 -Cl 2.212e-02 - Cl- 2.212e-02 1.903e-02 -1.655 -1.721 -0.065 18.05 - HCl 6.200e-10 6.345e-10 -9.208 -9.198 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.718 -41.715 0.002 28.61 -K 2.587e-03 - K+ 2.587e-03 2.223e-03 -2.587 -2.653 -0.066 8.97 -Na 2.102e-02 - Na+ 2.102e-02 1.820e-02 -1.677 -1.740 -0.063 -1.54 -O(0) 9.366e-11 - O2 4.683e-11 4.709e-11 -10.329 -10.327 0.002 30.05 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(293 K, 1 atm) - - H2(g) -38.63 -41.72 -3.09 H2 - H2O(g) -1.61 -0.00 1.61 H2O - Halite -5.03 -3.46 1.57 NaCl - O2(g) -7.47 -10.33 -2.86 O2 - Sylvite -5.25 -4.37 0.88 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 3. -Using exchange 3. Exchange assemblage after simulation 4. - -Mixture 3. - - 0.000e+00 Solution 2 Solution after simulation 4. - 1.000e+00 Solution 3 Solution after simulation 4. - 0.000e+00 Solution 4 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 4.017e-02 4.017e-02 8.369e-01 -0.062 - KX 7.827e-03 7.827e-03 1.631e-01 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 2.450e-03 2.450e-03 - Cl 2.090e-02 2.090e-02 - K 4.311e-03 4.311e-03 - Na 1.904e-02 1.904e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.040 Charge balance - pe = 12.487 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 19°C) = 2429 - Density (g/cm³) = 0.99956 - Volume (L) = 1.00198 - Viscosity (mPa s) = 1.03639 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.335e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.501e-08 - Temperature (°C) = 18.70 - Pressure (atm) = 1.00 - Electrical balance (eq) = 1.002e-07 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 1.030e-07 9.115e-08 -6.987 -7.040 -0.053 0.00 - OH- 7.859e-08 6.756e-08 -7.105 -7.170 -0.066 -4.27 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 -Br 2.450e-03 - Br- 2.450e-03 2.100e-03 -2.611 -2.678 -0.067 24.34 -Cl 2.090e-02 - Cl- 2.090e-02 1.800e-02 -1.680 -1.745 -0.065 17.96 - HCl 5.745e-10 5.878e-10 -9.241 -9.231 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.178 -42.176 0.002 28.61 -K 4.311e-03 - K+ 4.311e-03 3.709e-03 -2.365 -2.431 -0.065 8.89 -Na 1.904e-02 - Na+ 1.904e-02 1.650e-02 -1.720 -1.782 -0.062 -1.67 -O(0) 1.558e-10 - O2 7.789e-11 7.831e-11 -10.109 -10.106 0.002 29.87 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(291 K, 1 atm) - - H2(g) -39.09 -42.18 -3.08 H2 - H2O(g) -1.67 -0.00 1.67 H2O - Halite -5.09 -3.53 1.56 NaCl - O2(g) -7.26 -10.11 -2.84 O2 - Sylvite -5.04 -4.18 0.87 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 4. -Using exchange 4. Exchange assemblage after simulation 4. - -Mixture 4. - - 0.000e+00 Solution 3 Solution after simulation 4. - 1.000e+00 Solution 4 Solution after simulation 4. - 0.000e+00 Solution 5 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 3.683e-02 3.683e-02 7.673e-01 -0.062 - KX 1.117e-02 1.117e-02 2.327e-01 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 3.385e-03 3.385e-03 - Cl 1.972e-02 1.972e-02 - K 6.015e-03 6.015e-03 - Na 1.709e-02 1.709e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.053 Charge balance - pe = 12.686 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 17°C) = 2333 - Density (g/cm³) = 0.99997 - Volume (L) = 1.00163 - Viscosity (mPa s) = 1.09077 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.310e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.205e-08 - Temperature (°C) = 16.67 - Pressure (atm) = 1.00 - Electrical balance (eq) = 1.001e-07 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.996e-08 8.851e-08 -7.000 -7.053 -0.053 0.00 - OH- 6.844e-08 5.891e-08 -7.165 -7.230 -0.065 -4.39 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 -Br 3.385e-03 - Br- 3.385e-03 2.904e-03 -2.470 -2.537 -0.067 24.20 -Cl 1.972e-02 - Cl- 1.972e-02 1.700e-02 -1.705 -1.770 -0.064 17.87 - HCl 5.336e-10 5.458e-10 -9.273 -9.263 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.594 -42.592 0.002 28.62 -K 6.015e-03 - K+ 6.015e-03 5.182e-03 -2.221 -2.286 -0.065 8.80 -Na 1.709e-02 - Na+ 1.709e-02 1.482e-02 -1.767 -1.829 -0.062 -1.80 -O(0) 2.174e-10 - O2 1.087e-10 1.093e-10 -9.964 -9.961 0.002 29.67 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(289 K, 1 atm) - - H2(g) -39.51 -42.59 -3.08 H2 - H2O(g) -1.72 -0.00 1.72 H2O - Halite -5.16 -3.60 1.56 NaCl - O2(g) -7.13 -9.96 -2.83 O2 - Sylvite -4.91 -4.06 0.86 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 5. -Using exchange 5. Exchange assemblage after simulation 4. - -Mixture 5. - - 0.000e+00 Solution 4 Solution after simulation 4. - 1.000e+00 Solution 5 Solution after simulation 4. - 0.000e+00 Solution 6 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 3.341e-02 3.341e-02 6.961e-01 -0.061 - KX 1.459e-02 1.459e-02 3.039e-01 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 4.291e-03 4.291e-03 - Cl 1.857e-02 1.857e-02 - K 7.684e-03 7.684e-03 - Na 1.518e-02 1.518e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.064 Charge balance - pe = 12.874 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 2242 - Density (g/cm³) = 1.00032 - Volume (L) = 1.00133 - Viscosity (mPa s) = 1.14723 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.286e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.840e-08 - Temperature (°C) = 14.73 - Pressure (atm) = 1.00 - Electrical balance (eq) = 1.000e-07 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.746e-08 8.636e-08 -7.011 -7.064 -0.052 0.00 - OH- 5.955e-08 5.132e-08 -7.225 -7.290 -0.065 -4.52 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.03 -Br 4.291e-03 - Br- 4.291e-03 3.686e-03 -2.367 -2.433 -0.066 24.06 -Cl 1.857e-02 - Cl- 1.857e-02 1.603e-02 -1.731 -1.795 -0.064 17.76 - HCl 4.970e-10 5.083e-10 -9.304 -9.294 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.981 -42.979 0.002 28.62 -K 7.684e-03 - K+ 7.684e-03 6.627e-03 -2.114 -2.179 -0.064 8.72 -Na 1.518e-02 - Na+ 1.518e-02 1.318e-02 -1.819 -1.880 -0.061 -1.94 -O(0) 2.784e-10 - O2 1.392e-10 1.399e-10 -9.856 -9.854 0.002 29.48 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(287 K, 1 atm) - - H2(g) -39.91 -42.98 -3.07 H2 - H2O(g) -1.78 -0.00 1.78 H2O - Halite -5.24 -3.68 1.56 NaCl - O2(g) -7.04 -9.85 -2.81 O2 - Sylvite -4.82 -3.97 0.85 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 6. -Using exchange 6. Exchange assemblage after simulation 4. - -Mixture 6. - - 0.000e+00 Solution 5 Solution after simulation 4. - 1.000e+00 Solution 6 Solution after simulation 4. - 0.000e+00 Solution 7 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 2.997e-02 2.997e-02 6.243e-01 -0.061 - KX 1.803e-02 1.803e-02 3.757e-01 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 5.168e-03 5.168e-03 - Cl 1.747e-02 1.747e-02 - K 9.300e-03 9.300e-03 - Na 1.334e-02 1.334e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.072 Charge balance - pe = 13.050 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 13°C) = 2158 - Density (g/cm³) = 1.00061 - Volume (L) = 1.00110 - Viscosity (mPa s) = 1.20503 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.264e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.405e-08 - Temperature (°C) = 12.90 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.996e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.548e-08 8.467e-08 -7.020 -7.072 -0.052 0.00 - OH- 5.189e-08 4.476e-08 -7.285 -7.349 -0.064 -4.65 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.03 -Br 5.168e-03 - Br- 5.168e-03 4.444e-03 -2.287 -2.352 -0.066 23.92 -Cl 1.747e-02 - Cl- 1.747e-02 1.510e-02 -1.758 -1.821 -0.063 17.66 - HCl 4.643e-10 4.747e-10 -9.333 -9.324 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.343 -43.341 0.002 28.62 -K 9.300e-03 - K+ 9.300e-03 8.028e-03 -2.032 -2.095 -0.064 8.63 -Na 1.334e-02 - Na+ 1.334e-02 1.160e-02 -1.875 -1.936 -0.061 -2.07 -O(0) 3.385e-10 - O2 1.692e-10 1.701e-10 -9.771 -9.769 0.002 29.28 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(286 K, 1 atm) - - H2(g) -40.28 -43.34 -3.07 H2 - H2O(g) -1.83 -0.00 1.83 H2O - Halite -5.32 -3.76 1.56 NaCl - O2(g) -6.98 -9.77 -2.79 O2 - Sylvite -4.75 -3.92 0.84 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 7. -Using exchange 7. Exchange assemblage after simulation 4. - -Mixture 7. - - 0.000e+00 Solution 6 Solution after simulation 4. - 1.000e+00 Solution 7 Solution after simulation 4. - 0.000e+00 Solution 8 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - NaX 2.654e-02 2.654e-02 5.530e-01 -0.060 - KX 2.146e-02 2.146e-02 4.470e-01 0.000 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 6.018e-03 6.018e-03 - Cl 1.642e-02 1.642e-02 - K 1.085e-02 1.085e-02 - Na 1.159e-02 1.159e-02 - -----------------------------Description of solution---------------------------- - - pH = 7.079 Charge balance - pe = 13.216 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 11°C) = 2080 - Density (g/cm³) = 1.00084 - Volume (L) = 1.00091 - Viscosity (mPa s) = 1.26331 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.244e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.903e-08 - Temperature (°C) = 11.19 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.990e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.396e-08 8.338e-08 -7.027 -7.079 -0.052 0.00 - OH- 4.536e-08 3.916e-08 -7.343 -7.407 -0.064 -4.79 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 6.018e-03 - Br- 6.018e-03 5.179e-03 -2.221 -2.286 -0.065 23.78 -Cl 1.642e-02 - Cl- 1.642e-02 1.420e-02 -1.785 -1.848 -0.063 17.55 - HCl 4.348e-10 4.445e-10 -9.362 -9.352 0.010 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.679 -43.677 0.002 28.62 -K 1.085e-02 - K+ 1.085e-02 9.372e-03 -1.965 -2.028 -0.063 8.55 -Na 1.159e-02 - Na+ 1.159e-02 1.009e-02 -1.936 -1.996 -0.060 -2.21 -O(0) 3.976e-10 - O2 1.988e-10 1.998e-10 -9.702 -9.699 0.002 29.09 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(284 K, 1 atm) - - H2(g) -40.62 -43.68 -3.06 H2 - H2O(g) -1.88 -0.00 1.88 H2O - Halite -5.40 -3.84 1.56 NaCl - O2(g) -6.92 -9.70 -2.78 O2 - Sylvite -4.70 -3.88 0.83 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 8. -Using exchange 8. Exchange assemblage after simulation 4. - -Mixture 8. - - 0.000e+00 Solution 7 Solution after simulation 4. - 1.000e+00 Solution 8 Solution after simulation 4. - 0.000e+00 Solution 9 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 2.480e-02 2.480e-02 5.167e-01 0.000 - NaX 2.320e-02 2.320e-02 4.833e-01 -0.060 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 6.839e-03 6.839e-03 - Cl 1.542e-02 1.542e-02 - K 1.231e-02 1.231e-02 - Na 9.954e-03 9.954e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.084 Charge balance - pe = 13.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 2011 - Density (g/cm³) = 1.00102 - Volume (L) = 1.00078 - Viscosity (mPa s) = 1.32113 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.226e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.337e-08 - Temperature (°C) = 9.62 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.984e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.284e-08 8.243e-08 -7.032 -7.084 -0.052 0.00 - OH- 3.987e-08 3.446e-08 -7.399 -7.463 -0.063 -4.93 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 6.839e-03 - Br- 6.839e-03 5.891e-03 -2.165 -2.230 -0.065 23.63 -Cl 1.542e-02 - Cl- 1.542e-02 1.335e-02 -1.812 -1.875 -0.063 17.44 - HCl 4.081e-10 4.171e-10 -9.389 -9.380 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.990 -43.988 0.002 28.63 -K 1.231e-02 - K+ 1.231e-02 1.064e-02 -1.910 -1.973 -0.063 8.46 -Na 9.954e-03 - Na+ 9.954e-03 8.668e-03 -2.002 -2.062 -0.060 -2.34 -O(0) 4.554e-10 - O2 2.277e-10 2.289e-10 -9.643 -9.640 0.002 28.90 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(282 K, 1 atm) - - H2(g) -40.93 -43.99 -3.05 H2 - H2O(g) -1.92 -0.00 1.92 H2O - Halite -5.49 -3.94 1.56 NaCl - O2(g) -6.88 -9.64 -2.76 O2 - Sylvite -4.67 -3.85 0.82 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 9. -Using exchange 9. Exchange assemblage after simulation 4. - -Mixture 9. - - 0.000e+00 Solution 8 Solution after simulation 4. - 1.000e+00 Solution 9 Solution after simulation 4. - 0.000e+00 Solution 10 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 2.801e-02 2.801e-02 5.836e-01 0.000 - NaX 1.999e-02 1.999e-02 4.164e-01 -0.060 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 7.634e-03 7.634e-03 - Cl 1.448e-02 1.448e-02 - K 1.367e-02 1.367e-02 - Na 8.441e-03 8.441e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.087 Charge balance - pe = 13.512 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 8°C) = 1949 - Density (g/cm³) = 1.00116 - Volume (L) = 1.00069 - Viscosity (mPa s) = 1.37753 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.211e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.712e-08 - Temperature (°C) = 8.18 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.978e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.205e-08 8.177e-08 -7.036 -7.087 -0.051 0.00 - OH- 3.531e-08 3.053e-08 -7.452 -7.515 -0.063 -5.06 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 7.634e-03 - Br- 7.634e-03 6.581e-03 -2.117 -2.182 -0.064 23.49 -Cl 1.448e-02 - Cl- 1.448e-02 1.254e-02 -1.839 -1.902 -0.062 17.33 - HCl 3.837e-10 3.921e-10 -9.416 -9.407 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.274 -44.272 0.002 28.63 -K 1.367e-02 - K+ 1.367e-02 1.183e-02 -1.864 -1.927 -0.063 8.38 -Na 8.441e-03 - Na+ 8.441e-03 7.355e-03 -2.074 -2.133 -0.060 -2.47 -O(0) 5.119e-10 - O2 2.560e-10 2.573e-10 -9.592 -9.590 0.002 28.72 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(281 K, 1 atm) - - H2(g) -41.22 -44.27 -3.05 H2 - H2O(g) -1.96 -0.00 1.96 H2O - Halite -5.59 -4.04 1.56 NaCl - O2(g) -6.84 -9.59 -2.75 O2 - Sylvite -4.64 -3.83 0.81 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 10. -Using exchange 10. Exchange assemblage after simulation 4. - -Mixture 10. - - 0.000e+00 Solution 9 Solution after simulation 4. - 1.000e+00 Solution 10 Solution after simulation 4. - 0.000e+00 Solution 11 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 3.103e-02 3.103e-02 6.465e-01 0.000 - NaX 1.697e-02 1.697e-02 3.535e-01 -0.060 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 8.403e-03 8.403e-03 - Cl 1.359e-02 1.359e-02 - K 1.493e-02 1.493e-02 - Na 7.066e-03 7.066e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.090 Charge balance - pe = 13.641 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 7°C) = 1895 - Density (g/cm³) = 1.00127 - Volume (L) = 1.00063 - Viscosity (mPa s) = 1.43158 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.199e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.032e-08 - Temperature (°C) = 6.89 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.972e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.151e-08 8.132e-08 -7.039 -7.090 -0.051 0.00 - OH- 3.155e-08 2.730e-08 -7.501 -7.564 -0.063 -5.19 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 8.403e-03 - Br- 8.403e-03 7.248e-03 -2.076 -2.140 -0.064 23.36 -Cl 1.359e-02 - Cl- 1.359e-02 1.178e-02 -1.867 -1.929 -0.062 17.23 - HCl 3.613e-10 3.692e-10 -9.442 -9.433 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.531 -44.528 0.002 28.63 -K 1.493e-02 - K+ 1.493e-02 1.292e-02 -1.826 -1.889 -0.063 8.31 -Na 7.066e-03 - Na+ 7.066e-03 6.160e-03 -2.151 -2.210 -0.060 -2.59 -O(0) 5.669e-10 - O2 2.835e-10 2.849e-10 -9.548 -9.545 0.002 28.55 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(280 K, 1 atm) - - H2(g) -41.49 -44.53 -3.04 H2 - H2O(g) -2.00 -0.00 2.00 H2O - Halite -5.69 -4.14 1.55 NaCl - O2(g) -6.81 -9.55 -2.73 O2 - Sylvite -4.62 -3.82 0.80 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 11. -Using exchange 11. Exchange assemblage after simulation 4. - -Mixture 11. - - 0.000e+00 Solution 10 Solution after simulation 4. - 1.000e+00 Solution 11 Solution after simulation 4. - 0.000e+00 Solution 12 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 3.381e-02 3.381e-02 7.045e-01 0.000 - NaX 1.419e-02 1.419e-02 2.955e-01 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 9.147e-03 9.147e-03 - Cl 1.275e-02 1.275e-02 - K 1.606e-02 1.606e-02 - Na 5.837e-03 5.837e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.091 Charge balance - pe = 13.757 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 6°C) = 1849 - Density (g/cm³) = 1.00134 - Volume (L) = 1.00060 - Viscosity (mPa s) = 1.48246 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.190e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.302e-08 - Temperature (°C) = 5.75 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.967e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.115e-08 8.104e-08 -7.040 -7.091 -0.051 0.00 - OH- 2.847e-08 2.465e-08 -7.546 -7.608 -0.063 -5.32 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 9.147e-03 - Br- 9.147e-03 7.894e-03 -2.039 -2.103 -0.064 23.23 -Cl 1.275e-02 - Cl- 1.275e-02 1.106e-02 -1.894 -1.956 -0.062 17.13 - HCl 3.405e-10 3.478e-10 -9.468 -9.459 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.760 -44.758 0.002 28.63 -K 1.606e-02 - K+ 1.606e-02 1.391e-02 -1.794 -1.857 -0.062 8.24 -Na 5.837e-03 - Na+ 5.837e-03 5.091e-03 -2.234 -2.293 -0.059 -2.70 -O(0) 6.202e-10 - O2 3.101e-10 3.116e-10 -9.509 -9.506 0.002 28.39 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(278 K, 1 atm) - - H2(g) -41.72 -44.76 -3.04 H2 - H2O(g) -2.04 -0.00 2.03 H2O - Halite -5.80 -4.25 1.55 NaCl - O2(g) -6.78 -9.51 -2.72 O2 - Sylvite -4.61 -3.81 0.80 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 12. -Using exchange 12. Exchange assemblage after simulation 4. - -Mixture 12. - - 0.000e+00 Solution 11 Solution after simulation 4. - 1.000e+00 Solution 12 Solution after simulation 4. - 0.000e+00 Solution 13 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 3.632e-02 3.632e-02 7.567e-01 0.000 - NaX 1.168e-02 1.168e-02 2.433e-01 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 9.867e-03 9.867e-03 - Cl 1.197e-02 1.197e-02 - K 1.708e-02 1.708e-02 - Na 4.758e-03 4.758e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.092 Charge balance - pe = 13.860 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 1809 - Density (g/cm³) = 1.00140 - Volume (L) = 1.00059 - Viscosity (mPa s) = 1.52948 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.183e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.529e-08 - Temperature (°C) = 4.75 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.963e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.094e-08 8.087e-08 -7.041 -7.092 -0.051 0.00 - OH- 2.597e-08 2.249e-08 -7.585 -7.648 -0.062 -5.43 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 9.867e-03 - Br- 9.867e-03 8.519e-03 -2.006 -2.070 -0.064 23.12 -Cl 1.197e-02 - Cl- 1.197e-02 1.038e-02 -1.922 -1.984 -0.062 17.03 - HCl 3.210e-10 3.279e-10 -9.494 -9.484 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.963 -44.961 0.002 28.64 -K 1.708e-02 - K+ 1.708e-02 1.480e-02 -1.768 -1.830 -0.062 8.17 -Na 4.758e-03 - Na+ 4.758e-03 4.152e-03 -2.323 -2.382 -0.059 -2.80 -O(0) 6.716e-10 - O2 3.358e-10 3.375e-10 -9.474 -9.472 0.002 28.25 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(277 K, 1 atm) - - H2(g) -41.93 -44.96 -3.03 H2 - H2O(g) -2.07 -0.00 2.06 H2O - Halite -5.92 -4.37 1.55 NaCl - O2(g) -6.76 -9.47 -2.71 O2 - Sylvite -4.61 -3.81 0.79 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 13. -Using exchange 13. Exchange assemblage after simulation 4. - -Mixture 13. - - 0.000e+00 Solution 12 Solution after simulation 4. - 1.000e+00 Solution 13 Solution after simulation 4. - 0.000e+00 Solution 14 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 3.853e-02 3.853e-02 8.028e-01 0.000 - NaX 9.468e-03 9.468e-03 1.972e-01 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.056e-02 1.056e-02 - Cl 1.123e-02 1.123e-02 - K 1.797e-02 1.797e-02 - Na 3.828e-03 3.828e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.093 Charge balance - pe = 13.950 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 4°C) = 1777 - Density (g/cm³) = 1.00144 - Volume (L) = 1.00060 - Viscosity (mPa s) = 1.57214 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.180e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.717e-08 - Temperature (°C) = 3.88 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.960e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.082e-08 8.078e-08 -7.042 -7.093 -0.051 0.00 - OH- 2.395e-08 2.075e-08 -7.621 -7.683 -0.062 -5.54 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.056e-02 - Br- 1.056e-02 9.123e-03 -1.976 -2.040 -0.064 23.01 -Cl 1.123e-02 - Cl- 1.123e-02 9.746e-03 -1.950 -2.011 -0.062 16.95 - HCl 3.027e-10 3.092e-10 -9.519 -9.510 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.140 -45.138 0.002 28.64 -K 1.797e-02 - K+ 1.797e-02 1.558e-02 -1.745 -1.808 -0.062 8.12 -Na 3.828e-03 - Na+ 3.828e-03 3.340e-03 -2.417 -2.476 -0.059 -2.90 -O(0) 7.211e-10 - O2 3.605e-10 3.623e-10 -9.443 -9.441 0.002 28.12 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(277 K, 1 atm) - - H2(g) -42.11 -45.14 -3.03 H2 - H2O(g) -2.09 -0.00 2.09 H2O - Halite -6.04 -4.49 1.55 NaCl - O2(g) -6.74 -9.44 -2.70 O2 - Sylvite -4.61 -3.82 0.79 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 14. -Using exchange 14. Exchange assemblage after simulation 4. - -Mixture 14. - - 0.000e+00 Solution 13 Solution after simulation 4. - 1.000e+00 Solution 14 Solution after simulation 4. - 0.000e+00 Solution 15 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.044e-02 4.044e-02 8.425e-01 0.000 - NaX 7.559e-03 7.559e-03 1.575e-01 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.124e-02 1.124e-02 - Cl 1.055e-02 1.055e-02 - K 1.875e-02 1.875e-02 - Na 3.038e-03 3.038e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.093 Charge balance - pe = 14.028 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 3°C) = 1750 - Density (g/cm³) = 1.00146 - Volume (L) = 1.00061 - Viscosity (mPa s) = 1.61015 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.178e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.871e-08 - Temperature (°C) = 3.14 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.957e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.075e-08 8.073e-08 -7.042 -7.093 -0.051 0.00 - OH- 2.233e-08 1.935e-08 -7.651 -7.713 -0.062 -5.63 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.124e-02 - Br- 1.124e-02 9.706e-03 -1.949 -2.013 -0.064 22.92 -Cl 1.055e-02 - Cl- 1.055e-02 9.153e-03 -1.977 -2.038 -0.062 16.88 - HCl 2.854e-10 2.916e-10 -9.545 -9.535 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.293 -45.290 0.002 28.64 -K 1.875e-02 - K+ 1.875e-02 1.625e-02 -1.727 -1.789 -0.062 8.07 -Na 3.038e-03 - Na+ 3.038e-03 2.652e-03 -2.517 -2.576 -0.059 -2.98 -O(0) 7.684e-10 - O2 3.842e-10 3.861e-10 -9.415 -9.413 0.002 28.01 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(276 K, 1 atm) - - H2(g) -42.26 -45.29 -3.03 H2 - H2O(g) -2.11 -0.00 2.11 H2O - Halite -6.17 -4.61 1.55 NaCl - O2(g) -6.72 -9.41 -2.69 O2 - Sylvite -4.61 -3.83 0.78 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 15. -Using exchange 15. Exchange assemblage after simulation 4. - -Mixture 15. - - 0.000e+00 Solution 14 Solution after simulation 4. - 1.000e+00 Solution 15 Solution after simulation 4. - 0.000e+00 Solution 16 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.205e-02 4.205e-02 8.761e-01 0.000 - NaX 5.947e-03 5.947e-03 1.239e-01 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.188e-02 1.188e-02 - Cl 9.910e-03 9.910e-03 - K 1.941e-02 1.941e-02 - Na 2.380e-03 2.380e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.093 Charge balance - pe = 14.095 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 3°C) = 1729 - Density (g/cm³) = 1.00148 - Volume (L) = 1.00063 - Viscosity (mPa s) = 1.64339 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.179e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.996e-08 - Temperature (°C) = 2.51 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.955e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.072e-08 8.071e-08 -7.042 -7.093 -0.051 0.00 - OH- 2.103e-08 1.822e-08 -7.677 -7.739 -0.062 -5.71 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.188e-02 - Br- 1.188e-02 1.027e-02 -1.925 -1.989 -0.064 22.84 -Cl 9.910e-03 - Cl- 9.910e-03 8.601e-03 -2.004 -2.065 -0.062 16.81 - HCl 2.691e-10 2.750e-10 -9.570 -9.561 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.423 -45.421 0.002 28.64 -K 1.941e-02 - K+ 1.941e-02 1.683e-02 -1.712 -1.774 -0.062 8.02 -Na 2.380e-03 - Na+ 2.380e-03 2.078e-03 -2.623 -2.682 -0.059 -3.05 -O(0) 8.135e-10 - O2 4.068e-10 4.088e-10 -9.391 -9.388 0.002 27.91 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(275 K, 1 atm) - - H2(g) -42.40 -45.42 -3.02 H2 - H2O(g) -2.13 -0.00 2.13 H2O - Halite -6.30 -4.75 1.55 NaCl - O2(g) -6.70 -9.39 -2.69 O2 - Sylvite -4.62 -3.84 0.78 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 16. -Using exchange 16. Exchange assemblage after simulation 4. - -Mixture 16. - - 0.000e+00 Solution 15 Solution after simulation 4. - 1.000e+00 Solution 16 Solution after simulation 4. - 0.000e+00 Solution 17 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.339e-02 4.339e-02 9.039e-01 0.000 - NaX 4.611e-03 4.611e-03 9.606e-02 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.250e-02 1.250e-02 - Cl 9.317e-03 9.317e-03 - K 1.998e-02 1.998e-02 - Na 1.841e-03 1.841e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.093 Charge balance - pe = 14.151 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 2°C) = 1713 - Density (g/cm³) = 1.00150 - Volume (L) = 1.00065 - Viscosity (mPa s) = 1.67196 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.182e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.097e-08 - Temperature (°C) = 1.99 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.953e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.071e-08 8.071e-08 -7.042 -7.093 -0.051 0.00 - OH- 2.000e-08 1.733e-08 -7.699 -7.761 -0.062 -5.78 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.250e-02 - Br- 1.250e-02 1.080e-02 -1.903 -1.966 -0.064 22.77 -Cl 9.317e-03 - Cl- 9.317e-03 8.086e-03 -2.031 -2.092 -0.062 16.76 - HCl 2.538e-10 2.593e-10 -9.595 -9.586 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.533 -45.531 0.002 28.64 -K 1.998e-02 - K+ 1.998e-02 1.733e-02 -1.699 -1.761 -0.062 7.98 -Na 1.841e-03 - Na+ 1.841e-03 1.607e-03 -2.735 -2.794 -0.059 -3.11 -O(0) 8.563e-10 - O2 4.282e-10 4.303e-10 -9.368 -9.366 0.002 27.83 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(275 K, 1 atm) - - H2(g) -42.51 -45.53 -3.02 H2 - H2O(g) -2.15 -0.00 2.15 H2O - Halite -6.44 -4.89 1.55 NaCl - O2(g) -6.68 -9.37 -2.68 O2 - Sylvite -4.63 -3.85 0.78 KCl - -**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. - For ideal gases, phi = 1. - -Using mix 17. -Using exchange 17. Exchange assemblage after simulation 4. - -Mixture 17. - - 0.000e+00 Solution 16 Solution after simulation 4. - 1.000e+00 Solution 17 Solution after simulation 4. - 0.000e+00 Solution 18 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ - -X 4.800e-02 mol - - Equiv- Equivalent Log - Species Moles alents Fraction Gamma - - KX 4.447e-02 4.447e-02 9.265e-01 0.000 - NaX 3.526e-03 3.526e-03 7.346e-02 -0.059 - ------------------------------Solution composition------------------------------ - - Elements Molality Moles - - Br 1.310e-02 1.310e-02 - Cl 8.768e-03 8.768e-03 - K 2.046e-02 2.046e-02 - Na 1.406e-03 1.406e-03 - -----------------------------Description of solution---------------------------- - - pH = 7.093 Charge balance - pe = 14.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 2°C) = 1700 - Density (g/cm³) = 1.00151 - Volume (L) = 1.00068 - Viscosity (mPa s) = 1.69610 - Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.186e-02 - Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.177e-08 - Temperature (°C) = 1.56 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.951e-08 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 - Total H = 1.110124e+02 - Total O = 5.550622e+01 - -----------------------------Distribution of species---------------------------- - - Log Log Log mole V - Species Molality Activity Molality Activity Gamma cm³/mol - - H+ 9.071e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.918e-08 1.662e-08 -7.717 -7.779 -0.062 -5.83 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.310e-02 - Br- 1.310e-02 1.131e-02 -1.883 -1.946 -0.064 22.71 -Cl 8.768e-03 - Cl- 8.768e-03 7.609e-03 -2.057 -2.119 -0.062 16.71 - HCl 2.395e-10 2.447e-10 -9.621 -9.611 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.625 -45.622 0.002 28.64 -K 2.046e-02 - K+ 2.046e-02 1.774e-02 -1.689 -1.751 -0.062 7.95 -Na 1.406e-03 - Na+ 1.406e-03 1.228e-03 -2.852 -2.911 -0.059 -3.16 -O(0) 8.967e-10 - O2 4.484e-10 4.506e-10 -9.348 -9.346 0.002 27.75 - -------------------------------Saturation indices------------------------------- - - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.60 -45.62 -3.02 H2 - H2O(g) -2.16 -0.00 2.16 H2O - Halite -6.58 -5.03 1.55 NaCl - O2(g) -6.67 -9.35 -2.68 O2 - Sylvite -4.64 -3.87 0.77 KCl + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 18. -Using exchange 18. Exchange assemblage after simulation 4. - -Mixture 18. - - 0.000e+00 Solution 17 Solution after simulation 4. - 1.000e+00 Solution 18 Solution after simulation 4. - 0.000e+00 Solution 19 Solution after simulation 4. +Using solution 9. 24 mM KBr, initial temp 0C +Using exchange 9. -----------------------------Exchange composition------------------------------ @@ -8734,35 +4214,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.534e-02 4.534e-02 9.446e-01 0.000 - NaX 2.661e-03 2.661e-03 5.543e-02 -0.059 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.366e-02 1.366e-02 - Cl 8.260e-03 8.260e-03 - K 2.086e-02 2.086e-02 - Na 1.061e-03 1.061e-03 + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.237 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1692 - Density (g/cm³) = 1.00152 - Volume (L) = 1.00070 - Viscosity (mPa s) = 1.71615 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.192e-02 + Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.240e-08 - Temperature (°C) = 1.21 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.949e-08 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 13 (117 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -8771,44 +4247,31 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.072e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.854e-08 1.606e-08 -7.732 -7.794 -0.062 -5.88 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.366e-02 - Br- 1.366e-02 1.180e-02 -1.865 -1.928 -0.064 22.66 -Cl 8.260e-03 - Cl- 8.260e-03 7.167e-03 -2.083 -2.145 -0.062 16.67 - HCl 2.261e-10 2.310e-10 -9.646 -9.636 0.009 (0) + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.700 -45.698 0.002 28.64 -K 2.086e-02 - K+ 2.086e-02 1.808e-02 -1.681 -1.743 -0.062 7.93 -Na 1.061e-03 - Na+ 1.061e-03 9.263e-04 -2.974 -3.033 -0.059 -3.20 -O(0) 9.346e-10 - O2 4.673e-10 4.696e-10 -9.330 -9.328 0.002 27.70 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.68 -45.70 -3.02 H2 - H2O(g) -2.17 -0.00 2.17 H2O - Halite -6.73 -5.18 1.55 NaCl - O2(g) -6.66 -9.33 -2.67 O2 - Sylvite -4.66 -3.89 0.77 KCl + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 19. -Using exchange 19. Exchange assemblage after simulation 4. - -Mixture 19. - - 0.000e+00 Solution 18 Solution after simulation 4. - 1.000e+00 Solution 19 Solution after simulation 4. - 0.000e+00 Solution 20 Solution after simulation 4. +Using solution 10. 24 mM KBr, initial temp 0C +Using exchange 10. -----------------------------Exchange composition------------------------------ @@ -8817,35 +4280,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.602e-02 4.602e-02 9.587e-01 0.000 - NaX 1.982e-03 1.982e-03 4.130e-02 -0.059 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.419e-02 1.419e-02 - Cl 7.792e-03 7.792e-03 - K 2.119e-02 2.119e-02 - Na 7.913e-04 7.913e-04 + Br 2.400e-02 2.400e-02 + K 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.268 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1686 - Density (g/cm³) = 1.00154 - Volume (L) = 1.00072 - Viscosity (mPa s) = 1.73253 + pH = 7.000 Charge balance + pe = 12.957 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1805 + Density (g/cm³) = 1.00197 + Volume (L) = 1.00089 + Viscosity (mPa s) = 1.78740 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.198e-02 + Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.290e-08 - Temperature (°C) = 0.93 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.948e-08 + Total alkalinity (eq/kg) = -9.945e-08 + Temperature (°C) = 0.00 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 13 (130 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -8854,81 +4313,60 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.072e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.804e-08 1.563e-08 -7.744 -7.806 -0.062 -5.92 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.419e-02 - Br- 1.419e-02 1.225e-02 -1.848 -1.912 -0.064 22.62 -Cl 7.792e-03 - Cl- 7.792e-03 6.761e-03 -2.108 -2.170 -0.062 16.64 - HCl 2.136e-10 2.183e-10 -9.670 -9.661 0.009 (0) + H+ 1.128e-07 1.000e-07 -6.948 -7.000 -0.052 0.00 + OH- 1.336e-08 1.151e-08 -7.874 -7.939 -0.065 -6.05 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 +Br 2.400e-02 + Br- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 22.49 H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.762 -45.760 0.002 28.64 -K 2.119e-02 - K+ 2.119e-02 1.837e-02 -1.674 -1.736 -0.062 7.90 -Na 7.913e-04 - Na+ 7.913e-04 6.906e-04 -3.102 -3.161 -0.059 -3.23 -O(0) 9.698e-10 - O2 4.849e-10 4.873e-10 -9.314 -9.312 0.002 27.65 + H2 0.000e+00 0.000e+00 -42.949 -42.947 0.002 28.65 +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 7.84 +O(0) 1.011e-15 + O2 5.053e-16 5.081e-16 -15.296 -15.294 0.002 27.49 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.74 -45.76 -3.02 H2 - H2O(g) -2.18 -0.00 2.18 H2O - Halite -6.88 -5.33 1.55 NaCl - O2(g) -6.64 -9.31 -2.67 O2 - Sylvite -4.68 -3.91 0.77 KCl + H2(g) -39.94 -42.95 -3.01 H2 + H2O(g) -2.21 -0.00 2.21 H2O + O2(g) -12.64 -15.29 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 20. -Using exchange 20. Exchange assemblage after simulation 4. - -Mixture 20. - - 0.000e+00 Solution 19 Solution after simulation 4. - 1.000e+00 Solution 20 Solution after simulation 4. - 0.000e+00 Solution 21 Solution after simulation 4. - ------------------------------Exchange composition------------------------------ +WARNING: +Calculating implicit transport: 10 (mobile) cells, 1 shifts, 56 mixruns, max. mixf = 3. -X 4.800e-02 mol - Equiv- Equivalent Log - Species Moles alents Fraction Gamma +Transport step 1. Multicomponent diffusion run 56. - KX 4.654e-02 4.654e-02 9.696e-01 0.000 - NaX 1.459e-03 1.459e-03 3.040e-02 -0.059 +Using solution 0. Solution after simulation 6. -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.468e-02 1.468e-02 - Cl 7.364e-03 7.364e-03 - K 2.146e-02 2.146e-02 - Na 5.832e-04 5.832e-04 + Cl 2.400e-02 2.400e-02 + Na 2.400e-02 2.400e-02 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.294 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1683 - Density (g/cm³) = 1.00155 - Volume (L) = 1.00074 - Viscosity (mPa s) = 1.74572 + pH = 7.000 Charge balance + pe = 4.000 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 24°C) = 2687 + Density (g/cm³) = 0.99829 + Volume (L) = 1.00312 + Viscosity (mPa s) = 0.91317 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.205e-02 + Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.328e-08 - Temperature (°C) = 0.70 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.947e-08 + Total alkalinity (eq/kg) = -4.679e-09 + Temperature (°C) = 24.00 + Electrical balance (eq) = 4.679e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 0 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -8937,44 +4375,39 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.073e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.765e-08 1.529e-08 -7.753 -7.816 -0.062 -5.95 - H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 -Br 1.468e-02 - Br- 1.468e-02 1.268e-02 -1.833 -1.897 -0.064 22.59 -Cl 7.364e-03 - Cl- 7.364e-03 6.389e-03 -2.133 -2.195 -0.062 16.61 - HCl 2.021e-10 2.065e-10 -9.694 -9.685 0.009 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.812 -45.810 0.002 28.64 -K 2.146e-02 - K+ 2.146e-02 1.860e-02 -1.668 -1.730 -0.062 7.89 -Na 5.832e-04 - Na+ 5.832e-04 5.089e-04 -3.234 -3.293 -0.059 -3.26 -O(0) 1.002e-09 - O2 5.012e-10 5.037e-10 -9.300 -9.298 0.002 27.61 + H+ 1.133e-07 1.000e-07 -6.946 -7.000 -0.054 0.00 + OH- 1.093e-07 9.367e-08 -6.961 -7.028 -0.067 -4.01 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 +Cl 2.400e-02 + Cl- 2.400e-02 2.061e-02 -1.620 -1.686 -0.066 18.16 + HCl 6.977e-10 7.143e-10 -9.156 -9.146 0.010 (0) +H(0) 1.422e-25 + H2 7.111e-26 7.151e-26 -25.148 -25.146 0.002 28.61 +Na 2.400e-02 + Na+ 2.400e-02 2.074e-02 -1.620 -1.683 -0.063 -1.36 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -42.416 -42.413 0.002 30.32 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(297 K, 1 atm) - H2(g) -42.80 -45.81 -3.01 H2 - H2O(g) -2.19 -0.00 2.19 H2O - Halite -7.04 -5.49 1.55 NaCl - O2(g) -6.63 -9.30 -2.67 O2 - Sylvite -4.69 -3.92 0.77 KCl + H2(g) -22.05 -25.15 -3.10 H2 + H2O(g) -1.53 -0.00 1.53 H2O + Halite -4.94 -3.37 1.57 NaCl + O2(g) -39.53 -42.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 21. -Using exchange 21. Exchange assemblage after simulation 4. +Using mix 1. +Using exchange 1. Exchange assemblage after simulation 6. -Mixture 21. +Mixture 1. - 0.000e+00 Solution 20 Solution after simulation 4. - 1.000e+00 Solution 21 Solution after simulation 4. - 0.000e+00 Solution 22 Solution after simulation 4. + 0.000e+00 Solution 0 Solution after simulation 6. + 1.000e+00 Solution 1 Solution after simulation 6. + 0.000e+00 Solution 2 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -8983,33 +4416,32 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.694e-02 4.694e-02 9.779e-01 0.000 - NaX 1.061e-03 1.061e-03 2.211e-02 -0.059 + NaX 4.288e-02 4.288e-02 8.933e-01 -0.063 + KX 5.119e-03 5.119e-03 1.067e-01 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.514e-02 1.514e-02 - Cl 6.976e-03 6.976e-03 - K 2.169e-02 2.169e-02 - Na 4.250e-04 4.250e-04 + Br 1.496e-03 1.496e-03 + Cl 2.204e-02 2.204e-02 + K 2.870e-03 2.870e-03 + Na 2.066e-02 2.066e-02 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1681 - Density (g/cm³) = 1.00156 - Volume (L) = 1.00075 - Viscosity (mPa s) = 1.75616 + pH = 7.016 Charge balance + pe = 12.155 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 21°C) = 2563 + Density (g/cm³) = 0.99896 + Volume (L) = 1.00254 + Viscosity (mPa s) = 0.96986 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.211e-02 + Ionic strength (mol/kgw) = 2.353e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.357e-08 - Temperature (°C) = 0.53 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.946e-08 + Total alkalinity (eq/kg) = -1.698e-08 + Temperature (°C) = 21.42 + Electrical balance (eq) = 9.963e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 @@ -9020,44 +4452,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.074e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.736e-08 1.503e-08 -7.761 -7.823 -0.062 -5.98 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.514e-02 - Br- 1.514e-02 1.307e-02 -1.820 -1.884 -0.064 22.56 -Cl 6.976e-03 - Cl- 6.976e-03 6.051e-03 -2.156 -2.218 -0.062 16.59 - HCl 1.916e-10 1.958e-10 -9.718 -9.708 0.009 (0) + H+ 1.090e-07 9.632e-08 -6.963 -7.016 -0.054 0.00 + OH- 9.261e-08 7.953e-08 -7.033 -7.099 -0.066 -4.12 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.05 +Br 1.496e-03 + Br- 1.496e-03 1.280e-03 -2.825 -2.893 -0.068 24.49 +Cl 2.204e-02 + Cl- 2.204e-02 1.896e-02 -1.657 -1.722 -0.065 18.07 + HCl 6.286e-10 6.432e-10 -9.202 -9.192 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.852 -45.850 0.002 28.64 -K 2.169e-02 - K+ 2.169e-02 1.880e-02 -1.664 -1.726 -0.062 7.87 -Na 4.250e-04 - Na+ 4.250e-04 3.708e-04 -3.372 -3.431 -0.059 -3.28 -O(0) 1.032e-09 - O2 5.160e-10 5.187e-10 -9.287 -9.285 0.002 27.58 + H2 0.000e+00 0.000e+00 -41.479 -41.476 0.002 28.61 +K 2.870e-03 + K+ 2.870e-03 2.467e-03 -2.542 -2.608 -0.066 8.99 +Na 2.066e-02 + Na+ 2.066e-02 1.789e-02 -1.685 -1.747 -0.063 -1.50 +O(0) 5.031e-11 + O2 2.515e-11 2.529e-11 -10.599 -10.597 0.002 30.11 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(294 K, 1 atm) - H2(g) -42.84 -45.85 -3.01 H2 - H2O(g) -2.19 -0.00 2.19 H2O - Halite -7.20 -5.65 1.55 NaCl - O2(g) -6.62 -9.29 -2.66 O2 - Sylvite -4.71 -3.94 0.77 KCl + H2(g) -38.38 -41.48 -3.09 H2 + H2O(g) -1.60 -0.00 1.60 H2O + Halite -5.04 -3.47 1.57 NaCl + O2(g) -7.73 -10.60 -2.87 O2 + Sylvite -5.21 -4.33 0.88 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 22. -Using exchange 22. Exchange assemblage after simulation 4. +Using mix 2. +Using exchange 2. Exchange assemblage after simulation 6. -Mixture 22. +Mixture 2. - 0.000e+00 Solution 21 Solution after simulation 4. - 1.000e+00 Solution 22 Solution after simulation 4. - 0.000e+00 Solution 23 Solution after simulation 4. + 0.000e+00 Solution 1 Solution after simulation 6. + 1.000e+00 Solution 2 Solution after simulation 6. + 0.000e+00 Solution 3 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9066,33 +4498,32 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.724e-02 4.724e-02 9.841e-01 0.000 - NaX 7.634e-04 7.634e-04 1.590e-02 -0.059 + NaX 3.084e-02 3.084e-02 6.425e-01 -0.061 + KX 1.716e-02 1.716e-02 3.575e-01 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.555e-02 1.555e-02 - Cl 6.626e-03 6.626e-03 - K 2.187e-02 2.187e-02 - Na 3.063e-04 3.063e-04 + Br 4.518e-03 4.518e-03 + Cl 1.812e-02 1.812e-02 + K 8.876e-03 8.876e-03 + Na 1.376e-02 1.376e-02 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.330 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1681 - Density (g/cm³) = 1.00157 - Volume (L) = 1.00077 - Viscosity (mPa s) = 1.76432 + pH = 7.039 Charge balance + pe = 12.713 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 16°C) = 2321 + Density (g/cm³) = 1.00010 + Volume (L) = 1.00157 + Viscosity (mPa s) = 1.10528 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.218e-02 + Ionic strength (mol/kgw) = 2.264e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.380e-08 - Temperature (°C) = 0.39 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.946e-08 + Total alkalinity (eq/kg) = -4.020e-08 + Temperature (°C) = 16.15 + Electrical balance (eq) = 1.004e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 @@ -9103,44 +4534,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.074e-08 8.070e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.713e-08 1.483e-08 -7.766 -7.829 -0.063 -6.00 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.555e-02 - Br- 1.555e-02 1.343e-02 -1.808 -1.872 -0.064 22.54 -Cl 6.626e-03 - Cl- 6.626e-03 5.746e-03 -2.179 -2.241 -0.062 16.58 - HCl 1.821e-10 1.861e-10 -9.740 -9.730 0.009 (0) + H+ 1.031e-07 9.135e-08 -6.987 -7.039 -0.052 0.00 + OH- 6.338e-08 5.463e-08 -7.198 -7.263 -0.065 -4.42 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 +Br 4.518e-03 + Br- 4.518e-03 3.882e-03 -2.345 -2.411 -0.066 24.17 +Cl 1.812e-02 + Cl- 1.812e-02 1.565e-02 -1.742 -1.806 -0.064 17.84 + HCl 5.088e-10 5.202e-10 -9.293 -9.284 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.883 -45.881 0.002 28.64 -K 2.187e-02 - K+ 2.187e-02 1.895e-02 -1.660 -1.722 -0.062 7.86 -Na 3.063e-04 - Na+ 3.063e-04 2.672e-04 -3.514 -3.573 -0.059 -3.30 -O(0) 1.059e-09 - O2 5.295e-10 5.322e-10 -9.276 -9.274 0.002 27.56 + H2 0.000e+00 0.000e+00 -42.617 -42.614 0.002 28.62 +K 8.876e-03 + K+ 8.876e-03 7.657e-03 -2.052 -2.116 -0.064 8.78 +Na 1.376e-02 + Na+ 1.376e-02 1.196e-02 -1.861 -1.922 -0.061 -1.84 +O(0) 1.592e-10 + O2 7.962e-11 8.003e-11 -10.099 -10.097 0.002 29.62 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(289 K, 1 atm) - H2(g) -42.87 -45.88 -3.01 H2 - H2O(g) -2.20 -0.00 2.20 H2O - Halite -7.36 -5.81 1.55 NaCl - O2(g) -6.61 -9.27 -2.66 O2 - Sylvite -4.73 -3.96 0.77 KCl + H2(g) -39.54 -42.61 -3.08 H2 + H2O(g) -1.74 -0.00 1.74 H2O + Halite -5.29 -3.73 1.56 NaCl + O2(g) -7.27 -10.10 -2.82 O2 + Sylvite -4.78 -3.92 0.85 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 23. -Using exchange 23. Exchange assemblage after simulation 4. +Using mix 3. +Using exchange 3. Exchange assemblage after simulation 6. -Mixture 23. +Mixture 3. - 0.000e+00 Solution 22 Solution after simulation 4. - 1.000e+00 Solution 23 Solution after simulation 4. - 0.000e+00 Solution 24 Solution after simulation 4. + 0.000e+00 Solution 2 Solution after simulation 6. + 1.000e+00 Solution 3 Solution after simulation 6. + 0.000e+00 Solution 4 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9149,35 +4580,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.746e-02 4.746e-02 9.887e-01 0.000 - NaX 5.434e-04 5.434e-04 1.132e-02 -0.059 + KX 3.025e-02 3.025e-02 6.301e-01 0.000 + NaX 1.775e-02 1.775e-02 3.699e-01 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.593e-02 1.593e-02 - Cl 6.314e-03 6.314e-03 - K 2.202e-02 2.202e-02 - Na 2.185e-04 2.185e-04 + Br 7.621e-03 7.621e-03 + Cl 1.437e-02 1.437e-02 + K 1.458e-02 1.458e-02 + Na 7.407e-03 7.407e-03 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1682 - Density (g/cm³) = 1.00158 - Volume (L) = 1.00078 - Viscosity (mPa s) = 1.77059 + pH = 7.052 Charge balance + pe = 13.230 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 11°C) = 2101 + Density (g/cm³) = 1.00093 + Volume (L) = 1.00093 + Viscosity (mPa s) = 1.27129 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.224e-02 + Ionic strength (mol/kgw) = 2.199e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.396e-08 - Temperature (°C) = 0.29 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.945e-08 + Total alkalinity (eq/kg) = -5.872e-08 + Temperature (°C) = 10.95 + Electrical balance (eq) = 9.946e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9186,44 +4616,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.075e-08 8.069e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.696e-08 1.468e-08 -7.771 -7.833 -0.063 -6.01 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.593e-02 - Br- 1.593e-02 1.375e-02 -1.798 -1.862 -0.064 22.53 -Cl 6.314e-03 - Cl- 6.314e-03 5.475e-03 -2.200 -2.262 -0.062 16.56 - HCl 1.736e-10 1.774e-10 -9.760 -9.751 0.009 (0) + H+ 9.996e-08 8.878e-08 -7.000 -7.052 -0.052 0.00 + OH- 4.165e-08 3.600e-08 -7.380 -7.444 -0.063 -4.81 + H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 +Br 7.621e-03 + Br- 7.621e-03 6.568e-03 -2.118 -2.183 -0.065 23.75 +Cl 1.437e-02 + Cl- 1.437e-02 1.244e-02 -1.843 -1.905 -0.063 17.53 + HCl 4.064e-10 4.153e-10 -9.391 -9.382 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.908 -45.906 0.002 28.64 -K 2.202e-02 - K+ 2.202e-02 1.908e-02 -1.657 -1.719 -0.062 7.86 -Na 2.185e-04 - Na+ 2.185e-04 1.906e-04 -3.661 -3.720 -0.059 -3.31 -O(0) 1.083e-09 - O2 5.416e-10 5.443e-10 -9.266 -9.264 0.002 27.54 + H2 0.000e+00 0.000e+00 -43.652 -43.650 0.002 28.62 +K 1.458e-02 + K+ 1.458e-02 1.262e-02 -1.836 -1.899 -0.063 8.53 +Na 7.407e-03 + Na+ 7.407e-03 6.452e-03 -2.130 -2.190 -0.060 -2.23 +O(0) 2.879e-10 + O2 1.440e-10 1.447e-10 -9.842 -9.840 0.002 29.06 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(284 K, 1 atm) - H2(g) -42.89 -45.91 -3.01 H2 - H2O(g) -2.20 -0.00 2.20 H2O - Halite -7.53 -5.98 1.55 NaCl - O2(g) -6.60 -9.26 -2.66 O2 - Sylvite -4.75 -3.98 0.77 KCl + H2(g) -40.59 -43.65 -3.06 H2 + H2O(g) -1.88 -0.00 1.88 H2O + Halite -5.65 -4.10 1.56 NaCl + O2(g) -7.06 -9.84 -2.77 O2 + Sylvite -4.63 -3.80 0.83 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 24. -Using exchange 24. Exchange assemblage after simulation 4. +Using mix 4. +Using exchange 4. Exchange assemblage after simulation 6. -Mixture 24. +Mixture 4. - 0.000e+00 Solution 23 Solution after simulation 4. - 1.000e+00 Solution 24 Solution after simulation 4. - 0.000e+00 Solution 25 Solution after simulation 4. + 0.000e+00 Solution 3 Solution after simulation 6. + 1.000e+00 Solution 4 Solution after simulation 6. + 0.000e+00 Solution 5 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9232,35 +4662,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.762e-02 4.762e-02 9.920e-01 0.000 - NaX 3.832e-04 3.832e-04 7.982e-03 -0.059 + KX 4.013e-02 4.013e-02 8.359e-01 0.000 + NaX 7.874e-03 7.874e-03 1.641e-01 -0.059 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.626e-02 1.626e-02 - Cl 6.041e-03 6.041e-03 - K 2.215e-02 2.215e-02 - Na 1.544e-04 1.544e-04 + Br 1.083e-02 1.083e-02 + Cl 1.100e-02 1.100e-02 + K 1.866e-02 1.866e-02 + Na 3.173e-03 3.173e-03 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1683 - Density (g/cm³) = 1.00160 - Volume (L) = 1.00079 - Viscosity (mPa s) = 1.77534 + pH = 7.058 Charge balance + pe = 13.682 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 7°C) = 1928 + Density (g/cm³) = 1.00139 + Volume (L) = 1.00067 + Viscosity (mPa s) = 1.44790 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.230e-02 + Ionic strength (mol/kgw) = 2.184e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.409e-08 - Temperature (°C) = 0.21 - Pressure (atm) = 1.00 + Total alkalinity (eq/kg) = -7.033e-08 + Temperature (°C) = 6.50 Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9269,44 +4698,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.075e-08 8.069e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.683e-08 1.457e-08 -7.774 -7.837 -0.063 -6.03 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.626e-02 - Br- 1.626e-02 1.403e-02 -1.789 -1.853 -0.064 22.52 -Cl 6.041e-03 - Cl- 6.041e-03 5.238e-03 -2.219 -2.281 -0.062 16.55 - HCl 1.662e-10 1.698e-10 -9.779 -9.770 0.009 (0) + H+ 9.832e-08 8.741e-08 -7.007 -7.058 -0.051 0.00 + OH- 2.830e-08 2.450e-08 -7.548 -7.611 -0.063 -5.24 + H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.02 +Br 1.083e-02 + Br- 1.083e-02 9.349e-03 -1.965 -2.029 -0.064 23.32 +Cl 1.100e-02 + Cl- 1.100e-02 9.542e-03 -1.958 -2.020 -0.062 17.19 + HCl 3.155e-10 3.223e-10 -9.501 -9.492 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.927 -45.925 0.002 28.65 -K 2.215e-02 - K+ 2.215e-02 1.918e-02 -1.655 -1.717 -0.062 7.85 -Na 1.544e-04 - Na+ 1.544e-04 1.346e-04 -3.811 -3.871 -0.059 -3.32 -O(0) 1.104e-09 - O2 5.521e-10 5.550e-10 -9.258 -9.256 0.002 27.53 + H2 0.000e+00 0.000e+00 -44.548 -44.546 0.002 28.63 +K 1.866e-02 + K+ 1.866e-02 1.617e-02 -1.729 -1.791 -0.062 8.28 +Na 3.173e-03 + Na+ 3.173e-03 2.767e-03 -2.499 -2.558 -0.059 -2.63 +O(0) 4.412e-10 + O2 2.206e-10 2.217e-10 -9.656 -9.654 0.002 28.50 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(279 K, 1 atm) - H2(g) -42.91 -45.93 -3.01 H2 - H2O(g) -2.20 -0.00 2.20 H2O - Halite -7.70 -6.15 1.55 NaCl - O2(g) -6.59 -9.26 -2.66 O2 - Sylvite -4.76 -4.00 0.76 KCl + H2(g) -41.50 -44.55 -3.04 H2 + H2O(g) -2.01 -0.00 2.01 H2O + Halite -6.13 -4.58 1.55 NaCl + O2(g) -6.92 -9.65 -2.73 O2 + Sylvite -4.61 -3.81 0.80 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 25. -Using exchange 25. Exchange assemblage after simulation 4. +Using mix 5. +Using exchange 5. Exchange assemblage after simulation 6. -Mixture 25. +Mixture 5. - 0.000e+00 Solution 24 Solution after simulation 4. - 1.000e+00 Solution 25 Solution after simulation 4. - 0.000e+00 Solution 26 Solution after simulation 4. + 0.000e+00 Solution 4 Solution after simulation 6. + 1.000e+00 Solution 5 Solution after simulation 6. + 0.000e+00 Solution 6 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9315,35 +4744,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.773e-02 4.773e-02 9.944e-01 0.000 - NaX 2.681e-04 2.681e-04 5.586e-03 -0.059 + KX 4.519e-02 4.519e-02 9.414e-01 0.000 + NaX 2.810e-03 2.810e-03 5.855e-02 -0.059 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.655e-02 1.655e-02 - Cl 5.807e-03 5.807e-03 - K 2.224e-02 2.224e-02 - Na 1.082e-04 1.082e-04 + Br 1.401e-02 1.401e-02 + Cl 8.098e-03 8.098e-03 + K 2.098e-02 2.098e-02 + Na 1.130e-03 1.130e-03 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.360 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1685 - Density (g/cm³) = 1.00161 - Volume (L) = 1.00079 - Viscosity (mPa s) = 1.77888 + pH = 7.063 Charge balance + pe = 14.015 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 3°C) = 1819 + Density (g/cm³) = 1.00160 + Volume (L) = 1.00066 + Viscosity (mPa s) = 1.59878 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.235e-02 + Ionic strength (mol/kgw) = 2.211e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.418e-08 - Temperature (°C) = 0.15 - Pressure (atm) = 1.00 + Total alkalinity (eq/kg) = -7.635e-08 + Temperature (°C) = 3.34 Electrical balance (eq) = 9.944e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9352,44 +4780,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.076e-08 8.069e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.674e-08 1.449e-08 -7.776 -7.839 -0.063 -6.03 + H+ 9.737e-08 8.656e-08 -7.012 -7.063 -0.051 0.00 + OH- 2.126e-08 1.840e-08 -7.673 -7.735 -0.063 -5.60 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.655e-02 - Br- 1.655e-02 1.428e-02 -1.781 -1.845 -0.064 22.51 -Cl 5.807e-03 - Cl- 5.807e-03 5.034e-03 -2.236 -2.298 -0.062 16.55 - HCl 1.597e-10 1.633e-10 -9.797 -9.787 0.010 (0) +Br 1.401e-02 + Br- 1.401e-02 1.209e-02 -1.853 -1.917 -0.064 22.94 +Cl 8.098e-03 + Cl- 8.098e-03 7.020e-03 -2.092 -2.154 -0.062 16.90 + HCl 2.343e-10 2.395e-10 -9.630 -9.621 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.942 -45.940 0.002 28.65 -K 2.224e-02 - K+ 2.224e-02 1.927e-02 -1.653 -1.715 -0.062 7.85 -Na 1.082e-04 - Na+ 1.082e-04 9.439e-05 -3.966 -4.025 -0.059 -3.33 -O(0) 1.122e-09 - O2 5.612e-10 5.641e-10 -9.251 -9.249 0.002 27.51 + H2 0.000e+00 0.000e+00 -45.207 -45.205 0.002 28.64 +K 2.098e-02 + K+ 2.098e-02 1.817e-02 -1.678 -1.741 -0.062 8.08 +Na 1.130e-03 + Na+ 1.130e-03 9.857e-04 -2.947 -3.006 -0.059 -2.95 +O(0) 6.194e-10 + O2 3.097e-10 3.113e-10 -9.509 -9.507 0.002 28.04 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(276 K, 1 atm) - H2(g) -42.93 -45.94 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -7.87 -6.32 1.55 NaCl - O2(g) -6.59 -9.25 -2.66 O2 - Sylvite -4.78 -4.01 0.76 KCl + H2(g) -42.18 -45.21 -3.03 H2 + H2O(g) -2.11 -0.00 2.11 H2O + Halite -6.71 -5.16 1.55 NaCl + O2(g) -6.81 -9.51 -2.70 O2 + Sylvite -4.68 -3.89 0.78 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 26. -Using exchange 26. Exchange assemblage after simulation 4. +Using mix 6. +Using exchange 6. Exchange assemblage after simulation 6. -Mixture 26. +Mixture 6. - 0.000e+00 Solution 25 Solution after simulation 4. - 1.000e+00 Solution 26 Solution after simulation 4. - 0.000e+00 Solution 27 Solution after simulation 4. + 0.000e+00 Solution 5 Solution after simulation 6. + 1.000e+00 Solution 6 Solution after simulation 6. + 0.000e+00 Solution 7 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9398,35 +4826,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.781e-02 4.781e-02 9.961e-01 0.000 - NaX 1.870e-04 1.870e-04 3.896e-03 -0.059 + KX 4.713e-02 4.713e-02 9.819e-01 0.000 + NaX 8.677e-04 8.677e-04 1.808e-02 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.679e-02 1.679e-02 - Cl 5.612e-03 5.612e-03 - K 2.232e-02 2.232e-02 - Na 7.562e-05 7.562e-05 + Br 1.686e-02 1.686e-02 + Cl 5.701e-03 5.701e-03 + K 2.221e-02 2.221e-02 + Na 3.538e-04 3.538e-04 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.366 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1687 - Density (g/cm³) = 1.00162 - Volume (L) = 1.00080 - Viscosity (mPa s) = 1.78146 + pH = 7.064 Charge balance + pe = 14.222 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 2°C) = 1769 + Density (g/cm³) = 1.00169 + Volume (L) = 1.00073 + Viscosity (mPa s) = 1.69862 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.240e-02 + Ionic strength (mol/kgw) = 2.256e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.425e-08 - Temperature (°C) = 0.11 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 + Total alkalinity (eq/kg) = -7.938e-08 + Temperature (°C) = 1.50 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9435,44 +4862,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.076e-08 8.069e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.667e-08 1.443e-08 -7.778 -7.841 -0.063 -6.04 + H+ 9.709e-08 8.627e-08 -7.013 -7.064 -0.051 0.00 + OH- 1.788e-08 1.546e-08 -7.748 -7.811 -0.063 -5.84 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.679e-02 - Br- 1.679e-02 1.448e-02 -1.775 -1.839 -0.064 22.50 -Cl 5.612e-03 - Cl- 5.612e-03 4.864e-03 -2.251 -2.313 -0.062 16.54 - HCl 1.544e-10 1.578e-10 -9.811 -9.802 0.010 (0) +Br 1.686e-02 + Br- 1.686e-02 1.454e-02 -1.773 -1.838 -0.064 22.70 +Cl 5.701e-03 + Cl- 5.701e-03 4.938e-03 -2.244 -2.306 -0.062 16.70 + HCl 1.661e-10 1.698e-10 -9.780 -9.770 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.953 -45.951 0.002 28.65 -K 2.232e-02 - K+ 2.232e-02 1.933e-02 -1.651 -1.714 -0.062 7.84 -Na 7.562e-05 - Na+ 7.562e-05 6.594e-05 -4.121 -4.181 -0.059 -3.33 -O(0) 1.138e-09 - O2 5.689e-10 5.718e-10 -9.245 -9.243 0.002 27.51 + H2 0.000e+00 0.000e+00 -45.615 -45.612 0.002 28.64 +K 2.221e-02 + K+ 2.221e-02 1.922e-02 -1.653 -1.716 -0.063 7.95 +Na 3.538e-04 + Na+ 3.538e-04 3.083e-04 -3.451 -3.511 -0.060 -3.16 +O(0) 8.151e-10 + O2 4.076e-10 4.097e-10 -9.390 -9.388 0.002 27.75 ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -42.94 -45.95 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.04 -6.49 1.55 NaCl - O2(g) -6.58 -9.24 -2.66 O2 - Sylvite -4.79 -4.03 0.76 KCl + H2(g) -42.59 -45.61 -3.02 H2 + H2O(g) -2.16 -0.00 2.16 H2O + Halite -7.37 -5.82 1.55 NaCl + O2(g) -6.71 -9.39 -2.68 O2 + Sylvite -4.80 -4.02 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 27. -Using exchange 27. Exchange assemblage after simulation 4. +Using mix 7. +Using exchange 7. Exchange assemblage after simulation 6. -Mixture 27. +Mixture 7. - 0.000e+00 Solution 26 Solution after simulation 4. - 1.000e+00 Solution 27 Solution after simulation 4. - 0.000e+00 Solution 28 Solution after simulation 4. + 0.000e+00 Solution 6 Solution after simulation 6. + 1.000e+00 Solution 7 Solution after simulation 6. + 0.000e+00 Solution 8 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9481,35 +4908,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.787e-02 4.787e-02 9.973e-01 0.000 - NaX 1.312e-04 1.312e-04 2.734e-03 -0.060 + KX 4.776e-02 4.776e-02 9.949e-01 0.000 + NaX 2.446e-04 2.446e-04 5.096e-03 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.698e-02 1.698e-02 - Cl 5.455e-03 5.455e-03 - K 2.238e-02 2.238e-02 - Na 5.313e-05 5.313e-05 + Br 1.913e-02 1.913e-02 + Cl 3.862e-03 3.862e-03 + K 2.289e-02 2.289e-02 + Na 1.014e-04 1.014e-04 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1688 - Density (g/cm³) = 1.00162 + pH = 7.064 Charge balance + pe = 14.334 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 1°C) = 1759 + Density (g/cm³) = 1.00176 Volume (L) = 1.00080 - Viscosity (mPa s) = 1.78330 + Viscosity (mPa s) = 1.75105 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.244e-02 + Ionic strength (mol/kgw) = 2.299e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.429e-08 - Temperature (°C) = 0.08 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 + Total alkalinity (eq/kg) = -8.102e-08 + Temperature (°C) = 0.60 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9518,44 +4944,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.077e-08 8.068e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.662e-08 1.438e-08 -7.779 -7.842 -0.063 -6.04 + H+ 9.728e-08 8.638e-08 -7.012 -7.064 -0.052 0.00 + OH- 1.637e-08 1.415e-08 -7.786 -7.849 -0.064 -5.97 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.698e-02 - Br- 1.698e-02 1.465e-02 -1.770 -1.834 -0.064 22.50 -Cl 5.455e-03 - Cl- 5.455e-03 4.728e-03 -2.263 -2.325 -0.062 16.54 - HCl 1.501e-10 1.534e-10 -9.824 -9.814 0.010 (0) +Br 1.913e-02 + Br- 1.913e-02 1.648e-02 -1.718 -1.783 -0.065 22.57 +Cl 3.862e-03 + Cl- 3.862e-03 3.342e-03 -2.413 -2.476 -0.063 16.60 + HCl 1.131e-10 1.157e-10 -9.946 -9.937 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.961 -45.959 0.002 28.65 -K 2.238e-02 - K+ 2.238e-02 1.938e-02 -1.650 -1.713 -0.062 7.84 -Na 5.313e-05 - Na+ 5.313e-05 4.632e-05 -4.275 -4.334 -0.060 -3.34 -O(0) 1.150e-09 - O2 5.750e-10 5.779e-10 -9.240 -9.238 0.002 27.50 + H2 0.000e+00 0.000e+00 -45.834 -45.831 0.002 28.64 +K 2.289e-02 + K+ 2.289e-02 1.979e-02 -1.640 -1.704 -0.063 7.88 +Na 1.014e-04 + Na+ 1.014e-04 8.826e-05 -3.994 -4.054 -0.060 -3.27 +O(0) 1.013e-09 + O2 5.067e-10 5.094e-10 -9.295 -9.293 0.002 27.59 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.95 -45.96 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.21 -6.66 1.55 NaCl - O2(g) -6.58 -9.24 -2.66 O2 - Sylvite -4.80 -4.04 0.76 KCl + H2(g) -42.82 -45.83 -3.01 H2 + H2O(g) -2.19 -0.00 2.19 H2O + Halite -8.08 -6.53 1.55 NaCl + O2(g) -6.63 -9.29 -2.67 O2 + Sylvite -4.95 -4.18 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 28. -Using exchange 28. Exchange assemblage after simulation 4. +Using mix 8. +Using exchange 8. Exchange assemblage after simulation 6. -Mixture 28. +Mixture 8. - 0.000e+00 Solution 27 Solution after simulation 4. - 1.000e+00 Solution 28 Solution after simulation 4. - 0.000e+00 Solution 29 Solution after simulation 4. + 0.000e+00 Solution 7 Solution after simulation 6. + 1.000e+00 Solution 8 Solution after simulation 6. + 0.000e+00 Solution 9 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9564,35 +4990,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.791e-02 4.791e-02 9.980e-01 0.000 - NaX 9.436e-05 9.436e-05 1.966e-03 -0.060 + KX 4.794e-02 4.794e-02 9.986e-01 0.000 + NaX 6.490e-05 6.490e-05 1.352e-03 -0.060 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.713e-02 1.713e-02 - Cl 5.337e-03 5.337e-03 - K 2.243e-02 2.243e-02 - Na 3.825e-05 3.825e-05 + Br 2.075e-02 2.075e-02 + Cl 2.570e-03 2.570e-03 + K 2.329e-02 2.329e-02 + Na 2.724e-05 2.724e-05 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.373 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1689 - Density (g/cm³) = 1.00163 - Volume (L) = 1.00081 - Viscosity (mPa s) = 1.78454 + pH = 7.062 Charge balance + pe = 14.391 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1764 + Density (g/cm³) = 1.00182 + Volume (L) = 1.00084 + Viscosity (mPa s) = 1.77408 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.246e-02 + Ionic strength (mol/kgw) = 2.332e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.433e-08 - Temperature (°C) = 0.06 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 + Total alkalinity (eq/kg) = -8.198e-08 + Temperature (°C) = 0.22 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9601,44 +5026,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.077e-08 8.068e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.659e-08 1.435e-08 -7.780 -7.843 -0.063 -6.05 + H+ 9.764e-08 8.665e-08 -7.010 -7.062 -0.052 0.00 + OH- 1.573e-08 1.358e-08 -7.803 -7.867 -0.064 -6.02 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.713e-02 - Br- 1.713e-02 1.477e-02 -1.766 -1.831 -0.064 22.49 -Cl 5.337e-03 - Cl- 5.337e-03 4.626e-03 -2.273 -2.335 -0.062 16.54 - HCl 1.468e-10 1.501e-10 -9.833 -9.824 0.010 (0) +Br 2.075e-02 + Br- 2.075e-02 1.786e-02 -1.683 -1.748 -0.065 22.52 +Cl 2.570e-03 + Cl- 2.570e-03 2.222e-03 -2.590 -2.653 -0.063 16.56 + HCl 7.561e-11 7.735e-11 -10.121 -10.112 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.967 -45.965 0.002 28.65 -K 2.243e-02 - K+ 2.243e-02 1.942e-02 -1.649 -1.712 -0.063 7.84 -Na 3.825e-05 - Na+ 3.825e-05 3.335e-05 -4.417 -4.477 -0.060 -3.34 -O(0) 1.159e-09 - O2 5.795e-10 5.826e-10 -9.237 -9.235 0.002 27.50 + H2 0.000e+00 0.000e+00 -45.942 -45.940 0.002 28.65 +K 2.329e-02 + K+ 2.329e-02 2.012e-02 -1.633 -1.696 -0.064 7.85 +Na 2.724e-05 + Na+ 2.724e-05 2.370e-05 -4.565 -4.625 -0.060 -3.31 +O(0) 1.193e-09 + O2 5.966e-10 5.998e-10 -9.224 -9.222 0.002 27.53 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.95 -45.96 -3.01 H2 - H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.36 -6.81 1.55 NaCl - O2(g) -6.58 -9.23 -2.66 O2 - Sylvite -4.81 -4.05 0.76 KCl + H2(g) -42.93 -45.94 -3.01 H2 + H2O(g) -2.20 -0.00 2.20 H2O + Halite -8.83 -7.28 1.55 NaCl + O2(g) -6.56 -9.22 -2.66 O2 + Sylvite -5.11 -4.35 0.77 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 29. -Using exchange 29. Exchange assemblage after simulation 4. +Using mix 9. +Using exchange 9. Exchange assemblage after simulation 6. -Mixture 29. +Mixture 9. - 0.000e+00 Solution 28 Solution after simulation 4. - 1.000e+00 Solution 29 Solution after simulation 4. - 0.000e+00 Solution 30 Solution after simulation 4. + 0.000e+00 Solution 8 Solution after simulation 6. + 1.000e+00 Solution 9 Solution after simulation 6. + 0.000e+00 Solution 10 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9647,35 +5072,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.793e-02 4.793e-02 9.985e-01 0.000 - NaX 7.208e-05 7.208e-05 1.502e-03 -0.060 + KX 4.798e-02 4.798e-02 9.997e-01 0.000 + NaX 1.662e-05 1.662e-05 3.462e-04 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.722e-02 1.722e-02 - Cl 5.259e-03 5.259e-03 - K 2.245e-02 2.245e-02 - Na 2.924e-05 2.924e-05 + Br 2.177e-02 2.177e-02 + Cl 1.765e-03 1.765e-03 + K 2.352e-02 2.352e-02 + Na 7.034e-06 7.034e-06 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.375 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1690 - Density (g/cm³) = 1.00163 - Volume (L) = 1.00081 - Viscosity (mPa s) = 1.78531 + pH = 7.061 Charge balance + pe = 14.419 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1773 + Density (g/cm³) = 1.00186 + Volume (L) = 1.00086 + Viscosity (mPa s) = 1.78288 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.248e-02 + Ionic strength (mol/kgw) = 2.353e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.435e-08 - Temperature (°C) = 0.05 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 + Total alkalinity (eq/kg) = -8.253e-08 + Temperature (°C) = 0.08 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9684,44 +5108,44 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.077e-08 8.068e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.657e-08 1.434e-08 -7.781 -7.844 -0.063 -6.05 + H+ 9.795e-08 8.690e-08 -7.009 -7.061 -0.052 0.00 + OH- 1.547e-08 1.335e-08 -7.810 -7.875 -0.064 -6.04 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.722e-02 - Br- 1.722e-02 1.486e-02 -1.764 -1.828 -0.064 22.49 -Cl 5.259e-03 - Cl- 5.259e-03 4.558e-03 -2.279 -2.341 -0.062 16.54 - HCl 1.447e-10 1.479e-10 -9.840 -9.830 0.010 (0) +Br 2.177e-02 + Br- 2.177e-02 1.872e-02 -1.662 -1.728 -0.066 22.50 +Cl 1.765e-03 + Cl- 1.765e-03 1.526e-03 -2.753 -2.817 -0.063 16.54 + HCl 5.210e-11 5.331e-11 -10.283 -10.273 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.971 -45.968 0.002 28.65 -K 2.245e-02 - K+ 2.245e-02 1.944e-02 -1.649 -1.711 -0.063 7.84 -Na 2.924e-05 - Na+ 2.924e-05 2.549e-05 -4.534 -4.594 -0.060 -3.34 -O(0) 1.165e-09 - O2 5.826e-10 5.856e-10 -9.235 -9.232 0.002 27.50 + H2 0.000e+00 0.000e+00 -45.994 -45.992 0.002 28.65 +K 2.352e-02 + K+ 2.352e-02 2.031e-02 -1.628 -1.692 -0.064 7.84 +Na 7.034e-06 + Na+ 7.034e-06 6.117e-06 -5.153 -5.213 -0.061 -3.33 +O(0) 1.331e-09 + O2 6.656e-10 6.693e-10 -9.177 -9.174 0.002 27.50 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.96 -45.97 -3.01 H2 + H2(g) -42.98 -45.99 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.48 -6.93 1.55 NaCl - O2(g) -6.57 -9.23 -2.66 O2 - Sylvite -4.82 -4.05 0.76 KCl + Halite -9.58 -8.03 1.55 NaCl + O2(g) -6.51 -9.17 -2.66 O2 + Sylvite -5.27 -4.51 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -Using mix 30. -Using exchange 30. Exchange assemblage after simulation 4. +Using mix 10. +Using exchange 10. Exchange assemblage after simulation 6. -Mixture 30. +Mixture 10. - 0.000e+00 Solution 29 Solution after simulation 4. - 1.000e+00 Solution 30 Solution after simulation 4. - 0.000e+00 Solution 31 Solution after simulation 4. + 0.000e+00 Solution 9 Solution after simulation 6. + 1.000e+00 Solution 10 Solution after simulation 6. + 0.000e+00 Solution 11 Solution after simulation 6. -----------------------------Exchange composition------------------------------ @@ -9730,35 +5154,34 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.794e-02 4.794e-02 9.987e-01 0.000 - NaX 6.161e-05 6.161e-05 1.284e-03 -0.060 + KX 4.800e-02 4.800e-02 9.999e-01 0.000 + NaX 4.922e-06 4.922e-06 1.025e-04 -0.061 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.727e-02 1.727e-02 - Cl 5.220e-03 5.220e-03 - K 2.247e-02 2.247e-02 - Na 2.500e-05 2.500e-05 + Br 2.225e-02 2.225e-02 + Cl 1.383e-03 1.383e-03 + K 2.363e-02 2.363e-02 + Na 2.092e-06 2.092e-06 ----------------------------Description of solution---------------------------- - pH = 7.093 Charge balance - pe = 14.376 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1691 - Density (g/cm³) = 1.00163 - Volume (L) = 1.00081 - Viscosity (mPa s) = 1.78567 + pH = 7.060 Charge balance + pe = 14.430 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 0°C) = 1778 + Density (g/cm³) = 1.00188 + Volume (L) = 1.00087 + Viscosity (mPa s) = 1.78568 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.249e-02 + Ionic strength (mol/kgw) = 2.363e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.436e-08 - Temperature (°C) = 0.04 - Pressure (atm) = 1.00 - Electrical balance (eq) = 9.944e-08 + Total alkalinity (eq/kg) = -8.279e-08 + Temperature (°C) = 0.03 + Electrical balance (eq) = 9.945e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9767,44 +5190,45 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.077e-08 8.068e-08 -7.042 -7.093 -0.051 0.00 - OH- 1.656e-08 1.433e-08 -7.781 -7.844 -0.063 -6.05 + H+ 9.813e-08 8.704e-08 -7.008 -7.060 -0.052 0.00 + OH- 1.538e-08 1.327e-08 -7.813 -7.877 -0.064 -6.05 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.727e-02 - Br- 1.727e-02 1.490e-02 -1.763 -1.827 -0.064 22.49 -Cl 5.220e-03 - Cl- 5.220e-03 4.523e-03 -2.282 -2.345 -0.062 16.53 - HCl 1.436e-10 1.468e-10 -9.843 -9.833 0.010 (0) +Br 2.225e-02 + Br- 2.225e-02 1.913e-02 -1.653 -1.718 -0.066 22.49 +Cl 1.383e-03 + Cl- 1.383e-03 1.195e-03 -2.859 -2.923 -0.063 16.54 + HCl 4.088e-11 4.184e-11 -10.388 -10.378 0.010 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.972 -45.970 0.002 28.65 -K 2.247e-02 - K+ 2.247e-02 1.945e-02 -1.648 -1.711 -0.063 7.84 -Na 2.500e-05 - Na+ 2.500e-05 2.180e-05 -4.602 -4.662 -0.060 -3.34 -O(0) 1.168e-09 - O2 5.841e-10 5.872e-10 -9.233 -9.231 0.002 27.50 + H2 0.000e+00 0.000e+00 -46.015 -46.012 0.002 28.65 +K 2.363e-02 + K+ 2.363e-02 2.040e-02 -1.627 -1.690 -0.064 7.84 +Na 2.092e-06 + Na+ 2.092e-06 1.819e-06 -5.680 -5.740 -0.061 -3.34 +O(0) 1.407e-09 + O2 7.033e-10 7.071e-10 -9.153 -9.151 0.002 27.49 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.96 -45.97 -3.01 H2 + H2(g) -43.00 -46.01 -3.01 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -8.55 -7.01 1.55 NaCl - O2(g) -6.57 -9.23 -2.66 O2 - Sylvite -4.82 -4.06 0.76 KCl + Halite -10.21 -8.66 1.55 NaCl + O2(g) -6.49 -9.15 -2.66 O2 + Sylvite -5.38 -4.61 0.76 KCl **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. -WARNING: -For balancing negative concentrations in MCD, added in total to the system: -WARNING: 6.3961e-12 moles Na. ------------------ End of simulation. ------------------ ------------------------------------ -Reading input data for simulation 5. +Reading input data for simulation 7. ------------------------------------ +------------------------------- +End of Run after 0.327 Seconds. +------------------------------- + diff --git a/examples/ex17b.out b/examples/ex17b.out index f0064627..af74a5b1 100644 --- a/examples/ex17b.out +++ b/examples/ex17b.out @@ -2641,7 +2641,7 @@ Polyhalite -0.08 -13.82 -13.74 0.000e+00 0 0.000e+00 pH = 7.379 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 176352 + Specific Conductance (µS/cm, 25°C) = 176353 Density (g/cm³) = 1.24332 Volume (L) = 0.01472 Viscosity (mPa s) = 2.98015 diff --git a/examples/ex18.out b/examples/ex18.out index f1a3a1fd..754b31a2 100644 --- a/examples/ex18.out +++ b/examples/ex18.out @@ -121,7 +121,7 @@ Initial solution 1. Recharge number 3 Specific Conductance (µS/cm, 10°C) = 278 Density (g/cm³) = 0.99999 Volume (L) = 1.00035 - Viscosity (mPa s) = 1.31409 + Viscosity (mPa s) = 1.31401 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.588e-03 Mass of water (kg) = 1.000e+00 @@ -255,10 +255,10 @@ Initial solution 2. Mysse pH = 6.610 pe = 0.000 - Specific Conductance (µS/cm, 63°C) = 10505 + Specific Conductance (µS/cm, 63°C) = 10503 Density (g/cm³) = 0.98520 Volume (L) = 1.01942 - Viscosity (mPa s) = 0.45631 + Viscosity (mPa s) = 0.45647 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.101e-02 Mass of water (kg) = 1.000e+00 diff --git a/examples/ex2.out b/examples/ex2.out index 84e5f510..5f7b0134 100644 --- a/examples/ex2.out +++ b/examples/ex2.out @@ -306,7 +306,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.854e-01 Specific Conductance (µS/cm, 27°C) = 2606 Density (g/cm³) = 0.99849 Volume (L) = 0.96794 - Viscosity (mPa s) = 0.85909 + Viscosity (mPa s) = 0.85911 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.185e-02 Mass of water (kg) = 9.645e-01 @@ -389,7 +389,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.854e-01 Specific Conductance (µS/cm, 28°C) = 2667 Density (g/cm³) = 0.99821 Volume (L) = 0.96822 - Viscosity (mPa s) = 0.84040 + Viscosity (mPa s) = 0.84043 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.189e-02 Mass of water (kg) = 9.645e-01 @@ -472,7 +472,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 29°C) = 2727 Density (g/cm³) = 0.99793 Volume (L) = 0.96850 - Viscosity (mPa s) = 0.82236 + Viscosity (mPa s) = 0.82239 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.193e-02 Mass of water (kg) = 9.645e-01 @@ -555,7 +555,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 30°C) = 2788 Density (g/cm³) = 0.99763 Volume (L) = 0.96879 - Viscosity (mPa s) = 0.80493 + Viscosity (mPa s) = 0.80498 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.196e-02 Mass of water (kg) = 9.645e-01 @@ -638,7 +638,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 31°C) = 2849 Density (g/cm³) = 0.99733 Volume (L) = 0.96909 - Viscosity (mPa s) = 0.78810 + Viscosity (mPa s) = 0.78815 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.198e-02 Mass of water (kg) = 9.645e-01 @@ -721,7 +721,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 32°C) = 2910 Density (g/cm³) = 0.99702 Volume (L) = 0.96940 - Viscosity (mPa s) = 0.77182 + Viscosity (mPa s) = 0.77188 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.200e-02 Mass of water (kg) = 9.645e-01 @@ -804,7 +804,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 33°C) = 2971 Density (g/cm³) = 0.99669 Volume (L) = 0.96972 - Viscosity (mPa s) = 0.75608 + Viscosity (mPa s) = 0.75615 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.201e-02 Mass of water (kg) = 9.645e-01 @@ -887,7 +887,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 34°C) = 3031 Density (g/cm³) = 0.99636 Volume (L) = 0.97005 - Viscosity (mPa s) = 0.74085 + Viscosity (mPa s) = 0.74093 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.201e-02 Mass of water (kg) = 9.645e-01 @@ -970,7 +970,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 35°C) = 3092 Density (g/cm³) = 0.99603 Volume (L) = 0.97038 - Viscosity (mPa s) = 0.72612 + Viscosity (mPa s) = 0.72620 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.200e-02 Mass of water (kg) = 9.645e-01 @@ -1050,10 +1050,10 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 pH = 6.922 Charge balance pe = 10.009 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 3153 + Specific Conductance (µS/cm, 36°C) = 3152 Density (g/cm³) = 0.99568 Volume (L) = 0.97072 - Viscosity (mPa s) = 0.71185 + Viscosity (mPa s) = 0.71194 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.199e-02 Mass of water (kg) = 9.645e-01 @@ -1136,7 +1136,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 37°C) = 3213 Density (g/cm³) = 0.99532 Volume (L) = 0.97107 - Viscosity (mPa s) = 0.69803 + Viscosity (mPa s) = 0.69812 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.197e-02 Mass of water (kg) = 9.645e-01 @@ -1219,7 +1219,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 38°C) = 3273 Density (g/cm³) = 0.99496 Volume (L) = 0.97143 - Viscosity (mPa s) = 0.68464 + Viscosity (mPa s) = 0.68474 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.194e-02 Mass of water (kg) = 9.645e-01 @@ -1302,7 +1302,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 39°C) = 3333 Density (g/cm³) = 0.99459 Volume (L) = 0.97179 - Viscosity (mPa s) = 0.67166 + Viscosity (mPa s) = 0.67177 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.191e-02 Mass of water (kg) = 9.645e-01 @@ -1385,7 +1385,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 40°C) = 3392 Density (g/cm³) = 0.99421 Volume (L) = 0.97216 - Viscosity (mPa s) = 0.65908 + Viscosity (mPa s) = 0.65919 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.187e-02 Mass of water (kg) = 9.645e-01 @@ -1468,7 +1468,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 41°C) = 3452 Density (g/cm³) = 0.99382 Volume (L) = 0.97254 - Viscosity (mPa s) = 0.64688 + Viscosity (mPa s) = 0.64699 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.182e-02 Mass of water (kg) = 9.645e-01 @@ -1551,7 +1551,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 42°C) = 3511 Density (g/cm³) = 0.99343 Volume (L) = 0.97293 - Viscosity (mPa s) = 0.63504 + Viscosity (mPa s) = 0.63516 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.177e-02 Mass of water (kg) = 9.645e-01 @@ -1631,10 +1631,10 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 pH = 6.839 Charge balance pe = 9.566 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 3570 + Specific Conductance (µS/cm, 43°C) = 3569 Density (g/cm³) = 0.99302 Volume (L) = 0.97332 - Viscosity (mPa s) = 0.62355 + Viscosity (mPa s) = 0.62367 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.171e-02 Mass of water (kg) = 9.645e-01 @@ -1717,7 +1717,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 44°C) = 3628 Density (g/cm³) = 0.99261 Volume (L) = 0.97372 - Viscosity (mPa s) = 0.61239 + Viscosity (mPa s) = 0.61252 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.165e-02 Mass of water (kg) = 9.645e-01 @@ -1800,7 +1800,7 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 45°C) = 3686 Density (g/cm³) = 0.99220 Volume (L) = 0.97413 - Viscosity (mPa s) = 0.60156 + Viscosity (mPa s) = 0.60169 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.158e-02 Mass of water (kg) = 9.645e-01 @@ -1880,10 +1880,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.851e-01 pH = 6.805 Charge balance pe = 9.381 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 46°C) = 3744 + Specific Conductance (µS/cm, 46°C) = 3743 Density (g/cm³) = 0.99177 Volume (L) = 0.97454 - Viscosity (mPa s) = 0.59103 + Viscosity (mPa s) = 0.59117 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.151e-02 Mass of water (kg) = 9.645e-01 @@ -1963,10 +1963,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.852e-01 pH = 6.794 Charge balance pe = 9.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 3801 + Specific Conductance (µS/cm, 47°C) = 3800 Density (g/cm³) = 0.99134 Volume (L) = 0.97497 - Viscosity (mPa s) = 0.58080 + Viscosity (mPa s) = 0.58095 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.142e-02 Mass of water (kg) = 9.645e-01 @@ -2046,10 +2046,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.852e-01 pH = 6.783 Charge balance pe = 9.215 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 48°C) = 3858 + Specific Conductance (µS/cm, 48°C) = 3857 Density (g/cm³) = 0.99090 Volume (L) = 0.97540 - Viscosity (mPa s) = 0.57086 + Viscosity (mPa s) = 0.57101 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.134e-02 Mass of water (kg) = 9.645e-01 @@ -2129,10 +2129,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.773 Charge balance pe = 9.197 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 3914 + Specific Conductance (µS/cm, 49°C) = 3913 Density (g/cm³) = 0.99045 Volume (L) = 0.97583 - Viscosity (mPa s) = 0.56120 + Viscosity (mPa s) = 0.56135 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.125e-02 Mass of water (kg) = 9.645e-01 @@ -2212,10 +2212,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.762 Charge balance pe = -1.655 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 3970 + Specific Conductance (µS/cm, 50°C) = 3969 Density (g/cm³) = 0.99000 Volume (L) = 0.97627 - Viscosity (mPa s) = 0.55180 + Viscosity (mPa s) = 0.55195 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.115e-02 Mass of water (kg) = 9.645e-01 @@ -2295,10 +2295,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.752 Charge balance pe = -2.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 51°C) = 4025 + Specific Conductance (µS/cm, 51°C) = 4024 Density (g/cm³) = 0.98954 Volume (L) = 0.97672 - Viscosity (mPa s) = 0.54265 + Viscosity (mPa s) = 0.54281 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.105e-02 Mass of water (kg) = 9.645e-01 @@ -2381,7 +2381,7 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 52°C) = 4079 Density (g/cm³) = 0.98908 Volume (L) = 0.97718 - Viscosity (mPa s) = 0.53376 + Viscosity (mPa s) = 0.53392 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.094e-02 Mass of water (kg) = 9.645e-01 @@ -2461,10 +2461,10 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 pH = 6.732 Charge balance pe = 8.915 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 4134 + Specific Conductance (µS/cm, 53°C) = 4133 Density (g/cm³) = 0.98860 Volume (L) = 0.97764 - Viscosity (mPa s) = 0.52510 + Viscosity (mPa s) = 0.52526 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.083e-02 Mass of water (kg) = 9.645e-01 @@ -2547,7 +2547,7 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 54°C) = 4187 Density (g/cm³) = 0.98812 Volume (L) = 0.97811 - Viscosity (mPa s) = 0.51666 + Viscosity (mPa s) = 0.51684 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.071e-02 Mass of water (kg) = 9.645e-01 @@ -2630,7 +2630,7 @@ Gypsum -0.01 -4.64 -4.63 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 55°C) = 4201 Density (g/cm³) = 0.98762 Volume (L) = 1.05117 - Viscosity (mPa s) = 0.50842 + Viscosity (mPa s) = 0.50859 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.020e-02 Mass of water (kg) = 1.036e+00 @@ -2713,7 +2713,7 @@ Gypsum -0.02 -4.65 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 56°C) = 4190 Density (g/cm³) = 0.98709 Volume (L) = 1.05168 - Viscosity (mPa s) = 0.50037 + Viscosity (mPa s) = 0.50054 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.946e-02 Mass of water (kg) = 1.036e+00 @@ -2796,7 +2796,7 @@ Gypsum -0.03 -4.67 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 57°C) = 4178 Density (g/cm³) = 0.98656 Volume (L) = 1.05221 - Viscosity (mPa s) = 0.49252 + Viscosity (mPa s) = 0.49270 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.874e-02 Mass of water (kg) = 1.036e+00 @@ -2879,7 +2879,7 @@ Gypsum -0.04 -4.68 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 58°C) = 4165 Density (g/cm³) = 0.98602 Volume (L) = 1.05274 - Viscosity (mPa s) = 0.48488 + Viscosity (mPa s) = 0.48506 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.802e-02 Mass of water (kg) = 1.036e+00 @@ -2962,7 +2962,7 @@ Gypsum -0.04 -4.69 -4.65 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 59°C) = 4151 Density (g/cm³) = 0.98548 Volume (L) = 1.05328 - Viscosity (mPa s) = 0.47744 + Viscosity (mPa s) = 0.47762 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.731e-02 Mass of water (kg) = 1.036e+00 @@ -3042,10 +3042,10 @@ Gypsum -0.05 -4.71 -4.65 1.000e+00 0 -1.000e+00 pH = 6.658 Charge balance pe = 8.549 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 4137 + Specific Conductance (µS/cm, 60°C) = 4136 Density (g/cm³) = 0.98493 Volume (L) = 1.05382 - Viscosity (mPa s) = 0.47018 + Viscosity (mPa s) = 0.47036 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.662e-02 Mass of water (kg) = 1.036e+00 @@ -3125,10 +3125,10 @@ Gypsum -0.06 -4.72 -4.66 1.000e+00 0 -1.000e+00 pH = 6.648 Charge balance pe = 8.493 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 4121 + Specific Conductance (µS/cm, 61°C) = 4120 Density (g/cm³) = 0.98438 Volume (L) = 1.05438 - Viscosity (mPa s) = 0.46310 + Viscosity (mPa s) = 0.46328 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.594e-02 Mass of water (kg) = 1.036e+00 @@ -3208,10 +3208,10 @@ Gypsum -0.07 -4.73 -4.66 1.000e+00 0 -1.000e+00 pH = 6.638 Charge balance pe = 8.491 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 4105 + Specific Conductance (µS/cm, 62°C) = 4104 Density (g/cm³) = 0.98382 Volume (L) = 1.05493 - Viscosity (mPa s) = 0.45620 + Viscosity (mPa s) = 0.45638 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.526e-02 Mass of water (kg) = 1.036e+00 @@ -3294,7 +3294,7 @@ Gypsum -0.08 -4.75 -4.66 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 63°C) = 4087 Density (g/cm³) = 0.98326 Volume (L) = 1.05550 - Viscosity (mPa s) = 0.44947 + Viscosity (mPa s) = 0.44965 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.460e-02 Mass of water (kg) = 1.036e+00 @@ -3377,7 +3377,7 @@ Gypsum -0.09 -4.76 -4.67 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 64°C) = 4069 Density (g/cm³) = 0.98269 Volume (L) = 1.05607 - Viscosity (mPa s) = 0.44290 + Viscosity (mPa s) = 0.44309 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.395e-02 Mass of water (kg) = 1.036e+00 @@ -3457,10 +3457,10 @@ Gypsum -0.10 -4.77 -4.67 1.000e+00 0 -1.000e+00 pH = 6.608 Charge balance pe = 8.273 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 4051 + Specific Conductance (µS/cm, 65°C) = 4050 Density (g/cm³) = 0.98212 Volume (L) = 1.05665 - Viscosity (mPa s) = 0.43649 + Viscosity (mPa s) = 0.43668 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.331e-02 Mass of water (kg) = 1.036e+00 @@ -3540,10 +3540,10 @@ Gypsum -0.11 -4.79 -4.67 1.000e+00 0 -1.000e+00 pH = 6.598 Charge balance pe = 8.218 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 66°C) = 4031 + Specific Conductance (µS/cm, 66°C) = 4030 Density (g/cm³) = 0.98154 Volume (L) = 1.05724 - Viscosity (mPa s) = 0.43024 + Viscosity (mPa s) = 0.43043 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.268e-02 Mass of water (kg) = 1.036e+00 @@ -3623,10 +3623,10 @@ Gypsum -0.12 -4.80 -4.68 1.000e+00 0 -1.000e+00 pH = 6.589 Charge balance pe = 8.164 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 67°C) = 4011 + Specific Conductance (µS/cm, 67°C) = 4010 Density (g/cm³) = 0.98095 Volume (L) = 1.05783 - Viscosity (mPa s) = 0.42414 + Viscosity (mPa s) = 0.42433 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.206e-02 Mass of water (kg) = 1.036e+00 @@ -3706,10 +3706,10 @@ Gypsum -0.13 -4.81 -4.68 1.000e+00 0 -1.000e+00 pH = 6.579 Charge balance pe = 8.110 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 68°C) = 3990 + Specific Conductance (µS/cm, 68°C) = 3989 Density (g/cm³) = 0.98037 Volume (L) = 1.05843 - Viscosity (mPa s) = 0.41818 + Viscosity (mPa s) = 0.41837 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.145e-02 Mass of water (kg) = 1.036e+00 @@ -3789,10 +3789,10 @@ Gypsum -0.14 -4.83 -4.69 1.000e+00 0 -1.000e+00 pH = 6.570 Charge balance pe = 8.057 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 3969 + Specific Conductance (µS/cm, 69°C) = 3968 Density (g/cm³) = 0.97977 Volume (L) = 1.05904 - Viscosity (mPa s) = 0.41236 + Viscosity (mPa s) = 0.41255 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.086e-02 Mass of water (kg) = 1.036e+00 @@ -3875,7 +3875,7 @@ Gypsum -0.15 -4.84 -4.69 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 70°C) = 3946 Density (g/cm³) = 0.97917 Volume (L) = 1.05965 - Viscosity (mPa s) = 0.40667 + Viscosity (mPa s) = 0.40686 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.027e-02 Mass of water (kg) = 1.036e+00 @@ -3955,10 +3955,10 @@ Gypsum -0.16 -4.85 -4.70 1.000e+00 0 -1.000e+00 pH = 6.552 Charge balance pe = 7.950 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 3924 + Specific Conductance (µS/cm, 71°C) = 3923 Density (g/cm³) = 0.97857 Volume (L) = 1.06027 - Viscosity (mPa s) = 0.40112 + Viscosity (mPa s) = 0.40131 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.969e-02 Mass of water (kg) = 1.036e+00 @@ -4041,7 +4041,7 @@ Gypsum -0.17 -4.87 -4.70 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 72°C) = 3900 Density (g/cm³) = 0.97796 Volume (L) = 1.06090 - Viscosity (mPa s) = 0.39569 + Viscosity (mPa s) = 0.39588 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.912e-02 Mass of water (kg) = 1.036e+00 @@ -4124,7 +4124,7 @@ Gypsum -0.18 -4.88 -4.70 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 73°C) = 3876 Density (g/cm³) = 0.97735 Volume (L) = 1.06153 - Viscosity (mPa s) = 0.39039 + Viscosity (mPa s) = 0.39058 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.856e-02 Mass of water (kg) = 1.036e+00 @@ -4204,10 +4204,10 @@ Gypsum -0.18 -4.89 -4.71 1.000e+00 0 -1.000e+00 pH = 6.525 Charge balance pe = 7.790 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 3852 + Specific Conductance (µS/cm, 74°C) = 3851 Density (g/cm³) = 0.97673 Volume (L) = 1.06217 - Viscosity (mPa s) = 0.38521 + Viscosity (mPa s) = 0.38540 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.802e-02 Mass of water (kg) = 1.036e+00 @@ -4287,10 +4287,10 @@ Gypsum -0.19 -4.91 -4.71 1.000e+00 0 -1.000e+00 pH = 6.516 Charge balance pe = 7.738 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 3827 + Specific Conductance (µS/cm, 75°C) = 3826 Density (g/cm³) = 0.97611 Volume (L) = 1.06282 - Viscosity (mPa s) = 0.38014 + Viscosity (mPa s) = 0.38033 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.748e-02 Mass of water (kg) = 1.036e+00 diff --git a/examples/ex21.out b/examples/ex21.out index e4d8058a..0f28b739 100644 --- a/examples/ex21.out +++ b/examples/ex21.out @@ -435,10 +435,10 @@ WARNING: USER_PUNCH: Headings count does not match number of calls to PUNCH. pH = 7.600 pe = 13.120 Equilibrium with O2(g) - Specific Conductance (µS/cm, 23°C) = 29068 + Specific Conductance (µS/cm, 23°C) = 29069 Density (g/cm³) = 1.01168 Volume (L) = 0.20147 - Viscosity (mPa s) = 0.96935 + Viscosity (mPa s) = 0.96932 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.633e-01 Mass of water (kg) = 2.000e-01 diff --git a/examples/ex22.out b/examples/ex22.out index c57ca3a5..ca9d6a6e 100644 --- a/examples/ex22.out +++ b/examples/ex22.out @@ -3031,7 +3031,7 @@ H2O(g) -0.79 1.615e-01 0.761 5.717e-03 7.178e-03 1.461e-03 Specific Conductance (µS/cm, 50°C) = 258 Density (g/cm³) = 0.99409 Volume (L) = 1.03007 - Viscosity (mPa s) = 0.56004 + Viscosity (mPa s) = 0.56005 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.432e-04 Mass of water (kg) = 9.999e-01 @@ -3126,7 +3126,7 @@ H2O(g) -0.73 1.861e-01 0.665 7.178e-03 9.044e-03 1.866e-03 Specific Conductance (µS/cm, 50°C) = 290 Density (g/cm³) = 0.99620 Volume (L) = 1.03584 - Viscosity (mPa s) = 0.56435 + Viscosity (mPa s) = 0.56436 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.276e-04 Mass of water (kg) = 9.998e-01 @@ -3316,7 +3316,7 @@ H2O(g) -0.61 2.437e-01 0.514 1.139e-02 1.427e-02 2.881e-03 Specific Conductance (µS/cm, 50°C) = 322 Density (g/cm³) = 0.99898 Volume (L) = 1.04261 - Viscosity (mPa s) = 0.56970 + Viscosity (mPa s) = 0.56971 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.202e-04 Mass of water (kg) = 9.997e-01 @@ -3411,7 +3411,7 @@ H2O(g) -0.56 2.762e-01 0.456 1.427e-02 1.774e-02 3.477e-03 Specific Conductance (µS/cm, 50°C) = 331 Density (g/cm³) = 0.99985 Volume (L) = 1.04438 - Viscosity (mPa s) = 0.57125 + Viscosity (mPa s) = 0.57126 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.453e-04 Mass of water (kg) = 9.997e-01 @@ -3506,7 +3506,7 @@ H2O(g) -0.51 3.107e-01 0.407 1.774e-02 2.186e-02 4.119e-03 Specific Conductance (µS/cm, 50°C) = 336 Density (g/cm³) = 1.00049 Volume (L) = 1.04551 - Viscosity (mPa s) = 0.57233 + Viscosity (mPa s) = 0.57234 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.626e-04 Mass of water (kg) = 9.996e-01 @@ -3696,7 +3696,7 @@ H2O(g) -0.41 3.869e-01 0.329 2.666e-02 3.217e-02 5.510e-03 Specific Conductance (µS/cm, 50°C) = 343 Density (g/cm³) = 1.00135 Volume (L) = 1.04665 - Viscosity (mPa s) = 0.57367 + Viscosity (mPa s) = 0.57368 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.838e-04 Mass of water (kg) = 9.994e-01 @@ -3886,7 +3886,7 @@ H2O(g) -0.32 4.775e-01 0.268 3.841e-02 4.540e-02 6.987e-03 Specific Conductance (µS/cm, 50°C) = 348 Density (g/cm³) = 1.00199 Volume (L) = 1.04712 - Viscosity (mPa s) = 0.57455 + Viscosity (mPa s) = 0.57456 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.977e-04 Mass of water (kg) = 9.992e-01 @@ -4171,7 +4171,7 @@ H2O(g) -0.17 6.730e-01 0.192 6.160e-02 7.077e-02 9.169e-03 Specific Conductance (µS/cm, 50°C) = 356 Density (g/cm³) = 1.00313 Volume (L) = 1.04741 - Viscosity (mPa s) = 0.57594 + Viscosity (mPa s) = 0.57595 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.198e-04 Mass of water (kg) = 9.987e-01 @@ -4456,7 +4456,7 @@ H2O(g) 0.01 1.031e+00 0.129 9.102e-02 1.020e-01 1.094e-02 Specific Conductance (µS/cm, 50°C) = 368 Density (g/cm³) = 1.00524 Volume (L) = 1.04738 - Viscosity (mPa s) = 0.57818 + Viscosity (mPa s) = 0.57819 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.561e-04 Mass of water (kg) = 9.981e-01 @@ -4551,7 +4551,7 @@ H2O(g) 0.08 1.215e+00 0.111 1.020e-01 1.133e-01 1.134e-02 Specific Conductance (µS/cm, 50°C) = 375 Density (g/cm³) = 1.00631 Volume (L) = 1.04724 - Viscosity (mPa s) = 0.57924 + Viscosity (mPa s) = 0.57925 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.735e-04 Mass of water (kg) = 9.979e-01 @@ -5142,7 +5142,7 @@ H2O(g) 0.57 3.696e+00 0.044 1.702e-01 1.801e-01 9.820e-03 Specific Conductance (µS/cm, 50°C) = 453 Density (g/cm³) = 1.01986 Volume (L) = 1.04226 - Viscosity (mPa s) = 0.59149 + Viscosity (mPa s) = 0.59150 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.082e-03 Mass of water (kg) = 9.967e-01 @@ -5346,7 +5346,7 @@ H2O(g) 0.73 5.366e+00 0.035 1.886e-01 1.956e-01 6.925e-03 Specific Conductance (µS/cm, 50°C) = 508 Density (g/cm³) = 1.02885 Volume (L) = 1.03737 - Viscosity (mPa s) = 0.59951 + Viscosity (mPa s) = 0.59952 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.223e-03 Mass of water (kg) = 9.965e-01 @@ -5650,7 +5650,7 @@ H2O(g) -0.36 4.356e-01 0.874 1.332e-02 1.642e-02 3.100e-03 Specific Conductance (µS/cm, 75°C) = 212 Density (g/cm³) = 0.97762 Volume (L) = 1.03384 - Viscosity (mPa s) = 0.38077 + Viscosity (mPa s) = 0.38078 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.505e-04 Mass of water (kg) = 9.997e-01 @@ -5745,7 +5745,7 @@ H2O(g) -0.30 4.993e-01 0.769 1.642e-02 2.026e-02 3.838e-03 Specific Conductance (µS/cm, 75°C) = 278 Density (g/cm³) = 0.97995 Volume (L) = 1.04028 - Viscosity (mPa s) = 0.38321 + Viscosity (mPa s) = 0.38322 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.703e-04 Mass of water (kg) = 9.996e-01 @@ -5840,7 +5840,7 @@ H2O(g) -0.24 5.707e-01 0.679 2.026e-02 2.494e-02 4.679e-03 Specific Conductance (µS/cm, 75°C) = 317 Density (g/cm³) = 0.98185 Volume (L) = 1.04514 - Viscosity (mPa s) = 0.38513 + Viscosity (mPa s) = 0.38514 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.462e-04 Mass of water (kg) = 9.995e-01 @@ -5935,7 +5935,7 @@ H2O(g) -0.19 6.497e-01 0.601 2.494e-02 3.056e-02 5.615e-03 Specific Conductance (µS/cm, 75°C) = 343 Density (g/cm³) = 0.98339 Volume (L) = 1.04871 - Viscosity (mPa s) = 0.38664 + Viscosity (mPa s) = 0.38665 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.986e-04 Mass of water (kg) = 9.994e-01 @@ -6125,7 +6125,7 @@ H2O(g) -0.08 8.308e-01 0.476 3.718e-02 4.488e-02 7.699e-03 Specific Conductance (µS/cm, 75°C) = 374 Density (g/cm³) = 0.98568 Volume (L) = 1.05312 - Viscosity (mPa s) = 0.38879 + Viscosity (mPa s) = 0.38880 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.648e-04 Mass of water (kg) = 9.992e-01 @@ -6220,7 +6220,7 @@ H2O(g) -0.03 9.337e-01 0.426 4.488e-02 5.370e-02 8.815e-03 Specific Conductance (µS/cm, 75°C) = 384 Density (g/cm³) = 0.98654 Volume (L) = 1.05442 - Viscosity (mPa s) = 0.38958 + Viscosity (mPa s) = 0.38959 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.867e-04 Mass of water (kg) = 9.990e-01 @@ -6315,7 +6315,7 @@ H2O(g) 0.02 1.046e+00 0.383 5.370e-02 6.365e-02 9.958e-03 Specific Conductance (µS/cm, 75°C) = 392 Density (g/cm³) = 0.98730 Volume (L) = 1.05534 - Viscosity (mPa s) = 0.39025 + Viscosity (mPa s) = 0.39026 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.045e-04 Mass of water (kg) = 9.988e-01 @@ -6407,7 +6407,7 @@ H2O(g) 0.07 1.170e+00 0.344 6.365e-02 7.477e-02 1.111e-02 pH = 3.157 Charge balance pe = 2.153 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 399 + Specific Conductance (µS/cm, 75°C) = 398 Density (g/cm³) = 0.98799 Volume (L) = 1.05600 Viscosity (mPa s) = 0.39085 @@ -6505,7 +6505,7 @@ H2O(g) 0.12 1.308e+00 0.310 7.477e-02 8.703e-02 1.226e-02 Specific Conductance (µS/cm, 75°C) = 405 Density (g/cm³) = 0.98864 Volume (L) = 1.05647 - Viscosity (mPa s) = 0.39140 + Viscosity (mPa s) = 0.39141 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.333e-04 Mass of water (kg) = 9.984e-01 @@ -6600,7 +6600,7 @@ H2O(g) 0.17 1.463e+00 0.278 8.703e-02 1.004e-01 1.338e-02 Specific Conductance (µS/cm, 75°C) = 410 Density (g/cm³) = 0.98930 Volume (L) = 1.05681 - Viscosity (mPa s) = 0.39195 + Viscosity (mPa s) = 0.39196 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.462e-04 Mass of water (kg) = 9.982e-01 @@ -6885,7 +6885,7 @@ H2O(g) 0.32 2.085e+00 0.200 1.303e-01 1.467e-01 1.639e-02 Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99159 Volume (L) = 1.05726 - Viscosity (mPa s) = 0.39380 + Viscosity (mPa s) = 0.39381 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.871e-04 Mass of water (kg) = 9.973e-01 @@ -6980,7 +6980,7 @@ H2O(g) 0.37 2.368e+00 0.178 1.467e-01 1.639e-01 1.719e-02 Specific Conductance (µS/cm, 75°C) = 436 Density (g/cm³) = 0.99256 Volume (L) = 1.05726 - Viscosity (mPa s) = 0.39456 + Viscosity (mPa s) = 0.39457 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.031e-04 Mass of water (kg) = 9.970e-01 @@ -7075,7 +7075,7 @@ H2O(g) 0.43 2.704e+00 0.158 1.639e-01 1.818e-01 1.784e-02 Specific Conductance (µS/cm, 75°C) = 444 Density (g/cm³) = 0.99369 Volume (L) = 1.05716 - Viscosity (mPa s) = 0.39544 + Viscosity (mPa s) = 0.39545 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.210e-04 Mass of water (kg) = 9.967e-01 @@ -7170,7 +7170,7 @@ H2O(g) 0.49 3.103e+00 0.140 1.818e-01 2.001e-01 1.830e-02 Specific Conductance (µS/cm, 75°C) = 454 Density (g/cm³) = 0.99500 Volume (L) = 1.05696 - Viscosity (mPa s) = 0.39646 + Viscosity (mPa s) = 0.39647 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.413e-04 Mass of water (kg) = 9.964e-01 @@ -7265,7 +7265,7 @@ H2O(g) 0.55 3.579e+00 0.123 2.001e-01 2.186e-01 1.854e-02 Specific Conductance (µS/cm, 75°C) = 464 Density (g/cm³) = 0.99654 Volume (L) = 1.05664 - Viscosity (mPa s) = 0.39764 + Viscosity (mPa s) = 0.39765 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.646e-04 Mass of water (kg) = 9.960e-01 @@ -7360,7 +7360,7 @@ H2O(g) 0.62 4.146e+00 0.109 2.186e-01 2.371e-01 1.851e-02 Specific Conductance (µS/cm, 75°C) = 477 Density (g/cm³) = 0.99835 Volume (L) = 1.05616 - Viscosity (mPa s) = 0.39903 + Viscosity (mPa s) = 0.39904 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.914e-04 Mass of water (kg) = 9.957e-01 @@ -7455,7 +7455,7 @@ H2O(g) 0.68 4.819e+00 0.096 2.371e-01 2.553e-01 1.819e-02 Specific Conductance (µS/cm, 75°C) = 491 Density (g/cm³) = 1.00048 Volume (L) = 1.05549 - Viscosity (mPa s) = 0.40067 + Viscosity (mPa s) = 0.40068 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.224e-04 Mass of water (kg) = 9.954e-01 @@ -7557,7 +7557,7 @@ H2O(g) 0.75 5.616e+00 0.085 2.553e-01 2.728e-01 1.752e-02 Specific Conductance (µS/cm, 75°C) = 508 Density (g/cm³) = 1.00298 Volume (L) = 1.05459 - Viscosity (mPa s) = 0.40259 + Viscosity (mPa s) = 0.40260 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.585e-04 Mass of water (kg) = 9.951e-01 @@ -7659,7 +7659,7 @@ H2O(g) 0.82 6.552e+00 0.076 2.728e-01 2.893e-01 1.646e-02 Specific Conductance (µS/cm, 75°C) = 527 Density (g/cm³) = 1.00591 Volume (L) = 1.05341 - Viscosity (mPa s) = 0.40486 + Viscosity (mPa s) = 0.40487 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.001e-03 Mass of water (kg) = 9.948e-01 @@ -7761,7 +7761,7 @@ H2O(g) 0.88 7.646e+00 0.068 2.893e-01 3.042e-01 1.496e-02 Specific Conductance (µS/cm, 75°C) = 550 Density (g/cm³) = 1.00936 Volume (L) = 1.05188 - Viscosity (mPa s) = 0.40754 + Viscosity (mPa s) = 0.40755 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.050e-03 Mass of water (kg) = 9.945e-01 @@ -7863,7 +7863,7 @@ H2O(g) 0.95 8.913e+00 0.062 3.042e-01 3.172e-01 1.297e-02 Specific Conductance (µS/cm, 75°C) = 577 Density (g/cm³) = 1.01339 Volume (L) = 1.04992 - Viscosity (mPa s) = 0.41073 + Viscosity (mPa s) = 0.41074 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.108e-03 Mass of water (kg) = 9.943e-01 @@ -7965,7 +7965,7 @@ H2O(g) 1.02 1.037e+01 0.057 3.172e-01 3.276e-01 1.043e-02 Specific Conductance (µS/cm, 75°C) = 609 Density (g/cm³) = 1.01812 Volume (L) = 1.04745 - Viscosity (mPa s) = 0.41454 + Viscosity (mPa s) = 0.41455 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.177e-03 Mass of water (kg) = 9.941e-01 @@ -8067,7 +8067,7 @@ H2O(g) 1.08 1.202e+01 0.053 3.276e-01 3.349e-01 7.291e-03 Specific Conductance (µS/cm, 75°C) = 646 Density (g/cm³) = 1.02365 Volume (L) = 1.04435 - Viscosity (mPa s) = 0.41910 + Viscosity (mPa s) = 0.41911 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.259e-03 Mass of water (kg) = 9.939e-01 @@ -8169,7 +8169,7 @@ H2O(g) 1.14 1.386e+01 0.051 3.349e-01 3.384e-01 3.493e-03 Specific Conductance (µS/cm, 75°C) = 692 Density (g/cm³) = 1.03011 Volume (L) = 1.04050 - Viscosity (mPa s) = 0.42462 + Viscosity (mPa s) = 0.42463 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.357e-03 Mass of water (kg) = 9.939e-01 @@ -8368,10 +8368,10 @@ H2O(g) 0.06 1.139e+00 0.877 3.285e-02 3.984e-02 6.990e-03 pH = 3.544 Charge balance pe = 9.305 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 204 + Specific Conductance (µS/cm, 100°C) = 203 Density (g/cm³) = 0.96086 Volume (L) = 1.05014 - Viscosity (mPa s) = 0.28373 + Viscosity (mPa s) = 0.28374 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.920e-04 Mass of water (kg) = 9.993e-01 @@ -8561,7 +8561,7 @@ H2O(g) 0.17 1.465e+00 0.695 4.816e-02 5.795e-02 9.787e-03 Specific Conductance (µS/cm, 100°C) = 310 Density (g/cm³) = 0.96489 Volume (L) = 1.06054 - Viscosity (mPa s) = 0.28657 + Viscosity (mPa s) = 0.28658 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.610e-04 Mass of water (kg) = 9.989e-01 @@ -8656,7 +8656,7 @@ H2O(g) 0.22 1.653e+00 0.621 5.795e-02 6.931e-02 1.136e-02 Specific Conductance (µS/cm, 100°C) = 338 Density (g/cm³) = 0.96649 Volume (L) = 1.06404 - Viscosity (mPa s) = 0.28765 + Viscosity (mPa s) = 0.28766 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.093e-04 Mass of water (kg) = 9.987e-01 @@ -8751,7 +8751,7 @@ H2O(g) 0.27 1.859e+00 0.557 6.931e-02 8.231e-02 1.301e-02 Specific Conductance (µS/cm, 100°C) = 359 Density (g/cm³) = 0.96788 Volume (L) = 1.06668 - Viscosity (mPa s) = 0.28858 + Viscosity (mPa s) = 0.28859 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.462e-04 Mass of water (kg) = 9.985e-01 @@ -8846,7 +8846,7 @@ H2O(g) 0.32 2.085e+00 0.501 8.231e-02 9.701e-02 1.470e-02 Specific Conductance (µS/cm, 100°C) = 375 Density (g/cm³) = 0.96910 Volume (L) = 1.06867 - Viscosity (mPa s) = 0.28939 + Viscosity (mPa s) = 0.28940 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.755e-04 Mass of water (kg) = 9.982e-01 @@ -8941,7 +8941,7 @@ H2O(g) 0.37 2.333e+00 0.451 9.701e-02 1.134e-01 1.641e-02 Specific Conductance (µS/cm, 100°C) = 388 Density (g/cm³) = 0.97021 Volume (L) = 1.07015 - Viscosity (mPa s) = 0.29012 + Viscosity (mPa s) = 0.29013 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.997e-04 Mass of water (kg) = 9.979e-01 @@ -9036,7 +9036,7 @@ H2O(g) 0.42 2.605e+00 0.407 1.134e-01 1.315e-01 1.811e-02 Specific Conductance (µS/cm, 100°C) = 399 Density (g/cm³) = 0.97124 Volume (L) = 1.07126 - Viscosity (mPa s) = 0.29079 + Viscosity (mPa s) = 0.29080 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.205e-04 Mass of water (kg) = 9.976e-01 @@ -9226,7 +9226,7 @@ H2O(g) 0.51 3.242e+00 0.332 1.513e-01 1.727e-01 2.137e-02 Specific Conductance (µS/cm, 100°C) = 418 Density (g/cm³) = 0.97320 Volume (L) = 1.07268 - Viscosity (mPa s) = 0.29206 + Viscosity (mPa s) = 0.29207 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.566e-04 Mass of water (kg) = 9.969e-01 @@ -9321,7 +9321,7 @@ H2O(g) 0.56 3.618e+00 0.300 1.727e-01 1.955e-01 2.287e-02 Specific Conductance (µS/cm, 100°C) = 426 Density (g/cm³) = 0.97420 Volume (L) = 1.07311 - Viscosity (mPa s) = 0.29270 + Viscosity (mPa s) = 0.29271 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.734e-04 Mass of water (kg) = 9.965e-01 @@ -9416,7 +9416,7 @@ H2O(g) 0.61 4.045e+00 0.271 1.955e-01 2.198e-01 2.424e-02 Specific Conductance (µS/cm, 100°C) = 435 Density (g/cm³) = 0.97525 Volume (L) = 1.07339 - Viscosity (mPa s) = 0.29338 + Viscosity (mPa s) = 0.29339 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.903e-04 Mass of water (kg) = 9.960e-01 @@ -9511,7 +9511,7 @@ H2O(g) 0.66 4.530e+00 0.245 2.198e-01 2.452e-01 2.545e-02 Specific Conductance (µS/cm, 100°C) = 444 Density (g/cm³) = 0.97639 Volume (L) = 1.07355 - Viscosity (mPa s) = 0.29410 + Viscosity (mPa s) = 0.29411 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.077e-04 Mass of water (kg) = 9.956e-01 @@ -9701,7 +9701,7 @@ H2O(g) 0.76 5.727e+00 0.199 2.717e-01 2.989e-01 2.722e-02 Specific Conductance (µS/cm, 100°C) = 464 Density (g/cm³) = 0.97902 Volume (L) = 1.07352 - Viscosity (mPa s) = 0.29580 + Viscosity (mPa s) = 0.29581 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.459e-04 Mass of water (kg) = 9.946e-01 @@ -9796,7 +9796,7 @@ H2O(g) 0.81 6.466e+00 0.179 2.989e-01 3.266e-01 2.770e-02 Specific Conductance (µS/cm, 100°C) = 475 Density (g/cm³) = 0.98059 Volume (L) = 1.07333 - Viscosity (mPa s) = 0.29681 + Viscosity (mPa s) = 0.29682 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.676e-04 Mass of water (kg) = 9.941e-01 @@ -9888,10 +9888,10 @@ H2O(g) 0.86 7.319e+00 0.161 3.266e-01 3.544e-01 2.783e-02 pH = 3.117 Charge balance pe = 1.787 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 488 + Specific Conductance (µS/cm, 100°C) = 487 Density (g/cm³) = 0.98238 Volume (L) = 1.07300 - Viscosity (mPa s) = 0.29796 + Viscosity (mPa s) = 0.29797 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.916e-04 Mass of water (kg) = 9.936e-01 @@ -9986,7 +9986,7 @@ H2O(g) 0.92 8.305e+00 0.145 3.544e-01 3.820e-01 2.758e-02 Specific Conductance (µS/cm, 100°C) = 501 Density (g/cm³) = 0.98441 Volume (L) = 1.07253 - Viscosity (mPa s) = 0.29928 + Viscosity (mPa s) = 0.29929 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.184e-04 Mass of water (kg) = 9.931e-01 @@ -10081,7 +10081,7 @@ H2O(g) 0.98 9.442e+00 0.131 3.820e-01 4.089e-01 2.690e-02 Specific Conductance (µS/cm, 100°C) = 517 Density (g/cm³) = 0.98675 Volume (L) = 1.07187 - Viscosity (mPa s) = 0.30081 + Viscosity (mPa s) = 0.30082 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.487e-04 Mass of water (kg) = 9.926e-01 @@ -10176,7 +10176,7 @@ H2O(g) 1.03 1.075e+01 0.119 4.089e-01 4.347e-01 2.572e-02 Specific Conductance (µS/cm, 100°C) = 534 Density (g/cm³) = 0.98942 Volume (L) = 1.07102 - Viscosity (mPa s) = 0.30257 + Viscosity (mPa s) = 0.30258 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.829e-04 Mass of water (kg) = 9.922e-01 @@ -10278,7 +10278,7 @@ H2O(g) 1.09 1.225e+01 0.108 4.347e-01 4.587e-01 2.401e-02 Specific Conductance (µS/cm, 100°C) = 554 Density (g/cm³) = 0.99250 Volume (L) = 1.06991 - Viscosity (mPa s) = 0.30462 + Viscosity (mPa s) = 0.30463 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.220e-04 Mass of water (kg) = 9.917e-01 @@ -10380,7 +10380,7 @@ H2O(g) 1.14 1.395e+01 0.099 4.587e-01 4.804e-01 2.170e-02 Specific Conductance (µS/cm, 100°C) = 577 Density (g/cm³) = 0.99605 Volume (L) = 1.06852 - Viscosity (mPa s) = 0.30700 + Viscosity (mPa s) = 0.30701 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.668e-04 Mass of water (kg) = 9.913e-01 @@ -10482,7 +10482,7 @@ H2O(g) 1.20 1.588e+01 0.091 4.804e-01 4.991e-01 1.875e-02 Specific Conductance (µS/cm, 100°C) = 603 Density (g/cm³) = 1.00012 Volume (L) = 1.06679 - Viscosity (mPa s) = 0.30979 + Viscosity (mPa s) = 0.30980 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.018e-03 Mass of water (kg) = 9.910e-01 @@ -10584,7 +10584,7 @@ H2O(g) 1.26 1.804e+01 0.085 4.991e-01 5.142e-01 1.511e-02 Specific Conductance (µS/cm, 100°C) = 633 Density (g/cm³) = 1.00480 Volume (L) = 1.06465 - Viscosity (mPa s) = 0.31305 + Viscosity (mPa s) = 0.31306 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.078e-03 Mass of water (kg) = 9.907e-01 @@ -10686,7 +10686,7 @@ H2O(g) 1.31 2.044e+01 0.081 5.142e-01 5.250e-01 1.075e-02 Specific Conductance (µS/cm, 100°C) = 667 Density (g/cm³) = 1.01017 Volume (L) = 1.06205 - Viscosity (mPa s) = 0.31688 + Viscosity (mPa s) = 0.31689 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.147e-03 Mass of water (kg) = 9.905e-01 @@ -10788,7 +10788,7 @@ H2O(g) 1.36 2.308e+01 0.078 5.250e-01 5.306e-01 5.633e-03 Specific Conductance (µS/cm, 100°C) = 707 Density (g/cm³) = 1.01630 Volume (L) = 1.05892 - Viscosity (mPa s) = 0.32137 + Viscosity (mPa s) = 0.32138 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.228e-03 Mass of water (kg) = 9.904e-01 @@ -10890,7 +10890,7 @@ H2O(g) 1.41 2.593e+01 0.076 5.306e-01 5.304e-01 -2.391e-04 Specific Conductance (µS/cm, 100°C) = 753 Density (g/cm³) = 1.02323 Volume (L) = 1.05524 - Viscosity (mPa s) = 0.32662 + Viscosity (mPa s) = 0.32664 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.323e-03 Mass of water (kg) = 9.904e-01 diff --git a/examples/ex3.out b/examples/ex3.out index 3671a05c..acc4b804 100644 --- a/examples/ex3.out +++ b/examples/ex3.out @@ -388,7 +388,7 @@ Mixture 1. ----------------------------Description of solution---------------------------- pH = 7.327 Charge balance - pe = 10.560 Adjusted to redox equilibrium + pe = 10.559 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18310 Density (g/cm³) = 1.00526 Volume (L) = 1.00578 @@ -414,7 +414,7 @@ Mixture 1. H+ 5.921e-08 4.715e-08 -7.228 -7.327 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -122.397 -122.377 0.021 35.46 + CH4 0.000e+00 0.000e+00 -122.396 -122.375 0.021 35.46 C(4) 3.175e-03 HCO3- 2.615e-03 1.945e-03 -2.583 -2.711 -0.128 25.15 CO2 2.010e-04 2.074e-04 -3.697 -3.683 0.014 34.43 @@ -436,8 +436,8 @@ Ca 4.334e-03 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.46 HCl 1.605e-09 1.965e-09 -8.795 -8.707 0.088 (0) -H(0) 2.281e-39 - H2 1.140e-39 1.196e-39 -38.943 -38.922 0.021 28.61 +H(0) 2.283e-39 + H2 1.142e-39 1.197e-39 -38.942 -38.922 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.986e-05 4.061e-05 -4.302 -4.391 -0.089 14.03 @@ -453,13 +453,13 @@ Na 1.456e-01 Na+ 1.427e-01 1.065e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.801e-03 2.089e-03 -2.553 -2.680 -0.127 -0.72 NaHCO3 1.640e-04 1.804e-04 -3.785 -3.744 0.041 31.73 -O(0) 5.492e-15 - O2 2.746e-15 2.880e-15 -14.561 -14.541 0.021 30.40 +O(0) 5.481e-15 + O2 2.740e-15 2.874e-15 -14.562 -14.541 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -119.522 -119.674 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -120.080 -120.059 0.021 36.27 - S-2 0.000e+00 0.000e+00 -124.735 -125.266 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -241.417 -241.396 0.021 30.09 + HS- 0.000e+00 0.000e+00 -119.520 -119.672 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -120.078 -120.057 0.021 36.27 + S-2 0.000e+00 0.000e+00 -124.733 -125.264 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -241.413 -241.393 0.021 30.09 S(6) 8.777e-03 SO4-2 4.174e-03 1.206e-03 -2.379 -2.919 -0.539 28.42 NaSO4- 2.801e-03 2.089e-03 -2.553 -2.680 -0.127 -0.72 @@ -482,7 +482,7 @@ Si 2.215e-05 Aragonite -0.27 -8.60 -8.34 CaCO3 Arcanite -6.35 -8.23 -1.88 K2SO4 Calcite -0.12 -8.60 -8.48 CaCO3 - CH4(g) -119.57 -122.38 -2.80 CH4 + CH4(g) -119.57 -122.37 -2.80 CH4 Chalcedony -1.08 -4.63 -3.55 SiO2 Chrysotile -4.40 27.80 32.20 Mg3Si2O5(OH)4 CO2(g) -2.21 -3.68 -1.47 CO2 @@ -562,7 +562,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.001e+01 7.786e-03 ----------------------------Description of solution---------------------------- pH = 7.047 Charge balance - pe = 10.927 Adjusted to redox equilibrium + pe = 10.928 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18478 Density (g/cm³) = 1.00533 Volume (L) = 1.00583 @@ -588,7 +588,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.001e+01 7.786e-03 H+ 1.127e-07 8.972e-08 -6.948 -7.047 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -122.863 -122.843 0.021 35.46 + CH4 0.000e+00 0.000e+00 -122.866 -122.845 0.021 35.46 C(4) 3.016e-03 HCO3- 2.394e-03 1.781e-03 -2.621 -2.749 -0.128 25.15 CO2 3.502e-04 3.614e-04 -3.456 -3.442 0.014 34.43 @@ -610,8 +610,8 @@ Ca 1.196e-02 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.47 HCl 3.053e-09 3.740e-09 -8.515 -8.427 0.088 (0) -H(0) 1.518e-39 - H2 7.590e-40 7.961e-40 -39.120 -39.099 0.021 28.61 +H(0) 1.516e-39 + H2 7.579e-40 7.949e-40 -39.120 -39.100 0.021 28.61 K 3.173e-03 K+ 3.120e-03 2.213e-03 -2.506 -2.655 -0.149 9.35 KSO4- 5.122e-05 4.172e-05 -4.291 -4.380 -0.089 14.03 @@ -627,13 +627,13 @@ Na 1.456e-01 Na+ 1.426e-01 1.064e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.878e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 NaHCO3 1.500e-04 1.650e-04 -3.824 -3.782 0.041 31.73 -O(0) 1.239e-14 - O2 6.197e-15 6.500e-15 -14.208 -14.187 0.021 30.40 +O(0) 1.243e-14 + O2 6.216e-15 6.519e-15 -14.207 -14.186 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -119.937 -120.090 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -120.216 -120.195 0.021 36.27 - S-2 0.000e+00 0.000e+00 -125.429 -125.961 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -241.689 -241.669 0.021 30.09 + HS- 0.000e+00 0.000e+00 -119.940 -120.092 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -120.218 -120.198 0.021 36.27 + S-2 0.000e+00 0.000e+00 -125.432 -125.963 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -241.694 -241.674 0.021 30.09 S(6) 8.777e-03 SO4-2 4.293e-03 1.239e-03 -2.367 -2.907 -0.540 28.43 NaSO4- 2.878e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 @@ -656,7 +656,7 @@ Si 2.215e-05 Aragonite -0.14 -8.48 -8.34 CaCO3 Arcanite -6.34 -8.22 -1.88 K2SO4 Calcite 0.00 -8.48 -8.48 CaCO3 - CH4(g) -120.04 -122.84 -2.80 CH4 + CH4(g) -120.04 -122.85 -2.80 CH4 Chalcedony -1.08 -4.63 -3.55 SiO2 Chrysotile -6.91 25.29 32.20 Mg3Si2O5(OH)4 CO2(g) -1.97 -3.44 -1.47 CO2 @@ -760,7 +760,7 @@ Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -4.587e-05 H+ 4.632e-08 3.688e-08 -7.334 -7.433 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -123.203 -123.182 0.021 35.46 + CH4 0.000e+00 0.000e+00 -123.204 -123.183 0.021 35.46 C(4) 3.221e-03 HCO3- 2.685e-03 1.998e-03 -2.571 -2.699 -0.128 25.15 NaHCO3 1.684e-04 1.852e-04 -3.774 -3.732 0.041 31.73 @@ -782,8 +782,8 @@ Ca 4.380e-03 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.47 HCl 1.255e-09 1.538e-09 -8.901 -8.813 0.088 (0) -H(0) 1.515e-39 - H2 7.577e-40 7.946e-40 -39.121 -39.100 0.021 28.61 +H(0) 1.514e-39 + H2 7.572e-40 7.942e-40 -39.121 -39.100 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.984e-05 4.060e-05 -4.302 -4.392 -0.089 14.03 @@ -799,13 +799,13 @@ Na 1.456e-01 Na+ 1.427e-01 1.064e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 NaHCO3 1.684e-04 1.852e-04 -3.774 -3.732 0.041 31.73 -O(0) 1.244e-14 - O2 6.221e-15 6.524e-15 -14.206 -14.185 0.021 30.40 +O(0) 1.246e-14 + O2 6.228e-15 6.532e-15 -14.206 -14.185 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -120.339 -120.491 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -121.003 -120.983 0.021 36.27 - S-2 0.000e+00 0.000e+00 -125.445 -125.976 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -243.264 -243.243 0.021 30.09 + HS- 0.000e+00 0.000e+00 -120.340 -120.492 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -121.004 -120.984 0.021 36.27 + S-2 0.000e+00 0.000e+00 -125.446 -125.977 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -243.266 -243.245 0.021 30.09 S(6) 8.777e-03 SO4-2 4.174e-03 1.205e-03 -2.379 -2.919 -0.539 28.43 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 @@ -837,17 +837,17 @@ Si 2.215e-05 Gypsum -1.23 -5.81 -4.58 CaSO4:2H2O H2(g) -36.00 -39.10 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -119.99 -127.92 -7.94 H2S + H2S(g) -119.99 -127.93 -7.94 H2S Halite -3.46 -1.89 1.57 NaCl Hexahydrite -3.66 -5.23 -1.57 MgSO4:6H2O Kieserite -4.06 -5.22 -1.16 MgSO4:H2O Mirabilite -3.65 -4.89 -1.24 Na2SO4:10H2O - O2(g) -11.29 -14.19 -2.89 O2 + O2(g) -11.29 -14.18 -2.89 O2 Quartz -0.65 -4.63 -3.98 SiO2 Sepiolite -4.53 11.23 15.76 Mg2Si3O7.5OH:3H2O Sepiolite(d) -7.43 11.23 18.66 Mg2Si3O7.5OH:3H2O SiO2(a) -1.92 -4.63 -2.71 SiO2 - Sulfur -89.91 -85.03 4.88 S + Sulfur -89.92 -85.03 4.88 S Sylvite -4.47 -3.57 0.90 KCl Talc -2.22 19.18 21.40 Mg3Si4O10(OH)2 Thenardite -4.56 -4.86 -0.30 Na2SO4 diff --git a/mytest/Amm.out b/mytest/Amm.out index 01db6352..0ec3f536 100644 --- a/mytest/Amm.out +++ b/mytest/Amm.out @@ -62,7 +62,7 @@ Amm, ug/L: 2.3603e+01 Specific Conductance (µS/cm, 10°C) = 0 Density (g/cm³) = 0.99970 (Iterated) Volume (L) = 1.00030 - Viscosity (mPa s) = 1.30990 + Viscosity (mPa s) = 1.30989 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.285e-06 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Amm_101.sel b/mytest/Amm_101.sel index 988b4b16..aed0c914 100644 --- a/mytest/Amm_101.sel +++ b/mytest/Amm_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.000001284536 0.2563589333 + 0.000001284536 0.2563589342 diff --git a/mytest/Apelbl_Na2CO3.out b/mytest/Apelbl_Na2CO3.out index d3ccff90..68438ac3 100644 --- a/mytest/Apelbl_Na2CO3.out +++ b/mytest/Apelbl_Na2CO3.out @@ -282,10 +282,10 @@ Using temperature 1. pH = 11.858 Charge balance pe = 8.680 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 9191 + Specific Conductance (µS/cm, 5°C) = 9193 Density (g/cm³) = 1.01154 Volume (L) = 0.99913 - Viscosity (mPa s) = 1.58197 + Viscosity (mPa s) = 1.58130 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.979e-01 Mass of water (kg) = 1.000e+00 @@ -351,10 +351,10 @@ Using temperature 1. pH = 11.766 Charge balance pe = 7.510 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 8°C) = 10198 + Specific Conductance (µS/cm, 8°C) = 10200 Density (g/cm³) = 1.01124 Volume (L) = 0.99943 - Viscosity (mPa s) = 1.42884 + Viscosity (mPa s) = 1.42833 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.977e-01 Mass of water (kg) = 1.000e+00 @@ -420,10 +420,10 @@ Using temperature 1. pH = 11.678 Charge balance pe = 7.291 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 11246 + Specific Conductance (µS/cm, 12°C) = 11248 Density (g/cm³) = 1.01080 Volume (L) = 0.99987 - Viscosity (mPa s) = 1.29783 + Viscosity (mPa s) = 1.29745 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.975e-01 Mass of water (kg) = 1.000e+00 @@ -489,10 +489,10 @@ Using temperature 1. pH = 11.594 Charge balance pe = 7.363 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12333 + Specific Conductance (µS/cm, 15°C) = 12334 Density (g/cm³) = 1.01022 Volume (L) = 1.00044 - Viscosity (mPa s) = 1.18485 + Viscosity (mPa s) = 1.18460 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.972e-01 Mass of water (kg) = 1.000e+00 @@ -558,10 +558,10 @@ Using temperature 1. pH = 11.514 Charge balance pe = 7.488 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 19°C) = 13457 + Specific Conductance (µS/cm, 19°C) = 13458 Density (g/cm³) = 1.00952 Volume (L) = 1.00113 - Viscosity (mPa s) = 1.08673 + Viscosity (mPa s) = 1.08658 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.969e-01 Mass of water (kg) = 1.000e+00 @@ -627,10 +627,10 @@ Using temperature 1. pH = 11.437 Charge balance pe = 6.628 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 22°C) = 14617 + Specific Conductance (µS/cm, 22°C) = 14618 Density (g/cm³) = 1.00871 Volume (L) = 1.00194 - Viscosity (mPa s) = 1.00095 + Viscosity (mPa s) = 1.00089 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.965e-01 Mass of water (kg) = 1.000e+00 @@ -699,7 +699,7 @@ Using temperature 1. Specific Conductance (µS/cm, 26°C) = 15811 Density (g/cm³) = 1.00778 Volume (L) = 1.00286 - Viscosity (mPa s) = 0.92551 + Viscosity (mPa s) = 0.92552 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.961e-01 Mass of water (kg) = 1.000e+00 @@ -765,10 +765,10 @@ Using temperature 1. pH = 11.293 Charge balance pe = 6.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 29°C) = 17038 + Specific Conductance (µS/cm, 29°C) = 17037 Density (g/cm³) = 1.00676 Volume (L) = 1.00388 - Viscosity (mPa s) = 0.85880 + Viscosity (mPa s) = 0.85888 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.957e-01 Mass of water (kg) = 1.000e+00 @@ -834,10 +834,10 @@ Using temperature 1. pH = 11.226 Charge balance pe = 6.414 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 18296 + Specific Conductance (µS/cm, 32°C) = 18294 Density (g/cm³) = 1.00564 Volume (L) = 1.00499 - Viscosity (mPa s) = 0.79953 + Viscosity (mPa s) = 0.79966 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.953e-01 Mass of water (kg) = 1.000e+00 @@ -903,10 +903,10 @@ Using temperature 1. pH = 11.162 Charge balance pe = 6.326 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 19582 + Specific Conductance (µS/cm, 36°C) = 19580 Density (g/cm³) = 1.00443 Volume (L) = 1.00620 - Viscosity (mPa s) = 0.74663 + Viscosity (mPa s) = 0.74681 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.948e-01 Mass of water (kg) = 1.000e+00 @@ -972,10 +972,10 @@ Using temperature 1. pH = 11.101 Charge balance pe = 5.599 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 20896 + Specific Conductance (µS/cm, 39°C) = 20893 Density (g/cm³) = 1.00313 Volume (L) = 1.00751 - Viscosity (mPa s) = 0.69921 + Viscosity (mPa s) = 0.69944 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.943e-01 Mass of water (kg) = 1.000e+00 @@ -1041,10 +1041,10 @@ Using temperature 1. pH = 11.043 Charge balance pe = 5.401 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 22236 + Specific Conductance (µS/cm, 43°C) = 22231 Density (g/cm³) = 1.00175 Volume (L) = 1.00889 - Viscosity (mPa s) = 0.65655 + Viscosity (mPa s) = 0.65682 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.937e-01 Mass of water (kg) = 1.000e+00 @@ -1110,10 +1110,10 @@ Using temperature 1. pH = 10.987 Charge balance pe = 5.288 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 46°C) = 23599 + Specific Conductance (µS/cm, 46°C) = 23593 Density (g/cm³) = 1.00030 Volume (L) = 1.01036 - Viscosity (mPa s) = 0.61804 + Viscosity (mPa s) = 0.61834 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.930e-01 Mass of water (kg) = 1.000e+00 @@ -1179,10 +1179,10 @@ Using temperature 1. pH = 10.933 Charge balance pe = 5.292 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 24983 + Specific Conductance (µS/cm, 49°C) = 24976 Density (g/cm³) = 0.99876 Volume (L) = 1.01192 - Viscosity (mPa s) = 0.58316 + Viscosity (mPa s) = 0.58350 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.923e-01 Mass of water (kg) = 9.999e-01 @@ -1248,10 +1248,10 @@ Using temperature 1. pH = 10.883 Charge balance pe = 5.186 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 26387 + Specific Conductance (µS/cm, 53°C) = 26379 Density (g/cm³) = 0.99716 Volume (L) = 1.01355 - Viscosity (mPa s) = 0.55148 + Viscosity (mPa s) = 0.55184 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.916e-01 Mass of water (kg) = 9.999e-01 @@ -1317,10 +1317,10 @@ Using temperature 1. pH = 10.834 Charge balance pe = 4.642 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 27808 + Specific Conductance (µS/cm, 56°C) = 27798 Density (g/cm³) = 0.99548 Volume (L) = 1.01525 - Viscosity (mPa s) = 0.52263 + Viscosity (mPa s) = 0.52301 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.908e-01 Mass of water (kg) = 9.999e-01 @@ -1386,10 +1386,10 @@ Using temperature 1. pH = 10.788 Charge balance pe = 4.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 29244 + Specific Conductance (µS/cm, 60°C) = 29232 Density (g/cm³) = 0.99373 Volume (L) = 1.01704 - Viscosity (mPa s) = 0.49627 + Viscosity (mPa s) = 0.49668 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.899e-01 Mass of water (kg) = 9.999e-01 @@ -1455,10 +1455,10 @@ Using temperature 1. pH = 10.743 Charge balance pe = 4.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 63°C) = 30692 + Specific Conductance (µS/cm, 63°C) = 30678 Density (g/cm³) = 0.99192 Volume (L) = 1.01889 - Viscosity (mPa s) = 0.47215 + Viscosity (mPa s) = 0.47258 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.889e-01 Mass of water (kg) = 9.999e-01 @@ -1524,10 +1524,10 @@ Using temperature 1. pH = 10.701 Charge balance pe = 4.170 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 67°C) = 32151 + Specific Conductance (µS/cm, 67°C) = 32135 Density (g/cm³) = 0.99005 Volume (L) = 1.02082 - Viscosity (mPa s) = 0.45001 + Viscosity (mPa s) = 0.45045 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.878e-01 Mass of water (kg) = 9.999e-01 @@ -1593,10 +1593,10 @@ Using temperature 1. pH = 10.661 Charge balance pe = 4.175 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 33618 + Specific Conductance (µS/cm, 70°C) = 33600 Density (g/cm³) = 0.98811 Volume (L) = 1.02283 - Viscosity (mPa s) = 0.42965 + Viscosity (mPa s) = 0.43011 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.867e-01 Mass of water (kg) = 9.999e-01 @@ -1677,10 +1677,10 @@ Using temperature 1. pH = 12.106 Charge balance pe = 7.487 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 32263 + Specific Conductance (µS/cm, 5°C) = 32276 Density (g/cm³) = 1.05501 Volume (L) = 0.99822 - Viscosity (mPa s) = 1.93827 + Viscosity (mPa s) = 1.93673 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.495e+00 Mass of water (kg) = 1.000e+00 @@ -1746,10 +1746,10 @@ Using temperature 1. pH = 12.015 Charge balance pe = 7.267 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 8°C) = 35669 + Specific Conductance (µS/cm, 8°C) = 35681 Density (g/cm³) = 1.05418 Volume (L) = 0.99901 - Viscosity (mPa s) = 1.75806 + Viscosity (mPa s) = 1.75690 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.495e+00 Mass of water (kg) = 1.000e+00 @@ -1815,10 +1815,10 @@ Using temperature 1. pH = 11.928 Charge balance pe = 7.189 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 39234 + Specific Conductance (µS/cm, 12°C) = 39245 Density (g/cm³) = 1.05328 Volume (L) = 0.99986 - Viscosity (mPa s) = 1.60094 + Viscosity (mPa s) = 1.60010 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.494e+00 Mass of water (kg) = 1.000e+00 @@ -1884,10 +1884,10 @@ Using temperature 1. pH = 11.846 Charge balance pe = 7.412 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 42953 + Specific Conductance (µS/cm, 15°C) = 42962 Density (g/cm³) = 1.05230 Volume (L) = 1.00079 - Viscosity (mPa s) = 1.46339 + Viscosity (mPa s) = 1.46281 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.493e+00 Mass of water (kg) = 1.000e+00 @@ -1953,10 +1953,10 @@ Using temperature 1. pH = 11.767 Charge balance pe = 6.576 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 19°C) = 46822 + Specific Conductance (µS/cm, 19°C) = 46828 Density (g/cm³) = 1.05125 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.34243 + Viscosity (mPa s) = 1.34208 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.493e+00 Mass of water (kg) = 1.000e+00 @@ -2022,10 +2022,10 @@ Using temperature 1. pH = 11.692 Charge balance pe = 6.366 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 22°C) = 50835 + Specific Conductance (µS/cm, 22°C) = 50838 Density (g/cm³) = 1.05012 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.23561 + Viscosity (mPa s) = 1.23546 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.492e+00 Mass of water (kg) = 1.000e+00 @@ -2091,10 +2091,10 @@ Using temperature 1. pH = 11.620 Charge balance pe = 6.399 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 26°C) = 54990 + Specific Conductance (µS/cm, 26°C) = 54989 Density (g/cm³) = 1.04892 Volume (L) = 1.00402 - Viscosity (mPa s) = 1.14087 + Viscosity (mPa s) = 1.14089 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.491e+00 Mass of water (kg) = 1.000e+00 @@ -2160,10 +2160,10 @@ Using temperature 1. pH = 11.552 Charge balance pe = 6.350 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 29°C) = 59280 + Specific Conductance (µS/cm, 29°C) = 59275 Density (g/cm³) = 1.04765 Volume (L) = 1.00523 - Viscosity (mPa s) = 1.05650 + Viscosity (mPa s) = 1.05668 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.490e+00 Mass of water (kg) = 1.000e+00 @@ -2229,10 +2229,10 @@ Using temperature 1. pH = 11.487 Charge balance pe = 6.395 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 63702 + Specific Conductance (µS/cm, 32°C) = 63692 Density (g/cm³) = 1.04632 Volume (L) = 1.00652 - Viscosity (mPa s) = 0.98109 + Viscosity (mPa s) = 0.98140 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.489e+00 Mass of water (kg) = 1.000e+00 @@ -2298,10 +2298,10 @@ Using temperature 1. pH = 11.425 Charge balance pe = 5.504 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 68251 + Specific Conductance (µS/cm, 36°C) = 68234 Density (g/cm³) = 1.04491 Volume (L) = 1.00787 - Viscosity (mPa s) = 0.91344 + Viscosity (mPa s) = 0.91387 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.487e+00 Mass of water (kg) = 9.999e-01 @@ -2367,10 +2367,10 @@ Using temperature 1. pH = 11.366 Charge balance pe = 5.330 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 72921 + Specific Conductance (µS/cm, 39°C) = 72898 Density (g/cm³) = 1.04344 Volume (L) = 1.00929 - Viscosity (mPa s) = 0.85256 + Viscosity (mPa s) = 0.85308 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.486e+00 Mass of water (kg) = 9.999e-01 @@ -2436,10 +2436,10 @@ Using temperature 1. pH = 11.310 Charge balance pe = 5.215 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 77707 + Specific Conductance (µS/cm, 43°C) = 77675 Density (g/cm³) = 1.04191 Volume (L) = 1.01077 - Viscosity (mPa s) = 0.79758 + Viscosity (mPa s) = 0.79820 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.484e+00 Mass of water (kg) = 9.999e-01 @@ -2505,10 +2505,10 @@ Using temperature 1. pH = 11.257 Charge balance pe = 5.219 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 46°C) = 82602 + Specific Conductance (µS/cm, 46°C) = 82562 Density (g/cm³) = 1.04032 Volume (L) = 1.01232 - Viscosity (mPa s) = 0.74780 + Viscosity (mPa s) = 0.74851 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.482e+00 Mass of water (kg) = 9.999e-01 @@ -2574,10 +2574,10 @@ Using temperature 1. pH = 11.206 Charge balance pe = 5.114 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 87601 + Specific Conductance (µS/cm, 49°C) = 87551 Density (g/cm³) = 1.03866 Volume (L) = 1.01393 - Viscosity (mPa s) = 0.70260 + Viscosity (mPa s) = 0.70338 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.480e+00 Mass of water (kg) = 9.999e-01 @@ -2643,10 +2643,10 @@ Using temperature 1. pH = 11.157 Charge balance pe = 4.563 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 92697 + Specific Conductance (µS/cm, 53°C) = 92636 Density (g/cm³) = 1.03694 Volume (L) = 1.01561 - Viscosity (mPa s) = 0.66146 + Viscosity (mPa s) = 0.66231 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.478e+00 Mass of water (kg) = 9.998e-01 @@ -2712,10 +2712,10 @@ Using temperature 1. pH = 11.111 Charge balance pe = 4.348 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 97881 + Specific Conductance (µS/cm, 56°C) = 97808 Density (g/cm³) = 1.03517 Volume (L) = 1.01735 - Viscosity (mPa s) = 0.62392 + Viscosity (mPa s) = 0.62483 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.476e+00 Mass of water (kg) = 9.998e-01 @@ -2781,10 +2781,10 @@ Using temperature 1. pH = 11.068 Charge balance pe = 4.173 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 103147 + Specific Conductance (µS/cm, 60°C) = 103061 Density (g/cm³) = 1.03334 Volume (L) = 1.01915 - Viscosity (mPa s) = 0.58959 + Viscosity (mPa s) = 0.59055 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.473e+00 Mass of water (kg) = 9.998e-01 @@ -2850,10 +2850,10 @@ Using temperature 1. pH = 11.026 Charge balance pe = 4.087 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 63°C) = 108486 + Specific Conductance (µS/cm, 63°C) = 108385 Density (g/cm³) = 1.03146 Volume (L) = 1.02101 - Viscosity (mPa s) = 0.55813 + Viscosity (mPa s) = 0.55915 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.470e+00 Mass of water (kg) = 9.997e-01 @@ -2919,10 +2919,10 @@ Using temperature 1. pH = 10.987 Charge balance pe = 4.099 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 67°C) = 113889 + Specific Conductance (µS/cm, 67°C) = 113773 Density (g/cm³) = 1.02952 Volume (L) = 1.02294 - Viscosity (mPa s) = 0.52925 + Viscosity (mPa s) = 0.53031 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.467e+00 Mass of water (kg) = 9.997e-01 @@ -2988,10 +2988,10 @@ Using temperature 1. pH = 10.950 Charge balance pe = 4.132 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 119348 + Specific Conductance (µS/cm, 70°C) = 119216 Density (g/cm³) = 1.02752 Volume (L) = 1.02492 - Viscosity (mPa s) = 0.50268 + Viscosity (mPa s) = 0.50378 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.464e+00 Mass of water (kg) = 9.997e-01 @@ -3072,10 +3072,10 @@ Using temperature 1. pH = 12.220 Charge balance pe = 7.493 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 48433 + Specific Conductance (µS/cm, 5°C) = 48454 Density (g/cm³) = 1.10465 Volume (L) = 1.00139 - Viscosity (mPa s) = 2.67510 + Viscosity (mPa s) = 2.67292 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.993e+00 Mass of water (kg) = 1.000e+00 @@ -3141,10 +3141,10 @@ Using temperature 1. pH = 12.129 Charge balance pe = 7.252 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 8°C) = 53584 + Specific Conductance (µS/cm, 8°C) = 53604 Density (g/cm³) = 1.10338 Volume (L) = 1.00254 - Viscosity (mPa s) = 2.42002 + Viscosity (mPa s) = 2.41837 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.993e+00 Mass of water (kg) = 1.000e+00 @@ -3210,10 +3210,10 @@ Using temperature 1. pH = 12.043 Charge balance pe = 7.188 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 59005 + Specific Conductance (µS/cm, 12°C) = 59023 Density (g/cm³) = 1.10210 Volume (L) = 1.00370 - Viscosity (mPa s) = 2.19699 + Viscosity (mPa s) = 2.19579 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.992e+00 Mass of water (kg) = 1.000e+00 @@ -3279,10 +3279,10 @@ Using temperature 1. pH = 11.961 Charge balance pe = 7.425 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 64691 + Specific Conductance (µS/cm, 15°C) = 64705 Density (g/cm³) = 1.10080 Volume (L) = 1.00489 - Viscosity (mPa s) = 2.00135 + Viscosity (mPa s) = 2.00054 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.991e+00 Mass of water (kg) = 1.000e+00 @@ -3348,10 +3348,10 @@ Using temperature 1. pH = 11.882 Charge balance pe = 6.588 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 19°C) = 70637 + Specific Conductance (µS/cm, 19°C) = 70648 Density (g/cm³) = 1.09947 Volume (L) = 1.00611 - Viscosity (mPa s) = 1.82912 + Viscosity (mPa s) = 1.82862 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.990e+00 Mass of water (kg) = 1.000e+00 @@ -3417,10 +3417,10 @@ Using temperature 1. pH = 11.808 Charge balance pe = 6.369 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 22°C) = 76840 + Specific Conductance (µS/cm, 22°C) = 76846 Density (g/cm³) = 1.09810 Volume (L) = 1.00736 - Viscosity (mPa s) = 1.67690 + Viscosity (mPa s) = 1.67669 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.988e+00 Mass of water (kg) = 1.000e+00 @@ -3486,10 +3486,10 @@ Using temperature 1. pH = 11.737 Charge balance pe = 6.399 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 26°C) = 83297 + Specific Conductance (µS/cm, 26°C) = 83296 Density (g/cm³) = 1.09670 Volume (L) = 1.00865 - Viscosity (mPa s) = 1.54187 + Viscosity (mPa s) = 1.54190 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.987e+00 Mass of water (kg) = 1.000e+00 @@ -3555,10 +3555,10 @@ Using temperature 1. pH = 11.669 Charge balance pe = 6.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 29°C) = 90002 + Specific Conductance (µS/cm, 29°C) = 89993 Density (g/cm³) = 1.09525 Volume (L) = 1.00998 - Viscosity (mPa s) = 1.42164 + Viscosity (mPa s) = 1.42189 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.986e+00 Mass of water (kg) = 1.000e+00 @@ -3624,10 +3624,10 @@ Using temperature 1. pH = 11.604 Charge balance pe = 6.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 96952 + Specific Conductance (µS/cm, 32°C) = 96935 Density (g/cm³) = 1.09376 Volume (L) = 1.01136 - Viscosity (mPa s) = 1.31421 + Viscosity (mPa s) = 1.31465 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.984e+00 Mass of water (kg) = 1.000e+00 @@ -3693,10 +3693,10 @@ Using temperature 1. pH = 11.543 Charge balance pe = 5.524 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 104142 + Specific Conductance (µS/cm, 36°C) = 104115 Density (g/cm³) = 1.09222 Volume (L) = 1.01278 - Viscosity (mPa s) = 1.21791 + Viscosity (mPa s) = 1.21852 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.982e+00 Mass of water (kg) = 9.999e-01 @@ -3762,10 +3762,10 @@ Using temperature 1. pH = 11.484 Charge balance pe = 5.311 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 111567 + Specific Conductance (µS/cm, 39°C) = 111528 Density (g/cm³) = 1.09063 Volume (L) = 1.01426 - Viscosity (mPa s) = 1.13132 + Viscosity (mPa s) = 1.13207 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.980e+00 Mass of water (kg) = 9.999e-01 @@ -3831,10 +3831,10 @@ Using temperature 1. pH = 11.429 Charge balance pe = 5.217 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 119221 + Specific Conductance (µS/cm, 43°C) = 119169 Density (g/cm³) = 1.08900 Volume (L) = 1.01578 - Viscosity (mPa s) = 1.05321 + Viscosity (mPa s) = 1.05410 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.978e+00 Mass of water (kg) = 9.999e-01 @@ -3900,10 +3900,10 @@ Using temperature 1. pH = 11.376 Charge balance pe = 5.219 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 46°C) = 127098 + Specific Conductance (µS/cm, 46°C) = 127030 Density (g/cm³) = 1.08732 Volume (L) = 1.01735 - Viscosity (mPa s) = 0.98258 + Viscosity (mPa s) = 0.98359 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.975e+00 Mass of water (kg) = 9.998e-01 @@ -3969,10 +3969,10 @@ Using temperature 1. pH = 11.325 Charge balance pe = 5.041 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 135189 + Specific Conductance (µS/cm, 49°C) = 135104 Density (g/cm³) = 1.08559 Volume (L) = 1.01897 - Viscosity (mPa s) = 0.91854 + Viscosity (mPa s) = 0.91965 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.972e+00 Mass of water (kg) = 9.998e-01 @@ -4038,10 +4038,10 @@ Using temperature 1. pH = 11.278 Charge balance pe = 4.532 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 143488 + Specific Conductance (µS/cm, 53°C) = 143383 Density (g/cm³) = 1.08381 Volume (L) = 1.02064 - Viscosity (mPa s) = 0.86033 + Viscosity (mPa s) = 0.86154 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.969e+00 Mass of water (kg) = 9.998e-01 @@ -4107,10 +4107,10 @@ Using temperature 1. pH = 11.232 Charge balance pe = 4.349 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 151984 + Specific Conductance (µS/cm, 56°C) = 151858 Density (g/cm³) = 1.08198 Volume (L) = 1.02237 - Viscosity (mPa s) = 0.80731 + Viscosity (mPa s) = 0.80861 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.966e+00 Mass of water (kg) = 9.997e-01 @@ -4176,10 +4176,10 @@ Using temperature 1. pH = 11.189 Charge balance pe = 4.172 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 160668 + Specific Conductance (µS/cm, 60°C) = 160518 Density (g/cm³) = 1.08011 Volume (L) = 1.02414 - Viscosity (mPa s) = 0.75891 + Viscosity (mPa s) = 0.76029 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.962e+00 Mass of water (kg) = 9.997e-01 @@ -4245,10 +4245,10 @@ Using temperature 1. pH = 11.148 Charge balance pe = 4.078 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 63°C) = 169529 + Specific Conductance (µS/cm, 63°C) = 169352 Density (g/cm³) = 1.07818 Volume (L) = 1.02597 - Viscosity (mPa s) = 0.71464 + Viscosity (mPa s) = 0.71609 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.958e+00 Mass of water (kg) = 9.996e-01 @@ -4314,10 +4314,10 @@ Using temperature 1. pH = 11.109 Charge balance pe = 4.088 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 67°C) = 178555 + Specific Conductance (µS/cm, 67°C) = 178348 Density (g/cm³) = 1.07621 Volume (L) = 1.02785 - Viscosity (mPa s) = 0.67407 + Viscosity (mPa s) = 0.67559 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.953e+00 Mass of water (kg) = 9.996e-01 @@ -4383,10 +4383,10 @@ Using temperature 1. pH = 11.073 Charge balance pe = 4.119 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 187732 + Specific Conductance (µS/cm, 70°C) = 187494 Density (g/cm³) = 1.07418 Volume (L) = 1.02979 - Viscosity (mPa s) = 0.63684 + Viscosity (mPa s) = 0.63842 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.948e+00 Mass of water (kg) = 9.995e-01 diff --git a/mytest/Apelbl_Na2CO3_101.sel b/mytest/Apelbl_Na2CO3_101.sel index cb230960..49a68f3d 100644 --- a/mytest/Apelbl_Na2CO3_101.sel +++ b/mytest/Apelbl_Na2CO3_101.sel @@ -1,64 +1,64 @@ Mu SC - 0.296202903823 15625.8797164081 - 1.490991036430 54341.9229894989 - 2.987262649404 82287.4702982138 - 0.297944584262 9191.5241510256 - 0.297710784983 10198.7343632413 - 0.297453389216 11246.5755414113 - 0.297170281937 12333.3952602660 - 0.296859182341 13457.5917053157 - 0.296517635353 14617.5793027692 - 0.296143003795 15811.7607896114 - 0.295732461306 17038.5052554868 - 0.295282986641 18296.1314528039 - 0.294791359136 19582.8950718396 - 0.294254156270 20896.9806350305 - 0.293667753269 22236.4967605795 - 0.293028325421 23599.4751152937 - 0.292331853449 24983.8725780759 - 0.291574132434 26387.5765105573 - 0.290750784806 27808.4131492253 - 0.289857277851 29244.1587930104 - 0.288888946296 30692.5540332913 - 0.287841020413 32151.3208579640 - 0.286708660129 33618.1827216746 - 1.495320755390 32263.1536898603 - 1.494760976783 35669.1867815362 - 1.494136174305 39234.2933872984 - 1.493439330506 42953.4417985544 - 1.492662775093 46822.0394517661 - 1.491798147247 50835.6921748526 - 1.490836359734 54990.0323150850 - 1.489767564851 59280.5917971414 - 1.488581124572 63702.7069682176 - 1.487265581931 68251.4454296620 - 1.485808640573 72921.5516300437 - 1.484197145616 77707.4045262692 - 1.482417073400 82602.9871075005 - 1.480453527266 87601.8643501637 - 1.478290741697 92697.1687073834 - 1.475912094825 97881.5916275479 - 1.473300133013 103147.3819412337 - 1.470436604281 108486.3486898308 - 1.467302506124 113889.8709828388 - 1.463878146319 119348.9142468455 - 2.993339027734 48433.1242052055 - 2.992559886562 53584.7278810626 - 2.991687529024 59005.8641481816 - 2.990711603424 64691.6536232380 - 2.989620779147 70637.9618848200 - 2.988402689136 76840.9962222208 - 2.987043874263 83297.0178668385 - 2.985529729263 90002.1276261975 - 2.983844453815 96952.1013401784 - 2.981971004779 104142.2596856889 - 2.979891055111 111567.3635931518 - 2.977584957446 119221.5282661664 - 2.975031714226 127098.1512693027 - 2.972208955162 135189.8511937786 - 2.969092923334 143488.4143519257 - 2.965658469594 151984.7474777571 - 2.961879060736 160668.8357058545 - 2.957726795741 169529.7044168911 - 2.953172438486 178555.3857746178 - 2.948185464231 187732.8901425218 + 0.296202903823 15625.8811457939 + 1.490991036430 54341.9325100420 + 2.987262649404 82287.4855021071 + 0.297944584262 9193.5702361540 + 0.297710784983 10200.6241586397 + 0.297453389216 11248.2369865601 + 0.297170281937 12334.7499962389 + 0.296859182341 13458.5553862656 + 0.296517635353 14618.0619440967 + 0.296143003795 15811.6671681678 + 0.295732461306 17037.7353736901 + 0.295282986641 18294.5810755514 + 0.294791359136 19580.4563424277 + 0.294254156270 20893.5427735458 + 0.293667753269 22231.9468454245 + 0.293028325421 23593.6989454276 + 0.292331853449 24976.7556103208 + 0.291574132434 26379.0048628456 + 0.290750784806 27798.2746569583 + 0.289857277851 29232.3441019837 + 0.288888946296 30678.9577086753 + 0.287841020413 32135.8424850258 + 0.286708660129 33600.7279701523 + 1.495320755390 32276.8385953166 + 1.494760976783 35681.7451560442 + 1.494136174305 39245.2962800365 + 1.493439330506 42962.4041262045 + 1.492662775093 46828.4206236290 + 1.491798147247 50838.8963004653 + 1.490836359734 54989.4083072224 + 1.489767564851 59275.4335803181 + 1.488581124572 63692.2539463208 + 1.487265581931 68234.8833335347 + 1.485808640573 72898.0138450970 + 1.484197145616 77675.9739868003 + 1.482417073400 82562.6988336011 + 1.480453527266 87551.7086945021 + 1.478290741697 92636.0953703620 + 1.475912094825 97808.5144902486 + 1.473300133013 103061.1847532937 + 1.470436604281 108385.8916373026 + 1.467302506124 113773.9981418123 + 1.463878146319 119216.4619074693 + 2.993339027734 48454.2794144474 + 2.992559886562 53604.2159400740 + 2.991687529024 59023.0188650721 + 2.990711603424 64705.7029570987 + 2.989620779147 70648.0256725653 + 2.988402689136 76846.0828174355 + 2.987043874263 83296.0202454583 + 2.985529729263 89993.8193340776 + 2.983844453815 96935.1325641058 + 2.981971004779 104115.1536803028 + 2.979891055111 111528.5136711704 + 2.977584957446 119169.1955478630 + 2.975031714226 127030.4633836151 + 2.972208955162 135104.8021244482 + 2.969092923334 143383.8656254082 + 2.965658469594 151858.4308938313 + 2.961879060736 160518.3578145644 + 2.957726795741 169352.5529467935 + 2.953172438486 178348.9382128212 + 2.948185464231 187494.4246570882 diff --git a/mytest/Barite_MCl2.out b/mytest/Barite_MCl2.out index 2965d18f..525f6715 100644 --- a/mytest/Barite_MCl2.out +++ b/mytest/Barite_MCl2.out @@ -672,7 +672,7 @@ Barite 0.00 -9.84 -9.84 1.000e+01 1.000e+01 -4.985e-05 pH = 6.415 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 131951 + Specific Conductance (µS/cm, 25°C) = 131952 Density (g/cm³) = 1.08227 Volume (L) = 1.02658 Viscosity (mPa s) = 1.19382 @@ -1138,7 +1138,7 @@ Barite 0.00 -9.84 -9.84 1.000e+01 1.000e+01 -5.336e-05 Specific Conductance (µS/cm, 25°C) = 18083 Density (g/cm³) = 1.00492 Volume (L) = 1.00460 - Viscosity (mPa s) = 0.93469 + Viscosity (mPa s) = 0.93468 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.003e-01 Mass of water (kg) = 1.000e+00 @@ -1817,7 +1817,7 @@ Barite 0.00 -9.84 -9.84 1.000e+01 1.000e+01 2.376e-06 Specific Conductance (µS/cm, 25°C) = 160084 Density (g/cm³) = 1.13615 Volume (L) = 1.04780 - Viscosity (mPa s) = 1.89654 + Viscosity (mPa s) = 1.89653 Activity of water = 0.847 Ionic strength (mol/kgw) = 6.001e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Barite_MCl2_101.sel b/mytest/Barite_MCl2_101.sel index 7cbf04ae..5b37fc94 100644 --- a/mytest/Barite_MCl2_101.sel +++ b/mytest/Barite_MCl2_101.sel @@ -1,22 +1,22 @@ Mu SC 0.000000100644 0.0547821166 - 0.000049580646 3.5344359560 - 0.300296335038 19360.3557030724 - 0.600411565722 35807.4525688874 - 0.900497383581 50867.2783701854 - 1.200566040587 64859.3399220412 - 1.500623042209 77935.2226978788 - 3.000822492529 131951.9937864466 - 4.500998210000 169789.1262100287 - 6.001251351784 193282.0177068382 - 7.501689340212 204053.7279571047 - 0.000049580646 3.5344359560 - 0.300262771742 18083.6259046156 - 0.600359250254 33104.1755168694 - 0.900426152401 46620.9822339632 - 1.200474675743 58987.9678181821 - 1.500510082289 70382.5772906532 - 3.000578195013 115671.3999840467 - 4.500574721276 144840.0301031339 - 6.000564973483 160084.4048862360 - 7.500573541105 163498.8920486274 + 0.000049580646 3.5344359748 + 0.300296335038 19360.3587457411 + 0.600411565722 35807.4602449221 + 0.900497383581 50867.2912874095 + 1.200566040587 64859.3583461413 + 1.500623042209 77935.2467021691 + 3.000822492529 131952.0434814295 + 4.500998210000 169789.1939461400 + 6.001251351784 193282.0939523779 + 7.501689340212 204053.8038985303 + 0.000049580646 3.5344359748 + 0.300262771742 18083.6288819557 + 0.600359250254 33104.1828626006 + 0.900426152401 46620.9943554424 + 1.200474675743 58987.9848012577 + 1.500510082289 70382.5990538630 + 3.000578195013 115671.4419127441 + 4.500574721276 144840.0835446426 + 6.000564973483 160084.4608298859 + 7.500573541105 163498.9434323641 diff --git a/mytest/Barite_NaCl.out b/mytest/Barite_NaCl.out index e97e0f13..5c26ba31 100644 --- a/mytest/Barite_NaCl.out +++ b/mytest/Barite_NaCl.out @@ -148,7 +148,7 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.568e-05 Specific Conductance (µS/cm, 50°C) = 7 Density (g/cm³) = 0.98803 Volume (L) = 1.01212 - Viscosity (mPa s) = 0.54659 + Viscosity (mPa s) = 0.54660 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.294e-05 Mass of water (kg) = 1.000e+00 @@ -228,10 +228,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -3.255e-05 pH = 6.619 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 16139 + Specific Conductance (µS/cm, 50°C) = 16137 Density (g/cm³) = 0.99201 Volume (L) = 1.01396 - Viscosity (mPa s) = 0.55283 + Viscosity (mPa s) = 0.55293 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.002e-01 Mass of water (kg) = 1.000e+00 @@ -318,10 +318,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.716e-05 pH = 6.608 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 30596 + Specific Conductance (µS/cm, 50°C) = 30590 Density (g/cm³) = 0.99592 Volume (L) = 1.01585 - Viscosity (mPa s) = 0.55853 + Viscosity (mPa s) = 0.55867 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -408,10 +408,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.382e-05 pH = 6.598 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 44217 + Specific Conductance (µS/cm, 50°C) = 44207 Density (g/cm³) = 0.99977 Volume (L) = 1.01778 - Viscosity (mPa s) = 0.56422 + Viscosity (mPa s) = 0.56440 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.003e-01 Mass of water (kg) = 1.000e+00 @@ -498,10 +498,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.188e-05 pH = 6.588 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 57222 + Specific Conductance (µS/cm, 50°C) = 57208 Density (g/cm³) = 1.00359 Volume (L) = 1.01974 - Viscosity (mPa s) = 0.56996 + Viscosity (mPa s) = 0.57016 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.004e-01 Mass of water (kg) = 1.000e+00 @@ -588,10 +588,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.052e-05 pH = 6.578 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 69718 + Specific Conductance (µS/cm, 50°C) = 69698 Density (g/cm³) = 1.00737 Volume (L) = 1.02172 - Viscosity (mPa s) = 0.57578 + Viscosity (mPa s) = 0.57600 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.004e-01 Mass of water (kg) = 1.000e+00 @@ -678,10 +678,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -4.021e-05 pH = 6.531 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 126136 + Specific Conductance (µS/cm, 50°C) = 126088 Density (g/cm³) = 1.02580 Volume (L) = 1.03186 - Viscosity (mPa s) = 0.60628 + Viscosity (mPa s) = 0.60660 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.001e+00 Mass of water (kg) = 1.000e+00 @@ -768,10 +768,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -2.805e-05 pH = 6.485 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 174310 + Specific Conductance (µS/cm, 50°C) = 174232 Density (g/cm³) = 1.04355 Volume (L) = 1.04231 - Viscosity (mPa s) = 0.63950 + Viscosity (mPa s) = 0.63990 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.501e+00 Mass of water (kg) = 1.000e+00 @@ -858,10 +858,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -2.122e-05 pH = 6.439 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 215513 + Specific Conductance (µS/cm, 50°C) = 215408 Density (g/cm³) = 1.06070 Volume (L) = 1.05301 - Viscosity (mPa s) = 0.67564 + Viscosity (mPa s) = 0.67610 Activity of water = 0.931 Ionic strength (mol/kgw) = 2.001e+00 Mass of water (kg) = 1.000e+00 @@ -948,10 +948,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.731e-05 pH = 6.393 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 250554 + Specific Conductance (µS/cm, 50°C) = 250424 Density (g/cm³) = 1.07732 Volume (L) = 1.06390 - Viscosity (mPa s) = 0.71481 + Viscosity (mPa s) = 0.71532 Activity of water = 0.912 Ionic strength (mol/kgw) = 2.501e+00 Mass of water (kg) = 1.000e+00 @@ -1038,10 +1038,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.542e-05 pH = 6.346 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 280095 + Specific Conductance (µS/cm, 50°C) = 279945 Density (g/cm³) = 1.09342 Volume (L) = 1.07496 - Viscosity (mPa s) = 0.75707 + Viscosity (mPa s) = 0.75763 Activity of water = 0.892 Ionic strength (mol/kgw) = 3.001e+00 Mass of water (kg) = 1.000e+00 @@ -1128,10 +1128,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.509e-05 pH = 6.299 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 304730 + Specific Conductance (µS/cm, 50°C) = 304564 Density (g/cm³) = 1.10904 Volume (L) = 1.08617 - Viscosity (mPa s) = 0.80248 + Viscosity (mPa s) = 0.80308 Activity of water = 0.872 Ionic strength (mol/kgw) = 3.501e+00 Mass of water (kg) = 1.000e+00 @@ -1218,10 +1218,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.606e-05 pH = 6.252 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 325007 + Specific Conductance (µS/cm, 50°C) = 324829 Density (g/cm³) = 1.12420 Volume (L) = 1.09751 - Viscosity (mPa s) = 0.85107 + Viscosity (mPa s) = 0.85171 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.001e+00 Mass of water (kg) = 1.000e+00 @@ -1308,10 +1308,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -1.822e-05 pH = 6.204 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 341433 + Specific Conductance (µS/cm, 50°C) = 341245 Density (g/cm³) = 1.13894 Volume (L) = 1.10898 - Viscosity (mPa s) = 0.90288 + Viscosity (mPa s) = 0.90356 Activity of water = 0.829 Ionic strength (mol/kgw) = 4.501e+00 Mass of water (kg) = 1.000e+00 @@ -1398,10 +1398,10 @@ Barite 0.00 -9.64 -9.64 1.000e+01 1.000e+01 -2.158e-05 pH = 6.155 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 354470 + Specific Conductance (µS/cm, 50°C) = 354277 Density (g/cm³) = 1.15325 Volume (L) = 1.12056 - Viscosity (mPa s) = 0.95794 + Viscosity (mPa s) = 0.95866 Activity of water = 0.806 Ionic strength (mol/kgw) = 5.001e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Barite_NaCl_101.sel b/mytest/Barite_NaCl_101.sel index 93fdc242..da8e2ae6 100644 --- a/mytest/Barite_NaCl_101.sel +++ b/mytest/Barite_NaCl_101.sel @@ -1,17 +1,17 @@ Mu SC - 0.000000234097 0.1699348121 - 0.000062944351 7.1177177374 - 0.100193228562 16139.6144025558 - 0.200261896819 30596.1314282350 - 0.300317183870 44217.4789273436 - 0.400364693698 57222.9239980130 - 0.500406770410 69718.0735592661 - 1.000567610166 126136.9669271563 - 1.500679814665 174310.4912494821 - 2.000764692930 215513.6102984922 - 2.500833912608 250554.2562100558 - 3.000895566310 280095.1074507715 - 3.500955892585 304730.5370809560 - 4.001020109971 325007.9338526124 - 4.501092983658 341433.0027656124 - 5.001179297195 354470.5229130196 + 0.000000234097 0.1699347860 + 0.000062944351 7.1175721063 + 0.100193228562 16137.4510655095 + 0.200261896819 30590.3994641125 + 0.300317183870 44207.4414852469 + 0.400364693698 57208.0805807018 + 0.500406770410 69698.0626521939 + 1.000567610166 126088.3646048303 + 1.500679814665 174232.5194495131 + 2.000764692930 215408.2583678855 + 2.500833912608 250424.8275767517 + 3.000895566310 279945.4600956420 + 3.500955892585 304564.6339740455 + 4.001020109971 324829.5731739551 + 4.501092983658 341245.6639408688 + 5.001179297195 354277.2896597899 diff --git a/mytest/Barite_tc.out b/mytest/Barite_tc.out index e7360051..3ed4e0e1 100644 --- a/mytest/Barite_tc.out +++ b/mytest/Barite_tc.out @@ -212,7 +212,7 @@ Barite -0.00 -9.37 -9.37 1.000e+01 1.000e+01 -2.173e-05 Specific Conductance (µS/cm, 41°C) = 8 Density (g/cm³) = 1.01249 Volume (L) = 0.98767 - Viscosity (mPa s) = 0.64813 + Viscosity (mPa s) = 0.64814 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.605e-05 Mass of water (kg) = 1.000e+00 @@ -292,7 +292,7 @@ Barite -0.00 -9.27 -9.27 1.000e+01 1.000e+01 -2.459e-05 Specific Conductance (µS/cm, 57°C) = 12 Density (g/cm³) = 1.00517 Volume (L) = 0.99486 - Viscosity (mPa s) = 0.49897 + Viscosity (mPa s) = 0.49898 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.739e-05 Mass of water (kg) = 1.000e+00 @@ -372,7 +372,7 @@ Barite -0.00 -9.20 -9.20 1.000e+01 1.000e+01 -2.683e-05 Specific Conductance (µS/cm, 73°C) = 16 Density (g/cm³) = 0.99670 Volume (L) = 1.00331 - Viscosity (mPa s) = 0.39962 + Viscosity (mPa s) = 0.39963 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.064e-04 Mass of water (kg) = 1.000e+00 @@ -452,7 +452,7 @@ Barite -0.00 -9.16 -9.16 1.000e+01 1.000e+01 -2.823e-05 Specific Conductance (µS/cm, 89°C) = 21 Density (g/cm³) = 0.98720 Volume (L) = 1.01298 - Viscosity (mPa s) = 0.33016 + Viscosity (mPa s) = 0.33018 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.121e-04 Mass of water (kg) = 1.000e+00 @@ -532,7 +532,7 @@ Barite -0.00 -9.15 -9.15 1.000e+01 1.000e+01 -2.864e-05 Specific Conductance (µS/cm, 105°C) = 24 Density (g/cm³) = 0.97671 Volume (L) = 1.02385 - Viscosity (mPa s) = 0.27973 + Viscosity (mPa s) = 0.27975 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.140e-04 Mass of water (kg) = 1.000e+00 @@ -612,7 +612,7 @@ Barite -0.00 -9.17 -9.17 1.000e+01 1.000e+01 -2.803e-05 Specific Conductance (µS/cm, 121°C) = 27 Density (g/cm³) = 0.96529 Volume (L) = 1.03597 - Viscosity (mPa s) = 0.24197 + Viscosity (mPa s) = 0.24199 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.120e-04 Mass of water (kg) = 1.000e+00 @@ -692,7 +692,7 @@ Barite -0.00 -9.22 -9.22 1.000e+01 1.000e+01 -2.651e-05 Specific Conductance (µS/cm, 138°C) = 29 Density (g/cm³) = 0.95296 Volume (L) = 1.04937 - Viscosity (mPa s) = 0.21295 + Viscosity (mPa s) = 0.21297 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.065e-04 Mass of water (kg) = 1.000e+00 @@ -772,7 +772,7 @@ Barite -0.00 -9.29 -9.29 1.000e+01 1.000e+01 -2.427e-05 Specific Conductance (µS/cm, 154°C) = 29 Density (g/cm³) = 0.93974 Volume (L) = 1.06413 - Viscosity (mPa s) = 0.19016 + Viscosity (mPa s) = 0.19017 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.803e-05 Mass of water (kg) = 1.000e+00 @@ -852,7 +852,7 @@ Barite -0.00 -9.39 -9.39 1.000e+01 1.000e+01 -2.156e-05 Specific Conductance (µS/cm, 170°C) = 28 Density (g/cm³) = 0.92566 Volume (L) = 1.08032 - Viscosity (mPa s) = 0.17189 + Viscosity (mPa s) = 0.17191 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.766e-05 Mass of water (kg) = 1.000e+00 @@ -932,7 +932,7 @@ Barite 0.00 -9.52 -9.52 1.000e+01 1.000e+01 -1.864e-05 Specific Conductance (µS/cm, 186°C) = 26 Density (g/cm³) = 0.91074 Volume (L) = 1.09802 - Viscosity (mPa s) = 0.15701 + Viscosity (mPa s) = 0.15703 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.635e-05 Mass of water (kg) = 1.000e+00 @@ -1012,7 +1012,7 @@ Barite 0.00 -9.67 -9.67 1.000e+01 1.000e+01 -1.574e-05 Specific Conductance (µS/cm, 202°C) = 24 Density (g/cm³) = 0.89498 Volume (L) = 1.11734 - Viscosity (mPa s) = 0.14469 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14471 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 6.500e-05 Mass of water (kg) = 1.000e+00 @@ -1092,7 +1092,7 @@ Barite 0.00 -9.84 -9.84 1.000e+01 1.000e+01 -1.304e-05 Specific Conductance (µS/cm, 218°C) = 21 Density (g/cm³) = 0.87839 Volume (L) = 1.13844 - Viscosity (mPa s) = 0.13434 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13436 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 5.432e-05 Mass of water (kg) = 1.000e+00 @@ -1172,7 +1172,7 @@ Barite 0.00 -10.02 -10.02 1.000e+01 1.000e+01 -1.067e-05 Specific Conductance (µS/cm, 234°C) = 18 Density (g/cm³) = 0.86093 Volume (L) = 1.16154 - Viscosity (mPa s) = 0.12552 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12553 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 4.480e-05 Mass of water (kg) = 1.000e+00 @@ -1252,7 +1252,7 @@ Barite 0.00 -10.21 -10.21 1.000e+01 1.000e+01 -8.668e-06 Specific Conductance (µS/cm, 250°C) = 15 Density (g/cm³) = 0.84250 Volume (L) = 1.18695 - Viscosity (mPa s) = 0.11786 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11788 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.671e-05 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Barite_tc_101.sel b/mytest/Barite_tc_101.sel index 6fcd35cf..48403476 100644 --- a/mytest/Barite_tc_101.sel +++ b/mytest/Barite_tc_101.sel @@ -1,17 +1,17 @@ Mu SC - 0.000000287482 0.2130047074 - 0.000073470412 5.4670472185 - 0.000086054869 8.6541304440 - 0.000097388386 12.5372402816 - 0.000106379573 16.8278937319 - 0.000112117129 21.1041256949 - 0.000114041571 24.8866813797 - 0.000112043759 27.7415465244 - 0.000106468510 29.3767662435 - 0.000098028546 29.6926545303 - 0.000087657959 28.7823121235 - 0.000076346862 26.8880127259 - 0.000064996458 24.3330783592 - 0.000054320891 21.4528972344 - 0.000044804881 18.5366754130 - 0.000036711336 15.8063039811 + 0.000000287482 0.2130046815 + 0.000073470412 5.4670472436 + 0.000086054869 8.6540410025 + 0.000097388386 12.5369542049 + 0.000106379573 16.8272694966 + 0.000112117129 21.1030154595 + 0.000114041571 24.8849731613 + 0.000112043759 27.7392051707 + 0.000106468510 29.3738552912 + 0.000098028546 29.6893282713 + 0.000087657959 28.7787802996 + 0.000076346862 26.8844918258 + 0.000064996458 24.3297475233 + 0.000054320891 21.4498717701 + 0.000044804881 18.5340044015 + 0.000036711336 15.8039804925 diff --git a/mytest/CH4_conc_PR_IS_101.sel b/mytest/CH4_conc_PR_IS_101.sel index dfca9cc8..73aea44f 100644 --- a/mytest/CH4_conc_PR_IS_101.sel +++ b/mytest/CH4_conc_PR_IS_101.sel @@ -42,86 +42,86 @@ 0.000000136545 0.0777010396 0.000000137487 0.0783205985 0.000000100661 0.0546997340 - 0.000000234104 0.1697368225 - 0.000000236020 0.1710417854 - 0.000000237958 0.1723892984 - 0.000000239918 0.1737756367 - 0.000000241898 0.1751974729 - 0.000000243899 0.1766516695 - 0.000000245919 0.1781360157 - 0.000000247960 0.1796473967 - 0.000000250020 0.1811839189 - 0.000000252099 0.1827440208 - 0.000000254198 0.1843259164 - 0.000000256316 0.1859283893 - 0.000000258452 0.1875506266 - 0.000000260608 0.1891916817 - 0.000000262783 0.1908505921 - 0.000000264976 0.1925275833 - 0.000000267189 0.1942216339 - 0.000000269420 0.1959319493 - 0.000000271671 0.1976593865 - 0.000000273940 0.1994028708 - 0.000000276229 0.2011617154 - 0.000000278536 0.2029372856 - 0.000000280863 0.2047287962 - 0.000000283210 0.2065352282 - 0.000000285575 0.2083579188 - 0.000000287960 0.2101956877 - 0.000000290365 0.2120489823 - 0.000000292789 0.2139173001 - 0.000000295233 0.2158020804 - 0.000000297696 0.2177006579 - 0.000000300180 0.2196166122 - 0.000000302683 0.2215459150 - 0.000000305207 0.2234923355 - 0.000000307751 0.2254526636 - 0.000000310315 0.2274296860 - 0.000000312899 0.2294211747 - 0.000000315504 0.2314287458 - 0.000000318130 0.2334513268 - 0.000000320776 0.2354906682 - 0.000000323443 0.2375440848 - 0.000000326132 0.2396133085 + 0.000000234104 0.1697368036 + 0.000000236020 0.1710417663 + 0.000000237958 0.1723892791 + 0.000000239918 0.1737756172 + 0.000000241898 0.1751974532 + 0.000000243899 0.1766516495 + 0.000000245919 0.1781359955 + 0.000000247960 0.1796473762 + 0.000000250020 0.1811838982 + 0.000000252099 0.1827439998 + 0.000000254198 0.1843258952 + 0.000000256316 0.1859283678 + 0.000000258452 0.1875506049 + 0.000000260608 0.1891916597 + 0.000000262783 0.1908505698 + 0.000000264976 0.1925275607 + 0.000000267189 0.1942216110 + 0.000000269420 0.1959319262 + 0.000000271671 0.1976593631 + 0.000000273940 0.1994028471 + 0.000000276229 0.2011616914 + 0.000000278536 0.2029372613 + 0.000000280863 0.2047287716 + 0.000000283210 0.2065352032 + 0.000000285575 0.2083578935 + 0.000000287960 0.2101956621 + 0.000000290365 0.2120489563 + 0.000000292789 0.2139172739 + 0.000000295233 0.2158020539 + 0.000000297696 0.2177006310 + 0.000000300180 0.2196165849 + 0.000000302683 0.2215458874 + 0.000000305207 0.2234923076 + 0.000000307751 0.2254526354 + 0.000000310315 0.2274296574 + 0.000000312899 0.2294211457 + 0.000000315504 0.2314287164 + 0.000000318130 0.2334512971 + 0.000000320776 0.2354906381 + 0.000000323443 0.2375440543 + 0.000000326132 0.2396132777 0.000000100661 0.0546997340 - 0.000000760990 0.7555310051 - 0.000000767065 0.7604610078 - 0.000000773235 0.7655643051 - 0.000000779498 0.7708303955 - 0.000000785855 0.7762501918 - 0.000000792304 0.7818150369 - 0.000000798847 0.7875202039 - 0.000000805481 0.7933558596 - 0.000000812207 0.7993173234 - 0.000000819024 0.8054008026 - 0.000000825934 0.8116005481 - 0.000000832935 0.8179129763 - 0.000000840028 0.8243359823 - 0.000000847213 0.8308662740 - 0.000000854490 0.8375000849 - 0.000000861860 0.8442395348 - 0.000000869323 0.8510800430 - 0.000000876879 0.8580180614 - 0.000000884528 0.8650584897 - 0.000000892272 0.8721961348 - 0.000000900109 0.8794277824 - 0.000000908042 0.8867607487 - 0.000000916071 0.8941912318 - 0.000000924195 0.9017142504 - 0.000000932416 0.9093368843 - 0.000000940734 0.9170533262 - 0.000000949150 0.9248660913 - 0.000000957664 0.9327728616 - 0.000000966278 0.9407811737 - 0.000000974990 0.9488777752 - 0.000000983805 0.9570810235 - 0.000000992719 0.9653708469 - 0.000001001736 0.9737665270 - 0.000001010855 0.9822521968 - 0.000001020078 0.9908421655 - 0.000001029405 0.9995255678 - 0.000001038837 1.0083108383 - 0.000001048375 1.0171929547 - 0.000001058020 1.0261810238 - 0.000001067772 1.0352620169 - 0.000001077633 1.0444449791 + 0.000000760990 0.7555303237 + 0.000000767065 0.7604603197 + 0.000000773235 0.7655636101 + 0.000000779498 0.7708296933 + 0.000000785855 0.7762494822 + 0.000000792304 0.7818143197 + 0.000000798847 0.7875194789 + 0.000000805481 0.7933551268 + 0.000000812207 0.7993165824 + 0.000000819024 0.8054000533 + 0.000000825934 0.8115997903 + 0.000000832935 0.8179122098 + 0.000000840028 0.8243352070 + 0.000000847213 0.8308654897 + 0.000000854490 0.8374992914 + 0.000000861860 0.8442387320 + 0.000000869323 0.8510792306 + 0.000000876879 0.8580172394 + 0.000000884528 0.8650576578 + 0.000000892272 0.8721952929 + 0.000000900109 0.8794269303 + 0.000000908042 0.8867598861 + 0.000000916071 0.8941903587 + 0.000000924195 0.9017133665 + 0.000000932416 0.9093359895 + 0.000000940734 0.9170524202 + 0.000000949150 0.9248651741 + 0.000000957664 0.9327719329 + 0.000000966278 0.9407802333 + 0.000000974990 0.9488768230 + 0.000000983805 0.9570800593 + 0.000000992719 0.9653698705 + 0.000001001736 0.9737655381 + 0.000001010855 0.9822511953 + 0.000001020078 0.9908411512 + 0.000001029405 0.9995245405 + 0.000001038837 1.0083097978 + 0.000001048375 1.0171919008 + 0.000001058020 1.0261799562 + 0.000001067772 1.0352609354 + 0.000001077633 1.0444438836 diff --git a/mytest/CO2_4M_NaCl.out b/mytest/CO2_4M_NaCl.out index ca1c3563..f7f5ad4b 100644 --- a/mytest/CO2_4M_NaCl.out +++ b/mytest/CO2_4M_NaCl.out @@ -68,10 +68,10 @@ Initial solution 1. pH = 5.950 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 80°C) = 455048 + Specific Conductance (µS/cm, 80°C) = 454419 Density (g/cm³) = 1.10691 Volume (L) = 1.11460 - Viscosity (mPa s) = 0.56026 + Viscosity (mPa s) = 0.56132 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -160,10 +160,10 @@ H2O(g) -0.39 4.094e-01 0.966 0.000e+00 1.439e-02 1.439e-02 pH = 3.347 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 453521 + Specific Conductance (µS/cm, 80°C) = 452895 Density (g/cm³) = 1.10718 Volume (L) = 1.11535 - Viscosity (mPa s) = 0.56150 + Viscosity (mPa s) = 0.56256 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.001e+00 Mass of water (kg) = 9.997e-01 @@ -258,10 +258,10 @@ H2O(g) -0.37 4.223e-01 0.938 1.439e-02 1.508e-02 6.915e-04 pH = 3.203 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 452026 + Specific Conductance (µS/cm, 80°C) = 451403 Density (g/cm³) = 1.10743 Volume (L) = 1.11627 - Viscosity (mPa s) = 0.56262 + Viscosity (mPa s) = 0.56369 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.001e+00 Mass of water (kg) = 9.997e-01 @@ -356,10 +356,10 @@ H2O(g) -0.36 4.356e-01 0.912 1.508e-02 1.580e-02 7.215e-04 pH = 3.121 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 450625 + Specific Conductance (µS/cm, 80°C) = 450005 Density (g/cm³) = 1.10767 Volume (L) = 1.11713 - Viscosity (mPa s) = 0.56368 + Viscosity (mPa s) = 0.56474 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.001e+00 Mass of water (kg) = 9.997e-01 @@ -454,10 +454,10 @@ H2O(g) -0.35 4.491e-01 0.886 1.580e-02 1.655e-02 7.522e-04 pH = 3.065 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 449311 + Specific Conductance (µS/cm, 80°C) = 448694 Density (g/cm³) = 1.10791 Volume (L) = 1.11792 - Viscosity (mPa s) = 0.56467 + Viscosity (mPa s) = 0.56574 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.002e+00 Mass of water (kg) = 9.997e-01 @@ -552,10 +552,10 @@ H2O(g) -0.33 4.630e-01 0.861 1.655e-02 1.734e-02 7.836e-04 pH = 3.023 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 448080 + Specific Conductance (µS/cm, 80°C) = 447466 Density (g/cm³) = 1.10813 Volume (L) = 1.11867 - Viscosity (mPa s) = 0.56561 + Viscosity (mPa s) = 0.56668 Activity of water = 0.848 Ionic strength (mol/kgw) = 4.002e+00 Mass of water (kg) = 9.997e-01 @@ -650,10 +650,10 @@ H2O(g) -0.27 5.368e-01 0.750 1.734e-02 2.175e-02 4.410e-03 pH = 2.902 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 442992 + Specific Conductance (µS/cm, 80°C) = 442388 Density (g/cm³) = 1.10915 Volume (L) = 1.12167 - Viscosity (mPa s) = 0.56956 + Viscosity (mPa s) = 0.57063 Activity of water = 0.845 Ionic strength (mol/kgw) = 4.002e+00 Mass of water (kg) = 9.996e-01 @@ -748,10 +748,10 @@ H2O(g) -0.21 6.181e-01 0.658 2.175e-02 2.703e-02 5.283e-03 pH = 2.843 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 439301 + Specific Conductance (µS/cm, 80°C) = 438705 Density (g/cm³) = 1.11002 Volume (L) = 1.12373 - Viscosity (mPa s) = 0.57255 + Viscosity (mPa s) = 0.57362 Activity of water = 0.843 Ionic strength (mol/kgw) = 4.003e+00 Mass of water (kg) = 9.995e-01 @@ -846,10 +846,10 @@ H2O(g) -0.15 7.067e-01 0.580 2.703e-02 3.325e-02 6.217e-03 pH = 2.807 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 436596 + Specific Conductance (µS/cm, 80°C) = 436005 Density (g/cm³) = 1.11075 Volume (L) = 1.12510 - Viscosity (mPa s) = 0.57484 + Viscosity (mPa s) = 0.57591 Activity of water = 0.842 Ionic strength (mol/kgw) = 4.003e+00 Mass of water (kg) = 9.994e-01 @@ -944,10 +944,10 @@ H2O(g) -0.10 8.026e-01 0.515 3.325e-02 4.045e-02 7.199e-03 pH = 2.783 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 434578 + Specific Conductance (µS/cm, 80°C) = 433991 Density (g/cm³) = 1.11139 Volume (L) = 1.12599 - Viscosity (mPa s) = 0.57665 + Viscosity (mPa s) = 0.57772 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.004e+00 Mass of water (kg) = 9.993e-01 @@ -1042,10 +1042,10 @@ H2O(g) -0.04 9.065e-01 0.459 4.045e-02 4.866e-02 8.218e-03 pH = 2.766 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 433033 + Specific Conductance (µS/cm, 80°C) = 432449 Density (g/cm³) = 1.11195 Volume (L) = 1.12655 - Viscosity (mPa s) = 0.57812 + Viscosity (mPa s) = 0.57919 Activity of water = 0.840 Ionic strength (mol/kgw) = 4.004e+00 Mass of water (kg) = 9.991e-01 @@ -1127,10 +1127,10 @@ Initial solution 1. pH = 5.680 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 120°C) = 620672 + Specific Conductance (µS/cm, 120°C) = 618904 Density (g/cm³) = 1.08014 Volume (L) = 1.14223 - Viscosity (mPa s) = 0.37126 + Viscosity (mPa s) = 0.37271 Activity of water = 0.856 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -1219,10 +1219,10 @@ H2O(g) 0.24 1.724e+00 0.959 0.000e+00 5.459e-02 5.459e-02 pH = 3.501 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 619110 + Specific Conductance (µS/cm, 120°C) = 617348 Density (g/cm³) = 1.08022 Volume (L) = 1.14231 - Viscosity (mPa s) = 0.37187 + Viscosity (mPa s) = 0.37333 Activity of water = 0.855 Ionic strength (mol/kgw) = 4.004e+00 Mass of water (kg) = 9.990e-01 @@ -1317,10 +1317,10 @@ H2O(g) 0.25 1.772e+00 0.935 5.459e-02 5.682e-02 2.228e-03 pH = 3.356 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 617231 + Specific Conductance (µS/cm, 120°C) = 615477 Density (g/cm³) = 1.08074 Volume (L) = 1.14275 - Viscosity (mPa s) = 0.37279 + Viscosity (mPa s) = 0.37424 Activity of water = 0.854 Ionic strength (mol/kgw) = 4.004e+00 Mass of water (kg) = 9.990e-01 @@ -1415,10 +1415,10 @@ H2O(g) 0.26 1.822e+00 0.912 5.682e-02 5.912e-02 2.300e-03 pH = 3.273 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 615513 + Specific Conductance (µS/cm, 120°C) = 613766 Density (g/cm³) = 1.08097 Volume (L) = 1.14344 - Viscosity (mPa s) = 0.37343 + Viscosity (mPa s) = 0.37489 Activity of water = 0.854 Ionic strength (mol/kgw) = 4.005e+00 Mass of water (kg) = 9.989e-01 @@ -1513,10 +1513,10 @@ H2O(g) 0.27 1.872e+00 0.890 5.912e-02 6.149e-02 2.373e-03 pH = 3.216 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 613882 + Specific Conductance (µS/cm, 120°C) = 612142 Density (g/cm³) = 1.08120 Volume (L) = 1.14408 - Viscosity (mPa s) = 0.37404 + Viscosity (mPa s) = 0.37550 Activity of water = 0.853 Ionic strength (mol/kgw) = 4.005e+00 Mass of water (kg) = 9.989e-01 @@ -1611,10 +1611,10 @@ H2O(g) 0.28 1.922e+00 0.868 6.149e-02 6.394e-02 2.446e-03 pH = 3.172 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 612332 + Specific Conductance (µS/cm, 120°C) = 610598 Density (g/cm³) = 1.08143 Volume (L) = 1.14468 - Viscosity (mPa s) = 0.37464 + Viscosity (mPa s) = 0.37610 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.005e+00 Mass of water (kg) = 9.988e-01 @@ -1709,10 +1709,10 @@ H2O(g) 0.34 2.191e+00 0.771 6.394e-02 7.729e-02 1.335e-02 pH = 3.046 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 605652 + Specific Conductance (µS/cm, 120°C) = 603945 Density (g/cm³) = 1.08251 Volume (L) = 1.14711 - Viscosity (mPa s) = 0.37727 + Viscosity (mPa s) = 0.37874 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.006e+00 Mass of water (kg) = 9.986e-01 @@ -1807,10 +1807,10 @@ H2O(g) 0.40 2.484e+00 0.688 7.729e-02 9.255e-02 1.526e-02 pH = 2.980 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 600399 + Specific Conductance (µS/cm, 120°C) = 598714 Density (g/cm³) = 1.08351 Volume (L) = 1.14879 - Viscosity (mPa s) = 0.37948 + Viscosity (mPa s) = 0.38095 Activity of water = 0.848 Ionic strength (mol/kgw) = 4.007e+00 Mass of water (kg) = 9.983e-01 @@ -1905,10 +1905,10 @@ H2O(g) 0.45 2.802e+00 0.616 9.255e-02 1.097e-01 1.720e-02 pH = 2.938 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 596187 + Specific Conductance (µS/cm, 120°C) = 594519 Density (g/cm³) = 1.08444 Volume (L) = 1.14990 - Viscosity (mPa s) = 0.38137 + Viscosity (mPa s) = 0.38284 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.009e+00 Mass of water (kg) = 9.980e-01 @@ -2003,10 +2003,10 @@ H2O(g) 0.50 3.148e+00 0.554 1.097e-01 1.289e-01 1.913e-02 pH = 2.908 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 592729 + Specific Conductance (µS/cm, 120°C) = 591075 Density (g/cm³) = 1.08532 Volume (L) = 1.15058 - Viscosity (mPa s) = 0.38303 + Viscosity (mPa s) = 0.38450 Activity of water = 0.845 Ionic strength (mol/kgw) = 4.010e+00 Mass of water (kg) = 9.977e-01 @@ -2101,10 +2101,10 @@ H2O(g) 0.55 3.525e+00 0.499 1.289e-01 1.499e-01 2.105e-02 pH = 2.885 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 589810 + Specific Conductance (µS/cm, 120°C) = 588168 Density (g/cm³) = 1.08616 Volume (L) = 1.15095 - Viscosity (mPa s) = 0.38453 + Viscosity (mPa s) = 0.38601 Activity of water = 0.844 Ionic strength (mol/kgw) = 4.012e+00 Mass of water (kg) = 9.973e-01 @@ -2186,10 +2186,10 @@ Initial solution 1. pH = 5.526 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 160°C) = 763602 + Specific Conductance (µS/cm, 160°C) = 759936 Density (g/cm³) = 1.04923 Volume (L) = 1.17589 - Viscosity (mPa s) = 0.27399 + Viscosity (mPa s) = 0.27580 Activity of water = 0.862 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -2278,10 +2278,10 @@ H2O(g) 0.73 5.399e+00 0.943 0.000e+00 1.572e-01 1.572e-01 pH = 3.672 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 762381 + Specific Conductance (µS/cm, 160°C) = 758724 Density (g/cm³) = 1.04937 Volume (L) = 1.17411 - Viscosity (mPa s) = 0.27452 + Viscosity (mPa s) = 0.27634 Activity of water = 0.861 Ionic strength (mol/kgw) = 4.012e+00 Mass of water (kg) = 9.972e-01 @@ -2376,10 +2376,10 @@ H2O(g) 0.74 5.541e+00 0.921 1.572e-01 1.627e-01 5.427e-03 pH = 3.526 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 759999 + Specific Conductance (µS/cm, 160°C) = 756357 Density (g/cm³) = 1.04995 Volume (L) = 1.17441 - Viscosity (mPa s) = 0.27523 + Viscosity (mPa s) = 0.27705 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.012e+00 Mass of water (kg) = 9.971e-01 @@ -2474,10 +2474,10 @@ H2O(g) 0.75 5.681e+00 0.901 1.627e-01 1.682e-01 5.561e-03 pH = 3.442 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 757871 + Specific Conductance (µS/cm, 160°C) = 754242 Density (g/cm³) = 1.05016 Volume (L) = 1.17507 - Viscosity (mPa s) = 0.27568 + Viscosity (mPa s) = 0.27750 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.012e+00 Mass of water (kg) = 9.970e-01 @@ -2572,10 +2572,10 @@ H2O(g) 0.76 5.821e+00 0.881 1.682e-01 1.739e-01 5.696e-03 pH = 3.383 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 755828 + Specific Conductance (µS/cm, 160°C) = 752213 Density (g/cm³) = 1.05038 Volume (L) = 1.17569 - Viscosity (mPa s) = 0.27612 + Viscosity (mPa s) = 0.27794 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.013e+00 Mass of water (kg) = 9.969e-01 @@ -2670,10 +2670,10 @@ H2O(g) 0.78 5.962e+00 0.863 1.739e-01 1.798e-01 5.830e-03 pH = 3.338 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 753867 + Specific Conductance (µS/cm, 160°C) = 750264 Density (g/cm³) = 1.05060 Volume (L) = 1.17627 - Viscosity (mPa s) = 0.27654 + Viscosity (mPa s) = 0.27837 Activity of water = 0.858 Ionic strength (mol/kgw) = 4.013e+00 Mass of water (kg) = 9.968e-01 @@ -2768,10 +2768,10 @@ H2O(g) 0.83 6.697e+00 0.778 1.798e-01 2.109e-01 3.117e-02 pH = 3.206 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 745142 + Specific Conductance (µS/cm, 160°C) = 741595 Density (g/cm³) = 1.05169 Volume (L) = 1.17858 - Viscosity (mPa s) = 0.27855 + Viscosity (mPa s) = 0.28038 Activity of water = 0.856 Ionic strength (mol/kgw) = 4.016e+00 Mass of water (kg) = 9.962e-01 @@ -2866,10 +2866,10 @@ H2O(g) 0.87 7.493e+00 0.703 2.109e-01 2.454e-01 3.449e-02 pH = 3.135 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 737891 + Specific Conductance (µS/cm, 160°C) = 734391 Density (g/cm³) = 1.05280 Volume (L) = 1.18012 - Viscosity (mPa s) = 0.28038 + Viscosity (mPa s) = 0.28222 Activity of water = 0.854 Ionic strength (mol/kgw) = 4.018e+00 Mass of water (kg) = 9.956e-01 @@ -2964,10 +2964,10 @@ H2O(g) 0.92 8.355e+00 0.638 2.454e-01 2.831e-01 3.772e-02 pH = 3.087 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 731748 + Specific Conductance (µS/cm, 160°C) = 728288 Density (g/cm³) = 1.05392 Volume (L) = 1.18105 - Viscosity (mPa s) = 0.28208 + Viscosity (mPa s) = 0.28392 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.021e+00 Mass of water (kg) = 9.949e-01 @@ -3062,10 +3062,10 @@ H2O(g) 0.97 9.291e+00 0.581 2.831e-01 3.239e-01 4.081e-02 pH = 3.052 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 726425 + Specific Conductance (µS/cm, 160°C) = 723000 Density (g/cm³) = 1.05505 Volume (L) = 1.18151 - Viscosity (mPa s) = 0.28368 + Viscosity (mPa s) = 0.28553 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.024e+00 Mass of water (kg) = 9.942e-01 @@ -3160,10 +3160,10 @@ H2O(g) 1.01 1.031e+01 0.530 3.239e-01 3.676e-01 4.370e-02 pH = 3.024 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 721701 + Specific Conductance (µS/cm, 160°C) = 718306 Density (g/cm³) = 1.05620 Volume (L) = 1.18158 - Viscosity (mPa s) = 0.28523 + Viscosity (mPa s) = 0.28708 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.027e+00 Mass of water (kg) = 9.934e-01 diff --git a/mytest/CO2_4M_NaCl_101.sel b/mytest/CO2_4M_NaCl_101.sel index e53ad2e9..0ff82ff8 100644 --- a/mytest/CO2_4M_NaCl_101.sel +++ b/mytest/CO2_4M_NaCl_101.sel @@ -1,34 +1,34 @@ Mu SC - 4.000000490916 455048.6669355546 - 4.001247967857 453521.0957477367 - 4.001380871828 452026.6618467998 - 4.001493781374 450625.3468013672 - 4.001597060715 449311.8369205255 - 4.001694833813 448080.8268759327 - 4.002155067251 442992.7624485639 - 4.002622495009 439301.8616040722 - 4.003129034124 436596.7850759490 - 4.003689861839 434578.6476448291 - 4.004313948705 433033.6533405338 - 4.000001153692 620672.5878890076 - 4.004124259802 619110.3534677526 - 4.004359238051 617231.6510951135 - 4.004580074473 615513.8352177634 - 4.004795921470 613882.5589467578 - 4.005010390874 612332.9593645540 - 4.006109085946 605652.8601595219 - 4.007298685566 600399.5827820123 - 4.008604911334 596187.8035475233 - 4.010037914393 592729.7729441243 - 4.011601443280 589810.8369023221 - 4.000002154766 763602.7376805907 - 4.011528138170 762381.8035490832 - 4.011987389126 759999.6518838054 - 4.012439588203 757871.2737534839 - 4.012892778293 755828.6327520210 - 4.013350067035 753867.4672329162 - 4.015737235890 745142.1946670664 - 4.018327982771 737891.6490207831 - 4.021136324470 731748.3152378211 - 4.024161061446 726425.9149094886 - 4.027393640053 721701.0136253036 + 4.000000490916 454419.5948884447 + 4.001247967857 452895.2009040233 + 4.001380871828 451403.8844789778 + 4.001493781374 450005.4898196938 + 4.001597060715 448694.7124386436 + 4.001694833813 447466.2582659267 + 4.002155067251 442388.7040201924 + 4.002622495009 438705.3781237575 + 4.003129034124 436005.8355847393 + 4.003689861839 433991.8246351017 + 4.004313948705 432449.9944356552 + 4.000001153692 618904.2504883477 + 4.004124259802 617348.6842223116 + 4.004359238051 615477.5795700256 + 4.004580074473 613766.7906718604 + 4.004795921470 612142.1815878121 + 4.005010390874 610598.9084913871 + 4.006109085946 603945.9979642625 + 4.007298685566 598714.0177615469 + 4.008604911334 594519.2809904049 + 4.010037914393 591075.2399233795 + 4.011601443280 588168.1248669492 + 4.000002154766 759936.4856333574 + 4.011528138170 758724.7992475550 + 4.011987389126 756357.5567652442 + 4.012439588203 754242.7616950490 + 4.012892778293 752213.1761837635 + 4.013350067035 750264.5606893301 + 4.015737235890 741595.2980410184 + 4.018327982771 734391.5504363726 + 4.021136324470 728288.1095921175 + 4.024161061446 723000.5010435836 + 4.027393640053 718306.7015143437 diff --git a/mytest/CO2_K_H.out b/mytest/CO2_K_H.out index 1dd11b68..27c563db 100644 --- a/mytest/CO2_K_H.out +++ b/mytest/CO2_K_H.out @@ -561,7 +561,7 @@ H2O(g) -2.06 8.768e-03 1.000 0.000e+00 3.842e-05 3.842e-05 Specific Conductance (µS/cm, 5°C) = 4 Density (g/cm³) = 0.99992 Volume (L) = 1.00011 - Viscosity (mPa s) = 1.51853 + Viscosity (mPa s) = 1.51852 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.523e-05 Mass of water (kg) = 1.000e+00 @@ -801,7 +801,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -881,7 +881,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -961,7 +961,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -1281,7 +1281,7 @@ H2O(g) -1.77 1.690e-02 0.999 0.000e+00 7.154e-05 7.154e-05 Specific Conductance (µS/cm, 15°C) = 5 Density (g/cm³) = 0.99908 Volume (L) = 1.00096 - Viscosity (mPa s) = 1.14078 + Viscosity (mPa s) = 1.14077 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.683e-05 Mass of water (kg) = 1.000e+00 @@ -3761,7 +3761,7 @@ H2O(g) -0.95 1.123e-01 0.998 0.000e+00 4.262e-04 4.262e-04 Specific Conductance (µS/cm, 48°C) = 9 Density (g/cm³) = 0.98871 Volume (L) = 1.01144 - Viscosity (mPa s) = 0.56156 + Viscosity (mPa s) = 0.56157 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.884e-05 Mass of water (kg) = 1.000e+00 @@ -4321,7 +4321,7 @@ H2O(g) -0.43 3.746e-01 0.996 0.000e+00 1.317e-03 1.317e-03 Specific Conductance (µS/cm, 75°C) = 11 Density (g/cm³) = 0.97500 Volume (L) = 1.02565 - Viscosity (mPa s) = 0.37892 + Viscosity (mPa s) = 0.37893 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.763e-05 Mass of water (kg) = 1.000e+00 @@ -4801,7 +4801,7 @@ H2O(g) 0.67 4.704e+00 0.971 0.000e+00 1.396e-02 1.396e-02 Specific Conductance (µS/cm, 150°C) = 8 Density (g/cm³) = 0.91701 Volume (L) = 1.09025 - Viscosity (mPa s) = 0.18263 + Viscosity (mPa s) = 0.18264 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.035e-05 Mass of water (kg) = 9.997e-01 @@ -4881,7 +4881,7 @@ H2O(g) 0.74 5.513e+00 0.967 0.000e+00 1.620e-02 1.620e-02 Specific Conductance (µS/cm, 156°C) = 8 Density (g/cm³) = 0.91133 Volume (L) = 1.09701 - Viscosity (mPa s) = 0.17512 + Viscosity (mPa s) = 0.17513 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.812e-06 Mass of water (kg) = 9.997e-01 @@ -5041,7 +5041,7 @@ H2O(g) 0.97 9.255e+00 0.952 0.000e+00 2.637e-02 2.637e-02 Specific Conductance (µS/cm, 177°C) = 7 Density (g/cm³) = 0.89019 Volume (L) = 1.12286 - Viscosity (mPa s) = 0.15308 + Viscosity (mPa s) = 0.15309 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.092e-06 Mass of water (kg) = 9.995e-01 @@ -5361,7 +5361,7 @@ H2O(g) 1.22 1.672e+01 0.927 0.000e+00 4.630e-02 4.630e-02 Specific Conductance (µS/cm, 204°C) = 5 Density (g/cm³) = 0.85996 Volume (L) = 1.16191 - Viscosity (mPa s) = 0.13187 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13188 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 6.304e-06 Mass of water (kg) = 9.992e-01 @@ -7250,7 +7250,7 @@ H2O(g) -2.06 8.768e-03 1.000 0.000e+00 3.842e-05 3.842e-05 Specific Conductance (µS/cm, 5°C) = 4 Density (g/cm³) = 0.99992 Volume (L) = 1.00011 - Viscosity (mPa s) = 1.51853 + Viscosity (mPa s) = 1.51852 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.524e-05 Mass of water (kg) = 1.000e+00 @@ -7490,7 +7490,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -7570,7 +7570,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -7650,7 +7650,7 @@ H2O(g) -1.91 1.229e-02 1.000 0.000e+00 5.292e-05 5.292e-05 Specific Conductance (µS/cm, 10°C) = 4 Density (g/cm³) = 0.99966 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.30616 + Viscosity (mPa s) = 1.30615 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.610e-05 Mass of water (kg) = 1.000e+00 @@ -7970,7 +7970,7 @@ H2O(g) -1.77 1.690e-02 0.999 0.000e+00 7.154e-05 7.154e-05 Specific Conductance (µS/cm, 15°C) = 5 Density (g/cm³) = 0.99908 Volume (L) = 1.00096 - Viscosity (mPa s) = 1.14078 + Viscosity (mPa s) = 1.14077 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.683e-05 Mass of water (kg) = 1.000e+00 @@ -9410,7 +9410,7 @@ H2O(g) -1.38 4.203e-02 0.999 0.000e+00 1.691e-04 1.691e-04 Specific Conductance (µS/cm, 30°C) = 7 Density (g/cm³) = 0.99561 Volume (L) = 1.00444 - Viscosity (mPa s) = 0.79730 + Viscosity (mPa s) = 0.79731 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.834e-05 Mass of water (kg) = 1.000e+00 @@ -9970,7 +9970,7 @@ H2O(g) -1.26 5.440e-02 0.999 0.000e+00 2.156e-04 2.156e-04 Specific Conductance (µS/cm, 35°C) = 8 Density (g/cm³) = 0.99413 Volume (L) = 1.00593 - Viscosity (mPa s) = 0.72497 + Viscosity (mPa s) = 0.72498 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.858e-05 Mass of water (kg) = 1.000e+00 @@ -10450,7 +10450,7 @@ H2O(g) -0.95 1.123e-01 0.998 0.000e+00 4.262e-04 4.262e-04 Specific Conductance (µS/cm, 48°C) = 9 Density (g/cm³) = 0.98871 Volume (L) = 1.01144 - Viscosity (mPa s) = 0.56156 + Viscosity (mPa s) = 0.56157 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.879e-05 Mass of water (kg) = 1.000e+00 @@ -11010,7 +11010,7 @@ H2O(g) -0.43 3.746e-01 0.996 0.000e+00 1.317e-03 1.317e-03 Specific Conductance (µS/cm, 75°C) = 11 Density (g/cm³) = 0.97500 Volume (L) = 1.02565 - Viscosity (mPa s) = 0.37892 + Viscosity (mPa s) = 0.37893 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-05 Mass of water (kg) = 1.000e+00 @@ -11490,7 +11490,7 @@ H2O(g) 0.67 4.704e+00 0.971 0.000e+00 1.396e-02 1.396e-02 Specific Conductance (µS/cm, 150°C) = 8 Density (g/cm³) = 0.91701 Volume (L) = 1.09025 - Viscosity (mPa s) = 0.18263 + Viscosity (mPa s) = 0.18264 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.030e-05 Mass of water (kg) = 9.997e-01 @@ -11570,7 +11570,7 @@ H2O(g) 0.74 5.513e+00 0.967 0.000e+00 1.620e-02 1.620e-02 Specific Conductance (µS/cm, 156°C) = 8 Density (g/cm³) = 0.91133 Volume (L) = 1.09701 - Viscosity (mPa s) = 0.17512 + Viscosity (mPa s) = 0.17513 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.767e-06 Mass of water (kg) = 9.997e-01 @@ -11730,7 +11730,7 @@ H2O(g) 0.97 9.255e+00 0.952 0.000e+00 2.637e-02 2.637e-02 Specific Conductance (µS/cm, 177°C) = 7 Density (g/cm³) = 0.89019 Volume (L) = 1.12286 - Viscosity (mPa s) = 0.15308 + Viscosity (mPa s) = 0.15309 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.061e-06 Mass of water (kg) = 9.995e-01 @@ -12050,7 +12050,7 @@ H2O(g) 1.22 1.672e+01 0.927 0.000e+00 4.630e-02 4.630e-02 Specific Conductance (µS/cm, 204°C) = 5 Density (g/cm³) = 0.85996 Volume (L) = 1.16191 - Viscosity (mPa s) = 0.13187 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13188 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 6.287e-06 Mass of water (kg) = 9.992e-01 diff --git a/mytest/CO2_K_H_101.sel b/mytest/CO2_K_H_101.sel index e034390c..12e83697 100644 --- a/mytest/CO2_K_H_101.sel +++ b/mytest/CO2_K_H_101.sel @@ -1,168 +1,168 @@ Mu SC - 0.000014289445 3.5000552263 - 0.000014256658 3.4912395354 - 0.000014256658 3.4912395354 - 0.000014460458 3.6292731824 - 0.000014660176 3.7685218587 - 0.000015046960 4.0501516655 - 0.000015233843 4.1922777630 - 0.000015416278 4.3351092815 - 0.000015767512 4.6223890859 - 0.000016100153 4.9110064500 - 0.000016100153 4.9110064500 - 0.000016100153 4.9110064500 - 0.000016413798 5.2000036382 - 0.000016607335 5.3876155569 - 0.000016708147 5.4884550027 - 0.000016834250 5.6178416903 - 0.000016848017 5.6321965939 - 0.000016848017 5.6321965939 - 0.000016982992 5.7754713016 - 0.000017188747 6.0034790497 - 0.000017238221 6.0602033910 - 0.000017451129 6.3138419651 - 0.000017473804 6.3418450019 - 0.000017473804 6.3418450019 - 0.000017473804 6.3418450019 - 0.000017689790 6.6196350781 - 0.000017886302 6.8928594232 - 0.000017977313 7.0275493611 - 0.000017977313 7.0275493611 - 0.000018046669 7.1343060089 - 0.000018063531 7.1608518284 - 0.000018221727 7.4229947163 - 0.000018348082 7.6534509106 - 0.000018361196 7.6787193169 - 0.000018380523 7.7164916547 - 0.000018482294 7.9275056271 - 0.000018482294 7.9275056271 - 0.000018546298 8.0732487252 - 0.000018585418 8.1688817098 - 0.000018599363 8.2044221335 - 0.000018612915 8.2397848478 - 0.000018630376 8.2866564208 - 0.000018630376 8.2866564208 - 0.000018671006 8.4024230142 - 0.000018833914 9.1030556199 - 0.000018852563 9.4776986427 - 0.000018840810 9.6559026271 - 0.000018821517 9.7915488312 - 0.000018803322 9.8812107016 - 0.000018728529 10.1252798161 - 0.000018371681 10.6674974851 - 0.000018077603 10.8963777228 - 0.000017795251 11.0394054893 - 0.000017627083 11.1008802221 - 0.000017604495 11.1080387882 - 0.000015347887 11.0850690434 - 0.000015347887 11.0850690434 - 0.000015347887 11.0850690434 - 0.000012791094 10.1583631174 - 0.000010353193 8.7845674543 - 0.000009812279 8.4311817437 - 0.000008243419 7.3242612324 - 0.000008091792 7.2114316140 - 0.000006538866 5.9931978210 - 0.000006538866 5.9931978210 - 0.000006420244 5.8973264455 - 0.000006304180 5.8026490282 - 0.000005233172 4.8949066044 - 0.000005057969 4.7399758354 - 0.000005057969 4.7399758354 - 0.000004811102 4.5177805687 - 0.000004272027 4.0124851725 - 0.000003942282 3.6843584672 - 0.000003942282 3.6843584672 - 0.000003835496 3.5736564870 - 0.000003835496 3.5736564870 - 0.000003599398 3.3176713589 - 0.000003242675 2.8421169734 - 0.000003244002 2.7639212962 - 0.000003244002 2.7639212962 - 0.000003244002 2.7639212962 - 0.000003678356 2.9230881992 - 0.000004582295 3.4469814295 - 0.000004582295 3.4469814295 - 0.000014262595 3.4926914400 - 0.000014262595 3.4926914400 - 0.000014465991 3.6306597728 - 0.000014665260 3.7698269463 - 0.000015051014 4.0512415280 - 0.000015237316 4.1932321503 - 0.000015419124 4.3359085096 - 0.000015768969 4.6228158655 - 0.000016100044 4.9109732888 - 0.000016100044 4.9109732888 - 0.000016100044 4.9109732888 - 0.000016411948 5.1994182079 - 0.000016604261 5.3866197530 - 0.000016704386 5.4872210771 - 0.000016829575 5.6162837409 - 0.000016843239 5.6306013932 - 0.000016843239 5.6306013932 - 0.000016977158 5.7734897699 - 0.000017181144 6.0008268168 - 0.000017230161 6.0573733273 - 0.000017440943 6.3101613176 - 0.000017463375 6.3380647661 - 0.000017463375 6.3380647661 - 0.000017463375 6.3380647661 - 0.000017676862 6.6148034300 - 0.000017870758 6.8868766285 - 0.000017960421 7.0209543596 - 0.000017960421 7.0209543596 - 0.000018028682 7.1272040245 - 0.000018045268 7.1536207380 - 0.000018200656 7.4144218019 - 0.000018324423 7.6435941326 - 0.000018337246 7.6687156453 - 0.000018356135 7.7062660283 - 0.000018455407 7.9159877705 - 0.000018455407 7.9159877705 - 0.000018517630 8.0607849105 - 0.000018555556 8.1557725621 - 0.000018569052 8.1910680689 - 0.000018582154 8.2261843141 - 0.000018599015 8.2727248911 - 0.000018599015 8.2727248912 - 0.000018638143 8.3876525231 - 0.000018791326 9.0824982896 - 0.000018804318 9.4534761503 - 0.000018789756 9.6297723555 - 0.000018768273 9.7638869591 - 0.000018748605 9.8524957818 - 0.000018669696 10.0935165797 - 0.000018303065 10.6277159321 - 0.000018004508 10.8523897058 - 0.000017719174 10.9922912820 - 0.000017549650 11.0522018433 - 0.000017526899 11.0591645528 - 0.000015267569 11.0272417474 - 0.000015267569 11.0272417474 - 0.000015267569 11.0272417474 - 0.000012723400 10.1049781152 - 0.000010303778 8.7433222976 - 0.000009767249 8.3932551384 - 0.000008211130 7.2965822417 - 0.000008060713 7.1847643802 - 0.000006519575 5.9767248123 - 0.000006519575 5.9767248123 - 0.000006401792 5.8815848096 - 0.000006286537 5.7876166574 - 0.000005222377 4.8859234223 - 0.000005048166 4.7318691493 - 0.000005048166 4.7318691493 - 0.000004802624 4.5108406007 - 0.000004266105 4.0077780375 - 0.000003937668 3.6807776487 - 0.000003937668 3.6807776487 - 0.000003831259 3.5703983323 - 0.000003831259 3.5703983323 - 0.000003595909 3.3150506252 - 0.000003240011 2.8402369281 - 0.000003241228 2.7620092051 - 0.000003241228 2.7620092051 - 0.000003241228 2.7620092051 - 0.000003674035 2.9202350842 - 0.000004574318 3.4418407517 - 0.000004574318 3.4418407517 + 0.000014289445 3.5000609270 + 0.000014256658 3.4912452153 + 0.000014256658 3.4912452153 + 0.000014460458 3.6292789266 + 0.000014660176 3.7685276499 + 0.000015046960 4.0501574944 + 0.000015233843 4.1922835806 + 0.000015416278 4.3351150663 + 0.000015767512 4.6223947368 + 0.000016100153 4.9110118696 + 0.000016100153 4.9110118696 + 0.000016100153 4.9110118696 + 0.000016413798 5.2000087223 + 0.000016607335 5.3876203641 + 0.000016708147 5.4884596408 + 0.000016834250 5.6178460901 + 0.000016848017 5.6322009658 + 0.000016848017 5.6322009658 + 0.000016982992 5.7754753777 + 0.000017188747 6.0034825896 + 0.000017238221 6.0602067845 + 0.000017451129 6.3138446378 + 0.000017473804 6.3418475881 + 0.000017473804 6.3418475881 + 0.000017473804 6.3418475881 + 0.000017689790 6.6196367294 + 0.000017886302 6.8928600096 + 0.000017977313 7.0275493659 + 0.000017977313 7.0275493659 + 0.000018046669 7.1343055246 + 0.000018063531 7.1608512186 + 0.000018221727 7.4229927783 + 0.000018348082 7.6534476646 + 0.000018361196 7.6787159190 + 0.000018380523 7.7164880265 + 0.000018482294 7.9275006386 + 0.000018482294 7.9275006386 + 0.000018546298 8.0732427203 + 0.000018585418 8.1688750017 + 0.000018599363 8.2044151565 + 0.000018612915 8.2397775991 + 0.000018630376 8.2866488054 + 0.000018630376 8.2866488054 + 0.000018671006 8.4024144602 + 0.000018833914 9.1030402368 + 0.000018852563 9.4776786015 + 0.000018840810 9.6558800511 + 0.000018821517 9.7915241618 + 0.000018803322 9.8811845610 + 0.000018728529 10.1252492602 + 0.000018371681 10.6674539588 + 0.000018077603 10.8963263184 + 0.000017795251 11.0393475126 + 0.000017627083 11.1008186415 + 0.000017604495 11.1079767381 + 0.000015347887 11.0849707250 + 0.000015347887 11.0849707250 + 0.000015347887 11.0849707250 + 0.000012791094 10.1582402301 + 0.000010353193 8.7844352834 + 0.000009812279 8.4310494463 + 0.000008243419 7.3241327395 + 0.000008091792 7.2113038235 + 0.000006538866 5.9930810744 + 0.000006538866 5.9930810744 + 0.000006420244 5.8972107602 + 0.000006304180 5.8025344299 + 0.000005233172 4.8948038844 + 0.000005057969 4.7398753486 + 0.000005057969 4.7398753486 + 0.000004811102 4.5176833535 + 0.000004272027 4.0123955338 + 0.000003942282 3.6842736358 + 0.000003942282 3.6842736358 + 0.000003835496 3.5735732037 + 0.000003835496 3.5735732037 + 0.000003599398 3.3175913644 + 0.000003242675 2.8420391637 + 0.000003244002 2.7638398851 + 0.000003244002 2.7638398851 + 0.000003244002 2.7638398851 + 0.000003678356 2.9229817678 + 0.000004582295 3.4468264719 + 0.000004582295 3.4468264719 + 0.000014262595 3.4926971234 + 0.000014262595 3.4926971234 + 0.000014465991 3.6306655202 + 0.000014665260 3.7698327405 + 0.000015051014 4.0512473593 + 0.000015237316 4.1932379699 + 0.000015419124 4.3359142960 + 0.000015768969 4.6228215172 + 0.000016100044 4.9109787084 + 0.000016100044 4.9109787084 + 0.000016100044 4.9109787084 + 0.000016411948 5.1994232911 + 0.000016604261 5.3866245588 + 0.000016704386 5.4872257136 + 0.000016829575 5.6162881389 + 0.000016843239 5.6306057633 + 0.000016843239 5.6306057633 + 0.000016977158 5.7734938439 + 0.000017181144 6.0008303543 + 0.000017230161 6.0573767184 + 0.000017440943 6.3101639880 + 0.000017463375 6.3380673500 + 0.000017463375 6.3380673500 + 0.000017463375 6.3380673500 + 0.000017676862 6.6148050795 + 0.000017870758 6.8868772142 + 0.000017960421 7.0209543644 + 0.000017960421 7.0209543644 + 0.000018028682 7.1272035409 + 0.000018045268 7.1536201292 + 0.000018200656 7.4144198673 + 0.000018324423 7.6435908928 + 0.000018337246 7.6687122541 + 0.000018356135 7.7062624073 + 0.000018455407 7.9159827928 + 0.000018455407 7.9159827928 + 0.000018517630 8.0607789195 + 0.000018555556 8.1557658702 + 0.000018569052 8.1910611090 + 0.000018582154 8.2261770834 + 0.000018599015 8.2727172950 + 0.000018599015 8.2727172950 + 0.000018638143 8.3876439917 + 0.000018791326 9.0824829585 + 0.000018804318 9.4534561860 + 0.000018789756 9.6297498712 + 0.000018768273 9.7638623942 + 0.000018748605 9.8524697552 + 0.000018669696 10.0934861675 + 0.000018303065 10.6276726493 + 0.000018004508 10.8523386127 + 0.000017719174 10.9922336764 + 0.000017549650 11.0521406678 + 0.000017526899 11.0591029123 + 0.000015267569 11.0271441998 + 0.000015267569 11.0271441998 + 0.000015267569 11.0271441998 + 0.000012723400 10.1048562041 + 0.000010303778 8.7431910782 + 0.000009767249 8.3931237584 + 0.000008211130 7.2964545155 + 0.000008060713 7.1846373383 + 0.000006519575 5.9766085991 + 0.000006519575 5.9766085991 + 0.000006401792 5.8814696402 + 0.000006286537 5.7875025577 + 0.000005222377 4.8858210395 + 0.000005048166 4.7317689740 + 0.000005048166 4.7317689740 + 0.000004802624 4.5107436615 + 0.000004266105 4.0076886028 + 0.000003937668 3.6806929824 + 0.000003937668 3.6806929824 + 0.000003831259 3.5703152026 + 0.000003831259 3.5703152026 + 0.000003595909 3.3149707614 + 0.000003240011 2.8401592271 + 0.000003241228 2.7619279121 + 0.000003241228 2.7619279121 + 0.000003241228 2.7619279121 + 0.000003674035 2.9201288612 + 0.000004574318 3.4416862352 + 0.000004574318 3.4416862352 diff --git a/mytest/CO2_Na2SO4.out b/mytest/CO2_Na2SO4.out index 82da92d9..ba9fa29a 100644 --- a/mytest/CO2_Na2SO4.out +++ b/mytest/CO2_Na2SO4.out @@ -250,10 +250,10 @@ CO2(g) 1.71 0.04 -1.67 1.000e+01 2.510e+00 -7.490e+00 pH = 3.483 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 120391 + Specific Conductance (µS/cm, 40°C) = 120314 Density (g/cm³) = 1.11130 Volume (L) = 1.05632 - Viscosity (mPa s) = 1.01856 + Viscosity (mPa s) = 1.01930 Activity of water = 0.947 Ionic strength (mol/kgw) = 2.998e+00 Mass of water (kg) = 9.996e-01 @@ -345,10 +345,10 @@ CO2(g) 1.75 -0.05 -1.79 1.000e+01 4.537e+00 -5.463e+00 pH = 3.587 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 152404 + Specific Conductance (µS/cm, 55°C) = 152195 Density (g/cm³) = 1.10324 Volume (L) = 1.05884 - Viscosity (mPa s) = 0.77440 + Viscosity (mPa s) = 0.77562 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.997e+00 Mass of water (kg) = 9.995e-01 @@ -440,10 +440,10 @@ CO2(g) 1.77 -0.12 -1.89 1.000e+01 5.362e+00 -4.638e+00 pH = 3.700 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 186081 + Specific Conductance (µS/cm, 70°C) = 185672 Density (g/cm³) = 1.09454 Volume (L) = 1.06352 - Viscosity (mPa s) = 0.61507 + Viscosity (mPa s) = 0.61662 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.997e+00 Mass of water (kg) = 9.994e-01 @@ -535,10 +535,10 @@ CO2(g) 1.79 -0.17 -1.97 1.000e+01 5.875e+00 -4.125e+00 pH = 3.819 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 222635 + Specific Conductance (µS/cm, 85°C) = 221940 Density (g/cm³) = 1.08507 Volume (L) = 1.07012 - Viscosity (mPa s) = 0.50475 + Viscosity (mPa s) = 0.50656 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.997e+00 Mass of water (kg) = 9.991e-01 @@ -630,10 +630,10 @@ CO2(g) 1.81 -0.22 -2.02 1.000e+01 6.235e+00 -3.765e+00 pH = 3.942 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 263851 + Specific Conductance (µS/cm, 100°C) = 262754 Density (g/cm³) = 1.07473 Volume (L) = 1.07838 - Viscosity (mPa s) = 0.42497 + Viscosity (mPa s) = 0.42698 Activity of water = 0.955 Ionic strength (mol/kgw) = 2.998e+00 Mass of water (kg) = 9.987e-01 @@ -725,10 +725,10 @@ CO2(g) 1.82 -0.25 -2.07 1.000e+01 6.505e+00 -3.495e+00 pH = 4.069 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 115°C) = 308959 + Specific Conductance (µS/cm, 115°C) = 307318 Density (g/cm³) = 1.05937 Volume (L) = 1.09238 - Viscosity (mPa s) = 0.36203 + Viscosity (mPa s) = 0.36421 Activity of water = 0.956 Ionic strength (mol/kgw) = 2.999e+00 Mass of water (kg) = 9.981e-01 @@ -820,10 +820,10 @@ CO2(g) 1.83 -0.26 -2.10 1.000e+01 6.713e+00 -3.287e+00 pH = 4.196 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 363208 + Specific Conductance (µS/cm, 130°C) = 360807 Density (g/cm³) = 1.04689 Volume (L) = 1.10398 - Viscosity (mPa s) = 0.31614 + Viscosity (mPa s) = 0.31849 Activity of water = 0.958 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 9.973e-01 @@ -915,10 +915,10 @@ CO2(g) 1.84 -0.27 -2.12 1.000e+01 6.877e+00 -3.123e+00 pH = 4.323 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 145°C) = 423438 + Specific Conductance (µS/cm, 145°C) = 420022 Density (g/cm³) = 1.03333 Volume (L) = 1.11711 - Viscosity (mPa s) = 0.27990 + Viscosity (mPa s) = 0.28242 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 9.962e-01 @@ -1010,10 +1010,10 @@ CO2(g) 1.85 -0.28 -2.13 1.000e+01 7.008e+00 -2.992e+00 pH = 4.450 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 487047 + Specific Conductance (µS/cm, 160°C) = 482328 Density (g/cm³) = 1.01861 Volume (L) = 1.13183 - Viscosity (mPa s) = 0.25054 + Viscosity (mPa s) = 0.25324 Activity of water = 0.960 Ionic strength (mol/kgw) = 3.006e+00 Mass of water (kg) = 9.949e-01 @@ -1282,10 +1282,10 @@ CO2(g) 1.71 0.04 -1.67 1.000e+01 2.760e+00 -7.240e+00 pH = 3.423 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 164913 + Specific Conductance (µS/cm, 40°C) = 164815 Density (g/cm³) = 1.20481 Volume (L) = 1.08329 - Viscosity (mPa s) = 1.55977 + Viscosity (mPa s) = 1.56082 Activity of water = 0.918 Ionic strength (mol/kgw) = 5.998e+00 Mass of water (kg) = 9.996e-01 @@ -1377,10 +1377,10 @@ CO2(g) 1.75 -0.05 -1.79 1.000e+01 4.740e+00 -5.260e+00 pH = 3.536 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 213877 + Specific Conductance (µS/cm, 55°C) = 213599 Density (g/cm³) = 1.19761 Volume (L) = 1.08660 - Viscosity (mPa s) = 1.16267 + Viscosity (mPa s) = 1.16439 Activity of water = 0.919 Ionic strength (mol/kgw) = 5.997e+00 Mass of water (kg) = 9.995e-01 @@ -1472,10 +1472,10 @@ CO2(g) 1.77 -0.12 -1.89 1.000e+01 5.535e+00 -4.465e+00 pH = 3.654 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 267185 + Specific Conductance (µS/cm, 70°C) = 266618 Density (g/cm³) = 1.18977 Volume (L) = 1.09146 - Viscosity (mPa s) = 0.90757 + Viscosity (mPa s) = 0.90976 Activity of water = 0.921 Ionic strength (mol/kgw) = 5.997e+00 Mass of water (kg) = 9.993e-01 @@ -1567,10 +1567,10 @@ CO2(g) 1.79 -0.17 -1.97 1.000e+01 6.027e+00 -3.973e+00 pH = 3.776 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 326215 + Specific Conductance (µS/cm, 85°C) = 325216 Density (g/cm³) = 1.18097 Volume (L) = 1.09791 - Viscosity (mPa s) = 0.73381 + Viscosity (mPa s) = 0.73636 Activity of water = 0.923 Ionic strength (mol/kgw) = 5.998e+00 Mass of water (kg) = 9.991e-01 @@ -1662,10 +1662,10 @@ CO2(g) 1.81 -0.22 -2.02 1.000e+01 6.374e+00 -3.626e+00 pH = 3.899 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 392859 + Specific Conductance (µS/cm, 100°C) = 391237 Density (g/cm³) = 1.17100 Volume (L) = 1.10595 - Viscosity (mPa s) = 0.61002 + Viscosity (mPa s) = 0.61287 Activity of water = 0.925 Ionic strength (mol/kgw) = 5.999e+00 Mass of water (kg) = 9.987e-01 @@ -1757,10 +1757,10 @@ CO2(g) 1.82 -0.25 -2.07 1.000e+01 6.634e+00 -3.366e+00 pH = 4.025 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 115°C) = 465646 + Specific Conductance (µS/cm, 115°C) = 463163 Density (g/cm³) = 1.15583 Volume (L) = 1.11934 - Viscosity (mPa s) = 0.51423 + Viscosity (mPa s) = 0.51731 Activity of water = 0.927 Ionic strength (mol/kgw) = 6.002e+00 Mass of water (kg) = 9.981e-01 @@ -1852,10 +1852,10 @@ CO2(g) 1.83 -0.26 -2.10 1.000e+01 6.837e+00 -3.163e+00 pH = 4.149 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 549446 + Specific Conductance (µS/cm, 130°C) = 545768 Density (g/cm³) = 1.14280 Volume (L) = 1.13105 - Viscosity (mPa s) = 0.44475 + Viscosity (mPa s) = 0.44808 Activity of water = 0.929 Ionic strength (mol/kgw) = 6.005e+00 Mass of water (kg) = 9.973e-01 @@ -1947,10 +1947,10 @@ CO2(g) 1.84 -0.27 -2.12 1.000e+01 6.998e+00 -3.002e+00 pH = 4.274 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 145°C) = 638815 + Specific Conductance (µS/cm, 145°C) = 633564 Density (g/cm³) = 1.12801 Volume (L) = 1.14479 - Viscosity (mPa s) = 0.39038 + Viscosity (mPa s) = 0.39395 Activity of water = 0.931 Ionic strength (mol/kgw) = 6.011e+00 Mass of water (kg) = 9.963e-01 @@ -2042,10 +2042,10 @@ CO2(g) 1.85 -0.28 -2.13 1.000e+01 7.128e+00 -2.872e+00 pH = 4.398 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 729428 + Specific Conductance (µS/cm, 160°C) = 722186 Density (g/cm³) = 1.11127 Volume (L) = 1.16080 - Viscosity (mPa s) = 0.34668 + Viscosity (mPa s) = 0.35049 Activity of water = 0.933 Ionic strength (mol/kgw) = 6.018e+00 Mass of water (kg) = 9.949e-01 diff --git a/mytest/CO2_Na2SO4_101.sel b/mytest/CO2_Na2SO4_101.sel index 6687910b..1f6c656b 100644 --- a/mytest/CO2_Na2SO4_101.sel +++ b/mytest/CO2_Na2SO4_101.sel @@ -1,23 +1,23 @@ Mu SC - 2.999999770292 93119.8042921302 - 2.998694532488 89438.5834116792 - 2.997941316568 120391.7745659635 - 2.997359461127 152404.9976596231 - 2.997157826323 186081.8170534195 - 2.997283259039 222635.8529712375 - 2.997808748329 263851.1256276813 - 2.998822573383 308959.6926270390 - 3.000484747824 363208.8185672139 - 3.002940069169 423438.7595182688 - 3.006379869496 487047.1728346138 - 5.999999711766 121656.8165071174 - 5.998778885487 119688.3776587732 - 5.997718411993 164913.3192227797 - 5.997042173468 213877.3993502866 - 5.997101623483 267185.3327947659 - 5.997796377158 326215.3330052549 - 5.999270237401 392859.2353443391 - 6.001706282464 465646.1829604780 - 6.005402799600 549446.0009953419 - 6.010651281101 638815.0063801054 - 6.017823784994 729428.6628331904 + 2.999999770292 93119.8343693511 + 2.998694532488 89438.6116321381 + 2.997941316568 120314.6627157119 + 2.997359461127 152195.5296003687 + 2.997157826323 185672.5865135146 + 2.997283259039 221940.6929960368 + 2.997808748329 262754.1999558107 + 2.998822573383 307318.6366879626 + 3.000484747824 360807.0075512551 + 3.002940069169 420022.9370889236 + 3.006379869496 482328.7852251619 + 5.999999711766 121656.8512513603 + 5.998778885487 119688.4117688603 + 5.997718411993 164815.5317684302 + 5.997042173468 213599.2598541732 + 5.997101623483 266618.6215430516 + 5.997796377158 325216.9693229769 + 5.999270237401 391237.0570595356 + 6.001706282464 463163.9374715379 + 6.005402799600 545768.9354316397 + 6.010651281101 633564.3062439113 + 6.017823784994 722186.5024097650 diff --git a/mytest/CO2_anal_101.sel b/mytest/CO2_anal_101.sel index 3445c14c..3fbab9c0 100644 --- a/mytest/CO2_anal_101.sel +++ b/mytest/CO2_anal_101.sel @@ -1,22 +1,22 @@ Mu SC 0.000000100661 0.0546997340 - 0.000044554556 12.2260178591 - 0.000038702119 15.4640721348 - 0.000032428621 16.5952197272 - 0.000026639075 16.2485135875 - 0.000021648240 15.0135692426 - 0.000017496357 13.3361173071 - 0.000014111938 11.5235480340 - 0.000011391899 9.7745236683 - 0.000009234771 8.2060612691 - 0.000007545658 6.8566130410 - 0.000044554556 12.2260178591 - 0.000038702119 15.4640721348 - 0.000032428621 16.5952197272 - 0.000026639075 16.2485135875 - 0.000021648240 15.0135692426 - 0.000017496357 13.3361173071 - 0.000014111938 11.5235480340 - 0.000011391899 9.7745236683 - 0.000009234771 8.2060612691 - 0.000007545658 6.8566130410 + 0.000044554556 12.2260468491 + 0.000038702119 15.4640688994 + 0.000032428621 16.5951689871 + 0.000026639075 16.2484157060 + 0.000021648240 15.0134341907 + 0.000017496357 13.3359588479 + 0.000014111938 11.5233796905 + 0.000011391899 9.7743564382 + 0.000009234771 8.2059026226 + 0.000007545658 6.8564674552 + 0.000044554556 12.2260468491 + 0.000038702119 15.4640688994 + 0.000032428621 16.5951689871 + 0.000026639075 16.2484157060 + 0.000021648240 15.0134341907 + 0.000017496357 13.3359588479 + 0.000014111938 11.5233796905 + 0.000011391899 9.7743564382 + 0.000009234771 8.2059026226 + 0.000007545658 6.8564674552 diff --git a/mytest/CO2_conc_PR_EQ.out b/mytest/CO2_conc_PR_EQ.out index 61621a47..1ca1b07b 100644 --- a/mytest/CO2_conc_PR_EQ.out +++ b/mytest/CO2_conc_PR_EQ.out @@ -4242,7 +4242,7 @@ CO2(g) 1.28 -0.44 -1.72 1.000e+01 9.625e+00 -3.747e-01 Specific Conductance (µS/cm, 50°C) = 218 Density (g/cm³) = 0.99212 Volume (L) = 1.02456 - Viscosity (mPa s) = 0.55590 + Viscosity (mPa s) = 0.55591 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.486e-04 Mass of water (kg) = 1.000e+00 @@ -4826,7 +4826,7 @@ CO2(g) 1.79 0.02 -1.77 1.000e+01 8.867e+00 -1.133e+00 Specific Conductance (µS/cm, 50°C) = 347 Density (g/cm³) = 1.00182 Volume (L) = 1.04795 - Viscosity (mPa s) = 0.57438 + Viscosity (mPa s) = 0.57439 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.949e-04 Mass of water (kg) = 1.000e+00 @@ -5198,7 +5198,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 0 Density (g/cm³) = 0.99491 Volume (L) = 1.00511 - Viscosity (mPa s) = 0.54982 + Viscosity (mPa s) = 0.54983 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.630e-07 Mass of water (kg) = 1.000e+00 @@ -5556,7 +5556,7 @@ CO2(g) 1.91 0.08 -1.83 1.000e+01 8.693e+00 -1.307e+00 Specific Conductance (µS/cm, 50°C) = 382 Density (g/cm³) = 1.00744 Volume (L) = 1.04969 - Viscosity (mPa s) = 0.58047 + Viscosity (mPa s) = 0.58048 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.934e-04 Mass of water (kg) = 1.000e+00 @@ -5848,7 +5848,7 @@ CO2(g) 1.94 0.09 -1.85 1.000e+01 8.650e+00 -1.350e+00 Specific Conductance (µS/cm, 50°C) = 393 Density (g/cm³) = 1.00946 Volume (L) = 1.04949 - Viscosity (mPa s) = 0.58237 + Viscosity (mPa s) = 0.58238 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.250e-04 Mass of water (kg) = 1.000e+00 @@ -6432,7 +6432,7 @@ CO2(g) 2.01 0.11 -1.90 1.000e+01 8.578e+00 -1.422e+00 Specific Conductance (µS/cm, 50°C) = 416 Density (g/cm³) = 1.01333 Volume (L) = 1.04859 - Viscosity (mPa s) = 0.58589 + Viscosity (mPa s) = 0.58590 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.846e-04 Mass of water (kg) = 1.000e+00 @@ -7308,7 +7308,7 @@ CO2(g) 2.10 0.14 -1.96 1.000e+01 8.493e+00 -1.507e+00 Specific Conductance (µS/cm, 50°C) = 448 Density (g/cm³) = 1.01886 Volume (L) = 1.04657 - Viscosity (mPa s) = 0.59080 + Viscosity (mPa s) = 0.59081 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 1.000e+00 @@ -7600,7 +7600,7 @@ CO2(g) 2.13 0.14 -1.99 1.000e+01 8.469e+00 -1.531e+00 Specific Conductance (µS/cm, 50°C) = 458 Density (g/cm³) = 1.02065 Volume (L) = 1.04579 - Viscosity (mPa s) = 0.59238 + Viscosity (mPa s) = 0.59239 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.097e-03 Mass of water (kg) = 1.000e+00 @@ -8129,7 +8129,7 @@ CO2(g) 1.29 -0.59 -1.88 1.000e+01 9.735e+00 -2.646e-01 Specific Conductance (µS/cm, 75°C) = 218 Density (g/cm³) = 0.97777 Volume (L) = 1.03465 - Viscosity (mPa s) = 0.38094 + Viscosity (mPa s) = 0.38095 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.605e-04 Mass of water (kg) = 1.000e+00 @@ -8567,7 +8567,7 @@ CO2(g) 1.79 -0.13 -1.92 1.000e+01 9.194e+00 -8.057e-01 Specific Conductance (µS/cm, 75°C) = 358 Density (g/cm³) = 0.98447 Volume (L) = 1.05180 - Viscosity (mPa s) = 0.38769 + Viscosity (mPa s) = 0.38770 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.325e-04 Mass of water (kg) = 1.000e+00 @@ -8859,7 +8859,7 @@ CO2(g) 1.90 -0.04 -1.94 1.000e+01 8.992e+00 -1.008e+00 Specific Conductance (µS/cm, 75°C) = 396 Density (g/cm³) = 0.98771 Volume (L) = 1.05737 - Viscosity (mPa s) = 0.39063 + Viscosity (mPa s) = 0.39064 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.153e-04 Mass of water (kg) = 1.000e+00 @@ -9005,7 +9005,7 @@ CO2(g) 1.93 -0.02 -1.95 1.000e+01 8.925e+00 -1.075e+00 Specific Conductance (µS/cm, 75°C) = 409 Density (g/cm³) = 0.98907 Volume (L) = 1.05888 - Viscosity (mPa s) = 0.39179 + Viscosity (mPa s) = 0.39180 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.437e-04 Mass of water (kg) = 1.000e+00 @@ -9151,7 +9151,7 @@ CO2(g) 1.96 -0.00 -1.96 1.000e+01 8.873e+00 -1.127e+00 Specific Conductance (µS/cm, 75°C) = 419 Density (g/cm³) = 0.99032 Volume (L) = 1.05986 - Viscosity (mPa s) = 0.39282 + Viscosity (mPa s) = 0.39283 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.673e-04 Mass of water (kg) = 1.000e+00 @@ -9297,7 +9297,7 @@ CO2(g) 1.99 0.01 -1.97 1.000e+01 8.830e+00 -1.170e+00 Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99150 Volume (L) = 1.06051 - Viscosity (mPa s) = 0.39377 + Viscosity (mPa s) = 0.39378 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.881e-04 Mass of water (kg) = 1.000e+00 @@ -9735,7 +9735,7 @@ CO2(g) 2.05 0.05 -2.01 1.000e+01 8.731e+00 -1.269e+00 Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.99479 Volume (L) = 1.06139 - Viscosity (mPa s) = 0.39636 + Viscosity (mPa s) = 0.39637 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.414e-04 Mass of water (kg) = 1.000e+00 @@ -9881,7 +9881,7 @@ CO2(g) 2.07 0.05 -2.02 1.000e+01 8.703e+00 -1.297e+00 Specific Conductance (µS/cm, 75°C) = 460 Density (g/cm³) = 0.99584 Volume (L) = 1.06148 - Viscosity (mPa s) = 0.39717 + Viscosity (mPa s) = 0.39718 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.575e-04 Mass of water (kg) = 1.000e+00 @@ -10027,7 +10027,7 @@ CO2(g) 2.09 0.06 -2.03 1.000e+01 8.678e+00 -1.322e+00 Specific Conductance (µS/cm, 75°C) = 467 Density (g/cm³) = 0.99687 Volume (L) = 1.06150 - Viscosity (mPa s) = 0.39797 + Viscosity (mPa s) = 0.39798 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.731e-04 Mass of water (kg) = 1.000e+00 @@ -10173,7 +10173,7 @@ CO2(g) 2.11 0.07 -2.04 1.000e+01 8.655e+00 -1.345e+00 Specific Conductance (µS/cm, 75°C) = 474 Density (g/cm³) = 0.99789 Volume (L) = 1.06145 - Viscosity (mPa s) = 0.39875 + Viscosity (mPa s) = 0.39876 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.882e-04 Mass of water (kg) = 1.000e+00 @@ -10319,7 +10319,7 @@ CO2(g) 2.13 0.07 -2.05 1.000e+01 8.632e+00 -1.368e+00 Specific Conductance (µS/cm, 75°C) = 481 Density (g/cm³) = 0.99889 Volume (L) = 1.06137 - Viscosity (mPa s) = 0.39952 + Viscosity (mPa s) = 0.39953 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.030e-04 Mass of water (kg) = 1.000e+00 @@ -10465,7 +10465,7 @@ CO2(g) 2.14 0.08 -2.06 1.000e+01 8.611e+00 -1.389e+00 Specific Conductance (µS/cm, 75°C) = 488 Density (g/cm³) = 0.99988 Volume (L) = 1.06125 - Viscosity (mPa s) = 0.40028 + Viscosity (mPa s) = 0.40029 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.176e-04 Mass of water (kg) = 1.000e+00 @@ -10611,7 +10611,7 @@ CO2(g) 2.16 0.09 -2.07 1.000e+01 8.591e+00 -1.409e+00 Specific Conductance (µS/cm, 75°C) = 494 Density (g/cm³) = 1.00085 Volume (L) = 1.06109 - Viscosity (mPa s) = 0.40103 + Viscosity (mPa s) = 0.40104 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.318e-04 Mass of water (kg) = 1.000e+00 @@ -10757,7 +10757,7 @@ CO2(g) 2.18 0.09 -2.08 1.000e+01 8.572e+00 -1.428e+00 Specific Conductance (µS/cm, 75°C) = 501 Density (g/cm³) = 1.00182 Volume (L) = 1.06090 - Viscosity (mPa s) = 0.40177 + Viscosity (mPa s) = 0.40178 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.458e-04 Mass of water (kg) = 1.000e+00 @@ -10903,7 +10903,7 @@ CO2(g) 2.19 0.10 -2.09 1.000e+01 8.554e+00 -1.446e+00 Specific Conductance (µS/cm, 75°C) = 507 Density (g/cm³) = 1.00278 Volume (L) = 1.06069 - Viscosity (mPa s) = 0.40251 + Viscosity (mPa s) = 0.40252 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.598e-04 Mass of water (kg) = 1.000e+00 @@ -11195,7 +11195,7 @@ CO2(g) 2.22 0.10 -2.12 1.000e+01 8.520e+00 -1.480e+00 Specific Conductance (µS/cm, 75°C) = 519 Density (g/cm³) = 1.00467 Volume (L) = 1.06019 - Viscosity (mPa s) = 0.40397 + Viscosity (mPa s) = 0.40398 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.869e-04 Mass of water (kg) = 1.000e+00 @@ -11341,7 +11341,7 @@ CO2(g) 2.24 0.11 -2.13 1.000e+01 8.504e+00 -1.496e+00 Specific Conductance (µS/cm, 75°C) = 526 Density (g/cm³) = 1.00560 Volume (L) = 1.05992 - Viscosity (mPa s) = 0.40469 + Viscosity (mPa s) = 0.40470 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 @@ -11487,7 +11487,7 @@ CO2(g) 2.25 0.11 -2.14 1.000e+01 8.488e+00 -1.512e+00 Specific Conductance (µS/cm, 75°C) = 532 Density (g/cm³) = 1.00652 Volume (L) = 1.05962 - Viscosity (mPa s) = 0.40541 + Viscosity (mPa s) = 0.40542 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 1.000e+00 @@ -11804,7 +11804,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 2 Density (g/cm³) = 0.95835 Volume (L) = 1.04346 - Viscosity (mPa s) = 0.28158 + Viscosity (mPa s) = 0.28159 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.946e-06 Mass of water (kg) = 1.000e+00 @@ -12162,7 +12162,7 @@ CO2(g) 1.57 -0.44 -2.00 1.000e+01 9.608e+00 -3.922e-01 Specific Conductance (µS/cm, 100°C) = 264 Density (g/cm³) = 0.96280 Volume (L) = 1.05656 - Viscosity (mPa s) = 0.28514 + Viscosity (mPa s) = 0.28515 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.876e-04 Mass of water (kg) = 1.000e+00 @@ -12308,7 +12308,7 @@ CO2(g) 1.71 -0.30 -2.01 1.000e+01 9.448e+00 -5.516e-01 Specific Conductance (µS/cm, 100°C) = 308 Density (g/cm³) = 0.96477 Volume (L) = 1.06168 - Viscosity (mPa s) = 0.28650 + Viscosity (mPa s) = 0.28651 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.596e-04 Mass of water (kg) = 1.000e+00 @@ -12454,7 +12454,7 @@ CO2(g) 1.81 -0.21 -2.02 1.000e+01 9.310e+00 -6.900e-01 Specific Conductance (µS/cm, 100°C) = 340 Density (g/cm³) = 0.96659 Volume (L) = 1.06598 - Viscosity (mPa s) = 0.28774 + Viscosity (mPa s) = 0.28775 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.148e-04 Mass of water (kg) = 1.000e+00 @@ -12746,7 +12746,7 @@ CO2(g) 1.94 -0.10 -2.04 1.000e+01 9.091e+00 -9.086e-01 Specific Conductance (µS/cm, 100°C) = 384 Density (g/cm³) = 0.96985 Volume (L) = 1.07232 - Viscosity (mPa s) = 0.28990 + Viscosity (mPa s) = 0.28991 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.950e-04 Mass of water (kg) = 1.000e+00 @@ -12892,7 +12892,7 @@ CO2(g) 1.99 -0.07 -2.06 1.000e+01 9.007e+00 -9.930e-01 Specific Conductance (µS/cm, 100°C) = 400 Density (g/cm³) = 0.97132 Volume (L) = 1.07453 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29086 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.252e-04 Mass of water (kg) = 1.000e+00 @@ -13038,7 +13038,7 @@ CO2(g) 2.03 -0.04 -2.07 1.000e+01 8.936e+00 -1.064e+00 Specific Conductance (µS/cm, 100°C) = 413 Density (g/cm³) = 0.97269 Volume (L) = 1.07623 - Viscosity (mPa s) = 0.29175 + Viscosity (mPa s) = 0.29176 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.512e-04 Mass of water (kg) = 1.000e+00 @@ -13184,7 +13184,7 @@ CO2(g) 2.06 -0.02 -2.08 1.000e+01 8.875e+00 -1.125e+00 Specific Conductance (µS/cm, 100°C) = 425 Density (g/cm³) = 0.97400 Volume (L) = 1.07754 - Viscosity (mPa s) = 0.29259 + Viscosity (mPa s) = 0.29260 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.740e-04 Mass of water (kg) = 1.000e+00 @@ -13330,7 +13330,7 @@ CO2(g) 2.09 -0.00 -2.09 1.000e+01 8.821e+00 -1.179e+00 Specific Conductance (µS/cm, 100°C) = 436 Density (g/cm³) = 0.97526 Volume (L) = 1.07855 - Viscosity (mPa s) = 0.29340 + Viscosity (mPa s) = 0.29341 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.945e-04 Mass of water (kg) = 1.000e+00 @@ -13476,7 +13476,7 @@ CO2(g) 2.11 0.01 -2.10 1.000e+01 8.774e+00 -1.226e+00 Specific Conductance (µS/cm, 100°C) = 445 Density (g/cm³) = 0.97647 Volume (L) = 1.07933 - Viscosity (mPa s) = 0.29418 + Viscosity (mPa s) = 0.29419 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.134e-04 Mass of water (kg) = 1.000e+00 @@ -13622,7 +13622,7 @@ CO2(g) 2.13 0.02 -2.11 1.000e+01 8.732e+00 -1.268e+00 Specific Conductance (µS/cm, 100°C) = 454 Density (g/cm³) = 0.97765 Volume (L) = 1.07993 - Viscosity (mPa s) = 0.29493 + Viscosity (mPa s) = 0.29494 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.310e-04 Mass of water (kg) = 1.000e+00 @@ -13768,7 +13768,7 @@ CO2(g) 2.16 0.04 -2.12 1.000e+01 8.694e+00 -1.306e+00 Specific Conductance (µS/cm, 100°C) = 463 Density (g/cm³) = 0.97880 Volume (L) = 1.08040 - Viscosity (mPa s) = 0.29567 + Viscosity (mPa s) = 0.29568 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.477e-04 Mass of water (kg) = 1.000e+00 @@ -13914,7 +13914,7 @@ CO2(g) 2.18 0.05 -2.13 1.000e+01 8.658e+00 -1.342e+00 Specific Conductance (µS/cm, 100°C) = 471 Density (g/cm³) = 0.97992 Volume (L) = 1.08075 - Viscosity (mPa s) = 0.29640 + Viscosity (mPa s) = 0.29641 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.636e-04 Mass of water (kg) = 1.000e+00 @@ -14060,7 +14060,7 @@ CO2(g) 2.20 0.05 -2.14 1.000e+01 8.625e+00 -1.375e+00 Specific Conductance (µS/cm, 100°C) = 479 Density (g/cm³) = 0.98103 Volume (L) = 1.08100 - Viscosity (mPa s) = 0.29711 + Viscosity (mPa s) = 0.29712 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.789e-04 Mass of water (kg) = 1.000e+00 @@ -14206,7 +14206,7 @@ CO2(g) 2.22 0.06 -2.15 1.000e+01 8.595e+00 -1.405e+00 Specific Conductance (µS/cm, 100°C) = 486 Density (g/cm³) = 0.98212 Volume (L) = 1.08118 - Viscosity (mPa s) = 0.29782 + Viscosity (mPa s) = 0.29783 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.937e-04 Mass of water (kg) = 1.000e+00 @@ -14352,7 +14352,7 @@ CO2(g) 2.23 0.07 -2.16 1.000e+01 8.566e+00 -1.434e+00 Specific Conductance (µS/cm, 100°C) = 494 Density (g/cm³) = 0.98319 Volume (L) = 1.08131 - Viscosity (mPa s) = 0.29851 + Viscosity (mPa s) = 0.29852 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.081e-04 Mass of water (kg) = 1.000e+00 @@ -14498,7 +14498,7 @@ CO2(g) 2.25 0.08 -2.17 1.000e+01 8.538e+00 -1.462e+00 Specific Conductance (µS/cm, 100°C) = 501 Density (g/cm³) = 0.98425 Volume (L) = 1.08136 - Viscosity (mPa s) = 0.29920 + Viscosity (mPa s) = 0.29921 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.221e-04 Mass of water (kg) = 1.000e+00 @@ -14644,7 +14644,7 @@ CO2(g) 2.27 0.08 -2.18 1.000e+01 8.512e+00 -1.488e+00 Specific Conductance (µS/cm, 100°C) = 508 Density (g/cm³) = 0.98529 Volume (L) = 1.08138 - Viscosity (mPa s) = 0.29988 + Viscosity (mPa s) = 0.29989 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.359e-04 Mass of water (kg) = 1.000e+00 @@ -14790,7 +14790,7 @@ CO2(g) 2.28 0.09 -2.19 1.000e+01 8.487e+00 -1.513e+00 Specific Conductance (µS/cm, 100°C) = 515 Density (g/cm³) = 0.98633 Volume (L) = 1.08136 - Viscosity (mPa s) = 0.30056 + Viscosity (mPa s) = 0.30057 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.494e-04 Mass of water (kg) = 1.000e+00 @@ -14870,7 +14870,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 3 Density (g/cm³) = 0.97729 Volume (L) = 1.02324 - Viscosity (mPa s) = 0.29292 + Viscosity (mPa s) = 0.29293 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.188e-06 Mass of water (kg) = 1.000e+00 @@ -14936,7 +14936,7 @@ CO2(g) 2.30 0.10 -2.20 1.000e+01 8.464e+00 -1.536e+00 Specific Conductance (µS/cm, 100°C) = 521 Density (g/cm³) = 0.98735 Volume (L) = 1.08130 - Viscosity (mPa s) = 0.30123 + Viscosity (mPa s) = 0.30124 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.627e-04 Mass of water (kg) = 1.000e+00 @@ -15082,7 +15082,7 @@ CO2(g) 2.32 0.10 -2.21 1.000e+01 8.441e+00 -1.559e+00 Specific Conductance (µS/cm, 100°C) = 528 Density (g/cm³) = 0.98836 Volume (L) = 1.08119 - Viscosity (mPa s) = 0.30189 + Viscosity (mPa s) = 0.30190 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.757e-04 Mass of water (kg) = 1.000e+00 @@ -15228,7 +15228,7 @@ CO2(g) 2.33 0.11 -2.23 1.000e+01 8.419e+00 -1.581e+00 Specific Conductance (µS/cm, 100°C) = 534 Density (g/cm³) = 0.98937 Volume (L) = 1.08108 - Viscosity (mPa s) = 0.30256 + Viscosity (mPa s) = 0.30257 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.887e-04 Mass of water (kg) = 1.000e+00 @@ -15374,7 +15374,7 @@ CO2(g) 2.35 0.11 -2.24 1.000e+01 8.398e+00 -1.602e+00 Specific Conductance (µS/cm, 100°C) = 541 Density (g/cm³) = 0.99036 Volume (L) = 1.08092 - Viscosity (mPa s) = 0.30321 + Viscosity (mPa s) = 0.30322 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.014e-04 Mass of water (kg) = 1.000e+00 @@ -15520,7 +15520,7 @@ CO2(g) 2.36 0.12 -2.25 1.000e+01 8.378e+00 -1.622e+00 Specific Conductance (µS/cm, 100°C) = 547 Density (g/cm³) = 0.99135 Volume (L) = 1.08075 - Viscosity (mPa s) = 0.30387 + Viscosity (mPa s) = 0.30388 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.140e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/CO2_conc_PR_EQ_101.sel b/mytest/CO2_conc_PR_EQ_101.sel index 98352aec..1c57bb62 100644 --- a/mytest/CO2_conc_PR_EQ_101.sel +++ b/mytest/CO2_conc_PR_EQ_101.sel @@ -1,213 +1,213 @@ Mu SC 0.000000100661 0.0546997340 0.000000100665 0.0547021220 - 0.000130281240 50.3546614509 + 0.000130281240 50.3546615431 0.000000101589 0.0551819022 - 0.000541610367 182.5222929760 + 0.000541610367 182.5222936187 0.000000102522 0.0556660055 - 0.000708420426 217.2492368592 + 0.000708420426 217.2492376984 0.000000103464 0.0561544078 - 0.000802150277 232.0248514655 + 0.000802150277 232.0248523942 0.000000104415 0.0566470872 - 0.000826456976 236.8171357250 + 0.000826456976 236.8171366819 0.000000105375 0.0571440238 - 0.000843798628 240.7926754883 + 0.000843798628 240.7926764684 0.000000106345 0.0576451994 - 0.000860217654 244.6589440164 + 0.000860217654 244.6589450191 0.000000107324 0.0581505973 - 0.000876114172 248.4656850490 + 0.000876114172 248.4656860740 0.000000108312 0.0586602021 - 0.000891635179 252.2324700663 + 0.000891635179 252.2324711135 0.000000109309 0.0591739999 - 0.000906855947 255.9700499166 + 0.000906855947 255.9700509860 0.000000110315 0.0596919777 - 0.000921869751 259.6897416862 + 0.000921869751 259.6897427777 0.000000111331 0.0602141239 - 0.000936720457 263.3973804078 + 0.000936720457 263.3973815215 0.000000112357 0.0607404279 - 0.000951420229 267.0955196063 + 0.000951420229 267.0955207422 0.000000113391 0.0612708801 - 0.000966007403 270.7887303653 + 0.000966007403 270.7887315235 0.000000114435 0.0618054723 - 0.000980534649 274.4823952565 + 0.000980534649 274.4823964372 0.000000115489 0.0623441968 - 0.000994932535 278.1714976813 + 0.000994932535 278.1714988845 0.000000116552 0.0628870472 - 0.001009278447 281.8631739812 + 0.001009278447 281.8631752070 0.000000117624 0.0634340180 - 0.001023633273 285.5627044701 + 0.001023633273 285.5627057188 0.000000118706 0.0639851046 - 0.001037875282 289.2609472849 + 0.001037875282 289.2609485565 0.000000119798 0.0645403033 - 0.001052107513 292.9663904558 + 0.001052107513 292.9663917504 0.000000120899 0.0650996113 - 0.001066393943 296.6840036660 + 0.001066393943 296.6840049839 0.000000122009 0.0656630264 - 0.001080564230 300.4014062440 + 0.001080564230 300.4014075853 0.000000123130 0.0662305477 - 0.001094699017 304.1249842162 + 0.001094699017 304.1249855810 0.000000124260 0.0668021746 - 0.001108909432 307.8628085160 + 0.001108909432 307.8628099046 0.000000125399 0.0673779075 - 0.001123034038 311.6036565562 + 0.001123034038 311.6036579686 0.000000126549 0.0679577475 - 0.001137206446 315.3570089642 + 0.001137206446 315.3570104008 0.000000100661 0.0546997340 - 0.000000323930 0.1969840575 - 0.000106327734 54.8977510132 - 0.000000328530 0.1997448255 - 0.000448608608 218.8115249435 - 0.000000333210 0.2025532308 - 0.000597064886 278.9826059952 - 0.000000337971 0.2054099371 - 0.000691918071 313.1252295017 - 0.000000342815 0.2083156203 - 0.000754992829 334.1953832062 - 0.000000347743 0.2112709689 - 0.000794890252 347.2837584995 - 0.000000352755 0.2142766832 - 0.000820394271 355.9739028751 - 0.000000357854 0.2173334757 - 0.000840949404 363.2040882415 - 0.000000363039 0.2204420709 - 0.000859467376 369.8341631002 - 0.000000368314 0.2236032055 - 0.000876805958 376.1176910437 - 0.000000373678 0.2268176286 - 0.000893387788 382.1784355555 - 0.000000379133 0.2300861013 - 0.000909423353 388.0787506357 - 0.000000384681 0.2334093972 - 0.000925021530 393.8520437179 - 0.000000390323 0.2367883025 - 0.000940284265 399.5280251460 - 0.000000396060 0.2402236157 - 0.000955307651 405.1333621723 - 0.000000401894 0.2437161481 - 0.000970049738 410.6606327120 - 0.000000407826 0.2472667237 - 0.000984612269 416.1363752883 - 0.000000413857 0.2508761795 - 0.000999073183 421.5803921130 - 0.000000419990 0.2545453654 - 0.001013322197 426.9684047898 - 0.000000426225 0.2582751442 - 0.001027473734 432.3281794457 - 0.000000432564 0.2620663922 - 0.001041599481 437.6767451773 - 0.000000439009 0.2659199989 - 0.001055536302 442.9780814027 - 0.000000445561 0.2698368671 - 0.001069370632 448.2526550714 - 0.000000452222 0.2738179133 - 0.001083216884 453.5263165155 - 0.000000458994 0.2778640677 - 0.001096919630 458.7653584668 - 0.000000465877 0.2819762740 - 0.001110613862 463.9998074784 + 0.000000323930 0.1969840480 + 0.000106327734 54.8974227836 + 0.000000328530 0.1997448160 + 0.000448608608 218.8088894871 + 0.000000333210 0.2025532212 + 0.000597064886 278.9787898837 + 0.000000337971 0.2054099274 + 0.000691918071 313.1206736813 + 0.000000342815 0.2083156106 + 0.000754992829 334.1903474489 + 0.000000347743 0.2112709591 + 0.000794890252 347.2784180869 + 0.000000352755 0.2142766733 + 0.000820394271 355.9683597087 + 0.000000357854 0.2173334657 + 0.000840949404 363.1983761182 + 0.000000363039 0.2204420608 + 0.000859467376 369.8282954518 + 0.000000368314 0.2236031954 + 0.000876805958 376.1116753288 + 0.000000373678 0.2268176184 + 0.000893387788 382.1722763136 + 0.000000379133 0.2300860910 + 0.000909423353 388.0724509521 + 0.000000384681 0.2334093868 + 0.000925021530 393.8456059196 + 0.000000390323 0.2367882920 + 0.000940284265 399.5214508653 + 0.000000396060 0.2402236051 + 0.000955307651 405.1266523994 + 0.000000401894 0.2437161374 + 0.000970049738 410.6537886882 + 0.000000407826 0.2472667130 + 0.000984612269 416.1293975896 + 0.000000413857 0.2508761687 + 0.000999073183 421.5732808112 + 0.000000419990 0.2545453545 + 0.001013322197 426.9611606496 + 0.000000426225 0.2582751332 + 0.001027473734 432.3208025001 + 0.000000432564 0.2620663812 + 0.001041599481 437.6692350054 + 0.000000439009 0.2659199877 + 0.001055536302 442.9704386073 + 0.000000445561 0.2698368559 + 0.001069370632 448.2448797075 + 0.000000452222 0.2738179020 + 0.001083216884 453.5184079211 + 0.000000458994 0.2778640563 + 0.001096919630 458.7573169511 + 0.000000465877 0.2819762625 + 0.001110613862 463.9916325073 0.000000100661 0.0546997340 - 0.000001077758 0.7762710390 - 0.000084566271 52.7059144515 - 0.000001094463 0.7883664944 - 0.000360538825 218.1816271819 - 0.000001111519 0.8007123139 - 0.000485621108 286.2730118208 - 0.000001128932 0.8133126104 - 0.000570448094 329.1738192423 - 0.000001146707 0.8261715860 - 0.000632547062 358.8526342438 - 0.000001164850 0.8392935330 - 0.000679382542 380.3806014729 - 0.000001183369 0.8526828354 - 0.000715261117 396.5244399830 - 0.000001202268 0.8663439703 - 0.000743685200 409.2273004701 - 0.000001221555 0.8802815089 - 0.000767345086 419.8188148528 - 0.000001241236 0.8945001174 - 0.000788072638 429.1388016025 - 0.000001261317 0.9090045584 - 0.000806975362 437.6734986231 - 0.000001281806 0.9237996921 - 0.000824645723 445.6795992397 - 0.000001302710 0.9388904771 - 0.000841410017 453.2986657379 - 0.000001324036 0.9542819723 - 0.000857502472 460.6300152361 - 0.000001345790 0.9699793376 - 0.000873102583 467.7477052191 - 0.000001367981 0.9859878357 - 0.000888224585 474.6640164021 - 0.000001390616 1.0023128330 - 0.000903009184 481.4341109095 - 0.000001413704 1.0189598018 - 0.000917560583 488.0980440861 - 0.000001437251 1.0359343211 - 0.000931793017 494.6298324333 - 0.000001461266 1.0532420785 - 0.000945834043 501.0759061349 - 0.000001485757 1.0708888717 - 0.000959764717 507.4653760999 - 0.000001510733 1.0888806103 - 0.000973439425 513.7517610747 - 0.000001536203 1.1072233176 - 0.000986949522 519.9673949519 - 0.000001562174 1.1259231322 - 0.001000409992 526.1510395292 - 0.000001588657 1.1449863099 - 0.001013679621 532.2581238282 - 0.000001615660 1.1644192259 - 0.001026890435 538.3322671352 + 0.000001077758 0.7762709873 + 0.000084566271 52.7052718010 + 0.000001094463 0.7883664423 + 0.000360538825 218.1761708113 + 0.000001111519 0.8007122614 + 0.000485621108 286.2647673815 + 0.000001128932 0.8133125575 + 0.000570448094 329.1636114758 + 0.000001146707 0.8261715327 + 0.000632547062 358.8409785533 + 0.000001164850 0.8392934792 + 0.000679382542 380.3678521685 + 0.000001183369 0.8526827812 + 0.000715261117 396.5108493449 + 0.000001202268 0.8663439158 + 0.000743685200 409.2130372282 + 0.000001221555 0.8802814539 + 0.000767345086 419.8039849389 + 0.000001241236 0.8945000620 + 0.000788072638 429.1234690728 + 0.000001261317 0.9090045026 + 0.000806975362 437.6577025772 + 0.000001281806 0.9237996358 + 0.000824645723 445.6633655169 + 0.000001302710 0.9388904204 + 0.000841410017 453.2820129007 + 0.000001324036 0.9542819151 + 0.000857502472 460.6129566690 + 0.000001345790 0.9699792800 + 0.000873102583 467.7302503758 + 0.000001367981 0.9859877775 + 0.000888224585 474.6461743729 + 0.000001390616 1.0023127745 + 0.000903009184 481.4158877463 + 0.000001413704 1.0189597428 + 0.000917560583 488.0794436080 + 0.000001437251 1.0359342616 + 0.000931793017 494.6108602601 + 0.000001461266 1.0532420185 + 0.000945834043 501.0565651765 + 0.000001485757 1.0708888112 + 0.000959764717 507.4456675577 + 0.000001510733 1.0888805493 + 0.000973439425 513.7316892134 + 0.000001536203 1.1072232561 + 0.000986949522 519.9469621114 + 0.000001562174 1.1259230702 + 0.001000409992 526.1302456433 + 0.000001588657 1.1449862474 + 0.001013679621 532.2369717939 + 0.000001615660 1.1644191629 + 0.001026890435 538.3107570931 0.000000100661 0.0546997340 - 0.000002945588 2.4666415128 - 0.000066422611 46.5279243280 - 0.000002992968 2.5061346848 - 0.000285206078 198.2928421115 - 0.000003041397 2.5464880824 - 0.000387562188 264.3251706974 - 0.000003090893 2.5877164562 - 0.000459588725 308.1775178163 - 0.000003141474 2.6298349088 - 0.000514805642 340.2034400137 - 0.000003193160 2.6728588999 - 0.000558908423 364.8002198181 - 0.000003245970 2.7168042512 - 0.000594976778 384.3239467823 - 0.000003299925 2.7616871508 - 0.000625247094 400.3604254444 - 0.000003355045 2.8075241585 - 0.000651215987 413.9211250952 - 0.000003411351 2.8543322102 - 0.000674015404 425.7195803731 - 0.000003468865 2.9021286230 - 0.000694544631 436.2826487181 - 0.000003527609 2.9509311009 - 0.000713409532 445.9538024388 - 0.000003587606 3.0007577399 - 0.000731009956 454.9556822291 - 0.000003648879 3.0516270341 - 0.000747654877 463.4537673823 - 0.000003711451 3.1035578815 - 0.000763583054 471.5716153034 - 0.000003775347 3.1565695906 - 0.000778857336 479.3510795538 - 0.000003840591 3.2106818866 - 0.000793651232 486.8766524337 - 0.000003907209 3.2659149187 - 0.000808091900 494.2090354803 - 0.000003975226 3.3222892669 - 0.000822120333 501.3310669291 - 0.000004044670 3.3798259498 - 0.000835874207 508.3040936539 - 0.000004115566 3.4385464321 - 0.000849442213 515.1672334315 - 0.000004187944 3.4984726330 - 0.000862700102 521.8755567007 - 0.000004261830 3.5596269345 - 0.000875742020 528.4694833710 - 0.000004337253 3.6220321899 - 0.000888680915 534.9946831518 - 0.000004414244 3.6857117336 - 0.000901393173 541.4065216277 - 0.000004492833 3.7506893897 - 0.000914004827 547.7544741438 + 0.000002945588 2.4666413363 + 0.000066422611 46.5270800880 + 0.000002992968 2.5061345069 + 0.000285206078 198.2853324362 + 0.000003041397 2.5464879032 + 0.000387562188 264.3135524187 + 0.000003090893 2.5877162757 + 0.000459588725 308.1628291903 + 0.000003141474 2.6298347269 + 0.000514805642 340.1863435005 + 0.000003193160 2.6728587167 + 0.000558908423 364.7811818411 + 0.000003245970 2.7168040665 + 0.000594976778 384.3033131976 + 0.000003299925 2.7616869648 + 0.000625247094 400.3384473149 + 0.000003355045 2.8075239710 + 0.000651215987 413.8979880310 + 0.000003411351 2.8543320212 + 0.000674015404 425.6954200470 + 0.000003468865 2.9021284326 + 0.000694544631 436.2575613312 + 0.000003527609 2.9509309090 + 0.000713409532 445.9278577168 + 0.000003587606 3.0007575465 + 0.000731009956 454.9289324902 + 0.000003648879 3.0516268391 + 0.000747654877 463.4262516129 + 0.000003711451 3.1035576850 + 0.000763583054 471.5433622809 + 0.000003775347 3.1565693925 + 0.000778857336 479.3221152499 + 0.000003840591 3.2106816870 + 0.000793651232 486.8469955100 + 0.000003907209 3.2659147174 + 0.000808091900 494.1786992848 + 0.000003975226 3.3222890640 + 0.000822120333 501.3000671569 + 0.000004044670 3.3798257453 + 0.000835874207 508.2724403173 + 0.000004115566 3.4385462260 + 0.000849442213 515.1349329135 + 0.000004187944 3.4984724252 + 0.000862700102 521.8426204048 + 0.000004261830 3.5596267250 + 0.000875742020 528.4359188571 + 0.000004337253 3.6220319787 + 0.000888680915 534.9604934209 + 0.000004414244 3.6857115206 + 0.000901393173 541.3717146593 + 0.000004492833 3.7506891750 + 0.000914004827 547.7190528525 diff --git a/mytest/CO2_conc_PR_GP.out b/mytest/CO2_conc_PR_GP.out index f644181a..bf08c50c 100644 --- a/mytest/CO2_conc_PR_GP.out +++ b/mytest/CO2_conc_PR_GP.out @@ -2826,7 +2826,7 @@ H2O(g) -0.79 1.615e-01 0.761 5.717e-03 7.178e-03 1.461e-03 Specific Conductance (µS/cm, 50°C) = 258 Density (g/cm³) = 0.99409 Volume (L) = 1.03007 - Viscosity (mPa s) = 0.56004 + Viscosity (mPa s) = 0.56005 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.432e-04 Mass of water (kg) = 9.999e-01 @@ -2920,7 +2920,7 @@ H2O(g) -0.73 1.861e-01 0.665 7.178e-03 9.044e-03 1.866e-03 Specific Conductance (µS/cm, 50°C) = 290 Density (g/cm³) = 0.99620 Volume (L) = 1.03584 - Viscosity (mPa s) = 0.56435 + Viscosity (mPa s) = 0.56436 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.276e-04 Mass of water (kg) = 9.998e-01 @@ -3108,7 +3108,7 @@ H2O(g) -0.61 2.437e-01 0.514 1.139e-02 1.427e-02 2.881e-03 Specific Conductance (µS/cm, 50°C) = 322 Density (g/cm³) = 0.99898 Volume (L) = 1.04261 - Viscosity (mPa s) = 0.56970 + Viscosity (mPa s) = 0.56971 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.202e-04 Mass of water (kg) = 9.997e-01 @@ -3202,7 +3202,7 @@ H2O(g) -0.56 2.762e-01 0.456 1.427e-02 1.774e-02 3.477e-03 Specific Conductance (µS/cm, 50°C) = 331 Density (g/cm³) = 0.99985 Volume (L) = 1.04438 - Viscosity (mPa s) = 0.57125 + Viscosity (mPa s) = 0.57126 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.453e-04 Mass of water (kg) = 9.997e-01 @@ -3296,7 +3296,7 @@ H2O(g) -0.51 3.107e-01 0.407 1.774e-02 2.186e-02 4.119e-03 Specific Conductance (µS/cm, 50°C) = 336 Density (g/cm³) = 1.00049 Volume (L) = 1.04551 - Viscosity (mPa s) = 0.57233 + Viscosity (mPa s) = 0.57234 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.626e-04 Mass of water (kg) = 9.996e-01 @@ -3484,7 +3484,7 @@ H2O(g) -0.41 3.869e-01 0.329 2.666e-02 3.217e-02 5.510e-03 Specific Conductance (µS/cm, 50°C) = 343 Density (g/cm³) = 1.00135 Volume (L) = 1.04665 - Viscosity (mPa s) = 0.57367 + Viscosity (mPa s) = 0.57368 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.838e-04 Mass of water (kg) = 9.994e-01 @@ -3672,7 +3672,7 @@ H2O(g) -0.32 4.775e-01 0.268 3.841e-02 4.540e-02 6.987e-03 Specific Conductance (µS/cm, 50°C) = 348 Density (g/cm³) = 1.00199 Volume (L) = 1.04712 - Viscosity (mPa s) = 0.57455 + Viscosity (mPa s) = 0.57456 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.977e-04 Mass of water (kg) = 9.992e-01 @@ -3954,7 +3954,7 @@ H2O(g) -0.17 6.730e-01 0.192 6.160e-02 7.077e-02 9.169e-03 Specific Conductance (µS/cm, 50°C) = 356 Density (g/cm³) = 1.00313 Volume (L) = 1.04741 - Viscosity (mPa s) = 0.57594 + Viscosity (mPa s) = 0.57595 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.198e-04 Mass of water (kg) = 9.987e-01 @@ -4236,7 +4236,7 @@ H2O(g) 0.01 1.031e+00 0.129 9.102e-02 1.020e-01 1.094e-02 Specific Conductance (µS/cm, 50°C) = 368 Density (g/cm³) = 1.00524 Volume (L) = 1.04738 - Viscosity (mPa s) = 0.57818 + Viscosity (mPa s) = 0.57819 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.561e-04 Mass of water (kg) = 9.981e-01 @@ -4330,7 +4330,7 @@ H2O(g) 0.08 1.215e+00 0.111 1.020e-01 1.133e-01 1.134e-02 Specific Conductance (µS/cm, 50°C) = 375 Density (g/cm³) = 1.00631 Volume (L) = 1.04724 - Viscosity (mPa s) = 0.57924 + Viscosity (mPa s) = 0.57925 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.735e-04 Mass of water (kg) = 9.979e-01 @@ -4915,7 +4915,7 @@ H2O(g) 0.57 3.696e+00 0.044 1.702e-01 1.801e-01 9.820e-03 Specific Conductance (µS/cm, 50°C) = 453 Density (g/cm³) = 1.01986 Volume (L) = 1.04226 - Viscosity (mPa s) = 0.59149 + Viscosity (mPa s) = 0.59150 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.082e-03 Mass of water (kg) = 9.967e-01 @@ -5385,7 +5385,7 @@ H2O(g) -0.24 5.707e-01 0.679 2.026e-02 2.494e-02 4.679e-03 Specific Conductance (µS/cm, 75°C) = 317 Density (g/cm³) = 0.98185 Volume (L) = 1.04514 - Viscosity (mPa s) = 0.38513 + Viscosity (mPa s) = 0.38514 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.462e-04 Mass of water (kg) = 9.995e-01 @@ -5479,7 +5479,7 @@ H2O(g) -0.19 6.497e-01 0.601 2.494e-02 3.056e-02 5.615e-03 Specific Conductance (µS/cm, 75°C) = 342 Density (g/cm³) = 0.98339 Volume (L) = 1.04871 - Viscosity (mPa s) = 0.38664 + Viscosity (mPa s) = 0.38665 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.986e-04 Mass of water (kg) = 9.994e-01 @@ -5761,7 +5761,7 @@ H2O(g) -0.03 9.337e-01 0.426 4.488e-02 5.370e-02 8.815e-03 Specific Conductance (µS/cm, 75°C) = 383 Density (g/cm³) = 0.98654 Volume (L) = 1.05442 - Viscosity (mPa s) = 0.38958 + Viscosity (mPa s) = 0.38959 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.867e-04 Mass of water (kg) = 9.990e-01 @@ -5855,7 +5855,7 @@ H2O(g) 0.02 1.046e+00 0.383 5.370e-02 6.365e-02 9.958e-03 Specific Conductance (µS/cm, 75°C) = 391 Density (g/cm³) = 0.98730 Volume (L) = 1.05534 - Viscosity (mPa s) = 0.39025 + Viscosity (mPa s) = 0.39026 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.045e-04 Mass of water (kg) = 9.988e-01 @@ -6043,7 +6043,7 @@ H2O(g) 0.12 1.308e+00 0.310 7.477e-02 8.703e-02 1.226e-02 Specific Conductance (µS/cm, 75°C) = 404 Density (g/cm³) = 0.98864 Volume (L) = 1.05647 - Viscosity (mPa s) = 0.39140 + Viscosity (mPa s) = 0.39141 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.333e-04 Mass of water (kg) = 9.984e-01 @@ -6137,7 +6137,7 @@ H2O(g) 0.17 1.463e+00 0.278 8.703e-02 1.004e-01 1.338e-02 Specific Conductance (µS/cm, 75°C) = 410 Density (g/cm³) = 0.98930 Volume (L) = 1.05681 - Viscosity (mPa s) = 0.39195 + Viscosity (mPa s) = 0.39196 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.462e-04 Mass of water (kg) = 9.982e-01 @@ -6231,7 +6231,7 @@ H2O(g) 0.21 1.640e+00 0.250 1.004e-01 1.149e-01 1.446e-02 Specific Conductance (µS/cm, 75°C) = 416 Density (g/cm³) = 0.98999 Volume (L) = 1.05704 - Viscosity (mPa s) = 0.39252 + Viscosity (mPa s) = 0.39253 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.592e-04 Mass of water (kg) = 9.979e-01 @@ -6419,7 +6419,7 @@ H2O(g) 0.32 2.085e+00 0.200 1.303e-01 1.467e-01 1.639e-02 Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99159 Volume (L) = 1.05726 - Viscosity (mPa s) = 0.39380 + Viscosity (mPa s) = 0.39381 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.871e-04 Mass of water (kg) = 9.973e-01 @@ -6607,7 +6607,7 @@ H2O(g) 0.43 2.704e+00 0.158 1.639e-01 1.818e-01 1.784e-02 Specific Conductance (µS/cm, 75°C) = 444 Density (g/cm³) = 0.99369 Volume (L) = 1.05716 - Viscosity (mPa s) = 0.39544 + Viscosity (mPa s) = 0.39545 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.210e-04 Mass of water (kg) = 9.967e-01 @@ -6701,7 +6701,7 @@ H2O(g) 0.49 3.103e+00 0.140 1.818e-01 2.001e-01 1.830e-02 Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.99500 Volume (L) = 1.05696 - Viscosity (mPa s) = 0.39646 + Viscosity (mPa s) = 0.39647 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.413e-04 Mass of water (kg) = 9.964e-01 @@ -6983,7 +6983,7 @@ H2O(g) 0.68 4.819e+00 0.096 2.371e-01 2.553e-01 1.819e-02 Specific Conductance (µS/cm, 75°C) = 491 Density (g/cm³) = 1.00048 Volume (L) = 1.05549 - Viscosity (mPa s) = 0.40067 + Viscosity (mPa s) = 0.40068 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.224e-04 Mass of water (kg) = 9.954e-01 @@ -7077,7 +7077,7 @@ H2O(g) 0.75 5.616e+00 0.085 2.553e-01 2.728e-01 1.752e-02 Specific Conductance (µS/cm, 75°C) = 507 Density (g/cm³) = 1.00298 Volume (L) = 1.05459 - Viscosity (mPa s) = 0.40259 + Viscosity (mPa s) = 0.40260 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.585e-04 Mass of water (kg) = 9.951e-01 @@ -7178,7 +7178,7 @@ H2O(g) 0.82 6.552e+00 0.076 2.728e-01 2.893e-01 1.646e-02 Specific Conductance (µS/cm, 75°C) = 527 Density (g/cm³) = 1.00591 Volume (L) = 1.05341 - Viscosity (mPa s) = 0.40486 + Viscosity (mPa s) = 0.40487 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.001e-03 Mass of water (kg) = 9.948e-01 @@ -7380,7 +7380,7 @@ H2O(g) 0.95 8.913e+00 0.062 3.042e-01 3.172e-01 1.297e-02 Specific Conductance (µS/cm, 75°C) = 577 Density (g/cm³) = 1.01339 Volume (L) = 1.04992 - Viscosity (mPa s) = 0.41073 + Viscosity (mPa s) = 0.41074 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.108e-03 Mass of water (kg) = 9.943e-01 @@ -7481,7 +7481,7 @@ H2O(g) 1.02 1.037e+01 0.057 3.172e-01 3.276e-01 1.043e-02 Specific Conductance (µS/cm, 75°C) = 608 Density (g/cm³) = 1.01812 Volume (L) = 1.04745 - Viscosity (mPa s) = 0.41454 + Viscosity (mPa s) = 0.41455 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.177e-03 Mass of water (kg) = 9.941e-01 @@ -7745,7 +7745,7 @@ H2O(g) 0.11 1.294e+00 0.779 3.984e-02 4.816e-02 8.320e-03 Specific Conductance (µS/cm, 100°C) = 268 Density (g/cm³) = 0.96303 Volume (L) = 1.05598 - Viscosity (mPa s) = 0.28529 + Viscosity (mPa s) = 0.28530 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.941e-04 Mass of water (kg) = 9.991e-01 @@ -7933,7 +7933,7 @@ H2O(g) 0.22 1.653e+00 0.621 5.795e-02 6.931e-02 1.136e-02 Specific Conductance (µS/cm, 100°C) = 337 Density (g/cm³) = 0.96649 Volume (L) = 1.06404 - Viscosity (mPa s) = 0.28766 + Viscosity (mPa s) = 0.28767 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.093e-04 Mass of water (kg) = 9.987e-01 @@ -8215,7 +8215,7 @@ H2O(g) 0.37 2.333e+00 0.451 9.701e-02 1.134e-01 1.641e-02 Specific Conductance (µS/cm, 100°C) = 387 Density (g/cm³) = 0.97021 Volume (L) = 1.07015 - Viscosity (mPa s) = 0.29012 + Viscosity (mPa s) = 0.29013 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.997e-04 Mass of water (kg) = 9.979e-01 @@ -8309,7 +8309,7 @@ H2O(g) 0.42 2.605e+00 0.407 1.134e-01 1.315e-01 1.811e-02 Specific Conductance (µS/cm, 100°C) = 398 Density (g/cm³) = 0.97124 Volume (L) = 1.07126 - Viscosity (mPa s) = 0.29079 + Viscosity (mPa s) = 0.29080 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.205e-04 Mass of water (kg) = 9.976e-01 @@ -8400,10 +8400,10 @@ H2O(g) 0.46 2.906e+00 0.368 1.315e-01 1.513e-01 1.977e-02 pH = 3.210 Charge balance pe = 1.837 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 408 + Specific Conductance (µS/cm, 100°C) = 407 Density (g/cm³) = 0.97222 Volume (L) = 1.07208 - Viscosity (mPa s) = 0.29143 + Viscosity (mPa s) = 0.29144 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.392e-04 Mass of water (kg) = 9.973e-01 @@ -8497,7 +8497,7 @@ H2O(g) 0.51 3.242e+00 0.332 1.513e-01 1.727e-01 2.137e-02 Specific Conductance (µS/cm, 100°C) = 417 Density (g/cm³) = 0.97320 Volume (L) = 1.07268 - Viscosity (mPa s) = 0.29206 + Viscosity (mPa s) = 0.29207 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.566e-04 Mass of water (kg) = 9.969e-01 @@ -8685,7 +8685,7 @@ H2O(g) 0.61 4.045e+00 0.271 1.955e-01 2.198e-01 2.424e-02 Specific Conductance (µS/cm, 100°C) = 434 Density (g/cm³) = 0.97525 Volume (L) = 1.07339 - Viscosity (mPa s) = 0.29338 + Viscosity (mPa s) = 0.29339 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.903e-04 Mass of water (kg) = 9.960e-01 @@ -8779,7 +8779,7 @@ H2O(g) 0.66 4.530e+00 0.245 2.198e-01 2.452e-01 2.545e-02 Specific Conductance (µS/cm, 100°C) = 443 Density (g/cm³) = 0.97639 Volume (L) = 1.07355 - Viscosity (mPa s) = 0.29411 + Viscosity (mPa s) = 0.29412 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.077e-04 Mass of water (kg) = 9.956e-01 @@ -8873,7 +8873,7 @@ H2O(g) 0.71 5.087e+00 0.221 2.452e-01 2.717e-01 2.646e-02 Specific Conductance (µS/cm, 100°C) = 453 Density (g/cm³) = 0.97763 Volume (L) = 1.07359 - Viscosity (mPa s) = 0.29491 + Viscosity (mPa s) = 0.29492 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.261e-04 Mass of water (kg) = 9.951e-01 @@ -8967,7 +8967,7 @@ H2O(g) 0.76 5.727e+00 0.199 2.717e-01 2.989e-01 2.722e-02 Specific Conductance (µS/cm, 100°C) = 463 Density (g/cm³) = 0.97903 Volume (L) = 1.07352 - Viscosity (mPa s) = 0.29580 + Viscosity (mPa s) = 0.29581 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.459e-04 Mass of water (kg) = 9.946e-01 @@ -9061,7 +9061,7 @@ H2O(g) 0.81 6.466e+00 0.179 2.989e-01 3.266e-01 2.770e-02 Specific Conductance (µS/cm, 100°C) = 474 Density (g/cm³) = 0.98059 Volume (L) = 1.07333 - Viscosity (mPa s) = 0.29681 + Viscosity (mPa s) = 0.29682 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.676e-04 Mass of water (kg) = 9.941e-01 @@ -9155,7 +9155,7 @@ H2O(g) 0.86 7.319e+00 0.161 3.266e-01 3.544e-01 2.783e-02 Specific Conductance (µS/cm, 100°C) = 486 Density (g/cm³) = 0.98238 Volume (L) = 1.07300 - Viscosity (mPa s) = 0.29797 + Viscosity (mPa s) = 0.29798 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.916e-04 Mass of water (kg) = 9.936e-01 @@ -9249,7 +9249,7 @@ H2O(g) 0.92 8.305e+00 0.145 3.544e-01 3.820e-01 2.758e-02 Specific Conductance (µS/cm, 100°C) = 500 Density (g/cm³) = 0.98441 Volume (L) = 1.07253 - Viscosity (mPa s) = 0.29929 + Viscosity (mPa s) = 0.29930 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.184e-04 Mass of water (kg) = 9.931e-01 @@ -9343,7 +9343,7 @@ H2O(g) 0.98 9.442e+00 0.131 3.820e-01 4.089e-01 2.690e-02 Specific Conductance (µS/cm, 100°C) = 516 Density (g/cm³) = 0.98675 Volume (L) = 1.07187 - Viscosity (mPa s) = 0.30081 + Viscosity (mPa s) = 0.30082 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.487e-04 Mass of water (kg) = 9.926e-01 @@ -9437,7 +9437,7 @@ H2O(g) 1.03 1.075e+01 0.119 4.089e-01 4.347e-01 2.572e-02 Specific Conductance (µS/cm, 100°C) = 533 Density (g/cm³) = 0.98943 Volume (L) = 1.07102 - Viscosity (mPa s) = 0.30257 + Viscosity (mPa s) = 0.30259 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.829e-04 Mass of water (kg) = 9.922e-01 @@ -9538,7 +9538,7 @@ H2O(g) 1.09 1.225e+01 0.108 4.347e-01 4.587e-01 2.401e-02 Specific Conductance (µS/cm, 100°C) = 553 Density (g/cm³) = 0.99250 Volume (L) = 1.06991 - Viscosity (mPa s) = 0.30462 + Viscosity (mPa s) = 0.30463 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.220e-04 Mass of water (kg) = 9.917e-01 @@ -9639,7 +9639,7 @@ H2O(g) 1.14 1.395e+01 0.099 4.587e-01 4.804e-01 2.170e-02 Specific Conductance (µS/cm, 100°C) = 576 Density (g/cm³) = 0.99605 Volume (L) = 1.06852 - Viscosity (mPa s) = 0.30701 + Viscosity (mPa s) = 0.30702 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.668e-04 Mass of water (kg) = 9.913e-01 @@ -9740,7 +9740,7 @@ H2O(g) 1.20 1.588e+01 0.091 4.804e-01 4.991e-01 1.875e-02 Specific Conductance (µS/cm, 100°C) = 602 Density (g/cm³) = 1.00012 Volume (L) = 1.06679 - Viscosity (mPa s) = 0.30979 + Viscosity (mPa s) = 0.30980 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.018e-03 Mass of water (kg) = 9.910e-01 @@ -9841,7 +9841,7 @@ H2O(g) 1.26 1.804e+01 0.085 4.991e-01 5.142e-01 1.511e-02 Specific Conductance (µS/cm, 100°C) = 632 Density (g/cm³) = 1.00480 Volume (L) = 1.06465 - Viscosity (mPa s) = 0.31306 + Viscosity (mPa s) = 0.31307 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.078e-03 Mass of water (kg) = 9.907e-01 @@ -9942,7 +9942,7 @@ H2O(g) 1.31 2.044e+01 0.081 5.142e-01 5.250e-01 1.075e-02 Specific Conductance (µS/cm, 100°C) = 666 Density (g/cm³) = 1.01017 Volume (L) = 1.06205 - Viscosity (mPa s) = 0.31688 + Viscosity (mPa s) = 0.31689 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.147e-03 Mass of water (kg) = 9.905e-01 diff --git a/mytest/CO2_conc_PR_GP1.out b/mytest/CO2_conc_PR_GP1.out index 519dc05b..88d30ac2 100644 --- a/mytest/CO2_conc_PR_GP1.out +++ b/mytest/CO2_conc_PR_GP1.out @@ -2705,7 +2705,7 @@ H2O(g) -0.73 1.859e-01 0.665 7.171e-03 9.030e-03 1.858e-03 Specific Conductance (µS/cm, 50°C) = 286 Density (g/cm³) = 0.99623 Volume (L) = 1.03598 - Viscosity (mPa s) = 0.56424 + Viscosity (mPa s) = 0.56425 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.355e-04 Mass of water (kg) = 9.998e-01 @@ -2881,7 +2881,7 @@ H2O(g) -0.61 2.432e-01 0.514 1.136e-02 1.423e-02 2.868e-03 Specific Conductance (µS/cm, 50°C) = 315 Density (g/cm³) = 0.99905 Volume (L) = 1.04292 - Viscosity (mPa s) = 0.56987 + Viscosity (mPa s) = 0.56988 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.294e-04 Mass of water (kg) = 9.997e-01 @@ -2969,7 +2969,7 @@ H2O(g) -0.56 2.755e-01 0.456 1.423e-02 1.769e-02 3.462e-03 Specific Conductance (µS/cm, 50°C) = 323 Density (g/cm³) = 0.99993 Volume (L) = 1.04476 - Viscosity (mPa s) = 0.57152 + Viscosity (mPa s) = 0.57153 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.549e-04 Mass of water (kg) = 9.997e-01 @@ -3233,7 +3233,7 @@ H2O(g) -0.41 3.859e-01 0.329 2.658e-02 3.207e-02 5.493e-03 Specific Conductance (µS/cm, 50°C) = 334 Density (g/cm³) = 1.00146 Volume (L) = 1.04715 - Viscosity (mPa s) = 0.57411 + Viscosity (mPa s) = 0.57412 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.940e-04 Mass of water (kg) = 9.994e-01 @@ -3585,7 +3585,7 @@ H2O(g) -0.23 5.943e-01 0.216 5.297e-02 6.141e-02 8.439e-03 Specific Conductance (µS/cm, 50°C) = 342 Density (g/cm³) = 1.00280 Volume (L) = 1.04792 - Viscosity (mPa s) = 0.57597 + Viscosity (mPa s) = 0.57598 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.222e-04 Mass of water (kg) = 9.989e-01 @@ -3673,7 +3673,7 @@ H2O(g) -0.17 6.709e-01 0.193 6.141e-02 7.055e-02 9.141e-03 Specific Conductance (µS/cm, 50°C) = 345 Density (g/cm³) = 1.00326 Volume (L) = 1.04802 - Viscosity (mPa s) = 0.57652 + Viscosity (mPa s) = 0.57653 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.307e-04 Mass of water (kg) = 9.987e-01 @@ -3849,7 +3849,7 @@ H2O(g) -0.05 8.816e-01 0.149 8.035e-02 9.074e-02 1.039e-02 Specific Conductance (µS/cm, 50°C) = 352 Density (g/cm³) = 1.00451 Volume (L) = 1.04811 - Viscosity (mPa s) = 0.57795 + Viscosity (mPa s) = 0.57796 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.530e-04 Mass of water (kg) = 9.983e-01 @@ -4113,7 +4113,7 @@ H2O(g) 0.16 1.439e+00 0.095 1.129e-01 1.245e-01 1.156e-02 Specific Conductance (µS/cm, 50°C) = 369 Density (g/cm³) = 1.00778 Volume (L) = 1.04778 - Viscosity (mPa s) = 0.58132 + Viscosity (mPa s) = 0.58133 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.069e-04 Mass of water (kg) = 9.977e-01 @@ -4641,7 +4641,7 @@ H2O(g) 0.65 4.434e+00 0.039 1.794e-01 1.879e-01 8.537e-03 Specific Conductance (µS/cm, 50°C) = 457 Density (g/cm³) = 1.02415 Volume (L) = 1.04153 - Viscosity (mPa s) = 0.59644 + Viscosity (mPa s) = 0.59645 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.166e-03 Mass of water (kg) = 9.966e-01 @@ -4902,7 +4902,7 @@ H2O(g) -0.30 4.992e-01 0.769 1.642e-02 2.026e-02 3.838e-03 Specific Conductance (µS/cm, 75°C) = 278 Density (g/cm³) = 0.97994 Volume (L) = 1.04024 - Viscosity (mPa s) = 0.38301 + Viscosity (mPa s) = 0.38302 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.764e-04 Mass of water (kg) = 9.996e-01 @@ -5166,7 +5166,7 @@ H2O(g) -0.13 7.358e-01 0.534 3.054e-02 3.716e-02 6.615e-03 Specific Conductance (µS/cm, 75°C) = 357 Density (g/cm³) = 0.98465 Volume (L) = 1.05133 - Viscosity (mPa s) = 0.38792 + Viscosity (mPa s) = 0.38793 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.446e-04 Mass of water (kg) = 9.993e-01 @@ -5254,7 +5254,7 @@ H2O(g) -0.08 8.300e-01 0.476 3.716e-02 4.484e-02 7.684e-03 Specific Conductance (µS/cm, 75°C) = 370 Density (g/cm³) = 0.98569 Volume (L) = 1.05320 - Viscosity (mPa s) = 0.38896 + Viscosity (mPa s) = 0.38897 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.732e-04 Mass of water (kg) = 9.992e-01 @@ -5342,7 +5342,7 @@ H2O(g) -0.03 9.326e-01 0.426 4.484e-02 5.364e-02 8.796e-03 Specific Conductance (µS/cm, 75°C) = 379 Density (g/cm³) = 0.98657 Volume (L) = 1.05455 - Viscosity (mPa s) = 0.38981 + Viscosity (mPa s) = 0.38982 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.955e-04 Mass of water (kg) = 9.990e-01 @@ -5518,7 +5518,7 @@ H2O(g) 0.07 1.168e+00 0.344 6.357e-02 7.466e-02 1.109e-02 Specific Conductance (µS/cm, 75°C) = 393 Density (g/cm³) = 0.98802 Volume (L) = 1.05621 - Viscosity (mPa s) = 0.39118 + Viscosity (mPa s) = 0.39119 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.289e-04 Mass of water (kg) = 9.986e-01 @@ -5606,7 +5606,7 @@ H2O(g) 0.12 1.306e+00 0.310 7.466e-02 8.689e-02 1.223e-02 Specific Conductance (µS/cm, 75°C) = 398 Density (g/cm³) = 0.98868 Volume (L) = 1.05672 - Viscosity (mPa s) = 0.39178 + Viscosity (mPa s) = 0.39179 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.427e-04 Mass of water (kg) = 9.984e-01 @@ -5782,7 +5782,7 @@ H2O(g) 0.21 1.637e+00 0.250 1.002e-01 1.147e-01 1.443e-02 Specific Conductance (µS/cm, 75°C) = 409 Density (g/cm³) = 0.99005 Volume (L) = 1.05736 - Viscosity (mPa s) = 0.39297 + Viscosity (mPa s) = 0.39298 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.689e-04 Mass of water (kg) = 9.979e-01 @@ -5870,7 +5870,7 @@ H2O(g) 0.27 1.842e+00 0.224 1.147e-01 1.301e-01 1.543e-02 Specific Conductance (µS/cm, 75°C) = 415 Density (g/cm³) = 0.99081 Volume (L) = 1.05755 - Viscosity (mPa s) = 0.39362 + Viscosity (mPa s) = 0.39363 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.826e-04 Mass of water (kg) = 9.976e-01 @@ -5958,7 +5958,7 @@ H2O(g) 0.32 2.081e+00 0.200 1.301e-01 1.464e-01 1.634e-02 Specific Conductance (µS/cm, 75°C) = 421 Density (g/cm³) = 0.99166 Volume (L) = 1.05767 - Viscosity (mPa s) = 0.39434 + Viscosity (mPa s) = 0.39435 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.973e-04 Mass of water (kg) = 9.973e-01 @@ -6046,7 +6046,7 @@ H2O(g) 0.37 2.363e+00 0.178 1.464e-01 1.636e-01 1.713e-02 Specific Conductance (µS/cm, 75°C) = 427 Density (g/cm³) = 0.99264 Volume (L) = 1.05771 - Viscosity (mPa s) = 0.39515 + Viscosity (mPa s) = 0.39516 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.136e-04 Mass of water (kg) = 9.970e-01 @@ -6219,7 +6219,7 @@ H2O(g) 0.49 3.095e+00 0.140 1.813e-01 1.996e-01 1.822e-02 pH = 3.091 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 444 + Specific Conductance (µS/cm, 75°C) = 443 Density (g/cm³) = 0.99510 Volume (L) = 1.05755 Viscosity (mPa s) = 0.39715 @@ -6310,7 +6310,7 @@ H2O(g) 0.55 3.569e+00 0.123 1.996e-01 2.180e-01 1.845e-02 Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.99665 Volume (L) = 1.05730 - Viscosity (mPa s) = 0.39839 + Viscosity (mPa s) = 0.39840 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.763e-04 Mass of water (kg) = 9.961e-01 @@ -6398,7 +6398,7 @@ H2O(g) 0.62 4.133e+00 0.109 2.180e-01 2.364e-01 1.842e-02 Specific Conductance (µS/cm, 75°C) = 465 Density (g/cm³) = 0.99847 Volume (L) = 1.05692 - Viscosity (mPa s) = 0.39984 + Viscosity (mPa s) = 0.39985 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.036e-04 Mass of water (kg) = 9.957e-01 @@ -6486,7 +6486,7 @@ H2O(g) 0.68 4.802e+00 0.096 2.364e-01 2.545e-01 1.809e-02 Specific Conductance (µS/cm, 75°C) = 478 Density (g/cm³) = 1.00061 Volume (L) = 1.05636 - Viscosity (mPa s) = 0.40154 + Viscosity (mPa s) = 0.40155 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.354e-04 Mass of water (kg) = 9.954e-01 @@ -6574,7 +6574,7 @@ H2O(g) 0.75 5.592e+00 0.085 2.545e-01 2.720e-01 1.742e-02 Specific Conductance (µS/cm, 75°C) = 494 Density (g/cm³) = 1.00312 Volume (L) = 1.05559 - Viscosity (mPa s) = 0.40354 + Viscosity (mPa s) = 0.40355 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.723e-04 Mass of water (kg) = 9.951e-01 @@ -6662,7 +6662,7 @@ H2O(g) 0.81 6.521e+00 0.076 2.720e-01 2.883e-01 1.636e-02 Specific Conductance (µS/cm, 75°C) = 512 Density (g/cm³) = 1.00607 Volume (L) = 1.05456 - Viscosity (mPa s) = 0.40588 + Viscosity (mPa s) = 0.40589 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.016e-03 Mass of water (kg) = 9.948e-01 @@ -6750,7 +6750,7 @@ H2O(g) 0.88 7.604e+00 0.068 2.883e-01 3.032e-01 1.487e-02 Specific Conductance (µS/cm, 75°C) = 534 Density (g/cm³) = 1.00952 Volume (L) = 1.05321 - Viscosity (mPa s) = 0.40864 + Viscosity (mPa s) = 0.40865 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.067e-03 Mass of water (kg) = 9.945e-01 @@ -6838,7 +6838,7 @@ H2O(g) 0.95 8.858e+00 0.062 3.032e-01 3.161e-01 1.289e-02 Specific Conductance (µS/cm, 75°C) = 559 Density (g/cm³) = 1.01356 Volume (L) = 1.05146 - Viscosity (mPa s) = 0.41191 + Viscosity (mPa s) = 0.41192 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.127e-03 Mass of water (kg) = 9.943e-01 @@ -6926,7 +6926,7 @@ H2O(g) 1.01 1.029e+01 0.057 3.161e-01 3.265e-01 1.039e-02 Specific Conductance (µS/cm, 75°C) = 589 Density (g/cm³) = 1.01828 Volume (L) = 1.04924 - Viscosity (mPa s) = 0.41578 + Viscosity (mPa s) = 0.41579 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.199e-03 Mass of water (kg) = 9.941e-01 @@ -7088,7 +7088,7 @@ H2O(g) 0.06 1.139e+00 0.876 0.000e+00 3.985e-02 3.985e-02 Specific Conductance (µS/cm, 100°C) = 204 Density (g/cm³) = 0.96086 Volume (L) = 1.05007 - Viscosity (mPa s) = 0.28347 + Viscosity (mPa s) = 0.28348 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.959e-04 Mass of water (kg) = 9.993e-01 @@ -7176,7 +7176,7 @@ H2O(g) 0.11 1.294e+00 0.779 3.985e-02 4.820e-02 8.351e-03 Specific Conductance (µS/cm, 100°C) = 269 Density (g/cm³) = 0.96301 Volume (L) = 1.05579 - Viscosity (mPa s) = 0.28506 + Viscosity (mPa s) = 0.28507 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.994e-04 Mass of water (kg) = 9.991e-01 @@ -7264,7 +7264,7 @@ H2O(g) 0.17 1.466e+00 0.694 4.820e-02 5.803e-02 9.826e-03 Specific Conductance (µS/cm, 100°C) = 309 Density (g/cm³) = 0.96485 Volume (L) = 1.06023 - Viscosity (mPa s) = 0.28641 + Viscosity (mPa s) = 0.28642 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.671e-04 Mass of water (kg) = 9.989e-01 @@ -7352,7 +7352,7 @@ H2O(g) 0.22 1.655e+00 0.620 5.803e-02 6.942e-02 1.140e-02 Specific Conductance (µS/cm, 100°C) = 336 Density (g/cm³) = 0.96643 Volume (L) = 1.06363 - Viscosity (mPa s) = 0.28757 + Viscosity (mPa s) = 0.28758 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.160e-04 Mass of water (kg) = 9.987e-01 @@ -7440,7 +7440,7 @@ H2O(g) 0.27 1.861e+00 0.556 6.942e-02 8.247e-02 1.304e-02 Specific Conductance (µS/cm, 100°C) = 356 Density (g/cm³) = 0.96781 Volume (L) = 1.06621 - Viscosity (mPa s) = 0.28856 + Viscosity (mPa s) = 0.28857 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.532e-04 Mass of water (kg) = 9.985e-01 @@ -7528,7 +7528,7 @@ H2O(g) 0.32 2.087e+00 0.500 8.247e-02 9.720e-02 1.473e-02 Specific Conductance (µS/cm, 100°C) = 372 Density (g/cm³) = 0.96903 Volume (L) = 1.06815 - Viscosity (mPa s) = 0.28944 + Viscosity (mPa s) = 0.28945 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.828e-04 Mass of water (kg) = 9.982e-01 @@ -7616,7 +7616,7 @@ H2O(g) 0.37 2.335e+00 0.450 9.720e-02 1.136e-01 1.644e-02 Specific Conductance (µS/cm, 100°C) = 384 Density (g/cm³) = 0.97013 Volume (L) = 1.06961 - Viscosity (mPa s) = 0.29022 + Viscosity (mPa s) = 0.29023 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.072e-04 Mass of water (kg) = 9.979e-01 @@ -7704,7 +7704,7 @@ H2O(g) 0.42 2.608e+00 0.406 1.136e-01 1.318e-01 1.813e-02 Specific Conductance (µS/cm, 100°C) = 394 Density (g/cm³) = 0.97116 Volume (L) = 1.07070 - Viscosity (mPa s) = 0.29094 + Viscosity (mPa s) = 0.29095 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.282e-04 Mass of water (kg) = 9.976e-01 @@ -7792,7 +7792,7 @@ H2O(g) 0.46 2.909e+00 0.367 1.318e-01 1.516e-01 1.978e-02 Specific Conductance (µS/cm, 100°C) = 404 Density (g/cm³) = 0.97214 Volume (L) = 1.07152 - Viscosity (mPa s) = 0.29163 + Viscosity (mPa s) = 0.29164 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.470e-04 Mass of water (kg) = 9.973e-01 @@ -7880,7 +7880,7 @@ H2O(g) 0.51 3.245e+00 0.332 1.516e-01 1.729e-01 2.137e-02 Specific Conductance (µS/cm, 100°C) = 412 Density (g/cm³) = 0.97312 Volume (L) = 1.07212 - Viscosity (mPa s) = 0.29231 + Viscosity (mPa s) = 0.29232 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.646e-04 Mass of water (kg) = 9.969e-01 @@ -7968,7 +7968,7 @@ H2O(g) 0.56 3.622e+00 0.300 1.729e-01 1.958e-01 2.287e-02 Specific Conductance (µS/cm, 100°C) = 420 Density (g/cm³) = 0.97413 Volume (L) = 1.07256 - Viscosity (mPa s) = 0.29300 + Viscosity (mPa s) = 0.29301 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.816e-04 Mass of water (kg) = 9.965e-01 @@ -8056,7 +8056,7 @@ H2O(g) 0.61 4.049e+00 0.271 1.958e-01 2.200e-01 2.423e-02 Specific Conductance (µS/cm, 100°C) = 429 Density (g/cm³) = 0.97518 Volume (L) = 1.07286 - Viscosity (mPa s) = 0.29372 + Viscosity (mPa s) = 0.29373 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.987e-04 Mass of water (kg) = 9.960e-01 @@ -8144,7 +8144,7 @@ H2O(g) 0.66 4.535e+00 0.245 2.200e-01 2.454e-01 2.542e-02 Specific Conductance (µS/cm, 100°C) = 437 Density (g/cm³) = 0.97632 Volume (L) = 1.07305 - Viscosity (mPa s) = 0.29450 + Viscosity (mPa s) = 0.29451 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.163e-04 Mass of water (kg) = 9.956e-01 @@ -8232,7 +8232,7 @@ H2O(g) 0.71 5.092e+00 0.220 2.454e-01 2.719e-01 2.641e-02 Specific Conductance (µS/cm, 100°C) = 446 Density (g/cm³) = 0.97758 Volume (L) = 1.07312 - Viscosity (mPa s) = 0.29535 + Viscosity (mPa s) = 0.29536 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.349e-04 Mass of water (kg) = 9.951e-01 @@ -8320,7 +8320,7 @@ H2O(g) 0.76 5.733e+00 0.199 2.719e-01 2.990e-01 2.716e-02 Specific Conductance (µS/cm, 100°C) = 455 Density (g/cm³) = 0.97898 Volume (L) = 1.07310 - Viscosity (mPa s) = 0.29630 + Viscosity (mPa s) = 0.29631 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.550e-04 Mass of water (kg) = 9.946e-01 @@ -8408,7 +8408,7 @@ H2O(g) 0.81 6.471e+00 0.179 2.990e-01 3.266e-01 2.761e-02 Specific Conductance (µS/cm, 100°C) = 466 Density (g/cm³) = 0.98056 Volume (L) = 1.07296 - Viscosity (mPa s) = 0.29736 + Viscosity (mPa s) = 0.29737 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.770e-04 Mass of water (kg) = 9.941e-01 @@ -8496,7 +8496,7 @@ H2O(g) 0.86 7.324e+00 0.161 3.266e-01 3.544e-01 2.773e-02 Specific Conductance (µS/cm, 100°C) = 477 Density (g/cm³) = 0.98235 Volume (L) = 1.07271 - Viscosity (mPa s) = 0.29858 + Viscosity (mPa s) = 0.29859 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.014e-04 Mass of water (kg) = 9.936e-01 @@ -8584,7 +8584,7 @@ H2O(g) 0.92 8.309e+00 0.145 3.544e-01 3.818e-01 2.746e-02 Specific Conductance (µS/cm, 100°C) = 490 Density (g/cm³) = 0.98440 Volume (L) = 1.07232 - Viscosity (mPa s) = 0.29997 + Viscosity (mPa s) = 0.29998 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.287e-04 Mass of water (kg) = 9.931e-01 @@ -8669,10 +8669,10 @@ H2O(g) 0.98 9.444e+00 0.131 3.818e-01 4.086e-01 2.675e-02 pH = 3.090 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 505 + Specific Conductance (µS/cm, 100°C) = 504 Density (g/cm³) = 0.98676 Volume (L) = 1.07178 - Viscosity (mPa s) = 0.30156 + Viscosity (mPa s) = 0.30157 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.595e-04 Mass of water (kg) = 9.926e-01 @@ -8760,7 +8760,7 @@ H2O(g) 1.03 1.075e+01 0.119 4.086e-01 4.341e-01 2.555e-02 Specific Conductance (µS/cm, 100°C) = 521 Density (g/cm³) = 0.98945 Volume (L) = 1.07105 - Viscosity (mPa s) = 0.30340 + Viscosity (mPa s) = 0.30341 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.945e-04 Mass of water (kg) = 9.922e-01 @@ -8848,7 +8848,7 @@ H2O(g) 1.09 1.224e+01 0.108 4.341e-01 4.579e-01 2.382e-02 Specific Conductance (µS/cm, 100°C) = 539 Density (g/cm³) = 0.99255 Volume (L) = 1.07012 - Viscosity (mPa s) = 0.30553 + Viscosity (mPa s) = 0.30554 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.345e-04 Mass of water (kg) = 9.917e-01 @@ -8936,7 +8936,7 @@ H2O(g) 1.14 1.393e+01 0.099 4.579e-01 4.794e-01 2.150e-02 Specific Conductance (µS/cm, 100°C) = 561 Density (g/cm³) = 0.99611 Volume (L) = 1.06893 - Viscosity (mPa s) = 0.30800 + Viscosity (mPa s) = 0.30801 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.805e-04 Mass of water (kg) = 9.913e-01 @@ -9024,7 +9024,7 @@ H2O(g) 1.20 1.584e+01 0.092 4.794e-01 4.980e-01 1.856e-02 Specific Conductance (µS/cm, 100°C) = 585 Density (g/cm³) = 1.00020 Volume (L) = 1.06745 - Viscosity (mPa s) = 0.31087 + Viscosity (mPa s) = 0.31088 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.034e-03 Mass of water (kg) = 9.910e-01 @@ -9112,7 +9112,7 @@ H2O(g) 1.25 1.798e+01 0.086 4.980e-01 5.129e-01 1.495e-02 Specific Conductance (µS/cm, 100°C) = 613 Density (g/cm³) = 1.00490 Volume (L) = 1.06562 - Viscosity (mPa s) = 0.31421 + Viscosity (mPa s) = 0.31422 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.095e-03 Mass of water (kg) = 9.907e-01 @@ -9200,7 +9200,7 @@ H2O(g) 1.31 2.035e+01 0.081 5.129e-01 5.236e-01 1.065e-02 Specific Conductance (µS/cm, 100°C) = 646 Density (g/cm³) = 1.01027 Volume (L) = 1.06340 - Viscosity (mPa s) = 0.31811 + Viscosity (mPa s) = 0.31813 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.168e-03 Mass of water (kg) = 9.905e-01 @@ -9277,7 +9277,7 @@ Initial solution 1. pH 7 charge Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.91701 Volume (L) = 1.09050 - Viscosity (mPa s) = 0.18261 + Viscosity (mPa s) = 0.18262 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-05 Mass of water (kg) = 1.000e+00 @@ -9362,7 +9362,7 @@ H2O(g) 0.73 5.312e+00 0.869 0.000e+00 1.636e-01 1.636e-01 Specific Conductance (µS/cm, 150°C) = 152 Density (g/cm³) = 0.91761 Volume (L) = 1.09645 - Viscosity (mPa s) = 0.18303 + Viscosity (mPa s) = 0.18304 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.944e-04 Mass of water (kg) = 9.970e-01 @@ -9450,7 +9450,7 @@ H2O(g) 0.77 5.933e+00 0.787 1.636e-01 1.909e-01 2.728e-02 Specific Conductance (µS/cm, 150°C) = 206 Density (g/cm³) = 0.92107 Volume (L) = 1.10025 - Viscosity (mPa s) = 0.18474 + Viscosity (mPa s) = 0.18475 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.661e-04 Mass of water (kg) = 9.966e-01 @@ -9538,7 +9538,7 @@ H2O(g) 0.82 6.609e+00 0.714 1.909e-01 2.215e-01 3.061e-02 Specific Conductance (µS/cm, 150°C) = 241 Density (g/cm³) = 0.92290 Volume (L) = 1.10475 - Viscosity (mPa s) = 0.18568 + Viscosity (mPa s) = 0.18569 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.159e-04 Mass of water (kg) = 9.960e-01 @@ -9626,7 +9626,7 @@ H2O(g) 0.87 7.346e+00 0.649 2.215e-01 2.554e-01 3.396e-02 Specific Conductance (µS/cm, 150°C) = 266 Density (g/cm³) = 0.92463 Volume (L) = 1.10833 - Viscosity (mPa s) = 0.18657 + Viscosity (mPa s) = 0.18658 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.543e-04 Mass of water (kg) = 9.954e-01 @@ -9714,7 +9714,7 @@ H2O(g) 0.91 8.150e+00 0.592 2.554e-01 2.927e-01 3.727e-02 Specific Conductance (µS/cm, 150°C) = 286 Density (g/cm³) = 0.92627 Volume (L) = 1.11115 - Viscosity (mPa s) = 0.18742 + Viscosity (mPa s) = 0.18743 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.857e-04 Mass of water (kg) = 9.947e-01 @@ -9802,7 +9802,7 @@ H2O(g) 0.96 9.027e+00 0.540 2.927e-01 3.332e-01 4.050e-02 Specific Conductance (µS/cm, 150°C) = 303 Density (g/cm³) = 0.92785 Volume (L) = 1.11337 - Viscosity (mPa s) = 0.18823 + Viscosity (mPa s) = 0.18824 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.124e-04 Mass of water (kg) = 9.940e-01 @@ -9890,7 +9890,7 @@ H2O(g) 1.00 9.986e+00 0.493 3.332e-01 3.768e-01 4.358e-02 Specific Conductance (µS/cm, 150°C) = 317 Density (g/cm³) = 0.92940 Volume (L) = 1.11508 - Viscosity (mPa s) = 0.18903 + Viscosity (mPa s) = 0.18904 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.361e-04 Mass of water (kg) = 9.932e-01 @@ -9978,7 +9978,7 @@ H2O(g) 1.04 1.104e+01 0.451 3.768e-01 4.232e-01 4.644e-02 Specific Conductance (µS/cm, 150°C) = 329 Density (g/cm³) = 0.93095 Volume (L) = 1.11639 - Viscosity (mPa s) = 0.18982 + Viscosity (mPa s) = 0.18983 Activity of water = 0.982 Ionic strength (mol/kgw) = 4.578e-04 Mass of water (kg) = 9.924e-01 @@ -10066,7 +10066,7 @@ H2O(g) 1.09 1.219e+01 0.413 4.232e-01 4.723e-01 4.904e-02 Specific Conductance (µS/cm, 150°C) = 341 Density (g/cm³) = 0.93253 Volume (L) = 1.11737 - Viscosity (mPa s) = 0.19062 + Viscosity (mPa s) = 0.19063 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.781e-04 Mass of water (kg) = 9.915e-01 @@ -10154,7 +10154,7 @@ H2O(g) 1.13 1.347e+01 0.379 4.723e-01 5.236e-01 5.129e-02 Specific Conductance (µS/cm, 150°C) = 352 Density (g/cm³) = 0.93416 Volume (L) = 1.11808 - Viscosity (mPa s) = 0.19145 + Viscosity (mPa s) = 0.19146 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.978e-04 Mass of water (kg) = 9.906e-01 @@ -10242,7 +10242,7 @@ H2O(g) 1.17 1.488e+01 0.347 5.236e-01 5.767e-01 5.314e-02 Specific Conductance (µS/cm, 150°C) = 362 Density (g/cm³) = 0.93587 Volume (L) = 1.11857 - Viscosity (mPa s) = 0.19232 + Viscosity (mPa s) = 0.19233 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.173e-04 Mass of water (kg) = 9.896e-01 @@ -10330,7 +10330,7 @@ H2O(g) 1.22 1.644e+01 0.319 5.767e-01 6.312e-01 5.451e-02 Specific Conductance (µS/cm, 150°C) = 373 Density (g/cm³) = 0.93770 Volume (L) = 1.11887 - Viscosity (mPa s) = 0.19325 + Viscosity (mPa s) = 0.19326 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.370e-04 Mass of water (kg) = 9.886e-01 @@ -10418,7 +10418,7 @@ H2O(g) 1.26 1.818e+01 0.293 6.312e-01 6.866e-01 5.533e-02 Specific Conductance (µS/cm, 150°C) = 383 Density (g/cm³) = 0.93967 Volume (L) = 1.11900 - Viscosity (mPa s) = 0.19425 + Viscosity (mPa s) = 0.19426 Activity of water = 0.977 Ionic strength (mol/kgw) = 5.574e-04 Mass of water (kg) = 9.876e-01 @@ -10506,7 +10506,7 @@ H2O(g) 1.30 2.010e+01 0.270 6.866e-01 7.421e-01 5.552e-02 Specific Conductance (µS/cm, 150°C) = 394 Density (g/cm³) = 0.94182 Volume (L) = 1.11899 - Viscosity (mPa s) = 0.19534 + Viscosity (mPa s) = 0.19536 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.788e-04 Mass of water (kg) = 9.866e-01 @@ -10594,7 +10594,7 @@ H2O(g) 1.35 2.224e+01 0.248 7.421e-01 7.971e-01 5.501e-02 Specific Conductance (µS/cm, 150°C) = 406 Density (g/cm³) = 0.94418 Volume (L) = 1.11886 - Viscosity (mPa s) = 0.19655 + Viscosity (mPa s) = 0.19656 Activity of water = 0.975 Ionic strength (mol/kgw) = 6.015e-04 Mass of water (kg) = 9.856e-01 @@ -10682,7 +10682,7 @@ H2O(g) 1.39 2.461e+01 0.229 7.971e-01 8.508e-01 5.372e-02 Specific Conductance (µS/cm, 150°C) = 418 Density (g/cm³) = 0.94679 Volume (L) = 1.11862 - Viscosity (mPa s) = 0.19789 + Viscosity (mPa s) = 0.19790 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.258e-04 Mass of water (kg) = 9.847e-01 @@ -10770,7 +10770,7 @@ H2O(g) 1.44 2.724e+01 0.213 8.508e-01 9.024e-01 5.159e-02 Specific Conductance (µS/cm, 150°C) = 430 Density (g/cm³) = 0.94969 Volume (L) = 1.11827 - Viscosity (mPa s) = 0.19937 + Viscosity (mPa s) = 0.19939 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.523e-04 Mass of water (kg) = 9.837e-01 @@ -10858,7 +10858,7 @@ H2O(g) 1.48 3.013e+01 0.198 9.024e-01 9.509e-01 4.856e-02 Specific Conductance (µS/cm, 150°C) = 444 Density (g/cm³) = 0.95291 Volume (L) = 1.11783 - Viscosity (mPa s) = 0.20104 + Viscosity (mPa s) = 0.20106 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.812e-04 Mass of water (kg) = 9.829e-01 @@ -10946,7 +10946,7 @@ H2O(g) 1.52 3.331e+01 0.184 9.509e-01 9.956e-01 4.461e-02 Specific Conductance (µS/cm, 150°C) = 459 Density (g/cm³) = 0.95650 Volume (L) = 1.11731 - Viscosity (mPa s) = 0.20291 + Viscosity (mPa s) = 0.20293 Activity of water = 0.970 Ionic strength (mol/kgw) = 7.129e-04 Mass of water (kg) = 9.821e-01 @@ -11034,7 +11034,7 @@ H2O(g) 1.57 3.677e+01 0.173 9.956e-01 1.035e+00 3.972e-02 Specific Conductance (µS/cm, 150°C) = 475 Density (g/cm³) = 0.96050 Volume (L) = 1.11672 - Viscosity (mPa s) = 0.20501 + Viscosity (mPa s) = 0.20503 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.479e-04 Mass of water (kg) = 9.813e-01 @@ -11122,7 +11122,7 @@ H2O(g) 1.61 4.052e+01 0.164 1.035e+00 1.069e+00 3.389e-02 Specific Conductance (µS/cm, 150°C) = 492 Density (g/cm³) = 0.96495 Volume (L) = 1.11608 - Viscosity (mPa s) = 0.20738 + Viscosity (mPa s) = 0.20739 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.867e-04 Mass of water (kg) = 9.807e-01 @@ -11207,10 +11207,10 @@ H2O(g) 1.65 4.454e+01 0.156 1.069e+00 1.096e+00 2.717e-02 pH = 3.116 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 511 + Specific Conductance (µS/cm, 150°C) = 510 Density (g/cm³) = 0.96989 Volume (L) = 1.11541 - Viscosity (mPa s) = 0.21004 + Viscosity (mPa s) = 0.21006 Activity of water = 0.966 Ionic strength (mol/kgw) = 8.298e-04 Mass of water (kg) = 9.802e-01 @@ -11298,7 +11298,7 @@ H2O(g) 1.69 4.881e+01 0.150 1.096e+00 1.116e+00 1.965e-02 Specific Conductance (µS/cm, 150°C) = 530 Density (g/cm³) = 0.97537 Volume (L) = 1.11475 - Viscosity (mPa s) = 0.21303 + Viscosity (mPa s) = 0.21305 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.778e-04 Mass of water (kg) = 9.799e-01 @@ -11386,7 +11386,7 @@ H2O(g) 1.73 5.330e+01 0.146 1.116e+00 1.127e+00 1.145e-02 Specific Conductance (µS/cm, 150°C) = 552 Density (g/cm³) = 0.98141 Volume (L) = 1.11414 - Viscosity (mPa s) = 0.21640 + Viscosity (mPa s) = 0.21642 Activity of water = 0.963 Ionic strength (mol/kgw) = 9.312e-04 Mass of water (kg) = 9.797e-01 @@ -11474,7 +11474,7 @@ H2O(g) 1.76 5.794e+01 0.143 1.127e+00 1.130e+00 2.741e-03 Specific Conductance (µS/cm, 150°C) = 574 Density (g/cm³) = 0.98805 Volume (L) = 1.11366 - Viscosity (mPa s) = 0.22018 + Viscosity (mPa s) = 0.22019 Activity of water = 0.961 Ionic strength (mol/kgw) = 9.906e-04 Mass of water (kg) = 9.796e-01 diff --git a/mytest/CO2_conc_PR_GP1_101.sel b/mytest/CO2_conc_PR_GP1_101.sel index 09f43d9b..5419c49f 100644 --- a/mytest/CO2_conc_PR_GP1_101.sel +++ b/mytest/CO2_conc_PR_GP1_101.sel @@ -1,132 +1,132 @@ Mu SC 0.000000100645 0.0546913895 - 0.000452028281 155.3704129807 - 0.000607231590 189.8026328311 - 0.000701179159 204.7601068076 - 0.000759336156 211.9769286534 - 0.000793855250 215.6611259938 - 0.000812673423 217.5561462838 - 0.000821410502 218.4440522633 - 0.000824013136 218.7206695242 - 0.000823997891 218.7205676000 - 0.000823736461 218.7030765781 - 0.000823234706 218.6708442271 - 0.000822568883 218.6283178420 - 0.000821858796 218.5826676429 - 0.000821237771 218.5420707485 - 0.000820841177 218.5150054301 - 0.000823558890 219.0034693644 - 0.000831983502 220.5404972218 - 0.000843993517 222.8114407695 - 0.000860233274 225.9834155728 - 0.000881505252 230.2626991949 - 0.000908834273 235.9105571682 - 0.000943556531 243.2656650025 - 0.000987448823 252.7768936835 - 0.001042923670 265.0529014623 - 0.001113335511 280.9399543506 - 0.001203481641 301.6493612032 - 0.000000234097 0.1699348121 - 0.000410993200 200.7047609559 - 0.000549962988 256.6464057508 - 0.000635472046 286.7452314274 - 0.000691667698 304.6733171811 - 0.000729359115 315.9333970103 - 0.000754897512 323.2738660602 - 0.000772438413 328.2250503669 - 0.000784820562 331.7067992233 - 0.000794024588 334.3092939674 - 0.000801457886 336.4349599452 - 0.000808144993 338.3751608867 - 0.000814858099 340.3543289704 - 0.000822207783 342.5570736586 - 0.000830707404 345.1460996455 - 0.000840820442 348.2751141464 - 0.000852997429 352.0991007026 - 0.000867707215 356.7834859424 - 0.000885466342 362.5132924799 - 0.000906869746 369.5032425302 - 0.000932626096 378.0098357189 - 0.000963601609 388.3466949853 - 0.001000877610 400.9047406403 - 0.001045829361 416.1804041575 - 0.001100237713 434.8146712951 - 0.001166452921 457.6507832125 - 0.000001077676 0.7720711235 - 0.000355053737 214.0532609611 - 0.000476379982 278.8966969234 - 0.000553186141 316.6233669443 - 0.000606246413 341.0686985695 - 0.000644567445 357.9196230110 - 0.000673236037 370.1259228763 - 0.000695489021 379.4030396654 - 0.000713519969 386.8248729748 - 0.000728877180 393.1036583873 - 0.000742691703 398.7371824205 - 0.000755820310 404.0922203327 - 0.000768940358 409.4547117905 - 0.000782615440 415.0616723314 - 0.000797342780 421.1227392007 - 0.000813589301 427.8357772920 - 0.000831821016 435.3991927346 - 0.000852529119 444.0226563785 - 0.000876255429 453.9374184570 - 0.000903619702 465.4074607445 - 0.000935351118 478.7419637793 - 0.000972327230 494.3108935456 - 0.001015624147 512.5646533670 - 0.001066583822 534.0601256165 - 0.001126907094 559.4960830175 - 0.001198786593 589.7630576939 - 0.000002945351 2.4460046923 - 0.000295906762 204.4030036215 - 0.000399425774 269.7083806114 - 0.000467140906 309.6123870325 - 0.000515996500 336.8864253922 - 0.000553200173 356.7974113815 - 0.000582752757 372.1108834383 - 0.000607178536 384.4635149992 - 0.000628193551 394.9005892777 - 0.000647026592 404.1298898756 - 0.000664596988 412.6562867518 - 0.000681623091 420.8589549687 - 0.000698693190 429.0384789906 - 0.000716314561 437.4471918427 - 0.000734949273 446.3098223405 - 0.000755041964 455.8383957413 - 0.000777043056 466.2440012833 - 0.000801429604 477.7463999524 - 0.000828725937 490.5831824896 - 0.000859525541 505.0187309784 - 0.000894515969 521.3538993100 - 0.000934508683 539.9369818414 - 0.000980476337 561.1767573717 - 0.001033601173 585.5590163467 - 0.001095339444 613.6676808562 - 0.001167511368 646.2152849647 - 0.000011900769 11.8606839897 - 0.000194378112 152.5742409639 - 0.000266054386 206.1127236286 - 0.000315856483 241.1807683327 - 0.000354269494 266.8600934048 - 0.000385666290 286.9297799270 - 0.000412447114 303.4003636698 - 0.000436129287 317.4869865561 - 0.000457761402 329.9858086231 - 0.000478117004 341.4506054588 - 0.000497798757 352.2865402056 - 0.000517300276 362.8041121149 - 0.000537045789 373.2521280377 - 0.000557417154 383.8386806924 - 0.000578773283 394.7449143728 - 0.000601464757 406.1341205612 - 0.000625845255 418.1575922022 - 0.000652280905 430.9582140015 - 0.000681157889 444.6717647355 - 0.000712888885 459.4264934502 - 0.000747918182 475.3405696967 - 0.000786725340 492.5171061716 - 0.000829827251 511.0368530838 - 0.000877777212 530.9469954002 - 0.000931160842 552.2471186869 - 0.000990586223 574.8706337607 + 0.000452028281 155.3704136842 + 0.000607231590 189.8026338000 + 0.000701179159 204.7601079087 + 0.000759336156 211.9769298239 + 0.000793855250 215.6611272015 + 0.000812673423 217.5561475110 + 0.000821410502 218.4440534996 + 0.000824013136 218.7206707633 + 0.000823997891 218.7205688390 + 0.000823736461 218.7030778169 + 0.000823234706 218.6708454656 + 0.000822568883 218.6283190799 + 0.000821858796 218.5826688803 + 0.000821237771 218.5420719854 + 0.000820841177 218.5150066667 + 0.000823558890 219.0034706052 + 0.000831983502 220.5404984760 + 0.000843993517 222.8114420434 + 0.000860233274 225.9834168740 + 0.000881505252 230.2627005332 + 0.000908834273 235.9105585555 + 0.000943556531 243.2656664540 + 0.000987448823 252.7768952189 + 0.001042923670 265.0529031078 + 0.001113335511 280.9399561412 + 0.001203481641 301.6493631881 + 0.000000234097 0.1699347860 + 0.000410993200 200.7014751933 + 0.000549962988 256.6415998462 + 0.000635472046 286.7395083996 + 0.000691667698 304.6670123277 + 0.000729359115 315.9267127440 + 0.000754897512 323.2669289643 + 0.000772438413 328.2179407054 + 0.000784820562 331.6995675624 + 0.000794024588 334.3019709979 + 0.000801457886 336.4275624755 + 0.000808144993 338.3676955695 + 0.000814858099 340.3467946257 + 0.000822207783 342.5494626800 + 0.000830707404 345.1383987704 + 0.000840820442 348.2673047493 + 0.000852997429 352.0911586938 + 0.000867707215 356.7753812996 + 0.000885466342 362.5049883975 + 0.000906869746 369.4946941266 + 0.000932626096 378.0009881914 + 0.000963601609 388.3374810337 + 0.001000877610 400.8950768851 + 0.001045829361 416.1701861055 + 0.001100237713 434.8037661934 + 0.001166452921 457.6390196721 + 0.000001077676 0.7720709591 + 0.000355053737 214.0455396112 + 0.000476379982 278.8851157889 + 0.000553186141 316.6092687296 + 0.000606246413 341.0528614889 + 0.000644567445 357.9025376639 + 0.000673236037 370.1079086829 + 0.000695489021 379.3843065384 + 0.000713519969 386.8055574129 + 0.000728877180 393.0838456969 + 0.000742691703 398.7169207684 + 0.000755820310 404.0715297210 + 0.000768940358 409.4335897307 + 0.000782615440 415.0400972702 + 0.000797342780 421.1006723274 + 0.000813589301 427.8131630913 + 0.000831821016 435.3759584729 + 0.000852529119 443.9987105856 + 0.000876255429 453.9126483584 + 0.000903619702 465.3817284792 + 0.000935351118 478.7151011515 + 0.000972327230 494.2826948553 + 0.001015624147 512.5348656819 + 0.001066583822 534.0284354962 + 0.001126907094 559.4620982002 + 0.001198786593 589.7262814039 + 0.000002945351 2.4460034640 + 0.000295906762 204.3912181517 + 0.000399425774 269.6903882058 + 0.000467140906 309.5901312207 + 0.000515996500 336.8610516875 + 0.000553200173 356.7696571828 + 0.000582752757 372.0812394353 + 0.000607178536 384.4323104819 + 0.000628193551 394.8680424070 + 0.000647026592 404.0961389833 + 0.000664596988 412.6214103733 + 0.000681623091 420.8229847576 + 0.000698693190 429.0014079078 + 0.000716314561 437.4089790513 + 0.000734949273 446.2703956684 + 0.000755041964 455.7976522235 + 0.000777043056 466.2018060309 + 0.000801429604 477.7025834815 + 0.000828725937 490.5375364242 + 0.000859525541 504.9710019686 + 0.000894515969 521.3037808352 + 0.000934508683 539.8841034073 + 0.000980476337 561.1206703821 + 0.001033601173 585.4991755569 + 0.001095339444 613.6034198835 + 0.001167511368 646.1457832477 + 0.000011900769 11.8606583296 + 0.000194378112 152.5586744553 + 0.000266054386 206.0881105688 + 0.000315856483 241.1494340268 + 0.000354269494 266.8234451631 + 0.000385666290 286.8887491286 + 0.000412447114 303.3555870740 + 0.000436129287 317.4389013506 + 0.000457761402 329.9347087109 + 0.000478117004 341.3966770019 + 0.000497798757 352.2298847907 + 0.000517300276 362.7447620265 + 0.000537045789 373.1900562321 + 0.000557417154 383.7738070822 + 0.000578773283 394.6771094564 + 0.000601464757 406.0632071096 + 0.000625845255 418.0833455272 + 0.000652280905 430.8803611884 + 0.000681157889 444.5899832863 + 0.000712888885 459.3404097015 + 0.000747918182 475.2497575346 + 0.000786725340 492.4210867152 + 0.000829827251 510.9350960981 + 0.000877777212 530.8389237478 + 0.000931160842 552.1321170851 + 0.000990586223 574.7480638387 diff --git a/mytest/CO2_conc_PR_GP_101.sel b/mytest/CO2_conc_PR_GP_101.sel index 315c2327..7e7fd9f0 100644 --- a/mytest/CO2_conc_PR_GP_101.sel +++ b/mytest/CO2_conc_PR_GP_101.sel @@ -1,106 +1,106 @@ Mu SC 0.000000100661 0.0546997340 - 0.000445998504 157.2125135283 - 0.000598905523 195.8058943316 - 0.000691567909 214.2790066205 - 0.000749060203 223.9897517621 - 0.000783282216 229.2448567387 - 0.000802003035 232.0178549649 - 0.000810742906 233.3190269741 - 0.000813393708 233.7246312545 - 0.000813392684 233.7257712173 - 0.000813140356 233.6959852241 - 0.000812650584 233.6393810999 - 0.000811996846 233.5640562289 - 0.000811296469 233.4831035729 - 0.000810680517 233.4113235424 - 0.000810282304 233.3639277253 - 0.000812760900 233.9076793515 - 0.000820925850 235.7150915092 - 0.000832573175 238.3638843903 - 0.000848316955 242.0343052809 - 0.000868916012 246.9479746649 - 0.000895330639 253.3840989572 - 0.000928799765 261.7018786239 - 0.000970950497 272.3725338867 - 0.001023959818 286.0265317339 - 0.001090802222 303.5256312764 - 0.001175644152 326.0771963694 - 0.000000234097 0.1697457187 - 0.000405898183 200.1374134414 - 0.000543169031 258.1651326734 - 0.000627617947 290.4307606927 - 0.000683065630 310.1684618656 - 0.000720206069 322.8036560743 - 0.000745337724 331.1383214947 - 0.000762580861 336.7934913697 - 0.000774744667 340.7773302542 - 0.000783784240 343.7525798387 - 0.000791085631 346.1769686610 - 0.000797655919 348.3826934966 - 0.000804252938 350.6242222665 - 0.000811475043 353.1087001815 - 0.000819824479 356.0164639637 - 0.000829753725 359.5158785095 - 0.000841701333 363.7750204260 - 0.000856121935 368.9718499435 - 0.000873513974 375.3040613889 - 0.000894448184 382.9996236162 - 0.000919599582 392.3289990610 - 0.000949786333 403.6202089199 - 0.000986019531 417.2782379898 - 0.001029569685 433.8108728388 - 0.001082058502 453.8640528148 - 0.001145589419 478.2714449297 - 0.000001077676 0.7762111840 - 0.000350522171 212.5133360699 - 0.000470283925 278.2482189574 - 0.000546151488 317.2074348711 - 0.000598581883 342.8496493326 - 0.000636445747 360.7431877467 - 0.000664762906 373.8209424494 - 0.000686732985 383.8211985698 - 0.000704525877 391.8525565778 - 0.000719672920 398.6619714991 - 0.000733291948 404.7777825908 - 0.000746228802 410.5923813878 - 0.000759151247 416.4129915970 - 0.000772613861 422.4945860322 - 0.000787104709 429.0624379698 - 0.000803080615 436.3285864094 - 0.000820995620 444.5048233287 - 0.000841325806 453.8138767861 - 0.000864593071 464.5000132965 - 0.000891389913 476.8400001582 - 0.000922407356 491.1553122141 - 0.000958468361 507.8264945023 - 0.001000569625 527.3107457397 - 0.001049935708 550.1640678690 - 0.001108091191 577.0698016532 - 0.001176959537 608.8761935289 - 0.000002945354 2.4664461839 - 0.000292007269 202.8289458147 - 0.000394103622 268.4611178322 - 0.000460989255 309.1007583436 - 0.000509324794 337.2175272555 - 0.000546177003 357.9567261983 - 0.000575470520 374.0402622314 - 0.000599687278 387.0976244095 - 0.000620518916 398.1831928380 - 0.000639179286 408.0202129503 - 0.000656577728 417.1307379862 - 0.000673425067 425.9109029537 - 0.000690303098 434.6774142831 - 0.000707712671 443.6978921410 - 0.000726108725 453.2117720731 - 0.000745927321 463.4455778880 - 0.000767607858 474.6248335126 - 0.000791612808 486.9840731502 - 0.000818446619 500.7759070817 - 0.000848675218 516.2798344476 - 0.000882947430 533.8113292998 - 0.000922019681 553.7316407185 - 0.000966785619 576.4587280689 - 0.001018312790 602.4798493457 - 0.001077889504 632.3667065560 - 0.001147087220 666.7953102235 + 0.000445998504 157.2125140405 + 0.000598905523 195.8058950471 + 0.000691567909 214.2790074421 + 0.000749060203 223.9897526418 + 0.000783282216 229.2448576504 + 0.000802003035 232.0178558935 + 0.000810742906 233.3190279107 + 0.000813393708 233.7246321935 + 0.000813392684 233.7257721563 + 0.000813140356 233.6959861630 + 0.000812650584 233.6393820384 + 0.000811996846 233.5640571669 + 0.000811296469 233.4831045104 + 0.000810680517 233.4113244795 + 0.000810282304 233.3639286620 + 0.000812760900 233.9076802914 + 0.000820925850 235.7150924596 + 0.000832573175 238.3638853561 + 0.000848316955 242.0343062681 + 0.000868916012 246.9479756809 + 0.000895330639 253.3841000111 + 0.000928799765 261.7018797273 + 0.000970950497 272.3725350544 + 0.001023959818 286.0265329852 + 0.001090802222 303.5256326373 + 0.001175644152 326.0771978751 + 0.000000234097 0.1697456998 + 0.000405898183 200.1351115440 + 0.000543169031 258.1617432073 + 0.000627617947 290.4267022419 + 0.000683065630 310.1639722514 + 0.000720206069 322.7988820846 + 0.000745337724 331.1333566426 + 0.000762580861 336.7883957460 + 0.000774744667 340.7721420362 + 0.000783784240 343.7473223111 + 0.000791085631 346.1716546201 + 0.000797655919 348.3773280484 + 0.000804252938 350.6188045989 + 0.000811475043 353.1032246504 + 0.000819824479 356.0109206978 + 0.000829753725 359.5102536534 + 0.000841701333 363.7692960869 + 0.000856121935 368.9660038657 + 0.000873513974 375.2980663515 + 0.000894448184 382.9934465169 + 0.000919599582 392.3225996164 + 0.000949786333 403.6135378684 + 0.000986019531 417.2712346235 + 0.001029569685 433.8034615995 + 0.001082058502 453.8561385511 + 0.001145589419 478.2629061873 + 0.000001077676 0.7762111323 + 0.000350522171 212.5080930362 + 0.000470283925 278.2403245680 + 0.000546151488 317.1977907714 + 0.000598581883 342.8387838626 + 0.000636445747 360.7314382464 + 0.000664762906 373.8085311080 + 0.000686732985 383.8082727663 + 0.000704525877 391.8392128087 + 0.000719672920 398.6482703557 + 0.000733291948 404.7637583816 + 0.000746228802 410.5780483674 + 0.000759151247 416.3983479474 + 0.000772613861 422.4796162884 + 0.000787104709 429.0471143139 + 0.000803080615 436.3128690813 + 0.000820995620 444.4886602905 + 0.000841325806 453.7972026871 + 0.000864593071 464.4827477206 + 0.000891389913 476.8220450639 + 0.000922407356 491.1365484096 + 0.000958468361 507.8067769078 + 0.001000569625 527.2898970739 + 0.001049935708 550.1418702350 + 0.001108091191 577.0459852663 + 0.001176959537 608.8504214744 + 0.000002945354 2.4664460074 + 0.000292007269 202.8211747475 + 0.000394103622 268.4492218926 + 0.000460989255 309.0860031721 + 0.000509324794 337.2006625087 + 0.000546177003 357.9382384011 + 0.000575470520 374.0204778855 + 0.000599687278 387.0767642348 + 0.000620518916 398.1614038611 + 0.000639179286 407.9975886556 + 0.000656577728 417.1073313393 + 0.000673425067 425.8867348720 + 0.000690303098 434.6524790427 + 0.000707712671 443.6721606183 + 0.000726108725 453.1851933692 + 0.000745927321 463.4180796628 + 0.000767607858 474.5963212083 + 0.000791612808 486.9544281731 + 0.000818446619 500.7449839268 + 0.000848675218 516.2474566760 + 0.000882947430 533.7772842003 + 0.000922019681 553.6956724084 + 0.000966785619 576.4205286879 + 0.001018312790 602.4390478721 + 0.001077889504 632.3228545777 + 0.001147087220 666.7478636393 diff --git a/mytest/CO2_conc_PR_IS.out b/mytest/CO2_conc_PR_IS.out index d34589f3..038a10c8 100644 --- a/mytest/CO2_conc_PR_IS.out +++ b/mytest/CO2_conc_PR_IS.out @@ -2316,7 +2316,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 218 Density (g/cm³) = 0.99212 Volume (L) = 1.02457 - Viscosity (mPa s) = 0.55590 + Viscosity (mPa s) = 0.55591 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.486e-04 Mass of water (kg) = 1.000e+00 @@ -2624,7 +2624,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 347 Density (g/cm³) = 1.00182 Volume (L) = 1.04797 - Viscosity (mPa s) = 0.57438 + Viscosity (mPa s) = 0.57439 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.949e-04 Mass of water (kg) = 1.000e+00 @@ -3009,7 +3009,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 382 Density (g/cm³) = 1.00744 Volume (L) = 1.04971 - Viscosity (mPa s) = 0.58047 + Viscosity (mPa s) = 0.58048 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.934e-04 Mass of water (kg) = 1.000e+00 @@ -3471,7 +3471,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 416 Density (g/cm³) = 1.01333 Volume (L) = 1.04861 - Viscosity (mPa s) = 0.58589 + Viscosity (mPa s) = 0.58590 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.846e-04 Mass of water (kg) = 1.000e+00 @@ -3779,7 +3779,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 437 Density (g/cm³) = 1.01705 Volume (L) = 1.04734 - Viscosity (mPa s) = 0.58920 + Viscosity (mPa s) = 0.58921 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.042e-03 Mass of water (kg) = 1.000e+00 @@ -3933,7 +3933,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 448 Density (g/cm³) = 1.01886 Volume (L) = 1.04659 - Viscosity (mPa s) = 0.59080 + Viscosity (mPa s) = 0.59081 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 1.000e+00 @@ -4087,7 +4087,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 458 Density (g/cm³) = 1.02065 Volume (L) = 1.04581 - Viscosity (mPa s) = 0.59238 + Viscosity (mPa s) = 0.59239 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.097e-03 Mass of water (kg) = 1.000e+00 @@ -4410,7 +4410,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 218 Density (g/cm³) = 0.97777 Volume (L) = 1.03466 - Viscosity (mPa s) = 0.38094 + Viscosity (mPa s) = 0.38095 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.605e-04 Mass of water (kg) = 1.000e+00 @@ -4487,7 +4487,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 286 Density (g/cm³) = 0.98028 Volume (L) = 1.04166 - Viscosity (mPa s) = 0.38356 + Viscosity (mPa s) = 0.38357 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.856e-04 Mass of water (kg) = 1.000e+00 @@ -4564,7 +4564,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 329 Density (g/cm³) = 0.98251 Volume (L) = 1.04736 - Viscosity (mPa s) = 0.38579 + Viscosity (mPa s) = 0.38580 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.704e-04 Mass of water (kg) = 1.000e+00 @@ -4718,7 +4718,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 380 Density (g/cm³) = 0.98619 Volume (L) = 1.05510 - Viscosity (mPa s) = 0.38928 + Viscosity (mPa s) = 0.38929 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.794e-04 Mass of water (kg) = 1.000e+00 @@ -4795,7 +4795,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 396 Density (g/cm³) = 0.98771 Volume (L) = 1.05738 - Viscosity (mPa s) = 0.39063 + Viscosity (mPa s) = 0.39064 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.153e-04 Mass of water (kg) = 1.000e+00 @@ -4872,7 +4872,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 409 Density (g/cm³) = 0.98907 Volume (L) = 1.05889 - Viscosity (mPa s) = 0.39179 + Viscosity (mPa s) = 0.39180 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.437e-04 Mass of water (kg) = 1.000e+00 @@ -4949,7 +4949,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 420 Density (g/cm³) = 0.99032 Volume (L) = 1.05988 - Viscosity (mPa s) = 0.39282 + Viscosity (mPa s) = 0.39283 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.673e-04 Mass of water (kg) = 1.000e+00 @@ -5026,7 +5026,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99150 Volume (L) = 1.06052 - Viscosity (mPa s) = 0.39377 + Viscosity (mPa s) = 0.39378 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.881e-04 Mass of water (kg) = 1.000e+00 @@ -5257,7 +5257,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.99479 Volume (L) = 1.06141 - Viscosity (mPa s) = 0.39636 + Viscosity (mPa s) = 0.39637 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.414e-04 Mass of water (kg) = 1.000e+00 @@ -5334,7 +5334,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 461 Density (g/cm³) = 0.99584 Volume (L) = 1.06149 - Viscosity (mPa s) = 0.39717 + Viscosity (mPa s) = 0.39718 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.575e-04 Mass of water (kg) = 1.000e+00 @@ -5719,7 +5719,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 495 Density (g/cm³) = 1.00085 Volume (L) = 1.06110 - Viscosity (mPa s) = 0.40103 + Viscosity (mPa s) = 0.40104 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.318e-04 Mass of water (kg) = 1.000e+00 @@ -5796,7 +5796,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 501 Density (g/cm³) = 1.00182 Volume (L) = 1.06092 - Viscosity (mPa s) = 0.40177 + Viscosity (mPa s) = 0.40178 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.458e-04 Mass of water (kg) = 1.000e+00 @@ -5873,7 +5873,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 507 Density (g/cm³) = 1.00278 Volume (L) = 1.06071 - Viscosity (mPa s) = 0.40251 + Viscosity (mPa s) = 0.40252 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.598e-04 Mass of water (kg) = 1.000e+00 @@ -5950,7 +5950,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 514 Density (g/cm³) = 1.00373 Volume (L) = 1.06047 - Viscosity (mPa s) = 0.40324 + Viscosity (mPa s) = 0.40325 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.734e-04 Mass of water (kg) = 1.000e+00 @@ -6027,7 +6027,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 520 Density (g/cm³) = 1.00467 Volume (L) = 1.06021 - Viscosity (mPa s) = 0.40397 + Viscosity (mPa s) = 0.40398 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.869e-04 Mass of water (kg) = 1.000e+00 @@ -6104,7 +6104,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 526 Density (g/cm³) = 1.00560 Volume (L) = 1.05993 - Viscosity (mPa s) = 0.40469 + Viscosity (mPa s) = 0.40470 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 @@ -6181,7 +6181,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 532 Density (g/cm³) = 1.00652 Volume (L) = 1.05964 - Viscosity (mPa s) = 0.40541 + Viscosity (mPa s) = 0.40542 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 1.000e+00 @@ -6258,7 +6258,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 538 Density (g/cm³) = 1.00744 Volume (L) = 1.05933 - Viscosity (mPa s) = 0.40612 + Viscosity (mPa s) = 0.40613 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.027e-03 Mass of water (kg) = 1.000e+00 @@ -6504,7 +6504,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 199 Density (g/cm³) = 0.96069 Volume (L) = 1.05063 - Viscosity (mPa s) = 0.28361 + Viscosity (mPa s) = 0.28362 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.852e-04 Mass of water (kg) = 1.000e+00 @@ -6658,7 +6658,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 309 Density (g/cm³) = 0.96477 Volume (L) = 1.06169 - Viscosity (mPa s) = 0.28650 + Viscosity (mPa s) = 0.28651 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.596e-04 Mass of water (kg) = 1.000e+00 @@ -6735,7 +6735,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 341 Density (g/cm³) = 0.96659 Volume (L) = 1.06599 - Viscosity (mPa s) = 0.28773 + Viscosity (mPa s) = 0.28774 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.148e-04 Mass of water (kg) = 1.000e+00 @@ -6812,7 +6812,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 365 Density (g/cm³) = 0.96828 Volume (L) = 1.06951 - Viscosity (mPa s) = 0.28886 + Viscosity (mPa s) = 0.28887 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.589e-04 Mass of water (kg) = 1.000e+00 @@ -6889,7 +6889,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 385 Density (g/cm³) = 0.96985 Volume (L) = 1.07233 - Viscosity (mPa s) = 0.28989 + Viscosity (mPa s) = 0.28990 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.950e-04 Mass of water (kg) = 1.000e+00 @@ -6966,7 +6966,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 401 Density (g/cm³) = 0.97132 Volume (L) = 1.07454 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29086 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.252e-04 Mass of water (kg) = 1.000e+00 @@ -7043,7 +7043,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 415 Density (g/cm³) = 0.97269 Volume (L) = 1.07625 - Viscosity (mPa s) = 0.29174 + Viscosity (mPa s) = 0.29175 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.512e-04 Mass of water (kg) = 1.000e+00 @@ -7120,7 +7120,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 426 Density (g/cm³) = 0.97400 Volume (L) = 1.07756 - Viscosity (mPa s) = 0.29259 + Viscosity (mPa s) = 0.29260 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.740e-04 Mass of water (kg) = 1.000e+00 @@ -7197,7 +7197,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 437 Density (g/cm³) = 0.97526 Volume (L) = 1.07857 - Viscosity (mPa s) = 0.29339 + Viscosity (mPa s) = 0.29340 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.945e-04 Mass of water (kg) = 1.000e+00 @@ -7274,7 +7274,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 447 Density (g/cm³) = 0.97647 Volume (L) = 1.07935 - Viscosity (mPa s) = 0.29417 + Viscosity (mPa s) = 0.29418 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.134e-04 Mass of water (kg) = 1.000e+00 @@ -7351,7 +7351,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 456 Density (g/cm³) = 0.97765 Volume (L) = 1.07995 - Viscosity (mPa s) = 0.29493 + Viscosity (mPa s) = 0.29494 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.310e-04 Mass of water (kg) = 1.000e+00 @@ -7428,7 +7428,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 464 Density (g/cm³) = 0.97880 Volume (L) = 1.08041 - Viscosity (mPa s) = 0.29567 + Viscosity (mPa s) = 0.29568 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.476e-04 Mass of water (kg) = 1.000e+00 @@ -7505,7 +7505,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 472 Density (g/cm³) = 0.97992 Volume (L) = 1.08076 - Viscosity (mPa s) = 0.29639 + Viscosity (mPa s) = 0.29640 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.636e-04 Mass of water (kg) = 1.000e+00 @@ -7582,7 +7582,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 480 Density (g/cm³) = 0.98103 Volume (L) = 1.08102 - Viscosity (mPa s) = 0.29711 + Viscosity (mPa s) = 0.29712 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.788e-04 Mass of water (kg) = 1.000e+00 @@ -7659,7 +7659,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 488 Density (g/cm³) = 0.98212 Volume (L) = 1.08120 - Viscosity (mPa s) = 0.29781 + Viscosity (mPa s) = 0.29782 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.936e-04 Mass of water (kg) = 1.000e+00 @@ -7736,7 +7736,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 495 Density (g/cm³) = 0.98319 Volume (L) = 1.08132 - Viscosity (mPa s) = 0.29850 + Viscosity (mPa s) = 0.29851 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.081e-04 Mass of water (kg) = 1.000e+00 @@ -7813,7 +7813,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 502 Density (g/cm³) = 0.98425 Volume (L) = 1.08138 - Viscosity (mPa s) = 0.29919 + Viscosity (mPa s) = 0.29920 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.221e-04 Mass of water (kg) = 1.000e+00 @@ -7890,7 +7890,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 509 Density (g/cm³) = 0.98529 Volume (L) = 1.08139 - Viscosity (mPa s) = 0.29987 + Viscosity (mPa s) = 0.29988 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.359e-04 Mass of water (kg) = 1.000e+00 @@ -7967,7 +7967,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 516 Density (g/cm³) = 0.98633 Volume (L) = 1.08138 - Viscosity (mPa s) = 0.30055 + Viscosity (mPa s) = 0.30056 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.494e-04 Mass of water (kg) = 1.000e+00 @@ -8044,7 +8044,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 523 Density (g/cm³) = 0.98735 Volume (L) = 1.08131 - Viscosity (mPa s) = 0.30122 + Viscosity (mPa s) = 0.30123 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.627e-04 Mass of water (kg) = 1.000e+00 @@ -8121,7 +8121,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 529 Density (g/cm³) = 0.98836 Volume (L) = 1.08121 - Viscosity (mPa s) = 0.30189 + Viscosity (mPa s) = 0.30190 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.757e-04 Mass of water (kg) = 1.000e+00 @@ -8198,7 +8198,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 536 Density (g/cm³) = 0.98937 Volume (L) = 1.08109 - Viscosity (mPa s) = 0.30255 + Viscosity (mPa s) = 0.30256 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.887e-04 Mass of water (kg) = 1.000e+00 @@ -8275,7 +8275,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 542 Density (g/cm³) = 0.99036 Volume (L) = 1.08094 - Viscosity (mPa s) = 0.30321 + Viscosity (mPa s) = 0.30322 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.014e-04 Mass of water (kg) = 1.000e+00 @@ -8352,7 +8352,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 549 Density (g/cm³) = 0.99135 Volume (L) = 1.08076 - Viscosity (mPa s) = 0.30386 + Viscosity (mPa s) = 0.30387 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.140e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/CO2_conc_PR_IS_101.sel b/mytest/CO2_conc_PR_IS_101.sel index ac2a345d..64ab949d 100644 --- a/mytest/CO2_conc_PR_IS_101.sel +++ b/mytest/CO2_conc_PR_IS_101.sel @@ -1,109 +1,109 @@ Mu SC 0.000000100661 0.0546997340 - 0.000130281239 50.3548451279 - 0.000541610367 182.5226844121 - 0.000708420426 217.2497974034 - 0.000802150277 232.0255713602 - 0.000826456976 236.8180451941 - 0.000843798628 240.7937790115 - 0.000860217654 244.6602425500 - 0.000876114172 248.4671795985 - 0.000891635179 252.2341616799 - 0.000906855947 255.9719397638 - 0.000921869753 259.6918311210 - 0.000936720457 263.3996704568 - 0.000951420229 267.0980117642 - 0.000966007403 270.7914260347 - 0.000980534649 274.4852957896 - 0.000994932535 278.1746047413 - 0.001009278447 281.8664890624 - 0.001023633273 285.5662289645 - 0.001037875282 289.2646830025 - 0.001052107513 292.9703389598 - 0.001066393942 296.6881663283 - 0.001080564230 300.4057850884 - 0.001094699017 304.1295810427 - 0.001108909432 307.8676247177 - 0.001123034037 311.6086942180 - 0.001137206445 315.3622696584 + 0.000130281239 50.3548452201 + 0.000541610367 182.5226850548 + 0.000708420426 217.2497982427 + 0.000802150277 232.0255722889 + 0.000826456976 236.8180461510 + 0.000843798628 240.7937799916 + 0.000860217654 244.6602435527 + 0.000876114172 248.4671806235 + 0.000891635179 252.2341627272 + 0.000906855947 255.9719408332 + 0.000921869753 259.6918322125 + 0.000936720457 263.3996715705 + 0.000951420229 267.0980129002 + 0.000966007403 270.7914271930 + 0.000980534649 274.4852969703 + 0.000994932535 278.1746059445 + 0.001009278447 281.8664902883 + 0.001023633273 285.5662302132 + 0.001037875282 289.2646842741 + 0.001052107513 292.9703402545 + 0.001066393942 296.6881676462 + 0.001080564230 300.4057864297 + 0.001094699017 304.1295824076 + 0.001108909432 307.8676261063 + 0.001123034037 311.6086956305 + 0.001137206445 315.3622710949 0.000000100661 0.0546997340 - 0.000106327497 54.9806597387 - 0.000448608549 218.8908565428 - 0.000597064840 279.0595495021 - 0.000691918032 313.2007911943 - 0.000754992789 334.2704515876 - 0.000794890213 347.3591429911 - 0.000820394233 356.0501688945 - 0.000840949365 363.2814491345 - 0.000859467337 369.9127199284 - 0.000876805918 376.1975123589 - 0.000893387747 382.2595740356 - 0.000909423312 388.1612514092 - 0.000925021488 393.9359484274 - 0.000940284223 399.6133719368 - 0.000955307608 405.2201856766 - 0.000970049693 410.7489705097 - 0.000984612223 416.2262608847 - 0.000999073136 421.6718559144 - 0.001013322152 427.0614840232 - 0.001027473684 432.4229044079 - 0.001041599427 437.7731432325 - 0.001055536246 443.0761916412 - 0.001069370575 448.3525112088 - 0.001083216826 453.6279467020 - 0.001096919570 458.8687998073 - 0.001110613800 464.1050903144 + 0.000106327497 54.9803308169 + 0.000448608549 218.8882197381 + 0.000597064840 279.0557318917 + 0.000691918032 313.1962337970 + 0.000754992789 334.2654141994 + 0.000794890213 347.3538009019 + 0.000820394233 356.0446240074 + 0.000840949365 363.2757352462 + 0.000859467337 369.9068504700 + 0.000876805918 376.1914947884 + 0.000893387747 382.2534128914 + 0.000909423312 388.1549497758 + 0.000925021488 393.9295086309 + 0.000940284223 399.6067956086 + 0.000955307608 405.2134738060 + 0.000970049693 410.7421243370 + 0.000984612223 416.2192809848 + 0.000999073136 421.6647423581 + 0.001013322152 427.0542375740 + 0.001027473684 432.4155250980 + 0.001041599427 437.7656306399 + 0.001055536246 443.0685463674 + 0.001069370575 448.3447333077 + 0.001083216826 453.6200355105 + 0.001096919570 458.8607556334 + 0.001110613800 464.0969126228 0.000000100661 0.0546997340 - 0.000084560584 53.1058321831 - 0.000360537438 218.5762693652 - 0.000485620040 286.6626896197 - 0.000570447152 329.5605854849 - 0.000632546185 359.2384001340 - 0.000679381695 380.7670811434 - 0.000715260284 396.9131246605 - 0.000743684371 409.6193450222 - 0.000767344254 420.2150412917 - 0.000788071805 429.5397762276 - 0.000806974513 438.0796247287 - 0.000824644864 446.0911920596 - 0.000841409145 453.7159936082 - 0.000857501586 461.0533123637 - 0.000873101682 468.1771789317 - 0.000888223667 475.0998778418 - 0.000903008249 481.8765491986 - 0.000917559630 488.5472317900 - 0.000931792044 495.0859644661 - 0.000945833050 501.5391552957 - 0.000959763704 507.9359016158 - 0.000973438390 514.2297574165 - 0.000986948459 520.4530385052 - 0.001000408911 526.6444913631 - 0.001013678508 532.7595711720 - 0.001026889296 538.8418777027 + 0.000084560584 53.1051820725 + 0.000360537438 218.5707978571 + 0.000485620040 286.6544278812 + 0.000570447152 329.5503591511 + 0.000632546185 359.2267249785 + 0.000679381695 380.7543116603 + 0.000715260284 396.8995132266 + 0.000743684371 409.6050604158 + 0.000767344254 420.2001894661 + 0.000788071805 429.5244212465 + 0.000806974513 438.0638056914 + 0.000824644864 446.0749348014 + 0.000841409145 453.6993166853 + 0.000857501586 461.0362291527 + 0.000873101682 468.1596988773 + 0.000888223667 475.0820100248 + 0.000903008249 481.8582996602 + 0.000917559630 488.5286043386 + 0.000931792044 495.0669647099 + 0.000945833050 501.5197861329 + 0.000959763704 507.9161642354 + 0.000973438390 514.2096560708 + 0.000986948459 520.4325755211 + 0.001000408911 526.6236666609 + 0.001013678508 532.7383876352 + 0.001026889296 538.8203354578 0.000000100661 0.0546997340 - 0.000066361298 47.7050217002 - 0.000285191246 199.4911647190 - 0.000387550887 265.5188659927 - 0.000459578861 309.3688208318 - 0.000514796530 341.3952993675 - 0.000558899740 365.9955502415 - 0.000594968336 385.5254864596 - 0.000625238782 401.5705372791 - 0.000651207779 415.1418574787 - 0.000674007141 426.9525706203 - 0.000694536331 437.5292831444 - 0.000713401166 447.2152083316 - 0.000731001502 456.2328291603 - 0.000747646318 464.7474949372 - 0.000763574372 472.8826558590 - 0.000778848519 480.6801612444 - 0.000793642268 488.2244193433 - 0.000808082783 495.5760721523 - 0.000822111044 502.7180113284 - 0.000835864739 509.7115145829 - 0.000849432558 516.5956523001 - 0.000862690248 523.3255953052 - 0.000875731959 529.9417133230 - 0.000888670636 536.4896078370 - 0.000901382667 542.9247466729 - 0.000913994084 549.2965254342 + 0.000066361298 47.7041408439 + 0.000285191246 199.4835782384 + 0.000387550887 265.5071586890 + 0.000459578861 309.3540355942 + 0.000514796530 341.3781006828 + 0.000558899740 365.9764056144 + 0.000594968336 385.5047423770 + 0.000625238782 401.5484451738 + 0.000651207779 415.1186031776 + 0.000674007141 426.9282899246 + 0.000694536331 437.5040723146 + 0.000713401166 447.1891371163 + 0.000731001502 456.2059498765 + 0.000747646318 464.7198465525 + 0.000763574372 472.8542671200 + 0.000778848519 480.6510580852 + 0.000793642268 488.1946203797 + 0.000808082783 495.5455906811 + 0.000822111044 502.6868629914 + 0.000835864739 509.6797093339 + 0.000849432558 516.5631964600 + 0.000862690248 523.2925002144 + 0.000875731959 529.9079864751 + 0.000888670636 536.4552521631 + 0.000901382667 542.8897700817 + 0.000913994084 549.2609307663 diff --git a/mytest/CO2_sp_IS.out b/mytest/CO2_sp_IS.out index 627c6e72..488b9d99 100644 --- a/mytest/CO2_sp_IS.out +++ b/mytest/CO2_sp_IS.out @@ -4018,7 +4018,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 219 Density (g/cm³) = 0.99213 Volume (L) = 1.02460 - Viscosity (mPa s) = 0.55558 + Viscosity (mPa s) = 0.55559 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.544e-04 Mass of water (kg) = 1.000e+00 @@ -4184,7 +4184,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 276 Density (g/cm³) = 0.99542 Volume (L) = 1.03399 - Viscosity (mPa s) = 0.56257 + Viscosity (mPa s) = 0.56258 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.049e-04 Mass of water (kg) = 1.000e+00 @@ -4435,7 +4435,7 @@ CO2(g) 1.53 -0.20 -1.73 1.000e+01 1.060e+01 5.964e-01 Specific Conductance (µS/cm, 50°C) = 276 Density (g/cm³) = 0.99542 Volume (L) = 1.03393 - Viscosity (mPa s) = 0.56257 + Viscosity (mPa s) = 0.56258 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.048e-04 Mass of water (kg) = 1.000e+00 @@ -4682,7 +4682,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 337 Density (g/cm³) = 1.00194 Volume (L) = 1.04851 - Viscosity (mPa s) = 0.57488 + Viscosity (mPa s) = 0.57489 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.055e-04 Mass of water (kg) = 1.000e+00 @@ -4767,7 +4767,7 @@ CO2(g) 1.74 -0.02 -1.76 1.000e+01 2.123e+01 1.123e+01 Specific Conductance (µS/cm, 50°C) = 326 Density (g/cm³) = 1.00030 Volume (L) = 1.04585 - Viscosity (mPa s) = 0.57218 + Viscosity (mPa s) = 0.57219 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.650e-04 Mass of water (kg) = 1.000e+00 @@ -4933,7 +4933,7 @@ CO2(g) 1.79 0.02 -1.77 1.000e+01 1.851e+01 8.512e+00 Specific Conductance (µS/cm, 50°C) = 337 Density (g/cm³) = 1.00197 Volume (L) = 1.04793 - Viscosity (mPa s) = 0.57486 + Viscosity (mPa s) = 0.57487 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.054e-04 Mass of water (kg) = 9.996e-01 @@ -5014,7 +5014,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 351 Density (g/cm³) = 1.00440 Volume (L) = 1.05008 - Viscosity (mPa s) = 0.57794 + Viscosity (mPa s) = 0.57795 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.524e-04 Mass of water (kg) = 1.000e+00 @@ -5431,7 +5431,7 @@ CO2(g) 1.87 0.06 -1.81 1.000e+01 1.419e+01 4.190e+00 Specific Conductance (µS/cm, 50°C) = 357 Density (g/cm³) = 1.00558 Volume (L) = 1.04833 - Viscosity (mPa s) = 0.57909 + Viscosity (mPa s) = 0.57910 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.710e-04 Mass of water (kg) = 9.984e-01 @@ -5929,7 +5929,7 @@ CO2(g) 1.92 0.08 -1.84 1.000e+01 1.321e+01 3.206e+00 Specific Conductance (µS/cm, 50°C) = 374 Density (g/cm³) = 1.00874 Volume (L) = 1.04779 - Viscosity (mPa s) = 0.58225 + Viscosity (mPa s) = 0.58226 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.220e-04 Mass of water (kg) = 9.978e-01 @@ -6261,7 +6261,7 @@ CO2(g) 1.96 0.10 -1.86 1.000e+01 1.285e+01 2.852e+00 Specific Conductance (µS/cm, 50°C) = 385 Density (g/cm³) = 1.01074 Volume (L) = 1.04725 - Viscosity (mPa s) = 0.58417 + Viscosity (mPa s) = 0.58418 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.537e-04 Mass of water (kg) = 9.976e-01 @@ -6671,7 +6671,7 @@ Initial solution 1. pH = 3.016 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 405 + Specific Conductance (µS/cm, 50°C) = 404 Density (g/cm³) = 1.01451 Volume (L) = 1.04938 Viscosity (mPa s) = 0.58787 @@ -6840,7 +6840,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 409 Density (g/cm³) = 1.01545 Volume (L) = 1.04910 - Viscosity (mPa s) = 0.58873 + Viscosity (mPa s) = 0.58874 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.030e-03 Mass of water (kg) = 1.000e+00 @@ -6925,7 +6925,7 @@ CO2(g) 2.02 0.11 -1.91 1.000e+01 1.241e+01 2.409e+00 Specific Conductance (µS/cm, 50°C) = 405 Density (g/cm³) = 1.01461 Volume (L) = 1.04594 - Viscosity (mPa s) = 0.58776 + Viscosity (mPa s) = 0.58777 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 9.972e-01 @@ -7091,7 +7091,7 @@ CO2(g) 2.04 0.12 -1.92 1.000e+01 1.233e+01 2.329e+00 Specific Conductance (µS/cm, 50°C) = 410 Density (g/cm³) = 1.01555 Volume (L) = 1.04558 - Viscosity (mPa s) = 0.58862 + Viscosity (mPa s) = 0.58863 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.029e-03 Mass of water (kg) = 9.971e-01 @@ -7257,7 +7257,7 @@ CO2(g) 2.05 0.12 -1.93 1.000e+01 1.226e+01 2.258e+00 Specific Conductance (µS/cm, 50°C) = 415 Density (g/cm³) = 1.01648 Volume (L) = 1.04520 - Viscosity (mPa s) = 0.58947 + Viscosity (mPa s) = 0.58948 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.044e-03 Mass of water (kg) = 9.971e-01 @@ -7338,7 +7338,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 424 Density (g/cm³) = 1.01822 Volume (L) = 1.04816 - Viscosity (mPa s) = 0.59127 + Viscosity (mPa s) = 0.59128 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.074e-03 Mass of water (kg) = 1.000e+00 @@ -7589,7 +7589,7 @@ CO2(g) 2.09 0.13 -1.96 1.000e+01 1.213e+01 2.132e+00 Specific Conductance (µS/cm, 50°C) = 425 Density (g/cm³) = 1.01833 Volume (L) = 1.04442 - Viscosity (mPa s) = 0.59115 + Viscosity (mPa s) = 0.59116 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.073e-03 Mass of water (kg) = 9.970e-01 @@ -7670,7 +7670,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 434 Density (g/cm³) = 1.02004 Volume (L) = 1.04745 - Viscosity (mPa s) = 0.59292 + Viscosity (mPa s) = 0.59293 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.103e-03 Mass of water (kg) = 1.000e+00 @@ -7755,7 +7755,7 @@ CO2(g) 2.10 0.13 -1.97 1.000e+01 1.208e+01 2.078e+00 Specific Conductance (µS/cm, 50°C) = 430 Density (g/cm³) = 1.01923 Volume (L) = 1.04401 - Viscosity (mPa s) = 0.59197 + Viscosity (mPa s) = 0.59198 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.087e-03 Mass of water (kg) = 9.969e-01 @@ -8168,7 +8168,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 449 Density (g/cm³) = 1.02270 Volume (L) = 1.04631 - Viscosity (mPa s) = 0.59535 + Viscosity (mPa s) = 0.59536 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.146e-03 Mass of water (kg) = 1.000e+00 @@ -8253,7 +8253,7 @@ CO2(g) 2.14 0.14 -2.00 1.000e+01 1.194e+01 1.937e+00 Specific Conductance (µS/cm, 50°C) = 445 Density (g/cm³) = 1.02192 Volume (L) = 1.04275 - Viscosity (mPa s) = 0.59441 + Viscosity (mPa s) = 0.59442 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.130e-03 Mass of water (kg) = 9.968e-01 @@ -9083,7 +9083,7 @@ CO2(g) 2.21 0.16 -2.06 1.000e+01 1.176e+01 1.758e+00 Specific Conductance (µS/cm, 50°C) = 469 Density (g/cm³) = 1.02627 Volume (L) = 1.04054 - Viscosity (mPa s) = 0.59838 + Viscosity (mPa s) = 0.59839 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 9.966e-01 @@ -9330,7 +9330,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 483 Density (g/cm³) = 1.02872 Volume (L) = 1.04337 - Viscosity (mPa s) = 0.60088 + Viscosity (mPa s) = 0.60089 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.245e-03 Mass of water (kg) = 1.000e+00 @@ -9496,7 +9496,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 488 Density (g/cm³) = 1.02956 Volume (L) = 1.04292 - Viscosity (mPa s) = 0.60165 + Viscosity (mPa s) = 0.60166 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.259e-03 Mass of water (kg) = 1.000e+00 @@ -9662,7 +9662,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 493 Density (g/cm³) = 1.03039 Volume (L) = 1.04247 - Viscosity (mPa s) = 0.60243 + Viscosity (mPa s) = 0.60244 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.274e-03 Mass of water (kg) = 1.000e+00 @@ -9747,7 +9747,7 @@ CO2(g) 2.27 0.16 -2.10 1.000e+01 1.165e+01 1.645e+00 Specific Conductance (µS/cm, 50°C) = 489 Density (g/cm³) = 1.02965 Volume (L) = 1.03868 - Viscosity (mPa s) = 0.60150 + Viscosity (mPa s) = 0.60151 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.258e-03 Mass of water (kg) = 9.965e-01 @@ -9994,7 +9994,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 503 Density (g/cm³) = 1.03204 Volume (L) = 1.04155 - Viscosity (mPa s) = 0.60398 + Viscosity (mPa s) = 0.60399 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.302e-03 Mass of water (kg) = 1.000e+00 @@ -10160,7 +10160,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 508 Density (g/cm³) = 1.03286 Volume (L) = 1.04108 - Viscosity (mPa s) = 0.60474 + Viscosity (mPa s) = 0.60475 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.316e-03 Mass of water (kg) = 1.000e+00 @@ -10411,7 +10411,7 @@ CO2(g) 2.32 0.17 -2.15 1.000e+01 1.155e+01 1.553e+00 Specific Conductance (µS/cm, 50°C) = 509 Density (g/cm³) = 1.03295 Volume (L) = 1.03678 - Viscosity (mPa s) = 0.60458 + Viscosity (mPa s) = 0.60459 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.315e-03 Mass of water (kg) = 9.965e-01 @@ -10577,7 +10577,7 @@ CO2(g) 2.33 0.17 -2.16 1.000e+01 1.153e+01 1.532e+00 Specific Conductance (µS/cm, 50°C) = 514 Density (g/cm³) = 1.03377 Volume (L) = 1.03630 - Viscosity (mPa s) = 0.60535 + Viscosity (mPa s) = 0.60536 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.329e-03 Mass of water (kg) = 9.965e-01 @@ -10658,7 +10658,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 523 Density (g/cm³) = 1.03529 Volume (L) = 1.03967 - Viscosity (mPa s) = 0.60705 + Viscosity (mPa s) = 0.60706 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.359e-03 Mass of water (kg) = 1.000e+00 @@ -10743,7 +10743,7 @@ CO2(g) 2.35 0.18 -2.17 1.000e+01 1.151e+01 1.511e+00 Specific Conductance (µS/cm, 50°C) = 519 Density (g/cm³) = 1.03458 Volume (L) = 1.03581 - Viscosity (mPa s) = 0.60612 + Viscosity (mPa s) = 0.60613 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.343e-03 Mass of water (kg) = 9.965e-01 @@ -10824,7 +10824,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 528 Density (g/cm³) = 1.03609 Volume (L) = 1.03917 - Viscosity (mPa s) = 0.60781 + Viscosity (mPa s) = 0.60782 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.373e-03 Mass of water (kg) = 1.000e+00 @@ -10990,7 +10990,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 533 Density (g/cm³) = 1.03689 Volume (L) = 1.03871 - Viscosity (mPa s) = 0.60859 + Viscosity (mPa s) = 0.60860 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.388e-03 Mass of water (kg) = 1.000e+00 @@ -11075,7 +11075,7 @@ CO2(g) 2.37 0.18 -2.19 1.000e+01 1.147e+01 1.474e+00 Specific Conductance (µS/cm, 50°C) = 529 Density (g/cm³) = 1.03618 Volume (L) = 1.03484 - Viscosity (mPa s) = 0.60765 + Viscosity (mPa s) = 0.60766 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.372e-03 Mass of water (kg) = 9.964e-01 @@ -11156,7 +11156,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 538 Density (g/cm³) = 1.03768 Volume (L) = 1.03821 - Viscosity (mPa s) = 0.60935 + Viscosity (mPa s) = 0.60936 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.402e-03 Mass of water (kg) = 1.000e+00 @@ -11241,7 +11241,7 @@ CO2(g) 2.38 0.18 -2.20 1.000e+01 1.146e+01 1.455e+00 Specific Conductance (µS/cm, 50°C) = 534 Density (g/cm³) = 1.03698 Volume (L) = 1.03434 - Viscosity (mPa s) = 0.60842 + Viscosity (mPa s) = 0.60843 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.386e-03 Mass of water (kg) = 9.964e-01 @@ -11322,7 +11322,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 543 Density (g/cm³) = 1.03847 Volume (L) = 1.03773 - Viscosity (mPa s) = 0.61012 + Viscosity (mPa s) = 0.61013 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.416e-03 Mass of water (kg) = 1.000e+00 @@ -11407,7 +11407,7 @@ CO2(g) 2.40 0.18 -2.22 1.000e+01 1.144e+01 1.439e+00 Specific Conductance (µS/cm, 50°C) = 539 Density (g/cm³) = 1.03777 Volume (L) = 1.03385 - Viscosity (mPa s) = 0.60918 + Viscosity (mPa s) = 0.60919 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.400e-03 Mass of water (kg) = 9.964e-01 @@ -11573,7 +11573,7 @@ CO2(g) 2.41 0.18 -2.23 1.000e+01 1.142e+01 1.421e+00 Specific Conductance (µS/cm, 50°C) = 544 Density (g/cm³) = 1.03856 Volume (L) = 1.03335 - Viscosity (mPa s) = 0.60995 + Viscosity (mPa s) = 0.60996 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.415e-03 Mass of water (kg) = 9.964e-01 @@ -11820,7 +11820,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 558 Density (g/cm³) = 1.04082 Volume (L) = 1.03625 - Viscosity (mPa s) = 0.61242 + Viscosity (mPa s) = 0.61243 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.459e-03 Mass of water (kg) = 1.000e+00 @@ -11905,7 +11905,7 @@ CO2(g) 2.44 0.19 -2.25 1.000e+01 1.139e+01 1.390e+00 Specific Conductance (µS/cm, 50°C) = 554 Density (g/cm³) = 1.04012 Volume (L) = 1.03236 - Viscosity (mPa s) = 0.61148 + Viscosity (mPa s) = 0.61149 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.443e-03 Mass of water (kg) = 9.964e-01 @@ -11986,7 +11986,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 563 Density (g/cm³) = 1.04159 Volume (L) = 1.03574 - Viscosity (mPa s) = 0.61318 + Viscosity (mPa s) = 0.61319 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.474e-03 Mass of water (kg) = 1.000e+00 @@ -12071,7 +12071,7 @@ CO2(g) 2.45 0.19 -2.26 1.000e+01 1.137e+01 1.374e+00 Specific Conductance (µS/cm, 50°C) = 559 Density (g/cm³) = 1.04090 Volume (L) = 1.03186 - Viscosity (mPa s) = 0.61225 + Viscosity (mPa s) = 0.61226 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.458e-03 Mass of water (kg) = 9.964e-01 @@ -12246,7 +12246,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 53 Density (g/cm³) = 0.97496 Volume (L) = 1.02635 - Viscosity (mPa s) = 0.37759 + Viscosity (mPa s) = 0.37760 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.560e-05 Mass of water (kg) = 1.000e+00 @@ -12327,7 +12327,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 220 Density (g/cm³) = 0.97776 Volume (L) = 1.03463 - Viscosity (mPa s) = 0.38067 + Viscosity (mPa s) = 0.38068 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.651e-04 Mass of water (kg) = 1.000e+00 @@ -12412,7 +12412,7 @@ CO2(g) 0.04 -1.83 -1.87 1.000e+01 1.026e+01 2.557e-01 Specific Conductance (µS/cm, 75°C) = 53 Density (g/cm³) = 0.97497 Volume (L) = 1.02617 - Viscosity (mPa s) = 0.37760 + Viscosity (mPa s) = 0.37761 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.560e-05 Mass of water (kg) = 9.998e-01 @@ -12493,7 +12493,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 287 Density (g/cm³) = 0.98027 Volume (L) = 1.04162 - Viscosity (mPa s) = 0.38337 + Viscosity (mPa s) = 0.38338 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.918e-04 Mass of water (kg) = 1.000e+00 @@ -12578,7 +12578,7 @@ CO2(g) 1.29 -0.59 -1.89 1.000e+01 1.040e+01 4.011e-01 Specific Conductance (µS/cm, 75°C) = 220 Density (g/cm³) = 0.97778 Volume (L) = 1.03439 - Viscosity (mPa s) = 0.38068 + Viscosity (mPa s) = 0.38069 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.651e-04 Mass of water (kg) = 9.998e-01 @@ -12825,7 +12825,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 356 Density (g/cm³) = 0.98448 Volume (L) = 1.05185 - Viscosity (mPa s) = 0.38777 + Viscosity (mPa s) = 0.38778 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.407e-04 Mass of water (kg) = 1.000e+00 @@ -12910,7 +12910,7 @@ CO2(g) 1.69 -0.21 -1.91 1.000e+01 1.227e+01 2.269e+00 Specific Conductance (µS/cm, 75°C) = 328 Density (g/cm³) = 0.98253 Volume (L) = 1.04693 - Viscosity (mPa s) = 0.38575 + Viscosity (mPa s) = 0.38576 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.777e-04 Mass of water (kg) = 9.997e-01 @@ -12991,7 +12991,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 376 Density (g/cm³) = 0.98622 Volume (L) = 1.05522 - Viscosity (mPa s) = 0.38950 + Viscosity (mPa s) = 0.38951 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.882e-04 Mass of water (kg) = 1.000e+00 @@ -13157,7 +13157,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 391 Density (g/cm³) = 0.98775 Volume (L) = 1.05758 - Viscosity (mPa s) = 0.39096 + Viscosity (mPa s) = 0.39097 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.245e-04 Mass of water (kg) = 1.000e+00 @@ -13242,7 +13242,7 @@ CO2(g) 1.85 -0.08 -1.93 1.000e+01 2.226e+01 1.226e+01 Specific Conductance (µS/cm, 75°C) = 376 Density (g/cm³) = 0.98626 Volume (L) = 1.05446 - Viscosity (mPa s) = 0.38952 + Viscosity (mPa s) = 0.38953 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.880e-04 Mass of water (kg) = 9.994e-01 @@ -13323,7 +13323,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 403 Density (g/cm³) = 0.98912 Volume (L) = 1.05917 - Viscosity (mPa s) = 0.39221 + Viscosity (mPa s) = 0.39222 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.534e-04 Mass of water (kg) = 1.000e+00 @@ -13489,7 +13489,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 412 Density (g/cm³) = 0.99039 Volume (L) = 1.06023 - Viscosity (mPa s) = 0.39332 + Viscosity (mPa s) = 0.39333 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.774e-04 Mass of water (kg) = 1.000e+00 @@ -13574,7 +13574,7 @@ CO2(g) 1.93 -0.02 -1.95 1.000e+01 1.984e+01 9.842e+00 Specific Conductance (µS/cm, 75°C) = 403 Density (g/cm³) = 0.98921 Volume (L) = 1.05730 - Viscosity (mPa s) = 0.39224 + Viscosity (mPa s) = 0.39225 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.531e-04 Mass of water (kg) = 9.985e-01 @@ -13655,7 +13655,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 421 Density (g/cm³) = 0.99158 Volume (L) = 1.06094 - Viscosity (mPa s) = 0.39433 + Viscosity (mPa s) = 0.39434 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.985e-04 Mass of water (kg) = 1.000e+00 @@ -13906,7 +13906,7 @@ CO2(g) 1.99 0.01 -1.98 1.000e+01 1.777e+01 7.770e+00 Specific Conductance (µS/cm, 75°C) = 421 Density (g/cm³) = 0.99170 Volume (L) = 1.05790 - Viscosity (mPa s) = 0.39437 + Viscosity (mPa s) = 0.39438 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.980e-04 Mass of water (kg) = 9.976e-01 @@ -14072,7 +14072,7 @@ CO2(g) 2.01 0.02 -1.99 1.000e+01 1.709e+01 7.090e+00 Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99286 Volume (L) = 1.05793 - Viscosity (mPa s) = 0.39533 + Viscosity (mPa s) = 0.39534 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.172e-04 Mass of water (kg) = 9.972e-01 @@ -14238,7 +14238,7 @@ CO2(g) 2.03 0.03 -2.00 1.000e+01 1.656e+01 6.560e+00 Specific Conductance (µS/cm, 75°C) = 437 Density (g/cm³) = 0.99398 Volume (L) = 1.05786 - Viscosity (mPa s) = 0.39624 + Viscosity (mPa s) = 0.39625 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.351e-04 Mass of water (kg) = 9.969e-01 @@ -14319,7 +14319,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 450 Density (g/cm³) = 0.99597 Volume (L) = 1.06214 - Viscosity (mPa s) = 0.39793 + Viscosity (mPa s) = 0.39794 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.692e-04 Mass of water (kg) = 1.000e+00 @@ -14485,7 +14485,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 457 Density (g/cm³) = 0.99701 Volume (L) = 1.06222 - Viscosity (mPa s) = 0.39877 + Viscosity (mPa s) = 0.39878 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.852e-04 Mass of water (kg) = 1.000e+00 @@ -14567,10 +14567,10 @@ CO2(g) 2.07 0.05 -2.02 1.000e+01 1.579e+01 5.791e+00 pH = 3.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 451 + Specific Conductance (µS/cm, 75°C) = 450 Density (g/cm³) = 0.99614 Volume (L) = 1.05757 - Viscosity (mPa s) = 0.39798 + Viscosity (mPa s) = 0.39799 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.685e-04 Mass of water (kg) = 9.963e-01 @@ -14651,7 +14651,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 463 Density (g/cm³) = 0.99804 Volume (L) = 1.06223 - Viscosity (mPa s) = 0.39959 + Viscosity (mPa s) = 0.39960 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.007e-04 Mass of water (kg) = 1.000e+00 @@ -14736,7 +14736,7 @@ CO2(g) 2.09 0.06 -2.03 1.000e+01 1.550e+01 5.498e+00 Specific Conductance (µS/cm, 75°C) = 457 Density (g/cm³) = 0.99719 Volume (L) = 1.05737 - Viscosity (mPa s) = 0.39882 + Viscosity (mPa s) = 0.39883 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.844e-04 Mass of water (kg) = 9.961e-01 @@ -14814,10 +14814,10 @@ Initial solution 1. pH = 3.060 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 470 + Specific Conductance (µS/cm, 75°C) = 469 Density (g/cm³) = 0.99905 Volume (L) = 1.06220 - Viscosity (mPa s) = 0.40040 + Viscosity (mPa s) = 0.40041 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.158e-04 Mass of water (kg) = 1.000e+00 @@ -14902,7 +14902,7 @@ CO2(g) 2.11 0.06 -2.04 1.000e+01 1.525e+01 5.250e+00 Specific Conductance (µS/cm, 75°C) = 464 Density (g/cm³) = 0.99821 Volume (L) = 1.05714 - Viscosity (mPa s) = 0.39964 + Viscosity (mPa s) = 0.39965 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.998e-04 Mass of water (kg) = 9.959e-01 @@ -15149,7 +15149,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 482 Density (g/cm³) = 1.00103 Volume (L) = 1.06202 - Viscosity (mPa s) = 0.40198 + Viscosity (mPa s) = 0.40199 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.454e-04 Mass of water (kg) = 1.000e+00 @@ -15234,7 +15234,7 @@ CO2(g) 2.14 0.08 -2.07 1.000e+01 1.484e+01 4.843e+00 Specific Conductance (µS/cm, 75°C) = 476 Density (g/cm³) = 1.00023 Volume (L) = 1.05661 - Viscosity (mPa s) = 0.40124 + Viscosity (mPa s) = 0.40125 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.298e-04 Mass of water (kg) = 9.956e-01 @@ -15315,7 +15315,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 488 Density (g/cm³) = 1.00201 Volume (L) = 1.06188 - Viscosity (mPa s) = 0.40276 + Viscosity (mPa s) = 0.40277 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.598e-04 Mass of water (kg) = 1.000e+00 @@ -15481,7 +15481,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 494 Density (g/cm³) = 1.00298 Volume (L) = 1.06173 - Viscosity (mPa s) = 0.40353 + Viscosity (mPa s) = 0.40354 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.742e-04 Mass of water (kg) = 1.000e+00 @@ -15566,7 +15566,7 @@ CO2(g) 2.17 0.09 -2.09 1.000e+01 1.452e+01 4.524e+00 Specific Conductance (µS/cm, 75°C) = 488 Density (g/cm³) = 1.00220 Volume (L) = 1.05602 - Viscosity (mPa s) = 0.40280 + Viscosity (mPa s) = 0.40281 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.587e-04 Mass of water (kg) = 9.953e-01 @@ -15647,7 +15647,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 500 Density (g/cm³) = 1.00393 Volume (L) = 1.06154 - Viscosity (mPa s) = 0.40429 + Viscosity (mPa s) = 0.40430 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.883e-04 Mass of water (kg) = 1.000e+00 @@ -15732,7 +15732,7 @@ CO2(g) 2.19 0.09 -2.10 1.000e+01 1.439e+01 4.386e+00 Specific Conductance (µS/cm, 75°C) = 494 Density (g/cm³) = 1.00317 Volume (L) = 1.05571 - Viscosity (mPa s) = 0.40357 + Viscosity (mPa s) = 0.40358 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.730e-04 Mass of water (kg) = 9.952e-01 @@ -15813,7 +15813,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 506 Density (g/cm³) = 1.00488 Volume (L) = 1.06132 - Viscosity (mPa s) = 0.40505 + Viscosity (mPa s) = 0.40506 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.002e-03 Mass of water (kg) = 1.000e+00 @@ -15898,7 +15898,7 @@ CO2(g) 2.21 0.10 -2.11 1.000e+01 1.426e+01 4.262e+00 Specific Conductance (µS/cm, 75°C) = 500 Density (g/cm³) = 1.00413 Volume (L) = 1.05538 - Viscosity (mPa s) = 0.40433 + Viscosity (mPa s) = 0.40434 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.871e-04 Mass of water (kg) = 9.951e-01 @@ -15979,7 +15979,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 511 Density (g/cm³) = 1.00582 Volume (L) = 1.06110 - Viscosity (mPa s) = 0.40580 + Viscosity (mPa s) = 0.40581 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.016e-03 Mass of water (kg) = 1.000e+00 @@ -16064,7 +16064,7 @@ CO2(g) 2.22 0.10 -2.12 1.000e+01 1.415e+01 4.149e+00 Specific Conductance (µS/cm, 75°C) = 506 Density (g/cm³) = 1.00508 Volume (L) = 1.05505 - Viscosity (mPa s) = 0.40509 + Viscosity (mPa s) = 0.40510 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.001e-03 Mass of water (kg) = 9.950e-01 @@ -16145,7 +16145,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 517 Density (g/cm³) = 1.00676 Volume (L) = 1.06085 - Viscosity (mPa s) = 0.40655 + Viscosity (mPa s) = 0.40656 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.030e-03 Mass of water (kg) = 1.000e+00 @@ -16230,7 +16230,7 @@ CO2(g) 2.24 0.10 -2.13 1.000e+01 1.404e+01 4.044e+00 Specific Conductance (µS/cm, 75°C) = 512 Density (g/cm³) = 1.00602 Volume (L) = 1.05470 - Viscosity (mPa s) = 0.40584 + Viscosity (mPa s) = 0.40585 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.015e-03 Mass of water (kg) = 9.949e-01 @@ -16311,7 +16311,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 523 Density (g/cm³) = 1.00768 Volume (L) = 1.06059 - Viscosity (mPa s) = 0.40729 + Viscosity (mPa s) = 0.40730 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.044e-03 Mass of water (kg) = 1.000e+00 @@ -16396,7 +16396,7 @@ CO2(g) 2.25 0.11 -2.14 1.000e+01 1.395e+01 3.948e+00 Specific Conductance (µS/cm, 75°C) = 518 Density (g/cm³) = 1.00695 Volume (L) = 1.05435 - Viscosity (mPa s) = 0.40658 + Viscosity (mPa s) = 0.40659 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.029e-03 Mass of water (kg) = 9.948e-01 @@ -16562,7 +16562,7 @@ CO2(g) 2.27 0.11 -2.15 1.000e+01 1.386e+01 3.858e+00 Specific Conductance (µS/cm, 75°C) = 524 Density (g/cm³) = 1.00788 Volume (L) = 1.05399 - Viscosity (mPa s) = 0.40732 + Viscosity (mPa s) = 0.40733 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.042e-03 Mass of water (kg) = 9.947e-01 @@ -16643,7 +16643,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 534 Density (g/cm³) = 1.00951 Volume (L) = 1.06003 - Viscosity (mPa s) = 0.40876 + Viscosity (mPa s) = 0.40877 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.071e-03 Mass of water (kg) = 1.000e+00 @@ -16728,7 +16728,7 @@ CO2(g) 2.28 0.12 -2.16 1.000e+01 1.377e+01 3.775e+00 Specific Conductance (µS/cm, 75°C) = 529 Density (g/cm³) = 1.00880 Volume (L) = 1.05362 - Viscosity (mPa s) = 0.40806 + Viscosity (mPa s) = 0.40807 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.056e-03 Mass of water (kg) = 9.947e-01 @@ -16809,7 +16809,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 540 Density (g/cm³) = 1.01042 Volume (L) = 1.05971 - Viscosity (mPa s) = 0.40949 + Viscosity (mPa s) = 0.40950 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.084e-03 Mass of water (kg) = 1.000e+00 @@ -16894,7 +16894,7 @@ CO2(g) 2.29 0.12 -2.18 1.000e+01 1.370e+01 3.696e+00 Specific Conductance (µS/cm, 75°C) = 535 Density (g/cm³) = 1.00971 Volume (L) = 1.05324 - Viscosity (mPa s) = 0.40879 + Viscosity (mPa s) = 0.40880 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 9.946e-01 @@ -16975,7 +16975,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 546 Density (g/cm³) = 1.01132 Volume (L) = 1.05941 - Viscosity (mPa s) = 0.41022 + Viscosity (mPa s) = 0.41023 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.098e-03 Mass of water (kg) = 1.000e+00 @@ -17060,7 +17060,7 @@ CO2(g) 2.31 0.12 -2.19 1.000e+01 1.362e+01 3.623e+00 Specific Conductance (µS/cm, 75°C) = 541 Density (g/cm³) = 1.01061 Volume (L) = 1.05286 - Viscosity (mPa s) = 0.40952 + Viscosity (mPa s) = 0.40953 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.083e-03 Mass of water (kg) = 9.945e-01 @@ -17141,7 +17141,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 551 Density (g/cm³) = 1.01221 Volume (L) = 1.05908 - Viscosity (mPa s) = 0.41094 + Viscosity (mPa s) = 0.41095 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.111e-03 Mass of water (kg) = 1.000e+00 @@ -17226,7 +17226,7 @@ CO2(g) 2.32 0.13 -2.20 1.000e+01 1.355e+01 3.553e+00 Specific Conductance (µS/cm, 75°C) = 546 Density (g/cm³) = 1.01151 Volume (L) = 1.05247 - Viscosity (mPa s) = 0.41025 + Viscosity (mPa s) = 0.41026 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.096e-03 Mass of water (kg) = 9.945e-01 @@ -17307,7 +17307,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 557 Density (g/cm³) = 1.01310 Volume (L) = 1.05876 - Viscosity (mPa s) = 0.41166 + Viscosity (mPa s) = 0.41167 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.125e-03 Mass of water (kg) = 1.000e+00 @@ -17392,7 +17392,7 @@ CO2(g) 2.34 0.13 -2.21 1.000e+01 1.349e+01 3.489e+00 Specific Conductance (µS/cm, 75°C) = 552 Density (g/cm³) = 1.01240 Volume (L) = 1.05209 - Viscosity (mPa s) = 0.41096 + Viscosity (mPa s) = 0.41097 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.109e-03 Mass of water (kg) = 9.944e-01 @@ -17473,7 +17473,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 562 Density (g/cm³) = 1.01398 Volume (L) = 1.05840 - Viscosity (mPa s) = 0.41238 + Viscosity (mPa s) = 0.41239 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.138e-03 Mass of water (kg) = 1.000e+00 @@ -17558,7 +17558,7 @@ CO2(g) 2.35 0.13 -2.22 1.000e+01 1.343e+01 3.426e+00 Specific Conductance (µS/cm, 75°C) = 558 Density (g/cm³) = 1.01329 Volume (L) = 1.05169 - Viscosity (mPa s) = 0.41169 + Viscosity (mPa s) = 0.41170 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.123e-03 Mass of water (kg) = 9.944e-01 @@ -17724,7 +17724,7 @@ CO2(g) 2.36 0.13 -2.23 1.000e+01 1.337e+01 3.369e+00 Specific Conductance (µS/cm, 75°C) = 563 Density (g/cm³) = 1.01417 Volume (L) = 1.05129 - Viscosity (mPa s) = 0.41240 + Viscosity (mPa s) = 0.41241 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.136e-03 Mass of water (kg) = 9.944e-01 @@ -17805,7 +17805,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 573 Density (g/cm³) = 1.01572 Volume (L) = 1.05769 - Viscosity (mPa s) = 0.41381 + Viscosity (mPa s) = 0.41382 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.164e-03 Mass of water (kg) = 1.000e+00 @@ -17971,7 +17971,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 579 Density (g/cm³) = 1.01659 Volume (L) = 1.05733 - Viscosity (mPa s) = 0.41452 + Viscosity (mPa s) = 0.41453 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.178e-03 Mass of water (kg) = 1.000e+00 @@ -18056,7 +18056,7 @@ CO2(g) 2.39 0.14 -2.25 1.000e+01 1.326e+01 3.261e+00 Specific Conductance (µS/cm, 75°C) = 574 Density (g/cm³) = 1.01591 Volume (L) = 1.05048 - Viscosity (mPa s) = 0.41382 + Viscosity (mPa s) = 0.41383 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.162e-03 Mass of water (kg) = 9.943e-01 @@ -18137,7 +18137,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 584 Density (g/cm³) = 1.01745 Volume (L) = 1.05696 - Viscosity (mPa s) = 0.41523 + Viscosity (mPa s) = 0.41524 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.191e-03 Mass of water (kg) = 1.000e+00 @@ -18222,7 +18222,7 @@ CO2(g) 2.40 0.14 -2.26 1.000e+01 1.321e+01 3.210e+00 Specific Conductance (µS/cm, 75°C) = 580 Density (g/cm³) = 1.01677 Volume (L) = 1.05007 - Viscosity (mPa s) = 0.41453 + Viscosity (mPa s) = 0.41454 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.176e-03 Mass of water (kg) = 9.942e-01 @@ -18303,7 +18303,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 590 Density (g/cm³) = 1.01830 Volume (L) = 1.05658 - Viscosity (mPa s) = 0.41593 + Viscosity (mPa s) = 0.41594 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.204e-03 Mass of water (kg) = 1.000e+00 @@ -18388,7 +18388,7 @@ CO2(g) 2.42 0.14 -2.27 1.000e+01 1.316e+01 3.162e+00 Specific Conductance (µS/cm, 75°C) = 585 Density (g/cm³) = 1.01763 Volume (L) = 1.04965 - Viscosity (mPa s) = 0.41524 + Viscosity (mPa s) = 0.41525 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.189e-03 Mass of water (kg) = 9.942e-01 @@ -18554,7 +18554,7 @@ CO2(g) 2.43 0.15 -2.28 1.000e+01 1.312e+01 3.115e+00 Specific Conductance (µS/cm, 75°C) = 591 Density (g/cm³) = 1.01848 Volume (L) = 1.04923 - Viscosity (mPa s) = 0.41595 + Viscosity (mPa s) = 0.41596 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 9.942e-01 @@ -18635,7 +18635,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 601 Density (g/cm³) = 1.01999 Volume (L) = 1.05580 - Viscosity (mPa s) = 0.41734 + Viscosity (mPa s) = 0.41735 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.230e-03 Mass of water (kg) = 1.000e+00 @@ -18720,7 +18720,7 @@ CO2(g) 2.44 0.15 -2.29 1.000e+01 1.307e+01 3.073e+00 Specific Conductance (µS/cm, 75°C) = 596 Density (g/cm³) = 1.01933 Volume (L) = 1.04882 - Viscosity (mPa s) = 0.41665 + Viscosity (mPa s) = 0.41666 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.215e-03 Mass of water (kg) = 9.942e-01 @@ -18801,7 +18801,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 606 Density (g/cm³) = 1.02083 Volume (L) = 1.05541 - Viscosity (mPa s) = 0.41804 + Viscosity (mPa s) = 0.41805 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.243e-03 Mass of water (kg) = 1.000e+00 @@ -18886,7 +18886,7 @@ CO2(g) 2.46 0.15 -2.30 1.000e+01 1.303e+01 3.030e+00 Specific Conductance (µS/cm, 75°C) = 602 Density (g/cm³) = 1.02017 Volume (L) = 1.04839 - Viscosity (mPa s) = 0.41735 + Viscosity (mPa s) = 0.41736 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.228e-03 Mass of water (kg) = 9.941e-01 @@ -18967,7 +18967,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 612 Density (g/cm³) = 1.02166 Volume (L) = 1.05500 - Viscosity (mPa s) = 0.41874 + Viscosity (mPa s) = 0.41875 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.256e-03 Mass of water (kg) = 1.000e+00 @@ -19052,7 +19052,7 @@ CO2(g) 2.47 0.15 -2.31 1.000e+01 1.299e+01 2.989e+00 Specific Conductance (µS/cm, 75°C) = 607 Density (g/cm³) = 1.02101 Volume (L) = 1.04797 - Viscosity (mPa s) = 0.41805 + Viscosity (mPa s) = 0.41806 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.241e-03 Mass of water (kg) = 9.941e-01 @@ -19133,7 +19133,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 617 Density (g/cm³) = 1.02249 Volume (L) = 1.05459 - Viscosity (mPa s) = 0.41944 + Viscosity (mPa s) = 0.41945 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.269e-03 Mass of water (kg) = 1.000e+00 @@ -19218,7 +19218,7 @@ CO2(g) 2.48 0.16 -2.32 1.000e+01 1.295e+01 2.950e+00 Specific Conductance (µS/cm, 75°C) = 613 Density (g/cm³) = 1.02184 Volume (L) = 1.04754 - Viscosity (mPa s) = 0.41875 + Viscosity (mPa s) = 0.41876 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.254e-03 Mass of water (kg) = 9.941e-01 @@ -19299,7 +19299,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 623 Density (g/cm³) = 1.02332 Volume (L) = 1.05420 - Viscosity (mPa s) = 0.42014 + Viscosity (mPa s) = 0.42015 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.283e-03 Mass of water (kg) = 1.000e+00 @@ -19384,7 +19384,7 @@ CO2(g) 2.49 0.16 -2.34 1.000e+01 1.291e+01 2.914e+00 Specific Conductance (µS/cm, 75°C) = 618 Density (g/cm³) = 1.02266 Volume (L) = 1.04711 - Viscosity (mPa s) = 0.41944 + Viscosity (mPa s) = 0.41945 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.267e-03 Mass of water (kg) = 9.941e-01 @@ -19465,7 +19465,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 628 Density (g/cm³) = 1.02414 Volume (L) = 1.05377 - Viscosity (mPa s) = 0.42083 + Viscosity (mPa s) = 0.42084 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.296e-03 Mass of water (kg) = 1.000e+00 @@ -19550,7 +19550,7 @@ CO2(g) 2.51 0.16 -2.35 1.000e+01 1.288e+01 2.876e+00 Specific Conductance (µS/cm, 75°C) = 624 Density (g/cm³) = 1.02349 Volume (L) = 1.04668 - Viscosity (mPa s) = 0.42014 + Viscosity (mPa s) = 0.42015 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.280e-03 Mass of water (kg) = 9.940e-01 @@ -19631,7 +19631,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 634 Density (g/cm³) = 1.02495 Volume (L) = 1.05336 - Viscosity (mPa s) = 0.42153 + Viscosity (mPa s) = 0.42154 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.309e-03 Mass of water (kg) = 1.000e+00 @@ -19716,7 +19716,7 @@ CO2(g) 2.52 0.16 -2.36 1.000e+01 1.284e+01 2.842e+00 Specific Conductance (µS/cm, 75°C) = 629 Density (g/cm³) = 1.02430 Volume (L) = 1.04625 - Viscosity (mPa s) = 0.42083 + Viscosity (mPa s) = 0.42084 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.293e-03 Mass of water (kg) = 9.940e-01 @@ -19797,7 +19797,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 639 Density (g/cm³) = 1.02576 Volume (L) = 1.05294 - Viscosity (mPa s) = 0.42222 + Viscosity (mPa s) = 0.42223 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.322e-03 Mass of water (kg) = 1.000e+00 @@ -19882,7 +19882,7 @@ CO2(g) 2.53 0.16 -2.37 1.000e+01 1.281e+01 2.807e+00 Specific Conductance (µS/cm, 75°C) = 635 Density (g/cm³) = 1.02512 Volume (L) = 1.04582 - Viscosity (mPa s) = 0.42153 + Viscosity (mPa s) = 0.42154 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.306e-03 Mass of water (kg) = 9.940e-01 @@ -19963,7 +19963,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 644 Density (g/cm³) = 1.02656 Volume (L) = 1.05250 - Viscosity (mPa s) = 0.42291 + Viscosity (mPa s) = 0.42292 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.335e-03 Mass of water (kg) = 1.000e+00 @@ -20129,7 +20129,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 650 Density (g/cm³) = 1.02737 Volume (L) = 1.05210 - Viscosity (mPa s) = 0.42360 + Viscosity (mPa s) = 0.42361 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.348e-03 Mass of water (kg) = 1.000e+00 @@ -20211,10 +20211,10 @@ CO2(g) 2.56 0.17 -2.39 1.000e+01 1.274e+01 2.744e+00 pH = 2.902 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 646 + Specific Conductance (µS/cm, 75°C) = 645 Density (g/cm³) = 1.02672 Volume (L) = 1.04495 - Viscosity (mPa s) = 0.42290 + Viscosity (mPa s) = 0.42291 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.332e-03 Mass of water (kg) = 9.940e-01 @@ -20295,7 +20295,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 655 Density (g/cm³) = 1.02816 Volume (L) = 1.05165 - Viscosity (mPa s) = 0.42429 + Viscosity (mPa s) = 0.42430 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.361e-03 Mass of water (kg) = 1.000e+00 @@ -20380,7 +20380,7 @@ CO2(g) 2.57 0.17 -2.40 1.000e+01 1.271e+01 2.712e+00 Specific Conductance (µS/cm, 75°C) = 651 Density (g/cm³) = 1.02753 Volume (L) = 1.04451 - Viscosity (mPa s) = 0.42360 + Viscosity (mPa s) = 0.42361 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.345e-03 Mass of water (kg) = 9.940e-01 @@ -20636,7 +20636,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 200 Density (g/cm³) = 0.96068 Volume (L) = 1.05056 - Viscosity (mPa s) = 0.28335 + Viscosity (mPa s) = 0.28336 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.887e-04 Mass of water (kg) = 1.000e+00 @@ -20802,7 +20802,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 266 Density (g/cm³) = 0.96277 Volume (L) = 1.05637 - Viscosity (mPa s) = 0.28490 + Viscosity (mPa s) = 0.28491 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.924e-04 Mass of water (kg) = 1.000e+00 @@ -20887,7 +20887,7 @@ CO2(g) 1.30 -0.69 -1.99 1.000e+01 1.044e+01 4.385e-01 Specific Conductance (µS/cm, 100°C) = 200 Density (g/cm³) = 0.96073 Volume (L) = 1.05064 - Viscosity (mPa s) = 0.28338 + Viscosity (mPa s) = 0.28339 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.887e-04 Mass of water (kg) = 1.000e+00 @@ -20968,7 +20968,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 309 Density (g/cm³) = 0.96471 Volume (L) = 1.06135 - Viscosity (mPa s) = 0.28633 + Viscosity (mPa s) = 0.28634 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.652e-04 Mass of water (kg) = 1.000e+00 @@ -21053,7 +21053,7 @@ CO2(g) 1.57 -0.44 -2.00 1.000e+01 1.097e+01 9.731e-01 Specific Conductance (µS/cm, 100°C) = 266 Density (g/cm³) = 0.96283 Volume (L) = 1.05645 - Viscosity (mPa s) = 0.28493 + Viscosity (mPa s) = 0.28494 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.923e-04 Mass of water (kg) = 1.000e+00 @@ -21134,7 +21134,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 340 Density (g/cm³) = 0.96652 Volume (L) = 1.06554 - Viscosity (mPa s) = 0.28765 + Viscosity (mPa s) = 0.28766 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.211e-04 Mass of water (kg) = 1.000e+00 @@ -21219,7 +21219,7 @@ CO2(g) 1.71 -0.30 -2.01 1.000e+01 1.306e+01 3.061e+00 Specific Conductance (µS/cm, 100°C) = 309 Density (g/cm³) = 0.96479 Volume (L) = 1.06178 - Viscosity (mPa s) = 0.28637 + Viscosity (mPa s) = 0.28638 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.652e-04 Mass of water (kg) = 1.001e+00 @@ -21300,7 +21300,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 364 Density (g/cm³) = 0.96820 Volume (L) = 1.06900 - Viscosity (mPa s) = 0.28886 + Viscosity (mPa s) = 0.28887 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.657e-04 Mass of water (kg) = 1.000e+00 @@ -21466,7 +21466,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 382 Density (g/cm³) = 0.96976 Volume (L) = 1.07177 - Viscosity (mPa s) = 0.28998 + Viscosity (mPa s) = 0.28999 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.021e-04 Mass of water (kg) = 1.000e+00 @@ -21551,7 +21551,7 @@ CO2(g) 1.89 -0.15 -2.04 1.000e+01 2.358e+01 1.358e+01 Specific Conductance (µS/cm, 100°C) = 364 Density (g/cm³) = 0.96831 Volume (L) = 1.07050 - Viscosity (mPa s) = 0.28892 + Viscosity (mPa s) = 0.28893 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.655e-04 Mass of water (kg) = 1.002e+00 @@ -21632,7 +21632,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 397 Density (g/cm³) = 0.97122 Volume (L) = 1.07396 - Viscosity (mPa s) = 0.29101 + Viscosity (mPa s) = 0.29102 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.327e-04 Mass of water (kg) = 1.000e+00 @@ -21717,7 +21717,7 @@ CO2(g) 1.94 -0.10 -2.05 1.000e+01 2.311e+01 1.311e+01 Specific Conductance (µS/cm, 100°C) = 382 Density (g/cm³) = 0.96989 Volume (L) = 1.07234 - Viscosity (mPa s) = 0.29005 + Viscosity (mPa s) = 0.29006 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.019e-04 Mass of water (kg) = 1.001e+00 @@ -21798,7 +21798,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 410 Density (g/cm³) = 0.97260 Volume (L) = 1.07568 - Viscosity (mPa s) = 0.29198 + Viscosity (mPa s) = 0.29199 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.590e-04 Mass of water (kg) = 1.000e+00 @@ -21883,7 +21883,7 @@ CO2(g) 1.99 -0.07 -2.06 1.000e+01 2.240e+01 1.240e+01 Specific Conductance (µS/cm, 100°C) = 398 Density (g/cm³) = 0.97138 Volume (L) = 1.07360 - Viscosity (mPa s) = 0.29109 + Viscosity (mPa s) = 0.29110 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.324e-04 Mass of water (kg) = 1.000e+00 @@ -21964,7 +21964,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 421 Density (g/cm³) = 0.97391 Volume (L) = 1.07701 - Viscosity (mPa s) = 0.29289 + Viscosity (mPa s) = 0.29290 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.820e-04 Mass of water (kg) = 1.000e+00 @@ -22049,7 +22049,7 @@ CO2(g) 2.03 -0.04 -2.07 1.000e+01 2.159e+01 1.159e+01 Specific Conductance (µS/cm, 100°C) = 410 Density (g/cm³) = 0.97278 Volume (L) = 1.07437 - Viscosity (mPa s) = 0.29207 + Viscosity (mPa s) = 0.29208 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.586e-04 Mass of water (kg) = 9.993e-01 @@ -22130,7 +22130,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 431 Density (g/cm³) = 0.97517 Volume (L) = 1.07804 - Viscosity (mPa s) = 0.29375 + Viscosity (mPa s) = 0.29376 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.027e-04 Mass of water (kg) = 1.000e+00 @@ -22296,7 +22296,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 440 Density (g/cm³) = 0.97639 Volume (L) = 1.07886 - Viscosity (mPa s) = 0.29459 + Viscosity (mPa s) = 0.29460 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.218e-04 Mass of water (kg) = 1.000e+00 @@ -22381,7 +22381,7 @@ CO2(g) 2.09 -0.01 -2.09 1.000e+01 2.007e+01 1.007e+01 Specific Conductance (µS/cm, 100°C) = 431 Density (g/cm³) = 0.97541 Volume (L) = 1.07495 - Viscosity (mPa s) = 0.29387 + Viscosity (mPa s) = 0.29388 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.022e-04 Mass of water (kg) = 9.978e-01 @@ -22462,7 +22462,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 448 Density (g/cm³) = 0.97757 Volume (L) = 1.07950 - Viscosity (mPa s) = 0.29539 + Viscosity (mPa s) = 0.29540 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.396e-04 Mass of water (kg) = 1.000e+00 @@ -22547,7 +22547,7 @@ CO2(g) 2.11 0.01 -2.10 1.000e+01 1.944e+01 9.441e+00 Specific Conductance (µS/cm, 100°C) = 440 Density (g/cm³) = 0.97665 Volume (L) = 1.07498 - Viscosity (mPa s) = 0.29472 + Viscosity (mPa s) = 0.29473 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.212e-04 Mass of water (kg) = 9.972e-01 @@ -22628,7 +22628,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 456 Density (g/cm³) = 0.97873 Volume (L) = 1.08000 - Viscosity (mPa s) = 0.29618 + Viscosity (mPa s) = 0.29619 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.565e-04 Mass of water (kg) = 1.000e+00 @@ -22713,7 +22713,7 @@ CO2(g) 2.13 0.02 -2.11 1.000e+01 1.890e+01 8.903e+00 Specific Conductance (µS/cm, 100°C) = 449 Density (g/cm³) = 0.97785 Volume (L) = 1.07490 - Viscosity (mPa s) = 0.29553 + Viscosity (mPa s) = 0.29554 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.389e-04 Mass of water (kg) = 9.966e-01 @@ -22794,7 +22794,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 464 Density (g/cm³) = 0.97986 Volume (L) = 1.08040 - Viscosity (mPa s) = 0.29695 + Viscosity (mPa s) = 0.29696 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.726e-04 Mass of water (kg) = 1.000e+00 @@ -22879,7 +22879,7 @@ CO2(g) 2.16 0.03 -2.12 1.000e+01 1.844e+01 8.441e+00 Specific Conductance (µS/cm, 100°C) = 457 Density (g/cm³) = 0.97902 Volume (L) = 1.07476 - Viscosity (mPa s) = 0.29633 + Viscosity (mPa s) = 0.29634 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.557e-04 Mass of water (kg) = 9.961e-01 @@ -22960,7 +22960,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 471 Density (g/cm³) = 0.98098 Volume (L) = 1.08070 - Viscosity (mPa s) = 0.29770 + Viscosity (mPa s) = 0.29771 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.881e-04 Mass of water (kg) = 1.000e+00 @@ -23045,7 +23045,7 @@ CO2(g) 2.18 0.04 -2.14 1.000e+01 1.804e+01 8.042e+00 Specific Conductance (µS/cm, 100°C) = 464 Density (g/cm³) = 0.98017 Volume (L) = 1.07457 - Viscosity (mPa s) = 0.29710 + Viscosity (mPa s) = 0.29711 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.717e-04 Mass of water (kg) = 9.957e-01 @@ -23126,7 +23126,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 478 Density (g/cm³) = 0.98207 Volume (L) = 1.08093 - Viscosity (mPa s) = 0.29845 + Viscosity (mPa s) = 0.29846 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.031e-04 Mass of water (kg) = 1.000e+00 @@ -23208,10 +23208,10 @@ CO2(g) 2.20 0.05 -2.15 1.000e+01 1.770e+01 7.697e+00 pH = 3.126 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 472 + Specific Conductance (µS/cm, 100°C) = 471 Density (g/cm³) = 0.98129 Volume (L) = 1.07435 - Viscosity (mPa s) = 0.29786 + Viscosity (mPa s) = 0.29787 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.871e-04 Mass of water (kg) = 9.953e-01 @@ -23292,7 +23292,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 485 Density (g/cm³) = 0.98316 Volume (L) = 1.08110 - Viscosity (mPa s) = 0.29918 + Viscosity (mPa s) = 0.29919 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.178e-04 Mass of water (kg) = 1.000e+00 @@ -23377,7 +23377,7 @@ CO2(g) 2.21 0.06 -2.16 1.000e+01 1.739e+01 7.394e+00 Specific Conductance (µS/cm, 100°C) = 479 Density (g/cm³) = 0.98240 Volume (L) = 1.07411 - Viscosity (mPa s) = 0.29861 + Viscosity (mPa s) = 0.29862 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.020e-04 Mass of water (kg) = 9.949e-01 @@ -23458,7 +23458,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 491 Density (g/cm³) = 0.98422 Volume (L) = 1.08121 - Viscosity (mPa s) = 0.29990 + Viscosity (mPa s) = 0.29991 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.320e-04 Mass of water (kg) = 1.000e+00 @@ -23543,7 +23543,7 @@ CO2(g) 2.23 0.06 -2.17 1.000e+01 1.712e+01 7.123e+00 Specific Conductance (µS/cm, 100°C) = 485 Density (g/cm³) = 0.98349 Volume (L) = 1.07384 - Viscosity (mPa s) = 0.29935 + Viscosity (mPa s) = 0.29936 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.166e-04 Mass of water (kg) = 9.946e-01 @@ -23624,7 +23624,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 498 Density (g/cm³) = 0.98528 Volume (L) = 1.08128 - Viscosity (mPa s) = 0.30062 + Viscosity (mPa s) = 0.30063 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.461e-04 Mass of water (kg) = 1.000e+00 @@ -23709,7 +23709,7 @@ CO2(g) 2.25 0.07 -2.18 1.000e+01 1.688e+01 6.883e+00 Specific Conductance (µS/cm, 100°C) = 492 Density (g/cm³) = 0.98456 Volume (L) = 1.07357 - Viscosity (mPa s) = 0.30007 + Viscosity (mPa s) = 0.30008 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.308e-04 Mass of water (kg) = 9.943e-01 @@ -23790,7 +23790,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 504 Density (g/cm³) = 0.98632 Volume (L) = 1.08132 - Viscosity (mPa s) = 0.30133 + Viscosity (mPa s) = 0.30134 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.599e-04 Mass of water (kg) = 1.000e+00 @@ -23875,7 +23875,7 @@ CO2(g) 2.27 0.08 -2.19 1.000e+01 1.667e+01 6.667e+00 Specific Conductance (µS/cm, 100°C) = 499 Density (g/cm³) = 0.98562 Volume (L) = 1.07327 - Viscosity (mPa s) = 0.30079 + Viscosity (mPa s) = 0.30080 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.447e-04 Mass of water (kg) = 9.940e-01 @@ -23956,7 +23956,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 510 Density (g/cm³) = 0.98735 Volume (L) = 1.08131 - Viscosity (mPa s) = 0.30204 + Viscosity (mPa s) = 0.30205 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.734e-04 Mass of water (kg) = 1.000e+00 @@ -24041,7 +24041,7 @@ CO2(g) 2.28 0.08 -2.20 1.000e+01 1.647e+01 6.470e+00 Specific Conductance (µS/cm, 100°C) = 505 Density (g/cm³) = 0.98667 Volume (L) = 1.07297 - Viscosity (mPa s) = 0.30150 + Viscosity (mPa s) = 0.30151 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.585e-04 Mass of water (kg) = 9.937e-01 @@ -24122,7 +24122,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 517 Density (g/cm³) = 0.98837 Volume (L) = 1.08127 - Viscosity (mPa s) = 0.30273 + Viscosity (mPa s) = 0.30274 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.867e-04 Mass of water (kg) = 1.000e+00 @@ -24207,7 +24207,7 @@ CO2(g) 2.30 0.09 -2.21 1.000e+01 1.629e+01 6.292e+00 Specific Conductance (µS/cm, 100°C) = 511 Density (g/cm³) = 0.98771 Volume (L) = 1.07266 - Viscosity (mPa s) = 0.30221 + Viscosity (mPa s) = 0.30222 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.719e-04 Mass of water (kg) = 9.935e-01 @@ -24288,7 +24288,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 523 Density (g/cm³) = 0.98939 Volume (L) = 1.08121 - Viscosity (mPa s) = 0.30343 + Viscosity (mPa s) = 0.30344 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.000e-04 Mass of water (kg) = 1.000e+00 @@ -24370,10 +24370,10 @@ CO2(g) 2.32 0.09 -2.22 1.000e+01 1.613e+01 6.129e+00 pH = 3.076 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 518 + Specific Conductance (µS/cm, 100°C) = 517 Density (g/cm³) = 0.98873 Volume (L) = 1.07235 - Viscosity (mPa s) = 0.30290 + Viscosity (mPa s) = 0.30292 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.852e-04 Mass of water (kg) = 9.933e-01 @@ -24454,7 +24454,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 529 Density (g/cm³) = 0.99039 Volume (L) = 1.08111 - Viscosity (mPa s) = 0.30411 + Viscosity (mPa s) = 0.30413 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.130e-04 Mass of water (kg) = 1.000e+00 @@ -24539,7 +24539,7 @@ CO2(g) 2.33 0.10 -2.23 1.000e+01 1.598e+01 5.977e+00 Specific Conductance (µS/cm, 100°C) = 524 Density (g/cm³) = 0.98975 Volume (L) = 1.07202 - Viscosity (mPa s) = 0.30360 + Viscosity (mPa s) = 0.30361 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.983e-04 Mass of water (kg) = 9.931e-01 @@ -24620,7 +24620,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 535 Density (g/cm³) = 0.99139 Volume (L) = 1.08100 - Viscosity (mPa s) = 0.30480 + Viscosity (mPa s) = 0.30481 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.259e-04 Mass of water (kg) = 1.000e+00 @@ -24705,7 +24705,7 @@ CO2(g) 2.35 0.10 -2.24 1.000e+01 1.584e+01 5.839e+00 Specific Conductance (µS/cm, 100°C) = 530 Density (g/cm³) = 0.99075 Volume (L) = 1.07169 - Viscosity (mPa s) = 0.30429 + Viscosity (mPa s) = 0.30430 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.112e-04 Mass of water (kg) = 9.929e-01 @@ -24786,7 +24786,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 540 Density (g/cm³) = 0.99237 Volume (L) = 1.08086 - Viscosity (mPa s) = 0.30548 + Viscosity (mPa s) = 0.30549 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.387e-04 Mass of water (kg) = 1.000e+00 @@ -24871,7 +24871,7 @@ CO2(g) 2.36 0.11 -2.25 1.000e+01 1.571e+01 5.709e+00 Specific Conductance (µS/cm, 100°C) = 536 Density (g/cm³) = 0.99175 Volume (L) = 1.07135 - Viscosity (mPa s) = 0.30497 + Viscosity (mPa s) = 0.30498 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.241e-04 Mass of water (kg) = 9.927e-01 @@ -24952,7 +24952,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 546 Density (g/cm³) = 0.99335 Volume (L) = 1.08071 - Viscosity (mPa s) = 0.30616 + Viscosity (mPa s) = 0.30617 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.515e-04 Mass of water (kg) = 1.000e+00 @@ -25034,10 +25034,10 @@ CO2(g) 2.38 0.11 -2.26 1.000e+01 1.559e+01 5.588e+00 pH = 3.053 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 542 + Specific Conductance (µS/cm, 100°C) = 541 Density (g/cm³) = 0.99273 Volume (L) = 1.07101 - Viscosity (mPa s) = 0.30565 + Viscosity (mPa s) = 0.30566 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.368e-04 Mass of water (kg) = 9.926e-01 @@ -25118,7 +25118,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 552 Density (g/cm³) = 0.99432 Volume (L) = 1.08053 - Viscosity (mPa s) = 0.30683 + Viscosity (mPa s) = 0.30684 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.640e-04 Mass of water (kg) = 1.000e+00 @@ -25203,7 +25203,7 @@ CO2(g) 2.39 0.12 -2.27 1.000e+01 1.547e+01 5.474e+00 Specific Conductance (µS/cm, 100°C) = 547 Density (g/cm³) = 0.99371 Volume (L) = 1.07067 - Viscosity (mPa s) = 0.30633 + Viscosity (mPa s) = 0.30634 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.495e-04 Mass of water (kg) = 9.924e-01 @@ -25284,7 +25284,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 558 Density (g/cm³) = 0.99529 Volume (L) = 1.08036 - Viscosity (mPa s) = 0.30750 + Viscosity (mPa s) = 0.30752 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.766e-04 Mass of water (kg) = 1.000e+00 @@ -25369,7 +25369,7 @@ CO2(g) 2.41 0.12 -2.28 1.000e+01 1.537e+01 5.370e+00 Specific Conductance (µS/cm, 100°C) = 553 Density (g/cm³) = 0.99468 Volume (L) = 1.07032 - Viscosity (mPa s) = 0.30700 + Viscosity (mPa s) = 0.30701 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.620e-04 Mass of water (kg) = 9.923e-01 @@ -25450,7 +25450,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 563 Density (g/cm³) = 0.99625 Volume (L) = 1.08014 - Viscosity (mPa s) = 0.30817 + Viscosity (mPa s) = 0.30818 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.890e-04 Mass of water (kg) = 1.000e+00 @@ -25535,7 +25535,7 @@ CO2(g) 2.42 0.12 -2.29 1.000e+01 1.527e+01 5.268e+00 Specific Conductance (µS/cm, 100°C) = 559 Density (g/cm³) = 0.99565 Volume (L) = 1.06996 - Viscosity (mPa s) = 0.30767 + Viscosity (mPa s) = 0.30768 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.745e-04 Mass of water (kg) = 9.922e-01 @@ -25616,7 +25616,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 569 Density (g/cm³) = 0.99720 Volume (L) = 1.07994 - Viscosity (mPa s) = 0.30884 + Viscosity (mPa s) = 0.30885 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.001e-03 Mass of water (kg) = 1.000e+00 @@ -25701,7 +25701,7 @@ CO2(g) 2.43 0.13 -2.30 1.000e+01 1.518e+01 5.176e+00 Specific Conductance (µS/cm, 100°C) = 565 Density (g/cm³) = 0.99660 Volume (L) = 1.06961 - Viscosity (mPa s) = 0.30833 + Viscosity (mPa s) = 0.30835 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.868e-04 Mass of water (kg) = 9.921e-01 @@ -25779,10 +25779,10 @@ Initial solution 1. pH = 3.020 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 575 + Specific Conductance (µS/cm, 100°C) = 574 Density (g/cm³) = 0.99814 Volume (L) = 1.07969 - Viscosity (mPa s) = 0.30950 + Viscosity (mPa s) = 0.30951 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 1.000e+00 @@ -25867,7 +25867,7 @@ CO2(g) 2.45 0.13 -2.32 1.000e+01 1.509e+01 5.085e+00 Specific Conductance (µS/cm, 100°C) = 570 Density (g/cm³) = 0.99755 Volume (L) = 1.06925 - Viscosity (mPa s) = 0.30900 + Viscosity (mPa s) = 0.30901 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.991e-04 Mass of water (kg) = 9.920e-01 @@ -25948,7 +25948,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 580 Density (g/cm³) = 0.99908 Volume (L) = 1.07947 - Viscosity (mPa s) = 0.31016 + Viscosity (mPa s) = 0.31017 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.026e-03 Mass of water (kg) = 1.000e+00 @@ -26033,7 +26033,7 @@ CO2(g) 2.46 0.14 -2.33 1.000e+01 1.500e+01 5.002e+00 Specific Conductance (µS/cm, 100°C) = 576 Density (g/cm³) = 0.99849 Volume (L) = 1.06889 - Viscosity (mPa s) = 0.30966 + Viscosity (mPa s) = 0.30967 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.011e-03 Mass of water (kg) = 9.919e-01 @@ -26114,7 +26114,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 586 Density (g/cm³) = 1.00002 Volume (L) = 1.07920 - Viscosity (mPa s) = 0.31082 + Viscosity (mPa s) = 0.31083 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.038e-03 Mass of water (kg) = 1.000e+00 @@ -26199,7 +26199,7 @@ CO2(g) 2.47 0.14 -2.34 1.000e+01 1.492e+01 4.921e+00 Specific Conductance (µS/cm, 100°C) = 581 Density (g/cm³) = 0.99943 Volume (L) = 1.06852 - Viscosity (mPa s) = 0.31032 + Viscosity (mPa s) = 0.31033 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.024e-03 Mass of water (kg) = 9.918e-01 @@ -26280,7 +26280,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 591 Density (g/cm³) = 1.00094 Volume (L) = 1.07895 - Viscosity (mPa s) = 0.31147 + Viscosity (mPa s) = 0.31148 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.050e-03 Mass of water (kg) = 1.000e+00 @@ -26365,7 +26365,7 @@ CO2(g) 2.49 0.14 -2.35 1.000e+01 1.485e+01 4.845e+00 Specific Conductance (µS/cm, 100°C) = 587 Density (g/cm³) = 1.00036 Volume (L) = 1.06816 - Viscosity (mPa s) = 0.31097 + Viscosity (mPa s) = 0.31099 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.036e-03 Mass of water (kg) = 9.917e-01 @@ -26443,10 +26443,10 @@ Initial solution 1. pH = 3.000 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 597 + Specific Conductance (µS/cm, 100°C) = 596 Density (g/cm³) = 1.00186 Volume (L) = 1.07867 - Viscosity (mPa s) = 0.31213 + Viscosity (mPa s) = 0.31214 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.062e-03 Mass of water (kg) = 1.000e+00 @@ -26531,7 +26531,7 @@ CO2(g) 2.50 0.14 -2.36 1.000e+01 1.477e+01 4.772e+00 Specific Conductance (µS/cm, 100°C) = 592 Density (g/cm³) = 1.00128 Volume (L) = 1.06779 - Viscosity (mPa s) = 0.31163 + Viscosity (mPa s) = 0.31164 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.048e-03 Mass of water (kg) = 9.916e-01 @@ -26612,7 +26612,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 602 Density (g/cm³) = 1.00278 Volume (L) = 1.07840 - Viscosity (mPa s) = 0.31278 + Viscosity (mPa s) = 0.31279 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.074e-03 Mass of water (kg) = 1.000e+00 @@ -26697,7 +26697,7 @@ CO2(g) 2.51 0.15 -2.37 1.000e+01 1.470e+01 4.703e+00 Specific Conductance (µS/cm, 100°C) = 598 Density (g/cm³) = 1.00220 Volume (L) = 1.06742 - Viscosity (mPa s) = 0.31228 + Viscosity (mPa s) = 0.31229 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.060e-03 Mass of water (kg) = 9.916e-01 @@ -26778,7 +26778,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 607 Density (g/cm³) = 1.00368 Volume (L) = 1.07809 - Viscosity (mPa s) = 0.31342 + Viscosity (mPa s) = 0.31344 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.086e-03 Mass of water (kg) = 1.000e+00 @@ -26863,7 +26863,7 @@ CO2(g) 2.53 0.15 -2.38 1.000e+01 1.464e+01 4.635e+00 Specific Conductance (µS/cm, 100°C) = 603 Density (g/cm³) = 1.00311 Volume (L) = 1.06705 - Viscosity (mPa s) = 0.31293 + Viscosity (mPa s) = 0.31294 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.072e-03 Mass of water (kg) = 9.915e-01 @@ -26944,7 +26944,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 613 Density (g/cm³) = 1.00459 Volume (L) = 1.07781 - Viscosity (mPa s) = 0.31407 + Viscosity (mPa s) = 0.31409 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.098e-03 Mass of water (kg) = 1.000e+00 @@ -27029,7 +27029,7 @@ CO2(g) 2.54 0.15 -2.39 1.000e+01 1.457e+01 4.573e+00 Specific Conductance (µS/cm, 100°C) = 609 Density (g/cm³) = 1.00401 Volume (L) = 1.06668 - Viscosity (mPa s) = 0.31357 + Viscosity (mPa s) = 0.31359 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.084e-03 Mass of water (kg) = 9.914e-01 @@ -27110,7 +27110,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 618 Density (g/cm³) = 1.00548 Volume (L) = 1.07751 - Viscosity (mPa s) = 0.31472 + Viscosity (mPa s) = 0.31473 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.110e-03 Mass of water (kg) = 1.000e+00 @@ -27195,7 +27195,7 @@ CO2(g) 2.55 0.16 -2.40 1.000e+01 1.451e+01 4.511e+00 Specific Conductance (µS/cm, 100°C) = 614 Density (g/cm³) = 1.00491 Volume (L) = 1.06630 - Viscosity (mPa s) = 0.31422 + Viscosity (mPa s) = 0.31423 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.096e-03 Mass of water (kg) = 9.914e-01 @@ -27276,7 +27276,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 623 Density (g/cm³) = 1.00637 Volume (L) = 1.07720 - Viscosity (mPa s) = 0.31536 + Viscosity (mPa s) = 0.31538 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.122e-03 Mass of water (kg) = 1.000e+00 @@ -27361,7 +27361,7 @@ CO2(g) 2.57 0.16 -2.41 1.000e+01 1.445e+01 4.452e+00 Specific Conductance (µS/cm, 100°C) = 620 Density (g/cm³) = 1.00581 Volume (L) = 1.06593 - Viscosity (mPa s) = 0.31486 + Viscosity (mPa s) = 0.31488 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.107e-03 Mass of water (kg) = 9.913e-01 @@ -27442,7 +27442,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 629 Density (g/cm³) = 1.00726 Volume (L) = 1.07687 - Viscosity (mPa s) = 0.31600 + Viscosity (mPa s) = 0.31602 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.134e-03 Mass of water (kg) = 1.000e+00 @@ -27527,7 +27527,7 @@ CO2(g) 2.58 0.16 -2.42 1.000e+01 1.440e+01 4.395e+00 Specific Conductance (µS/cm, 100°C) = 625 Density (g/cm³) = 1.00669 Volume (L) = 1.06555 - Viscosity (mPa s) = 0.31550 + Viscosity (mPa s) = 0.31552 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.119e-03 Mass of water (kg) = 9.913e-01 @@ -27608,7 +27608,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 634 Density (g/cm³) = 1.00814 Volume (L) = 1.07658 - Viscosity (mPa s) = 0.31665 + Viscosity (mPa s) = 0.31666 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.146e-03 Mass of water (kg) = 1.000e+00 @@ -27693,7 +27693,7 @@ CO2(g) 2.59 0.16 -2.43 1.000e+01 1.434e+01 4.342e+00 Specific Conductance (µS/cm, 100°C) = 630 Density (g/cm³) = 1.00757 Volume (L) = 1.06517 - Viscosity (mPa s) = 0.31614 + Viscosity (mPa s) = 0.31615 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.131e-03 Mass of water (kg) = 9.912e-01 @@ -27774,7 +27774,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 639 Density (g/cm³) = 1.00901 Volume (L) = 1.07623 - Viscosity (mPa s) = 0.31728 + Viscosity (mPa s) = 0.31729 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.158e-03 Mass of water (kg) = 1.000e+00 @@ -27859,7 +27859,7 @@ CO2(g) 2.60 0.17 -2.44 1.000e+01 1.429e+01 4.288e+00 Specific Conductance (µS/cm, 100°C) = 636 Density (g/cm³) = 1.00845 Volume (L) = 1.06479 - Viscosity (mPa s) = 0.31678 + Viscosity (mPa s) = 0.31680 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.143e-03 Mass of water (kg) = 9.912e-01 @@ -27940,7 +27940,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 644 Density (g/cm³) = 1.00988 Volume (L) = 1.07592 - Viscosity (mPa s) = 0.31792 + Viscosity (mPa s) = 0.31793 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.170e-03 Mass of water (kg) = 1.000e+00 @@ -28025,7 +28025,7 @@ CO2(g) 2.61 0.17 -2.45 1.000e+01 1.424e+01 4.239e+00 Specific Conductance (µS/cm, 100°C) = 641 Density (g/cm³) = 1.00931 Volume (L) = 1.06442 - Viscosity (mPa s) = 0.31741 + Viscosity (mPa s) = 0.31743 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.155e-03 Mass of water (kg) = 9.911e-01 @@ -28106,7 +28106,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 650 Density (g/cm³) = 1.01075 Volume (L) = 1.07557 - Viscosity (mPa s) = 0.31855 + Viscosity (mPa s) = 0.31857 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.181e-03 Mass of water (kg) = 1.000e+00 @@ -28191,7 +28191,7 @@ CO2(g) 2.63 0.17 -2.46 1.000e+01 1.419e+01 4.189e+00 Specific Conductance (µS/cm, 100°C) = 646 Density (g/cm³) = 1.01018 Volume (L) = 1.06404 - Viscosity (mPa s) = 0.31805 + Viscosity (mPa s) = 0.31806 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.166e-03 Mass of water (kg) = 9.911e-01 @@ -28272,7 +28272,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 655 Density (g/cm³) = 1.01160 Volume (L) = 1.07523 - Viscosity (mPa s) = 0.31919 + Viscosity (mPa s) = 0.31920 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.193e-03 Mass of water (kg) = 1.000e+00 @@ -28357,7 +28357,7 @@ CO2(g) 2.64 0.17 -2.47 1.000e+01 1.414e+01 4.142e+00 Specific Conductance (µS/cm, 100°C) = 651 Density (g/cm³) = 1.01104 Volume (L) = 1.06366 - Viscosity (mPa s) = 0.31868 + Viscosity (mPa s) = 0.31869 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.178e-03 Mass of water (kg) = 9.911e-01 @@ -28438,7 +28438,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 660 Density (g/cm³) = 1.01246 Volume (L) = 1.07491 - Viscosity (mPa s) = 0.31982 + Viscosity (mPa s) = 0.31983 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.205e-03 Mass of water (kg) = 1.000e+00 @@ -28523,7 +28523,7 @@ CO2(g) 2.65 0.17 -2.48 1.000e+01 1.410e+01 4.097e+00 Specific Conductance (µS/cm, 100°C) = 657 Density (g/cm³) = 1.01189 Volume (L) = 1.06329 - Viscosity (mPa s) = 0.31931 + Viscosity (mPa s) = 0.31932 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.190e-03 Mass of water (kg) = 9.911e-01 @@ -28604,7 +28604,7 @@ Initial solution 1. Specific Conductance (µS/cm, 100°C) = 665 Density (g/cm³) = 1.01330 Volume (L) = 1.07455 - Viscosity (mPa s) = 0.32045 + Viscosity (mPa s) = 0.32046 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.217e-03 Mass of water (kg) = 1.000e+00 @@ -28689,7 +28689,7 @@ CO2(g) 2.66 0.18 -2.49 1.000e+01 1.405e+01 4.051e+00 Specific Conductance (µS/cm, 100°C) = 662 Density (g/cm³) = 1.01274 Volume (L) = 1.06291 - Viscosity (mPa s) = 0.31994 + Viscosity (mPa s) = 0.31995 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 9.910e-01 @@ -28945,7 +28945,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 143 Density (g/cm³) = 0.91844 Volume (L) = 1.09708 - Viscosity (mPa s) = 0.18339 + Viscosity (mPa s) = 0.18340 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.766e-04 Mass of water (kg) = 1.000e+00 @@ -29111,7 +29111,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 194 Density (g/cm³) = 0.92003 Volume (L) = 1.10245 - Viscosity (mPa s) = 0.18422 + Viscosity (mPa s) = 0.18423 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.430e-04 Mass of water (kg) = 1.000e+00 @@ -29196,7 +29196,7 @@ CO2(g) 1.31 -0.78 -2.09 1.000e+01 1.073e+01 7.285e-01 Specific Conductance (µS/cm, 150°C) = 143 Density (g/cm³) = 0.91875 Volume (L) = 1.10499 - Viscosity (mPa s) = 0.18353 + Viscosity (mPa s) = 0.18354 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.766e-04 Mass of water (kg) = 1.008e+00 @@ -29277,7 +29277,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 229 Density (g/cm³) = 0.92159 Volume (L) = 1.10731 - Viscosity (mPa s) = 0.18503 + Viscosity (mPa s) = 0.18504 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.917e-04 Mass of water (kg) = 1.000e+00 @@ -29362,7 +29362,7 @@ CO2(g) 1.58 -0.51 -2.10 1.000e+01 2.782e+01 1.782e+01 Specific Conductance (µS/cm, 150°C) = 194 Density (g/cm³) = 0.92037 Volume (L) = 1.19016 - Viscosity (mPa s) = 0.18437 + Viscosity (mPa s) = 0.18438 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.430e-04 Mass of water (kg) = 1.080e+00 @@ -29440,10 +29440,10 @@ Initial solution 1. pH = 3.495 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 256 + Specific Conductance (µS/cm, 150°C) = 255 Density (g/cm³) = 0.92312 Volume (L) = 1.11167 - Viscosity (mPa s) = 0.18583 + Viscosity (mPa s) = 0.18584 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.310e-04 Mass of water (kg) = 1.000e+00 @@ -29528,7 +29528,7 @@ CO2(g) 1.74 -0.37 -2.11 1.000e+01 2.700e+01 1.700e+01 Specific Conductance (µS/cm, 150°C) = 229 Density (g/cm³) = 0.92197 Volume (L) = 1.16426 - Viscosity (mPa s) = 0.18520 + Viscosity (mPa s) = 0.18521 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.917e-04 Mass of water (kg) = 1.052e+00 @@ -29609,7 +29609,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 277 Density (g/cm³) = 0.92463 Volume (L) = 1.11557 - Viscosity (mPa s) = 0.18661 + Viscosity (mPa s) = 0.18662 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.640e-04 Mass of water (kg) = 1.000e+00 @@ -29694,7 +29694,7 @@ CO2(g) 1.85 -0.27 -2.12 1.000e+01 2.639e+01 1.639e+01 Specific Conductance (µS/cm, 150°C) = 256 Density (g/cm³) = 0.92355 Volume (L) = 1.15323 - Viscosity (mPa s) = 0.18602 + Viscosity (mPa s) = 0.18603 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.309e-04 Mass of water (kg) = 1.038e+00 @@ -29775,7 +29775,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 295 Density (g/cm³) = 0.92612 Volume (L) = 1.11902 - Viscosity (mPa s) = 0.18738 + Viscosity (mPa s) = 0.18739 Activity of water = 0.986 Ionic strength (mol/kgw) = 3.924e-04 Mass of water (kg) = 1.000e+00 @@ -29860,7 +29860,7 @@ CO2(g) 1.93 -0.20 -2.13 1.000e+01 2.588e+01 1.588e+01 Specific Conductance (µS/cm, 150°C) = 277 Density (g/cm³) = 0.92511 Volume (L) = 1.14773 - Viscosity (mPa s) = 0.18683 + Viscosity (mPa s) = 0.18684 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.639e-04 Mass of water (kg) = 1.030e+00 @@ -29941,7 +29941,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 310 Density (g/cm³) = 0.92758 Volume (L) = 1.12208 - Viscosity (mPa s) = 0.18813 + Viscosity (mPa s) = 0.18814 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.175e-04 Mass of water (kg) = 1.000e+00 @@ -30026,7 +30026,7 @@ CO2(g) 2.00 -0.14 -2.14 1.000e+01 2.541e+01 1.541e+01 Specific Conductance (µS/cm, 150°C) = 295 Density (g/cm³) = 0.92665 Volume (L) = 1.14460 - Viscosity (mPa s) = 0.18762 + Viscosity (mPa s) = 0.18763 Activity of water = 0.986 Ionic strength (mol/kgw) = 3.923e-04 Mass of water (kg) = 1.024e+00 @@ -30107,7 +30107,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 323 Density (g/cm³) = 0.92902 Volume (L) = 1.12478 - Viscosity (mPa s) = 0.18887 + Viscosity (mPa s) = 0.18888 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.401e-04 Mass of water (kg) = 1.000e+00 @@ -30192,7 +30192,7 @@ CO2(g) 2.05 -0.10 -2.16 1.000e+01 2.493e+01 1.493e+01 Specific Conductance (µS/cm, 150°C) = 310 Density (g/cm³) = 0.92817 Volume (L) = 1.14259 - Viscosity (mPa s) = 0.18840 + Viscosity (mPa s) = 0.18841 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.174e-04 Mass of water (kg) = 1.020e+00 @@ -30273,7 +30273,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 335 Density (g/cm³) = 0.93044 Volume (L) = 1.12714 - Viscosity (mPa s) = 0.18960 + Viscosity (mPa s) = 0.18961 Activity of water = 0.982 Ionic strength (mol/kgw) = 4.605e-04 Mass of water (kg) = 1.000e+00 @@ -30358,7 +30358,7 @@ CO2(g) 2.10 -0.07 -2.17 1.000e+01 2.443e+01 1.443e+01 Specific Conductance (µS/cm, 150°C) = 324 Density (g/cm³) = 0.92967 Volume (L) = 1.14112 - Viscosity (mPa s) = 0.18916 + Viscosity (mPa s) = 0.18917 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.399e-04 Mass of water (kg) = 1.016e+00 @@ -30439,7 +30439,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 345 Density (g/cm³) = 0.93183 Volume (L) = 1.12922 - Viscosity (mPa s) = 0.19032 + Viscosity (mPa s) = 0.19033 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.792e-04 Mass of water (kg) = 1.000e+00 @@ -30524,7 +30524,7 @@ CO2(g) 2.14 -0.04 -2.18 1.000e+01 2.393e+01 1.393e+01 Specific Conductance (µS/cm, 150°C) = 335 Density (g/cm³) = 0.93115 Volume (L) = 1.13992 - Viscosity (mPa s) = 0.18992 + Viscosity (mPa s) = 0.18993 Activity of water = 0.982 Ionic strength (mol/kgw) = 4.602e-04 Mass of water (kg) = 1.013e+00 @@ -30605,7 +30605,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 355 Density (g/cm³) = 0.93321 Volume (L) = 1.13106 - Viscosity (mPa s) = 0.19102 + Viscosity (mPa s) = 0.19103 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.966e-04 Mass of water (kg) = 1.000e+00 @@ -30690,7 +30690,7 @@ CO2(g) 2.18 -0.01 -2.19 1.000e+01 2.343e+01 1.343e+01 Specific Conductance (µS/cm, 150°C) = 346 Density (g/cm³) = 0.93261 Volume (L) = 1.13886 - Viscosity (mPa s) = 0.19066 + Viscosity (mPa s) = 0.19067 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.789e-04 Mass of water (kg) = 1.010e+00 @@ -30771,7 +30771,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 363 Density (g/cm³) = 0.93457 Volume (L) = 1.13267 - Viscosity (mPa s) = 0.19172 + Viscosity (mPa s) = 0.19173 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.129e-04 Mass of water (kg) = 1.000e+00 @@ -30856,7 +30856,7 @@ CO2(g) 2.21 0.01 -2.20 1.000e+01 2.294e+01 1.294e+01 Specific Conductance (µS/cm, 150°C) = 355 Density (g/cm³) = 0.93404 Volume (L) = 1.13788 - Viscosity (mPa s) = 0.19139 + Viscosity (mPa s) = 0.19140 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.963e-04 Mass of water (kg) = 1.008e+00 @@ -30937,7 +30937,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 371 Density (g/cm³) = 0.93591 Volume (L) = 1.13410 - Viscosity (mPa s) = 0.19240 + Viscosity (mPa s) = 0.19241 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.283e-04 Mass of water (kg) = 1.000e+00 @@ -31022,7 +31022,7 @@ CO2(g) 2.24 0.03 -2.21 1.000e+01 2.248e+01 1.248e+01 Specific Conductance (µS/cm, 150°C) = 364 Density (g/cm³) = 0.93545 Volume (L) = 1.13695 - Viscosity (mPa s) = 0.19211 + Viscosity (mPa s) = 0.19212 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.125e-04 Mass of water (kg) = 1.006e+00 @@ -31103,7 +31103,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 379 Density (g/cm³) = 0.93724 Volume (L) = 1.13537 - Viscosity (mPa s) = 0.19308 + Viscosity (mPa s) = 0.19309 Activity of water = 0.977 Ionic strength (mol/kgw) = 5.430e-04 Mass of water (kg) = 1.000e+00 @@ -31188,7 +31188,7 @@ CO2(g) 2.26 0.04 -2.22 1.000e+01 2.206e+01 1.206e+01 Specific Conductance (µS/cm, 150°C) = 372 Density (g/cm³) = 0.93685 Volume (L) = 1.13606 - Viscosity (mPa s) = 0.19281 + Viscosity (mPa s) = 0.19283 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.278e-04 Mass of water (kg) = 1.004e+00 @@ -31269,7 +31269,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 386 Density (g/cm³) = 0.93855 Volume (L) = 1.13648 - Viscosity (mPa s) = 0.19375 + Viscosity (mPa s) = 0.19376 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.570e-04 Mass of water (kg) = 1.000e+00 @@ -31354,7 +31354,7 @@ CO2(g) 2.29 0.06 -2.23 1.000e+01 2.166e+01 1.166e+01 Specific Conductance (µS/cm, 150°C) = 380 Density (g/cm³) = 0.93822 Volume (L) = 1.13521 - Viscosity (mPa s) = 0.19351 + Viscosity (mPa s) = 0.19352 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.424e-04 Mass of water (kg) = 1.003e+00 @@ -31435,7 +31435,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 392 Density (g/cm³) = 0.93985 Volume (L) = 1.13748 - Viscosity (mPa s) = 0.19442 + Viscosity (mPa s) = 0.19443 Activity of water = 0.975 Ionic strength (mol/kgw) = 5.705e-04 Mass of water (kg) = 1.000e+00 @@ -31520,7 +31520,7 @@ CO2(g) 2.31 0.07 -2.24 1.000e+01 2.129e+01 1.129e+01 Specific Conductance (µS/cm, 150°C) = 387 Density (g/cm³) = 0.93957 Volume (L) = 1.13440 - Viscosity (mPa s) = 0.19420 + Viscosity (mPa s) = 0.19421 Activity of water = 0.977 Ionic strength (mol/kgw) = 5.563e-04 Mass of water (kg) = 1.001e+00 @@ -31601,7 +31601,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 399 Density (g/cm³) = 0.94114 Volume (L) = 1.13838 - Viscosity (mPa s) = 0.19508 + Viscosity (mPa s) = 0.19509 Activity of water = 0.975 Ionic strength (mol/kgw) = 5.836e-04 Mass of water (kg) = 1.000e+00 @@ -31686,7 +31686,7 @@ CO2(g) 2.33 0.08 -2.26 1.000e+01 2.096e+01 1.096e+01 Specific Conductance (µS/cm, 150°C) = 394 Density (g/cm³) = 0.94091 Volume (L) = 1.13362 - Viscosity (mPa s) = 0.19488 + Viscosity (mPa s) = 0.19489 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.697e-04 Mass of water (kg) = 9.999e-01 @@ -31767,7 +31767,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 405 Density (g/cm³) = 0.94242 Volume (L) = 1.13917 - Viscosity (mPa s) = 0.19573 + Viscosity (mPa s) = 0.19574 Activity of water = 0.974 Ionic strength (mol/kgw) = 5.962e-04 Mass of water (kg) = 1.000e+00 @@ -31852,7 +31852,7 @@ CO2(g) 2.36 0.09 -2.27 1.000e+01 2.065e+01 1.065e+01 Specific Conductance (µS/cm, 150°C) = 400 Density (g/cm³) = 0.94223 Volume (L) = 1.13288 - Viscosity (mPa s) = 0.19555 + Viscosity (mPa s) = 0.19557 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.827e-04 Mass of water (kg) = 9.987e-01 @@ -31933,7 +31933,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 411 Density (g/cm³) = 0.94368 Volume (L) = 1.13988 - Viscosity (mPa s) = 0.19638 + Viscosity (mPa s) = 0.19639 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.085e-04 Mass of water (kg) = 1.000e+00 @@ -32018,7 +32018,7 @@ CO2(g) 2.38 0.10 -2.28 1.000e+01 2.036e+01 1.036e+01 Specific Conductance (µS/cm, 150°C) = 407 Density (g/cm³) = 0.94353 Volume (L) = 1.13217 - Viscosity (mPa s) = 0.19622 + Viscosity (mPa s) = 0.19623 Activity of water = 0.975 Ionic strength (mol/kgw) = 5.952e-04 Mass of water (kg) = 9.976e-01 @@ -32096,10 +32096,10 @@ Initial solution 1. pH = 3.231 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 417 + Specific Conductance (µS/cm, 150°C) = 416 Density (g/cm³) = 0.94494 Volume (L) = 1.14054 - Viscosity (mPa s) = 0.19702 + Viscosity (mPa s) = 0.19704 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.206e-04 Mass of water (kg) = 1.000e+00 @@ -32184,7 +32184,7 @@ CO2(g) 2.39 0.11 -2.29 1.000e+01 2.010e+01 1.010e+01 Specific Conductance (µS/cm, 150°C) = 413 Density (g/cm³) = 0.94482 Volume (L) = 1.13150 - Viscosity (mPa s) = 0.19688 + Viscosity (mPa s) = 0.19689 Activity of water = 0.974 Ionic strength (mol/kgw) = 6.074e-04 Mass of water (kg) = 9.966e-01 @@ -32265,7 +32265,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 422 Density (g/cm³) = 0.94618 Volume (L) = 1.14111 - Viscosity (mPa s) = 0.19766 + Viscosity (mPa s) = 0.19768 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.323e-04 Mass of water (kg) = 1.000e+00 @@ -32347,10 +32347,10 @@ CO2(g) 2.41 0.12 -2.30 1.000e+01 1.986e+01 9.861e+00 pH = 3.232 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 419 + Specific Conductance (µS/cm, 150°C) = 418 Density (g/cm³) = 0.94610 Volume (L) = 1.13085 - Viscosity (mPa s) = 0.19753 + Viscosity (mPa s) = 0.19754 Activity of water = 0.974 Ionic strength (mol/kgw) = 6.193e-04 Mass of water (kg) = 9.956e-01 @@ -32431,7 +32431,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 427 Density (g/cm³) = 0.94742 Volume (L) = 1.14162 - Viscosity (mPa s) = 0.19830 + Viscosity (mPa s) = 0.19831 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.438e-04 Mass of water (kg) = 1.000e+00 @@ -32516,7 +32516,7 @@ CO2(g) 2.43 0.12 -2.31 1.000e+01 1.964e+01 9.638e+00 Specific Conductance (µS/cm, 150°C) = 424 Density (g/cm³) = 0.94736 Volume (L) = 1.13024 - Viscosity (mPa s) = 0.19818 + Viscosity (mPa s) = 0.19819 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.309e-04 Mass of water (kg) = 9.947e-01 @@ -32597,7 +32597,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 433 Density (g/cm³) = 0.94865 Volume (L) = 1.14209 - Viscosity (mPa s) = 0.19893 + Viscosity (mPa s) = 0.19895 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.552e-04 Mass of water (kg) = 1.000e+00 @@ -32682,7 +32682,7 @@ CO2(g) 2.45 0.13 -2.32 1.000e+01 1.943e+01 9.432e+00 Specific Conductance (µS/cm, 150°C) = 430 Density (g/cm³) = 0.94860 Volume (L) = 1.12965 - Viscosity (mPa s) = 0.19882 + Viscosity (mPa s) = 0.19883 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.423e-04 Mass of water (kg) = 9.940e-01 @@ -32763,7 +32763,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 438 Density (g/cm³) = 0.94986 Volume (L) = 1.14251 - Viscosity (mPa s) = 0.19956 + Viscosity (mPa s) = 0.19958 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.663e-04 Mass of water (kg) = 1.000e+00 @@ -32848,7 +32848,7 @@ CO2(g) 2.47 0.14 -2.33 1.000e+01 1.924e+01 9.238e+00 Specific Conductance (µS/cm, 150°C) = 435 Density (g/cm³) = 0.94984 Volume (L) = 1.12909 - Viscosity (mPa s) = 0.19945 + Viscosity (mPa s) = 0.19947 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.536e-04 Mass of water (kg) = 9.932e-01 @@ -32929,7 +32929,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 443 Density (g/cm³) = 0.95107 Volume (L) = 1.14289 - Viscosity (mPa s) = 0.20019 + Viscosity (mPa s) = 0.20021 Activity of water = 0.970 Ionic strength (mol/kgw) = 6.773e-04 Mass of water (kg) = 1.000e+00 @@ -33014,7 +33014,7 @@ CO2(g) 2.48 0.14 -2.34 1.000e+01 1.906e+01 9.059e+00 Specific Conductance (µS/cm, 150°C) = 440 Density (g/cm³) = 0.95106 Volume (L) = 1.12855 - Viscosity (mPa s) = 0.20008 + Viscosity (mPa s) = 0.20010 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.645e-04 Mass of water (kg) = 9.925e-01 @@ -33092,10 +33092,10 @@ Initial solution 1. pH = 3.188 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 448 + Specific Conductance (µS/cm, 150°C) = 447 Density (g/cm³) = 0.95227 Volume (L) = 1.14323 - Viscosity (mPa s) = 0.20082 + Viscosity (mPa s) = 0.20083 Activity of water = 0.970 Ionic strength (mol/kgw) = 6.881e-04 Mass of water (kg) = 1.000e+00 @@ -33180,7 +33180,7 @@ CO2(g) 2.50 0.15 -2.35 1.000e+01 1.889e+01 8.890e+00 Specific Conductance (µS/cm, 150°C) = 445 Density (g/cm³) = 0.95227 Volume (L) = 1.12803 - Viscosity (mPa s) = 0.20071 + Viscosity (mPa s) = 0.20073 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.754e-04 Mass of water (kg) = 9.919e-01 @@ -33261,7 +33261,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 452 Density (g/cm³) = 0.95347 Volume (L) = 1.14355 - Viscosity (mPa s) = 0.20144 + Viscosity (mPa s) = 0.20145 Activity of water = 0.969 Ionic strength (mol/kgw) = 6.988e-04 Mass of water (kg) = 1.000e+00 @@ -33346,7 +33346,7 @@ CO2(g) 2.51 0.15 -2.36 1.000e+01 1.873e+01 8.732e+00 Specific Conductance (µS/cm, 150°C) = 450 Density (g/cm³) = 0.95348 Volume (L) = 1.12754 - Viscosity (mPa s) = 0.20134 + Viscosity (mPa s) = 0.20135 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.861e-04 Mass of water (kg) = 9.913e-01 @@ -33427,7 +33427,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 457 Density (g/cm³) = 0.95465 Volume (L) = 1.14381 - Viscosity (mPa s) = 0.20206 + Viscosity (mPa s) = 0.20207 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.093e-04 Mass of water (kg) = 1.000e+00 @@ -33512,7 +33512,7 @@ CO2(g) 2.53 0.16 -2.37 1.000e+01 1.858e+01 8.582e+00 Specific Conductance (µS/cm, 150°C) = 455 Density (g/cm³) = 0.95467 Volume (L) = 1.12707 - Viscosity (mPa s) = 0.20196 + Viscosity (mPa s) = 0.20197 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.967e-04 Mass of water (kg) = 9.908e-01 @@ -33590,10 +33590,10 @@ Initial solution 1. pH = 3.169 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 462 + Specific Conductance (µS/cm, 150°C) = 461 Density (g/cm³) = 0.95583 Volume (L) = 1.14409 - Viscosity (mPa s) = 0.20267 + Viscosity (mPa s) = 0.20269 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.199e-04 Mass of water (kg) = 1.000e+00 @@ -33678,7 +33678,7 @@ CO2(g) 2.54 0.17 -2.38 1.000e+01 1.844e+01 8.444e+00 Specific Conductance (µS/cm, 150°C) = 460 Density (g/cm³) = 0.95585 Volume (L) = 1.12661 - Viscosity (mPa s) = 0.20257 + Viscosity (mPa s) = 0.20259 Activity of water = 0.970 Ionic strength (mol/kgw) = 7.071e-04 Mass of water (kg) = 9.903e-01 @@ -33759,7 +33759,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 466 Density (g/cm³) = 0.95700 Volume (L) = 1.14429 - Viscosity (mPa s) = 0.20329 + Viscosity (mPa s) = 0.20330 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.301e-04 Mass of water (kg) = 1.000e+00 @@ -33844,7 +33844,7 @@ CO2(g) 2.56 0.17 -2.39 1.000e+01 1.831e+01 8.308e+00 Specific Conductance (µS/cm, 150°C) = 465 Density (g/cm³) = 0.95703 Volume (L) = 1.12617 - Viscosity (mPa s) = 0.20319 + Viscosity (mPa s) = 0.20321 Activity of water = 0.970 Ionic strength (mol/kgw) = 7.175e-04 Mass of water (kg) = 9.898e-01 @@ -33922,10 +33922,10 @@ Initial solution 1. pH = 3.157 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 471 + Specific Conductance (µS/cm, 150°C) = 470 Density (g/cm³) = 0.95817 Volume (L) = 1.14452 - Viscosity (mPa s) = 0.20390 + Viscosity (mPa s) = 0.20392 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.404e-04 Mass of water (kg) = 1.000e+00 @@ -34007,10 +34007,10 @@ CO2(g) 2.57 0.17 -2.40 1.000e+01 1.819e+01 8.185e+00 pH = 3.164 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 470 + Specific Conductance (µS/cm, 150°C) = 469 Density (g/cm³) = 0.95819 Volume (L) = 1.12575 - Viscosity (mPa s) = 0.20380 + Viscosity (mPa s) = 0.20381 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.276e-04 Mass of water (kg) = 9.894e-01 @@ -34091,7 +34091,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 475 Density (g/cm³) = 0.95932 Volume (L) = 1.14468 - Viscosity (mPa s) = 0.20451 + Viscosity (mPa s) = 0.20452 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.506e-04 Mass of water (kg) = 1.000e+00 @@ -34176,7 +34176,7 @@ CO2(g) 2.59 0.18 -2.41 1.000e+01 1.806e+01 8.064e+00 Specific Conductance (µS/cm, 150°C) = 474 Density (g/cm³) = 0.95935 Volume (L) = 1.12535 - Viscosity (mPa s) = 0.20441 + Viscosity (mPa s) = 0.20442 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.378e-04 Mass of water (kg) = 9.890e-01 @@ -34257,7 +34257,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 479 Density (g/cm³) = 0.96047 Volume (L) = 1.14487 - Viscosity (mPa s) = 0.20512 + Viscosity (mPa s) = 0.20513 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.607e-04 Mass of water (kg) = 1.000e+00 @@ -34342,7 +34342,7 @@ CO2(g) 2.60 0.18 -2.42 1.000e+01 1.795e+01 7.952e+00 Specific Conductance (µS/cm, 150°C) = 479 Density (g/cm³) = 0.96049 Volume (L) = 1.12496 - Viscosity (mPa s) = 0.20501 + Viscosity (mPa s) = 0.20503 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.478e-04 Mass of water (kg) = 9.886e-01 @@ -34423,7 +34423,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 483 Density (g/cm³) = 0.96161 Volume (L) = 1.14500 - Viscosity (mPa s) = 0.20572 + Viscosity (mPa s) = 0.20574 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.706e-04 Mass of water (kg) = 1.000e+00 @@ -34508,7 +34508,7 @@ CO2(g) 2.61 0.19 -2.43 1.000e+01 1.784e+01 7.842e+00 Specific Conductance (µS/cm, 150°C) = 483 Density (g/cm³) = 0.96164 Volume (L) = 1.12458 - Viscosity (mPa s) = 0.20562 + Viscosity (mPa s) = 0.20563 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.578e-04 Mass of water (kg) = 9.882e-01 @@ -34586,10 +34586,10 @@ Initial solution 1. pH = 3.135 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 488 + Specific Conductance (µS/cm, 150°C) = 487 Density (g/cm³) = 0.96275 Volume (L) = 1.14514 - Viscosity (mPa s) = 0.20633 + Viscosity (mPa s) = 0.20634 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.806e-04 Mass of water (kg) = 1.000e+00 @@ -34674,7 +34674,7 @@ CO2(g) 2.63 0.19 -2.44 1.000e+01 1.774e+01 7.740e+00 Specific Conductance (µS/cm, 150°C) = 487 Density (g/cm³) = 0.96276 Volume (L) = 1.12422 - Viscosity (mPa s) = 0.20622 + Viscosity (mPa s) = 0.20623 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.676e-04 Mass of water (kg) = 9.879e-01 @@ -34755,7 +34755,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 492 Density (g/cm³) = 0.96388 Volume (L) = 1.14525 - Viscosity (mPa s) = 0.20693 + Viscosity (mPa s) = 0.20695 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.904e-04 Mass of water (kg) = 1.000e+00 @@ -34840,7 +34840,7 @@ CO2(g) 2.64 0.20 -2.45 1.000e+01 1.764e+01 7.641e+00 Specific Conductance (µS/cm, 150°C) = 492 Density (g/cm³) = 0.96389 Volume (L) = 1.12387 - Viscosity (mPa s) = 0.20682 + Viscosity (mPa s) = 0.20683 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.774e-04 Mass of water (kg) = 9.876e-01 @@ -34921,7 +34921,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 496 Density (g/cm³) = 0.96500 Volume (L) = 1.14537 - Viscosity (mPa s) = 0.20753 + Viscosity (mPa s) = 0.20755 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.002e-04 Mass of water (kg) = 1.000e+00 @@ -35006,7 +35006,7 @@ CO2(g) 2.66 0.20 -2.46 1.000e+01 1.755e+01 7.547e+00 Specific Conductance (µS/cm, 150°C) = 496 Density (g/cm³) = 0.96501 Volume (L) = 1.12353 - Viscosity (mPa s) = 0.20741 + Viscosity (mPa s) = 0.20743 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.872e-04 Mass of water (kg) = 9.873e-01 @@ -35087,7 +35087,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 500 Density (g/cm³) = 0.96612 Volume (L) = 1.14544 - Viscosity (mPa s) = 0.20813 + Viscosity (mPa s) = 0.20815 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.099e-04 Mass of water (kg) = 1.000e+00 @@ -35172,7 +35172,7 @@ CO2(g) 2.67 0.20 -2.47 1.000e+01 1.746e+01 7.455e+00 Specific Conductance (µS/cm, 150°C) = 500 Density (g/cm³) = 0.96612 Volume (L) = 1.12321 - Viscosity (mPa s) = 0.20801 + Viscosity (mPa s) = 0.20802 Activity of water = 0.967 Ionic strength (mol/kgw) = 7.968e-04 Mass of water (kg) = 9.870e-01 @@ -35250,10 +35250,10 @@ Initial solution 1. pH = 3.115 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 504 + Specific Conductance (µS/cm, 150°C) = 503 Density (g/cm³) = 0.96723 Volume (L) = 1.14553 - Viscosity (mPa s) = 0.20873 + Viscosity (mPa s) = 0.20875 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.196e-04 Mass of water (kg) = 1.000e+00 @@ -35338,7 +35338,7 @@ CO2(g) 2.68 0.21 -2.48 1.000e+01 1.737e+01 7.370e+00 Specific Conductance (µS/cm, 150°C) = 504 Density (g/cm³) = 0.96721 Volume (L) = 1.12290 - Viscosity (mPa s) = 0.20859 + Viscosity (mPa s) = 0.20861 Activity of water = 0.967 Ionic strength (mol/kgw) = 8.064e-04 Mass of water (kg) = 9.867e-01 @@ -35419,7 +35419,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 507 Density (g/cm³) = 0.96834 Volume (L) = 1.14562 - Viscosity (mPa s) = 0.20933 + Viscosity (mPa s) = 0.20934 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.292e-04 Mass of water (kg) = 1.000e+00 @@ -35504,7 +35504,7 @@ CO2(g) 2.69 0.21 -2.48 1.000e+01 1.729e+01 7.286e+00 Specific Conductance (µS/cm, 150°C) = 508 Density (g/cm³) = 0.96831 Volume (L) = 1.12259 - Viscosity (mPa s) = 0.20919 + Viscosity (mPa s) = 0.20920 Activity of water = 0.966 Ionic strength (mol/kgw) = 8.160e-04 Mass of water (kg) = 9.865e-01 @@ -35585,7 +35585,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 511 Density (g/cm³) = 0.96943 Volume (L) = 1.14568 - Viscosity (mPa s) = 0.20992 + Viscosity (mPa s) = 0.20994 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.388e-04 Mass of water (kg) = 1.000e+00 @@ -35670,7 +35670,7 @@ CO2(g) 2.71 0.21 -2.49 1.000e+01 1.720e+01 7.205e+00 Specific Conductance (µS/cm, 150°C) = 512 Density (g/cm³) = 0.96940 Volume (L) = 1.12230 - Viscosity (mPa s) = 0.20977 + Viscosity (mPa s) = 0.20979 Activity of water = 0.966 Ionic strength (mol/kgw) = 8.255e-04 Mass of water (kg) = 9.863e-01 @@ -35751,7 +35751,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 515 Density (g/cm³) = 0.97052 Volume (L) = 1.14571 - Viscosity (mPa s) = 0.21051 + Viscosity (mPa s) = 0.21053 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.483e-04 Mass of water (kg) = 1.000e+00 @@ -35836,7 +35836,7 @@ CO2(g) 2.72 0.22 -2.50 1.000e+01 1.713e+01 7.127e+00 Specific Conductance (µS/cm, 150°C) = 516 Density (g/cm³) = 0.97048 Volume (L) = 1.12202 - Viscosity (mPa s) = 0.21036 + Viscosity (mPa s) = 0.21038 Activity of water = 0.966 Ionic strength (mol/kgw) = 8.349e-04 Mass of water (kg) = 9.861e-01 @@ -35917,7 +35917,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 519 Density (g/cm³) = 0.97162 Volume (L) = 1.14581 - Viscosity (mPa s) = 0.21111 + Viscosity (mPa s) = 0.21113 Activity of water = 0.963 Ionic strength (mol/kgw) = 8.578e-04 Mass of water (kg) = 1.000e+00 @@ -36002,7 +36002,7 @@ CO2(g) 2.73 0.22 -2.51 1.000e+01 1.705e+01 7.054e+00 Specific Conductance (µS/cm, 150°C) = 520 Density (g/cm³) = 0.97155 Volume (L) = 1.12175 - Viscosity (mPa s) = 0.21094 + Viscosity (mPa s) = 0.21096 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.442e-04 Mass of water (kg) = 9.859e-01 @@ -36083,7 +36083,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 522 Density (g/cm³) = 0.97269 Volume (L) = 1.14582 - Viscosity (mPa s) = 0.21170 + Viscosity (mPa s) = 0.21171 Activity of water = 0.963 Ionic strength (mol/kgw) = 8.672e-04 Mass of water (kg) = 1.000e+00 @@ -36168,7 +36168,7 @@ CO2(g) 2.74 0.22 -2.52 1.000e+01 1.698e+01 6.979e+00 Specific Conductance (µS/cm, 150°C) = 524 Density (g/cm³) = 0.97263 Volume (L) = 1.12149 - Viscosity (mPa s) = 0.21153 + Viscosity (mPa s) = 0.21155 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.537e-04 Mass of water (kg) = 9.857e-01 @@ -36249,7 +36249,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 526 Density (g/cm³) = 0.97377 Volume (L) = 1.14589 - Viscosity (mPa s) = 0.21229 + Viscosity (mPa s) = 0.21231 Activity of water = 0.963 Ionic strength (mol/kgw) = 8.766e-04 Mass of water (kg) = 1.000e+00 @@ -36334,7 +36334,7 @@ CO2(g) 2.76 0.22 -2.53 1.000e+01 1.691e+01 6.911e+00 Specific Conductance (µS/cm, 150°C) = 528 Density (g/cm³) = 0.97368 Volume (L) = 1.12124 - Viscosity (mPa s) = 0.21211 + Viscosity (mPa s) = 0.21212 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.629e-04 Mass of water (kg) = 9.855e-01 @@ -36415,7 +36415,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 530 Density (g/cm³) = 0.97484 Volume (L) = 1.14590 - Viscosity (mPa s) = 0.21288 + Viscosity (mPa s) = 0.21289 Activity of water = 0.963 Ionic strength (mol/kgw) = 8.859e-04 Mass of water (kg) = 1.000e+00 @@ -36500,7 +36500,7 @@ CO2(g) 2.77 0.23 -2.54 1.000e+01 1.684e+01 6.842e+00 Specific Conductance (µS/cm, 150°C) = 532 Density (g/cm³) = 0.97474 Volume (L) = 1.12100 - Viscosity (mPa s) = 0.21269 + Viscosity (mPa s) = 0.21271 Activity of water = 0.965 Ionic strength (mol/kgw) = 8.722e-04 Mass of water (kg) = 9.853e-01 @@ -36581,7 +36581,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 533 Density (g/cm³) = 0.97590 Volume (L) = 1.14592 - Viscosity (mPa s) = 0.21346 + Viscosity (mPa s) = 0.21348 Activity of water = 0.962 Ionic strength (mol/kgw) = 8.952e-04 Mass of water (kg) = 1.000e+00 @@ -36663,10 +36663,10 @@ CO2(g) 2.78 0.23 -2.55 1.000e+01 1.678e+01 6.777e+00 pH = 3.084 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 536 + Specific Conductance (µS/cm, 150°C) = 535 Density (g/cm³) = 0.97579 Volume (L) = 1.12077 - Viscosity (mPa s) = 0.21327 + Viscosity (mPa s) = 0.21328 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.814e-04 Mass of water (kg) = 9.852e-01 @@ -36747,7 +36747,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 537 Density (g/cm³) = 0.97697 Volume (L) = 1.14598 - Viscosity (mPa s) = 0.21405 + Viscosity (mPa s) = 0.21407 Activity of water = 0.962 Ionic strength (mol/kgw) = 9.046e-04 Mass of water (kg) = 1.000e+00 @@ -36832,7 +36832,7 @@ CO2(g) 2.79 0.23 -2.56 1.000e+01 1.672e+01 6.715e+00 Specific Conductance (µS/cm, 150°C) = 539 Density (g/cm³) = 0.97683 Volume (L) = 1.12054 - Viscosity (mPa s) = 0.21384 + Viscosity (mPa s) = 0.21386 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.906e-04 Mass of water (kg) = 9.850e-01 @@ -36913,7 +36913,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 540 Density (g/cm³) = 0.97802 Volume (L) = 1.14598 - Viscosity (mPa s) = 0.21464 + Viscosity (mPa s) = 0.21465 Activity of water = 0.962 Ionic strength (mol/kgw) = 9.137e-04 Mass of water (kg) = 1.000e+00 @@ -36998,7 +36998,7 @@ CO2(g) 2.80 0.24 -2.57 1.000e+01 1.665e+01 6.652e+00 Specific Conductance (µS/cm, 150°C) = 543 Density (g/cm³) = 0.97788 Volume (L) = 1.12033 - Viscosity (mPa s) = 0.21442 + Viscosity (mPa s) = 0.21444 Activity of water = 0.964 Ionic strength (mol/kgw) = 8.998e-04 Mass of water (kg) = 9.849e-01 diff --git a/mytest/CaCl2_P_T_101.sel b/mytest/CaCl2_P_T_101.sel index c692122d..e3c0c13c 100644 --- a/mytest/CaCl2_P_T_101.sel +++ b/mytest/CaCl2_P_T_101.sel @@ -1,385 +1,385 @@ Mu SC Viscosity 0.000000100644 0.0547821166 0.8900243330 - 0.012000038486 511.2752736995 1.7954124795 - 0.597000060806 19230.0809878098 1.8791350306 - 1.539000073059 44241.5337660366 2.0051805400 - 2.127000077892 58008.8635261733 2.0872437281 - 3.063000083521 77278.5779532110 2.2306816981 - 4.638000090105 102176.6691801776 2.5334757605 - 6.252000095429 117404.0872503659 2.9719948918 - 8.028000101328 122748.4930692974 3.6783571191 - 9.843000108583 118678.8222512945 4.7330527321 - 11.616000117811 109182.5488052294 6.1852507967 - 12.870000126115 100966.1933829738 7.5190984367 - 13.449000130560 97028.8266448307 8.2326024972 - 14.406000138893 90525.0000884248 9.5602233257 - 15.756000153090 81651.9106639672 11.7765793138 - 16.425000161366 77471.0524634472 13.0372470466 - 17.349000174378 71983.7170937046 14.9700097369 - 0.012000114587 976.0437157016 0.8923541767 - 0.066000132535 4861.4164657840 0.8989000023 - 0.072000133853 5269.2041284184 0.8995708873 - 0.135000144961 9390.4207378890 0.9063776961 - 0.141000145845 9770.7448244487 0.9070104752 - 0.150000147132 10337.9872700297 0.9079560596 - 0.177000150750 12018.2369231631 0.9107703493 - 0.177000150750 12018.2369231631 0.9107703493 - 0.207000154421 13851.5784948890 0.9138648724 - 0.216000155463 14395.3784631800 0.9147876773 - 0.246000158772 16189.2639324426 0.9178480475 - 0.252000159407 16544.7649436512 0.9184575107 - 0.294000163629 19005.2761477851 0.9227030002 - 0.300000164204 19352.9943647692 0.9233068269 - 0.300000164204 19352.9943647692 0.9233068269 - 0.396000172657 24803.0536430375 0.9328969674 - 0.423000174823 26300.9419669376 0.9355744850 - 0.432000175528 26797.1181621783 0.9364654184 - 0.555000184442 33434.5253036099 0.9485775670 - 0.567000185250 34068.6912455789 0.9497539568 - 0.585000186443 35015.7624964237 0.9515171063 - 0.597000187227 35644.4024553135 0.9526916330 - 0.615000188387 36583.3229869793 0.9544521457 - 0.762000197206 44079.9248663784 0.9687839820 - 0.789000198716 45425.5158490323 0.9714096374 - 0.879000203540 49845.2258388122 0.9801522608 - 1.047000211812 57841.1738354370 0.9964522252 - 1.182000217888 64043.1508674964 1.0095539473 - 1.203000218794 64990.9090964912 1.0115935613 - 1.248000220701 67006.8397026108 1.0159662476 - 1.461000229179 76281.0835850599 1.0367180783 - 1.500000230642 77932.8750515866 1.0405303444 - 1.521000231420 78816.5319973117 1.0425850526 - 1.539000232081 79570.7622281169 1.0443473683 - 1.590000233926 81691.8918749461 1.0493465897 - 1.662000236464 84647.0310155049 1.0564205394 - 1.719000238422 86954.3124906554 1.0620354177 - 1.752000239535 88277.2727654032 1.0652924917 - 1.782000240534 89471.8740938053 1.0682577132 - 1.812000241523 90658.8256732167 1.0712271254 - 1.842000242499 91838.1788622577 1.0742008705 - 2.010000247775 98304.3876561494 1.0909405314 - 2.127000251269 102671.9913867152 1.1026945061 - 2.145000251795 103334.2295333932 1.1045104402 - 2.325000256883 109816.8386968670 1.1227913294 - 2.367000258030 111293.3413503190 1.1270905879 - 2.559000263092 117872.5715841367 1.1469227670 - 2.601000264163 119274.9424808370 1.1513024180 - 2.961000272864 130765.6922046527 1.1895255819 - 2.961000272864 130765.6922046527 1.1895255819 - 3.000000273760 131954.4875698049 1.1937458591 - 3.063000275189 133852.0661745845 1.2005986274 - 3.081000275594 134389.0815197975 1.2025647464 - 3.273000279810 139975.9808365287 1.2237727551 - 3.474000284042 145551.1735093700 1.2464662405 - 3.483000284228 145794.3326684545 1.2474948020 - 3.567000285944 148037.2465103622 1.2571481756 - 3.969000293806 158114.3301199282 1.3047715505 - 4.320000300274 166040.6857943329 1.3484846984 - 4.425000302149 168256.6578238871 1.3619857647 - 4.569000304682 171180.9607644405 1.3808397668 - 4.623000305622 172243.5761531672 1.3880139785 - 4.638000305882 172535.4708883024 1.3900170902 - 4.686000306711 173459.9857942018 1.3964574100 - 5.049000312858 179984.9231640577 1.4467219157 - 5.130000314203 181329.6385479211 1.4583311873 - 5.268000316478 183528.4074916444 1.4784577060 - 5.274000316576 183621.3839971041 1.4793429068 - 5.346000317754 184720.1502528622 1.4900324005 - 5.637000322467 188845.2045259693 1.5345366433 - 5.709000323623 189788.6212984288 1.5458813257 - 5.823000325448 191220.5692255641 1.5641244252 - 5.937000327265 192577.4500382397 1.5827195593 - 6.000000328267 193295.3912648105 1.5931501767 - 6.252000332263 195943.1440360681 1.6360066444 - 6.279000332690 196205.8210760627 1.6407086977 - 6.318000333307 196578.1448374950 1.6475390915 - 6.342000333687 196803.1110430325 1.6517651914 - 6.351000333829 196886.6591605820 1.6533544761 - 6.636000338338 199305.4083739153 1.7049786061 - 6.678000339003 199625.1472911515 1.7128038020 - 7.233000347839 202997.3188295849 1.8217653060 - 7.521000352484 204147.7151473986 1.8826113519 - 7.767000356500 204823.8451858166 1.9370688773 - 7.914000358924 205098.2323703734 1.9707468189 - 8.028000360818 205246.2771870105 1.9974664029 - 8.061000361369 205278.7706328520 2.0053007622 - 8.361000366431 205366.9463462928 2.0786265046 - 8.517000369105 205270.1010777903 2.1182936289 - 8.727000372755 204992.7796770521 2.1734113837 - 8.874000375346 204702.1524326089 2.2131988418 - 9.000000377593 204392.1669183680 2.2481113628 - 9.432000385488 202927.1058724734 2.3736778803 - 9.681000390186 201819.2550862534 2.4503397387 - 9.849000393421 200971.4006244714 2.5039045009 - 9.843000393304 201003.0179070465 2.5019654554 - 10.332000403039 198122.6457189655 2.6665034447 - 10.782000412462 194982.0979943656 2.8300324250 - 10.872000414405 194304.2087698526 2.8641921162 - 11.463000427674 189497.2272852710 3.1011056723 - 11.463000427674 189497.2272852710 3.1011056723 - 11.577000430343 188506.5945126284 3.1493994953 - 11.616000431264 188163.4962929099 3.1661192312 - 11.718000433694 187256.4502832896 3.2103299840 - 11.727000433910 187175.7585222608 3.2142646157 - 11.871000437396 185870.7761817731 3.2779686186 - 11.898000438056 185623.2642230867 3.2900713105 - 12.000000440571 184680.5353946758 3.3362479432 - 12.642000457157 178504.6028826747 3.6438850697 - 12.870000463380 176228.7913010796 3.7604431302 - 13.449000480029 170313.0410857656 4.0745141764 - 13.677000486938 167944.3907193640 4.2055545807 - 14.289000506551 161526.7038916145 4.5788270940 - 14.406000510486 160294.8104258289 4.6538683664 - 14.517000514278 159125.7882122888 4.7261816345 - 14.574000516247 158525.5047013274 4.7637430016 - 15.756000560722 146170.3640183436 5.6106888107 - 16.080000574231 142843.9350585167 5.8665507388 - 16.104000575256 142598.9821655708 5.8859266700 - 16.425000589302 139343.9235071482 6.1507933057 - 16.857000609229 135031.4213109220 6.5243821163 - 17.130000622463 132350.5271675202 6.7708811180 - 17.349000633456 130226.4904661675 6.9745901672 - 17.607000646853 127755.9046588620 7.2215225589 - 17.706000652127 126817.2566882929 7.3182993440 - 17.706000652127 126817.2566882929 7.3182993440 - 17.925000664061 124759.7663229728 7.5364256916 - 17.973000666727 124312.3376566790 7.5849851413 - 18.000000668235 124061.2221294475 7.6124193309 - 18.453000694429 119909.4677795048 8.0856994609 - 18.753000712747 117224.9741931255 8.4128833512 - 19.887000789729 107558.7807217518 9.7530710807 - 19.974000796185 106848.9482615858 9.8628813323 - 20.559000841838 102193.4240862968 10.6281757940 - 21.231000899484 97095.8078982557 11.5667963507 - 21.999000973005 91590.6462479952 12.7207617030 - 22.023000975445 91424.0088480001 12.7582615054 - 22.377001012510 89003.3930809534 13.3217412675 - 23.493001143718 81816.4954252675 15.2288517236 - 23.493001143718 81816.4954252675 15.2288517236 - 23.634001162001 80954.8723016915 15.4843632976 - 28.494002139348 56733.1863635355 26.5202388090 - 28.494002139348 56733.1863635355 26.5202388090 - 0.012000267961 1499.4688181780 0.5481247244 - 0.300000391499 29415.3293368747 0.5694229773 - 0.597000451456 53956.9159816717 0.5896134645 - 1.521000571271 118195.2880833894 0.6511348686 - 1.539000573114 119307.3991379189 0.6523351950 - 2.127000627341 153211.0325898424 0.6918929865 - 2.961000690150 194077.8577690051 0.7499434281 - 3.063000697032 198548.8891883633 0.7572649031 - 3.081000698232 199326.5571743161 0.7585628686 - 4.638000789844 254572.8157551711 0.8794662529 - 4.686000792395 255920.0843017318 0.8835231593 - 6.252000871597 289359.2638911596 1.0306030392 - 6.342000876024 290695.4020487016 1.0400530378 - 8.028000959988 305389.8586006244 1.2423953998 - 8.061000961681 305497.5151014610 1.2468914396 - 9.849001059090 302886.8323787761 1.5276873221 - 9.843001058740 302920.0076866223 1.5266116253 - 11.463001160989 289484.9397650065 1.8549962183 - 11.583001169262 288189.7210490319 1.8825732674 - 11.616001171556 287827.6410466475 1.8902411535 - 11.718001178700 286692.9112444325 1.9141737277 - 12.870001265368 272496.0746705138 2.2099709830 - 13.449001313560 264633.1876074678 2.3775087903 - 13.677001333487 261444.3574036449 2.4471800381 - 14.406001401122 251002.6803616090 2.6846712226 - 14.553001415528 248864.3722453444 2.7353730658 - 15.756001544278 231208.3357646992 3.1880439190 - 15.873001557915 229490.9249309576 3.2358125516 - 16.425001625203 221425.8753864734 3.4706078892 - 17.349001749695 208158.7529800138 3.8999551291 - 17.706001802179 203141.2145441001 4.0786064060 - 17.925001835686 200098.6430404913 4.1918547941 - 17.973001843168 199435.5714703571 4.2170534595 - 18.021001850699 198773.8965569574 4.2423887491 - 19.176002048207 183306.1894480124 4.8944658209 - 19.887002187062 174254.4474062188 5.3382448087 - 20.391002294573 168069.0169070384 5.6734405942 - 21.237002494061 158128.0288969931 6.2762887200 - 22.116002730036 148389.4179121763 6.9585500242 - 23.493003170238 134322.8314074393 8.1491759648 - 26.538004568710 108002.3191110017 11.3653152044 - 0.300000139864 17636.6995420114 1.0346606814 - 0.300000170592 19534.6248099888 0.9220413094 - 0.300000265735 24280.8188702584 0.7185869661 - 0.300000517290 32908.6883210189 0.5011646348 - 0.300000781252 39256.7139185671 0.4030412483 - 0.300001352964 48991.9107195012 0.3021266134 - 0.300002142358 58234.8591298919 0.2367350924 - 0.300003025727 65729.5789892745 0.1957430983 - 0.300003942160 71666.9940022418 0.1674633477 - 0.300004792723 76031.2676167563 0.1472838911 - 0.990000175747 50383.7406232036 1.1074292854 - 0.990000215122 55624.7550757301 0.9895539638 - 0.990000365225 71204.1711277390 0.7437852482 - 0.990000726644 96014.5968982094 0.5205909458 - 0.990001095055 113556.9711752004 0.4230252299 - 0.990001713327 135194.8349920744 0.3382146613 - 0.990002807509 162042.0995241500 0.2645239386 - 0.990004113617 184713.1291828966 0.2182638039 - 0.990005468132 202400.9441802797 0.1883050463 - 0.990007195043 219714.2233146407 0.1619278298 - 1.950000203158 87926.8034129021 1.2088049471 - 1.950000249454 96741.5545736313 1.0834375142 - 1.950000442829 124951.4701248117 0.8045172484 - 1.950000731983 154515.1657292108 0.6248906764 - 1.950001313274 195345.7947061399 0.4691393330 - 1.950002291581 241128.8217436171 0.3590943587 - 1.950003589679 282890.7810283342 0.2902964480 - 1.950005607579 328176.9624040885 0.2350661316 - 1.950007858242 364279.2600150665 0.1998608200 - 1.950009999360 390566.0937001834 0.1772886092 - 2.910000220724 118542.4627748414 1.3161792494 - 2.910000271641 130077.6720326141 1.1823821064 - 2.910000519980 172015.0337188110 0.8525444921 - 2.910000853289 210771.0474513612 0.6689314114 - 2.910001443290 259128.6884266340 0.5200626634 - 2.910002464952 316540.5058340792 0.4046893933 - 2.910004449982 389377.9298083938 0.3085721354 - 2.910006795708 446956.5374377611 0.2546329040 - 2.910009237515 490807.3194872754 0.2214283493 - 2.910012382793 533770.6773207717 0.1933317334 - 4.200000236982 150207.6645648863 1.4793598086 - 4.200000292332 164412.6158320467 1.3314395253 - 4.200000460032 198957.6887276751 1.0640960978 - 4.200000764550 244706.5184904176 0.8319497934 - 4.200001597388 326232.6657652081 0.5874693717 - 4.200002927158 407957.1461691646 0.4450471095 - 4.200004902373 488014.7552218817 0.3534840158 - 4.200007835395 568201.2966461414 0.2878730228 - 4.200011074735 630873.3944985132 0.2477483708 - 4.200015183183 689989.3877089303 0.2159665580 - 6.000000253375 177747.4121476320 1.7673673582 - 6.000000313314 194284.8139372070 1.5909269158 - 6.000000472190 230121.7416094560 1.3012490328 - 6.000000933836 302704.7444487865 0.9375728970 - 6.000001778308 388548.5624984746 0.6935084938 - 6.000003224959 484409.4030201345 0.5291653790 - 6.000005648831 589270.4298955563 0.4134889340 - 6.000007746043 654002.0686074713 0.3610839367 - 6.000009131329 689122.0561765814 0.3367655914 - 6.000013562239 776731.7583890253 0.2853782382 - 6.000018829581 852242.4195491044 0.2491182443 - 0.300000151039 18012.1965147241 1.0301475879 - 0.300000184191 19878.6612243392 0.9204948518 - 0.300000286758 24538.1377444060 0.7211113137 - 0.300000557640 32989.4840194220 0.5061632601 - 0.300000841732 39198.0595044779 0.4085208174 - 0.300001457325 48712.9564757430 0.3076851383 - 0.300002309264 57753.5457578119 0.2421081206 - 0.300003267278 65106.0898069267 0.2009089366 - 0.300004269471 70963.1153984368 0.1724787665 - 0.300005212253 75307.1656018014 0.1522476210 - 0.990000188781 51372.0978778170 1.1025759723 - 0.990000231034 56496.2049973232 0.9878733114 - 0.990000391946 71702.4631000307 0.7469719990 - 0.990000778828 95882.2060792676 0.5261365219 - 0.990001172839 112971.9037339472 0.4289942157 - 0.990001833879 134057.2687752307 0.3442514876 - 0.990003004322 160243.9695594743 0.2703831959 - 0.990004403866 182393.5945309422 0.2239013169 - 0.990005859436 199705.8266442784 0.1937805586 - 0.990007723326 216671.9270484836 0.1673210676 - 0.990009150469 226886.2264093102 0.1518707137 - 1.950000216923 89512.4087657976 1.2034900377 - 1.950000266312 98100.2228145287 1.0815816055 - 1.950000472387 125547.5620921893 0.8082323500 - 1.950000780124 154292.8409379043 0.6306561196 - 1.950001398031 194005.3446695101 0.4757374207 - 1.950002437004 238571.1457297230 0.3657581828 - 1.950003815041 279254.2649434974 0.2967730662 - 1.950005957230 323385.7481868498 0.2412721428 - 1.950008346529 358527.2259343168 0.2058856555 - 1.950010617170 383983.1921398286 0.1832654230 - 2.910000234382 120526.9026274189 1.3103818908 - 2.910000288413 131740.4686787951 1.1803473457 - 2.910000551639 172466.3226087662 0.8570315590 - 2.910000904447 210098.5188079923 0.6753949699 - 2.910001528222 257089.4562976410 0.5272990564 - 2.910002607158 312933.3850951109 0.4120233909 - 2.910004701093 383822.0700800134 0.3156422296 - 2.910007172293 439823.8210269529 0.2614273875 - 2.910009739556 482351.4329469073 0.2280502753 - 2.910013031875 523653.2410793347 0.1998932911 - 4.200000249867 152491.9208310642 1.4728363316 - 4.200000308205 166273.4847491198 1.3291416464 - 4.200000484819 199766.0502224537 1.0675813309 - 4.200000805166 244120.4654080833 0.8385840890 - 4.200001679962 323257.4847022504 0.5956408672 - 4.200003074469 402704.2386626261 0.4533029862 - 4.200005142390 480559.1524062552 0.3614699503 - 4.200008205632 558444.3259660067 0.2955198485 - 4.200011574964 619061.8966601801 0.2551803135 - 4.200015814645 675554.6114354663 0.2233295955 - 6.000000264604 180108.1058068467 1.7595738222 - 6.000000327207 196129.9479768236 1.5881811818 - 6.000000493041 230827.9397240676 1.3048694469 - 6.000000974349 301119.9029478061 0.9459558195 - 6.000001853487 384396.7364208050 0.7031936470 - 6.000003357025 477546.6014270325 0.5389010747 - 6.000005870551 579486.3108027991 0.4228473980 - 6.000008039477 642362.3537205788 0.3701609611 - 6.000009468739 676431.7667697424 0.3456954327 - 6.000014017522 761096.5797991346 0.2940105206 - 0.300000167251 18504.0627727833 1.0268894370 - 0.300000204616 20325.9033960374 0.9207394197 - 0.300000320282 24857.0086885404 0.7261462005 - 0.300000625853 33082.7859720298 0.5139929454 - 0.300000946294 39103.3377947857 0.4167890995 - 0.300001640633 48206.1584339810 0.3158542648 - 0.300002602278 56910.1503199320 0.2499067019 - 0.300003685877 64055.4325310303 0.2083573453 - 0.300004823253 69801.9459316150 0.1796583995 - 0.300005897499 74121.7857448429 0.1592670463 - 0.990000207456 52659.4365948976 1.0990563220 - 0.990000254706 57617.0493972242 0.9881059193 - 0.990000434748 72265.6627598055 0.7529382107 - 0.990000867630 95450.7685185584 0.5347442768 - 0.990001308245 111817.7593789747 0.4379660399 - 0.990002046973 132039.7266177366 0.3531420821 - 0.990003354020 157246.6576138533 0.2788968358 - 0.990004916049 178676.1881972676 0.2320367246 - 0.990006539504 195506.7386155620 0.2016338696 - 0.990008613391 212071.1360971318 0.1749568472 - 0.990010189872 222060.3621771159 0.1594510241 - 1.950000236322 91563.4918507615 1.1996236332 - 1.950000291079 99828.7605900373 1.0818137622 - 1.950000519699 126137.5035694057 0.8150387733 - 1.950000861133 153601.8395744711 0.6397872081 - 1.950001546254 191544.9846679068 0.4856570933 - 1.950002696813 234249.4724064237 0.3755437597 - 1.950004220567 273385.9780633498 0.3061797754 - 1.950006584395 315982.1935113448 0.2502187436 - 1.950009211336 349945.1032856083 0.2145030549 - 1.950011690952 374473.6858683996 0.1917115883 - 2.910000253293 123077.1116336900 1.3061573773 - 2.910000312728 133834.7429936074 1.1805873650 - 2.910000602515 172750.2336084893 0.8649725060 - 2.910000990976 208623.8016391372 0.6855614688 - 2.910001677359 253464.7509570342 0.5381894331 - 2.910002863083 306929.6886457677 0.4228109150 - 2.910005159273 375076.1175376832 0.3258974726 - 2.910007860348 429029.8404244228 0.2712172333 - 2.910010652935 469948.6556185441 0.2375270229 - 2.910014201677 509405.6775049368 0.2091557036 - 4.200000267231 155401.0132847602 1.4680776240 - 4.200000330764 168584.1842606232 1.3294025127 - 4.200000523269 200526.4491942787 1.0746977641 - 4.200000872614 242730.2943948267 0.8493413689 - 4.200001826189 318125.5569782961 0.6079385600 - 4.200003343935 394167.3034618005 0.4654259182 - 4.200005589170 468972.9959188980 0.3730611319 - 4.200008902019 543887.6301837821 0.3065398622 - 4.200012522444 602011.3071341410 0.2658131756 - 4.200017024870 655608.8286502571 0.2337154382 - 6.000000279030 183072.9638486266 1.7538886107 - 6.000000346296 198367.9115452225 1.5884928669 - 6.000000524664 231396.3511780387 1.3127293140 - 6.000001042810 298152.6035946384 0.9592949948 - 6.000001989044 377426.1951056686 0.7177634290 - 6.000003605089 466564.9117433612 0.5532052538 - 6.000006299381 564513.5792172196 0.4364295448 - 6.000008616141 624985.3934762356 0.3832736461 - 6.000010138117 657724.5675211162 0.3585654276 - 6.000014951203 738793.5026991317 0.3063520323 + 0.012000038486 511.3209145098 1.7952277697 + 0.597000060806 19241.5005850982 1.8778321957 + 1.539000073059 44280.7959281520 2.0030887331 + 2.127000077892 58066.8281697039 2.0847845724 + 3.063000083521 77364.9327432134 2.2277306535 + 4.638000090105 102299.6377766231 2.5298444143 + 6.252000095429 117543.1013957960 2.9677787836 + 8.028000101328 122880.6667966145 3.6735795616 + 9.843000108583 118788.0121844610 4.7277626067 + 11.616000117811 109265.4775574548 6.1795039382 + 12.870000126115 101032.2813747932 7.5130493271 + 13.449000130560 97087.9978237386 8.2264188148 + 14.406000138893 90574.0341030295 9.5538234158 + 15.756000153090 81689.2891072238 11.7698862475 + 16.425000161366 77503.6908188676 13.0304133637 + 17.349000174378 72010.7842575585 14.9629864672 + 0.012000114587 976.0437477091 0.8923541432 + 0.066000132535 4861.4168354360 0.8988999236 + 0.072000133853 5269.2045464713 0.8995708051 + 0.135000144961 9390.4217482552 0.9063775835 + 0.141000145845 9770.7458979199 0.9070103601 + 0.150000147132 10337.9884400140 0.9079559409 + 0.177000150750 12018.2383951278 0.9107702203 + 0.177000150750 12018.2383951278 0.9107702203 + 0.207000154421 13851.5803221334 0.9138647330 + 0.216000155463 14395.3804006885 0.9147875349 + 0.246000158772 16189.2662486884 0.9178478956 + 0.252000159407 16544.7673375968 0.9184573569 + 0.294000163629 19005.2791022488 0.9227028341 + 0.300000164204 19352.9974015409 0.9233066591 + 0.300000164204 19352.9974015409 0.9233066591 + 0.396000172657 24803.0580621599 0.9328967746 + 0.423000174823 26300.9467944021 0.9355742857 + 0.432000175528 26797.1231274369 0.9364652170 + 0.555000184442 33434.5322253237 0.9485773387 + 0.567000185250 34068.6983646151 0.9497537260 + 0.585000186443 35015.7699133226 0.9515168719 + 0.597000187227 35644.4100719963 0.9526913962 + 0.615000188387 36583.3309050784 0.9544519054 + 0.762000197206 44079.9353135205 0.9687837145 + 0.789000198716 45425.5267717608 0.9714093653 + 0.879000203540 49845.2383663286 0.9801519735 + 1.047000211812 57841.1894196559 0.9964519117 + 1.182000217888 64043.1689447888 1.0095536142 + 1.203000218794 64990.9275633765 1.0115932253 + 1.248000220701 67006.8590053829 1.0159659053 + 1.461000229179 76281.1068509775 1.0367177080 + 1.500000230642 77932.8990421465 1.0405299691 + 1.521000231420 78816.5563777016 1.0425846747 + 1.539000232081 79570.7869424110 1.0443469882 + 1.590000233926 81691.9175339310 1.0493462033 + 1.662000236464 84647.0580040058 1.0564201444 + 1.719000238422 86954.3405275144 1.0620350160 + 1.752000239535 88277.3014072736 1.0652920861 + 1.782000240534 89471.9032843459 1.0682573041 + 1.812000241523 90658.8554110729 1.0712267129 + 1.842000242499 91838.2091460012 1.0742004546 + 2.010000247775 98304.4209672378 1.0909400969 + 2.127000251269 102672.0267723139 1.1026940592 + 2.145000251795 103334.2652354152 1.1045099915 + 2.325000256883 109816.8775193935 1.1227908622 + 2.367000258030 111293.3808888477 1.1270901165 + 2.559000263092 117872.6143323087 1.1469222768 + 2.601000264163 119274.9859165445 1.1513019238 + 2.961000272864 130765.7412998623 1.1895250546 + 2.961000272864 130765.7412998623 1.1895250546 + 3.000000273760 131954.5372516601 1.1937453283 + 3.063000275189 133852.1167926422 1.2005980911 + 3.081000275594 134389.1324027142 1.2025642085 + 3.273000279810 139976.0344702866 1.2237722008 + 3.474000284042 145551.2298728508 1.2464656694 + 3.483000284228 145794.3891504758 1.2474942301 + 3.567000285944 148037.3040832691 1.2571475969 + 3.969000293806 158114.3925168248 1.3047709400 + 4.320000300274 166040.7518499155 1.3484840615 + 4.425000302149 168256.7248714840 1.3619851201 + 4.569000304682 171181.0290950758 1.3808391118 + 4.623000305622 172243.6449417879 1.3880133196 + 4.638000305882 172535.5398018971 1.3900164303 + 4.686000306711 173460.0551011541 1.3964567467 + 5.049000312858 179984.9951222778 1.4467212271 + 5.130000314203 181329.7110199734 1.4583304933 + 5.268000316478 183528.4807741768 1.4784570027 + 5.274000316576 183621.4573130250 1.4793422031 + 5.346000317754 184720.2239574712 1.4900316921 + 5.637000322467 188845.2795782089 1.5345359158 + 5.709000323623 189788.6966294942 1.5458805936 + 5.823000325448 191220.6449544679 1.5641236858 + 5.937000327265 192577.5261120819 1.5827188127 + 6.000000328267 193295.4675068455 1.5931494261 + 6.252000332263 195943.2207942371 1.6360058782 + 6.279000332690 196205.8978749144 1.6407079299 + 6.318000333307 196578.2216901988 1.6475383213 + 6.342000333687 196803.1879260052 1.6517644197 + 6.351000333829 196886.7360543438 1.6533537038 + 6.636000338338 199305.4854538534 1.7049778168 + 6.678000339003 199625.2243735752 1.7128030102 + 7.233000347839 202997.3953795084 1.8217644819 + 7.521000352484 204147.7910359279 1.8826105116 + 7.767000356500 204823.9203216247 1.9370680233 + 7.914000358924 205098.3069797138 1.9707459569 + 8.028000360818 205246.3513508876 1.9974655347 + 8.061000361369 205278.8446619370 2.0052998923 + 8.361000366431 205367.0190365803 2.0786256186 + 8.517000369105 205270.1729965238 2.1182927346 + 8.727000372755 204992.8504835907 2.1734104786 + 8.874000375346 204702.2224144832 2.2131979290 + 9.000000377593 204392.2361656515 2.2481104435 + 9.432000385488 202927.1724317172 2.3736769392 + 9.681000390186 201819.3199963525 2.4503387853 + 9.849000393421 200971.4643887554 2.5039035392 + 9.843000393304 201003.0817126602 2.5019644940 + 10.332000403039 198122.7060761781 2.6665024597 + 10.782000412462 194982.1550804122 2.8300314189 + 10.872000414405 194304.2651957583 2.8641911059 + 11.463000427674 189497.2793697366 3.1011046348 + 11.463000427674 189497.2793697366 3.1011046348 + 11.577000430343 188506.6457636401 3.1493984527 + 11.616000431264 188163.5472594242 3.1661181869 + 11.718000433694 187256.5005075089 3.2103289350 + 11.727000433910 187175.8086811168 3.2142635664 + 11.871000437396 185870.8252981165 3.2779675628 + 11.898000438056 185623.3131447023 3.2900702536 + 12.000000440571 184680.5835829871 3.3362468817 + 12.642000457157 178504.6465597587 3.6438839802 + 12.870000463380 176228.8334282182 3.7604420309 + 13.449000480029 170313.0794239947 4.0745130527 + 13.677000486938 167944.4276284513 4.2055534475 + 14.289000506551 161526.7371529866 4.5788259357 + 14.406000510486 160294.8430219743 4.6538672034 + 14.517000514278 159125.8201869948 4.7261804671 + 14.574000516247 158525.5363605856 4.7637418318 + 15.756000560722 146170.3896960176 5.6106875944 + 16.080000574231 142843.9592795670 5.8665495101 + 16.104000575256 142599.0062817577 5.8859254404 + 16.425000589302 139343.9462602589 6.1507920639 + 16.857000609229 135031.4423426444 6.5243808583 + 17.130000622463 132350.5471758581 6.7708798498 + 17.349000633456 130226.5096883153 6.9745888909 + 17.607000646853 127755.9229932633 7.2215212732 + 17.706000652127 126817.2746928069 7.3182980547 + 17.706000652127 126817.2746928069 7.3182980547 + 17.925000664061 124759.7836183745 7.5364243943 + 17.973000666727 124312.3548003907 7.5849838423 + 18.000000668235 124061.2391884149 7.6124180309 + 18.453000694429 119909.4834774400 8.0856981446 + 18.753000712747 117224.9890503920 8.4128820243 + 19.887000789729 107558.7927959161 9.7530697143 + 19.974000796185 106848.9601458708 9.8628799629 + 20.559000841838 102193.4347723756 10.6281744046 + 21.231000899484 97095.8173635543 11.5667949389 + 21.999000973005 91590.6544977087 12.7207602658 + 22.023000975445 91424.0170625361 12.7582600675 + 22.377001012510 89003.4007949843 13.3217398180 + 23.493001143718 81816.5017660303 15.2288502384 + 23.493001143718 81816.5017660303 15.2288502384 + 23.634001162001 80954.8784888324 15.4843618080 + 28.494002139348 56733.1891187005 26.5202371733 + 28.494002139348 56733.1891187005 26.5202371733 + 0.012000267961 1499.2944650145 0.5481975370 + 0.300000391499 29399.0373090547 0.5697870555 + 0.597000451456 53916.3781983427 0.5901270606 + 1.521000571271 118067.9997088596 0.6519546528 + 1.539000573114 119178.4090227343 0.6531598157 + 2.127000627341 153028.1053261483 0.6928624216 + 2.961000690150 193826.6962198069 0.7510872392 + 3.063000697032 198290.2020431124 0.7584282482 + 3.081000698232 199066.5619162979 0.7597296270 + 4.638000789844 254223.6325150034 0.8808977833 + 4.686000792395 255568.9236912949 0.8849620783 + 6.252000871597 288968.2364953152 1.0322650920 + 6.342000876024 290303.4636954215 1.0417270109 + 8.028000959988 305004.1513519918 1.2442787850 + 8.061000961681 305112.3139880954 1.2487786918 + 9.849001059090 302544.1965948489 1.5297734056 + 9.843001058740 302577.1910334532 1.5286970732 + 11.463001160989 289195.4193608994 1.8572467488 + 11.583001169262 287904.3390500485 1.8848355470 + 11.616001171556 287543.3980773521 1.8925066535 + 11.718001178700 286412.1903227154 1.9164491527 + 12.870001265368 272254.7063964294 2.2123556357 + 13.449001313560 264410.8337385861 2.3799464940 + 13.677001333487 261229.2786829967 2.4496383181 + 14.406001401122 250809.9127214332 2.6871941671 + 14.553001415528 248675.9139077674 2.7379088498 + 15.756001544278 231052.5489695275 3.1906824310 + 15.873001557915 229338.0626259757 3.2384608421 + 16.425001625203 221286.2025911951 3.4733018349 + 17.349001749695 208038.9568908154 3.9027238134 + 17.706001802179 203028.3872835774 4.0814034318 + 17.925001835686 199989.9027393204 4.1946690646 + 17.973001843168 199327.7082196287 4.2198714955 + 18.021001850699 198666.9036974068 4.2452105457 + 19.176002048207 183218.2234184755 4.8973766410 + 19.887002187062 174176.5019090579 5.3412091010 + 20.391002294573 167997.4738441269 5.6764422140 + 21.237002494061 158066.0532544673 6.2793519744 + 22.116002730036 148335.9902405940 6.9616760302 + 23.493003170238 134280.3907508742 8.1523978186 + 26.538004568710 107976.4635341800 11.3687394965 + 0.300000139864 17638.3824866903 1.0345462307 + 0.300000170592 19534.6278686090 0.9220411422 + 0.300000265735 24274.7239594788 0.7187954986 + 0.300000517290 32883.4741871895 0.5016073279 + 0.300000781252 39209.3033805416 0.4036015118 + 0.300001352964 48892.3860374333 0.3028316952 + 0.300002142358 58056.1936746264 0.2375684956 + 0.300003025727 65451.5863826939 0.1966927328 + 0.300003942160 71269.6927734225 0.1685287382 + 0.300004792723 75500.2980533731 0.1484655924 + 0.990000175747 50391.8400267997 1.1072213753 + 0.990000215122 55624.7697066569 0.9895536600 + 0.990000365225 71168.4972069166 0.7442193605 + 0.990000726644 95880.1969920739 0.5214381367 + 0.990001095055 113314.6277996720 0.4240738192 + 0.990001713327 134763.2325707498 0.3394680528 + 0.990002807509 161257.8713359039 0.2660103686 + 0.990004113617 183478.5596406022 0.2199596653 + 0.990005468132 200657.9201164930 0.1901937968 + 0.990007195043 217239.2839255458 0.1640592606 + 1.950000203158 87944.8642818301 1.2085131538 + 1.950000249454 96741.5869850193 1.0834370879 + 1.950000442829 124866.3055479002 0.8051602599 + 1.950000731983 154289.8129821845 0.6259581981 + 1.950001313274 194822.9494275056 0.4706089996 + 1.950002291581 240087.9836672591 0.3609088577 + 1.950003589679 281143.6780126106 0.2923975502 + 1.950005607579 325288.4621997636 0.2374970440 + 1.950007858242 360036.8236108957 0.2026050481 + 1.950009999360 384929.6554760333 0.1803164217 + 2.910000220724 118569.6542315518 1.3158227947 + 2.910000271641 130077.7205842635 1.1823815857 + 2.910000519980 171867.4193932390 0.8534065289 + 2.910000853289 210409.3160339090 0.6702829787 + 2.910001443290 258374.2341076068 0.5218445902 + 2.910002464952 315093.7741069784 0.4068670876 + 2.910004449982 386569.2021436192 0.3111981674 + 2.910006795708 442505.3500390347 0.2576336867 + 2.910009237515 484588.6734285617 0.2247596005 + 2.910012382793 525153.2372765230 0.1970552896 + 4.200000236982 150244.2988819921 1.4789315731 + 4.200000292332 164412.6809577434 1.3314388996 + 4.200000460032 198838.8313933620 1.0648494766 + 4.200000764550 244357.4357000273 0.8333550805 + 4.200001597388 325228.1352136810 0.5896103794 + 4.200002927158 405895.1421142775 0.4477118413 + 4.200004902373 484386.9019219314 0.3566033114 + 4.200007835395 562248.4854192318 0.2914654250 + 4.200011074735 622321.1123426002 0.2517645957 + 4.200015183183 678043.5344875915 0.2204605402 + 6.000000253375 177790.4987178115 1.7668555189 + 6.000000313314 194284.8904148840 1.5909261680 + 6.000000472190 230000.9644633687 1.3020637713 + 6.000000933836 302208.6448397655 0.9394038272 + 6.000001778308 387341.3030603033 0.6960753935 + 6.000003224959 481979.3903206470 0.5323304301 + 6.000005648831 584816.9331644772 0.4172234546 + 6.000007746043 647819.9450529556 0.3651715156 + 6.000009131329 681805.1589983926 0.3410536720 + 6.000013562239 765797.6334609262 0.2902171272 + 6.000018829581 836982.6290858722 0.2545185603 + 0.300000151039 18013.9078432443 1.0300341465 + 0.300000184191 19878.6643235389 0.9204946857 + 0.300000286758 24532.0039957152 0.7213196111 + 0.300000557640 32964.3147354865 0.5066081642 + 0.300000841732 39150.9278147055 0.4090857246 + 0.300001457325 48614.4819684792 0.3083989771 + 0.300002309264 57577.3646179411 0.2429546768 + 0.300003267278 64832.5897304447 0.2018759569 + 0.300004269471 70572.9013487989 0.1735658604 + 0.300005212253 74786.4061923000 0.1534555956 + 0.990000188781 51380.3214300436 1.1023698957 + 0.990000231034 56496.2197964780 0.9878730095 + 0.990000391946 71666.6804423938 0.7474059541 + 0.990000778828 95748.5181362602 0.5269884962 + 0.990001172839 112731.7964233710 0.4300520051 + 0.990001833879 133631.2162838882 0.3455199152 + 0.990003004322 159472.5187026441 0.2718925377 + 0.990004403866 181182.1596279230 0.2256276862 + 0.990005859436 197998.8066040431 0.1957069746 + 0.990007723326 214253.9421615433 0.1694996023 + 0.990009150469 223843.6385605459 0.1542541491 + 1.950000216923 89530.7192184810 1.2032008177 + 1.950000266312 98100.2555486638 1.0815811819 + 1.950000472387 125462.3182413435 0.8088753443 + 1.950000780124 154068.6661239573 0.6317282752 + 1.950001398031 193488.1650546277 0.4772199490 + 1.950002437004 237545.9967888589 0.3675955529 + 1.950003815041 277538.6564474289 0.2989068565 + 1.950005957230 320557.6505828378 0.2437477417 + 1.950008346529 354384.4996894308 0.2086862797 + 1.950010617170 378494.0490285925 0.1863608308 + 2.910000234382 120554.4356562996 1.3100285795 + 2.910000288413 131740.5176543718 1.1803468281 + 2.910000551639 172318.8800338237 0.8578941133 + 2.910000904447 209739.3013981251 0.6767529650 + 2.910001528222 256343.9107390424 0.5290963581 + 2.910002607158 311509.4927184820 0.4142277750 + 2.910004701093 381068.3433656660 0.3183103170 + 2.910007172293 435472.1926867296 0.2644839073 + 2.910009739556 476287.2768836365 0.2314496123 + 2.910013031875 515279.9285863697 0.2037004374 + 4.200000249867 152528.9600600083 1.4724118727 + 4.200000308205 166273.5503494099 1.3291410246 + 4.200000484819 199647.1647832954 1.0683337251 + 4.200000805166 243773.5215580547 0.8399938466 + 4.200001679962 322266.0638965835 0.5978003520 + 4.200003074469 400677.9840303392 0.4560013405 + 4.200005142390 477005.7777967596 0.3646384932 + 4.200008205632 552631.7625875813 0.2991787407 + 4.200011574964 610735.3554345142 0.2592788643 + 4.200015814645 663971.7093330710 0.2279248378 + 6.000000264604 180151.5861294701 1.7590664967 + 6.000000327207 196130.0248730752 1.5881804386 + 6.000000493041 230707.2557232456 1.3056827322 + 6.000000974349 300628.2517845745 0.9477942362 + 6.000001853487 383207.1311337691 0.7057828291 + 6.000003357025 475161.8374262444 0.5421056684 + 6.000005870551 575130.3173658488 0.4266410014 + 6.000008039477 636327.1616141765 0.3743204284 + 6.000009468739 669296.4996640446 0.3500627670 + 6.000014017522 750468.0252924514 0.2989492598 + 0.300000167251 18505.8098876592 1.0267770796 + 0.300000204616 20325.9065455481 0.9207392546 + 0.300000320282 24850.8322013116 0.7263545688 + 0.300000625853 33057.6989825024 0.5144415743 + 0.300000946294 39056.6163811125 0.4173611853 + 0.300001640633 48109.3496412316 0.3165810498 + 0.300002602278 56737.8400711891 0.2507723788 + 0.300003685877 63788.7147798904 0.2093494796 + 0.300004823253 69422.1423340942 0.1807766746 + 0.300005897499 73615.6413300178 0.1605123653 + 0.990000207456 52667.8151782210 1.0988522145 + 0.990000254706 57617.0644009464 0.9881056193 + 0.990000434748 72229.7993938335 0.7533727471 + 0.990000867630 95318.3959495873 0.5356041155 + 0.990001308245 111581.4072498177 0.4390379462 + 0.990002046973 131622.5617167183 0.3544328075 + 0.990003354020 156494.8331537415 0.2804395281 + 0.990004916049 177499.1257354389 0.2338071925 + 0.990006539504 193851.7291134264 0.2036144797 + 0.990008613391 209732.6126756506 0.1772024061 + 0.990010189872 219124.2451339964 0.1619121677 + 1.950000236322 91582.1101584565 1.1993371765 + 1.950000291079 99828.7937079009 1.0818133411 + 1.950000519699 126052.3215392891 0.8156829107 + 1.950000861133 153379.8332520412 0.6408674175 + 1.950001546254 191037.0894625227 0.4871593637 + 1.950002696813 233248.8575896777 0.3774148995 + 1.950004220567 271717.9325477199 0.3083611226 + 1.950006584395 313241.9523509967 0.2527588838 + 1.950009211336 345942.5945355944 0.2173846478 + 1.950011690952 369185.0355764263 0.1949030048 + 2.910000253293 123105.0607087084 1.3058074417 + 2.910000312728 133834.7924614735 1.1805868506 + 2.910000602515 172603.3334780013 0.8658373010 + 2.910000990976 208268.9483030155 0.6869304068 + 2.910001677359 252733.6085178598 0.5400103772 + 2.910002863083 305541.2662172840 0.4250548033 + 2.910005159273 372404.1457280705 0.3286266530 + 2.910007860348 424821.1606880362 0.2743542231 + 2.910010652935 464099.8738497546 0.2410241553 + 2.910014201677 501359.6548708195 0.2130814512 + 4.200000267231 155438.5364940508 1.4676572206 + 4.200000330764 168584.2503912844 1.3294018948 + 4.200000523269 200407.7569808631 1.0754502390 + 4.200000872614 242387.1126518633 0.8507595646 + 4.200001826189 317155.0326113693 0.6101264570 + 4.200003343935 392195.7781902349 0.4681739130 + 4.200005589170 465529.5650459397 0.3763012679 + 4.200008902019 538274.7948279402 0.3102947625 + 4.200012522444 593996.4201298292 0.2700299479 + 4.200017024870 644506.7928971648 0.2384542457 + 6.000000279030 183116.8995528177 1.7533861325 + 6.000000346296 198367.9888731353 1.5884921283 + 6.000000524664 231276.0286213565 1.3135421818 + 6.000001042810 297668.3046926631 0.9611466114 + 6.000001989044 376264.3434250930 0.7203868489 + 6.000003605089 464248.8110891131 0.5564682778 + 6.000006299381 560300.1216004244 0.4403090308 + 6.000008616141 619160.3493848179 0.3875371197 + 6.000010138117 650846.0711947937 0.3630472077 + 6.000014951203 728583.4671820858 0.3114340774 diff --git a/mytest/Ca_Na_K_Clmix.out b/mytest/Ca_Na_K_Clmix.out index 4d91353e..1939852c 100644 --- a/mytest/Ca_Na_K_Clmix.out +++ b/mytest/Ca_Na_K_Clmix.out @@ -1512,7 +1512,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 35801 Density (g/cm³) = 1.01498 Volume (L) = 1.00711 - Viscosity (mPa s) = 0.95299 + Viscosity (mPa s) = 0.95298 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -1941,7 +1941,7 @@ Reaction 1. pH = 6.512 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 112443 + Specific Conductance (µS/cm, 25°C) = 112444 Density (g/cm³) = 1.06597 Volume (L) = 1.02141 Viscosity (mPa s) = 1.13048 @@ -2589,7 +2589,7 @@ Reaction 1. pH = 4.046 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 126873 + Specific Conductance (µS/cm, 25°C) = 126874 Density (g/cm³) = 1.38476 Volume (L) = 1.19502 Viscosity (mPa s) = 7.31240 @@ -2880,7 +2880,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 67426 Density (g/cm³) = 1.48788 Volume (L) = 1.32106 - Viscosity (mPa s) = 20.51834 + Viscosity (mPa s) = 20.51833 Activity of water = 0.144 Ionic strength (mol/kgw) = 2.610e+01 Mass of water (kg) = 1.000e+00 @@ -5744,7 +5744,7 @@ Reaction 1. pH = 0.627 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 228581 + Specific Conductance (µS/cm, 25°C) = 228582 Density (g/cm³) = 1.25324 Volume (L) = 1.12279 Viscosity (mPa s) = 2.33635 @@ -8379,7 +8379,7 @@ Reaction 1. pH = 6.422 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 199039 + Specific Conductance (µS/cm, 25°C) = 199040 Density (g/cm³) = 1.12010 Volume (L) = 1.05842 Viscosity (mPa s) = 1.19288 @@ -8613,7 +8613,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 254327 Density (g/cm³) = 1.18242 Volume (L) = 1.09679 - Viscosity (mPa s) = 1.44603 + Viscosity (mPa s) = 1.44602 Activity of water = 0.838 Ionic strength (mol/kgw) = 6.400e+00 Mass of water (kg) = 1.000e+00 @@ -11017,7 +11017,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 51162 Density (g/cm³) = 1.01971 Volume (L) = 1.01360 - Viscosity (mPa s) = 0.91878 + Viscosity (mPa s) = 0.91877 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.020e-01 Mass of water (kg) = 1.000e+00 @@ -17464,7 +17464,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 208901 Density (g/cm³) = 1.25254 Volume (L) = 1.11086 - Viscosity (mPa s) = 2.51333 + Viscosity (mPa s) = 2.51332 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.000e+01 Mass of water (kg) = 1.000e+00 @@ -26113,7 +26113,7 @@ Reaction 1. pH = 6.504 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 237603 + Specific Conductance (µS/cm, 25°C) = 237604 Density (g/cm³) = 1.16365 Volume (L) = 1.10546 Viscosity (mPa s) = 1.51410 diff --git a/mytest/Ca_Na_K_Clmix_101.sel b/mytest/Ca_Na_K_Clmix_101.sel index b09c5747..e75e0f70 100644 --- a/mytest/Ca_Na_K_Clmix_101.sel +++ b/mytest/Ca_Na_K_Clmix_101.sel @@ -1,348 +1,348 @@ Mu SC Viscosity 0.000000100645 0.0546913895 0.8900243330 - 0.003000107509 255.7554191370 0.8909187136 - 0.006000110469 501.2112445996 0.8914477176 - 0.009000112732 740.8076491562 0.8919165263 - 0.012000114630 976.0437176700 0.8923541769 - 0.015000116292 1207.7566573855 0.8927719164 - 0.018000117785 1436.4945055387 0.8931755124 - 0.021000119149 1662.6486024960 0.8935683914 - 0.024000120412 1886.5144498812 0.8939527859 - 0.027000121590 2108.3241021163 0.8943302463 - 0.030000122698 2328.2651776495 0.8947019019 - 0.060000131288 4450.1546766188 0.8982230525 - 0.090000137604 6474.1567297156 0.9015539329 - 0.120000142790 8431.5158189881 0.9047863983 - 0.150000147274 10337.9872756450 0.9079560597 - 0.180000151274 12203.0827036106 0.9110812086 - 0.210000154913 14033.1480922606 0.9141727356 - 0.240000158271 15832.7024697337 0.9172377593 - 0.270000161403 17605.1166404704 0.9202812450 - 0.300000164347 19352.9943707745 0.9233068270 - 0.600000187564 35801.2240171664 0.9529851563 - 0.900000204766 50862.4171292251 0.9821906361 - 1.200000218809 64855.7891776126 1.0113021529 - 1.500000230789 77932.8750678099 1.0405303446 - 1.800000241278 90184.9597063904 1.0700388486 - 2.100000250629 101673.8094569315 1.0999745142 - 2.400000259080 112443.9886418549 1.1304780682 - 2.700000266805 122528.9421799144 1.1616886333 - 3.000000273937 131954.4875944188 1.1937458592 - 5.100000313896 180836.2838761983 1.4540141063 - 7.200000347504 202840.0203803444 1.8149871491 - 9.300000383249 203438.4285323402 2.3343269449 - 11.400000426443 190036.5680716237 3.0747843027 - 13.500000481821 169784.7217358478 4.1034571081 - 15.600000554749 147783.8705708816 5.4912383893 - 17.700000652194 126873.9942591509 7.3124018587 - 19.800000783833 108273.1480195082 9.6442803504 - 21.900000963611 92281.4470739258 12.5670087783 - 24.000001212106 78765.1396667481 16.1633135401 - 26.100001560267 67426.1360658975 20.5183364638 - 0.000999004838 92.7018359565 0.8904070457 - 0.001998002207 183.1971240753 0.8906123779 - 0.002997001315 272.3659630165 0.8907884576 - 0.003996000864 360.5148490151 0.8909493956 - 0.004995000591 447.8185827257 0.8911006574 - 0.005994000408 534.3936029031 0.8912450460 - 0.006993000276 620.3243555902 0.8913842264 - 0.007992000178 705.6755145394 0.8915192838 - 0.008991000101 790.4985368218 0.8916509716 - 0.009990000039 874.8355379640 0.8917798385 - 0.019979999734 1697.3095689469 0.8929735510 - 0.029969999672 2492.1687644992 0.8940747969 - 0.039959999657 3267.3583558052 0.8951281956 - 0.049949999664 4027.1467240213 0.8961510305 - 0.059939999680 4774.2402269035 0.8971521659 - 0.069929999703 5510.5187865513 0.8981368680 - 0.079919999730 6237.3675412493 0.8991085684 - 0.089909999760 6955.8503929994 0.9000696510 - 0.099899999791 7666.8102791103 0.9010218520 - 0.199799999628 14471.0653302642 0.9102459952 - 0.299699999432 20894.0383152933 0.9191831847 - 0.399599999243 27053.1393693319 0.9279763035 - 0.499499999056 33003.3094139156 0.9366820353 - 0.599399998870 38776.2521906255 0.9453306313 - 0.699299998686 44392.5625726329 0.9539411231 - 0.799199998502 49866.7069026033 0.9625268794 - 0.899099998319 55209.4310353782 0.9710980801 - 0.998999998136 60429.0592053962 0.9796629688 - 1.997999996307 106905.0304369191 1.0662399167 - 2.996999994497 144679.7212090329 1.1577359335 - 3.995999992709 174929.0398247371 1.2585306563 - 4.994999990886 198233.2058612708 1.3732116003 - 5.993999989064 215025.1728675907 1.5066758386 - 6.992999987242 225784.1979954780 1.6641212758 - 7.991999985422 231118.6453611735 1.8510234269 - 8.990999983603 231772.6181314159 2.0731122443 - 9.989999981784 228581.9613973518 2.3363516128 - 10.988999979967 222406.8270623924 2.6469216927 - 11.987999978152 214065.0107279334 3.0112037665 - 0.000800104039 80.6581659691 0.8902996645 - 0.001600105485 159.6599961785 0.8904440434 - 0.002400106595 237.6806352057 0.8905668016 - 0.003200107531 314.9422781728 0.8906783694 - 0.004000108353 391.5718897209 0.8907827867 - 0.004800109095 467.6542474730 0.8908821251 - 0.005600109776 543.2509811629 0.8909776152 - 0.006400110408 618.4093974785 0.8910700590 - 0.007200110999 693.1672165865 0.8911600133 - 0.008000111557 767.5553744025 0.8912478836 - 0.016000115964 1495.4135734686 0.8920564519 - 0.024000119274 2201.8583989025 0.8927967556 - 0.032000121993 2892.8595548108 0.8935017663 - 0.040000124336 3571.6632228118 0.8941842544 - 0.048000126413 4240.3478969896 0.8948507690 - 0.056000128291 4900.3694924412 0.8955052001 - 0.064000130011 5552.8086466350 0.8961500822 - 0.072000131605 6198.5008487415 0.8967871759 - 0.080000133093 6838.1120084747 0.8974177628 - 0.160000144127 12986.5310158078 0.9035063909 - 0.240000151871 18826.1185385338 0.9093874957 - 0.320000158008 24454.2000745681 0.9151656953 - 0.400000163142 29917.0637384337 0.9208818988 - 0.480000167575 35241.5757855223 0.9265574531 - 0.560000171479 40445.1740146420 0.9322053810 - 0.640000174966 45540.0412019404 0.9378344869 - 0.720000178112 50535.1506137464 0.9434511855 - 0.800000180973 55437.3816529594 0.9490604290 - 1.600000199858 100194.5993265355 1.0054144504 - 2.400000209211 138518.2972259781 1.0636810090 - 3.200000213829 171317.3952906380 1.1255917854 - 4.000000215784 199039.9644159700 1.1928811216 - 4.800000216227 221966.4512370736 1.2673902880 - 5.600000215879 240320.0304876824 1.3510798165 - 6.400000215220 254327.1772647006 1.4460254840 - 7.200000214486 264252.8819923006 1.5544109089 - 8.000000213999 270417.0095434412 1.6785198834 - 8.800000213948 273195.1270709750 1.8207292722 - 0.000602010009 69.6368074049 0.8902004083 - 0.001204004864 138.1843543750 0.8902870825 - 0.001806003109 206.0671326647 0.8903589812 - 0.002408002221 273.4309543190 0.8904232327 - 0.003010001684 340.3598455818 0.8904825980 - 0.003612001324 406.9101597687 0.8905384930 - 0.004214001065 473.1229998778 0.8905917588 - 0.004816000870 539.0300068423 0.8906429436 - 0.005418000717 604.6564752608 0.8906924279 - 0.006020000594 670.0232004512 0.8907404889 - 0.012040000023 1312.3174276500 0.8911732239 - 0.018059999839 1939.1989982249 0.8915594109 - 0.024079999750 2554.7866960897 0.8919215834 - 0.030099999700 3161.3518441355 0.8922684677 - 0.036119999670 3760.3654817383 0.8926045381 - 0.042139999653 4352.8682158751 0.8929324516 - 0.048159999643 4939.6391758391 0.8932539391 - 0.054179999638 5521.2854726546 0.8935702025 - 0.060199999638 6098.2944492612 0.8938821165 - 0.120399999484 11677.8410260476 0.8968579372 - 0.180599999348 17018.4119101486 0.8997007366 - 0.240799999225 22195.7413560698 0.9024813499 - 0.300999999107 27246.7514780984 0.9052271472 - 0.361199998991 32193.1764244654 0.9079521596 - 0.421399998877 37049.2253122275 0.9106647406 - 0.481599998764 41824.8466439873 0.9133703635 - 0.541799998652 46527.3548029625 0.9160728660 - 0.601999998540 51162.3297049729 0.9187750814 - 1.203999997431 94465.0940386363 0.9461135554 - 1.805999996334 133220.3590812638 0.9745716706 - 2.407999995243 168068.7708848375 1.0046428312 - 3.009999994157 199318.9365481250 1.0367475346 - 3.611999993073 227167.8071374604 1.0713149062 - 4.213999991991 251763.6135804920 1.1087992328 - 4.815999990909 273232.6756680608 1.1496835694 - 5.417999989824 291694.1142321090 1.1944797425 - 6.019999988736 307269.1549183829 1.2437272213 - 6.621999987642 320087.2303125365 1.2979916564 - 0.000500103193 73.5759100358 0.8901182549 - 0.001000104230 146.2885127527 0.8901535277 - 0.001500105012 218.4973462101 0.8901790873 - 0.002000105663 290.3104350350 0.8901996215 - 0.002500106230 361.7898971159 0.8902169459 - 0.003000106737 432.9774484633 0.8902319918 - 0.003500107199 503.9035767031 0.8902453122 - 0.004000107625 574.5918015030 0.8902572675 - 0.004500108021 645.0609656560 0.8902681080 - 0.005000108393 715.3265931047 0.8902780160 - 0.010000111287 1408.9746612162 0.8903457938 - 0.015000113387 2090.2295298033 0.8903832792 - 0.020000115075 2762.2437235566 0.8904052784 - 0.025000116501 3426.7798034192 0.8904175215 - 0.030000117741 4084.9922471618 0.8904229445 - 0.035000118841 4737.7056888511 0.8904232894 - 0.040000119832 5385.5428656873 0.8904196903 - 0.045000120733 6028.9927727697 0.8904129338 - 0.050000121560 6668.4506922918 0.8904035919 - 0.100000127254 12896.6146652368 0.8902305220 - 0.150000130605 18912.6008689824 0.8899953839 - 0.200000132811 24781.6724665602 0.8897436521 - 0.250000134322 30536.4588933108 0.8894925395 - 0.300000135362 36196.4747710383 0.8892506487 - 0.350000136062 41774.6076684577 0.8890229449 - 0.400000136504 47279.9336055479 0.8888125621 - 0.450000136745 52719.1414149173 0.8886216025 - 0.500000136823 58097.3309151442 0.8884515395 - 0.940000133585 103236.2194940294 0.8879635086 - 1.380000127191 145083.8248087307 0.8894037189 - 1.820000119716 184023.4484328377 0.8928086445 - 2.260000111910 220211.5105931255 0.8981702177 - 2.700000104126 253737.3940247950 0.9054709790 - 3.140000096548 284670.1118860480 0.9146917784 - 3.580000089272 313075.8455819713 0.9258139429 - 4.020000082348 339025.1980930856 0.9388199071 - 4.460000075794 362596.0445083748 0.9536933428 - 4.900000069611 383874.2401722327 0.9704191184 + 0.003000107509 255.7554233460 0.8909186968 + 0.006000110469 501.2112562470 0.8914476939 + 0.009000112732 740.8076702160 0.8919164972 + 0.012000114630 976.0437496776 0.8923541434 + 0.015000116292 1207.7567016269 0.8927718788 + 0.018000117785 1436.4945631341 0.8931754713 + 0.021000119149 1662.6486744449 0.8935683470 + 0.024000120412 1886.5145370909 0.8939527384 + 0.027000121590 2108.3242054203 0.8943301960 + 0.030000122698 2328.2652978213 0.8947018488 + 0.060000131288 4450.1549995856 0.8982229774 + 0.090000137604 6474.1573023293 0.9015538410 + 0.120000142790 8431.5166761690 0.9047862922 + 0.150000147274 10337.9884456293 0.9079559411 + 0.180000151274 12203.0842102101 0.9110810786 + 0.210000154913 14033.1499560795 0.9141725952 + 0.240000158271 15832.7047089113 0.9172376092 + 0.270000161403 17605.1192711742 0.9202810858 + 0.300000164347 19352.9974075462 0.9233066592 + 0.600000187564 35801.2316839420 0.9529849189 + 0.900000204766 50862.4300349765 0.9821903454 + 1.200000218809 64855.8075888203 1.0113018173 + 1.500000230789 77932.8990583698 1.0405299693 + 1.800000241278 90184.9892254877 1.0700384375 + 2.100000250629 101673.8443664916 1.0999740702 + 2.400000259080 112444.0287395609 1.1304775935 + 2.700000266805 122528.9872144590 1.1616881298 + 3.000000273937 131954.5372762740 1.1937453285 + 5.100000313896 180836.3561612379 1.4540134143 + 7.200000347504 202840.0969900270 1.8149863269 + 9.300000383249 203438.4959383370 2.3343260104 + 11.400000426443 190036.6206176911 3.0747832682 + 13.500000481821 169784.7597511954 4.1034559823 + 15.600000554749 147783.8969774530 5.4912371791 + 17.700000652194 126874.0122834909 7.3124005696 + 19.800000783833 108273.1602867174 9.6442789869 + 21.900000963611 92281.4554704693 12.5670073443 + 24.000001212106 78765.1454738050 16.1633120390 + 26.100001560267 67426.1401331506 20.5183348984 + 0.000999004838 92.7018366777 0.8904070376 + 0.001998002207 183.1971260892 0.8906123664 + 0.002997001315 272.3659666811 0.8907884435 + 0.003996000864 360.5148546133 0.8909493793 + 0.004995000591 447.8185904967 0.8911006392 + 0.005994000408 534.3936130572 0.8912450260 + 0.006993000276 620.3243683165 0.8913842048 + 0.007992000178 705.6755300107 0.8915192607 + 0.008991000101 790.4985551977 0.8916509471 + 0.009990000039 874.8355593935 0.8917798127 + 0.019979999734 1697.3096275863 0.8929735146 + 0.029969999672 2492.1688697215 0.8940747522 + 0.039959999657 3267.3585147934 0.8951281440 + 0.049949999664 4027.1469427254 0.8961509728 + 0.059939999680 4774.2405104584 0.8971521027 + 0.069929999703 5510.5191395032 0.8981367997 + 0.079919999730 6237.3679676944 0.8991084954 + 0.089909999760 6955.8508966761 0.9000695736 + 0.099899999791 7666.8108634637 0.9010217704 + 0.199799999628 14471.0668699219 0.9102458798 + 0.299699999432 20894.0410058359 0.9191830435 + 0.399599999243 27053.1433467919 0.9279761403 + 0.499499999056 33003.3147801246 0.9366818530 + 0.599399998870 38776.2590243280 0.9453304315 + 0.699299998686 44392.5709356061 0.9539409073 + 0.799199998502 49866.7168434799 0.9625266487 + 0.899099998319 55209.4425922386 0.9710978354 + 0.998999998136 60429.0724076270 0.9796627109 + 1.997999996307 106905.0604985671 1.0662395519 + 2.996999994497 144679.7667419405 1.1577354867 + 3.995999992709 174929.0978908328 1.2585301404 + 4.994999990886 198233.2728294492 1.3732110236 + 5.993999989064 215025.2449035838 1.5066752068 + 6.992999987242 225784.2714573951 1.6641205933 + 7.991999985422 231118.7171191250 1.8510226973 + 8.990999983603 231772.6857756708 2.0731114705 + 9.989999981784 228582.0233128153 2.3363507971 + 10.988999979967 222406.8823813276 2.6469208372 + 11.987999978152 214065.0591998915 3.0112028730 + 0.000800104039 80.6581663995 0.8902996585 + 0.001600105485 159.6599973819 0.8904440349 + 0.002400106595 237.6806373980 0.8905667911 + 0.003200107531 314.9422815252 0.8906783573 + 0.004000108353 391.5718943787 0.8907827732 + 0.004800109095 467.6542535640 0.8908821103 + 0.005600109776 543.2509888023 0.8909775993 + 0.006400110408 618.4094067717 0.8910700420 + 0.007200110999 693.1672276312 0.8911599952 + 0.008000111557 767.5553872898 0.8912478646 + 0.016000115964 1495.4136088827 0.8920564250 + 0.024000119274 2201.8584626357 0.8927967225 + 0.032000121993 2892.8596513311 0.8935017281 + 0.040000124336 3571.6633558394 0.8941842118 + 0.048000126413 4240.3480697495 0.8948507223 + 0.056000128291 4900.3697078005 0.8955051496 + 0.064000130011 5552.8089071868 0.8961500283 + 0.072000131605 6198.5011568614 0.8967871187 + 0.080000133093 6838.1123663597 0.8974177025 + 0.160000144127 12986.5319673181 0.9035063057 + 0.240000151871 18826.1202131046 0.9093873913 + 0.320000158008 24454.2025658181 0.9151655748 + 0.400000163142 29917.0671195277 0.9208817640 + 0.480000167575 35241.5801158373 0.9265573054 + 0.560000171479 40445.1793433995 0.9322052215 + 0.640000174966 45540.0475704547 0.9378343164 + 0.720000178112 50535.1580569375 0.9434510046 + 0.800000180973 55437.3902004320 0.9490602384 + 1.600000199858 100194.6197825753 1.0054141808 + 2.400000209211 138518.3297513275 1.0636806789 + 3.200000213829 171317.4389241578 1.1255914042 + 4.000000215784 199040.0175870318 1.1928806953 + 4.800000216227 221966.5120157562 1.2673898211 + 5.600000215879 240320.0967572184 1.3510793122 + 6.400000215220 254327.2468680831 1.4460249448 + 7.200000214486 264252.9528641303 1.5544103371 + 8.000000213999 270417.0798224304 1.6785192806 + 8.800000213948 273195.1951842566 1.8207286400 + 0.000602010009 69.6368076310 0.8902004042 + 0.001204004864 138.1843550088 0.8902870767 + 0.001806003109 206.0671338216 0.8903589741 + 0.002408002221 273.4309560908 0.8904232245 + 0.003010001684 340.3598480466 0.8904825888 + 0.003612001324 406.9101629956 0.8905384829 + 0.004214001065 473.1230039291 0.8905917479 + 0.004816000870 539.0300117752 0.8906429319 + 0.005418000717 604.6564811284 0.8906924155 + 0.006020000594 670.0232073030 0.8907404759 + 0.012040000023 1312.3174465910 0.8911732055 + 0.018059999839 1939.1990324529 0.8915593883 + 0.024079999750 2554.7867480943 0.8919215573 + 0.030099999700 3161.3519160047 0.8922684386 + 0.036119999670 3760.3655752927 0.8926045062 + 0.042139999653 4352.8683327418 0.8929324171 + 0.048159999643 4939.6393174970 0.8932539023 + 0.054179999638 5521.2856404644 0.8935701634 + 0.060199999638 6098.2946444869 0.8938820753 + 0.120399999484 11677.8415514387 0.8968578789 + 0.180599999348 17018.4128430751 0.8997006652 + 0.240799999225 22195.7427545356 0.9024812675 + 0.300999999107 27246.7533891166 0.9052270551 + 0.361199998991 32193.1788876751 0.9079520586 + 0.421399998877 37049.2283618490 0.9106646316 + 0.481599998764 41824.8503100219 0.9133702469 + 0.541799998652 46527.3591119924 0.9160727424 + 0.601999998540 51162.3346807276 0.9187749511 + 1.203999997431 94465.1065694246 0.9461133711 + 1.805999996334 133220.3799718588 0.9745714449 + 2.407999995243 168068.8002471843 1.0046425706 + 3.009999994157 199318.9740747678 1.0367472433 + 3.611999993073 227167.8522359380 1.0713145870 + 4.213999991991 251763.6654568687 1.1087988881 + 4.815999990909 273232.7333876476 1.1496832008 + 5.417999989824 291694.1767689225 1.1944793516 + 6.019999988736 307269.2211984269 1.2437268092 + 6.621999987642 320087.2992528786 1.2979912242 + 0.000500103193 73.5759101424 0.8901182521 + 0.001000104230 146.2885130521 0.8901535239 + 0.001500105012 218.4973467576 0.8901790826 + 0.002000105663 290.3104358748 0.8901996161 + 0.002500106230 361.7898982858 0.8902169399 + 0.003000106737 432.9774499970 0.8902319852 + 0.003500107199 503.9035786309 0.8902453050 + 0.004000107625 574.5918038529 0.8902572598 + 0.004500108021 645.0609684539 0.8902680999 + 0.005000108393 715.3265963752 0.8902780074 + 0.010000111287 1408.9746703246 0.8903457817 + 0.015000113387 2090.2295463514 0.8903832643 + 0.020000115075 2762.2437488070 0.8904052613 + 0.025000116501 3426.7798384412 0.8904175024 + 0.030000117741 4084.9922928953 0.8904229235 + 0.035000118841 4737.7057461421 0.8904232667 + 0.040000119832 5385.5429353096 0.8904196661 + 0.045000120733 6028.9928554396 0.8904129081 + 0.050000121560 6668.4507886780 0.8904035648 + 0.100000127254 12896.6149289514 0.8902304836 + 0.150000130605 18912.6013428572 0.8899953369 + 0.200000132811 24781.6731839255 0.8897435979 + 0.250000134322 30536.4598821301 0.8894924789 + 0.300000135362 36196.4760556932 0.8892505823 + 0.350000136062 41774.6092707094 0.8890228732 + 0.400000136504 47279.9355451233 0.8888124855 + 0.450000136745 52719.1437098962 0.8886215212 + 0.500000136823 58097.3335822309 0.8884514538 + 0.940000133585 103236.2260081617 0.8879633911 + 1.380000127191 145083.8358976385 0.8894035765 + 1.820000119716 184023.4645361716 0.8928084810 + 2.260000111910 220211.5319442415 0.8981700355 + 2.700000104126 253737.4206932535 0.9054707799 + 3.140000096548 284670.1438069787 0.9146915636 + 3.580000089272 313075.8825799391 0.9258137136 + 4.020000082348 339025.2399031619 0.9388196641 + 4.460000075794 362596.0907953770 0.9536930869 + 4.900000069611 383874.2905484047 0.9704188501 0.000000100645 0.0546913895 0.8900243330 - 0.001000104498 91.1874013401 0.8904217921 - 0.002000106156 180.1469053033 0.8906380563 - 0.003000107434 267.7889529264 0.8908244267 - 0.004000108513 354.4179695985 0.8909953248 - 0.005000109463 440.2073872179 0.8911563361 - 0.006000110321 525.2727028407 0.8913103248 - 0.007000111109 609.6976730602 0.8914589926 - 0.008000111841 693.5464429113 0.8916034480 - 0.009000112527 776.8700493606 0.8917444610 - 0.010000113174 859.7102652966 0.8918825923 - 0.020000118289 1667.3142711255 0.8931669173 - 0.030000122156 2447.4000694053 0.8943568307 - 0.040000125343 3207.8532048759 0.8954979264 - 0.050000128101 3952.9118940171 0.8966078668 - 0.060000130555 4685.2644948237 0.8976957112 - 0.070000132783 5406.7791752244 0.8987668424 - 0.080000134832 6118.8329482988 0.8998247685 - 0.090000136737 6822.4838772691 0.9008719268 - 0.100000138523 7518.5705865244 0.9019100927 - 0.200000151975 14171.3742931565 0.9119922127 - 0.300000161727 20437.5091827324 0.9217905615 - 0.400000169665 26434.3835931559 0.9314519197 - 0.500000176463 32217.1468477237 0.9410348569 - 0.600000182453 37817.7408306101 0.9505708522 - 0.700000187831 43256.9904062880 0.9600798628 - 0.800000192720 48549.5752561734 0.9695760141 - 0.900000197207 53706.4372820591 0.9790701356 - 1.000000201355 58736.0810841511 0.9885710470 - 2.000000231063 103117.8747087031 1.0853269874 - 3.000000249016 138531.6197315567 1.1887223256 - 4.000000261095 166275.0296629942 1.3033779415 - 5.000000269846 187064.1360104683 1.4340562193 - 6.000000276792 201475.4022249903 1.5857909580 - 7.000000282874 210119.1384141777 1.7638928161 - 8.000000288743 213701.0894804916 1.9739342110 - 9.000000294874 213015.7927255986 2.2217311284 - 10.000000301642 208901.2297162056 2.5133258246 - 11.000000309363 202180.5071062509 2.8549713113 - 12.000000318322 193609.8842474139 3.2531176764 - 0.000800104041 77.8680796578 0.8903253048 - 0.001600105488 154.1036469187 0.8904896853 - 0.002400106600 229.3714387193 0.8906315173 - 0.003200107537 303.8900765221 0.8907616790 - 0.004000108361 377.7844923836 0.8908843836 - 0.004800109105 451.1381127485 0.8910017919 - 0.005600109788 524.0115893796 0.8911151873 - 0.006400110421 596.4514815066 0.8912254061 - 0.007200111014 668.4949158480 0.8913330291 - 0.008000111574 740.1723436682 0.8914384794 - 0.016000115998 1441.0575351909 0.8924198747 - 0.024000119324 2120.6562765307 0.8933301536 - 0.032000122060 2784.8503226299 0.8942037123 - 0.040000124419 3436.8401235425 0.8950538755 - 0.048000126513 4078.6761767291 0.8958874785 - 0.056000128407 4711.7956690493 0.8967085826 - 0.064000130144 5337.2659854873 0.8975198346 - 0.072000131753 5955.9128679092 0.8983230738 - 0.080000133256 6568.3948540342 0.8991196399 - 0.160000144456 12440.0881243127 0.9068654313 - 0.240000152360 17992.1239849686 0.9144081429 - 0.320000158648 23321.6218234216 0.9218581607 - 0.400000163927 28475.1077117287 0.9292591543 - 0.480000168497 33479.7909910230 0.9366342393 - 0.560000172532 38353.4725549333 0.9439977491 - 0.640000176142 43108.6916560739 0.9513595430 - 0.720000179405 47754.7628092933 0.9587269299 - 0.800000182376 52298.8892610969 0.9661056461 - 1.600000202023 93037.2029719933 1.0413185910 - 2.400000211573 126705.3076525415 1.1208648097 - 3.200000215887 154411.3827803617 1.2067874660 - 4.000000217090 176798.0339269307 1.3010406931 - 4.800000216384 194346.8563109550 1.4056306227 - 5.600000214353 207482.9307092800 1.5226462704 - 6.400000211589 216621.5166333841 1.6542665009 - 7.200000208431 222187.4400561814 1.8027596260 - 8.000000205116 224618.3325603398 1.9704804187 - 8.800000201818 224358.1227162302 2.1598662548 - 0.000602103532 64.4410943337 0.8902380672 - 0.001204104744 127.7810119032 0.8903544761 - 0.001806105671 190.4707802141 0.8904548022 - 0.002408106450 252.6532940279 0.8905468048 - 0.003010107132 314.4104792094 0.8906334892 - 0.003612107747 375.7972056789 0.8907163966 - 0.004214108310 436.8534737264 0.8907964427 - 0.004816108833 497.6100685550 0.8908742238 - 0.005418109321 558.0915983686 0.8909501544 - 0.006020109781 618.3182936139 0.8910245362 - 0.012040113412 1209.4033132225 0.8917162645 - 0.018060116120 1785.2819628555 0.8923573756 - 0.024080118338 2349.9646911574 0.8929724078 - 0.030100120244 2905.6648083380 0.8935708680 - 0.036120121928 3453.8168775563 0.8941576333 - 0.042140123444 3995.4364648433 0.8947356018 - 0.048160124829 4531.2845143969 0.8953066626 - 0.054180126107 5061.9544025040 0.8958721283 - 0.060200127295 5587.9227942098 0.8964329552 - 0.120400136015 10652.2427506541 0.9018911356 - 0.180600141930 15467.0204682275 0.9072168180 - 0.240800146466 20107.1120943055 0.9124886962 - 0.301000150146 24609.3059268840 0.9177377429 - 0.361200153231 28995.4369716466 0.9229801905 - 0.421400155872 33279.9047251405 0.9282259506 - 0.481600158163 37472.8838979116 0.9334817010 - 0.541800160172 41581.9281410716 0.9387522656 - 0.602000161944 45612.8593042037 0.9440413171 - 1.264200172231 85702.6320545380 1.0040297740 - 1.926400173809 119411.8277090632 1.0683990438 - 2.588600171178 147753.8029874847 1.1381616213 - 3.250800166166 171330.9573049807 1.2141435932 - 3.913000159778 190618.2136125689 1.2971300328 - 4.575200152641 206036.7596472639 1.3879040174 - 5.237400145175 217979.3940035492 1.4872615822 - 5.899600137277 226819.5309736765 1.5960183342 - 6.561800129381 232913.5253758248 1.7150124618 - 7.224000121606 236600.0891268336 1.8451059794 - 0.000500103197 61.8694160451 0.8901788831 - 0.001000104238 122.9171040230 0.8902627155 - 0.001500105024 183.4859446748 0.8903348479 - 0.002000105679 243.6780671462 0.8904009262 - 0.002500106250 303.5522054238 0.8904631370 - 0.003000106761 363.1478071860 0.8905226018 - 0.003500107227 422.4937053041 0.8905799870 - 0.004000107657 481.6121452067 0.8906357266 - 0.004500108058 540.5209506749 0.8906901221 - 0.005000108435 599.2348076327 0.8907433930 - 0.010000111370 1177.7200752621 0.8912383404 - 0.015000113512 1744.2451022613 0.8916967196 - 0.020000115241 2301.7965583206 0.8921363933 - 0.025000116709 2852.0459092489 0.8925642844 - 0.030000117990 3396.0889714261 0.8929839454 - 0.035000119132 3934.7091672383 0.8933974882 - 0.040000120164 4468.4986164292 0.8938062900 - 0.045000121106 4997.9226575136 0.8942113080 - 0.050000121973 5523.3577538315 0.8946132400 - 0.100000128070 10609.0358452331 0.8985395674 - 0.150000131802 15474.5947682610 0.9023995816 - 0.200000134368 20182.8318356909 0.9062510615 - 0.250000136217 24765.3555872635 0.9101168221 - 0.300000137576 29241.1899215174 0.9140088216 - 0.350000138575 33622.9779768934 0.9179343357 - 0.400000139298 37919.6825840052 0.9218982287 - 0.450000139801 42137.9563560637 0.9259039730 - 0.500000140126 46282.9115693063 0.9299541701 - 1.050000137267 87817.7797386643 0.9778288127 - 1.600000129192 123077.4524331442 1.0323820146 - 2.150000119262 152882.0771602698 1.0940168409 - 2.700000108703 177765.6808644204 1.1629479666 - 3.250000098132 198212.3991721974 1.2393211855 - 3.800000087901 214695.9301290081 1.3232471674 - 4.350000078231 227678.9245808559 1.4148153817 - 4.900000068883 237603.9855881769 1.5141011172 - 5.450000060137 244885.0030011282 1.6211694999 - 6.000000052006 249901.1873133951 1.7360780055 + 0.001000104498 91.1874020775 0.8904217837 + 0.002000106156 180.1469073617 0.8906380445 + 0.003000107434 267.7889566713 0.8908244123 + 0.004000108513 354.4179753185 0.8909953081 + 0.005000109463 440.2073951572 0.8911563174 + 0.006000110321 525.2727132137 0.8913103044 + 0.007000111109 609.6976860600 0.8914589705 + 0.008000111841 693.5464587141 0.8916034244 + 0.009000112527 776.8700681291 0.8917444360 + 0.010000113174 859.7102871826 0.8918825659 + 0.020000118289 1667.3143309860 0.8931668801 + 0.030000122156 2447.4001767792 0.8943567850 + 0.040000125343 3207.8533670624 0.8954978737 + 0.050000128101 3952.9121170544 0.8966078079 + 0.060000130555 4685.2647839163 0.8976956467 + 0.070000132783 5406.7795349747 0.8987667727 + 0.080000134832 6118.8333828489 0.8998246939 + 0.090000136737 6822.4843903949 0.9008718477 + 0.100000138523 7518.5711817018 0.9019100094 + 0.200000151975 14171.3758581277 0.9119920949 + 0.300000161727 20437.5119126878 0.9217904171 + 0.400000169665 26434.3876223517 0.9314517530 + 0.500000176463 32217.1522754349 0.9410346706 + 0.600000182453 37817.7477325164 0.9505706481 + 0.700000187831 43256.9988407470 0.9600796423 + 0.800000192720 48549.5852681423 0.9695757783 + 0.900000197207 53706.4489057542 0.9790698856 + 1.000000201355 58736.0943449566 0.9885707834 + 2.000000231063 103117.9045161345 1.0853266147 + 3.000000249016 138531.6643068891 1.1887218691 + 4.000000261095 166275.0857902048 1.3033774144 + 5.000000269846 187064.1999492530 1.4340556300 + 6.000000276792 201475.4702156489 1.5857903124 + 7.000000282874 210119.2070448026 1.7638921189 + 8.000000288743 213701.1559448018 1.9739334656 + 9.000000294874 213015.8549575454 2.2217303377 + 10.000000301642 208901.2864020890 2.5133249912 + 11.000000309363 202180.5576003259 2.8549704373 + 12.000000318322 193609.9284317418 3.2531167634 + 0.000800104041 77.8680801235 0.8903252985 + 0.001600105488 154.1036482211 0.8904896764 + 0.002400106600 229.3714410921 0.8906315064 + 0.003200107537 303.8900801504 0.8907616664 + 0.004000108361 377.7844974244 0.8908843696 + 0.004800109105 451.1381193402 0.8910017765 + 0.005600109788 524.0115976467 0.8911151706 + 0.006400110421 596.4514915631 0.8912253883 + 0.007200111014 668.4949277994 0.8913330103 + 0.008000111574 740.1723576130 0.8914384595 + 0.016000115998 1441.0575734977 0.8924198466 + 0.024000119324 2120.6563454453 0.8933301192 + 0.032000122060 2784.8504269600 0.8942036725 + 0.040000124419 3436.8402672827 0.8950538311 + 0.048000126513 4078.6763633351 0.8958874298 + 0.056000128407 4711.7959015867 0.8967085300 + 0.064000130144 5337.2662667232 0.8975197784 + 0.072000131753 5955.9132003730 0.8983230142 + 0.080000133256 6568.3952400605 0.8991195770 + 0.160000144456 12440.0891471438 0.9068653423 + 0.240000152360 17992.1257790914 0.9144080340 + 0.320000158648 23321.6244838618 0.9218580350 + 0.400000163927 28475.1113109064 0.9292590137 + 0.480000168497 33479.7955861041 0.9366340853 + 0.560000172532 38353.4781918530 0.9439975828 + 0.640000176142 43108.6983720376 0.9513593652 + 0.720000179405 47754.7706344661 0.9587267413 + 0.800000182376 52298.8982198131 0.9661054473 + 1.600000202023 93037.2237806866 1.0413183098 + 2.400000211573 126705.3397801956 1.1208644654 + 3.200000215887 154411.4246423007 1.2067870684 + 4.000000217090 176798.0834959814 1.3010402486 + 4.800000216384 194346.9114169574 1.4056301357 + 5.600000214353 207482.9892254832 1.5226457444 + 6.400000211589 216621.5766045150 1.6542659386 + 7.200000208431 222187.4997846234 1.8027590296 + 8.000000205116 224618.3906558116 1.9704797901 + 8.800000201818 224358.1781127694 2.1598655955 + 0.000602103532 64.4410945981 0.8902380627 + 0.001204104744 127.7810126440 0.8903544697 + 0.001806105671 190.4707815658 0.8904547944 + 0.002408106450 252.6532960976 0.8905467958 + 0.003010107132 314.4104820879 0.8906334792 + 0.003612107747 375.7972094468 0.8907163857 + 0.004214108310 436.8534784562 0.8907964308 + 0.004816108833 497.6100743132 0.8908742111 + 0.005418109321 558.0916052169 0.8909501409 + 0.006020109781 618.3183016100 0.8910245220 + 0.012040113412 1209.4033353029 0.8917162444 + 0.018060116120 1785.2820027213 0.8923573510 + 0.024080118338 2349.9647516790 0.8929723794 + 0.030100120244 2905.6648919138 0.8935708363 + 0.036120121928 3453.8169862705 0.8941575985 + 0.042140123444 3995.4366005524 0.8947355643 + 0.048160124829 4531.2846787826 0.8953066225 + 0.054180126107 5061.9545971085 0.8958720858 + 0.060200127295 5587.9230204610 0.8964329103 + 0.120400136015 10652.2433558990 0.9018910721 + 0.180600141930 15467.0215370380 0.9072167403 + 0.240800146466 20107.1136880616 0.9124886065 + 0.301000150146 24609.3080937108 0.9177376426 + 0.361200153231 28995.4397507321 0.9229800806 + 0.421400155872 33279.9081490856 0.9282258319 + 0.481600158163 37472.8879941810 0.9334815742 + 0.541800160172 41581.9329329682 0.9387521311 + 0.602000161944 45612.8648115619 0.9440411753 + 1.264200172231 85702.6461041481 1.0040295685 + 1.926400173809 119411.8503591415 1.0683987902 + 2.588600171178 147753.8334171917 1.1381613272 + 3.250800166166 171330.9942993192 1.2141432637 + 3.913000159778 190618.2558029959 1.2971296713 + 4.575200152641 206036.8056531049 1.3879036264 + 5.237400145175 217979.4425192974 1.4872611639 + 5.899600137277 226819.5808216546 1.5960178902 + 6.561800129381 232913.5755347360 1.7150119936 + 7.224000121606 236600.1387429903 1.8451054882 + 0.000500103197 61.8694162104 0.8901788798 + 0.001000104238 122.9171044870 0.8902627108 + 0.001500105024 183.4859455229 0.8903348423 + 0.002000105679 243.6780684464 0.8904009196 + 0.002500106250 303.5522072344 0.8904631297 + 0.003000106761 363.1478095586 0.8905225938 + 0.003500107227 422.4937082854 0.8905799784 + 0.004000107657 481.6121488394 0.8906357173 + 0.004500108058 540.5209549990 0.8906901123 + 0.005000108435 599.2348126854 0.8907433827 + 0.010000111370 1177.7200892978 0.8912383258 + 0.015000113512 1744.2451277079 0.8916967017 + 0.020000115241 2301.7965970781 0.8921363727 + 0.025000116709 2852.0459629154 0.8925642613 + 0.030000117990 3396.0890413977 0.8929839201 + 0.035000119132 3934.7092547644 0.8933974609 + 0.040000120164 4468.4987226459 0.8938062608 + 0.045000121106 4997.9227834667 0.8942112771 + 0.050000121973 5523.3579004924 0.8946132074 + 0.100000128070 10609.0362419360 0.8985395212 + 0.150000131802 15474.5954739939 0.9023995250 + 0.200000134368 20182.8328941192 0.9062509962 + 0.250000136217 24765.3570332460 0.9101167492 + 0.300000137576 29241.1917839458 0.9140087417 + 0.350000138575 33622.9802802360 0.9179342494 + 0.400000139298 37919.6853492584 0.9218981364 + 0.450000139801 42137.9596013893 0.9259038751 + 0.500000140126 46282.9153104839 0.9299540669 + 1.050000137267 87817.7895252929 0.9778286632 + 1.600000129192 123077.4684735121 1.0323818300 + 2.150000119262 152882.0989593378 1.0940166270 + 2.700000108703 177765.7075888703 1.1629477268 + 3.250000098132 198212.4298532070 1.2393209224 + 3.800000087901 214695.9637870771 1.3232468829 + 4.350000078231 227678.9603007006 1.4148150773 + 4.900000068883 237604.0225591797 1.5141007942 + 5.450000060137 244885.0405342756 1.6211691592 + 6.000000052006 249901.2248429295 1.7360776480 diff --git a/mytest/CalPortDiff.out b/mytest/CalPortDiff.out index 79b78068..a494d3a7 100644 --- a/mytest/CalPortDiff.out +++ b/mytest/CalPortDiff.out @@ -137,7 +137,7 @@ Initial solution 0. Specific Conductance (µS/cm, 16°C) = 574 Density (g/cm³) = 0.99937 Volume (L) = 1.00119 - Viscosity (mPa s) = 1.11291 + Viscosity (mPa s) = 1.11289 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.568e-03 Mass of water (kg) = 1.000e+00 @@ -256,7 +256,7 @@ Initial solution 1. Specific Conductance (µS/cm, 16°C) = 1108 Density (g/cm³) = 0.99989 Volume (L) = 1.00138 - Viscosity (mPa s) = 1.11578 + Viscosity (mPa s) = 1.11575 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.581e-02 Mass of water (kg) = 1.000e+00 @@ -383,10 +383,10 @@ Initial solution 2. pH = 13.570 pe = 4.000 - Specific Conductance (µS/cm, 16°C) = 60266 + Specific Conductance (µS/cm, 16°C) = 60267 Density (g/cm³) = 1.02047 Volume (L) = 1.00347 - Viscosity (mPa s) = 1.14208 + Viscosity (mPa s) = 1.14201 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.130e-01 Mass of water (kg) = 1.000e+00 @@ -549,7 +549,7 @@ Kinetics 1. Specific Conductance (µS/cm, 16°C) = 574 Density (g/cm³) = 0.99937 Volume (L) = 1.00119 - Viscosity (mPa s) = 1.11291 + Viscosity (mPa s) = 1.11289 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.568e-03 Mass of water (kg) = 1.000e+00 @@ -706,7 +706,7 @@ Using solution 0. Specific Conductance (µS/cm, 16°C) = 574 Density (g/cm³) = 0.99937 Volume (L) = 1.00119 - Viscosity (mPa s) = 1.11291 + Viscosity (mPa s) = 1.11289 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.568e-03 Mass of water (kg) = 1.000e+00 @@ -846,7 +846,7 @@ Kinetics 1. Specific Conductance (µS/cm, 16°C) = 1108 Density (g/cm³) = 0.99989 Volume (L) = 1.00138 - Viscosity (mPa s) = 1.11578 + Viscosity (mPa s) = 1.11575 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.581e-02 Mass of water (kg) = 1.000e+00 @@ -994,10 +994,10 @@ Kinetics 2. pH = 13.570 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 60266 + Specific Conductance (µS/cm, 16°C) = 60267 Density (g/cm³) = 1.02047 Volume (L) = 1.00347 - Viscosity (mPa s) = 1.14208 + Viscosity (mPa s) = 1.14201 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.130e-01 Mass of water (kg) = 1.000e+00 @@ -1134,7 +1134,7 @@ Si 1.390e-04 For ideal gases, phi = 1. WARNING: -Calculating transport: 2 (mobile) cells, 5 shifts, 12 mixruns... +Calculating transport: 2 (mobile) cells, 5 shifts, 10 mixruns... ------------------ diff --git a/mytest/CalPortDiff_101.sel b/mytest/CalPortDiff_101.sel index 8f56c71a..4e5b9ea8 100644 --- a/mytest/CalPortDiff_101.sel +++ b/mytest/CalPortDiff_101.sel @@ -1,23 +1,23 @@ Mu SC - 0.008568488296 574.4282317698 - 0.015809661090 1108.5475918474 - 0.412990892354 60266.9731232164 - 0.008568488339 574.4282339381 - 0.008568488296 574.4282318746 - 0.015809661090 1108.5475918460 - 0.412990892344 60266.9731233209 - 0.008568488297 574.4282318715 - 0.099623571166 12667.9224006807 - 0.318807491833 43350.3259442563 - 0.008568488297 574.4282318715 - 0.102554933257 13251.6845442799 - 0.312443266289 42290.3919364999 - 0.008568488297 574.4282318715 - 0.102520204878 13306.0235748781 - 0.311802092994 42265.4359009762 - 0.008568488297 574.4282318715 - 0.102345700371 13333.2165716402 - 0.311459267865 42291.1883015474 - 0.008568488297 574.4282318715 - 0.102183357120 13360.3469051065 - 0.311135406616 42316.3050116488 + 0.008568488296 574.4355288759 + 0.015809661090 1108.5611591123 + 0.412990892354 60267.4000820846 + 0.008568488339 574.4355310443 + 0.008568488296 574.4355289807 + 0.015809661090 1108.5611591108 + 0.412990892344 60267.4000821891 + 0.008568488297 574.4355289776 + 0.088497034546 10642.9681183912 + 0.334806206687 46235.9069543049 + 0.008568488297 574.4355289776 + 0.090462305745 11036.5734722314 + 0.329039543061 45271.0480724779 + 0.008568488297 574.4355289776 + 0.090458770319 11088.4124067276 + 0.328257430302 45207.5802462670 + 0.008568488297 574.4355289776 + 0.090304575388 11113.0854759569 + 0.327948762229 45226.8484444774 + 0.008568488297 574.4355289776 + 0.090159720249 11137.8010296187 + 0.327656912426 45245.5972689300 diff --git a/mytest/Carnallite.out b/mytest/Carnallite.out index 3be41b61..891dcb9f 100644 --- a/mytest/Carnallite.out +++ b/mytest/Carnallite.out @@ -177,10 +177,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.020e+01 2.019e-01 pH = 5.092 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 32416 + Specific Conductance (µS/cm, 0°C) = 32421 Density (g/cm³) = 1.36455 Volume (L) = 1.19117 - Viscosity (mPa s) = 43.60628 + Viscosity (mPa s) = 43.59795 Activity of water = 0.171 Ionic strength (mol/kgw) = 2.085e+01 Mass of water (kg) = 9.782e-01 @@ -267,10 +267,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.040e+01 4.019e-01 pH = 5.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 32866 + Specific Conductance (µS/cm, 0°C) = 32871 Density (g/cm³) = 1.36315 Volume (L) = 1.16257 - Viscosity (mPa s) = 42.63090 + Viscosity (mPa s) = 42.62260 Activity of water = 0.175 Ionic strength (mol/kgw) = 2.069e+01 Mass of water (kg) = 9.566e-01 @@ -357,10 +357,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.060e+01 6.019e-01 pH = 5.189 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 33344 + Specific Conductance (µS/cm, 0°C) = 33350 Density (g/cm³) = 1.36166 Volume (L) = 1.13399 - Viscosity (mPa s) = 41.62886 + Viscosity (mPa s) = 41.62059 Activity of water = 0.180 Ionic strength (mol/kgw) = 2.053e+01 Mass of water (kg) = 9.349e-01 @@ -447,10 +447,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.080e+01 8.018e-01 pH = 5.241 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 33854 + Specific Conductance (µS/cm, 0°C) = 33859 Density (g/cm³) = 1.36008 Volume (L) = 1.10541 - Viscosity (mPa s) = 40.59939 + Viscosity (mPa s) = 40.59115 Activity of water = 0.186 Ionic strength (mol/kgw) = 2.035e+01 Mass of water (kg) = 9.133e-01 @@ -537,10 +537,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.100e+01 1.002e+00 pH = 5.295 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 34397 + Specific Conductance (µS/cm, 0°C) = 34403 Density (g/cm³) = 1.35841 Volume (L) = 1.07685 - Viscosity (mPa s) = 39.54171 + Viscosity (mPa s) = 39.53351 Activity of water = 0.192 Ionic strength (mol/kgw) = 2.018e+01 Mass of water (kg) = 8.917e-01 @@ -627,10 +627,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.120e+01 1.202e+00 pH = 5.352 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 34978 + Specific Conductance (µS/cm, 0°C) = 34984 Density (g/cm³) = 1.35662 Volume (L) = 1.04831 - Viscosity (mPa s) = 38.45509 + Viscosity (mPa s) = 38.44693 Activity of water = 0.198 Ionic strength (mol/kgw) = 1.999e+01 Mass of water (kg) = 8.701e-01 @@ -717,10 +717,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.140e+01 1.402e+00 pH = 5.412 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 35601 + Specific Conductance (µS/cm, 0°C) = 35607 Density (g/cm³) = 1.35472 Volume (L) = 1.01978 - Viscosity (mPa s) = 37.33881 + Viscosity (mPa s) = 37.33069 Activity of water = 0.204 Ionic strength (mol/kgw) = 1.979e+01 Mass of water (kg) = 8.485e-01 @@ -807,10 +807,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.160e+01 1.602e+00 pH = 5.475 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 36269 + Specific Conductance (µS/cm, 0°C) = 36275 Density (g/cm³) = 1.35268 Volume (L) = 0.99126 - Viscosity (mPa s) = 36.19222 + Viscosity (mPa s) = 36.18414 Activity of water = 0.211 Ionic strength (mol/kgw) = 1.958e+01 Mass of water (kg) = 8.269e-01 @@ -897,10 +897,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.180e+01 1.802e+00 pH = 5.541 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 36988 + Specific Conductance (µS/cm, 0°C) = 36994 Density (g/cm³) = 1.35050 Volume (L) = 0.96277 - Viscosity (mPa s) = 35.01473 + Viscosity (mPa s) = 35.00670 Activity of water = 0.219 Ionic strength (mol/kgw) = 1.936e+01 Mass of water (kg) = 8.053e-01 @@ -987,10 +987,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.200e+01 2.001e+00 pH = 5.611 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 37763 + Specific Conductance (µS/cm, 0°C) = 37770 Density (g/cm³) = 1.34817 Volume (L) = 0.93430 - Viscosity (mPa s) = 33.80586 + Viscosity (mPa s) = 33.79787 Activity of water = 0.227 Ionic strength (mol/kgw) = 1.913e+01 Mass of water (kg) = 7.837e-01 @@ -1077,10 +1077,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.220e+01 2.201e+00 pH = 5.685 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 38602 + Specific Conductance (µS/cm, 0°C) = 38609 Density (g/cm³) = 1.34566 Volume (L) = 0.90585 - Viscosity (mPa s) = 32.56525 + Viscosity (mPa s) = 32.55731 Activity of water = 0.236 Ionic strength (mol/kgw) = 1.889e+01 Mass of water (kg) = 7.620e-01 @@ -1167,10 +1167,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.240e+01 2.401e+00 pH = 5.763 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 39511 + Specific Conductance (µS/cm, 0°C) = 39519 Density (g/cm³) = 1.34295 Volume (L) = 0.87743 - Viscosity (mPa s) = 31.29271 + Viscosity (mPa s) = 31.28483 Activity of water = 0.246 Ionic strength (mol/kgw) = 1.863e+01 Mass of water (kg) = 7.404e-01 @@ -1257,10 +1257,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.260e+01 2.601e+00 pH = 5.846 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 40499 + Specific Conductance (µS/cm, 0°C) = 40508 Density (g/cm³) = 1.34003 Volume (L) = 0.84903 - Viscosity (mPa s) = 29.98828 + Viscosity (mPa s) = 29.98046 Activity of water = 0.256 Ionic strength (mol/kgw) = 1.835e+01 Mass of water (kg) = 7.188e-01 @@ -1347,10 +1347,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.280e+01 2.801e+00 pH = 5.934 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 41578 + Specific Conductance (µS/cm, 0°C) = 41586 Density (g/cm³) = 1.33687 Volume (L) = 0.82068 - Viscosity (mPa s) = 28.65228 + Viscosity (mPa s) = 28.64453 Activity of water = 0.268 Ionic strength (mol/kgw) = 1.806e+01 Mass of water (kg) = 6.972e-01 @@ -1437,10 +1437,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.300e+01 3.000e+00 pH = 6.028 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 42757 + Specific Conductance (µS/cm, 0°C) = 42767 Density (g/cm³) = 1.33343 Volume (L) = 0.79236 - Viscosity (mPa s) = 27.28540 + Viscosity (mPa s) = 27.27771 Activity of water = 0.280 Ionic strength (mol/kgw) = 1.775e+01 Mass of water (kg) = 6.757e-01 @@ -1527,10 +1527,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.320e+01 3.200e+00 pH = 6.129 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 44052 + Specific Conductance (µS/cm, 0°C) = 44063 Density (g/cm³) = 1.32969 Volume (L) = 0.76409 - Viscosity (mPa s) = 25.88881 + Viscosity (mPa s) = 25.88119 Activity of water = 0.294 Ionic strength (mol/kgw) = 1.743e+01 Mass of water (kg) = 6.541e-01 @@ -1617,10 +1617,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.340e+01 3.399e+00 pH = 6.236 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 45479 + Specific Conductance (µS/cm, 0°C) = 45490 Density (g/cm³) = 1.32562 Volume (L) = 0.73589 - Viscosity (mPa s) = 24.46431 + Viscosity (mPa s) = 24.45677 Activity of water = 0.308 Ionic strength (mol/kgw) = 1.707e+01 Mass of water (kg) = 6.325e-01 @@ -1707,10 +1707,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.360e+01 3.599e+00 pH = 6.351 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47055 + Specific Conductance (µS/cm, 0°C) = 47067 Density (g/cm³) = 1.32116 Volume (L) = 0.70776 - Viscosity (mPa s) = 23.01458 + Viscosity (mPa s) = 23.00712 Activity of water = 0.325 Ionic strength (mol/kgw) = 1.670e+01 Mass of water (kg) = 6.110e-01 @@ -1797,10 +1797,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.380e+01 3.798e+00 pH = 6.475 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 48803 + Specific Conductance (µS/cm, 0°C) = 48816 Density (g/cm³) = 1.31626 Volume (L) = 0.67974 - Viscosity (mPa s) = 21.54341 + Viscosity (mPa s) = 21.53605 Activity of water = 0.342 Ionic strength (mol/kgw) = 1.630e+01 Mass of water (kg) = 5.895e-01 @@ -1887,10 +1887,10 @@ Carnallite -0.00 4.25 4.25 1.000e+01 1.400e+01 3.996e+00 pH = 6.608 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 50747 + Specific Conductance (µS/cm, 0°C) = 50762 Density (g/cm³) = 1.31089 Volume (L) = 0.65186 - Viscosity (mPa s) = 20.05628 + Viscosity (mPa s) = 20.04902 Activity of water = 0.362 Ionic strength (mol/kgw) = 1.587e+01 Mass of water (kg) = 5.681e-01 @@ -1977,10 +1977,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.419e+01 4.193e+00 pH = 6.752 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 52916 + Specific Conductance (µS/cm, 0°C) = 52932 Density (g/cm³) = 1.30499 Volume (L) = 0.62419 - Viscosity (mPa s) = 18.56101 + Viscosity (mPa s) = 18.55386 Activity of water = 0.384 Ionic strength (mol/kgw) = 1.541e+01 Mass of water (kg) = 5.467e-01 @@ -2067,10 +2067,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.439e+01 4.389e+00 pH = 6.906 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 55340 + Specific Conductance (µS/cm, 0°C) = 55357 Density (g/cm³) = 1.29852 Volume (L) = 0.59684 - Viscosity (mPa s) = 17.06907 + Viscosity (mPa s) = 17.06204 Activity of water = 0.407 Ionic strength (mol/kgw) = 1.492e+01 Mass of water (kg) = 5.255e-01 @@ -2157,10 +2157,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.458e+01 4.583e+00 pH = 7.070 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 58048 + Specific Conductance (µS/cm, 0°C) = 58068 Density (g/cm³) = 1.29148 Volume (L) = 0.57002 - Viscosity (mPa s) = 15.59753 + Viscosity (mPa s) = 15.59064 Activity of water = 0.433 Ionic strength (mol/kgw) = 1.440e+01 Mass of water (kg) = 5.046e-01 @@ -2247,10 +2247,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.477e+01 4.772e+00 pH = 7.245 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 61067 + Specific Conductance (µS/cm, 0°C) = 61089 Density (g/cm³) = 1.28398 Volume (L) = 0.54407 - Viscosity (mPa s) = 14.17204 + Viscosity (mPa s) = 14.16530 Activity of water = 0.460 Ionic strength (mol/kgw) = 1.386e+01 Mass of water (kg) = 4.842e-01 @@ -2337,10 +2337,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.495e+01 4.953e+00 pH = 7.425 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 64412 + Specific Conductance (µS/cm, 0°C) = 64438 Density (g/cm³) = 1.27628 Volume (L) = 0.51956 - Viscosity (mPa s) = 12.82964 + Viscosity (mPa s) = 12.82309 Activity of water = 0.488 Ionic strength (mol/kgw) = 1.331e+01 Mass of water (kg) = 4.646e-01 @@ -2427,10 +2427,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.512e+01 5.122e+00 pH = 7.603 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 68085 + Specific Conductance (µS/cm, 0°C) = 68114 Density (g/cm³) = 1.26893 Volume (L) = 0.49732 - Viscosity (mPa s) = 11.61703 + Viscosity (mPa s) = 11.61068 Activity of water = 0.515 Ionic strength (mol/kgw) = 1.279e+01 Mass of water (kg) = 4.463e-01 @@ -2517,10 +2517,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.527e+01 5.274e+00 pH = 7.768 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 72075 + Specific Conductance (µS/cm, 0°C) = 72107 Density (g/cm³) = 1.26268 Volume (L) = 0.47817 - Viscosity (mPa s) = 10.57639 + Viscosity (mPa s) = 10.57028 Activity of water = 0.540 Ionic strength (mol/kgw) = 1.233e+01 Mass of water (kg) = 4.299e-01 @@ -2607,10 +2607,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.541e+01 5.406e+00 pH = 7.913 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 76375 + Specific Conductance (µS/cm, 0°C) = 76410 Density (g/cm³) = 1.25816 Volume (L) = 0.46254 - Viscosity (mPa s) = 9.72322 + Viscosity (mPa s) = 9.71737 Activity of water = 0.561 Ionic strength (mol/kgw) = 1.197e+01 Mass of water (kg) = 4.156e-01 @@ -2697,10 +2697,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.552e+01 5.520e+00 pH = 8.033 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 80982 + Specific Conductance (µS/cm, 0°C) = 81020 Density (g/cm³) = 1.25558 Volume (L) = 0.45020 - Viscosity (mPa s) = 9.03979 + Viscosity (mPa s) = 9.03421 Activity of water = 0.577 Ionic strength (mol/kgw) = 1.170e+01 Mass of water (kg) = 4.033e-01 @@ -2787,10 +2787,10 @@ Carnallite 0.00 4.25 4.25 1.000e+01 1.562e+01 5.618e+00 pH = 8.132 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 85890 + Specific Conductance (µS/cm, 0°C) = 85930 Density (g/cm³) = 1.25479 Volume (L) = 0.44055 - Viscosity (mPa s) = 8.49143 + Viscosity (mPa s) = 8.48612 Activity of water = 0.589 Ionic strength (mol/kgw) = 1.152e+01 Mass of water (kg) = 3.927e-01 @@ -2897,10 +2897,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.020e+01 1.976e-01 pH = 4.198 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 77151 + Specific Conductance (µS/cm, 35°C) = 77145 Density (g/cm³) = 1.36167 Volume (L) = 1.19457 - Viscosity (mPa s) = 15.47053 + Viscosity (mPa s) = 15.47212 Activity of water = 0.211 Ionic strength (mol/kgw) = 2.085e+01 Mass of water (kg) = 9.786e-01 @@ -2987,10 +2987,10 @@ Carnallite -0.00 4.45 4.45 1.000e+01 1.040e+01 3.974e-01 pH = 4.245 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 78189 + Specific Conductance (µS/cm, 35°C) = 78183 Density (g/cm³) = 1.35999 Volume (L) = 1.16619 - Viscosity (mPa s) = 15.13255 + Viscosity (mPa s) = 15.13414 Activity of water = 0.216 Ionic strength (mol/kgw) = 2.070e+01 Mass of water (kg) = 9.570e-01 @@ -3077,10 +3077,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.060e+01 5.971e-01 pH = 4.294 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 79292 + Specific Conductance (µS/cm, 35°C) = 79285 Density (g/cm³) = 1.35821 Volume (L) = 1.13783 - Viscosity (mPa s) = 14.78538 + Viscosity (mPa s) = 14.78696 Activity of water = 0.221 Ionic strength (mol/kgw) = 2.053e+01 Mass of water (kg) = 9.355e-01 @@ -3167,10 +3167,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.080e+01 7.968e-01 pH = 4.345 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 80465 + Specific Conductance (µS/cm, 35°C) = 80458 Density (g/cm³) = 1.35635 Volume (L) = 1.10949 - Viscosity (mPa s) = 14.42877 + Viscosity (mPa s) = 14.43034 Activity of water = 0.227 Ionic strength (mol/kgw) = 2.036e+01 Mass of water (kg) = 9.139e-01 @@ -3257,10 +3257,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.100e+01 9.964e-01 pH = 4.399 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 81716 + Specific Conductance (µS/cm, 35°C) = 81709 Density (g/cm³) = 1.35437 Volume (L) = 1.08116 - Viscosity (mPa s) = 14.06247 + Viscosity (mPa s) = 14.06403 Activity of water = 0.233 Ionic strength (mol/kgw) = 2.019e+01 Mass of water (kg) = 8.923e-01 @@ -3347,10 +3347,10 @@ Carnallite -0.00 4.45 4.45 1.000e+01 1.120e+01 1.196e+00 pH = 4.455 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 83053 + Specific Conductance (µS/cm, 35°C) = 83046 Density (g/cm³) = 1.35228 Volume (L) = 1.05285 - Viscosity (mPa s) = 13.68624 + Viscosity (mPa s) = 13.68780 Activity of water = 0.239 Ionic strength (mol/kgw) = 2.000e+01 Mass of water (kg) = 8.707e-01 @@ -3437,10 +3437,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.140e+01 1.396e+00 pH = 4.514 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 84483 + Specific Conductance (µS/cm, 35°C) = 84476 Density (g/cm³) = 1.35006 Volume (L) = 1.02456 - Viscosity (mPa s) = 13.29988 + Viscosity (mPa s) = 13.30143 Activity of water = 0.246 Ionic strength (mol/kgw) = 1.980e+01 Mass of water (kg) = 8.491e-01 @@ -3527,10 +3527,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.159e+01 1.595e+00 pH = 4.575 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 86017 + Specific Conductance (µS/cm, 35°C) = 86009 Density (g/cm³) = 1.34771 Volume (L) = 0.99630 - Viscosity (mPa s) = 12.90320 + Viscosity (mPa s) = 12.90474 Activity of water = 0.253 Ionic strength (mol/kgw) = 1.960e+01 Mass of water (kg) = 8.276e-01 @@ -3617,10 +3617,10 @@ Carnallite -0.00 4.45 4.45 1.000e+01 1.179e+01 1.794e+00 pH = 4.640 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 87666 + Specific Conductance (µS/cm, 35°C) = 87658 Density (g/cm³) = 1.34520 Volume (L) = 0.96807 - Viscosity (mPa s) = 12.49605 + Viscosity (mPa s) = 12.49758 Activity of water = 0.261 Ionic strength (mol/kgw) = 1.938e+01 Mass of water (kg) = 8.060e-01 @@ -3707,10 +3707,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.199e+01 1.993e+00 pH = 4.708 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 89443 + Specific Conductance (µS/cm, 35°C) = 89434 Density (g/cm³) = 1.34254 Volume (L) = 0.93987 - Viscosity (mPa s) = 12.07835 + Viscosity (mPa s) = 12.07988 Activity of water = 0.269 Ionic strength (mol/kgw) = 1.915e+01 Mass of water (kg) = 7.845e-01 @@ -3797,10 +3797,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.219e+01 2.192e+00 pH = 4.780 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 91361 + Specific Conductance (µS/cm, 35°C) = 91351 Density (g/cm³) = 1.33970 Volume (L) = 0.91172 - Viscosity (mPa s) = 11.65008 + Viscosity (mPa s) = 11.65159 Activity of water = 0.278 Ionic strength (mol/kgw) = 1.891e+01 Mass of water (kg) = 7.630e-01 @@ -3887,10 +3887,10 @@ Carnallite -0.00 4.45 4.45 1.000e+01 1.239e+01 2.391e+00 pH = 4.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 93437 + Specific Conductance (µS/cm, 35°C) = 93427 Density (g/cm³) = 1.33666 Volume (L) = 0.88362 - Viscosity (mPa s) = 11.21131 + Viscosity (mPa s) = 11.21281 Activity of water = 0.288 Ionic strength (mol/kgw) = 1.865e+01 Mass of water (kg) = 7.415e-01 @@ -3977,10 +3977,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.259e+01 2.590e+00 pH = 4.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 95691 + Specific Conductance (µS/cm, 35°C) = 95680 Density (g/cm³) = 1.33342 Volume (L) = 0.85558 - Viscosity (mPa s) = 10.76224 + Viscosity (mPa s) = 10.76373 Activity of water = 0.298 Ionic strength (mol/kgw) = 1.839e+01 Mass of water (kg) = 7.201e-01 @@ -4067,10 +4067,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.279e+01 2.788e+00 pH = 5.021 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 98142 + Specific Conductance (µS/cm, 35°C) = 98131 Density (g/cm³) = 1.32995 Volume (L) = 0.82763 - Viscosity (mPa s) = 10.30327 + Viscosity (mPa s) = 10.30475 Activity of water = 0.309 Ionic strength (mol/kgw) = 1.810e+01 Mass of water (kg) = 6.986e-01 @@ -4157,10 +4157,10 @@ Carnallite -0.00 4.45 4.45 1.000e+01 1.299e+01 2.986e+00 pH = 5.111 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 100817 + Specific Conductance (µS/cm, 35°C) = 100806 Density (g/cm³) = 1.32622 Volume (L) = 0.79979 - Viscosity (mPa s) = 9.83499 + Viscosity (mPa s) = 9.83646 Activity of water = 0.321 Ionic strength (mol/kgw) = 1.780e+01 Mass of water (kg) = 6.773e-01 @@ -4247,10 +4247,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.318e+01 3.182e+00 pH = 5.206 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 103743 + Specific Conductance (µS/cm, 35°C) = 103730 Density (g/cm³) = 1.32224 Volume (L) = 0.77210 - Viscosity (mPa s) = 9.35836 + Viscosity (mPa s) = 9.35981 Activity of water = 0.334 Ionic strength (mol/kgw) = 1.748e+01 Mass of water (kg) = 6.560e-01 @@ -4337,10 +4337,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.338e+01 3.378e+00 pH = 5.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 106951 + Specific Conductance (µS/cm, 35°C) = 106937 Density (g/cm³) = 1.31796 Volume (L) = 0.74459 - Viscosity (mPa s) = 8.87476 + Viscosity (mPa s) = 8.87619 Activity of water = 0.348 Ionic strength (mol/kgw) = 1.715e+01 Mass of water (kg) = 6.348e-01 @@ -4427,10 +4427,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.357e+01 3.573e+00 pH = 5.413 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 110475 + Specific Conductance (µS/cm, 35°C) = 110460 Density (g/cm³) = 1.31340 Volume (L) = 0.71735 - Viscosity (mPa s) = 8.38617 + Viscosity (mPa s) = 8.38759 Activity of water = 0.364 Ionic strength (mol/kgw) = 1.679e+01 Mass of water (kg) = 6.138e-01 @@ -4517,10 +4517,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.377e+01 3.766e+00 pH = 5.526 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 114353 + Specific Conductance (µS/cm, 35°C) = 114337 Density (g/cm³) = 1.30854 Volume (L) = 0.69047 - Viscosity (mPa s) = 7.89546 + Viscosity (mPa s) = 7.89686 Activity of water = 0.380 Ionic strength (mol/kgw) = 1.642e+01 Mass of water (kg) = 5.929e-01 @@ -4607,10 +4607,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.396e+01 3.956e+00 pH = 5.644 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 118623 + Specific Conductance (µS/cm, 35°C) = 118605 Density (g/cm³) = 1.30341 Volume (L) = 0.66410 - Viscosity (mPa s) = 7.40664 + Viscosity (mPa s) = 7.40802 Activity of water = 0.397 Ionic strength (mol/kgw) = 1.603e+01 Mass of water (kg) = 5.724e-01 @@ -4697,10 +4697,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.414e+01 4.142e+00 pH = 5.768 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 123321 + Specific Conductance (µS/cm, 35°C) = 123302 Density (g/cm³) = 1.29808 Volume (L) = 0.63847 - Viscosity (mPa s) = 6.92521 + Viscosity (mPa s) = 6.92657 Activity of water = 0.415 Ionic strength (mol/kgw) = 1.563e+01 Mass of water (kg) = 5.522e-01 @@ -4787,10 +4787,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.432e+01 4.323e+00 pH = 5.894 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 128478 + Specific Conductance (µS/cm, 35°C) = 128457 Density (g/cm³) = 1.29265 Volume (L) = 0.61384 - Viscosity (mPa s) = 6.45846 + Viscosity (mPa s) = 6.45979 Activity of water = 0.434 Ionic strength (mol/kgw) = 1.522e+01 Mass of water (kg) = 5.327e-01 @@ -4877,10 +4877,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.450e+01 4.496e+00 pH = 6.022 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 134109 + Specific Conductance (µS/cm, 35°C) = 134086 Density (g/cm³) = 1.28733 Volume (L) = 0.59061 - Viscosity (mPa s) = 6.01524 + Viscosity (mPa s) = 6.01654 Activity of water = 0.454 Ionic strength (mol/kgw) = 1.481e+01 Mass of water (kg) = 5.140e-01 @@ -4967,10 +4967,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.466e+01 4.659e+00 pH = 6.148 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 140214 + Specific Conductance (µS/cm, 35°C) = 140189 Density (g/cm³) = 1.28237 Volume (L) = 0.56919 - Viscosity (mPa s) = 5.60505 + Viscosity (mPa s) = 5.60632 Activity of water = 0.472 Ionic strength (mol/kgw) = 1.443e+01 Mass of water (kg) = 4.964e-01 @@ -5057,10 +5057,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.481e+01 4.810e+00 pH = 6.268 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 146776 + Specific Conductance (µS/cm, 35°C) = 146749 Density (g/cm³) = 1.27807 Volume (L) = 0.54993 - Viscosity (mPa s) = 5.23596 + Viscosity (mPa s) = 5.23720 Activity of water = 0.490 Ionic strength (mol/kgw) = 1.408e+01 Mass of water (kg) = 4.801e-01 @@ -5147,10 +5147,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.495e+01 4.948e+00 pH = 6.378 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 153768 + Specific Conductance (µS/cm, 35°C) = 153740 Density (g/cm³) = 1.27468 Volume (L) = 0.53304 - Viscosity (mPa s) = 4.91243 + Viscosity (mPa s) = 4.91363 Activity of water = 0.506 Ionic strength (mol/kgw) = 1.377e+01 Mass of water (kg) = 4.651e-01 @@ -5237,10 +5237,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.507e+01 5.073e+00 pH = 6.476 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 161162 + Specific Conductance (µS/cm, 35°C) = 161131 Density (g/cm³) = 1.27237 Volume (L) = 0.51851 - Viscosity (mPa s) = 4.63429 + Viscosity (mPa s) = 4.63545 Activity of water = 0.519 Ionic strength (mol/kgw) = 1.352e+01 Mass of water (kg) = 4.517e-01 @@ -5327,10 +5327,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.519e+01 5.185e+00 pH = 6.563 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 168931 + Specific Conductance (µS/cm, 35°C) = 168899 Density (g/cm³) = 1.27116 Volume (L) = 0.50615 - Viscosity (mPa s) = 4.39766 + Viscosity (mPa s) = 4.39878 Activity of water = 0.531 Ionic strength (mol/kgw) = 1.333e+01 Mass of water (kg) = 4.395e-01 @@ -5417,10 +5417,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.529e+01 5.287e+00 pH = 6.637 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 177054 + Specific Conductance (µS/cm, 35°C) = 177021 Density (g/cm³) = 1.27099 Volume (L) = 0.49566 - Viscosity (mPa s) = 4.19681 + Viscosity (mPa s) = 4.19789 Activity of water = 0.540 Ionic strength (mol/kgw) = 1.319e+01 Mass of water (kg) = 4.285e-01 @@ -5507,10 +5507,10 @@ Carnallite 0.00 4.45 4.45 1.000e+01 1.538e+01 5.380e+00 pH = 6.702 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 185509 + Specific Conductance (µS/cm, 35°C) = 185474 Density (g/cm³) = 1.27177 Volume (L) = 0.48676 - Viscosity (mPa s) = 4.02584 + Viscosity (mPa s) = 4.02688 Activity of water = 0.547 Ionic strength (mol/kgw) = 1.309e+01 Mass of water (kg) = 4.184e-01 @@ -5617,10 +5617,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.016e+01 1.580e-01 pH = 3.607 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 151734 + Specific Conductance (µS/cm, 75°C) = 151650 Density (g/cm³) = 1.36565 Volume (L) = 1.19915 - Viscosity (mPa s) = 7.12846 + Viscosity (mPa s) = 7.13346 Activity of water = 0.261 Ionic strength (mol/kgw) = 2.092e+01 Mass of water (kg) = 9.829e-01 @@ -5707,10 +5707,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.036e+01 3.563e-01 pH = 3.649 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 153640 + Specific Conductance (µS/cm, 75°C) = 153554 Density (g/cm³) = 1.36368 Volume (L) = 1.17140 - Viscosity (mPa s) = 6.98065 + Viscosity (mPa s) = 6.98563 Activity of water = 0.266 Ionic strength (mol/kgw) = 2.077e+01 Mass of water (kg) = 9.615e-01 @@ -5797,10 +5797,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.055e+01 5.544e-01 pH = 3.693 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 155661 + Specific Conductance (µS/cm, 75°C) = 155573 Density (g/cm³) = 1.36162 Volume (L) = 1.14370 - Viscosity (mPa s) = 6.82906 + Viscosity (mPa s) = 6.83402 Activity of water = 0.271 Ionic strength (mol/kgw) = 2.062e+01 Mass of water (kg) = 9.401e-01 @@ -5887,10 +5887,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.075e+01 7.523e-01 pH = 3.739 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 157808 + Specific Conductance (µS/cm, 75°C) = 157716 Density (g/cm³) = 1.35946 Volume (L) = 1.11605 - Viscosity (mPa s) = 6.67361 + Viscosity (mPa s) = 6.67854 Activity of water = 0.277 Ionic strength (mol/kgw) = 2.045e+01 Mass of water (kg) = 9.187e-01 @@ -5977,10 +5977,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.095e+01 9.498e-01 pH = 3.786 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 160090 + Specific Conductance (µS/cm, 75°C) = 159995 Density (g/cm³) = 1.35719 Volume (L) = 1.08846 - Viscosity (mPa s) = 6.51425 + Viscosity (mPa s) = 6.51917 Activity of water = 0.283 Ionic strength (mol/kgw) = 2.028e+01 Mass of water (kg) = 8.973e-01 @@ -6067,10 +6067,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.115e+01 1.147e+00 pH = 3.836 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 162521 + Specific Conductance (µS/cm, 75°C) = 162422 Density (g/cm³) = 1.35481 Volume (L) = 1.06093 - Viscosity (mPa s) = 6.35096 + Viscosity (mPa s) = 6.35585 Activity of water = 0.289 Ionic strength (mol/kgw) = 2.010e+01 Mass of water (kg) = 8.760e-01 @@ -6157,10 +6157,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.134e+01 1.344e+00 pH = 3.888 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 165114 + Specific Conductance (µS/cm, 75°C) = 165011 Density (g/cm³) = 1.35232 Volume (L) = 1.03348 - Viscosity (mPa s) = 6.18373 + Viscosity (mPa s) = 6.18860 Activity of water = 0.295 Ionic strength (mol/kgw) = 1.992e+01 Mass of water (kg) = 8.547e-01 @@ -6247,10 +6247,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.154e+01 1.540e+00 pH = 3.942 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 167884 + Specific Conductance (µS/cm, 75°C) = 167778 Density (g/cm³) = 1.34970 Volume (L) = 1.00613 - Viscosity (mPa s) = 6.01259 + Viscosity (mPa s) = 6.01743 Activity of water = 0.302 Ionic strength (mol/kgw) = 1.972e+01 Mass of water (kg) = 8.335e-01 @@ -6337,10 +6337,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.174e+01 1.736e+00 pH = 3.999 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 170849 + Specific Conductance (µS/cm, 75°C) = 170738 Density (g/cm³) = 1.34694 Volume (L) = 0.97889 - Viscosity (mPa s) = 5.83761 + Viscosity (mPa s) = 5.84242 Activity of water = 0.309 Ionic strength (mol/kgw) = 1.952e+01 Mass of water (kg) = 8.124e-01 @@ -6427,10 +6427,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.193e+01 1.931e+00 pH = 4.058 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 174028 + Specific Conductance (µS/cm, 75°C) = 173912 Density (g/cm³) = 1.34405 Volume (L) = 0.95178 - Viscosity (mPa s) = 5.65892 + Viscosity (mPa s) = 5.66370 Activity of water = 0.317 Ionic strength (mol/kgw) = 1.930e+01 Mass of water (kg) = 7.913e-01 @@ -6517,10 +6517,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.212e+01 2.125e+00 pH = 4.119 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 177441 + Specific Conductance (µS/cm, 75°C) = 177320 Density (g/cm³) = 1.34102 Volume (L) = 0.92484 - Viscosity (mPa s) = 5.47672 + Viscosity (mPa s) = 5.48146 Activity of water = 0.325 Ionic strength (mol/kgw) = 1.908e+01 Mass of water (kg) = 7.703e-01 @@ -6607,10 +6607,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.232e+01 2.318e+00 pH = 4.184 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 181110 + Specific Conductance (µS/cm, 75°C) = 180984 Density (g/cm³) = 1.33784 Volume (L) = 0.89809 - Viscosity (mPa s) = 5.29129 + Viscosity (mPa s) = 5.29600 Activity of water = 0.334 Ionic strength (mol/kgw) = 1.885e+01 Mass of water (kg) = 7.495e-01 @@ -6697,10 +6697,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.251e+01 2.510e+00 pH = 4.251 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 185062 + Specific Conductance (µS/cm, 75°C) = 184929 Density (g/cm³) = 1.33452 Volume (L) = 0.87159 - Viscosity (mPa s) = 5.10304 + Viscosity (mPa s) = 5.10771 Activity of water = 0.343 Ionic strength (mol/kgw) = 1.861e+01 Mass of water (kg) = 7.287e-01 @@ -6787,10 +6787,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.270e+01 2.700e+00 pH = 4.321 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 189322 + Specific Conductance (µS/cm, 75°C) = 189181 Density (g/cm³) = 1.33105 Volume (L) = 0.84539 - Viscosity (mPa s) = 4.91251 + Viscosity (mPa s) = 4.91715 Activity of water = 0.353 Ionic strength (mol/kgw) = 1.836e+01 Mass of water (kg) = 7.082e-01 @@ -6877,10 +6877,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.289e+01 2.888e+00 pH = 4.394 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 193917 + Specific Conductance (µS/cm, 75°C) = 193769 Density (g/cm³) = 1.32746 Volume (L) = 0.81955 - Viscosity (mPa s) = 4.72045 + Viscosity (mPa s) = 4.72504 Activity of water = 0.363 Ionic strength (mol/kgw) = 1.810e+01 Mass of water (kg) = 6.879e-01 @@ -6967,10 +6967,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.307e+01 3.073e+00 pH = 4.470 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 198878 + Specific Conductance (µS/cm, 75°C) = 198721 Density (g/cm³) = 1.32375 Volume (L) = 0.79417 - Viscosity (mPa s) = 4.52778 + Viscosity (mPa s) = 4.53232 Activity of water = 0.374 Ionic strength (mol/kgw) = 1.783e+01 Mass of water (kg) = 6.678e-01 @@ -7057,10 +7057,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.326e+01 3.255e+00 pH = 4.547 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 204231 + Specific Conductance (µS/cm, 75°C) = 204065 Density (g/cm³) = 1.31995 Volume (L) = 0.76936 - Viscosity (mPa s) = 4.33568 + Viscosity (mPa s) = 4.34017 Activity of water = 0.385 Ionic strength (mol/kgw) = 1.755e+01 Mass of water (kg) = 6.481e-01 @@ -7147,10 +7147,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.343e+01 3.434e+00 pH = 4.627 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 210002 + Specific Conductance (µS/cm, 75°C) = 209827 Density (g/cm³) = 1.31611 Volume (L) = 0.74524 - Viscosity (mPa s) = 4.14562 + Viscosity (mPa s) = 4.15005 Activity of water = 0.396 Ionic strength (mol/kgw) = 1.727e+01 Mass of water (kg) = 6.288e-01 @@ -7237,10 +7237,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.361e+01 3.608e+00 pH = 4.709 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 216214 + Specific Conductance (µS/cm, 75°C) = 216028 Density (g/cm³) = 1.31230 Volume (L) = 0.72195 - Viscosity (mPa s) = 3.95928 + Viscosity (mPa s) = 3.96366 Activity of water = 0.408 Ionic strength (mol/kgw) = 1.699e+01 Mass of water (kg) = 6.100e-01 @@ -7327,10 +7327,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.378e+01 3.776e+00 pH = 4.790 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 222882 + Specific Conductance (µS/cm, 75°C) = 222685 Density (g/cm³) = 1.30857 Volume (L) = 0.69967 - Viscosity (mPa s) = 3.77857 + Viscosity (mPa s) = 3.78288 Activity of water = 0.420 Ionic strength (mol/kgw) = 1.672e+01 Mass of water (kg) = 5.918e-01 @@ -7417,10 +7417,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.394e+01 3.938e+00 pH = 4.872 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 230013 + Specific Conductance (µS/cm, 75°C) = 229805 Density (g/cm³) = 1.30504 Volume (L) = 0.67855 - Viscosity (mPa s) = 3.60547 + Viscosity (mPa s) = 3.60970 Activity of water = 0.432 Ionic strength (mol/kgw) = 1.645e+01 Mass of water (kg) = 5.743e-01 @@ -7507,10 +7507,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.409e+01 4.092e+00 pH = 4.951 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 237604 + Specific Conductance (µS/cm, 75°C) = 237385 Density (g/cm³) = 1.30179 Volume (L) = 0.65875 - Viscosity (mPa s) = 3.44183 + Viscosity (mPa s) = 3.44598 Activity of water = 0.443 Ionic strength (mol/kgw) = 1.619e+01 Mass of water (kg) = 5.576e-01 @@ -7597,10 +7597,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.424e+01 4.239e+00 pH = 5.028 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 245646 + Specific Conductance (µS/cm, 75°C) = 245416 Density (g/cm³) = 1.29894 Volume (L) = 0.64038 - Viscosity (mPa s) = 3.28925 + Viscosity (mPa s) = 3.29331 Activity of water = 0.454 Ionic strength (mol/kgw) = 1.595e+01 Mass of water (kg) = 5.418e-01 @@ -7687,10 +7687,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.438e+01 4.376e+00 pH = 5.101 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 254121 + Specific Conductance (µS/cm, 75°C) = 253879 Density (g/cm³) = 1.29656 Volume (L) = 0.62352 - Viscosity (mPa s) = 3.14879 + Viscosity (mPa s) = 3.15277 Activity of water = 0.465 Ionic strength (mol/kgw) = 1.574e+01 Mass of water (kg) = 5.269e-01 @@ -7777,10 +7777,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.451e+01 4.506e+00 pH = 5.170 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 263004 + Specific Conductance (µS/cm, 75°C) = 262752 Density (g/cm³) = 1.29474 Volume (L) = 0.60818 - Viscosity (mPa s) = 3.02098 + Viscosity (mPa s) = 3.02486 Activity of water = 0.474 Ionic strength (mol/kgw) = 1.555e+01 Mass of water (kg) = 5.130e-01 @@ -7867,10 +7867,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.463e+01 4.627e+00 pH = 5.233 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 272272 + Specific Conductance (µS/cm, 75°C) = 272010 Density (g/cm³) = 1.29351 Volume (L) = 0.59432 - Viscosity (mPa s) = 2.90579 + Viscosity (mPa s) = 2.90957 Activity of water = 0.483 Ionic strength (mol/kgw) = 1.539e+01 Mass of water (kg) = 4.999e-01 @@ -7957,10 +7957,10 @@ Carnallite -0.00 4.36 4.36 1.000e+01 1.474e+01 4.739e+00 pH = 5.291 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 281897 + Specific Conductance (µS/cm, 75°C) = 281627 Density (g/cm³) = 1.29288 Volume (L) = 0.58187 - Viscosity (mPa s) = 2.80274 + Viscosity (mPa s) = 2.80643 Activity of water = 0.490 Ionic strength (mol/kgw) = 1.526e+01 Mass of water (kg) = 4.877e-01 @@ -8047,10 +8047,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.485e+01 4.845e+00 pH = 5.344 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 291852 + Specific Conductance (µS/cm, 75°C) = 291575 Density (g/cm³) = 1.29287 Volume (L) = 0.57072 - Viscosity (mPa s) = 2.71109 + Viscosity (mPa s) = 2.71468 Activity of water = 0.496 Ionic strength (mol/kgw) = 1.515e+01 Mass of water (kg) = 4.763e-01 @@ -8137,10 +8137,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.494e+01 4.944e+00 pH = 5.391 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 302107 + Specific Conductance (µS/cm, 75°C) = 301824 Density (g/cm³) = 1.29344 Volume (L) = 0.56076 - Viscosity (mPa s) = 2.62995 + Viscosity (mPa s) = 2.63344 Activity of water = 0.502 Ionic strength (mol/kgw) = 1.508e+01 Mass of water (kg) = 4.656e-01 @@ -8227,10 +8227,10 @@ Carnallite 0.00 4.36 4.36 1.000e+01 1.504e+01 5.037e+00 pH = 5.433 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 312630 + Specific Conductance (µS/cm, 75°C) = 312341 Density (g/cm³) = 1.29457 Volume (L) = 0.55188 - Viscosity (mPa s) = 2.55844 + Viscosity (mPa s) = 2.56183 Activity of water = 0.506 Ionic strength (mol/kgw) = 1.504e+01 Mass of water (kg) = 4.556e-01 diff --git a/mytest/Carnallite_101.sel b/mytest/Carnallite_101.sel index 3882b83b..6c6c66f6 100644 --- a/mytest/Carnallite_101.sel +++ b/mytest/Carnallite_101.sel @@ -1,92 +1,92 @@ Mu SC - 20.997696001322 61827.3284040575 - 20.845003389747 32416.4421125592 - 20.688919197878 32866.4861154536 - 20.525624646891 33344.8908562564 - 20.354609516949 33854.3408464793 - 20.175314615001 34397.8591981739 - 19.987125864366 34978.8606801859 - 19.789367561646 35601.2145691557 - 19.581294679630 36269.3193328819 - 19.362084110232 36988.1915314831 - 19.130824669516 37763.5720222566 - 18.886505857015 38602.0526069016 - 18.628005253281 39511.2279805372 - 18.354074747496 40499.8763319727 - 18.063325963482 41578.1745745325 - 17.754216074953 42757.9517250474 - 17.425036333854 44052.9829713937 - 17.073908404932 45479.3200533437 - 16.698798976366 47055.6444869386 - 16.297574358581 48803.5979619558 - 15.868140330269 50747.9992117095 - 15.408761719271 52916.7431152203 - 14.918755832842 55340.0036801468 - 14.399929989687 58048.0830177953 - 13.859327871393 61067.1073678988 - 13.313504848535 64412.6942519291 - 12.791997555680 68085.3998130103 - 12.332709209043 72075.5111939750 - 11.965427767556 76375.4507707355 - 11.698254051821 80982.7193366983 - 11.521309417128 85890.6789519685 - 20.852636823428 77151.5731961629 - 20.697198082563 78189.5015044214 - 20.534647318045 79292.2220413967 - 20.364494925271 80465.7818691189 - 20.186207728725 81716.9732719757 - 19.999204946608 83053.4457636598 - 19.802853828117 84483.8370202766 - 19.596465506528 86017.9260022563 - 19.379290856074 87666.8117261665 - 19.150517684728 89443.1210519297 - 18.909269602828 91361.2492151692 - 18.654608230698 93437.6307578118 - 18.385541894342 95691.0511769451 - 18.101045122699 98142.9706370117 - 17.800096061005 100817.8599413636 - 17.481745716307 103743.4892946587 - 17.145238938873 106951.0928773018 - 16.790220935724 110475.2453360531 - 16.417078776373 114353.1932411214 - 16.027479755634 118623.2380161629 - 15.625152803765 123321.6782727696 - 15.216840295605 128478.0249552346 - 14.813052717547 134109.0988126587 - 14.427800449871 140214.4522047687 - 14.076437635421 146776.8127381654 - 13.771946039205 153768.8644920149 - 13.521778041710 161162.0727317889 - 13.327268502028 168931.4134076923 - 13.185363309387 177054.6526845860 - 13.090958145293 185509.1257836399 - 20.923061498664 151734.0491208175 - 20.772524957615 153640.6420449847 - 20.615533250088 155661.9968855830 - 20.451717358720 157808.1916419509 - 20.280692590245 160090.4133837498 - 20.102061745918 162521.0890402403 - 19.915420887529 165114.0262329691 - 19.720367748937 167884.5614838323 - 19.516514694962 170849.7092653276 - 19.303507616622 174028.3028995388 - 19.081053254942 177441.1077912608 - 18.848957899245 181110.8840003475 - 18.607181453673 185062.3538798843 - 18.355910545773 189322.0216762093 - 18.095655510676 193917.7650672897 - 17.827371296465 198878.1093406961 - 17.552602120302 204231.0792955337 - 17.273624009162 210002.6074540659 - 16.993565692684 216214.4970368599 - 16.716439893829 222882.2247423416 - 16.447025364038 230013.0309734961 - 16.190553666178 237604.9096300237 - 15.952221038827 245646.9657887312 - 15.736629999897 254121.1602584884 - 15.547343123618 263004.6937093081 - 15.386655665736 272272.2888896089 - 15.255652379920 281897.3894942191 - 15.154445770678 291852.3169147387 - 15.082498340819 302107.5081658104 - 15.038926397589 312630.3164908527 + 20.997696001322 61827.3320105789 + 20.845003389747 32421.2653484350 + 20.688919197878 32871.4709438112 + 20.525624646891 33350.0511455348 + 20.354609516949 33859.6922013965 + 20.175314615001 34403.4192452837 + 19.987125864366 34984.6494116480 + 19.789367561646 35607.2547588623 + 19.581294679630 36275.6370430660 + 19.362084110232 36994.8167331003 + 19.130824669516 37770.5393594370 + 18.886505857015 38609.4023445995 + 18.628005253281 39519.0071869790 + 18.354074747496 40508.1403627077 + 18.063325963482 41586.9889461421 + 17.754216074953 42767.3944922918 + 17.425036333854 44063.1477534703 + 17.073908404932 45490.3198879701 + 16.698798976366 47067.6167160537 + 16.297574358581 48816.7103305803 + 15.868140330269 50762.4572099125 + 15.408761719271 52932.7980754420 + 14.918755832842 55357.9597344471 + 14.399929989687 58068.2975861864 + 13.859327871393 61089.9727891028 + 13.313504848535 64438.5788692508 + 12.791997555680 68114.5329293647 + 12.332709209043 72107.8562798970 + 11.965427767556 76410.6878926740 + 11.698254051821 81020.3780284365 + 11.521309417128 85930.2965960985 + 20.852636823428 77145.3551451443 + 20.697198082563 78183.0814484668 + 20.534647318045 79285.5830154436 + 20.364494925271 80458.9048434383 + 20.186207728725 81709.8368261353 + 19.999204946608 83046.0256983285 + 19.802853828117 84476.1058931148 + 19.596465506528 86009.8525715663 + 19.379290856074 87658.3602815940 + 19.150517684728 89434.2506086050 + 18.909269602828 91351.9125424480 + 18.654608230698 93427.7732112749 + 18.385541894342 95680.6092992364 + 18.101045122699 98131.8705033076 + 17.800096061005 100806.0152390838 + 17.481745716307 103730.7991827471 + 17.145238938873 106937.4397750796 + 16.790220935724 110460.4930142887 + 16.417078776373 114337.1859984800 + 16.027479755634 118605.8024247216 + 15.625152803765 123302.6299674760 + 15.216840295605 128457.1837486995 + 14.813052717547 134086.3145535980 + 14.427800449871 140189.6386390264 + 14.076437635421 146749.9771437958 + 13.771946039205 153740.1154898486 + 13.521778041710 161131.5988321952 + 13.327268502028 168899.4441880928 + 13.185363309387 177021.4221548329 + 13.090958145293 185474.8491969211 + 20.923061498664 151650.3352083545 + 20.772524957615 153554.4089603793 + 20.615533250088 155573.0483873787 + 20.451717358720 157716.3102599813 + 20.280692590245 159995.3576909732 + 20.102061745918 162422.5905812517 + 19.915420887529 165011.7861069059 + 19.720367748937 167778.2465894400 + 19.516514694962 170738.9482701242 + 19.303507616622 173912.6820590484 + 19.081053254942 177320.1668669269 + 18.848957899245 180984.1126973098 + 18.607181453673 184929.1895078908 + 18.355910545773 189181.8491045668 + 18.095655510676 193769.9205808605 + 17.827371296465 198721.8905627908 + 17.552602120302 204065.7639918265 + 17.273624009162 209827.4838548363 + 16.993565692684 216028.9078326969 + 16.716439893829 222685.6238411081 + 16.447025364038 229805.0475217548 + 16.190553666178 237385.4080265462 + 15.952221038827 245416.0867268317 + 15.736629999897 253879.3296275477 + 15.547343123618 262752.5956918983 + 15.386655665736 272010.8098492887 + 15.255652379920 281627.5487019157 + 15.154445770678 291575.1993967644 + 15.082498340819 301824.2107521300 + 15.038926397589 312341.9111844589 diff --git a/mytest/DanPhuong.out b/mytest/DanPhuong.out index c293430f..fcb3a0a4 100644 --- a/mytest/DanPhuong.out +++ b/mytest/DanPhuong.out @@ -525,6 +525,12 @@ WARNING: Numerical method failed with this set of convergence parameters. WARNING: Trying reduced tolerance 1e-16 ... +WARNING: Maximum iterations exceeded, 200 + +WARNING: Numerical method failed with this set of convergence parameters. + +WARNING: Trying increased tolerance 1e-14 ... + WARNING: Maximum iterations exceeded, 100 WARNING: Numerical method failed with this set of convergence parameters. @@ -629,9 +635,3 @@ WARNING: Trying smaller step size, pe step size 10, 5 ... WARNING: Maximum iterations exceeded, 200 -WARNING: Numerical method failed with this set of convergence parameters. - -WARNING: Trying reduced tolerance 1e-16 ... - -WARNING: Maximum iterations exceeded, 100 - diff --git a/mytest/DanPhuong_101.sel b/mytest/DanPhuong_101.sel index cbebec96..cd53fbed 100644 --- a/mytest/DanPhuong_101.sel +++ b/mytest/DanPhuong_101.sel @@ -28,13 +28,13 @@ 0.002854809488 0.0000000000 0.011955649450 0.0000000000 0.011885804819 0.0000000000 - 0.008233972570 0.0000000000 - 0.005107113769 0.0000000000 - 0.003971160740 0.0000000000 + 0.008233971692 0.0000000000 + 0.005107113710 0.0000000000 + 0.003971160744 0.0000000000 0.003925967090 0.0000000000 0.003907240747 0.0000000000 0.003895766582 0.0000000000 - 0.003886552126 0.0000000000 + 0.003886552128 0.0000000000 0.003858170111 0.0000000000 0.003598706960 0.0000000000 0.002263271496 0.0000000000 @@ -50,23 +50,23 @@ 0.002854809488 0.0000000000 0.011955649450 0.0000000000 0.011885804819 0.0000000000 - 0.008233972575 0.0000000000 - 0.005107113770 0.0000000000 - 0.003971160749 0.0000000000 - 0.003925967107 0.0000000000 - 0.003907241696 0.0000000000 - 0.003895807248 0.0000000000 + 0.008233972560 0.0000000000 + 0.005107113767 0.0000000000 + 0.003971160746 0.0000000000 + 0.003925967106 0.0000000000 + 0.003907241695 0.0000000000 + 0.003895807247 0.0000000000 0.003887752906 0.0000000000 0.003881640146 0.0000000000 0.003876785043 0.0000000000 0.003872810091 0.0000000000 - 0.003869485311 0.0000000000 - 0.003866660379 0.0000000000 - 0.003864231649 0.0000000000 - 0.003862122948 0.0000000000 + 0.003869485312 0.0000000000 + 0.003866660382 0.0000000000 + 0.003864231654 0.0000000000 + 0.003862122949 0.0000000000 0.003860242762 0.0000000000 - 0.003857984483 0.0000000000 - 0.003848793696 0.0000000000 - 0.003780695549 0.0000000000 + 0.003857984484 0.0000000000 + 0.003848793698 0.0000000000 + 0.003780695550 0.0000000000 0.003430662984 0.0000000000 0.002854809488 0.0000000000 diff --git a/mytest/DonnanBug_101.sel b/mytest/DonnanBug_101.sel index 56adf930..afcd8d9a 100644 --- a/mytest/DonnanBug_101.sel +++ b/mytest/DonnanBug_101.sel @@ -1,6 +1,6 @@ Mu SC 0.000000100645 0.0546914008 0.000000100645 0.0546914008 - 0.666666809863 59616.3262380188 - 1.333333484100 106701.2739029749 - 2.000000155450 145262.4659793576 + 0.666666809863 59616.3317215554 + 1.333333484100 106701.2869411892 + 2.000000155450 145262.4862808046 diff --git a/mytest/Equiv_Conduct.out b/mytest/Equiv_Conduct.out index e3b19371..ff03e9a0 100644 --- a/mytest/Equiv_Conduct.out +++ b/mytest/Equiv_Conduct.out @@ -4106,7 +4106,7 @@ Initial solution 10. Specific Conductance (µS/cm, 25°C) = 971 Density (g/cm³) = 0.99738 Volume (L) = 1.00303 - Viscosity (mPa s) = 0.89300 + Viscosity (mPa s) = 0.89299 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.262e-02 Mass of water (kg) = 1.000e+00 @@ -7735,7 +7735,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 4316 Density (g/cm³) = 1.00187 Volume (L) = 1.00317 - Viscosity (mPa s) = 1.02414 + Viscosity (mPa s) = 1.02411 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.109e-02 Mass of water (kg) = 1.000e+00 @@ -7796,7 +7796,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 8155 Density (g/cm³) = 1.00548 Volume (L) = 1.00459 - Viscosity (mPa s) = 1.04522 + Viscosity (mPa s) = 1.04517 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.226e-01 Mass of water (kg) = 1.000e+00 @@ -7854,10 +7854,10 @@ Initial solution 3. pH = 8.024 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 11701 + Specific Conductance (µS/cm, 20°C) = 11702 Density (g/cm³) = 1.00906 Volume (L) = 1.00604 - Viscosity (mPa s) = 1.06576 + Viscosity (mPa s) = 1.06570 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.842e-01 Mass of water (kg) = 1.000e+00 @@ -7915,10 +7915,10 @@ Initial solution 4. pH = 7.987 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 15078 + Specific Conductance (µS/cm, 20°C) = 15079 Density (g/cm³) = 1.01267 Volume (L) = 1.00755 - Viscosity (mPa s) = 1.08625 + Viscosity (mPa s) = 1.08618 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.471e-01 Mass of water (kg) = 1.000e+00 @@ -7976,10 +7976,10 @@ Initial solution 5. pH = 7.955 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 18265 + Specific Conductance (µS/cm, 20°C) = 18267 Density (g/cm³) = 1.01626 Volume (L) = 1.00910 - Viscosity (mPa s) = 1.10644 + Viscosity (mPa s) = 1.10636 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.102e-01 Mass of water (kg) = 1.000e+00 @@ -8037,10 +8037,10 @@ Initial solution 6. pH = 7.928 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 21326 + Specific Conductance (µS/cm, 20°C) = 21328 Density (g/cm³) = 1.01988 Volume (L) = 1.01070 - Viscosity (mPa s) = 1.12661 + Viscosity (mPa s) = 1.12653 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.745e-01 Mass of water (kg) = 1.000e+00 @@ -8098,10 +8098,10 @@ Initial solution 7. pH = 7.903 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 24237 + Specific Conductance (µS/cm, 20°C) = 24239 Density (g/cm³) = 1.02348 Volume (L) = 1.01232 - Viscosity (mPa s) = 1.14654 + Viscosity (mPa s) = 1.14645 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.391e-01 Mass of water (kg) = 1.000e+00 @@ -8159,10 +8159,10 @@ Initial solution 8. pH = 7.880 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 27050 + Specific Conductance (µS/cm, 20°C) = 27052 Density (g/cm³) = 1.02711 Volume (L) = 1.01400 - Viscosity (mPa s) = 1.16652 + Viscosity (mPa s) = 1.16642 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.049e-01 Mass of water (kg) = 1.000e+00 @@ -8220,10 +8220,10 @@ Initial solution 9. pH = 7.858 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 29733 + Specific Conductance (µS/cm, 20°C) = 29735 Density (g/cm³) = 1.03072 Volume (L) = 1.01571 - Viscosity (mPa s) = 1.18624 + Viscosity (mPa s) = 1.18613 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.709e-01 Mass of water (kg) = 1.000e+00 @@ -8281,10 +8281,10 @@ Initial solution 10. pH = 7.838 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32300 + Specific Conductance (µS/cm, 20°C) = 32303 Density (g/cm³) = 1.03432 Volume (L) = 1.01745 - Viscosity (mPa s) = 1.20574 + Viscosity (mPa s) = 1.20563 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.372e-01 Mass of water (kg) = 1.000e+00 @@ -8342,10 +8342,10 @@ Initial solution 11. pH = 7.819 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 34797 + Specific Conductance (µS/cm, 20°C) = 34800 Density (g/cm³) = 1.03795 Volume (L) = 1.01924 - Viscosity (mPa s) = 1.22534 + Viscosity (mPa s) = 1.22522 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.048e-01 Mass of water (kg) = 1.000e+00 @@ -8403,10 +8403,10 @@ Initial solution 12. pH = 7.800 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37188 + Specific Conductance (µS/cm, 20°C) = 37192 Density (g/cm³) = 1.04156 Volume (L) = 1.02106 - Viscosity (mPa s) = 1.24470 + Viscosity (mPa s) = 1.24458 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.726e-01 Mass of water (kg) = 1.000e+00 @@ -8517,10 +8517,10 @@ Initial solution 1. pH = 11.336 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 7354 + Specific Conductance (µS/cm, 20°C) = 7355 Density (g/cm³) = 1.00344 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.03033 + Viscosity (mPa s) = 1.03025 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.393e-01 Mass of water (kg) = 1.000e+00 @@ -8581,7 +8581,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 13320 Density (g/cm³) = 1.00868 Volume (L) = 1.00143 - Viscosity (mPa s) = 1.05875 + Viscosity (mPa s) = 1.05863 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.824e-01 Mass of water (kg) = 1.000e+00 @@ -8639,10 +8639,10 @@ Initial solution 3. pH = 11.496 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 18648 + Specific Conductance (µS/cm, 20°C) = 18649 Density (g/cm³) = 1.01385 Volume (L) = 1.00134 - Viscosity (mPa s) = 1.08844 + Viscosity (mPa s) = 1.08830 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.259e-01 Mass of water (kg) = 1.000e+00 @@ -8700,10 +8700,10 @@ Initial solution 4. pH = 11.600 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23693 + Specific Conductance (µS/cm, 20°C) = 23695 Density (g/cm³) = 1.01912 Volume (L) = 1.00130 - Viscosity (mPa s) = 1.12038 + Viscosity (mPa s) = 1.12021 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.740e-01 Mass of water (kg) = 1.000e+00 @@ -8761,10 +8761,10 @@ Initial solution 5. pH = 11.629 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 28374 + Specific Conductance (µS/cm, 20°C) = 28376 Density (g/cm³) = 1.02439 Volume (L) = 1.00133 - Viscosity (mPa s) = 1.15444 + Viscosity (mPa s) = 1.15425 Activity of water = 0.990 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -8822,10 +8822,10 @@ Initial solution 6. pH = 11.652 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32647 + Specific Conductance (µS/cm, 20°C) = 32651 Density (g/cm³) = 1.02951 Volume (L) = 1.00140 - Viscosity (mPa s) = 1.18936 + Viscosity (mPa s) = 1.18916 Activity of water = 0.988 Ionic strength (mol/kgw) = 8.704e-01 Mass of water (kg) = 1.000e+00 @@ -8883,10 +8883,10 @@ Initial solution 7. pH = 11.573 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 36750 + Specific Conductance (µS/cm, 20°C) = 36753 Density (g/cm³) = 1.03480 Volume (L) = 1.00155 - Viscosity (mPa s) = 1.22779 + Viscosity (mPa s) = 1.22757 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.023e+00 Mass of water (kg) = 1.000e+00 @@ -8944,10 +8944,10 @@ Initial solution 8. pH = 11.644 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 40638 + Specific Conductance (µS/cm, 20°C) = 40642 Density (g/cm³) = 1.03997 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.26681 + Viscosity (mPa s) = 1.26658 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.174e+00 Mass of water (kg) = 1.000e+00 @@ -9005,10 +9005,10 @@ Initial solution 9. pH = 11.664 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44367 + Specific Conductance (µS/cm, 20°C) = 44372 Density (g/cm³) = 1.04525 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.30897 + Viscosity (mPa s) = 1.30872 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.330e+00 Mass of water (kg) = 1.000e+00 @@ -9066,10 +9066,10 @@ Initial solution 10. pH = 11.725 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 47866 + Specific Conductance (µS/cm, 20°C) = 47871 Density (g/cm³) = 1.05043 Volume (L) = 1.00215 - Viscosity (mPa s) = 1.35227 + Viscosity (mPa s) = 1.35200 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.485e+00 Mass of water (kg) = 1.000e+00 @@ -9127,10 +9127,10 @@ Initial solution 11. pH = 11.698 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51218 + Specific Conductance (µS/cm, 20°C) = 51224 Density (g/cm³) = 1.05578 Volume (L) = 1.00247 - Viscosity (mPa s) = 1.39953 + Viscosity (mPa s) = 1.39925 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.645e+00 Mass of water (kg) = 1.000e+00 @@ -9188,10 +9188,10 @@ Initial solution 12. pH = 11.548 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 54090 + Specific Conductance (µS/cm, 20°C) = 54096 Density (g/cm³) = 1.06075 Volume (L) = 1.00286 - Viscosity (mPa s) = 1.44618 + Viscosity (mPa s) = 1.44589 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.794e+00 Mass of water (kg) = 1.000e+00 @@ -9249,10 +9249,10 @@ Initial solution 13. pH = 11.646 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57207 + Specific Conductance (µS/cm, 20°C) = 57213 Density (g/cm³) = 1.06614 Volume (L) = 1.00321 - Viscosity (mPa s) = 1.49790 + Viscosity (mPa s) = 1.49759 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.960e+00 Mass of water (kg) = 1.000e+00 @@ -9310,10 +9310,10 @@ Initial solution 14. pH = 11.742 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 60137 + Specific Conductance (µS/cm, 20°C) = 60143 Density (g/cm³) = 1.07148 Volume (L) = 1.00361 - Viscosity (mPa s) = 1.55178 + Viscosity (mPa s) = 1.55146 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.125e+00 Mass of water (kg) = 1.000e+00 @@ -9371,10 +9371,10 @@ Initial solution 15. pH = 11.678 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 62776 + Specific Conductance (µS/cm, 20°C) = 62784 Density (g/cm³) = 1.07679 Volume (L) = 1.00412 - Viscosity (mPa s) = 1.60859 + Viscosity (mPa s) = 1.60826 Activity of water = 0.972 Ionic strength (mol/kgw) = 2.289e+00 Mass of water (kg) = 1.000e+00 @@ -9432,10 +9432,10 @@ Initial solution 16. pH = 11.769 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 65351 + Specific Conductance (µS/cm, 20°C) = 65359 Density (g/cm³) = 1.08204 Volume (L) = 1.00460 - Viscosity (mPa s) = 1.66672 + Viscosity (mPa s) = 1.66638 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.454e+00 Mass of water (kg) = 1.000e+00 @@ -9493,10 +9493,10 @@ Initial solution 17. pH = 11.633 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 67612 + Specific Conductance (µS/cm, 20°C) = 67619 Density (g/cm³) = 1.08727 Volume (L) = 1.00521 - Viscosity (mPa s) = 1.72822 + Viscosity (mPa s) = 1.72787 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.619e+00 Mass of water (kg) = 1.000e+00 @@ -9554,10 +9554,10 @@ Initial solution 18. pH = 11.940 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70236 + Specific Conductance (µS/cm, 20°C) = 70244 Density (g/cm³) = 1.09286 Volume (L) = 1.00573 - Viscosity (mPa s) = 1.79555 + Viscosity (mPa s) = 1.79518 Activity of water = 0.966 Ionic strength (mol/kgw) = 2.799e+00 Mass of water (kg) = 1.000e+00 @@ -9615,10 +9615,10 @@ Initial solution 19. pH = 11.733 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 72110 + Specific Conductance (µS/cm, 20°C) = 72118 Density (g/cm³) = 1.09801 Volume (L) = 1.00644 - Viscosity (mPa s) = 1.86174 + Viscosity (mPa s) = 1.86137 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -9676,10 +9676,10 @@ Initial solution 20. pH = 11.819 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 74245 + Specific Conductance (µS/cm, 20°C) = 74253 Density (g/cm³) = 1.10353 Volume (L) = 1.00713 - Viscosity (mPa s) = 1.93517 + Viscosity (mPa s) = 1.93478 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.144e+00 Mass of water (kg) = 1.000e+00 @@ -9737,10 +9737,10 @@ Initial solution 21. pH = 11.517 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 77620 + Specific Conductance (µS/cm, 20°C) = 77628 Density (g/cm³) = 1.11403 Volume (L) = 1.00881 - Viscosity (mPa s) = 2.08602 + Viscosity (mPa s) = 2.08561 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.487e+00 Mass of water (kg) = 1.000e+00 @@ -9798,10 +9798,10 @@ Initial solution 22. pH = 11.545 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 80833 + Specific Conductance (µS/cm, 20°C) = 80841 Density (g/cm³) = 1.12474 Volume (L) = 1.01051 - Viscosity (mPa s) = 2.25213 + Viscosity (mPa s) = 2.25170 Activity of water = 0.955 Ionic strength (mol/kgw) = 3.847e+00 Mass of water (kg) = 1.000e+00 @@ -9859,10 +9859,10 @@ Initial solution 23. pH = 11.887 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 83870 + Specific Conductance (µS/cm, 20°C) = 83878 Density (g/cm³) = 1.13563 Volume (L) = 1.01226 - Viscosity (mPa s) = 2.43588 + Viscosity (mPa s) = 2.43543 Activity of water = 0.951 Ionic strength (mol/kgw) = 4.224e+00 Mass of water (kg) = 1.000e+00 @@ -9920,10 +9920,10 @@ Initial solution 24. pH = 11.909 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 86342 + Specific Conductance (µS/cm, 20°C) = 86351 Density (g/cm³) = 1.14677 Volume (L) = 1.01445 - Viscosity (mPa s) = 2.64216 + Viscosity (mPa s) = 2.64169 Activity of water = 0.947 Ionic strength (mol/kgw) = 4.614e+00 Mass of water (kg) = 1.000e+00 @@ -9981,10 +9981,10 @@ Initial solution 25. pH = 11.931 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 88385 + Specific Conductance (µS/cm, 20°C) = 88394 Density (g/cm³) = 1.15767 Volume (L) = 1.01680 - Viscosity (mPa s) = 2.86255 + Viscosity (mPa s) = 2.86206 Activity of water = 0.942 Ionic strength (mol/kgw) = 5.003e+00 Mass of water (kg) = 1.000e+00 @@ -10092,7 +10092,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 4702 Density (g/cm³) = 1.00154 Volume (L) = 1.00347 - Viscosity (mPa s) = 1.01743 + Viscosity (mPa s) = 1.01741 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.077e-02 Mass of water (kg) = 1.000e+00 @@ -10151,7 +10151,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 9042 Density (g/cm³) = 1.00485 Volume (L) = 1.00517 - Viscosity (mPa s) = 1.03216 + Viscosity (mPa s) = 1.03212 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.018e-01 Mass of water (kg) = 1.000e+00 @@ -10207,10 +10207,10 @@ Initial solution 3. pH = 8.075 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 17329 + Specific Conductance (µS/cm, 20°C) = 17330 Density (g/cm³) = 1.01153 Volume (L) = 1.00872 - Viscosity (mPa s) = 1.06129 + Viscosity (mPa s) = 1.06124 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.065e-01 Mass of water (kg) = 1.000e+00 @@ -10266,10 +10266,10 @@ Initial solution 4. pH = 8.031 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25138 + Specific Conductance (µS/cm, 20°C) = 25139 Density (g/cm³) = 1.01821 Volume (L) = 1.01241 - Viscosity (mPa s) = 1.08983 + Viscosity (mPa s) = 1.08977 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.131e-01 Mass of water (kg) = 1.000e+00 @@ -10325,10 +10325,10 @@ Initial solution 5. pH = 7.997 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32591 + Specific Conductance (µS/cm, 20°C) = 32592 Density (g/cm³) = 1.02488 Volume (L) = 1.01622 - Viscosity (mPa s) = 1.11799 + Viscosity (mPa s) = 1.11791 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.217e-01 Mass of water (kg) = 1.000e+00 @@ -10384,10 +10384,10 @@ Initial solution 6. pH = 7.968 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 39801 + Specific Conductance (µS/cm, 20°C) = 39803 Density (g/cm³) = 1.03162 Volume (L) = 1.02020 - Viscosity (mPa s) = 1.14604 + Viscosity (mPa s) = 1.14596 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.331e-01 Mass of water (kg) = 1.000e+00 @@ -10443,10 +10443,10 @@ Initial solution 7. pH = 7.943 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46756 + Specific Conductance (µS/cm, 20°C) = 46758 Density (g/cm³) = 1.03837 Volume (L) = 1.02432 - Viscosity (mPa s) = 1.17384 + Viscosity (mPa s) = 1.17376 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.467e-01 Mass of water (kg) = 1.000e+00 @@ -10502,10 +10502,10 @@ Initial solution 8. pH = 7.921 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 53474 + Specific Conductance (µS/cm, 20°C) = 53477 Density (g/cm³) = 1.04512 Volume (L) = 1.02857 - Viscosity (mPa s) = 1.20137 + Viscosity (mPa s) = 1.20128 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.624e-01 Mass of water (kg) = 1.000e+00 @@ -10561,10 +10561,10 @@ Initial solution 9. pH = 7.900 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 60043 + Specific Conductance (µS/cm, 20°C) = 60046 Density (g/cm³) = 1.05195 Volume (L) = 1.03300 - Viscosity (mPa s) = 1.22892 + Viscosity (mPa s) = 1.22882 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.813e-01 Mass of water (kg) = 1.000e+00 @@ -10620,10 +10620,10 @@ Initial solution 10. pH = 7.880 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 66406 + Specific Conductance (µS/cm, 20°C) = 66409 Density (g/cm³) = 1.05877 Volume (L) = 1.03756 - Viscosity (mPa s) = 1.25618 + Viscosity (mPa s) = 1.25607 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.002e+00 Mass of water (kg) = 1.000e+00 @@ -10679,10 +10679,10 @@ Initial solution 11. pH = 7.862 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 72676 + Specific Conductance (µS/cm, 20°C) = 72680 Density (g/cm³) = 1.06570 Volume (L) = 1.04233 - Viscosity (mPa s) = 1.28358 + Viscosity (mPa s) = 1.28347 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.127e+00 Mass of water (kg) = 1.000e+00 @@ -10738,10 +10738,10 @@ Initial solution 12. pH = 7.828 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 84661 + Specific Conductance (µS/cm, 20°C) = 84666 Density (g/cm³) = 1.07951 Volume (L) = 1.05230 - Viscosity (mPa s) = 1.33738 + Viscosity (mPa s) = 1.33725 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.384e+00 Mass of water (kg) = 1.000e+00 @@ -10797,10 +10797,10 @@ Initial solution 13. pH = 7.797 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 96136 + Specific Conductance (µS/cm, 20°C) = 96142 Density (g/cm³) = 1.09344 Volume (L) = 1.06299 - Viscosity (mPa s) = 1.39050 + Viscosity (mPa s) = 1.39036 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.652e+00 Mass of water (kg) = 1.000e+00 @@ -10856,10 +10856,10 @@ Initial solution 14. pH = 7.768 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 107236 + Specific Conductance (µS/cm, 20°C) = 107242 Density (g/cm³) = 1.10759 Volume (L) = 1.07456 - Viscosity (mPa s) = 1.44315 + Viscosity (mPa s) = 1.44300 Activity of water = 0.944 Ionic strength (mol/kgw) = 1.935e+00 Mass of water (kg) = 1.000e+00 @@ -10915,10 +10915,10 @@ Initial solution 15. pH = 7.741 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 117912 + Specific Conductance (µS/cm, 20°C) = 117918 Density (g/cm³) = 1.12183 Volume (L) = 1.08700 - Viscosity (mPa s) = 1.49468 + Viscosity (mPa s) = 1.49452 Activity of water = 0.936 Ionic strength (mol/kgw) = 2.233e+00 Mass of water (kg) = 1.000e+00 @@ -10974,10 +10974,10 @@ Initial solution 16. pH = 7.715 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 128290 + Specific Conductance (µS/cm, 20°C) = 128298 Density (g/cm³) = 1.13628 Volume (L) = 1.10050 - Viscosity (mPa s) = 1.54524 + Viscosity (mPa s) = 1.54506 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.549e+00 Mass of water (kg) = 1.000e+00 @@ -11033,10 +11033,10 @@ Initial solution 17. pH = 7.691 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 138340 + Specific Conductance (µS/cm, 20°C) = 138349 Density (g/cm³) = 1.15084 Volume (L) = 1.11513 - Viscosity (mPa s) = 1.59410 + Viscosity (mPa s) = 1.59392 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.882e+00 Mass of water (kg) = 1.000e+00 @@ -11092,10 +11092,10 @@ Initial solution 18. pH = 7.667 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 148092 + Specific Conductance (µS/cm, 20°C) = 148101 Density (g/cm³) = 1.16550 Volume (L) = 1.13101 - Viscosity (mPa s) = 1.64076 + Viscosity (mPa s) = 1.64056 Activity of water = 0.912 Ionic strength (mol/kgw) = 3.236e+00 Mass of water (kg) = 1.000e+00 @@ -11200,7 +11200,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 7361 Density (g/cm³) = 1.00264 Volume (L) = 1.00238 - Viscosity (mPa s) = 1.01210 + Viscosity (mPa s) = 1.01204 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.064e-01 Mass of water (kg) = 1.000e+00 @@ -11256,10 +11256,10 @@ Initial solution 2. pH = 11.408 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 13766 + Specific Conductance (µS/cm, 20°C) = 13767 Density (g/cm³) = 1.00711 Volume (L) = 1.00301 - Viscosity (mPa s) = 1.02086 + Viscosity (mPa s) = 1.02077 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.165e-01 Mass of water (kg) = 1.000e+00 @@ -11315,10 +11315,10 @@ Initial solution 3. pH = 11.489 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25497 + Specific Conductance (µS/cm, 20°C) = 25498 Density (g/cm³) = 1.01601 Volume (L) = 1.00439 - Viscosity (mPa s) = 1.03863 + Viscosity (mPa s) = 1.03850 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.392e-01 Mass of water (kg) = 1.000e+00 @@ -11374,10 +11374,10 @@ Initial solution 4. pH = 11.683 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 36753 + Specific Conductance (µS/cm, 20°C) = 36754 Density (g/cm³) = 1.02501 Volume (L) = 1.00591 - Viscosity (mPa s) = 1.05706 + Viscosity (mPa s) = 1.05691 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.696e-01 Mass of water (kg) = 1.000e+00 @@ -11433,10 +11433,10 @@ Initial solution 5. pH = 11.681 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 47225 + Specific Conductance (µS/cm, 20°C) = 47227 Density (g/cm³) = 1.03383 Volume (L) = 1.00759 - Viscosity (mPa s) = 1.07769 + Viscosity (mPa s) = 1.07751 Activity of water = 0.987 Ionic strength (mol/kgw) = 8.987e-01 Mass of water (kg) = 1.000e+00 @@ -11492,10 +11492,10 @@ Initial solution 6. pH = 11.775 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57792 + Specific Conductance (µS/cm, 20°C) = 57795 Density (g/cm³) = 1.04294 Volume (L) = 1.00944 - Viscosity (mPa s) = 1.10016 + Viscosity (mPa s) = 1.09996 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.140e+00 Mass of water (kg) = 1.000e+00 @@ -11551,10 +11551,10 @@ Initial solution 7. pH = 11.771 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 67850 + Specific Conductance (µS/cm, 20°C) = 67854 Density (g/cm³) = 1.05191 Volume (L) = 1.01144 - Viscosity (mPa s) = 1.12486 + Viscosity (mPa s) = 1.12464 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.381e+00 Mass of water (kg) = 1.000e+00 @@ -11610,10 +11610,10 @@ Initial solution 8. pH = 11.810 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 77838 + Specific Conductance (µS/cm, 20°C) = 77842 Density (g/cm³) = 1.06099 Volume (L) = 1.01359 - Viscosity (mPa s) = 1.15164 + Viscosity (mPa s) = 1.15140 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.630e+00 Mass of water (kg) = 1.000e+00 @@ -11669,10 +11669,10 @@ Initial solution 9. pH = 11.848 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 87666 + Specific Conductance (µS/cm, 20°C) = 87671 Density (g/cm³) = 1.07014 Volume (L) = 1.01592 - Viscosity (mPa s) = 1.18086 + Viscosity (mPa s) = 1.18060 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.885e+00 Mass of water (kg) = 1.000e+00 @@ -11728,10 +11728,10 @@ Initial solution 10. pH = 11.731 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 96993 + Specific Conductance (µS/cm, 20°C) = 96999 Density (g/cm³) = 1.07914 Volume (L) = 1.01842 - Viscosity (mPa s) = 1.21366 + Viscosity (mPa s) = 1.21338 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.139e+00 Mass of water (kg) = 1.000e+00 @@ -11787,10 +11787,10 @@ Initial solution 11. pH = 11.920 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 106721 + Specific Conductance (µS/cm, 20°C) = 106728 Density (g/cm³) = 1.08845 Volume (L) = 1.02105 - Viscosity (mPa s) = 1.24686 + Viscosity (mPa s) = 1.24656 Activity of water = 0.966 Ionic strength (mol/kgw) = 2.409e+00 Mass of water (kg) = 1.000e+00 @@ -11846,10 +11846,10 @@ Initial solution 12. pH = 12.131 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 125404 + Specific Conductance (µS/cm, 20°C) = 125412 Density (g/cm³) = 1.10706 Volume (L) = 1.02691 - Viscosity (mPa s) = 1.32434 + Viscosity (mPa s) = 1.32402 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -11905,10 +11905,10 @@ Initial solution 13. pH = 12.061 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 142679 + Specific Conductance (µS/cm, 20°C) = 142689 Density (g/cm³) = 1.12545 Volume (L) = 1.03354 - Viscosity (mPa s) = 1.41605 + Viscosity (mPa s) = 1.41569 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.534e+00 Mass of water (kg) = 1.000e+00 @@ -11964,10 +11964,10 @@ Initial solution 14. pH = 12.441 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 160114 + Specific Conductance (µS/cm, 20°C) = 160125 Density (g/cm³) = 1.14434 Volume (L) = 1.04108 - Viscosity (mPa s) = 1.52363 + Viscosity (mPa s) = 1.52325 Activity of water = 0.939 Ionic strength (mol/kgw) = 4.147e+00 Mass of water (kg) = 1.000e+00 @@ -12023,10 +12023,10 @@ Initial solution 15. pH = 12.209 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 175789 + Specific Conductance (µS/cm, 20°C) = 175801 Density (g/cm³) = 1.16332 Volume (L) = 1.04980 - Viscosity (mPa s) = 1.65369 + Viscosity (mPa s) = 1.65328 Activity of water = 0.928 Ionic strength (mol/kgw) = 4.793e+00 Mass of water (kg) = 1.000e+00 @@ -12082,10 +12082,10 @@ Initial solution 16. pH = 12.581 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 191038 + Specific Conductance (µS/cm, 20°C) = 191050 Density (g/cm³) = 1.18202 Volume (L) = 1.05934 - Viscosity (mPa s) = 1.80185 + Viscosity (mPa s) = 1.80141 Activity of water = 0.916 Ionic strength (mol/kgw) = 5.467e+00 Mass of water (kg) = 1.000e+00 @@ -12141,10 +12141,10 @@ Initial solution 17. pH = 12.163 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 216676 + Specific Conductance (µS/cm, 20°C) = 216688 Density (g/cm³) = 1.21937 Volume (L) = 1.08279 - Viscosity (mPa s) = 2.19268 + Viscosity (mPa s) = 2.19218 Activity of water = 0.888 Ionic strength (mol/kgw) = 6.936e+00 Mass of water (kg) = 1.000e+00 @@ -13962,10 +13962,10 @@ Initial solution 2. pH = 4.939 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 11435 + Specific Conductance (µS/cm, 20°C) = 11436 Density (g/cm³) = 1.00633 Volume (L) = 1.00379 - Viscosity (mPa s) = 1.01080 + Viscosity (mPa s) = 1.01072 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.746e-01 Mass of water (kg) = 1.000e+00 @@ -14019,10 +14019,10 @@ Initial solution 3. pH = 5.020 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16328 + Specific Conductance (µS/cm, 20°C) = 16329 Density (g/cm³) = 1.01034 Volume (L) = 1.00484 - Viscosity (mPa s) = 1.01435 + Viscosity (mPa s) = 1.01426 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.622e-01 Mass of water (kg) = 1.000e+00 @@ -14076,10 +14076,10 @@ Initial solution 4. pH = 7.350 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 21023 + Specific Conductance (µS/cm, 20°C) = 21025 Density (g/cm³) = 1.01433 Volume (L) = 1.00592 - Viscosity (mPa s) = 1.01786 + Viscosity (mPa s) = 1.01776 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.501e-01 Mass of water (kg) = 1.000e+00 @@ -14133,10 +14133,10 @@ Initial solution 5. pH = 10.013 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25760 + Specific Conductance (µS/cm, 20°C) = 25761 Density (g/cm³) = 1.01843 Volume (L) = 1.00706 - Viscosity (mPa s) = 1.02150 + Viscosity (mPa s) = 1.02139 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.411e-01 Mass of water (kg) = 1.000e+00 @@ -14190,10 +14190,10 @@ Initial solution 6. pH = 4.765 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 30407 + Specific Conductance (µS/cm, 20°C) = 30409 Density (g/cm³) = 1.02251 Volume (L) = 1.00824 - Viscosity (mPa s) = 1.02517 + Viscosity (mPa s) = 1.02504 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.324e-01 Mass of water (kg) = 1.000e+00 @@ -14247,10 +14247,10 @@ Initial solution 7. pH = 10.006 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 34993 + Specific Conductance (µS/cm, 20°C) = 34996 Density (g/cm³) = 1.02656 Volume (L) = 1.00942 - Viscosity (mPa s) = 1.02891 + Viscosity (mPa s) = 1.02877 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.238e-01 Mass of water (kg) = 1.000e+00 @@ -14304,10 +14304,10 @@ Initial solution 8. pH = 7.415 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 39683 + Specific Conductance (µS/cm, 20°C) = 39686 Density (g/cm³) = 1.03073 Volume (L) = 1.01068 - Viscosity (mPa s) = 1.03283 + Viscosity (mPa s) = 1.03268 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.185e-01 Mass of water (kg) = 1.000e+00 @@ -14361,10 +14361,10 @@ Initial solution 9. pH = 4.851 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44213 + Specific Conductance (µS/cm, 20°C) = 44217 Density (g/cm³) = 1.03475 Volume (L) = 1.01192 - Viscosity (mPa s) = 1.03671 + Viscosity (mPa s) = 1.03655 Activity of water = 0.990 Ionic strength (mol/kgw) = 8.105e-01 Mass of water (kg) = 1.000e+00 @@ -14418,10 +14418,10 @@ Initial solution 10. pH = 10.002 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 48866 + Specific Conductance (µS/cm, 20°C) = 48870 Density (g/cm³) = 1.03889 Volume (L) = 1.01321 - Viscosity (mPa s) = 1.04083 + Viscosity (mPa s) = 1.04066 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.058e-01 Mass of water (kg) = 1.000e+00 @@ -14475,10 +14475,10 @@ Initial solution 11. pH = 7.448 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 53493 + Specific Conductance (µS/cm, 20°C) = 53498 Density (g/cm³) = 1.04301 Volume (L) = 1.01454 - Viscosity (mPa s) = 1.04502 + Viscosity (mPa s) = 1.04484 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.001e+00 Mass of water (kg) = 1.000e+00 @@ -14532,10 +14532,10 @@ Initial solution 12. pH = 7.457 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 58249 + Specific Conductance (µS/cm, 20°C) = 58254 Density (g/cm³) = 1.04723 Volume (L) = 1.01592 - Viscosity (mPa s) = 1.04946 + Viscosity (mPa s) = 1.04927 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.100e+00 Mass of water (kg) = 1.000e+00 @@ -14589,10 +14589,10 @@ Initial solution 13. pH = 10.002 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 62859 + Specific Conductance (µS/cm, 20°C) = 62866 Density (g/cm³) = 1.05131 Volume (L) = 1.01728 - Viscosity (mPa s) = 1.05389 + Viscosity (mPa s) = 1.05370 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.196e+00 Mass of water (kg) = 1.000e+00 @@ -14646,10 +14646,10 @@ Initial solution 14. pH = 7.474 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 67590 + Specific Conductance (µS/cm, 20°C) = 67597 Density (g/cm³) = 1.05551 Volume (L) = 1.01871 - Viscosity (mPa s) = 1.05856 + Viscosity (mPa s) = 1.05836 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.296e+00 Mass of water (kg) = 1.000e+00 @@ -14703,10 +14703,10 @@ Initial solution 15. pH = 7.482 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 72318 + Specific Conductance (µS/cm, 20°C) = 72326 Density (g/cm³) = 1.05970 Volume (L) = 1.02016 - Viscosity (mPa s) = 1.06338 + Viscosity (mPa s) = 1.06317 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.396e+00 Mass of water (kg) = 1.000e+00 @@ -14760,10 +14760,10 @@ Initial solution 16. pH = 10.005 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 77028 + Specific Conductance (µS/cm, 20°C) = 77036 Density (g/cm³) = 1.06386 Volume (L) = 1.02163 - Viscosity (mPa s) = 1.06833 + Viscosity (mPa s) = 1.06812 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.496e+00 Mass of water (kg) = 1.000e+00 @@ -14817,10 +14817,10 @@ Initial solution 17. pH = 7.498 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 81851 + Specific Conductance (µS/cm, 20°C) = 81860 Density (g/cm³) = 1.06813 Volume (L) = 1.02317 - Viscosity (mPa s) = 1.07356 + Viscosity (mPa s) = 1.07333 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.599e+00 Mass of water (kg) = 1.000e+00 @@ -14874,10 +14874,10 @@ Initial solution 18. pH = 4.399 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 86674 + Specific Conductance (µS/cm, 20°C) = 86684 Density (g/cm³) = 1.07238 Volume (L) = 1.02474 - Viscosity (mPa s) = 1.07892 + Viscosity (mPa s) = 1.07869 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.702e+00 Mass of water (kg) = 1.000e+00 @@ -14931,10 +14931,10 @@ Initial solution 19. pH = 10.311 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 91490 + Specific Conductance (µS/cm, 20°C) = 91501 Density (g/cm³) = 1.07664 Volume (L) = 1.02632 - Viscosity (mPa s) = 1.08458 + Viscosity (mPa s) = 1.08435 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.807e+00 Mass of water (kg) = 1.000e+00 @@ -14988,10 +14988,10 @@ Initial solution 20. pH = 10.614 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 96290 + Specific Conductance (µS/cm, 20°C) = 96301 Density (g/cm³) = 1.08088 Volume (L) = 1.02793 - Viscosity (mPa s) = 1.09038 + Viscosity (mPa s) = 1.09014 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.912e+00 Mass of water (kg) = 1.000e+00 @@ -16861,7 +16861,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 5190 Density (g/cm³) = 1.00347 Volume (L) = 1.00159 - Viscosity (mPa s) = 1.04792 + Viscosity (mPa s) = 1.04781 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.683e-01 Mass of water (kg) = 1.000e+00 @@ -16939,10 +16939,10 @@ Reaction 1. pH = 6.946 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 8398 + Specific Conductance (µS/cm, 20°C) = 8399 Density (g/cm³) = 1.00864 Volume (L) = 1.00147 - Viscosity (mPa s) = 1.09000 + Viscosity (mPa s) = 1.08984 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.365e-01 Mass of water (kg) = 1.000e+00 @@ -17020,10 +17020,10 @@ Reaction 1. pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 13391 + Specific Conductance (µS/cm, 20°C) = 13394 Density (g/cm³) = 1.01894 Volume (L) = 1.00140 - Viscosity (mPa s) = 1.17298 + Viscosity (mPa s) = 1.17275 Activity of water = 0.997 Ionic strength (mol/kgw) = 6.768e-01 Mass of water (kg) = 1.000e+00 @@ -17101,10 +17101,10 @@ Reaction 1. pH = 6.844 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 17781 + Specific Conductance (µS/cm, 20°C) = 17785 Density (g/cm³) = 1.02932 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.25676 + Viscosity (mPa s) = 1.25648 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.026e+00 Mass of water (kg) = 1.000e+00 @@ -17182,10 +17182,10 @@ Reaction 1. pH = 6.804 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 21940 + Specific Conductance (µS/cm, 20°C) = 21945 Density (g/cm³) = 1.03979 Volume (L) = 1.00174 - Viscosity (mPa s) = 1.34208 + Viscosity (mPa s) = 1.34176 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.382e+00 Mass of water (kg) = 1.000e+00 @@ -17263,10 +17263,10 @@ Reaction 1. pH = 6.766 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 25964 + Specific Conductance (µS/cm, 20°C) = 25971 Density (g/cm³) = 1.05036 Volume (L) = 1.00213 - Viscosity (mPa s) = 1.42973 + Viscosity (mPa s) = 1.42938 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -17344,10 +17344,10 @@ Reaction 1. pH = 6.730 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 29833 + Specific Conductance (µS/cm, 20°C) = 29841 Density (g/cm³) = 1.06092 Volume (L) = 1.00264 - Viscosity (mPa s) = 1.51956 + Viscosity (mPa s) = 1.51917 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.118e+00 Mass of water (kg) = 1.000e+00 @@ -17425,10 +17425,10 @@ Reaction 1. pH = 6.694 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 33614 + Specific Conductance (µS/cm, 20°C) = 33623 Density (g/cm³) = 1.07171 Volume (L) = 1.00330 - Viscosity (mPa s) = 1.61438 + Viscosity (mPa s) = 1.61395 Activity of water = 0.988 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -17506,10 +17506,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 37192 + Specific Conductance (µS/cm, 20°C) = 37202 Density (g/cm³) = 1.08247 Volume (L) = 1.00408 - Viscosity (mPa s) = 1.71313 + Viscosity (mPa s) = 1.71267 Activity of water = 0.987 Ionic strength (mol/kgw) = 2.888e+00 Mass of water (kg) = 1.000e+00 @@ -17587,10 +17587,10 @@ Reaction 1. pH = 6.624 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 40576 + Specific Conductance (µS/cm, 20°C) = 40587 Density (g/cm³) = 1.09336 Volume (L) = 1.00500 - Viscosity (mPa s) = 1.81835 + Viscosity (mPa s) = 1.81786 Activity of water = 0.985 Ionic strength (mol/kgw) = 3.284e+00 Mass of water (kg) = 1.000e+00 @@ -17668,10 +17668,10 @@ Reaction 1. pH = 6.589 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 43712 + Specific Conductance (µS/cm, 20°C) = 43724 Density (g/cm³) = 1.10435 Volume (L) = 1.00606 - Viscosity (mPa s) = 1.93134 + Viscosity (mPa s) = 1.93083 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.690e+00 Mass of water (kg) = 1.000e+00 @@ -17749,10 +17749,10 @@ Reaction 1. pH = 6.516 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 49042 + Specific Conductance (µS/cm, 20°C) = 49055 Density (g/cm³) = 1.12658 Volume (L) = 1.00859 - Viscosity (mPa s) = 2.18834 + Viscosity (mPa s) = 2.18777 Activity of water = 0.978 Ionic strength (mol/kgw) = 4.528e+00 Mass of water (kg) = 1.000e+00 @@ -17830,10 +17830,10 @@ Reaction 1. pH = 6.441 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 52797 + Specific Conductance (µS/cm, 20°C) = 52811 Density (g/cm³) = 1.14915 Volume (L) = 1.01172 - Viscosity (mPa s) = 2.50393 + Viscosity (mPa s) = 2.50330 Activity of water = 0.973 Ionic strength (mol/kgw) = 5.404e+00 Mass of water (kg) = 1.000e+00 @@ -17911,10 +17911,10 @@ Reaction 1. pH = 6.360 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 54666 + Specific Conductance (µS/cm, 20°C) = 54679 Density (g/cm³) = 1.17215 Volume (L) = 1.01549 - Viscosity (mPa s) = 2.90765 + Viscosity (mPa s) = 2.90697 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.324e+00 Mass of water (kg) = 1.000e+00 @@ -17992,10 +17992,10 @@ Reaction 1. pH = 6.275 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 54466 + Specific Conductance (µS/cm, 20°C) = 54477 Density (g/cm³) = 1.19555 Volume (L) = 1.01998 - Viscosity (mPa s) = 3.44034 + Viscosity (mPa s) = 3.43961 Activity of water = 0.959 Ionic strength (mol/kgw) = 7.292e+00 Mass of water (kg) = 1.000e+00 @@ -18073,10 +18073,10 @@ Reaction 1. pH = 6.183 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 52257 + Specific Conductance (µS/cm, 20°C) = 52267 Density (g/cm³) = 1.21925 Volume (L) = 1.02523 - Viscosity (mPa s) = 4.15590 + Viscosity (mPa s) = 4.15512 Activity of water = 0.950 Ionic strength (mol/kgw) = 8.308e+00 Mass of water (kg) = 1.000e+00 @@ -18154,10 +18154,10 @@ Reaction 1. pH = 6.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 48309 + Specific Conductance (µS/cm, 20°C) = 48317 Density (g/cm³) = 1.24347 Volume (L) = 1.03140 - Viscosity (mPa s) = 5.14313 + Viscosity (mPa s) = 5.14230 Activity of water = 0.938 Ionic strength (mol/kgw) = 9.388e+00 Mass of water (kg) = 1.000e+00 @@ -18235,10 +18235,10 @@ Reaction 1. pH = 5.981 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 43187 + Specific Conductance (µS/cm, 20°C) = 43193 Density (g/cm³) = 1.26778 Volume (L) = 1.03848 - Viscosity (mPa s) = 6.49608 + Viscosity (mPa s) = 6.49520 Activity of water = 0.925 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -18316,10 +18316,10 @@ Reaction 1. pH = 5.869 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 37429 + Specific Conductance (µS/cm, 20°C) = 37433 Density (g/cm³) = 1.29237 Volume (L) = 1.04667 - Viscosity (mPa s) = 8.37622 + Viscosity (mPa s) = 8.37529 Activity of water = 0.908 Ionic strength (mol/kgw) = 1.172e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Equiv_Conduct_101.sel b/mytest/Equiv_Conduct_101.sel index 41c19e96..f9a15d1b 100644 --- a/mytest/Equiv_Conduct_101.sel +++ b/mytest/Equiv_Conduct_101.sel @@ -1,294 +1,294 @@ Mu SC - 0.000501593199 62.0523128344 - 0.001003104241 123.2818969664 - 0.005015308440 601.0168819555 - 0.010031111378 1181.2652427423 - 0.020066115236 2309.1046195599 - 0.050191121909 5543.3547238406 - 0.100470127977 10655.6563363602 - 0.125640130021 13126.5117245251 - 0.150840131682 15554.8776122699 - 0.176060133059 17945.7492809452 - 0.201310134216 20304.3955188398 - 0.251840136028 24931.8651040859 - 0.302490137347 29461.5420606811 - 0.404070138981 38265.9051013769 - 0.506030139713 46778.0408560123 - 0.608440139836 55038.7559676706 - 0.711170139519 63059.5954601714 - 0.814380138868 70867.6785914697 - 0.917990137956 78466.8943339815 - 1.022000136834 85864.6701994680 - 1.231400134106 100088.7421792481 - 1.442600130902 113570.4494511398 - 1.655600127362 126328.5247926451 - 1.870500123583 138382.2079021156 - 2.087200119640 149737.0877457356 - 2.638300109372 175203.9579343818 - 3.202500098963 196609.6178210826 - 3.780700088761 214179.4276216124 - 4.373800078981 228168.6172903546 - 4.982800069759 238859.4582925463 - 5.609200061168 246554.0445550650 - 6.058700055553 250317.3117765954 - 0.000501583194 73.7921548523 - 0.001003104233 146.7232120650 - 0.005014808398 717.3895522354 - 0.010029111294 1412.9575880197 - 0.020058115066 2769.9926357896 - 0.050145121483 6686.9389235715 - 0.100580127164 12967.4357601573 - 0.125810129016 16023.2663375854 - 0.151070130490 19039.5860646344 - 0.176380131685 22024.9354600196 - 0.201720132665 24981.3974692850 - 0.252510134140 30822.7230015347 - 0.303450135140 36583.8753674698 - 0.405770136190 47910.8842611097 - 0.508690136403 59026.1448876051 - 0.612200136067 69963.1881798286 - 0.716400135344 80753.3150672989 - 0.821140134337 91394.3336532521 - 0.926590133114 101912.2183827234 - 1.032700131723 112307.3837973008 - 1.247000128569 132751.6380698673 - 1.463900125076 152726.9164533046 - 1.683800121360 172269.1923955600 - 1.906800117504 191376.8827896748 - 2.132700113573 210018.6686351238 - 2.711700103654 254593.1936877480 - 3.312600093925 296110.3529953750 - 3.937100084628 334320.4221624123 - 4.587700075894 369003.6930316067 - 0.000226521809 19.1298230432 - 0.000510855037 42.7616486242 - 0.000840188296 69.8469829878 - 0.001606276609 132.0258505805 - 0.003061588726 247.9219465901 - 0.004269155370 342.4798387726 - 0.006285376547 497.8650290265 - 0.007873205109 618.4634468833 - 0.009493796716 740.1988012037 - 0.012618657326 971.6646466474 - 0.015045051111 1148.8499888034 - 0.031689018218 2321.1821085393 - 0.070928970771 4906.5834124201 - 0.071882969885 4967.3017582899 - 0.076151966019 5238.0085766812 - 0.132929925662 8711.5649285183 - 0.207509889339 13016.5103793780 - 0.231509879810 14355.5442902632 - 0.272069865265 16576.1527420208 - 0.278039863263 16898.8480624214 - 0.377969833562 22161.7929147494 - 0.547589793357 30598.4532383624 - 0.550049792833 30716.8675134207 - 0.668129769011 36283.6317933300 - 0.702539762468 37864.9534508895 - 0.952799718266 48871.3456654484 - 1.182899680660 58308.2039553720 - 1.194599678791 58772.1498179173 - 1.966799558069 86428.1139143087 - 2.968499397085 114899.0873377628 - 4.794599072520 148882.0848733646 - 6.873598643244 163348.7900015114 - 8.879998160349 158696.2995223996 - 10.823997627049 144018.4783959114 - 12.647997075049 126689.3934011555 - 14.237996563970 111428.4006656290 - 15.728996071841 98067.7968040451 - 0.000228102446 20.2423305160 - 0.000752203996 65.8510631288 - 0.001504605448 130.2288265745 - 0.002265106583 194.4001782199 - 0.003009107524 256.5031611738 - 0.004515109126 380.5857135247 - 0.007524111665 623.5410590906 - 0.010533113721 861.4961981717 - 0.012093114667 983.2763677851 - 0.015045116294 1211.2085751374 - 0.022650119827 1786.0419608379 - 0.030090122701 2334.8362505052 - 0.043200126937 3277.2646531356 - 0.063030132171 4658.2941687388 - 0.075270134963 5490.0808167077 - 0.079050135775 5744.2665702293 - 0.096450139279 6899.9353058074 - 0.115380142744 8133.6972194728 - 0.119730143499 8414.1444180864 - 0.130412145301 9098.4909605851 - 0.145260147693 10039.7146225598 - 0.146250147849 10102.0984750034 - 0.149070148289 10279.5476663734 - 0.150000148433 10337.9876960616 - 0.150600148526 10375.6699516895 - 0.163500150486 11181.9678453178 - 0.226500159245 15026.4429176049 - 0.300000168381 19352.9957491127 - 1.500000300337 77932.8956639875 - 3.000000543543 131954.5507927489 - 6.000001746483 193295.5972119061 - 9.000005708172 204392.6729081120 - 12.000019429561 184681.8614117529 - 18.000267828494 124074.5470078804 - 0.061091744560 4316.5181812798 - 0.122582944610 8155.3212898900 - 0.184203429348 11701.8755918935 - 0.247056161829 15078.2477777080 - 0.310216128585 18265.7265384280 - 0.374495411605 21326.4914567464 - 0.439077990192 24237.0739690616 - 0.504880224529 27050.5784449669 - 0.570883330865 29733.2484657253 - 0.637189139091 32300.1841493414 - 0.704816094365 34797.2317434826 - 0.772643794459 37188.7936089911 - 0.139332432561 7354.9318977777 - 0.282360146675 13320.1636821288 - 0.425885185957 18648.4149884167 - 0.573962989920 23693.2566155975 - 0.723644215576 28374.2278610638 - 0.870378446689 32647.9915992349 - 1.023139537717 36750.1522203204 - 1.174458220491 40638.0723897522 - 1.330267170168 44367.8952085963 - 1.484572572578 47866.5665113945 - 1.644940622647 51218.6109471106 - 1.794438480113 54090.4829950273 - 1.959582018071 57207.0830868918 - 2.124552693358 60137.1186647435 - 2.289353773406 62776.8646089834 - 2.454340362729 65351.9601336392 - 2.618911700216 67612.0572577273 - 2.798820167233 70236.3367241267 - 2.963990905233 72110.2900131422 - 3.143993567393 74245.3069156606 - 3.487085692408 77620.1212034944 - 3.846988787165 80833.2364628980 - 4.223620090564 83870.3275781559 - 4.613518610906 86342.6987720451 - 5.003429929491 88385.9334436142 - 0.050774846460 4702.9103960615 - 0.101762296113 9042.6674100140 - 0.206530484728 17329.9810957572 - 0.313103549522 25138.6094817113 - 0.421659877822 32591.1659924061 - 0.533101303868 39801.9505917420 - 0.646708777754 46756.5740634216 - 0.762374112928 53474.9994378449 - 0.881311492061 60043.3779688647 - 1.002295770273 66406.0758322251 - 1.127354975940 72676.6809594017 - 1.383575017671 84661.8308758672 - 1.651955840794 96136.8327266594 - 1.935488727057 107236.1909047252 - 2.233087723354 117912.0753196211 - 2.548731407096 128290.8413151087 - 2.882318207469 138340.8615677459 - 3.235757955092 148092.4075265925 - 0.106434405906 7361.5035171369 - 0.216486659327 13766.6820483116 - 0.439152431218 25497.7873518568 - 0.669596343427 36753.4658782356 - 0.898706551743 47225.3272599091 - 1.139825093374 57792.9905802673 - 1.381060149062 67850.3309051252 - 1.629806786770 77838.2626414258 - 1.884585218232 87666.1841386042 - 2.139050042746 96993.4091635711 - 2.409216742956 106721.4256377207 - 2.963596901005 125404.2594699696 - 3.533676875095 142679.7789075134 - 4.146777757778 160114.6567051266 - 4.793302164057 175789.5970107735 - 5.466529858843 191038.5856893588 - 6.936367832917 216676.0878784967 - 0.000300101292 25.4513919733 - 0.003000095338 243.5559154030 - 0.030000050411 2144.7467784321 - 0.075240010454 4871.2934834817 - 0.150879999847 8840.7847379071 - 0.300299927337 15623.4127817576 - 0.304071883631 15794.3527886049 - 0.452999899013 21826.3090791058 - 0.596699879676 27275.4065580974 - 0.609599878172 27750.6867018998 - 0.756458841545 33036.6748218019 - 0.916199849705 38529.8899208254 - 1.221454323447 48466.3479950603 - 1.224599829899 48558.5523865049 - 1.499699816379 56910.3491408870 - 1.530010085310 57820.6059695118 - 1.534499814863 57928.4703375141 - 1.841899999603 66564.0583463867 - 1.846399999603 66685.3738222060 - 2.153999594004 74640.7907252201 - 2.456999783917 81824.3223509918 - 2.468999783592 82096.0111462935 - 2.785494831285 88908.5203553059 - 3.086999768275 94741.1711716122 - 3.100462385422 95022.7315720374 - 3.403450806415 100239.1666441526 - 3.725999754380 105090.3587444690 - 4.376999741354 112908.8768192778 - 5.045999728727 118261.9340261858 - 0.174615058306 11435.5577129757 - 0.262211365621 16328.3234217716 - 0.350099941397 21023.9048653789 - 0.441099999837 25760.0873383843 - 0.532365233958 30407.6527373912 - 0.623799999769 34993.6323513553 - 0.718499898101 39683.6640383919 - 0.810458594505 44213.7978949488 - 0.905799999680 48866.2844729632 - 1.001399875239 53493.6005421672 - 1.100099868193 58249.4365869055 - 1.196199999598 62859.9539914136 - 1.295699855054 67590.5767882054 - 1.395599848636 72318.5984703018 - 1.495599999519 77028.3921710972 - 1.598999835938 81851.2674790804 - 1.702482747889 86674.7628681309 - 1.807399999719 91490.6496144560 - 1.912299999853 96290.0283822412 + 0.000501593199 62.0523130004 + 0.001003104241 123.2818974325 + 0.005015308440 601.0168870309 + 0.010031111378 1181.2652568420 + 0.020066115236 2309.1046585044 + 0.050191121909 5543.3548713109 + 0.100470127977 10655.6567357259 + 0.125640130021 13126.5122735240 + 0.150840131682 15554.8783235979 + 0.176060133059 17945.7501657016 + 0.201310134216 20304.3965870079 + 0.251840136028 24931.8665649124 + 0.302490137347 29461.5439445201 + 0.404070138981 38265.9079050637 + 0.506030139713 46778.0446579553 + 0.608440139836 55038.7608290620 + 0.711170139519 63059.6014271137 + 0.814380138868 70867.6857006857 + 0.917990137956 78466.9026120436 + 1.022000136834 85864.6796649636 + 1.231400134106 100088.7540503755 + 1.442600130902 113570.4637305871 + 1.655600127362 126328.5414454051 + 1.870500123583 138382.2268635775 + 2.087200119640 149737.1089252234 + 2.638300109372 175203.9841533466 + 3.202500098963 196609.6481995095 + 3.780700088761 214179.4611912335 + 4.373800078981 228168.6530802775 + 4.982800069759 238859.4953891727 + 5.609200061168 246554.0821400331 + 6.058700055553 250317.3492772344 + 0.000501583194 73.7921549594 + 0.001003104233 146.7232123657 + 0.005014808398 717.3895555201 + 0.010029111294 1412.9575971671 + 0.020058115066 2769.9926611476 + 0.050145121483 6686.9390203651 + 0.100580127164 12967.4360260893 + 0.125810129016 16023.2667051814 + 0.151070130490 19039.5865433947 + 0.176380131685 22024.9360586036 + 0.201720132665 24981.3981955482 + 0.252510134140 30822.7240046486 + 0.303450135140 36583.8766733658 + 0.405770136190 47910.8862408041 + 0.508690136403 59026.1476209786 + 0.612200136067 69963.1917369045 + 0.716400135344 80753.3195115985 + 0.821140134337 91394.3390411168 + 0.926590133114 101912.2247670579 + 1.032700131723 112307.3912262749 + 1.247000128569 132751.6477185892 + 1.463900125076 152726.9284715298 + 1.683800121360 172269.2069131655 + 1.906800117504 191376.8999154392 + 2.132700113573 210018.6884541968 + 2.711700103654 254593.2204972528 + 3.312600093925 296110.3869341977 + 3.937100084628 334320.4630895943 + 4.587700075894 369003.7405472418 + 0.000226521809 19.1298231355 + 0.000510855037 42.7616489340 + 0.000840188296 69.8469836363 + 0.001606276609 132.0258522739 + 0.003061588726 247.9219509746 + 0.004269155370 342.4798459192 + 0.006285376547 497.8650416172 + 0.007873205109 618.4634643741 + 0.009493796716 740.1988241743 + 0.012618657326 971.6646813675 + 0.015045051111 1148.8500335876 + 0.031689018218 2321.1822391826 + 0.070928970771 4906.5838216666 + 0.071882969885 4967.3021752902 + 0.076151966019 5238.0090288547 + 0.132929925662 8711.5659107274 + 0.207509889339 13016.5121879371 + 0.231509879810 14355.5463881561 + 0.272069865265 16576.1553497356 + 0.278039863263 16898.8507471792 + 0.377969833562 22161.7969523562 + 0.547589793357 30598.4597710884 + 0.550049792833 30716.8740836573 + 0.668129769011 36283.6401953060 + 0.702539762468 37864.9623961180 + 0.952799718266 48871.3586333313 + 1.182899680660 58308.2206529536 + 1.194599678791 58772.1667044345 + 1.966799558069 86428.1427216658 + 2.968499397085 114899.1289191414 + 4.794599072520 148882.1394817999 + 6.873598643244 163348.8439565183 + 8.879998160349 158696.3432049313 + 10.823997627049 144018.5100163023 + 12.647997075049 126689.4153595356 + 14.237996563970 111428.4162589894 + 15.728996071841 98067.8080273716 + 0.000228102446 20.2423306081 + 0.000752203996 65.8510636724 + 0.001504605448 130.2288280939 + 0.002265106583 194.4001810011 + 0.003009107524 256.5031654014 + 0.004515109126 380.5857212021 + 0.007524111665 623.5410753070 + 0.010533113721 861.4962246523 + 0.012093114667 983.2764001536 + 0.015045116294 1211.2086195712 + 0.022650119827 1786.0420410730 + 0.030090122701 2334.8363711943 + 0.043200126937 3277.2648555745 + 0.063030132171 4658.2945150601 + 0.075270134963 5490.0812618251 + 0.079050135775 5744.2670472115 + 0.096450139279 6899.9359369333 + 0.115380142744 8133.6980308569 + 0.119730143499 8414.1452725719 + 0.130412145301 9098.4919233999 + 0.145260147693 10039.7157414407 + 0.146250147849 10102.0996045079 + 0.149070148289 10279.5488262833 + 0.150000148433 10337.9888660451 + 0.150600148526 10375.6711281843 + 0.163500150486 11181.9691640445 + 0.226500159245 15026.4449857606 + 0.300000168381 19352.9987858826 + 1.500000300337 77932.9196545396 + 3.000000543543 131954.6004745908 + 6.000001746483 193295.6734538721 + 9.000005708172 204392.7421551397 + 12.000019429561 184681.9095994215 + 18.000267828494 124074.5640640114 + 0.061091744560 4316.6634781976 + 0.122582944610 8155.7022527018 + 0.184203429348 11702.5326990979 + 0.247056161829 15079.2095816051 + 0.310216128585 18267.0076936125 + 0.374495411605 21328.1044945327 + 0.439077990192 24239.0229079450 + 0.504880224529 27052.8689269557 + 0.570883330865 29735.8785340262 + 0.637189139091 32303.1507187113 + 0.704816094365 34800.5355638129 + 0.772643794459 37192.4288383535 + 0.139332432561 7355.2370299234 + 0.282360146675 13320.9449425017 + 0.425885185957 18649.7337045703 + 0.573962989920 23695.1549194914 + 0.723644215576 28376.7172737777 + 0.870378446689 32651.0514157990 + 1.023139537717 36753.7862854099 + 1.174458220491 40642.2498725072 + 1.330267170168 44372.6001652410 + 1.484572572578 47871.7595944198 + 1.644940622647 51224.2717599587 + 1.794438480113 54096.5380915764 + 1.959582018071 57213.5433091438 + 2.124552693358 60143.9408493767 + 2.289353773406 62784.0023036079 + 2.454340362729 65359.3803064333 + 2.618911700216 67619.7121416432 + 2.798820167233 70244.2253880797 + 2.963990905233 72118.3447490161 + 3.143993567393 74253.5164621969 + 3.487085692408 77628.5063326078 + 3.846988787165 80841.7206900773 + 4.223620090564 83878.8358487079 + 4.613518610906 86351.1242965665 + 5.003429929491 88394.2088836645 + 0.050774846460 4702.9839970631 + 0.101762296113 9042.8640015783 + 0.206530484728 17330.4978587455 + 0.313103549522 25139.4985336596 + 0.421659877822 32592.4552884919 + 0.533101303868 39803.6579691061 + 0.646708777754 46758.7062328626 + 0.762374112928 53477.5571264530 + 0.881311492061 60046.3624736205 + 1.002295770273 66409.4813443706 + 1.127354975940 72680.5066929362 + 1.383575017671 84666.4692777556 + 1.651955840794 96142.2558896171 + 1.935488727057 107242.3769700359 + 2.233087723354 117918.9995335315 + 2.548731407096 128298.4907450626 + 2.882318207469 138349.2265277501 + 3.235757955092 148101.4882061007 + 0.106434405906 7361.6305478831 + 0.216486659327 13767.0193679183 + 0.439152431218 25498.6575249775 + 0.669596343427 36754.9734328607 + 0.898706551743 47227.5182058369 + 1.139825093374 57795.9300316389 + 1.381060149062 67854.0306087007 + 1.629806786770 77842.7456732005 + 1.884585218232 87671.4568001253 + 2.139050042746 96999.4385130665 + 2.409216742956 106728.2461624516 + 2.963596901005 125412.5600074084 + 3.533676875095 142689.3726299441 + 4.146777757778 160125.4020847625 + 4.793302164057 175801.2411342857 + 5.466529858843 191050.8952552523 + 6.936367832917 216688.8855226384 + 0.000300101292 25.4513921048 + 0.003000095338 243.5559193665 + 0.030000050411 2144.7468877349 + 0.075240010454 4871.2938718309 + 0.150879999847 8840.7857179761 + 0.300299927337 15623.4151561704 + 0.304071883631 15794.3552057442 + 0.452999899013 21826.3130465294 + 0.596699879676 27275.4121178096 + 0.609599878172 27750.6924077436 + 0.756458841545 33036.6822230658 + 0.916199849705 38529.8991930332 + 1.221454323447 48466.3608819265 + 1.224599829899 48558.5653057487 + 1.499699816379 56910.3652521854 + 1.530010085310 57820.6224425891 + 1.534499814863 57928.4868444231 + 1.841899999603 66564.0782329183 + 1.846399999603 66685.3937565827 + 2.153999594004 74640.8138060828 + 2.456999783917 81824.3482237348 + 2.468999783592 82096.0371234716 + 2.785494831285 88908.5489067393 + 3.086999768275 94741.2018206900 + 3.100462385422 95022.7623323014 + 3.403450806415 100239.1991544427 + 3.725999754380 105090.3927177280 + 4.376999741354 112908.9126395436 + 5.045999728727 118261.9702761176 + 0.174615058306 11436.0328041605 + 0.262211365621 16329.1359496590 + 0.350099941397 21025.0922919612 + 0.441099999837 25761.6975047439 + 0.532365233958 30409.7222419866 + 0.623799999769 34996.1832929608 + 0.718499898101 39686.7464691160 + 0.810458594505 44217.4251695209 + 0.905799999680 48870.4941891931 + 1.001399875239 53498.4231281763 + 1.100099868193 58254.9147827312 + 1.196199999598 62866.0910435907 + 1.295699855054 67597.4180030400 + 1.395599848636 72326.1649578542 + 1.495599999519 77036.7010500087 + 1.598999835938 81860.3621602026 + 1.702482747889 86684.6703201051 + 1.807399999719 91501.3663071659 + 1.912299999853 96301.5775390235 0.000000100644 0.0547821166 - 0.001047695736 65.5171164459 - 0.002074889606 126.7424648205 - 0.003077283768 184.7314800059 - 0.004116077916 243.3936838139 - 0.005172072167 301.7741749560 - 0.006268066393 361.2067500222 - 0.007524059995 428.0324981070 - 0.008704054174 489.6943093245 - 0.009916048367 552.0025475383 - 0.012552036261 684.3118116887 - 0.028447973287 1413.3786728070 - 0.101799764948 4008.7778626743 - 0.215119529484 6925.9420990108 - 0.374319267145 10091.9782528097 - 0.753998780903 16067.3110235851 - 1.534798057047 26324.9517326666 - 2.417197468192 36540.0567729013 - 3.651996859628 48484.4647644100 - 4.967996348854 57363.7926241975 - 7.123995602182 61892.0165144042 - 9.195994826246 56311.5979457965 - 0.168279714599 5190.0076146600 - 0.336479488740 8398.5258522602 - 0.676799140341 13391.6862144894 - 1.025598857016 17781.9330753980 - 1.382398613799 21940.5385712654 - 1.747598399706 25964.9855626044 - 2.117598210161 29833.8580398818 - 2.500398036686 33614.4825038218 - 2.887597879666 37192.0874882451 - 3.284397733914 40576.5394942344 - 3.689997597334 43712.8636263215 - 4.527997343156 49042.2994114974 - 5.403997101518 52797.9447128193 - 6.323996857925 54666.4698196079 - 7.291996599059 54466.0540771284 - 8.307996312055 52257.1310679888 - 9.387995977334 48309.8312356549 - 10.519995580379 43187.3485967504 - 11.719995092313 37429.6947387455 + 0.001047695736 65.5171173994 + 0.002074889606 126.7424674151 + 0.003077283768 184.7314846095 + 0.004116077916 243.3936908262 + 0.005172072167 301.7741846984 + 0.006268066393 361.2067628548 + 0.007524059995 428.0325147611 + 0.008704054174 489.6943298100 + 0.009916048367 552.0025721767 + 0.012552036261 684.3118460270 + 0.028447973287 1413.3787791188 + 0.101799764948 4008.7784229974 + 0.215119529484 6925.9434704125 + 0.374319267145 10091.9807988824 + 0.753998780903 16067.3163454710 + 1.534798057047 26324.9625056490 + 2.417197468192 36540.0730155060 + 3.651996859628 48484.4867603914 + 4.967996348854 57363.8175830745 + 7.123995602182 61892.0392612224 + 9.195994826246 56311.6139652944 + 0.168279714599 5190.5712553593 + 0.336479488740 8399.7678368818 + 0.676799140341 13394.3002349852 + 1.025598857016 17785.9224641687 + 1.382398613799 21945.8890580184 + 1.747598399706 25971.6654638671 + 2.117598210161 29841.8029544192 + 2.500398036686 33623.6329490533 + 2.887597879666 37202.3342593006 + 3.284397733914 40587.7656785594 + 3.689997597334 43724.9259091510 + 4.527997343156 49055.5165630684 + 5.403997101518 52811.5183795307 + 6.323996857925 54679.5520392961 + 7.291996599059 54477.8751161401 + 8.307996312055 52267.1465036830 + 9.387995977334 48317.7798958747 + 10.519995580379 43193.3010405409 + 11.719995092313 37433.9157448020 diff --git a/mytest/ExchMixRelatedKin_101.sel b/mytest/ExchMixRelatedKin_101.sel index 7b39bfb4..178bb494 100644 --- a/mytest/ExchMixRelatedKin_101.sel +++ b/mytest/ExchMixRelatedKin_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000999711309 389.5324644655 - 0.000999711312 389.5324644763 - 0.001356408212 162.1882088135 + 0.000999711309 389.5324663732 + 0.000999711312 389.5324663840 + 0.001356408212 162.1882105797 diff --git a/mytest/ExchMixRelatedMin_101.sel b/mytest/ExchMixRelatedMin_101.sel index 93c474ac..19d81e72 100644 --- a/mytest/ExchMixRelatedMin_101.sel +++ b/mytest/ExchMixRelatedMin_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000999711309 389.5324644655 - 0.000999711312 389.5324644763 - 0.002777581466 213.8974607055 + 0.000999711309 389.5324663732 + 0.000999711312 389.5324663840 + 0.002777581466 213.8974638005 diff --git a/mytest/ExchangeGamma_101.sel b/mytest/ExchangeGamma_101.sel index c5642c26..d3a9b5ad 100644 --- a/mytest/ExchangeGamma_101.sel +++ b/mytest/ExchangeGamma_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.003000105692 409.7056097994 - 0.003000105692 409.7056097994 - 0.003000105692 409.7056097994 + 0.003000105692 409.7056116034 + 0.003000105692 409.7056116034 + 0.003000105692 409.7056116034 diff --git a/mytest/Fe+2_101.sel b/mytest/Fe+2_101.sel index 679e47c1..d18d09f5 100644 --- a/mytest/Fe+2_101.sel +++ b/mytest/Fe+2_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.001175819408 140.8192409612 - 0.001175818386 140.8189681513 + 0.001175819408 140.8192414714 + 0.001175818386 140.8189686615 diff --git a/mytest/Goldsack.out b/mytest/Goldsack.out index 842dbe58..e57e4820 100644 --- a/mytest/Goldsack.out +++ b/mytest/Goldsack.out @@ -243,7 +243,7 @@ Initial solution 3. Specific Conductance (µS/cm, 25°C) = 235671 Density (g/cm³) = 1.11216 Volume (L) = 1.07853 - Viscosity (mPa s) = 1.03753 + Viscosity (mPa s) = 1.03752 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -2109,7 +2109,7 @@ Initial solution 30. Specific Conductance (µS/cm, 25°C) = 292631 Density (g/cm³) = 1.17604 Volume (L) = 1.14489 - Viscosity (mPa s) = 1.30944 + Viscosity (mPa s) = 1.30943 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.642e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Goldsack_101.sel b/mytest/Goldsack_101.sel index 007844b6..90ae7a9e 100644 --- a/mytest/Goldsack_101.sel +++ b/mytest/Goldsack_101.sel @@ -1,31 +1,31 @@ Mu SC Viscosity - 1.000000146505 97172.0840967784 0.9280920551 - 2.000000153301 173903.2822482166 0.9761521697 - 3.000000156391 235671.0565032407 1.0375251787 - 4.000000157320 284005.1690782324 1.1130169750 - 5.000000156894 320419.4644303606 1.2031207979 - 3.000000156391 262783.4527262045 0.9493125009 - 1.000000148572 98245.9429621998 0.9159432219 - 2.000000154834 175963.3822716338 0.9518178992 - 3.000000157266 238755.5319642359 1.0009668708 - 4.000000157764 288120.1038089117 1.0642413849 - 3.000000156681 207220.1918126512 1.1292888138 - 3.000000157857 264557.4451840336 0.8973480549 - 1.563224081892 127099.6357675080 1.2149573403 - 2.222017027728 187207.0669600464 1.3433203566 - 3.094258770377 254456.2641889502 1.6691524143 - 3.915507695684 318892.8498922151 2.0727059412 - 3.985848388425 337302.5882721393 1.7502361941 - 3.422991626001 291183.0459495255 1.6188777424 - 1.794778033675 152591.7448578523 1.1049917515 - 2.611188227098 213997.7704490251 1.1799548777 - 3.417021882613 269175.1333009069 1.1656425306 - 2.152855659898 183442.1569771403 1.1444092898 - 2.262837484641 184938.9651860554 1.1549496774 - 2.490497934628 211742.7466726785 1.1783331165 - 1.787582727362 161855.3373302777 1.0157752751 - 3.405353359221 266528.2354356344 1.2328106493 - 4.956719314079 334020.1056650415 1.5862270473 - 2.477685760903 207111.8149561532 1.0658610004 - 2.279946190134 201390.6563524692 1.0159248930 - 3.641777952830 292631.6789329059 1.3094351187 + 1.000000146505 97172.0923581932 0.9280919207 + 2.000000153301 173903.3020482375 0.9761519797 + 3.000000156391 235671.0872608185 1.0375249459 + 4.000000157320 284005.2087193761 1.1130167062 + 5.000000156894 320419.5103433949 1.2031204973 + 3.000000156391 262783.4834519565 0.9493122830 + 1.000000148572 98245.9506960048 0.9159430885 + 2.000000154834 175963.4010610184 0.9518177105 + 3.000000157266 238755.5615299261 1.0009666397 + 4.000000157764 288120.1423535001 1.0642411180 + 3.000000156681 207220.2213674713 1.1292885680 + 3.000000157857 264557.4730468141 0.8973478395 + 1.563224081892 127099.6370736827 1.2149570933 + 2.222017027728 187207.0645883114 1.3433200801 + 3.094258770377 254456.2571721761 1.6691520975 + 3.915507695684 318892.8372300697 2.0727055919 + 3.985848388425 337302.5713814501 1.7502358548 + 3.422991626001 291183.0341714146 1.6188774214 + 1.794778033675 152591.7456137338 1.1049914908 + 2.611188227098 213997.7698609826 1.1799545697 + 3.417021882613 269175.1310794209 1.1656421834 + 2.152855659898 183442.1558779782 1.1444090130 + 2.262837484641 184938.9667831784 1.1549493819 + 2.490497934628 211742.7434617837 1.1783328261 + 1.787582727362 161855.3448169400 1.0157750750 + 3.405353359221 266528.2465722981 1.2328103799 + 4.956719314079 334020.1142562393 1.5862267270 + 2.477685760903 207111.8296312655 1.0658607729 + 2.279946190134 201390.6679202383 1.0159246776 + 3.641777952830 292631.6807104598 1.3094348327 diff --git a/mytest/H2S_71C.out b/mytest/H2S_71C.out index 978c3153..e52e1eb2 100644 --- a/mytest/H2S_71C.out +++ b/mytest/H2S_71C.out @@ -332,7 +332,7 @@ H2S(g) 1.37 2.335e+01 0.875 0.000e+00 9.618e-01 9.618e-01 Specific Conductance (µS/cm, 71°C) = 298 Density (g/cm³) = 0.97510 Volume (L) = 1.06153 - Viscosity (mPa s) = 0.39873 + Viscosity (mPa s) = 0.39874 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.984e-04 Mass of water (kg) = 9.997e-01 @@ -427,7 +427,7 @@ H2S(g) 1.64 4.334e+01 0.773 9.618e-01 2.161e+00 1.199e+00 Specific Conductance (µS/cm, 71°C) = 362 Density (g/cm³) = 0.97787 Volume (L) = 1.08631 - Viscosity (mPa s) = 0.39927 + Viscosity (mPa s) = 0.39928 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.355e-04 Mass of water (kg) = 9.996e-01 @@ -522,7 +522,7 @@ H2S(g) 1.76 5.745e+01 0.699 2.161e+00 3.727e+00 1.566e+00 Specific Conductance (µS/cm, 71°C) = 385 Density (g/cm³) = 0.98040 Volume (L) = 1.09836 - Viscosity (mPa s) = 0.39965 + Viscosity (mPa s) = 0.39966 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.931e-04 Mass of water (kg) = 9.994e-01 @@ -712,7 +712,7 @@ H2S(g) 1.79 6.119e+01 0.675 5.641e+00 7.656e+00 2.015e+00 Specific Conductance (µS/cm, 71°C) = 389 Density (g/cm³) = 0.98097 Volume (L) = 1.09929 - Viscosity (mPa s) = 0.39975 + Viscosity (mPa s) = 0.39976 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.022e-04 Mass of water (kg) = 9.985e-01 @@ -807,7 +807,7 @@ H2S(g) 1.79 6.105e+01 0.668 7.656e+00 9.697e+00 2.040e+00 Specific Conductance (µS/cm, 71°C) = 387 Density (g/cm³) = 0.98079 Volume (L) = 1.09741 - Viscosity (mPa s) = 0.39975 + Viscosity (mPa s) = 0.39976 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.976e-04 Mass of water (kg) = 9.978e-01 @@ -902,7 +902,7 @@ H2S(g) 1.78 6.089e+01 0.658 9.697e+00 1.175e+01 2.055e+00 Specific Conductance (µS/cm, 71°C) = 385 Density (g/cm³) = 0.98056 Volume (L) = 1.09492 - Viscosity (mPa s) = 0.39975 + Viscosity (mPa s) = 0.39976 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.913e-04 Mass of water (kg) = 9.970e-01 @@ -1184,7 +1184,7 @@ H2S(g) 2.13 1.363e+02 0.322 1.984e+01 2.094e+01 1.107e+00 pH = 3.167 Charge balance pe = -0.813 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 393 + Specific Conductance (µS/cm, 71°C) = 392 Density (g/cm³) = 0.98528 Volume (L) = 1.08412 Viscosity (mPa s) = 0.40181 diff --git a/mytest/H2S_71C_101.sel b/mytest/H2S_71C_101.sel index 4d4c24d4..3bfef7ba 100644 --- a/mytest/H2S_71C_101.sel +++ b/mytest/H2S_71C_101.sel @@ -1,15 +1,15 @@ Mu SC 0.000000100644 0.0547821292 0.000000100644 0.0547765045 - 0.000000412220 0.3518614368 - 0.000498448871 298.4150572592 - 0.000635543644 362.3884103762 - 0.000693143650 385.9203058146 - 0.000703830565 390.0920244518 - 0.000702208279 389.4889621665 - 0.000697625239 387.7772336350 - 0.000691319755 385.3967457778 - 0.000679294917 380.7735068351 - 0.000685587759 384.3763464764 - 0.000702846915 393.0048924021 - 0.000724948941 403.8777187301 + 0.000000412220 0.3518613225 + 0.000498448871 298.4084536539 + 0.000635543644 362.3793582205 + 0.000693143650 385.9102415519 + 0.000703830565 390.0817742153 + 0.000702208279 389.4787395911 + 0.000697625239 387.7670893064 + 0.000691319755 385.3867094654 + 0.000679294917 380.7636776695 + 0.000685587759 384.3663858912 + 0.000702846915 392.9945945872 + 0.000724948941 403.8669902892 diff --git a/mytest/H2S_Amm.out b/mytest/H2S_Amm.out index 6cb65a1d..a158b58d 100644 --- a/mytest/H2S_Amm.out +++ b/mytest/H2S_Amm.out @@ -947,7 +947,7 @@ H2Sg(g) -0.06 8.776e-01 0.994 0.000e+00 8.949e+00 8.949e+00 Specific Conductance (µS/cm, 50°C) = 56 Density (g/cm³) = 0.98772 Volume (L) = 0.99144 - Viscosity (mPa s) = 0.54653 + Viscosity (mPa s) = 0.54654 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.044e-04 Mass of water (kg) = 9.775e-01 @@ -1243,7 +1243,7 @@ H2Sg(g) -0.51 3.087e-01 0.997 0.000e+00 8.993e+00 8.993e+00 Specific Conductance (µS/cm, 90°C) = 41 Density (g/cm³) = 0.96521 Volume (L) = 0.66036 - Viscosity (mPa s) = 0.31418 + Viscosity (mPa s) = 0.31419 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.781e-05 Mass of water (kg) = 6.371e-01 @@ -1564,7 +1564,7 @@ H2Sg(g) 1.46 2.877e+01 0.867 0.000e+00 7.941e+00 7.941e+00 Specific Conductance (µS/cm, 90°C) = 351 Density (g/cm³) = 0.96349 Volume (L) = 1.07105 - Viscosity (mPa s) = 0.31501 + Viscosity (mPa s) = 0.31502 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.254e-04 Mass of water (kg) = 9.959e-01 @@ -1636,10 +1636,10 @@ H2Sg(g) 1.44 2.733e+01 0.894 0.000e+00 8.160e+00 8.160e+00 pH = 3.350 Charge balance pe = 8.543 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 353 + Specific Conductance (µS/cm, 120°C) = 352 Density (g/cm³) = 0.94118 Volume (L) = 1.07995 - Viscosity (mPa s) = 0.23282 + Viscosity (mPa s) = 0.23283 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.604e-04 Mass of water (kg) = 9.878e-01 @@ -1714,7 +1714,7 @@ H2Sg(g) 1.39 2.432e+01 0.917 0.000e+00 8.320e+00 8.320e+00 Specific Conductance (µS/cm, 150°C) = 307 Density (g/cm³) = 0.91491 Volume (L) = 1.08279 - Viscosity (mPa s) = 0.18328 + Viscosity (mPa s) = 0.18329 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.691e-04 Mass of water (kg) = 9.675e-01 @@ -1789,7 +1789,7 @@ H2Sg(g) 1.27 1.882e+01 0.938 0.000e+00 8.504e+00 8.504e+00 Specific Conductance (µS/cm, 180°C) = 230 Density (g/cm³) = 0.88466 Volume (L) = 1.05030 - Viscosity (mPa s) = 0.15088 + Viscosity (mPa s) = 0.15089 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.634e-04 Mass of water (kg) = 9.123e-01 @@ -1864,7 +1864,7 @@ H2Sg(g) 1.00 9.892e+00 0.966 0.000e+00 8.793e+00 8.793e+00 Specific Conductance (µS/cm, 210°C) = 134 Density (g/cm³) = 0.85065 Volume (L) = 0.81282 - Viscosity (mPa s) = 0.12818 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12819 (solute contributions limited to 200 °C) Activity of water = 0.995 Ionic strength (mol/kgw) = 1.492e-04 Mass of water (kg) = 6.844e-01 @@ -2037,7 +2037,7 @@ H2Sg(g) 1.69 4.899e+01 0.719 0.000e+00 6.735e+00 6.735e+00 Specific Conductance (µS/cm, 60°C) = 338 Density (g/cm³) = 0.98569 Volume (L) = 1.09206 - Viscosity (mPa s) = 0.46726 + Viscosity (mPa s) = 0.46727 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.596e-04 Mass of water (kg) = 9.992e-01 @@ -2112,7 +2112,7 @@ H2Sg(g) 1.68 4.833e+01 0.782 0.000e+00 7.274e+00 7.274e+00 Specific Conductance (µS/cm, 90°C) = 413 Density (g/cm³) = 0.96629 Volume (L) = 1.09307 - Viscosity (mPa s) = 0.31556 + Viscosity (mPa s) = 0.31557 Activity of water = 0.975 Ionic strength (mol/kgw) = 6.443e-04 Mass of water (kg) = 9.974e-01 @@ -2187,7 +2187,7 @@ H2Sg(g) 1.67 4.676e+01 0.827 0.000e+00 7.556e+00 7.556e+00 Specific Conductance (µS/cm, 120°C) = 426 Density (g/cm³) = 0.94362 Volume (L) = 1.10403 - Viscosity (mPa s) = 0.23336 + Viscosity (mPa s) = 0.23337 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.777e-04 Mass of water (kg) = 9.926e-01 @@ -2262,7 +2262,7 @@ H2Sg(g) 1.64 4.352e+01 0.862 0.000e+00 7.744e+00 7.744e+00 Specific Conductance (µS/cm, 150°C) = 384 Density (g/cm³) = 0.91698 Volume (L) = 1.11701 - Viscosity (mPa s) = 0.18379 + Viscosity (mPa s) = 0.18380 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.785e-04 Mass of water (kg) = 9.815e-01 @@ -2337,7 +2337,7 @@ H2Sg(g) 1.58 3.766e+01 0.892 0.000e+00 7.934e+00 7.934e+00 Specific Conductance (µS/cm, 180°C) = 306 Density (g/cm³) = 0.88597 Volume (L) = 1.11983 - Viscosity (mPa s) = 0.15137 + Viscosity (mPa s) = 0.15138 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.639e-04 Mass of water (kg) = 9.558e-01 @@ -2412,7 +2412,7 @@ H2Sg(g) 1.45 2.816e+01 0.923 0.000e+00 8.216e+00 8.216e+00 Specific Conductance (µS/cm, 210°C) = 212 Density (g/cm³) = 0.85023 Volume (L) = 1.07691 - Viscosity (mPa s) = 0.12870 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12871 (solute contributions limited to 200 °C) Activity of water = 0.986 Ionic strength (mol/kgw) = 2.475e-04 Mass of water (kg) = 8.889e-01 @@ -2487,7 +2487,7 @@ H2Sg(g) 1.15 1.428e+01 0.964 0.000e+00 8.696e+00 8.696e+00 Specific Conductance (µS/cm, 240°C) = 116 Density (g/cm³) = 0.81006 Volume (L) = 0.77276 - Viscosity (mPa s) = 0.11155 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11156 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 1.345e-04 Mass of water (kg) = 6.156e-01 @@ -2735,7 +2735,7 @@ H2Sg(g) 1.98 9.567e+01 0.535 0.000e+00 6.598e+00 6.598e+00 Specific Conductance (µS/cm, 90°C) = 457 Density (g/cm³) = 0.97248 Volume (L) = 1.10860 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31694 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.387e-04 Mass of water (kg) = 9.962e-01 @@ -2810,7 +2810,7 @@ H2Sg(g) 1.98 9.491e+01 0.667 0.000e+00 6.389e+00 6.389e+00 Specific Conductance (µS/cm, 120°C) = 507 Density (g/cm³) = 0.95309 Volume (L) = 1.13777 - Viscosity (mPa s) = 0.23470 + Viscosity (mPa s) = 0.23471 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.313e-04 Mass of water (kg) = 9.954e-01 @@ -2885,7 +2885,7 @@ H2Sg(g) 1.96 9.111e+01 0.736 0.000e+00 6.444e+00 6.444e+00 Specific Conductance (µS/cm, 150°C) = 476 Density (g/cm³) = 0.92781 Volume (L) = 1.16128 - Viscosity (mPa s) = 0.18507 + Viscosity (mPa s) = 0.18508 Activity of water = 0.964 Ionic strength (mol/kgw) = 6.355e-04 Mass of water (kg) = 9.903e-01 @@ -2960,7 +2960,7 @@ H2Sg(g) 1.93 8.431e+01 0.789 0.000e+00 6.534e+00 6.534e+00 Specific Conductance (µS/cm, 180°C) = 399 Density (g/cm³) = 0.89758 Volume (L) = 1.18537 - Viscosity (mPa s) = 0.15260 + Viscosity (mPa s) = 0.15261 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.111e-04 Mass of water (kg) = 9.799e-01 @@ -3035,7 +3035,7 @@ H2Sg(g) 1.87 7.349e+01 0.836 0.000e+00 6.722e+00 6.722e+00 Specific Conductance (µS/cm, 210°C) = 301 Density (g/cm³) = 0.86139 Volume (L) = 1.20283 - Viscosity (mPa s) = 0.12998 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13000 (solute contributions limited to 200 °C) Activity of water = 0.966 Ionic strength (mol/kgw) = 3.819e-04 Mass of water (kg) = 9.585e-01 @@ -3110,7 +3110,7 @@ H2Sg(g) 1.76 5.774e+01 0.883 0.000e+00 7.112e+00 7.112e+00 Specific Conductance (µS/cm, 240°C) = 205 Density (g/cm³) = 0.81756 Volume (L) = 1.19067 - Viscosity (mPa s) = 0.11294 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11295 (solute contributions limited to 200 °C) Activity of water = 0.969 Ionic strength (mol/kgw) = 2.627e-04 Mass of water (kg) = 9.091e-01 @@ -3185,7 +3185,7 @@ H2Sg(g) 1.56 3.663e+01 0.940 0.000e+00 7.859e+00 7.859e+00 Specific Conductance (µS/cm, 270°C) = 122 Density (g/cm³) = 0.76434 Volume (L) = 1.04534 - Viscosity (mPa s) = 0.09909 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09910 (solute contributions limited to 200 °C) Activity of water = 0.977 Ionic strength (mol/kgw) = 1.601e-04 Mass of water (kg) = 7.601e-01 @@ -3260,7 +3260,7 @@ H2Sg(g) 1.18 1.529e+01 1.006 0.000e+00 8.913e+00 8.913e+00 Specific Conductance (µS/cm, 295°C) = 63 Density (g/cm³) = 0.71455 Volume (L) = 0.17801 - Viscosity (mPa s) = 0.08860 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08861 (solute contributions limited to 200 °C) Activity of water = 0.989 Ionic strength (mol/kgw) = 8.365e-05 Mass of water (kg) = 1.242e-01 @@ -3508,7 +3508,7 @@ H2Sg(g) 2.16 1.432e+02 0.391 0.000e+00 6.457e+00 6.457e+00 Specific Conductance (µS/cm, 90°C) = 468 Density (g/cm³) = 0.97621 Volume (L) = 1.10917 - Viscosity (mPa s) = 0.31828 + Viscosity (mPa s) = 0.31829 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.604e-04 Mass of water (kg) = 9.961e-01 @@ -3583,7 +3583,7 @@ H2Sg(g) 2.15 1.405e+02 0.523 0.000e+00 5.975e+00 5.975e+00 Specific Conductance (µS/cm, 120°C) = 529 Density (g/cm³) = 0.95924 Volume (L) = 1.14394 - Viscosity (mPa s) = 0.23602 + Viscosity (mPa s) = 0.23603 Activity of water = 0.959 Ionic strength (mol/kgw) = 7.773e-04 Mass of water (kg) = 9.942e-01 @@ -3658,7 +3658,7 @@ H2Sg(g) 2.14 1.368e+02 0.626 0.000e+00 5.579e+00 5.579e+00 Specific Conductance (µS/cm, 150°C) = 513 Density (g/cm³) = 0.93844 Volume (L) = 1.18110 - Viscosity (mPa s) = 0.18632 + Viscosity (mPa s) = 0.18633 Activity of water = 0.954 Ionic strength (mol/kgw) = 7.116e-04 Mass of water (kg) = 9.918e-01 @@ -3733,7 +3733,7 @@ H2Sg(g) 2.11 1.294e+02 0.702 0.000e+00 5.369e+00 5.369e+00 Specific Conductance (µS/cm, 180°C) = 442 Density (g/cm³) = 0.91227 Volume (L) = 1.21659 - Viscosity (mPa s) = 0.15382 + Viscosity (mPa s) = 0.15383 Activity of water = 0.951 Ionic strength (mol/kgw) = 5.937e-04 Mass of water (kg) = 9.861e-01 @@ -3808,7 +3808,7 @@ H2Sg(g) 2.07 1.173e+02 0.764 0.000e+00 5.318e+00 5.318e+00 Specific Conductance (µS/cm, 210°C) = 345 Density (g/cm³) = 0.88004 Volume (L) = 1.25042 - Viscosity (mPa s) = 0.13124 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13126 (solute contributions limited to 200 °C) Activity of water = 0.949 Ionic strength (mol/kgw) = 4.611e-04 Mass of water (kg) = 9.749e-01 @@ -3883,7 +3883,7 @@ H2Sg(g) 2.00 9.984e+01 0.822 0.000e+00 5.495e+00 5.495e+00 Specific Conductance (µS/cm, 240°C) = 248 Density (g/cm³) = 0.83984 Volume (L) = 1.27607 - Viscosity (mPa s) = 0.11427 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11428 (solute contributions limited to 200 °C) Activity of water = 0.948 Ionic strength (mol/kgw) = 3.357e-04 Mass of water (kg) = 9.522e-01 @@ -3958,7 +3958,7 @@ H2Sg(g) 1.88 7.652e+01 0.885 0.000e+00 6.049e+00 6.049e+00 Specific Conductance (µS/cm, 270°C) = 164 Density (g/cm³) = 0.78835 Volume (L) = 1.26692 - Viscosity (mPa s) = 0.10063 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10065 (solute contributions limited to 200 °C) Activity of water = 0.952 Ionic strength (mol/kgw) = 2.288e-04 Mass of water (kg) = 8.982e-01 @@ -4033,7 +4033,7 @@ H2Sg(g) 1.68 4.748e+01 0.966 0.000e+00 7.260e+00 7.260e+00 Specific Conductance (µS/cm, 300°C) = 99 Density (g/cm³) = 0.72150 Volume (L) = 1.08442 - Viscosity (mPa s) = 0.08842 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08843 (solute contributions limited to 200 °C) Activity of water = 0.964 Ionic strength (mol/kgw) = 1.439e-04 Mass of water (kg) = 7.231e-01 @@ -4281,7 +4281,7 @@ H2Sg(g) 2.28 1.909e+02 0.319 0.000e+00 6.329e+00 6.329e+00 Specific Conductance (µS/cm, 90°C) = 478 Density (g/cm³) = 0.97967 Volume (L) = 1.10970 - Viscosity (mPa s) = 0.31962 + Viscosity (mPa s) = 0.31963 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.801e-04 Mass of water (kg) = 9.961e-01 @@ -4356,7 +4356,7 @@ H2Sg(g) 2.27 1.867e+02 0.434 0.000e+00 5.727e+00 5.727e+00 Specific Conductance (µS/cm, 120°C) = 542 Density (g/cm³) = 0.96403 Volume (L) = 1.14688 - Viscosity (mPa s) = 0.23732 + Viscosity (mPa s) = 0.23733 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.050e-04 Mass of water (kg) = 9.941e-01 @@ -4431,7 +4431,7 @@ H2Sg(g) 2.26 1.810e+02 0.541 0.000e+00 5.070e+00 5.070e+00 Specific Conductance (µS/cm, 150°C) = 531 Density (g/cm³) = 0.94634 Volume (L) = 1.18947 - Viscosity (mPa s) = 0.18756 + Viscosity (mPa s) = 0.18758 Activity of water = 0.949 Ionic strength (mol/kgw) = 7.524e-04 Mass of water (kg) = 9.917e-01 @@ -4506,7 +4506,7 @@ H2Sg(g) 2.24 1.725e+02 0.630 0.000e+00 4.498e+00 4.498e+00 Specific Conductance (µS/cm, 180°C) = 465 Density (g/cm³) = 0.92526 Volume (L) = 1.23394 - Viscosity (mPa s) = 0.15502 + Viscosity (mPa s) = 0.15504 Activity of water = 0.941 Ionic strength (mol/kgw) = 6.451e-04 Mass of water (kg) = 9.883e-01 @@ -4581,7 +4581,7 @@ H2Sg(g) 2.20 1.592e+02 0.705 0.000e+00 4.097e+00 4.097e+00 Specific Conductance (µS/cm, 210°C) = 370 Density (g/cm³) = 0.89948 Volume (L) = 1.27783 - Viscosity (mPa s) = 0.13249 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13250 (solute contributions limited to 200 °C) Activity of water = 0.935 Ionic strength (mol/kgw) = 5.148e-04 Mass of water (kg) = 9.823e-01 @@ -4656,7 +4656,7 @@ H2Sg(g) 2.15 1.401e+02 0.773 0.000e+00 3.930e+00 3.930e+00 Specific Conductance (µS/cm, 240°C) = 275 Density (g/cm³) = 0.86764 Volume (L) = 1.31832 - Viscosity (mPa s) = 0.11556 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11558 (solute contributions limited to 200 °C) Activity of water = 0.931 Ionic strength (mol/kgw) = 3.872e-04 Mass of water (kg) = 9.710e-01 @@ -4731,7 +4731,7 @@ H2Sg(g) 2.06 1.148e+02 0.844 0.000e+00 4.114e+00 4.114e+00 Specific Conductance (µS/cm, 270°C) = 193 Density (g/cm³) = 0.82820 Volume (L) = 1.34415 - Viscosity (mPa s) = 0.10211 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10212 (solute contributions limited to 200 °C) Activity of water = 0.930 Ionic strength (mol/kgw) = 2.773e-04 Mass of water (kg) = 9.467e-01 @@ -4806,7 +4806,7 @@ H2Sg(g) 1.92 8.351e+01 0.929 0.000e+00 4.886e+00 4.886e+00 Specific Conductance (µS/cm, 300°C) = 133 Density (g/cm³) = 0.78380 Volume (L) = 1.30154 - Viscosity (mPa s) = 0.09022 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09023 (solute contributions limited to 200 °C) Activity of water = 0.936 Ionic strength (mol/kgw) = 1.922e-04 Mass of water (kg) = 8.800e-01 @@ -4979,7 +4979,7 @@ H2Sg(g) 2.38 2.421e+02 0.184 0.000e+00 6.691e+00 6.691e+00 Specific Conductance (µS/cm, 60°C) = 356 Density (g/cm³) = 0.99678 Volume (L) = 1.07990 - Viscosity (mPa s) = 0.47212 + Viscosity (mPa s) = 0.47213 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.875e-04 Mass of water (kg) = 9.977e-01 @@ -5129,7 +5129,7 @@ H2Sg(g) 2.37 2.330e+02 0.380 0.000e+00 5.509e+00 5.509e+00 Specific Conductance (µS/cm, 120°C) = 552 Density (g/cm³) = 0.96831 Volume (L) = 1.14958 - Viscosity (mPa s) = 0.23861 + Viscosity (mPa s) = 0.23862 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.292e-04 Mass of water (kg) = 9.942e-01 @@ -5204,7 +5204,7 @@ H2Sg(g) 2.35 2.253e+02 0.482 0.000e+00 4.673e+00 4.673e+00 Specific Conductance (µS/cm, 150°C) = 544 Density (g/cm³) = 0.95292 Volume (L) = 1.19576 - Viscosity (mPa s) = 0.18879 + Viscosity (mPa s) = 0.18881 Activity of water = 0.945 Ionic strength (mol/kgw) = 7.831e-04 Mass of water (kg) = 9.920e-01 @@ -5279,7 +5279,7 @@ H2Sg(g) 2.33 2.146e+02 0.575 0.000e+00 3.816e+00 3.816e+00 Specific Conductance (µS/cm, 180°C) = 479 Density (g/cm³) = 0.93615 Volume (L) = 1.24595 - Viscosity (mPa s) = 0.15621 + Viscosity (mPa s) = 0.15623 Activity of water = 0.934 Ionic strength (mol/kgw) = 6.818e-04 Mass of water (kg) = 9.897e-01 @@ -5354,7 +5354,7 @@ H2Sg(g) 2.30 1.994e+02 0.658 0.000e+00 3.046e+00 3.046e+00 Specific Conductance (µS/cm, 210°C) = 387 Density (g/cm³) = 0.91728 Volume (L) = 1.29719 - Viscosity (mPa s) = 0.13375 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13376 (solute contributions limited to 200 °C) Activity of water = 0.924 Ionic strength (mol/kgw) = 5.545e-04 Mass of water (kg) = 9.870e-01 @@ -5429,7 +5429,7 @@ H2Sg(g) 2.25 1.785e+02 0.735 0.000e+00 2.447e+00 2.447e+00 Specific Conductance (µS/cm, 240°C) = 294 Density (g/cm³) = 0.89617 Volume (L) = 1.34626 - Viscosity (mPa s) = 0.11682 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11683 (solute contributions limited to 200 °C) Activity of water = 0.915 Ionic strength (mol/kgw) = 4.266e-04 Mass of water (kg) = 9.832e-01 @@ -5504,7 +5504,7 @@ H2Sg(g) 2.18 1.516e+02 0.812 0.000e+00 2.081e+00 2.081e+00 Specific Conductance (µS/cm, 270°C) = 217 Density (g/cm³) = 0.87570 Volume (L) = 1.38433 - Viscosity (mPa s) = 0.10351 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10353 (solute contributions limited to 200 °C) Activity of water = 0.908 Ionic strength (mol/kgw) = 3.152e-04 Mass of water (kg) = 9.765e-01 @@ -5579,7 +5579,7 @@ H2Sg(g) 2.08 1.191e+02 0.899 0.000e+00 1.945e+00 1.945e+00 Specific Conductance (µS/cm, 300°C) = 169 Density (g/cm³) = 0.87979 Volume (L) = 1.36729 - Viscosity (mPa s) = 0.09190 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09192 (solute contributions limited to 200 °C) Activity of water = 0.906 Ionic strength (mol/kgw) = 2.298e-04 Mass of water (kg) = 9.625e-01 @@ -5752,7 +5752,7 @@ H2Sg(g) 2.46 2.906e+02 0.165 0.000e+00 6.627e+00 6.627e+00 Specific Conductance (µS/cm, 60°C) = 362 Density (g/cm³) = 0.99938 Volume (L) = 1.07928 - Viscosity (mPa s) = 0.47336 + Viscosity (mPa s) = 0.47337 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.006e-04 Mass of water (kg) = 9.978e-01 @@ -5827,7 +5827,7 @@ H2Sg(g) 2.46 2.862e+02 0.249 0.000e+00 6.098e+00 6.098e+00 Specific Conductance (µS/cm, 90°C) = 495 Density (g/cm³) = 0.98580 Volume (L) = 1.11087 - Viscosity (mPa s) = 0.32229 + Viscosity (mPa s) = 0.32230 Activity of water = 0.961 Ionic strength (mol/kgw) = 8.163e-04 Mass of water (kg) = 9.962e-01 @@ -5902,7 +5902,7 @@ H2Sg(g) 2.45 2.795e+02 0.343 0.000e+00 5.307e+00 5.307e+00 Specific Conductance (µS/cm, 120°C) = 562 Density (g/cm³) = 0.97217 Volume (L) = 1.15226 - Viscosity (mPa s) = 0.23989 + Viscosity (mPa s) = 0.23990 Activity of water = 0.952 Ionic strength (mol/kgw) = 8.516e-04 Mass of water (kg) = 9.943e-01 @@ -5977,7 +5977,7 @@ H2Sg(g) 2.43 2.700e+02 0.440 0.000e+00 4.316e+00 4.316e+00 Specific Conductance (µS/cm, 150°C) = 554 Density (g/cm³) = 0.95872 Volume (L) = 1.20172 - Viscosity (mPa s) = 0.19001 + Viscosity (mPa s) = 0.19003 Activity of water = 0.941 Ionic strength (mol/kgw) = 8.099e-04 Mass of water (kg) = 9.925e-01 @@ -6052,7 +6052,7 @@ H2Sg(g) 2.41 2.569e+02 0.534 0.000e+00 3.214e+00 3.214e+00 Specific Conductance (µS/cm, 180°C) = 490 Density (g/cm³) = 0.94562 Volume (L) = 1.25670 - Viscosity (mPa s) = 0.15739 + Viscosity (mPa s) = 0.15740 Activity of water = 0.928 Ionic strength (mol/kgw) = 7.123e-04 Mass of water (kg) = 9.912e-01 @@ -6127,7 +6127,7 @@ H2Sg(g) 2.38 2.393e+02 0.621 0.000e+00 2.093e+00 2.093e+00 Specific Conductance (µS/cm, 210°C) = 398 Density (g/cm³) = 0.93325 Volume (L) = 1.31415 - Viscosity (mPa s) = 0.13510 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13512 (solute contributions limited to 200 °C) Activity of water = 0.914 Ionic strength (mol/kgw) = 5.869e-04 Mass of water (kg) = 9.910e-01 @@ -6375,7 +6375,7 @@ H2Sg(g) 2.52 3.339e+02 0.230 0.000e+00 5.994e+00 5.994e+00 Specific Conductance (µS/cm, 90°C) = 502 Density (g/cm³) = 0.98850 Volume (L) = 1.11151 - Viscosity (mPa s) = 0.32361 + Viscosity (mPa s) = 0.32362 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.334e-04 Mass of water (kg) = 9.963e-01 @@ -6450,7 +6450,7 @@ H2Sg(g) 2.51 3.260e+02 0.318 0.000e+00 5.118e+00 5.118e+00 Specific Conductance (µS/cm, 120°C) = 570 Density (g/cm³) = 0.97563 Volume (L) = 1.15496 - Viscosity (mPa s) = 0.24116 + Viscosity (mPa s) = 0.24117 Activity of water = 0.950 Ionic strength (mol/kgw) = 8.728e-04 Mass of water (kg) = 9.945e-01 @@ -6525,7 +6525,7 @@ H2Sg(g) 2.50 3.148e+02 0.411 0.000e+00 3.985e+00 3.985e+00 Specific Conductance (µS/cm, 150°C) = 562 Density (g/cm³) = 0.96382 Volume (L) = 1.20764 - Viscosity (mPa s) = 0.19122 + Viscosity (mPa s) = 0.19123 Activity of water = 0.938 Ionic strength (mol/kgw) = 8.346e-04 Mass of water (kg) = 9.930e-01 @@ -6600,7 +6600,7 @@ H2Sg(g) 2.48 2.995e+02 0.502 0.000e+00 2.655e+00 2.655e+00 Specific Conductance (µS/cm, 180°C) = 498 Density (g/cm³) = 0.95394 Volume (L) = 1.26727 - Viscosity (mPa s) = 0.15855 + Viscosity (mPa s) = 0.15857 Activity of water = 0.922 Ionic strength (mol/kgw) = 7.394e-04 Mass of water (kg) = 9.927e-01 @@ -6773,7 +6773,7 @@ H2Sg(g) 2.59 3.876e+02 0.144 0.000e+00 6.512e+00 6.512e+00 Specific Conductance (µS/cm, 60°C) = 374 Density (g/cm³) = 1.00414 Volume (L) = 1.07815 - Viscosity (mPa s) = 0.47586 + Viscosity (mPa s) = 0.47587 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.262e-04 Mass of water (kg) = 9.978e-01 @@ -6848,7 +6848,7 @@ H2Sg(g) 2.58 3.817e+02 0.217 0.000e+00 5.896e+00 5.896e+00 Specific Conductance (µS/cm, 90°C) = 510 Density (g/cm³) = 0.99097 Volume (L) = 1.11216 - Viscosity (mPa s) = 0.32494 + Viscosity (mPa s) = 0.32495 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.500e-04 Mass of water (kg) = 9.963e-01 @@ -6923,7 +6923,7 @@ H2Sg(g) 2.57 3.727e+02 0.300 0.000e+00 4.942e+00 4.942e+00 Specific Conductance (µS/cm, 120°C) = 578 Density (g/cm³) = 0.97871 Volume (L) = 1.15768 - Viscosity (mPa s) = 0.24243 + Viscosity (mPa s) = 0.24244 Activity of water = 0.949 Ionic strength (mol/kgw) = 8.931e-04 Mass of water (kg) = 9.947e-01 @@ -6998,7 +6998,7 @@ H2Sg(g) 2.56 3.599e+02 0.389 0.000e+00 3.672e+00 3.672e+00 Specific Conductance (µS/cm, 150°C) = 569 Density (g/cm³) = 0.96830 Volume (L) = 1.21362 - Viscosity (mPa s) = 0.19242 + Viscosity (mPa s) = 0.19243 Activity of water = 0.934 Ionic strength (mol/kgw) = 8.578e-04 Mass of water (kg) = 9.936e-01 @@ -7073,7 +7073,7 @@ H2Sg(g) 2.53 3.426e+02 0.479 0.000e+00 2.124e+00 2.124e+00 Specific Conductance (µS/cm, 180°C) = 504 Density (g/cm³) = 0.96124 Volume (L) = 1.27805 - Viscosity (mPa s) = 0.15971 + Viscosity (mPa s) = 0.15972 Activity of water = 0.917 Ionic strength (mol/kgw) = 7.645e-04 Mass of water (kg) = 9.942e-01 @@ -7321,7 +7321,7 @@ H2Sg(g) 2.63 4.294e+02 0.207 0.000e+00 5.806e+00 5.806e+00 Specific Conductance (µS/cm, 90°C) = 517 Density (g/cm³) = 0.99323 Volume (L) = 1.11280 - Viscosity (mPa s) = 0.32626 + Viscosity (mPa s) = 0.32627 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.663e-04 Mass of water (kg) = 9.964e-01 @@ -7396,7 +7396,7 @@ H2Sg(g) 2.62 4.194e+02 0.287 0.000e+00 4.777e+00 4.777e+00 Specific Conductance (µS/cm, 120°C) = 585 Density (g/cm³) = 0.98143 Volume (L) = 1.16039 - Viscosity (mPa s) = 0.24369 + Viscosity (mPa s) = 0.24370 Activity of water = 0.947 Ionic strength (mol/kgw) = 9.128e-04 Mass of water (kg) = 9.949e-01 @@ -7471,7 +7471,7 @@ H2Sg(g) 2.61 4.051e+02 0.373 0.000e+00 3.378e+00 3.378e+00 Specific Conductance (µS/cm, 150°C) = 575 Density (g/cm³) = 0.97218 Volume (L) = 1.21965 - Viscosity (mPa s) = 0.19361 + Viscosity (mPa s) = 0.19362 Activity of water = 0.932 Ionic strength (mol/kgw) = 8.800e-04 Mass of water (kg) = 9.941e-01 @@ -7546,7 +7546,7 @@ H2Sg(g) 2.59 3.859e+02 0.461 0.000e+00 1.617e+00 1.617e+00 Specific Conductance (µS/cm, 180°C) = 508 Density (g/cm³) = 0.96754 Volume (L) = 1.28905 - Viscosity (mPa s) = 0.16085 + Viscosity (mPa s) = 0.16087 Activity of water = 0.912 Ionic strength (mol/kgw) = 7.882e-04 Mass of water (kg) = 9.956e-01 @@ -7644,7 +7644,7 @@ H2Sg(g) 2.69 4.891e+02 0.079 0.000e+00 6.658e+00 6.658e+00 Specific Conductance (µS/cm, 30°C) = 222 Density (g/cm³) = 1.02326 Volume (L) = 1.05419 - Viscosity (mPa s) = 0.79928 + Viscosity (mPa s) = 0.79929 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.623e-04 Mass of water (kg) = 9.989e-01 @@ -7719,7 +7719,7 @@ H2Sg(g) 2.69 4.846e+02 0.133 0.000e+00 6.411e+00 6.411e+00 Specific Conductance (µS/cm, 60°C) = 386 Density (g/cm³) = 1.00841 Volume (L) = 1.07703 - Viscosity (mPa s) = 0.47840 + Viscosity (mPa s) = 0.47841 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.510e-04 Mass of water (kg) = 9.979e-01 @@ -7794,7 +7794,7 @@ H2Sg(g) 2.68 4.773e+02 0.200 0.000e+00 5.724e+00 5.724e+00 Specific Conductance (µS/cm, 90°C) = 524 Density (g/cm³) = 0.99530 Volume (L) = 1.11338 - Viscosity (mPa s) = 0.32758 + Viscosity (mPa s) = 0.32759 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.822e-04 Mass of water (kg) = 9.965e-01 @@ -7869,7 +7869,7 @@ H2Sg(g) 2.67 4.662e+02 0.277 0.000e+00 4.625e+00 4.625e+00 Specific Conductance (µS/cm, 120°C) = 592 Density (g/cm³) = 0.98382 Volume (L) = 1.16305 - Viscosity (mPa s) = 0.24494 + Viscosity (mPa s) = 0.24495 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.319e-04 Mass of water (kg) = 9.951e-01 @@ -7944,7 +7944,7 @@ H2Sg(g) 2.65 4.505e+02 0.361 0.000e+00 3.102e+00 3.102e+00 Specific Conductance (µS/cm, 150°C) = 580 Density (g/cm³) = 0.97550 Volume (L) = 1.22569 - Viscosity (mPa s) = 0.19479 + Viscosity (mPa s) = 0.19481 Activity of water = 0.929 Ionic strength (mol/kgw) = 9.014e-04 Mass of water (kg) = 9.947e-01 @@ -8019,7 +8019,7 @@ H2Sg(g) 2.63 4.296e+02 0.447 0.000e+00 1.132e+00 1.132e+00 Specific Conductance (µS/cm, 180°C) = 511 Density (g/cm³) = 0.97292 Volume (L) = 1.30030 - Viscosity (mPa s) = 0.16198 + Viscosity (mPa s) = 0.16200 Activity of water = 0.907 Ionic strength (mol/kgw) = 8.107e-04 Mass of water (kg) = 9.970e-01 @@ -8264,10 +8264,10 @@ H2Sg(g) 2.72 5.251e+02 0.195 0.000e+00 5.649e+00 5.649e+00 pH = 3.062 Charge balance pe = 10.402 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 531 + Specific Conductance (µS/cm, 90°C) = 530 Density (g/cm³) = 0.99719 Volume (L) = 1.11389 - Viscosity (mPa s) = 0.32890 + Viscosity (mPa s) = 0.32891 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.979e-04 Mass of water (kg) = 9.966e-01 @@ -8342,7 +8342,7 @@ H2Sg(g) 2.71 5.130e+02 0.270 0.000e+00 4.486e+00 4.486e+00 Specific Conductance (µS/cm, 120°C) = 598 Density (g/cm³) = 0.98590 Volume (L) = 1.16560 - Viscosity (mPa s) = 0.24619 + Viscosity (mPa s) = 0.24620 Activity of water = 0.944 Ionic strength (mol/kgw) = 9.505e-04 Mass of water (kg) = 9.953e-01 @@ -8417,7 +8417,7 @@ H2Sg(g) 2.70 4.960e+02 0.352 0.000e+00 2.845e+00 2.845e+00 Specific Conductance (µS/cm, 150°C) = 585 Density (g/cm³) = 0.97829 Volume (L) = 1.23167 - Viscosity (mPa s) = 0.19597 + Viscosity (mPa s) = 0.19598 Activity of water = 0.926 Ionic strength (mol/kgw) = 9.220e-04 Mass of water (kg) = 9.952e-01 @@ -8492,7 +8492,7 @@ H2Sg(g) 2.68 4.735e+02 0.437 0.000e+00 6.733e-01 6.733e-01 Specific Conductance (µS/cm, 180°C) = 514 Density (g/cm³) = 0.97740 Volume (L) = 1.31165 - Viscosity (mPa s) = 0.16310 + Viscosity (mPa s) = 0.16312 Activity of water = 0.903 Ionic strength (mol/kgw) = 8.324e-04 Mass of water (kg) = 9.982e-01 @@ -8665,7 +8665,7 @@ H2Sg(g) 2.76 5.816e+02 0.127 0.000e+00 6.328e+00 6.328e+00 Specific Conductance (µS/cm, 60°C) = 397 Density (g/cm³) = 1.01230 Volume (L) = 1.07577 - Viscosity (mPa s) = 0.48098 + Viscosity (mPa s) = 0.48099 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.754e-04 Mass of water (kg) = 9.979e-01 @@ -8815,7 +8815,7 @@ H2Sg(g) 2.75 5.599e+02 0.265 0.000e+00 4.359e+00 4.359e+00 Specific Conductance (µS/cm, 120°C) = 604 Density (g/cm³) = 0.98772 Volume (L) = 1.16801 - Viscosity (mPa s) = 0.24743 + Viscosity (mPa s) = 0.24744 Activity of water = 0.942 Ionic strength (mol/kgw) = 9.688e-04 Mass of water (kg) = 9.955e-01 @@ -8890,7 +8890,7 @@ H2Sg(g) 2.73 5.416e+02 0.345 0.000e+00 2.607e+00 2.607e+00 Specific Conductance (µS/cm, 150°C) = 589 Density (g/cm³) = 0.98060 Volume (L) = 1.23750 - Viscosity (mPa s) = 0.19713 + Viscosity (mPa s) = 0.19715 Activity of water = 0.924 Ionic strength (mol/kgw) = 9.422e-04 Mass of water (kg) = 9.956e-01 @@ -8965,7 +8965,7 @@ H2Sg(g) 2.71 5.176e+02 0.429 0.000e+00 2.401e-01 2.401e-01 Specific Conductance (µS/cm, 180°C) = 515 Density (g/cm³) = 0.98103 Volume (L) = 1.32302 - Viscosity (mPa s) = 0.16421 + Viscosity (mPa s) = 0.16423 Activity of water = 0.899 Ionic strength (mol/kgw) = 8.533e-04 Mass of water (kg) = 9.994e-01 @@ -9288,7 +9288,7 @@ H2Sg(g) 2.78 6.070e+02 0.261 0.000e+00 4.245e+00 4.245e+00 Specific Conductance (µS/cm, 120°C) = 610 Density (g/cm³) = 0.98929 Volume (L) = 1.17023 - Viscosity (mPa s) = 0.24867 + Viscosity (mPa s) = 0.24868 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.868e-04 Mass of water (kg) = 9.957e-01 @@ -9363,7 +9363,7 @@ H2Sg(g) 2.77 5.875e+02 0.341 0.000e+00 2.389e+00 2.389e+00 Specific Conductance (µS/cm, 150°C) = 593 Density (g/cm³) = 0.98247 Volume (L) = 1.24314 - Viscosity (mPa s) = 0.19829 + Viscosity (mPa s) = 0.19831 Activity of water = 0.922 Ionic strength (mol/kgw) = 9.618e-04 Mass of water (kg) = 9.960e-01 @@ -9611,7 +9611,7 @@ H2Sg(g) 2.83 6.689e+02 0.187 0.000e+00 5.471e+00 5.471e+00 Specific Conductance (µS/cm, 90°C) = 550 Density (g/cm³) = 1.00209 Volume (L) = 1.11471 - Viscosity (mPa s) = 0.33285 + Viscosity (mPa s) = 0.33286 Activity of water = 0.954 Ionic strength (mol/kgw) = 9.438e-04 Mass of water (kg) = 9.968e-01 @@ -9686,7 +9686,7 @@ H2Sg(g) 2.82 6.541e+02 0.259 0.000e+00 4.145e+00 4.145e+00 Specific Conductance (µS/cm, 120°C) = 616 Density (g/cm³) = 0.99066 Volume (L) = 1.17222 - Viscosity (mPa s) = 0.24990 + Viscosity (mPa s) = 0.24992 Activity of water = 0.940 Ionic strength (mol/kgw) = 1.004e-03 Mass of water (kg) = 9.958e-01 @@ -9761,7 +9761,7 @@ H2Sg(g) 2.80 6.334e+02 0.337 0.000e+00 2.191e+00 2.191e+00 Specific Conductance (µS/cm, 150°C) = 596 Density (g/cm³) = 0.98395 Volume (L) = 1.24849 - Viscosity (mPa s) = 0.19945 + Viscosity (mPa s) = 0.19946 Activity of water = 0.919 Ionic strength (mol/kgw) = 9.811e-04 Mass of water (kg) = 9.964e-01 @@ -10009,7 +10009,7 @@ H2Sg(g) 2.86 7.169e+02 0.187 0.000e+00 5.427e+00 5.427e+00 Specific Conductance (µS/cm, 90°C) = 557 Density (g/cm³) = 1.00353 Volume (L) = 1.11467 - Viscosity (mPa s) = 0.33417 + Viscosity (mPa s) = 0.33418 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.588e-04 Mass of water (kg) = 9.968e-01 @@ -10084,7 +10084,7 @@ H2Sg(g) 2.85 7.013e+02 0.258 0.000e+00 4.057e+00 4.057e+00 Specific Conductance (µS/cm, 120°C) = 622 Density (g/cm³) = 0.99186 Volume (L) = 1.17396 - Viscosity (mPa s) = 0.25114 + Viscosity (mPa s) = 0.25115 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.022e-03 Mass of water (kg) = 9.959e-01 @@ -10159,7 +10159,7 @@ H2Sg(g) 2.83 6.795e+02 0.336 0.000e+00 2.015e+00 2.015e+00 Specific Conductance (µS/cm, 150°C) = 600 Density (g/cm³) = 0.98510 Volume (L) = 1.25350 - Viscosity (mPa s) = 0.20060 + Viscosity (mPa s) = 0.20061 Activity of water = 0.918 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 9.968e-01 @@ -10332,7 +10332,7 @@ H2Sg(g) 2.89 7.760e+02 0.125 0.000e+00 6.205e+00 6.205e+00 Specific Conductance (µS/cm, 60°C) = 419 Density (g/cm³) = 1.01946 Volume (L) = 1.07243 - Viscosity (mPa s) = 0.48627 + Viscosity (mPa s) = 0.48628 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.231e-04 Mass of water (kg) = 9.981e-01 @@ -10482,7 +10482,7 @@ H2Sg(g) 2.87 7.485e+02 0.258 0.000e+00 3.982e+00 3.982e+00 Specific Conductance (µS/cm, 120°C) = 628 Density (g/cm³) = 0.99292 Volume (L) = 1.17540 - Viscosity (mPa s) = 0.25236 + Viscosity (mPa s) = 0.25237 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.039e-03 Mass of water (kg) = 9.961e-01 @@ -10557,7 +10557,7 @@ H2Sg(g) 2.86 7.257e+02 0.335 0.000e+00 1.859e+00 1.859e+00 Specific Conductance (µS/cm, 150°C) = 603 Density (g/cm³) = 0.98595 Volume (L) = 1.25809 - Viscosity (mPa s) = 0.20174 + Viscosity (mPa s) = 0.20175 Activity of water = 0.916 Ionic strength (mol/kgw) = 1.019e-03 Mass of water (kg) = 9.971e-01 @@ -10805,7 +10805,7 @@ H2Sg(g) 2.94 8.612e+02 0.188 0.000e+00 5.334e+00 5.334e+00 Specific Conductance (µS/cm, 90°C) = 577 Density (g/cm³) = 1.00757 Volume (L) = 1.11351 - Viscosity (mPa s) = 0.33812 + Viscosity (mPa s) = 0.33813 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.003e-03 Mass of water (kg) = 9.970e-01 @@ -10880,7 +10880,7 @@ H2Sg(g) 2.93 8.432e+02 0.259 0.000e+00 3.869e+00 3.869e+00 Specific Conductance (µS/cm, 120°C) = 640 Density (g/cm³) = 0.99473 Volume (L) = 1.17734 - Viscosity (mPa s) = 0.25480 + Viscosity (mPa s) = 0.25481 Activity of water = 0.936 Ionic strength (mol/kgw) = 1.073e-03 Mass of water (kg) = 9.963e-01 @@ -10955,7 +10955,7 @@ H2Sg(g) 2.91 8.184e+02 0.337 0.000e+00 1.610e+00 1.610e+00 Specific Conductance (µS/cm, 150°C) = 611 Density (g/cm³) = 0.98697 Volume (L) = 1.26586 - Viscosity (mPa s) = 0.20400 + Viscosity (mPa s) = 0.20402 Activity of water = 0.913 Ionic strength (mol/kgw) = 1.055e-03 Mass of water (kg) = 9.975e-01 @@ -11203,7 +11203,7 @@ H2Sg(g) 2.98 9.575e+02 0.192 0.000e+00 5.300e+00 5.300e+00 Specific Conductance (µS/cm, 90°C) = 591 Density (g/cm³) = 1.01021 Volume (L) = 1.11183 - Viscosity (mPa s) = 0.34074 + Viscosity (mPa s) = 0.34075 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.032e-03 Mass of water (kg) = 9.971e-01 @@ -11278,7 +11278,7 @@ H2Sg(g) 2.97 9.381e+02 0.264 0.000e+00 3.800e+00 3.800e+00 Specific Conductance (µS/cm, 120°C) = 653 Density (g/cm³) = 0.99633 Volume (L) = 1.17797 - Viscosity (mPa s) = 0.25721 + Viscosity (mPa s) = 0.25723 Activity of water = 0.935 Ionic strength (mol/kgw) = 1.106e-03 Mass of water (kg) = 9.964e-01 @@ -11353,7 +11353,7 @@ H2Sg(g) 2.96 9.115e+02 0.341 0.000e+00 1.440e+00 1.440e+00 Specific Conductance (µS/cm, 150°C) = 619 Density (g/cm³) = 0.98740 Volume (L) = 1.27150 - Viscosity (mPa s) = 0.20625 + Viscosity (mPa s) = 0.20626 Activity of water = 0.910 Ionic strength (mol/kgw) = 1.090e-03 Mass of water (kg) = 9.979e-01 @@ -11631,7 +11631,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 129 Density (g/cm³) = 0.99566 Volume (L) = 1.01288 - Viscosity (mPa s) = 0.55063 + Viscosity (mPa s) = 0.55064 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.389e-04 Mass of water (kg) = 1.000e+00 @@ -11783,7 +11783,7 @@ Reaction 1. Specific Conductance (µS/cm, 150°C) = 211 Density (g/cm³) = 0.92619 Volume (L) = 1.08897 - Viscosity (mPa s) = 0.18754 + Viscosity (mPa s) = 0.18755 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.457e-04 Mass of water (kg) = 1.000e+00 @@ -12011,7 +12011,7 @@ Reaction 1. Specific Conductance (µS/cm, 300°C) = 44 Density (g/cm³) = 0.72957 Volume (L) = 1.38281 - Viscosity (mPa s) = 0.09003 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09004 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 5.564e-05 Mass of water (kg) = 1.000e+00 @@ -12163,7 +12163,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 135 Density (g/cm³) = 1.00211 Volume (L) = 1.00636 - Viscosity (mPa s) = 0.55390 + Viscosity (mPa s) = 0.55391 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.474e-04 Mass of water (kg) = 1.000e+00 @@ -12239,7 +12239,7 @@ Reaction 1. Specific Conductance (µS/cm, 100°C) = 223 Density (g/cm³) = 0.97303 Volume (L) = 1.03647 - Viscosity (mPa s) = 0.29094 + Viscosity (mPa s) = 0.29095 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.006e-04 Mass of water (kg) = 1.000e+00 @@ -12315,7 +12315,7 @@ Reaction 1. Specific Conductance (µS/cm, 150°C) = 221 Density (g/cm³) = 0.93426 Volume (L) = 1.07956 - Viscosity (mPa s) = 0.19119 + Viscosity (mPa s) = 0.19120 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.570e-04 Mass of water (kg) = 1.000e+00 @@ -12391,7 +12391,7 @@ Reaction 1. Specific Conductance (µS/cm, 200°C) = 157 Density (g/cm³) = 0.88601 Volume (L) = 1.13839 - Viscosity (mPa s) = 0.14241 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14242 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 1.748e-04 Mass of water (kg) = 1.000e+00 @@ -12467,7 +12467,7 @@ Reaction 1. Specific Conductance (µS/cm, 250°C) = 94 Density (g/cm³) = 0.82812 Volume (L) = 1.21854 - Viscosity (mPa s) = 0.11442 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11443 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 1.068e-04 Mass of water (kg) = 1.000e+00 @@ -12543,7 +12543,7 @@ Reaction 1. Specific Conductance (µS/cm, 300°C) = 50 Density (g/cm³) = 0.75408 Volume (L) = 1.33783 - Viscosity (mPa s) = 0.09461 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09462 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 6.197e-05 Mass of water (kg) = 1.000e+00 diff --git a/mytest/H2S_Amm_101.sel b/mytest/H2S_Amm_101.sel index 42e8e605..1879e776 100644 --- a/mytest/H2S_Amm_101.sel +++ b/mytest/H2S_Amm_101.sel @@ -1,161 +1,161 @@ Mu SC 0.000000100644 0.0547821292 - 0.000829520314 215.2925580591 - 0.000098770619 24.9972395537 - 0.000101013426 28.7877367453 - 0.000102956926 32.5881638179 - 0.000104577663 36.3464523435 - 0.000105850491 40.0115132989 - 0.000106747956 43.5319405687 - 0.000107239602 46.8548303388 - 0.000107291163 49.9246703115 - 0.000106863590 52.6822271154 - 0.000104383103 56.9973776588 - 0.000099329904 59.1969538416 - 0.000090998752 58.4814296904 - 0.000078148161 53.6178562162 - 0.000057814592 41.9937227291 - 0.000045586030 33.8087293330 - 0.000529141609 198.9408091309 - 0.000551578732 296.3882521926 - 0.000525406736 351.2332189282 - 0.000460419257 353.0196930991 - 0.000369144215 307.8613545269 - 0.000263434742 230.6159547184 - 0.000149211997 134.1221549981 - 0.000479356259 186.1732871319 - 0.000659607946 338.8260633025 - 0.000644303985 413.6931029351 - 0.000577741083 426.5234441593 - 0.000478517744 384.3435093900 - 0.000363936738 306.1792826106 - 0.000247460388 212.4131600094 - 0.000134548583 116.5981274380 - 0.000489175561 190.5376884187 - 0.000645658452 335.8993509341 - 0.000738698112 457.7674105327 - 0.000731273374 507.6758304289 - 0.000635521635 476.8067972562 - 0.000511141031 399.3929162915 - 0.000381944367 301.7971628383 - 0.000262742167 205.9113298583 - 0.000160093236 122.8931572149 - 0.000083650926 63.6696785269 - 0.000498746639 194.7790042693 - 0.000660111704 343.0269158806 - 0.000760367567 468.5452635218 - 0.000777332145 529.4456756006 - 0.000711612240 513.8364844776 - 0.000593728168 442.0824551992 - 0.000461142848 345.0960999410 - 0.000335732748 248.0563025858 - 0.000228830447 164.1277521138 - 0.000143884205 99.1714703488 - 0.000508158209 198.9319159528 - 0.000674017438 349.8124305654 - 0.000780062224 478.1455064936 - 0.000805026008 542.2702845214 - 0.000752394518 531.8728201328 - 0.000645093085 465.1232367422 - 0.000514814143 370.6736388222 - 0.000387224340 275.3948436741 - 0.000277314158 193.2733692578 - 0.000192195155 133.2755018167 - 0.000517407236 202.9936535779 - 0.000687473289 356.3032421501 - 0.000798546266 486.9354164137 - 0.000829226477 552.9575775074 - 0.000783053612 544.3731045784 - 0.000681821307 479.7124169227 - 0.000554489813 387.1806091914 - 0.000426631113 294.8879681017 - 0.000315193278 217.1840377001 - 0.000229849711 169.4597104271 - 0.000526557259 206.9927249172 - 0.000700630939 362.5802100334 - 0.000816264977 495.1513050298 - 0.000851644002 562.3493050965 - 0.000809920814 554.3359544276 - 0.000712298405 490.2481972502 - 0.000586896984 398.1413465700 - 0.000535591140 210.9235199366 - 0.000713503327 368.6614443511 - 0.000833353503 502.8907357812 - 0.000872813264 570.7606016570 - 0.000834573349 562.5749427510 - 0.000739421662 498.1824599139 - 0.000544561274 214.8114614668 - 0.000726190711 374.6085004946 - 0.000850012970 510.2842612943 - 0.000893149701 578.4472288607 - 0.000857831700 569.5475763427 - 0.000764537127 504.2107156496 - 0.000553444017 218.6492449321 - 0.000738677841 380.4292754246 - 0.000866266265 517.3829296338 - 0.000912771181 585.5422958051 - 0.000879986613 575.5043880466 - 0.000788154928 508.7059282159 - 0.000562285849 222.4599097388 - 0.000751043546 386.1755546048 - 0.000882245062 524.2849345217 - 0.000931891198 592.2088125533 - 0.000901363894 580.6850774861 - 0.000810722541 511.9815930023 - 0.000571059671 226.2344821467 - 0.000763260172 391.8487460655 - 0.000897934195 531.0226722708 - 0.000950527112 598.5342967347 - 0.000922033770 585.2487533303 - 0.000832370777 514.2698476691 - 0.000579790788 229.9861354442 - 0.000775371104 397.4819968394 - 0.000913404834 537.6631335956 - 0.000968788417 604.6326603561 - 0.000942151167 589.3634228970 - 0.000853297420 515.7942988225 - 0.000588503098 233.7268171364 - 0.000787415723 403.1050430981 - 0.000928718600 544.2658404684 - 0.000986765298 610.6040615293 - 0.000961837796 593.1755522879 - 0.000597166786 237.4447364058 - 0.000799357958 408.7105161065 - 0.000943838645 550.8440890459 - 0.001004427843 616.5020138003 - 0.000981077376 596.7934326192 - 0.000605821778 241.1572981659 - 0.000811257084 414.3336669465 - 0.000958847229 557.4587521069 - 0.001021882513 622.4184413808 - 0.000999998343 600.3414700176 - 0.000614437231 244.8507737956 - 0.000823074213 419.9613822879 - 0.000973701147 564.1114602916 - 0.001039087284 628.3878518360 - 0.001018564891 603.9011854898 - 0.000631634040 252.2108734977 - 0.000846589891 431.3013525703 - 0.001003123852 577.6716258599 - 0.001072980215 640.7237697733 - 0.001054916763 611.4043222192 - 0.000648804040 259.5224861787 - 0.000869958586 442.7563050210 - 0.001032204003 591.6484922265 - 0.001106260266 653.8080458220 - 0.001090347172 619.8238439569 - 0.000163736376 66.1569861391 - 0.000177232288 72.9488399379 - 0.000238898076 129.5857394088 - 0.000289631863 215.6987792499 - 0.000245694398 211.9218596475 - 0.000165472630 149.6099031522 - 0.000098546926 86.5528761534 - 0.000055641408 44.5048250755 - 0.000182179467 76.0502701510 - 0.000247406781 135.1340312034 - 0.000300643810 223.9981405385 - 0.000256967093 221.1922875804 - 0.000174846815 157.6271843488 - 0.000106838710 94.0514608267 - 0.000061965146 50.3819553167 + 0.000829520314 215.2925588434 + 0.000098770619 24.9973200968 + 0.000101013426 28.7878149142 + 0.000102956926 32.5882335594 + 0.000104577663 36.3465067081 + 0.000105850491 40.0115446066 + 0.000106747956 43.5319406256 + 0.000107239602 46.8547907121 + 0.000107291163 49.9245826710 + 0.000106863590 52.6820836499 + 0.000104383103 56.9971037816 + 0.000099329904 59.1965389071 + 0.000090998752 58.4808922866 + 0.000078148161 53.6172631560 + 0.000057814592 41.9932221370 + 0.000045586030 33.8083407065 + 0.000529141609 198.9404353523 + 0.000551578732 296.3833554214 + 0.000525406736 351.2205913955 + 0.000460419257 352.9992407462 + 0.000369144215 307.8369715499 + 0.000263434742 230.5940018925 + 0.000149211997 134.1091103898 + 0.000479356259 186.1729543845 + 0.000659607946 338.8199438690 + 0.000644303985 413.6766390873 + 0.000577741083 426.4957763848 + 0.000478517744 384.3088718363 + 0.000363936738 306.1450499412 + 0.000247460388 212.3865871139 + 0.000134548583 116.5839657753 + 0.000489175561 190.5373448007 + 0.000645658452 335.8933567254 + 0.000738698112 457.7479295468 + 0.000731273374 507.6388344686 + 0.000635521635 476.7573646697 + 0.000511141031 399.3401145104 + 0.000381944367 301.7504179631 + 0.000262742167 205.8765345150 + 0.000160093236 122.8722682893 + 0.000083650926 63.6600806402 + 0.000498746639 194.7786499906 + 0.000660111704 343.0207340949 + 0.000760367567 468.5250622360 + 0.000777332145 529.4059616669 + 0.000711612240 513.7802224073 + 0.000593728168 442.0196164383 + 0.000461142848 345.0375739185 + 0.000335732748 248.0091288094 + 0.000228830447 164.0946122728 + 0.000143884205 99.1512517620 + 0.000508158209 198.9315511392 + 0.000674017438 349.8060683489 + 0.000780062224 478.1246553707 + 0.000805026008 542.2289582559 + 0.000752394518 531.8130551460 + 0.000645093085 465.0544907834 + 0.000514814143 370.6074582861 + 0.000387224340 275.3388395630 + 0.000277314158 193.2306716796 + 0.000192195155 133.2444019008 + 0.000517407236 202.9932783669 + 0.000687473289 356.2967055345 + 0.000798546266 486.9139616333 + 0.000829226477 552.9148771196 + 0.000783053612 544.3108220495 + 0.000681821307 479.6397001337 + 0.000554489813 387.1091508972 + 0.000426631113 294.8252833056 + 0.000315193278 217.1331823231 + 0.000229849711 169.4168514661 + 0.000526557259 206.9923393783 + 0.000700630939 362.5735030626 + 0.000816264977 495.1292777655 + 0.000851644002 562.3053665686 + 0.000809920814 554.2715763825 + 0.000712298405 490.1724208099 + 0.000586896984 398.0661592877 + 0.000535591140 210.9231241592 + 0.000713503327 368.6545707766 + 0.000833353503 502.8681617808 + 0.000872813264 570.7155258397 + 0.000834573349 562.5087451852 + 0.000739421662 498.1041863197 + 0.000544561274 214.8110554792 + 0.000726190711 374.6014625830 + 0.000850012970 510.2611584864 + 0.000893149701 578.4010883457 + 0.000857831700 569.4797560875 + 0.000764537127 504.1303433209 + 0.000553444017 218.6488287871 + 0.000738677841 380.4220754187 + 0.000866266265 517.3593136662 + 0.000912771181 585.4951508833 + 0.000879986613 575.4351044973 + 0.000788154928 508.6237783990 + 0.000562285849 222.4594834327 + 0.000751043546 386.1681934870 + 0.000882245062 524.2608152499 + 0.000931891198 592.1607063683 + 0.000901363894 580.6144519278 + 0.000810722541 511.8979204416 + 0.000571059671 226.2340457038 + 0.000763260172 391.8412249429 + 0.000897934195 530.9980583932 + 0.000950527112 598.4852654178 + 0.000922033770 585.1768865603 + 0.000832370777 514.1848663522 + 0.000579790788 229.9856888572 + 0.000775371104 397.4743160305 + 0.000913404834 537.6380299885 + 0.000968788417 604.5827286215 + 0.000942151167 589.2903907328 + 0.000853297420 515.7081791773 + 0.000588503098 233.7263603683 + 0.000787415723 403.0972021969 + 0.000928718600 544.2402485640 + 0.000986765298 610.5532439998 + 0.000961837796 593.1014088182 + 0.000597166786 237.4442694537 + 0.000799357958 408.7025150136 + 0.000943838645 550.8180100979 + 0.001004427843 616.4503213089 + 0.000981077376 596.7182189790 + 0.000605821778 241.1568209805 + 0.000811257084 414.3255046282 + 0.000958847229 557.4321835191 + 0.001021882513 622.3658746692 + 0.000999998343 600.2652073495 + 0.000614437231 244.8502863663 + 0.000823074213 419.9530581354 + 0.000973701147 564.0843998538 + 0.001039087284 628.3344094548 + 0.001018564891 603.8238852781 + 0.000631634040 252.2103654634 + 0.000846589891 431.2927009727 + 0.001003123852 577.6435660245 + 0.001072980215 640.6685454001 + 0.001054916763 611.3249252396 + 0.000648804040 259.5219574067 + 0.000869958586 442.7473208183 + 0.001032204003 591.6194073489 + 0.001106260266 653.7509759137 + 0.001090347172 619.7422596250 + 0.000163736376 66.1569862461 + 0.000177232288 72.9488400601 + 0.000238898076 129.5848016975 + 0.000289631863 215.6917898620 + 0.000245694398 211.9082683024 + 0.000165472630 149.5960994391 + 0.000098546926 86.5432149419 + 0.000055641408 44.4992429948 + 0.000182179467 76.0502702797 + 0.000247406781 135.1330396087 + 0.000300643810 223.9907777437 + 0.000256967093 221.1778643466 + 0.000174846815 157.6123836911 + 0.000106838710 94.0406753012 + 0.000061965146 50.3754521993 diff --git a/mytest/H2S_NaCl_Na2SO4.out b/mytest/H2S_NaCl_Na2SO4.out index 8e440d4a..899cae9e 100644 --- a/mytest/H2S_NaCl_Na2SO4.out +++ b/mytest/H2S_NaCl_Na2SO4.out @@ -208,7 +208,7 @@ H2Sg(g) 1.33 2.144e+01 0.853 0.000e+00 1.005e-02 1.005e-02 Specific Conductance (µS/cm, 40°C) = 213 Density (g/cm³) = 0.99187 Volume (L) = 1.06045 - Viscosity (mPa s) = 0.65304 + Viscosity (mPa s) = 0.65305 Activity of water = 0.975 Ionic strength (mol/kgw) = 4.790e-04 Mass of water (kg) = 1.000e+00 @@ -472,7 +472,7 @@ H2Sg(g) 1.15 1.411e+01 0.903 0.000e+00 6.149e-03 6.149e-03 Specific Conductance (µS/cm, 40°C) = 184 Density (g/cm³) = 0.99089 Volume (L) = 1.04421 - Viscosity (mPa s) = 0.65294 + Viscosity (mPa s) = 0.65295 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.001e-04 Mass of water (kg) = 1.000e+00 @@ -1113,10 +1113,10 @@ H2Sg(g) 0.52 3.316e+00 0.977 0.000e+00 1.565e+00 1.565e+00 pH = 3.163 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 279937 + Specific Conductance (µS/cm, 40°C) = 279848 Density (g/cm³) = 1.12866 Volume (L) = 1.09708 - Viscosity (mPa s) = 1.00980 + Viscosity (mPa s) = 1.01023 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.009e+00 Mass of water (kg) = 9.995e-01 @@ -1232,10 +1232,10 @@ H2Sg(g) 0.55 3.526e+00 0.975 0.000e+00 1.557e+00 1.557e+00 pH = 3.150 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 279771 + Specific Conductance (µS/cm, 40°C) = 279683 Density (g/cm³) = 1.12860 Volume (L) = 1.09743 - Viscosity (mPa s) = 1.00978 + Viscosity (mPa s) = 1.01022 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.009e+00 Mass of water (kg) = 9.995e-01 @@ -1351,10 +1351,10 @@ H2Sg(g) 0.90 7.954e+00 0.945 0.000e+00 1.373e+00 1.373e+00 pH = 2.985 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 276424 + Specific Conductance (µS/cm, 40°C) = 276337 Density (g/cm³) = 1.12761 Volume (L) = 1.10422 - Viscosity (mPa s) = 1.00973 + Viscosity (mPa s) = 1.01017 Activity of water = 0.844 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 9.998e-01 @@ -1470,10 +1470,10 @@ H2Sg(g) 1.01 1.024e+01 0.929 0.000e+00 1.277e+00 1.277e+00 pH = 2.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 274784 + Specific Conductance (µS/cm, 40°C) = 274698 Density (g/cm³) = 1.12725 Volume (L) = 1.10752 - Viscosity (mPa s) = 1.00975 + Viscosity (mPa s) = 1.01019 Activity of water = 0.842 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 9.998e-01 @@ -1589,10 +1589,10 @@ H2Sg(g) 1.09 1.238e+01 0.914 0.000e+00 1.187e+00 1.187e+00 pH = 2.900 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 273304 + Specific Conductance (µS/cm, 40°C) = 273218 Density (g/cm³) = 1.12700 Volume (L) = 1.11050 - Viscosity (mPa s) = 1.00978 + Viscosity (mPa s) = 1.01022 Activity of water = 0.840 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 9.999e-01 @@ -1708,10 +1708,10 @@ H2Sg(g) 1.24 1.727e+01 0.881 0.000e+00 9.846e-01 9.846e-01 pH = 2.841 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 270110 + Specific Conductance (µS/cm, 40°C) = 270025 Density (g/cm³) = 1.12667 Volume (L) = 1.11700 - Viscosity (mPa s) = 1.00986 + Viscosity (mPa s) = 1.01029 Activity of water = 0.836 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 9.999e-01 @@ -1827,10 +1827,10 @@ H2Sg(g) 1.32 2.077e+01 0.858 0.000e+00 8.428e-01 8.428e-01 pH = 2.809 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 267987 + Specific Conductance (µS/cm, 40°C) = 267903 Density (g/cm³) = 1.12660 Volume (L) = 1.12137 - Viscosity (mPa s) = 1.00992 + Viscosity (mPa s) = 1.01035 Activity of water = 0.834 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 9.999e-01 @@ -1946,10 +1946,10 @@ H2Sg(g) 1.38 2.426e+01 0.834 0.000e+00 7.053e-01 7.053e-01 pH = 2.784 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 266002 + Specific Conductance (µS/cm, 40°C) = 265918 Density (g/cm³) = 1.12665 Volume (L) = 1.12549 - Viscosity (mPa s) = 1.00998 + Viscosity (mPa s) = 1.01042 Activity of water = 0.831 Ionic strength (mol/kgw) = 4.008e+00 Mass of water (kg) = 1.000e+00 @@ -2067,10 +2067,10 @@ H2Sg(g) 0.46 2.893e+00 0.980 0.000e+00 1.599e+00 1.599e+00 pH = 2.952 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 319516 + Specific Conductance (µS/cm, 40°C) = 319419 Density (g/cm³) = 1.18393 Volume (L) = 1.14094 - Viscosity (mPa s) = 1.27625 + Viscosity (mPa s) = 1.27678 Activity of water = 0.760 Ionic strength (mol/kgw) = 5.957e+00 Mass of water (kg) = 9.994e-01 @@ -2186,10 +2186,10 @@ H2Sg(g) 0.67 4.692e+00 0.967 0.000e+00 1.535e+00 1.535e+00 pH = 2.853 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 318188 + Specific Conductance (µS/cm, 40°C) = 318092 Density (g/cm³) = 1.18338 Volume (L) = 1.14349 - Viscosity (mPa s) = 1.27609 + Viscosity (mPa s) = 1.27662 Activity of water = 0.759 Ionic strength (mol/kgw) = 5.955e+00 Mass of water (kg) = 9.997e-01 @@ -2305,10 +2305,10 @@ H2Sg(g) 0.91 8.100e+00 0.944 0.000e+00 1.415e+00 1.415e+00 pH = 2.744 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 315779 + Specific Conductance (µS/cm, 40°C) = 315684 Density (g/cm³) = 1.18254 Volume (L) = 1.14791 - Viscosity (mPa s) = 1.27604 + Viscosity (mPa s) = 1.27657 Activity of water = 0.757 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 9.998e-01 @@ -2424,10 +2424,10 @@ H2Sg(g) 0.96 9.210e+00 0.936 0.000e+00 1.376e+00 1.376e+00 pH = 2.719 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 315022 + Specific Conductance (µS/cm, 40°C) = 314927 Density (g/cm³) = 1.18230 Volume (L) = 1.14929 - Viscosity (mPa s) = 1.27604 + Viscosity (mPa s) = 1.27657 Activity of water = 0.756 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 9.998e-01 @@ -2543,10 +2543,10 @@ H2Sg(g) 1.20 1.595e+01 0.890 0.000e+00 1.140e+00 1.140e+00 pH = 2.618 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 310705 + Specific Conductance (µS/cm, 40°C) = 310610 Density (g/cm³) = 1.18123 Volume (L) = 1.15718 - Viscosity (mPa s) = 1.27614 + Viscosity (mPa s) = 1.27667 Activity of water = 0.752 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 9.999e-01 @@ -2662,10 +2662,10 @@ H2Sg(g) 1.24 1.732e+01 0.881 0.000e+00 1.093e+00 1.093e+00 pH = 2.604 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 309880 + Specific Conductance (µS/cm, 40°C) = 309786 Density (g/cm³) = 1.18108 Volume (L) = 1.15869 - Viscosity (mPa s) = 1.27617 + Viscosity (mPa s) = 1.27670 Activity of water = 0.752 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 9.999e-01 @@ -2781,10 +2781,10 @@ H2Sg(g) 1.24 1.744e+01 0.880 0.000e+00 1.089e+00 1.089e+00 pH = 2.603 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 309809 + Specific Conductance (µS/cm, 40°C) = 309715 Density (g/cm³) = 1.18107 Volume (L) = 1.15882 - Viscosity (mPa s) = 1.27617 + Viscosity (mPa s) = 1.27670 Activity of water = 0.752 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 9.999e-01 @@ -2900,10 +2900,10 @@ H2Sg(g) 1.37 2.322e+01 0.841 0.000e+00 8.983e-01 8.983e-01 pH = 2.556 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 306584 + Specific Conductance (µS/cm, 40°C) = 306491 Density (g/cm³) = 1.18062 Volume (L) = 1.16480 - Viscosity (mPa s) = 1.27629 + Viscosity (mPa s) = 1.27682 Activity of water = 0.748 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 1.000e+00 @@ -3019,10 +3019,10 @@ H2Sg(g) 1.42 2.649e+01 0.819 0.000e+00 7.956e-01 7.956e-01 pH = 2.536 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 304921 + Specific Conductance (µS/cm, 40°C) = 304828 Density (g/cm³) = 1.18048 Volume (L) = 1.16791 - Viscosity (mPa s) = 1.27637 + Viscosity (mPa s) = 1.27690 Activity of water = 0.747 Ionic strength (mol/kgw) = 5.954e+00 Mass of water (kg) = 1.000e+00 @@ -3141,7 +3141,7 @@ H2Sg(g) 1.69 4.868e+01 0.820 0.000e+00 1.919e-02 1.919e-02 Specific Conductance (µS/cm, 120°C) = 436 Density (g/cm³) = 0.94155 Volume (L) = 1.11677 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.977 Ionic strength (mol/kgw) = 5.876e-04 Mass of water (kg) = 1.000e+00 @@ -3229,7 +3229,7 @@ H2Sg(g) 1.63 4.315e+01 0.839 0.000e+00 1.647e-02 1.647e-02 Specific Conductance (µS/cm, 120°C) = 419 Density (g/cm³) = 0.94090 Volume (L) = 1.11153 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.600e-04 Mass of water (kg) = 1.000e+00 @@ -3317,7 +3317,7 @@ H2Sg(g) 1.58 3.775e+01 0.858 0.000e+00 1.399e-02 1.399e-02 Specific Conductance (µS/cm, 120°C) = 401 Density (g/cm³) = 0.94037 Volume (L) = 1.10612 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.981 Ionic strength (mol/kgw) = 5.299e-04 Mass of water (kg) = 1.000e+00 @@ -3402,10 +3402,10 @@ H2Sg(g) 1.51 3.243e+01 0.876 0.000e+00 1.170e-02 1.170e-02 pH = 3.322 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 380 + Specific Conductance (µS/cm, 120°C) = 379 Density (g/cm³) = 0.94000 Volume (L) = 1.10052 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.967e-04 Mass of water (kg) = 1.000e+00 @@ -3493,7 +3493,7 @@ H2Sg(g) 1.43 2.716e+01 0.895 0.000e+00 9.548e-03 9.548e-03 Specific Conductance (µS/cm, 120°C) = 355 Density (g/cm³) = 0.93981 Volume (L) = 1.09469 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.596e-04 Mass of water (kg) = 1.000e+00 @@ -3669,7 +3669,7 @@ H2Sg(g) 1.22 1.665e+01 0.932 0.000e+00 5.580e-03 5.580e-03 Specific Conductance (µS/cm, 120°C) = 290 Density (g/cm³) = 0.94009 Volume (L) = 1.08226 - Viscosity (mPa s) = 0.23206 + Viscosity (mPa s) = 0.23207 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.673e-04 Mass of water (kg) = 1.000e+00 @@ -3757,7 +3757,7 @@ H2Sg(g) 1.05 1.133e+01 0.952 0.000e+00 3.713e-03 3.713e-03 Specific Conductance (µS/cm, 120°C) = 245 Density (g/cm³) = 0.94066 Volume (L) = 1.07555 - Viscosity (mPa s) = 0.23206 + Viscosity (mPa s) = 0.23207 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.059e-04 Mass of water (kg) = 1.000e+00 @@ -3933,7 +3933,7 @@ H2Sg(g) -0.48 3.341e-01 0.996 0.000e+00 1.052e-04 1.052e-04 Specific Conductance (µS/cm, 120°C) = 44 Density (g/cm³) = 0.94301 Volume (L) = 1.06078 - Viscosity (mPa s) = 0.23204 + Viscosity (mPa s) = 0.23205 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.313e-05 Mass of water (kg) = 1.000e+00 @@ -4046,10 +4046,10 @@ H2Sg(g) 0.64 4.361e+00 0.979 0.000e+00 1.624e+00 1.624e+00 pH = 3.229 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 620638 + Specific Conductance (µS/cm, 120°C) = 618868 Density (g/cm³) = 1.08082 Volume (L) = 1.13369 - Viscosity (mPa s) = 0.37363 + Viscosity (mPa s) = 0.37510 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.054e+00 Mass of water (kg) = 9.885e-01 @@ -4165,10 +4165,10 @@ H2Sg(g) 1.24 1.747e+01 0.930 0.000e+00 1.389e+00 1.389e+00 pH = 2.950 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 606790 + Specific Conductance (µS/cm, 120°C) = 605062 Density (g/cm³) = 1.07782 Volume (L) = 1.15247 - Viscosity (mPa s) = 0.37275 + Viscosity (mPa s) = 0.37422 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.018e+00 Mass of water (kg) = 9.974e-01 @@ -4284,10 +4284,10 @@ H2Sg(g) 1.24 1.754e+01 0.930 0.000e+00 1.387e+00 1.387e+00 pH = 2.949 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 606723 + Specific Conductance (µS/cm, 120°C) = 604995 Density (g/cm³) = 1.07781 Volume (L) = 1.15254 - Viscosity (mPa s) = 0.37276 + Viscosity (mPa s) = 0.37422 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.018e+00 Mass of water (kg) = 9.974e-01 @@ -4403,10 +4403,10 @@ H2Sg(g) 1.58 3.840e+01 0.857 0.000e+00 1.024e+00 1.024e+00 pH = 2.807 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 591344 + Specific Conductance (µS/cm, 120°C) = 589661 Density (g/cm³) = 1.07644 Volume (L) = 1.16702 - Viscosity (mPa s) = 0.37341 + Viscosity (mPa s) = 0.37488 Activity of water = 0.842 Ionic strength (mol/kgw) = 4.012e+00 Mass of water (kg) = 9.990e-01 @@ -4522,10 +4522,10 @@ H2Sg(g) 1.80 6.329e+01 0.773 0.000e+00 6.387e-01 6.387e-01 pH = 2.730 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 577491 + Specific Conductance (µS/cm, 120°C) = 575848 Density (g/cm³) = 1.07682 Volume (L) = 1.17932 - Viscosity (mPa s) = 0.37442 + Viscosity (mPa s) = 0.37588 Activity of water = 0.835 Ionic strength (mol/kgw) = 4.010e+00 Mass of water (kg) = 9.996e-01 @@ -4641,10 +4641,10 @@ H2Sg(g) 1.90 7.944e+01 0.719 0.000e+00 4.326e-01 4.326e-01 pH = 2.701 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 570712 + Specific Conductance (µS/cm, 120°C) = 569090 Density (g/cm³) = 1.07765 Volume (L) = 1.18508 - Viscosity (mPa s) = 0.37510 + Viscosity (mPa s) = 0.37657 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.009e+00 Mass of water (kg) = 9.997e-01 @@ -4760,10 +4760,10 @@ H2Sg(g) 1.97 9.260e+01 0.676 0.000e+00 2.972e-01 2.972e-01 pH = 2.684 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 566411 + Specific Conductance (µS/cm, 120°C) = 564802 Density (g/cm³) = 1.07848 Volume (L) = 1.18853 - Viscosity (mPa s) = 0.37566 + Viscosity (mPa s) = 0.37713 Activity of water = 0.829 Ionic strength (mol/kgw) = 4.009e+00 Mass of water (kg) = 9.998e-01 @@ -4881,10 +4881,10 @@ H2Sg(g) -0.02 9.493e-01 0.994 0.000e+00 1.686e+00 1.686e+00 pH = 3.314 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 734784 + Specific Conductance (µS/cm, 120°C) = 732720 Density (g/cm³) = 1.14325 Volume (L) = 1.13745 - Viscosity (mPa s) = 0.47095 + Viscosity (mPa s) = 0.47277 Activity of water = 0.765 Ionic strength (mol/kgw) = 6.253e+00 Mass of water (kg) = 9.520e-01 @@ -5000,10 +5000,10 @@ H2Sg(g) 0.96 9.198e+00 0.961 0.000e+00 1.556e+00 1.556e+00 pH = 2.863 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 718279 + Specific Conductance (µS/cm, 120°C) = 716251 Density (g/cm³) = 1.13439 Volume (L) = 1.18828 - Viscosity (mPa s) = 0.45853 + Viscosity (mPa s) = 0.46031 Activity of water = 0.773 Ionic strength (mol/kgw) = 5.982e+00 Mass of water (kg) = 9.951e-01 @@ -5119,10 +5119,10 @@ H2Sg(g) 1.32 2.070e+01 0.919 0.000e+00 1.381e+00 1.381e+00 pH = 2.706 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 708095 + Specific Conductance (µS/cm, 120°C) = 706096 Density (g/cm³) = 1.13221 Volume (L) = 1.19831 - Viscosity (mPa s) = 0.45836 + Viscosity (mPa s) = 0.46014 Activity of water = 0.771 Ionic strength (mol/kgw) = 5.966e+00 Mass of water (kg) = 9.980e-01 @@ -5238,10 +5238,10 @@ H2Sg(g) 1.32 2.071e+01 0.919 0.000e+00 1.381e+00 1.381e+00 pH = 2.706 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 708079 + Specific Conductance (µS/cm, 120°C) = 706080 Density (g/cm³) = 1.13221 Volume (L) = 1.19833 - Viscosity (mPa s) = 0.45836 + Viscosity (mPa s) = 0.46014 Activity of water = 0.771 Ionic strength (mol/kgw) = 5.966e+00 Mass of water (kg) = 9.980e-01 @@ -5357,10 +5357,10 @@ H2Sg(g) 1.52 3.278e+01 0.877 0.000e+00 1.207e+00 1.207e+00 pH = 2.624 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 699062 + Specific Conductance (µS/cm, 120°C) = 697089 Density (g/cm³) = 1.13086 Volume (L) = 1.20573 - Viscosity (mPa s) = 0.45878 + Viscosity (mPa s) = 0.46056 Activity of water = 0.768 Ionic strength (mol/kgw) = 5.961e+00 Mass of water (kg) = 9.988e-01 @@ -5476,10 +5476,10 @@ H2Sg(g) 1.63 4.276e+01 0.842 0.000e+00 1.073e+00 1.073e+00 pH = 2.580 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 692554 + Specific Conductance (µS/cm, 120°C) = 690600 Density (g/cm³) = 1.13016 Volume (L) = 1.21082 - Viscosity (mPa s) = 0.45923 + Viscosity (mPa s) = 0.46101 Activity of water = 0.766 Ionic strength (mol/kgw) = 5.959e+00 Mass of water (kg) = 9.991e-01 @@ -5595,10 +5595,10 @@ H2Sg(g) 1.85 7.068e+01 0.749 0.000e+00 7.532e-01 7.532e-01 pH = 2.508 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 678213 + Specific Conductance (µS/cm, 120°C) = 676301 Density (g/cm³) = 1.12955 Volume (L) = 1.22149 - Viscosity (mPa s) = 0.46061 + Viscosity (mPa s) = 0.46240 Activity of water = 0.761 Ionic strength (mol/kgw) = 5.957e+00 Mass of water (kg) = 9.996e-01 @@ -5714,10 +5714,10 @@ H2Sg(g) 1.96 9.203e+01 0.679 0.000e+00 5.754e-01 5.754e-01 pH = 2.479 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 670683 + Specific Conductance (µS/cm, 120°C) = 668794 Density (g/cm³) = 1.12993 Volume (L) = 1.22655 - Viscosity (mPa s) = 0.46173 + Viscosity (mPa s) = 0.46352 Activity of water = 0.757 Ionic strength (mol/kgw) = 5.956e+00 Mass of water (kg) = 9.997e-01 @@ -6864,10 +6864,10 @@ H2Sg(g) 0.50 3.197e+00 0.977 0.000e+00 2.028e+00 2.028e+00 pH = 4.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 73655 + Specific Conductance (µS/cm, 40°C) = 73613 Density (g/cm³) = 1.04937 Volume (L) = 1.02435 - Viscosity (mPa s) = 0.81223 + Viscosity (mPa s) = 0.81275 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.477e+00 Mass of water (kg) = 9.992e-01 @@ -6986,10 +6986,10 @@ H2Sg(g) 1.00 9.922e+00 0.931 0.000e+00 1.653e+00 1.653e+00 pH = 3.840 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 72043 + Specific Conductance (µS/cm, 40°C) = 72003 Density (g/cm³) = 1.04847 Volume (L) = 1.03799 - Viscosity (mPa s) = 0.81198 + Viscosity (mPa s) = 0.81250 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.475e+00 Mass of water (kg) = 9.998e-01 @@ -7108,10 +7108,10 @@ H2Sg(g) 1.21 1.623e+01 0.888 0.000e+00 1.297e+00 1.297e+00 pH = 3.755 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 70694 + Specific Conductance (µS/cm, 40°C) = 70655 Density (g/cm³) = 1.04861 Volume (L) = 1.04953 - Viscosity (mPa s) = 0.81188 + Viscosity (mPa s) = 0.81240 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.475e+00 Mass of water (kg) = 9.999e-01 @@ -7230,10 +7230,10 @@ H2Sg(g) 1.23 1.689e+01 0.884 0.000e+00 1.260e+00 1.260e+00 pH = 3.749 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 70562 + Specific Conductance (µS/cm, 40°C) = 70522 Density (g/cm³) = 1.04866 Volume (L) = 1.05068 - Viscosity (mPa s) = 0.81187 + Viscosity (mPa s) = 0.81239 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.475e+00 Mass of water (kg) = 9.999e-01 @@ -7352,10 +7352,10 @@ H2Sg(g) 1.24 1.725e+01 0.881 0.000e+00 1.240e+00 1.240e+00 pH = 3.746 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 70490 + Specific Conductance (µS/cm, 40°C) = 70451 Density (g/cm³) = 1.04870 Volume (L) = 1.05130 - Viscosity (mPa s) = 0.81186 + Viscosity (mPa s) = 0.81239 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.475e+00 Mass of water (kg) = 9.999e-01 @@ -7474,10 +7474,10 @@ H2Sg(g) 1.29 1.946e+01 0.867 0.000e+00 1.117e+00 1.117e+00 pH = 3.727 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 70062 + Specific Conductance (µS/cm, 40°C) = 70023 Density (g/cm³) = 1.04894 Volume (L) = 1.05506 - Viscosity (mPa s) = 0.81184 + Viscosity (mPa s) = 0.81236 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.475e+00 Mass of water (kg) = 9.999e-01 @@ -7596,10 +7596,10 @@ H2Sg(g) 1.44 2.776e+01 0.811 0.000e+00 6.759e-01 6.759e-01 pH = 3.675 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 68627 + Specific Conductance (µS/cm, 40°C) = 68588 Density (g/cm³) = 1.05032 Volume (L) = 1.06804 - Viscosity (mPa s) = 0.81177 + Viscosity (mPa s) = 0.81229 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.474e+00 Mass of water (kg) = 1.000e+00 @@ -7720,10 +7720,10 @@ H2Sg(g) 0.77 5.896e+00 0.959 0.000e+00 1.976e+00 1.976e+00 pH = 3.935 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 118444 + Specific Conductance (µS/cm, 40°C) = 118368 Density (g/cm³) = 1.09914 Volume (L) = 1.03912 - Viscosity (mPa s) = 0.98633 + Viscosity (mPa s) = 0.98706 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.850e+00 Mass of water (kg) = 9.996e-01 @@ -7842,10 +7842,10 @@ H2Sg(g) 0.80 6.276e+00 0.956 0.000e+00 1.960e+00 1.960e+00 pH = 3.923 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 118346 + Specific Conductance (µS/cm, 40°C) = 118269 Density (g/cm³) = 1.09911 Volume (L) = 1.03965 - Viscosity (mPa s) = 0.98631 + Viscosity (mPa s) = 0.98703 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.850e+00 Mass of water (kg) = 9.996e-01 @@ -7964,10 +7964,10 @@ H2Sg(g) 0.79 6.126e+00 0.957 0.000e+00 1.967e+00 1.967e+00 pH = 3.927 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 118385 + Specific Conductance (µS/cm, 40°C) = 118308 Density (g/cm³) = 1.09912 Volume (L) = 1.03944 - Viscosity (mPa s) = 0.98632 + Viscosity (mPa s) = 0.98704 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.850e+00 Mass of water (kg) = 9.996e-01 @@ -8086,10 +8086,10 @@ H2Sg(g) 0.91 8.065e+00 0.944 0.000e+00 1.886e+00 1.886e+00 pH = 3.875 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 117884 + Specific Conductance (µS/cm, 40°C) = 117808 Density (g/cm³) = 1.09902 Volume (L) = 1.04214 - Viscosity (mPa s) = 0.98620 + Viscosity (mPa s) = 0.98692 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.850e+00 Mass of water (kg) = 9.997e-01 @@ -8208,10 +8208,10 @@ H2Sg(g) 1.03 1.066e+01 0.926 0.000e+00 1.773e+00 1.773e+00 pH = 3.823 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 117225 + Specific Conductance (µS/cm, 40°C) = 117149 Density (g/cm³) = 1.09905 Volume (L) = 1.04567 - Viscosity (mPa s) = 0.98607 + Viscosity (mPa s) = 0.98680 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.849e+00 Mass of water (kg) = 9.998e-01 @@ -8330,10 +8330,10 @@ H2Sg(g) 1.07 1.177e+01 0.918 0.000e+00 1.724e+00 1.724e+00 pH = 3.806 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 116947 + Specific Conductance (µS/cm, 40°C) = 116872 Density (g/cm³) = 1.09912 Volume (L) = 1.04715 - Viscosity (mPa s) = 0.98603 + Viscosity (mPa s) = 0.98676 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.849e+00 Mass of water (kg) = 9.998e-01 @@ -8452,10 +8452,10 @@ H2Sg(g) 1.09 1.230e+01 0.915 0.000e+00 1.701e+00 1.701e+00 pH = 3.798 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 116816 + Specific Conductance (µS/cm, 40°C) = 116741 Density (g/cm³) = 1.09916 Volume (L) = 1.04786 - Viscosity (mPa s) = 0.98601 + Viscosity (mPa s) = 0.98674 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.849e+00 Mass of water (kg) = 9.998e-01 @@ -8574,10 +8574,10 @@ H2Sg(g) 1.14 1.371e+01 0.905 0.000e+00 1.637e+00 1.637e+00 pH = 3.779 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 116470 + Specific Conductance (µS/cm, 40°C) = 116395 Density (g/cm³) = 1.09929 Volume (L) = 1.04972 - Viscosity (mPa s) = 0.98596 + Viscosity (mPa s) = 0.98669 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.849e+00 Mass of water (kg) = 9.998e-01 @@ -8696,10 +8696,10 @@ H2Sg(g) 1.24 1.734e+01 0.881 0.000e+00 1.472e+00 1.472e+00 pH = 3.740 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 115601 + Specific Conductance (µS/cm, 40°C) = 115527 Density (g/cm³) = 1.09979 Volume (L) = 1.05441 - Viscosity (mPa s) = 0.98585 + Viscosity (mPa s) = 0.98657 Activity of water = 0.948 Ionic strength (mol/kgw) = 2.848e+00 Mass of water (kg) = 9.999e-01 @@ -8818,10 +8818,10 @@ H2Sg(g) 1.32 2.081e+01 0.857 0.000e+00 1.312e+00 1.312e+00 pH = 3.710 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 114806 + Specific Conductance (µS/cm, 40°C) = 114732 Density (g/cm³) = 1.10046 Volume (L) = 1.05876 - Viscosity (mPa s) = 0.98576 + Viscosity (mPa s) = 0.98648 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.848e+00 Mass of water (kg) = 9.999e-01 @@ -8940,10 +8940,10 @@ H2Sg(g) 1.40 2.484e+01 0.830 0.000e+00 1.127e+00 1.127e+00 pH = 3.683 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 113933 + Specific Conductance (µS/cm, 40°C) = 113859 Density (g/cm³) = 1.10139 Volume (L) = 1.06361 - Viscosity (mPa s) = 0.98566 + Viscosity (mPa s) = 0.98639 Activity of water = 0.941 Ionic strength (mol/kgw) = 2.848e+00 Mass of water (kg) = 9.999e-01 @@ -9064,7 +9064,7 @@ H2Sg(g) 1.81 6.434e+01 0.768 0.000e+00 2.820e-02 2.820e-02 Specific Conductance (µS/cm, 120°C) = 472 Density (g/cm³) = 0.94384 Volume (L) = 1.12998 - Viscosity (mPa s) = 0.23208 + Viscosity (mPa s) = 0.23209 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.516e-04 Mass of water (kg) = 1.000e+00 @@ -9152,7 +9152,7 @@ H2Sg(g) 1.75 5.651e+01 0.794 0.000e+00 2.342e-02 2.342e-02 Specific Conductance (µS/cm, 120°C) = 455 Density (g/cm³) = 0.94264 Volume (L) = 1.12368 - Viscosity (mPa s) = 0.23208 + Viscosity (mPa s) = 0.23209 Activity of water = 0.974 Ionic strength (mol/kgw) = 6.220e-04 Mass of water (kg) = 1.000e+00 @@ -9328,7 +9328,7 @@ H2Sg(g) 1.62 4.193e+01 0.843 0.000e+00 1.590e-02 1.590e-02 Specific Conductance (µS/cm, 120°C) = 415 Density (g/cm³) = 0.94077 Volume (L) = 1.11033 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.535e-04 Mass of water (kg) = 1.000e+00 @@ -9416,7 +9416,7 @@ H2Sg(g) 1.54 3.497e+01 0.867 0.000e+00 1.278e-02 1.278e-02 Specific Conductance (µS/cm, 120°C) = 390 Density (g/cm³) = 0.94016 Volume (L) = 1.10323 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.131e-04 Mass of water (kg) = 1.000e+00 @@ -9504,7 +9504,7 @@ H2Sg(g) 1.45 2.813e+01 0.891 0.000e+00 9.932e-03 9.932e-03 Specific Conductance (µS/cm, 120°C) = 360 Density (g/cm³) = 0.93983 Volume (L) = 1.09578 - Viscosity (mPa s) = 0.23207 + Viscosity (mPa s) = 0.23208 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.667e-04 Mass of water (kg) = 1.000e+00 @@ -9680,7 +9680,7 @@ H2Sg(g) 1.16 1.449e+01 0.940 0.000e+00 4.811e-03 4.811e-03 Specific Conductance (µS/cm, 120°C) = 273 Density (g/cm³) = 0.94028 Volume (L) = 1.07956 - Viscosity (mPa s) = 0.23206 + Viscosity (mPa s) = 0.23207 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.439e-04 Mass of water (kg) = 1.000e+00 @@ -9856,7 +9856,7 @@ H2Sg(g) -0.48 3.341e-01 0.996 0.000e+00 1.052e-04 1.052e-04 Specific Conductance (µS/cm, 120°C) = 44 Density (g/cm³) = 0.94301 Volume (L) = 1.06078 - Viscosity (mPa s) = 0.23204 + Viscosity (mPa s) = 0.23205 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.313e-05 Mass of water (kg) = 1.000e+00 @@ -9970,10 +9970,10 @@ H2Sg(g) 0.86 7.259e+00 0.967 0.000e+00 2.055e+00 2.055e+00 pH = 4.355 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 196392 + Specific Conductance (µS/cm, 120°C) = 195446 Density (g/cm³) = 0.99962 Volume (L) = 1.06503 - Viscosity (mPa s) = 0.28886 + Viscosity (mPa s) = 0.29044 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.488e+00 Mass of water (kg) = 9.898e-01 @@ -10092,10 +10092,10 @@ H2Sg(g) 1.20 1.574e+01 0.936 0.000e+00 1.871e+00 1.871e+00 pH = 4.210 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 192163 + Specific Conductance (µS/cm, 120°C) = 191241 Density (g/cm³) = 0.99887 Volume (L) = 1.07784 - Viscosity (mPa s) = 0.28870 + Viscosity (mPa s) = 0.29027 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.478e+00 Mass of water (kg) = 9.955e-01 @@ -10214,10 +10214,10 @@ H2Sg(g) 1.52 3.279e+01 0.875 0.000e+00 1.475e+00 1.475e+00 pH = 4.091 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 185649 + Specific Conductance (µS/cm, 120°C) = 184761 Density (g/cm³) = 0.99971 Volume (L) = 1.09304 - Viscosity (mPa s) = 0.28896 + Viscosity (mPa s) = 0.29054 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.472e+00 Mass of water (kg) = 9.981e-01 @@ -10336,10 +10336,10 @@ H2Sg(g) 1.70 5.021e+01 0.815 0.000e+00 1.069e+00 1.069e+00 pH = 4.034 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 179998 + Specific Conductance (µS/cm, 120°C) = 179140 Density (g/cm³) = 1.00223 Volume (L) = 1.10499 - Viscosity (mPa s) = 0.28939 + Viscosity (mPa s) = 0.29097 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.469e+00 Mass of water (kg) = 9.990e-01 @@ -10458,10 +10458,10 @@ H2Sg(g) 1.90 8.035e+01 0.715 0.000e+00 4.499e-01 4.499e-01 pH = 3.983 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 172000 + Specific Conductance (µS/cm, 120°C) = 171184 Density (g/cm³) = 1.00793 Volume (L) = 1.12032 - Viscosity (mPa s) = 0.29026 + Viscosity (mPa s) = 0.29184 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.466e+00 Mass of water (kg) = 9.997e-01 @@ -10582,10 +10582,10 @@ H2Sg(g) 0.80 6.358e+00 0.971 0.000e+00 2.121e+00 2.121e+00 pH = 4.377 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 333942 + Specific Conductance (µS/cm, 120°C) = 332050 Density (g/cm³) = 1.04990 Volume (L) = 1.07234 - Viscosity (mPa s) = 0.34443 + Viscosity (mPa s) = 0.34663 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.880e+00 Mass of water (kg) = 9.882e-01 @@ -10704,10 +10704,10 @@ H2Sg(g) 1.29 1.957e+01 0.922 0.000e+00 1.917e+00 1.917e+00 pH = 4.160 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 326093 + Specific Conductance (µS/cm, 120°C) = 324251 Density (g/cm³) = 1.04954 Volume (L) = 1.08703 - Viscosity (mPa s) = 0.34378 + Viscosity (mPa s) = 0.34597 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.854e+00 Mass of water (kg) = 9.963e-01 @@ -10826,10 +10826,10 @@ H2Sg(g) 1.31 2.035e+01 0.919 0.000e+00 1.904e+00 1.904e+00 pH = 4.154 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 325718 + Specific Conductance (µS/cm, 120°C) = 323878 Density (g/cm³) = 1.04959 Volume (L) = 1.08754 - Viscosity (mPa s) = 0.34378 + Viscosity (mPa s) = 0.34598 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.853e+00 Mass of water (kg) = 9.964e-01 @@ -10948,10 +10948,10 @@ H2Sg(g) 1.63 4.262e+01 0.841 0.000e+00 1.491e+00 1.491e+00 pH = 4.030 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 315763 + Specific Conductance (µS/cm, 120°C) = 313986 Density (g/cm³) = 1.05292 Volume (L) = 1.09942 - Viscosity (mPa s) = 0.34427 + Viscosity (mPa s) = 0.34646 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.844e+00 Mass of water (kg) = 9.985e-01 @@ -11070,10 +11070,10 @@ H2Sg(g) 1.79 6.157e+01 0.777 0.000e+00 1.129e+00 1.129e+00 pH = 3.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 308206 + Specific Conductance (µS/cm, 120°C) = 306475 Density (g/cm³) = 1.05705 Volume (L) = 1.10736 - Viscosity (mPa s) = 0.34489 + Viscosity (mPa s) = 0.34709 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.841e+00 Mass of water (kg) = 9.991e-01 @@ -11192,10 +11192,10 @@ H2Sg(g) 1.80 6.311e+01 0.772 0.000e+00 1.101e+00 1.101e+00 pH = 3.972 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 307626 + Specific Conductance (µS/cm, 120°C) = 305899 Density (g/cm³) = 1.05740 Volume (L) = 1.10794 - Viscosity (mPa s) = 0.34495 + Viscosity (mPa s) = 0.34714 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.841e+00 Mass of water (kg) = 9.991e-01 @@ -11314,10 +11314,10 @@ H2Sg(g) 1.94 8.731e+01 0.692 0.000e+00 7.005e-01 7.005e-01 pH = 3.930 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 299258 + Specific Conductance (µS/cm, 120°C) = 297583 Density (g/cm³) = 1.06271 Volume (L) = 1.11560 - Viscosity (mPa s) = 0.34587 + Viscosity (mPa s) = 0.34807 Activity of water = 0.939 Ionic strength (mol/kgw) = 2.838e+00 Mass of water (kg) = 9.995e-01 @@ -11436,10 +11436,10 @@ H2Sg(g) 1.97 9.297e+01 0.673 0.000e+00 6.233e-01 6.233e-01 pH = 3.923 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 297514 + Specific Conductance (µS/cm, 120°C) = 295850 Density (g/cm³) = 1.06382 Volume (L) = 1.11696 - Viscosity (mPa s) = 0.34610 + Viscosity (mPa s) = 0.34830 Activity of water = 0.938 Ionic strength (mol/kgw) = 2.838e+00 Mass of water (kg) = 9.996e-01 diff --git a/mytest/H2S_NaCl_Na2SO4_101.sel b/mytest/H2S_NaCl_Na2SO4_101.sel index 15f1cb63..a271d1b7 100644 --- a/mytest/H2S_NaCl_Na2SO4_101.sel +++ b/mytest/H2S_NaCl_Na2SO4_101.sel @@ -1,106 +1,106 @@ Mu SC - 0.000420060858 153.9277721068 - 0.000478985361 213.7554854577 - 0.000454847115 205.0858811171 - 0.000428687109 195.3439683617 - 0.000400054201 184.2857486367 - 0.000368304949 171.5658208206 - 0.000332464243 156.6651851886 - 0.000290918262 138.7334317806 - 0.000240594326 116.1705031389 - 0.000173866083 85.0610589667 - 0.000041169139 20.4526653418 - 4.009414987635 279937.0410982853 - 4.009285608371 279771.1075984138 - 4.008198542835 276424.0808795323 - 4.008027836389 274784.8101147352 - 4.007934171085 273304.7898096667 - 4.007825574653 270110.8429291352 - 4.007789630247 267987.3528501324 - 4.007769871579 266002.1802619877 - 5.956547063062 319516.1299052373 - 5.955249789204 318188.5312926279 - 5.954403509372 315779.8437979884 - 5.954269274670 315022.8402102510 - 5.953882558296 310705.1486010309 - 5.953844784276 309880.3885913717 - 5.953841839639 309809.6293315983 - 5.953743238300 306584.6911498753 - 5.953711200263 304921.4424560677 - 0.000587592205 436.0965728701 - 0.000560024111 419.6849992948 - 0.000529934103 401.1618142785 - 0.000496729002 380.0067766747 - 0.000459556823 355.4735128315 - 0.000417119146 326.4265119671 - 0.000367259063 290.9855665742 - 0.000305868143 245.5897335419 - 0.000222797857 181.5273711456 - 0.000053132803 44.1004051954 - 4.053793722708 620638.2722176585 - 4.018186881098 606790.6467254016 - 4.018134134080 606723.5107569543 - 4.011862641592 591344.4336720449 - 4.009833680908 577491.0232149776 - 4.009226167164 570712.3571976889 - 4.008916710582 566411.4879678848 - 6.253330354816 734784.3025231451 - 5.982397223119 718279.4954443149 - 5.965706777162 708095.5884396350 - 5.965694103773 708079.6160872878 - 5.960849068926 699062.6385700736 - 5.958938742789 692554.9766881003 - 5.956562994174 678213.2179519890 - 5.955861637482 670683.7524856128 - 0.000470627507 167.4861590338 - 0.000535662431 232.8470062960 - 0.000509294840 224.1905790259 - 0.000480631683 214.3353298303 - 0.000449154953 202.9963185427 - 0.000414121275 189.7689632045 - 0.000374400338 174.0438935729 - 0.000328117371 154.8210441976 - 0.000271696520 130.2175807842 - 0.000196236353 95.6236558704 - 0.000041169139 20.4526653417 - 1.476621476624 73655.1389913392 - 1.475227942660 72043.7638928916 - 1.474727647549 70694.6088836443 - 1.474686658645 70562.2001339031 - 1.474664911481 70490.6837231024 - 1.474539775821 70062.6658238849 - 1.474164311206 68627.3668194954 - 2.850126904745 118444.9321441982 - 2.850006467928 118346.0185894202 - 2.850052667135 118385.0209503092 - 2.849555630543 117884.3748706675 - 2.849098123291 117225.2030586306 - 2.848943305624 116947.9853449590 - 2.848875330262 116816.5655172530 - 2.848709669349 116470.0831613833 - 2.848357604300 115601.3130494859 - 2.848088811951 114806.7327299141 - 2.847832145840 113933.0842996386 - 0.000651640736 472.0860975420 - 0.000621958408 455.7844291234 - 0.000589465909 437.1922246918 - 0.000553496181 415.7199223360 - 0.000513078904 390.5151835377 - 0.000466723312 360.2711790937 - 0.000411936554 322.8068493081 - 0.000343940102 273.9585945350 - 0.000250851027 203.4639549671 - 0.000053132803 44.1004051584 - 1.487916313766 196392.3789365449 - 1.477719953406 192163.5933778436 - 1.471542782598 185649.4357175267 - 1.468533287607 179998.9465933291 - 1.465592273849 172000.1645571801 - 2.880015976018 333942.5352061007 - 2.853639614339 326093.3809192901 - 2.853073718841 325718.2344309873 - 2.844239317761 315763.7945401847 - 2.840868414334 308206.4084277842 - 2.840665366734 307626.9634014613 - 2.838365986716 299258.3649317633 - 2.838027558809 297514.5316688234 + 0.000420060858 153.9277726221 + 0.000478985361 213.7538943194 + 0.000454847115 205.0843934312 + 0.000428687109 195.3425926607 + 0.000400054201 184.2844948791 + 0.000368304949 171.5647008605 + 0.000332464243 156.6642135281 + 0.000290918262 138.7326268987 + 0.000240594326 116.1698902373 + 0.000173866083 85.0606774995 + 0.000041169139 20.4526207244 + 4.009414987635 279848.9959450440 + 4.009285608371 279683.1146531256 + 4.008198542835 276337.1427105446 + 4.008027836389 274698.3894466606 + 4.007934171085 273218.8367516659 + 4.007825574653 270025.9000650730 + 4.007789630247 267903.0823804234 + 4.007769871579 265918.5389710672 + 5.956547063062 319419.2108608485 + 5.955249789204 318092.0136652844 + 5.954403509372 315684.0604952438 + 5.954269274670 314927.2882948965 + 5.953882558296 310610.9188789361 + 5.953844784276 309786.4117796514 + 5.953841839639 309715.6742226048 + 5.953743238300 306491.7259618681 + 5.953711200263 304828.9884897587 + 0.000587592205 436.0598589770 + 0.000560024111 419.6505002287 + 0.000529934103 401.1297310575 + 0.000496729002 379.9773486167 + 0.000459556823 355.4470311081 + 0.000417119146 326.4033412898 + 0.000367259063 290.9661832688 + 0.000305868143 245.5748027520 + 0.000222797857 181.5179519787 + 0.000053132803 44.0992882544 + 4.053793722708 618868.7441263916 + 4.018186881098 605062.1688972983 + 4.018134134080 604995.2298205567 + 4.011862641592 589661.2589860111 + 4.009833680908 575848.7134277059 + 4.009226167164 569090.2453154142 + 4.008916710582 564802.3508795988 + 6.253330354816 732720.0884798393 + 5.982397223119 716251.0924036236 + 5.965706777162 706096.1315237157 + 5.965694103773 706080.2052089574 + 5.960849068926 697089.3601330592 + 5.958938742789 690600.6951887941 + 5.956562994174 676301.2325852824 + 5.955861637482 668794.4180657357 + 0.000470627507 167.4861596273 + 0.000535662431 232.8451735562 + 0.000509294840 224.1888583059 + 0.000480631683 214.3337316400 + 0.000449154953 202.9948552483 + 0.000414121275 189.7676496515 + 0.000374400338 174.0427480754 + 0.000328117371 154.8200902729 + 0.000271696520 130.2168506995 + 0.000196236353 95.6232002666 + 0.000041169139 20.4526207243 + 1.476621476624 73613.9504180184 + 1.475227942660 72003.4828777329 + 1.474727647549 70655.0813206201 + 1.474686658645 70522.7463974807 + 1.474664911481 70451.2698537912 + 1.474539775821 70023.4904364533 + 1.474164311206 68588.9894490216 + 2.850126904745 118368.8102396462 + 2.850006467928 118269.9607329168 + 2.850052667135 118308.9378478527 + 2.849555630543 117808.6151280910 + 2.849098123291 117149.8673627599 + 2.848943305624 116872.8275701147 + 2.848875330262 116741.4920176264 + 2.848709669349 116395.2316493315 + 2.848357604300 115527.0170127653 + 2.848088811951 114732.9434407024 + 2.847832145840 113859.8507746495 + 0.000651640736 472.0442639784 + 0.000621958408 455.7449610096 + 0.000589465909 437.1553603617 + 0.000553496181 415.6859477594 + 0.000513078904 390.4844501266 + 0.000466723312 360.2441321506 + 0.000411936554 322.7840780612 + 0.000343940102 273.9409336392 + 0.000250851027 203.4527525391 + 0.000053132803 44.0992882174 + 1.487916313766 195446.2646492340 + 1.477719953406 191241.0870203016 + 1.471542782598 184761.6275727551 + 1.468533287607 179140.8610051397 + 1.465592273849 171184.1748534454 + 2.880015976018 332050.2700181829 + 2.853639614339 324251.5586686540 + 2.853073718841 323878.7699566549 + 2.844239317761 313986.3361206902 + 2.840868414334 306475.7874860869 + 2.840665366734 305899.9358364108 + 2.838365986716 297583.4281749881 + 2.838027558809 295850.5341856196 diff --git a/mytest/H2S_numerical.out b/mytest/H2S_numerical.out index fbeb21cb..e374fe02 100644 --- a/mytest/H2S_numerical.out +++ b/mytest/H2S_numerical.out @@ -967,7 +967,7 @@ H2Sg(g) -0.06 8.776e-01 0.994 0.000e+00 8.949e+00 8.949e+00 Specific Conductance (µS/cm, 50°C) = 56 Density (g/cm³) = 0.98772 Volume (L) = 0.99144 - Viscosity (mPa s) = 0.54653 + Viscosity (mPa s) = 0.54654 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.044e-04 Mass of water (kg) = 9.775e-01 @@ -1275,7 +1275,7 @@ H2Sg(g) -0.51 3.087e-01 0.997 0.000e+00 8.993e+00 8.993e+00 Specific Conductance (µS/cm, 90°C) = 41 Density (g/cm³) = 0.96521 Volume (L) = 0.66036 - Viscosity (mPa s) = 0.31418 + Viscosity (mPa s) = 0.31419 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.781e-05 Mass of water (kg) = 6.371e-01 @@ -1602,7 +1602,7 @@ H2Sg(g) 1.46 2.877e+01 0.867 0.000e+00 7.941e+00 7.941e+00 Specific Conductance (µS/cm, 90°C) = 351 Density (g/cm³) = 0.96349 Volume (L) = 1.07105 - Viscosity (mPa s) = 0.31501 + Viscosity (mPa s) = 0.31502 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.254e-04 Mass of water (kg) = 9.959e-01 @@ -1674,10 +1674,10 @@ H2Sg(g) 1.44 2.733e+01 0.894 0.000e+00 8.160e+00 8.160e+00 pH = 3.350 Charge balance pe = 9.563 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 353 + Specific Conductance (µS/cm, 120°C) = 352 Density (g/cm³) = 0.94118 Volume (L) = 1.07995 - Viscosity (mPa s) = 0.23282 + Viscosity (mPa s) = 0.23283 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.604e-04 Mass of water (kg) = 9.878e-01 @@ -1752,7 +1752,7 @@ H2Sg(g) 1.39 2.432e+01 0.917 0.000e+00 8.320e+00 8.320e+00 Specific Conductance (µS/cm, 150°C) = 307 Density (g/cm³) = 0.91491 Volume (L) = 1.08279 - Viscosity (mPa s) = 0.18328 + Viscosity (mPa s) = 0.18329 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.691e-04 Mass of water (kg) = 9.675e-01 @@ -1827,7 +1827,7 @@ H2Sg(g) 1.27 1.882e+01 0.938 0.000e+00 8.504e+00 8.504e+00 Specific Conductance (µS/cm, 180°C) = 230 Density (g/cm³) = 0.88466 Volume (L) = 1.05030 - Viscosity (mPa s) = 0.15088 + Viscosity (mPa s) = 0.15089 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.634e-04 Mass of water (kg) = 9.123e-01 @@ -1902,7 +1902,7 @@ H2Sg(g) 1.00 9.892e+00 0.966 0.000e+00 8.793e+00 8.793e+00 Specific Conductance (µS/cm, 210°C) = 134 Density (g/cm³) = 0.85065 Volume (L) = 0.81282 - Viscosity (mPa s) = 0.12818 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12819 (solute contributions limited to 200 °C) Activity of water = 0.995 Ionic strength (mol/kgw) = 1.492e-04 Mass of water (kg) = 6.844e-01 @@ -2075,7 +2075,7 @@ H2Sg(g) 1.69 4.899e+01 0.719 0.000e+00 6.735e+00 6.735e+00 Specific Conductance (µS/cm, 60°C) = 338 Density (g/cm³) = 0.98569 Volume (L) = 1.09206 - Viscosity (mPa s) = 0.46726 + Viscosity (mPa s) = 0.46727 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.596e-04 Mass of water (kg) = 9.992e-01 @@ -2156,7 +2156,7 @@ H2Sg(g) 1.68 4.833e+01 0.782 0.000e+00 7.274e+00 7.274e+00 Specific Conductance (µS/cm, 90°C) = 413 Density (g/cm³) = 0.96629 Volume (L) = 1.09307 - Viscosity (mPa s) = 0.31556 + Viscosity (mPa s) = 0.31557 Activity of water = 0.975 Ionic strength (mol/kgw) = 6.443e-04 Mass of water (kg) = 9.974e-01 @@ -2231,7 +2231,7 @@ H2Sg(g) 1.67 4.676e+01 0.827 0.000e+00 7.556e+00 7.556e+00 Specific Conductance (µS/cm, 120°C) = 426 Density (g/cm³) = 0.94362 Volume (L) = 1.10403 - Viscosity (mPa s) = 0.23336 + Viscosity (mPa s) = 0.23337 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.777e-04 Mass of water (kg) = 9.926e-01 @@ -2312,7 +2312,7 @@ H2Sg(g) 1.64 4.352e+01 0.862 0.000e+00 7.744e+00 7.744e+00 Specific Conductance (µS/cm, 150°C) = 384 Density (g/cm³) = 0.91698 Volume (L) = 1.11701 - Viscosity (mPa s) = 0.18379 + Viscosity (mPa s) = 0.18380 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.785e-04 Mass of water (kg) = 9.815e-01 @@ -2387,7 +2387,7 @@ H2Sg(g) 1.58 3.766e+01 0.892 0.000e+00 7.934e+00 7.934e+00 Specific Conductance (µS/cm, 180°C) = 306 Density (g/cm³) = 0.88597 Volume (L) = 1.11983 - Viscosity (mPa s) = 0.15137 + Viscosity (mPa s) = 0.15138 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.639e-04 Mass of water (kg) = 9.558e-01 @@ -2462,7 +2462,7 @@ H2Sg(g) 1.45 2.816e+01 0.923 0.000e+00 8.216e+00 8.216e+00 Specific Conductance (µS/cm, 210°C) = 212 Density (g/cm³) = 0.85023 Volume (L) = 1.07691 - Viscosity (mPa s) = 0.12870 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12871 (solute contributions limited to 200 °C) Activity of water = 0.986 Ionic strength (mol/kgw) = 2.475e-04 Mass of water (kg) = 8.889e-01 @@ -2537,7 +2537,7 @@ H2Sg(g) 1.15 1.428e+01 0.964 0.000e+00 8.696e+00 8.696e+00 Specific Conductance (µS/cm, 240°C) = 116 Density (g/cm³) = 0.81006 Volume (L) = 0.77276 - Viscosity (mPa s) = 0.11155 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11156 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 1.345e-04 Mass of water (kg) = 6.156e-01 @@ -2791,7 +2791,7 @@ H2Sg(g) 1.98 9.567e+01 0.535 0.000e+00 6.598e+00 6.598e+00 Specific Conductance (µS/cm, 90°C) = 457 Density (g/cm³) = 0.97248 Volume (L) = 1.10860 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31694 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.387e-04 Mass of water (kg) = 9.962e-01 @@ -2866,7 +2866,7 @@ H2Sg(g) 1.98 9.491e+01 0.667 0.000e+00 6.389e+00 6.389e+00 Specific Conductance (µS/cm, 120°C) = 507 Density (g/cm³) = 0.95309 Volume (L) = 1.13777 - Viscosity (mPa s) = 0.23470 + Viscosity (mPa s) = 0.23471 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.313e-04 Mass of water (kg) = 9.954e-01 @@ -2941,7 +2941,7 @@ H2Sg(g) 1.96 9.111e+01 0.736 0.000e+00 6.444e+00 6.444e+00 Specific Conductance (µS/cm, 150°C) = 476 Density (g/cm³) = 0.92781 Volume (L) = 1.16128 - Viscosity (mPa s) = 0.18507 + Viscosity (mPa s) = 0.18508 Activity of water = 0.964 Ionic strength (mol/kgw) = 6.355e-04 Mass of water (kg) = 9.903e-01 @@ -3016,7 +3016,7 @@ H2Sg(g) 1.93 8.431e+01 0.789 0.000e+00 6.534e+00 6.534e+00 Specific Conductance (µS/cm, 180°C) = 399 Density (g/cm³) = 0.89758 Volume (L) = 1.18537 - Viscosity (mPa s) = 0.15260 + Viscosity (mPa s) = 0.15261 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.111e-04 Mass of water (kg) = 9.799e-01 @@ -3091,7 +3091,7 @@ H2Sg(g) 1.87 7.349e+01 0.836 0.000e+00 6.722e+00 6.722e+00 Specific Conductance (µS/cm, 210°C) = 301 Density (g/cm³) = 0.86139 Volume (L) = 1.20283 - Viscosity (mPa s) = 0.12998 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13000 (solute contributions limited to 200 °C) Activity of water = 0.966 Ionic strength (mol/kgw) = 3.819e-04 Mass of water (kg) = 9.585e-01 @@ -3166,7 +3166,7 @@ H2Sg(g) 1.76 5.774e+01 0.883 0.000e+00 7.112e+00 7.112e+00 Specific Conductance (µS/cm, 240°C) = 205 Density (g/cm³) = 0.81756 Volume (L) = 1.19067 - Viscosity (mPa s) = 0.11294 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11295 (solute contributions limited to 200 °C) Activity of water = 0.969 Ionic strength (mol/kgw) = 2.627e-04 Mass of water (kg) = 9.091e-01 @@ -3241,7 +3241,7 @@ H2Sg(g) 1.56 3.663e+01 0.940 0.000e+00 7.859e+00 7.859e+00 Specific Conductance (µS/cm, 270°C) = 122 Density (g/cm³) = 0.76434 Volume (L) = 1.04534 - Viscosity (mPa s) = 0.09909 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09910 (solute contributions limited to 200 °C) Activity of water = 0.977 Ionic strength (mol/kgw) = 1.601e-04 Mass of water (kg) = 7.601e-01 @@ -3322,7 +3322,7 @@ H2Sg(g) 1.18 1.529e+01 1.006 0.000e+00 8.913e+00 8.913e+00 Specific Conductance (µS/cm, 295°C) = 63 Density (g/cm³) = 0.71455 Volume (L) = 0.17801 - Viscosity (mPa s) = 0.08860 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08861 (solute contributions limited to 200 °C) Activity of water = 0.989 Ionic strength (mol/kgw) = 8.365e-05 Mass of water (kg) = 1.242e-01 @@ -3570,7 +3570,7 @@ H2Sg(g) 2.16 1.432e+02 0.391 0.000e+00 6.457e+00 6.457e+00 Specific Conductance (µS/cm, 90°C) = 468 Density (g/cm³) = 0.97621 Volume (L) = 1.10917 - Viscosity (mPa s) = 0.31828 + Viscosity (mPa s) = 0.31829 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.604e-04 Mass of water (kg) = 9.961e-01 @@ -3645,7 +3645,7 @@ H2Sg(g) 2.15 1.405e+02 0.523 0.000e+00 5.975e+00 5.975e+00 Specific Conductance (µS/cm, 120°C) = 529 Density (g/cm³) = 0.95924 Volume (L) = 1.14394 - Viscosity (mPa s) = 0.23602 + Viscosity (mPa s) = 0.23603 Activity of water = 0.959 Ionic strength (mol/kgw) = 7.773e-04 Mass of water (kg) = 9.942e-01 @@ -3720,7 +3720,7 @@ H2Sg(g) 2.14 1.368e+02 0.626 0.000e+00 5.579e+00 5.579e+00 Specific Conductance (µS/cm, 150°C) = 513 Density (g/cm³) = 0.93844 Volume (L) = 1.18110 - Viscosity (mPa s) = 0.18632 + Viscosity (mPa s) = 0.18633 Activity of water = 0.954 Ionic strength (mol/kgw) = 7.116e-04 Mass of water (kg) = 9.918e-01 @@ -3795,7 +3795,7 @@ H2Sg(g) 2.11 1.294e+02 0.702 0.000e+00 5.369e+00 5.369e+00 Specific Conductance (µS/cm, 180°C) = 442 Density (g/cm³) = 0.91227 Volume (L) = 1.21659 - Viscosity (mPa s) = 0.15382 + Viscosity (mPa s) = 0.15383 Activity of water = 0.951 Ionic strength (mol/kgw) = 5.937e-04 Mass of water (kg) = 9.861e-01 @@ -3870,7 +3870,7 @@ H2Sg(g) 2.07 1.173e+02 0.764 0.000e+00 5.318e+00 5.318e+00 Specific Conductance (µS/cm, 210°C) = 345 Density (g/cm³) = 0.88004 Volume (L) = 1.25042 - Viscosity (mPa s) = 0.13124 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13126 (solute contributions limited to 200 °C) Activity of water = 0.949 Ionic strength (mol/kgw) = 4.611e-04 Mass of water (kg) = 9.749e-01 @@ -3945,7 +3945,7 @@ H2Sg(g) 2.00 9.984e+01 0.822 0.000e+00 5.495e+00 5.495e+00 Specific Conductance (µS/cm, 240°C) = 248 Density (g/cm³) = 0.83984 Volume (L) = 1.27607 - Viscosity (mPa s) = 0.11427 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11428 (solute contributions limited to 200 °C) Activity of water = 0.948 Ionic strength (mol/kgw) = 3.357e-04 Mass of water (kg) = 9.522e-01 @@ -4020,7 +4020,7 @@ H2Sg(g) 1.88 7.652e+01 0.885 0.000e+00 6.049e+00 6.049e+00 Specific Conductance (µS/cm, 270°C) = 164 Density (g/cm³) = 0.78835 Volume (L) = 1.26692 - Viscosity (mPa s) = 0.10063 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10065 (solute contributions limited to 200 °C) Activity of water = 0.952 Ionic strength (mol/kgw) = 2.288e-04 Mass of water (kg) = 8.982e-01 @@ -4095,7 +4095,7 @@ H2Sg(g) 1.68 4.748e+01 0.966 0.000e+00 7.260e+00 7.260e+00 Specific Conductance (µS/cm, 300°C) = 99 Density (g/cm³) = 0.72150 Volume (L) = 1.08442 - Viscosity (mPa s) = 0.08842 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08843 (solute contributions limited to 200 °C) Activity of water = 0.964 Ionic strength (mol/kgw) = 1.439e-04 Mass of water (kg) = 7.231e-01 @@ -4343,7 +4343,7 @@ H2Sg(g) 2.28 1.909e+02 0.319 0.000e+00 6.329e+00 6.329e+00 Specific Conductance (µS/cm, 90°C) = 478 Density (g/cm³) = 0.97967 Volume (L) = 1.10970 - Viscosity (mPa s) = 0.31962 + Viscosity (mPa s) = 0.31963 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.801e-04 Mass of water (kg) = 9.961e-01 @@ -4418,7 +4418,7 @@ H2Sg(g) 2.27 1.867e+02 0.434 0.000e+00 5.727e+00 5.727e+00 Specific Conductance (µS/cm, 120°C) = 542 Density (g/cm³) = 0.96403 Volume (L) = 1.14688 - Viscosity (mPa s) = 0.23732 + Viscosity (mPa s) = 0.23733 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.050e-04 Mass of water (kg) = 9.941e-01 @@ -4493,7 +4493,7 @@ H2Sg(g) 2.26 1.810e+02 0.541 0.000e+00 5.070e+00 5.070e+00 Specific Conductance (µS/cm, 150°C) = 531 Density (g/cm³) = 0.94634 Volume (L) = 1.18947 - Viscosity (mPa s) = 0.18756 + Viscosity (mPa s) = 0.18758 Activity of water = 0.949 Ionic strength (mol/kgw) = 7.524e-04 Mass of water (kg) = 9.917e-01 @@ -4568,7 +4568,7 @@ H2Sg(g) 2.24 1.725e+02 0.630 0.000e+00 4.498e+00 4.498e+00 Specific Conductance (µS/cm, 180°C) = 465 Density (g/cm³) = 0.92526 Volume (L) = 1.23394 - Viscosity (mPa s) = 0.15502 + Viscosity (mPa s) = 0.15504 Activity of water = 0.941 Ionic strength (mol/kgw) = 6.451e-04 Mass of water (kg) = 9.883e-01 @@ -4643,7 +4643,7 @@ H2Sg(g) 2.20 1.592e+02 0.705 0.000e+00 4.097e+00 4.097e+00 Specific Conductance (µS/cm, 210°C) = 370 Density (g/cm³) = 0.89948 Volume (L) = 1.27783 - Viscosity (mPa s) = 0.13249 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13250 (solute contributions limited to 200 °C) Activity of water = 0.935 Ionic strength (mol/kgw) = 5.148e-04 Mass of water (kg) = 9.823e-01 @@ -4718,7 +4718,7 @@ H2Sg(g) 2.15 1.401e+02 0.773 0.000e+00 3.930e+00 3.930e+00 Specific Conductance (µS/cm, 240°C) = 275 Density (g/cm³) = 0.86764 Volume (L) = 1.31832 - Viscosity (mPa s) = 0.11556 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11558 (solute contributions limited to 200 °C) Activity of water = 0.931 Ionic strength (mol/kgw) = 3.872e-04 Mass of water (kg) = 9.710e-01 @@ -4793,7 +4793,7 @@ H2Sg(g) 2.06 1.148e+02 0.844 0.000e+00 4.114e+00 4.114e+00 Specific Conductance (µS/cm, 270°C) = 193 Density (g/cm³) = 0.82820 Volume (L) = 1.34415 - Viscosity (mPa s) = 0.10211 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10212 (solute contributions limited to 200 °C) Activity of water = 0.930 Ionic strength (mol/kgw) = 2.773e-04 Mass of water (kg) = 9.467e-01 @@ -4868,7 +4868,7 @@ H2Sg(g) 1.92 8.351e+01 0.929 0.000e+00 4.886e+00 4.886e+00 Specific Conductance (µS/cm, 300°C) = 133 Density (g/cm³) = 0.78380 Volume (L) = 1.30154 - Viscosity (mPa s) = 0.09022 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09023 (solute contributions limited to 200 °C) Activity of water = 0.936 Ionic strength (mol/kgw) = 1.922e-04 Mass of water (kg) = 8.800e-01 @@ -5047,7 +5047,7 @@ H2Sg(g) 2.38 2.421e+02 0.184 0.000e+00 6.691e+00 6.691e+00 Specific Conductance (µS/cm, 60°C) = 356 Density (g/cm³) = 0.99678 Volume (L) = 1.07990 - Viscosity (mPa s) = 0.47212 + Viscosity (mPa s) = 0.47213 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.875e-04 Mass of water (kg) = 9.977e-01 @@ -5203,7 +5203,7 @@ H2Sg(g) 2.37 2.330e+02 0.380 0.000e+00 5.509e+00 5.509e+00 Specific Conductance (µS/cm, 120°C) = 552 Density (g/cm³) = 0.96831 Volume (L) = 1.14958 - Viscosity (mPa s) = 0.23861 + Viscosity (mPa s) = 0.23862 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.292e-04 Mass of water (kg) = 9.942e-01 @@ -5278,7 +5278,7 @@ H2Sg(g) 2.35 2.253e+02 0.482 0.000e+00 4.673e+00 4.673e+00 Specific Conductance (µS/cm, 150°C) = 544 Density (g/cm³) = 0.95292 Volume (L) = 1.19576 - Viscosity (mPa s) = 0.18879 + Viscosity (mPa s) = 0.18881 Activity of water = 0.945 Ionic strength (mol/kgw) = 7.831e-04 Mass of water (kg) = 9.920e-01 @@ -5353,7 +5353,7 @@ H2Sg(g) 2.33 2.146e+02 0.575 0.000e+00 3.816e+00 3.816e+00 Specific Conductance (µS/cm, 180°C) = 479 Density (g/cm³) = 0.93615 Volume (L) = 1.24595 - Viscosity (mPa s) = 0.15621 + Viscosity (mPa s) = 0.15623 Activity of water = 0.934 Ionic strength (mol/kgw) = 6.818e-04 Mass of water (kg) = 9.897e-01 @@ -5428,7 +5428,7 @@ H2Sg(g) 2.30 1.994e+02 0.658 0.000e+00 3.046e+00 3.046e+00 Specific Conductance (µS/cm, 210°C) = 387 Density (g/cm³) = 0.91728 Volume (L) = 1.29719 - Viscosity (mPa s) = 0.13375 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13376 (solute contributions limited to 200 °C) Activity of water = 0.924 Ionic strength (mol/kgw) = 5.545e-04 Mass of water (kg) = 9.870e-01 @@ -5503,7 +5503,7 @@ H2Sg(g) 2.25 1.785e+02 0.735 0.000e+00 2.447e+00 2.447e+00 Specific Conductance (µS/cm, 240°C) = 294 Density (g/cm³) = 0.89617 Volume (L) = 1.34626 - Viscosity (mPa s) = 0.11682 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11683 (solute contributions limited to 200 °C) Activity of water = 0.915 Ionic strength (mol/kgw) = 4.266e-04 Mass of water (kg) = 9.832e-01 @@ -5578,7 +5578,7 @@ H2Sg(g) 2.18 1.516e+02 0.812 0.000e+00 2.081e+00 2.081e+00 Specific Conductance (µS/cm, 270°C) = 217 Density (g/cm³) = 0.87570 Volume (L) = 1.38433 - Viscosity (mPa s) = 0.10351 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10353 (solute contributions limited to 200 °C) Activity of water = 0.908 Ionic strength (mol/kgw) = 3.152e-04 Mass of water (kg) = 9.765e-01 @@ -5653,7 +5653,7 @@ H2Sg(g) 2.08 1.191e+02 0.899 0.000e+00 1.945e+00 1.945e+00 Specific Conductance (µS/cm, 300°C) = 169 Density (g/cm³) = 0.87979 Volume (L) = 1.36729 - Viscosity (mPa s) = 0.09190 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09192 (solute contributions limited to 200 °C) Activity of water = 0.906 Ionic strength (mol/kgw) = 2.298e-04 Mass of water (kg) = 9.625e-01 @@ -5844,7 +5844,7 @@ H2Sg(g) 2.46 2.906e+02 0.165 0.000e+00 6.627e+00 6.627e+00 Specific Conductance (µS/cm, 60°C) = 362 Density (g/cm³) = 0.99938 Volume (L) = 1.07928 - Viscosity (mPa s) = 0.47336 + Viscosity (mPa s) = 0.47337 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.006e-04 Mass of water (kg) = 9.978e-01 @@ -5919,7 +5919,7 @@ H2Sg(g) 2.46 2.862e+02 0.249 0.000e+00 6.098e+00 6.098e+00 Specific Conductance (µS/cm, 90°C) = 495 Density (g/cm³) = 0.98580 Volume (L) = 1.11087 - Viscosity (mPa s) = 0.32229 + Viscosity (mPa s) = 0.32230 Activity of water = 0.961 Ionic strength (mol/kgw) = 8.163e-04 Mass of water (kg) = 9.962e-01 @@ -5994,7 +5994,7 @@ H2Sg(g) 2.45 2.795e+02 0.343 0.000e+00 5.307e+00 5.307e+00 Specific Conductance (µS/cm, 120°C) = 562 Density (g/cm³) = 0.97217 Volume (L) = 1.15226 - Viscosity (mPa s) = 0.23989 + Viscosity (mPa s) = 0.23990 Activity of water = 0.952 Ionic strength (mol/kgw) = 8.516e-04 Mass of water (kg) = 9.943e-01 @@ -6069,7 +6069,7 @@ H2Sg(g) 2.43 2.700e+02 0.440 0.000e+00 4.316e+00 4.316e+00 Specific Conductance (µS/cm, 150°C) = 554 Density (g/cm³) = 0.95872 Volume (L) = 1.20172 - Viscosity (mPa s) = 0.19001 + Viscosity (mPa s) = 0.19003 Activity of water = 0.941 Ionic strength (mol/kgw) = 8.099e-04 Mass of water (kg) = 9.925e-01 @@ -6144,7 +6144,7 @@ H2Sg(g) 2.41 2.569e+02 0.534 0.000e+00 3.214e+00 3.214e+00 Specific Conductance (µS/cm, 180°C) = 490 Density (g/cm³) = 0.94562 Volume (L) = 1.25670 - Viscosity (mPa s) = 0.15739 + Viscosity (mPa s) = 0.15740 Activity of water = 0.928 Ionic strength (mol/kgw) = 7.123e-04 Mass of water (kg) = 9.912e-01 @@ -6219,7 +6219,7 @@ H2Sg(g) 2.38 2.393e+02 0.621 0.000e+00 2.093e+00 2.093e+00 Specific Conductance (µS/cm, 210°C) = 398 Density (g/cm³) = 0.93325 Volume (L) = 1.31415 - Viscosity (mPa s) = 0.13510 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13512 (solute contributions limited to 200 °C) Activity of water = 0.914 Ionic strength (mol/kgw) = 5.869e-04 Mass of water (kg) = 9.910e-01 @@ -6473,7 +6473,7 @@ H2Sg(g) 2.52 3.339e+02 0.230 0.000e+00 5.994e+00 5.994e+00 Specific Conductance (µS/cm, 90°C) = 502 Density (g/cm³) = 0.98850 Volume (L) = 1.11151 - Viscosity (mPa s) = 0.32361 + Viscosity (mPa s) = 0.32362 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.334e-04 Mass of water (kg) = 9.963e-01 @@ -6548,7 +6548,7 @@ H2Sg(g) 2.51 3.260e+02 0.318 0.000e+00 5.118e+00 5.118e+00 Specific Conductance (µS/cm, 120°C) = 570 Density (g/cm³) = 0.97563 Volume (L) = 1.15496 - Viscosity (mPa s) = 0.24116 + Viscosity (mPa s) = 0.24117 Activity of water = 0.950 Ionic strength (mol/kgw) = 8.728e-04 Mass of water (kg) = 9.945e-01 @@ -6623,7 +6623,7 @@ H2Sg(g) 2.50 3.148e+02 0.411 0.000e+00 3.985e+00 3.985e+00 Specific Conductance (µS/cm, 150°C) = 562 Density (g/cm³) = 0.96382 Volume (L) = 1.20764 - Viscosity (mPa s) = 0.19122 + Viscosity (mPa s) = 0.19123 Activity of water = 0.938 Ionic strength (mol/kgw) = 8.346e-04 Mass of water (kg) = 9.930e-01 @@ -6698,7 +6698,7 @@ H2Sg(g) 2.48 2.995e+02 0.502 0.000e+00 2.655e+00 2.655e+00 Specific Conductance (µS/cm, 180°C) = 498 Density (g/cm³) = 0.95394 Volume (L) = 1.26727 - Viscosity (mPa s) = 0.15855 + Viscosity (mPa s) = 0.15857 Activity of water = 0.922 Ionic strength (mol/kgw) = 7.394e-04 Mass of water (kg) = 9.927e-01 @@ -6871,7 +6871,7 @@ H2Sg(g) 2.59 3.876e+02 0.144 0.000e+00 6.512e+00 6.512e+00 Specific Conductance (µS/cm, 60°C) = 374 Density (g/cm³) = 1.00414 Volume (L) = 1.07815 - Viscosity (mPa s) = 0.47586 + Viscosity (mPa s) = 0.47587 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.262e-04 Mass of water (kg) = 9.978e-01 @@ -6946,7 +6946,7 @@ H2Sg(g) 2.58 3.817e+02 0.217 0.000e+00 5.896e+00 5.896e+00 Specific Conductance (µS/cm, 90°C) = 510 Density (g/cm³) = 0.99097 Volume (L) = 1.11216 - Viscosity (mPa s) = 0.32494 + Viscosity (mPa s) = 0.32495 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.500e-04 Mass of water (kg) = 9.963e-01 @@ -7021,7 +7021,7 @@ H2Sg(g) 2.57 3.727e+02 0.300 0.000e+00 4.942e+00 4.942e+00 Specific Conductance (µS/cm, 120°C) = 578 Density (g/cm³) = 0.97871 Volume (L) = 1.15768 - Viscosity (mPa s) = 0.24243 + Viscosity (mPa s) = 0.24244 Activity of water = 0.949 Ionic strength (mol/kgw) = 8.931e-04 Mass of water (kg) = 9.947e-01 @@ -7096,7 +7096,7 @@ H2Sg(g) 2.56 3.599e+02 0.389 0.000e+00 3.672e+00 3.672e+00 Specific Conductance (µS/cm, 150°C) = 569 Density (g/cm³) = 0.96830 Volume (L) = 1.21362 - Viscosity (mPa s) = 0.19242 + Viscosity (mPa s) = 0.19243 Activity of water = 0.934 Ionic strength (mol/kgw) = 8.578e-04 Mass of water (kg) = 9.936e-01 @@ -7171,7 +7171,7 @@ H2Sg(g) 2.53 3.426e+02 0.479 0.000e+00 2.124e+00 2.124e+00 Specific Conductance (µS/cm, 180°C) = 504 Density (g/cm³) = 0.96124 Volume (L) = 1.27805 - Viscosity (mPa s) = 0.15971 + Viscosity (mPa s) = 0.15972 Activity of water = 0.917 Ionic strength (mol/kgw) = 7.645e-04 Mass of water (kg) = 9.942e-01 @@ -7419,7 +7419,7 @@ H2Sg(g) 2.63 4.294e+02 0.207 0.000e+00 5.806e+00 5.806e+00 Specific Conductance (µS/cm, 90°C) = 517 Density (g/cm³) = 0.99323 Volume (L) = 1.11280 - Viscosity (mPa s) = 0.32626 + Viscosity (mPa s) = 0.32627 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.663e-04 Mass of water (kg) = 9.964e-01 @@ -7494,7 +7494,7 @@ H2Sg(g) 2.62 4.194e+02 0.287 0.000e+00 4.777e+00 4.777e+00 Specific Conductance (µS/cm, 120°C) = 585 Density (g/cm³) = 0.98143 Volume (L) = 1.16039 - Viscosity (mPa s) = 0.24369 + Viscosity (mPa s) = 0.24370 Activity of water = 0.947 Ionic strength (mol/kgw) = 9.128e-04 Mass of water (kg) = 9.949e-01 @@ -7569,7 +7569,7 @@ H2Sg(g) 2.61 4.051e+02 0.373 0.000e+00 3.378e+00 3.378e+00 Specific Conductance (µS/cm, 150°C) = 575 Density (g/cm³) = 0.97218 Volume (L) = 1.21965 - Viscosity (mPa s) = 0.19361 + Viscosity (mPa s) = 0.19362 Activity of water = 0.932 Ionic strength (mol/kgw) = 8.800e-04 Mass of water (kg) = 9.941e-01 @@ -7644,7 +7644,7 @@ H2Sg(g) 2.59 3.859e+02 0.461 0.000e+00 1.617e+00 1.617e+00 Specific Conductance (µS/cm, 180°C) = 508 Density (g/cm³) = 0.96754 Volume (L) = 1.28905 - Viscosity (mPa s) = 0.16085 + Viscosity (mPa s) = 0.16087 Activity of water = 0.912 Ionic strength (mol/kgw) = 7.882e-04 Mass of water (kg) = 9.956e-01 @@ -7742,7 +7742,7 @@ H2Sg(g) 2.69 4.891e+02 0.079 0.000e+00 6.658e+00 6.658e+00 Specific Conductance (µS/cm, 30°C) = 222 Density (g/cm³) = 1.02326 Volume (L) = 1.05419 - Viscosity (mPa s) = 0.79928 + Viscosity (mPa s) = 0.79929 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.623e-04 Mass of water (kg) = 9.989e-01 @@ -7823,7 +7823,7 @@ H2Sg(g) 2.69 4.846e+02 0.133 0.000e+00 6.411e+00 6.411e+00 Specific Conductance (µS/cm, 60°C) = 386 Density (g/cm³) = 1.00841 Volume (L) = 1.07703 - Viscosity (mPa s) = 0.47840 + Viscosity (mPa s) = 0.47841 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.510e-04 Mass of water (kg) = 9.979e-01 @@ -7898,7 +7898,7 @@ H2Sg(g) 2.68 4.773e+02 0.200 0.000e+00 5.724e+00 5.724e+00 Specific Conductance (µS/cm, 90°C) = 524 Density (g/cm³) = 0.99530 Volume (L) = 1.11338 - Viscosity (mPa s) = 0.32758 + Viscosity (mPa s) = 0.32759 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.822e-04 Mass of water (kg) = 9.965e-01 @@ -7973,7 +7973,7 @@ H2Sg(g) 2.67 4.662e+02 0.277 0.000e+00 4.625e+00 4.625e+00 Specific Conductance (µS/cm, 120°C) = 592 Density (g/cm³) = 0.98382 Volume (L) = 1.16305 - Viscosity (mPa s) = 0.24494 + Viscosity (mPa s) = 0.24495 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.319e-04 Mass of water (kg) = 9.951e-01 @@ -8048,7 +8048,7 @@ H2Sg(g) 2.65 4.505e+02 0.361 0.000e+00 3.102e+00 3.102e+00 Specific Conductance (µS/cm, 150°C) = 580 Density (g/cm³) = 0.97550 Volume (L) = 1.22569 - Viscosity (mPa s) = 0.19479 + Viscosity (mPa s) = 0.19481 Activity of water = 0.929 Ionic strength (mol/kgw) = 9.014e-04 Mass of water (kg) = 9.947e-01 @@ -8123,7 +8123,7 @@ H2Sg(g) 2.63 4.296e+02 0.447 0.000e+00 1.132e+00 1.132e+00 Specific Conductance (µS/cm, 180°C) = 511 Density (g/cm³) = 0.97292 Volume (L) = 1.30030 - Viscosity (mPa s) = 0.16198 + Viscosity (mPa s) = 0.16200 Activity of water = 0.907 Ionic strength (mol/kgw) = 8.107e-04 Mass of water (kg) = 9.970e-01 @@ -8368,10 +8368,10 @@ H2Sg(g) 2.72 5.251e+02 0.195 0.000e+00 5.649e+00 5.649e+00 pH = 3.062 Charge balance pe = 11.212 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 531 + Specific Conductance (µS/cm, 90°C) = 530 Density (g/cm³) = 0.99719 Volume (L) = 1.11389 - Viscosity (mPa s) = 0.32890 + Viscosity (mPa s) = 0.32891 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.979e-04 Mass of water (kg) = 9.966e-01 @@ -8446,7 +8446,7 @@ H2Sg(g) 2.71 5.130e+02 0.270 0.000e+00 4.486e+00 4.486e+00 Specific Conductance (µS/cm, 120°C) = 598 Density (g/cm³) = 0.98590 Volume (L) = 1.16560 - Viscosity (mPa s) = 0.24619 + Viscosity (mPa s) = 0.24620 Activity of water = 0.944 Ionic strength (mol/kgw) = 9.505e-04 Mass of water (kg) = 9.953e-01 @@ -8521,7 +8521,7 @@ H2Sg(g) 2.70 4.960e+02 0.352 0.000e+00 2.845e+00 2.845e+00 Specific Conductance (µS/cm, 150°C) = 585 Density (g/cm³) = 0.97829 Volume (L) = 1.23167 - Viscosity (mPa s) = 0.19597 + Viscosity (mPa s) = 0.19598 Activity of water = 0.926 Ionic strength (mol/kgw) = 9.220e-04 Mass of water (kg) = 9.952e-01 @@ -8596,7 +8596,7 @@ H2Sg(g) 2.68 4.735e+02 0.437 0.000e+00 6.733e-01 6.733e-01 Specific Conductance (µS/cm, 180°C) = 514 Density (g/cm³) = 0.97740 Volume (L) = 1.31165 - Viscosity (mPa s) = 0.16310 + Viscosity (mPa s) = 0.16312 Activity of water = 0.903 Ionic strength (mol/kgw) = 8.324e-04 Mass of water (kg) = 9.982e-01 @@ -8775,7 +8775,7 @@ H2Sg(g) 2.76 5.816e+02 0.127 0.000e+00 6.328e+00 6.328e+00 Specific Conductance (µS/cm, 60°C) = 397 Density (g/cm³) = 1.01230 Volume (L) = 1.07577 - Viscosity (mPa s) = 0.48098 + Viscosity (mPa s) = 0.48099 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.754e-04 Mass of water (kg) = 9.979e-01 @@ -8925,7 +8925,7 @@ H2Sg(g) 2.75 5.599e+02 0.265 0.000e+00 4.359e+00 4.359e+00 Specific Conductance (µS/cm, 120°C) = 604 Density (g/cm³) = 0.98772 Volume (L) = 1.16801 - Viscosity (mPa s) = 0.24743 + Viscosity (mPa s) = 0.24744 Activity of water = 0.942 Ionic strength (mol/kgw) = 9.688e-04 Mass of water (kg) = 9.955e-01 @@ -9000,7 +9000,7 @@ H2Sg(g) 2.73 5.416e+02 0.345 0.000e+00 2.607e+00 2.607e+00 Specific Conductance (µS/cm, 150°C) = 589 Density (g/cm³) = 0.98060 Volume (L) = 1.23750 - Viscosity (mPa s) = 0.19713 + Viscosity (mPa s) = 0.19715 Activity of water = 0.924 Ionic strength (mol/kgw) = 9.422e-04 Mass of water (kg) = 9.956e-01 @@ -9075,7 +9075,7 @@ H2Sg(g) 2.71 5.176e+02 0.429 0.000e+00 2.401e-01 2.401e-01 Specific Conductance (µS/cm, 180°C) = 515 Density (g/cm³) = 0.98103 Volume (L) = 1.32302 - Viscosity (mPa s) = 0.16421 + Viscosity (mPa s) = 0.16423 Activity of water = 0.899 Ionic strength (mol/kgw) = 8.533e-04 Mass of water (kg) = 9.994e-01 @@ -9398,7 +9398,7 @@ H2Sg(g) 2.78 6.070e+02 0.261 0.000e+00 4.245e+00 4.245e+00 Specific Conductance (µS/cm, 120°C) = 610 Density (g/cm³) = 0.98929 Volume (L) = 1.17023 - Viscosity (mPa s) = 0.24867 + Viscosity (mPa s) = 0.24868 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.868e-04 Mass of water (kg) = 9.957e-01 @@ -9473,7 +9473,7 @@ H2Sg(g) 2.77 5.875e+02 0.341 0.000e+00 2.389e+00 2.389e+00 Specific Conductance (µS/cm, 150°C) = 593 Density (g/cm³) = 0.98247 Volume (L) = 1.24314 - Viscosity (mPa s) = 0.19829 + Viscosity (mPa s) = 0.19831 Activity of water = 0.922 Ionic strength (mol/kgw) = 9.618e-04 Mass of water (kg) = 9.960e-01 @@ -9727,7 +9727,7 @@ H2Sg(g) 2.83 6.689e+02 0.187 0.000e+00 5.471e+00 5.471e+00 Specific Conductance (µS/cm, 90°C) = 550 Density (g/cm³) = 1.00209 Volume (L) = 1.11471 - Viscosity (mPa s) = 0.33285 + Viscosity (mPa s) = 0.33286 Activity of water = 0.954 Ionic strength (mol/kgw) = 9.438e-04 Mass of water (kg) = 9.968e-01 @@ -9802,7 +9802,7 @@ H2Sg(g) 2.82 6.541e+02 0.259 0.000e+00 4.145e+00 4.145e+00 Specific Conductance (µS/cm, 120°C) = 616 Density (g/cm³) = 0.99066 Volume (L) = 1.17222 - Viscosity (mPa s) = 0.24990 + Viscosity (mPa s) = 0.24992 Activity of water = 0.940 Ionic strength (mol/kgw) = 1.004e-03 Mass of water (kg) = 9.958e-01 @@ -9877,7 +9877,7 @@ H2Sg(g) 2.80 6.334e+02 0.337 0.000e+00 2.191e+00 2.191e+00 Specific Conductance (µS/cm, 150°C) = 596 Density (g/cm³) = 0.98395 Volume (L) = 1.24849 - Viscosity (mPa s) = 0.19945 + Viscosity (mPa s) = 0.19946 Activity of water = 0.919 Ionic strength (mol/kgw) = 9.811e-04 Mass of water (kg) = 9.964e-01 @@ -10131,7 +10131,7 @@ H2Sg(g) 2.86 7.169e+02 0.187 0.000e+00 5.427e+00 5.427e+00 Specific Conductance (µS/cm, 90°C) = 557 Density (g/cm³) = 1.00353 Volume (L) = 1.11467 - Viscosity (mPa s) = 0.33417 + Viscosity (mPa s) = 0.33418 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.588e-04 Mass of water (kg) = 9.968e-01 @@ -10206,7 +10206,7 @@ H2Sg(g) 2.85 7.013e+02 0.258 0.000e+00 4.057e+00 4.057e+00 Specific Conductance (µS/cm, 120°C) = 622 Density (g/cm³) = 0.99186 Volume (L) = 1.17396 - Viscosity (mPa s) = 0.25114 + Viscosity (mPa s) = 0.25115 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.022e-03 Mass of water (kg) = 9.959e-01 @@ -10281,7 +10281,7 @@ H2Sg(g) 2.83 6.795e+02 0.336 0.000e+00 2.015e+00 2.015e+00 Specific Conductance (µS/cm, 150°C) = 600 Density (g/cm³) = 0.98510 Volume (L) = 1.25350 - Viscosity (mPa s) = 0.20060 + Viscosity (mPa s) = 0.20061 Activity of water = 0.918 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 9.968e-01 @@ -10454,7 +10454,7 @@ H2Sg(g) 2.89 7.760e+02 0.125 0.000e+00 6.205e+00 6.205e+00 Specific Conductance (µS/cm, 60°C) = 419 Density (g/cm³) = 1.01946 Volume (L) = 1.07243 - Viscosity (mPa s) = 0.48627 + Viscosity (mPa s) = 0.48628 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.231e-04 Mass of water (kg) = 9.981e-01 @@ -10604,7 +10604,7 @@ H2Sg(g) 2.87 7.485e+02 0.258 0.000e+00 3.982e+00 3.982e+00 Specific Conductance (µS/cm, 120°C) = 628 Density (g/cm³) = 0.99292 Volume (L) = 1.17540 - Viscosity (mPa s) = 0.25236 + Viscosity (mPa s) = 0.25237 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.039e-03 Mass of water (kg) = 9.961e-01 @@ -10685,7 +10685,7 @@ H2Sg(g) 2.86 7.257e+02 0.335 0.000e+00 1.859e+00 1.859e+00 Specific Conductance (µS/cm, 150°C) = 603 Density (g/cm³) = 0.98595 Volume (L) = 1.25809 - Viscosity (mPa s) = 0.20174 + Viscosity (mPa s) = 0.20175 Activity of water = 0.916 Ionic strength (mol/kgw) = 1.019e-03 Mass of water (kg) = 9.971e-01 @@ -10933,7 +10933,7 @@ H2Sg(g) 2.94 8.612e+02 0.188 0.000e+00 5.334e+00 5.334e+00 Specific Conductance (µS/cm, 90°C) = 577 Density (g/cm³) = 1.00757 Volume (L) = 1.11351 - Viscosity (mPa s) = 0.33812 + Viscosity (mPa s) = 0.33813 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.003e-03 Mass of water (kg) = 9.970e-01 @@ -11008,7 +11008,7 @@ H2Sg(g) 2.93 8.432e+02 0.259 0.000e+00 3.869e+00 3.869e+00 Specific Conductance (µS/cm, 120°C) = 640 Density (g/cm³) = 0.99473 Volume (L) = 1.17734 - Viscosity (mPa s) = 0.25480 + Viscosity (mPa s) = 0.25481 Activity of water = 0.936 Ionic strength (mol/kgw) = 1.073e-03 Mass of water (kg) = 9.963e-01 @@ -11083,7 +11083,7 @@ H2Sg(g) 2.91 8.184e+02 0.337 0.000e+00 1.610e+00 1.610e+00 Specific Conductance (µS/cm, 150°C) = 611 Density (g/cm³) = 0.98697 Volume (L) = 1.26586 - Viscosity (mPa s) = 0.20400 + Viscosity (mPa s) = 0.20402 Activity of water = 0.913 Ionic strength (mol/kgw) = 1.055e-03 Mass of water (kg) = 9.975e-01 @@ -11343,7 +11343,7 @@ H2Sg(g) 2.98 9.575e+02 0.192 0.000e+00 5.300e+00 5.300e+00 Specific Conductance (µS/cm, 90°C) = 591 Density (g/cm³) = 1.01021 Volume (L) = 1.11183 - Viscosity (mPa s) = 0.34074 + Viscosity (mPa s) = 0.34075 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.032e-03 Mass of water (kg) = 9.971e-01 @@ -11418,7 +11418,7 @@ H2Sg(g) 2.97 9.381e+02 0.264 0.000e+00 3.800e+00 3.800e+00 Specific Conductance (µS/cm, 120°C) = 653 Density (g/cm³) = 0.99633 Volume (L) = 1.17797 - Viscosity (mPa s) = 0.25721 + Viscosity (mPa s) = 0.25723 Activity of water = 0.935 Ionic strength (mol/kgw) = 1.106e-03 Mass of water (kg) = 9.964e-01 @@ -11493,7 +11493,7 @@ H2Sg(g) 2.96 9.115e+02 0.341 0.000e+00 1.440e+00 1.440e+00 Specific Conductance (µS/cm, 150°C) = 619 Density (g/cm³) = 0.98740 Volume (L) = 1.27150 - Viscosity (mPa s) = 0.20625 + Viscosity (mPa s) = 0.20626 Activity of water = 0.910 Ionic strength (mol/kgw) = 1.090e-03 Mass of water (kg) = 9.979e-01 @@ -11771,7 +11771,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 129 Density (g/cm³) = 0.99566 Volume (L) = 1.01288 - Viscosity (mPa s) = 0.55063 + Viscosity (mPa s) = 0.55064 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.389e-04 Mass of water (kg) = 1.000e+00 @@ -11923,7 +11923,7 @@ Reaction 1. Specific Conductance (µS/cm, 150°C) = 211 Density (g/cm³) = 0.92619 Volume (L) = 1.08897 - Viscosity (mPa s) = 0.18754 + Viscosity (mPa s) = 0.18755 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.457e-04 Mass of water (kg) = 1.000e+00 @@ -12151,7 +12151,7 @@ Reaction 1. Specific Conductance (µS/cm, 300°C) = 44 Density (g/cm³) = 0.72957 Volume (L) = 1.38281 - Viscosity (mPa s) = 0.09003 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09004 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 5.564e-05 Mass of water (kg) = 1.000e+00 @@ -12303,7 +12303,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 135 Density (g/cm³) = 1.00211 Volume (L) = 1.00636 - Viscosity (mPa s) = 0.55390 + Viscosity (mPa s) = 0.55391 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.474e-04 Mass of water (kg) = 1.000e+00 @@ -12379,7 +12379,7 @@ Reaction 1. Specific Conductance (µS/cm, 100°C) = 223 Density (g/cm³) = 0.97303 Volume (L) = 1.03647 - Viscosity (mPa s) = 0.29094 + Viscosity (mPa s) = 0.29095 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.006e-04 Mass of water (kg) = 1.000e+00 @@ -12455,7 +12455,7 @@ Reaction 1. Specific Conductance (µS/cm, 150°C) = 221 Density (g/cm³) = 0.93426 Volume (L) = 1.07956 - Viscosity (mPa s) = 0.19119 + Viscosity (mPa s) = 0.19120 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.570e-04 Mass of water (kg) = 1.000e+00 @@ -12531,7 +12531,7 @@ Reaction 1. Specific Conductance (µS/cm, 200°C) = 157 Density (g/cm³) = 0.88601 Volume (L) = 1.13839 - Viscosity (mPa s) = 0.14241 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14242 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 1.748e-04 Mass of water (kg) = 1.000e+00 @@ -12607,7 +12607,7 @@ Reaction 1. Specific Conductance (µS/cm, 250°C) = 94 Density (g/cm³) = 0.82812 Volume (L) = 1.21854 - Viscosity (mPa s) = 0.11442 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11443 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 1.068e-04 Mass of water (kg) = 1.000e+00 @@ -12683,7 +12683,7 @@ Reaction 1. Specific Conductance (µS/cm, 300°C) = 50 Density (g/cm³) = 0.75408 Volume (L) = 1.33783 - Viscosity (mPa s) = 0.09461 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09462 (solute contributions limited to 200 °C) Activity of water = 0.996 Ionic strength (mol/kgw) = 6.197e-05 Mass of water (kg) = 1.000e+00 diff --git a/mytest/H2S_numerical_101.sel b/mytest/H2S_numerical_101.sel index 7a79eccf..f2412c58 100644 --- a/mytest/H2S_numerical_101.sel +++ b/mytest/H2S_numerical_101.sel @@ -1,161 +1,161 @@ Mu SC 0.000000100644 0.0547821292 - 0.000829520314 215.2925575635 - 0.000098770619 24.9972391472 - 0.000101013426 28.7877362787 - 0.000102956926 32.5881633222 - 0.000104577663 36.3464517828 - 0.000105850491 40.0115127334 - 0.000106747956 43.5319399761 - 0.000107239602 46.8548296602 - 0.000107291163 49.9246696031 - 0.000106863590 52.6822264397 - 0.000104383103 56.9973768632 - 0.000099329904 59.1969530891 - 0.000090998752 58.4814288339 - 0.000078148161 53.6178552518 - 0.000057814592 41.9937211887 - 0.000045586030 33.8087263156 - 0.000529141609 198.9408084363 - 0.000551578732 296.3882513099 - 0.000525406736 351.2332179502 - 0.000460419257 353.0196921442 - 0.000369144215 307.8613535985 - 0.000263434742 230.6159538275 - 0.000149211997 134.1221539845 - 0.000479356259 186.1732864126 - 0.000659607946 338.8260624511 - 0.000644303985 413.6931020015 - 0.000577741083 426.5234432191 - 0.000478517744 384.3435084914 - 0.000363936738 306.1792817839 - 0.000247460388 212.4131592486 - 0.000134548583 116.5981265032 - 0.000489175561 190.5376876943 - 0.000645658452 335.8993500658 - 0.000738698112 457.7674096194 - 0.000731273374 507.6758295347 - 0.000635521635 476.8067964189 - 0.000511141031 399.3929155329 - 0.000381944367 301.7971621797 - 0.000262742167 205.9113292799 - 0.000160093236 122.8931566559 - 0.000083650926 63.6696755881 - 0.000498746639 194.7790035391 - 0.000660111704 343.0269150132 - 0.000760367567 468.5452626105 - 0.000777332145 529.4456747172 - 0.000711612240 513.8364836671 - 0.000593728168 442.0824544809 - 0.000461142848 345.0960993253 - 0.000335732748 248.0563020612 - 0.000228830447 164.1277516680 - 0.000143884205 99.1714699234 - 0.000508158209 198.9319152206 - 0.000674017438 349.8124296920 - 0.000780062224 478.1455055864 - 0.000805026008 542.2702836461 - 0.000752394518 531.8728193354 - 0.000645093085 465.1232360506 - 0.000514814143 370.6736382382 - 0.000387224340 275.3948431908 - 0.000277314158 193.2733688456 - 0.000192195155 133.2755014668 - 0.000517407236 202.9936528416 - 0.000687473289 356.3032412834 - 0.000798546266 486.9354155102 - 0.000829226477 552.9575766387 - 0.000783053612 544.3731037950 - 0.000681821307 479.7124162686 - 0.000554489813 387.1806086289 - 0.000426631113 294.8879676350 - 0.000315193278 217.1840374305 - 0.000229849711 169.4597101347 - 0.000526557259 206.9927241539 - 0.000700630939 362.5802091683 - 0.000816264977 495.1513041307 - 0.000851644002 562.3493042364 - 0.000809920814 554.3359536558 - 0.000712298405 490.2481965953 - 0.000586896984 398.1413460319 - 0.000535591140 210.9235191989 - 0.000713503327 368.6614434867 - 0.000833353503 502.8907348863 - 0.000872813264 570.7606008034 - 0.000834573349 562.5749419014 - 0.000739421662 498.1824592596 - 0.000544561274 214.8114607279 - 0.000726190711 374.6084996314 - 0.000850012970 510.2842604037 - 0.000893149701 578.4472280145 - 0.000857831700 569.5475755936 - 0.000764537127 504.2107150090 - 0.000553444017 218.6492441603 - 0.000738677841 380.4292745626 - 0.000866266265 517.3829287474 - 0.000912771181 585.5422949655 - 0.000879986613 575.5043873081 - 0.000788154928 508.7059275832 - 0.000562285849 222.4599089975 - 0.000751043546 386.1755537439 - 0.000882245062 524.2849336396 - 0.000931891198 592.2088117128 - 0.000901363894 580.6850767562 - 0.000810722541 511.9815923918 - 0.000571059671 226.2344813699 - 0.000763260172 391.8487452058 - 0.000897934195 531.0226713920 - 0.000950527112 598.5342958838 - 0.000922033770 585.2487526115 - 0.000832370777 514.2698470769 - 0.000579790788 229.9861346993 - 0.000775371104 397.4819959808 - 0.000913404834 537.6631327208 - 0.000968788417 604.6326593742 - 0.000942151167 589.3634221888 - 0.000853297420 515.7942982364 - 0.000588503098 233.7268163910 - 0.000787415723 403.1050422405 - 0.000928718600 544.2658395978 - 0.000986765298 610.6040607241 - 0.000961837796 593.1755515900 - 0.000597166786 237.4447356530 - 0.000799357958 408.7105152500 - 0.000943838645 550.8440881007 - 0.001004427843 616.5020129623 - 0.000981077376 596.7934319310 - 0.000605821778 241.1572973847 - 0.000811257084 414.3336660908 - 0.000958847229 557.4587512429 - 0.001021882513 622.4184405634 - 0.000999998343 600.3414693388 - 0.000614437231 244.8507730485 - 0.000823074213 419.9613814330 - 0.000973701147 564.1114594305 - 0.001039087284 628.3878510180 - 0.001018564891 603.9011847823 - 0.000631634040 252.2108727195 - 0.000846589891 431.3013517073 - 0.001003123852 577.6716250037 - 0.001072980215 640.7237689492 - 0.001054916763 611.4043215641 - 0.000648804040 259.5224854290 - 0.000869958586 442.7563041677 - 0.001032204003 591.6484913746 - 0.001106260266 653.8080449278 - 0.001090347172 619.8238432399 - 0.000163736376 66.1569859881 - 0.000177232288 72.9488397698 - 0.000238898076 129.5857391380 - 0.000289631863 215.6987787128 - 0.000245694398 211.9218593561 - 0.000165472630 149.6099029954 - 0.000098546926 86.5528760952 - 0.000055641408 44.5048250768 - 0.000182179467 76.0502699827 - 0.000247406781 135.1340309574 - 0.000300643810 223.9981400037 - 0.000256967093 221.1922872818 - 0.000174846814 157.6271841885 - 0.000106838710 94.0514607633 - 0.000061965146 50.3819553179 + 0.000829520314 215.2925583478 + 0.000098770619 24.9973196903 + 0.000101013426 28.7878144476 + 0.000102956926 32.5882330637 + 0.000104577663 36.3465061474 + 0.000105850491 40.0115440410 + 0.000106747956 43.5319400329 + 0.000107239602 46.8547900334 + 0.000107291163 49.9245819626 + 0.000106863590 52.6820829742 + 0.000104383103 56.9971029860 + 0.000099329904 59.1965381547 + 0.000090998752 58.4808914301 + 0.000078148161 53.6172621917 + 0.000057814592 41.9932205966 + 0.000045586030 33.8083376892 + 0.000529141609 198.9404346576 + 0.000551578732 296.3833545387 + 0.000525406736 351.2205904175 + 0.000460419257 352.9992397914 + 0.000369144215 307.8369706217 + 0.000263434742 230.5940010019 + 0.000149211997 134.1091093765 + 0.000479356259 186.1729536651 + 0.000659607946 338.8199430177 + 0.000644303985 413.6766381537 + 0.000577741083 426.4957754447 + 0.000478517744 384.3088709380 + 0.000363936738 306.1450491146 + 0.000247460388 212.3865863535 + 0.000134548583 116.5839648410 + 0.000489175561 190.5373440763 + 0.000645658452 335.8933558571 + 0.000738698112 457.7479286336 + 0.000731273374 507.6388335746 + 0.000635521635 476.7573638326 + 0.000511141031 399.3401137521 + 0.000381944367 301.7504173049 + 0.000262742167 205.8765339370 + 0.000160093236 122.8722677307 + 0.000083650926 63.6600777039 + 0.000498746639 194.7786492604 + 0.000660111704 343.0207332276 + 0.000760367567 468.5250613248 + 0.000777332145 529.4059607836 + 0.000711612240 513.7802215970 + 0.000593728168 442.0196157203 + 0.000461142848 345.0375733032 + 0.000335732748 248.0091282851 + 0.000228830447 164.0946118275 + 0.000143884205 99.1512513372 + 0.000508158209 198.9315504070 + 0.000674017438 349.8060674756 + 0.000780062224 478.1246544635 + 0.000805026008 542.2289573807 + 0.000752394518 531.8130543489 + 0.000645093085 465.0544900921 + 0.000514814143 370.6074577024 + 0.000387224340 275.3388390801 + 0.000277314158 193.2306712679 + 0.000192195155 133.2444015514 + 0.000517407236 202.9932776306 + 0.000687473289 356.2967046679 + 0.000798546266 486.9139607299 + 0.000829226477 552.9148762510 + 0.000783053612 544.3108212664 + 0.000681821307 479.6396994798 + 0.000554489813 387.1091503351 + 0.000426631113 294.8252828393 + 0.000315193278 217.1331820538 + 0.000229849711 169.4168511740 + 0.000526557259 206.9923386151 + 0.000700630939 362.5735021975 + 0.000816264977 495.1292768666 + 0.000851644002 562.3053657085 + 0.000809920814 554.2715756110 + 0.000712298405 490.1724201552 + 0.000586896984 398.0661587500 + 0.000535591140 210.9231234215 + 0.000713503327 368.6545699122 + 0.000833353503 502.8681608860 + 0.000872813264 570.7155249864 + 0.000834573349 562.5087443358 + 0.000739421662 498.1041856657 + 0.000544561274 214.8110547404 + 0.000726190711 374.6014617199 + 0.000850012970 510.2611575959 + 0.000893149701 578.4010874997 + 0.000857831700 569.4797553385 + 0.000764537127 504.1303426806 + 0.000553444017 218.6488280153 + 0.000738677841 380.4220745567 + 0.000866266265 517.3593127799 + 0.000912771181 585.4951500439 + 0.000879986613 575.4351037590 + 0.000788154928 508.6237777666 + 0.000562285849 222.4594826913 + 0.000751043546 386.1681926261 + 0.000882245062 524.2608143678 + 0.000931891198 592.1607055279 + 0.000901363894 580.6144511981 + 0.000810722541 511.8979198314 + 0.000571059671 226.2340449270 + 0.000763260172 391.8412240832 + 0.000897934195 530.9980575145 + 0.000950527112 598.4852645670 + 0.000922033770 585.1768858418 + 0.000832370777 514.1848657603 + 0.000579790788 229.9856881124 + 0.000775371104 397.4743151719 + 0.000913404834 537.6380291138 + 0.000968788417 604.5827276397 + 0.000942151167 589.2903900248 + 0.000853297420 515.7081785915 + 0.000588503098 233.7263596230 + 0.000787415723 403.0972013393 + 0.000928718600 544.2402476935 + 0.000986765298 610.5532431948 + 0.000961837796 593.1014081204 + 0.000597166786 237.4442687009 + 0.000799357958 408.7025141571 + 0.000943838645 550.8180091528 + 0.001004427843 616.4503204710 + 0.000981077376 596.7182182910 + 0.000605821778 241.1568201994 + 0.000811257084 414.3255037725 + 0.000958847229 557.4321826551 + 0.001021882513 622.3658738520 + 0.000999998343 600.2652066709 + 0.000614437231 244.8502856192 + 0.000823074213 419.9530572805 + 0.000973701147 564.0843989928 + 0.001039087284 628.3344086369 + 0.001018564891 603.8238845709 + 0.000631634040 252.2103646852 + 0.000846589891 431.2927001097 + 0.001003123852 577.6435651683 + 0.001072980215 640.6685445762 + 0.001054916763 611.3249245848 + 0.000648804040 259.5219566569 + 0.000869958586 442.7473199650 + 0.001032204003 591.6194064970 + 0.001106260266 653.7509750197 + 0.001090347172 619.7422589082 + 0.000163736376 66.1569860951 + 0.000177232288 72.9488398919 + 0.000238898076 129.5848014267 + 0.000289631863 215.6917893249 + 0.000245694398 211.9082680111 + 0.000165472630 149.5960992824 + 0.000098546926 86.5432148837 + 0.000055641408 44.4992429961 + 0.000182179467 76.0502701114 + 0.000247406781 135.1330393626 + 0.000300643810 223.9907772089 + 0.000256967093 221.1778640481 + 0.000174846814 157.6123835308 + 0.000106838710 94.0406752378 + 0.000061965146 50.3754522005 diff --git a/mytest/H2S_pz.out b/mytest/H2S_pz.out index 91f12b98..7122caca 100644 --- a/mytest/H2S_pz.out +++ b/mytest/H2S_pz.out @@ -906,7 +906,7 @@ H2Sg(g) -0.06 8.776e-01 0.994 0.000e+00 8.949e+00 8.949e+00 Specific Conductance (µS/cm, 50°C) = 57 Density (g/cm³) = 0.98772 Volume (L) = 0.99144 - Viscosity (mPa s) = 0.54653 + Viscosity (mPa s) = 0.54654 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.044e-04 Mass of water (kg) = 9.775e-01 @@ -1194,7 +1194,7 @@ H2Sg(g) -0.51 3.087e-01 0.997 0.000e+00 8.993e+00 8.993e+00 Specific Conductance (µS/cm, 90°C) = 42 Density (g/cm³) = 0.96521 Volume (L) = 0.66038 - Viscosity (mPa s) = 0.31418 + Viscosity (mPa s) = 0.31419 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.782e-05 Mass of water (kg) = 6.372e-01 @@ -1505,7 +1505,7 @@ H2Sg(g) 1.46 2.877e+01 0.867 0.000e+00 7.941e+00 7.941e+00 Specific Conductance (µS/cm, 90°C) = 353 Density (g/cm³) = 0.96349 Volume (L) = 1.07106 - Viscosity (mPa s) = 0.31501 + Viscosity (mPa s) = 0.31502 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.259e-04 Mass of water (kg) = 9.959e-01 @@ -1578,7 +1578,7 @@ H2Sg(g) 1.44 2.733e+01 0.894 0.000e+00 8.160e+00 8.160e+00 Specific Conductance (µS/cm, 120°C) = 356 Density (g/cm³) = 0.94118 Volume (L) = 1.07996 - Viscosity (mPa s) = 0.23282 + Viscosity (mPa s) = 0.23283 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.608e-04 Mass of water (kg) = 9.878e-01 @@ -1651,7 +1651,7 @@ H2Sg(g) 1.39 2.432e+01 0.917 0.000e+00 8.319e+00 8.319e+00 Specific Conductance (µS/cm, 150°C) = 311 Density (g/cm³) = 0.91491 Volume (L) = 1.08282 - Viscosity (mPa s) = 0.18328 + Viscosity (mPa s) = 0.18329 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.695e-04 Mass of water (kg) = 9.675e-01 @@ -1724,7 +1724,7 @@ H2Sg(g) 1.27 1.883e+01 0.938 0.000e+00 8.504e+00 8.504e+00 Specific Conductance (µS/cm, 180°C) = 233 Density (g/cm³) = 0.88466 Volume (L) = 1.05039 - Viscosity (mPa s) = 0.15088 + Viscosity (mPa s) = 0.15089 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.636e-04 Mass of water (kg) = 9.123e-01 @@ -1797,7 +1797,7 @@ H2Sg(g) 1.00 9.898e+00 0.966 0.000e+00 8.793e+00 8.793e+00 Specific Conductance (µS/cm, 210°C) = 135 Density (g/cm³) = 0.85065 Volume (L) = 0.81316 - Viscosity (mPa s) = 0.12818 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12819 (solute contributions limited to 200 °C) Activity of water = 0.995 Ionic strength (mol/kgw) = 1.493e-04 Mass of water (kg) = 6.847e-01 @@ -1964,7 +1964,7 @@ H2Sg(g) 1.69 4.899e+01 0.719 0.000e+00 6.735e+00 6.735e+00 Specific Conductance (µS/cm, 60°C) = 340 Density (g/cm³) = 0.98569 Volume (L) = 1.09207 - Viscosity (mPa s) = 0.46726 + Viscosity (mPa s) = 0.46727 Activity of water = 0.965 Ionic strength (mol/kgw) = 6.603e-04 Mass of water (kg) = 9.992e-01 @@ -2037,7 +2037,7 @@ H2Sg(g) 1.68 4.834e+01 0.782 0.000e+00 7.273e+00 7.273e+00 Specific Conductance (µS/cm, 90°C) = 416 Density (g/cm³) = 0.96629 Volume (L) = 1.09308 - Viscosity (mPa s) = 0.31556 + Viscosity (mPa s) = 0.31557 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.450e-04 Mass of water (kg) = 9.974e-01 @@ -2110,7 +2110,7 @@ H2Sg(g) 1.67 4.676e+01 0.827 0.000e+00 7.556e+00 7.556e+00 Specific Conductance (µS/cm, 120°C) = 430 Density (g/cm³) = 0.94362 Volume (L) = 1.10406 - Viscosity (mPa s) = 0.23336 + Viscosity (mPa s) = 0.23337 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.784e-04 Mass of water (kg) = 9.926e-01 @@ -2183,7 +2183,7 @@ H2Sg(g) 1.64 4.352e+01 0.862 0.000e+00 7.743e+00 7.743e+00 Specific Conductance (µS/cm, 150°C) = 388 Density (g/cm³) = 0.91698 Volume (L) = 1.11705 - Viscosity (mPa s) = 0.18379 + Viscosity (mPa s) = 0.18380 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.790e-04 Mass of water (kg) = 9.815e-01 @@ -2256,7 +2256,7 @@ H2Sg(g) 1.58 3.767e+01 0.892 0.000e+00 7.934e+00 7.934e+00 Specific Conductance (µS/cm, 180°C) = 309 Density (g/cm³) = 0.88597 Volume (L) = 1.11991 - Viscosity (mPa s) = 0.15137 + Viscosity (mPa s) = 0.15138 Activity of water = 0.982 Ionic strength (mol/kgw) = 3.643e-04 Mass of water (kg) = 9.559e-01 @@ -2329,7 +2329,7 @@ H2Sg(g) 1.45 2.818e+01 0.923 0.000e+00 8.216e+00 8.216e+00 Specific Conductance (µS/cm, 210°C) = 215 Density (g/cm³) = 0.85023 Volume (L) = 1.07713 - Viscosity (mPa s) = 0.12870 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12871 (solute contributions limited to 200 °C) Activity of water = 0.985 Ionic strength (mol/kgw) = 2.477e-04 Mass of water (kg) = 8.891e-01 @@ -2402,7 +2402,7 @@ H2Sg(g) 1.16 1.429e+01 0.964 0.000e+00 8.695e+00 8.695e+00 Specific Conductance (µS/cm, 240°C) = 118 Density (g/cm³) = 0.81006 Volume (L) = 0.77362 - Viscosity (mPa s) = 0.11155 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11156 (solute contributions limited to 200 °C) Activity of water = 0.991 Ionic strength (mol/kgw) = 1.347e-04 Mass of water (kg) = 6.163e-01 @@ -2642,7 +2642,7 @@ H2Sg(g) 1.98 9.567e+01 0.535 0.000e+00 6.598e+00 6.598e+00 Specific Conductance (µS/cm, 90°C) = 460 Density (g/cm³) = 0.97248 Volume (L) = 1.10862 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31694 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.396e-04 Mass of water (kg) = 9.962e-01 @@ -2715,7 +2715,7 @@ H2Sg(g) 1.98 9.491e+01 0.667 0.000e+00 6.388e+00 6.388e+00 Specific Conductance (µS/cm, 120°C) = 512 Density (g/cm³) = 0.95309 Volume (L) = 1.13780 - Viscosity (mPa s) = 0.23470 + Viscosity (mPa s) = 0.23471 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.323e-04 Mass of water (kg) = 9.954e-01 @@ -2788,7 +2788,7 @@ H2Sg(g) 1.96 9.112e+01 0.736 0.000e+00 6.443e+00 6.443e+00 Specific Conductance (µS/cm, 150°C) = 481 Density (g/cm³) = 0.92782 Volume (L) = 1.16133 - Viscosity (mPa s) = 0.18507 + Viscosity (mPa s) = 0.18508 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.364e-04 Mass of water (kg) = 9.903e-01 @@ -2861,7 +2861,7 @@ H2Sg(g) 1.93 8.434e+01 0.789 0.000e+00 6.532e+00 6.532e+00 Specific Conductance (µS/cm, 180°C) = 404 Density (g/cm³) = 0.89759 Volume (L) = 1.18545 - Viscosity (mPa s) = 0.15260 + Viscosity (mPa s) = 0.15261 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.118e-04 Mass of water (kg) = 9.800e-01 @@ -2934,7 +2934,7 @@ H2Sg(g) 1.87 7.353e+01 0.836 0.000e+00 6.720e+00 6.720e+00 Specific Conductance (µS/cm, 210°C) = 305 Density (g/cm³) = 0.86141 Volume (L) = 1.20301 - Viscosity (mPa s) = 0.12998 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13000 (solute contributions limited to 200 °C) Activity of water = 0.964 Ionic strength (mol/kgw) = 3.824e-04 Mass of water (kg) = 9.586e-01 @@ -3007,7 +3007,7 @@ H2Sg(g) 1.76 5.780e+01 0.883 0.000e+00 7.109e+00 7.109e+00 Specific Conductance (µS/cm, 240°C) = 208 Density (g/cm³) = 0.81758 Volume (L) = 1.19111 - Viscosity (mPa s) = 0.11294 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11295 (solute contributions limited to 200 °C) Activity of water = 0.968 Ionic strength (mol/kgw) = 2.631e-04 Mass of water (kg) = 9.094e-01 @@ -3080,7 +3080,7 @@ H2Sg(g) 1.56 3.671e+01 0.940 0.000e+00 7.855e+00 7.855e+00 Specific Conductance (µS/cm, 270°C) = 124 Density (g/cm³) = 0.76435 Volume (L) = 1.04677 - Viscosity (mPa s) = 0.09909 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09911 (solute contributions limited to 200 °C) Activity of water = 0.975 Ionic strength (mol/kgw) = 1.604e-04 Mass of water (kg) = 7.611e-01 @@ -3153,7 +3153,7 @@ H2Sg(g) 1.19 1.535e+01 1.005 0.000e+00 8.909e+00 8.909e+00 Specific Conductance (µS/cm, 295°C) = 64 Density (g/cm³) = 0.71453 Volume (L) = 0.18421 - Viscosity (mPa s) = 0.08860 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08861 (solute contributions limited to 200 °C) Activity of water = 0.988 Ionic strength (mol/kgw) = 8.384e-05 Mass of water (kg) = 1.285e-01 @@ -3466,7 +3466,7 @@ H2Sg(g) 2.15 1.405e+02 0.523 0.000e+00 5.974e+00 5.974e+00 Specific Conductance (µS/cm, 120°C) = 534 Density (g/cm³) = 0.95924 Volume (L) = 1.14398 - Viscosity (mPa s) = 0.23602 + Viscosity (mPa s) = 0.23603 Activity of water = 0.958 Ionic strength (mol/kgw) = 7.785e-04 Mass of water (kg) = 9.942e-01 @@ -3539,7 +3539,7 @@ H2Sg(g) 2.14 1.368e+02 0.626 0.000e+00 5.577e+00 5.577e+00 Specific Conductance (µS/cm, 150°C) = 519 Density (g/cm³) = 0.93845 Volume (L) = 1.18116 - Viscosity (mPa s) = 0.18632 + Viscosity (mPa s) = 0.18633 Activity of water = 0.953 Ionic strength (mol/kgw) = 7.127e-04 Mass of water (kg) = 9.918e-01 @@ -3612,7 +3612,7 @@ H2Sg(g) 2.11 1.294e+02 0.702 0.000e+00 5.367e+00 5.367e+00 Specific Conductance (µS/cm, 180°C) = 447 Density (g/cm³) = 0.91229 Volume (L) = 1.21668 - Viscosity (mPa s) = 0.15382 + Viscosity (mPa s) = 0.15383 Activity of water = 0.949 Ionic strength (mol/kgw) = 5.946e-04 Mass of water (kg) = 9.861e-01 @@ -3685,7 +3685,7 @@ H2Sg(g) 2.07 1.174e+02 0.764 0.000e+00 5.315e+00 5.315e+00 Specific Conductance (µS/cm, 210°C) = 349 Density (g/cm³) = 0.88007 Volume (L) = 1.25058 - Viscosity (mPa s) = 0.13124 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13126 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 4.618e-04 Mass of water (kg) = 9.750e-01 @@ -3758,7 +3758,7 @@ H2Sg(g) 2.00 9.994e+01 0.822 0.000e+00 5.490e+00 5.490e+00 Specific Conductance (µS/cm, 240°C) = 251 Density (g/cm³) = 0.83989 Volume (L) = 1.27642 - Viscosity (mPa s) = 0.11427 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11428 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 3.362e-04 Mass of water (kg) = 9.524e-01 @@ -3831,7 +3831,7 @@ H2Sg(g) 1.88 7.667e+01 0.885 0.000e+00 6.040e+00 6.040e+00 Specific Conductance (µS/cm, 270°C) = 166 Density (g/cm³) = 0.78844 Volume (L) = 1.26784 - Viscosity (mPa s) = 0.10064 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10065 (solute contributions limited to 200 °C) Activity of water = 0.951 Ionic strength (mol/kgw) = 2.292e-04 Mass of water (kg) = 8.988e-01 @@ -3904,7 +3904,7 @@ H2Sg(g) 1.68 4.768e+01 0.966 0.000e+00 7.247e+00 7.247e+00 Specific Conductance (µS/cm, 300°C) = 100 Density (g/cm³) = 0.72164 Volume (L) = 1.08779 - Viscosity (mPa s) = 0.08843 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08844 (solute contributions limited to 200 °C) Activity of water = 0.963 Ionic strength (mol/kgw) = 1.442e-04 Mass of water (kg) = 7.253e-01 @@ -4144,7 +4144,7 @@ H2Sg(g) 2.28 1.909e+02 0.319 0.000e+00 6.328e+00 6.328e+00 Specific Conductance (µS/cm, 90°C) = 481 Density (g/cm³) = 0.97967 Volume (L) = 1.10973 - Viscosity (mPa s) = 0.31962 + Viscosity (mPa s) = 0.31963 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.811e-04 Mass of water (kg) = 9.961e-01 @@ -4217,7 +4217,7 @@ H2Sg(g) 2.27 1.867e+02 0.434 0.000e+00 5.726e+00 5.726e+00 Specific Conductance (µS/cm, 120°C) = 547 Density (g/cm³) = 0.96403 Volume (L) = 1.14692 - Viscosity (mPa s) = 0.23732 + Viscosity (mPa s) = 0.23733 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.063e-04 Mass of water (kg) = 9.941e-01 @@ -4290,7 +4290,7 @@ H2Sg(g) 2.26 1.810e+02 0.541 0.000e+00 5.069e+00 5.069e+00 Specific Conductance (µS/cm, 150°C) = 537 Density (g/cm³) = 0.94636 Volume (L) = 1.18954 - Viscosity (mPa s) = 0.18756 + Viscosity (mPa s) = 0.18758 Activity of water = 0.947 Ionic strength (mol/kgw) = 7.536e-04 Mass of water (kg) = 9.917e-01 @@ -4363,7 +4363,7 @@ H2Sg(g) 2.24 1.725e+02 0.630 0.000e+00 4.496e+00 4.496e+00 Specific Conductance (µS/cm, 180°C) = 470 Density (g/cm³) = 0.92529 Volume (L) = 1.23405 - Viscosity (mPa s) = 0.15502 + Viscosity (mPa s) = 0.15504 Activity of water = 0.939 Ionic strength (mol/kgw) = 6.461e-04 Mass of water (kg) = 9.883e-01 @@ -4436,7 +4436,7 @@ H2Sg(g) 2.20 1.593e+02 0.705 0.000e+00 4.093e+00 4.093e+00 Specific Conductance (µS/cm, 210°C) = 375 Density (g/cm³) = 0.89953 Volume (L) = 1.27799 - Viscosity (mPa s) = 0.13249 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13251 (solute contributions limited to 200 °C) Activity of water = 0.933 Ionic strength (mol/kgw) = 5.156e-04 Mass of water (kg) = 9.824e-01 @@ -4509,7 +4509,7 @@ H2Sg(g) 2.15 1.402e+02 0.773 0.000e+00 3.924e+00 3.924e+00 Specific Conductance (µS/cm, 240°C) = 279 Density (g/cm³) = 0.86772 Volume (L) = 1.31860 - Viscosity (mPa s) = 0.11556 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11558 (solute contributions limited to 200 °C) Activity of water = 0.929 Ionic strength (mol/kgw) = 3.878e-04 Mass of water (kg) = 9.712e-01 @@ -4582,7 +4582,7 @@ H2Sg(g) 2.06 1.150e+02 0.844 0.000e+00 4.104e+00 4.104e+00 Specific Conductance (µS/cm, 270°C) = 196 Density (g/cm³) = 0.82836 Volume (L) = 1.34474 - Viscosity (mPa s) = 0.10211 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10212 (solute contributions limited to 200 °C) Activity of water = 0.928 Ionic strength (mol/kgw) = 2.778e-04 Mass of water (kg) = 9.471e-01 @@ -4655,7 +4655,7 @@ H2Sg(g) 1.92 8.381e+01 0.928 0.000e+00 4.865e+00 4.865e+00 Specific Conductance (µS/cm, 300°C) = 135 Density (g/cm³) = 0.78424 Volume (L) = 1.30329 - Viscosity (mPa s) = 0.09022 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09024 (solute contributions limited to 200 °C) Activity of water = 0.934 Ionic strength (mol/kgw) = 1.926e-04 Mass of water (kg) = 8.812e-01 @@ -4822,7 +4822,7 @@ H2Sg(g) 2.38 2.422e+02 0.184 0.000e+00 6.690e+00 6.690e+00 Specific Conductance (µS/cm, 60°C) = 357 Density (g/cm³) = 0.99679 Volume (L) = 1.07992 - Viscosity (mPa s) = 0.47212 + Viscosity (mPa s) = 0.47213 Activity of water = 0.965 Ionic strength (mol/kgw) = 6.882e-04 Mass of water (kg) = 9.977e-01 @@ -4965,10 +4965,10 @@ H2Sg(g) 2.37 2.331e+02 0.380 0.000e+00 5.508e+00 5.508e+00 pH = 3.110 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 558 + Specific Conductance (µS/cm, 120°C) = 557 Density (g/cm³) = 0.96832 Volume (L) = 1.14963 - Viscosity (mPa s) = 0.23861 + Viscosity (mPa s) = 0.23862 Activity of water = 0.953 Ionic strength (mol/kgw) = 8.305e-04 Mass of water (kg) = 9.942e-01 @@ -5041,7 +5041,7 @@ H2Sg(g) 2.35 2.254e+02 0.482 0.000e+00 4.671e+00 4.671e+00 Specific Conductance (µS/cm, 150°C) = 550 Density (g/cm³) = 0.95294 Volume (L) = 1.19584 - Viscosity (mPa s) = 0.18879 + Viscosity (mPa s) = 0.18880 Activity of water = 0.943 Ionic strength (mol/kgw) = 7.844e-04 Mass of water (kg) = 9.920e-01 @@ -5114,7 +5114,7 @@ H2Sg(g) 2.33 2.147e+02 0.575 0.000e+00 3.813e+00 3.813e+00 Specific Conductance (µS/cm, 180°C) = 485 Density (g/cm³) = 0.93618 Volume (L) = 1.24607 - Viscosity (mPa s) = 0.15621 + Viscosity (mPa s) = 0.15623 Activity of water = 0.932 Ionic strength (mol/kgw) = 6.830e-04 Mass of water (kg) = 9.897e-01 @@ -5187,7 +5187,7 @@ H2Sg(g) 2.30 1.995e+02 0.658 0.000e+00 3.042e+00 3.042e+00 Specific Conductance (µS/cm, 210°C) = 391 Density (g/cm³) = 0.91732 Volume (L) = 1.29734 - Viscosity (mPa s) = 0.13375 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13376 (solute contributions limited to 200 °C) Activity of water = 0.922 Ionic strength (mol/kgw) = 5.554e-04 Mass of water (kg) = 9.870e-01 @@ -5260,7 +5260,7 @@ H2Sg(g) 2.25 1.787e+02 0.735 0.000e+00 2.441e+00 2.441e+00 Specific Conductance (µS/cm, 240°C) = 298 Density (g/cm³) = 0.89625 Volume (L) = 1.34646 - Viscosity (mPa s) = 0.11682 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11684 (solute contributions limited to 200 °C) Activity of water = 0.914 Ionic strength (mol/kgw) = 4.273e-04 Mass of water (kg) = 9.832e-01 @@ -5333,7 +5333,7 @@ H2Sg(g) 2.18 1.518e+02 0.812 0.000e+00 2.073e+00 2.073e+00 Specific Conductance (µS/cm, 270°C) = 220 Density (g/cm³) = 0.87585 Volume (L) = 1.38461 - Viscosity (mPa s) = 0.10351 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10353 (solute contributions limited to 200 °C) Activity of water = 0.907 Ionic strength (mol/kgw) = 3.157e-04 Mass of water (kg) = 9.766e-01 @@ -5406,7 +5406,7 @@ H2Sg(g) 2.08 1.193e+02 0.899 0.000e+00 1.929e+00 1.929e+00 Specific Conductance (µS/cm, 300°C) = 172 Density (g/cm³) = 0.88023 Volume (L) = 1.36770 - Viscosity (mPa s) = 0.09190 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09192 (solute contributions limited to 200 °C) Activity of water = 0.905 Ionic strength (mol/kgw) = 2.302e-04 Mass of water (kg) = 9.629e-01 @@ -5643,10 +5643,10 @@ H2Sg(g) 2.63 4.294e+02 0.207 0.000e+00 5.805e+00 5.805e+00 pH = 3.089 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 521 + Specific Conductance (µS/cm, 90°C) = 520 Density (g/cm³) = 0.99323 Volume (L) = 1.11283 - Viscosity (mPa s) = 0.32626 + Viscosity (mPa s) = 0.32627 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.675e-04 Mass of water (kg) = 9.964e-01 @@ -5719,7 +5719,7 @@ H2Sg(g) 2.62 4.194e+02 0.287 0.000e+00 4.776e+00 4.776e+00 Specific Conductance (µS/cm, 120°C) = 590 Density (g/cm³) = 0.98143 Volume (L) = 1.16045 - Viscosity (mPa s) = 0.24369 + Viscosity (mPa s) = 0.24370 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.143e-04 Mass of water (kg) = 9.949e-01 @@ -5792,7 +5792,7 @@ H2Sg(g) 2.61 4.052e+02 0.373 0.000e+00 3.376e+00 3.376e+00 Specific Conductance (µS/cm, 150°C) = 581 Density (g/cm³) = 0.97220 Volume (L) = 1.21974 - Viscosity (mPa s) = 0.19361 + Viscosity (mPa s) = 0.19362 Activity of water = 0.930 Ionic strength (mol/kgw) = 8.816e-04 Mass of water (kg) = 9.942e-01 @@ -5865,7 +5865,7 @@ H2Sg(g) 2.59 3.860e+02 0.461 0.000e+00 1.613e+00 1.613e+00 Specific Conductance (µS/cm, 180°C) = 514 Density (g/cm³) = 0.96757 Volume (L) = 1.28916 - Viscosity (mPa s) = 0.16085 + Viscosity (mPa s) = 0.16087 Activity of water = 0.911 Ionic strength (mol/kgw) = 7.896e-04 Mass of water (kg) = 9.956e-01 @@ -6105,7 +6105,7 @@ H2Sg(g) 2.83 6.689e+02 0.187 0.000e+00 5.470e+00 5.470e+00 Specific Conductance (µS/cm, 90°C) = 554 Density (g/cm³) = 1.00209 Volume (L) = 1.11475 - Viscosity (mPa s) = 0.33285 + Viscosity (mPa s) = 0.33286 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.453e-04 Mass of water (kg) = 9.968e-01 @@ -6178,7 +6178,7 @@ H2Sg(g) 2.82 6.542e+02 0.259 0.000e+00 4.143e+00 4.143e+00 Specific Conductance (µS/cm, 120°C) = 622 Density (g/cm³) = 0.99067 Volume (L) = 1.17229 - Viscosity (mPa s) = 0.24990 + Viscosity (mPa s) = 0.24992 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.006e-03 Mass of water (kg) = 9.958e-01 @@ -6251,7 +6251,7 @@ H2Sg(g) 2.80 6.335e+02 0.337 0.000e+00 2.188e+00 2.188e+00 Specific Conductance (µS/cm, 150°C) = 603 Density (g/cm³) = 0.98397 Volume (L) = 1.24859 - Viscosity (mPa s) = 0.19945 + Viscosity (mPa s) = 0.19946 Activity of water = 0.918 Ionic strength (mol/kgw) = 9.831e-04 Mass of water (kg) = 9.964e-01 @@ -6491,7 +6491,7 @@ H2Sg(g) 2.98 9.576e+02 0.192 0.000e+00 5.298e+00 5.298e+00 Specific Conductance (µS/cm, 90°C) = 595 Density (g/cm³) = 1.01021 Volume (L) = 1.11188 - Viscosity (mPa s) = 0.34074 + Viscosity (mPa s) = 0.34075 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.034e-03 Mass of water (kg) = 9.971e-01 @@ -6564,7 +6564,7 @@ H2Sg(g) 2.97 9.382e+02 0.264 0.000e+00 3.798e+00 3.798e+00 Specific Conductance (µS/cm, 120°C) = 659 Density (g/cm³) = 0.99634 Volume (L) = 1.17805 - Viscosity (mPa s) = 0.25721 + Viscosity (mPa s) = 0.25723 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.108e-03 Mass of water (kg) = 9.964e-01 @@ -6637,7 +6637,7 @@ H2Sg(g) 2.96 9.117e+02 0.341 0.000e+00 1.437e+00 1.437e+00 Specific Conductance (µS/cm, 150°C) = 626 Density (g/cm³) = 0.98741 Volume (L) = 1.27161 - Viscosity (mPa s) = 0.20625 + Viscosity (mPa s) = 0.20626 Activity of water = 0.909 Ionic strength (mol/kgw) = 1.093e-03 Mass of water (kg) = 9.979e-01 diff --git a/mytest/H2S_pz_101.sel b/mytest/H2S_pz_101.sel index 39c7823d..dd13b733 100644 --- a/mytest/H2S_pz_101.sel +++ b/mytest/H2S_pz_101.sel @@ -1,89 +1,89 @@ Mu SC 0.000000100644 0.0547821166 - 0.000830399284 215.2816880622 - 0.000098783870 24.8962815847 - 0.000101027444 28.6968556132 - 0.000102971661 32.5126846768 - 0.000104593055 36.2914095410 - 0.000105866467 39.9815145169 - 0.000106764428 43.5310514353 - 0.000107256468 46.8864719968 - 0.000107308303 49.9915239806 - 0.000106880868 52.7861407192 - 0.000104400169 57.1771355767 - 0.000099345979 59.4473711182 - 0.000091012877 58.7860746871 - 0.000078159193 53.9451954095 - 0.000057821171 42.2844388850 - 0.000045590374 34.0531515933 - 0.000529534540 199.0740491495 - 0.000552044329 297.6469261765 - 0.000525876690 353.6792516937 - 0.000460830655 356.2101915559 - 0.000369457801 311.1416177943 - 0.000263640358 233.3771464270 - 0.000149318146 135.8493576121 - 0.000479681934 186.2987096771 - 0.000660269093 340.2676972846 - 0.000645003972 416.5810690130 - 0.000578379654 430.3883018100 - 0.000479030986 388.4511760805 - 0.000364305667 309.8606252696 - 0.000247700811 215.1442720875 - 0.000134684803 118.2161031574 - 0.000489514316 190.6663473185 - 0.000646297081 337.3307786390 - 0.000739619780 460.9731951726 - 0.000732282291 512.2927798981 - 0.000636402698 481.9244539545 - 0.000511827722 404.2179204026 - 0.000382442267 305.6571889111 - 0.000263096260 208.7533659709 - 0.000160353186 124.7068820478 - 0.000083836372 64.6791121830 - 0.000499098372 194.9108292850 - 0.000660778214 344.4897672229 - 0.000761342751 471.8293148260 - 0.000778476415 534.2706115303 - 0.000712709280 519.3646403178 - 0.000594632934 447.4332027995 - 0.000461826270 349.4803348874 - 0.000336234191 251.4666799299 - 0.000229219248 166.5294026402 - 0.000144232052 100.7445489828 - 0.000508522925 199.0668620735 - 0.000674711230 351.3052562424 - 0.000781086703 481.4993027520 - 0.000806251730 547.2172437978 - 0.000753620276 537.6037299420 - 0.000646149877 470.7578931984 - 0.000515634666 375.3360410511 - 0.000387828790 279.1674877994 - 0.000277772787 196.0822711392 - 0.000192613748 135.3909445289 - 0.000517784925 203.1316734134 - 0.000688193925 357.8248003765 - 0.000799617754 490.3531611905 - 0.000830524023 558.0061393645 - 0.000784377420 550.2440175244 - 0.000682991987 485.5254320693 - 0.000555413373 391.9602213957 - 0.000427302005 298.9106612459 - 0.000315664415 220.3040599158 - 0.000230214079 172.0647341486 - 0.000553874293 218.7993276188 - 0.000739504740 382.0582288461 - 0.000867516927 521.0232461679 - 0.000914325644 590.9018224456 - 0.000881626556 581.7227211658 - 0.000789648105 514.8646858652 - 0.000597665235 237.6098219074 - 0.000800319469 410.4667735124 - 0.000945309022 554.7316306197 - 0.001006283861 622.1610756135 - 0.000983065195 603.2544030904 - 0.000649389001 259.7059775699 - 0.000871088928 444.6680770892 - 0.001033944661 595.8416355209 - 0.001108479395 659.8344420334 - 0.001092745335 626.5590207120 + 0.000830399284 215.2816890759 + 0.000098783870 24.8963854134 + 0.000101027444 28.6969564344 + 0.000102971661 32.5127746730 + 0.000104593055 36.2914797269 + 0.000105866467 39.9815549534 + 0.000106764428 43.5310515087 + 0.000107256468 46.8864207744 + 0.000107308303 49.9914106524 + 0.000106880868 52.7859551382 + 0.000104400169 57.1767810671 + 0.000099345979 59.4468336965 + 0.000091012877 58.7853782525 + 0.000078159193 53.9444264405 + 0.000057821171 42.2837894828 + 0.000045590374 34.0526473393 + 0.000529534540 199.0735659090 + 0.000552044329 297.6405826862 + 0.000525876690 353.6628673340 + 0.000460830655 356.1836182735 + 0.000369457801 311.1098976964 + 0.000263640358 233.3485516098 + 0.000149318146 135.8323488890 + 0.000479681934 186.2982794906 + 0.000660269093 340.2597694931 + 0.000645003972 416.5597057009 + 0.000578379654 430.3523514955 + 0.000479030986 388.4061128770 + 0.000364305667 309.8160318998 + 0.000247700811 215.1096258413 + 0.000134684803 118.1976121096 + 0.000489514316 190.6659030755 + 0.000646297081 337.3230130377 + 0.000739619780 460.9479152562 + 0.000732282291 512.2447048241 + 0.000636402698 481.8601365764 + 0.000511827722 404.1491313742 + 0.000382442267 305.5962484938 + 0.000263096260 208.7079398543 + 0.000160353186 124.6795685405 + 0.000083836372 64.6665383839 + 0.000499098372 194.9103712567 + 0.000660778214 344.4817585386 + 0.000761342751 471.8030997988 + 0.000778476415 534.2190023860 + 0.000712709280 519.2914331399 + 0.000594632934 447.3513343035 + 0.000461826270 349.4040453559 + 0.000336234191 251.4050993523 + 0.000229219248 166.4860803125 + 0.000144232052 100.7180625308 + 0.000508522925 199.0663904225 + 0.000674711230 351.2970137317 + 0.000781086703 481.4722440775 + 0.000806251730 547.1635382324 + 0.000753620276 537.5259621329 + 0.000646149877 470.6683263919 + 0.000515634666 375.2497899511 + 0.000387828790 279.0943868276 + 0.000277772787 196.0264661038 + 0.000192613748 135.3502128985 + 0.000517784925 203.1311883173 + 0.000688193925 357.8163318518 + 0.000799617754 490.3253188036 + 0.000830524023 557.9506470944 + 0.000784377420 550.1629720237 + 0.000682991987 485.4306906444 + 0.000555413373 391.8671244566 + 0.000427302005 298.8288489655 + 0.000315664415 220.2376133290 + 0.000230214079 172.0086505334 + 0.000553874293 218.7987895884 + 0.000739504740 382.0489005553 + 0.000867516927 520.9925977953 + 0.000914325644 590.8405507782 + 0.000881626556 581.6325608105 + 0.000789648105 514.7576548828 + 0.000597665235 237.6092181715 + 0.000800319469 410.4564069123 + 0.000945309022 554.6977840562 + 0.001006283861 622.0938896234 + 0.000983065195 603.1565208606 + 0.000649389001 259.7052938811 + 0.000871088928 444.6564361285 + 0.001033944661 595.8038852273 + 0.001108479395 659.7602611323 + 0.001092745335 626.4528398921 diff --git a/mytest/H2S_pz_appt.out b/mytest/H2S_pz_appt.out index a2d85502..c8b13d51 100644 --- a/mytest/H2S_pz_appt.out +++ b/mytest/H2S_pz_appt.out @@ -392,7 +392,7 @@ H2Sg(g) -0.00 9.928e-01 0.990 8.783e+00 8.799e+00 1.614e-02 Specific Conductance (µS/cm, 2°C) = 26 Density (g/cm³) = 1.00117 Volume (L) = 1.00450 - Viscosity (mPa s) = 1.66596 + Viscosity (mPa s) = 1.66595 Activity of water = 0.996 Ionic strength (mol/kgw) = 9.978e-05 Mass of water (kg) = 9.988e-01 @@ -903,7 +903,7 @@ H2Sg(g) -0.01 9.804e-01 0.991 8.869e+00 8.877e+00 8.232e-03 Specific Conductance (µS/cm, 17°C) = 37 Density (g/cm³) = 0.99879 Volume (L) = 1.00221 - Viscosity (mPa s) = 1.07733 + Viscosity (mPa s) = 1.07732 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.052e-04 Mass of water (kg) = 9.968e-01 @@ -1925,7 +1925,7 @@ H2Sg(g) -0.05 8.947e-01 0.993 8.942e+00 8.945e+00 3.074e-03 Specific Conductance (µS/cm, 47°C) = 56 Density (g/cm³) = 0.98904 Volume (L) = 0.99380 - Viscosity (mPa s) = 0.57524 + Viscosity (mPa s) = 0.57525 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.054e-04 Mass of water (kg) = 9.810e-01 @@ -2363,7 +2363,7 @@ H2Sg(g) -0.09 8.044e-01 0.994 8.958e+00 8.961e+00 2.431e-03 Specific Conductance (µS/cm, 60°C) = 59 Density (g/cm³) = 0.98300 Volume (L) = 0.97873 - Viscosity (mPa s) = 0.46733 + Viscosity (mPa s) = 0.46734 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.946e-05 Mass of water (kg) = 9.608e-01 @@ -2509,7 +2509,7 @@ H2Sg(g) -0.12 7.624e-01 0.995 8.963e+00 8.965e+00 2.319e-03 Specific Conductance (µS/cm, 64°C) = 59 Density (g/cm³) = 0.98077 Volume (L) = 0.96950 - Viscosity (mPa s) = 0.43864 + Viscosity (mPa s) = 0.43865 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.639e-05 Mass of water (kg) = 9.497e-01 @@ -2874,7 +2874,7 @@ H2Sg(g) -0.21 6.227e-01 0.995 8.974e+00 8.977e+00 2.211e-03 Specific Conductance (µS/cm, 75°C) = 57 Density (g/cm³) = 0.97476 Volume (L) = 0.92620 - Viscosity (mPa s) = 0.37855 + Viscosity (mPa s) = 0.37856 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.556e-05 Mass of water (kg) = 9.020e-01 @@ -3870,7 +3870,7 @@ H2Sg(g) 1.47 2.951e+01 0.796 6.732e+00 6.903e+00 1.717e-01 Specific Conductance (µS/cm, 38°C) = 228 Density (g/cm³) = 0.99469 Volume (L) = 1.07680 - Viscosity (mPa s) = 0.67604 + Viscosity (mPa s) = 0.67605 Activity of water = 0.967 Ionic strength (mol/kgw) = 5.408e-04 Mass of water (kg) = 9.996e-01 @@ -4166,7 +4166,7 @@ H2Sg(g) 1.47 2.941e+01 0.823 7.301e+00 7.403e+00 1.025e-01 Specific Conductance (µS/cm, 55°C) = 282 Density (g/cm³) = 0.98526 Volume (L) = 1.06929 - Viscosity (mPa s) = 0.50798 + Viscosity (mPa s) = 0.50799 Activity of water = 0.974 Ionic strength (mol/kgw) = 5.518e-04 Mass of water (kg) = 9.991e-01 @@ -4240,7 +4240,7 @@ H2Sg(g) 1.47 2.937e+01 0.829 7.403e+00 7.494e+00 9.090e-02 Specific Conductance (µS/cm, 59°C) = 293 Density (g/cm³) = 0.98293 Volume (L) = 1.06847 - Viscosity (mPa s) = 0.47654 + Viscosity (mPa s) = 0.47655 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.521e-04 Mass of water (kg) = 9.989e-01 @@ -4462,7 +4462,7 @@ H2Sg(g) 1.47 2.920e+01 0.845 7.648e+00 7.712e+00 6.478e-02 Specific Conductance (µS/cm, 71°C) = 323 Density (g/cm³) = 0.97573 Volume (L) = 1.06792 - Viscosity (mPa s) = 0.39937 + Viscosity (mPa s) = 0.39938 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.477e-04 Mass of water (kg) = 9.981e-01 @@ -4536,7 +4536,7 @@ H2Sg(g) 1.46 2.913e+01 0.850 7.712e+00 7.771e+00 5.826e-02 Specific Conductance (µS/cm, 75°C) = 332 Density (g/cm³) = 0.97322 Volume (L) = 1.06825 - Viscosity (mPa s) = 0.37823 + Viscosity (mPa s) = 0.37824 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.445e-04 Mass of water (kg) = 9.978e-01 @@ -4832,7 +4832,7 @@ H2Sg(g) 1.46 2.873e+01 0.868 7.914e+00 7.954e+00 3.953e-02 Specific Conductance (µS/cm, 91°C) = 354 Density (g/cm³) = 0.96256 Volume (L) = 1.07141 - Viscosity (mPa s) = 0.31018 + Viscosity (mPa s) = 0.31019 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.237e-04 Mass of water (kg) = 9.956e-01 @@ -4980,7 +4980,7 @@ H2Sg(g) 1.45 2.843e+01 0.876 7.990e+00 8.023e+00 3.338e-02 Specific Conductance (µS/cm, 100°C) = 360 Density (g/cm³) = 0.95682 Volume (L) = 1.07372 - Viscosity (mPa s) = 0.28377 + Viscosity (mPa s) = 0.28378 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.088e-04 Mass of water (kg) = 9.941e-01 @@ -5054,7 +5054,7 @@ H2Sg(g) 1.45 2.826e+01 0.880 8.023e+00 8.054e+00 3.091e-02 Specific Conductance (µS/cm, 104°C) = 361 Density (g/cm³) = 0.95384 Volume (L) = 1.07497 - Viscosity (mPa s) = 0.27203 + Viscosity (mPa s) = 0.27204 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.004e-04 Mass of water (kg) = 9.931e-01 @@ -5128,7 +5128,7 @@ H2Sg(g) 1.45 2.806e+01 0.884 8.054e+00 8.083e+00 2.878e-02 Specific Conductance (µS/cm, 108°C) = 361 Density (g/cm³) = 0.95078 Volume (L) = 1.07625 - Viscosity (mPa s) = 0.26114 + Viscosity (mPa s) = 0.26115 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.914e-04 Mass of water (kg) = 9.920e-01 @@ -5202,7 +5202,7 @@ H2Sg(g) 1.44 2.785e+01 0.887 8.083e+00 8.110e+00 2.697e-02 Specific Conductance (µS/cm, 112°C) = 360 Density (g/cm³) = 0.94766 Volume (L) = 1.07753 - Viscosity (mPa s) = 0.25102 + Viscosity (mPa s) = 0.25103 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.817e-04 Mass of water (kg) = 9.908e-01 @@ -5350,7 +5350,7 @@ H2Sg(g) 1.44 2.733e+01 0.894 8.135e+00 8.160e+00 2.417e-02 Specific Conductance (µS/cm, 120°C) = 356 Density (g/cm³) = 0.94118 Volume (L) = 1.07996 - Viscosity (mPa s) = 0.23282 + Viscosity (mPa s) = 0.23283 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.608e-04 Mass of water (kg) = 9.878e-01 @@ -5424,7 +5424,7 @@ H2Sg(g) 1.43 2.703e+01 0.898 8.160e+00 8.183e+00 2.314e-02 Specific Conductance (µS/cm, 124°C) = 352 Density (g/cm³) = 0.93783 Volume (L) = 1.08106 - Viscosity (mPa s) = 0.22462 + Viscosity (mPa s) = 0.22463 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.496e-04 Mass of water (kg) = 9.860e-01 @@ -5498,7 +5498,7 @@ H2Sg(g) 1.43 2.670e+01 0.901 8.183e+00 8.205e+00 2.235e-02 Specific Conductance (µS/cm, 128°C) = 348 Density (g/cm³) = 0.93441 Volume (L) = 1.08202 - Viscosity (mPa s) = 0.21695 + Viscosity (mPa s) = 0.21696 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.380e-04 Mass of water (kg) = 9.840e-01 @@ -5572,7 +5572,7 @@ H2Sg(g) 1.42 2.634e+01 0.904 8.205e+00 8.227e+00 2.177e-02 Specific Conductance (µS/cm, 132°C) = 342 Density (g/cm³) = 0.93092 Volume (L) = 1.08281 - Viscosity (mPa s) = 0.20976 + Viscosity (mPa s) = 0.20977 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.259e-04 Mass of water (kg) = 9.817e-01 @@ -5646,7 +5646,7 @@ H2Sg(g) 1.41 2.594e+01 0.907 8.227e+00 8.248e+00 2.140e-02 Specific Conductance (µS/cm, 136°C) = 336 Density (g/cm³) = 0.92735 Volume (L) = 1.08337 - Viscosity (mPa s) = 0.20301 + Viscosity (mPa s) = 0.20302 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.134e-04 Mass of water (kg) = 9.790e-01 @@ -5720,7 +5720,7 @@ H2Sg(g) 1.41 2.551e+01 0.910 8.248e+00 8.269e+00 2.123e-02 Specific Conductance (µS/cm, 140°C) = 329 Density (g/cm³) = 0.92370 Volume (L) = 1.08366 - Viscosity (mPa s) = 0.19667 + Viscosity (mPa s) = 0.19668 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.006e-04 Mass of water (kg) = 9.761e-01 @@ -5794,7 +5794,7 @@ H2Sg(g) 1.40 2.503e+01 0.913 8.269e+00 8.291e+00 2.126e-02 Specific Conductance (µS/cm, 145°C) = 322 Density (g/cm³) = 0.91999 Volume (L) = 1.08359 - Viscosity (mPa s) = 0.19071 + Viscosity (mPa s) = 0.19072 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.875e-04 Mass of water (kg) = 9.727e-01 @@ -5865,10 +5865,10 @@ H2Sg(g) 1.39 2.451e+01 0.916 8.291e+00 8.312e+00 2.147e-02 pH = 3.443 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 149°C) = 314 + Specific Conductance (µS/cm, 149°C) = 313 Density (g/cm³) = 0.91619 Volume (L) = 1.08310 - Viscosity (mPa s) = 0.18508 + Viscosity (mPa s) = 0.18509 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.740e-04 Mass of water (kg) = 9.689e-01 @@ -5942,7 +5942,7 @@ H2Sg(g) 1.38 2.394e+01 0.919 8.312e+00 8.334e+00 2.187e-02 Specific Conductance (µS/cm, 153°C) = 305 Density (g/cm³) = 0.91233 Volume (L) = 1.08209 - Viscosity (mPa s) = 0.17978 + Viscosity (mPa s) = 0.17979 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.603e-04 Mass of water (kg) = 9.645e-01 @@ -6016,7 +6016,7 @@ H2Sg(g) 1.37 2.333e+01 0.921 8.334e+00 8.357e+00 2.246e-02 Specific Conductance (µS/cm, 157°C) = 295 Density (g/cm³) = 0.90839 Volume (L) = 1.08045 - Viscosity (mPa s) = 0.17476 + Viscosity (mPa s) = 0.17477 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.463e-04 Mass of water (kg) = 9.595e-01 @@ -6090,7 +6090,7 @@ H2Sg(g) 1.36 2.267e+01 0.924 8.357e+00 8.380e+00 2.324e-02 Specific Conductance (µS/cm, 161°C) = 285 Density (g/cm³) = 0.90437 Volume (L) = 1.07805 - Viscosity (mPa s) = 0.17002 + Viscosity (mPa s) = 0.17003 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.321e-04 Mass of water (kg) = 9.538e-01 @@ -6164,7 +6164,7 @@ H2Sg(g) 1.34 2.195e+01 0.927 8.380e+00 8.404e+00 2.420e-02 Specific Conductance (µS/cm, 165°C) = 275 Density (g/cm³) = 0.90028 Volume (L) = 1.07471 - Viscosity (mPa s) = 0.16552 + Viscosity (mPa s) = 0.16553 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.177e-04 Mass of water (kg) = 9.472e-01 @@ -6312,7 +6312,7 @@ H2Sg(g) 1.31 2.035e+01 0.933 8.429e+00 8.456e+00 2.671e-02 Specific Conductance (µS/cm, 173°C) = 253 Density (g/cm³) = 0.89188 Volume (L) = 1.06433 - Viscosity (mPa s) = 0.15720 + Viscosity (mPa s) = 0.15721 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.885e-04 Mass of water (kg) = 9.307e-01 @@ -6460,7 +6460,7 @@ H2Sg(g) 1.27 1.850e+01 0.939 8.484e+00 8.514e+00 3.002e-02 Specific Conductance (µS/cm, 181°C) = 229 Density (g/cm³) = 0.88319 Volume (L) = 1.04682 - Viscosity (mPa s) = 0.14967 + Viscosity (mPa s) = 0.14968 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.586e-04 Mass of water (kg) = 9.080e-01 @@ -6534,7 +6534,7 @@ H2Sg(g) 1.24 1.748e+01 0.943 8.514e+00 8.546e+00 3.199e-02 Specific Conductance (µS/cm, 185°C) = 216 Density (g/cm³) = 0.87873 Volume (L) = 1.03416 - Viscosity (mPa s) = 0.14616 + Viscosity (mPa s) = 0.14617 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.435e-04 Mass of water (kg) = 8.933e-01 @@ -6608,7 +6608,7 @@ H2Sg(g) 1.21 1.640e+01 0.946 8.546e+00 8.580e+00 3.419e-02 Specific Conductance (µS/cm, 190°C) = 204 Density (g/cm³) = 0.87421 Volume (L) = 1.01785 - Viscosity (mPa s) = 0.14278 + Viscosity (mPa s) = 0.14279 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.283e-04 Mass of water (kg) = 8.755e-01 @@ -6682,7 +6682,7 @@ H2Sg(g) 1.18 1.524e+01 0.950 8.580e+00 8.617e+00 3.662e-02 Specific Conductance (µS/cm, 194°C) = 200 Density (g/cm³) = 0.86962 Volume (L) = 0.99676 - Viscosity (mPa s) = 0.13633 + Viscosity (mPa s) = 0.13634 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.129e-04 Mass of water (kg) = 8.537e-01 @@ -6756,7 +6756,7 @@ H2Sg(g) 1.15 1.402e+01 0.954 8.617e+00 8.656e+00 3.929e-02 Specific Conductance (µS/cm, 198°C) = 177 Density (g/cm³) = 0.86497 Volume (L) = 0.96917 - Viscosity (mPa s) = 0.13668 + Viscosity (mPa s) = 0.13669 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.974e-04 Mass of water (kg) = 8.266e-01 @@ -6830,7 +6830,7 @@ H2Sg(g) 1.10 1.272e+01 0.958 8.656e+00 8.699e+00 4.221e-02 Specific Conductance (µS/cm, 202°C) = 164 Density (g/cm³) = 0.86025 Volume (L) = 0.93254 - Viscosity (mPa s) = 0.13371 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13372 (solute contributions limited to 200 °C) Activity of water = 0.993 Ionic strength (mol/kgw) = 1.816e-04 Mass of water (kg) = 7.919e-01 @@ -6904,7 +6904,7 @@ H2Sg(g) 1.05 1.134e+01 0.962 8.699e+00 8.744e+00 4.540e-02 Specific Conductance (µS/cm, 206°C) = 150 Density (g/cm³) = 0.85548 Volume (L) = 0.88282 - Viscosity (mPa s) = 0.13089 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13090 (solute contributions limited to 200 °C) Activity of water = 0.994 Ionic strength (mol/kgw) = 1.657e-04 Mass of water (kg) = 7.465e-01 @@ -6978,7 +6978,7 @@ H2Sg(g) 1.00 9.898e+00 0.966 8.744e+00 8.793e+00 4.888e-02 Specific Conductance (µS/cm, 210°C) = 135 Density (g/cm³) = 0.85065 Volume (L) = 0.81316 - Viscosity (mPa s) = 0.12818 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12819 (solute contributions limited to 200 °C) Activity of water = 0.995 Ionic strength (mol/kgw) = 1.493e-04 Mass of water (kg) = 6.847e-01 @@ -7614,7 +7614,7 @@ H2Sg(g) 1.69 4.901e+01 0.715 6.570e+00 6.700e+00 1.300e-01 Specific Conductance (µS/cm, 59°C) = 335 Density (g/cm³) = 0.98652 Volume (L) = 1.09239 - Viscosity (mPa s) = 0.47702 + Viscosity (mPa s) = 0.47703 Activity of water = 0.965 Ionic strength (mol/kgw) = 6.594e-04 Mass of water (kg) = 9.993e-01 @@ -7688,7 +7688,7 @@ H2Sg(g) 1.69 4.895e+01 0.727 6.700e+00 6.816e+00 1.166e-01 Specific Conductance (µS/cm, 63°C) = 351 Density (g/cm³) = 0.98360 Volume (L) = 1.09143 - Viscosity (mPa s) = 0.44427 + Viscosity (mPa s) = 0.44428 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.617e-04 Mass of water (kg) = 9.991e-01 @@ -7762,7 +7762,7 @@ H2Sg(g) 1.69 4.887e+01 0.739 6.816e+00 6.921e+00 1.042e-01 Specific Conductance (µS/cm, 68°C) = 366 Density (g/cm³) = 0.98063 Volume (L) = 1.09090 - Viscosity (mPa s) = 0.41513 + Viscosity (mPa s) = 0.41514 Activity of water = 0.968 Ionic strength (mol/kgw) = 6.623e-04 Mass of water (kg) = 9.989e-01 @@ -7836,7 +7836,7 @@ H2Sg(g) 1.69 4.878e+01 0.749 6.921e+00 7.014e+00 9.302e-02 Specific Conductance (µS/cm, 73°C) = 380 Density (g/cm³) = 0.97762 Volume (L) = 1.09077 - Viscosity (mPa s) = 0.38909 + Viscosity (mPa s) = 0.38910 Activity of water = 0.970 Ionic strength (mol/kgw) = 6.612e-04 Mass of water (kg) = 9.987e-01 @@ -7984,7 +7984,7 @@ H2Sg(g) 1.69 4.856e+01 0.768 7.097e+00 7.171e+00 7.447e-02 Specific Conductance (µS/cm, 82°C) = 403 Density (g/cm³) = 0.97139 Volume (L) = 1.09159 - Viscosity (mPa s) = 0.34466 + Viscosity (mPa s) = 0.34467 Activity of water = 0.972 Ionic strength (mol/kgw) = 6.544e-04 Mass of water (kg) = 9.980e-01 @@ -8058,7 +8058,7 @@ H2Sg(g) 1.69 4.842e+01 0.777 7.171e+00 7.238e+00 6.684e-02 Specific Conductance (µS/cm, 87°C) = 412 Density (g/cm³) = 0.96817 Volume (L) = 1.09246 - Viscosity (mPa s) = 0.32563 + Viscosity (mPa s) = 0.32564 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.488e-04 Mass of water (kg) = 9.976e-01 @@ -8206,7 +8206,7 @@ H2Sg(g) 1.68 4.808e+01 0.793 7.298e+00 7.353e+00 5.435e-02 Specific Conductance (µS/cm, 97°C) = 425 Density (g/cm³) = 0.96146 Volume (L) = 1.09498 - Viscosity (mPa s) = 0.29266 + Viscosity (mPa s) = 0.29267 Activity of water = 0.975 Ionic strength (mol/kgw) = 6.337e-04 Mass of water (kg) = 9.966e-01 @@ -8280,7 +8280,7 @@ H2Sg(g) 1.68 4.787e+01 0.801 7.353e+00 7.402e+00 4.929e-02 Specific Conductance (µS/cm, 102°C) = 429 Density (g/cm³) = 0.95797 Volume (L) = 1.09657 - Viscosity (mPa s) = 0.27834 + Viscosity (mPa s) = 0.27835 Activity of water = 0.975 Ionic strength (mol/kgw) = 6.243e-04 Mass of water (kg) = 9.960e-01 @@ -8354,7 +8354,7 @@ H2Sg(g) 1.68 4.763e+01 0.808 7.402e+00 7.447e+00 4.490e-02 Specific Conductance (µS/cm, 106°C) = 431 Density (g/cm³) = 0.95439 Volume (L) = 1.09833 - Viscosity (mPa s) = 0.26523 + Viscosity (mPa s) = 0.26524 Activity of water = 0.976 Ionic strength (mol/kgw) = 6.138e-04 Mass of water (kg) = 9.953e-01 @@ -8502,7 +8502,7 @@ H2Sg(g) 1.67 4.705e+01 0.821 7.488e+00 7.526e+00 3.791e-02 Specific Conductance (µS/cm, 116°C) = 432 Density (g/cm³) = 0.94693 Volume (L) = 1.10225 - Viscosity (mPa s) = 0.24215 + Viscosity (mPa s) = 0.24216 Activity of water = 0.977 Ionic strength (mol/kgw) = 5.898e-04 Mass of water (kg) = 9.935e-01 @@ -8576,7 +8576,7 @@ H2Sg(g) 1.67 4.671e+01 0.828 7.526e+00 7.561e+00 3.519e-02 Specific Conductance (µS/cm, 121°C) = 429 Density (g/cm³) = 0.94306 Volume (L) = 1.10436 - Viscosity (mPa s) = 0.23196 + Viscosity (mPa s) = 0.23197 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.764e-04 Mass of water (kg) = 9.924e-01 @@ -8650,7 +8650,7 @@ H2Sg(g) 1.67 4.632e+01 0.834 7.561e+00 7.594e+00 3.294e-02 Specific Conductance (µS/cm, 125°C) = 426 Density (g/cm³) = 0.93908 Volume (L) = 1.10652 - Viscosity (mPa s) = 0.22254 + Viscosity (mPa s) = 0.22255 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.622e-04 Mass of water (kg) = 9.912e-01 @@ -8724,7 +8724,7 @@ H2Sg(g) 1.66 4.589e+01 0.840 7.594e+00 7.625e+00 3.112e-02 Specific Conductance (µS/cm, 130°C) = 421 Density (g/cm³) = 0.93500 Volume (L) = 1.10870 - Viscosity (mPa s) = 0.21383 + Viscosity (mPa s) = 0.21384 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.473e-04 Mass of water (kg) = 9.898e-01 @@ -8798,7 +8798,7 @@ H2Sg(g) 1.66 4.540e+01 0.845 7.625e+00 7.655e+00 2.971e-02 Specific Conductance (µS/cm, 135°C) = 415 Density (g/cm³) = 0.93082 Volume (L) = 1.11086 - Viscosity (mPa s) = 0.20574 + Viscosity (mPa s) = 0.20575 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.317e-04 Mass of water (kg) = 9.882e-01 @@ -8872,7 +8872,7 @@ H2Sg(g) 1.65 4.487e+01 0.851 7.655e+00 7.684e+00 2.869e-02 Specific Conductance (µS/cm, 140°C) = 407 Density (g/cm³) = 0.92653 Volume (L) = 1.11296 - Viscosity (mPa s) = 0.19823 + Viscosity (mPa s) = 0.19824 Activity of water = 0.979 Ionic strength (mol/kgw) = 5.154e-04 Mass of water (kg) = 9.863e-01 @@ -8946,7 +8946,7 @@ H2Sg(g) 1.65 4.427e+01 0.856 7.684e+00 7.712e+00 2.804e-02 Specific Conductance (µS/cm, 145°C) = 399 Density (g/cm³) = 0.92213 Volume (L) = 1.11496 - Viscosity (mPa s) = 0.19122 + Viscosity (mPa s) = 0.19123 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.987e-04 Mass of water (kg) = 9.842e-01 @@ -9020,7 +9020,7 @@ H2Sg(g) 1.64 4.362e+01 0.861 7.712e+00 7.739e+00 2.774e-02 Specific Conductance (µS/cm, 149°C) = 389 Density (g/cm³) = 0.91763 Volume (L) = 1.11680 - Viscosity (mPa s) = 0.18469 + Viscosity (mPa s) = 0.18470 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.815e-04 Mass of water (kg) = 9.818e-01 @@ -9094,7 +9094,7 @@ H2Sg(g) 1.63 4.290e+01 0.866 7.739e+00 7.767e+00 2.779e-02 Specific Conductance (µS/cm, 154°C) = 379 Density (g/cm³) = 0.91301 Volume (L) = 1.11843 - Viscosity (mPa s) = 0.17858 + Viscosity (mPa s) = 0.17859 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.639e-04 Mass of water (kg) = 9.791e-01 @@ -9168,7 +9168,7 @@ H2Sg(g) 1.62 4.211e+01 0.871 7.767e+00 7.795e+00 2.818e-02 Specific Conductance (µS/cm, 159°C) = 368 Density (g/cm³) = 0.90829 Volume (L) = 1.11978 - Viscosity (mPa s) = 0.17286 + Viscosity (mPa s) = 0.17287 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.460e-04 Mass of water (kg) = 9.760e-01 @@ -9242,7 +9242,7 @@ H2Sg(g) 1.62 4.125e+01 0.876 7.795e+00 7.824e+00 2.892e-02 Specific Conductance (µS/cm, 164°C) = 355 Density (g/cm³) = 0.90345 Volume (L) = 1.12076 - Viscosity (mPa s) = 0.16750 + Viscosity (mPa s) = 0.16751 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.279e-04 Mass of water (kg) = 9.725e-01 @@ -9316,7 +9316,7 @@ H2Sg(g) 1.61 4.031e+01 0.881 7.824e+00 7.854e+00 3.000e-02 Specific Conductance (µS/cm, 168°C) = 343 Density (g/cm³) = 0.89849 Volume (L) = 1.12129 - Viscosity (mPa s) = 0.16245 + Viscosity (mPa s) = 0.16246 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.095e-04 Mass of water (kg) = 9.684e-01 @@ -9390,7 +9390,7 @@ H2Sg(g) 1.59 3.928e+01 0.885 7.854e+00 7.886e+00 3.142e-02 Specific Conductance (µS/cm, 173°C) = 329 Density (g/cm³) = 0.89342 Volume (L) = 1.12125 - Viscosity (mPa s) = 0.15770 + Viscosity (mPa s) = 0.15771 Activity of water = 0.982 Ionic strength (mol/kgw) = 3.909e-04 Mass of water (kg) = 9.638e-01 @@ -9464,7 +9464,7 @@ H2Sg(g) 1.58 3.817e+01 0.890 7.886e+00 7.919e+00 3.318e-02 Specific Conductance (µS/cm, 178°C) = 315 Density (g/cm³) = 0.88823 Volume (L) = 1.12049 - Viscosity (mPa s) = 0.15322 + Viscosity (mPa s) = 0.15323 Activity of water = 0.982 Ionic strength (mol/kgw) = 3.723e-04 Mass of water (kg) = 9.584e-01 @@ -9538,7 +9538,7 @@ H2Sg(g) 1.57 3.697e+01 0.895 7.919e+00 7.954e+00 3.531e-02 Specific Conductance (µS/cm, 183°C) = 301 Density (g/cm³) = 0.88292 Volume (L) = 1.11885 - Viscosity (mPa s) = 0.14897 + Viscosity (mPa s) = 0.14898 Activity of water = 0.982 Ionic strength (mol/kgw) = 3.536e-04 Mass of water (kg) = 9.522e-01 @@ -9612,7 +9612,7 @@ H2Sg(g) 1.55 3.567e+01 0.900 7.954e+00 7.992e+00 3.780e-02 Specific Conductance (µS/cm, 188°C) = 287 Density (g/cm³) = 0.87749 Volume (L) = 1.11610 - Viscosity (mPa s) = 0.14495 + Viscosity (mPa s) = 0.14496 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.349e-04 Mass of water (kg) = 9.450e-01 @@ -9686,7 +9686,7 @@ H2Sg(g) 1.54 3.428e+01 0.904 7.992e+00 8.033e+00 4.068e-02 Specific Conductance (µS/cm, 192°C) = 272 Density (g/cm³) = 0.87193 Volume (L) = 1.11197 - Viscosity (mPa s) = 0.14103 + Viscosity (mPa s) = 0.14104 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.163e-04 Mass of water (kg) = 9.366e-01 @@ -9760,7 +9760,7 @@ H2Sg(g) 1.52 3.278e+01 0.909 8.033e+00 8.077e+00 4.395e-02 Specific Conductance (µS/cm, 197°C) = 256 Density (g/cm³) = 0.86626 Volume (L) = 1.10610 - Viscosity (mPa s) = 0.13780 + Viscosity (mPa s) = 0.13781 Activity of water = 0.984 Ionic strength (mol/kgw) = 2.977e-04 Mass of water (kg) = 9.267e-01 @@ -9834,7 +9834,7 @@ H2Sg(g) 1.49 3.118e+01 0.914 8.077e+00 8.124e+00 4.763e-02 Specific Conductance (µS/cm, 202°C) = 241 Density (g/cm³) = 0.86046 Volume (L) = 1.09802 - Viscosity (mPa s) = 0.13425 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13426 (solute contributions limited to 200 °C) Activity of water = 0.984 Ionic strength (mol/kgw) = 2.792e-04 Mass of water (kg) = 9.150e-01 @@ -9908,7 +9908,7 @@ H2Sg(g) 1.47 2.947e+01 0.919 8.124e+00 8.176e+00 5.174e-02 Specific Conductance (µS/cm, 207°C) = 226 Density (g/cm³) = 0.85453 Volume (L) = 1.08711 - Viscosity (mPa s) = 0.13095 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13096 (solute contributions limited to 200 °C) Activity of water = 0.985 Ionic strength (mol/kgw) = 2.608e-04 Mass of water (kg) = 9.009e-01 @@ -9982,7 +9982,7 @@ H2Sg(g) 1.44 2.765e+01 0.925 8.176e+00 8.232e+00 5.631e-02 Specific Conductance (µS/cm, 211°C) = 210 Density (g/cm³) = 0.84849 Volume (L) = 1.07252 - Viscosity (mPa s) = 0.12782 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12783 (solute contributions limited to 200 °C) Activity of water = 0.986 Ionic strength (mol/kgw) = 2.425e-04 Mass of water (kg) = 8.839e-01 @@ -10056,7 +10056,7 @@ H2Sg(g) 1.41 2.571e+01 0.930 8.232e+00 8.294e+00 6.136e-02 Specific Conductance (µS/cm, 216°C) = 195 Density (g/cm³) = 0.84233 Volume (L) = 1.05304 - Viscosity (mPa s) = 0.12483 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12484 (solute contributions limited to 200 °C) Activity of water = 0.986 Ionic strength (mol/kgw) = 2.244e-04 Mass of water (kg) = 8.629e-01 @@ -10130,7 +10130,7 @@ H2Sg(g) 1.37 2.366e+01 0.936 8.294e+00 8.360e+00 6.693e-02 Specific Conductance (µS/cm, 221°C) = 179 Density (g/cm³) = 0.83606 Volume (L) = 1.02695 - Viscosity (mPa s) = 0.12197 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12198 (solute contributions limited to 200 °C) Activity of water = 0.987 Ionic strength (mol/kgw) = 2.063e-04 Mass of water (kg) = 8.368e-01 @@ -10204,7 +10204,7 @@ H2Sg(g) 1.33 2.149e+01 0.942 8.360e+00 8.434e+00 7.304e-02 Specific Conductance (µS/cm, 226°C) = 164 Density (g/cm³) = 0.82968 Volume (L) = 0.99165 - Viscosity (mPa s) = 0.11922 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11923 (solute contributions limited to 200 °C) Activity of water = 0.988 Ionic strength (mol/kgw) = 1.884e-04 Mass of water (kg) = 8.034e-01 @@ -10278,7 +10278,7 @@ H2Sg(g) 1.28 1.921e+01 0.949 8.434e+00 8.513e+00 7.973e-02 Specific Conductance (µS/cm, 230°C) = 149 Density (g/cm³) = 0.82321 Volume (L) = 0.94307 - Viscosity (mPa s) = 0.11657 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11658 (solute contributions limited to 200 °C) Activity of water = 0.989 Ionic strength (mol/kgw) = 1.706e-04 Mass of water (kg) = 7.598e-01 @@ -10352,7 +10352,7 @@ H2Sg(g) 1.23 1.681e+01 0.956 8.513e+00 8.600e+00 8.704e-02 Specific Conductance (µS/cm, 235°C) = 133 Density (g/cm³) = 0.81666 Volume (L) = 0.87444 - Viscosity (mPa s) = 0.11402 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11403 (solute contributions limited to 200 °C) Activity of water = 0.990 Ionic strength (mol/kgw) = 1.527e-04 Mass of water (kg) = 7.005e-01 @@ -10426,7 +10426,7 @@ H2Sg(g) 1.16 1.429e+01 0.964 8.600e+00 8.695e+00 9.502e-02 Specific Conductance (µS/cm, 240°C) = 118 Density (g/cm³) = 0.81006 Volume (L) = 0.77361 - Viscosity (mPa s) = 0.11155 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11156 (solute contributions limited to 200 °C) Activity of water = 0.991 Ionic strength (mol/kgw) = 1.347e-04 Mass of water (kg) = 6.163e-01 @@ -10914,7 +10914,7 @@ H2Sg(g) 1.99 9.726e+01 0.309 6.990e+00 6.967e+00 -2.336e-02 Specific Conductance (µS/cm, 50°C) = 288 Density (g/cm³) = 0.99285 Volume (L) = 1.07511 - Viscosity (mPa s) = 0.54857 + Viscosity (mPa s) = 0.54858 Activity of water = 0.968 Ionic strength (mol/kgw) = 5.992e-04 Mass of water (kg) = 9.981e-01 @@ -11210,7 +11210,7 @@ H2Sg(g) 1.98 9.654e+01 0.418 6.860e+00 6.814e+00 -4.585e-02 Specific Conductance (µS/cm, 70°C) = 383 Density (g/cm³) = 0.98310 Volume (L) = 1.09017 - Viscosity (mPa s) = 0.40617 + Viscosity (mPa s) = 0.40618 Activity of water = 0.967 Ionic strength (mol/kgw) = 6.861e-04 Mass of water (kg) = 9.973e-01 @@ -11358,7 +11358,7 @@ H2Sg(g) 1.98 9.612e+01 0.476 6.764e+00 6.711e+00 -5.332e-02 Specific Conductance (µS/cm, 80°C) = 425 Density (g/cm³) = 0.97792 Volume (L) = 1.09902 - Viscosity (mPa s) = 0.35677 + Viscosity (mPa s) = 0.35678 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.176e-04 Mass of water (kg) = 9.968e-01 @@ -11506,7 +11506,7 @@ H2Sg(g) 1.98 9.567e+01 0.535 6.655e+00 6.598e+00 -5.754e-02 Specific Conductance (µS/cm, 90°C) = 460 Density (g/cm³) = 0.97248 Volume (L) = 1.10862 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31694 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.396e-04 Mass of water (kg) = 9.962e-01 @@ -11580,7 +11580,7 @@ H2Sg(g) 1.98 9.546e+01 0.563 6.598e+00 6.540e+00 -5.793e-02 Specific Conductance (µS/cm, 95°C) = 475 Density (g/cm³) = 0.96964 Volume (L) = 1.11366 - Viscosity (mPa s) = 0.29984 + Viscosity (mPa s) = 0.29985 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.468e-04 Mass of water (kg) = 9.960e-01 @@ -11654,7 +11654,7 @@ H2Sg(g) 1.98 9.526e+01 0.591 6.540e+00 6.483e+00 -5.654e-02 Specific Conductance (µS/cm, 100°C) = 488 Density (g/cm³) = 0.96670 Volume (L) = 1.11883 - Viscosity (mPa s) = 0.28433 + Viscosity (mPa s) = 0.28434 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.513e-04 Mass of water (kg) = 9.958e-01 @@ -11728,7 +11728,7 @@ H2Sg(g) 1.98 9.514e+01 0.617 6.483e+00 6.431e+00 -5.212e-02 Specific Conductance (µS/cm, 105°C) = 498 Density (g/cm³) = 0.96363 Volume (L) = 1.12410 - Viscosity (mPa s) = 0.27022 + Viscosity (mPa s) = 0.27023 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.528e-04 Mass of water (kg) = 9.957e-01 @@ -11802,7 +11802,7 @@ H2Sg(g) 1.98 9.537e+01 0.637 6.431e+00 6.392e+00 -3.885e-02 Specific Conductance (µS/cm, 110°C) = 506 Density (g/cm³) = 0.96038 Volume (L) = 1.12960 - Viscosity (mPa s) = 0.25733 + Viscosity (mPa s) = 0.25734 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.505e-04 Mass of water (kg) = 9.960e-01 @@ -11876,7 +11876,7 @@ H2Sg(g) 1.98 9.528e+01 0.652 6.392e+00 6.385e+00 -7.313e-03 Specific Conductance (µS/cm, 115°C) = 510 Density (g/cm³) = 0.95683 Volume (L) = 1.13395 - Viscosity (mPa s) = 0.24553 + Viscosity (mPa s) = 0.24554 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.428e-04 Mass of water (kg) = 9.959e-01 @@ -11950,7 +11950,7 @@ H2Sg(g) 1.98 9.491e+01 0.667 6.385e+00 6.388e+00 3.306e-03 Specific Conductance (µS/cm, 120°C) = 512 Density (g/cm³) = 0.95309 Volume (L) = 1.13780 - Viscosity (mPa s) = 0.23470 + Viscosity (mPa s) = 0.23471 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.323e-04 Mass of water (kg) = 9.954e-01 @@ -12024,7 +12024,7 @@ H2Sg(g) 1.98 9.446e+01 0.680 6.388e+00 6.395e+00 6.736e-03 Specific Conductance (µS/cm, 125°C) = 511 Density (g/cm³) = 0.94921 Volume (L) = 1.14160 - Viscosity (mPa s) = 0.22474 + Viscosity (mPa s) = 0.22475 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.197e-04 Mass of water (kg) = 9.948e-01 @@ -12098,7 +12098,7 @@ H2Sg(g) 1.97 9.394e+01 0.692 6.395e+00 6.403e+00 8.302e-03 Specific Conductance (µS/cm, 130°C) = 509 Density (g/cm³) = 0.94519 Volume (L) = 1.14543 - Viscosity (mPa s) = 0.21554 + Viscosity (mPa s) = 0.21555 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.055e-04 Mass of water (kg) = 9.941e-01 @@ -12172,7 +12172,7 @@ H2Sg(g) 1.97 9.334e+01 0.704 6.403e+00 6.412e+00 9.133e-03 Specific Conductance (µS/cm, 135°C) = 504 Density (g/cm³) = 0.94104 Volume (L) = 1.14932 - Viscosity (mPa s) = 0.20705 + Viscosity (mPa s) = 0.20706 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.899e-04 Mass of water (kg) = 9.934e-01 @@ -12246,7 +12246,7 @@ H2Sg(g) 1.97 9.268e+01 0.715 6.412e+00 6.422e+00 9.680e-03 Specific Conductance (µS/cm, 140°C) = 498 Density (g/cm³) = 0.93677 Volume (L) = 1.15327 - Viscosity (mPa s) = 0.19917 + Viscosity (mPa s) = 0.19919 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.731e-04 Mass of water (kg) = 9.925e-01 @@ -12317,10 +12317,10 @@ H2Sg(g) 1.96 9.194e+01 0.726 6.422e+00 6.432e+00 1.017e-02 pH = 3.210 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 145°C) = 491 + Specific Conductance (µS/cm, 145°C) = 490 Density (g/cm³) = 0.93236 Volume (L) = 1.15727 - Viscosity (mPa s) = 0.19187 + Viscosity (mPa s) = 0.19188 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.552e-04 Mass of water (kg) = 9.915e-01 @@ -12394,7 +12394,7 @@ H2Sg(g) 1.96 9.112e+01 0.736 6.432e+00 6.443e+00 1.075e-02 Specific Conductance (µS/cm, 150°C) = 481 Density (g/cm³) = 0.92782 Volume (L) = 1.16133 - Viscosity (mPa s) = 0.18507 + Viscosity (mPa s) = 0.18508 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.364e-04 Mass of water (kg) = 9.903e-01 @@ -12468,7 +12468,7 @@ H2Sg(g) 1.96 9.023e+01 0.746 6.443e+00 6.454e+00 1.150e-02 Specific Conductance (µS/cm, 155°C) = 471 Density (g/cm³) = 0.92314 Volume (L) = 1.16541 - Viscosity (mPa s) = 0.17873 + Viscosity (mPa s) = 0.17874 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.169e-04 Mass of water (kg) = 9.891e-01 @@ -12542,7 +12542,7 @@ H2Sg(g) 1.95 8.924e+01 0.755 6.454e+00 6.467e+00 1.248e-02 Specific Conductance (µS/cm, 160°C) = 459 Density (g/cm³) = 0.91832 Volume (L) = 1.16950 - Viscosity (mPa s) = 0.17281 + Viscosity (mPa s) = 0.17282 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.967e-04 Mass of water (kg) = 9.877e-01 @@ -12616,7 +12616,7 @@ H2Sg(g) 1.95 8.816e+01 0.764 6.467e+00 6.481e+00 1.372e-02 Specific Conductance (µS/cm, 165°C) = 447 Density (g/cm³) = 0.91337 Volume (L) = 1.17358 - Viscosity (mPa s) = 0.16727 + Viscosity (mPa s) = 0.16728 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.760e-04 Mass of water (kg) = 9.860e-01 @@ -12690,7 +12690,7 @@ H2Sg(g) 1.94 8.699e+01 0.773 6.481e+00 6.496e+00 1.528e-02 Specific Conductance (µS/cm, 170°C) = 433 Density (g/cm³) = 0.90826 Volume (L) = 1.17763 - Viscosity (mPa s) = 0.16207 + Viscosity (mPa s) = 0.16209 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.549e-04 Mass of water (kg) = 9.842e-01 @@ -12764,7 +12764,7 @@ H2Sg(g) 1.93 8.572e+01 0.781 6.496e+00 6.513e+00 1.718e-02 Specific Conductance (µS/cm, 175°C) = 419 Density (g/cm³) = 0.90300 Volume (L) = 1.18159 - Viscosity (mPa s) = 0.15719 + Viscosity (mPa s) = 0.15721 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.334e-04 Mass of water (kg) = 9.822e-01 @@ -12838,7 +12838,7 @@ H2Sg(g) 1.93 8.434e+01 0.789 6.513e+00 6.532e+00 1.943e-02 Specific Conductance (µS/cm, 180°C) = 404 Density (g/cm³) = 0.89759 Volume (L) = 1.18545 - Viscosity (mPa s) = 0.15260 + Viscosity (mPa s) = 0.15261 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.118e-04 Mass of water (kg) = 9.800e-01 @@ -12912,7 +12912,7 @@ H2Sg(g) 1.92 8.284e+01 0.797 6.532e+00 6.555e+00 2.208e-02 Specific Conductance (µS/cm, 185°C) = 388 Density (g/cm³) = 0.89201 Volume (L) = 1.18915 - Viscosity (mPa s) = 0.14826 + Viscosity (mPa s) = 0.14827 Activity of water = 0.963 Ionic strength (mol/kgw) = 4.901e-04 Mass of water (kg) = 9.774e-01 @@ -12986,7 +12986,7 @@ H2Sg(g) 1.91 8.123e+01 0.805 6.555e+00 6.580e+00 2.513e-02 Specific Conductance (µS/cm, 190°C) = 372 Density (g/cm³) = 0.88626 Volume (L) = 1.19265 - Viscosity (mPa s) = 0.14414 + Viscosity (mPa s) = 0.14415 Activity of water = 0.963 Ionic strength (mol/kgw) = 4.683e-04 Mass of water (kg) = 9.745e-01 @@ -13060,7 +13060,7 @@ H2Sg(g) 1.90 7.950e+01 0.813 6.580e+00 6.608e+00 2.862e-02 Specific Conductance (µS/cm, 195°C) = 357 Density (g/cm³) = 0.88033 Volume (L) = 1.19586 - Viscosity (mPa s) = 0.14008 + Viscosity (mPa s) = 0.14009 Activity of water = 0.964 Ionic strength (mol/kgw) = 4.466e-04 Mass of water (kg) = 9.712e-01 @@ -13134,7 +13134,7 @@ H2Sg(g) 1.89 7.764e+01 0.821 6.608e+00 6.641e+00 3.256e-02 Specific Conductance (µS/cm, 200°C) = 338 Density (g/cm³) = 0.87422 Volume (L) = 1.19873 - Viscosity (mPa s) = 0.13695 + Viscosity (mPa s) = 0.13696 Activity of water = 0.964 Ionic strength (mol/kgw) = 4.250e-04 Mass of water (kg) = 9.676e-01 @@ -13208,7 +13208,7 @@ H2Sg(g) 1.88 7.566e+01 0.828 6.641e+00 6.678e+00 3.700e-02 Specific Conductance (µS/cm, 205°C) = 322 Density (g/cm³) = 0.86792 Volume (L) = 1.20115 - Viscosity (mPa s) = 0.13332 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13334 (solute contributions limited to 200 °C) Activity of water = 0.964 Ionic strength (mol/kgw) = 4.036e-04 Mass of water (kg) = 9.634e-01 @@ -13282,7 +13282,7 @@ H2Sg(g) 1.87 7.353e+01 0.836 6.678e+00 6.720e+00 4.195e-02 Specific Conductance (µS/cm, 210°C) = 305 Density (g/cm³) = 0.86141 Volume (L) = 1.20301 - Viscosity (mPa s) = 0.12998 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13000 (solute contributions limited to 200 °C) Activity of water = 0.964 Ionic strength (mol/kgw) = 3.824e-04 Mass of water (kg) = 9.586e-01 @@ -13353,10 +13353,10 @@ H2Sg(g) 1.85 7.128e+01 0.843 6.720e+00 6.767e+00 4.744e-02 pH = 3.466 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 215°C) = 289 + Specific Conductance (µS/cm, 215°C) = 288 Density (g/cm³) = 0.85469 Volume (L) = 1.20416 - Viscosity (mPa s) = 0.12682 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12683 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 3.616e-04 Mass of water (kg) = 9.531e-01 @@ -13430,7 +13430,7 @@ H2Sg(g) 1.84 6.887e+01 0.851 6.767e+00 6.821e+00 5.353e-02 Specific Conductance (µS/cm, 220°C) = 272 Density (g/cm³) = 0.84775 Volume (L) = 1.20443 - Viscosity (mPa s) = 0.12380 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12382 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 3.410e-04 Mass of water (kg) = 9.468e-01 @@ -13504,7 +13504,7 @@ H2Sg(g) 1.82 6.633e+01 0.859 6.821e+00 6.881e+00 6.023e-02 Specific Conductance (µS/cm, 225°C) = 256 Density (g/cm³) = 0.84058 Volume (L) = 1.20360 - Viscosity (mPa s) = 0.12092 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12093 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 3.209e-04 Mass of water (kg) = 9.395e-01 @@ -13575,10 +13575,10 @@ H2Sg(g) 1.80 6.364e+01 0.867 6.881e+00 6.949e+00 6.761e-02 pH = 3.545 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 230°C) = 240 + Specific Conductance (µS/cm, 230°C) = 239 Density (g/cm³) = 0.83316 Volume (L) = 1.20136 - Viscosity (mPa s) = 0.11815 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11817 (solute contributions limited to 200 °C) Activity of water = 0.966 Ionic strength (mol/kgw) = 3.012e-04 Mass of water (kg) = 9.310e-01 @@ -13652,7 +13652,7 @@ H2Sg(g) 1.78 6.079e+01 0.875 6.949e+00 7.024e+00 7.570e-02 Specific Conductance (µS/cm, 235°C) = 224 Density (g/cm³) = 0.82550 Volume (L) = 1.19736 - Viscosity (mPa s) = 0.11550 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11551 (solute contributions limited to 200 °C) Activity of water = 0.967 Ionic strength (mol/kgw) = 2.819e-04 Mass of water (kg) = 9.211e-01 @@ -13726,7 +13726,7 @@ H2Sg(g) 1.76 5.780e+01 0.883 7.024e+00 7.109e+00 8.457e-02 Specific Conductance (µS/cm, 240°C) = 208 Density (g/cm³) = 0.81758 Volume (L) = 1.19111 - Viscosity (mPa s) = 0.11294 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11295 (solute contributions limited to 200 °C) Activity of water = 0.968 Ionic strength (mol/kgw) = 2.631e-04 Mass of water (kg) = 9.094e-01 @@ -13800,7 +13800,7 @@ H2Sg(g) 1.74 5.466e+01 0.891 7.109e+00 7.203e+00 9.428e-02 Specific Conductance (µS/cm, 245°C) = 193 Density (g/cm³) = 0.80940 Volume (L) = 1.18197 - Viscosity (mPa s) = 0.11046 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11048 (solute contributions limited to 200 °C) Activity of water = 0.968 Ionic strength (mol/kgw) = 2.448e-04 Mass of water (kg) = 8.954e-01 @@ -13874,7 +13874,7 @@ H2Sg(g) 1.71 5.137e+01 0.900 7.203e+00 7.308e+00 1.049e-01 Specific Conductance (µS/cm, 250°C) = 178 Density (g/cm³) = 0.80094 Volume (L) = 1.16906 - Viscosity (mPa s) = 0.10807 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10808 (solute contributions limited to 200 °C) Activity of water = 0.969 Ionic strength (mol/kgw) = 2.269e-04 Mass of water (kg) = 8.787e-01 @@ -14214,7 +14214,7 @@ H2Sg(g) 2.17 1.463e+02 0.187 6.965e+00 6.954e+00 -1.105e-02 Specific Conductance (µS/cm, 40°C) = 243 Density (g/cm³) = 1.00050 Volume (L) = 1.06772 - Viscosity (mPa s) = 0.65477 + Viscosity (mPa s) = 0.65478 Activity of water = 0.968 Ionic strength (mol/kgw) = 5.575e-04 Mass of water (kg) = 9.985e-01 @@ -14288,7 +14288,7 @@ H2Sg(g) 2.16 1.460e+02 0.205 6.954e+00 6.934e+00 -1.996e-02 Specific Conductance (µS/cm, 45°C) = 269 Density (g/cm³) = 0.99816 Volume (L) = 1.07073 - Viscosity (mPa s) = 0.59842 + Viscosity (mPa s) = 0.59843 Activity of water = 0.968 Ionic strength (mol/kgw) = 5.853e-04 Mass of water (kg) = 9.983e-01 @@ -14658,7 +14658,7 @@ H2Sg(g) 2.16 1.447e+02 0.303 6.779e+00 6.724e+00 -5.469e-02 Specific Conductance (µS/cm, 70°C) = 391 Density (g/cm³) = 0.98632 Volume (L) = 1.08970 - Viscosity (mPa s) = 0.40747 + Viscosity (mPa s) = 0.40748 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.027e-04 Mass of water (kg) = 9.972e-01 @@ -14732,7 +14732,7 @@ H2Sg(g) 2.16 1.444e+02 0.325 6.724e+00 6.664e+00 -6.009e-02 Specific Conductance (µS/cm, 75°C) = 414 Density (g/cm³) = 0.98386 Volume (L) = 1.09424 - Viscosity (mPa s) = 0.38142 + Viscosity (mPa s) = 0.38143 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.207e-04 Mass of water (kg) = 9.970e-01 @@ -14803,7 +14803,7 @@ H2Sg(g) 2.16 1.440e+02 0.347 6.664e+00 6.599e+00 -6.501e-02 pH = 3.156 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 435 + Specific Conductance (µS/cm, 80°C) = 434 Density (g/cm³) = 0.98136 Volume (L) = 1.09901 Viscosity (mPa s) = 0.35811 @@ -14880,7 +14880,7 @@ H2Sg(g) 2.16 1.436e+02 0.369 6.599e+00 6.530e+00 -6.942e-02 Specific Conductance (µS/cm, 85°C) = 454 Density (g/cm³) = 0.97881 Volume (L) = 1.10400 - Viscosity (mPa s) = 0.33716 + Viscosity (mPa s) = 0.33717 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.501e-04 Mass of water (kg) = 9.964e-01 @@ -15028,7 +15028,7 @@ H2Sg(g) 2.15 1.428e+02 0.414 6.456e+00 6.380e+00 -7.656e-02 Specific Conductance (µS/cm, 95°C) = 487 Density (g/cm³) = 0.97356 Volume (L) = 1.11459 - Viscosity (mPa s) = 0.30119 + Viscosity (mPa s) = 0.30120 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.702e-04 Mass of water (kg) = 9.958e-01 @@ -15102,7 +15102,7 @@ H2Sg(g) 2.15 1.424e+02 0.436 6.380e+00 6.300e+00 -7.918e-02 Specific Conductance (µS/cm, 100°C) = 501 Density (g/cm³) = 0.97084 Volume (L) = 1.12017 - Viscosity (mPa s) = 0.28568 + Viscosity (mPa s) = 0.28569 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.767e-04 Mass of water (kg) = 9.955e-01 @@ -15176,7 +15176,7 @@ H2Sg(g) 2.15 1.419e+02 0.458 6.300e+00 6.219e+00 -8.105e-02 Specific Conductance (µS/cm, 105°C) = 512 Density (g/cm³) = 0.96806 Volume (L) = 1.12592 - Viscosity (mPa s) = 0.27156 + Viscosity (mPa s) = 0.27157 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.808e-04 Mass of water (kg) = 9.952e-01 @@ -15250,7 +15250,7 @@ H2Sg(g) 2.15 1.414e+02 0.480 6.219e+00 6.137e+00 -8.208e-02 Specific Conductance (µS/cm, 110°C) = 522 Density (g/cm³) = 0.96521 Volume (L) = 1.13182 - Viscosity (mPa s) = 0.25866 + Viscosity (mPa s) = 0.25867 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.825e-04 Mass of water (kg) = 9.949e-01 @@ -15324,7 +15324,7 @@ H2Sg(g) 2.15 1.410e+02 0.502 6.137e+00 6.055e+00 -8.213e-02 Specific Conductance (µS/cm, 115°C) = 529 Density (g/cm³) = 0.96227 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.24686 + Viscosity (mPa s) = 0.24687 Activity of water = 0.959 Ionic strength (mol/kgw) = 7.817e-04 Mass of water (kg) = 9.946e-01 @@ -15398,7 +15398,7 @@ H2Sg(g) 2.15 1.405e+02 0.523 6.055e+00 5.974e+00 -8.106e-02 Specific Conductance (µS/cm, 120°C) = 534 Density (g/cm³) = 0.95924 Volume (L) = 1.14398 - Viscosity (mPa s) = 0.23602 + Viscosity (mPa s) = 0.23603 Activity of water = 0.958 Ionic strength (mol/kgw) = 7.785e-04 Mass of water (kg) = 9.942e-01 @@ -15469,10 +15469,10 @@ H2Sg(g) 2.15 1.400e+02 0.543 5.974e+00 5.895e+00 -7.872e-02 pH = 3.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 537 + Specific Conductance (µS/cm, 125°C) = 536 Density (g/cm³) = 0.95611 Volume (L) = 1.15020 - Viscosity (mPa s) = 0.22604 + Viscosity (mPa s) = 0.22605 Activity of water = 0.957 Ionic strength (mol/kgw) = 7.729e-04 Mass of water (kg) = 9.939e-01 @@ -15546,7 +15546,7 @@ H2Sg(g) 2.14 1.395e+02 0.562 5.895e+00 5.820e+00 -7.501e-02 Specific Conductance (µS/cm, 130°C) = 537 Density (g/cm³) = 0.95286 Volume (L) = 1.15646 - Viscosity (mPa s) = 0.21684 + Viscosity (mPa s) = 0.21685 Activity of water = 0.956 Ionic strength (mol/kgw) = 7.650e-04 Mass of water (kg) = 9.936e-01 @@ -15620,7 +15620,7 @@ H2Sg(g) 2.14 1.389e+02 0.580 5.820e+00 5.750e+00 -6.997e-02 Specific Conductance (µS/cm, 135°C) = 535 Density (g/cm³) = 0.94948 Volume (L) = 1.16273 - Viscosity (mPa s) = 0.20833 + Viscosity (mPa s) = 0.20834 Activity of water = 0.955 Ionic strength (mol/kgw) = 7.549e-04 Mass of water (kg) = 9.932e-01 @@ -15694,7 +15694,7 @@ H2Sg(g) 2.14 1.383e+02 0.596 5.750e+00 5.687e+00 -6.396e-02 Specific Conductance (µS/cm, 140°C) = 532 Density (g/cm³) = 0.94595 Volume (L) = 1.16895 - Viscosity (mPa s) = 0.20045 + Viscosity (mPa s) = 0.20046 Activity of water = 0.954 Ionic strength (mol/kgw) = 7.427e-04 Mass of water (kg) = 9.928e-01 @@ -15768,7 +15768,7 @@ H2Sg(g) 2.14 1.377e+02 0.612 5.687e+00 5.629e+00 -5.763e-02 Specific Conductance (µS/cm, 145°C) = 526 Density (g/cm³) = 0.94228 Volume (L) = 1.17509 - Viscosity (mPa s) = 0.19313 + Viscosity (mPa s) = 0.19314 Activity of water = 0.953 Ionic strength (mol/kgw) = 7.285e-04 Mass of water (kg) = 9.924e-01 @@ -15842,7 +15842,7 @@ H2Sg(g) 2.14 1.368e+02 0.626 5.629e+00 5.577e+00 -5.162e-02 Specific Conductance (µS/cm, 150°C) = 519 Density (g/cm³) = 0.93845 Volume (L) = 1.18116 - Viscosity (mPa s) = 0.18632 + Viscosity (mPa s) = 0.18633 Activity of water = 0.953 Ionic strength (mol/kgw) = 7.127e-04 Mass of water (kg) = 9.918e-01 @@ -15916,7 +15916,7 @@ H2Sg(g) 2.13 1.359e+02 0.640 5.577e+00 5.531e+00 -4.620e-02 Specific Conductance (µS/cm, 155°C) = 510 Density (g/cm³) = 0.93447 Volume (L) = 1.18715 - Viscosity (mPa s) = 0.17997 + Viscosity (mPa s) = 0.17999 Activity of water = 0.952 Ionic strength (mol/kgw) = 6.954e-04 Mass of water (kg) = 9.911e-01 @@ -15987,10 +15987,10 @@ H2Sg(g) 2.13 1.349e+02 0.654 5.531e+00 5.490e+00 -4.135e-02 pH = 3.199 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 500 + Specific Conductance (µS/cm, 160°C) = 499 Density (g/cm³) = 0.93034 Volume (L) = 1.19311 - Viscosity (mPa s) = 0.17405 + Viscosity (mPa s) = 0.17406 Activity of water = 0.951 Ionic strength (mol/kgw) = 6.769e-04 Mass of water (kg) = 9.904e-01 @@ -16064,7 +16064,7 @@ H2Sg(g) 2.13 1.337e+02 0.666 5.490e+00 5.453e+00 -3.693e-02 Specific Conductance (µS/cm, 165°C) = 488 Density (g/cm³) = 0.92606 Volume (L) = 1.19903 - Viscosity (mPa s) = 0.16850 + Viscosity (mPa s) = 0.16851 Activity of water = 0.951 Ionic strength (mol/kgw) = 6.574e-04 Mass of water (kg) = 9.895e-01 @@ -16138,7 +16138,7 @@ H2Sg(g) 2.12 1.324e+02 0.679 5.453e+00 5.420e+00 -3.277e-02 Specific Conductance (µS/cm, 170°C) = 475 Density (g/cm³) = 0.92163 Volume (L) = 1.20493 - Viscosity (mPa s) = 0.16330 + Viscosity (mPa s) = 0.16331 Activity of water = 0.950 Ionic strength (mol/kgw) = 6.371e-04 Mass of water (kg) = 9.885e-01 @@ -16212,7 +16212,7 @@ H2Sg(g) 2.12 1.310e+02 0.690 5.420e+00 5.391e+00 -2.872e-02 Specific Conductance (µS/cm, 175°C) = 461 Density (g/cm³) = 0.91704 Volume (L) = 1.21082 - Viscosity (mPa s) = 0.15841 + Viscosity (mPa s) = 0.15843 Activity of water = 0.950 Ionic strength (mol/kgw) = 6.161e-04 Mass of water (kg) = 9.874e-01 @@ -16286,7 +16286,7 @@ H2Sg(g) 2.11 1.294e+02 0.702 5.391e+00 5.367e+00 -2.466e-02 Specific Conductance (µS/cm, 180°C) = 447 Density (g/cm³) = 0.91229 Volume (L) = 1.21668 - Viscosity (mPa s) = 0.15382 + Viscosity (mPa s) = 0.15383 Activity of water = 0.949 Ionic strength (mol/kgw) = 5.946e-04 Mass of water (kg) = 9.861e-01 @@ -16360,7 +16360,7 @@ H2Sg(g) 2.11 1.278e+02 0.713 5.367e+00 5.346e+00 -2.049e-02 Specific Conductance (µS/cm, 185°C) = 432 Density (g/cm³) = 0.90737 Volume (L) = 1.22251 - Viscosity (mPa s) = 0.14948 + Viscosity (mPa s) = 0.14949 Activity of water = 0.949 Ionic strength (mol/kgw) = 5.728e-04 Mass of water (kg) = 9.847e-01 @@ -16434,7 +16434,7 @@ H2Sg(g) 2.10 1.260e+02 0.723 5.346e+00 5.330e+00 -1.614e-02 Specific Conductance (µS/cm, 190°C) = 416 Density (g/cm³) = 0.90229 Volume (L) = 1.22830 - Viscosity (mPa s) = 0.14537 + Viscosity (mPa s) = 0.14538 Activity of water = 0.948 Ionic strength (mol/kgw) = 5.507e-04 Mass of water (kg) = 9.832e-01 @@ -16508,7 +16508,7 @@ H2Sg(g) 2.09 1.240e+02 0.734 5.330e+00 5.318e+00 -1.154e-02 Specific Conductance (µS/cm, 195°C) = 400 Density (g/cm³) = 0.89702 Volume (L) = 1.23402 - Viscosity (mPa s) = 0.14142 + Viscosity (mPa s) = 0.14143 Activity of water = 0.948 Ionic strength (mol/kgw) = 5.284e-04 Mass of water (kg) = 9.815e-01 @@ -16579,10 +16579,10 @@ H2Sg(g) 2.09 1.220e+02 0.744 5.318e+00 5.312e+00 -6.628e-03 pH = 3.326 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 370 + Specific Conductance (µS/cm, 200°C) = 369 Density (g/cm³) = 0.89157 Volume (L) = 1.23967 - Viscosity (mPa s) = 0.14040 + Viscosity (mPa s) = 0.14041 Activity of water = 0.947 Ionic strength (mol/kgw) = 5.061e-04 Mass of water (kg) = 9.796e-01 @@ -16656,7 +16656,7 @@ H2Sg(g) 2.08 1.197e+02 0.754 5.312e+00 5.310e+00 -1.352e-03 Specific Conductance (µS/cm, 205°C) = 365 Density (g/cm³) = 0.88592 Volume (L) = 1.24520 - Viscosity (mPa s) = 0.13461 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13463 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 4.839e-04 Mass of water (kg) = 9.774e-01 @@ -16730,7 +16730,7 @@ H2Sg(g) 2.07 1.174e+02 0.764 5.310e+00 5.315e+00 4.338e-03 Specific Conductance (µS/cm, 210°C) = 349 Density (g/cm³) = 0.88007 Volume (L) = 1.25058 - Viscosity (mPa s) = 0.13124 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13126 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 4.618e-04 Mass of water (kg) = 9.750e-01 @@ -16804,7 +16804,7 @@ H2Sg(g) 2.06 1.149e+02 0.774 5.315e+00 5.325e+00 1.049e-02 Specific Conductance (µS/cm, 215°C) = 332 Density (g/cm³) = 0.87400 Volume (L) = 1.25578 - Viscosity (mPa s) = 0.12808 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12809 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 4.400e-04 Mass of water (kg) = 9.723e-01 @@ -16878,7 +16878,7 @@ H2Sg(g) 2.05 1.122e+02 0.783 5.325e+00 5.342e+00 1.716e-02 Specific Conductance (µS/cm, 220°C) = 316 Density (g/cm³) = 0.86770 Volume (L) = 1.26072 - Viscosity (mPa s) = 0.12507 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12508 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 4.184e-04 Mass of water (kg) = 9.693e-01 @@ -16952,7 +16952,7 @@ H2Sg(g) 2.04 1.094e+02 0.793 5.342e+00 5.367e+00 2.439e-02 Specific Conductance (µS/cm, 225°C) = 299 Density (g/cm³) = 0.86115 Volume (L) = 1.26536 - Viscosity (mPa s) = 0.12219 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12221 (solute contributions limited to 200 °C) Activity of water = 0.946 Ionic strength (mol/kgw) = 3.972e-04 Mass of water (kg) = 9.658e-01 @@ -17026,7 +17026,7 @@ H2Sg(g) 2.03 1.064e+02 0.802 5.367e+00 5.399e+00 3.225e-02 Specific Conductance (µS/cm, 230°C) = 283 Density (g/cm³) = 0.85434 Volume (L) = 1.26959 - Viscosity (mPa s) = 0.11944 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11946 (solute contributions limited to 200 °C) Activity of water = 0.946 Ionic strength (mol/kgw) = 3.764e-04 Mass of water (kg) = 9.619e-01 @@ -17100,7 +17100,7 @@ H2Sg(g) 2.01 1.032e+02 0.812 5.399e+00 5.440e+00 4.080e-02 Specific Conductance (µS/cm, 235°C) = 267 Density (g/cm³) = 0.84726 Volume (L) = 1.27333 - Viscosity (mPa s) = 0.11681 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11682 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 3.561e-04 Mass of water (kg) = 9.575e-01 @@ -17174,7 +17174,7 @@ H2Sg(g) 2.00 9.994e+01 0.822 5.440e+00 5.490e+00 5.010e-02 Specific Conductance (µS/cm, 240°C) = 251 Density (g/cm³) = 0.83989 Volume (L) = 1.27642 - Viscosity (mPa s) = 0.11427 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11428 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 3.362e-04 Mass of water (kg) = 9.524e-01 @@ -17248,7 +17248,7 @@ H2Sg(g) 1.98 9.647e+01 0.832 5.490e+00 5.550e+00 6.025e-02 Specific Conductance (µS/cm, 245°C) = 236 Density (g/cm³) = 0.83221 Volume (L) = 1.27872 - Viscosity (mPa s) = 0.11182 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11184 (solute contributions limited to 200 °C) Activity of water = 0.947 Ionic strength (mol/kgw) = 3.169e-04 Mass of water (kg) = 9.466e-01 @@ -17322,7 +17322,7 @@ H2Sg(g) 1.97 9.284e+01 0.842 5.550e+00 5.622e+00 7.133e-02 Specific Conductance (µS/cm, 250°C) = 221 Density (g/cm³) = 0.82419 Volume (L) = 1.27999 - Viscosity (mPa s) = 0.10946 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10947 (solute contributions limited to 200 °C) Activity of water = 0.948 Ionic strength (mol/kgw) = 2.982e-04 Mass of water (kg) = 9.398e-01 @@ -17736,7 +17736,7 @@ H2Sg(g) 2.29 1.948e+02 0.166 6.902e+00 6.879e+00 -2.336e-02 Specific Conductance (µS/cm, 45°C) = 274 Density (g/cm³) = 1.00097 Volume (L) = 1.06959 - Viscosity (mPa s) = 0.59934 + Viscosity (mPa s) = 0.59935 Activity of water = 0.967 Ionic strength (mol/kgw) = 5.968e-04 Mass of water (kg) = 9.983e-01 @@ -18106,7 +18106,7 @@ H2Sg(g) 2.29 1.929e+02 0.247 6.702e+00 6.639e+00 -6.254e-02 Specific Conductance (µS/cm, 70°C) = 399 Density (g/cm³) = 0.98936 Volume (L) = 1.08929 - Viscosity (mPa s) = 0.40877 + Viscosity (mPa s) = 0.40878 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.184e-04 Mass of water (kg) = 9.972e-01 @@ -18180,7 +18180,7 @@ H2Sg(g) 2.28 1.925e+02 0.264 6.639e+00 6.570e+00 -6.900e-02 Specific Conductance (µS/cm, 75°C) = 422 Density (g/cm³) = 0.98698 Volume (L) = 1.09403 - Viscosity (mPa s) = 0.38274 + Viscosity (mPa s) = 0.38275 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.373e-04 Mass of water (kg) = 9.970e-01 @@ -18254,7 +18254,7 @@ H2Sg(g) 2.28 1.920e+02 0.282 6.570e+00 6.495e+00 -7.506e-02 Specific Conductance (µS/cm, 80°C) = 443 Density (g/cm³) = 0.98458 Volume (L) = 1.09902 - Viscosity (mPa s) = 0.35944 + Viscosity (mPa s) = 0.35945 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.541e-04 Mass of water (kg) = 9.967e-01 @@ -18328,7 +18328,7 @@ H2Sg(g) 2.28 1.915e+02 0.301 6.495e+00 6.414e+00 -8.075e-02 Specific Conductance (µS/cm, 85°C) = 463 Density (g/cm³) = 0.98214 Volume (L) = 1.10426 - Viscosity (mPa s) = 0.33850 + Viscosity (mPa s) = 0.33851 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.687e-04 Mass of water (kg) = 9.964e-01 @@ -18402,7 +18402,7 @@ H2Sg(g) 2.28 1.909e+02 0.319 6.414e+00 6.328e+00 -8.604e-02 Specific Conductance (µS/cm, 90°C) = 481 Density (g/cm³) = 0.97967 Volume (L) = 1.10973 - Viscosity (mPa s) = 0.31962 + Viscosity (mPa s) = 0.31963 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.811e-04 Mass of water (kg) = 9.961e-01 @@ -18476,7 +18476,7 @@ H2Sg(g) 2.28 1.903e+02 0.338 6.328e+00 6.237e+00 -9.091e-02 Specific Conductance (µS/cm, 95°C) = 497 Density (g/cm³) = 0.97717 Volume (L) = 1.11543 - Viscosity (mPa s) = 0.30253 + Viscosity (mPa s) = 0.30254 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.911e-04 Mass of water (kg) = 9.958e-01 @@ -18624,7 +18624,7 @@ H2Sg(g) 2.28 1.890e+02 0.377 6.142e+00 6.043e+00 -9.931e-02 Specific Conductance (µS/cm, 105°C) = 523 Density (g/cm³) = 0.97205 Volume (L) = 1.12746 - Viscosity (mPa s) = 0.27289 + Viscosity (mPa s) = 0.27290 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.042e-04 Mass of water (kg) = 9.952e-01 @@ -18698,7 +18698,7 @@ H2Sg(g) 2.27 1.883e+02 0.396 6.043e+00 5.940e+00 -1.028e-01 Specific Conductance (µS/cm, 110°C) = 533 Density (g/cm³) = 0.96942 Volume (L) = 1.13377 - Viscosity (mPa s) = 0.25999 + Viscosity (mPa s) = 0.26000 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.071e-04 Mass of water (kg) = 9.948e-01 @@ -18772,7 +18772,7 @@ H2Sg(g) 2.27 1.875e+02 0.415 5.940e+00 5.834e+00 -1.057e-01 Specific Conductance (µS/cm, 115°C) = 541 Density (g/cm³) = 0.96675 Volume (L) = 1.14026 - Viscosity (mPa s) = 0.24817 + Viscosity (mPa s) = 0.24818 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.078e-04 Mass of water (kg) = 9.945e-01 @@ -18846,7 +18846,7 @@ H2Sg(g) 2.27 1.867e+02 0.434 5.834e+00 5.726e+00 -1.079e-01 Specific Conductance (µS/cm, 120°C) = 547 Density (g/cm³) = 0.96403 Volume (L) = 1.14692 - Viscosity (mPa s) = 0.23732 + Viscosity (mPa s) = 0.23733 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.063e-04 Mass of water (kg) = 9.941e-01 @@ -18920,7 +18920,7 @@ H2Sg(g) 2.27 1.859e+02 0.453 5.726e+00 5.617e+00 -1.096e-01 Specific Conductance (µS/cm, 125°C) = 550 Density (g/cm³) = 0.96126 Volume (L) = 1.15374 - Viscosity (mPa s) = 0.22733 + Viscosity (mPa s) = 0.22734 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.025e-04 Mass of water (kg) = 9.937e-01 @@ -18994,7 +18994,7 @@ H2Sg(g) 2.27 1.850e+02 0.471 5.617e+00 5.506e+00 -1.106e-01 Specific Conductance (µS/cm, 130°C) = 551 Density (g/cm³) = 0.95843 Volume (L) = 1.16069 - Viscosity (mPa s) = 0.21812 + Viscosity (mPa s) = 0.21813 Activity of water = 0.952 Ionic strength (mol/kgw) = 7.965e-04 Mass of water (kg) = 9.934e-01 @@ -19068,7 +19068,7 @@ H2Sg(g) 2.27 1.841e+02 0.489 5.506e+00 5.395e+00 -1.108e-01 Specific Conductance (µS/cm, 135°C) = 551 Density (g/cm³) = 0.95552 Volume (L) = 1.16777 - Viscosity (mPa s) = 0.20960 + Viscosity (mPa s) = 0.20961 Activity of water = 0.951 Ionic strength (mol/kgw) = 7.886e-04 Mass of water (kg) = 9.930e-01 @@ -19142,7 +19142,7 @@ H2Sg(g) 2.26 1.831e+02 0.507 5.395e+00 5.285e+00 -1.103e-01 Specific Conductance (µS/cm, 140°C) = 548 Density (g/cm³) = 0.95255 Volume (L) = 1.17494 - Viscosity (mPa s) = 0.20171 + Viscosity (mPa s) = 0.20172 Activity of water = 0.950 Ionic strength (mol/kgw) = 7.787e-04 Mass of water (kg) = 9.926e-01 @@ -19216,7 +19216,7 @@ H2Sg(g) 2.26 1.821e+02 0.524 5.285e+00 5.176e+00 -1.091e-01 Specific Conductance (µS/cm, 145°C) = 543 Density (g/cm³) = 0.94950 Volume (L) = 1.18221 - Viscosity (mPa s) = 0.19438 + Viscosity (mPa s) = 0.19439 Activity of water = 0.948 Ionic strength (mol/kgw) = 7.670e-04 Mass of water (kg) = 9.922e-01 @@ -19290,7 +19290,7 @@ H2Sg(g) 2.26 1.810e+02 0.541 5.176e+00 5.069e+00 -1.072e-01 Specific Conductance (µS/cm, 150°C) = 537 Density (g/cm³) = 0.94636 Volume (L) = 1.18954 - Viscosity (mPa s) = 0.18756 + Viscosity (mPa s) = 0.18758 Activity of water = 0.947 Ionic strength (mol/kgw) = 7.536e-04 Mass of water (kg) = 9.917e-01 @@ -19364,7 +19364,7 @@ H2Sg(g) 2.25 1.799e+02 0.557 5.069e+00 4.964e+00 -1.047e-01 Specific Conductance (µS/cm, 155°C) = 529 Density (g/cm³) = 0.94312 Volume (L) = 1.19691 - Viscosity (mPa s) = 0.18121 + Viscosity (mPa s) = 0.18122 Activity of water = 0.946 Ionic strength (mol/kgw) = 7.387e-04 Mass of water (kg) = 9.913e-01 @@ -19438,7 +19438,7 @@ H2Sg(g) 2.25 1.786e+02 0.573 4.964e+00 4.862e+00 -1.016e-01 Specific Conductance (µS/cm, 160°C) = 520 Density (g/cm³) = 0.93978 Volume (L) = 1.20433 - Viscosity (mPa s) = 0.17527 + Viscosity (mPa s) = 0.17529 Activity of water = 0.944 Ionic strength (mol/kgw) = 7.223e-04 Mass of water (kg) = 9.908e-01 @@ -19512,7 +19512,7 @@ H2Sg(g) 2.25 1.773e+02 0.588 4.862e+00 4.764e+00 -9.795e-02 Specific Conductance (µS/cm, 165°C) = 509 Density (g/cm³) = 0.93633 Volume (L) = 1.21175 - Viscosity (mPa s) = 0.16972 + Viscosity (mPa s) = 0.16973 Activity of water = 0.943 Ionic strength (mol/kgw) = 7.048e-04 Mass of water (kg) = 9.903e-01 @@ -19586,7 +19586,7 @@ H2Sg(g) 2.25 1.758e+02 0.603 4.764e+00 4.670e+00 -9.396e-02 Specific Conductance (µS/cm, 170°C) = 497 Density (g/cm³) = 0.93277 Volume (L) = 1.21919 - Viscosity (mPa s) = 0.16451 + Viscosity (mPa s) = 0.16453 Activity of water = 0.942 Ionic strength (mol/kgw) = 6.861e-04 Mass of water (kg) = 9.897e-01 @@ -19660,7 +19660,7 @@ H2Sg(g) 2.24 1.743e+02 0.617 4.670e+00 4.581e+00 -8.966e-02 Specific Conductance (µS/cm, 175°C) = 484 Density (g/cm³) = 0.92909 Volume (L) = 1.22662 - Viscosity (mPa s) = 0.15962 + Viscosity (mPa s) = 0.15964 Activity of water = 0.941 Ionic strength (mol/kgw) = 6.665e-04 Mass of water (kg) = 9.890e-01 @@ -19734,7 +19734,7 @@ H2Sg(g) 2.24 1.725e+02 0.630 4.581e+00 4.496e+00 -8.511e-02 Specific Conductance (µS/cm, 180°C) = 470 Density (g/cm³) = 0.92529 Volume (L) = 1.23405 - Viscosity (mPa s) = 0.15502 + Viscosity (mPa s) = 0.15504 Activity of water = 0.939 Ionic strength (mol/kgw) = 6.461e-04 Mass of water (kg) = 9.883e-01 @@ -19808,7 +19808,7 @@ H2Sg(g) 2.23 1.707e+02 0.644 4.496e+00 4.415e+00 -8.034e-02 Specific Conductance (µS/cm, 185°C) = 456 Density (g/cm³) = 0.92135 Volume (L) = 1.24145 - Viscosity (mPa s) = 0.15068 + Viscosity (mPa s) = 0.15070 Activity of water = 0.938 Ionic strength (mol/kgw) = 6.252e-04 Mass of water (kg) = 9.876e-01 @@ -19879,10 +19879,10 @@ H2Sg(g) 2.23 1.687e+02 0.656 4.415e+00 4.340e+00 -7.536e-02 pH = 3.253 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 190°C) = 441 + Specific Conductance (µS/cm, 190°C) = 440 Density (g/cm³) = 0.91728 Volume (L) = 1.24884 - Viscosity (mPa s) = 0.14658 + Viscosity (mPa s) = 0.14659 Activity of water = 0.937 Ionic strength (mol/kgw) = 6.037e-04 Mass of water (kg) = 9.867e-01 @@ -19956,7 +19956,7 @@ H2Sg(g) 2.22 1.666e+02 0.669 4.340e+00 4.270e+00 -7.016e-02 Specific Conductance (µS/cm, 195°C) = 425 Density (g/cm³) = 0.91307 Volume (L) = 1.25619 - Viscosity (mPa s) = 0.14267 + Viscosity (mPa s) = 0.14268 Activity of water = 0.936 Ionic strength (mol/kgw) = 5.819e-04 Mass of water (kg) = 9.858e-01 @@ -20030,7 +20030,7 @@ H2Sg(g) 2.22 1.643e+02 0.681 4.270e+00 4.205e+00 -6.473e-02 Specific Conductance (µS/cm, 200°C) = 411 Density (g/cm³) = 0.90871 Volume (L) = 1.26351 - Viscosity (mPa s) = 0.13873 + Viscosity (mPa s) = 0.13874 Activity of water = 0.935 Ionic strength (mol/kgw) = 5.599e-04 Mass of water (kg) = 9.847e-01 @@ -20104,7 +20104,7 @@ H2Sg(g) 2.21 1.619e+02 0.693 4.205e+00 4.146e+00 -5.902e-02 Specific Conductance (µS/cm, 205°C) = 390 Density (g/cm³) = 0.90420 Volume (L) = 1.27078 - Viscosity (mPa s) = 0.13598 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13600 (solute contributions limited to 200 °C) Activity of water = 0.934 Ionic strength (mol/kgw) = 5.378e-04 Mass of water (kg) = 9.836e-01 @@ -20178,7 +20178,7 @@ H2Sg(g) 2.20 1.593e+02 0.705 4.146e+00 4.093e+00 -5.301e-02 Specific Conductance (µS/cm, 210°C) = 375 Density (g/cm³) = 0.89953 Volume (L) = 1.27799 - Viscosity (mPa s) = 0.13249 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13251 (solute contributions limited to 200 °C) Activity of water = 0.933 Ionic strength (mol/kgw) = 5.156e-04 Mass of water (kg) = 9.824e-01 @@ -20252,7 +20252,7 @@ H2Sg(g) 2.19 1.565e+02 0.717 4.093e+00 4.046e+00 -4.665e-02 Specific Conductance (µS/cm, 215°C) = 359 Density (g/cm³) = 0.89469 Volume (L) = 1.28512 - Viscosity (mPa s) = 0.12931 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12933 (solute contributions limited to 200 °C) Activity of water = 0.932 Ionic strength (mol/kgw) = 4.936e-04 Mass of water (kg) = 9.810e-01 @@ -20326,7 +20326,7 @@ H2Sg(g) 2.19 1.536e+02 0.728 4.046e+00 4.006e+00 -3.990e-02 Specific Conductance (µS/cm, 220°C) = 342 Density (g/cm³) = 0.88968 Volume (L) = 1.29215 - Viscosity (mPa s) = 0.12631 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12632 (solute contributions limited to 200 °C) Activity of water = 0.931 Ionic strength (mol/kgw) = 4.718e-04 Mass of water (kg) = 9.794e-01 @@ -20400,7 +20400,7 @@ H2Sg(g) 2.18 1.505e+02 0.739 4.006e+00 3.974e+00 -3.272e-02 Specific Conductance (µS/cm, 225°C) = 326 Density (g/cm³) = 0.88448 Volume (L) = 1.29906 - Viscosity (mPa s) = 0.12344 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12346 (solute contributions limited to 200 °C) Activity of water = 0.931 Ionic strength (mol/kgw) = 4.502e-04 Mass of water (kg) = 9.777e-01 @@ -20474,7 +20474,7 @@ H2Sg(g) 2.17 1.473e+02 0.751 3.974e+00 3.949e+00 -2.506e-02 Specific Conductance (µS/cm, 230°C) = 310 Density (g/cm³) = 0.87910 Volume (L) = 1.30580 - Viscosity (mPa s) = 0.12071 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12072 (solute contributions limited to 200 °C) Activity of water = 0.930 Ionic strength (mol/kgw) = 4.290e-04 Mass of water (kg) = 9.758e-01 @@ -20548,7 +20548,7 @@ H2Sg(g) 2.16 1.438e+02 0.762 3.949e+00 3.932e+00 -1.686e-02 Specific Conductance (µS/cm, 235°C) = 294 Density (g/cm³) = 0.87351 Volume (L) = 1.31233 - Viscosity (mPa s) = 0.11808 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11810 (solute contributions limited to 200 °C) Activity of water = 0.929 Ionic strength (mol/kgw) = 4.082e-04 Mass of water (kg) = 9.736e-01 @@ -20622,7 +20622,7 @@ H2Sg(g) 2.15 1.402e+02 0.773 3.932e+00 3.924e+00 -8.060e-03 Specific Conductance (µS/cm, 240°C) = 279 Density (g/cm³) = 0.86772 Volume (L) = 1.31860 - Viscosity (mPa s) = 0.11556 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11558 (solute contributions limited to 200 °C) Activity of water = 0.929 Ionic strength (mol/kgw) = 3.878e-04 Mass of water (kg) = 9.712e-01 @@ -20696,7 +20696,7 @@ H2Sg(g) 2.14 1.365e+02 0.785 3.924e+00 3.925e+00 1.407e-03 Specific Conductance (µS/cm, 245°C) = 264 Density (g/cm³) = 0.86172 Volume (L) = 1.32453 - Viscosity (mPa s) = 0.11314 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11315 (solute contributions limited to 200 °C) Activity of water = 0.929 Ionic strength (mol/kgw) = 3.680e-04 Mass of water (kg) = 9.684e-01 @@ -20770,7 +20770,7 @@ H2Sg(g) 2.12 1.325e+02 0.796 3.925e+00 3.937e+00 1.162e-02 Specific Conductance (µS/cm, 250°C) = 249 Density (g/cm³) = 0.85549 Volume (L) = 1.33003 - Viscosity (mPa s) = 0.11080 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11081 (solute contributions limited to 200 °C) Activity of water = 0.928 Ionic strength (mol/kgw) = 3.487e-04 Mass of water (kg) = 9.653e-01 @@ -21332,7 +21332,7 @@ H2Sg(g) 2.38 2.426e+02 0.170 6.790e+00 6.744e+00 -4.527e-02 Specific Conductance (µS/cm, 55°C) = 332 Density (g/cm³) = 0.99907 Volume (L) = 1.07583 - Viscosity (mPa s) = 0.50935 + Viscosity (mPa s) = 0.50936 Activity of water = 0.966 Ionic strength (mol/kgw) = 6.629e-04 Mass of water (kg) = 9.980e-01 @@ -21406,7 +21406,7 @@ H2Sg(g) 2.38 2.422e+02 0.184 6.744e+00 6.690e+00 -5.385e-02 Specific Conductance (µS/cm, 60°C) = 357 Density (g/cm³) = 0.99679 Volume (L) = 1.07992 - Viscosity (mPa s) = 0.47212 + Viscosity (mPa s) = 0.47213 Activity of water = 0.965 Ionic strength (mol/kgw) = 6.882e-04 Mass of water (kg) = 9.977e-01 @@ -21554,7 +21554,7 @@ H2Sg(g) 2.38 2.411e+02 0.213 6.629e+00 6.559e+00 -6.970e-02 Specific Conductance (µS/cm, 70°C) = 407 Density (g/cm³) = 0.99220 Volume (L) = 1.08895 - Viscosity (mPa s) = 0.41007 + Viscosity (mPa s) = 0.41008 Activity of water = 0.964 Ionic strength (mol/kgw) = 7.335e-04 Mass of water (kg) = 9.973e-01 @@ -21628,7 +21628,7 @@ H2Sg(g) 2.38 2.405e+02 0.229 6.559e+00 6.482e+00 -7.709e-02 Specific Conductance (µS/cm, 75°C) = 430 Density (g/cm³) = 0.98989 Volume (L) = 1.09388 - Viscosity (mPa s) = 0.38406 + Viscosity (mPa s) = 0.38407 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.532e-04 Mass of water (kg) = 9.970e-01 @@ -21702,7 +21702,7 @@ H2Sg(g) 2.38 2.399e+02 0.244 6.482e+00 6.398e+00 -8.417e-02 Specific Conductance (µS/cm, 80°C) = 451 Density (g/cm³) = 0.98756 Volume (L) = 1.09909 - Viscosity (mPa s) = 0.36077 + Viscosity (mPa s) = 0.36078 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.709e-04 Mass of water (kg) = 9.967e-01 @@ -21776,7 +21776,7 @@ H2Sg(g) 2.38 2.392e+02 0.261 6.398e+00 6.307e+00 -9.093e-02 Specific Conductance (µS/cm, 85°C) = 471 Density (g/cm³) = 0.98522 Volume (L) = 1.10456 - Viscosity (mPa s) = 0.33984 + Viscosity (mPa s) = 0.33985 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.864e-04 Mass of water (kg) = 9.964e-01 @@ -21924,7 +21924,7 @@ H2Sg(g) 2.38 2.377e+02 0.294 6.209e+00 6.106e+00 -1.036e-01 Specific Conductance (µS/cm, 95°C) = 506 Density (g/cm³) = 0.98049 Volume (L) = 1.11627 - Viscosity (mPa s) = 0.30386 + Viscosity (mPa s) = 0.30387 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.106e-04 Mass of water (kg) = 9.958e-01 @@ -21998,7 +21998,7 @@ H2Sg(g) 2.37 2.369e+02 0.311 6.106e+00 5.996e+00 -1.094e-01 Specific Conductance (µS/cm, 100°C) = 521 Density (g/cm³) = 0.97809 Volume (L) = 1.12249 - Viscosity (mPa s) = 0.28834 + Viscosity (mPa s) = 0.28835 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.192e-04 Mass of water (kg) = 9.955e-01 @@ -22072,7 +22072,7 @@ H2Sg(g) 2.37 2.360e+02 0.328 5.996e+00 5.881e+00 -1.149e-01 Specific Conductance (µS/cm, 105°C) = 533 Density (g/cm³) = 0.97568 Volume (L) = 1.12895 - Viscosity (mPa s) = 0.27421 + Viscosity (mPa s) = 0.27422 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.255e-04 Mass of water (kg) = 9.952e-01 @@ -22143,10 +22143,10 @@ H2Sg(g) 2.37 2.351e+02 0.345 5.881e+00 5.761e+00 -1.200e-01 pH = 3.109 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 544 + Specific Conductance (µS/cm, 110°C) = 543 Density (g/cm³) = 0.97324 Volume (L) = 1.13563 - Viscosity (mPa s) = 0.26130 + Viscosity (mPa s) = 0.26131 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.294e-04 Mass of water (kg) = 9.949e-01 @@ -22220,7 +22220,7 @@ H2Sg(g) 2.37 2.341e+02 0.362 5.761e+00 5.637e+00 -1.247e-01 Specific Conductance (µS/cm, 115°C) = 552 Density (g/cm³) = 0.97079 Volume (L) = 1.14253 - Viscosity (mPa s) = 0.24947 + Viscosity (mPa s) = 0.24948 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.311e-04 Mass of water (kg) = 9.945e-01 @@ -22291,10 +22291,10 @@ H2Sg(g) 2.37 2.331e+02 0.380 5.637e+00 5.508e+00 -1.290e-01 pH = 3.110 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 558 + Specific Conductance (µS/cm, 120°C) = 557 Density (g/cm³) = 0.96832 Volume (L) = 1.14963 - Viscosity (mPa s) = 0.23861 + Viscosity (mPa s) = 0.23862 Activity of water = 0.953 Ionic strength (mol/kgw) = 8.305e-04 Mass of water (kg) = 9.942e-01 @@ -22368,7 +22368,7 @@ H2Sg(g) 2.37 2.319e+02 0.397 5.508e+00 5.375e+00 -1.328e-01 Specific Conductance (µS/cm, 125°C) = 561 Density (g/cm³) = 0.96582 Volume (L) = 1.15692 - Viscosity (mPa s) = 0.22861 + Viscosity (mPa s) = 0.22862 Activity of water = 0.951 Ionic strength (mol/kgw) = 8.278e-04 Mass of water (kg) = 9.938e-01 @@ -22442,7 +22442,7 @@ H2Sg(g) 2.36 2.308e+02 0.414 5.375e+00 5.239e+00 -1.362e-01 Specific Conductance (µS/cm, 130°C) = 563 Density (g/cm³) = 0.96330 Volume (L) = 1.16440 - Viscosity (mPa s) = 0.21939 + Viscosity (mPa s) = 0.21940 Activity of water = 0.950 Ionic strength (mol/kgw) = 8.229e-04 Mass of water (kg) = 9.935e-01 @@ -22516,7 +22516,7 @@ H2Sg(g) 2.36 2.295e+02 0.431 5.239e+00 5.100e+00 -1.390e-01 Specific Conductance (µS/cm, 135°C) = 562 Density (g/cm³) = 0.96076 Volume (L) = 1.17204 - Viscosity (mPa s) = 0.21086 + Viscosity (mPa s) = 0.21087 Activity of water = 0.948 Ionic strength (mol/kgw) = 8.160e-04 Mass of water (kg) = 9.931e-01 @@ -22590,7 +22590,7 @@ H2Sg(g) 2.36 2.282e+02 0.448 5.100e+00 4.958e+00 -1.413e-01 Specific Conductance (µS/cm, 140°C) = 560 Density (g/cm³) = 0.95818 Volume (L) = 1.17984 - Viscosity (mPa s) = 0.20296 + Viscosity (mPa s) = 0.20297 Activity of water = 0.946 Ionic strength (mol/kgw) = 8.072e-04 Mass of water (kg) = 9.928e-01 @@ -22664,7 +22664,7 @@ H2Sg(g) 2.36 2.268e+02 0.465 4.958e+00 4.815e+00 -1.430e-01 Specific Conductance (µS/cm, 145°C) = 556 Density (g/cm³) = 0.95558 Volume (L) = 1.18778 - Viscosity (mPa s) = 0.19562 + Viscosity (mPa s) = 0.19563 Activity of water = 0.945 Ionic strength (mol/kgw) = 7.966e-04 Mass of water (kg) = 9.924e-01 @@ -22738,7 +22738,7 @@ H2Sg(g) 2.35 2.254e+02 0.482 4.815e+00 4.671e+00 -1.442e-01 Specific Conductance (µS/cm, 150°C) = 550 Density (g/cm³) = 0.95294 Volume (L) = 1.19584 - Viscosity (mPa s) = 0.18879 + Viscosity (mPa s) = 0.18880 Activity of water = 0.943 Ionic strength (mol/kgw) = 7.844e-04 Mass of water (kg) = 9.920e-01 @@ -22812,7 +22812,7 @@ H2Sg(g) 2.35 2.238e+02 0.498 4.671e+00 4.526e+00 -1.448e-01 Specific Conductance (µS/cm, 155°C) = 542 Density (g/cm³) = 0.95026 Volume (L) = 1.20402 - Viscosity (mPa s) = 0.18243 + Viscosity (mPa s) = 0.18244 Activity of water = 0.941 Ionic strength (mol/kgw) = 7.706e-04 Mass of water (kg) = 9.917e-01 @@ -22886,7 +22886,7 @@ H2Sg(g) 2.35 2.222e+02 0.514 4.526e+00 4.381e+00 -1.449e-01 Specific Conductance (µS/cm, 160°C) = 533 Density (g/cm³) = 0.94754 Volume (L) = 1.21229 - Viscosity (mPa s) = 0.17648 + Viscosity (mPa s) = 0.17650 Activity of water = 0.939 Ionic strength (mol/kgw) = 7.553e-04 Mass of water (kg) = 9.913e-01 @@ -22960,7 +22960,7 @@ H2Sg(g) 2.34 2.205e+02 0.530 4.381e+00 4.237e+00 -1.443e-01 Specific Conductance (µS/cm, 165°C) = 523 Density (g/cm³) = 0.94478 Volume (L) = 1.22064 - Viscosity (mPa s) = 0.17092 + Viscosity (mPa s) = 0.17094 Activity of water = 0.938 Ionic strength (mol/kgw) = 7.388e-04 Mass of water (kg) = 9.909e-01 @@ -23034,7 +23034,7 @@ H2Sg(g) 2.34 2.186e+02 0.545 4.237e+00 4.094e+00 -1.433e-01 Specific Conductance (µS/cm, 170°C) = 511 Density (g/cm³) = 0.94196 Volume (L) = 1.22907 - Viscosity (mPa s) = 0.16571 + Viscosity (mPa s) = 0.16572 Activity of water = 0.936 Ionic strength (mol/kgw) = 7.212e-04 Mass of water (kg) = 9.905e-01 @@ -23105,10 +23105,10 @@ H2Sg(g) 2.34 2.167e+02 0.560 4.094e+00 3.952e+00 -1.417e-01 pH = 3.189 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 499 + Specific Conductance (µS/cm, 175°C) = 498 Density (g/cm³) = 0.93910 Volume (L) = 1.23755 - Viscosity (mPa s) = 0.16082 + Viscosity (mPa s) = 0.16083 Activity of water = 0.934 Ionic strength (mol/kgw) = 7.025e-04 Mass of water (kg) = 9.901e-01 @@ -23182,7 +23182,7 @@ H2Sg(g) 2.33 2.147e+02 0.575 3.952e+00 3.813e+00 -1.396e-01 Specific Conductance (µS/cm, 180°C) = 485 Density (g/cm³) = 0.93618 Volume (L) = 1.24607 - Viscosity (mPa s) = 0.15621 + Viscosity (mPa s) = 0.15623 Activity of water = 0.932 Ionic strength (mol/kgw) = 6.830e-04 Mass of water (kg) = 9.897e-01 @@ -23256,7 +23256,7 @@ H2Sg(g) 2.33 2.125e+02 0.590 3.813e+00 3.675e+00 -1.371e-01 Specific Conductance (µS/cm, 185°C) = 471 Density (g/cm³) = 0.93319 Volume (L) = 1.25461 - Viscosity (mPa s) = 0.15187 + Viscosity (mPa s) = 0.15188 Activity of water = 0.931 Ionic strength (mol/kgw) = 6.628e-04 Mass of water (kg) = 9.893e-01 @@ -23330,7 +23330,7 @@ H2Sg(g) 2.32 2.102e+02 0.604 3.675e+00 3.541e+00 -1.341e-01 Specific Conductance (µS/cm, 190°C) = 456 Density (g/cm³) = 0.93015 Volume (L) = 1.26318 - Viscosity (mPa s) = 0.14777 + Viscosity (mPa s) = 0.14778 Activity of water = 0.929 Ionic strength (mol/kgw) = 6.420e-04 Mass of water (kg) = 9.889e-01 @@ -23404,7 +23404,7 @@ H2Sg(g) 2.32 2.077e+02 0.618 3.541e+00 3.411e+00 -1.308e-01 Specific Conductance (µS/cm, 195°C) = 441 Density (g/cm³) = 0.92704 Volume (L) = 1.27174 - Viscosity (mPa s) = 0.14387 + Viscosity (mPa s) = 0.14389 Activity of water = 0.927 Ionic strength (mol/kgw) = 6.207e-04 Mass of water (kg) = 9.885e-01 @@ -23478,7 +23478,7 @@ H2Sg(g) 2.31 2.051e+02 0.631 3.411e+00 3.284e+00 -1.270e-01 Specific Conductance (µS/cm, 200°C) = 426 Density (g/cm³) = 0.92387 Volume (L) = 1.28030 - Viscosity (mPa s) = 0.14011 + Viscosity (mPa s) = 0.14013 Activity of water = 0.925 Ionic strength (mol/kgw) = 5.991e-04 Mass of water (kg) = 9.880e-01 @@ -23549,10 +23549,10 @@ H2Sg(g) 2.31 2.024e+02 0.645 3.284e+00 3.161e+00 -1.229e-01 pH = 3.277 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 205°C) = 393 + Specific Conductance (µS/cm, 205°C) = 392 Density (g/cm³) = 0.92063 Volume (L) = 1.28884 - Viscosity (mPa s) = 0.13962 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13964 (solute contributions limited to 200 °C) Activity of water = 0.924 Ionic strength (mol/kgw) = 5.773e-04 Mass of water (kg) = 9.875e-01 @@ -23626,7 +23626,7 @@ H2Sg(g) 2.30 1.995e+02 0.658 3.161e+00 3.042e+00 -1.185e-01 Specific Conductance (µS/cm, 210°C) = 391 Density (g/cm³) = 0.91732 Volume (L) = 1.29734 - Viscosity (mPa s) = 0.13375 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13376 (solute contributions limited to 200 °C) Activity of water = 0.922 Ionic strength (mol/kgw) = 5.554e-04 Mass of water (kg) = 9.870e-01 @@ -23700,7 +23700,7 @@ H2Sg(g) 2.29 1.964e+02 0.671 3.042e+00 2.928e+00 -1.138e-01 Specific Conductance (µS/cm, 215°C) = 376 Density (g/cm³) = 0.91395 Volume (L) = 1.30579 - Viscosity (mPa s) = 0.13053 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13055 (solute contributions limited to 200 °C) Activity of water = 0.921 Ionic strength (mol/kgw) = 5.335e-04 Mass of water (kg) = 9.865e-01 @@ -23774,7 +23774,7 @@ H2Sg(g) 2.29 1.932e+02 0.684 2.928e+00 2.820e+00 -1.087e-01 Specific Conductance (µS/cm, 220°C) = 360 Density (g/cm³) = 0.91051 Volume (L) = 1.31417 - Viscosity (mPa s) = 0.12752 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12754 (solute contributions limited to 200 °C) Activity of water = 0.919 Ionic strength (mol/kgw) = 5.117e-04 Mass of water (kg) = 9.859e-01 @@ -23848,7 +23848,7 @@ H2Sg(g) 2.28 1.898e+02 0.697 2.820e+00 2.716e+00 -1.033e-01 Specific Conductance (µS/cm, 225°C) = 344 Density (g/cm³) = 0.90702 Volume (L) = 1.32246 - Viscosity (mPa s) = 0.12466 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12468 (solute contributions limited to 200 °C) Activity of water = 0.918 Ionic strength (mol/kgw) = 4.901e-04 Mass of water (kg) = 9.853e-01 @@ -23922,7 +23922,7 @@ H2Sg(g) 2.27 1.863e+02 0.709 2.716e+00 2.619e+00 -9.769e-02 Specific Conductance (µS/cm, 230°C) = 329 Density (g/cm³) = 0.90347 Volume (L) = 1.33063 - Viscosity (mPa s) = 0.12193 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12195 (solute contributions limited to 200 °C) Activity of water = 0.916 Ionic strength (mol/kgw) = 4.688e-04 Mass of water (kg) = 9.847e-01 @@ -23996,7 +23996,7 @@ H2Sg(g) 2.26 1.826e+02 0.722 2.619e+00 2.527e+00 -9.174e-02 Specific Conductance (µS/cm, 235°C) = 313 Density (g/cm³) = 0.89987 Volume (L) = 1.33864 - Viscosity (mPa s) = 0.11932 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11934 (solute contributions limited to 200 °C) Activity of water = 0.915 Ionic strength (mol/kgw) = 4.479e-04 Mass of water (kg) = 9.840e-01 @@ -24070,7 +24070,7 @@ H2Sg(g) 2.25 1.787e+02 0.735 2.527e+00 2.441e+00 -8.551e-02 Specific Conductance (µS/cm, 240°C) = 298 Density (g/cm³) = 0.89625 Volume (L) = 1.34646 - Viscosity (mPa s) = 0.11682 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11684 (solute contributions limited to 200 °C) Activity of water = 0.914 Ionic strength (mol/kgw) = 4.273e-04 Mass of water (kg) = 9.832e-01 @@ -24144,7 +24144,7 @@ H2Sg(g) 2.24 1.746e+02 0.747 2.441e+00 2.362e+00 -7.901e-02 Specific Conductance (µS/cm, 245°C) = 284 Density (g/cm³) = 0.89262 Volume (L) = 1.35402 - Viscosity (mPa s) = 0.11441 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11443 (solute contributions limited to 200 °C) Activity of water = 0.912 Ionic strength (mol/kgw) = 4.072e-04 Mass of water (kg) = 9.824e-01 @@ -24218,7 +24218,7 @@ H2Sg(g) 2.23 1.704e+02 0.760 2.362e+00 2.290e+00 -7.224e-02 Specific Conductance (µS/cm, 250°C) = 270 Density (g/cm³) = 0.88901 Volume (L) = 1.36126 - Viscosity (mPa s) = 0.11209 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11211 (solute contributions limited to 200 °C) Activity of water = 0.911 Ionic strength (mol/kgw) = 3.877e-04 Mass of water (kg) = 9.815e-01 @@ -24854,7 +24854,7 @@ H2Sg(g) 2.46 2.906e+02 0.165 6.686e+00 6.627e+00 -5.884e-02 Specific Conductance (µS/cm, 60°C) = 364 Density (g/cm³) = 0.99938 Volume (L) = 1.07930 - Viscosity (mPa s) = 0.47336 + Viscosity (mPa s) = 0.47337 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.014e-04 Mass of water (kg) = 9.978e-01 @@ -25076,7 +25076,7 @@ H2Sg(g) 2.46 2.887e+02 0.206 6.483e+00 6.398e+00 -8.460e-02 Specific Conductance (µS/cm, 75°C) = 437 Density (g/cm³) = 0.99261 Volume (L) = 1.09379 - Viscosity (mPa s) = 0.38538 + Viscosity (mPa s) = 0.38539 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.687e-04 Mass of water (kg) = 9.970e-01 @@ -25150,7 +25150,7 @@ H2Sg(g) 2.46 2.879e+02 0.220 6.398e+00 6.306e+00 -9.260e-02 Specific Conductance (µS/cm, 80°C) = 459 Density (g/cm³) = 0.99034 Volume (L) = 1.09921 - Viscosity (mPa s) = 0.36210 + Viscosity (mPa s) = 0.36211 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.871e-04 Mass of water (kg) = 9.968e-01 @@ -25224,7 +25224,7 @@ H2Sg(g) 2.46 2.871e+02 0.234 6.306e+00 6.205e+00 -1.004e-01 Specific Conductance (µS/cm, 85°C) = 479 Density (g/cm³) = 0.98808 Volume (L) = 1.10491 - Viscosity (mPa s) = 0.34117 + Viscosity (mPa s) = 0.34118 Activity of water = 0.961 Ionic strength (mol/kgw) = 8.034e-04 Mass of water (kg) = 9.965e-01 @@ -25298,7 +25298,7 @@ H2Sg(g) 2.46 2.862e+02 0.249 6.205e+00 6.097e+00 -1.079e-01 Specific Conductance (µS/cm, 90°C) = 498 Density (g/cm³) = 0.98581 Volume (L) = 1.11090 - Viscosity (mPa s) = 0.32229 + Viscosity (mPa s) = 0.32230 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.174e-04 Mass of water (kg) = 9.962e-01 @@ -25372,7 +25372,7 @@ H2Sg(g) 2.46 2.853e+02 0.265 6.097e+00 5.982e+00 -1.152e-01 Specific Conductance (µS/cm, 95°C) = 515 Density (g/cm³) = 0.98353 Volume (L) = 1.11716 - Viscosity (mPa s) = 0.30519 + Viscosity (mPa s) = 0.30520 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.291e-04 Mass of water (kg) = 9.959e-01 @@ -25446,7 +25446,7 @@ H2Sg(g) 2.45 2.843e+02 0.280 5.982e+00 5.860e+00 -1.223e-01 Specific Conductance (µS/cm, 100°C) = 530 Density (g/cm³) = 0.98126 Volume (L) = 1.12368 - Viscosity (mPa s) = 0.28966 + Viscosity (mPa s) = 0.28967 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.385e-04 Mass of water (kg) = 9.956e-01 @@ -25520,7 +25520,7 @@ H2Sg(g) 2.45 2.832e+02 0.296 5.860e+00 5.731e+00 -1.291e-01 Specific Conductance (µS/cm, 105°C) = 542 Density (g/cm³) = 0.97899 Volume (L) = 1.13047 - Viscosity (mPa s) = 0.27552 + Viscosity (mPa s) = 0.27553 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.456e-04 Mass of water (kg) = 9.953e-01 @@ -25594,7 +25594,7 @@ H2Sg(g) 2.45 2.821e+02 0.311 5.731e+00 5.595e+00 -1.356e-01 Specific Conductance (µS/cm, 110°C) = 553 Density (g/cm³) = 0.97671 Volume (L) = 1.13751 - Viscosity (mPa s) = 0.26260 + Viscosity (mPa s) = 0.26261 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.503e-04 Mass of water (kg) = 9.950e-01 @@ -25668,7 +25668,7 @@ H2Sg(g) 2.45 2.809e+02 0.327 5.595e+00 5.453e+00 -1.419e-01 Specific Conductance (µS/cm, 115°C) = 561 Density (g/cm³) = 0.97444 Volume (L) = 1.14479 - Viscosity (mPa s) = 0.25076 + Viscosity (mPa s) = 0.25077 Activity of water = 0.952 Ionic strength (mol/kgw) = 8.528e-04 Mass of water (kg) = 9.947e-01 @@ -25742,7 +25742,7 @@ H2Sg(g) 2.45 2.796e+02 0.343 5.453e+00 5.306e+00 -1.478e-01 Specific Conductance (µS/cm, 120°C) = 567 Density (g/cm³) = 0.97218 Volume (L) = 1.15231 - Viscosity (mPa s) = 0.23989 + Viscosity (mPa s) = 0.23990 Activity of water = 0.951 Ionic strength (mol/kgw) = 8.530e-04 Mass of water (kg) = 9.943e-01 @@ -25816,7 +25816,7 @@ H2Sg(g) 2.44 2.782e+02 0.360 5.306e+00 5.152e+00 -1.534e-01 Specific Conductance (µS/cm, 125°C) = 571 Density (g/cm³) = 0.96992 Volume (L) = 1.16006 - Viscosity (mPa s) = 0.22988 + Viscosity (mPa s) = 0.22990 Activity of water = 0.949 Ionic strength (mol/kgw) = 8.510e-04 Mass of water (kg) = 9.940e-01 @@ -25887,10 +25887,10 @@ H2Sg(g) 2.44 2.767e+02 0.376 5.152e+00 4.993e+00 -1.587e-01 pH = 3.103 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 573 + Specific Conductance (µS/cm, 130°C) = 572 Density (g/cm³) = 0.96767 Volume (L) = 1.16802 - Viscosity (mPa s) = 0.22065 + Viscosity (mPa s) = 0.22066 Activity of water = 0.947 Ionic strength (mol/kgw) = 8.469e-04 Mass of water (kg) = 9.937e-01 @@ -25964,7 +25964,7 @@ H2Sg(g) 2.44 2.752e+02 0.392 4.993e+00 4.830e+00 -1.636e-01 Specific Conductance (µS/cm, 135°C) = 572 Density (g/cm³) = 0.96542 Volume (L) = 1.17619 - Viscosity (mPa s) = 0.21211 + Viscosity (mPa s) = 0.21212 Activity of water = 0.945 Ionic strength (mol/kgw) = 8.408e-04 Mass of water (kg) = 9.934e-01 @@ -26038,7 +26038,7 @@ H2Sg(g) 2.44 2.736e+02 0.408 4.830e+00 4.662e+00 -1.680e-01 Specific Conductance (µS/cm, 140°C) = 570 Density (g/cm³) = 0.96318 Volume (L) = 1.18455 - Viscosity (mPa s) = 0.20420 + Viscosity (mPa s) = 0.20421 Activity of water = 0.943 Ionic strength (mol/kgw) = 8.328e-04 Mass of water (kg) = 9.931e-01 @@ -26112,7 +26112,7 @@ H2Sg(g) 2.43 2.719e+02 0.424 4.662e+00 4.490e+00 -1.721e-01 Specific Conductance (µS/cm, 145°C) = 566 Density (g/cm³) = 0.96095 Volume (L) = 1.19309 - Viscosity (mPa s) = 0.19685 + Viscosity (mPa s) = 0.19686 Activity of water = 0.941 Ionic strength (mol/kgw) = 8.229e-04 Mass of water (kg) = 9.928e-01 @@ -26186,7 +26186,7 @@ H2Sg(g) 2.43 2.701e+02 0.440 4.490e+00 4.314e+00 -1.756e-01 Specific Conductance (µS/cm, 150°C) = 560 Density (g/cm³) = 0.95873 Volume (L) = 1.20180 - Viscosity (mPa s) = 0.19001 + Viscosity (mPa s) = 0.19003 Activity of water = 0.939 Ionic strength (mol/kgw) = 8.113e-04 Mass of water (kg) = 9.925e-01 @@ -26260,7 +26260,7 @@ H2Sg(g) 2.43 2.682e+02 0.456 4.314e+00 4.135e+00 -1.788e-01 Specific Conductance (µS/cm, 155°C) = 552 Density (g/cm³) = 0.95652 Volume (L) = 1.21066 - Viscosity (mPa s) = 0.18364 + Viscosity (mPa s) = 0.18365 Activity of water = 0.937 Ionic strength (mol/kgw) = 7.982e-04 Mass of water (kg) = 9.922e-01 @@ -26334,7 +26334,7 @@ H2Sg(g) 2.43 2.662e+02 0.472 4.135e+00 3.954e+00 -1.815e-01 Specific Conductance (µS/cm, 160°C) = 543 Density (g/cm³) = 0.95432 Volume (L) = 1.21967 - Viscosity (mPa s) = 0.17769 + Viscosity (mPa s) = 0.17770 Activity of water = 0.935 Ionic strength (mol/kgw) = 7.836e-04 Mass of water (kg) = 9.920e-01 @@ -26408,7 +26408,7 @@ H2Sg(g) 2.42 2.640e+02 0.488 3.954e+00 3.770e+00 -1.837e-01 Specific Conductance (µS/cm, 165°C) = 533 Density (g/cm³) = 0.95214 Volume (L) = 1.22880 - Viscosity (mPa s) = 0.17212 + Viscosity (mPa s) = 0.17213 Activity of water = 0.933 Ionic strength (mol/kgw) = 7.677e-04 Mass of water (kg) = 9.918e-01 @@ -26479,10 +26479,10 @@ H2Sg(g) 2.42 2.618e+02 0.503 3.770e+00 3.585e+00 -1.854e-01 pH = 3.161 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 522 + Specific Conductance (µS/cm, 170°C) = 521 Density (g/cm³) = 0.94996 Volume (L) = 1.23804 - Viscosity (mPa s) = 0.16690 + Viscosity (mPa s) = 0.16691 Activity of water = 0.931 Ionic strength (mol/kgw) = 7.507e-04 Mass of water (kg) = 9.915e-01 @@ -26556,7 +26556,7 @@ H2Sg(g) 2.41 2.595e+02 0.518 3.585e+00 3.398e+00 -1.867e-01 Specific Conductance (µS/cm, 175°C) = 509 Density (g/cm³) = 0.94780 Volume (L) = 1.24739 - Viscosity (mPa s) = 0.16200 + Viscosity (mPa s) = 0.16201 Activity of water = 0.929 Ionic strength (mol/kgw) = 7.326e-04 Mass of water (kg) = 9.914e-01 @@ -26630,7 +26630,7 @@ H2Sg(g) 2.41 2.570e+02 0.534 3.398e+00 3.211e+00 -1.875e-01 Specific Conductance (µS/cm, 180°C) = 496 Density (g/cm³) = 0.94565 Volume (L) = 1.25681 - Viscosity (mPa s) = 0.15739 + Viscosity (mPa s) = 0.15740 Activity of water = 0.926 Ionic strength (mol/kgw) = 7.136e-04 Mass of water (kg) = 9.912e-01 @@ -26704,7 +26704,7 @@ H2Sg(g) 2.41 2.544e+02 0.549 3.211e+00 3.023e+00 -1.880e-01 Specific Conductance (µS/cm, 185°C) = 482 Density (g/cm³) = 0.94352 Volume (L) = 1.26631 - Viscosity (mPa s) = 0.15305 + Viscosity (mPa s) = 0.15306 Activity of water = 0.924 Ionic strength (mol/kgw) = 6.938e-04 Mass of water (kg) = 9.911e-01 @@ -26778,7 +26778,7 @@ H2Sg(g) 2.40 2.517e+02 0.563 3.023e+00 2.835e+00 -1.880e-01 Specific Conductance (µS/cm, 190°C) = 467 Density (g/cm³) = 0.94141 Volume (L) = 1.27586 - Viscosity (mPa s) = 0.14895 + Viscosity (mPa s) = 0.14896 Activity of water = 0.922 Ionic strength (mol/kgw) = 6.734e-04 Mass of water (kg) = 9.910e-01 @@ -26852,7 +26852,7 @@ H2Sg(g) 2.40 2.488e+02 0.578 2.835e+00 2.647e+00 -1.877e-01 Specific Conductance (µS/cm, 195°C) = 452 Density (g/cm³) = 0.93933 Volume (L) = 1.28545 - Viscosity (mPa s) = 0.14506 + Viscosity (mPa s) = 0.14507 Activity of water = 0.920 Ionic strength (mol/kgw) = 6.525e-04 Mass of water (kg) = 9.909e-01 @@ -26926,7 +26926,7 @@ H2Sg(g) 2.39 2.458e+02 0.592 2.647e+00 2.460e+00 -1.870e-01 Specific Conductance (µS/cm, 200°C) = 437 Density (g/cm³) = 0.93728 Volume (L) = 1.29506 - Viscosity (mPa s) = 0.14135 + Viscosity (mPa s) = 0.14136 Activity of water = 0.917 Ionic strength (mol/kgw) = 6.312e-04 Mass of water (kg) = 9.909e-01 @@ -27000,7 +27000,7 @@ H2Sg(g) 2.39 2.427e+02 0.607 2.460e+00 2.274e+00 -1.861e-01 Specific Conductance (µS/cm, 205°C) = 423 Density (g/cm³) = 0.93526 Volume (L) = 1.30468 - Viscosity (mPa s) = 0.13756 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13758 (solute contributions limited to 200 °C) Activity of water = 0.915 Ionic strength (mol/kgw) = 6.096e-04 Mass of water (kg) = 9.910e-01 @@ -27074,7 +27074,7 @@ H2Sg(g) 2.38 2.394e+02 0.621 2.274e+00 2.089e+00 -1.849e-01 Specific Conductance (µS/cm, 210°C) = 402 Density (g/cm³) = 0.93330 Volume (L) = 1.31428 - Viscosity (mPa s) = 0.13510 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13512 (solute contributions limited to 200 °C) Activity of water = 0.913 Ionic strength (mol/kgw) = 5.879e-04 Mass of water (kg) = 9.911e-01 @@ -27148,7 +27148,7 @@ H2Sg(g) 2.37 2.360e+02 0.635 2.089e+00 1.905e+00 -1.836e-01 Specific Conductance (µS/cm, 215°C) = 388 Density (g/cm³) = 0.93140 Volume (L) = 1.32385 - Viscosity (mPa s) = 0.13175 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13176 (solute contributions limited to 200 °C) Activity of water = 0.911 Ionic strength (mol/kgw) = 5.661e-04 Mass of water (kg) = 9.913e-01 @@ -27219,10 +27219,10 @@ H2Sg(g) 2.37 2.324e+02 0.648 1.905e+00 1.723e+00 -1.821e-01 pH = 3.306 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 373 + Specific Conductance (µS/cm, 220°C) = 372 Density (g/cm³) = 0.92959 Volume (L) = 1.33337 - Viscosity (mPa s) = 0.12872 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12874 (solute contributions limited to 200 °C) Activity of water = 0.908 Ionic strength (mol/kgw) = 5.444e-04 Mass of water (kg) = 9.915e-01 @@ -27296,7 +27296,7 @@ H2Sg(g) 2.36 2.286e+02 0.662 1.723e+00 1.542e+00 -1.806e-01 Specific Conductance (µS/cm, 225°C) = 357 Density (g/cm³) = 0.92787 Volume (L) = 1.34280 - Viscosity (mPa s) = 0.12586 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12588 (solute contributions limited to 200 °C) Activity of water = 0.906 Ionic strength (mol/kgw) = 5.228e-04 Mass of water (kg) = 9.918e-01 @@ -27370,7 +27370,7 @@ H2Sg(g) 2.35 2.247e+02 0.676 1.542e+00 1.363e+00 -1.792e-01 Specific Conductance (µS/cm, 230°C) = 342 Density (g/cm³) = 0.92629 Volume (L) = 1.35212 - Viscosity (mPa s) = 0.12314 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12316 (solute contributions limited to 200 °C) Activity of water = 0.904 Ionic strength (mol/kgw) = 5.015e-04 Mass of water (kg) = 9.922e-01 @@ -27444,7 +27444,7 @@ H2Sg(g) 2.34 2.206e+02 0.689 1.363e+00 1.185e+00 -1.778e-01 Specific Conductance (µS/cm, 235°C) = 327 Density (g/cm³) = 0.92487 Volume (L) = 1.36128 - Viscosity (mPa s) = 0.12054 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12056 (solute contributions limited to 200 °C) Activity of water = 0.902 Ionic strength (mol/kgw) = 4.805e-04 Mass of water (kg) = 9.927e-01 @@ -27518,7 +27518,7 @@ H2Sg(g) 2.34 2.164e+02 0.703 1.185e+00 1.009e+00 -1.768e-01 Specific Conductance (µS/cm, 240°C) = 313 Density (g/cm³) = 0.92368 Volume (L) = 1.37023 - Viscosity (mPa s) = 0.11805 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11806 (solute contributions limited to 200 °C) Activity of water = 0.900 Ionic strength (mol/kgw) = 4.598e-04 Mass of water (kg) = 9.933e-01 @@ -27592,7 +27592,7 @@ H2Sg(g) 2.33 2.120e+02 0.717 1.009e+00 8.325e-01 -1.762e-01 Specific Conductance (µS/cm, 245°C) = 299 Density (g/cm³) = 0.92276 Volume (L) = 1.37890 - Viscosity (mPa s) = 0.11565 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11567 (solute contributions limited to 200 °C) Activity of water = 0.898 Ionic strength (mol/kgw) = 4.396e-04 Mass of water (kg) = 9.941e-01 @@ -27666,7 +27666,7 @@ H2Sg(g) 2.32 2.075e+02 0.730 8.325e-01 6.563e-01 -1.762e-01 Specific Conductance (µS/cm, 250°C) = 286 Density (g/cm³) = 0.92221 Volume (L) = 1.38722 - Viscosity (mPa s) = 0.11335 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11336 (solute contributions limited to 200 °C) Activity of water = 0.896 Ionic strength (mol/kgw) = 4.199e-04 Mass of water (kg) = 9.950e-01 @@ -27932,7 +27932,7 @@ H2Sg(g) 2.53 3.418e+02 0.099 6.782e+00 6.777e+00 -5.495e-03 Specific Conductance (µS/cm, 35°C) = 236 Density (g/cm³) = 1.01349 Volume (L) = 1.06019 - Viscosity (mPa s) = 0.72249 + Viscosity (mPa s) = 0.72250 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.681e-04 Mass of water (kg) = 9.987e-01 @@ -28006,7 +28006,7 @@ H2Sg(g) 2.53 3.414e+02 0.109 6.777e+00 6.758e+00 -1.901e-02 Specific Conductance (µS/cm, 40°C) = 263 Density (g/cm³) = 1.01104 Volume (L) = 1.06323 - Viscosity (mPa s) = 0.65791 + Viscosity (mPa s) = 0.65792 Activity of water = 0.965 Ionic strength (mol/kgw) = 5.995e-04 Mass of water (kg) = 9.986e-01 @@ -28376,7 +28376,7 @@ H2Sg(g) 2.53 3.383e+02 0.165 6.567e+00 6.494e+00 -7.307e-02 Specific Conductance (µS/cm, 65°C) = 396 Density (g/cm³) = 0.99958 Volume (L) = 1.08341 - Viscosity (mPa s) = 0.44181 + Viscosity (mPa s) = 0.44182 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.393e-04 Mass of water (kg) = 9.976e-01 @@ -28450,7 +28450,7 @@ H2Sg(g) 2.53 3.376e+02 0.177 6.494e+00 6.412e+00 -8.243e-02 Specific Conductance (µS/cm, 70°C) = 420 Density (g/cm³) = 0.99735 Volume (L) = 1.08842 - Viscosity (mPa s) = 0.41268 + Viscosity (mPa s) = 0.41269 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.624e-04 Mass of water (kg) = 9.973e-01 @@ -28524,7 +28524,7 @@ H2Sg(g) 2.53 3.368e+02 0.190 6.412e+00 6.320e+00 -9.153e-02 Specific Conductance (µS/cm, 75°C) = 444 Density (g/cm³) = 0.99513 Volume (L) = 1.09374 - Viscosity (mPa s) = 0.38670 + Viscosity (mPa s) = 0.38671 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.837e-04 Mass of water (kg) = 9.971e-01 @@ -28598,7 +28598,7 @@ H2Sg(g) 2.53 3.359e+02 0.203 6.320e+00 6.220e+00 -1.004e-01 Specific Conductance (µS/cm, 80°C) = 466 Density (g/cm³) = 0.99291 Volume (L) = 1.09937 - Viscosity (mPa s) = 0.36343 + Viscosity (mPa s) = 0.36344 Activity of water = 0.961 Ionic strength (mol/kgw) = 8.028e-04 Mass of water (kg) = 9.968e-01 @@ -28672,7 +28672,7 @@ H2Sg(g) 2.52 3.349e+02 0.217 6.220e+00 6.111e+00 -1.091e-01 Specific Conductance (µS/cm, 85°C) = 487 Density (g/cm³) = 0.99070 Volume (L) = 1.10530 - Viscosity (mPa s) = 0.34250 + Viscosity (mPa s) = 0.34251 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.198e-04 Mass of water (kg) = 9.966e-01 @@ -28746,7 +28746,7 @@ H2Sg(g) 2.52 3.339e+02 0.230 6.111e+00 5.993e+00 -1.177e-01 Specific Conductance (µS/cm, 90°C) = 506 Density (g/cm³) = 0.98850 Volume (L) = 1.11154 - Viscosity (mPa s) = 0.32361 + Viscosity (mPa s) = 0.32362 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.345e-04 Mass of water (kg) = 9.963e-01 @@ -28820,7 +28820,7 @@ H2Sg(g) 2.52 3.328e+02 0.245 5.993e+00 5.867e+00 -1.260e-01 Specific Conductance (µS/cm, 95°C) = 523 Density (g/cm³) = 0.98631 Volume (L) = 1.11807 - Viscosity (mPa s) = 0.30651 + Viscosity (mPa s) = 0.30652 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.470e-04 Mass of water (kg) = 9.960e-01 @@ -28894,7 +28894,7 @@ H2Sg(g) 2.52 3.316e+02 0.259 5.867e+00 5.733e+00 -1.343e-01 Specific Conductance (µS/cm, 100°C) = 538 Density (g/cm³) = 0.98414 Volume (L) = 1.12490 - Viscosity (mPa s) = 0.29098 + Viscosity (mPa s) = 0.29099 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.571e-04 Mass of water (kg) = 9.957e-01 @@ -28965,10 +28965,10 @@ H2Sg(g) 2.52 3.304e+02 0.274 5.733e+00 5.590e+00 -1.423e-01 pH = 3.091 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 105°C) = 551 + Specific Conductance (µS/cm, 105°C) = 550 Density (g/cm³) = 0.98198 Volume (L) = 1.13202 - Viscosity (mPa s) = 0.27683 + Viscosity (mPa s) = 0.27684 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.648e-04 Mass of water (kg) = 9.954e-01 @@ -29042,7 +29042,7 @@ H2Sg(g) 2.52 3.290e+02 0.288 5.590e+00 5.440e+00 -1.502e-01 Specific Conductance (µS/cm, 110°C) = 561 Density (g/cm³) = 0.97984 Volume (L) = 1.13941 - Viscosity (mPa s) = 0.26389 + Viscosity (mPa s) = 0.26390 Activity of water = 0.952 Ionic strength (mol/kgw) = 8.703e-04 Mass of water (kg) = 9.951e-01 @@ -29116,7 +29116,7 @@ H2Sg(g) 2.52 3.276e+02 0.303 5.440e+00 5.282e+00 -1.579e-01 Specific Conductance (µS/cm, 115°C) = 569 Density (g/cm³) = 0.97772 Volume (L) = 1.14708 - Viscosity (mPa s) = 0.25205 + Viscosity (mPa s) = 0.25206 Activity of water = 0.951 Ionic strength (mol/kgw) = 8.734e-04 Mass of water (kg) = 9.948e-01 @@ -29190,7 +29190,7 @@ H2Sg(g) 2.51 3.261e+02 0.318 5.282e+00 5.117e+00 -1.653e-01 Specific Conductance (µS/cm, 120°C) = 575 Density (g/cm³) = 0.97563 Volume (L) = 1.15501 - Viscosity (mPa s) = 0.24116 + Viscosity (mPa s) = 0.24117 Activity of water = 0.949 Ionic strength (mol/kgw) = 8.742e-04 Mass of water (kg) = 9.945e-01 @@ -29264,7 +29264,7 @@ H2Sg(g) 2.51 3.245e+02 0.334 5.117e+00 4.944e+00 -1.726e-01 Specific Conductance (µS/cm, 125°C) = 579 Density (g/cm³) = 0.97357 Volume (L) = 1.16321 - Viscosity (mPa s) = 0.23114 + Viscosity (mPa s) = 0.23116 Activity of water = 0.947 Ionic strength (mol/kgw) = 8.729e-04 Mass of water (kg) = 9.943e-01 @@ -29338,7 +29338,7 @@ H2Sg(g) 2.51 3.228e+02 0.349 4.944e+00 4.765e+00 -1.796e-01 Specific Conductance (µS/cm, 130°C) = 581 Density (g/cm³) = 0.97154 Volume (L) = 1.17165 - Viscosity (mPa s) = 0.22190 + Viscosity (mPa s) = 0.22191 Activity of water = 0.945 Ionic strength (mol/kgw) = 8.694e-04 Mass of water (kg) = 9.940e-01 @@ -29412,7 +29412,7 @@ H2Sg(g) 2.51 3.209e+02 0.364 4.765e+00 4.579e+00 -1.863e-01 Specific Conductance (µS/cm, 135°C) = 581 Density (g/cm³) = 0.96955 Volume (L) = 1.18034 - Viscosity (mPa s) = 0.21335 + Viscosity (mPa s) = 0.21336 Activity of water = 0.943 Ionic strength (mol/kgw) = 8.639e-04 Mass of water (kg) = 9.937e-01 @@ -29486,7 +29486,7 @@ H2Sg(g) 2.50 3.190e+02 0.380 4.579e+00 4.386e+00 -1.927e-01 Specific Conductance (µS/cm, 140°C) = 578 Density (g/cm³) = 0.96760 Volume (L) = 1.18925 - Viscosity (mPa s) = 0.20543 + Viscosity (mPa s) = 0.20544 Activity of water = 0.941 Ionic strength (mol/kgw) = 8.564e-04 Mass of water (kg) = 9.935e-01 @@ -29560,7 +29560,7 @@ H2Sg(g) 2.50 3.170e+02 0.395 4.386e+00 4.187e+00 -1.988e-01 Specific Conductance (µS/cm, 145°C) = 574 Density (g/cm³) = 0.96570 Volume (L) = 1.19838 - Viscosity (mPa s) = 0.19807 + Viscosity (mPa s) = 0.19808 Activity of water = 0.938 Ionic strength (mol/kgw) = 8.471e-04 Mass of water (kg) = 9.932e-01 @@ -29634,7 +29634,7 @@ H2Sg(g) 2.50 3.149e+02 0.411 4.187e+00 3.982e+00 -2.046e-01 Specific Conductance (µS/cm, 150°C) = 568 Density (g/cm³) = 0.96384 Volume (L) = 1.20772 - Viscosity (mPa s) = 0.19122 + Viscosity (mPa s) = 0.19123 Activity of water = 0.936 Ionic strength (mol/kgw) = 8.361e-04 Mass of water (kg) = 9.930e-01 @@ -29705,10 +29705,10 @@ H2Sg(g) 2.50 3.127e+02 0.426 3.982e+00 3.772e+00 -2.101e-01 pH = 3.120 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 561 + Specific Conductance (µS/cm, 155°C) = 560 Density (g/cm³) = 0.96203 Volume (L) = 1.21726 - Viscosity (mPa s) = 0.18484 + Viscosity (mPa s) = 0.18485 Activity of water = 0.934 Ionic strength (mol/kgw) = 8.234e-04 Mass of water (kg) = 9.929e-01 @@ -29779,10 +29779,10 @@ H2Sg(g) 2.49 3.103e+02 0.442 3.772e+00 3.557e+00 -2.152e-01 pH = 3.128 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 552 + Specific Conductance (µS/cm, 160°C) = 551 Density (g/cm³) = 0.96028 Volume (L) = 1.22697 - Viscosity (mPa s) = 0.17888 + Viscosity (mPa s) = 0.17889 Activity of water = 0.931 Ionic strength (mol/kgw) = 8.093e-04 Mass of water (kg) = 9.927e-01 @@ -29856,7 +29856,7 @@ H2Sg(g) 2.49 3.078e+02 0.457 3.557e+00 3.337e+00 -2.200e-01 Specific Conductance (µS/cm, 165°C) = 541 Density (g/cm³) = 0.95859 Volume (L) = 1.23686 - Viscosity (mPa s) = 0.17330 + Viscosity (mPa s) = 0.17331 Activity of water = 0.929 Ionic strength (mol/kgw) = 7.938e-04 Mass of water (kg) = 9.927e-01 @@ -29930,7 +29930,7 @@ H2Sg(g) 2.48 3.052e+02 0.472 3.337e+00 3.113e+00 -2.244e-01 Specific Conductance (µS/cm, 170°C) = 530 Density (g/cm³) = 0.95697 Volume (L) = 1.24690 - Viscosity (mPa s) = 0.16807 + Viscosity (mPa s) = 0.16809 Activity of water = 0.926 Ionic strength (mol/kgw) = 7.772e-04 Mass of water (kg) = 9.926e-01 @@ -30004,7 +30004,7 @@ H2Sg(g) 2.48 3.025e+02 0.487 3.113e+00 2.884e+00 -2.286e-01 Specific Conductance (µS/cm, 175°C) = 517 Density (g/cm³) = 0.95543 Volume (L) = 1.25708 - Viscosity (mPa s) = 0.16317 + Viscosity (mPa s) = 0.16318 Activity of water = 0.924 Ionic strength (mol/kgw) = 7.594e-04 Mass of water (kg) = 9.926e-01 @@ -30078,7 +30078,7 @@ H2Sg(g) 2.48 2.996e+02 0.502 2.884e+00 2.652e+00 -2.324e-01 Specific Conductance (µS/cm, 180°C) = 504 Density (g/cm³) = 0.95397 Volume (L) = 1.26739 - Viscosity (mPa s) = 0.15855 + Viscosity (mPa s) = 0.15857 Activity of water = 0.921 Ionic strength (mol/kgw) = 7.408e-04 Mass of water (kg) = 9.927e-01 @@ -30152,7 +30152,7 @@ H2Sg(g) 2.47 2.966e+02 0.517 2.652e+00 2.416e+00 -2.360e-01 Specific Conductance (µS/cm, 185°C) = 490 Density (g/cm³) = 0.95259 Volume (L) = 1.27781 - Viscosity (mPa s) = 0.15421 + Viscosity (mPa s) = 0.15422 Activity of water = 0.918 Ionic strength (mol/kgw) = 7.213e-04 Mass of water (kg) = 9.928e-01 @@ -30226,7 +30226,7 @@ H2Sg(g) 2.47 2.935e+02 0.532 2.416e+00 2.176e+00 -2.394e-01 Specific Conductance (µS/cm, 190°C) = 475 Density (g/cm³) = 0.95133 Volume (L) = 1.28832 - Viscosity (mPa s) = 0.15010 + Viscosity (mPa s) = 0.15012 Activity of water = 0.915 Ionic strength (mol/kgw) = 7.011e-04 Mass of water (kg) = 9.931e-01 @@ -30300,7 +30300,7 @@ H2Sg(g) 2.46 2.902e+02 0.547 2.176e+00 1.934e+00 -2.425e-01 Specific Conductance (µS/cm, 195°C) = 460 Density (g/cm³) = 0.95017 Volume (L) = 1.29891 - Viscosity (mPa s) = 0.14622 + Viscosity (mPa s) = 0.14624 Activity of water = 0.913 Ionic strength (mol/kgw) = 6.804e-04 Mass of water (kg) = 9.934e-01 @@ -30374,7 +30374,7 @@ H2Sg(g) 2.46 2.868e+02 0.562 1.934e+00 1.688e+00 -2.456e-01 Specific Conductance (µS/cm, 200°C) = 445 Density (g/cm³) = 0.94915 Volume (L) = 1.30956 - Viscosity (mPa s) = 0.14253 + Viscosity (mPa s) = 0.14255 Activity of water = 0.910 Ionic strength (mol/kgw) = 6.593e-04 Mass of water (kg) = 9.938e-01 @@ -30448,7 +30448,7 @@ H2Sg(g) 2.45 2.832e+02 0.576 1.688e+00 1.440e+00 -2.486e-01 Specific Conductance (µS/cm, 205°C) = 430 Density (g/cm³) = 0.94827 Volume (L) = 1.32025 - Viscosity (mPa s) = 0.13895 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13897 (solute contributions limited to 200 °C) Activity of water = 0.907 Ionic strength (mol/kgw) = 6.379e-04 Mass of water (kg) = 9.943e-01 @@ -30522,7 +30522,7 @@ H2Sg(g) 2.45 2.795e+02 0.591 1.440e+00 1.188e+00 -2.516e-01 Specific Conductance (µS/cm, 210°C) = 391 Density (g/cm³) = 0.94757 Volume (L) = 1.33097 - Viscosity (mPa s) = 0.13972 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13973 (solute contributions limited to 200 °C) Activity of water = 0.904 Ionic strength (mol/kgw) = 6.162e-04 Mass of water (kg) = 9.950e-01 @@ -30596,7 +30596,7 @@ H2Sg(g) 2.44 2.757e+02 0.605 1.188e+00 9.333e-01 -2.548e-01 Specific Conductance (µS/cm, 215°C) = 396 Density (g/cm³) = 0.94707 Volume (L) = 1.34167 - Viscosity (mPa s) = 0.13298 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13299 (solute contributions limited to 200 °C) Activity of water = 0.901 Ionic strength (mol/kgw) = 5.945e-04 Mass of water (kg) = 9.957e-01 @@ -30670,7 +30670,7 @@ H2Sg(g) 2.43 2.717e+02 0.620 9.333e-01 6.750e-01 -2.583e-01 Specific Conductance (µS/cm, 220°C) = 381 Density (g/cm³) = 0.94681 Volume (L) = 1.35234 - Viscosity (mPa s) = 0.12991 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12992 (solute contributions limited to 200 °C) Activity of water = 0.899 Ionic strength (mol/kgw) = 5.729e-04 Mass of water (kg) = 9.967e-01 @@ -30744,7 +30744,7 @@ H2Sg(g) 2.43 2.676e+02 0.634 6.750e-01 4.128e-01 -2.622e-01 Specific Conductance (µS/cm, 225°C) = 366 Density (g/cm³) = 0.94684 Volume (L) = 1.36295 - Viscosity (mPa s) = 0.12704 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12706 (solute contributions limited to 200 °C) Activity of water = 0.896 Ionic strength (mol/kgw) = 5.513e-04 Mass of water (kg) = 9.978e-01 @@ -30818,7 +30818,7 @@ H2Sg(g) 2.42 2.633e+02 0.648 4.128e-01 1.461e-01 -2.667e-01 Specific Conductance (µS/cm, 230°C) = 352 Density (g/cm³) = 0.94720 Volume (L) = 1.37344 - Viscosity (mPa s) = 0.12432 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12434 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.299e-04 Mass of water (kg) = 9.992e-01 @@ -30880,7 +30880,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 337 Density (g/cm³) = 0.94618 Volume (L) = 1.38105 - Viscosity (mPa s) = 0.12172 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12174 (solute contributions limited to 200 °C) Activity of water = 0.891 Ionic strength (mol/kgw) = 5.066e-04 Mass of water (kg) = 1.000e+00 @@ -30942,7 +30942,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 322 Density (g/cm³) = 0.94328 Volume (L) = 1.38530 - Viscosity (mPa s) = 0.11924 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11925 (solute contributions limited to 200 °C) Activity of water = 0.891 Ionic strength (mol/kgw) = 4.816e-04 Mass of water (kg) = 1.000e+00 @@ -31004,7 +31004,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 307 Density (g/cm³) = 0.94054 Volume (L) = 1.38932 - Viscosity (mPa s) = 0.11685 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11687 (solute contributions limited to 200 °C) Activity of water = 0.891 Ionic strength (mol/kgw) = 4.574e-04 Mass of water (kg) = 1.000e+00 @@ -31066,7 +31066,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 293 Density (g/cm³) = 0.93803 Volume (L) = 1.39305 - Viscosity (mPa s) = 0.11456 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11457 (solute contributions limited to 200 °C) Activity of water = 0.890 Ionic strength (mol/kgw) = 4.341e-04 Mass of water (kg) = 1.000e+00 @@ -31406,7 +31406,7 @@ H2Sg(g) 2.59 3.902e+02 0.103 6.734e+00 6.714e+00 -2.009e-02 Specific Conductance (µS/cm, 40°C) = 267 Density (g/cm³) = 1.01343 Volume (L) = 1.06224 - Viscosity (mPa s) = 0.65878 + Viscosity (mPa s) = 0.65879 Activity of water = 0.965 Ionic strength (mol/kgw) = 6.096e-04 Mass of water (kg) = 9.986e-01 @@ -31628,7 +31628,7 @@ H2Sg(g) 2.59 3.883e+02 0.133 6.635e+00 6.579e+00 -5.664e-02 Specific Conductance (µS/cm, 55°C) = 349 Density (g/cm³) = 1.00640 Volume (L) = 1.07367 - Viscosity (mPa s) = 0.51292 + Viscosity (mPa s) = 0.51293 Activity of water = 0.964 Ionic strength (mol/kgw) = 6.997e-04 Mass of water (kg) = 9.980e-01 @@ -31702,7 +31702,7 @@ H2Sg(g) 2.59 3.876e+02 0.144 6.579e+00 6.511e+00 -6.747e-02 Specific Conductance (µS/cm, 60°C) = 376 Density (g/cm³) = 1.00414 Volume (L) = 1.07818 - Viscosity (mPa s) = 0.47586 + Viscosity (mPa s) = 0.47587 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.270e-04 Mass of water (kg) = 9.978e-01 @@ -31776,7 +31776,7 @@ H2Sg(g) 2.59 3.868e+02 0.155 6.511e+00 6.433e+00 -7.790e-02 Specific Conductance (µS/cm, 65°C) = 402 Density (g/cm³) = 1.00190 Volume (L) = 1.08302 - Viscosity (mPa s) = 0.44310 + Viscosity (mPa s) = 0.44311 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.526e-04 Mass of water (kg) = 9.976e-01 @@ -31998,7 +31998,7 @@ H2Sg(g) 2.58 3.839e+02 0.191 6.247e+00 6.139e+00 -1.077e-01 Specific Conductance (µS/cm, 80°C) = 473 Density (g/cm³) = 0.99529 Volume (L) = 1.09954 - Viscosity (mPa s) = 0.36476 + Viscosity (mPa s) = 0.36477 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.182e-04 Mass of water (kg) = 9.969e-01 @@ -32072,7 +32072,7 @@ H2Sg(g) 2.58 3.829e+02 0.204 6.139e+00 6.022e+00 -1.173e-01 Specific Conductance (µS/cm, 85°C) = 494 Density (g/cm³) = 0.99312 Volume (L) = 1.10570 - Viscosity (mPa s) = 0.34383 + Viscosity (mPa s) = 0.34384 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.358e-04 Mass of water (kg) = 9.966e-01 @@ -32146,7 +32146,7 @@ H2Sg(g) 2.58 3.817e+02 0.217 6.022e+00 5.895e+00 -1.268e-01 Specific Conductance (µS/cm, 90°C) = 513 Density (g/cm³) = 0.99097 Volume (L) = 1.11219 - Viscosity (mPa s) = 0.32494 + Viscosity (mPa s) = 0.32495 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.512e-04 Mass of water (kg) = 9.964e-01 @@ -32220,7 +32220,7 @@ H2Sg(g) 2.58 3.804e+02 0.230 5.895e+00 5.759e+00 -1.362e-01 Specific Conductance (µS/cm, 95°C) = 530 Density (g/cm³) = 0.98885 Volume (L) = 1.11901 - Viscosity (mPa s) = 0.30783 + Viscosity (mPa s) = 0.30784 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.643e-04 Mass of water (kg) = 9.961e-01 @@ -32294,7 +32294,7 @@ H2Sg(g) 2.58 3.791e+02 0.244 5.759e+00 5.614e+00 -1.455e-01 Specific Conductance (µS/cm, 100°C) = 545 Density (g/cm³) = 0.98675 Volume (L) = 1.12614 - Viscosity (mPa s) = 0.29229 + Viscosity (mPa s) = 0.29230 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.751e-04 Mass of water (kg) = 9.958e-01 @@ -32368,7 +32368,7 @@ H2Sg(g) 2.58 3.776e+02 0.258 5.614e+00 5.459e+00 -1.548e-01 Specific Conductance (µS/cm, 105°C) = 558 Density (g/cm³) = 0.98468 Volume (L) = 1.13358 - Viscosity (mPa s) = 0.27813 + Viscosity (mPa s) = 0.27814 Activity of water = 0.953 Ionic strength (mol/kgw) = 8.834e-04 Mass of water (kg) = 9.955e-01 @@ -32442,7 +32442,7 @@ H2Sg(g) 2.58 3.761e+02 0.272 5.459e+00 5.295e+00 -1.639e-01 Specific Conductance (µS/cm, 110°C) = 569 Density (g/cm³) = 0.98265 Volume (L) = 1.14133 - Viscosity (mPa s) = 0.26518 + Viscosity (mPa s) = 0.26519 Activity of water = 0.951 Ionic strength (mol/kgw) = 8.895e-04 Mass of water (kg) = 9.953e-01 @@ -32516,7 +32516,7 @@ H2Sg(g) 2.57 3.745e+02 0.286 5.295e+00 5.122e+00 -1.730e-01 Specific Conductance (µS/cm, 115°C) = 577 Density (g/cm³) = 0.98066 Volume (L) = 1.14939 - Viscosity (mPa s) = 0.25332 + Viscosity (mPa s) = 0.25333 Activity of water = 0.949 Ionic strength (mol/kgw) = 8.932e-04 Mass of water (kg) = 9.950e-01 @@ -32590,7 +32590,7 @@ H2Sg(g) 2.57 3.728e+02 0.300 5.122e+00 4.940e+00 -1.819e-01 Specific Conductance (µS/cm, 120°C) = 583 Density (g/cm³) = 0.97871 Volume (L) = 1.15774 - Viscosity (mPa s) = 0.24243 + Viscosity (mPa s) = 0.24244 Activity of water = 0.947 Ionic strength (mol/kgw) = 8.946e-04 Mass of water (kg) = 9.947e-01 @@ -32664,7 +32664,7 @@ H2Sg(g) 2.57 3.709e+02 0.315 4.940e+00 4.749e+00 -1.907e-01 Specific Conductance (µS/cm, 125°C) = 587 Density (g/cm³) = 0.97682 Volume (L) = 1.16639 - Viscosity (mPa s) = 0.23240 + Viscosity (mPa s) = 0.23241 Activity of water = 0.945 Ionic strength (mol/kgw) = 8.938e-04 Mass of water (kg) = 9.945e-01 @@ -32738,7 +32738,7 @@ H2Sg(g) 2.57 3.690e+02 0.330 4.749e+00 4.550e+00 -1.993e-01 Specific Conductance (µS/cm, 130°C) = 589 Density (g/cm³) = 0.97498 Volume (L) = 1.17532 - Viscosity (mPa s) = 0.22314 + Viscosity (mPa s) = 0.22315 Activity of water = 0.943 Ionic strength (mol/kgw) = 8.909e-04 Mass of water (kg) = 9.943e-01 @@ -32812,7 +32812,7 @@ H2Sg(g) 2.56 3.669e+02 0.344 4.550e+00 4.342e+00 -2.078e-01 Specific Conductance (µS/cm, 135°C) = 588 Density (g/cm³) = 0.97321 Volume (L) = 1.18452 - Viscosity (mPa s) = 0.21458 + Viscosity (mPa s) = 0.21459 Activity of water = 0.940 Ionic strength (mol/kgw) = 8.859e-04 Mass of water (kg) = 9.941e-01 @@ -32886,7 +32886,7 @@ H2Sg(g) 2.56 3.647e+02 0.359 4.342e+00 4.126e+00 -2.161e-01 Specific Conductance (µS/cm, 140°C) = 586 Density (g/cm³) = 0.97150 Volume (L) = 1.19400 - Viscosity (mPa s) = 0.20665 + Viscosity (mPa s) = 0.20666 Activity of water = 0.938 Ionic strength (mol/kgw) = 8.789e-04 Mass of water (kg) = 9.939e-01 @@ -32960,7 +32960,7 @@ H2Sg(g) 2.56 3.624e+02 0.374 4.126e+00 3.902e+00 -2.243e-01 Specific Conductance (µS/cm, 145°C) = 581 Density (g/cm³) = 0.96987 Volume (L) = 1.20373 - Viscosity (mPa s) = 0.19928 + Viscosity (mPa s) = 0.19929 Activity of water = 0.935 Ionic strength (mol/kgw) = 8.700e-04 Mass of water (kg) = 9.937e-01 @@ -33034,7 +33034,7 @@ H2Sg(g) 2.56 3.600e+02 0.389 3.902e+00 3.670e+00 -2.322e-01 Specific Conductance (µS/cm, 150°C) = 575 Density (g/cm³) = 0.96832 Volume (L) = 1.21371 - Viscosity (mPa s) = 0.19242 + Viscosity (mPa s) = 0.19243 Activity of water = 0.933 Ionic strength (mol/kgw) = 8.594e-04 Mass of water (kg) = 9.936e-01 @@ -33108,7 +33108,7 @@ H2Sg(g) 2.55 3.574e+02 0.404 3.670e+00 3.430e+00 -2.399e-01 Specific Conductance (µS/cm, 155°C) = 567 Density (g/cm³) = 0.96686 Volume (L) = 1.22393 - Viscosity (mPa s) = 0.18603 + Viscosity (mPa s) = 0.18604 Activity of water = 0.930 Ionic strength (mol/kgw) = 8.471e-04 Mass of water (kg) = 9.935e-01 @@ -33182,7 +33182,7 @@ H2Sg(g) 2.55 3.548e+02 0.419 3.430e+00 3.182e+00 -2.475e-01 Specific Conductance (µS/cm, 160°C) = 558 Density (g/cm³) = 0.96550 Volume (L) = 1.23438 - Viscosity (mPa s) = 0.18006 + Viscosity (mPa s) = 0.18007 Activity of water = 0.928 Ionic strength (mol/kgw) = 8.334e-04 Mass of water (kg) = 9.935e-01 @@ -33256,7 +33256,7 @@ H2Sg(g) 2.55 3.519e+02 0.434 3.182e+00 2.927e+00 -2.549e-01 Specific Conductance (µS/cm, 165°C) = 548 Density (g/cm³) = 0.96425 Volume (L) = 1.24503 - Viscosity (mPa s) = 0.17447 + Viscosity (mPa s) = 0.17449 Activity of water = 0.925 Ionic strength (mol/kgw) = 8.183e-04 Mass of water (kg) = 9.936e-01 @@ -33330,7 +33330,7 @@ H2Sg(g) 2.54 3.490e+02 0.449 2.927e+00 2.665e+00 -2.621e-01 Specific Conductance (µS/cm, 170°C) = 536 Density (g/cm³) = 0.96312 Volume (L) = 1.25589 - Viscosity (mPa s) = 0.16924 + Viscosity (mPa s) = 0.16926 Activity of water = 0.922 Ionic strength (mol/kgw) = 8.019e-04 Mass of water (kg) = 9.937e-01 @@ -33404,7 +33404,7 @@ H2Sg(g) 2.54 3.459e+02 0.464 2.665e+00 2.396e+00 -2.691e-01 Specific Conductance (µS/cm, 175°C) = 523 Density (g/cm³) = 0.96212 Volume (L) = 1.26694 - Viscosity (mPa s) = 0.16433 + Viscosity (mPa s) = 0.16434 Activity of water = 0.919 Ionic strength (mol/kgw) = 7.844e-04 Mass of water (kg) = 9.939e-01 @@ -33478,7 +33478,7 @@ H2Sg(g) 2.53 3.427e+02 0.479 2.396e+00 2.120e+00 -2.761e-01 Specific Conductance (µS/cm, 180°C) = 510 Density (g/cm³) = 0.96127 Volume (L) = 1.27816 - Viscosity (mPa s) = 0.15971 + Viscosity (mPa s) = 0.15972 Activity of water = 0.916 Ionic strength (mol/kgw) = 7.660e-04 Mass of water (kg) = 9.942e-01 @@ -33552,7 +33552,7 @@ H2Sg(g) 2.53 3.393e+02 0.494 2.120e+00 1.837e+00 -2.830e-01 Specific Conductance (µS/cm, 185°C) = 496 Density (g/cm³) = 0.96057 Volume (L) = 1.28954 - Viscosity (mPa s) = 0.15536 + Viscosity (mPa s) = 0.15537 Activity of water = 0.913 Ionic strength (mol/kgw) = 7.467e-04 Mass of water (kg) = 9.946e-01 @@ -33626,7 +33626,7 @@ H2Sg(g) 2.53 3.358e+02 0.508 1.837e+00 1.547e+00 -2.899e-01 Specific Conductance (µS/cm, 190°C) = 481 Density (g/cm³) = 0.96006 Volume (L) = 1.30106 - Viscosity (mPa s) = 0.15125 + Viscosity (mPa s) = 0.15127 Activity of water = 0.910 Ionic strength (mol/kgw) = 7.267e-04 Mass of water (kg) = 9.951e-01 @@ -33700,7 +33700,7 @@ H2Sg(g) 2.52 3.321e+02 0.523 1.547e+00 1.250e+00 -2.970e-01 Specific Conductance (µS/cm, 195°C) = 466 Density (g/cm³) = 0.95974 Volume (L) = 1.31271 - Viscosity (mPa s) = 0.14737 + Viscosity (mPa s) = 0.14739 Activity of water = 0.906 Ionic strength (mol/kgw) = 7.061e-04 Mass of water (kg) = 9.957e-01 @@ -33771,10 +33771,10 @@ H2Sg(g) 2.52 3.283e+02 0.538 1.250e+00 9.460e-01 -3.042e-01 pH = 3.209 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 451 + Specific Conductance (µS/cm, 200°C) = 450 Density (g/cm³) = 0.95965 Volume (L) = 1.32447 - Viscosity (mPa s) = 0.14369 + Viscosity (mPa s) = 0.14370 Activity of water = 0.903 Ionic strength (mol/kgw) = 6.851e-04 Mass of water (kg) = 9.965e-01 @@ -33848,7 +33848,7 @@ H2Sg(g) 2.51 3.244e+02 0.553 9.460e-01 6.344e-01 -3.117e-01 Specific Conductance (µS/cm, 205°C) = 435 Density (g/cm³) = 0.95982 Volume (L) = 1.33632 - Viscosity (mPa s) = 0.14016 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14018 (solute contributions limited to 200 °C) Activity of water = 0.900 Ionic strength (mol/kgw) = 6.637e-04 Mass of water (kg) = 9.975e-01 @@ -33922,7 +33922,7 @@ H2Sg(g) 2.51 3.203e+02 0.567 6.344e-01 3.148e-01 -3.196e-01 Specific Conductance (µS/cm, 210°C) = 422 Density (g/cm³) = 0.96028 Volume (L) = 1.34823 - Viscosity (mPa s) = 0.13654 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13655 (solute contributions limited to 200 °C) Activity of water = 0.896 Ionic strength (mol/kgw) = 6.421e-04 Mass of water (kg) = 9.987e-01 @@ -33984,7 +33984,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 401 Density (g/cm³) = 0.96092 Volume (L) = 1.35986 - Viscosity (mPa s) = 0.13433 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13435 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 6.201e-04 Mass of water (kg) = 1.000e+00 @@ -34046,7 +34046,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 386 Density (g/cm³) = 0.95792 Volume (L) = 1.36413 - Viscosity (mPa s) = 0.13109 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13111 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.918e-04 Mass of water (kg) = 1.000e+00 @@ -34108,7 +34108,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 370 Density (g/cm³) = 0.95496 Volume (L) = 1.36835 - Viscosity (mPa s) = 0.12820 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12822 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 5.641e-04 Mass of water (kg) = 1.000e+00 @@ -34170,7 +34170,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 354 Density (g/cm³) = 0.95208 Volume (L) = 1.37249 - Viscosity (mPa s) = 0.12547 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12549 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 5.373e-04 Mass of water (kg) = 1.000e+00 @@ -34232,7 +34232,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 339 Density (g/cm³) = 0.94929 Volume (L) = 1.37652 - Viscosity (mPa s) = 0.12288 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12290 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 5.112e-04 Mass of water (kg) = 1.000e+00 @@ -34294,7 +34294,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 324 Density (g/cm³) = 0.94664 Volume (L) = 1.38038 - Viscosity (mPa s) = 0.12040 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12041 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 4.860e-04 Mass of water (kg) = 1.000e+00 @@ -34356,7 +34356,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 309 Density (g/cm³) = 0.94416 Volume (L) = 1.38400 - Viscosity (mPa s) = 0.11802 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11804 (solute contributions limited to 200 °C) Activity of water = 0.891 Ionic strength (mol/kgw) = 4.617e-04 Mass of water (kg) = 1.000e+00 @@ -34418,7 +34418,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 295 Density (g/cm³) = 0.94190 Volume (L) = 1.38732 - Viscosity (mPa s) = 0.11573 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11575 (solute contributions limited to 200 °C) Activity of water = 0.891 Ionic strength (mol/kgw) = 4.383e-04 Mass of water (kg) = 1.000e+00 @@ -35202,7 +35202,7 @@ H2Sg(g) 2.64 4.341e+02 0.159 6.377e+00 6.284e+00 -9.312e-02 Specific Conductance (µS/cm, 70°C) = 433 Density (g/cm³) = 1.00186 Volume (L) = 1.08796 - Viscosity (mPa s) = 0.41531 + Viscosity (mPa s) = 0.41532 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.903e-04 Mass of water (kg) = 9.974e-01 @@ -35276,7 +35276,7 @@ H2Sg(g) 2.64 4.331e+02 0.171 6.284e+00 6.180e+00 -1.038e-01 Specific Conductance (µS/cm, 75°C) = 458 Density (g/cm³) = 0.99966 Volume (L) = 1.09365 - Viscosity (mPa s) = 0.38935 + Viscosity (mPa s) = 0.38936 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.128e-04 Mass of water (kg) = 9.972e-01 @@ -35495,10 +35495,10 @@ H2Sg(g) 2.63 4.294e+02 0.207 5.941e+00 5.805e+00 -1.353e-01 pH = 3.089 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 521 + Specific Conductance (µS/cm, 90°C) = 520 Density (g/cm³) = 0.99323 Volume (L) = 1.11283 - Viscosity (mPa s) = 0.32626 + Viscosity (mPa s) = 0.32627 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.675e-04 Mass of water (kg) = 9.964e-01 @@ -35572,7 +35572,7 @@ H2Sg(g) 2.63 4.280e+02 0.220 5.805e+00 5.660e+00 -1.457e-01 Specific Conductance (µS/cm, 95°C) = 538 Density (g/cm³) = 0.99115 Volume (L) = 1.11992 - Viscosity (mPa s) = 0.30914 + Viscosity (mPa s) = 0.30915 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.812e-04 Mass of water (kg) = 9.962e-01 @@ -35646,7 +35646,7 @@ H2Sg(g) 2.63 4.265e+02 0.233 5.660e+00 5.504e+00 -1.561e-01 Specific Conductance (µS/cm, 100°C) = 553 Density (g/cm³) = 0.98911 Volume (L) = 1.12735 - Viscosity (mPa s) = 0.29359 + Viscosity (mPa s) = 0.29360 Activity of water = 0.953 Ionic strength (mol/kgw) = 8.925e-04 Mass of water (kg) = 9.959e-01 @@ -35720,7 +35720,7 @@ H2Sg(g) 2.63 4.249e+02 0.246 5.504e+00 5.337e+00 -1.664e-01 Specific Conductance (µS/cm, 105°C) = 566 Density (g/cm³) = 0.98711 Volume (L) = 1.13512 - Viscosity (mPa s) = 0.27942 + Viscosity (mPa s) = 0.27943 Activity of water = 0.951 Ionic strength (mol/kgw) = 9.015e-04 Mass of water (kg) = 9.957e-01 @@ -35794,7 +35794,7 @@ H2Sg(g) 2.63 4.232e+02 0.260 5.337e+00 5.160e+00 -1.768e-01 Specific Conductance (µS/cm, 110°C) = 576 Density (g/cm³) = 0.98516 Volume (L) = 1.14323 - Viscosity (mPa s) = 0.26647 + Viscosity (mPa s) = 0.26648 Activity of water = 0.949 Ionic strength (mol/kgw) = 9.081e-04 Mass of water (kg) = 9.954e-01 @@ -35868,7 +35868,7 @@ H2Sg(g) 2.62 4.214e+02 0.273 5.160e+00 4.973e+00 -1.872e-01 Specific Conductance (µS/cm, 115°C) = 584 Density (g/cm³) = 0.98326 Volume (L) = 1.15167 - Viscosity (mPa s) = 0.25459 + Viscosity (mPa s) = 0.25460 Activity of water = 0.947 Ionic strength (mol/kgw) = 9.124e-04 Mass of water (kg) = 9.952e-01 @@ -35942,7 +35942,7 @@ H2Sg(g) 2.62 4.194e+02 0.287 4.973e+00 4.776e+00 -1.975e-01 Specific Conductance (µS/cm, 120°C) = 590 Density (g/cm³) = 0.98143 Volume (L) = 1.16045 - Viscosity (mPa s) = 0.24369 + Viscosity (mPa s) = 0.24370 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.143e-04 Mass of water (kg) = 9.949e-01 @@ -36016,7 +36016,7 @@ H2Sg(g) 2.62 4.174e+02 0.301 4.776e+00 4.568e+00 -2.078e-01 Specific Conductance (µS/cm, 125°C) = 594 Density (g/cm³) = 0.97967 Volume (L) = 1.16955 - Viscosity (mPa s) = 0.23365 + Viscosity (mPa s) = 0.23366 Activity of water = 0.943 Ionic strength (mol/kgw) = 9.140e-04 Mass of water (kg) = 9.947e-01 @@ -36087,10 +36087,10 @@ H2Sg(g) 2.62 4.152e+02 0.315 4.568e+00 4.350e+00 -2.181e-01 pH = 3.073 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 596 + Specific Conductance (µS/cm, 130°C) = 595 Density (g/cm³) = 0.97799 Volume (L) = 1.17897 - Viscosity (mPa s) = 0.22438 + Viscosity (mPa s) = 0.22439 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.115e-04 Mass of water (kg) = 9.945e-01 @@ -36164,7 +36164,7 @@ H2Sg(g) 2.62 4.129e+02 0.330 4.350e+00 4.122e+00 -2.283e-01 Specific Conductance (µS/cm, 135°C) = 595 Density (g/cm³) = 0.97639 Volume (L) = 1.18871 - Viscosity (mPa s) = 0.21580 + Viscosity (mPa s) = 0.21582 Activity of water = 0.938 Ionic strength (mol/kgw) = 9.070e-04 Mass of water (kg) = 9.944e-01 @@ -36238,7 +36238,7 @@ H2Sg(g) 2.61 4.104e+02 0.344 4.122e+00 3.883e+00 -2.385e-01 Specific Conductance (µS/cm, 140°C) = 592 Density (g/cm³) = 0.97489 Volume (L) = 1.19876 - Viscosity (mPa s) = 0.20786 + Viscosity (mPa s) = 0.20787 Activity of water = 0.936 Ionic strength (mol/kgw) = 9.004e-04 Mass of water (kg) = 9.943e-01 @@ -36312,7 +36312,7 @@ H2Sg(g) 2.61 4.079e+02 0.358 3.883e+00 3.634e+00 -2.486e-01 Specific Conductance (µS/cm, 145°C) = 588 Density (g/cm³) = 0.97348 Volume (L) = 1.20910 - Viscosity (mPa s) = 0.20048 + Viscosity (mPa s) = 0.20049 Activity of water = 0.933 Ionic strength (mol/kgw) = 8.919e-04 Mass of water (kg) = 9.942e-01 @@ -36386,7 +36386,7 @@ H2Sg(g) 2.61 4.052e+02 0.373 3.634e+00 3.376e+00 -2.587e-01 Specific Conductance (µS/cm, 150°C) = 581 Density (g/cm³) = 0.97220 Volume (L) = 1.21974 - Viscosity (mPa s) = 0.19361 + Viscosity (mPa s) = 0.19362 Activity of water = 0.930 Ionic strength (mol/kgw) = 8.816e-04 Mass of water (kg) = 9.942e-01 @@ -36460,7 +36460,7 @@ H2Sg(g) 2.60 4.023e+02 0.387 3.376e+00 3.107e+00 -2.687e-01 Specific Conductance (µS/cm, 155°C) = 573 Density (g/cm³) = 0.97104 Volume (L) = 1.23066 - Viscosity (mPa s) = 0.18721 + Viscosity (mPa s) = 0.18722 Activity of water = 0.927 Ionic strength (mol/kgw) = 8.697e-04 Mass of water (kg) = 9.942e-01 @@ -36534,7 +36534,7 @@ H2Sg(g) 2.60 3.993e+02 0.402 3.107e+00 2.828e+00 -2.787e-01 Specific Conductance (µS/cm, 160°C) = 564 Density (g/cm³) = 0.97001 Volume (L) = 1.24186 - Viscosity (mPa s) = 0.18123 + Viscosity (mPa s) = 0.18124 Activity of water = 0.924 Ionic strength (mol/kgw) = 8.562e-04 Mass of water (kg) = 9.943e-01 @@ -36608,7 +36608,7 @@ H2Sg(g) 2.60 3.962e+02 0.417 2.828e+00 2.540e+00 -2.887e-01 Specific Conductance (µS/cm, 165°C) = 553 Density (g/cm³) = 0.96914 Volume (L) = 1.25332 - Viscosity (mPa s) = 0.17564 + Viscosity (mPa s) = 0.17565 Activity of water = 0.921 Ionic strength (mol/kgw) = 8.414e-04 Mass of water (kg) = 9.945e-01 @@ -36682,7 +36682,7 @@ H2Sg(g) 2.59 3.929e+02 0.431 2.540e+00 2.241e+00 -2.987e-01 Specific Conductance (µS/cm, 170°C) = 541 Density (g/cm³) = 0.96843 Volume (L) = 1.26503 - Viscosity (mPa s) = 0.17039 + Viscosity (mPa s) = 0.17041 Activity of water = 0.918 Ionic strength (mol/kgw) = 8.252e-04 Mass of water (kg) = 9.947e-01 @@ -36756,7 +36756,7 @@ H2Sg(g) 2.59 3.895e+02 0.446 2.241e+00 1.932e+00 -3.087e-01 Specific Conductance (µS/cm, 175°C) = 528 Density (g/cm³) = 0.96790 Volume (L) = 1.27698 - Viscosity (mPa s) = 0.16547 + Viscosity (mPa s) = 0.16549 Activity of water = 0.914 Ionic strength (mol/kgw) = 8.079e-04 Mass of water (kg) = 9.951e-01 @@ -36830,7 +36830,7 @@ H2Sg(g) 2.59 3.860e+02 0.461 1.932e+00 1.613e+00 -3.190e-01 Specific Conductance (µS/cm, 180°C) = 514 Density (g/cm³) = 0.96757 Volume (L) = 1.28916 - Viscosity (mPa s) = 0.16085 + Viscosity (mPa s) = 0.16087 Activity of water = 0.911 Ionic strength (mol/kgw) = 7.896e-04 Mass of water (kg) = 9.956e-01 @@ -36904,7 +36904,7 @@ H2Sg(g) 2.58 3.822e+02 0.475 1.613e+00 1.284e+00 -3.294e-01 Specific Conductance (µS/cm, 185°C) = 500 Density (g/cm³) = 0.96747 Volume (L) = 1.30156 - Viscosity (mPa s) = 0.15649 + Viscosity (mPa s) = 0.15651 Activity of water = 0.908 Ionic strength (mol/kgw) = 7.705e-04 Mass of water (kg) = 9.963e-01 @@ -36978,7 +36978,7 @@ H2Sg(g) 2.58 3.784e+02 0.490 1.284e+00 9.439e-01 -3.401e-01 Specific Conductance (µS/cm, 190°C) = 485 Density (g/cm³) = 0.96762 Volume (L) = 1.31415 - Viscosity (mPa s) = 0.15239 + Viscosity (mPa s) = 0.15240 Activity of water = 0.904 Ionic strength (mol/kgw) = 7.506e-04 Mass of water (kg) = 9.970e-01 @@ -37052,7 +37052,7 @@ H2Sg(g) 2.57 3.744e+02 0.505 9.439e-01 5.927e-01 -3.512e-01 Specific Conductance (µS/cm, 195°C) = 470 Density (g/cm³) = 0.96804 Volume (L) = 1.32694 - Viscosity (mPa s) = 0.14850 + Viscosity (mPa s) = 0.14852 Activity of water = 0.900 Ionic strength (mol/kgw) = 7.301e-04 Mass of water (kg) = 9.980e-01 @@ -37126,7 +37126,7 @@ H2Sg(g) 2.57 3.702e+02 0.520 5.927e-01 2.298e-01 -3.629e-01 Specific Conductance (µS/cm, 200°C) = 454 Density (g/cm³) = 0.96879 Volume (L) = 1.33989 - Viscosity (mPa s) = 0.14482 + Viscosity (mPa s) = 0.14484 Activity of water = 0.897 Ionic strength (mol/kgw) = 7.091e-04 Mass of water (kg) = 9.992e-01 @@ -37188,7 +37188,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 439 Density (g/cm³) = 0.96830 Volume (L) = 1.34950 - Viscosity (mPa s) = 0.14132 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14133 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.844e-04 Mass of water (kg) = 1.000e+00 @@ -37250,7 +37250,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 423 Density (g/cm³) = 0.96540 Volume (L) = 1.35355 - Viscosity (mPa s) = 0.13791 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13793 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.546e-04 Mass of water (kg) = 1.000e+00 @@ -37312,7 +37312,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 357 Density (g/cm³) = 0.96252 Volume (L) = 1.35760 - Viscosity (mPa s) = 0.14405 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14407 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.254e-04 Mass of water (kg) = 1.000e+00 @@ -37374,7 +37374,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 387 Density (g/cm³) = 0.95968 Volume (L) = 1.36162 - Viscosity (mPa s) = 0.13228 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13230 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.969e-04 Mass of water (kg) = 1.000e+00 @@ -37436,7 +37436,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 372 Density (g/cm³) = 0.95689 Volume (L) = 1.36559 - Viscosity (mPa s) = 0.12934 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12936 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.691e-04 Mass of water (kg) = 1.000e+00 @@ -37498,7 +37498,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 356 Density (g/cm³) = 0.95418 Volume (L) = 1.36947 - Viscosity (mPa s) = 0.12661 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12662 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.420e-04 Mass of water (kg) = 1.000e+00 @@ -37557,10 +37557,10 @@ Using pressure 1. pH = 3.334 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 235°C) = 341 + Specific Conductance (µS/cm, 235°C) = 340 Density (g/cm³) = 0.95157 Volume (L) = 1.37323 - Viscosity (mPa s) = 0.12401 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12403 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.158e-04 Mass of water (kg) = 1.000e+00 @@ -37622,7 +37622,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 325 Density (g/cm³) = 0.94909 Volume (L) = 1.37681 - Viscosity (mPa s) = 0.12153 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12155 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 4.905e-04 Mass of water (kg) = 1.000e+00 @@ -37684,7 +37684,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 311 Density (g/cm³) = 0.94678 Volume (L) = 1.38017 - Viscosity (mPa s) = 0.11916 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11918 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 4.660e-04 Mass of water (kg) = 1.000e+00 @@ -37746,7 +37746,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 297 Density (g/cm³) = 0.94470 Volume (L) = 1.38322 - Viscosity (mPa s) = 0.11688 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11690 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 4.424e-04 Mass of water (kg) = 1.000e+00 @@ -37843,7 +37843,7 @@ H2Sg(g) 2.69 4.891e+02 0.079 0.000e+00 6.658e+00 6.658e+00 Specific Conductance (µS/cm, 30°C) = 222 Density (g/cm³) = 1.02326 Volume (L) = 1.05420 - Viscosity (mPa s) = 0.79928 + Viscosity (mPa s) = 0.79929 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.627e-04 Mass of water (kg) = 9.989e-01 @@ -37938,7 +37938,7 @@ H2Sg(g) 2.69 4.891e+02 0.079 6.658e+00 6.658e+00 1.537e-12 Specific Conductance (µS/cm, 30°C) = 222 Density (g/cm³) = 1.02326 Volume (L) = 1.05420 - Viscosity (mPa s) = 0.79928 + Viscosity (mPa s) = 0.79929 Activity of water = 0.963 Ionic strength (mol/kgw) = 5.627e-04 Mass of water (kg) = 9.989e-01 @@ -38234,7 +38234,7 @@ H2Sg(g) 2.69 4.864e+02 0.113 6.596e+00 6.547e+00 -4.925e-02 Specific Conductance (µS/cm, 50°C) = 332 Density (g/cm³) = 1.01306 Volume (L) = 1.06791 - Viscosity (mPa s) = 0.55738 + Viscosity (mPa s) = 0.55739 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.933e-04 Mass of water (kg) = 9.983e-01 @@ -38308,7 +38308,7 @@ H2Sg(g) 2.69 4.855e+02 0.123 6.547e+00 6.485e+00 -6.203e-02 Specific Conductance (µS/cm, 55°C) = 360 Density (g/cm³) = 1.01071 Volume (L) = 1.07230 - Viscosity (mPa s) = 0.51537 + Viscosity (mPa s) = 0.51538 Activity of water = 0.963 Ionic strength (mol/kgw) = 7.233e-04 Mass of water (kg) = 9.981e-01 @@ -38382,7 +38382,7 @@ H2Sg(g) 2.69 4.846e+02 0.133 6.485e+00 6.411e+00 -7.425e-02 Specific Conductance (µS/cm, 60°C) = 387 Density (g/cm³) = 1.00841 Volume (L) = 1.07706 - Viscosity (mPa s) = 0.47840 + Viscosity (mPa s) = 0.47841 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.519e-04 Mass of water (kg) = 9.979e-01 @@ -38456,7 +38456,7 @@ H2Sg(g) 2.68 4.836e+02 0.143 6.411e+00 6.325e+00 -8.608e-02 Specific Conductance (µS/cm, 65°C) = 414 Density (g/cm³) = 1.00614 Volume (L) = 1.08219 - Viscosity (mPa s) = 0.44570 + Viscosity (mPa s) = 0.44571 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.788e-04 Mass of water (kg) = 9.977e-01 @@ -38530,7 +38530,7 @@ H2Sg(g) 2.68 4.825e+02 0.154 6.325e+00 6.227e+00 -9.767e-02 Specific Conductance (µS/cm, 70°C) = 440 Density (g/cm³) = 1.00391 Volume (L) = 1.08769 - Viscosity (mPa s) = 0.41663 + Viscosity (mPa s) = 0.41664 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.039e-04 Mass of water (kg) = 9.974e-01 @@ -38604,7 +38604,7 @@ H2Sg(g) 2.68 4.814e+02 0.165 6.227e+00 6.118e+00 -1.091e-01 Specific Conductance (µS/cm, 75°C) = 464 Density (g/cm³) = 1.00171 Volume (L) = 1.09357 - Viscosity (mPa s) = 0.39068 + Viscosity (mPa s) = 0.39069 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.270e-04 Mass of water (kg) = 9.972e-01 @@ -38752,7 +38752,7 @@ H2Sg(g) 2.68 4.787e+02 0.188 5.998e+00 5.866e+00 -1.318e-01 Specific Conductance (µS/cm, 85°C) = 508 Density (g/cm³) = 0.99740 Volume (L) = 1.10643 - Viscosity (mPa s) = 0.34648 + Viscosity (mPa s) = 0.34649 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.669e-04 Mass of water (kg) = 9.967e-01 @@ -38826,7 +38826,7 @@ H2Sg(g) 2.68 4.773e+02 0.200 5.866e+00 5.723e+00 -1.431e-01 Specific Conductance (µS/cm, 90°C) = 527 Density (g/cm³) = 0.99530 Volume (L) = 1.11342 - Viscosity (mPa s) = 0.32758 + Viscosity (mPa s) = 0.32759 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.835e-04 Mass of water (kg) = 9.965e-01 @@ -38900,7 +38900,7 @@ H2Sg(g) 2.68 4.757e+02 0.212 5.723e+00 5.568e+00 -1.545e-01 Specific Conductance (µS/cm, 95°C) = 545 Density (g/cm³) = 0.99324 Volume (L) = 1.12078 - Viscosity (mPa s) = 0.31046 + Viscosity (mPa s) = 0.31047 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.978e-04 Mass of water (kg) = 9.963e-01 @@ -38974,7 +38974,7 @@ H2Sg(g) 2.68 4.741e+02 0.225 5.568e+00 5.402e+00 -1.659e-01 Specific Conductance (µS/cm, 100°C) = 560 Density (g/cm³) = 0.99124 Volume (L) = 1.12851 - Viscosity (mPa s) = 0.29489 + Viscosity (mPa s) = 0.29490 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.097e-04 Mass of water (kg) = 9.960e-01 @@ -39048,7 +39048,7 @@ H2Sg(g) 2.67 4.723e+02 0.238 5.402e+00 5.225e+00 -1.774e-01 Specific Conductance (µS/cm, 105°C) = 573 Density (g/cm³) = 0.98928 Volume (L) = 1.13661 - Viscosity (mPa s) = 0.28071 + Viscosity (mPa s) = 0.28072 Activity of water = 0.950 Ionic strength (mol/kgw) = 9.192e-04 Mass of water (kg) = 9.958e-01 @@ -39122,7 +39122,7 @@ H2Sg(g) 2.67 4.704e+02 0.251 5.225e+00 5.036e+00 -1.889e-01 Specific Conductance (µS/cm, 110°C) = 583 Density (g/cm³) = 0.98739 Volume (L) = 1.14507 - Viscosity (mPa s) = 0.26774 + Viscosity (mPa s) = 0.26775 Activity of water = 0.948 Ionic strength (mol/kgw) = 9.263e-04 Mass of water (kg) = 9.955e-01 @@ -39196,7 +39196,7 @@ H2Sg(g) 2.67 4.684e+02 0.264 5.036e+00 4.836e+00 -2.006e-01 Specific Conductance (µS/cm, 115°C) = 591 Density (g/cm³) = 0.98557 Volume (L) = 1.15391 - Viscosity (mPa s) = 0.25586 + Viscosity (mPa s) = 0.25587 Activity of water = 0.946 Ionic strength (mol/kgw) = 9.311e-04 Mass of water (kg) = 9.953e-01 @@ -39270,7 +39270,7 @@ H2Sg(g) 2.67 4.663e+02 0.277 4.836e+00 4.623e+00 -2.123e-01 Specific Conductance (µS/cm, 120°C) = 597 Density (g/cm³) = 0.98383 Volume (L) = 1.16311 - Viscosity (mPa s) = 0.24494 + Viscosity (mPa s) = 0.24495 Activity of water = 0.944 Ionic strength (mol/kgw) = 9.335e-04 Mass of water (kg) = 9.951e-01 @@ -39344,7 +39344,7 @@ H2Sg(g) 2.67 4.640e+02 0.291 4.623e+00 4.399e+00 -2.241e-01 Specific Conductance (µS/cm, 125°C) = 601 Density (g/cm³) = 0.98217 Volume (L) = 1.17267 - Viscosity (mPa s) = 0.23489 + Viscosity (mPa s) = 0.23490 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.337e-04 Mass of water (kg) = 9.950e-01 @@ -39418,7 +39418,7 @@ H2Sg(g) 2.66 4.616e+02 0.305 4.399e+00 4.163e+00 -2.359e-01 Specific Conductance (µS/cm, 130°C) = 602 Density (g/cm³) = 0.98060 Volume (L) = 1.18259 - Viscosity (mPa s) = 0.22561 + Viscosity (mPa s) = 0.22562 Activity of water = 0.939 Ionic strength (mol/kgw) = 9.316e-04 Mass of water (kg) = 9.948e-01 @@ -39492,7 +39492,7 @@ H2Sg(g) 2.66 4.591e+02 0.319 4.163e+00 3.915e+00 -2.479e-01 Specific Conductance (µS/cm, 135°C) = 601 Density (g/cm³) = 0.97915 Volume (L) = 1.19287 - Viscosity (mPa s) = 0.21702 + Viscosity (mPa s) = 0.21703 Activity of water = 0.936 Ionic strength (mol/kgw) = 9.274e-04 Mass of water (kg) = 9.947e-01 @@ -39566,7 +39566,7 @@ H2Sg(g) 2.66 4.564e+02 0.332 3.915e+00 3.656e+00 -2.599e-01 Specific Conductance (µS/cm, 140°C) = 598 Density (g/cm³) = 0.97780 Volume (L) = 1.20350 - Viscosity (mPa s) = 0.20906 + Viscosity (mPa s) = 0.20908 Activity of water = 0.933 Ionic strength (mol/kgw) = 9.212e-04 Mass of water (kg) = 9.946e-01 @@ -39640,7 +39640,7 @@ H2Sg(g) 2.66 4.536e+02 0.347 3.656e+00 3.384e+00 -2.720e-01 Specific Conductance (µS/cm, 145°C) = 593 Density (g/cm³) = 0.97659 Volume (L) = 1.21447 - Viscosity (mPa s) = 0.20167 + Viscosity (mPa s) = 0.20168 Activity of water = 0.930 Ionic strength (mol/kgw) = 9.130e-04 Mass of water (kg) = 9.946e-01 @@ -39714,7 +39714,7 @@ H2Sg(g) 2.65 4.506e+02 0.361 3.384e+00 3.099e+00 -2.842e-01 Specific Conductance (µS/cm, 150°C) = 586 Density (g/cm³) = 0.97552 Volume (L) = 1.22579 - Viscosity (mPa s) = 0.19479 + Viscosity (mPa s) = 0.19481 Activity of water = 0.927 Ionic strength (mol/kgw) = 9.031e-04 Mass of water (kg) = 9.947e-01 @@ -39788,7 +39788,7 @@ H2Sg(g) 2.65 4.475e+02 0.375 3.099e+00 2.803e+00 -2.965e-01 Specific Conductance (µS/cm, 155°C) = 578 Density (g/cm³) = 0.97460 Volume (L) = 1.23743 - Viscosity (mPa s) = 0.18838 + Viscosity (mPa s) = 0.18840 Activity of water = 0.924 Ionic strength (mol/kgw) = 8.914e-04 Mass of water (kg) = 9.948e-01 @@ -39862,7 +39862,7 @@ H2Sg(g) 2.65 4.442e+02 0.389 2.803e+00 2.494e+00 -3.089e-01 Specific Conductance (µS/cm, 160°C) = 568 Density (g/cm³) = 0.97386 Volume (L) = 1.24941 - Viscosity (mPa s) = 0.18239 + Viscosity (mPa s) = 0.18241 Activity of water = 0.921 Ionic strength (mol/kgw) = 8.782e-04 Mass of water (kg) = 9.950e-01 @@ -39936,7 +39936,7 @@ H2Sg(g) 2.64 4.408e+02 0.404 2.494e+00 2.172e+00 -3.216e-01 Specific Conductance (µS/cm, 165°C) = 557 Density (g/cm³) = 0.97330 Volume (L) = 1.26170 - Viscosity (mPa s) = 0.17679 + Viscosity (mPa s) = 0.17681 Activity of water = 0.917 Ionic strength (mol/kgw) = 8.635e-04 Mass of water (kg) = 9.953e-01 @@ -40010,7 +40010,7 @@ H2Sg(g) 2.64 4.372e+02 0.418 2.172e+00 1.838e+00 -3.345e-01 Specific Conductance (µS/cm, 170°C) = 545 Density (g/cm³) = 0.97295 Volume (L) = 1.27430 - Viscosity (mPa s) = 0.17154 + Viscosity (mPa s) = 0.17156 Activity of water = 0.914 Ionic strength (mol/kgw) = 8.476e-04 Mass of water (kg) = 9.957e-01 @@ -40084,7 +40084,7 @@ H2Sg(g) 2.64 4.335e+02 0.433 1.838e+00 1.490e+00 -3.476e-01 Specific Conductance (µS/cm, 175°C) = 532 Density (g/cm³) = 0.97282 Volume (L) = 1.28720 - Viscosity (mPa s) = 0.16661 + Viscosity (mPa s) = 0.16663 Activity of water = 0.910 Ionic strength (mol/kgw) = 8.304e-04 Mass of water (kg) = 9.963e-01 @@ -40158,7 +40158,7 @@ H2Sg(g) 2.63 4.296e+02 0.447 1.490e+00 1.129e+00 -3.612e-01 Specific Conductance (µS/cm, 180°C) = 518 Density (g/cm³) = 0.97295 Volume (L) = 1.30040 - Viscosity (mPa s) = 0.16198 + Viscosity (mPa s) = 0.16200 Activity of water = 0.907 Ionic strength (mol/kgw) = 8.123e-04 Mass of water (kg) = 9.970e-01 @@ -40232,7 +40232,7 @@ H2Sg(g) 2.63 4.256e+02 0.462 1.129e+00 7.537e-01 -3.753e-01 Specific Conductance (µS/cm, 185°C) = 503 Density (g/cm³) = 0.97336 Volume (L) = 1.31387 - Viscosity (mPa s) = 0.15762 + Viscosity (mPa s) = 0.15764 Activity of water = 0.903 Ionic strength (mol/kgw) = 7.932e-04 Mass of water (kg) = 9.978e-01 @@ -40306,7 +40306,7 @@ H2Sg(g) 2.62 4.215e+02 0.476 7.537e-01 3.637e-01 -3.900e-01 Specific Conductance (µS/cm, 190°C) = 488 Density (g/cm³) = 0.97408 Volume (L) = 1.32762 - Viscosity (mPa s) = 0.15351 + Viscosity (mPa s) = 0.15353 Activity of water = 0.899 Ionic strength (mol/kgw) = 7.734e-04 Mass of water (kg) = 9.989e-01 @@ -40368,7 +40368,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 472 Density (g/cm³) = 0.97474 Volume (L) = 1.34058 - Viscosity (mPa s) = 0.14962 + Viscosity (mPa s) = 0.14964 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.519e-04 Mass of water (kg) = 1.000e+00 @@ -40430,7 +40430,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 456 Density (g/cm³) = 0.97195 Volume (L) = 1.34444 - Viscosity (mPa s) = 0.14594 + Viscosity (mPa s) = 0.14596 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.209e-04 Mass of water (kg) = 1.000e+00 @@ -40492,7 +40492,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 440 Density (g/cm³) = 0.96915 Volume (L) = 1.34831 - Viscosity (mPa s) = 0.14245 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14246 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.904e-04 Mass of water (kg) = 1.000e+00 @@ -40554,7 +40554,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 423 Density (g/cm³) = 0.96637 Volume (L) = 1.35220 - Viscosity (mPa s) = 0.13909 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13911 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.603e-04 Mass of water (kg) = 1.000e+00 @@ -40616,7 +40616,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 409 Density (g/cm³) = 0.96361 Volume (L) = 1.35606 - Viscosity (mPa s) = 0.13566 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13568 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.309e-04 Mass of water (kg) = 1.000e+00 @@ -40678,7 +40678,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 387 Density (g/cm³) = 0.96090 Volume (L) = 1.35990 - Viscosity (mPa s) = 0.13362 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13364 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.022e-04 Mass of water (kg) = 1.000e+00 @@ -40737,10 +40737,10 @@ Using pressure 1. pH = 3.287 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 225°C) = 373 + Specific Conductance (µS/cm, 225°C) = 372 Density (g/cm³) = 0.95823 Volume (L) = 1.36367 - Viscosity (mPa s) = 0.13049 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13050 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.742e-04 Mass of water (kg) = 1.000e+00 @@ -40802,7 +40802,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 357 Density (g/cm³) = 0.95565 Volume (L) = 1.36736 - Viscosity (mPa s) = 0.12773 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12775 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.469e-04 Mass of water (kg) = 1.000e+00 @@ -40864,7 +40864,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 342 Density (g/cm³) = 0.95317 Volume (L) = 1.37093 - Viscosity (mPa s) = 0.12513 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12515 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 5.205e-04 Mass of water (kg) = 1.000e+00 @@ -40926,7 +40926,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 327 Density (g/cm³) = 0.95081 Volume (L) = 1.37432 - Viscosity (mPa s) = 0.12265 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12267 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.950e-04 Mass of water (kg) = 1.000e+00 @@ -40988,7 +40988,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 312 Density (g/cm³) = 0.94862 Volume (L) = 1.37750 - Viscosity (mPa s) = 0.12028 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12030 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.703e-04 Mass of water (kg) = 1.000e+00 @@ -41050,7 +41050,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 298 Density (g/cm³) = 0.94663 Volume (L) = 1.38039 - Viscosity (mPa s) = 0.11801 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11803 (solute contributions limited to 200 °C) Activity of water = 0.892 Ionic strength (mol/kgw) = 4.466e-04 Mass of water (kg) = 1.000e+00 @@ -41464,7 +41464,7 @@ H2Sg(g) 2.73 5.358e+02 0.101 6.595e+00 6.559e+00 -3.632e-02 Specific Conductance (µS/cm, 45°C) = 309 Density (g/cm³) = 1.01757 Volume (L) = 1.06300 - Viscosity (mPa s) = 0.60649 + Viscosity (mPa s) = 0.60650 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.725e-04 Mass of water (kg) = 9.985e-01 @@ -41834,7 +41834,7 @@ H2Sg(g) 2.72 5.308e+02 0.150 6.278e+00 6.176e+00 -1.017e-01 Specific Conductance (µS/cm, 70°C) = 446 Density (g/cm³) = 1.00584 Volume (L) = 1.08738 - Viscosity (mPa s) = 0.41795 + Viscosity (mPa s) = 0.41796 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.173e-04 Mass of water (kg) = 9.975e-01 @@ -41982,7 +41982,7 @@ H2Sg(g) 2.72 5.282e+02 0.172 6.062e+00 5.936e+00 -1.259e-01 Specific Conductance (µS/cm, 80°C) = 494 Density (g/cm³) = 1.00144 Volume (L) = 1.09987 - Viscosity (mPa s) = 0.36874 + Viscosity (mPa s) = 0.36875 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.627e-04 Mass of water (kg) = 9.970e-01 @@ -42056,7 +42056,7 @@ H2Sg(g) 2.72 5.267e+02 0.183 5.936e+00 5.798e+00 -1.380e-01 Specific Conductance (µS/cm, 85°C) = 515 Density (g/cm³) = 0.99929 Volume (L) = 1.10670 - Viscosity (mPa s) = 0.34781 + Viscosity (mPa s) = 0.34782 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.821e-04 Mass of water (kg) = 9.968e-01 @@ -42130,7 +42130,7 @@ H2Sg(g) 2.72 5.251e+02 0.195 5.798e+00 5.648e+00 -1.502e-01 Specific Conductance (µS/cm, 90°C) = 534 Density (g/cm³) = 0.99720 Volume (L) = 1.11393 - Viscosity (mPa s) = 0.32890 + Viscosity (mPa s) = 0.32891 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.993e-04 Mass of water (kg) = 9.966e-01 @@ -42204,7 +42204,7 @@ H2Sg(g) 2.72 5.234e+02 0.207 5.648e+00 5.486e+00 -1.625e-01 Specific Conductance (µS/cm, 95°C) = 552 Density (g/cm³) = 0.99515 Volume (L) = 1.12156 - Viscosity (mPa s) = 0.31176 + Viscosity (mPa s) = 0.31177 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.141e-04 Mass of water (kg) = 9.963e-01 @@ -42278,7 +42278,7 @@ H2Sg(g) 2.72 5.216e+02 0.219 5.486e+00 5.311e+00 -1.749e-01 Specific Conductance (µS/cm, 100°C) = 567 Density (g/cm³) = 0.99316 Volume (L) = 1.12958 - Viscosity (mPa s) = 0.29620 + Viscosity (mPa s) = 0.29621 Activity of water = 0.951 Ionic strength (mol/kgw) = 9.265e-04 Mass of water (kg) = 9.961e-01 @@ -42352,7 +42352,7 @@ H2Sg(g) 2.72 5.197e+02 0.231 5.311e+00 5.123e+00 -1.875e-01 Specific Conductance (µS/cm, 105°C) = 579 Density (g/cm³) = 0.99123 Volume (L) = 1.13800 - Viscosity (mPa s) = 0.28200 + Viscosity (mPa s) = 0.28201 Activity of water = 0.949 Ionic strength (mol/kgw) = 9.365e-04 Mass of water (kg) = 9.959e-01 @@ -42426,7 +42426,7 @@ H2Sg(g) 2.71 5.176e+02 0.244 5.123e+00 4.923e+00 -2.002e-01 Specific Conductance (µS/cm, 110°C) = 590 Density (g/cm³) = 0.98937 Volume (L) = 1.14682 - Viscosity (mPa s) = 0.26902 + Viscosity (mPa s) = 0.26903 Activity of water = 0.947 Ionic strength (mol/kgw) = 9.441e-04 Mass of water (kg) = 9.957e-01 @@ -42500,7 +42500,7 @@ H2Sg(g) 2.71 5.154e+02 0.257 4.923e+00 4.710e+00 -2.131e-01 Specific Conductance (µS/cm, 115°C) = 598 Density (g/cm³) = 0.98760 Volume (L) = 1.15604 - Viscosity (mPa s) = 0.25712 + Viscosity (mPa s) = 0.25713 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.493e-04 Mass of water (kg) = 9.955e-01 @@ -42571,10 +42571,10 @@ H2Sg(g) 2.71 5.131e+02 0.270 4.710e+00 4.484e+00 -2.261e-01 pH = 3.054 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 604 + Specific Conductance (µS/cm, 120°C) = 603 Density (g/cm³) = 0.98591 Volume (L) = 1.16566 - Viscosity (mPa s) = 0.24619 + Viscosity (mPa s) = 0.24620 Activity of water = 0.942 Ionic strength (mol/kgw) = 9.522e-04 Mass of water (kg) = 9.953e-01 @@ -42648,7 +42648,7 @@ H2Sg(g) 2.71 5.106e+02 0.283 4.484e+00 4.244e+00 -2.394e-01 Specific Conductance (µS/cm, 125°C) = 607 Density (g/cm³) = 0.98432 Volume (L) = 1.17569 - Viscosity (mPa s) = 0.23612 + Viscosity (mPa s) = 0.23613 Activity of water = 0.940 Ionic strength (mol/kgw) = 9.528e-04 Mass of water (kg) = 9.952e-01 @@ -42722,7 +42722,7 @@ H2Sg(g) 2.71 5.080e+02 0.297 4.244e+00 3.992e+00 -2.528e-01 Specific Conductance (µS/cm, 130°C) = 608 Density (g/cm³) = 0.98285 Volume (L) = 1.18611 - Viscosity (mPa s) = 0.22683 + Viscosity (mPa s) = 0.22684 Activity of water = 0.937 Ionic strength (mol/kgw) = 9.511e-04 Mass of water (kg) = 9.951e-01 @@ -42796,7 +42796,7 @@ H2Sg(g) 2.70 5.053e+02 0.310 3.992e+00 3.725e+00 -2.664e-01 Specific Conductance (µS/cm, 135°C) = 607 Density (g/cm³) = 0.98150 Volume (L) = 1.19693 - Viscosity (mPa s) = 0.21823 + Viscosity (mPa s) = 0.21824 Activity of water = 0.934 Ionic strength (mol/kgw) = 9.473e-04 Mass of water (kg) = 9.950e-01 @@ -42870,7 +42870,7 @@ H2Sg(g) 2.70 5.024e+02 0.324 3.725e+00 3.445e+00 -2.802e-01 Specific Conductance (µS/cm, 140°C) = 603 Density (g/cm³) = 0.98028 Volume (L) = 1.20815 - Viscosity (mPa s) = 0.21026 + Viscosity (mPa s) = 0.21027 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.414e-04 Mass of water (kg) = 9.950e-01 @@ -42944,7 +42944,7 @@ H2Sg(g) 2.70 4.993e+02 0.338 3.445e+00 3.151e+00 -2.943e-01 Specific Conductance (µS/cm, 145°C) = 598 Density (g/cm³) = 0.97921 Volume (L) = 1.21976 - Viscosity (mPa s) = 0.20286 + Viscosity (mPa s) = 0.20287 Activity of water = 0.928 Ionic strength (mol/kgw) = 9.335e-04 Mass of water (kg) = 9.951e-01 @@ -43018,7 +43018,7 @@ H2Sg(g) 2.70 4.961e+02 0.352 3.151e+00 2.842e+00 -3.086e-01 Specific Conductance (µS/cm, 150°C) = 591 Density (g/cm³) = 0.97831 Volume (L) = 1.23176 - Viscosity (mPa s) = 0.19597 + Viscosity (mPa s) = 0.19598 Activity of water = 0.925 Ionic strength (mol/kgw) = 9.238e-04 Mass of water (kg) = 9.952e-01 @@ -43092,7 +43092,7 @@ H2Sg(g) 2.69 4.927e+02 0.366 2.842e+00 2.519e+00 -3.232e-01 Specific Conductance (µS/cm, 155°C) = 582 Density (g/cm³) = 0.97759 Volume (L) = 1.24415 - Viscosity (mPa s) = 0.18954 + Viscosity (mPa s) = 0.18956 Activity of water = 0.921 Ionic strength (mol/kgw) = 9.124e-04 Mass of water (kg) = 9.954e-01 @@ -43166,7 +43166,7 @@ H2Sg(g) 2.69 4.892e+02 0.380 2.519e+00 2.181e+00 -3.381e-01 Specific Conductance (µS/cm, 160°C) = 572 Density (g/cm³) = 0.97707 Volume (L) = 1.25692 - Viscosity (mPa s) = 0.18355 + Viscosity (mPa s) = 0.18356 Activity of water = 0.918 Ionic strength (mol/kgw) = 8.994e-04 Mass of water (kg) = 9.957e-01 @@ -43240,7 +43240,7 @@ H2Sg(g) 2.69 4.855e+02 0.394 2.181e+00 1.827e+00 -3.534e-01 Specific Conductance (µS/cm, 165°C) = 561 Density (g/cm³) = 0.97677 Volume (L) = 1.27007 - Viscosity (mPa s) = 0.17793 + Viscosity (mPa s) = 0.17795 Activity of water = 0.914 Ionic strength (mol/kgw) = 8.849e-04 Mass of water (kg) = 9.961e-01 @@ -43314,7 +43314,7 @@ H2Sg(g) 2.68 4.817e+02 0.408 1.827e+00 1.458e+00 -3.692e-01 Specific Conductance (µS/cm, 170°C) = 548 Density (g/cm³) = 0.97671 Volume (L) = 1.28359 - Viscosity (mPa s) = 0.17268 + Viscosity (mPa s) = 0.17269 Activity of water = 0.910 Ionic strength (mol/kgw) = 8.691e-04 Mass of water (kg) = 9.967e-01 @@ -43388,7 +43388,7 @@ H2Sg(g) 2.68 4.777e+02 0.422 1.458e+00 1.073e+00 -3.855e-01 Specific Conductance (µS/cm, 175°C) = 534 Density (g/cm³) = 0.97692 Volume (L) = 1.29749 - Viscosity (mPa s) = 0.16774 + Viscosity (mPa s) = 0.16776 Activity of water = 0.906 Ionic strength (mol/kgw) = 8.521e-04 Mass of water (kg) = 9.974e-01 @@ -43462,7 +43462,7 @@ H2Sg(g) 2.68 4.735e+02 0.437 1.073e+00 6.700e-01 -4.026e-01 Specific Conductance (µS/cm, 180°C) = 520 Density (g/cm³) = 0.97742 Volume (L) = 1.31174 - Viscosity (mPa s) = 0.16310 + Viscosity (mPa s) = 0.16312 Activity of water = 0.902 Ionic strength (mol/kgw) = 8.340e-04 Mass of water (kg) = 9.982e-01 @@ -43536,7 +43536,7 @@ H2Sg(g) 2.67 4.692e+02 0.451 6.700e-01 2.496e-01 -4.204e-01 Specific Conductance (µS/cm, 185°C) = 505 Density (g/cm³) = 0.97826 Volume (L) = 1.32635 - Viscosity (mPa s) = 0.15873 + Viscosity (mPa s) = 0.15875 Activity of water = 0.898 Ionic strength (mol/kgw) = 8.150e-04 Mass of water (kg) = 9.993e-01 @@ -43598,7 +43598,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 489 Density (g/cm³) = 0.97775 Volume (L) = 1.33646 - Viscosity (mPa s) = 0.15462 + Viscosity (mPa s) = 0.15463 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.902e-04 Mass of water (kg) = 1.000e+00 @@ -43660,7 +43660,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 473 Density (g/cm³) = 0.97504 Volume (L) = 1.34017 - Viscosity (mPa s) = 0.15073 + Viscosity (mPa s) = 0.15074 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.586e-04 Mass of water (kg) = 1.000e+00 @@ -43722,7 +43722,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 457 Density (g/cm³) = 0.97234 Volume (L) = 1.34390 - Viscosity (mPa s) = 0.14704 + Viscosity (mPa s) = 0.14706 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.274e-04 Mass of water (kg) = 1.000e+00 @@ -43781,10 +43781,10 @@ Using pressure 1. pH = 3.204 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 205°C) = 441 + Specific Conductance (µS/cm, 205°C) = 440 Density (g/cm³) = 0.96963 Volume (L) = 1.34764 - Viscosity (mPa s) = 0.14355 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14357 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.966e-04 Mass of water (kg) = 1.000e+00 @@ -43846,7 +43846,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 424 Density (g/cm³) = 0.96695 Volume (L) = 1.35139 - Viscosity (mPa s) = 0.14022 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14024 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.663e-04 Mass of water (kg) = 1.000e+00 @@ -43908,7 +43908,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 408 Density (g/cm³) = 0.96428 Volume (L) = 1.35512 - Viscosity (mPa s) = 0.13698 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13700 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.367e-04 Mass of water (kg) = 1.000e+00 @@ -43970,7 +43970,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 458 Density (g/cm³) = 0.96166 Volume (L) = 1.35881 - Viscosity (mPa s) = 0.12432 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12434 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.077e-04 Mass of water (kg) = 1.000e+00 @@ -44032,7 +44032,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 373 Density (g/cm³) = 0.95910 Volume (L) = 1.36245 - Viscosity (mPa s) = 0.13166 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13168 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.794e-04 Mass of water (kg) = 1.000e+00 @@ -44094,7 +44094,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 358 Density (g/cm³) = 0.95660 Volume (L) = 1.36600 - Viscosity (mPa s) = 0.12884 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12886 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.520e-04 Mass of water (kg) = 1.000e+00 @@ -44153,10 +44153,10 @@ Using pressure 1. pH = 3.326 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 235°C) = 343 + Specific Conductance (µS/cm, 235°C) = 342 Density (g/cm³) = 0.95421 Volume (L) = 1.36943 - Viscosity (mPa s) = 0.12623 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12625 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.254e-04 Mass of water (kg) = 1.000e+00 @@ -44215,10 +44215,10 @@ Using pressure 1. pH = 3.347 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 240°C) = 328 + Specific Conductance (µS/cm, 240°C) = 327 Density (g/cm³) = 0.95193 Volume (L) = 1.37270 - Viscosity (mPa s) = 0.12375 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12377 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.996e-04 Mass of water (kg) = 1.000e+00 @@ -44280,7 +44280,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 313 Density (g/cm³) = 0.94981 Volume (L) = 1.37577 - Viscosity (mPa s) = 0.12138 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12140 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.747e-04 Mass of water (kg) = 1.000e+00 @@ -44342,7 +44342,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 299 Density (g/cm³) = 0.94789 Volume (L) = 1.37856 - Viscosity (mPa s) = 0.11911 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11913 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.508e-04 Mass of water (kg) = 1.000e+00 @@ -44608,7 +44608,7 @@ H2Sg(g) 2.77 5.862e+02 0.083 6.582e+00 6.580e+00 -2.446e-03 Specific Conductance (µS/cm, 35°C) = 257 Density (g/cm³) = 1.02493 Volume (L) = 1.05498 - Viscosity (mPa s) = 0.72621 + Viscosity (mPa s) = 0.72622 Activity of water = 0.962 Ionic strength (mol/kgw) = 6.151e-04 Mass of water (kg) = 9.988e-01 @@ -44682,7 +44682,7 @@ H2Sg(g) 2.77 5.854e+02 0.091 6.580e+00 6.560e+00 -2.034e-02 Specific Conductance (µS/cm, 40°C) = 285 Density (g/cm³) = 1.02221 Volume (L) = 1.05831 - Viscosity (mPa s) = 0.66259 + Viscosity (mPa s) = 0.66260 Activity of water = 0.963 Ionic strength (mol/kgw) = 6.494e-04 Mass of water (kg) = 9.987e-01 @@ -44756,7 +44756,7 @@ H2Sg(g) 2.77 5.846e+02 0.100 6.560e+00 6.523e+00 -3.650e-02 Specific Conductance (µS/cm, 45°C) = 314 Density (g/cm³) = 1.01962 Volume (L) = 1.06206 - Viscosity (mPa s) = 0.60761 + Viscosity (mPa s) = 0.60762 Activity of water = 0.962 Ionic strength (mol/kgw) = 6.829e-04 Mass of water (kg) = 9.985e-01 @@ -44978,7 +44978,7 @@ H2Sg(g) 2.76 5.816e+02 0.127 6.406e+00 6.327e+00 -7.903e-02 Specific Conductance (µS/cm, 60°C) = 399 Density (g/cm³) = 1.01230 Volume (L) = 1.07580 - Viscosity (mPa s) = 0.48098 + Viscosity (mPa s) = 0.48099 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.763e-04 Mass of water (kg) = 9.979e-01 @@ -45126,7 +45126,7 @@ H2Sg(g) 2.76 5.791e+02 0.147 6.235e+00 6.130e+00 -1.051e-01 Specific Conductance (µS/cm, 70°C) = 452 Density (g/cm³) = 1.00768 Volume (L) = 1.08700 - Viscosity (mPa s) = 0.41928 + Viscosity (mPa s) = 0.41929 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.306e-04 Mass of water (kg) = 9.975e-01 @@ -45200,7 +45200,7 @@ H2Sg(g) 2.76 5.778e+02 0.158 6.130e+00 6.012e+00 -1.179e-01 Specific Conductance (µS/cm, 75°C) = 477 Density (g/cm³) = 1.00543 Volume (L) = 1.09321 - Viscosity (mPa s) = 0.39334 + Viscosity (mPa s) = 0.39335 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.549e-04 Mass of water (kg) = 9.973e-01 @@ -45348,7 +45348,7 @@ H2Sg(g) 2.76 5.747e+02 0.180 5.881e+00 5.738e+00 -1.436e-01 Specific Conductance (µS/cm, 85°C) = 521 Density (g/cm³) = 1.00106 Volume (L) = 1.10688 - Viscosity (mPa s) = 0.34913 + Viscosity (mPa s) = 0.34914 Activity of water = 0.955 Ionic strength (mol/kgw) = 8.971e-04 Mass of water (kg) = 9.969e-01 @@ -45496,7 +45496,7 @@ H2Sg(g) 2.76 5.711e+02 0.203 5.581e+00 5.411e+00 -1.698e-01 Specific Conductance (µS/cm, 95°C) = 558 Density (g/cm³) = 0.99689 Volume (L) = 1.12222 - Viscosity (mPa s) = 0.31307 + Viscosity (mPa s) = 0.31308 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.301e-04 Mass of water (kg) = 9.964e-01 @@ -45570,7 +45570,7 @@ H2Sg(g) 2.76 5.692e+02 0.215 5.411e+00 5.228e+00 -1.832e-01 Specific Conductance (µS/cm, 100°C) = 573 Density (g/cm³) = 0.99490 Volume (L) = 1.13053 - Viscosity (mPa s) = 0.29749 + Viscosity (mPa s) = 0.29750 Activity of water = 0.950 Ionic strength (mol/kgw) = 9.430e-04 Mass of water (kg) = 9.962e-01 @@ -45644,7 +45644,7 @@ H2Sg(g) 2.75 5.671e+02 0.227 5.228e+00 5.031e+00 -1.967e-01 Specific Conductance (µS/cm, 105°C) = 586 Density (g/cm³) = 0.99297 Volume (L) = 1.13926 - Viscosity (mPa s) = 0.28328 + Viscosity (mPa s) = 0.28329 Activity of water = 0.948 Ionic strength (mol/kgw) = 9.535e-04 Mass of water (kg) = 9.960e-01 @@ -45718,7 +45718,7 @@ H2Sg(g) 2.75 5.649e+02 0.239 5.031e+00 4.821e+00 -2.106e-01 Specific Conductance (µS/cm, 110°C) = 596 Density (g/cm³) = 0.99113 Volume (L) = 1.14843 - Viscosity (mPa s) = 0.27029 + Viscosity (mPa s) = 0.27030 Activity of water = 0.946 Ionic strength (mol/kgw) = 9.616e-04 Mass of water (kg) = 9.958e-01 @@ -45792,7 +45792,7 @@ H2Sg(g) 2.75 5.625e+02 0.252 4.821e+00 4.596e+00 -2.247e-01 Specific Conductance (µS/cm, 115°C) = 604 Density (g/cm³) = 0.98938 Volume (L) = 1.15803 - Viscosity (mPa s) = 0.25838 + Viscosity (mPa s) = 0.25839 Activity of water = 0.943 Ionic strength (mol/kgw) = 9.673e-04 Mass of water (kg) = 9.956e-01 @@ -45866,7 +45866,7 @@ H2Sg(g) 2.75 5.600e+02 0.265 4.596e+00 4.357e+00 -2.390e-01 Specific Conductance (µS/cm, 120°C) = 610 Density (g/cm³) = 0.98772 Volume (L) = 1.16807 - Viscosity (mPa s) = 0.24743 + Viscosity (mPa s) = 0.24744 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.705e-04 Mass of water (kg) = 9.955e-01 @@ -45940,7 +45940,7 @@ H2Sg(g) 2.75 5.574e+02 0.278 4.357e+00 4.103e+00 -2.537e-01 Specific Conductance (µS/cm, 125°C) = 613 Density (g/cm³) = 0.98618 Volume (L) = 1.17855 - Viscosity (mPa s) = 0.23735 + Viscosity (mPa s) = 0.23736 Activity of water = 0.938 Ionic strength (mol/kgw) = 9.715e-04 Mass of water (kg) = 9.954e-01 @@ -46014,7 +46014,7 @@ H2Sg(g) 2.74 5.546e+02 0.291 4.103e+00 3.835e+00 -2.686e-01 Specific Conductance (µS/cm, 130°C) = 613 Density (g/cm³) = 0.98476 Volume (L) = 1.18947 - Viscosity (mPa s) = 0.22804 + Viscosity (mPa s) = 0.22805 Activity of water = 0.935 Ionic strength (mol/kgw) = 9.701e-04 Mass of water (kg) = 9.953e-01 @@ -46088,7 +46088,7 @@ H2Sg(g) 2.74 5.516e+02 0.304 3.835e+00 3.551e+00 -2.839e-01 Specific Conductance (µS/cm, 135°C) = 612 Density (g/cm³) = 0.98348 Volume (L) = 1.20084 - Viscosity (mPa s) = 0.21943 + Viscosity (mPa s) = 0.21944 Activity of water = 0.932 Ionic strength (mol/kgw) = 9.666e-04 Mass of water (kg) = 9.953e-01 @@ -46162,7 +46162,7 @@ H2Sg(g) 2.74 5.485e+02 0.318 3.551e+00 3.251e+00 -2.995e-01 Specific Conductance (µS/cm, 140°C) = 608 Density (g/cm³) = 0.98235 Volume (L) = 1.21265 - Viscosity (mPa s) = 0.21145 + Viscosity (mPa s) = 0.21146 Activity of water = 0.929 Ionic strength (mol/kgw) = 9.610e-04 Mass of water (kg) = 9.953e-01 @@ -46236,7 +46236,7 @@ H2Sg(g) 2.74 5.452e+02 0.331 3.251e+00 2.936e+00 -3.155e-01 Specific Conductance (µS/cm, 145°C) = 603 Density (g/cm³) = 0.98139 Volume (L) = 1.22490 - Viscosity (mPa s) = 0.20403 + Viscosity (mPa s) = 0.20405 Activity of water = 0.926 Ionic strength (mol/kgw) = 9.535e-04 Mass of water (kg) = 9.954e-01 @@ -46310,7 +46310,7 @@ H2Sg(g) 2.73 5.417e+02 0.345 2.936e+00 2.604e+00 -3.319e-01 Specific Conductance (µS/cm, 150°C) = 595 Density (g/cm³) = 0.98062 Volume (L) = 1.23760 - Viscosity (mPa s) = 0.19713 + Viscosity (mPa s) = 0.19715 Activity of water = 0.922 Ionic strength (mol/kgw) = 9.440e-04 Mass of water (kg) = 9.956e-01 @@ -46384,7 +46384,7 @@ H2Sg(g) 2.73 5.381e+02 0.359 2.604e+00 2.255e+00 -3.487e-01 Specific Conductance (µS/cm, 155°C) = 586 Density (g/cm³) = 0.98004 Volume (L) = 1.25074 - Viscosity (mPa s) = 0.19070 + Viscosity (mPa s) = 0.19071 Activity of water = 0.919 Ionic strength (mol/kgw) = 9.328e-04 Mass of water (kg) = 9.959e-01 @@ -46458,7 +46458,7 @@ H2Sg(g) 2.73 5.344e+02 0.373 2.255e+00 1.889e+00 -3.661e-01 Specific Conductance (µS/cm, 160°C) = 575 Density (g/cm³) = 0.97970 Volume (L) = 1.26433 - Viscosity (mPa s) = 0.18469 + Viscosity (mPa s) = 0.18471 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.200e-04 Mass of water (kg) = 9.963e-01 @@ -46529,10 +46529,10 @@ H2Sg(g) 2.72 5.304e+02 0.387 1.889e+00 1.505e+00 -3.841e-01 pH = 3.086 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 165°C) = 564 + Specific Conductance (µS/cm, 165°C) = 563 Density (g/cm³) = 0.97959 Volume (L) = 1.27836 - Viscosity (mPa s) = 0.17907 + Viscosity (mPa s) = 0.17908 Activity of water = 0.911 Ionic strength (mol/kgw) = 9.056e-04 Mass of water (kg) = 9.968e-01 @@ -46606,7 +46606,7 @@ H2Sg(g) 2.72 5.263e+02 0.401 1.505e+00 1.102e+00 -4.028e-01 Specific Conductance (µS/cm, 170°C) = 550 Density (g/cm³) = 0.97977 Volume (L) = 1.29283 - Viscosity (mPa s) = 0.17380 + Viscosity (mPa s) = 0.17382 Activity of water = 0.907 Ionic strength (mol/kgw) = 8.899e-04 Mass of water (kg) = 9.975e-01 @@ -46680,7 +46680,7 @@ H2Sg(g) 2.72 5.221e+02 0.415 1.102e+00 6.800e-01 -4.223e-01 Specific Conductance (µS/cm, 175°C) = 536 Density (g/cm³) = 0.98024 Volume (L) = 1.30775 - Viscosity (mPa s) = 0.16886 + Viscosity (mPa s) = 0.16887 Activity of water = 0.903 Ionic strength (mol/kgw) = 8.730e-04 Mass of water (kg) = 9.984e-01 @@ -46751,10 +46751,10 @@ H2Sg(g) 2.71 5.177e+02 0.429 6.800e-01 2.371e-01 -4.428e-01 pH = 3.114 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 522 + Specific Conductance (µS/cm, 180°C) = 521 Density (g/cm³) = 0.98105 Volume (L) = 1.32310 - Viscosity (mPa s) = 0.16421 + Viscosity (mPa s) = 0.16423 Activity of water = 0.898 Ionic strength (mol/kgw) = 8.550e-04 Mass of water (kg) = 9.994e-01 @@ -46816,7 +46816,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 506 Density (g/cm³) = 0.98034 Volume (L) = 1.33292 - Viscosity (mPa s) = 0.15984 + Viscosity (mPa s) = 0.15985 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.297e-04 Mass of water (kg) = 1.000e+00 @@ -46878,7 +46878,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 490 Density (g/cm³) = 0.97772 Volume (L) = 1.33650 - Viscosity (mPa s) = 0.15571 + Viscosity (mPa s) = 0.15573 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.976e-04 Mass of water (kg) = 1.000e+00 @@ -46940,7 +46940,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 474 Density (g/cm³) = 0.97508 Volume (L) = 1.34011 - Viscosity (mPa s) = 0.15182 + Viscosity (mPa s) = 0.15184 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.657e-04 Mass of water (kg) = 1.000e+00 @@ -47002,7 +47002,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 458 Density (g/cm³) = 0.97245 Volume (L) = 1.34374 - Viscosity (mPa s) = 0.14813 + Viscosity (mPa s) = 0.14815 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.342e-04 Mass of water (kg) = 1.000e+00 @@ -47064,7 +47064,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 441 Density (g/cm³) = 0.96982 Volume (L) = 1.34738 - Viscosity (mPa s) = 0.14464 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14466 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.031e-04 Mass of water (kg) = 1.000e+00 @@ -47126,7 +47126,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 425 Density (g/cm³) = 0.96721 Volume (L) = 1.35102 - Viscosity (mPa s) = 0.14132 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14134 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.726e-04 Mass of water (kg) = 1.000e+00 @@ -47188,7 +47188,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 409 Density (g/cm³) = 0.96462 Volume (L) = 1.35465 - Viscosity (mPa s) = 0.13813 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13815 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.426e-04 Mass of water (kg) = 1.000e+00 @@ -47250,7 +47250,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 394 Density (g/cm³) = 0.96207 Volume (L) = 1.35824 - Viscosity (mPa s) = 0.13488 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13490 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.134e-04 Mass of water (kg) = 1.000e+00 @@ -47312,7 +47312,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 372 Density (g/cm³) = 0.95957 Volume (L) = 1.36177 - Viscosity (mPa s) = 0.13302 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13304 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.849e-04 Mass of water (kg) = 1.000e+00 @@ -47374,7 +47374,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 358 Density (g/cm³) = 0.95715 Volume (L) = 1.36522 - Viscosity (mPa s) = 0.12996 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12997 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.572e-04 Mass of water (kg) = 1.000e+00 @@ -47436,7 +47436,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 343 Density (g/cm³) = 0.95481 Volume (L) = 1.36857 - Viscosity (mPa s) = 0.12732 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12733 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.303e-04 Mass of water (kg) = 1.000e+00 @@ -47498,7 +47498,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 328 Density (g/cm³) = 0.95259 Volume (L) = 1.37176 - Viscosity (mPa s) = 0.12483 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12485 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.043e-04 Mass of water (kg) = 1.000e+00 @@ -47557,10 +47557,10 @@ Using pressure 1. pH = 3.365 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 245°C) = 314 + Specific Conductance (µS/cm, 245°C) = 313 Density (g/cm³) = 0.95050 Volume (L) = 1.37477 - Viscosity (mPa s) = 0.12246 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12248 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.792e-04 Mass of water (kg) = 1.000e+00 @@ -47622,7 +47622,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 299 Density (g/cm³) = 0.94860 Volume (L) = 1.37753 - Viscosity (mPa s) = 0.12019 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12021 (solute contributions limited to 200 °C) Activity of water = 0.893 Ionic strength (mol/kgw) = 4.550e-04 Mass of water (kg) = 1.000e+00 @@ -48036,7 +48036,7 @@ H2Sg(g) 2.80 6.334e+02 0.099 6.526e+00 6.490e+00 -3.622e-02 Specific Conductance (µS/cm, 45°C) = 318 Density (g/cm³) = 1.02163 Volume (L) = 1.06109 - Viscosity (mPa s) = 0.60876 + Viscosity (mPa s) = 0.60877 Activity of water = 0.962 Ionic strength (mol/kgw) = 6.933e-04 Mass of water (kg) = 9.985e-01 @@ -48184,7 +48184,7 @@ H2Sg(g) 2.80 6.314e+02 0.116 6.438e+00 6.372e+00 -6.654e-02 Specific Conductance (µS/cm, 55°C) = 376 Density (g/cm³) = 1.01658 Volume (L) = 1.06999 - Viscosity (mPa s) = 0.51915 + Viscosity (mPa s) = 0.51916 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.580e-04 Mass of water (kg) = 9.982e-01 @@ -48332,7 +48332,7 @@ H2Sg(g) 2.80 6.289e+02 0.135 6.291e+00 6.197e+00 -9.440e-02 Specific Conductance (µS/cm, 65°C) = 432 Density (g/cm³) = 1.01177 Volume (L) = 1.08059 - Viscosity (mPa s) = 0.44965 + Viscosity (mPa s) = 0.44966 Activity of water = 0.960 Ionic strength (mol/kgw) = 8.170e-04 Mass of water (kg) = 9.978e-01 @@ -48480,7 +48480,7 @@ H2Sg(g) 2.80 6.261e+02 0.156 6.089e+00 5.967e+00 -1.214e-01 Specific Conductance (µS/cm, 75°C) = 483 Density (g/cm³) = 1.00715 Volume (L) = 1.09290 - Viscosity (mPa s) = 0.39468 + Viscosity (mPa s) = 0.39469 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.687e-04 Mass of water (kg) = 9.974e-01 @@ -48554,7 +48554,7 @@ H2Sg(g) 2.80 6.245e+02 0.166 5.967e+00 5.832e+00 -1.349e-01 Specific Conductance (µS/cm, 80°C) = 506 Density (g/cm³) = 1.00490 Volume (L) = 1.09970 - Viscosity (mPa s) = 0.37141 + Viscosity (mPa s) = 0.37142 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.914e-04 Mass of water (kg) = 9.971e-01 @@ -48628,7 +48628,7 @@ H2Sg(g) 2.79 6.228e+02 0.177 5.832e+00 5.684e+00 -1.485e-01 Specific Conductance (µS/cm, 85°C) = 528 Density (g/cm³) = 1.00271 Volume (L) = 1.10694 - Viscosity (mPa s) = 0.35046 + Viscosity (mPa s) = 0.35047 Activity of water = 0.955 Ionic strength (mol/kgw) = 9.119e-04 Mass of water (kg) = 9.969e-01 @@ -48776,7 +48776,7 @@ H2Sg(g) 2.79 6.190e+02 0.200 5.522e+00 5.345e+00 -1.763e-01 Specific Conductance (µS/cm, 95°C) = 565 Density (g/cm³) = 0.99849 Volume (L) = 1.12275 - Viscosity (mPa s) = 0.31438 + Viscosity (mPa s) = 0.31439 Activity of water = 0.951 Ionic strength (mol/kgw) = 9.460e-04 Mass of water (kg) = 9.965e-01 @@ -48850,7 +48850,7 @@ H2Sg(g) 2.79 6.169e+02 0.212 5.345e+00 5.155e+00 -1.906e-01 Specific Conductance (µS/cm, 100°C) = 580 Density (g/cm³) = 0.99648 Volume (L) = 1.13133 - Viscosity (mPa s) = 0.29879 + Viscosity (mPa s) = 0.29880 Activity of water = 0.949 Ionic strength (mol/kgw) = 9.594e-04 Mass of water (kg) = 9.963e-01 @@ -48924,7 +48924,7 @@ H2Sg(g) 2.79 6.147e+02 0.224 5.155e+00 4.950e+00 -2.052e-01 Specific Conductance (µS/cm, 105°C) = 593 Density (g/cm³) = 0.99455 Volume (L) = 1.14037 - Viscosity (mPa s) = 0.28456 + Viscosity (mPa s) = 0.28457 Activity of water = 0.947 Ionic strength (mol/kgw) = 9.703e-04 Mass of water (kg) = 9.961e-01 @@ -48998,7 +48998,7 @@ H2Sg(g) 2.79 6.123e+02 0.236 4.950e+00 4.729e+00 -2.201e-01 Specific Conductance (µS/cm, 110°C) = 603 Density (g/cm³) = 0.99270 Volume (L) = 1.14987 - Viscosity (mPa s) = 0.27155 + Viscosity (mPa s) = 0.27156 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.788e-04 Mass of water (kg) = 9.959e-01 @@ -49072,7 +49072,7 @@ H2Sg(g) 2.79 6.098e+02 0.249 4.729e+00 4.494e+00 -2.353e-01 Specific Conductance (µS/cm, 115°C) = 610 Density (g/cm³) = 0.99094 Volume (L) = 1.15985 - Viscosity (mPa s) = 0.25963 + Viscosity (mPa s) = 0.25964 Activity of water = 0.942 Ionic strength (mol/kgw) = 9.849e-04 Mass of water (kg) = 9.958e-01 @@ -49146,7 +49146,7 @@ H2Sg(g) 2.78 6.071e+02 0.261 4.494e+00 4.243e+00 -2.509e-01 Specific Conductance (µS/cm, 120°C) = 616 Density (g/cm³) = 0.98930 Volume (L) = 1.17030 - Viscosity (mPa s) = 0.24867 + Viscosity (mPa s) = 0.24868 Activity of water = 0.940 Ionic strength (mol/kgw) = 9.886e-04 Mass of water (kg) = 9.957e-01 @@ -49220,7 +49220,7 @@ H2Sg(g) 2.78 6.043e+02 0.274 4.243e+00 3.976e+00 -2.669e-01 Specific Conductance (µS/cm, 125°C) = 618 Density (g/cm³) = 0.98778 Volume (L) = 1.18123 - Viscosity (mPa s) = 0.23858 + Viscosity (mPa s) = 0.23859 Activity of water = 0.937 Ionic strength (mol/kgw) = 9.899e-04 Mass of water (kg) = 9.956e-01 @@ -49294,7 +49294,7 @@ H2Sg(g) 2.78 6.013e+02 0.287 3.976e+00 3.693e+00 -2.834e-01 Specific Conductance (µS/cm, 130°C) = 619 Density (g/cm³) = 0.98639 Volume (L) = 1.19264 - Viscosity (mPa s) = 0.22925 + Viscosity (mPa s) = 0.22927 Activity of water = 0.934 Ionic strength (mol/kgw) = 9.889e-04 Mass of water (kg) = 9.955e-01 @@ -49368,7 +49368,7 @@ H2Sg(g) 2.78 5.981e+02 0.300 3.693e+00 3.393e+00 -3.002e-01 Specific Conductance (µS/cm, 135°C) = 617 Density (g/cm³) = 0.98515 Volume (L) = 1.20455 - Viscosity (mPa s) = 0.22063 + Viscosity (mPa s) = 0.22064 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.857e-04 Mass of water (kg) = 9.956e-01 @@ -49442,7 +49442,7 @@ H2Sg(g) 2.77 5.948e+02 0.314 3.393e+00 3.075e+00 -3.176e-01 Specific Conductance (µS/cm, 140°C) = 613 Density (g/cm³) = 0.98407 Volume (L) = 1.21695 - Viscosity (mPa s) = 0.21263 + Viscosity (mPa s) = 0.21265 Activity of water = 0.927 Ionic strength (mol/kgw) = 9.803e-04 Mass of water (kg) = 9.956e-01 @@ -49516,7 +49516,7 @@ H2Sg(g) 2.77 5.913e+02 0.327 3.075e+00 2.740e+00 -3.355e-01 Specific Conductance (µS/cm, 145°C) = 607 Density (g/cm³) = 0.98318 Volume (L) = 1.22984 - Viscosity (mPa s) = 0.20521 + Viscosity (mPa s) = 0.20522 Activity of water = 0.924 Ionic strength (mol/kgw) = 9.730e-04 Mass of water (kg) = 9.958e-01 @@ -49590,7 +49590,7 @@ H2Sg(g) 2.77 5.876e+02 0.340 2.740e+00 2.386e+00 -3.539e-01 Specific Conductance (µS/cm, 150°C) = 599 Density (g/cm³) = 0.98249 Volume (L) = 1.24324 - Viscosity (mPa s) = 0.19829 + Viscosity (mPa s) = 0.19831 Activity of water = 0.920 Ionic strength (mol/kgw) = 9.638e-04 Mass of water (kg) = 9.961e-01 @@ -49661,10 +49661,10 @@ H2Sg(g) 2.77 5.838e+02 0.354 2.386e+00 2.013e+00 -3.730e-01 pH = 3.062 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 590 + Specific Conductance (µS/cm, 155°C) = 589 Density (g/cm³) = 0.98202 Volume (L) = 1.25714 - Viscosity (mPa s) = 0.19185 + Viscosity (mPa s) = 0.19186 Activity of water = 0.916 Ionic strength (mol/kgw) = 9.527e-04 Mass of water (kg) = 9.964e-01 @@ -49738,7 +49738,7 @@ H2Sg(g) 2.76 5.798e+02 0.368 2.013e+00 1.620e+00 -3.929e-01 Specific Conductance (µS/cm, 160°C) = 578 Density (g/cm³) = 0.98180 Volume (L) = 1.27156 - Viscosity (mPa s) = 0.18583 + Viscosity (mPa s) = 0.18584 Activity of water = 0.912 Ionic strength (mol/kgw) = 9.400e-04 Mass of water (kg) = 9.969e-01 @@ -49812,7 +49812,7 @@ H2Sg(g) 2.76 5.756e+02 0.382 1.620e+00 1.206e+00 -4.135e-01 Specific Conductance (µS/cm, 165°C) = 566 Density (g/cm³) = 0.98184 Volume (L) = 1.28648 - Viscosity (mPa s) = 0.18020 + Viscosity (mPa s) = 0.18021 Activity of water = 0.908 Ionic strength (mol/kgw) = 9.258e-04 Mass of water (kg) = 9.975e-01 @@ -49886,7 +49886,7 @@ H2Sg(g) 2.76 5.713e+02 0.396 1.206e+00 7.712e-01 -4.351e-01 Specific Conductance (µS/cm, 170°C) = 552 Density (g/cm³) = 0.98218 Volume (L) = 1.30192 - Viscosity (mPa s) = 0.17492 + Viscosity (mPa s) = 0.17494 Activity of water = 0.904 Ionic strength (mol/kgw) = 9.102e-04 Mass of water (kg) = 9.983e-01 @@ -49960,7 +49960,7 @@ H2Sg(g) 2.75 5.668e+02 0.409 7.712e-01 3.134e-01 -4.578e-01 Specific Conductance (µS/cm, 175°C) = 538 Density (g/cm³) = 0.98286 Volume (L) = 1.31789 - Viscosity (mPa s) = 0.16997 + Viscosity (mPa s) = 0.16999 Activity of water = 0.899 Ionic strength (mol/kgw) = 8.934e-04 Mass of water (kg) = 9.993e-01 @@ -50022,7 +50022,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 523 Density (g/cm³) = 0.98262 Volume (L) = 1.32983 - Viscosity (mPa s) = 0.16531 + Viscosity (mPa s) = 0.16533 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.705e-04 Mass of water (kg) = 1.000e+00 @@ -50084,7 +50084,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 507 Density (g/cm³) = 0.98007 Volume (L) = 1.33330 - Viscosity (mPa s) = 0.16093 + Viscosity (mPa s) = 0.16095 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.379e-04 Mass of water (kg) = 1.000e+00 @@ -50143,10 +50143,10 @@ Using pressure 1. pH = 3.141 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 190°C) = 492 + Specific Conductance (µS/cm, 190°C) = 491 Density (g/cm³) = 0.97750 Volume (L) = 1.33680 - Viscosity (mPa s) = 0.15680 + Viscosity (mPa s) = 0.15682 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.055e-04 Mass of water (kg) = 1.000e+00 @@ -50208,7 +50208,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 475 Density (g/cm³) = 0.97492 Volume (L) = 1.34033 - Viscosity (mPa s) = 0.15290 + Viscosity (mPa s) = 0.15292 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.732e-04 Mass of water (kg) = 1.000e+00 @@ -50270,7 +50270,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 459 Density (g/cm³) = 0.97234 Volume (L) = 1.34389 - Viscosity (mPa s) = 0.14921 + Viscosity (mPa s) = 0.14923 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.414e-04 Mass of water (kg) = 1.000e+00 @@ -50332,7 +50332,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 442 Density (g/cm³) = 0.96977 Volume (L) = 1.34745 - Viscosity (mPa s) = 0.14572 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14574 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.100e-04 Mass of water (kg) = 1.000e+00 @@ -50394,7 +50394,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 426 Density (g/cm³) = 0.96722 Volume (L) = 1.35101 - Viscosity (mPa s) = 0.14240 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14242 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.791e-04 Mass of water (kg) = 1.000e+00 @@ -50453,10 +50453,10 @@ Using pressure 1. pH = 3.234 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 215°C) = 410 + Specific Conductance (µS/cm, 215°C) = 409 Density (g/cm³) = 0.96469 Volume (L) = 1.35455 - Viscosity (mPa s) = 0.13923 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13925 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.489e-04 Mass of water (kg) = 1.000e+00 @@ -50518,7 +50518,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 394 Density (g/cm³) = 0.96219 Volume (L) = 1.35807 - Viscosity (mPa s) = 0.13615 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13617 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.194e-04 Mass of water (kg) = 1.000e+00 @@ -50580,7 +50580,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 391 Density (g/cm³) = 0.95974 Volume (L) = 1.36153 - Viscosity (mPa s) = 0.13099 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13101 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 5.906e-04 Mass of water (kg) = 1.000e+00 @@ -50642,7 +50642,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 359 Density (g/cm³) = 0.95736 Volume (L) = 1.36492 - Viscosity (mPa s) = 0.13111 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13113 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.626e-04 Mass of water (kg) = 1.000e+00 @@ -50704,7 +50704,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 344 Density (g/cm³) = 0.95506 Volume (L) = 1.36821 - Viscosity (mPa s) = 0.12840 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12842 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.355e-04 Mass of water (kg) = 1.000e+00 @@ -50766,7 +50766,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 329 Density (g/cm³) = 0.95286 Volume (L) = 1.37136 - Viscosity (mPa s) = 0.12590 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12592 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.092e-04 Mass of water (kg) = 1.000e+00 @@ -50828,7 +50828,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 314 Density (g/cm³) = 0.95080 Volume (L) = 1.37434 - Viscosity (mPa s) = 0.12353 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12355 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.839e-04 Mass of water (kg) = 1.000e+00 @@ -50890,7 +50890,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 300 Density (g/cm³) = 0.94889 Volume (L) = 1.37711 - Viscosity (mPa s) = 0.12126 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12128 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.595e-04 Mass of water (kg) = 1.000e+00 @@ -51156,7 +51156,7 @@ H2Sg(g) 2.84 6.840e+02 0.082 6.511e+00 6.513e+00 1.726e-03 Specific Conductance (µS/cm, 35°C) = 265 Density (g/cm³) = 1.02921 Volume (L) = 1.05284 - Viscosity (mPa s) = 0.72801 + Viscosity (mPa s) = 0.72802 Activity of water = 0.961 Ionic strength (mol/kgw) = 6.336e-04 Mass of water (kg) = 9.988e-01 @@ -51304,7 +51304,7 @@ H2Sg(g) 2.83 6.822e+02 0.098 6.495e+00 6.460e+00 -3.550e-02 Specific Conductance (µS/cm, 45°C) = 323 Density (g/cm³) = 1.02361 Volume (L) = 1.06008 - Viscosity (mPa s) = 0.60993 + Viscosity (mPa s) = 0.60994 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.036e-04 Mass of water (kg) = 9.985e-01 @@ -51600,7 +51600,7 @@ H2Sg(g) 2.83 6.774e+02 0.134 6.259e+00 6.163e+00 -9.609e-02 Specific Conductance (µS/cm, 65°C) = 438 Density (g/cm³) = 1.01351 Volume (L) = 1.07990 - Viscosity (mPa s) = 0.45098 + Viscosity (mPa s) = 0.45099 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.295e-04 Mass of water (kg) = 9.978e-01 @@ -51896,7 +51896,7 @@ H2Sg(g) 2.83 6.709e+02 0.176 5.790e+00 5.637e+00 -1.527e-01 Specific Conductance (µS/cm, 85°C) = 535 Density (g/cm³) = 1.00427 Volume (L) = 1.10686 - Viscosity (mPa s) = 0.35179 + Viscosity (mPa s) = 0.35180 Activity of water = 0.954 Ionic strength (mol/kgw) = 9.266e-04 Mass of water (kg) = 9.970e-01 @@ -51970,7 +51970,7 @@ H2Sg(g) 2.83 6.689e+02 0.187 5.637e+00 5.470e+00 -1.672e-01 Specific Conductance (µS/cm, 90°C) = 554 Density (g/cm³) = 1.00209 Volume (L) = 1.11475 - Viscosity (mPa s) = 0.33285 + Viscosity (mPa s) = 0.33286 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.453e-04 Mass of water (kg) = 9.968e-01 @@ -52044,7 +52044,7 @@ H2Sg(g) 2.82 6.668e+02 0.199 5.470e+00 5.288e+00 -1.820e-01 Specific Conductance (µS/cm, 95°C) = 572 Density (g/cm³) = 0.99998 Volume (L) = 1.12311 - Viscosity (mPa s) = 0.31568 + Viscosity (mPa s) = 0.31569 Activity of water = 0.950 Ionic strength (mol/kgw) = 9.616e-04 Mass of water (kg) = 9.966e-01 @@ -52118,7 +52118,7 @@ H2Sg(g) 2.82 6.646e+02 0.210 5.288e+00 5.091e+00 -1.972e-01 Specific Conductance (µS/cm, 100°C) = 587 Density (g/cm³) = 0.99793 Volume (L) = 1.13195 - Viscosity (mPa s) = 0.30008 + Viscosity (mPa s) = 0.30009 Activity of water = 0.948 Ionic strength (mol/kgw) = 9.755e-04 Mass of water (kg) = 9.964e-01 @@ -52192,7 +52192,7 @@ H2Sg(g) 2.82 6.622e+02 0.222 5.091e+00 4.878e+00 -2.127e-01 Specific Conductance (µS/cm, 105°C) = 599 Density (g/cm³) = 0.99597 Volume (L) = 1.14128 - Viscosity (mPa s) = 0.28584 + Viscosity (mPa s) = 0.28585 Activity of water = 0.946 Ionic strength (mol/kgw) = 9.869e-04 Mass of water (kg) = 9.962e-01 @@ -52266,7 +52266,7 @@ H2Sg(g) 2.82 6.597e+02 0.234 4.878e+00 4.649e+00 -2.286e-01 Specific Conductance (µS/cm, 110°C) = 609 Density (g/cm³) = 0.99410 Volume (L) = 1.15111 - Viscosity (mPa s) = 0.27282 + Viscosity (mPa s) = 0.27283 Activity of water = 0.944 Ionic strength (mol/kgw) = 9.958e-04 Mass of water (kg) = 9.960e-01 @@ -52340,7 +52340,7 @@ H2Sg(g) 2.82 6.570e+02 0.247 4.649e+00 4.405e+00 -2.449e-01 Specific Conductance (µS/cm, 115°C) = 617 Density (g/cm³) = 0.99233 Volume (L) = 1.16145 - Viscosity (mPa s) = 0.26088 + Viscosity (mPa s) = 0.26089 Activity of water = 0.941 Ionic strength (mol/kgw) = 1.002e-03 Mass of water (kg) = 9.959e-01 @@ -52414,7 +52414,7 @@ H2Sg(g) 2.82 6.542e+02 0.259 4.405e+00 4.143e+00 -2.617e-01 Specific Conductance (µS/cm, 120°C) = 622 Density (g/cm³) = 0.99067 Volume (L) = 1.17229 - Viscosity (mPa s) = 0.24990 + Viscosity (mPa s) = 0.24992 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.006e-03 Mass of water (kg) = 9.958e-01 @@ -52488,7 +52488,7 @@ H2Sg(g) 2.81 6.511e+02 0.272 4.143e+00 3.864e+00 -2.791e-01 Specific Conductance (µS/cm, 125°C) = 624 Density (g/cm³) = 0.98914 Volume (L) = 1.18366 - Viscosity (mPa s) = 0.23979 + Viscosity (mPa s) = 0.23981 Activity of water = 0.935 Ionic strength (mol/kgw) = 1.008e-03 Mass of water (kg) = 9.958e-01 @@ -52562,7 +52562,7 @@ H2Sg(g) 2.81 6.480e+02 0.285 3.864e+00 3.567e+00 -2.969e-01 Specific Conductance (µS/cm, 130°C) = 624 Density (g/cm³) = 0.98775 Volume (L) = 1.19556 - Viscosity (mPa s) = 0.23046 + Viscosity (mPa s) = 0.23047 Activity of water = 0.932 Ionic strength (mol/kgw) = 1.007e-03 Mass of water (kg) = 9.958e-01 @@ -52636,7 +52636,7 @@ H2Sg(g) 2.81 6.446e+02 0.298 3.567e+00 3.251e+00 -3.153e-01 Specific Conductance (µS/cm, 135°C) = 622 Density (g/cm³) = 0.98653 Volume (L) = 1.20799 - Viscosity (mPa s) = 0.22182 + Viscosity (mPa s) = 0.22183 Activity of water = 0.929 Ionic strength (mol/kgw) = 1.004e-03 Mass of water (kg) = 9.958e-01 @@ -52707,10 +52707,10 @@ H2Sg(g) 2.81 6.411e+02 0.311 3.251e+00 2.917e+00 -3.344e-01 pH = 3.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 618 + Specific Conductance (µS/cm, 140°C) = 617 Density (g/cm³) = 0.98547 Volume (L) = 1.22097 - Viscosity (mPa s) = 0.21381 + Viscosity (mPa s) = 0.21383 Activity of water = 0.926 Ionic strength (mol/kgw) = 9.992e-04 Mass of water (kg) = 9.959e-01 @@ -52784,7 +52784,7 @@ H2Sg(g) 2.80 6.374e+02 0.324 2.917e+00 2.563e+00 -3.541e-01 Specific Conductance (µS/cm, 145°C) = 611 Density (g/cm³) = 0.98461 Volume (L) = 1.23450 - Viscosity (mPa s) = 0.20637 + Viscosity (mPa s) = 0.20639 Activity of water = 0.922 Ionic strength (mol/kgw) = 9.921e-04 Mass of water (kg) = 9.961e-01 @@ -52858,7 +52858,7 @@ H2Sg(g) 2.80 6.335e+02 0.337 2.563e+00 2.188e+00 -3.746e-01 Specific Conductance (µS/cm, 150°C) = 603 Density (g/cm³) = 0.98397 Volume (L) = 1.24859 - Viscosity (mPa s) = 0.19945 + Viscosity (mPa s) = 0.19946 Activity of water = 0.918 Ionic strength (mol/kgw) = 9.831e-04 Mass of water (kg) = 9.964e-01 @@ -52932,7 +52932,7 @@ H2Sg(g) 2.80 6.295e+02 0.351 2.188e+00 1.793e+00 -3.958e-01 Specific Conductance (µS/cm, 155°C) = 593 Density (g/cm³) = 0.98356 Volume (L) = 1.26325 - Viscosity (mPa s) = 0.19299 + Viscosity (mPa s) = 0.19301 Activity of water = 0.914 Ionic strength (mol/kgw) = 9.722e-04 Mass of water (kg) = 9.969e-01 @@ -53006,7 +53006,7 @@ H2Sg(g) 2.80 6.253e+02 0.365 1.793e+00 1.375e+00 -4.181e-01 Specific Conductance (µS/cm, 160°C) = 581 Density (g/cm³) = 0.98341 Volume (L) = 1.27849 - Viscosity (mPa s) = 0.18696 + Viscosity (mPa s) = 0.18697 Activity of water = 0.910 Ionic strength (mol/kgw) = 9.596e-04 Mass of water (kg) = 9.974e-01 @@ -53080,7 +53080,7 @@ H2Sg(g) 2.79 6.209e+02 0.378 1.375e+00 9.332e-01 -4.413e-01 Specific Conductance (µS/cm, 165°C) = 568 Density (g/cm³) = 0.98355 Volume (L) = 1.29431 - Viscosity (mPa s) = 0.18132 + Viscosity (mPa s) = 0.18133 Activity of water = 0.905 Ionic strength (mol/kgw) = 9.455e-04 Mass of water (kg) = 9.981e-01 @@ -53154,7 +53154,7 @@ H2Sg(g) 2.79 6.164e+02 0.392 9.332e-01 4.674e-01 -4.658e-01 Specific Conductance (µS/cm, 170°C) = 554 Density (g/cm³) = 0.98401 Volume (L) = 1.31073 - Viscosity (mPa s) = 0.17603 + Viscosity (mPa s) = 0.17605 Activity of water = 0.901 Ionic strength (mol/kgw) = 9.300e-04 Mass of water (kg) = 9.990e-01 @@ -53216,7 +53216,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 539 Density (g/cm³) = 0.98466 Volume (L) = 1.32708 - Viscosity (mPa s) = 0.17107 + Viscosity (mPa s) = 0.17109 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.124e-04 Mass of water (kg) = 1.000e+00 @@ -53278,7 +53278,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 524 Density (g/cm³) = 0.98216 Volume (L) = 1.33045 - Viscosity (mPa s) = 0.16641 + Viscosity (mPa s) = 0.16642 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.795e-04 Mass of water (kg) = 1.000e+00 @@ -53340,7 +53340,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 509 Density (g/cm³) = 0.97965 Volume (L) = 1.33386 - Viscosity (mPa s) = 0.16202 + Viscosity (mPa s) = 0.16203 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.465e-04 Mass of water (kg) = 1.000e+00 @@ -53402,7 +53402,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 493 Density (g/cm³) = 0.97713 Volume (L) = 1.33730 - Viscosity (mPa s) = 0.15788 + Viscosity (mPa s) = 0.15790 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.137e-04 Mass of water (kg) = 1.000e+00 @@ -53461,10 +53461,10 @@ Using pressure 1. pH = 3.154 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 195°C) = 477 + Specific Conductance (µS/cm, 195°C) = 476 Density (g/cm³) = 0.97460 Volume (L) = 1.34078 - Viscosity (mPa s) = 0.15397 + Viscosity (mPa s) = 0.15399 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.811e-04 Mass of water (kg) = 1.000e+00 @@ -53526,7 +53526,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 460 Density (g/cm³) = 0.97207 Volume (L) = 1.34427 - Viscosity (mPa s) = 0.15028 + Viscosity (mPa s) = 0.15030 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.489e-04 Mass of water (kg) = 1.000e+00 @@ -53588,7 +53588,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 443 Density (g/cm³) = 0.96954 Volume (L) = 1.34777 - Viscosity (mPa s) = 0.14678 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14680 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.172e-04 Mass of water (kg) = 1.000e+00 @@ -53650,7 +53650,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 427 Density (g/cm³) = 0.96703 Volume (L) = 1.35127 - Viscosity (mPa s) = 0.14346 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14348 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.860e-04 Mass of water (kg) = 1.000e+00 @@ -53712,7 +53712,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 410 Density (g/cm³) = 0.96454 Volume (L) = 1.35476 - Viscosity (mPa s) = 0.14030 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14032 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.555e-04 Mass of water (kg) = 1.000e+00 @@ -53774,7 +53774,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 394 Density (g/cm³) = 0.96209 Volume (L) = 1.35822 - Viscosity (mPa s) = 0.13727 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13729 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.256e-04 Mass of water (kg) = 1.000e+00 @@ -53836,7 +53836,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 379 Density (g/cm³) = 0.95967 Volume (L) = 1.36163 - Viscosity (mPa s) = 0.13421 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13422 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 5.965e-04 Mass of water (kg) = 1.000e+00 @@ -53898,7 +53898,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 357 Density (g/cm³) = 0.95732 Volume (L) = 1.36498 - Viscosity (mPa s) = 0.13256 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13258 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.683e-04 Mass of water (kg) = 1.000e+00 @@ -53960,7 +53960,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 344 Density (g/cm³) = 0.95504 Volume (L) = 1.36824 - Viscosity (mPa s) = 0.12950 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12952 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.408e-04 Mass of water (kg) = 1.000e+00 @@ -54022,7 +54022,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 329 Density (g/cm³) = 0.95285 Volume (L) = 1.37138 - Viscosity (mPa s) = 0.12696 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12698 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.143e-04 Mass of water (kg) = 1.000e+00 @@ -54084,7 +54084,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 314 Density (g/cm³) = 0.95078 Volume (L) = 1.37437 - Viscosity (mPa s) = 0.12458 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12460 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.887e-04 Mass of water (kg) = 1.000e+00 @@ -54146,7 +54146,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 300 Density (g/cm³) = 0.94885 Volume (L) = 1.37716 - Viscosity (mPa s) = 0.12231 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12233 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.640e-04 Mass of water (kg) = 1.000e+00 @@ -54560,7 +54560,7 @@ H2Sg(g) 2.86 7.311e+02 0.098 6.465e+00 6.431e+00 -3.433e-02 Specific Conductance (µS/cm, 45°C) = 328 Density (g/cm³) = 1.02558 Volume (L) = 1.05902 - Viscosity (mPa s) = 0.61113 + Viscosity (mPa s) = 0.61114 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.138e-04 Mass of water (kg) = 9.986e-01 @@ -54708,7 +54708,7 @@ H2Sg(g) 2.86 7.287e+02 0.115 6.380e+00 6.312e+00 -6.711e-02 Specific Conductance (µS/cm, 55°C) = 387 Density (g/cm³) = 1.02026 Volume (L) = 1.06816 - Viscosity (mPa s) = 0.52174 + Viscosity (mPa s) = 0.52175 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.808e-04 Mass of water (kg) = 9.982e-01 @@ -54930,7 +54930,7 @@ H2Sg(g) 2.86 7.244e+02 0.144 6.133e+00 6.021e+00 -1.119e-01 Specific Conductance (µS/cm, 70°C) = 470 Density (g/cm³) = 1.01278 Volume (L) = 1.08529 - Viscosity (mPa s) = 0.42330 + Viscosity (mPa s) = 0.42331 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.699e-04 Mass of water (kg) = 9.976e-01 @@ -55004,7 +55004,7 @@ H2Sg(g) 2.86 7.228e+02 0.154 6.021e+00 5.894e+00 -1.266e-01 Specific Conductance (µS/cm, 75°C) = 496 Density (g/cm³) = 1.01039 Volume (L) = 1.09193 - Viscosity (mPa s) = 0.39736 + Viscosity (mPa s) = 0.39737 Activity of water = 0.956 Ionic strength (mol/kgw) = 8.958e-04 Mass of water (kg) = 9.974e-01 @@ -55152,7 +55152,7 @@ H2Sg(g) 2.86 7.190e+02 0.175 5.753e+00 5.597e+00 -1.562e-01 Specific Conductance (µS/cm, 85°C) = 541 Density (g/cm³) = 1.00576 Volume (L) = 1.10663 - Viscosity (mPa s) = 0.35312 + Viscosity (mPa s) = 0.35313 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.412e-04 Mass of water (kg) = 9.970e-01 @@ -55226,7 +55226,7 @@ H2Sg(g) 2.86 7.170e+02 0.187 5.597e+00 5.425e+00 -1.714e-01 Specific Conductance (µS/cm, 90°C) = 561 Density (g/cm³) = 1.00353 Volume (L) = 1.11472 - Viscosity (mPa s) = 0.33417 + Viscosity (mPa s) = 0.33418 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.604e-04 Mass of water (kg) = 9.968e-01 @@ -55300,7 +55300,7 @@ H2Sg(g) 2.85 7.148e+02 0.198 5.425e+00 5.239e+00 -1.870e-01 Specific Conductance (µS/cm, 95°C) = 578 Density (g/cm³) = 1.00137 Volume (L) = 1.12329 - Viscosity (mPa s) = 0.31699 + Viscosity (mPa s) = 0.31700 Activity of water = 0.950 Ionic strength (mol/kgw) = 9.771e-04 Mass of water (kg) = 9.966e-01 @@ -55374,7 +55374,7 @@ H2Sg(g) 2.85 7.124e+02 0.209 5.239e+00 5.036e+00 -2.029e-01 Specific Conductance (µS/cm, 100°C) = 593 Density (g/cm³) = 0.99928 Volume (L) = 1.13238 - Viscosity (mPa s) = 0.30137 + Viscosity (mPa s) = 0.30138 Activity of water = 0.948 Ionic strength (mol/kgw) = 9.915e-04 Mass of water (kg) = 9.965e-01 @@ -55448,7 +55448,7 @@ H2Sg(g) 2.85 7.099e+02 0.221 5.036e+00 4.816e+00 -2.193e-01 Specific Conductance (µS/cm, 105°C) = 606 Density (g/cm³) = 0.99727 Volume (L) = 1.14199 - Viscosity (mPa s) = 0.28711 + Viscosity (mPa s) = 0.28712 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.003e-03 Mass of water (kg) = 9.963e-01 @@ -55522,7 +55522,7 @@ H2Sg(g) 2.85 7.072e+02 0.233 4.816e+00 4.580e+00 -2.362e-01 Specific Conductance (µS/cm, 110°C) = 616 Density (g/cm³) = 0.99536 Volume (L) = 1.15212 - Viscosity (mPa s) = 0.27408 + Viscosity (mPa s) = 0.27409 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.013e-03 Mass of water (kg) = 9.962e-01 @@ -55596,7 +55596,7 @@ H2Sg(g) 2.85 7.044e+02 0.245 4.580e+00 4.327e+00 -2.535e-01 Specific Conductance (µS/cm, 115°C) = 623 Density (g/cm³) = 0.99356 Volume (L) = 1.16280 - Viscosity (mPa s) = 0.26212 + Viscosity (mPa s) = 0.26214 Activity of water = 0.940 Ionic strength (mol/kgw) = 1.019e-03 Mass of water (kg) = 9.960e-01 @@ -55670,7 +55670,7 @@ H2Sg(g) 2.85 7.014e+02 0.258 4.327e+00 4.055e+00 -2.715e-01 Specific Conductance (µS/cm, 120°C) = 628 Density (g/cm³) = 0.99187 Volume (L) = 1.17403 - Viscosity (mPa s) = 0.25114 + Viscosity (mPa s) = 0.25115 Activity of water = 0.937 Ionic strength (mol/kgw) = 1.024e-03 Mass of water (kg) = 9.960e-01 @@ -55744,7 +55744,7 @@ H2Sg(g) 2.84 6.982e+02 0.270 4.055e+00 3.765e+00 -2.901e-01 Specific Conductance (µS/cm, 125°C) = 630 Density (g/cm³) = 0.99031 Volume (L) = 1.18582 - Viscosity (mPa s) = 0.24101 + Viscosity (mPa s) = 0.24102 Activity of water = 0.934 Ionic strength (mol/kgw) = 1.026e-03 Mass of water (kg) = 9.959e-01 @@ -55815,10 +55815,10 @@ H2Sg(g) 2.84 6.948e+02 0.283 3.765e+00 3.456e+00 -3.093e-01 pH = 3.026 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 630 + Specific Conductance (µS/cm, 130°C) = 629 Density (g/cm³) = 0.98890 Volume (L) = 1.19818 - Viscosity (mPa s) = 0.23166 + Viscosity (mPa s) = 0.23167 Activity of water = 0.931 Ionic strength (mol/kgw) = 1.025e-03 Mass of water (kg) = 9.959e-01 @@ -55892,7 +55892,7 @@ H2Sg(g) 2.84 6.913e+02 0.296 3.456e+00 3.127e+00 -3.292e-01 Specific Conductance (µS/cm, 135°C) = 627 Density (g/cm³) = 0.98766 Volume (L) = 1.21113 - Viscosity (mPa s) = 0.22301 + Viscosity (mPa s) = 0.22302 Activity of water = 0.928 Ionic strength (mol/kgw) = 1.023e-03 Mass of water (kg) = 9.960e-01 @@ -55966,7 +55966,7 @@ H2Sg(g) 2.84 6.876e+02 0.309 3.127e+00 2.777e+00 -3.498e-01 Specific Conductance (µS/cm, 140°C) = 622 Density (g/cm³) = 0.98660 Volume (L) = 1.22467 - Viscosity (mPa s) = 0.21499 + Viscosity (mPa s) = 0.21500 Activity of water = 0.924 Ionic strength (mol/kgw) = 1.018e-03 Mass of water (kg) = 9.962e-01 @@ -56040,7 +56040,7 @@ H2Sg(g) 2.83 6.837e+02 0.322 2.777e+00 2.405e+00 -3.713e-01 Specific Conductance (µS/cm, 145°C) = 615 Density (g/cm³) = 0.98574 Volume (L) = 1.23883 - Viscosity (mPa s) = 0.20753 + Viscosity (mPa s) = 0.20755 Activity of water = 0.920 Ionic strength (mol/kgw) = 1.011e-03 Mass of water (kg) = 9.964e-01 @@ -56114,7 +56114,7 @@ H2Sg(g) 2.83 6.797e+02 0.336 2.405e+00 2.012e+00 -3.937e-01 Specific Conductance (µS/cm, 150°C) = 606 Density (g/cm³) = 0.98511 Volume (L) = 1.25360 - Viscosity (mPa s) = 0.20060 + Viscosity (mPa s) = 0.20061 Activity of water = 0.916 Ionic strength (mol/kgw) = 1.002e-03 Mass of water (kg) = 9.968e-01 @@ -56188,7 +56188,7 @@ H2Sg(g) 2.83 6.754e+02 0.349 2.012e+00 1.595e+00 -4.171e-01 Specific Conductance (µS/cm, 155°C) = 596 Density (g/cm³) = 0.98473 Volume (L) = 1.26901 - Viscosity (mPa s) = 0.19413 + Viscosity (mPa s) = 0.19414 Activity of water = 0.912 Ionic strength (mol/kgw) = 9.913e-04 Mass of water (kg) = 9.972e-01 @@ -56262,7 +56262,7 @@ H2Sg(g) 2.83 6.710e+02 0.363 1.595e+00 1.153e+00 -4.417e-01 Specific Conductance (µS/cm, 160°C) = 584 Density (g/cm³) = 0.98461 Volume (L) = 1.28506 - Viscosity (mPa s) = 0.18808 + Viscosity (mPa s) = 0.18810 Activity of water = 0.908 Ionic strength (mol/kgw) = 9.789e-04 Mass of water (kg) = 9.979e-01 @@ -56336,7 +56336,7 @@ H2Sg(g) 2.82 6.664e+02 0.376 1.153e+00 6.854e-01 -4.675e-01 Specific Conductance (µS/cm, 165°C) = 570 Density (g/cm³) = 0.98480 Volume (L) = 1.30178 - Viscosity (mPa s) = 0.18243 + Viscosity (mPa s) = 0.18245 Activity of water = 0.903 Ionic strength (mol/kgw) = 9.649e-04 Mass of water (kg) = 9.986e-01 @@ -56410,7 +56410,7 @@ H2Sg(g) 2.82 6.617e+02 0.390 6.854e-01 1.906e-01 -4.947e-01 Specific Conductance (µS/cm, 170°C) = 555 Density (g/cm³) = 0.98533 Volume (L) = 1.31917 - Viscosity (mPa s) = 0.17714 + Viscosity (mPa s) = 0.17715 Activity of water = 0.898 Ionic strength (mol/kgw) = 9.494e-04 Mass of water (kg) = 9.996e-01 @@ -56472,7 +56472,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 541 Density (g/cm³) = 0.98407 Volume (L) = 1.32787 - Viscosity (mPa s) = 0.17216 + Viscosity (mPa s) = 0.17218 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.224e-04 Mass of water (kg) = 1.000e+00 @@ -56534,7 +56534,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 526 Density (g/cm³) = 0.98161 Volume (L) = 1.33119 - Viscosity (mPa s) = 0.16749 + Viscosity (mPa s) = 0.16751 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.890e-04 Mass of water (kg) = 1.000e+00 @@ -56596,7 +56596,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 510 Density (g/cm³) = 0.97914 Volume (L) = 1.33456 - Viscosity (mPa s) = 0.16309 + Viscosity (mPa s) = 0.16311 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.557e-04 Mass of water (kg) = 1.000e+00 @@ -56658,7 +56658,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 494 Density (g/cm³) = 0.97665 Volume (L) = 1.33796 - Viscosity (mPa s) = 0.15895 + Viscosity (mPa s) = 0.15897 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.224e-04 Mass of water (kg) = 1.000e+00 @@ -56720,7 +56720,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 478 Density (g/cm³) = 0.97416 Volume (L) = 1.34138 - Viscosity (mPa s) = 0.15504 + Viscosity (mPa s) = 0.15505 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.895e-04 Mass of water (kg) = 1.000e+00 @@ -56782,7 +56782,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 461 Density (g/cm³) = 0.97167 Volume (L) = 1.34482 - Viscosity (mPa s) = 0.15134 + Viscosity (mPa s) = 0.15136 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.569e-04 Mass of water (kg) = 1.000e+00 @@ -56841,10 +56841,10 @@ Using pressure 1. pH = 3.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 205°C) = 445 + Specific Conductance (µS/cm, 205°C) = 444 Density (g/cm³) = 0.96918 Volume (L) = 1.34828 - Viscosity (mPa s) = 0.14784 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14785 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.248e-04 Mass of water (kg) = 1.000e+00 @@ -56906,7 +56906,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 428 Density (g/cm³) = 0.96670 Volume (L) = 1.35174 - Viscosity (mPa s) = 0.14452 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14453 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.932e-04 Mass of water (kg) = 1.000e+00 @@ -56968,7 +56968,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 411 Density (g/cm³) = 0.96424 Volume (L) = 1.35518 - Viscosity (mPa s) = 0.14136 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14138 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.623e-04 Mass of water (kg) = 1.000e+00 @@ -57030,7 +57030,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 395 Density (g/cm³) = 0.96181 Volume (L) = 1.35861 - Viscosity (mPa s) = 0.13834 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13836 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.321e-04 Mass of water (kg) = 1.000e+00 @@ -57092,7 +57092,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 379 Density (g/cm³) = 0.95942 Volume (L) = 1.36199 - Viscosity (mPa s) = 0.13541 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13543 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.027e-04 Mass of water (kg) = 1.000e+00 @@ -57151,10 +57151,10 @@ Using pressure 1. pH = 3.287 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 230°C) = 369 + Specific Conductance (µS/cm, 230°C) = 368 Density (g/cm³) = 0.95708 Volume (L) = 1.36532 - Viscosity (mPa s) = 0.13161 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13163 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 5.741e-04 Mass of water (kg) = 1.000e+00 @@ -57216,7 +57216,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 344 Density (g/cm³) = 0.95481 Volume (L) = 1.36857 - Viscosity (mPa s) = 0.13065 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13067 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.464e-04 Mass of water (kg) = 1.000e+00 @@ -57278,7 +57278,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 329 Density (g/cm³) = 0.95262 Volume (L) = 1.37172 - Viscosity (mPa s) = 0.12803 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12805 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.195e-04 Mass of water (kg) = 1.000e+00 @@ -57340,7 +57340,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 315 Density (g/cm³) = 0.95053 Volume (L) = 1.37473 - Viscosity (mPa s) = 0.12563 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12565 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.936e-04 Mass of water (kg) = 1.000e+00 @@ -57402,7 +57402,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 300 Density (g/cm³) = 0.94856 Volume (L) = 1.37758 - Viscosity (mPa s) = 0.12336 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12337 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.686e-04 Mass of water (kg) = 1.000e+00 @@ -57742,7 +57742,7 @@ H2Sg(g) 2.89 7.809e+02 0.090 6.450e+00 6.437e+00 -1.366e-02 Specific Conductance (µS/cm, 40°C) = 303 Density (g/cm³) = 1.03042 Volume (L) = 1.05403 - Viscosity (mPa s) = 0.66694 + Viscosity (mPa s) = 0.66695 Activity of water = 0.960 Ionic strength (mol/kgw) = 6.884e-04 Mass of water (kg) = 9.987e-01 @@ -58038,7 +58038,7 @@ H2Sg(g) 2.89 7.760e+02 0.125 6.287e+00 6.204e+00 -8.244e-02 Specific Conductance (µS/cm, 60°C) = 421 Density (g/cm³) = 1.01946 Volume (L) = 1.07245 - Viscosity (mPa s) = 0.48627 + Viscosity (mPa s) = 0.48628 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.241e-04 Mass of water (kg) = 9.981e-01 @@ -58112,7 +58112,7 @@ H2Sg(g) 2.89 7.745e+02 0.134 6.204e+00 6.107e+00 -9.782e-02 Specific Conductance (µS/cm, 65°C) = 449 Density (g/cm³) = 1.01690 Volume (L) = 1.07824 - Viscosity (mPa s) = 0.45367 + Viscosity (mPa s) = 0.45368 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.544e-04 Mass of water (kg) = 9.979e-01 @@ -58186,7 +58186,7 @@ H2Sg(g) 2.89 7.728e+02 0.144 6.107e+00 5.994e+00 -1.130e-01 Specific Conductance (µS/cm, 70°C) = 477 Density (g/cm³) = 1.01440 Volume (L) = 1.08451 - Viscosity (mPa s) = 0.42465 + Viscosity (mPa s) = 0.42466 Activity of water = 0.957 Ionic strength (mol/kgw) = 8.828e-04 Mass of water (kg) = 9.977e-01 @@ -58260,7 +58260,7 @@ H2Sg(g) 2.89 7.711e+02 0.154 5.994e+00 5.865e+00 -1.282e-01 Specific Conductance (µS/cm, 75°C) = 502 Density (g/cm³) = 1.01195 Volume (L) = 1.09126 - Viscosity (mPa s) = 0.39871 + Viscosity (mPa s) = 0.39872 Activity of water = 0.956 Ionic strength (mol/kgw) = 9.093e-04 Mass of water (kg) = 9.975e-01 @@ -58334,7 +58334,7 @@ H2Sg(g) 2.89 7.692e+02 0.165 5.865e+00 5.722e+00 -1.435e-01 Specific Conductance (µS/cm, 80°C) = 526 Density (g/cm³) = 1.00955 Volume (L) = 1.09851 - Viscosity (mPa s) = 0.37542 + Viscosity (mPa s) = 0.37543 Activity of water = 0.954 Ionic strength (mol/kgw) = 9.336e-04 Mass of water (kg) = 9.973e-01 @@ -58408,7 +58408,7 @@ H2Sg(g) 2.88 7.672e+02 0.176 5.722e+00 5.563e+00 -1.590e-01 Specific Conductance (µS/cm, 85°C) = 548 Density (g/cm³) = 1.00720 Volume (L) = 1.10625 - Viscosity (mPa s) = 0.35445 + Viscosity (mPa s) = 0.35446 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.556e-04 Mass of water (kg) = 9.971e-01 @@ -58556,7 +58556,7 @@ H2Sg(g) 2.88 7.627e+02 0.198 5.388e+00 5.197e+00 -1.911e-01 Specific Conductance (µS/cm, 95°C) = 585 Density (g/cm³) = 1.00269 Volume (L) = 1.12329 - Viscosity (mPa s) = 0.31829 + Viscosity (mPa s) = 0.31830 Activity of water = 0.949 Ionic strength (mol/kgw) = 9.925e-04 Mass of water (kg) = 9.967e-01 @@ -58630,7 +58630,7 @@ H2Sg(g) 2.88 7.602e+02 0.209 5.197e+00 4.989e+00 -2.078e-01 Specific Conductance (µS/cm, 100°C) = 600 Density (g/cm³) = 1.00055 Volume (L) = 1.13260 - Viscosity (mPa s) = 0.30265 + Viscosity (mPa s) = 0.30266 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.007e-03 Mass of water (kg) = 9.965e-01 @@ -58704,7 +58704,7 @@ H2Sg(g) 2.88 7.575e+02 0.221 4.989e+00 4.764e+00 -2.250e-01 Specific Conductance (µS/cm, 105°C) = 612 Density (g/cm³) = 0.99848 Volume (L) = 1.14246 - Viscosity (mPa s) = 0.28839 + Viscosity (mPa s) = 0.28840 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.019e-03 Mass of water (kg) = 9.964e-01 @@ -58778,7 +58778,7 @@ H2Sg(g) 2.88 7.547e+02 0.233 4.764e+00 4.522e+00 -2.427e-01 Specific Conductance (µS/cm, 110°C) = 622 Density (g/cm³) = 0.99652 Volume (L) = 1.15289 - Viscosity (mPa s) = 0.27533 + Viscosity (mPa s) = 0.27534 Activity of water = 0.942 Ionic strength (mol/kgw) = 1.029e-03 Mass of water (kg) = 9.962e-01 @@ -58852,7 +58852,7 @@ H2Sg(g) 2.88 7.517e+02 0.245 4.522e+00 4.260e+00 -2.611e-01 Specific Conductance (µS/cm, 115°C) = 629 Density (g/cm³) = 0.99466 Volume (L) = 1.16388 - Viscosity (mPa s) = 0.26336 + Viscosity (mPa s) = 0.26338 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.036e-03 Mass of water (kg) = 9.961e-01 @@ -58926,7 +58926,7 @@ H2Sg(g) 2.87 7.486e+02 0.258 4.260e+00 3.980e+00 -2.801e-01 Specific Conductance (µS/cm, 120°C) = 634 Density (g/cm³) = 0.99292 Volume (L) = 1.17547 - Viscosity (mPa s) = 0.25236 + Viscosity (mPa s) = 0.25237 Activity of water = 0.936 Ionic strength (mol/kgw) = 1.041e-03 Mass of water (kg) = 9.961e-01 @@ -58997,10 +58997,10 @@ H2Sg(g) 2.87 7.452e+02 0.270 3.980e+00 3.680e+00 -2.999e-01 pH = 3.017 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 636 + Specific Conductance (µS/cm, 125°C) = 635 Density (g/cm³) = 0.99132 Volume (L) = 1.18766 - Viscosity (mPa s) = 0.24222 + Viscosity (mPa s) = 0.24223 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.043e-03 Mass of water (kg) = 9.961e-01 @@ -59074,7 +59074,7 @@ H2Sg(g) 2.87 7.417e+02 0.283 3.680e+00 3.360e+00 -3.203e-01 Specific Conductance (µS/cm, 130°C) = 635 Density (g/cm³) = 0.98987 Volume (L) = 1.20047 - Viscosity (mPa s) = 0.23286 + Viscosity (mPa s) = 0.23287 Activity of water = 0.930 Ionic strength (mol/kgw) = 1.043e-03 Mass of water (kg) = 9.961e-01 @@ -59148,7 +59148,7 @@ H2Sg(g) 2.87 7.380e+02 0.296 3.360e+00 3.018e+00 -3.417e-01 Specific Conductance (µS/cm, 135°C) = 632 Density (g/cm³) = 0.98859 Volume (L) = 1.21391 - Viscosity (mPa s) = 0.22419 + Viscosity (mPa s) = 0.22420 Activity of water = 0.926 Ionic strength (mol/kgw) = 1.041e-03 Mass of water (kg) = 9.962e-01 @@ -59222,7 +59222,7 @@ H2Sg(g) 2.87 7.341e+02 0.309 3.018e+00 2.655e+00 -3.639e-01 Specific Conductance (µS/cm, 140°C) = 627 Density (g/cm³) = 0.98750 Volume (L) = 1.22800 - Viscosity (mPa s) = 0.21615 + Viscosity (mPa s) = 0.21617 Activity of water = 0.923 Ionic strength (mol/kgw) = 1.036e-03 Mass of water (kg) = 9.964e-01 @@ -59296,7 +59296,7 @@ H2Sg(g) 2.86 7.301e+02 0.322 2.655e+00 2.268e+00 -3.870e-01 Specific Conductance (µS/cm, 145°C) = 619 Density (g/cm³) = 0.98661 Volume (L) = 1.24275 - Viscosity (mPa s) = 0.20869 + Viscosity (mPa s) = 0.20870 Activity of water = 0.919 Ionic strength (mol/kgw) = 1.029e-03 Mass of water (kg) = 9.967e-01 @@ -59370,7 +59370,7 @@ H2Sg(g) 2.86 7.258e+02 0.335 2.268e+00 1.856e+00 -4.113e-01 Specific Conductance (µS/cm, 150°C) = 610 Density (g/cm³) = 0.98596 Volume (L) = 1.25819 - Viscosity (mPa s) = 0.20174 + Viscosity (mPa s) = 0.20175 Activity of water = 0.915 Ionic strength (mol/kgw) = 1.021e-03 Mass of water (kg) = 9.971e-01 @@ -59444,7 +59444,7 @@ H2Sg(g) 2.86 7.214e+02 0.348 1.856e+00 1.420e+00 -4.367e-01 Specific Conductance (µS/cm, 155°C) = 599 Density (g/cm³) = 0.98556 Volume (L) = 1.27433 - Viscosity (mPa s) = 0.19526 + Viscosity (mPa s) = 0.19527 Activity of water = 0.910 Ionic strength (mol/kgw) = 1.010e-03 Mass of water (kg) = 9.976e-01 @@ -59518,7 +59518,7 @@ H2Sg(g) 2.86 7.168e+02 0.362 1.420e+00 9.560e-01 -4.635e-01 Specific Conductance (µS/cm, 160°C) = 586 Density (g/cm³) = 0.98545 Volume (L) = 1.29118 - Viscosity (mPa s) = 0.18920 + Viscosity (mPa s) = 0.18922 Activity of water = 0.906 Ionic strength (mol/kgw) = 9.977e-04 Mass of water (kg) = 9.983e-01 @@ -59592,7 +59592,7 @@ H2Sg(g) 2.85 7.120e+02 0.375 9.560e-01 4.643e-01 -4.917e-01 Specific Conductance (µS/cm, 165°C) = 572 Density (g/cm³) = 0.98564 Volume (L) = 1.30878 - Viscosity (mPa s) = 0.18354 + Viscosity (mPa s) = 0.18355 Activity of water = 0.901 Ionic strength (mol/kgw) = 9.838e-04 Mass of water (kg) = 9.991e-01 @@ -59654,7 +59654,7 @@ Using pressure 1. Specific Conductance (µS/cm, 170°C) = 557 Density (g/cm³) = 0.98585 Volume (L) = 1.32547 - Viscosity (mPa s) = 0.17823 + Viscosity (mPa s) = 0.17825 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.665e-04 Mass of water (kg) = 1.000e+00 @@ -59716,7 +59716,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 543 Density (g/cm³) = 0.98344 Volume (L) = 1.32873 - Viscosity (mPa s) = 0.17325 + Viscosity (mPa s) = 0.17327 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.328e-04 Mass of water (kg) = 1.000e+00 @@ -59775,10 +59775,10 @@ Using pressure 1. pH = 3.093 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 528 + Specific Conductance (µS/cm, 180°C) = 527 Density (g/cm³) = 0.98101 Volume (L) = 1.33202 - Viscosity (mPa s) = 0.16857 + Viscosity (mPa s) = 0.16859 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.990e-04 Mass of water (kg) = 1.000e+00 @@ -59840,7 +59840,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 512 Density (g/cm³) = 0.97856 Volume (L) = 1.33535 - Viscosity (mPa s) = 0.16416 + Viscosity (mPa s) = 0.16418 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.652e-04 Mass of water (kg) = 1.000e+00 @@ -59902,7 +59902,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 496 Density (g/cm³) = 0.97610 Volume (L) = 1.33871 - Viscosity (mPa s) = 0.16001 + Viscosity (mPa s) = 0.16003 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.315e-04 Mass of water (kg) = 1.000e+00 @@ -59964,7 +59964,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 479 Density (g/cm³) = 0.97364 Volume (L) = 1.34210 - Viscosity (mPa s) = 0.15609 + Viscosity (mPa s) = 0.15611 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.982e-04 Mass of water (kg) = 1.000e+00 @@ -60026,7 +60026,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 463 Density (g/cm³) = 0.97117 Volume (L) = 1.34551 - Viscosity (mPa s) = 0.15238 + Viscosity (mPa s) = 0.15240 Activity of water = 0.896 Ionic strength (mol/kgw) = 7.652e-04 Mass of water (kg) = 1.000e+00 @@ -60088,7 +60088,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 446 Density (g/cm³) = 0.96871 Volume (L) = 1.34893 - Viscosity (mPa s) = 0.14888 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14890 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.327e-04 Mass of water (kg) = 1.000e+00 @@ -60150,7 +60150,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 429 Density (g/cm³) = 0.96625 Volume (L) = 1.35236 - Viscosity (mPa s) = 0.14555 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14557 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.007e-04 Mass of water (kg) = 1.000e+00 @@ -60212,7 +60212,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 412 Density (g/cm³) = 0.96382 Volume (L) = 1.35578 - Viscosity (mPa s) = 0.14240 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14242 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.694e-04 Mass of water (kg) = 1.000e+00 @@ -60271,10 +60271,10 @@ Using pressure 1. pH = 3.241 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 396 + Specific Conductance (µS/cm, 220°C) = 395 Density (g/cm³) = 0.96140 Volume (L) = 1.35918 - Viscosity (mPa s) = 0.13939 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13941 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.389e-04 Mass of water (kg) = 1.000e+00 @@ -60336,7 +60336,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 379 Density (g/cm³) = 0.95903 Volume (L) = 1.36255 - Viscosity (mPa s) = 0.13650 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13652 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.091e-04 Mass of water (kg) = 1.000e+00 @@ -60398,7 +60398,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 364 Density (g/cm³) = 0.95669 Volume (L) = 1.36587 - Viscosity (mPa s) = 0.13361 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13363 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 5.802e-04 Mass of water (kg) = 1.000e+00 @@ -60460,7 +60460,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 341 Density (g/cm³) = 0.95442 Volume (L) = 1.36913 - Viscosity (mPa s) = 0.13232 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13234 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.521e-04 Mass of water (kg) = 1.000e+00 @@ -60522,7 +60522,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 330 Density (g/cm³) = 0.95221 Volume (L) = 1.37230 - Viscosity (mPa s) = 0.12910 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12912 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.249e-04 Mass of water (kg) = 1.000e+00 @@ -60584,7 +60584,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 315 Density (g/cm³) = 0.95010 Volume (L) = 1.37535 - Viscosity (mPa s) = 0.12667 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12669 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.987e-04 Mass of water (kg) = 1.000e+00 @@ -60643,10 +60643,10 @@ Using pressure 1. pH = 3.370 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 301 + Specific Conductance (µS/cm, 250°C) = 300 Density (g/cm³) = 0.94809 Volume (L) = 1.37826 - Viscosity (mPa s) = 0.12438 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12440 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.734e-04 Mass of water (kg) = 1.000e+00 @@ -60986,7 +60986,7 @@ H2Sg(g) 2.94 8.787e+02 0.092 6.389e+00 6.382e+00 -7.769e-03 Specific Conductance (µS/cm, 40°C) = 312 Density (g/cm³) = 1.03452 Volume (L) = 1.05169 - Viscosity (mPa s) = 0.66932 + Viscosity (mPa s) = 0.66933 Activity of water = 0.959 Ionic strength (mol/kgw) = 7.077e-04 Mass of water (kg) = 9.988e-01 @@ -61208,7 +61208,7 @@ H2Sg(g) 2.94 8.748e+02 0.118 6.307e+00 6.242e+00 -6.439e-02 Specific Conductance (µS/cm, 55°C) = 403 Density (g/cm³) = 1.02571 Volume (L) = 1.06489 - Viscosity (mPa s) = 0.52574 + Viscosity (mPa s) = 0.52575 Activity of water = 0.959 Ionic strength (mol/kgw) = 8.146e-04 Mass of water (kg) = 9.983e-01 @@ -61578,7 +61578,7 @@ H2Sg(g) 2.94 8.658e+02 0.167 5.820e+00 5.674e+00 -1.460e-01 Specific Conductance (µS/cm, 80°C) = 539 Density (g/cm³) = 1.01248 Volume (L) = 1.09700 - Viscosity (mPa s) = 0.37811 + Viscosity (mPa s) = 0.37812 Activity of water = 0.953 Ionic strength (mol/kgw) = 9.612e-04 Mass of water (kg) = 9.974e-01 @@ -61652,7 +61652,7 @@ H2Sg(g) 2.94 8.636e+02 0.177 5.674e+00 5.512e+00 -1.625e-01 Specific Conductance (µS/cm, 85°C) = 561 Density (g/cm³) = 1.01000 Volume (L) = 1.10500 - Viscosity (mPa s) = 0.35711 + Viscosity (mPa s) = 0.35712 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.842e-04 Mass of water (kg) = 9.972e-01 @@ -61726,7 +61726,7 @@ H2Sg(g) 2.94 8.612e+02 0.188 5.512e+00 5.332e+00 -1.795e-01 Specific Conductance (µS/cm, 90°C) = 581 Density (g/cm³) = 1.00757 Volume (L) = 1.11355 - Viscosity (mPa s) = 0.33812 + Viscosity (mPa s) = 0.33813 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.005e-03 Mass of water (kg) = 9.970e-01 @@ -61800,7 +61800,7 @@ H2Sg(g) 2.93 8.587e+02 0.200 5.332e+00 5.135e+00 -1.969e-01 Specific Conductance (µS/cm, 95°C) = 599 Density (g/cm³) = 1.00521 Volume (L) = 1.12267 - Viscosity (mPa s) = 0.32090 + Viscosity (mPa s) = 0.32091 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.023e-03 Mass of water (kg) = 9.968e-01 @@ -61874,7 +61874,7 @@ H2Sg(g) 2.93 8.559e+02 0.211 5.135e+00 4.921e+00 -2.149e-01 Specific Conductance (µS/cm, 100°C) = 614 Density (g/cm³) = 1.00293 Volume (L) = 1.13238 - Viscosity (mPa s) = 0.30522 + Viscosity (mPa s) = 0.30523 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.038e-03 Mass of water (kg) = 9.967e-01 @@ -61948,7 +61948,7 @@ H2Sg(g) 2.93 8.530e+02 0.223 4.921e+00 4.687e+00 -2.336e-01 Specific Conductance (µS/cm, 105°C) = 626 Density (g/cm³) = 1.00072 Volume (L) = 1.14268 - Viscosity (mPa s) = 0.29092 + Viscosity (mPa s) = 0.29093 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.051e-03 Mass of water (kg) = 9.965e-01 @@ -62022,7 +62022,7 @@ H2Sg(g) 2.93 8.500e+02 0.235 4.687e+00 4.434e+00 -2.529e-01 Specific Conductance (µS/cm, 110°C) = 635 Density (g/cm³) = 0.99861 Volume (L) = 1.15361 - Viscosity (mPa s) = 0.27784 + Viscosity (mPa s) = 0.27785 Activity of water = 0.941 Ionic strength (mol/kgw) = 1.062e-03 Mass of water (kg) = 9.964e-01 @@ -62096,7 +62096,7 @@ H2Sg(g) 2.93 8.467e+02 0.247 4.434e+00 4.161e+00 -2.730e-01 Specific Conductance (µS/cm, 115°C) = 642 Density (g/cm³) = 0.99661 Volume (L) = 1.16519 - Viscosity (mPa s) = 0.26583 + Viscosity (mPa s) = 0.26585 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.070e-03 Mass of water (kg) = 9.963e-01 @@ -62170,7 +62170,7 @@ H2Sg(g) 2.93 8.432e+02 0.259 4.161e+00 3.867e+00 -2.940e-01 Specific Conductance (µS/cm, 120°C) = 646 Density (g/cm³) = 0.99474 Volume (L) = 1.17742 - Viscosity (mPa s) = 0.25480 + Viscosity (mPa s) = 0.25481 Activity of water = 0.935 Ionic strength (mol/kgw) = 1.075e-03 Mass of water (kg) = 9.963e-01 @@ -62244,7 +62244,7 @@ H2Sg(g) 2.92 8.396e+02 0.272 3.867e+00 3.551e+00 -3.158e-01 Specific Conductance (µS/cm, 125°C) = 647 Density (g/cm³) = 0.99299 Volume (L) = 1.19033 - Viscosity (mPa s) = 0.24463 + Viscosity (mPa s) = 0.24464 Activity of water = 0.931 Ionic strength (mol/kgw) = 1.078e-03 Mass of water (kg) = 9.963e-01 @@ -62318,7 +62318,7 @@ H2Sg(g) 2.92 8.358e+02 0.284 3.551e+00 3.212e+00 -3.386e-01 Specific Conductance (µS/cm, 130°C) = 646 Density (g/cm³) = 0.99141 Volume (L) = 1.20396 - Viscosity (mPa s) = 0.23523 + Viscosity (mPa s) = 0.23525 Activity of water = 0.928 Ionic strength (mol/kgw) = 1.078e-03 Mass of water (kg) = 9.964e-01 @@ -62392,7 +62392,7 @@ H2Sg(g) 2.92 8.317e+02 0.297 3.212e+00 2.850e+00 -3.625e-01 Specific Conductance (µS/cm, 135°C) = 642 Density (g/cm³) = 0.98999 Volume (L) = 1.21830 - Viscosity (mPa s) = 0.22654 + Viscosity (mPa s) = 0.22655 Activity of water = 0.924 Ionic strength (mol/kgw) = 1.076e-03 Mass of water (kg) = 9.965e-01 @@ -62466,7 +62466,7 @@ H2Sg(g) 2.92 8.275e+02 0.310 2.850e+00 2.462e+00 -3.875e-01 Specific Conductance (µS/cm, 140°C) = 636 Density (g/cm³) = 0.98877 Volume (L) = 1.23340 - Viscosity (mPa s) = 0.21847 + Viscosity (mPa s) = 0.21849 Activity of water = 0.920 Ionic strength (mol/kgw) = 1.072e-03 Mass of water (kg) = 9.967e-01 @@ -62540,7 +62540,7 @@ H2Sg(g) 2.92 8.231e+02 0.323 2.462e+00 2.049e+00 -4.138e-01 Specific Conductance (µS/cm, 145°C) = 628 Density (g/cm³) = 0.98776 Volume (L) = 1.24928 - Viscosity (mPa s) = 0.21098 + Viscosity (mPa s) = 0.21099 Activity of water = 0.916 Ionic strength (mol/kgw) = 1.066e-03 Mass of water (kg) = 9.971e-01 @@ -62611,10 +62611,10 @@ H2Sg(g) 2.91 8.185e+02 0.336 2.049e+00 1.607e+00 -4.414e-01 pH = 3.018 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 618 + Specific Conductance (µS/cm, 150°C) = 617 Density (g/cm³) = 0.98698 Volume (L) = 1.26596 - Viscosity (mPa s) = 0.20400 + Viscosity (mPa s) = 0.20402 Activity of water = 0.912 Ionic strength (mol/kgw) = 1.057e-03 Mass of water (kg) = 9.975e-01 @@ -62688,7 +62688,7 @@ H2Sg(g) 2.91 8.138e+02 0.350 1.607e+00 1.137e+00 -4.706e-01 Specific Conductance (µS/cm, 155°C) = 605 Density (g/cm³) = 0.98647 Volume (L) = 1.28347 - Viscosity (mPa s) = 0.19750 + Viscosity (mPa s) = 0.19751 Activity of water = 0.907 Ionic strength (mol/kgw) = 1.047e-03 Mass of water (kg) = 9.981e-01 @@ -62759,10 +62759,10 @@ H2Sg(g) 2.91 8.088e+02 0.363 1.137e+00 6.352e-01 -5.015e-01 pH = 3.031 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 592 + Specific Conductance (µS/cm, 160°C) = 591 Density (g/cm³) = 0.98625 Volume (L) = 1.30185 - Viscosity (mPa s) = 0.19142 + Viscosity (mPa s) = 0.19144 Activity of water = 0.902 Ionic strength (mol/kgw) = 1.035e-03 Mass of water (kg) = 9.989e-01 @@ -62836,7 +62836,7 @@ H2Sg(g) 2.91 8.037e+02 0.377 6.352e-01 1.010e-01 -5.342e-01 Specific Conductance (µS/cm, 165°C) = 576 Density (g/cm³) = 0.98635 Volume (L) = 1.32112 - Viscosity (mPa s) = 0.18573 + Viscosity (mPa s) = 0.18575 Activity of water = 0.897 Ionic strength (mol/kgw) = 1.021e-03 Mass of water (kg) = 9.998e-01 @@ -62898,7 +62898,7 @@ Using pressure 1. Specific Conductance (µS/cm, 170°C) = 562 Density (g/cm³) = 0.98448 Volume (L) = 1.32732 - Viscosity (mPa s) = 0.18040 + Viscosity (mPa s) = 0.18042 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.899e-04 Mass of water (kg) = 1.000e+00 @@ -62960,7 +62960,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 547 Density (g/cm³) = 0.98210 Volume (L) = 1.33054 - Viscosity (mPa s) = 0.17540 + Viscosity (mPa s) = 0.17542 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.552e-04 Mass of water (kg) = 1.000e+00 @@ -63022,7 +63022,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 532 Density (g/cm³) = 0.97971 Volume (L) = 1.33379 - Viscosity (mPa s) = 0.17070 + Viscosity (mPa s) = 0.17072 Activity of water = 0.896 Ionic strength (mol/kgw) = 9.204e-04 Mass of water (kg) = 1.000e+00 @@ -63084,7 +63084,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 516 Density (g/cm³) = 0.97730 Volume (L) = 1.33707 - Viscosity (mPa s) = 0.16628 + Viscosity (mPa s) = 0.16630 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.857e-04 Mass of water (kg) = 1.000e+00 @@ -63143,10 +63143,10 @@ Using pressure 1. pH = 3.117 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 190°C) = 500 + Specific Conductance (µS/cm, 190°C) = 499 Density (g/cm³) = 0.97488 Volume (L) = 1.34039 - Viscosity (mPa s) = 0.16211 + Viscosity (mPa s) = 0.16213 Activity of water = 0.896 Ionic strength (mol/kgw) = 8.511e-04 Mass of water (kg) = 1.000e+00 @@ -63208,7 +63208,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 483 Density (g/cm³) = 0.97246 Volume (L) = 1.34373 - Viscosity (mPa s) = 0.15818 + Viscosity (mPa s) = 0.15820 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.168e-04 Mass of water (kg) = 1.000e+00 @@ -63270,7 +63270,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 466 Density (g/cm³) = 0.97003 Volume (L) = 1.34710 - Viscosity (mPa s) = 0.15446 + Viscosity (mPa s) = 0.15448 Activity of water = 0.895 Ionic strength (mol/kgw) = 7.829e-04 Mass of water (kg) = 1.000e+00 @@ -63332,7 +63332,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 449 Density (g/cm³) = 0.96760 Volume (L) = 1.35048 - Viscosity (mPa s) = 0.15094 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15096 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.495e-04 Mass of water (kg) = 1.000e+00 @@ -63391,10 +63391,10 @@ Using pressure 1. pH = 3.191 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 210°C) = 432 + Specific Conductance (µS/cm, 210°C) = 431 Density (g/cm³) = 0.96517 Volume (L) = 1.35387 - Viscosity (mPa s) = 0.14761 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14763 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.167e-04 Mass of water (kg) = 1.000e+00 @@ -63453,10 +63453,10 @@ Using pressure 1. pH = 3.211 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 215°C) = 415 + Specific Conductance (µS/cm, 215°C) = 414 Density (g/cm³) = 0.96276 Volume (L) = 1.35727 - Viscosity (mPa s) = 0.14445 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14447 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.846e-04 Mass of water (kg) = 1.000e+00 @@ -63515,10 +63515,10 @@ Using pressure 1. pH = 3.231 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 398 + Specific Conductance (µS/cm, 220°C) = 397 Density (g/cm³) = 0.96036 Volume (L) = 1.36066 - Viscosity (mPa s) = 0.14144 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14146 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.532e-04 Mass of water (kg) = 1.000e+00 @@ -63580,7 +63580,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 381 Density (g/cm³) = 0.95798 Volume (L) = 1.36403 - Viscosity (mPa s) = 0.13857 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13859 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 6.227e-04 Mass of water (kg) = 1.000e+00 @@ -63642,7 +63642,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 365 Density (g/cm³) = 0.95564 Volume (L) = 1.36738 - Viscosity (mPa s) = 0.13582 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13584 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.930e-04 Mass of water (kg) = 1.000e+00 @@ -63704,7 +63704,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 349 Density (g/cm³) = 0.95334 Volume (L) = 1.37068 - Viscosity (mPa s) = 0.13308 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13310 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.642e-04 Mass of water (kg) = 1.000e+00 @@ -63766,7 +63766,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 323 Density (g/cm³) = 0.95109 Volume (L) = 1.37391 - Viscosity (mPa s) = 0.13280 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13282 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.363e-04 Mass of water (kg) = 1.000e+00 @@ -63828,7 +63828,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 315 Density (g/cm³) = 0.94891 Volume (L) = 1.37707 - Viscosity (mPa s) = 0.12878 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12880 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.094e-04 Mass of water (kg) = 1.000e+00 @@ -63890,7 +63890,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 301 Density (g/cm³) = 0.94681 Volume (L) = 1.38013 - Viscosity (mPa s) = 0.12642 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12644 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.835e-04 Mass of water (kg) = 1.000e+00 @@ -64378,7 +64378,7 @@ H2Sg(g) 2.99 9.739e+02 0.112 6.305e+00 6.264e+00 -4.191e-02 Specific Conductance (µS/cm, 50°C) = 383 Density (g/cm³) = 1.03240 Volume (L) = 1.05749 - Viscosity (mPa s) = 0.57011 + Viscosity (mPa s) = 0.57012 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.015e-04 Mass of water (kg) = 9.985e-01 @@ -64822,7 +64822,7 @@ H2Sg(g) 2.98 9.626e+02 0.170 5.789e+00 5.643e+00 -1.460e-01 Specific Conductance (µS/cm, 80°C) = 553 Density (g/cm³) = 1.01543 Volume (L) = 1.09494 - Viscosity (mPa s) = 0.38080 + Viscosity (mPa s) = 0.38081 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.886e-04 Mass of water (kg) = 9.974e-01 @@ -64896,7 +64896,7 @@ H2Sg(g) 2.98 9.602e+02 0.181 5.643e+00 5.480e+00 -1.634e-01 Specific Conductance (µS/cm, 85°C) = 575 Density (g/cm³) = 1.01279 Volume (L) = 1.10312 - Viscosity (mPa s) = 0.35977 + Viscosity (mPa s) = 0.35978 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.012e-03 Mass of water (kg) = 9.973e-01 @@ -64970,7 +64970,7 @@ H2Sg(g) 2.98 9.576e+02 0.192 5.480e+00 5.298e+00 -1.813e-01 Specific Conductance (µS/cm, 90°C) = 595 Density (g/cm³) = 1.01021 Volume (L) = 1.11188 - Viscosity (mPa s) = 0.34074 + Viscosity (mPa s) = 0.34075 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.034e-03 Mass of water (kg) = 9.971e-01 @@ -65044,7 +65044,7 @@ H2Sg(g) 2.98 9.548e+02 0.204 5.298e+00 5.099e+00 -1.997e-01 Specific Conductance (µS/cm, 95°C) = 613 Density (g/cm³) = 1.00768 Volume (L) = 1.12125 - Viscosity (mPa s) = 0.32349 + Viscosity (mPa s) = 0.32350 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.053e-03 Mass of water (kg) = 9.969e-01 @@ -65118,7 +65118,7 @@ H2Sg(g) 2.98 9.519e+02 0.215 5.099e+00 4.880e+00 -2.188e-01 Specific Conductance (µS/cm, 100°C) = 628 Density (g/cm³) = 1.00523 Volume (L) = 1.13126 - Viscosity (mPa s) = 0.30778 + Viscosity (mPa s) = 0.30779 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 9.968e-01 @@ -65192,7 +65192,7 @@ H2Sg(g) 2.98 9.487e+02 0.227 4.880e+00 4.641e+00 -2.386e-01 Specific Conductance (µS/cm, 105°C) = 640 Density (g/cm³) = 1.00286 Volume (L) = 1.14191 - Viscosity (mPa s) = 0.29344 + Viscosity (mPa s) = 0.29345 Activity of water = 0.942 Ionic strength (mol/kgw) = 1.083e-03 Mass of water (kg) = 9.966e-01 @@ -65266,7 +65266,7 @@ H2Sg(g) 2.98 9.454e+02 0.239 4.641e+00 4.382e+00 -2.593e-01 Specific Conductance (µS/cm, 110°C) = 649 Density (g/cm³) = 1.00058 Volume (L) = 1.15325 - Viscosity (mPa s) = 0.28032 + Viscosity (mPa s) = 0.28033 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.094e-03 Mass of water (kg) = 9.965e-01 @@ -65340,7 +65340,7 @@ H2Sg(g) 2.97 9.419e+02 0.251 4.382e+00 4.101e+00 -2.808e-01 Specific Conductance (µS/cm, 115°C) = 656 Density (g/cm³) = 0.99840 Volume (L) = 1.16529 - Viscosity (mPa s) = 0.26828 + Viscosity (mPa s) = 0.26829 Activity of water = 0.937 Ionic strength (mol/kgw) = 1.103e-03 Mass of water (kg) = 9.965e-01 @@ -65414,7 +65414,7 @@ H2Sg(g) 2.97 9.382e+02 0.264 4.101e+00 3.798e+00 -3.034e-01 Specific Conductance (µS/cm, 120°C) = 659 Density (g/cm³) = 0.99634 Volume (L) = 1.17805 - Viscosity (mPa s) = 0.25721 + Viscosity (mPa s) = 0.25723 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.108e-03 Mass of water (kg) = 9.964e-01 @@ -65488,7 +65488,7 @@ H2Sg(g) 2.97 9.343e+02 0.276 3.798e+00 3.471e+00 -3.270e-01 Specific Conductance (µS/cm, 125°C) = 660 Density (g/cm³) = 0.99441 Volume (L) = 1.19157 - Viscosity (mPa s) = 0.24701 + Viscosity (mPa s) = 0.24702 Activity of water = 0.930 Ionic strength (mol/kgw) = 1.112e-03 Mass of water (kg) = 9.965e-01 @@ -65562,7 +65562,7 @@ H2Sg(g) 2.97 9.301e+02 0.289 3.471e+00 3.119e+00 -3.518e-01 Specific Conductance (µS/cm, 130°C) = 658 Density (g/cm³) = 0.99263 Volume (L) = 1.20588 - Viscosity (mPa s) = 0.23759 + Viscosity (mPa s) = 0.23760 Activity of water = 0.926 Ionic strength (mol/kgw) = 1.113e-03 Mass of water (kg) = 9.966e-01 @@ -65636,7 +65636,7 @@ H2Sg(g) 2.97 9.258e+02 0.302 3.119e+00 2.741e+00 -3.778e-01 Specific Conductance (µS/cm, 135°C) = 654 Density (g/cm³) = 0.99102 Volume (L) = 1.22100 - Viscosity (mPa s) = 0.22886 + Viscosity (mPa s) = 0.22888 Activity of water = 0.923 Ionic strength (mol/kgw) = 1.111e-03 Mass of water (kg) = 9.967e-01 @@ -65710,7 +65710,7 @@ H2Sg(g) 2.96 9.213e+02 0.315 2.741e+00 2.336e+00 -4.052e-01 Specific Conductance (µS/cm, 140°C) = 647 Density (g/cm³) = 0.98960 Volume (L) = 1.23697 - Viscosity (mPa s) = 0.22077 + Viscosity (mPa s) = 0.22078 Activity of water = 0.918 Ionic strength (mol/kgw) = 1.107e-03 Mass of water (kg) = 9.970e-01 @@ -65784,7 +65784,7 @@ H2Sg(g) 2.96 9.166e+02 0.328 2.336e+00 1.902e+00 -4.341e-01 Specific Conductance (µS/cm, 145°C) = 637 Density (g/cm³) = 0.98839 Volume (L) = 1.25383 - Viscosity (mPa s) = 0.21325 + Viscosity (mPa s) = 0.21326 Activity of water = 0.914 Ionic strength (mol/kgw) = 1.101e-03 Mass of water (kg) = 9.974e-01 @@ -65858,7 +65858,7 @@ H2Sg(g) 2.96 9.117e+02 0.341 1.902e+00 1.437e+00 -4.647e-01 Specific Conductance (µS/cm, 150°C) = 626 Density (g/cm³) = 0.98741 Volume (L) = 1.27161 - Viscosity (mPa s) = 0.20625 + Viscosity (mPa s) = 0.20626 Activity of water = 0.909 Ionic strength (mol/kgw) = 1.093e-03 Mass of water (kg) = 9.979e-01 @@ -65932,7 +65932,7 @@ H2Sg(g) 2.96 9.066e+02 0.355 1.437e+00 9.403e-01 -4.971e-01 Specific Conductance (µS/cm, 155°C) = 613 Density (g/cm³) = 0.98669 Volume (L) = 1.29035 - Viscosity (mPa s) = 0.19972 + Viscosity (mPa s) = 0.19973 Activity of water = 0.904 Ionic strength (mol/kgw) = 1.082e-03 Mass of water (kg) = 9.985e-01 @@ -66006,7 +66006,7 @@ H2Sg(g) 2.95 9.013e+02 0.368 9.403e-01 4.088e-01 -5.315e-01 Specific Conductance (µS/cm, 160°C) = 598 Density (g/cm³) = 0.98626 Volume (L) = 1.31009 - Viscosity (mPa s) = 0.19362 + Viscosity (mPa s) = 0.19363 Activity of water = 0.899 Ionic strength (mol/kgw) = 1.070e-03 Mass of water (kg) = 9.993e-01 @@ -66068,7 +66068,7 @@ Using pressure 1. Specific Conductance (µS/cm, 165°C) = 582 Density (g/cm³) = 0.98551 Volume (L) = 1.32593 - Viscosity (mPa s) = 0.18791 + Viscosity (mPa s) = 0.18793 Activity of water = 0.895 Ionic strength (mol/kgw) = 1.051e-03 Mass of water (kg) = 1.000e+00 @@ -66130,7 +66130,7 @@ Using pressure 1. Specific Conductance (µS/cm, 170°C) = 568 Density (g/cm³) = 0.98317 Volume (L) = 1.32909 - Viscosity (mPa s) = 0.18256 + Viscosity (mPa s) = 0.18258 Activity of water = 0.895 Ionic strength (mol/kgw) = 1.015e-03 Mass of water (kg) = 1.000e+00 @@ -66192,7 +66192,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 553 Density (g/cm³) = 0.98081 Volume (L) = 1.33228 - Viscosity (mPa s) = 0.17754 + Viscosity (mPa s) = 0.17756 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.796e-04 Mass of water (kg) = 1.000e+00 @@ -66254,7 +66254,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 537 Density (g/cm³) = 0.97844 Volume (L) = 1.33551 - Viscosity (mPa s) = 0.17282 + Viscosity (mPa s) = 0.17284 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.438e-04 Mass of water (kg) = 1.000e+00 @@ -66316,7 +66316,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 521 Density (g/cm³) = 0.97606 Volume (L) = 1.33877 - Viscosity (mPa s) = 0.16838 + Viscosity (mPa s) = 0.16840 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.079e-04 Mass of water (kg) = 1.000e+00 @@ -66378,7 +66378,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 504 Density (g/cm³) = 0.97366 Volume (L) = 1.34207 - Viscosity (mPa s) = 0.16419 + Viscosity (mPa s) = 0.16421 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.723e-04 Mass of water (kg) = 1.000e+00 @@ -66440,7 +66440,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 487 Density (g/cm³) = 0.97126 Volume (L) = 1.34539 - Viscosity (mPa s) = 0.16024 + Viscosity (mPa s) = 0.16026 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.369e-04 Mass of water (kg) = 1.000e+00 @@ -66502,7 +66502,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 470 Density (g/cm³) = 0.96884 Volume (L) = 1.34874 - Viscosity (mPa s) = 0.15651 + Viscosity (mPa s) = 0.15653 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.020e-04 Mass of water (kg) = 1.000e+00 @@ -66564,7 +66564,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 452 Density (g/cm³) = 0.96643 Volume (L) = 1.35211 - Viscosity (mPa s) = 0.15298 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15300 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.677e-04 Mass of water (kg) = 1.000e+00 @@ -66626,7 +66626,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 435 Density (g/cm³) = 0.96401 Volume (L) = 1.35550 - Viscosity (mPa s) = 0.14964 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14966 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.339e-04 Mass of water (kg) = 1.000e+00 @@ -66688,7 +66688,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 417 Density (g/cm³) = 0.96160 Volume (L) = 1.35891 - Viscosity (mPa s) = 0.14647 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14649 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 7.009e-04 Mass of water (kg) = 1.000e+00 @@ -66750,7 +66750,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 400 Density (g/cm³) = 0.95919 Volume (L) = 1.36231 - Viscosity (mPa s) = 0.14345 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14347 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.686e-04 Mass of water (kg) = 1.000e+00 @@ -66812,7 +66812,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 383 Density (g/cm³) = 0.95680 Volume (L) = 1.36572 - Viscosity (mPa s) = 0.14058 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14060 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.372e-04 Mass of water (kg) = 1.000e+00 @@ -66874,7 +66874,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 366 Density (g/cm³) = 0.95443 Volume (L) = 1.36911 - Viscosity (mPa s) = 0.13784 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13786 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.067e-04 Mass of water (kg) = 1.000e+00 @@ -66936,7 +66936,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 350 Density (g/cm³) = 0.95208 Volume (L) = 1.37248 - Viscosity (mPa s) = 0.13521 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13523 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.771e-04 Mass of water (kg) = 1.000e+00 @@ -66998,7 +66998,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 335 Density (g/cm³) = 0.94977 Volume (L) = 1.37582 - Viscosity (mPa s) = 0.13262 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13264 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.485e-04 Mass of water (kg) = 1.000e+00 @@ -67060,7 +67060,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 405 Density (g/cm³) = 0.94751 Volume (L) = 1.37911 - Viscosity (mPa s) = 0.11592 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11594 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.208e-04 Mass of water (kg) = 1.000e+00 @@ -67122,7 +67122,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 301 Density (g/cm³) = 0.94530 Volume (L) = 1.38234 - Viscosity (mPa s) = 0.12851 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12853 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.942e-04 Mass of water (kg) = 1.000e+00 @@ -67610,7 +67610,7 @@ H2Sg(g) 2.99 9.739e+02 0.112 6.305e+00 6.264e+00 -4.191e-02 Specific Conductance (µS/cm, 50°C) = 383 Density (g/cm³) = 1.03240 Volume (L) = 1.05749 - Viscosity (mPa s) = 0.57011 + Viscosity (mPa s) = 0.57012 Activity of water = 0.958 Ionic strength (mol/kgw) = 8.015e-04 Mass of water (kg) = 9.985e-01 @@ -68054,7 +68054,7 @@ H2Sg(g) 2.98 9.626e+02 0.170 5.789e+00 5.643e+00 -1.460e-01 Specific Conductance (µS/cm, 80°C) = 553 Density (g/cm³) = 1.01543 Volume (L) = 1.09494 - Viscosity (mPa s) = 0.38080 + Viscosity (mPa s) = 0.38081 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.886e-04 Mass of water (kg) = 9.974e-01 @@ -68128,7 +68128,7 @@ H2Sg(g) 2.98 9.602e+02 0.181 5.643e+00 5.480e+00 -1.634e-01 Specific Conductance (µS/cm, 85°C) = 575 Density (g/cm³) = 1.01279 Volume (L) = 1.10312 - Viscosity (mPa s) = 0.35977 + Viscosity (mPa s) = 0.35978 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.012e-03 Mass of water (kg) = 9.973e-01 @@ -68202,7 +68202,7 @@ H2Sg(g) 2.98 9.576e+02 0.192 5.480e+00 5.298e+00 -1.813e-01 Specific Conductance (µS/cm, 90°C) = 595 Density (g/cm³) = 1.01021 Volume (L) = 1.11188 - Viscosity (mPa s) = 0.34074 + Viscosity (mPa s) = 0.34075 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.034e-03 Mass of water (kg) = 9.971e-01 @@ -68276,7 +68276,7 @@ H2Sg(g) 2.98 9.548e+02 0.204 5.298e+00 5.099e+00 -1.997e-01 Specific Conductance (µS/cm, 95°C) = 613 Density (g/cm³) = 1.00768 Volume (L) = 1.12125 - Viscosity (mPa s) = 0.32349 + Viscosity (mPa s) = 0.32350 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.053e-03 Mass of water (kg) = 9.969e-01 @@ -68350,7 +68350,7 @@ H2Sg(g) 2.98 9.519e+02 0.215 5.099e+00 4.880e+00 -2.188e-01 Specific Conductance (µS/cm, 100°C) = 628 Density (g/cm³) = 1.00523 Volume (L) = 1.13126 - Viscosity (mPa s) = 0.30778 + Viscosity (mPa s) = 0.30779 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 9.968e-01 @@ -68424,7 +68424,7 @@ H2Sg(g) 2.98 9.487e+02 0.227 4.880e+00 4.641e+00 -2.386e-01 Specific Conductance (µS/cm, 105°C) = 640 Density (g/cm³) = 1.00286 Volume (L) = 1.14191 - Viscosity (mPa s) = 0.29344 + Viscosity (mPa s) = 0.29345 Activity of water = 0.942 Ionic strength (mol/kgw) = 1.083e-03 Mass of water (kg) = 9.966e-01 @@ -68498,7 +68498,7 @@ H2Sg(g) 2.98 9.454e+02 0.239 4.641e+00 4.382e+00 -2.593e-01 Specific Conductance (µS/cm, 110°C) = 649 Density (g/cm³) = 1.00058 Volume (L) = 1.15325 - Viscosity (mPa s) = 0.28032 + Viscosity (mPa s) = 0.28033 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.094e-03 Mass of water (kg) = 9.965e-01 @@ -68572,7 +68572,7 @@ H2Sg(g) 2.97 9.419e+02 0.251 4.382e+00 4.101e+00 -2.808e-01 Specific Conductance (µS/cm, 115°C) = 656 Density (g/cm³) = 0.99840 Volume (L) = 1.16529 - Viscosity (mPa s) = 0.26828 + Viscosity (mPa s) = 0.26829 Activity of water = 0.937 Ionic strength (mol/kgw) = 1.103e-03 Mass of water (kg) = 9.965e-01 @@ -68646,7 +68646,7 @@ H2Sg(g) 2.97 9.382e+02 0.264 4.101e+00 3.798e+00 -3.034e-01 Specific Conductance (µS/cm, 120°C) = 659 Density (g/cm³) = 0.99634 Volume (L) = 1.17805 - Viscosity (mPa s) = 0.25721 + Viscosity (mPa s) = 0.25723 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.108e-03 Mass of water (kg) = 9.964e-01 @@ -68720,7 +68720,7 @@ H2Sg(g) 2.97 9.343e+02 0.276 3.798e+00 3.471e+00 -3.270e-01 Specific Conductance (µS/cm, 125°C) = 660 Density (g/cm³) = 0.99441 Volume (L) = 1.19157 - Viscosity (mPa s) = 0.24701 + Viscosity (mPa s) = 0.24702 Activity of water = 0.930 Ionic strength (mol/kgw) = 1.112e-03 Mass of water (kg) = 9.965e-01 @@ -68794,7 +68794,7 @@ H2Sg(g) 2.97 9.301e+02 0.289 3.471e+00 3.119e+00 -3.518e-01 Specific Conductance (µS/cm, 130°C) = 658 Density (g/cm³) = 0.99263 Volume (L) = 1.20588 - Viscosity (mPa s) = 0.23759 + Viscosity (mPa s) = 0.23760 Activity of water = 0.926 Ionic strength (mol/kgw) = 1.113e-03 Mass of water (kg) = 9.966e-01 @@ -68868,7 +68868,7 @@ H2Sg(g) 2.97 9.258e+02 0.302 3.119e+00 2.741e+00 -3.778e-01 Specific Conductance (µS/cm, 135°C) = 654 Density (g/cm³) = 0.99102 Volume (L) = 1.22100 - Viscosity (mPa s) = 0.22886 + Viscosity (mPa s) = 0.22888 Activity of water = 0.923 Ionic strength (mol/kgw) = 1.111e-03 Mass of water (kg) = 9.967e-01 @@ -68942,7 +68942,7 @@ H2Sg(g) 2.96 9.213e+02 0.315 2.741e+00 2.336e+00 -4.052e-01 Specific Conductance (µS/cm, 140°C) = 647 Density (g/cm³) = 0.98960 Volume (L) = 1.23697 - Viscosity (mPa s) = 0.22077 + Viscosity (mPa s) = 0.22078 Activity of water = 0.918 Ionic strength (mol/kgw) = 1.107e-03 Mass of water (kg) = 9.970e-01 @@ -69016,7 +69016,7 @@ H2Sg(g) 2.96 9.166e+02 0.328 2.336e+00 1.902e+00 -4.341e-01 Specific Conductance (µS/cm, 145°C) = 637 Density (g/cm³) = 0.98839 Volume (L) = 1.25383 - Viscosity (mPa s) = 0.21325 + Viscosity (mPa s) = 0.21326 Activity of water = 0.914 Ionic strength (mol/kgw) = 1.101e-03 Mass of water (kg) = 9.974e-01 @@ -69090,7 +69090,7 @@ H2Sg(g) 2.96 9.117e+02 0.341 1.902e+00 1.437e+00 -4.647e-01 Specific Conductance (µS/cm, 150°C) = 626 Density (g/cm³) = 0.98741 Volume (L) = 1.27161 - Viscosity (mPa s) = 0.20625 + Viscosity (mPa s) = 0.20626 Activity of water = 0.909 Ionic strength (mol/kgw) = 1.093e-03 Mass of water (kg) = 9.979e-01 @@ -69164,7 +69164,7 @@ H2Sg(g) 2.96 9.066e+02 0.355 1.437e+00 9.403e-01 -4.971e-01 Specific Conductance (µS/cm, 155°C) = 613 Density (g/cm³) = 0.98669 Volume (L) = 1.29035 - Viscosity (mPa s) = 0.19972 + Viscosity (mPa s) = 0.19973 Activity of water = 0.904 Ionic strength (mol/kgw) = 1.082e-03 Mass of water (kg) = 9.985e-01 @@ -69238,7 +69238,7 @@ H2Sg(g) 2.95 9.013e+02 0.368 9.403e-01 4.088e-01 -5.315e-01 Specific Conductance (µS/cm, 160°C) = 598 Density (g/cm³) = 0.98626 Volume (L) = 1.31009 - Viscosity (mPa s) = 0.19362 + Viscosity (mPa s) = 0.19363 Activity of water = 0.899 Ionic strength (mol/kgw) = 1.070e-03 Mass of water (kg) = 9.993e-01 @@ -69300,7 +69300,7 @@ Using pressure 1. Specific Conductance (µS/cm, 165°C) = 582 Density (g/cm³) = 0.98551 Volume (L) = 1.32593 - Viscosity (mPa s) = 0.18791 + Viscosity (mPa s) = 0.18793 Activity of water = 0.895 Ionic strength (mol/kgw) = 1.051e-03 Mass of water (kg) = 1.000e+00 @@ -69362,7 +69362,7 @@ Using pressure 1. Specific Conductance (µS/cm, 170°C) = 568 Density (g/cm³) = 0.98317 Volume (L) = 1.32909 - Viscosity (mPa s) = 0.18256 + Viscosity (mPa s) = 0.18258 Activity of water = 0.895 Ionic strength (mol/kgw) = 1.015e-03 Mass of water (kg) = 1.000e+00 @@ -69424,7 +69424,7 @@ Using pressure 1. Specific Conductance (µS/cm, 175°C) = 553 Density (g/cm³) = 0.98081 Volume (L) = 1.33228 - Viscosity (mPa s) = 0.17754 + Viscosity (mPa s) = 0.17756 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.796e-04 Mass of water (kg) = 1.000e+00 @@ -69486,7 +69486,7 @@ Using pressure 1. Specific Conductance (µS/cm, 180°C) = 537 Density (g/cm³) = 0.97844 Volume (L) = 1.33551 - Viscosity (mPa s) = 0.17282 + Viscosity (mPa s) = 0.17284 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.438e-04 Mass of water (kg) = 1.000e+00 @@ -69548,7 +69548,7 @@ Using pressure 1. Specific Conductance (µS/cm, 185°C) = 521 Density (g/cm³) = 0.97606 Volume (L) = 1.33877 - Viscosity (mPa s) = 0.16838 + Viscosity (mPa s) = 0.16840 Activity of water = 0.895 Ionic strength (mol/kgw) = 9.079e-04 Mass of water (kg) = 1.000e+00 @@ -69610,7 +69610,7 @@ Using pressure 1. Specific Conductance (µS/cm, 190°C) = 504 Density (g/cm³) = 0.97366 Volume (L) = 1.34207 - Viscosity (mPa s) = 0.16419 + Viscosity (mPa s) = 0.16421 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.723e-04 Mass of water (kg) = 1.000e+00 @@ -69672,7 +69672,7 @@ Using pressure 1. Specific Conductance (µS/cm, 195°C) = 487 Density (g/cm³) = 0.97126 Volume (L) = 1.34539 - Viscosity (mPa s) = 0.16024 + Viscosity (mPa s) = 0.16026 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.369e-04 Mass of water (kg) = 1.000e+00 @@ -69734,7 +69734,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 470 Density (g/cm³) = 0.96884 Volume (L) = 1.34874 - Viscosity (mPa s) = 0.15651 + Viscosity (mPa s) = 0.15653 Activity of water = 0.895 Ionic strength (mol/kgw) = 8.020e-04 Mass of water (kg) = 1.000e+00 @@ -69796,7 +69796,7 @@ Using pressure 1. Specific Conductance (µS/cm, 205°C) = 452 Density (g/cm³) = 0.96643 Volume (L) = 1.35211 - Viscosity (mPa s) = 0.15298 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15300 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.677e-04 Mass of water (kg) = 1.000e+00 @@ -69858,7 +69858,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 435 Density (g/cm³) = 0.96401 Volume (L) = 1.35550 - Viscosity (mPa s) = 0.14964 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14966 (solute contributions limited to 200 °C) Activity of water = 0.895 Ionic strength (mol/kgw) = 7.339e-04 Mass of water (kg) = 1.000e+00 @@ -69920,7 +69920,7 @@ Using pressure 1. Specific Conductance (µS/cm, 215°C) = 417 Density (g/cm³) = 0.96160 Volume (L) = 1.35891 - Viscosity (mPa s) = 0.14647 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14649 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 7.009e-04 Mass of water (kg) = 1.000e+00 @@ -69982,7 +69982,7 @@ Using pressure 1. Specific Conductance (µS/cm, 220°C) = 400 Density (g/cm³) = 0.95919 Volume (L) = 1.36231 - Viscosity (mPa s) = 0.14345 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14347 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.686e-04 Mass of water (kg) = 1.000e+00 @@ -70044,7 +70044,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 383 Density (g/cm³) = 0.95680 Volume (L) = 1.36572 - Viscosity (mPa s) = 0.14058 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14060 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.372e-04 Mass of water (kg) = 1.000e+00 @@ -70106,7 +70106,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 366 Density (g/cm³) = 0.95443 Volume (L) = 1.36911 - Viscosity (mPa s) = 0.13784 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13786 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 6.067e-04 Mass of water (kg) = 1.000e+00 @@ -70168,7 +70168,7 @@ Using pressure 1. Specific Conductance (µS/cm, 235°C) = 350 Density (g/cm³) = 0.95208 Volume (L) = 1.37248 - Viscosity (mPa s) = 0.13521 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13523 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.771e-04 Mass of water (kg) = 1.000e+00 @@ -70230,7 +70230,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 335 Density (g/cm³) = 0.94977 Volume (L) = 1.37582 - Viscosity (mPa s) = 0.13262 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13264 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.485e-04 Mass of water (kg) = 1.000e+00 @@ -70292,7 +70292,7 @@ Using pressure 1. Specific Conductance (µS/cm, 245°C) = 405 Density (g/cm³) = 0.94751 Volume (L) = 1.37911 - Viscosity (mPa s) = 0.11592 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11594 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 5.208e-04 Mass of water (kg) = 1.000e+00 @@ -70354,7 +70354,7 @@ Using pressure 1. Specific Conductance (µS/cm, 250°C) = 301 Density (g/cm³) = 0.94530 Volume (L) = 1.38234 - Viscosity (mPa s) = 0.12851 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12853 (solute contributions limited to 200 °C) Activity of water = 0.894 Ionic strength (mol/kgw) = 4.942e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/H2S_pz_appt_101.sel b/mytest/H2S_pz_appt_101.sel index dbb7254b..0349e066 100644 --- a/mytest/H2S_pz_appt_101.sel +++ b/mytest/H2S_pz_appt_101.sel @@ -1,968 +1,968 @@ Mu SC - 0.000830399284 215.2816880622 - 0.000098783870 24.8962815847 - 0.000098783870 24.8962815847 - 0.000099777664 26.5148629006 - 0.000100719170 28.1418326530 - 0.000101606643 29.7729751525 - 0.000102438298 31.4041561480 - 0.000103212311 33.0313020722 - 0.000103926804 34.6503800403 - 0.000104579843 36.2573786483 - 0.000105169426 37.8482895707 - 0.000105693473 39.4190899240 - 0.000106149821 40.9657253231 - 0.000106536209 42.4840935342 - 0.000106850270 43.9700285976 - 0.000107089519 45.4192852708 - 0.000107251341 46.8275236106 - 0.000107332978 48.1902934886 - 0.000107331515 49.5030187944 - 0.000107243861 50.7609808837 - 0.000107066738 51.9593017147 - 0.000106796653 53.0929247094 - 0.000106429880 54.1565943914 - 0.000105962432 55.1448334505 - 0.000105390031 56.0519166285 - 0.000104708071 56.8718405088 - 0.000103911575 57.5982880402 - 0.000102995144 58.2245863054 - 0.000101952893 58.7436556081 - 0.000100778374 59.1479473642 - 0.000099464482 59.4293674635 - 0.000098003335 59.5784933002 - 0.000096386125 59.5872144445 - 0.000094602926 59.4444223934 - 0.000092642446 59.1385878242 - 0.000090491699 58.6568032509 - 0.000088135572 57.9844327405 - 0.000085556232 57.1046355968 - 0.000082732300 55.9977044686 - 0.000079637678 54.6401220640 - 0.000076239813 53.0031759493 - 0.000072497059 51.0508495896 - 0.000068354457 48.7364660318 - 0.000063736630 45.9970414303 - 0.000058534873 42.7430800552 - 0.000052581406 38.8382684158 - 0.000045590375 34.0531459566 - 0.000529534540 199.0740491495 - 0.000529534540 199.0740491495 - 0.000535681759 214.0741485939 - 0.000540845738 228.7428802494 - 0.000545029750 242.9809717339 - 0.000548239944 256.6974475294 - 0.000550485359 269.8094320132 - 0.000551777846 282.2419888976 - 0.000552131947 293.9279880246 - 0.000551564723 304.8079878373 - 0.000550095580 314.8301216181 - 0.000547746075 323.9499767747 - 0.000544539716 332.1304583622 - 0.000540501769 339.3416302132 - 0.000535659064 345.5605291903 - 0.000530039806 350.7709500102 - 0.000523673394 354.9631997382 - 0.000516590245 358.1176945940 - 0.000508821631 360.2707306656 - 0.000500399508 361.4129173380 - 0.000491356369 361.5575695533 - 0.000481725090 360.7228752239 - 0.000471538784 358.9315025624 - 0.000460830655 356.2101920862 - 0.000449633858 352.5893358896 - 0.000437981351 348.1025464787 - 0.000425905750 342.7862170858 - 0.000413439179 336.6790749119 - 0.000400613108 329.8217281904 - 0.000387458185 322.2562073111 - 0.000374004052 314.0254994844 - 0.000360279142 305.1730755890 - 0.000346310450 295.7424070404 - 0.000332123270 285.7764701195 - 0.000317740884 275.3172364099 - 0.000303184192 264.4051545317 - 0.000288471253 253.0786529993 - 0.000273616703 241.3737860275 - 0.000258631002 229.3245361414 - 0.000243519425 216.9664889775 - 0.000228280674 204.3684140322 - 0.000212904905 200.9560026600 - 0.000197370813 177.6597824987 - 0.000181641157 164.1577264277 - 0.000165655566 150.2275944818 - 0.000149318152 135.8493624586 - 0.000479681934 186.2987096771 - 0.000479681934 186.2987096771 - 0.000506523082 208.4764694293 - 0.000532588240 231.2060949510 - 0.000557679203 254.2760211043 - 0.000581603735 277.4643785497 - 0.000655212671 317.8338665713 - 0.000659422959 335.4566988172 - 0.000661733152 351.8371558131 - 0.000662289360 366.8814493110 - 0.000661192253 380.5028146578 - 0.000658526203 392.6282611795 - 0.000654368976 403.2003824624 - 0.000648795764 412.1777236992 - 0.000641881003 419.5345400770 - 0.000633699188 425.2602273306 - 0.000624325182 429.3387648456 - 0.000613834243 431.8300482654 - 0.000602301912 432.7412229050 - 0.000589803802 432.1132033891 - 0.000576415357 429.9970763126 - 0.000562211573 426.4529212327 - 0.000547266714 421.5486214671 - 0.000531654028 415.3586763726 - 0.000515445461 407.9630303381 - 0.000498711373 399.4459304114 - 0.000481520268 389.8948239697 - 0.000463938518 379.3993082861 - 0.000446030094 368.0501470954 - 0.000427856299 355.9383796239 - 0.000409475496 343.1545779680 - 0.000390942824 329.7884038352 - 0.000372309907 315.9289602140 - 0.000353624527 301.6680205705 - 0.000334930268 287.1192505108 - 0.000316266092 272.6702599585 - 0.000297665830 256.1035498076 - 0.000279157539 241.3506900420 - 0.000260762661 226.1030028266 - 0.000242494854 210.7535972896 - 0.000224358392 195.3735244866 - 0.000206345749 179.9934092088 - 0.000188433933 164.6212209516 - 0.000170578586 149.2409812264 - 0.000152703981 133.8047170765 - 0.000134684804 118.2161042417 - 0.000489514316 190.6663473185 - 0.000489514316 190.6663473185 - 0.000518373113 214.3894048633 - 0.000546427504 238.7345871338 - 0.000573454576 263.4586008272 - 0.000599240886 288.3069648676 - 0.000623584570 313.0186370577 - 0.000646297077 337.3307767893 - 0.000667204454 360.9834552655 - 0.000686148072 383.7241021087 - 0.000702984685 405.3115056336 - 0.000717585501 425.5190798684 - 0.000729833776 444.1370856298 - 0.000739619780 460.9731951730 - 0.000746830185 475.8500373226 - 0.000751322735 488.5956398895 - 0.000752846013 498.9855400813 - 0.000750504377 506.6062737788 - 0.000742832887 510.7086522345 - 0.000732282290 512.2927795494 - 0.000719724382 511.7281852307 - 0.000705516724 509.1861380109 - 0.000689900523 504.8045950256 - 0.000673068254 498.7138420464 - 0.000655185946 491.0434989223 - 0.000636402698 481.9244541505 - 0.000616855351 471.4889981252 - 0.000596670986 459.8702607805 - 0.000575968333 447.2014377245 - 0.000554858591 433.6151175273 - 0.000533445918 419.2431198938 - 0.000511827723 404.2179210922 - 0.000490094854 388.6800668130 - 0.000468331706 372.8202173239 - 0.000446616305 357.5032719805 - 0.000425020354 338.1807980964 - 0.000403609280 322.2376120255 - 0.000382442270 305.6571915179 - 0.000361572290 289.0317005430 - 0.000341046103 272.4986676318 - 0.000320904268 256.1430984181 - 0.000301181098 240.0316606855 - 0.000281904590 224.2197157614 - 0.000263096260 208.7533659868 - 0.000244770890 193.6701659140 - 0.000226936095 178.9992806271 - 0.000499098372 194.9108292850 - 0.000499098372 194.9108292850 - 0.000528658544 219.0740797974 - 0.000557458403 243.8788073602 - 0.000585275826 269.0806919549 - 0.000611898854 294.4243978207 - 0.000637127990 319.6483623076 - 0.000660778214 344.4897672231 - 0.000682680679 368.6895052894 - 0.000702684102 391.9970019275 - 0.000720655766 414.1746986517 - 0.000736482178 435.0020891476 - 0.000750069358 454.2791835823 - 0.000761342751 471.8293148267 - 0.000770246773 487.5012248014 - 0.000776743981 501.1703954916 - 0.000780813881 512.7159995687 - 0.000782451415 522.1198349673 - 0.000781665263 529.3109345981 - 0.000778476415 534.2706115325 - 0.000772918190 537.0040834369 - 0.000765040513 537.5406386987 - 0.000754922664 535.9369620161 - 0.000742693899 532.2835976294 - 0.000728544775 526.7077997084 - 0.000712709280 519.3646403223 - 0.000695430538 510.4213805657 - 0.000676937092 500.0460753678 - 0.000657435204 488.4027949931 - 0.000637109417 475.6505184419 - 0.000616125431 461.9435430890 - 0.000594632934 447.4332028054 - 0.000572767855 432.2733839692 - 0.000550654037 416.6438051988 - 0.000528404470 400.9247512044 - 0.000506122212 370.0151961060 - 0.000483901080 365.8960692738 - 0.000461826261 349.4803298453 - 0.000439974713 332.7952371881 - 0.000418415614 316.1203409360 - 0.000397210713 299.5738074091 - 0.000376414669 283.2390733511 - 0.000356075361 267.1841341759 - 0.000336234196 251.4666839265 - 0.000316926391 236.1360607517 - 0.000298181243 221.2342378017 - 0.000508522925 199.0668620735 - 0.000508522925 199.0668620735 - 0.000538747013 223.6454943762 - 0.000568246679 248.8794484329 - 0.000596798926 274.5223837281 - 0.000624191180 300.3169007040 - 0.000650223615 325.9994198042 - 0.000674711230 351.3052562426 - 0.000697485620 375.9736988368 - 0.000718396472 399.7529535343 - 0.000737312705 422.4047541942 - 0.000754123310 443.7085349038 - 0.000768737854 463.4650416444 - 0.000781086703 481.4993027527 - 0.000791120939 497.6629049224 - 0.000798812036 511.8355504538 - 0.000804151294 523.9024605601 - 0.000807149093 533.8531065749 - 0.000807833991 541.6266987906 - 0.000806251730 547.2172438006 - 0.000802464193 550.6448060789 - 0.000796548375 551.9536030157 - 0.000788595432 551.2098175896 - 0.000778709824 548.4992248176 - 0.000767008538 543.9247106228 - 0.000753620276 537.6037299481 - 0.000738684373 529.6657132783 - 0.000722349180 520.2494124503 - 0.000704769704 509.5002127296 - 0.000686104567 497.5675478178 - 0.000666512645 484.6027364054 - 0.000646149880 470.7578950755 - 0.000625166655 456.1876581578 - 0.000603705909 441.0606363389 - 0.000581901960 425.6260405148 - 0.000559879899 411.2274539219 - 0.000537755380 390.6467014571 - 0.000515634668 375.3360423090 - 0.000493614856 359.0855124770 - 0.000471784176 342.7450522213 - 0.000450222368 326.4921741075 - 0.000429001079 310.4284965983 - 0.000408184297 294.6318587058 - 0.000387828791 279.1674886110 - 0.000367984573 264.0917340822 - 0.000348695357 249.4538435571 - 0.000517784925 203.1316734134 - 0.000517784925 203.1316734134 - 0.000548642443 228.1042837763 - 0.000578805757 253.7418721239 - 0.000608050135 279.7954696885 - 0.000636161374 306.0049241159 - 0.000662938118 332.1038546533 - 0.000688193925 357.8248003766 - 0.000711759086 382.9044068237 - 0.000733482110 407.0884386585 - 0.000753230903 430.1364854876 - 0.000770893627 451.8262112113 - 0.000786379244 471.9570353160 - 0.000799617754 490.3531611914 - 0.000810560139 506.8658960642 - 0.000819178051 521.3752362401 - 0.000825463243 533.7676112597 - 0.000829426798 544.0334653051 - 0.000831098162 552.1141528765 - 0.000830524023 558.0061393680 - 0.000827767059 561.7323189917 - 0.000822904592 563.3399626986 - 0.000816027160 562.8983301786 - 0.000807237038 560.4960400256 - 0.000796646729 556.2382904698 - 0.000784377423 550.2440190839 - 0.000770557453 542.6430848747 - 0.000755320729 533.5735523839 - 0.000738805170 523.1791591515 - 0.000721151137 511.6070649303 - 0.000702499873 499.0060397873 - 0.000682991988 485.5254326937 - 0.000662766010 471.3158909360 - 0.000641957050 456.5353895761 - 0.000620695629 441.3788444688 - 0.000599106674 426.3070536106 - 0.000577308730 393.0830868547 - 0.000555413373 391.9602214102 - 0.000533524815 376.3740415205 - 0.000511739696 360.5196898066 - 0.000490147032 344.7324975750 - 0.000468828293 329.1443318880 - 0.000447857596 313.8456474266 - 0.000427302005 298.9106612572 - 0.000407221901 284.4045146418 - 0.000387671448 270.3864994193 - 0.000526947994 207.1337925032 - 0.000526947994 207.1337925032 - 0.000558417521 232.4846340563 - 0.000589219055 258.5068855747 - 0.000619125636 284.9485171664 - 0.000647920876 311.5461559033 - 0.000675401271 338.0301132806 - 0.000701378252 364.1296149531 - 0.000725680013 389.5780750578 - 0.000748152994 414.1181965863 - 0.000768663075 437.5067625743 - 0.000787096440 459.5189645585 - 0.000803360125 479.9521538429 - 0.000817382263 498.6289282093 - 0.000829112032 515.3994967553 - 0.000838519331 530.1432952163 - 0.000845594207 542.7471794210 - 0.000850346065 553.2014481662 - 0.000852802673 561.4487879872 - 0.000853009005 567.4872397397 - 0.000851025947 571.3417307267 - 0.000846928886 573.0619663299 - 0.000840806222 572.7199763308 - 0.000832757822 570.4074126025 - 0.000822893433 566.2326935309 - 0.000811331095 560.3180867322 - 0.000798195551 552.7968163794 - 0.000783616696 543.8102763781 - 0.000767728057 533.5054287233 - 0.000750665348 522.0324742049 - 0.000732565083 509.5429169818 - 0.000713563286 496.1882550993 - 0.000693794299 482.1198874297 - 0.000673389697 467.4921541506 - 0.000652477328 452.4766989525 - 0.000631180478 437.3420660395 - 0.000609617170 423.6479442952 - 0.000587899603 402.8028228896 - 0.000566133722 388.4198551148 - 0.000544418928 373.0616992935 - 0.000522847911 357.7327548802 - 0.000501506610 342.6311402631 - 0.000480474292 327.8678418526 - 0.000459823737 313.5299525976 - 0.000439621541 299.6950516955 - 0.000419928520 286.4370549010 - 0.000535994959 211.0676050192 - 0.000535994959 211.0676050192 - 0.000568057184 236.7828077307 - 0.000599474476 263.1732896666 - 0.000630017350 289.9836431588 - 0.000659466926 316.9469414574 - 0.000687617212 343.7898397736 - 0.000714277158 370.2378887547 - 0.000739272478 396.0208997007 - 0.000762447144 420.8781370216 - 0.000783664579 444.5632002774 - 0.000802808534 466.8484382767 - 0.000819783642 487.5287777844 - 0.000834515673 506.4248768541 - 0.000846951480 523.3855433740 - 0.000857058689 538.2893896697 - 0.000864825122 551.0235599954 - 0.000870258006 561.5778997645 - 0.000873382977 569.8964160585 - 0.000874242921 575.9787178318 - 0.000872896669 579.8518468078 - 0.000869417584 581.5681229268 - 0.000863892066 581.2026350347 - 0.000856417998 578.8504756530 - 0.000847103161 574.6238173437 - 0.000836063649 568.6489241675 - 0.000823422288 561.0631859427 - 0.000809307101 552.0122567817 - 0.000793849821 541.6473749953 - 0.000777184473 530.1229434757 - 0.000759446039 517.5944689476 - 0.000740769217 504.2170247659 - 0.000721287288 490.1446101953 - 0.000701131088 475.5314878467 - 0.000680428103 460.5394881689 - 0.000659301681 445.3716981633 - 0.000637870373 430.5256669757 - 0.000616247389 391.4481494111 - 0.000594540187 396.7091419301 - 0.000572850178 381.9152665298 - 0.000551272547 366.9859620716 - 0.000529896197 352.3034718226 - 0.000506643981 337.4122866278 - 0.000481574259 322.2469980084 - 0.000457386273 307.5655240089 - 0.000434103525 293.4320888252 - 0.000544978287 214.9585534044 - 0.000544978287 214.9585534044 - 0.000577619690 241.0286989672 - 0.000609636806 267.7759990675 - 0.000640797428 294.9414040945 - 0.000670879978 322.2541585775 - 0.000699675777 349.4369780958 - 0.000726991087 376.2114496107 - 0.000752648938 402.3034915363 - 0.000776490628 427.4486432322 - 0.000798376926 451.3970436967 - 0.000818188956 473.9179378569 - 0.000835828767 494.8035897918 - 0.000851219590 513.8725100027 - 0.000864305807 530.9719348942 - 0.000875052639 545.9795274390 - 0.000883445587 558.7827045512 - 0.000889489642 569.3707155435 - 0.000893208300 577.6889841660 - 0.000894642410 583.7387846561 - 0.000893848869 587.5494301882 - 0.000890899224 589.1760699531 - 0.000885878173 588.6971200766 - 0.000878882023 586.2114294956 - 0.000870017115 581.8352807006 - 0.000859398236 575.6993211660 - 0.000847147065 567.9455151510 - 0.000833390635 558.7241985046 - 0.000818259866 548.1913129542 - 0.000801888161 536.5058942730 - 0.000784410090 523.8278979854 - 0.000765960163 510.3164849705 - 0.000746671711 496.1290112901 - 0.000726675879 481.4213571705 - 0.000706100732 466.3516633094 - 0.000685070477 451.0962597873 - 0.000663704814 435.9342258638 - 0.000642118397 422.4634301146 - 0.000620138249 401.4069600244 - 0.000591771717 386.6096125518 - 0.000564127573 370.7344399599 - 0.000537257276 354.9523245242 - 0.000511204278 339.4647516990 - 0.000486004568 324.3733208580 - 0.000461687225 309.7528880403 - 0.000438274971 295.6673387189 - 0.000553874293 218.7993276188 - 0.000553874293 218.7993276188 - 0.000587081583 245.2161830995 - 0.000619683179 272.3105312831 - 0.000651444029 299.8194784362 - 0.000682139737 327.4682301818 - 0.000711558819 354.9753460162 - 0.000739504740 382.0582288462 - 0.000765797749 408.4386828847 - 0.000790276376 433.8483039370 - 0.000812798657 458.0335591635 - 0.000833243024 480.7603905548 - 0.000851508892 501.8182180381 - 0.000867516927 521.0232461692 - 0.000881209029 538.2210098466 - 0.000892548033 553.2881258150 - 0.000901517161 566.1122689558 - 0.000908119246 576.6819796633 - 0.000912375755 584.9441641276 - 0.000914325647 590.9018233996 - 0.000914024078 594.5866425225 - 0.000911541009 596.0567354990 - 0.000906959717 595.3940110460 - 0.000900375260 592.7012627311 - 0.000891892906 588.0990860993 - 0.000881626556 581.7227213473 - 0.000869697190 573.7189137735 - 0.000856231340 564.2428765286 - 0.000841359629 553.4554327388 - 0.000825215368 541.5204090898 - 0.000807933246 528.6023553885 - 0.000789648105 514.8646858413 - 0.000770493830 500.4684091134 - 0.000750602335 485.5718349561 - 0.000730102672 470.3323882161 - 0.000709120255 454.9146774117 - 0.000684422316 439.1712732495 - 0.000654619223 423.3194374476 - 0.000625413684 357.9565793356 - 0.000596874561 387.6305347640 - 0.000569061571 372.1081325728 - 0.000542025802 356.4363395703 - 0.000515810247 341.0088495901 - 0.000490450348 325.9554311453 - 0.000465974551 311.3570491296 - 0.000442404854 297.2780898328 - 0.000562729524 222.6129852763 - 0.000562729524 222.6129852763 - 0.000596493720 249.3720602763 - 0.000629669160 276.8078339928 - 0.000662017852 304.6533884625 - 0.000693312493 332.6297015308 - 0.000723338712 360.4509804841 - 0.000751897104 387.8302428215 - 0.000778805071 414.4849745265 - 0.000803898330 440.1426243906 - 0.000827032144 464.5457886694 - 0.000848082235 487.4569160737 - 0.000866945376 508.6624054269 - 0.000883539683 527.9759965549 - 0.000897804607 545.2413868413 - 0.000909700649 560.3340377197 - 0.000919208831 573.1418414807 - 0.000926329925 583.6525056954 - 0.000931083493 591.8144436881 - 0.000933506750 597.6324039240 - 0.000933653286 601.1404954089 - 0.000931591674 602.3998770992 - 0.000927403990 601.4960535692 - 0.000921184287 598.5358831751 - 0.000913037023 593.6444042658 - 0.000903075494 586.9615810856 - 0.000891420278 578.6390644813 - 0.000878197710 568.8370544722 - 0.000863538423 557.7213431620 - 0.000847575940 545.4606093556 - 0.000830445369 532.2240339434 - 0.000812282169 518.1793149536 - 0.000793221038 503.4912018361 - 0.000773394893 488.3207948348 - 0.000751873027 472.7684495621 - 0.000720894590 456.5011901632 - 0.000690351885 440.1549943295 - 0.000660333514 423.9705327605 - 0.000630917903 409.3226422273 - 0.000602173755 387.4556239006 - 0.000574160537 373.0829356627 - 0.000546929005 357.5582044032 - 0.000520521734 342.1754909706 - 0.000494973674 327.1341718930 - 0.000470312690 312.5284777907 - 0.000446560117 298.4252067604 - 0.000571516835 226.3905458922 - 0.000571516835 226.3905458922 - 0.000605828304 253.4880269829 - 0.000639566474 281.2606381479 - 0.000672490352 309.4373058452 - 0.000704369677 337.7346401141 - 0.000734987147 365.8623478556 - 0.000764140455 393.5289057442 - 0.000791644131 420.4473201939 - 0.000817331069 446.3407276738 - 0.000841053763 470.9476867812 - 0.000862685237 494.0269878384 - 0.000882119655 515.3618486379 - 0.000899272626 534.7633933444 - 0.000914081213 552.0733437686 - 0.000926503664 567.1412269685 - 0.000936518888 579.9290519648 - 0.000944125708 590.3495832126 - 0.000949341907 598.3773711180 - 0.000952203099 604.0188801032 - 0.000952761458 607.3106352439 - 0.000951084339 608.3168540194 - 0.000947252801 607.1266684963 - 0.000941360079 603.8510469154 - 0.000933510024 598.6195233324 - 0.000923815529 591.5768402466 - 0.000912396976 582.8796025460 - 0.000899380709 572.6930327024 - 0.000884897570 561.1879077310 - 0.000869081492 548.5377496659 - 0.000852068179 534.9163356209 - 0.000833993873 520.4955957605 - 0.000814994229 505.4439891825 - 0.000790187477 489.8394374655 - 0.000758607330 473.7749569897 - 0.000727369635 457.4799855642 - 0.000696573780 441.0818698722 - 0.000666308461 424.7457093600 - 0.000636652092 408.8894612623 - 0.000607673266 458.1804299728 - 0.000579431255 373.5953012099 - 0.000551976527 358.3911388902 - 0.000525351295 343.0590777698 - 0.000499590060 328.0137266188 - 0.000474720167 313.3794088313 - 0.000450762353 299.2291481181 - 0.000580261568 230.1451934504 - 0.000580261568 230.1451934504 - 0.000615113114 257.5797697415 - 0.000649405553 285.6874452196 - 0.000682894847 314.1928811262 - 0.000715347734 342.8082000128 - 0.000746543949 371.2384786563 - 0.000776278260 399.1875134232 - 0.000804362315 426.3636826364 - 0.000830626179 452.4856542340 - 0.000854919588 477.2877872293 - 0.000877112892 500.5250485265 - 0.000897097680 521.9773099379 - 0.000914787102 541.4529187159 - 0.000930115893 558.7914674050 - 0.000943040118 573.8415906071 - 0.000953536664 586.5637583741 - 0.000961602501 596.8711869525 - 0.000967253739 604.7393143557 - 0.000970524509 610.1762544253 - 0.000971465702 613.2209041650 - 0.000970143589 613.9405169388 - 0.000966638354 612.4278490198 - 0.000961042563 608.7979912115 - 0.000953459607 603.1849974226 - 0.000944002130 595.7384184907 - 0.000932790464 586.6198431193 - 0.000919951109 575.9995389791 - 0.000905615256 564.0532769866 - 0.000889917373 550.9594117089 - 0.000872993878 536.8962826368 - 0.000854981900 522.0399981045 - 0.000829719362 506.6571744061 - 0.000797602540 490.9021917061 - 0.000765724043 474.7953544094 - 0.000734194715 458.4541914487 - 0.000703114223 441.9966679450 - 0.000672571425 425.5558815930 - 0.000642644784 409.3487458091 - 0.000613402841 394.4993665107 - 0.000584904720 372.8304720962 - 0.000557200655 358.9643304693 - 0.000530332537 343.7365354816 - 0.000504334471 328.6834530119 - 0.000479233330 314.0065309805 - 0.000455049309 299.7930514253 - 0.000588987656 233.8888854309 - 0.000588987656 233.8888854309 - 0.000624374231 261.6614908972 - 0.000659214799 290.1049745214 - 0.000693262230 318.9396420324 - 0.000726280228 347.8730267601 - 0.000758045539 376.6054615878 - 0.000788349984 404.8359364734 - 0.000817002320 432.2680633214 - 0.000843829786 458.6158917751 - 0.000868679369 483.6094215482 - 0.000891418768 506.9996287099 - 0.000911937030 528.5628669436 - 0.000930144890 548.1045332956 - 0.000945974809 565.4619206402 - 0.000959380736 580.4826276940 - 0.000970337608 593.1253953840 - 0.000978840626 603.3037726657 - 0.000984904320 610.9939671857 - 0.000988561440 616.2056455440 - 0.000989861696 618.9800028823 - 0.000988870387 619.3872779182 - 0.000985666934 617.5238229785 - 0.000980343353 613.5088435253 - 0.000973002692 607.4809222219 - 0.000963757455 599.5944394758 - 0.000952728044 590.0159958934 - 0.000940041216 578.9209331312 - 0.000925828611 566.4900390264 - 0.000910225324 552.9065117587 - 0.000893368567 538.3532476527 - 0.000870488213 523.2170487251 - 0.000837910946 507.8678347279 - 0.000805456102 492.0487037794 - 0.000773246639 475.8787736876 - 0.000741393896 459.4728502129 - 0.000709997902 442.9432572729 - 0.000679147743 426.4073109510 - 0.000648921996 410.0141947929 - 0.000619389206 394.1240090534 - 0.000590608398 391.2993794745 - 0.000562629616 359.1574315293 - 0.000535494475 344.2535287704 - 0.000509236724 329.2107092776 - 0.000483882809 314.4850954897 - 0.000459452431 300.1975053324 - 0.000597665235 237.6098219074 - 0.000597665235 237.6098219074 - 0.000633580524 265.7213434917 - 0.000668961870 294.5015842436 - 0.000703559035 323.6664491482 - 0.000737132670 352.9188258709 - 0.000769456523 381.9542340557 - 0.000800319469 410.4667735125 - 0.000829527381 438.1551904645 - 0.000856904687 464.7288010416 - 0.000882295655 489.9131148314 - 0.000905565363 513.4549718826 - 0.000926600361 535.1270503759 - 0.000945309022 554.7316306215 - 0.000961621593 572.1035339093 - 0.000975489972 587.0891640841 - 0.000986887225 599.6453364363 - 0.000995806863 609.6857837452 - 0.001002261923 617.1873345532 - 0.001006283863 622.1610759388 - 0.001007921307 624.6503884110 - 0.001007238678 624.7284048211 - 0.001004314731 622.4950047696 - 0.000999241025 618.0734616557 - 0.000992120360 611.6068606426 - 0.000983065195 603.2544030913 - 0.000972196078 593.1877066517 - 0.000959640111 581.5872011300 - 0.000945529449 568.6387091952 - 0.000929999877 554.5302889832 - 0.000912443972 539.4971903221 - 0.000879497037 524.6508605946 - 0.000846543843 509.2145187142 - 0.000813720098 493.3112422829 - 0.000781149505 477.0589426062 - 0.000748943992 460.5704959940 - 0.000717204024 443.9546247022 - 0.000686018988 427.3200106196 - 0.000655467633 410.7871898094 - 0.000625618562 394.5470489345 - 0.000596530751 379.4717381417 - 0.000568254094 357.7190531183 - 0.000540829974 344.5991949502 - 0.000514291822 329.6392198589 - 0.000488665697 314.8706342983 - 0.000463970848 300.5037533021 - 0.000606334293 241.3254223079 - 0.000606334293 241.3254223079 - 0.000642774885 269.7792122409 - 0.000678692708 298.8998272360 - 0.000713834384 328.3987354126 - 0.000747957492 357.9741299919 - 0.000780832763 387.3166537575 - 0.000812246119 416.1154359353 - 0.000842000548 444.0642582459 - 0.000869917676 470.8675853045 - 0.000895839062 496.2462994843 - 0.000919627193 519.9429497773 - 0.000941166150 541.7263681019 - 0.000960361984 561.3955348256 - 0.000977142777 578.7826082050 - 0.000991458431 593.7326159498 - 0.001003280197 606.2002300920 - 0.001012599964 616.0991933161 - 0.001019429345 623.4067833094 - 0.001023798578 628.1353541204 - 0.001025755280 630.3303406097 - 0.001025363073 630.0676644647 - 0.001022700124 627.4506550176 - 0.001017857613 622.6066044652 - 0.001010938166 615.6830790492 - 0.001002054266 606.8441053380 - 0.000991326681 596.2663446974 - 0.000978882912 584.1353599082 - 0.000964855692 570.6420664817 - 0.000949381539 555.9794484872 - 0.000922376065 541.2309415350 - 0.000889014560 526.2741263249 - 0.000855653424 510.7312056071 - 0.000822429402 494.7246402987 - 0.000789467048 478.3714374285 - 0.000756878969 461.7830726653 - 0.000724766147 445.0658460616 - 0.000693218338 428.3232927660 - 0.000662314526 411.6618454670 - 0.000632123420 395.2142478270 - 0.000602703992 379.2810008530 - 0.000574106031 369.0988509251 - 0.000546370718 344.5779150405 - 0.000519531203 329.9888961634 - 0.000493613190 315.2064220758 - 0.000468635507 300.7616073672 - 0.000614963937 245.0219471678 - 0.000614963937 245.0219471678 - 0.000651924947 273.8208348973 - 0.000688373493 303.2851032794 - 0.000724053057 333.1217965176 - 0.000758718135 363.0244083703 - 0.000792136444 392.6786862253 - 0.000824090954 421.7687519029 - 0.000854381783 449.9833646630 - 0.000882827773 477.0220564497 - 0.000909267804 502.6009769810 - 0.000933561801 526.4582545665 - 0.000955591420 548.3587224394 - 0.000975260434 568.0978884893 - 0.000992494811 585.5050591939 - 0.001007242514 600.4236952084 - 0.001019473041 612.8061031683 - 0.001029176723 622.5658381314 - 0.001036363815 629.6804293249 - 0.001041063406 634.1633135779 - 0.001043322170 636.0618150065 - 0.001043203001 635.4545029629 - 0.001040783545 632.4480429614 - 0.001036154668 627.1736625265 - 0.001029418883 619.7833566164 - 0.001020688758 610.4459554058 - 0.001010085331 599.3431714825 - 0.000997736553 586.6657344342 - 0.000983775769 572.6097091441 - 0.000966468855 557.5633102404 - 0.000932805823 543.1872554148 - 0.000898999824 528.1018539011 - 0.000865201303 512.4343460730 - 0.000831548157 496.3067682788 - 0.000798165896 479.8354698295 - 0.000765167893 463.1309087236 - 0.000732655724 446.2977090801 - 0.000700719582 429.4361548527 - 0.000669438739 412.6449979612 - 0.000638882065 396.0321692886 - 0.000609108567 379.7620436431 - 0.000580167967 364.4867324137 - 0.000552101278 341.9299643349 - 0.000524941400 330.2153403930 - 0.000498713709 315.5150657734 - 0.000473436643 301.0057642674 - 0.000632189641 252.3882036671 - 0.000632189641 252.3882036671 - 0.000670183210 281.8909332032 - 0.000707682687 312.0580807863 - 0.000744425203 342.5879261985 - 0.000780159061 373.1646234637 - 0.000814645926 403.4641363472 - 0.000847662872 433.1605173963 - 0.000879004288 461.9323534215 - 0.000908483487 489.4691015924 - 0.000935934046 515.4771494981 - 0.000961210841 539.6853985483 - 0.000984190770 561.8502135948 - 0.001004773158 581.7596090332 - 0.001022879868 599.2106085080 - 0.001038455122 614.1207999641 - 0.001051465057 626.3591255756 - 0.001061897042 635.8640518078 - 0.001069758782 642.6129295946 - 0.001075077229 646.6207194762 - 0.001077897344 647.9379435104 - 0.001078280725 646.6479664410 - 0.001076304139 642.8637227478 - 0.001072057980 636.7240156032 - 0.001065644685 628.3895180646 - 0.001057177125 618.0386064664 - 0.001046777004 605.8631511867 - 0.001034573276 592.0643813107 - 0.001020700607 576.8489278833 - 0.000989874049 562.5372287468 - 0.000955219743 547.8434191175 - 0.000920434980 532.4486718589 - 0.000885673348 516.4802084547 - 0.000851075410 500.0597164461 - 0.000816768893 483.3028154639 - 0.000782868974 466.3187269039 - 0.000749478651 449.2100569122 - 0.000716689186 432.0734569418 - 0.000684580601 415.0002852734 - 0.000653222225 398.0795295005 - 0.000622673263 381.4066087402 - 0.000592983398 365.1203141796 - 0.000564193397 349.6953502592 - 0.000536335731 323.3757014745 - 0.000509435189 315.9594514856 - 0.000483509482 301.5317141670 - 0.000649389001 259.7059775699 - 0.000649389001 259.7059775591 - 0.000688384495 289.9264097316 - 0.000726922691 320.8189687643 - 0.000764713185 352.0680498929 - 0.000801498054 383.3487264899 - 0.000837032906 414.3273726542 - 0.000871088928 444.6680770891 - 0.000903454816 474.0392491437 - 0.000933938408 502.1201374976 - 0.000962368054 528.6070920173 - 0.000988593682 553.2193629955 - 0.001012487546 575.7042745957 - 0.001033944661 595.8416355227 - 0.001052882934 613.4221390695 - 0.001069243009 628.3562257006 - 0.001082987838 640.5087819621 - 0.001094102009 649.8153656684 - 0.001102590860 656.2520969968 - 0.001108479395 659.8344421606 - 0.001111811048 660.6151741221 - 0.001112646302 658.6816108648 - 0.001111061220 654.1522483255 - 0.001107145890 647.1729166285 - 0.001101002824 637.9125948096 - 0.001092745334 626.5590206962 - 0.001082495911 613.3142292723 - 0.001070384615 598.3901451138 - 0.001050861421 582.8834453731 - 0.001015389474 568.6316997317 - 0.000979629794 553.5545632914 - 0.000943753342 537.7849721772 - 0.000907917408 521.4507219061 - 0.000872265682 504.6737494813 - 0.000836928532 487.5695827215 - 0.000802023299 470.2469671335 - 0.000767654708 452.8075590113 - 0.000733915353 435.3462732010 - 0.000700886226 417.9513278226 - 0.000668637297 400.7052847531 - 0.000637228119 383.6874752444 - 0.000606708462 366.9811328971 - 0.000577118947 350.7013434401 - 0.000548491342 335.1869533983 - 0.000520848970 405.7711389955 - 0.000494210428 301.9153441481 - 0.000649389001 259.7059775699 - 0.000649389001 259.7059775591 - 0.000688384495 289.9264097316 - 0.000726922691 320.8189687643 - 0.000764713185 352.0680498929 - 0.000801498054 383.3487264899 - 0.000837032906 414.3273726542 - 0.000871088928 444.6680770891 - 0.000903454816 474.0392491437 - 0.000933938408 502.1201374976 - 0.000962368054 528.6070920173 - 0.000988593682 553.2193629955 - 0.001012487546 575.7042745957 - 0.001033944661 595.8416355227 - 0.001052882934 613.4221390695 - 0.001069243009 628.3562257006 - 0.001082987838 640.5087819621 - 0.001094102009 649.8153656684 - 0.001102590860 656.2520969968 - 0.001108479395 659.8344421606 - 0.001111811048 660.6151741221 - 0.001112646302 658.6816108648 - 0.001111061220 654.1522483255 - 0.001107145890 647.1729166285 - 0.001101002824 637.9125948096 - 0.001092745334 626.5590206962 - 0.001082495911 613.3142292723 - 0.001070384615 598.3901451138 - 0.001050861421 582.8834453731 - 0.001015389474 568.6316997317 - 0.000979629794 553.5545632914 - 0.000943753342 537.7849721772 - 0.000907917408 521.4507219061 - 0.000872265682 504.6737494813 - 0.000836928532 487.5695827215 - 0.000802023299 470.2469671335 - 0.000767654708 452.8075590113 - 0.000733915353 435.3462732010 - 0.000700886226 417.9513278226 - 0.000668637297 400.7052847531 - 0.000637228119 383.6874752444 - 0.000606708462 366.9811328971 - 0.000577118947 350.7013434401 - 0.000548491342 335.1869533983 - 0.000520848970 405.7711389955 - 0.000494210428 301.9153441481 + 0.000830399284 215.2816890759 + 0.000098783870 24.8963854134 + 0.000098783870 24.8963854134 + 0.000099777664 26.5149663189 + 0.000100719170 28.1419343676 + 0.000101606643 29.7730737680 + 0.000102438298 31.4042501717 + 0.000103212311 33.0313899198 + 0.000103926804 34.6504600425 + 0.000104579843 36.2574490578 + 0.000105169426 37.8483485710 + 0.000105693473 39.4191356383 + 0.000106149821 40.9657558247 + 0.000106536209 42.4841068577 + 0.000106850270 43.9700227518 + 0.000107089519 45.4192582521 + 0.000107251341 46.8274734184 + 0.000107332978 48.1902181416 + 0.000107331515 49.5029163482 + 0.000107243861 50.7608494508 + 0.000107066738 51.9591394850 + 0.000106796653 53.0927299728 + 0.000106429880 54.1563655623 + 0.000105962432 55.1445690939 + 0.000105390031 56.0516154880 + 0.000104708071 56.8715015366 + 0.000103911575 57.5979104294 + 0.000102995144 58.2241695242 + 0.000101952893 58.7431994368 + 0.000100778374 59.1474519344 + 0.000099464482 59.4288333003 + 0.000098003335 59.5779213789 + 0.000096386125 59.5866062068 + 0.000094602926 59.4437798321 + 0.000092642446 59.1379135313 + 0.000090491699 58.6561004806 + 0.000088135572 57.9837054804 + 0.000085556232 57.1038886482 + 0.000082732300 55.9969435381 + 0.000079637678 54.6393538715 + 0.000076239813 53.0024083590 + 0.000072497059 51.0500917727 + 0.000068354457 48.7357286786 + 0.000063736630 45.9963370414 + 0.000058534873 42.7424233651 + 0.000052581406 38.8376770673 + 0.000045590375 34.0526417028 + 0.000529534540 199.0735659090 + 0.000529534540 199.0735659090 + 0.000535681759 214.0731692882 + 0.000540845738 228.7413105789 + 0.000545029750 242.9787149820 + 0.000548239944 256.6944060375 + 0.000550485359 269.8055087058 + 0.000551777846 282.2370888351 + 0.000552131947 293.9220199560 + 0.000551564723 304.8008657274 + 0.000550095580 314.8217661246 + 0.000547746075 323.9403166499 + 0.000544539716 332.1194317574 + 0.000540501769 339.3291858653 + 0.000535659064 345.5466274706 + 0.000530039806 350.7555638228 + 0.000523673394 354.9463152530 + 0.000516590245 358.0993132461 + 0.000508821631 360.2508651783 + 0.000500399508 361.3915962657 + 0.000491356369 361.5348358574 + 0.000481725090 360.6987861050 + 0.000471538784 358.9061291183 + 0.000460830655 356.1836188037 + 0.000449633858 352.5616599816 + 0.000437981351 348.0738770798 + 0.000425905750 342.7566743217 + 0.000413439179 336.6487888593 + 0.000400613108 329.7908377461 + 0.000387458185 322.2248589895 + 0.000374004052 313.9938461640 + 0.000360279142 305.1412752290 + 0.000346310450 295.7106213876 + 0.000332123270 285.7448634271 + 0.000317740884 275.2859741867 + 0.000303184192 264.3744023368 + 0.000288471253 253.0485752843 + 0.000273616703 241.3445449939 + 0.000258631002 229.2962904381 + 0.000243519425 216.9393913642 + 0.000228280674 204.3426008971 + 0.000212904905 200.9291922773 + 0.000197370813 177.6371404946 + 0.000181641157 164.1368059886 + 0.000165655566 150.2085559343 + 0.000149318152 135.8323537346 + 0.000479681934 186.2982794906 + 0.000479681934 186.2982794906 + 0.000506523082 208.4754681089 + 0.000532588240 231.2043418255 + 0.000557679203 254.2733127475 + 0.000581603735 277.4604910571 + 0.000655212671 317.8280208543 + 0.000659422959 335.4492579849 + 0.000661733152 351.8279523351 + 0.000662289360 366.8703274539 + 0.000661192253 380.4896342259 + 0.000658526203 392.6129008577 + 0.000654368976 403.1827427659 + 0.000648795764 412.1577294844 + 0.000641881003 419.5121425704 + 0.000633699188 425.2354056422 + 0.000624325182 429.3115291467 + 0.000613834243 431.8004334294 + 0.000602301912 432.7092952617 + 0.000589803802 432.0790578143 + 0.000576415357 429.9608351103 + 0.000562211573 426.4147325643 + 0.000547266714 421.5086573741 + 0.000531654028 415.3171304465 + 0.000515445461 407.9201150950 + 0.000498711373 399.4018744326 + 0.000481520268 389.8498688713 + 0.000463938518 379.3537055775 + 0.000446030094 368.0041549844 + 0.000427856299 355.8922598179 + 0.000409475496 343.1085924970 + 0.000390942824 329.7428118768 + 0.000372309907 315.8840147382 + 0.000353624527 301.6239639771 + 0.000334930268 287.0763043903 + 0.000316266092 272.6285373897 + 0.000297665830 256.0638527263 + 0.000279157539 241.3126166345 + 0.000260762661 226.0668612793 + 0.000242494854 210.7195730638 + 0.000224358392 195.3417760897 + 0.000206345749 179.9640774246 + 0.000188433933 164.5944322617 + 0.000170578586 149.2168508668 + 0.000152703981 133.7833530363 + 0.000134684804 118.1976131936 + 0.000489514316 190.6659030755 + 0.000489514316 190.6659030755 + 0.000518373113 214.3883384598 + 0.000546427504 238.7326925002 + 0.000573454576 263.4556446320 + 0.000599240886 288.3026892204 + 0.000623584570 313.0127634444 + 0.000646297077 337.3230111881 + 0.000667204454 360.9734943369 + 0.000686148072 383.7116403077 + 0.000702984685 405.2962430582 + 0.000717585501 425.5007306496 + 0.000729833776 444.1153866879 + 0.000739619780 460.9479152567 + 0.000746830185 475.8209864821 + 0.000751322735 488.5626802474 + 0.000752846013 498.9486047467 + 0.000750504377 506.5654093545 + 0.000742832887 510.6640954796 + 0.000732282290 512.2447044755 + 0.000719724382 511.6767726408 + 0.000705516724 509.1315994149 + 0.000689900523 504.7471744311 + 0.000673068254 498.6538138510 + 0.000655185946 490.9811643202 + 0.000636402698 481.8601367723 + 0.000616855351 471.4230392420 + 0.000596670986 459.8030142663 + 0.000575968333 447.1332649008 + 0.000554858591 433.5463819426 + 0.000533445918 419.1741819554 + 0.000511827723 404.1491320635 + 0.000490094854 388.6117600325 + 0.000468331706 372.7526837030 + 0.000446616305 357.4365005195 + 0.000425020354 338.1165083981 + 0.000403609280 322.1747595001 + 0.000382442270 305.5962510999 + 0.000361572290 288.9729300311 + 0.000341046103 272.4422747560 + 0.000320904268 256.0892573579 + 0.000301181098 239.9805161672 + 0.000281904590 224.1713849256 + 0.000263096260 208.7079398702 + 0.000244770890 193.6277110179 + 0.000226936095 178.9598407326 + 0.000499098372 194.9103712567 + 0.000499098372 194.9103712567 + 0.000528658544 219.0729806156 + 0.000557458403 243.8768547684 + 0.000585275826 269.0776453622 + 0.000611898854 294.4199909330 + 0.000637127990 319.6423069909 + 0.000660778214 344.4817585387 + 0.000682680679 368.6792275823 + 0.000702684102 391.9841357944 + 0.000720655766 414.1589285717 + 0.000736482178 434.9831115241 + 0.000750069358 454.2567149250 + 0.000761342751 471.8030997995 + 0.000770246773 487.4710438718 + 0.000776743981 501.1360719434 + 0.000780813881 512.6774088112 + 0.000782451415 522.0768999531 + 0.000781665263 529.2636397527 + 0.000778476415 534.2190023882 + 0.000772918190 536.9482682077 + 0.000765040513 537.4807881401 + 0.000754922664 535.8733066488 + 0.000742693899 532.2164211189 + 0.000728544775 526.6374286282 + 0.000712709280 519.2914331444 + 0.000695430538 510.3457185743 + 0.000676937092 499.9683556509 + 0.000657435204 488.3234244875 + 0.000637109417 475.5699082831 + 0.000616125431 461.8621028767 + 0.000594632934 447.3513343094 + 0.000572767855 432.1914727430 + 0.000550654037 416.5622027636 + 0.000528404470 400.8436848465 + 0.000506122212 369.9411457703 + 0.000483901080 365.8182417858 + 0.000461826261 349.4040403156 + 0.000439974713 332.7208634999 + 0.000418415614 316.0481513172 + 0.000397210713 299.5040233791 + 0.000376414669 283.1718806410 + 0.000356075361 267.1196861480 + 0.000336234196 251.4051033473 + 0.000316926391 236.0774412185 + 0.000298181243 221.1786451896 + 0.000508522925 199.0663904225 + 0.000508522925 199.0663904225 + 0.000538747013 223.6443629105 + 0.000568246679 248.8774389685 + 0.000596798926 274.5192487969 + 0.000624191180 300.3123661579 + 0.000650223615 325.9931886642 + 0.000674711230 351.2970137318 + 0.000697485620 375.9631184750 + 0.000718396472 399.7397041151 + 0.000737312705 422.3885074195 + 0.000754123310 443.6889734160 + 0.000768737854 463.4418671714 + 0.000781086703 481.4722440782 + 0.000791120939 497.6317253967 + 0.000798812036 511.8000547834 + 0.000804151294 523.8625037985 + 0.000807149093 533.8085889699 + 0.000807833991 541.5775791513 + 0.000806251730 547.1635382353 + 0.000802464193 550.5865886230 + 0.000796548375 551.8910048494 + 0.000788595432 551.1430248883 + 0.000778709824 548.4284753137 + 0.000767008538 543.8502889884 + 0.000753620276 537.5259621390 + 0.000738684373 529.5849600238 + 0.000722349180 520.1660621151 + 0.000704769704 509.4146738093 + 0.000686104567 497.4802413137 + 0.000666512645 484.5140882174 + 0.000646149880 470.6683282684 + 0.000625166655 456.0975841621 + 0.000603705909 440.9704410235 + 0.000581901960 425.5360408443 + 0.000559879899 411.1374043012 + 0.000537755380 390.5595873433 + 0.000515634668 375.2497912086 + 0.000493614856 359.0008195367 + 0.000471784176 342.6622466093 + 0.000450222368 326.4115118559 + 0.000429001079 310.3501901554 + 0.000408184297 294.5560839835 + 0.000387828791 279.0943876389 + 0.000367984573 264.0214165345 + 0.000348695357 249.3863879877 + 0.000517784925 203.1311883173 + 0.000517784925 203.1311883173 + 0.000548642443 228.1031205326 + 0.000578805757 253.7398068427 + 0.000608050135 279.7922483407 + 0.000636161374 306.0002651372 + 0.000662938118 332.0974528132 + 0.000688193925 357.8163318519 + 0.000711759086 382.8935353496 + 0.000733482110 407.0748225781 + 0.000753230903 430.1197854692 + 0.000770893627 451.8060983681 + 0.000786379244 471.9331994396 + 0.000799617754 490.3253188045 + 0.000810560139 506.8337980021 + 0.000819178051 521.3386744956 + 0.000825463243 533.7264280003 + 0.000829426798 543.9875477237 + 0.000831098162 552.0634465856 + 0.000830524023 557.9506470979 + 0.000827767059 561.6721011908 + 0.000822904592 563.2751367354 + 0.000816027160 562.8290682150 + 0.000807237038 560.4225656723 + 0.000796646729 556.1608743677 + 0.000784377423 550.1629735828 + 0.000770557453 542.5587579921 + 0.000755320729 533.4863212330 + 0.000738805170 523.0894230169 + 0.000721151137 511.5152381391 + 0.000702499873 498.9125444569 + 0.000682991988 485.4306912685 + 0.000662766010 471.2203179606 + 0.000641957050 456.4393804671 + 0.000620695629 441.2827504940 + 0.000599106674 426.2110502086 + 0.000577308730 392.9958058713 + 0.000555413373 391.8671244711 + 0.000533524815 376.2820854348 + 0.000511739696 360.4293033392 + 0.000490147032 344.6439614652 + 0.000468828293 329.0578690782 + 0.000447857596 313.7614385400 + 0.000427302005 298.8288489768 + 0.000407221901 284.3252053543 + 0.000387671448 270.3097639350 + 0.000526947994 207.1332940517 + 0.000526947994 207.1332940517 + 0.000558417521 232.4834393147 + 0.000589219055 258.5047651008 + 0.000619125636 284.9452105926 + 0.000647920876 311.5413745606 + 0.000675401271 338.0235441114 + 0.000701378252 364.1209256509 + 0.000725680013 389.5669203068 + 0.000748152994 414.1042252171 + 0.000768663075 437.4896254033 + 0.000787096440 459.4983226388 + 0.000803360125 479.9276868338 + 0.000817382263 498.6003425634 + 0.000829112032 515.3665334280 + 0.000838519331 530.1057366258 + 0.000845594207 542.7048585385 + 0.000850346065 553.1542434879 + 0.000852802673 561.3966369714 + 0.000853009005 567.4301375384 + 0.000851025947 571.2797308004 + 0.000846928886 572.9951796458 + 0.000840806222 572.6485692177 + 0.000832757822 570.3316033778 + 0.000822893433 566.1527480504 + 0.000811331095 560.2343130371 + 0.000798195551 552.7095586290 + 0.000783616696 543.7199082598 + 0.000767728057 533.4123465212 + 0.000750665348 521.9370896807 + 0.000732565083 509.4456501672 + 0.000713563286 496.0895269765 + 0.000693794299 482.0201121761 + 0.000673389697 467.3917296667 + 0.000652477328 452.3759903792 + 0.000631180478 437.2413506848 + 0.000609617170 423.5467744663 + 0.000587899603 402.7049612758 + 0.000566133722 388.3224644885 + 0.000544418928 372.9655725565 + 0.000522847911 357.6382078415 + 0.000501506610 342.5383980351 + 0.000480474292 327.7770772049 + 0.000459823737 313.4412943038 + 0.000439621541 299.6085865913 + 0.000419928520 286.3528278019 + 0.000535994959 211.0670933276 + 0.000535994959 211.0670933276 + 0.000568057184 236.7815818174 + 0.000599474476 263.1711146763 + 0.000630017350 289.9802525823 + 0.000659466926 316.9420397906 + 0.000687617212 343.7831064905 + 0.000714277158 370.2289835330 + 0.000739272478 396.0094687701 + 0.000762447144 420.8638204495 + 0.000783664579 444.5456399529 + 0.000802808534 466.8272863178 + 0.000819783642 487.5037050675 + 0.000834515673 506.3955813596 + 0.000846951480 523.3517580453 + 0.000857058689 538.2508895082 + 0.000864825122 550.9801712248 + 0.000870258006 561.5294949746 + 0.000873382977 569.8429276507 + 0.000874242921 575.9201367913 + 0.000872896669 579.7882233182 + 0.000869417584 581.4995655372 + 0.000863892066 581.1293084549 + 0.000856417998 578.7725972961 + 0.000847103161 574.5416527691 + 0.000836063649 568.5627816047 + 0.000823422288 560.9734100886 + 0.000809307101 551.9192220698 + 0.000793849821 541.5514785247 + 0.000777184473 530.0245977646 + 0.000759446039 517.4940946320 + 0.000740769217 504.1150432715 + 0.000721287288 490.0414362091 + 0.000701131088 475.4275208429 + 0.000680428103 460.4351001996 + 0.000659301681 445.2672047616 + 0.000637870373 430.4211701594 + 0.000616247389 391.3560397772 + 0.000594540187 396.6076348346 + 0.000572850178 381.8146834787 + 0.000551272547 366.8867208729 + 0.000529896197 352.2058047802 + 0.000506643981 337.3167293953 + 0.000481574259 322.1541086093 + 0.000457386273 307.4753825101 + 0.000434103525 293.3447360050 + 0.000544978287 214.9580285095 + 0.000544978287 214.9580285095 + 0.000577619690 241.0274420102 + 0.000609636806 267.7737698675 + 0.000640797428 294.9379301305 + 0.000670879978 322.2491376942 + 0.000699675777 349.4300825515 + 0.000726991087 376.2023314032 + 0.000752648938 402.2917888764 + 0.000776490628 427.4339879763 + 0.000798376926 451.3790694934 + 0.000818188956 473.8962887273 + 0.000835828767 494.7779288364 + 0.000851219590 513.8425279195 + 0.000864305807 530.9373580004 + 0.000875052639 545.9401249101 + 0.000883445587 558.7382976533 + 0.000889489642 569.3211729818 + 0.000893208300 577.6342355035 + 0.000894642410 583.6788191244 + 0.000893848869 587.4842972846 + 0.000890899224 589.1058785534 + 0.000885878173 588.6220361404 + 0.000878882023 586.1316724878 + 0.000870017115 581.7511188873 + 0.000859398236 575.6110659687 + 0.000847147065 567.8535147609 + 0.000833390635 558.6288309599 + 0.000818259866 548.0929788784 + 0.000801888161 536.4050094493 + 0.000784410090 523.7248859061 + 0.000765960163 510.2117694276 + 0.000746671711 496.0230089314 + 0.000726675879 481.3144695897 + 0.000706100732 466.2442671244 + 0.000685070477 450.9886885229 + 0.000663704814 435.8267077784 + 0.000642118397 422.3553873112 + 0.000620138249 401.3027187861 + 0.000591771717 386.5065116250 + 0.000564127573 370.6333786402 + 0.000537257276 354.8535922771 + 0.000511204278 339.3685328239 + 0.000486004568 324.2797441937 + 0.000461687225 309.6620388553 + 0.000438274971 295.5792628742 + 0.000553874293 218.7987895884 + 0.000553874293 218.7987895884 + 0.000587081583 245.2148952898 + 0.000619683179 272.3082482696 + 0.000651444029 299.8159218038 + 0.000682139737 327.4630912875 + 0.000711558819 354.9682901214 + 0.000739504740 382.0489005554 + 0.000765797749 408.4267127575 + 0.000790276376 433.8333160793 + 0.000812798657 458.0151795513 + 0.000833243024 480.7382558002 + 0.000851508892 501.7919842853 + 0.000867516927 520.9925977966 + 0.000881209029 538.1856676591 + 0.000892548033 553.2478544334 + 0.000901517161 566.0668861108 + 0.000908119246 576.6313517748 + 0.000912375755 584.8882196650 + 0.000914325647 590.8405517320 + 0.000914024078 594.5200944838 + 0.000911541009 595.9850224291 + 0.000906959717 595.3173023861 + 0.000900375260 592.6197823002 + 0.000891892906 588.0131072169 + 0.000881626556 581.6325609919 + 0.000869697190 573.6249259856 + 0.000856231340 564.1454452704 + 0.000841359629 553.3549644154 + 0.000825215368 541.4173249207 + 0.000807933246 528.4970837804 + 0.000789648105 514.7576548590 + 0.000770493830 500.3600390376 + 0.000750602335 485.4625306850 + 0.000730102672 470.2225306238 + 0.000709120255 454.8046104928 + 0.000684422316 439.0616309232 + 0.000654619223 423.2108529132 + 0.000625413684 357.8750463642 + 0.000596874561 387.5271536172 + 0.000569061571 372.0066125175 + 0.000542025802 356.3371001801 + 0.000515810247 340.9121013716 + 0.000490450348 325.8613135172 + 0.000465974551 311.2656542522 + 0.000442404854 297.1894697800 + 0.000562729524 222.6124341055 + 0.000562729524 222.6124341055 + 0.000596493720 249.3707416239 + 0.000629669160 276.8054972285 + 0.000662017852 304.6497493394 + 0.000693312493 332.6244450130 + 0.000723338712 360.4437649730 + 0.000751897104 387.8207057171 + 0.000778805071 414.4727389882 + 0.000803898330 440.1273071004 + 0.000827032144 464.5270083428 + 0.000848082235 487.4343024243 + 0.000866945376 508.6356082622 + 0.000883539683 527.9446946722 + 0.000897804607 545.2052963995 + 0.000909700649 560.2929197846 + 0.000919208831 573.0955113768 + 0.000926329925 583.6008288386 + 0.000931083493 591.7573488648 + 0.000933506750 597.5698821797 + 0.000933653286 601.0726005740 + 0.000931591674 602.3267247449 + 0.000927403990 601.4178184784 + 0.000921184287 598.4527954576 + 0.000913037023 593.5567442886 + 0.000903075494 586.8696734180 + 0.000891420278 578.5432710681 + 0.000878197710 568.7377672583 + 0.000863538423 557.6189763821 + 0.000847575940 545.3555916874 + 0.000830445369 532.1168006900 + 0.000812282169 518.0703003731 + 0.000793221038 503.3808316536 + 0.000773394893 488.2094788096 + 0.000751873027 472.6566663470 + 0.000720894590 456.3901219382 + 0.000690351885 440.0449575253 + 0.000660333514 423.8617368037 + 0.000630917903 409.2145658659 + 0.000602173755 387.3525198757 + 0.000574160537 372.9810723581 + 0.000546929005 357.4585475222 + 0.000520521734 342.0783064469 + 0.000494973674 327.0396158904 + 0.000470312690 312.4366514498 + 0.000446560117 298.3361693234 + 0.000571516835 226.3899816123 + 0.000571516835 226.3899816123 + 0.000605828304 253.4866775742 + 0.000639566474 281.2582478124 + 0.000672490352 309.4335845626 + 0.000704369677 337.7292665395 + 0.000734987147 365.8549736478 + 0.000764140455 393.5191612572 + 0.000791644131 420.4348213957 + 0.000817331069 446.3250840895 + 0.000841053763 470.9285102024 + 0.000862685237 494.0039014944 + 0.000882119655 515.3344965013 + 0.000899272626 534.7314492297 + 0.000914081213 552.0365198897 + 0.000926503664 567.0992848390 + 0.000936518888 579.8817990364 + 0.000944125708 590.2968881339 + 0.000949341907 598.3191641459 + 0.000952203099 603.9551552251 + 0.000952761458 607.2414506570 + 0.000951084339 608.2423309952 + 0.000947252801 607.0469887158 + 0.000941360079 603.7664484116 + 0.000933510024 598.5302952175 + 0.000923815529 591.4833164290 + 0.000912396976 582.7821546631 + 0.000899380709 572.5920624988 + 0.000884897570 561.0838391069 + 0.000869081492 548.4310206049 + 0.000852068179 534.8073901742 + 0.000833993873 520.3848762247 + 0.000814994229 505.3319285375 + 0.000790187477 489.7268296682 + 0.000758607330 473.6627083828 + 0.000727369635 457.3684666934 + 0.000696573780 440.9714114232 + 0.000666308461 424.6365751218 + 0.000636652092 408.7817025189 + 0.000607673266 458.0368860607 + 0.000579431255 373.4932717244 + 0.000551976527 358.2911391527 + 0.000525351295 342.9615235309 + 0.000499590060 327.9188036389 + 0.000474720167 313.2872305035 + 0.000450762353 299.1397819168 + 0.000580261568 230.1446160519 + 0.000580261568 230.1446160519 + 0.000615113114 257.5783895589 + 0.000649405553 285.6850012968 + 0.000682894847 314.1890776909 + 0.000715347734 342.8027094506 + 0.000746543949 371.2309459451 + 0.000776278260 399.1775619627 + 0.000804362315 426.3509213319 + 0.000830626179 452.4696856288 + 0.000854919588 477.2682164195 + 0.000877112892 500.5014925495 + 0.000897097680 521.9494072957 + 0.000914787102 541.4203386849 + 0.000930115893 558.7539187882 + 0.000943040118 573.7988327581 + 0.000953536664 586.5155980692 + 0.000961602501 596.8174936752 + 0.000967253739 604.6800207730 + 0.000970524509 610.1113585106 + 0.000971465702 613.1504696288 + 0.000970143589 613.8646719956 + 0.000966638354 612.3467835812 + 0.000961042563 608.7119526476 + 0.000953459607 603.0942850756 + 0.000944002130 595.6433771550 + 0.000932790464 586.5208557236 + 0.000919951109 575.8970187090 + 0.000905615256 563.9476590847 + 0.000889917373 550.8511451705 + 0.000872993878 536.7858219915 + 0.000854981900 521.9277954351 + 0.000829719362 506.5440800682 + 0.000797602540 490.7890677381 + 0.000765724043 474.6826040226 + 0.000734194715 458.3421895870 + 0.000703114223 441.8857543111 + 0.000672571425 425.4463459337 + 0.000642644784 409.2407750504 + 0.000613402841 394.3925288263 + 0.000584904720 372.7289374834 + 0.000557200655 358.8640697795 + 0.000530332537 343.6386583678 + 0.000504334471 328.5882081511 + 0.000479233330 313.9140503932 + 0.000455049309 299.7034125322 + 0.000588987656 233.8882948656 + 0.000588987656 233.8882948656 + 0.000624374231 261.6600798256 + 0.000659214799 290.1024768126 + 0.000693262230 318.9357561510 + 0.000726280228 347.8674188194 + 0.000758045539 376.5977698970 + 0.000788349984 404.8257775093 + 0.000817002320 432.2550389851 + 0.000843829786 458.5995977195 + 0.000868679369 483.5894563080 + 0.000891418768 506.9756033147 + 0.000911937030 528.5344146690 + 0.000930144890 548.0713191921 + 0.000945974809 565.4236504886 + 0.000959380736 580.4390591573 + 0.000970337608 593.0763351304 + 0.000978840626 603.2490916736 + 0.000984904320 610.9336012918 + 0.000988561440 616.1395975676 + 0.000989861696 618.9083430064 + 0.000988870387 619.3101423558 + 0.000985666934 617.4414110189 + 0.000980343353 613.4214131074 + 0.000973002692 607.3887842260 + 0.000963757455 599.4979509583 + 0.000952728044 589.9155525086 + 0.000940041216 578.8169609904 + 0.000925828611 566.3829862416 + 0.000910225324 552.7968398999 + 0.000893368567 538.2414233215 + 0.000870488213 523.1038101521 + 0.000837910946 507.7541545254 + 0.000805456102 491.9350104237 + 0.000773246639 475.7654731348 + 0.000741393896 459.3603211810 + 0.000709997902 442.8318458724 + 0.000679147743 426.2973215658 + 0.000648921996 409.9058660774 + 0.000619389206 394.0173881263 + 0.000590608398 391.1872750805 + 0.000562629616 359.0570816157 + 0.000535494475 344.1553693514 + 0.000509236724 329.1151690359 + 0.000483882809 314.3923396752 + 0.000459452431 300.1076246383 + 0.000597665235 237.6092181715 + 0.000597665235 237.6092181715 + 0.000633580524 265.7199015134 + 0.000668961870 294.4990327080 + 0.000703559035 323.6624807500 + 0.000737132670 352.9131004498 + 0.000769456523 381.9463832583 + 0.000800319469 410.4564069124 + 0.000829527381 438.1419029941 + 0.000856904687 464.7121815224 + 0.000882295655 489.8927553238 + 0.000905565363 513.4304775321 + 0.000926600361 535.0980493977 + 0.000945309022 554.6977840581 + 0.000961621593 572.0645447957 + 0.000975489972 587.0447887316 + 0.000986887225 599.5953818236 + 0.000995806863 609.6301228405 + 0.001002261923 617.1259069409 + 0.001006283863 622.0938899487 + 0.001007921307 624.5775214504 + 0.001007238678 624.6500019401 + 0.001004314731 622.4112755576 + 0.000999241025 617.9846756220 + 0.000992120360 611.5133412808 + 0.000983065195 603.1565208615 + 0.000972196078 593.0858711344 + 0.000959640111 581.4818526141 + 0.000945529449 568.5303099580 + 0.000929999877 554.4193145024 + 0.000912443972 539.3841568948 + 0.000879497037 524.5369547389 + 0.000846543843 509.1001892542 + 0.000813720098 493.1969203270 + 0.000781149505 476.9450369652 + 0.000748943992 460.4573888535 + 0.000717204024 443.8426671806 + 0.000686018988 427.2095164604 + 0.000655467633 410.6784226419 + 0.000625618562 394.4401761279 + 0.000596530751 379.3664299966 + 0.000568254094 357.6195313494 + 0.000540829974 344.5008174927 + 0.000514291822 329.5434023061 + 0.000488665697 314.7776152141 + 0.000463970848 300.4136437178 + 0.000606334293 241.3248053376 + 0.000606334293 241.3248053376 + 0.000642774885 269.7777391919 + 0.000678692708 298.8972215677 + 0.000713834384 328.3946840037 + 0.000747957492 357.9682863601 + 0.000780832763 387.3086428391 + 0.000812246119 416.1048603555 + 0.000842000548 444.0507059321 + 0.000869917676 470.8506382230 + 0.000895839062 496.2255432177 + 0.000919627193 519.9179836095 + 0.000941166150 541.6968152456 + 0.000960361984 561.3610524154 + 0.000977142777 578.7428966831 + 0.000991458431 593.6874304856 + 0.001003280197 606.1493782591 + 0.001012599964 616.0425504304 + 0.001019429345 623.3442931432 + 0.001023798578 628.0670310411 + 0.001025755280 630.2562698649 + 0.001025363073 629.9880006470 + 0.001022700124 627.3656188092 + 0.001017857613 622.5164778218 + 0.001010938166 615.5881990314 + 0.001002054266 606.7448568330 + 0.000991326681 596.1631522966 + 0.000978882912 584.0286792143 + 0.000964855692 570.5323751153 + 0.000949381539 555.8672370452 + 0.000922376065 541.1171466695 + 0.000889014560 526.1594775106 + 0.000855653424 510.6161546910 + 0.000822429402 494.6096213492 + 0.000789467048 478.2568622880 + 0.000756878969 461.6693268832 + 0.000724766147 444.9532850201 + 0.000693218338 428.2122369091 + 0.000662314526 411.5525726676 + 0.000632123420 395.1069725081 + 0.000602703992 379.1757701806 + 0.000574106031 368.9926132551 + 0.000546370718 344.4795153853 + 0.000519531203 329.8928221763 + 0.000493613190 315.1131405015 + 0.000468635507 300.6712668918 + 0.000614963937 245.0213169490 + 0.000614963937 245.0213169490 + 0.000651924947 273.8193307254 + 0.000688373493 303.2824433583 + 0.000724053057 333.1176618743 + 0.000758718135 363.0184461600 + 0.000792136444 392.6705146290 + 0.000824090954 421.7579665506 + 0.000854381783 449.9695464299 + 0.000882827773 477.0047804043 + 0.000909267804 502.5798221929 + 0.000933561801 526.4328144367 + 0.000955591420 548.3286151769 + 0.000975260434 568.0627673476 + 0.000992494811 585.4646220836 + 0.001007242514 600.3776962602 + 0.001019473041 612.7543507101 + 0.001029176723 622.5082100446 + 0.001036363815 629.6168738544 + 0.001041063406 634.0938514857 + 0.001043322170 635.9865398146 + 0.001043203001 635.3735793192 + 0.001040783545 632.3617032325 + 0.001036154668 627.0822017830 + 0.001029418883 619.6871262264 + 0.001020688758 610.3453554899 + 0.001010085331 599.2386425075 + 0.000997736553 586.5577482298 + 0.000983775769 572.4987596267 + 0.000966468855 557.4499753321 + 0.000932805823 543.0726193319 + 0.000898999824 527.9863849673 + 0.000865201303 512.3184995602 + 0.000831548157 496.1909815326 + 0.000798165896 479.7201579195 + 0.000765167893 463.0164605560 + 0.000732655724 446.1844838851 + 0.000700719582 429.3244783070 + 0.000669438739 412.5351571105 + 0.000638882065 395.9244016228 + 0.000609108567 379.6564984072 + 0.000580167967 364.3831736882 + 0.000552101278 341.8331037818 + 0.000524941400 330.1190706151 + 0.000498713709 315.4215214185 + 0.000473436643 300.9151825945 + 0.000632189641 252.3875467994 + 0.000632189641 252.3875467994 + 0.000670183210 281.8893663544 + 0.000707682687 312.0553114900 + 0.000744425203 342.5836235855 + 0.000780159061 373.1584217348 + 0.000814645926 403.4556399093 + 0.000847662872 433.1493075920 + 0.000879004288 461.9179966979 + 0.000908483487 489.4511588777 + 0.000935934046 515.4551864851 + 0.000961210841 539.6589965288 + 0.000984190770 561.8189804545 + 0.001004773158 581.7231899975 + 0.001022879868 599.1686993918 + 0.001038455122 614.0731464159 + 0.001051465057 626.3055406408 + 0.001061897042 635.8044187080 + 0.001069758782 642.5472059164 + 0.001075077229 646.5489393772 + 0.001077897344 647.8602178949 + 0.001078280725 646.5644811386 + 0.001076304139 642.7747348068 + 0.001072057980 636.6298478731 + 0.001065644685 628.2905523022 + 0.001057177125 617.9352752377 + 0.001046777004 605.7559288647 + 0.001034573276 591.9537744800 + 0.001020700607 576.7354654597 + 0.000989874049 562.4219128072 + 0.000955219743 547.7268425465 + 0.000920434980 532.3313115979 + 0.000885673348 516.3625278110 + 0.000851075410 499.9421602851 + 0.000816768893 483.1858059831 + 0.000782868974 466.2026599674 + 0.000749478651 449.0952989451 + 0.000716689186 431.9603419594 + 0.000684580601 414.8891119993 + 0.000653222225 397.9705572605 + 0.000622673263 381.3000484931 + 0.000592983398 365.0162972876 + 0.000564193397 349.5937168115 + 0.000536335731 323.2835087264 + 0.000509435189 315.8654779450 + 0.000483509482 301.4406097101 + 0.000649389001 259.7052938811 + 0.000649389001 259.7052938703 + 0.000688384495 289.9247797404 + 0.000726922691 320.8160890847 + 0.000764713185 352.0635774758 + 0.000801498054 383.3422822318 + 0.000837032906 414.3185467659 + 0.000871088928 444.6564361284 + 0.000903454816 474.0243445562 + 0.000933938408 502.1015154268 + 0.000962368054 528.5843040720 + 0.000988593682 553.1919776047 + 0.001012487546 575.6718885428 + 0.001033944661 595.8038852292 + 0.001052882934 613.3787142957 + 0.001069243009 628.3068693774 + 0.001082987838 640.4533080919 + 0.001094102009 649.7536624245 + 0.001102590860 656.1841311211 + 0.001108479395 659.7602612595 + 0.001111811048 660.5349068062 + 0.001112646302 658.5954647650 + 0.001111061220 654.0605060989 + 0.001107145890 647.0759301412 + 0.001101002824 637.8107777439 + 0.001092745334 626.4528398762 + 0.001082495911 613.2041950308 + 0.001070384615 598.2768010389 + 0.001050861421 582.7674964251 + 0.001015389474 568.5140406906 + 0.000979629794 553.4356905084 + 0.000943753342 537.6653729421 + 0.000907917408 521.3308690675 + 0.000872265682 504.5540966656 + 0.000836928532 487.4505601760 + 0.000802023299 470.1289781859 + 0.000767654708 452.6909771718 + 0.000733915353 435.2314396048 + 0.000700886226 417.8385491627 + 0.000668637297 400.5948311481 + 0.000637228119 383.5795771554 + 0.000606708462 366.8759740894 + 0.000577118947 350.5990367181 + 0.000548491342 335.0873945201 + 0.000520848970 405.6163141566 + 0.000494210428 301.8238382831 + 0.000649389001 259.7052938811 + 0.000649389001 259.7052938703 + 0.000688384495 289.9247797404 + 0.000726922691 320.8160890847 + 0.000764713185 352.0635774758 + 0.000801498054 383.3422822318 + 0.000837032906 414.3185467659 + 0.000871088928 444.6564361284 + 0.000903454816 474.0243445562 + 0.000933938408 502.1015154268 + 0.000962368054 528.5843040720 + 0.000988593682 553.1919776047 + 0.001012487546 575.6718885428 + 0.001033944661 595.8038852292 + 0.001052882934 613.3787142957 + 0.001069243009 628.3068693774 + 0.001082987838 640.4533080919 + 0.001094102009 649.7536624245 + 0.001102590860 656.1841311211 + 0.001108479395 659.7602612595 + 0.001111811048 660.5349068062 + 0.001112646302 658.5954647650 + 0.001111061220 654.0605060989 + 0.001107145890 647.0759301412 + 0.001101002824 637.8107777439 + 0.001092745334 626.4528398762 + 0.001082495911 613.2041950308 + 0.001070384615 598.2768010389 + 0.001050861421 582.7674964251 + 0.001015389474 568.5140406906 + 0.000979629794 553.4356905084 + 0.000943753342 537.6653729421 + 0.000907917408 521.3308690675 + 0.000872265682 504.5540966656 + 0.000836928532 487.4505601760 + 0.000802023299 470.1289781859 + 0.000767654708 452.6909771718 + 0.000733915353 435.2314396048 + 0.000700886226 417.8385491627 + 0.000668637297 400.5948311481 + 0.000637228119 383.5795771554 + 0.000606708462 366.8759740894 + 0.000577118947 350.5990367181 + 0.000548491342 335.0873945201 + 0.000520848970 405.6163141566 + 0.000494210428 301.8238382831 diff --git a/mytest/HNaK_Cl_101.sel b/mytest/HNaK_Cl_101.sel index fa2a80c0..a2c47ef8 100644 --- a/mytest/HNaK_Cl_101.sel +++ b/mytest/HNaK_Cl_101.sel @@ -1,81 +1,81 @@ Mu SC Viscosity - 0.100000000000 39037.8163957789 0.8949866345 - 0.100000127116 12896.6147398138 0.8902305220 - 0.100000127935 10609.0359183574 0.8985395673 - 0.200000000000 75906.1553204265 0.8995933672 - 0.200000132605 24781.6725356966 0.8897436520 - 0.200000134161 20182.8319001066 0.9062510614 - 0.200000000000 42131.0191143932 0.9037215647 - 0.200000000000 53265.1936831904 0.9024177006 - 0.500000000000 178087.2436705413 0.9131832228 - 0.500000000000 155925.6675536004 0.9081268213 - 0.500000000000 132863.0637012067 0.9031119775 - 0.500000000000 108878.9338043566 0.8981542282 - 0.500000000000 83959.7222863246 0.8932649318 - 0.500000136409 58097.3309670118 0.8884515394 - 0.500000137714 53481.8977922729 0.9044315782 - 0.500000138369 51119.5213038597 0.9127229997 - 0.500000139689 46282.9116070467 0.9299541700 - 0.500000000000 97110.9974136129 0.9232281770 - 0.500000000000 123444.8465943408 0.9199194480 - 0.500000000000 94709.6872226384 0.9101013827 - 1.000000000000 325239.6912640301 0.9357011364 - 1.000000000000 288703.9708394521 0.9254369971 - 1.000000000000 248831.7718846419 0.9155394297 - 1.000000000000 205607.3933585908 0.9060065568 - 1.000000000000 159030.6590767232 0.8968414383 - 1.000000132166 109123.6040815901 0.8880445898 - 1.000000133141 104449.4587585224 0.9034869767 - 1.000000134121 99633.7007572908 0.9196928008 - 1.000000135105 94674.3752764055 0.9366934279 - 1.000000136093 89570.0524923744 0.9545177527 - 1.000000137086 84318.7569874028 0.9732095220 - 1.000000000000 127777.9082943134 0.9651463167 - 1.000000000000 173600.0715945044 0.9574166921 - 1.000000000000 221763.0419076402 0.9499842125 - 1.000000000000 272276.6619244544 0.9427856211 - 1.000000000000 234903.3564549563 0.9323505326 - 1.000000000000 184807.4414644966 0.9394618425 - 1.000000000000 195155.7706245232 0.9225202802 - 1.000000000000 152382.9243017275 0.9131960005 - 1.000000000000 143554.2905786177 0.9294038039 - 1.000000000000 136709.2370007040 0.9467713105 - 2.000000000000 549420.2583266855 0.9811966666 - 2.000000000000 500977.1259429642 0.9606849537 - 2.000000000000 441439.9307609108 0.9418612493 - 2.000000000000 371009.7290130634 0.9246308840 - 2.000000000000 290048.7334082749 0.9089462664 - 2.000000115882 199154.3679093283 0.8947664267 - 2.000000116955 189469.6512737270 0.9251612144 - 2.000000118026 179229.7570267613 0.9584161085 - 2.000000119098 168440.8840343273 0.9946437233 - 2.000000120169 157114.9342697320 1.0339485064 - 2.000000121238 145262.4533773167 1.0764910822 - 2.000000000000 208849.4494742377 1.0547916213 - 2.000000000000 280942.7848939538 1.0344949983 - 2.000000000000 361667.2722384952 1.0155476341 - 2.000000000000 451098.6622749849 0.9978484045 - 3.000000000000 700751.6858806259 1.0279462446 - 3.000000098898 275105.1886490661 0.9115507740 - 3.000000102661 189438.0389060979 1.2036758420 - 4.000000000000 797528.8729247059 1.0764198240 - 4.000000000000 761982.5154155545 1.0359025345 - 4.000000000000 695235.5863441853 1.0022196093 - 4.000000000000 599200.4372351837 0.9748818947 - 4.000000000000 477950.1012369824 0.9536149210 - 4.000000083741 337897.9002416748 0.9381880946 - 4.000000084072 317785.5997805919 1.0003890335 - 4.000000084370 295713.9377254216 1.0728307331 - 4.000000084634 271884.4727997077 1.1559048854 - 4.000000084863 246515.8008492637 1.2499842690 - 4.000000085057 219798.2331547418 1.3556562597 - 4.000000000000 283743.7102240762 1.2900642828 - 4.000000000000 369621.9301041643 1.2294641741 - 4.000000000000 481329.1717610102 1.1737982840 - 4.000000000000 622687.3971019958 1.1229056993 - 3.999900000000 589499.1831431191 1.0809061740 - 3.999900000000 451699.8817929410 1.1288434772 - 4.000000000000 379949.7748917196 1.1071545337 - 4.000000000000 334609.5096996851 1.1888438958 - 4.000000000000 430971.9368758673 1.0317430057 - 4.000000000000 525720.3949713121 1.0537075907 + 0.100000000000 39037.8183180015 0.8949866181 + 0.100000127116 12896.6150035284 0.8902304836 + 0.100000127935 10609.0363150603 0.8985395212 + 0.200000000000 75906.1605893501 0.8995933439 + 0.200000132605 24781.6732530619 0.8897435978 + 0.200000134161 20182.8329585349 0.9062509962 + 0.200000000000 42131.0243823607 0.9037215113 + 0.200000000000 53265.2001123614 0.9024176550 + 0.500000000000 178087.2629379981 0.9131831860 + 0.500000000000 155925.6893118818 0.9081267711 + 0.500000000000 132863.0844682324 0.9031119163 + 0.500000000000 108878.9507927719 0.8981541577 + 0.500000000000 83959.7331464382 0.8932648532 + 0.500000136409 58097.3336340986 0.8884514538 + 0.500000137714 53481.9009017175 0.9044314849 + 0.500000138369 51119.5246284603 0.9127229029 + 0.500000139689 46282.9153482244 0.9299540668 + 0.500000000000 97111.0161985096 0.9232280927 + 0.500000000000 123444.8697109841 0.9199193758 + 0.500000000000 94709.7033644552 0.9101013017 + 1.000000000000 325239.7396685374 0.9357010844 + 1.000000000000 288704.0266023619 0.9254369262 + 1.000000000000 248831.8261065581 0.9155393431 + 1.000000000000 205607.4384735200 0.9060064571 + 1.000000000000 159030.6883207488 0.8968413272 + 1.000000132166 109123.6111844387 0.8880444686 + 1.000000133141 104449.4663484657 0.9034868500 + 1.000000134121 99633.7088029900 0.9196926689 + 1.000000135105 94674.3837452611 0.9366932910 + 1.000000136093 89570.0613508218 0.9545176113 + 1.000000137086 84318.7662009263 0.9732093761 + 1.000000000000 127777.9371404057 0.9651461831 + 1.000000000000 173600.1167956239 0.9574165728 + 1.000000000000 221763.0983071851 0.9499841104 + 1.000000000000 272276.7212704858 0.9427855404 + 1.000000000000 234903.4121485087 0.9323504377 + 1.000000000000 184807.4872124775 0.9394617295 + 1.000000000000 195155.8163030285 0.9225201735 + 1.000000000000 152382.9542165390 0.9131958833 + 1.000000000000 143554.3199817364 0.9294036809 + 1.000000000000 136709.2666076158 0.9467711823 + 2.000000000000 549420.3674086881 0.9811965930 + 2.000000000000 500977.2563005302 0.9606848533 + 2.000000000000 441440.0616726445 0.9418611269 + 2.000000000000 371009.8410120285 0.9246307430 + 2.000000000000 290048.8076877038 0.9089461092 + 2.000000115882 199154.3861413366 0.8947662553 + 2.000000116955 189469.6702669843 0.9251610352 + 2.000000118026 179229.7766019503 0.9584159219 + 2.000000119098 168440.9040162201 0.9946435298 + 2.000000120169 157114.9544908320 1.0339483063 + 2.000000121238 145262.4736787633 1.0764908758 + 2.000000000000 208849.5069841003 1.0547914324 + 2.000000000000 280942.8767380574 1.0344948296 + 2.000000000000 361667.3906758518 1.0155474897 + 2.000000000000 451098.7914033124 0.9978482904 + 3.000000000000 700751.8463958852 1.0279461545 + 3.000000098898 275105.2189129579 0.9115505640 + 3.000000102661 189438.0679116732 1.2036755893 + 4.000000000000 797529.0714223515 1.0764197200 + 4.000000000000 761982.7676122191 1.0359023926 + 4.000000000000 695235.8515129264 1.0022194362 + 4.000000000000 599200.6712672731 0.9748816953 + 4.000000000000 477950.2595303780 0.9536146987 + 4.000000083741 337897.9418398270 0.9381878523 + 4.000000084072 317785.6411252093 1.0003887801 + 4.000000084370 295713.9780864487 1.0728304693 + 4.000000084634 271884.5115949382 1.1559046118 + 4.000000084863 246515.8376494999 1.2499839860 + 4.000000085057 219798.2676635323 1.3556559678 + 4.000000000000 283743.7879212847 1.2900640156 + 4.000000000000 369622.0581535191 1.2294639356 + 4.000000000000 481329.3504310088 1.1737980798 + 4.000000000000 622687.6107436044 1.1229055380 + 3.999900000000 589499.4058315179 1.0809059867 + 3.999900000000 451700.0473596060 1.1288432542 + 4.000000000000 379949.8919708821 1.1071542886 + 4.000000000000 334609.6079640578 1.1888436406 + 4.000000000000 430972.0770542078 1.0317427719 + 4.000000000000 525720.5950982770 1.0537073803 diff --git a/mytest/H_K.out b/mytest/H_K.out index 0bff2d7c..41a73b93 100644 --- a/mytest/H_K.out +++ b/mytest/H_K.out @@ -1152,7 +1152,7 @@ Using temperature 1. Specific Conductance (µS/cm, 190°C) = 2 Density (g/cm³) = 0.87608 Volume (L) = 1.14145 - Viscosity (mPa s) = 0.14204 + Viscosity (mPa s) = 0.14205 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.109e-06 Mass of water (kg) = 1.000e+00 @@ -1647,7 +1647,7 @@ Using temperature 1. Specific Conductance (µS/cm, 280°C) = 2 Density (g/cm³) = 0.75044 Volume (L) = 1.33256 - Viscosity (mPa s) = 0.09358 + Viscosity (mPa s) = 0.09359 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.363e-06 Mass of water (kg) = 1.000e+00 @@ -2950,7 +2950,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 6 Density (g/cm³) = 0.97153 Volume (L) = 1.02931 - Viscosity (mPa s) = 0.17824 + Viscosity (mPa s) = 0.17825 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.848e-06 Mass of water (kg) = 1.000e+00 @@ -3342,7 +3342,7 @@ Using pressure 1. Specific Conductance (µS/cm, 270°C) = 7 Density (g/cm³) = 0.88169 Volume (L) = 1.13418 - Viscosity (mPa s) = 0.12764 + Viscosity (mPa s) = 0.12765 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.653e-06 Mass of water (kg) = 1.000e+00 diff --git a/mytest/H_K_101.sel b/mytest/H_K_101.sel index 853d1212..8beb6b28 100644 --- a/mytest/H_K_101.sel +++ b/mytest/H_K_101.sel @@ -1,64 +1,64 @@ Mu SC 0.000000100661 0.0546997340 - 0.000000033957 0.0114230384 - 0.000000054255 0.0228791110 - 0.000000082768 0.0416995567 - 0.000000121215 0.0705399373 - 0.000000171200 0.1122486005 - 0.000000234097 0.1696433265 - 0.000000310932 0.2452490254 - 0.000000402281 0.3410244043 - 0.000000508194 0.4581077401 - 0.000000628138 0.5966095855 - 0.000000760967 0.7554744939 - 0.000000905083 0.9325825854 - 0.000001058119 1.1244418995 - 0.000001217289 1.3265879774 - 0.000001379394 1.5337112814 - 0.000001540946 1.7399219576 - 0.000001698295 1.9390574034 - 0.000001847780 2.1250109785 - 0.000001985883 2.2920601451 - 0.000002109391 2.4351838183 - 0.000002215543 2.5502470551 - 0.000002302176 2.6344161093 - 0.000002367857 2.6860696912 - 0.000002411994 2.7050349003 - 0.000002434947 2.6925805286 - 0.000002438131 2.6514098548 - 0.000002424164 2.5856388615 - 0.000002397081 2.5008119001 - 0.000002362758 2.4040483929 - 0.000002329781 2.3045108421 - 0.000002311360 2.2146308979 - 0.000000044096 0.0187398395 - 0.000000087072 0.0436300490 - 0.000000152133 0.0870963335 - 0.000000244122 0.1560626209 - 0.000000367502 0.2577655642 - 0.000000526011 0.3991804873 - 0.000000722373 0.5863982390 - 0.000000958054 0.8239935467 - 0.000001233094 1.1144399944 - 0.000001546022 1.4576420366 - 0.000001893837 1.8506567046 - 0.000002272083 2.2876604858 - 0.000002674977 2.7601830257 - 0.000003095614 3.2575876603 - 0.000003526216 3.7677399448 - 0.000003958412 4.2777782748 - 0.000004383549 4.7748899450 - 0.000004793002 5.2470022219 - 0.000005178474 5.6833181825 - 0.000005532277 6.0746564324 - 0.000005847578 6.4135868117 - 0.000006118599 6.6943853710 - 0.000006340776 6.9128563213 - 0.000006510859 7.0660827815 - 0.000006626966 7.1521698597 - 0.000006688588 7.1700341936 - 0.000006696548 7.1192774800 - 0.000006652924 7.0001638367 - 0.000006560945 6.8137075838 - 0.000006424871 6.5618700453 - 0.000006249884 6.2478638960 + 0.000000033957 0.0114230387 + 0.000000054255 0.0228791115 + 0.000000082768 0.0416995572 + 0.000000121215 0.0705399364 + 0.000000171200 0.1122485947 + 0.000000234097 0.1696433077 + 0.000000310932 0.2452489775 + 0.000000402281 0.3410242982 + 0.000000508194 0.4581075278 + 0.000000628138 0.5966091928 + 0.000000760967 0.7554738130 + 0.000000905083 0.9325814683 + 0.000001058119 1.1244401532 + 0.000001217289 1.3265853627 + 0.000001379394 1.5337075159 + 0.000001540946 1.7399167234 + 0.000001698295 1.9390503613 + 0.000001847780 2.1250017860 + 0.000001985883 2.2920484788 + 0.000002109391 2.4351693980 + 0.000002215543 2.5502296677 + 0.000002302176 2.6343956272 + 0.000002367857 2.6860460872 + 0.000002411994 2.7050082521 + 0.000002434947 2.6925510132 + 0.000002438131 2.6513777295 + 0.000002424164 2.5856044322 + 0.000002397081 2.5007754722 + 0.000002362758 2.4040102020 + 0.000002329781 2.3044709493 + 0.000002311360 2.2145890157 + 0.000000044096 0.0187398401 + 0.000000087072 0.0436300501 + 0.000000152133 0.0870963347 + 0.000000244122 0.1560626181 + 0.000000367502 0.2577655454 + 0.000000526011 0.3991804236 + 0.000000722373 0.5863980715 + 0.000000958054 0.8239931680 + 0.000001233094 1.1144392254 + 0.000001546022 1.4576406001 + 0.000001893837 1.8506541986 + 0.000002272083 2.2876563597 + 0.000002674977 2.7601765641 + 0.000003095614 3.2575779787 + 0.000003526216 3.7677259994 + 0.000003958412 4.2777588879 + 0.000004383549 4.7748638467 + 0.000004793002 5.2469681040 + 0.000005178474 5.6832747624 + 0.000005532277 6.0746025221 + 0.000005847578 6.4135213876 + 0.000006118599 6.6943076412 + 0.000006340776 6.9127657870 + 0.000006510859 7.0659792909 + 0.000006626966 7.1520536518 + 0.000006688588 7.1699059310 + 0.000006696548 7.1191382670 + 0.000006652924 7.0000152216 + 0.000006560945 6.8135515402 + 0.000006424871 6.5617089287 + 0.000006249884 6.2477003718 diff --git a/mytest/Halite_P.out b/mytest/Halite_P.out index 31c83520..9b15981b 100644 --- a/mytest/Halite_P.out +++ b/mytest/Halite_P.out @@ -140,10 +140,10 @@ Halite 0.00 1.60 1.59 1.000e+01 3.832e+00 -6.168e+00 pH = 6.299 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 449928 + Specific Conductance (µS/cm, 30°C) = 449872 Density (g/cm³) = 1.19591 Volume (L) = 1.13759 - Viscosity (mPa s) = 0.80962 + Viscosity (mPa s) = 0.80983 Activity of water = 0.751 Ionic strength (mol/kgw) = 6.168e+00 Mass of water (kg) = 1.000e+00 @@ -206,10 +206,10 @@ Halite 0.00 1.61 1.60 1.000e+01 3.791e+00 -6.209e+00 pH = 6.279 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 454159 + Specific Conductance (µS/cm, 30°C) = 454103 Density (g/cm³) = 1.20100 Volume (L) = 1.13476 - Viscosity (mPa s) = 0.80958 + Viscosity (mPa s) = 0.80978 Activity of water = 0.749 Ionic strength (mol/kgw) = 6.209e+00 Mass of water (kg) = 1.000e+00 @@ -273,10 +273,10 @@ Halite 0.00 1.62 1.62 1.000e+01 3.757e+00 -6.243e+00 pH = 6.261 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 457802 + Specific Conductance (µS/cm, 30°C) = 457746 Density (g/cm³) = 1.20589 Volume (L) = 1.13181 - Viscosity (mPa s) = 0.81004 + Viscosity (mPa s) = 0.81025 Activity of water = 0.747 Ionic strength (mol/kgw) = 6.243e+00 Mass of water (kg) = 1.000e+00 @@ -340,10 +340,10 @@ Halite 0.00 1.63 1.62 1.000e+01 3.729e+00 -6.271e+00 pH = 6.245 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 460861 + Specific Conductance (µS/cm, 30°C) = 460804 Density (g/cm³) = 1.21057 Volume (L) = 1.12879 - Viscosity (mPa s) = 0.81101 + Viscosity (mPa s) = 0.81122 Activity of water = 0.745 Ionic strength (mol/kgw) = 6.271e+00 Mass of water (kg) = 1.000e+00 @@ -407,10 +407,10 @@ Halite 0.00 1.64 1.63 1.000e+01 3.706e+00 -6.294e+00 pH = 6.230 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 463352 + Specific Conductance (µS/cm, 30°C) = 463294 Density (g/cm³) = 1.21508 Volume (L) = 1.12572 - Viscosity (mPa s) = 0.81250 + Viscosity (mPa s) = 0.81271 Activity of water = 0.744 Ionic strength (mol/kgw) = 6.294e+00 Mass of water (kg) = 1.000e+00 @@ -474,10 +474,10 @@ Halite 0.00 1.64 1.64 1.000e+01 3.687e+00 -6.313e+00 pH = 6.215 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 465307 + Specific Conductance (µS/cm, 30°C) = 465249 Density (g/cm³) = 1.21943 Volume (L) = 1.12261 - Viscosity (mPa s) = 0.81448 + Viscosity (mPa s) = 0.81469 Activity of water = 0.743 Ionic strength (mol/kgw) = 6.313e+00 Mass of water (kg) = 1.000e+00 @@ -541,10 +541,10 @@ Halite 0.00 1.65 1.64 1.000e+01 3.672e+00 -6.328e+00 pH = 6.202 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 466766 + Specific Conductance (µS/cm, 30°C) = 466709 Density (g/cm³) = 1.22367 Volume (L) = 1.11945 - Viscosity (mPa s) = 0.81697 + Viscosity (mPa s) = 0.81717 Activity of water = 0.742 Ionic strength (mol/kgw) = 6.328e+00 Mass of water (kg) = 1.000e+00 @@ -608,10 +608,10 @@ Halite 0.00 1.65 1.65 1.000e+01 3.659e+00 -6.341e+00 pH = 6.190 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 467773 + Specific Conductance (µS/cm, 30°C) = 467715 Density (g/cm³) = 1.22786 Volume (L) = 1.11622 - Viscosity (mPa s) = 0.81995 + Viscosity (mPa s) = 0.82016 Activity of water = 0.741 Ionic strength (mol/kgw) = 6.341e+00 Mass of water (kg) = 1.000e+00 @@ -675,10 +675,10 @@ Halite 0.00 1.66 1.65 1.000e+01 3.649e+00 -6.351e+00 pH = 6.178 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 468365 + Specific Conductance (µS/cm, 30°C) = 468308 Density (g/cm³) = 1.23207 Volume (L) = 1.11292 - Viscosity (mPa s) = 0.82345 + Viscosity (mPa s) = 0.82366 Activity of water = 0.740 Ionic strength (mol/kgw) = 6.351e+00 Mass of water (kg) = 1.000e+00 @@ -742,10 +742,10 @@ Halite 0.00 1.66 1.65 1.000e+01 3.639e+00 -6.361e+00 pH = 6.167 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 468575 + Specific Conductance (µS/cm, 30°C) = 468518 Density (g/cm³) = 1.23635 Volume (L) = 1.10950 - Viscosity (mPa s) = 0.82753 + Viscosity (mPa s) = 0.82774 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.361e+00 Mass of water (kg) = 1.000e+00 @@ -809,10 +809,10 @@ Halite 0.00 1.66 1.66 1.000e+01 3.630e+00 -6.370e+00 pH = 6.156 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 468419 + Specific Conductance (µS/cm, 30°C) = 468362 Density (g/cm³) = 1.24081 Volume (L) = 1.10593 - Viscosity (mPa s) = 0.83224 + Viscosity (mPa s) = 0.83245 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.370e+00 Mass of water (kg) = 1.000e+00 @@ -876,10 +876,10 @@ Halite 0.00 1.66 1.66 1.000e+01 3.621e+00 -6.379e+00 pH = 6.145 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 467895 + Specific Conductance (µS/cm, 30°C) = 467838 Density (g/cm³) = 1.24553 Volume (L) = 1.10218 - Viscosity (mPa s) = 0.83772 + Viscosity (mPa s) = 0.83793 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.379e+00 Mass of water (kg) = 1.000e+00 @@ -943,10 +943,10 @@ Halite 0.00 1.67 1.66 1.000e+01 3.610e+00 -6.390e+00 pH = 6.135 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 466970 + Specific Conductance (µS/cm, 30°C) = 466914 Density (g/cm³) = 1.25060 Volume (L) = 1.09821 - Viscosity (mPa s) = 0.84411 + Viscosity (mPa s) = 0.84432 Activity of water = 0.737 Ionic strength (mol/kgw) = 6.390e+00 Mass of water (kg) = 1.000e+00 @@ -1010,10 +1010,10 @@ Halite 0.00 1.67 1.67 1.000e+01 3.598e+00 -6.402e+00 pH = 6.124 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 465574 + Specific Conductance (µS/cm, 30°C) = 465518 Density (g/cm³) = 1.25614 Volume (L) = 1.09395 - Viscosity (mPa s) = 0.85164 + Viscosity (mPa s) = 0.85186 Activity of water = 0.736 Ionic strength (mol/kgw) = 6.402e+00 Mass of water (kg) = 1.000e+00 @@ -1077,10 +1077,10 @@ Halite 0.00 1.67 1.67 1.000e+01 3.582e+00 -6.418e+00 pH = 6.114 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 463582 + Specific Conductance (µS/cm, 30°C) = 463526 Density (g/cm³) = 1.26226 Volume (L) = 1.08937 - Viscosity (mPa s) = 0.86062 + Viscosity (mPa s) = 0.86083 Activity of water = 0.736 Ionic strength (mol/kgw) = 6.418e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Halite_P_101.sel b/mytest/Halite_P_101.sel index b8a5040f..74dde7a2 100644 --- a/mytest/Halite_P_101.sel +++ b/mytest/Halite_P_101.sel @@ -1,17 +1,17 @@ Mu SC - 0.000000121213 0.0706525639 - 6.167720517703 449928.2759755084 - 6.208526212750 454159.5408998591 - 6.242610787710 457802.8762690967 - 6.270852513780 460861.1644052474 - 6.294014380994 463352.0591779975 - 6.312863357527 465307.3377759587 - 6.328169707134 466766.8749711976 - 6.340708277434 467773.0647067784 - 6.351260195250 468365.4366549928 - 6.360614234844 468575.2365019863 - 6.369568148800 468419.6818392533 - 6.378930191858 467895.4463086203 - 6.389520248600 466970.6641830778 - 6.402171349147 465574.4539026036 - 6.417731467914 463582.2191038407 + 0.000000121213 0.0706525626 + 6.167720517703 449872.2183572635 + 6.208526212750 454103.0253456444 + 6.242610787710 457746.0000062886 + 6.270852513780 460804.0214382167 + 6.294014380994 463294.7387467301 + 6.312863357527 465249.9225246359 + 6.328169707134 466709.4399571619 + 6.340708277434 467715.6771663972 + 6.351260195250 468308.1564970066 + 6.360614234844 468518.1175395239 + 6.369568148800 468362.7738162133 + 6.378930191858 467838.7978466446 + 6.389520248600 466914.3268935771 + 6.402171349147 465518.4880800283 + 6.417731467914 463526.7017326620 diff --git a/mytest/Hebach.out b/mytest/Hebach.out index 1c4d87d4..119c51ea 100644 --- a/mytest/Hebach.out +++ b/mytest/Hebach.out @@ -1562,7 +1562,7 @@ H2O(g) -0.44 3.629e-01 0.119 4.947e-03 6.069e-03 1.122e-03 Specific Conductance (µS/cm, 30°C) = 249 Density (g/cm³) = 1.01246 Volume (L) = 1.04697 - Viscosity (mPa s) = 0.87908 + Viscosity (mPa s) = 0.87909 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.515e-04 Mass of water (kg) = 9.999e-01 @@ -1914,7 +1914,7 @@ H2O(g) 0.16 1.429e+00 0.035 9.403e-03 1.038e-02 9.775e-04 Specific Conductance (µS/cm, 30°C) = 288 Density (g/cm³) = 1.02304 Volume (L) = 1.04459 - Viscosity (mPa s) = 0.89080 + Viscosity (mPa s) = 0.89081 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.016e-03 Mass of water (kg) = 9.998e-01 @@ -2468,7 +2468,7 @@ H2O(g) -0.99 1.014e-01 0.711 4.250e-04 4.896e-04 6.464e-05 Specific Conductance (µS/cm, 40°C) = 248 Density (g/cm³) = 1.00033 Volume (L) = 1.03150 - Viscosity (mPa s) = 0.68341 + Viscosity (mPa s) = 0.68342 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.235e-04 Mass of water (kg) = 1.000e+00 @@ -2824,7 +2824,7 @@ H2O(g) -0.79 1.639e-01 0.448 8.763e-04 1.144e-03 2.679e-04 Specific Conductance (µS/cm, 40°C) = 286 Density (g/cm³) = 1.00523 Volume (L) = 1.04412 - Viscosity (mPa s) = 0.69790 + Viscosity (mPa s) = 0.69791 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.833e-04 Mass of water (kg) = 1.000e+00 @@ -2913,7 +2913,7 @@ H2O(g) -0.72 1.917e-01 0.384 1.144e-03 1.549e-03 4.047e-04 Specific Conductance (µS/cm, 40°C) = 290 Density (g/cm³) = 1.00593 Volume (L) = 1.04549 - Viscosity (mPa s) = 0.69966 + Viscosity (mPa s) = 0.69967 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.015e-04 Mass of water (kg) = 1.000e+00 @@ -3002,7 +3002,7 @@ H2O(g) -0.65 2.253e-01 0.328 1.549e-03 2.134e-03 5.854e-04 Specific Conductance (µS/cm, 40°C) = 292 Density (g/cm³) = 1.00636 Volume (L) = 1.04618 - Viscosity (mPa s) = 0.70065 + Viscosity (mPa s) = 0.70066 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.119e-04 Mass of water (kg) = 9.999e-01 @@ -3269,7 +3269,7 @@ H2O(g) -0.43 3.751e-01 0.199 3.880e-03 4.991e-03 1.111e-03 Specific Conductance (µS/cm, 40°C) = 297 Density (g/cm³) = 1.00731 Volume (L) = 1.04702 - Viscosity (mPa s) = 0.70235 + Viscosity (mPa s) = 0.70236 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.314e-04 Mass of water (kg) = 9.999e-01 @@ -3358,7 +3358,7 @@ H2O(g) -0.33 4.632e-01 0.162 4.991e-03 6.213e-03 1.222e-03 Specific Conductance (µS/cm, 40°C) = 300 Density (g/cm³) = 1.00797 Volume (L) = 1.04729 - Viscosity (mPa s) = 0.70330 + Viscosity (mPa s) = 0.70331 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.433e-04 Mass of water (kg) = 9.999e-01 @@ -3625,7 +3625,7 @@ H2O(g) 0.01 1.016e+00 0.078 8.833e-03 1.015e-02 1.321e-03 Specific Conductance (µS/cm, 40°C) = 319 Density (g/cm³) = 1.01228 Volume (L) = 1.04751 - Viscosity (mPa s) = 0.70840 + Viscosity (mPa s) = 0.70841 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.140e-04 Mass of water (kg) = 9.998e-01 @@ -4001,7 +4001,7 @@ H2O(g) -0.90 1.272e-01 0.942 4.528e-04 4.968e-04 4.404e-05 Specific Conductance (µS/cm, 50°C) = 139 Density (g/cm³) = 0.98968 Volume (L) = 1.01670 - Viscosity (mPa s) = 0.55275 + Viscosity (mPa s) = 0.55276 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.779e-04 Mass of water (kg) = 1.000e+00 @@ -4446,7 +4446,7 @@ H2O(g) -0.72 1.896e-01 0.643 8.043e-04 9.438e-04 1.395e-04 Specific Conductance (µS/cm, 50°C) = 291 Density (g/cm³) = 0.99683 Volume (L) = 1.03725 - Viscosity (mPa s) = 0.56817 + Viscosity (mPa s) = 0.56818 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.526e-04 Mass of water (kg) = 1.000e+00 @@ -4624,7 +4624,7 @@ H2O(g) -0.62 2.388e-01 0.516 1.133e-03 1.396e-03 2.626e-04 Specific Conductance (µS/cm, 50°C) = 314 Density (g/cm³) = 0.99918 Volume (L) = 1.04304 - Viscosity (mPa s) = 0.57287 + Viscosity (mPa s) = 0.57288 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.293e-04 Mass of water (kg) = 1.000e+00 @@ -4713,7 +4713,7 @@ H2O(g) -0.56 2.731e-01 0.453 1.396e-03 1.765e-03 3.698e-04 Specific Conductance (µS/cm, 50°C) = 322 Density (g/cm³) = 1.00013 Volume (L) = 1.04508 - Viscosity (mPa s) = 0.57466 + Viscosity (mPa s) = 0.57467 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.567e-04 Mass of water (kg) = 1.000e+00 @@ -4802,7 +4802,7 @@ H2O(g) -0.50 3.156e-01 0.394 1.765e-03 2.282e-03 5.168e-04 Specific Conductance (µS/cm, 50°C) = 328 Density (g/cm³) = 1.00089 Volume (L) = 1.04652 - Viscosity (mPa s) = 0.57602 + Viscosity (mPa s) = 0.57603 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.772e-04 Mass of water (kg) = 9.999e-01 @@ -4891,7 +4891,7 @@ H2O(g) -0.44 3.669e-01 0.341 2.282e-03 2.980e-03 6.981e-04 Specific Conductance (µS/cm, 50°C) = 332 Density (g/cm³) = 1.00149 Volume (L) = 1.04746 - Viscosity (mPa s) = 0.57700 + Viscosity (mPa s) = 0.57701 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.918e-04 Mass of water (kg) = 9.999e-01 @@ -4980,7 +4980,7 @@ H2O(g) -0.37 4.281e-01 0.293 2.980e-03 3.874e-03 8.939e-04 Specific Conductance (µS/cm, 50°C) = 335 Density (g/cm³) = 1.00197 Volume (L) = 1.04808 - Viscosity (mPa s) = 0.57774 + Viscosity (mPa s) = 0.57775 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.029e-04 Mass of water (kg) = 9.999e-01 @@ -5336,7 +5336,7 @@ H2O(g) -0.06 8.717e-01 0.148 7.564e-03 9.023e-03 1.458e-03 Specific Conductance (µS/cm, 50°C) = 350 Density (g/cm³) = 1.00465 Volume (L) = 1.04958 - Viscosity (mPa s) = 0.58104 + Viscosity (mPa s) = 0.58105 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.534e-04 Mass of water (kg) = 9.998e-01 @@ -5425,7 +5425,7 @@ H2O(g) 0.03 1.081e+00 0.121 9.023e-03 1.053e-02 1.510e-03 Specific Conductance (µS/cm, 50°C) = 357 Density (g/cm³) = 1.00590 Volume (L) = 1.04978 - Viscosity (mPa s) = 0.58238 + Viscosity (mPa s) = 0.58239 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.745e-04 Mass of water (kg) = 9.998e-01 @@ -5692,7 +5692,7 @@ H2O(g) 0.34 2.164e+00 0.066 1.355e-02 1.498e-02 1.431e-03 Specific Conductance (µS/cm, 50°C) = 390 Density (g/cm³) = 1.01210 Volume (L) = 1.04918 - Viscosity (mPa s) = 0.58842 + Viscosity (mPa s) = 0.58843 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.732e-04 Mass of water (kg) = 9.997e-01 @@ -6335,7 +6335,7 @@ H2O(g) -0.54 2.912e-01 0.650 1.196e-03 1.389e-03 1.935e-04 Specific Conductance (µS/cm, 59°C) = 308 Density (g/cm³) = 0.99185 Volume (L) = 1.03962 - Viscosity (mPa s) = 0.48769 + Viscosity (mPa s) = 0.48770 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.223e-04 Mass of water (kg) = 1.000e+00 @@ -6424,7 +6424,7 @@ H2O(g) -0.49 3.226e-01 0.590 1.389e-03 1.642e-03 2.531e-04 Specific Conductance (µS/cm, 59°C) = 323 Density (g/cm³) = 0.99302 Volume (L) = 1.04252 - Viscosity (mPa s) = 0.48947 + Viscosity (mPa s) = 0.48948 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.625e-04 Mass of water (kg) = 1.000e+00 @@ -6691,7 +6691,7 @@ H2O(g) -0.33 4.651e-01 0.416 2.427e-03 3.022e-03 5.948e-04 Specific Conductance (µS/cm, 59°C) = 352 Density (g/cm³) = 0.99588 Volume (L) = 1.04855 - Viscosity (mPa s) = 0.49359 + Viscosity (mPa s) = 0.49360 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.467e-04 Mass of water (kg) = 9.999e-01 @@ -6780,7 +6780,7 @@ H2O(g) -0.27 5.336e-01 0.364 3.022e-03 3.792e-03 7.699e-04 Specific Conductance (µS/cm, 59°C) = 358 Density (g/cm³) = 0.99659 Volume (L) = 1.04968 - Viscosity (mPa s) = 0.49452 + Viscosity (mPa s) = 0.49453 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.643e-04 Mass of water (kg) = 9.999e-01 @@ -6869,7 +6869,7 @@ H2O(g) -0.21 6.149e-01 0.318 3.792e-03 4.752e-03 9.604e-04 Specific Conductance (µS/cm, 59°C) = 362 Density (g/cm³) = 0.99721 Volume (L) = 1.05050 - Viscosity (mPa s) = 0.49529 + Viscosity (mPa s) = 0.49530 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.787e-04 Mass of water (kg) = 9.999e-01 @@ -6958,7 +6958,7 @@ H2O(g) -0.15 7.117e-01 0.276 4.752e-03 5.900e-03 1.148e-03 Specific Conductance (µS/cm, 59°C) = 367 Density (g/cm³) = 0.99780 Volume (L) = 1.05113 - Viscosity (mPa s) = 0.49599 + Viscosity (mPa s) = 0.49600 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.914e-04 Mass of water (kg) = 9.999e-01 @@ -7047,7 +7047,7 @@ H2O(g) -0.08 8.286e-01 0.238 5.900e-03 7.219e-03 1.319e-03 Specific Conductance (µS/cm, 59°C) = 371 Density (g/cm³) = 0.99843 Volume (L) = 1.05164 - Viscosity (mPa s) = 0.49669 + Viscosity (mPa s) = 0.49670 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.040e-04 Mass of water (kg) = 9.999e-01 @@ -7136,7 +7136,7 @@ H2O(g) -0.01 9.726e-01 0.205 7.219e-03 8.680e-03 1.461e-03 Specific Conductance (µS/cm, 59°C) = 376 Density (g/cm³) = 0.99916 Volume (L) = 1.05208 - Viscosity (mPa s) = 0.49746 + Viscosity (mPa s) = 0.49747 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.178e-04 Mass of water (kg) = 9.998e-01 @@ -7225,7 +7225,7 @@ H2O(g) 0.06 1.153e+00 0.174 8.680e-03 1.025e-02 1.570e-03 Specific Conductance (µS/cm, 59°C) = 381 Density (g/cm³) = 1.00004 Volume (L) = 1.05246 - Viscosity (mPa s) = 0.49836 + Viscosity (mPa s) = 0.49837 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.336e-04 Mass of water (kg) = 9.998e-01 @@ -7403,7 +7403,7 @@ H2O(g) 0.22 1.666e+00 0.124 1.189e-02 1.358e-02 1.681e-03 Specific Conductance (µS/cm, 59°C) = 396 Density (g/cm³) = 1.00250 Volume (L) = 1.05295 - Viscosity (mPa s) = 0.50072 + Viscosity (mPa s) = 0.50073 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.750e-04 Mass of water (kg) = 9.997e-01 @@ -7492,7 +7492,7 @@ H2O(g) 0.31 2.025e+00 0.104 1.358e-02 1.526e-02 1.680e-03 Specific Conductance (µS/cm, 59°C) = 406 Density (g/cm³) = 1.00418 Volume (L) = 1.05299 - Viscosity (mPa s) = 0.50226 + Viscosity (mPa s) = 0.50227 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.018e-04 Mass of water (kg) = 9.997e-01 @@ -7581,7 +7581,7 @@ H2O(g) 0.39 2.469e+00 0.088 1.526e-02 1.690e-02 1.642e-03 Specific Conductance (µS/cm, 59°C) = 417 Density (g/cm³) = 1.00621 Volume (L) = 1.05282 - Viscosity (mPa s) = 0.50409 + Viscosity (mPa s) = 0.50410 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.337e-04 Mass of water (kg) = 9.997e-01 diff --git a/mytest/Hebach_101.sel b/mytest/Hebach_101.sel index eb098fed..3830c9c7 100644 --- a/mytest/Hebach_101.sel +++ b/mytest/Hebach_101.sel @@ -1,86 +1,86 @@ Mu SC - 0.000000119464 0.0692690567 - 0.000001128844 0.4724624300 - 0.000287254070 113.8797396324 - 0.000405533695 153.9366963358 - 0.000494867742 180.1971257084 - 0.000568556642 198.9692278529 - 0.000631539971 212.8614225765 - 0.000686005205 223.2851830534 - 0.000732692392 231.1036844714 - 0.000771177890 236.8566290592 - 0.000799864691 240.8321459122 - 0.000816663270 243.1177245467 - 0.000822001112 243.8734752807 - 0.000821998086 243.8754290269 - 0.000821724816 243.8444246137 - 0.000824667229 244.4071861723 - 0.000834525815 246.3838745369 - 0.000851487745 249.9672247782 - 0.000876544609 255.4946334516 - 0.000910951265 263.3632764262 - 0.000956469963 274.0957004130 - 0.001015668518 288.4238420751 - 0.000001158253 0.5483332759 - 0.000285838653 128.9421104127 - 0.000402836412 175.7172577824 - 0.000490655360 207.2906712555 - 0.000562574496 230.5671220919 - 0.000623518022 248.3590680986 - 0.000675673967 262.1590841850 - 0.000719856083 272.8531231620 - 0.000755956000 280.9762249917 - 0.000783297802 286.8384947197 - 0.000801500237 290.6769739081 - 0.000811913638 292.9065755508 - 0.000817973390 294.2551432443 - 0.000823525096 295.5524008295 - 0.000831378589 297.4740115251 - 0.000843270908 300.5029540484 - 0.000860353963 305.0065441473 - 0.000883592742 311.3162255927 - 0.000914013888 319.7870643585 - 0.000952882256 330.8474994471 - 0.001001875181 345.0533398657 - 0.000001172193 0.6186177757 - 0.000277890384 139.7341307369 - 0.000391154102 191.4974103428 - 0.000475810715 227.1234593722 - 0.000544822844 253.9187918586 - 0.000603027229 274.8274364276 - 0.000652640211 291.3952287106 - 0.000694646542 304.5363548887 - 0.000729342186 314.8230332850 - 0.000756747922 322.6460945760 - 0.000777175646 328.3665720221 - 0.000791828123 332.4672579655 - 0.000802858628 335.5976641083 - 0.000812715882 338.4583765231 - 0.000823475104 341.6600430739 - 0.000836654406 345.6784230540 - 0.000853356445 350.8854381744 - 0.000874471521 357.6000561049 - 0.000900840819 366.1329531092 - 0.000933379484 376.8238149738 - 0.000973182715 390.0761701229 - 0.000001176733 0.6786495904 - 0.000265544901 145.1216793542 - 0.000373547928 199.6551776827 - 0.000454127377 237.6904932446 - 0.000519722482 266.6970521559 - 0.000575022488 289.6676644638 - 0.000622255663 308.1712910622 - 0.000662547827 323.1457892801 - 0.000696462450 335.2015892575 - 0.000724348110 344.7830078071 - 0.000746677398 352.2894490387 - 0.000764342161 358.1710716015 - 0.000778719330 362.9624110393 - 0.000791433074 367.2349561970 - 0.000804023258 371.5192876274 - 0.000817760939 376.2605299552 - 0.000833642637 381.8196677003 - 0.000852471595 388.4986915496 - 0.000874953091 396.5706181749 - 0.000901776650 406.3063962165 - 0.000933685044 417.9986454426 + 0.000000119464 0.0692690555 + 0.000001128844 0.4724623650 + 0.000287254070 113.8794904899 + 0.000405533695 153.9363009751 + 0.000494867742 180.1966203967 + 0.000568556642 198.9686364836 + 0.000631539971 212.8607628923 + 0.000686005205 223.2844690252 + 0.000732692392 231.1029276065 + 0.000771177890 236.8558393893 + 0.000799864691 240.8313329764 + 0.000816663270 243.1168981476 + 0.000822001112 243.8726444840 + 0.000821998086 243.8745982231 + 0.000821724816 243.8435940044 + 0.000824667229 244.4063525522 + 0.000834525815 246.3830304439 + 0.000851487745 249.9663618511 + 0.000876544609 255.4937415426 + 0.000910951265 263.3623431339 + 0.000956469963 274.0947101901 + 0.001015668518 288.4227747491 + 0.000001158253 0.5483330175 + 0.000285838653 128.9411480233 + 0.000402836412 175.7157143265 + 0.000490655360 207.2886786422 + 0.000562574496 230.5647679673 + 0.000623518022 248.3564188777 + 0.000675673967 262.1561937945 + 0.000719856083 272.8500378546 + 0.000755956000 280.9729867664 + 0.000783297802 286.8351437478 + 0.000801500237 290.6735484213 + 0.000811913638 292.9031068667 + 0.000817973390 294.2516486860 + 0.000823525096 295.5488816915 + 0.000831378589 297.4704563672 + 0.000843270908 300.4993425388 + 0.000860353963 305.0028491765 + 0.000883592742 311.3124137001 + 0.000914013888 319.7830948937 + 0.000952882256 330.8433226087 + 0.001001875181 345.0488934220 + 0.000001172193 0.6186172509 + 0.000277890384 139.7322617009 + 0.000391154102 191.4943909426 + 0.000475810715 227.1195342045 + 0.000544822844 253.9141240876 + 0.000603027229 274.8221511951 + 0.000652640211 291.3894293387 + 0.000694646542 304.5301313934 + 0.000729342186 314.8164676054 + 0.000756747922 322.6392630263 + 0.000777175646 328.3595435622 + 0.000791828123 332.4600876419 + 0.000802858628 335.5903855579 + 0.000812715882 338.4509994230 + 0.000823475104 341.6525561214 + 0.000836654406 345.6707986220 + 0.000853356445 350.8776357524 + 0.000874471521 357.5920238004 + 0.000900840819 366.1246274216 + 0.000933379484 376.8151190605 + 0.000973182715 390.0670105455 + 0.000001176733 0.6786487678 + 0.000265544901 145.1189155249 + 0.000373547928 199.6506903060 + 0.000454127377 237.6846313801 + 0.000519722482 266.6900485648 + 0.000575022488 289.6596983572 + 0.000622255663 308.1625110198 + 0.000662547827 323.1363246862 + 0.000696462450 335.1915566343 + 0.000724348110 344.7725133511 + 0.000746677398 352.2785869862 + 0.000764342161 358.1599186968 + 0.000778719330 362.9510200146 + 0.000791433074 367.2233524332 + 0.000804023258 371.5074704367 + 0.000817760939 376.2484764850 + 0.000833642637 381.8073368568 + 0.000852471595 388.4860265890 + 0.000874953091 396.5575476554 + 0.000901776650 406.2928334196 + 0.000933685044 417.9844863614 diff --git a/mytest/Hefter_KClNaOH_101.sel b/mytest/Hefter_KClNaOH_101.sel index 05982558..2426a9e7 100644 --- a/mytest/Hefter_KClNaOH_101.sel +++ b/mytest/Hefter_KClNaOH_101.sel @@ -1,10 +1,10 @@ Mu SC Visc - 3.001000098882 275174.4218992167 0.9115725258 - 3.000999994656 294663.8571185888 0.9850074726 - 3.000999994656 313871.0806015091 1.0608026981 - 3.000999994656 333701.3946988308 1.1469007933 - 3.000999994656 353355.9556827701 1.2408052357 - 3.000999994656 373176.4213852940 1.3443724345 - 3.000999994656 393193.5672158116 1.4581382658 - 3.000999994656 413115.4452558255 1.5806902137 - 3.000999994656 430023.8582301505 1.7377885478 + 3.001000098882 275174.4521750002 0.9115723158 + 3.000999994656 294663.8853473976 0.9850072653 + 3.000999994656 313871.1069186350 1.0608024947 + 3.000999994656 333701.4190030904 1.1469005952 + 3.000999994656 353355.9779655965 1.2408050444 + 3.000999994656 373176.4416252594 1.3443722515 + 3.000999994656 393193.5854050703 1.4581380928 + 3.000999994656 413115.4614260424 1.5806900520 + 3.000999994656 430023.8721258747 1.7377883988 diff --git a/mytest/HighTPwaterGas.out b/mytest/HighTPwaterGas.out index 724d905e..672da667 100644 --- a/mytest/HighTPwaterGas.out +++ b/mytest/HighTPwaterGas.out @@ -61,7 +61,7 @@ Initial solution 1. Specific Conductance (µS/cm, 65°C) = 2186 Density (g/cm³) = 0.98095 Volume (L) = 1.02002 - Viscosity (mPa s) = 0.43366 + Viscosity (mPa s) = 0.43371 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-02 Mass of water (kg) = 1.000e+00 @@ -167,10 +167,10 @@ Reaction 1. pH = 4.025 Charge balance pe = 10.862 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2276 + Specific Conductance (µS/cm, 65°C) = 2275 Density (g/cm³) = 1.00584 Volume (L) = 0.99521 - Viscosity (mPa s) = 0.44965 + Viscosity (mPa s) = 0.44969 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.010e-02 Mass of water (kg) = 1.000e+00 @@ -259,10 +259,10 @@ Reaction 1. pH = 3.874 Charge balance pe = 1.878 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2298 + Specific Conductance (µS/cm, 65°C) = 2297 Density (g/cm³) = 1.00593 Volume (L) = 0.99556 - Viscosity (mPa s) = 0.44989 + Viscosity (mPa s) = 0.44994 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.014e-02 Mass of water (kg) = 1.000e+00 @@ -354,7 +354,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2314 Density (g/cm³) = 1.00601 Volume (L) = 0.99592 - Viscosity (mPa s) = 0.45010 + Viscosity (mPa s) = 0.45015 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.018e-02 Mass of water (kg) = 1.000e+00 @@ -446,7 +446,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2327 Density (g/cm³) = 1.00609 Volume (L) = 0.99628 - Viscosity (mPa s) = 0.45030 + Viscosity (mPa s) = 0.45034 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.020e-02 Mass of water (kg) = 1.000e+00 @@ -538,7 +538,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2339 Density (g/cm³) = 1.00617 Volume (L) = 0.99663 - Viscosity (mPa s) = 0.45048 + Viscosity (mPa s) = 0.45052 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.023e-02 Mass of water (kg) = 1.000e+00 @@ -630,7 +630,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2349 Density (g/cm³) = 1.00626 Volume (L) = 0.99699 - Viscosity (mPa s) = 0.45065 + Viscosity (mPa s) = 0.45070 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.025e-02 Mass of water (kg) = 1.000e+00 @@ -722,7 +722,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2358 Density (g/cm³) = 1.00634 Volume (L) = 0.99734 - Viscosity (mPa s) = 0.45083 + Viscosity (mPa s) = 0.45087 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.027e-02 Mass of water (kg) = 1.000e+00 @@ -814,7 +814,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2366 Density (g/cm³) = 1.00642 Volume (L) = 0.99770 - Viscosity (mPa s) = 0.45099 + Viscosity (mPa s) = 0.45104 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.029e-02 Mass of water (kg) = 1.000e+00 @@ -906,7 +906,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2374 Density (g/cm³) = 1.00650 Volume (L) = 0.99806 - Viscosity (mPa s) = 0.45116 + Viscosity (mPa s) = 0.45120 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.031e-02 Mass of water (kg) = 1.000e+00 @@ -998,7 +998,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2381 Density (g/cm³) = 1.00658 Volume (L) = 0.99841 - Viscosity (mPa s) = 0.45132 + Viscosity (mPa s) = 0.45136 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.032e-02 Mass of water (kg) = 1.000e+00 @@ -1090,7 +1090,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2387 Density (g/cm³) = 1.00667 Volume (L) = 0.99877 - Viscosity (mPa s) = 0.45148 + Viscosity (mPa s) = 0.45152 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.034e-02 Mass of water (kg) = 1.000e+00 @@ -1182,7 +1182,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2393 Density (g/cm³) = 1.00675 Volume (L) = 0.99912 - Viscosity (mPa s) = 0.45163 + Viscosity (mPa s) = 0.45168 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.035e-02 Mass of water (kg) = 1.000e+00 @@ -1274,7 +1274,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2399 Density (g/cm³) = 1.00683 Volume (L) = 0.99948 - Viscosity (mPa s) = 0.45179 + Viscosity (mPa s) = 0.45183 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.037e-02 Mass of water (kg) = 1.000e+00 @@ -1363,10 +1363,10 @@ Reaction 1. pH = 3.453 Charge balance pe = 11.315 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2405 + Specific Conductance (µS/cm, 65°C) = 2404 Density (g/cm³) = 1.00691 Volume (L) = 0.99984 - Viscosity (mPa s) = 0.45194 + Viscosity (mPa s) = 0.45199 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.038e-02 Mass of water (kg) = 1.000e+00 @@ -1455,10 +1455,10 @@ Reaction 1. pH = 3.438 Charge balance pe = 2.056 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2410 + Specific Conductance (µS/cm, 65°C) = 2409 Density (g/cm³) = 1.00699 Volume (L) = 1.00019 - Viscosity (mPa s) = 0.45210 + Viscosity (mPa s) = 0.45214 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.039e-02 Mass of water (kg) = 1.000e+00 @@ -1550,7 +1550,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2414 Density (g/cm³) = 1.00707 Volume (L) = 1.00055 - Viscosity (mPa s) = 0.45225 + Viscosity (mPa s) = 0.45230 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.041e-02 Mass of water (kg) = 1.000e+00 @@ -1642,7 +1642,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2419 Density (g/cm³) = 1.00715 Volume (L) = 1.00091 - Viscosity (mPa s) = 0.45240 + Viscosity (mPa s) = 0.45245 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.042e-02 Mass of water (kg) = 1.000e+00 @@ -1734,7 +1734,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2423 Density (g/cm³) = 1.00723 Volume (L) = 1.00126 - Viscosity (mPa s) = 0.45255 + Viscosity (mPa s) = 0.45260 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.043e-02 Mass of water (kg) = 1.000e+00 @@ -1823,10 +1823,10 @@ Reaction 1. pH = 3.388 Charge balance pe = 11.479 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2428 + Specific Conductance (µS/cm, 65°C) = 2427 Density (g/cm³) = 1.00732 Volume (L) = 1.00162 - Viscosity (mPa s) = 0.45270 + Viscosity (mPa s) = 0.45275 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.044e-02 Mass of water (kg) = 1.000e+00 @@ -1918,7 +1918,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2431 Density (g/cm³) = 1.00740 Volume (L) = 1.00198 - Viscosity (mPa s) = 0.45285 + Viscosity (mPa s) = 0.45290 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.045e-02 Mass of water (kg) = 1.000e+00 @@ -2010,7 +2010,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2435 Density (g/cm³) = 1.00748 Volume (L) = 1.00233 - Viscosity (mPa s) = 0.45300 + Viscosity (mPa s) = 0.45304 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.046e-02 Mass of water (kg) = 1.000e+00 @@ -2102,7 +2102,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2439 Density (g/cm³) = 1.00756 Volume (L) = 1.00269 - Viscosity (mPa s) = 0.45315 + Viscosity (mPa s) = 0.45319 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.048e-02 Mass of water (kg) = 1.000e+00 @@ -2194,7 +2194,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2442 Density (g/cm³) = 1.00764 Volume (L) = 1.00304 - Viscosity (mPa s) = 0.45329 + Viscosity (mPa s) = 0.45334 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.049e-02 Mass of water (kg) = 1.000e+00 @@ -2283,10 +2283,10 @@ Reaction 1. pH = 3.339 Charge balance pe = 2.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2446 + Specific Conductance (µS/cm, 65°C) = 2445 Density (g/cm³) = 1.00772 Volume (L) = 1.00340 - Viscosity (mPa s) = 0.45344 + Viscosity (mPa s) = 0.45349 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.050e-02 Mass of water (kg) = 1.000e+00 @@ -2378,7 +2378,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2449 Density (g/cm³) = 1.00780 Volume (L) = 1.00376 - Viscosity (mPa s) = 0.45359 + Viscosity (mPa s) = 0.45363 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.051e-02 Mass of water (kg) = 1.000e+00 @@ -2470,7 +2470,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2452 Density (g/cm³) = 1.00788 Volume (L) = 1.00411 - Viscosity (mPa s) = 0.45373 + Viscosity (mPa s) = 0.45378 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.052e-02 Mass of water (kg) = 1.000e+00 @@ -2562,7 +2562,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2455 Density (g/cm³) = 1.00796 Volume (L) = 1.00447 - Viscosity (mPa s) = 0.45388 + Viscosity (mPa s) = 0.45392 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.053e-02 Mass of water (kg) = 1.000e+00 @@ -2651,10 +2651,10 @@ Reaction 1. pH = 3.306 Charge balance pe = 11.544 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2458 + Specific Conductance (µS/cm, 65°C) = 2457 Density (g/cm³) = 1.00804 Volume (L) = 1.00483 - Viscosity (mPa s) = 0.45402 + Viscosity (mPa s) = 0.45407 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.053e-02 Mass of water (kg) = 1.000e+00 @@ -2746,7 +2746,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2460 Density (g/cm³) = 1.00812 Volume (L) = 1.00518 - Viscosity (mPa s) = 0.45416 + Viscosity (mPa s) = 0.45421 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.054e-02 Mass of water (kg) = 1.000e+00 @@ -2838,7 +2838,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2463 Density (g/cm³) = 1.00820 Volume (L) = 1.00554 - Viscosity (mPa s) = 0.45431 + Viscosity (mPa s) = 0.45435 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.055e-02 Mass of water (kg) = 1.000e+00 @@ -2930,7 +2930,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2465 Density (g/cm³) = 1.00828 Volume (L) = 1.00590 - Viscosity (mPa s) = 0.45445 + Viscosity (mPa s) = 0.45450 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.056e-02 Mass of water (kg) = 1.000e+00 @@ -3019,10 +3019,10 @@ Reaction 1. pH = 3.278 Charge balance pe = 11.435 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2468 + Specific Conductance (µS/cm, 65°C) = 2467 Density (g/cm³) = 1.00836 Volume (L) = 1.00625 - Viscosity (mPa s) = 0.45459 + Viscosity (mPa s) = 0.45464 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.057e-02 Mass of water (kg) = 1.000e+00 @@ -3114,7 +3114,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2470 Density (g/cm³) = 1.00844 Volume (L) = 1.00661 - Viscosity (mPa s) = 0.45474 + Viscosity (mPa s) = 0.45478 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.058e-02 Mass of water (kg) = 1.000e+00 @@ -3206,7 +3206,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2472 Density (g/cm³) = 1.00852 Volume (L) = 1.00696 - Viscosity (mPa s) = 0.45488 + Viscosity (mPa s) = 0.45492 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.059e-02 Mass of water (kg) = 1.000e+00 @@ -3298,7 +3298,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2474 Density (g/cm³) = 1.00860 Volume (L) = 1.00732 - Viscosity (mPa s) = 0.45502 + Viscosity (mPa s) = 0.45507 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.060e-02 Mass of water (kg) = 1.000e+00 @@ -3390,7 +3390,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2476 Density (g/cm³) = 1.00868 Volume (L) = 1.00768 - Viscosity (mPa s) = 0.45516 + Viscosity (mPa s) = 0.45521 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.060e-02 Mass of water (kg) = 1.000e+00 @@ -3482,7 +3482,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2478 Density (g/cm³) = 1.00876 Volume (L) = 1.00803 - Viscosity (mPa s) = 0.45530 + Viscosity (mPa s) = 0.45535 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.061e-02 Mass of water (kg) = 1.000e+00 @@ -3574,7 +3574,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2480 Density (g/cm³) = 1.00884 Volume (L) = 1.00839 - Viscosity (mPa s) = 0.45544 + Viscosity (mPa s) = 0.45549 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.062e-02 Mass of water (kg) = 1.000e+00 @@ -3666,7 +3666,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2482 Density (g/cm³) = 1.00892 Volume (L) = 1.00875 - Viscosity (mPa s) = 0.45558 + Viscosity (mPa s) = 0.45563 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.063e-02 Mass of water (kg) = 1.000e+00 @@ -3758,7 +3758,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2484 Density (g/cm³) = 1.00900 Volume (L) = 1.00910 - Viscosity (mPa s) = 0.45572 + Viscosity (mPa s) = 0.45577 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.064e-02 Mass of water (kg) = 1.000e+00 @@ -3847,10 +3847,10 @@ Reaction 1. pH = 3.226 Charge balance pe = 11.455 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2486 + Specific Conductance (µS/cm, 65°C) = 2485 Density (g/cm³) = 1.00908 Volume (L) = 1.00946 - Viscosity (mPa s) = 0.45586 + Viscosity (mPa s) = 0.45591 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.064e-02 Mass of water (kg) = 1.000e+00 @@ -3942,7 +3942,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2487 Density (g/cm³) = 1.00916 Volume (L) = 1.00982 - Viscosity (mPa s) = 0.45600 + Viscosity (mPa s) = 0.45605 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.065e-02 Mass of water (kg) = 1.000e+00 @@ -4034,7 +4034,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2489 Density (g/cm³) = 1.00924 Volume (L) = 1.01017 - Viscosity (mPa s) = 0.45614 + Viscosity (mPa s) = 0.45619 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.066e-02 Mass of water (kg) = 1.000e+00 @@ -4126,7 +4126,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2490 Density (g/cm³) = 1.00932 Volume (L) = 1.01053 - Viscosity (mPa s) = 0.45628 + Viscosity (mPa s) = 0.45633 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.066e-02 Mass of water (kg) = 1.000e+00 @@ -4218,7 +4218,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2492 Density (g/cm³) = 1.00940 Volume (L) = 1.01089 - Viscosity (mPa s) = 0.45642 + Viscosity (mPa s) = 0.45647 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.067e-02 Mass of water (kg) = 1.000e+00 @@ -4310,7 +4310,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2493 Density (g/cm³) = 1.00948 Volume (L) = 1.01124 - Viscosity (mPa s) = 0.45656 + Viscosity (mPa s) = 0.45661 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.068e-02 Mass of water (kg) = 1.000e+00 @@ -4399,10 +4399,10 @@ Reaction 1. pH = 3.198 Charge balance pe = 2.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2495 + Specific Conductance (µS/cm, 65°C) = 2494 Density (g/cm³) = 1.00956 Volume (L) = 1.01160 - Viscosity (mPa s) = 0.45670 + Viscosity (mPa s) = 0.45674 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.069e-02 Mass of water (kg) = 1.000e+00 @@ -4494,7 +4494,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2496 Density (g/cm³) = 1.00964 Volume (L) = 1.01195 - Viscosity (mPa s) = 0.45684 + Viscosity (mPa s) = 0.45688 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.069e-02 Mass of water (kg) = 1.000e+00 @@ -4586,7 +4586,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2497 Density (g/cm³) = 1.00972 Volume (L) = 1.01231 - Viscosity (mPa s) = 0.45697 + Viscosity (mPa s) = 0.45702 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.070e-02 Mass of water (kg) = 1.000e+00 @@ -4678,7 +4678,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2498 Density (g/cm³) = 1.00980 Volume (L) = 1.01267 - Viscosity (mPa s) = 0.45711 + Viscosity (mPa s) = 0.45716 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.071e-02 Mass of water (kg) = 1.000e+00 @@ -4767,10 +4767,10 @@ Reaction 1. pH = 3.181 Charge balance pe = 11.711 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2500 + Specific Conductance (µS/cm, 65°C) = 2499 Density (g/cm³) = 1.00988 Volume (L) = 1.01302 - Viscosity (mPa s) = 0.45725 + Viscosity (mPa s) = 0.45729 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.071e-02 Mass of water (kg) = 1.000e+00 @@ -4859,10 +4859,10 @@ Reaction 1. pH = 3.177 Charge balance pe = 2.564 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2501 + Specific Conductance (µS/cm, 65°C) = 2500 Density (g/cm³) = 1.00996 Volume (L) = 1.01338 - Viscosity (mPa s) = 0.45739 + Viscosity (mPa s) = 0.45743 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.072e-02 Mass of water (kg) = 1.000e+00 @@ -4951,10 +4951,10 @@ Reaction 1. pH = 3.173 Charge balance pe = 11.660 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2502 + Specific Conductance (µS/cm, 65°C) = 2501 Density (g/cm³) = 1.01004 Volume (L) = 1.01374 - Viscosity (mPa s) = 0.45752 + Viscosity (mPa s) = 0.45757 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.073e-02 Mass of water (kg) = 1.000e+00 @@ -5046,7 +5046,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2503 Density (g/cm³) = 1.01011 Volume (L) = 1.01409 - Viscosity (mPa s) = 0.45766 + Viscosity (mPa s) = 0.45771 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.073e-02 Mass of water (kg) = 1.000e+00 @@ -5138,7 +5138,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2504 Density (g/cm³) = 1.01019 Volume (L) = 1.01445 - Viscosity (mPa s) = 0.45780 + Viscosity (mPa s) = 0.45784 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.074e-02 Mass of water (kg) = 1.000e+00 @@ -5227,10 +5227,10 @@ Reaction 1. pH = 3.162 Charge balance pe = 2.349 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2505 + Specific Conductance (µS/cm, 65°C) = 2504 Density (g/cm³) = 1.01027 Volume (L) = 1.01481 - Viscosity (mPa s) = 0.45793 + Viscosity (mPa s) = 0.45798 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.075e-02 Mass of water (kg) = 1.000e+00 @@ -5319,10 +5319,10 @@ Reaction 1. pH = 3.158 Charge balance pe = 11.605 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2506 + Specific Conductance (µS/cm, 65°C) = 2505 Density (g/cm³) = 1.01035 Volume (L) = 1.01516 - Viscosity (mPa s) = 0.45807 + Viscosity (mPa s) = 0.45811 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.075e-02 Mass of water (kg) = 1.000e+00 @@ -5414,7 +5414,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2506 Density (g/cm³) = 1.01043 Volume (L) = 1.01552 - Viscosity (mPa s) = 0.45821 + Viscosity (mPa s) = 0.45825 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.076e-02 Mass of water (kg) = 1.000e+00 @@ -5506,7 +5506,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2507 Density (g/cm³) = 1.01051 Volume (L) = 1.01588 - Viscosity (mPa s) = 0.45834 + Viscosity (mPa s) = 0.45839 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.076e-02 Mass of water (kg) = 1.000e+00 @@ -5598,7 +5598,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2508 Density (g/cm³) = 1.01059 Volume (L) = 1.01623 - Viscosity (mPa s) = 0.45848 + Viscosity (mPa s) = 0.45852 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.077e-02 Mass of water (kg) = 1.000e+00 @@ -5690,7 +5690,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2509 Density (g/cm³) = 1.01067 Volume (L) = 1.01659 - Viscosity (mPa s) = 0.45861 + Viscosity (mPa s) = 0.45866 Activity of water = 0.990 Ionic strength (mol/kgw) = 1.078e-02 Mass of water (kg) = 1.000e+00 @@ -5779,10 +5779,10 @@ Reaction 1. pH = 3.141 Charge balance pe = 11.685 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2510 + Specific Conductance (µS/cm, 65°C) = 2509 Density (g/cm³) = 1.01074 Volume (L) = 1.01695 - Viscosity (mPa s) = 0.45875 + Viscosity (mPa s) = 0.45879 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.078e-02 Mass of water (kg) = 1.000e+00 @@ -5874,7 +5874,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2510 Density (g/cm³) = 1.01082 Volume (L) = 1.01730 - Viscosity (mPa s) = 0.45888 + Viscosity (mPa s) = 0.45893 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.079e-02 Mass of water (kg) = 1.000e+00 @@ -5966,7 +5966,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2511 Density (g/cm³) = 1.01090 Volume (L) = 1.01766 - Viscosity (mPa s) = 0.45902 + Viscosity (mPa s) = 0.45906 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.079e-02 Mass of water (kg) = 1.000e+00 @@ -6055,10 +6055,10 @@ Reaction 1. pH = 3.132 Charge balance pe = 2.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2512 + Specific Conductance (µS/cm, 65°C) = 2511 Density (g/cm³) = 1.01098 Volume (L) = 1.01801 - Viscosity (mPa s) = 0.45915 + Viscosity (mPa s) = 0.45920 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.080e-02 Mass of water (kg) = 1.000e+00 @@ -6150,7 +6150,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2512 Density (g/cm³) = 1.01106 Volume (L) = 1.01837 - Viscosity (mPa s) = 0.45929 + Viscosity (mPa s) = 0.45933 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.081e-02 Mass of water (kg) = 1.000e+00 @@ -6239,10 +6239,10 @@ Reaction 1. pH = 3.126 Charge balance pe = 11.756 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2513 + Specific Conductance (µS/cm, 65°C) = 2512 Density (g/cm³) = 1.01114 Volume (L) = 1.01873 - Viscosity (mPa s) = 0.45942 + Viscosity (mPa s) = 0.45947 Activity of water = 0.989 Ionic strength (mol/kgw) = 1.081e-02 Mass of water (kg) = 1.000e+00 @@ -6334,7 +6334,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2513 Density (g/cm³) = 1.01121 Volume (L) = 1.01908 - Viscosity (mPa s) = 0.45956 + Viscosity (mPa s) = 0.45960 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.082e-02 Mass of water (kg) = 1.000e+00 @@ -6423,10 +6423,10 @@ Reaction 1. pH = 3.120 Charge balance pe = 11.758 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2514 + Specific Conductance (µS/cm, 65°C) = 2513 Density (g/cm³) = 1.01129 Volume (L) = 1.01944 - Viscosity (mPa s) = 0.45969 + Viscosity (mPa s) = 0.45974 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.082e-02 Mass of water (kg) = 1.000e+00 @@ -6518,7 +6518,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2514 Density (g/cm³) = 1.01137 Volume (L) = 1.01980 - Viscosity (mPa s) = 0.45982 + Viscosity (mPa s) = 0.45987 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.083e-02 Mass of water (kg) = 1.000e+00 @@ -6607,10 +6607,10 @@ Reaction 1. pH = 3.114 Charge balance pe = 11.728 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2515 + Specific Conductance (µS/cm, 65°C) = 2514 Density (g/cm³) = 1.01145 Volume (L) = 1.02015 - Viscosity (mPa s) = 0.45996 + Viscosity (mPa s) = 0.46000 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.083e-02 Mass of water (kg) = 1.000e+00 @@ -6702,7 +6702,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2515 Density (g/cm³) = 1.01153 Volume (L) = 1.02051 - Viscosity (mPa s) = 0.46009 + Viscosity (mPa s) = 0.46014 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.084e-02 Mass of water (kg) = 1.000e+00 @@ -6794,7 +6794,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2515 Density (g/cm³) = 1.01160 Volume (L) = 1.02087 - Viscosity (mPa s) = 0.46022 + Viscosity (mPa s) = 0.46027 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.084e-02 Mass of water (kg) = 1.000e+00 @@ -6886,7 +6886,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2516 Density (g/cm³) = 1.01168 Volume (L) = 1.02122 - Viscosity (mPa s) = 0.46036 + Viscosity (mPa s) = 0.46040 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.085e-02 Mass of water (kg) = 1.000e+00 @@ -6978,7 +6978,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2516 Density (g/cm³) = 1.01176 Volume (L) = 1.02158 - Viscosity (mPa s) = 0.46049 + Viscosity (mPa s) = 0.46054 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.085e-02 Mass of water (kg) = 1.000e+00 @@ -7070,7 +7070,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2516 Density (g/cm³) = 1.01184 Volume (L) = 1.02194 - Viscosity (mPa s) = 0.46062 + Viscosity (mPa s) = 0.46067 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.086e-02 Mass of water (kg) = 1.000e+00 @@ -7159,10 +7159,10 @@ Reaction 1. pH = 3.097 Charge balance pe = 2.630 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2517 + Specific Conductance (µS/cm, 65°C) = 2516 Density (g/cm³) = 1.01191 Volume (L) = 1.02229 - Viscosity (mPa s) = 0.46076 + Viscosity (mPa s) = 0.46080 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.087e-02 Mass of water (kg) = 1.000e+00 @@ -7254,7 +7254,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01199 Volume (L) = 1.02265 - Viscosity (mPa s) = 0.46089 + Viscosity (mPa s) = 0.46094 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.087e-02 Mass of water (kg) = 1.000e+00 @@ -7346,7 +7346,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01207 Volume (L) = 1.02301 - Viscosity (mPa s) = 0.46102 + Viscosity (mPa s) = 0.46107 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.088e-02 Mass of water (kg) = 1.000e+00 @@ -7438,7 +7438,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01215 Volume (L) = 1.02336 - Viscosity (mPa s) = 0.46116 + Viscosity (mPa s) = 0.46120 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.088e-02 Mass of water (kg) = 1.000e+00 @@ -7527,10 +7527,10 @@ Reaction 1. pH = 3.087 Charge balance pe = 2.410 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2518 + Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01222 Volume (L) = 1.02372 - Viscosity (mPa s) = 0.46129 + Viscosity (mPa s) = 0.46133 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.089e-02 Mass of water (kg) = 1.000e+00 @@ -7622,7 +7622,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01230 Volume (L) = 1.02408 - Viscosity (mPa s) = 0.46142 + Viscosity (mPa s) = 0.46147 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.089e-02 Mass of water (kg) = 1.000e+00 @@ -7714,7 +7714,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01238 Volume (L) = 1.02443 - Viscosity (mPa s) = 0.46155 + Viscosity (mPa s) = 0.46160 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.090e-02 Mass of water (kg) = 1.000e+00 @@ -7806,7 +7806,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01246 Volume (L) = 1.02479 - Viscosity (mPa s) = 0.46168 + Viscosity (mPa s) = 0.46173 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.090e-02 Mass of water (kg) = 1.000e+00 @@ -7898,7 +7898,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01253 Volume (L) = 1.02515 - Viscosity (mPa s) = 0.46182 + Viscosity (mPa s) = 0.46186 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.091e-02 Mass of water (kg) = 1.000e+00 @@ -7990,7 +7990,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01261 Volume (L) = 1.02550 - Viscosity (mPa s) = 0.46195 + Viscosity (mPa s) = 0.46199 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.091e-02 Mass of water (kg) = 1.000e+00 @@ -8082,7 +8082,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01269 Volume (L) = 1.02586 - Viscosity (mPa s) = 0.46208 + Viscosity (mPa s) = 0.46213 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.092e-02 Mass of water (kg) = 1.000e+00 @@ -8174,7 +8174,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01276 Volume (L) = 1.02621 - Viscosity (mPa s) = 0.46221 + Viscosity (mPa s) = 0.46226 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.092e-02 Mass of water (kg) = 1.000e+00 @@ -8266,7 +8266,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01284 Volume (L) = 1.02657 - Viscosity (mPa s) = 0.46234 + Viscosity (mPa s) = 0.46239 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.093e-02 Mass of water (kg) = 1.000e+00 @@ -8358,7 +8358,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01292 Volume (L) = 1.02693 - Viscosity (mPa s) = 0.46247 + Viscosity (mPa s) = 0.46252 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.093e-02 Mass of water (kg) = 1.000e+00 @@ -8450,7 +8450,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01300 Volume (L) = 1.02728 - Viscosity (mPa s) = 0.46260 + Viscosity (mPa s) = 0.46265 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.093e-02 Mass of water (kg) = 1.000e+00 @@ -8542,7 +8542,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01307 Volume (L) = 1.02764 - Viscosity (mPa s) = 0.46274 + Viscosity (mPa s) = 0.46278 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.094e-02 Mass of water (kg) = 1.000e+00 @@ -8634,7 +8634,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01315 Volume (L) = 1.02800 - Viscosity (mPa s) = 0.46287 + Viscosity (mPa s) = 0.46291 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.094e-02 Mass of water (kg) = 1.000e+00 @@ -8726,7 +8726,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01323 Volume (L) = 1.02835 - Viscosity (mPa s) = 0.46300 + Viscosity (mPa s) = 0.46304 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.095e-02 Mass of water (kg) = 1.000e+00 @@ -8818,7 +8818,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01330 Volume (L) = 1.02871 - Viscosity (mPa s) = 0.46313 + Viscosity (mPa s) = 0.46317 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.095e-02 Mass of water (kg) = 1.000e+00 @@ -8910,7 +8910,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01338 Volume (L) = 1.02907 - Viscosity (mPa s) = 0.46326 + Viscosity (mPa s) = 0.46330 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.096e-02 Mass of water (kg) = 1.000e+00 @@ -9002,7 +9002,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2518 Density (g/cm³) = 1.01346 Volume (L) = 1.02942 - Viscosity (mPa s) = 0.46339 + Viscosity (mPa s) = 0.46343 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.096e-02 Mass of water (kg) = 1.000e+00 @@ -9091,10 +9091,10 @@ Reaction 1. pH = 3.050 Charge balance pe = 11.687 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2518 + Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01353 Volume (L) = 1.02978 - Viscosity (mPa s) = 0.46352 + Viscosity (mPa s) = 0.46357 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.097e-02 Mass of water (kg) = 1.000e+00 @@ -9183,10 +9183,10 @@ Reaction 1. pH = 3.048 Charge balance pe = 2.411 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 2518 + Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01361 Volume (L) = 1.03014 - Viscosity (mPa s) = 0.46365 + Viscosity (mPa s) = 0.46370 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.097e-02 Mass of water (kg) = 1.000e+00 @@ -9278,7 +9278,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 2517 Density (g/cm³) = 1.01369 Volume (L) = 1.03049 - Viscosity (mPa s) = 0.46378 + Viscosity (mPa s) = 0.46383 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.098e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/HighTPwaterGas_101.sel b/mytest/HighTPwaterGas_101.sel index 985c3b33..45cae91e 100644 --- a/mytest/HighTPwaterGas_101.sel +++ b/mytest/HighTPwaterGas_101.sel @@ -1,102 +1,102 @@ Mu SC - 0.010000393529 2186.4316063939 - 0.010102055293 2276.0845747101 - 0.010144486437 2298.1077325356 - 0.010176995625 2314.4503798835 - 0.010204359229 2327.8323574739 - 0.010228428668 2339.3098538010 - 0.010250154113 2349.4264374802 - 0.010270100394 2358.5061322900 - 0.010288635781 2366.7607496404 - 0.010306016246 2374.3378695432 - 0.010322428292 2381.3452597344 - 0.010338012809 2387.8645049561 - 0.010352879332 2393.9591604066 - 0.010367115029 2399.6799013470 - 0.010380790625 2405.0679207394 - 0.010393964448 2410.1572530636 - 0.010406685282 2414.9764123742 - 0.010418994418 2419.5495769957 - 0.010430927181 2423.8974655049 - 0.010442514071 2428.0379970594 - 0.010453781643 2431.9867976700 - 0.010464753185 2435.7575942359 - 0.010475449257 2439.3625253621 - 0.010485888122 2442.8123895113 - 0.010496086088 2446.1168452752 - 0.010506057793 2449.2845746429 - 0.010515816431 2452.3234172576 - 0.010525373950 2455.2404817639 - 0.010534741210 2458.0422388429 - 0.010543928114 2460.7345995528 - 0.010552943727 2463.3229815410 - 0.010561796369 2465.8123656945 - 0.010570493701 2468.2073442182 - 0.010579042795 2470.5121629023 - 0.010587450195 2472.7307565974 - 0.010595721973 2474.8667808955 - 0.010603863772 2476.9236393290 - 0.010611880852 2478.9045078726 - 0.010619778122 2480.8123551533 - 0.010627560175 2482.6499622371 - 0.010635231313 2484.4199382800 - 0.010642795575 2486.1247355764 - 0.010650256755 2487.7666627274 - 0.010657618430 2489.3478962323 - 0.010664883967 2490.8704910716 - 0.010672056550 2492.3363901496 - 0.010679139186 2493.7474328194 - 0.010686134722 2495.1053625904 - 0.010693045859 2496.4118340608 - 0.010699875155 2497.6684193431 - 0.010706625044 2498.8766137233 - 0.010713297839 2500.0378409552 - 0.010719895742 2501.1534580510 - 0.010726420850 2502.2247596535 - 0.010732875165 2503.2529820583 - 0.010739260596 2504.2393068997 - 0.010745578967 2505.1848645411 - 0.010751832025 2506.0907371957 - 0.010758021438 2506.9579618064 - 0.010764148806 2507.7875327096 - 0.010770215662 2508.5804040773 - 0.010776223476 2509.3374922288 - 0.010782173658 2510.0596777122 - 0.010788067565 2510.7478072866 - 0.010793906499 2511.4026957190 - 0.010799691713 2512.0251275336 - 0.010805424412 2512.6158585452 - 0.010811105758 2513.1756173564 - 0.010816736868 2513.7051067657 - 0.010822318821 2514.2050049252 - 0.010827852657 2514.6759668040 - 0.010833339379 2515.1186250451 - 0.010838779957 2515.5335912073 - 0.010844175326 2515.9214566700 - 0.010849526391 2516.2827936126 - 0.010854834027 2516.6181558922 - 0.010860099080 2516.9280797949 - 0.010865322369 2517.2130849786 - 0.010870504687 2517.4736750488 - 0.010875646802 2517.7103383873 - 0.010880749458 2517.9235484457 - 0.010885813377 2518.1137651114 - 0.010890839259 2518.2814345164 - 0.010895827783 2518.4269899847 - 0.010900779608 2518.5508524871 - 0.010905695372 2518.6534311260 - 0.010910575699 2518.7351236215 - 0.010915421191 2518.7963166966 - 0.010920232435 2518.8373867554 - 0.010925010001 2518.8586995291 - 0.010929754445 2518.8606118646 - 0.010934466307 2518.8434703826 - 0.010939146110 2518.8076133582 - 0.010943794368 2518.7533699674 - 0.010948411577 2518.6810611523 - 0.010952998222 2518.5909997612 - 0.010957554776 2518.4834907836 - 0.010962081699 2518.3588317994 - 0.010966579441 2518.2173130347 - 0.010971048438 2518.0592177632 - 0.010975489117 2517.8848224903 + 0.010000393529 2186.2706046242 + 0.010102055293 2275.9113165771 + 0.010144486437 2297.9295118628 + 0.010176995625 2314.2684126812 + 0.010204359229 2327.6472781111 + 0.010228428668 2339.1220707633 + 0.010250154113 2349.2362430000 + 0.010270100394 2358.3137492930 + 0.010288635781 2366.5663557418 + 0.010306016246 2374.1416107782 + 0.010322428292 2381.1472590715 + 0.010338012809 2387.6648678954 + 0.010352879332 2393.7579788355 + 0.010367115029 2399.4772562943 + 0.010380790625 2404.8638844038 + 0.010393964448 2409.9518903451 + 0.010406685282 2414.7697820549 + 0.010418994418 2419.3417326680 + 0.010430927181 2423.6884563118 + 0.010442514071 2427.8278682940 + 0.010453781643 2431.7755912664 + 0.010464753185 2435.5453491759 + 0.010475449257 2439.1492780155 + 0.010485888122 2442.5981739232 + 0.010496086088 2445.9016934103 + 0.010506057793 2449.0685165947 + 0.010515816431 2452.1064814292 + 0.010525373950 2455.0226950245 + 0.010534741210 2457.8236266652 + 0.010543928114 2460.5151861326 + 0.010552943727 2463.1027899033 + 0.010561796369 2465.5914177876 + 0.010570493701 2467.9856609968 + 0.010579042795 2470.2897644018 + 0.010587450195 2472.5076620013 + 0.010595721973 2474.6430085948 + 0.010603863772 2476.6992069769 + 0.010611880852 2478.6794324332 + 0.010619778122 2480.5866529463 + 0.010627560175 2482.4236489781 + 0.010635231313 2484.1930291175 + 0.010642795575 2485.8972451258 + 0.010650256755 2487.5386051016 + 0.010657618430 2489.1192850706 + 0.010664883967 2490.6413395655 + 0.010672056550 2492.1067110671 + 0.010679139186 2493.5172385274 + 0.010686134722 2494.8746650755 + 0.010693045859 2496.1806449482 + 0.010699875155 2497.4367499146 + 0.010706625044 2498.6444749339 + 0.010713297839 2499.8052434484 + 0.010719895742 2500.9204121733 + 0.010726420850 2501.9912754681 + 0.010732875165 2503.0190693575 + 0.010739260596 2504.0049752167 + 0.010745578967 2504.9501231611 + 0.010751832025 2505.8555951665 + 0.010758021438 2506.7224279481 + 0.010764148806 2507.5516156238 + 0.010770215662 2508.3441121557 + 0.010776223476 2509.1008336619 + 0.010782173658 2509.8226604963 + 0.010788067565 2510.5104392317 + 0.010793906499 2511.1649844556 + 0.010799691713 2511.7870805192 + 0.010805424412 2512.3774830706 + 0.010811105758 2512.9369205516 + 0.010816736868 2513.4660956054 + 0.010822318821 2513.9656862344 + 0.010827852657 2514.4363472628 + 0.010833339379 2514.8787111937 + 0.010838779957 2515.2933894505 + 0.010844175326 2515.6809732817 + 0.010849526391 2516.0420347399 + 0.010854834027 2516.3771275595 + 0.010860099080 2516.6867879074 + 0.010865322369 2516.9715353265 + 0.010870504687 2517.2318733102 + 0.010875646802 2517.4682901320 + 0.010880749458 2517.6812591382 + 0.010885813377 2517.8712401138 + 0.010890839259 2518.0386790917 + 0.010895827783 2518.1840092993 + 0.010900779608 2518.3076516137 + 0.010905695372 2518.4100150461 + 0.010910575699 2518.4914972279 + 0.010915421191 2518.5524847958 + 0.010920232435 2518.5933540700 + 0.010925010001 2518.6144706999 + 0.010929754445 2518.6161914527 + 0.010934466307 2518.5988628716 + 0.010939146110 2518.5628231560 + 0.010943794368 2518.5084014083 + 0.010948411577 2518.4359184987 + 0.010952998222 2518.3456872055 + 0.010957554776 2518.2380124497 + 0.010962081699 2518.1131917446 + 0.010966579441 2517.9715152511 + 0.010971048438 2517.8132661793 + 0.010975489117 2517.6387209727 diff --git a/mytest/IL_flux.out b/mytest/IL_flux.out index 475bbb5b..01bd7e56 100644 --- a/mytest/IL_flux.out +++ b/mytest/IL_flux.out @@ -823,7 +823,7 @@ X 5.000e-02 mol Species Moles alents Fraction Gamma NaX 4.997e-02 4.997e-02 9.993e-01 -0.105 - Sr_trX2 1.616e-05 3.232e-05 6.463e-04 -0.000 + Sr_trX2 1.616e-05 3.232e-05 6.464e-04 -0.000 Na_trX 3.995e-07 3.995e-07 7.989e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -835,7 +835,7 @@ X 5.000e-02 mol Hto 7.999e-07 4.000e-07 Na 9.999e-02 5.000e-02 Na_tr 7.994e-07 3.997e-07 - Sr_tr 7.961e-07 3.980e-07 + Sr_tr 7.962e-07 3.981e-07 ----------------------------Description of solution---------------------------- @@ -850,7 +850,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.495e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.719e-14 + Electrical balance (eq) = -7.830e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 5.550622e+01 @@ -879,8 +879,8 @@ Na_tr 7.994e-07 Na_tr+ 7.994e-07 7.994e-07 -6.097 -6.097 -0.000 (0) O(0) 5.404e-10 O2 2.702e-10 2.765e-10 -9.568 -9.558 0.010 30.40 -Sr_tr 7.961e-07 - Sr_tr+2 7.961e-07 7.961e-07 -6.099 -6.099 -0.000 (0) +Sr_tr 7.962e-07 + Sr_tr+2 7.962e-07 7.962e-07 -6.099 -6.099 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -915,8 +915,8 @@ X 5.000e-02 mol Species Moles alents Fraction Gamma NaX 4.998e-02 4.998e-02 9.997e-01 -0.105 - Sr_trX2 7.999e-06 1.600e-05 3.199e-04 -0.000 - Na_trX 1.995e-07 1.995e-07 3.989e-06 -0.000 + Sr_trX2 8.004e-06 1.601e-05 3.201e-04 -0.000 + Na_trX 1.995e-07 1.995e-07 3.990e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -927,7 +927,7 @@ X 5.000e-02 mol Hto 3.999e-07 1.999e-07 Na 9.998e-02 4.999e-02 Na_tr 3.990e-07 1.995e-07 - Sr_tr 3.937e-07 1.969e-07 + Sr_tr 3.940e-07 1.970e-07 ----------------------------Description of solution---------------------------- @@ -942,7 +942,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.040e-14 + Electrical balance (eq) = -8.826e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 5.550622e+01 @@ -971,8 +971,8 @@ Na_tr 3.990e-07 Na_tr+ 3.990e-07 3.990e-07 -6.399 -6.399 -0.000 (0) O(0) 4.915e-10 O2 2.458e-10 2.515e-10 -9.609 -9.599 0.010 30.40 -Sr_tr 3.937e-07 - Sr_tr+2 3.937e-07 3.937e-07 -6.405 -6.405 -0.000 (0) +Sr_tr 3.940e-07 + Sr_tr+2 3.940e-07 3.940e-07 -6.405 -6.405 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -1007,8 +1007,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 0.000e+00 1.000e-06 1.000e-06 A_hto 0.00 -15.00 -15.00 0.000e+00 1.000e-06 1.000e-06 -A_na 0.00 -14.00 -14.00 0.000e+00 1.460e-06 1.460e-06 -A_sr 0.00 -14.00 -14.00 0.000e+00 1.975e-05 1.975e-05 +A_na 0.00 -14.00 -14.00 0.000e+00 1.467e-06 1.467e-06 +A_sr 0.00 -14.00 -14.00 0.000e+00 2.001e-05 2.001e-05 -----------------------------Exchange composition------------------------------ @@ -1030,7 +1030,7 @@ X 5.000e-02 mol Hto 1.000e-15 5.000e-16 Na 9.996e-02 4.998e-02 Na_tr 1.305e-13 6.524e-14 - Sr_tr 1.703e-12 8.513e-13 + Sr_tr 1.703e-12 8.514e-13 ----------------------------Description of solution---------------------------- @@ -1045,7 +1045,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.482e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.064e-13 + Electrical balance (eq) = -1.065e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -1225,7 +1225,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.491e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.914e-14 + Electrical balance (eq) = 1.727e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 Total H = 5.550622e+01 @@ -1315,9 +1315,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.481e-09 + Total alkalinity (eq/kg) = 8.480e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.239e-14 + Electrical balance (eq) = -7.267e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 Total H = 5.550622e+01 @@ -1382,8 +1382,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 1.000e-06 2.200e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 1.000e-06 2.200e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 1.460e-06 3.320e-06 1.859e-06 -A_sr 0.00 -14.00 -14.00 1.975e-05 4.765e-05 2.790e-05 +A_na -0.00 -14.00 -14.00 1.467e-06 3.332e-06 1.865e-06 +A_sr 0.00 -14.00 -14.00 2.001e-05 4.816e-05 2.816e-05 -----------------------------Exchange composition------------------------------ @@ -1400,10 +1400,10 @@ X 5.000e-02 mol Elements Molality Moles - Cl 9.995e-02 4.997e-02 + Cl 9.994e-02 4.997e-02 Cl_tr 1.274e-13 6.372e-14 Hto 1.000e-15 5.000e-16 - Na 9.995e-02 4.997e-02 + Na 9.994e-02 4.997e-02 Na_tr 1.305e-13 6.525e-14 Sr_tr 1.703e-12 8.516e-13 @@ -1416,11 +1416,11 @@ X 5.000e-02 mol Volume (L) = 0.50234 Viscosity (mPa s) = 0.89854 Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.469e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.066e-13 + Electrical balance (eq) = -1.063e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -1434,8 +1434,8 @@ X 5.000e-02 mol OH- 1.322e-07 1.007e-07 -6.879 -6.997 -0.118 -3.73 H+ 1.214e-07 1.002e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.662e-02 -1.000 -1.116 -0.115 18.34 +Cl 9.994e-02 + Cl- 9.994e-02 7.662e-02 -1.000 -1.116 -0.115 18.34 HCl 2.397e-09 2.644e-09 -8.620 -8.578 0.043 (0) Cl_tr 1.274e-13 Cl_tr- 1.274e-13 1.274e-13 -12.895 -12.895 -0.000 (0) @@ -1443,8 +1443,8 @@ H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.427 -41.417 0.010 28.61 Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.995e-02 - Na+ 9.995e-02 7.847e-02 -1.000 -1.105 -0.105 -1.09 +Na 9.994e-02 + Na+ 9.994e-02 7.847e-02 -1.000 -1.105 -0.105 -1.09 Na_tr 1.305e-13 Na_tr+ 1.305e-13 1.305e-13 -12.884 -12.884 -0.000 (0) O(0) 5.530e-10 @@ -1458,7 +1458,7 @@ Sr_tr 1.703e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto - A_na 0.00 -14.00 -14.00 Na_trCl + A_na -0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 H2(g) -38.32 -41.42 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O @@ -1600,7 +1600,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.819e-14 + Electrical balance (eq) = 1.651e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 Total H = 5.550622e+01 @@ -1628,7 +1628,7 @@ Na 9.999e-02 Na_tr 7.999e-07 Na_tr+ 7.999e-07 7.999e-07 -6.097 -6.097 -0.000 (0) O(0) 5.681e-10 - O2 2.840e-10 2.906e-10 -9.547 -9.537 0.010 30.40 + O2 2.840e-10 2.907e-10 -9.547 -9.537 0.010 30.40 Sr_tr 7.995e-07 Sr_tr+2 7.995e-07 7.995e-07 -6.097 -6.097 -0.000 (0) @@ -1692,7 +1692,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.478e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.954e-14 + Electrical balance (eq) = -7.987e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 Total H = 5.550622e+01 @@ -1757,8 +1757,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 2.200e-06 3.400e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 2.200e-06 3.400e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 3.320e-06 5.179e-06 1.860e-06 -A_sr 0.00 -14.00 -14.00 4.765e-05 7.563e-05 2.798e-05 +A_na 0.00 -14.00 -14.00 3.332e-06 5.198e-06 1.866e-06 +A_sr 0.00 -14.00 -14.00 4.816e-05 7.640e-05 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -1768,7 +1768,7 @@ X 5.000e-02 mol Species Moles alents Fraction Gamma NaX 5.000e-02 5.000e-02 1.000e+00 -0.105 - Sr_trX2 3.466e-11 6.931e-11 1.386e-09 -0.000 + Sr_trX2 3.466e-11 6.932e-11 1.386e-09 -0.000 Na_trX 6.530e-14 6.530e-14 1.306e-12 -0.000 -----------------------------Solution composition------------------------------ @@ -1786,7 +1786,7 @@ X 5.000e-02 mol pH = 6.999 Charge balance pe = 12.137 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 10603 + Specific Conductance (µS/cm, 25°C) = 10602 Density (g/cm³) = 1.00115 Volume (L) = 0.50234 Viscosity (mPa s) = 0.89853 @@ -1795,7 +1795,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.465e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.067e-13 + Electrical balance (eq) = -1.063e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -1815,7 +1815,7 @@ Cl 9.994e-02 Cl_tr 1.274e-13 Cl_tr- 1.274e-13 1.274e-13 -12.895 -12.895 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.432 -41.422 0.010 28.61 + H2 0.000e+00 0.000e+00 -41.432 -41.423 0.010 28.61 Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 9.994e-02 @@ -1975,7 +1975,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.819e-14 + Electrical balance (eq) = 1.647e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 Total H = 5.550622e+01 @@ -2067,7 +2067,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.011e-14 + Electrical balance (eq) = -8.044e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 Total H = 5.550622e+01 @@ -2132,8 +2132,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 3.400e-06 4.600e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 3.400e-06 4.600e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 5.179e-06 7.039e-06 1.860e-06 -A_sr 0.00 -14.00 -14.00 7.563e-05 1.036e-04 2.798e-05 +A_na -0.00 -14.00 -14.00 5.198e-06 7.064e-06 1.866e-06 +A_sr 0.00 -14.00 -14.00 7.640e-05 1.046e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -2155,7 +2155,7 @@ X 5.000e-02 mol Hto 1.000e-15 5.000e-16 Na 9.994e-02 4.997e-02 Na_tr 1.305e-13 6.526e-14 - Sr_tr 1.703e-12 8.517e-13 + Sr_tr 1.704e-12 8.518e-13 ----------------------------Description of solution---------------------------- @@ -2170,7 +2170,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.464e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.066e-13 + Electrical balance (eq) = -1.061e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -2199,8 +2199,8 @@ Na_tr 1.305e-13 Na_tr+ 1.305e-13 1.305e-13 -12.884 -12.884 -0.000 (0) O(0) 5.683e-10 O2 2.842e-10 2.908e-10 -9.546 -9.536 0.010 30.40 -Sr_tr 1.703e-12 - Sr_tr+2 1.703e-12 1.703e-12 -11.769 -11.769 -0.000 (0) +Sr_tr 1.704e-12 + Sr_tr+2 1.704e-12 1.703e-12 -11.769 -11.769 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -2208,7 +2208,7 @@ Sr_tr 1.703e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto - A_na 0.00 -14.00 -14.00 Na_trCl + A_na -0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 H2(g) -38.32 -41.42 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O @@ -2350,9 +2350,9 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.838e-14 + Electrical balance (eq) = 1.655e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 1 + Iterations = 0 Total H = 5.550622e+01 Total O = 2.775311e+01 @@ -2442,7 +2442,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.021e-14 + Electrical balance (eq) = -8.083e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 Total H = 5.550622e+01 @@ -2507,8 +2507,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 4.600e-06 5.800e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 4.600e-06 5.800e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 7.039e-06 8.899e-06 1.860e-06 -A_sr 0.00 -14.00 -14.00 1.036e-04 1.316e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 7.064e-06 8.930e-06 1.866e-06 +A_sr 0.00 -14.00 -14.00 1.046e-04 1.329e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -2530,7 +2530,7 @@ X 5.000e-02 mol Hto 1.000e-15 5.000e-16 Na 9.994e-02 4.997e-02 Na_tr 1.305e-13 6.526e-14 - Sr_tr 1.703e-12 8.517e-13 + Sr_tr 1.704e-12 8.518e-13 ----------------------------Description of solution---------------------------- @@ -2543,9 +2543,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.071e-13 + Electrical balance (eq) = -1.063e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -2572,10 +2572,10 @@ Na 9.994e-02 Na+ 9.994e-02 7.846e-02 -1.000 -1.105 -0.105 -1.09 Na_tr 1.305e-13 Na_tr+ 1.305e-13 1.305e-13 -12.884 -12.884 -0.000 (0) -O(0) 5.686e-10 +O(0) 5.685e-10 O2 2.843e-10 2.909e-10 -9.546 -9.536 0.010 30.40 -Sr_tr 1.703e-12 - Sr_tr+2 1.703e-12 1.703e-12 -11.769 -11.769 -0.000 (0) +Sr_tr 1.704e-12 + Sr_tr+2 1.704e-12 1.703e-12 -11.769 -11.769 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -2725,7 +2725,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.842e-14 + Electrical balance (eq) = 1.657e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550622e+01 @@ -2817,9 +2817,9 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.032e-14 + Electrical balance (eq) = -8.079e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 - Iterations = 0 + Iterations = 1 Total H = 5.550622e+01 Total O = 2.775311e+01 @@ -2845,7 +2845,7 @@ Na 9.996e-02 Na_tr 3.999e-07 Na_tr+ 3.999e-07 3.999e-07 -6.398 -6.398 -0.000 (0) O(0) 5.687e-10 - O2 2.844e-10 2.910e-10 -9.546 -9.536 0.010 30.40 + O2 2.843e-10 2.910e-10 -9.546 -9.536 0.010 30.40 Sr_tr 3.992e-07 Sr_tr+2 3.992e-07 3.992e-07 -6.399 -6.399 -0.000 (0) @@ -2882,8 +2882,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 5.800e-06 7.000e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 5.800e-06 7.000e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 8.899e-06 1.076e-05 1.860e-06 -A_sr 0.00 -14.00 -14.00 1.316e-04 1.596e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 8.930e-06 1.080e-05 1.866e-06 +A_sr 0.00 -14.00 -14.00 1.329e-04 1.611e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -2918,9 +2918,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.079e-13 + Electrical balance (eq) = -1.067e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -3100,7 +3100,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.844e-14 + Electrical balance (eq) = 1.656e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3192,7 +3192,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.023e-14 + Electrical balance (eq) = -8.082e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3257,8 +3257,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 7.000e-06 8.200e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 7.000e-06 8.200e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 1.076e-05 1.262e-05 1.860e-06 -A_sr 0.00 -14.00 -14.00 1.596e-04 1.876e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 1.080e-05 1.266e-05 1.866e-06 +A_sr 0.00 -14.00 -14.00 1.611e-04 1.894e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -3293,9 +3293,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.086e-13 + Electrical balance (eq) = -1.072e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -3322,8 +3322,8 @@ Na 9.994e-02 Na+ 9.994e-02 7.846e-02 -1.000 -1.105 -0.105 -1.09 Na_tr 1.305e-13 Na_tr+ 1.305e-13 1.305e-13 -12.884 -12.884 -0.000 (0) -O(0) 5.686e-10 - O2 2.843e-10 2.909e-10 -9.546 -9.536 0.010 30.40 +O(0) 5.688e-10 + O2 2.844e-10 2.910e-10 -9.546 -9.536 0.010 30.40 Sr_tr 1.704e-12 Sr_tr+2 1.704e-12 1.703e-12 -11.769 -11.769 -0.000 (0) @@ -3475,7 +3475,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.841e-14 + Electrical balance (eq) = 1.659e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3567,7 +3567,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.021e-14 + Electrical balance (eq) = -8.077e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3595,7 +3595,7 @@ Na 9.996e-02 Na_tr 3.999e-07 Na_tr+ 3.999e-07 3.999e-07 -6.398 -6.398 -0.000 (0) O(0) 5.687e-10 - O2 2.844e-10 2.910e-10 -9.546 -9.536 0.010 30.40 + O2 2.843e-10 2.910e-10 -9.546 -9.536 0.010 30.40 Sr_tr 3.992e-07 Sr_tr+2 3.992e-07 3.992e-07 -6.399 -6.399 -0.000 (0) @@ -3632,8 +3632,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 8.200e-06 9.400e-06 1.200e-06 A_hto 0.00 -15.00 -15.00 8.200e-06 9.400e-06 1.200e-06 -A_na 0.00 -14.00 -14.00 1.262e-05 1.448e-05 1.860e-06 -A_sr 0.00 -14.00 -14.00 1.876e-04 2.155e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 1.266e-05 1.453e-05 1.866e-06 +A_sr 0.00 -14.00 -14.00 1.894e-04 2.176e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -3668,9 +3668,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.087e-13 + Electrical balance (eq) = -1.080e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -3850,7 +3850,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.841e-14 + Electrical balance (eq) = 1.659e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3942,7 +3942,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.021e-14 + Electrical balance (eq) = -8.077e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550622e+01 @@ -3970,7 +3970,7 @@ Na 9.996e-02 Na_tr 3.999e-07 Na_tr+ 3.999e-07 3.999e-07 -6.398 -6.398 -0.000 (0) O(0) 5.687e-10 - O2 2.844e-10 2.910e-10 -9.546 -9.536 0.010 30.40 + O2 2.843e-10 2.910e-10 -9.546 -9.536 0.010 30.40 Sr_tr 3.992e-07 Sr_tr+2 3.992e-07 3.992e-07 -6.399 -6.399 -0.000 (0) @@ -4007,8 +4007,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 9.400e-06 1.060e-05 1.200e-06 A_hto 0.00 -15.00 -15.00 9.400e-06 1.060e-05 1.200e-06 -A_na 0.00 -14.00 -14.00 1.448e-05 1.634e-05 1.860e-06 -A_sr 0.00 -14.00 -14.00 2.155e-04 2.435e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 1.453e-05 1.639e-05 1.866e-06 +A_sr 0.00 -14.00 -14.00 2.176e-04 2.458e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -4043,9 +4043,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.092e-13 + Electrical balance (eq) = -1.082e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -4225,7 +4225,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.490e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.841e-14 + Electrical balance (eq) = 1.659e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550622e+01 @@ -4317,7 +4317,7 @@ X 5.000e-02 mol Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 8.477e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.021e-14 + Electrical balance (eq) = -8.077e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550622e+01 @@ -4345,7 +4345,7 @@ Na 9.996e-02 Na_tr 3.999e-07 Na_tr+ 3.999e-07 3.999e-07 -6.398 -6.398 -0.000 (0) O(0) 5.687e-10 - O2 2.844e-10 2.910e-10 -9.546 -9.536 0.010 30.40 + O2 2.843e-10 2.910e-10 -9.546 -9.536 0.010 30.40 Sr_tr 3.992e-07 Sr_tr+2 3.992e-07 3.992e-07 -6.399 -6.399 -0.000 (0) @@ -4382,8 +4382,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta A_cl 0.00 -14.00 -14.00 1.060e-05 1.180e-05 1.200e-06 A_hto 0.00 -15.00 -15.00 1.060e-05 1.180e-05 1.200e-06 -A_na 0.00 -14.00 -14.00 1.634e-05 1.820e-05 1.860e-06 -A_sr -0.00 -14.00 -14.00 2.435e-04 2.715e-04 2.798e-05 +A_na 0.00 -14.00 -14.00 1.639e-05 1.826e-05 1.866e-06 +A_sr 0.00 -14.00 -14.00 2.458e-04 2.741e-04 2.824e-05 -----------------------------Exchange composition------------------------------ @@ -4418,9 +4418,9 @@ X 5.000e-02 mol Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 8.464e-09 + Total alkalinity (eq/kg) = 8.463e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.096e-13 + Electrical balance (eq) = -1.086e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 5.550622e+01 @@ -4459,7 +4459,7 @@ Sr_tr 1.704e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl - A_sr -0.00 -14.00 -14.00 Sr_trCl2 + A_sr 0.00 -14.00 -14.00 Sr_trCl2 H2(g) -38.32 -41.42 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -3.79 -2.22 1.57 NaCl diff --git a/mytest/IL_flux_101.sel b/mytest/IL_flux_101.sel index 03749433..30b6bcb0 100644 --- a/mytest/IL_flux_101.sel +++ b/mytest/IL_flux_101.sel @@ -1,68 +1,68 @@ Mu SC - 0.100004121159 10609.1414389128 - 0.100000121159 10609.0349042555 - 0.100000121159 10609.0349042550 - 0.100000121159 10609.0349042549 - 0.100004120949 10609.1414502785 - 0.100000121159 10609.0349042549 - 0.100000121159 10609.0349042549 - 0.100000121159 10609.0349042558 - 0.100004120949 10609.1414502785 - 0.099997638463 10608.5571231954 - 0.099982958134 10607.2172221613 - 0.099963448620 10605.3965097792 - 0.100004120949 10609.1414502785 - 0.099992875247 10608.0838944305 - 0.099969807273 10605.9114042366 - 0.099945162319 10603.5822117494 - 0.100004120949 10609.1414502785 - 0.099991374123 10607.9349619514 - 0.099965704920 10605.5043853930 - 0.099939555575 10603.0259259818 - 0.100004120949 10609.1414502785 - 0.099990917195 10607.8896298944 - 0.099964456562 10605.3805307939 - 0.099937850264 10602.8567292058 - 0.100004120949 10609.1414502785 - 0.099990783002 10607.8763165285 - 0.099964079314 10605.3431025485 - 0.099937332934 10602.8054008522 - 0.100004120949 10609.1414502785 - 0.099990751256 10607.8731670106 - 0.099963985219 10605.3337669832 - 0.099937191659 10602.7913838687 - 0.100004120949 10609.1414502785 - 0.099990746175 10607.8726628765 - 0.099963969162 10605.3321739054 - 0.099937165530 10602.7887914078 - 0.100004120949 10609.1414502785 - 0.099990745162 10607.8725624671 - 0.099963967162 10605.3319754132 - 0.099937161318 10602.7883735631 - 0.100004120949 10609.1414502785 - 0.099990745162 10607.8725624671 - 0.099963967162 10605.3319754132 - 0.099937161206 10602.7883624391 - 0.100004120949 10609.1414502785 - 0.099990745162 10607.8725624671 - 0.099963967162 10605.3319754132 - 0.099937161205 10602.7883623157 - 0.000500103167 48.8135078111 - 0.000500103167 48.8135078111 - 0.000500103167 48.8135078111 - 0.100004121159 10609.1414389128 - 0.100000121159 10609.0349042555 - 0.100000121159 10609.0349042550 - 0.100000121159 10609.0349042549 - 0.100000121159 10609.0349042549 - 0.100000121159 10609.0349042558 - 0.099977405956 10606.7812529951 - 0.099955972005 10604.6546793762 - 0.099945764691 10603.6419450004 - 0.099941075508 10603.1766975753 - 0.099938931239 10602.9639486359 - 0.099937952209 10602.8668115887 - 0.099937506234 10602.8225629653 - 0.099937304085 10602.8025062854 - 0.099937213466 10602.7935151969 - 0.099937173860 10602.7895855841 + 0.100004121159 10609.1418356197 + 0.100000121159 10609.0353009564 + 0.100000121159 10609.0353009559 + 0.100000121159 10609.0353009558 + 0.100004120949 10609.1418469855 + 0.100000121159 10609.0353009558 + 0.100000121159 10609.0353009558 + 0.100000121159 10609.0353009568 + 0.100004120949 10609.1418469855 + 0.099997563626 10608.5500666945 + 0.099982719212 10607.1938685792 + 0.099963008107 10605.3532006457 + 0.100004120949 10609.1418469855 + 0.099992769145 10608.0737641808 + 0.099969485889 10605.8799143487 + 0.099944617315 10603.5285344905 + 0.100004120949 10609.1418469855 + 0.099991260196 10607.9240558073 + 0.099965362236 10605.4707828267 + 0.099938981668 10602.9693807148 + 0.100004120949 10609.1418469855 + 0.099990800924 10607.8784911888 + 0.099964107475 10605.3462929511 + 0.099937267615 10602.7993164224 + 0.100004120949 10609.1418469855 + 0.099990666290 10607.8651341144 + 0.099963728214 10605.3086649082 + 0.099936747617 10602.7477234064 + 0.100004120949 10609.1418469855 + 0.099990633743 10607.8619050892 + 0.099963632801 10605.2991986284 + 0.099936605389 10602.7336119074 + 0.100004120949 10609.1418469855 + 0.099990628677 10607.8614025584 + 0.099963617734 10605.2977037431 + 0.099936579097 10602.7310032279 + 0.100004120949 10609.1418469855 + 0.099990627668 10607.8613023626 + 0.099963614733 10605.2974060479 + 0.099936574448 10602.7305419601 + 0.100004120949 10609.1418469855 + 0.099990627668 10607.8613023626 + 0.099963614733 10605.2974060479 + 0.099936574195 10602.7305168335 + 0.100004120949 10609.1418469855 + 0.099990627668 10607.8613023626 + 0.099963614733 10605.2974060479 + 0.099936574192 10602.7305165548 + 0.000500103167 48.8135078855 + 0.000500103167 48.8135078855 + 0.000500103167 48.8135078855 + 0.100004121159 10609.1418356197 + 0.100000121159 10609.0353009564 + 0.100000121159 10609.0353009559 + 0.100000121159 10609.0353009558 + 0.100000121159 10609.0353009558 + 0.100000121159 10609.0353009568 + 0.099977049271 10606.7462610699 + 0.099955470748 10604.6053429938 + 0.099945215579 10603.5878601531 + 0.099940506131 10603.1206018295 + 0.099938352750 10602.9069486685 + 0.099937369597 10602.8094025839 + 0.099936921772 10602.7649704209 + 0.099936718813 10602.7448332629 + 0.099936627857 10602.7358088119 + 0.099936588132 10602.7318673778 diff --git a/mytest/Ilulissat_diff3_101.sel b/mytest/Ilulissat_diff3_101.sel index e0f0c465..a3d974f3 100644 --- a/mytest/Ilulissat_diff3_101.sel +++ b/mytest/Ilulissat_diff3_101.sel @@ -1,15 +1,15 @@ Mu SC 0.000000100661 0.0546997340 - 0.001000104163 122.9171236013 + 0.001000104163 122.9171240652 0.000000100645 0.0546913856 0.000000100645 0.0546913856 - 0.002000105537 243.6780972199 - 0.002000105537 243.6780972199 - 0.004000107402 481.6121897663 - 0.004000107402 481.6121897663 - 0.006000108760 716.1254107689 - 0.006000108760 716.1254107689 - 0.008000109863 948.0109754017 - 0.008000109863 948.0109754017 - 0.010000110805 1177.7201354291 - 0.010000110805 1177.7201354291 + 0.002000105537 243.6780985199 + 0.002000105537 243.6780985199 + 0.004000107402 481.6121933986 + 0.004000107402 481.6121933986 + 0.006000108760 716.1254173822 + 0.006000108760 716.1254173822 + 0.008000109863 948.0109855087 + 0.008000109863 948.0109855087 + 0.010000110805 1177.7201494643 + 0.010000110805 1177.7201494643 diff --git a/mytest/Int_vs_Don.out b/mytest/Int_vs_Don.out index eb5de447..b112f579 100644 --- a/mytest/Int_vs_Don.out +++ b/mytest/Int_vs_Don.out @@ -170,7 +170,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89854 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.284e-03 V. @@ -235,7 +235,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89854 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.284e-03 V. @@ -367,7 +367,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89858 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.187e-03 V. @@ -499,7 +499,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89864 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.104e-03 V. @@ -631,7 +631,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89873 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.032e-03 V. @@ -763,7 +763,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89886 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -9.683e-04 V. @@ -895,7 +895,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89905 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -9.122e-04 V. @@ -1027,7 +1027,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89931 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -8.622e-04 V. @@ -1159,7 +1159,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89967 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -8.174e-04 V. @@ -1291,7 +1291,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90015 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.770e-04 V. @@ -1423,7 +1423,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90084 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.405e-04 V. @@ -1555,7 +1555,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90180 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.072e-04 V. @@ -1679,7 +1679,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89854 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1742,7 +1742,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89854 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1872,7 +1872,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89858 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2002,7 +2002,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89864 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2132,7 +2132,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89873 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2262,7 +2262,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89887 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2392,7 +2392,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89905 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2522,7 +2522,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89931 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2652,7 +2652,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89966 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2782,7 +2782,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90015 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2912,7 +2912,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90082 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -3042,7 +3042,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.90178 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) diff --git a/mytest/Int_vs_Don_101.sel b/mytest/Int_vs_Don_101.sel index cdac3c21..fc408b77 100644 --- a/mytest/Int_vs_Don_101.sel +++ b/mytest/Int_vs_Don_101.sel @@ -1,26 +1,26 @@ Mu SC - 0.100001211589 10609.4476936477 - 0.100001211589 10609.4476936477 - 0.100001247872 10609.4481260485 - 0.107464036388 10674.6976474239 - 0.115024892601 10702.2371544286 - 0.122664662385 10701.1233788774 - 0.130368856473 10677.3922435165 - 0.138126318135 10634.9737708459 - 0.145928319218 10576.2344918514 - 0.153767936379 10502.2649295810 - 0.161639608113 10412.9601926525 - 0.169538816361 10306.8777099647 - 0.177461852754 10180.7610853868 - 0.100001211589 10609.4476936477 - 0.100001246636 10609.4480850555 - 0.107278478371 10669.8265641061 - 0.114742023215 10696.1804645780 - 0.122334358582 10695.4201780701 - 0.130020546078 10672.6911041901 - 0.137777787529 10631.5359703798 - 0.145590413573 10574.1507189371 - 0.153447219513 10501.5550477078 - 0.161339938113 10413.6237602919 - 0.169262311829 10308.9254377838 - 0.177209502555 10184.2445772864 + 0.100001211589 10609.4480903961 + 0.100001211589 10609.4480903961 + 0.100001247872 10609.4485227970 + 0.107464036388 10674.6980693485 + 0.115024892601 10702.2376065525 + 0.122664662385 10701.1238671967 + 0.130368856473 10677.3927754008 + 0.138126318135 10634.9743555847 + 0.145928319218 10576.2351414400 + 0.153767936379 10502.2656599023 + 0.161639608113 10412.9610253284 + 0.169538816361 10306.8786753959 + 0.177461852754 10180.7622280189 + 0.100001211589 10609.4480903961 + 0.100001246636 10609.4484818041 + 0.107278478371 10669.8269854503 + 0.114742023215 10696.1809156943 + 0.122334358582 10695.4206650375 + 0.130020546078 10672.6916344143 + 0.137777787529 10631.5365531500 + 0.145590413573 10574.1513662140 + 0.153447219513 10501.5557752984 + 0.161339938113 10413.6245896854 + 0.169262311829 10308.9263991578 + 0.177209502555 10184.2457147054 diff --git a/mytest/Jiang_pz_101.sel b/mytest/Jiang_pz_101.sel index b7235455..6cddfa73 100644 --- a/mytest/Jiang_pz_101.sel +++ b/mytest/Jiang_pz_101.sel @@ -1,882 +1,882 @@ Mu SC - 0.000830399284 215.2816880622 - 0.000098783870 24.8962815847 - 0.000101027444 28.6968556132 - 0.000102971661 32.5126846768 - 0.000104593055 36.2914095410 - 0.000105866467 39.9815145169 - 0.000106764428 43.5310514353 - 0.000107256468 46.8864719968 - 0.000107308303 49.9915239806 - 0.000106880868 52.7861407192 - 0.000104400169 57.1771355767 - 0.000099345979 59.4473711182 - 0.000091012877 58.7860746871 - 0.000078159193 53.9451954095 - 0.000057821171 42.2844388850 - 0.000045590374 34.0531515933 - 0.000529534540 199.0740491495 - 0.000552044329 297.6469261765 - 0.000525876690 353.6792516937 - 0.000460830655 356.2101915559 - 0.000369457801 311.1416177943 - 0.000263640358 233.3771464270 - 0.000149318146 135.8493576121 - 0.000479681934 186.2987096771 - 0.000660269093 340.2676972846 - 0.000645003972 416.5810690130 - 0.000578379654 430.3883018100 - 0.000479030986 388.4511760805 - 0.000364305667 309.8606252696 - 0.000247700811 215.1442720875 - 0.000134684803 118.2161031574 - 0.000489514316 190.6663473185 - 0.000514294380 210.9568084914 - 0.000538507205 231.7292779554 - 0.000562011276 252.8323283987 - 0.000584669842 274.1077982748 - 0.000606351942 295.3928939613 - 0.000626933306 316.5223781826 - 0.000646297081 337.3307786390 - 0.000664334385 357.6545549914 - 0.000680944629 377.3341530762 - 0.000696035567 396.2158752466 - 0.000709522993 414.1534850113 - 0.000721329932 431.0094425507 - 0.000731385062 446.6556166447 - 0.000739619780 460.9731951726 - 0.000745962624 473.8511932495 - 0.000750327481 485.1819821724 - 0.000752583565 494.8485164212 - 0.000752443586 502.6536254513 - 0.000748734247 508.0887603500 - 0.000741469206 511.0754987696 - 0.000732282291 512.2927798981 - 0.000721625926 511.9333366700 - 0.000709729123 510.1059281114 - 0.000696752548 506.8992308816 - 0.000682825453 502.3960243643 - 0.000668059384 496.6778030488 - 0.000652554475 489.8264020830 - 0.000636402698 481.9244539545 - 0.000619689698 473.0553325677 - 0.000602495879 463.3028696073 - 0.000584897064 452.7509910509 - 0.000566964917 441.4833754552 - 0.000548767211 429.5832477984 - 0.000530367997 417.1335264241 - 0.000511827722 404.2179204026 - 0.000493203301 390.9251190631 - 0.000474548168 377.3666846679 - 0.000455912314 363.8028535345 - 0.000437342310 400.8685612265 - 0.000418881332 333.8209751224 - 0.000400569174 319.8811275048 - 0.000382442267 305.6571889111 - 0.000364533687 291.4034411536 - 0.000346873163 277.2075468908 - 0.000329487072 263.1263205411 - 0.000312398436 249.2048470365 - 0.000295626882 235.4812211955 - 0.000279188602 221.9881114093 - 0.000263096260 208.7533659709 - 0.000499098372 194.9108292850 - 0.000524476926 215.5773888907 - 0.000549320579 236.7402865601 - 0.000573488230 258.2474340872 - 0.000596843892 279.9400794061 - 0.000619257794 301.6549778708 - 0.000640607385 323.2266644235 - 0.000660778214 344.4897672229 - 0.000679664692 365.2813035414 - 0.000697170713 385.4429010773 - 0.000713210136 404.8228919809 - 0.000727707125 423.2782324905 - 0.000740596344 440.6762077287 - 0.000751823002 456.8958885317 - 0.000761342751 471.8293148260 - 0.000769121442 485.3823877498 - 0.000775134727 497.4754603743 - 0.000779367518 508.0436248245 - 0.000781813312 517.0149465352 - 0.000782473419 524.4014992364 - 0.000781356180 530.1562109715 - 0.000778476415 534.2706115303 - 0.000773855629 536.7490477115 - 0.000767524081 537.6087808352 - 0.000759526293 536.8813676700 - 0.000749930492 534.6156006208 - 0.000738837538 530.8802870688 - 0.000726380086 525.7631439964 - 0.000712709280 519.3646403178 - 0.000697978397 511.7905527229 - 0.000682332428 503.1469145714 - 0.000665904336 493.5377210604 - 0.000648814978 483.0642358281 - 0.000631174331 471.8250082942 - 0.000613082897 459.9163042865 - 0.000594632934 447.4332027995 - 0.000575909432 434.4726313992 - 0.000556990870 421.1436771473 - 0.000537949793 407.6173373707 - 0.000518853258 394.6842096035 - 0.000499763199 376.1612115535 - 0.000480736705 363.5956826530 - 0.000461826270 349.4803348874 - 0.000443079996 335.1817554551 - 0.000424541784 320.8757115708 - 0.000406251481 306.6436522238 - 0.000388245101 292.5430282262 - 0.000370554886 278.6206935469 - 0.000353209520 264.9168837484 - 0.000336234191 251.4666799299 - 0.000508522925 199.0668620735 - 0.000534468329 220.0885696562 - 0.000559905303 241.6169951191 - 0.000584692164 263.4987887037 - 0.000608692475 285.5739006433 - 0.000631776164 307.6777916974 - 0.000653820545 329.6437503909 - 0.000674711230 351.3052562424 - 0.000694342928 372.4983288364 - 0.000712620113 393.0638052888 - 0.000729457575 412.8494932114 - 0.000744780830 431.7121523610 - 0.000758526417 449.5192654009 - 0.000770642056 466.1505662250 - 0.000781086703 481.4993027520 - 0.000789830487 495.4732196498 - 0.000796854548 507.9952548401 - 0.000802150782 519.0039516012 - 0.000805721515 528.4320943340 - 0.000807579101 536.2970489249 - 0.000807745486 542.5588101332 - 0.000806251730 547.2172437978 - 0.000803137526 550.2861544725 - 0.000798450721 551.7923905819 - 0.000792246875 551.7748377059 - 0.000784588853 550.2833332525 - 0.000775546456 547.3775313580 - 0.000765196073 543.1257386138 - 0.000753620276 537.6037299420 - 0.000740907283 530.8935409322 - 0.000727150216 523.0822470083 - 0.000712445992 514.2607019711 - 0.000696893998 504.5223259440 - 0.000680594540 493.9619963836 - 0.000663647291 482.6752194458 - 0.000646149877 470.7578931984 - 0.000628196736 458.3074514175 - 0.000609878275 445.4280589750 - 0.000591280292 432.2523379432 - 0.000572483679 419.0776915151 - 0.000553564239 411.3890975794 - 0.000534592681 388.6646755757 - 0.000515634666 375.3360410511 - 0.000496750926 361.4187127115 - 0.000477997408 347.4102678357 - 0.000459425442 333.4396827503 - 0.000441081930 319.5796744135 - 0.000423009536 305.8848771897 - 0.000405246888 292.4009193107 - 0.000387828790 279.1674877994 - 0.000517784925 203.1316734134 - 0.000544271377 224.4904260843 - 0.000570271788 246.3632597858 - 0.000595643365 268.5951905676 - 0.000620248624 291.0244567194 - 0.000643956497 313.4847616359 - 0.000666643356 335.8076279281 - 0.000688193925 357.8248003765 - 0.000708502091 379.3706360691 - 0.000727471581 400.2844229030 - 0.000745016522 420.4125723058 - 0.000761061868 439.6106382419 - 0.000775543699 457.7451219321 - 0.000788409407 474.6950298593 - 0.000799617754 490.3531611905 - 0.000809138816 504.6271093763 - 0.000816953832 517.4399710968 - 0.000823054950 528.7307636510 - 0.000827444883 538.4334667195 - 0.000830136499 546.5658776249 - 0.000831152328 553.0896108867 - 0.000830524023 558.0061393645 - 0.000828291773 561.3310662452 - 0.000824503670 563.0931606940 - 0.000819215053 563.3332602519 - 0.000812487829 562.1030720495 - 0.000804389773 559.4639026894 - 0.000794993839 555.4853585301 - 0.000784377420 550.2440175244 - 0.000772621645 543.8221382155 - 0.000759810660 536.3064039531 - 0.000746030891 527.7867414120 - 0.000731370326 518.3552433005 - 0.000715917789 508.1052403513 - 0.000699762217 497.1306005968 - 0.000682991987 485.5254320693 - 0.000665694234 473.3846279136 - 0.000647954247 460.8066428776 - 0.000629854918 447.9038899521 - 0.000611476259 434.8508059010 - 0.000592895001 422.3199572932 - 0.000574184275 401.4590689477 - 0.000555413373 391.9602213957 - 0.000536647590 378.6314171617 - 0.000517948128 365.0504830445 - 0.000499372069 351.4802715409 - 0.000480972401 338.0216964756 - 0.000462798088 324.7402781733 - 0.000444894190 311.6882120870 - 0.000427302005 298.9106612459 - 0.000526947994 207.1337925032 - 0.000553957368 228.8162806698 - 0.000580500194 251.0178881404 - 0.000606432269 273.5817287540 - 0.000631614724 296.3440423283 - 0.000655915131 319.1364688831 - 0.000679208510 341.7884388140 - 0.000701378252 364.1296149530 - 0.000722316923 385.9923233587 - 0.000741926947 407.2139126285 - 0.000760121169 427.6389863135 - 0.000776823283 447.1214593370 - 0.000791968142 465.5263968073 - 0.000805501937 482.7316019020 - 0.000817382263 498.6289282083 - 0.000827578062 513.1253007028 - 0.000836069468 526.1434381261 - 0.000842847549 537.5977075413 - 0.000847913958 547.4965296012 - 0.000851280507 555.7836362552 - 0.000852968667 562.4463628426 - 0.000853009005 567.4872397355 - 0.000851440576 570.9231709381 - 0.000848310263 572.7844432910 - 0.000843672089 573.1135971639 - 0.000837586518 571.9642008713 - 0.000830119707 569.3995378819 - 0.000821342780 565.4912704656 - 0.000811331093 560.3180857649 - 0.000800163497 553.9643628085 - 0.000787921625 546.5188860393 - 0.000774689183 538.0736321235 - 0.000760551274 528.7226587151 - 0.000745593748 518.5611313331 - 0.000729902579 507.6845453107 - 0.000713563286 496.1882549714 - 0.000696660388 484.1675759801 - 0.000679276909 471.7192060813 - 0.000661493927 458.9464883908 - 0.000643390177 445.9796780314 - 0.000625041702 433.0888975036 - 0.000606521564 422.8109669480 - 0.000587899603 402.8028228979 - 0.000569242252 390.5898209936 - 0.000550612411 377.4605540927 - 0.000532069361 364.2825663071 - 0.000513668737 351.2254771483 - 0.000495462545 338.3744596931 - 0.000477499221 325.7916489895 - 0.000459823719 313.5299427828 - 0.000535994959 211.0676050192 - 0.000563510888 233.0620898116 - 0.000590577478 255.5788818538 - 0.000617048931 278.4589956600 - 0.000642784804 301.5364663585 - 0.000667651100 324.6406557530 - 0.000691521275 347.5986793592 - 0.000714277158 370.2378887546 - 0.000735809754 392.3883446254 - 0.000756019931 413.8852189428 - 0.000774818984 434.5710695726 - 0.000792129070 454.2979370319 - 0.000807883519 472.9292207100 - 0.000822027016 490.3413002753 - 0.000834515673 506.4248768530 - 0.000845316970 521.0860175071 - 0.000854409609 534.2468953153 - 0.000861783246 545.8220894763 - 0.000867438156 555.8194128050 - 0.000871384793 564.1833144768 - 0.000873643295 570.9018846592 - 0.000874242921 575.9787178267 - 0.000873221432 579.4320740380 - 0.000870624432 581.2938651281 - 0.000866504692 581.6085065432 - 0.000860921414 580.4316490735 - 0.000853939513 577.8288502524 - 0.000845628880 573.8741977146 - 0.000836063647 568.6489235820 - 0.000825321463 562.2400376656 - 0.000813482775 554.7390057699 - 0.000800630147 546.2405019223 - 0.000786847593 536.8412561499 - 0.000772219942 526.6390328704 - 0.000756832245 515.7317798752 - 0.000740769217 504.2170247612 - 0.000724114722 492.1916830226 - 0.000706951301 479.7526972502 - 0.000689359749 466.9997731504 - 0.000671418743 454.0449293282 - 0.000653204506 441.0529634311 - 0.000634790540 428.5455706880 - 0.000616247389 391.4481494481 - 0.000597642462 398.7307645952 - 0.000579039887 386.1891509464 - 0.000560500485 373.3660451561 - 0.000542081637 360.6529352269 - 0.000523837371 348.1759987313 - 0.000503009599 335.2187850378 - 0.000481574204 322.2469828028 - 0.000544978287 214.9585534044 - 0.000572989327 237.2570780528 - 0.000600566483 260.0796601683 - 0.000627562239 283.2650501482 - 0.000653834450 306.6449075466 - 0.000679247423 330.0461399131 - 0.000703672923 353.2933679273 - 0.000726991087 376.2114496106 - 0.000749091229 398.6279975720 - 0.000769872533 420.3758263602 - 0.000789244619 441.2952719302 - 0.000807127983 461.2363317093 - 0.000823454312 480.0605814304 - 0.000838166674 497.6428334186 - 0.000851219590 513.8725100015 - 0.000862578986 528.6547148184 - 0.000872222047 541.9109937200 - 0.000880136956 553.5561430899 - 0.000886322557 563.5972219042 - 0.000890787929 571.9794595501 - 0.000893551884 578.6917378255 - 0.000894642410 583.7387846502 - 0.000894096054 587.1403166620 - 0.000891957280 588.9300082143 - 0.000888277761 589.1543039093 - 0.000883115682 587.8711317853 - 0.000876535005 585.1485340378 - 0.000868604746 581.0632555728 - 0.000859398236 575.6993208262 - 0.000848992402 569.1466285034 - 0.000837467065 561.4995917941 - 0.000824904252 552.8558498352 - 0.000811387538 543.3150754368 - 0.000797001428 532.9779057327 - 0.000781830761 521.9450295752 - 0.000765960163 510.3164849771 - 0.000749473542 498.1912716456 - 0.000732453622 485.6675238315 - 0.000714981525 472.8439129265 - 0.000697136404 459.8244611324 - 0.000678995115 446.7357135959 - 0.000660631937 433.8128621555 - 0.000642118389 422.4634264581 - 0.000623522983 402.7524148961 - 0.000599805126 391.0856571181 - 0.000575883060 377.5474145168 - 0.000552514209 363.9433499853 - 0.000529728403 350.4919877671 - 0.000507551278 337.2826472179 - 0.000486004521 324.3733088921 - 0.000553874293 218.7993276188 - 0.000582369174 241.3949248297 - 0.000610444131 264.5152212258 - 0.000637949852 287.9965769383 - 0.000664742413 311.6681452430 - 0.000690684352 335.3542449034 - 0.000715645669 358.8768643320 - 0.000739504740 382.0582288461 - 0.000762149129 404.7233635736 - 0.000783476277 426.7025877350 - 0.000803394076 447.8338809945 - 0.000821821317 467.9650690991 - 0.000838688008 486.9557837650 - 0.000853935573 504.6791603780 - 0.000867516927 521.0232461679 - 0.000879396439 535.8921007660 - 0.000889549783 549.2065801251 - 0.000897963695 560.8817003180 - 0.000904635631 570.9236528835 - 0.000909573349 579.2784921331 - 0.000912794416 585.9359137847 - 0.000914325644 590.9018224456 - 0.000914202501 594.1974604760 - 0.000912468435 595.8583418887 - 0.000909174206 595.9330460414 - 0.000904377169 594.4818909134 - 0.000898140560 591.5755274252 - 0.000890532756 587.2934878925 - 0.000881626556 581.7227211658 - 0.000871498457 574.9561449241 - 0.000860227955 567.0912432830 - 0.000847896861 558.2287356794 - 0.000834588647 548.4713414443 - 0.000820387823 537.9226645381 - 0.000805379354 526.6862262959 - 0.000789648105 514.8646858652 - 0.000773278341 502.5593178010 - 0.000756353259 489.8698956097 - 0.000738954576 476.8953526227 - 0.000721162143 463.7363003064 - 0.000703053668 450.5031638338 - 0.000680130957 436.8591371452 - 0.000654619171 423.3194316900 - 0.000629546559 419.8540246564 - 0.000604956899 391.7811935861 - 0.000580888997 378.8308007856 - 0.000557376915 365.3747291208 - 0.000534450221 351.9962744356 - 0.000512134241 338.8332829655 - 0.000490450311 325.9554225913 - 0.000562729524 222.6129852763 - 0.000591700646 245.5018713707 - 0.000620264601 268.9152850716 - 0.000648270216 292.6870840860 - 0.000675571733 316.6437983182 - 0.000702029865 340.6070363518 - 0.000727512798 364.3960294398 - 0.000751897104 387.8302428214 - 0.000775068555 410.7319855480 - 0.000796922818 432.9289532054 - 0.000817366032 454.2566429052 - 0.000836315267 474.5605864604 - 0.000853698844 493.6983554459 - 0.000869456542 511.5413005168 - 0.000883539683 527.9759965535 - 0.000895911098 542.9053745721 - 0.000906544987 556.2495305724 - 0.000915426680 567.9236845493 - 0.000922552303 577.9330475771 - 0.000927928364 586.2245171214 - 0.000931571263 592.7886014995 - 0.000933506748 597.6324031669 - 0.000933769296 600.7787183258 - 0.000932401477 602.2649544684 - 0.000929453269 602.1418868469 - 0.000924981351 600.4722958932 - 0.000919048384 597.3295207129 - 0.000911722284 592.7959638628 - 0.000903075494 586.9615810033 - 0.000893184269 579.9223868608 - 0.000882127970 571.7790082139 - 0.000869988386 562.6352981079 - 0.000856849078 552.5970723282 - 0.000842794757 541.7709299757 - 0.000827910693 530.2632439435 - 0.000812282170 518.1793149891 - 0.000795993970 505.6227498042 - 0.000779129906 492.6951518032 - 0.000761772440 479.4963571422 - 0.000738549260 465.8163765603 - 0.000712119520 451.8315247713 - 0.000686029458 437.8245057509 - 0.000660333467 423.9705283610 - 0.000635080479 411.0510312867 - 0.000610314174 388.6138188091 - 0.000586073211 379.6205770720 - 0.000562391461 366.4368496559 - 0.000539298258 353.1361240198 - 0.000516818647 340.0031263973 - 0.000494973640 327.1341646657 - 0.000571516835 226.3905458922 - 0.000600956032 249.5694966934 - 0.000629999734 273.2722477821 - 0.000658494873 297.3300729243 - 0.000686293820 321.5667923829 - 0.000713255435 345.8012137498 - 0.000739246064 369.8497160801 - 0.000764140455 393.5289057441 - 0.000787822573 416.6582738531 - 0.000810186305 439.0627883353 - 0.000831136037 460.5753587192 - 0.000850587122 481.0391182245 - 0.000868466210 500.3094755707 - 0.000884711459 518.2558976315 - 0.000899272626 534.7633933429 - 0.000912111044 549.7336787584 - 0.000923199486 563.0860125256 - 0.000932521932 574.7357800970 - 0.000940073246 584.6870993898 - 0.000945858756 592.8876953160 - 0.000949893787 599.3288626362 - 0.000952203097 604.0188794984 - 0.000952820283 606.9820960526 - 0.000951787140 608.2578199049 - 0.000949152975 607.8990399970 - 0.000944973908 605.9710250721 - 0.000939312153 602.5498338861 - 0.000932235287 597.7207734776 - 0.000923815529 591.5768402141 - 0.000914129018 584.2171778109 - 0.000903255115 575.7455704494 - 0.000891275711 566.2690334829 - 0.000878274582 555.8964672202 - 0.000864336755 544.7374554573 - 0.000849547919 532.9011954054 - 0.000833993874 520.4955958018 - 0.000817760005 507.6265741218 - 0.000799258035 494.3699535848 - 0.000772105869 480.6950547685 - 0.000745171712 466.8124667577 - 0.000718521602 452.7993024651 - 0.000692215690 438.7394240760 - 0.000666308410 424.7457053924 - 0.000640848681 411.0792246476 - 0.000615880122 400.2793101261 - 0.000591441275 379.4212468751 - 0.000567565854 367.1632716433 - 0.000544282986 353.9936158289 - 0.000521617469 340.8882593590 - 0.000499590023 328.0137192961 - 0.000580261568 230.1451934504 - 0.000610162747 253.6131112073 - 0.000639679181 277.6037733922 - 0.000668655876 301.9458021382 - 0.000696943304 326.4602349661 - 0.000724398447 350.9629999336 - 0.000750885796 375.2675399629 - 0.000776278260 399.1875134232 - 0.000800457992 422.5394995524 - 0.000823317093 445.1456405206 - 0.000844758204 466.8361568962 - 0.000864694973 487.4516798028 - 0.000883052394 506.8453508628 - 0.000899767028 524.8846497746 - 0.000914787102 541.4529187142 - 0.000928072488 556.4505623397 - 0.000939594577 569.7959116906 - 0.000949336055 581.4044591632 - 0.000957290577 591.2791088876 - 0.000963462360 599.3683745906 - 0.000967865721 605.6642836358 - 0.000970524507 610.1762539383 - 0.000971471517 612.9301618209 - 0.000970747854 613.9671998592 - 0.000968402246 613.3425662219 - 0.000964490345 611.1240227375 - 0.000959074010 607.3903599076 - 0.000952220575 602.2298063370 - 0.000944002130 595.7384184847 - 0.000934494793 588.0184844113 - 0.000923778011 579.1769724986 - 0.000911933872 569.3240529911 - 0.000899046447 558.5717175326 - 0.000885201157 547.0325189746 - 0.000870484182 534.8184523166 - 0.000854981892 522.0399964117 - 0.000834319889 508.8721744354 - 0.000806759534 495.4447227018 - 0.000779349652 481.7337813938 - 0.000752162604 467.8138884375 - 0.000725264641 453.7585732282 - 0.000698716060 439.6434261790 - 0.000672571381 425.5558788863 - 0.000646879549 411.6336466732 - 0.000621684155 398.3417423282 - 0.000597023662 312.8737717417 - 0.000572931653 367.4315795784 - 0.000549437081 354.6212432134 - 0.000526564523 341.5681498659 - 0.000504334439 328.6834472619 - 0.000588987656 233.8888854309 - 0.000619346557 257.6465803676 - 0.000649330663 281.9258331671 - 0.000678783027 306.5525589726 - 0.000707552199 331.3449511300 - 0.000735493264 356.1159903598 - 0.000762468838 380.6761090484 - 0.000788349984 404.8359364733 - 0.000813017035 428.4090523399 - 0.000836360310 451.2146792071 - 0.000858280707 473.0802493008 - 0.000878690180 493.8437877027 - 0.000897512087 513.3560616897 - 0.000914681416 531.4824547636 - 0.000930144890 548.1045332938 - 0.000943860956 563.1212833746 - 0.000955799665 576.4250751078 - 0.000965942452 588.0062211407 - 0.000974281812 597.7914906091 - 0.000980820918 605.7550568936 - 0.000985573124 611.8896082490 - 0.000988561438 616.2056451482 - 0.000989817927 618.7305246591 - 0.000989383069 619.5072914839 - 0.000987305085 618.5933323991 - 0.000983639233 616.0588930494 - 0.000978447089 611.9854963918 - 0.000971795820 606.4643014454 - 0.000963757456 599.5944394749 - 0.000954408164 591.4813625818 - 0.000943827549 582.2352366104 - 0.000932097956 571.9694075286 - 0.000919303809 560.7989668175 - 0.000905530980 548.8394384633 - 0.000890866177 536.2056062221 - 0.000870488162 523.2170491175 - 0.000842560313 510.0921886292 - 0.000814708987 496.6093721805 - 0.000787013199 482.8442491200 - 0.000759545652 468.8699857460 - 0.000732372866 454.7577756562 - 0.000705555334 440.5784633520 - 0.000679147705 426.4073092396 - 0.000653198991 412.3389764319 - 0.000627752787 398.5601305164 - 0.000602847508 386.1397942938 - 0.000578516639 365.7852969419 - 0.000554788984 354.9938280595 - 0.000531688927 342.0938054803 - 0.000509236696 329.2107049005 - 0.000597665235 237.6098219074 - 0.000628476507 261.6580495363 - 0.000658922178 286.2266983363 - 0.000688843332 311.1389493907 - 0.000718086587 336.2101190057 - 0.000746505123 361.2502011248 - 0.000773959678 386.0665708207 - 0.000800319469 410.4667735124 - 0.000825463015 434.2613261608 - 0.000849278860 457.2664598674 - 0.000871666177 479.3067381671 - 0.000892535246 500.2174917347 - 0.000911807812 519.8470179746 - 0.000929417319 538.0585027127 - 0.000945309022 554.7316306197 - 0.000959439980 569.7638607324 - 0.000971778946 583.0469307043 - 0.000982306149 594.5695678104 - 0.000991012981 604.2585871463 - 0.000997901611 612.0882973818 - 0.001002984497 618.0519597514 - 0.001006283861 622.1610756135 - 0.001007831095 624.4444126584 - 0.001007666118 624.9468093427 - 0.001005836700 623.7277944313 - 0.001002397767 620.8600633740 - 0.000997410673 616.4278487399 - 0.000990942474 610.5252281954 - 0.000983065195 603.2544030904 - 0.000973855112 594.7239948611 - 0.000963392032 585.0473750719 - 0.000951758604 574.3410765873 - 0.000939039650 562.7233018427 - 0.000925321517 550.3125534211 - 0.000907743068 537.4172101092 - 0.000879496985 524.6508624655 - 0.000851246501 511.4511150997 - 0.000823077617 497.8957096642 - 0.000795069840 484.0596030103 - 0.000767296277 470.0149613922 - 0.000739823769 455.8313891901 - 0.000712713052 441.5768149049 - 0.000686018948 427.3200094536 - 0.000659790571 413.1371776649 - 0.000634071557 399.1373780804 - 0.000608900304 385.6105116597 - 0.000584310224 376.8834841917 - 0.000560330000 354.7581135465 - 0.000536983850 342.4703789697 - 0.000514291792 329.6392158507 - 0.000606334293 241.3254223079 - 0.000637595067 265.6670390534 - 0.000668498781 290.5281381734 - 0.000698884534 315.7291455240 - 0.000728596994 341.0824727031 - 0.000757487424 366.3950917021 - 0.000785414678 391.4712766065 - 0.000812246119 416.1154359352 - 0.000837858454 440.1349608402 - 0.000862138457 463.3430175238 - 0.000884983582 485.5612170197 - 0.000906302450 506.6221018367 - 0.000926015210 526.3713966481 - 0.000944053784 544.6699789257 - 0.000960361984 561.3955348237 - 0.000974895513 576.4438753983 - 0.000987621859 589.7059959733 - 0.000998520080 601.1688920007 - 0.001007580511 610.7593183011 - 0.001014804351 618.4516041642 - 0.001020203212 624.2394799077 - 0.001023798577 628.1353538496 - 0.001025621209 630.1693228292 - 0.001025710516 630.3879513186 - 0.001024113869 628.8528579420 - 0.001020885908 625.6391500922 - 0.001016087813 620.8337480537 - 0.001009786576 614.5336396739 - 0.001002054266 606.8441053431 - 0.000992967303 597.8769506439 - 0.000982605740 587.7487814753 - 0.000971052564 576.5793527370 - 0.000958393027 564.4900180541 - 0.000944713989 551.6023032602 - 0.000917615584 539.1349209158 - 0.000889014517 526.2741282995 - 0.000860413921 512.9828093677 - 0.000831900459 499.3383292814 - 0.000803554199 485.4151248074 - 0.000775448711 471.2846226386 - 0.000747651214 457.0153057226 - 0.000720222733 442.6732001515 - 0.000693218305 428.3232922488 - 0.000666687184 414.0326510533 - 0.000640673079 399.8809644170 - 0.000615214401 386.0043852981 - 0.000590344516 372.9379380769 - 0.000566092009 344.7712029555 - 0.000542480953 342.5810261507 - 0.000519531178 329.9888932844 - 0.000614963937 245.0219471678 - 0.000646670074 269.6593495345 - 0.000678027062 294.8156268404 - 0.000708872006 320.3084563274 - 0.000739047617 345.9473456506 - 0.000768403242 371.5362382572 - 0.000796795849 396.8762917523 - 0.000824090954 421.7687519028 - 0.000850163458 446.0178465917 - 0.000874898378 469.4336271142 - 0.000898191466 491.8346889051 - 0.000919949701 513.0507100396 - 0.000940091661 532.9247534482 - 0.000958547773 551.3152874374 - 0.000975260434 568.0978884873 - 0.000990184025 583.1666000912 - 0.001003284803 596.4115581548 - 0.001014540698 607.8178820918 - 0.001023941017 617.3121416308 - 0.001031486042 624.8685614175 - 0.001037186575 630.4812181699 - 0.001041063405 634.1633133494 - 0.001043146710 635.9461698598 - 0.001043475429 635.8779881312 - 0.001042096579 634.0224009338 - 0.001039064553 630.4568683902 - 0.001034440401 625.2709563748 - 0.001028291086 618.5645351467 - 0.001020688758 610.4459554109 - 0.001011710014 601.0302136686 - 0.001001435183 590.4371699221 - 0.000989947619 578.7898339387 - 0.000977333015 566.2127531947 - 0.000956874657 553.5358574461 - 0.000927981456 541.0726103284 - 0.000898999780 528.1018565039 - 0.000870023800 514.7035176660 - 0.000841140917 500.9547012093 - 0.000812431824 486.9294676639 - 0.000783970616 472.6987022881 - 0.000755824936 458.3300859140 - 0.000728056151 443.8883572425 - 0.000700719547 429.4361548280 - 0.000673864558 415.0355640279 - 0.000647534997 400.7530388779 - 0.000621769313 386.6757927699 - 0.000596600853 372.9924894722 - 0.000572058125 360.9920840929 - 0.000548165079 341.3969750453 - 0.000524941374 330.2153379448 - 0.000632189641 252.3882036671 - 0.000664779554 277.6287615645 - 0.000697034489 303.3883792927 - 0.000728787530 329.4792992153 - 0.000759877455 355.7052658003 - 0.000790149754 381.8641866538 - 0.000819457619 407.7509782246 - 0.000847662872 433.1605173963 - 0.000874636816 457.8906218733 - 0.000900260977 481.7449851982 - 0.000924427732 504.5359966958 - 0.000947040822 526.0873826276 - 0.000968015734 546.2366121811 - 0.000987279965 564.8370203544 - 0.001004773158 581.7596090311 - 0.001020447121 596.8678598628 - 0.001034265738 610.1297103285 - 0.001046204776 621.4461420667 - 0.001056251579 630.7695680839 - 0.001064404694 638.0735676517 - 0.001070673411 643.3524879720 - 0.001075077229 646.6207193067 - 0.001077645266 647.9116739286 - 0.001078415626 647.2765050196 - 0.001077434719 644.7826055906 - 0.001074756549 640.5119302044 - 0.001070441992 634.5591837601 - 0.001064558055 627.0299218833 - 0.001057177125 618.0386064772 - 0.001048376237 607.7066583035 - 0.001038236337 596.1605454180 - 0.001026841561 583.5299421670 - 0.001009554291 570.5683503133 - 0.000979995565 558.4181422373 - 0.000950254716 545.6840640794 - 0.000920434943 532.4486746619 - 0.000890632376 518.7918697361 - 0.000860936111 504.7905535008 - 0.000831428298 490.5183848752 - 0.000802184257 476.0456025888 - 0.000773272644 461.4389049408 - 0.000744755639 446.7615024900 - 0.000716689157 432.0734576202 - 0.000689123088 417.4320596672 - 0.000662101547 402.8932048244 - 0.000635663141 388.5147961297 - 0.000609841241 374.3672757726 - 0.000584664267 360.5782932222 - 0.000560155968 347.6954474815 - 0.000536335710 323.3757006987 - 0.000649389001 259.7059775699 - 0.000682833576 285.5606056154 - 0.000715976496 311.9422546366 - 0.000748625648 338.6525047637 - 0.000780615856 365.4895119970 - 0.000811788741 392.2452931177 - 0.000841993719 418.7086278075 - 0.000871088928 444.6680770892 - 0.000898942095 469.9150402779 - 0.000925431287 494.2467753525 - 0.000950445554 517.4693118008 - 0.000973885455 539.4001906055 - 0.000995663455 559.8709730044 - 0.001015704199 578.7294677485 - 0.001033944661 595.8416355209 - 0.001050334175 611.0672673614 - 0.001064834354 624.3693315866 - 0.001077418904 635.6462091655 - 0.001088073327 644.8481161429 - 0.001096794549 651.9473202128 - 0.001103590462 656.9377805464 - 0.001108479395 659.8344420334 - 0.001111489524 660.6722132497 - 0.001112658234 659.5046637959 - 0.001112031433 656.4024812642 - 0.001109662848 651.4517314782 - 0.001105613282 644.7519677796 - 0.001099949872 636.4142359055 - 0.001092745335 626.5590207120 - 0.001084077212 615.3141794024 - 0.001074027135 602.8129032803 - 0.001062680088 589.1917461330 - 0.001035705885 576.8853391926 - 0.001005194017 564.4022711013 - 0.000974507892 551.3411212054 - 0.000943753319 537.7849726143 - 0.000913028727 523.8140686658 - 0.000882425216 509.5054850328 - 0.000852026659 494.9328708715 - 0.000821909842 480.1662582437 - 0.000792144645 465.2719111543 - 0.000762794240 450.3123018806 - 0.000733915330 435.3462723049 - 0.000705558400 420.4290767097 - 0.000677767983 405.6128857718 - 0.000650582940 390.9477750733 - 0.000624036755 376.4840992698 - 0.000598157825 362.2792332021 - 0.000572969761 348.4226036615 - 0.000548491326 335.1869512305 + 0.000830399284 215.2816890759 + 0.000098783870 24.8963854134 + 0.000101027444 28.6969564344 + 0.000102971661 32.5127746730 + 0.000104593055 36.2914797269 + 0.000105866467 39.9815549534 + 0.000106764428 43.5310515087 + 0.000107256468 46.8864207744 + 0.000107308303 49.9914106524 + 0.000106880868 52.7859551382 + 0.000104400169 57.1767810671 + 0.000099345979 59.4468336965 + 0.000091012877 58.7853782525 + 0.000078159193 53.9444264405 + 0.000057821171 42.2837894828 + 0.000045590374 34.0526473393 + 0.000529534540 199.0735659090 + 0.000552044329 297.6405826862 + 0.000525876690 353.6628673340 + 0.000460830655 356.1836182735 + 0.000369457801 311.1098976964 + 0.000263640358 233.3485516098 + 0.000149318146 135.8323488890 + 0.000479681934 186.2982794906 + 0.000660269093 340.2597694931 + 0.000645003972 416.5597057009 + 0.000578379654 430.3523514955 + 0.000479030986 388.4061128770 + 0.000364305667 309.8160318998 + 0.000247700811 215.1096258413 + 0.000134684803 118.1976121096 + 0.000489514316 190.6659030755 + 0.000514294380 210.9558429245 + 0.000538507205 231.7276426162 + 0.000562011276 252.8298573814 + 0.000584669842 274.1043094848 + 0.000606351942 295.3881909558 + 0.000626933306 316.5162525756 + 0.000646297081 337.3230130378 + 0.000664334385 357.6449264184 + 0.000680944629 377.3224368125 + 0.000696035567 396.2018490229 + 0.000709522993 414.1369334681 + 0.000721329932 430.9901618930 + 0.000731385062 446.6334194356 + 0.000739619780 460.9479152562 + 0.000745962624 473.8226909008 + 0.000750327481 485.1501498440 + 0.000752583565 494.8132863438 + 0.000752443586 502.6149877146 + 0.000748734247 508.0468194662 + 0.000741469206 511.0304292260 + 0.000732282291 512.2447048241 + 0.000721625926 511.8823886835 + 0.000709729123 510.0522591613 + 0.000696752548 506.8430135308 + 0.000682825453 502.3374509714 + 0.000668059384 496.6170840784 + 0.000652554475 489.7637639483 + 0.000636402698 481.8601365764 + 0.000619689698 472.9895867580 + 0.000602495879 463.2359543466 + 0.000584897064 452.6831707104 + 0.000566964917 441.4149169893 + 0.000548767211 429.5144178997 + 0.000530367997 417.0645885524 + 0.000511827722 404.1491313742 + 0.000493203301 390.8567240785 + 0.000474548168 377.2989056575 + 0.000455912314 363.7358302164 + 0.000437342310 400.7827207872 + 0.000418881332 333.7569991141 + 0.000400569174 319.8185289836 + 0.000382442267 305.5962484938 + 0.000364533687 291.3443470614 + 0.000346873163 277.1504555639 + 0.000329487072 263.0713664605 + 0.000312398436 249.1521455592 + 0.000295626882 235.4308698025 + 0.000279188602 221.9401905498 + 0.000263096260 208.7079398543 + 0.000499098372 194.9103712567 + 0.000524476926 215.5763936135 + 0.000549320579 236.7386011493 + 0.000573488230 258.2448875357 + 0.000596843892 279.9364838126 + 0.000619257794 301.6501302436 + 0.000640607385 323.2203490444 + 0.000660778214 344.4817585386 + 0.000679664692 365.2713695284 + 0.000697170713 385.4308070085 + 0.000713210136 404.8084045071 + 0.000727707125 423.2611239390 + 0.000740596344 440.6562605117 + 0.000751823002 456.8728995568 + 0.000761342751 471.8030997988 + 0.000769121442 485.3527852669 + 0.000775134727 497.4423357132 + 0.000779367518 508.0068733511 + 0.000781813312 516.9744996747 + 0.000782473419 524.3573175169 + 0.000781356180 530.1082955585 + 0.000778476415 534.2190023860 + 0.000773855629 536.6938243409 + 0.000767524081 537.5500622317 + 0.000759526293 536.8193110969 + 0.000749930492 534.5503986946 + 0.000738837538 530.8121629095 + 0.000726380086 525.6923451933 + 0.000712709280 519.2914331399 + 0.000697978397 511.7152174090 + 0.000682332428 503.0697415760 + 0.000665904336 493.4590078084 + 0.000648814978 482.9842836546 + 0.000631174331 471.7441193974 + 0.000613082897 459.8347785632 + 0.000594632934 447.3513343035 + 0.000575909432 434.3907036349 + 0.000556990870 421.0619541936 + 0.000537949793 407.5360344527 + 0.000518853258 394.6032316321 + 0.000499763199 376.0830478371 + 0.000480736705 363.5180403881 + 0.000461826270 349.4040453559 + 0.000443079996 335.1070902789 + 0.000424541784 320.8028736121 + 0.000406251481 306.5728125133 + 0.000388245101 292.4743339595 + 0.000370554886 278.5542707524 + 0.000353209520 264.8528385361 + 0.000336234191 251.4050993523 + 0.000508522925 199.0663904225 + 0.000534468329 220.0875451023 + 0.000559905303 241.6152605207 + 0.000584692164 263.4961682033 + 0.000608692475 285.5702008793 + 0.000631776164 307.6728035964 + 0.000653820545 329.6372515277 + 0.000674711230 351.2970137317 + 0.000694342928 372.4881027013 + 0.000712620113 393.0513522326 + 0.000729457575 412.8345707024 + 0.000744780830 431.6945229283 + 0.000758526417 449.4987010308 + 0.000770642056 466.1268527435 + 0.000781086703 481.4722440775 + 0.000789830487 495.4426418066 + 0.000796854548 507.9610096284 + 0.000802150782 518.9659198339 + 0.000805721515 528.3901915765 + 0.000807579101 536.2512181766 + 0.000807745486 542.5090330245 + 0.000806251730 547.1635382324 + 0.000803137526 550.2285748567 + 0.000798450721 551.7310274009 + 0.000792246875 551.7098164653 + 0.000784588853 550.2148128135 + 0.000775546456 547.3057017063 + 0.000765196073 543.0508181129 + 0.000753620276 537.5259621329 + 0.000740907283 530.8131909575 + 0.000727150216 522.9995977513 + 0.000712445992 514.1760500198 + 0.000696893998 504.4359774776 + 0.000680594540 493.8742630586 + 0.000663647291 482.5864142918 + 0.000646149877 470.6683263919 + 0.000628196736 458.2174254359 + 0.000609878275 445.3378614357 + 0.000591280292 432.1622248674 + 0.000572483679 418.9878101872 + 0.000553564239 411.2971695792 + 0.000534592681 388.5775774182 + 0.000515634666 375.2497899511 + 0.000496750926 361.3337744655 + 0.000477997408 347.3268946061 + 0.000459425442 333.3580736144 + 0.000441081930 319.4999979966 + 0.000423009536 305.8072776622 + 0.000405246888 292.3255186264 + 0.000387828790 279.0943868276 + 0.000517784925 203.1311883173 + 0.000544271377 224.4893727009 + 0.000570271788 246.3614768707 + 0.000595643365 268.5924976234 + 0.000620248624 291.0206552038 + 0.000643956497 313.4796367607 + 0.000666643356 335.8009510347 + 0.000688193925 357.8163318518 + 0.000708502091 379.3601287465 + 0.000727471581 400.2716258730 + 0.000745016522 420.3972350448 + 0.000761061868 439.5925149550 + 0.000775543699 457.7239759979 + 0.000788409407 474.6706382590 + 0.000799617754 490.3253188036 + 0.000809138816 504.5956330315 + 0.000816953832 517.4047032719 + 0.000823054950 528.6915757303 + 0.000827444883 538.3902647216 + 0.000830136499 546.5185949184 + 0.000831152328 553.0382193711 + 0.000830524023 557.9506470944 + 0.000828291773 561.2715176448 + 0.000824503670 563.0296361245 + 0.000819215053 563.2658749603 + 0.000812487829 562.0319745407 + 0.000804389773 559.3892725755 + 0.000794993839 555.4074039192 + 0.000784377420 550.1629720237 + 0.000772621645 543.7382576184 + 0.000759810660 536.2199626875 + 0.000746030891 527.6980288205 + 0.000731370326 518.2645598148 + 0.000715917789 508.0128936045 + 0.000699762217 497.0369014782 + 0.000682991987 485.4306906444 + 0.000665694234 473.2891489157 + 0.000647954247 460.7107198261 + 0.000629854918 447.8077944253 + 0.000611476259 434.7547544582 + 0.000592895001 422.2238748616 + 0.000574184275 401.3670174827 + 0.000555413373 391.8671244566 + 0.000536647590 378.5392654127 + 0.000517948128 364.9596160845 + 0.000499372069 351.3909123483 + 0.000480972401 337.9340242506 + 0.000462798088 324.6544426162 + 0.000444894190 311.6043376954 + 0.000427302005 298.8288489655 + 0.000526947994 207.1332940517 + 0.000553957368 228.8151987018 + 0.000580500194 251.0160574152 + 0.000606432269 273.5789642811 + 0.000631614724 296.3401405836 + 0.000655915131 319.1312096255 + 0.000679208510 341.7815874896 + 0.000701378252 364.1209256508 + 0.000722316923 385.9815422605 + 0.000741926947 407.2007818774 + 0.000760121169 427.6232482072 + 0.000776823283 447.1028607407 + 0.000791968142 465.5046936715 + 0.000805501937 482.7065637644 + 0.000817382263 498.6003425625 + 0.000827578062 513.0929771167 + 0.000836069468 526.1072120048 + 0.000842847549 537.5574466734 + 0.000847913958 547.4521269542 + 0.000851280507 555.7350222225 + 0.000852968667 562.3935034514 + 0.000853009005 567.4301375342 + 0.000851440576 570.8618652169 + 0.000848310263 572.7190096476 + 0.000843672089 573.0441464429 + 0.000837586518 571.8908775217 + 0.000830119707 569.3225177900 + 0.000821342780 565.4107583270 + 0.000811331093 560.2343120701 + 0.000800163497 553.8775805165 + 0.000787921625 546.4293670165 + 0.000774689183 537.9816634186 + 0.000760551274 528.6285387358 + 0.000745593748 518.4651659711 + 0.000729902579 507.5870440346 + 0.000713563286 496.0895268486 + 0.000696660388 484.0679254514 + 0.000679276909 471.6189279433 + 0.000661493927 458.8458602003 + 0.000643390177 445.8789427057 + 0.000625041702 432.9881910250 + 0.000606521564 422.7092078824 + 0.000587899603 402.7049612840 + 0.000569242252 390.4922878999 + 0.000550612411 377.3640276738 + 0.000532069361 364.1873109793 + 0.000513668737 351.1316794170 + 0.000495462545 338.2822668559 + 0.000477499221 325.7011783521 + 0.000459823719 313.4412844936 + 0.000535994959 211.0670933276 + 0.000563510888 233.0609795477 + 0.000590577478 255.5770038773 + 0.000617048931 278.4561606191 + 0.000642784804 301.5324659204 + 0.000667651100 324.6352644478 + 0.000691521275 347.5916570225 + 0.000714277158 370.2289835329 + 0.000735809754 392.3772964871 + 0.000756019931 413.8717636164 + 0.000774818984 434.5549428175 + 0.000792129070 454.2788791344 + 0.000807883519 472.9069810866 + 0.000822027016 490.3156420622 + 0.000834515673 506.3955813585 + 0.000845316970 521.0528884107 + 0.000854409609 534.2097625031 + 0.000861783246 545.7808156247 + 0.000867438156 555.7738862780 + 0.000871384793 564.1334615869 + 0.000873643295 570.8476679034 + 0.000874242921 575.9201367863 + 0.000873221432 579.3691655960 + 0.000870624432 581.2267030187 + 0.000866504692 581.5372002604 + 0.000860921414 580.3563421874 + 0.000853939513 577.7497181885 + 0.000845628880 573.7914450644 + 0.000836063647 568.5627810193 + 0.000825321463 562.1507585468 + 0.000813482775 554.6468624963 + 0.000800630147 546.1457821393 + 0.000786847593 536.7442588516 + 0.000772219942 526.5400644636 + 0.000756832245 515.6311502348 + 0.000740769217 504.1150432669 + 0.000724114722 492.0886544762 + 0.000706951301 479.6489173546 + 0.000689359749 466.8955225792 + 0.000671418743 453.9404630199 + 0.000653204506 440.9484795233 + 0.000634790540 428.4410256041 + 0.000616247389 391.3560398141 + 0.000597642462 398.6291996646 + 0.000579039887 386.0882449146 + 0.000560500485 373.2661946882 + 0.000542081637 360.5543451456 + 0.000523837371 348.0788134735 + 0.000503009599 335.1236024925 + 0.000481574204 322.1540934134 + 0.000544978287 214.9580285095 + 0.000572989327 237.2559396036 + 0.000600566483 260.0777351851 + 0.000627562239 283.2621450030 + 0.000653834450 306.6408092150 + 0.000679247423 330.0406178517 + 0.000703672923 353.2861765626 + 0.000726991087 376.2023314031 + 0.000749091229 398.6166865963 + 0.000769872533 420.3620523225 + 0.000789244619 441.2787645264 + 0.000807127983 461.2168252131 + 0.000823454312 480.0378193919 + 0.000838166674 497.6165733491 + 0.000851219590 513.8425279182 + 0.000862578986 528.6208095303 + 0.000872222047 541.8729907410 + 0.000880136956 553.5139012525 + 0.000886322557 563.5506263905 + 0.000890787929 571.9284341357 + 0.000893551884 578.6362431491 + 0.000894642410 583.6788191185 + 0.000894096054 587.0759166552 + 0.000891957280 588.8612476045 + 0.000888277761 589.0812929252 + 0.000883115682 587.7940152663 + 0.000876535005 585.0674891400 + 0.000868604746 580.9784889941 + 0.000859398236 575.6110656291 + 0.000848992402 569.0551406144 + 0.000837467065 561.4051462630 + 0.000824904252 552.7587369307 + 0.000811387538 543.2155966513 + 0.000797001428 532.8763697566 + 0.000781830761 521.8417482829 + 0.000765960163 510.2117694341 + 0.000749473542 498.0854280870 + 0.000732453622 485.5608494223 + 0.000714981525 472.7366907557 + 0.000697136404 459.7169527380 + 0.000678995115 446.6281426044 + 0.000660631937 433.7053529136 + 0.000642118389 422.3553836564 + 0.000623522983 402.6484688792 + 0.000599805126 390.9820664618 + 0.000575883060 377.4454329067 + 0.000552514209 363.8432596552 + 0.000529728403 350.3939576309 + 0.000507551278 337.1867990088 + 0.000486004521 324.2797322358 + 0.000553874293 218.7987895884 + 0.000582369174 241.3937583641 + 0.000610444131 264.5132495631 + 0.000637949852 287.9936022526 + 0.000664742413 311.6639499226 + 0.000690684352 335.3485934676 + 0.000715645669 358.8695059724 + 0.000739504740 382.0489005553 + 0.000762149129 404.7117938023 + 0.000783476277 426.6885004952 + 0.000803394076 447.8170003119 + 0.000821821317 467.9451237009 + 0.000838688008 486.9325118806 + 0.000853935573 504.6523145250 + 0.000867516927 520.9925977953 + 0.000879396439 535.8574446303 + 0.000889549783 549.1677382854 + 0.000897963695 560.8385287722 + 0.000904635631 570.8760347586 + 0.000909573349 579.2263498856 + 0.000912794416 585.8792075091 + 0.000914325644 590.8405507782 + 0.000914202501 594.1316607797 + 0.000912468435 595.7880897341 + 0.000909174206 595.8584540133 + 0.000904377169 594.4031067927 + 0.000898140560 591.4927318067 + 0.000890532756 587.2068913112 + 0.000881626556 581.6325608105 + 0.000871498457 574.8626810225 + 0.000860227955 566.9947552426 + 0.000847896861 558.1295180659 + 0.000834588647 548.3696998733 + 0.000820387823 537.8189115464 + 0.000805379354 526.5806772417 + 0.000789648105 514.7576548828 + 0.000773278341 502.4511137903 + 0.000756353259 489.7608181526 + 0.000738954576 476.7856875060 + 0.000721162143 463.6263137356 + 0.000703053668 450.3930923608 + 0.000680130957 436.7496527374 + 0.000654619171 423.2108471614 + 0.000629546559 419.7411419927 + 0.000604956899 391.6774941452 + 0.000580888997 378.7284042279 + 0.000557376915 365.2741537751 + 0.000534450221 351.8977292496 + 0.000512134241 338.7369032458 + 0.000490450311 325.8613049692 + 0.000562729524 222.6124341055 + 0.000591700646 245.5006768950 + 0.000620264601 268.9132667720 + 0.000648270216 292.6840399786 + 0.000675571733 316.6395062628 + 0.000702029865 340.6012560122 + 0.000727512798 364.3885048831 + 0.000751897104 387.8207057170 + 0.000775068555 410.7201589069 + 0.000796922818 432.9145555765 + 0.000817366032 454.2393929280 + 0.000836315267 474.5402076584 + 0.000853698844 493.6745811360 + 0.000869456542 511.5138787024 + 0.000883539683 527.9446946707 + 0.000895911098 542.8699839616 + 0.000906544987 556.2098705585 + 0.000915426680 567.8796090943 + 0.000922552303 577.8844386523 + 0.000927928364 586.1712968442 + 0.000931571263 592.7307304840 + 0.000933506748 597.5698814227 + 0.000933769296 600.7115854189 + 0.000932401477 602.1932889553 + 0.000929453269 602.0658050174 + 0.000924981351 600.3919498701 + 0.000919048384 597.2450959726 + 0.000911722284 592.7076762525 + 0.000903075494 586.8696733357 + 0.000893184269 579.8271251748 + 0.000882127970 571.6806777877 + 0.000869988386 562.5341993129 + 0.000856849078 552.4935163980 + 0.000842794757 541.6652347680 + 0.000827910693 530.1557297463 + 0.000812282170 518.0703004086 + 0.000795993970 505.5125477380 + 0.000779129906 492.5840654401 + 0.000761772440 479.3846757938 + 0.000738549260 465.7048573960 + 0.000712119520 451.7207218075 + 0.000686029458 437.7146375423 + 0.000660333467 423.8617324092 + 0.000635080479 410.9430307953 + 0.000610314174 388.5120139502 + 0.000586073211 379.5179357442 + 0.000562391461 366.3358859777 + 0.000539298258 353.0371532100 + 0.000516818647 339.9063093523 + 0.000494973640 327.0396086684 + 0.000571516835 226.3899816123 + 0.000600956032 249.5682742840 + 0.000629999734 273.2701829936 + 0.000658494873 297.3269596527 + 0.000686293820 321.5624040123 + 0.000713255435 345.7953051603 + 0.000739246064 369.8420263082 + 0.000764140455 393.5191612571 + 0.000787822573 416.6461923756 + 0.000810186305 439.0480831427 + 0.000831136037 460.5577432963 + 0.000850587122 481.0183111701 + 0.000868466210 500.2852056203 + 0.000884711459 518.2279086624 + 0.000899272626 534.7314492281 + 0.000912111044 549.6975679377 + 0.000923199486 563.0455521725 + 0.000932521932 574.6908227868 + 0.000940073246 584.6375266707 + 0.000945858756 592.8334297661 + 0.000949893787 599.2698662601 + 0.000952203097 603.9551546204 + 0.000952820283 606.9136854485 + 0.000951787140 608.1848061869 + 0.000949152975 607.8215442857 + 0.000944973908 605.8892050091 + 0.000939312153 602.4638810507 + 0.000932235287 597.6309102879 + 0.000923815529 591.4833163965 + 0.000914129018 584.1202665291 + 0.000903255115 575.6455641859 + 0.000891275711 566.1662397588 + 0.000878274582 555.7912042424 + 0.000864336755 544.6300477641 + 0.000849547919 532.7919695746 + 0.000833993874 520.3848762660 + 0.000817760005 507.5146791086 + 0.000799258035 494.2573155878 + 0.000772105869 480.5826049428 + 0.000745171712 466.7004875513 + 0.000718521602 452.6880549878 + 0.000692215690 438.6291408757 + 0.000666308410 424.6365711594 + 0.000640848681 410.9712911798 + 0.000615880122 400.1712296750 + 0.000591441275 379.3188328624 + 0.000567565854 367.0620234869 + 0.000544282986 353.8942889234 + 0.000521617469 340.7910718752 + 0.000499590023 327.9187963218 + 0.000580261568 230.1446160519 + 0.000610162747 253.6118608473 + 0.000639679181 277.6016620965 + 0.000668655876 301.9426196960 + 0.000696943304 326.4557503082 + 0.000724398447 350.9569631913 + 0.000750885796 375.2596851934 + 0.000776278260 399.1775619626 + 0.000800457992 422.5271639334 + 0.000823317093 445.1306288682 + 0.000844758204 466.8181776964 + 0.000864694973 487.4304469235 + 0.000883052394 506.8205886942 + 0.000899767028 524.8560983518 + 0.000914787102 541.4203386832 + 0.000928072488 556.4137396313 + 0.000939594577 569.7546617792 + 0.000949336055 581.3586337464 + 0.000957290577 591.2285896747 + 0.000963462360 599.3130852662 + 0.000967865721 605.6041883077 + 0.000970524507 610.1113580238 + 0.000971471517 612.8605121478 + 0.000970747854 613.8928839982 + 0.000968402246 613.2637110859 + 0.000964490345 611.0407925007 + 0.000959074010 607.3029533144 + 0.000952220575 602.1384534814 + 0.000944002130 595.6433771491 + 0.000934494793 587.9200360593 + 0.000923778011 579.0754180176 + 0.000911933872 569.2197082785 + 0.000899046447 558.4649090128 + 0.000885201157 546.9235791279 + 0.000870484182 534.7077152864 + 0.000854981892 521.9277937431 + 0.000834319889 508.7591186504 + 0.000806759534 495.3315649618 + 0.000779349652 481.6208232136 + 0.000752162604 467.7014148020 + 0.000725264641 453.6468494304 + 0.000698716060 439.5326931427 + 0.000672571381 425.4463432313 + 0.000646879549 411.5254493867 + 0.000621684155 398.2347718032 + 0.000597023662 312.8068474883 + 0.000572931653 367.3302443093 + 0.000549437081 354.5216237334 + 0.000526564523 341.4706376906 + 0.000504334439 328.5882024059 + 0.000588987656 233.8882948656 + 0.000619346557 257.6453019528 + 0.000649330663 281.9236751911 + 0.000678783027 306.5493071077 + 0.000707552199 331.3403698490 + 0.000735493264 356.1098250476 + 0.000762468838 380.6680887950 + 0.000788349984 404.8257775092 + 0.000813017035 428.3964620485 + 0.000836360310 451.1993606262 + 0.000858280707 473.0619060066 + 0.000878690180 493.8221289506 + 0.000897512087 513.3308076782 + 0.000914681416 531.4533418784 + 0.000930144890 548.0713191903 + 0.000943860956 563.0837517605 + 0.000955799665 576.3830432724 + 0.000965942452 587.9595339433 + 0.000974281812 597.7400335536 + 0.000980820918 605.6987552870 + 0.000985573124 611.8284288814 + 0.000988561438 616.1395971720 + 0.000989817927 618.6596596590 + 0.000989383069 619.4317027552 + 0.000987305085 618.5131534706 + 0.000983639233 615.9742955071 + 0.000978447089 611.8966870751 + 0.000971795820 606.3715191004 + 0.000963757456 599.4979509574 + 0.000954408164 591.3814587093 + 0.000943827549 582.1322277618 + 0.000932097956 571.8636190906 + 0.000919303809 560.6907345697 + 0.000905530980 548.7291039865 + 0.000890866177 536.0935124029 + 0.000870488162 523.1038105477 + 0.000842560313 509.9785448197 + 0.000814708987 496.4956400900 + 0.000787013199 482.7307321535 + 0.000759545652 468.7569712393 + 0.000732372866 454.6455322418 + 0.000705555334 440.4672376081 + 0.000679147705 426.2973198580 + 0.000653198991 412.2304000441 + 0.000627752787 398.4530462836 + 0.000602847508 386.0336762725 + 0.000578516639 365.6849256705 + 0.000554788984 354.8940143371 + 0.000531688927 341.9960050081 + 0.000509236696 329.1151646628 + 0.000597665235 237.6092181715 + 0.000628476507 261.6567430514 + 0.000658922178 286.2244936465 + 0.000688843332 311.1356280458 + 0.000718086587 336.2054410173 + 0.000746505123 361.2439071323 + 0.000773959678 386.0583849542 + 0.000800319469 410.4564069123 + 0.000825463015 434.2484810874 + 0.000849278860 457.2508343119 + 0.000871666177 479.2880308532 + 0.000892535246 500.1954073839 + 0.000911807812 519.8212726970 + 0.000929417319 538.0288293769 + 0.000945309022 554.6977840562 + 0.000959439980 569.7256226287 + 0.000971778946 583.0041171907 + 0.000982306149 594.5220236298 + 0.000991012981 604.2061987205 + 0.000997901611 612.0309920295 + 0.001002984497 617.9897073879 + 0.001006283861 622.0938896234 + 0.001007831095 624.3723499359 + 0.001007666118 624.8699695147 + 0.001005836700 623.6463183030 + 0.001002397767 620.7741306546 + 0.000997410673 616.3376751236 + 0.000990942474 610.4310618847 + 0.000983065195 603.1565208606 + 0.000973855112 594.6226977653 + 0.000963392032 584.9429838954 + 0.000951758604 574.2339271494 + 0.000939039650 562.6137402468 + 0.000925321517 550.2009313394 + 0.000907743068 537.3040240343 + 0.000879496985 524.5369566127 + 0.000851246501 511.3368192988 + 0.000823077617 497.7813427946 + 0.000795069840 483.9454705028 + 0.000767296277 469.9013528765 + 0.000739823769 455.7185761850 + 0.000712713052 441.4650482053 + 0.000686018948 427.2095152979 + 0.000659790571 413.0281502980 + 0.000634071557 399.0299578198 + 0.000608900304 385.5046772276 + 0.000584310224 376.7766950848 + 0.000560330000 354.6584281332 + 0.000536983850 342.3723408456 + 0.000514291792 329.5433983017 + 0.000606334293 241.3248053376 + 0.000637595067 265.6657043513 + 0.000668498781 290.5258865090 + 0.000698884534 315.7257542916 + 0.000728596994 341.0776974182 + 0.000757487424 366.3886682227 + 0.000785414678 391.4629240680 + 0.000812246119 416.1048603554 + 0.000837858454 440.1218593294 + 0.000862138457 463.3270830075 + 0.000884983582 485.5421433617 + 0.000906302450 506.5995892322 + 0.000926015210 526.3451571455 + 0.000944053784 544.6397419270 + 0.000960361984 561.3610524135 + 0.000974895513 576.4049273558 + 0.000987621859 589.6623974163 + 0.000998520080 601.1204877503 + 0.001007580511 610.7059959350 + 0.001014804351 618.3932933015 + 0.001020203212 624.1761539300 + 0.001023798577 628.0670307704 + 0.001025621209 630.0960653045 + 0.001025710516 630.3098658158 + 0.001024113869 628.7700931070 + 0.001020885908 625.5518943756 + 0.001016087813 620.7422266731 + 0.001009786576 614.4381110048 + 0.001002054266 606.7448568382 + 0.000992967303 597.7742943895 + 0.000982605740 587.6430494927 + 0.000971052564 576.4708921363 + 0.000958393027 564.3791861426 + 0.000944713989 551.4894626986 + 0.000917615584 539.0209758523 + 0.000889014517 526.1594794875 + 0.000860413921 512.8677888566 + 0.000831900459 499.2232581256 + 0.000803554199 485.3003106324 + 0.000775448711 471.1703574016 + 0.000747651214 456.9018636102 + 0.000720222733 442.5608354047 + 0.000693218305 428.2122363947 + 0.000666687184 413.9231085200 + 0.000640673079 399.7731021977 + 0.000615214401 385.8982970015 + 0.000590344516 372.8334059637 + 0.000566092009 344.6773186419 + 0.000542480953 342.4828856979 + 0.000519531178 329.8928193004 + 0.000614963937 245.0213169490 + 0.000646670074 269.6579865700 + 0.000678027062 294.8133281040 + 0.000708872006 320.3049950329 + 0.000739047617 345.9424727889 + 0.000768403242 371.5296848739 + 0.000796795849 396.8677719542 + 0.000824090954 421.7579665505 + 0.000850163458 446.0044876110 + 0.000874898378 469.4173823327 + 0.000898191466 491.8152472988 + 0.000919949701 513.0277672567 + 0.000940091661 532.8980174656 + 0.000958547773 551.2844841945 + 0.000975260434 568.0627673456 + 0.000990184025 583.1269389666 + 0.001003284803 596.3671712229 + 0.001014540698 607.7686143576 + 0.001023941017 617.2578819684 + 0.001031486042 624.8092419265 + 0.001037186575 630.4168159220 + 0.001041063405 634.0938512573 + 0.001043146710 635.8717166602 + 0.001043475429 635.7986575005 + 0.001042096579 633.9383497770 + 0.001039064553 630.3682943664 + 0.001034440401 625.1780947392 + 0.001028291086 618.4676550062 + 0.001020688758 610.3453554951 + 0.001011710014 600.9262177320 + 0.001001435183 590.3301218886 + 0.000989947619 578.6800929015 + 0.000977333015 566.1006883784 + 0.000956874657 553.4221024351 + 0.000927981456 540.9578268445 + 0.000898999780 527.9863875724 + 0.000870023800 514.5876978516 + 0.000841140917 500.8388539848 + 0.000812431824 486.8139030240 + 0.000783970616 472.5837145890 + 0.000755824936 458.2159519096 + 0.000728056151 443.7753341801 + 0.000700719547 429.3244782850 + 0.000673864558 414.9254450485 + 0.000647534997 400.6446584266 + 0.000621769313 386.5692866247 + 0.000596600853 372.8878849944 + 0.000572058125 360.8886371867 + 0.000548165079 341.2994989677 + 0.000524941374 330.1190681699 + 0.000632189641 252.3875467994 + 0.000664779554 277.6273416931 + 0.000697034489 303.3859856864 + 0.000728787530 329.4756965923 + 0.000759877455 355.7001959454 + 0.000790149754 381.8573708082 + 0.000819457619 407.7421202371 + 0.000847662872 433.1493075920 + 0.000874636816 457.8767415707 + 0.000900260977 481.7281117776 + 0.000924427732 504.5158090997 + 0.000947040822 526.0635671540 + 0.000968015734 546.2088684174 + 0.000987279965 564.8050670918 + 0.001004773158 581.7231899955 + 0.001020447121 596.8267522896 + 0.001034265738 610.0837200566 + 0.001046204776 621.3951176635 + 0.001056251579 630.7134011160 + 0.001064404694 638.0121953899 + 0.001070673411 643.2858952020 + 0.001075077229 646.5489392078 + 0.001077645266 647.8347880110 + 0.001078415626 647.1946421395 + 0.001077434719 644.6959400848 + 0.001074756549 640.4206792137 + 0.001070441992 634.4636038261 + 0.001064558055 626.9303049232 + 0.001057177125 617.9352752485 + 0.001048376237 607.5999614816 + 0.001038236337 596.0508524092 + 0.001026841561 583.4176377810 + 0.001009554291 570.4539722886 + 0.000979995565 558.3024168635 + 0.000950254716 545.5673466161 + 0.000920434943 532.3313144026 + 0.000890632376 518.6742071479 + 0.000860936111 504.6729176293 + 0.000831428298 490.4010910186 + 0.000802184257 475.9289502370 + 0.000773272644 461.3231759757 + 0.000744755639 446.6469595766 + 0.000716689157 431.9603426398 + 0.000689123088 417.3205921521 + 0.000662101547 402.7835798111 + 0.000635663141 388.4071801785 + 0.000609841241 374.2617967441 + 0.000584664267 360.4750026975 + 0.000560155968 347.5940588871 + 0.000536335710 323.2835079525 + 0.000649389001 259.7052938811 + 0.000682833576 285.5591284295 + 0.000715976496 311.9397653333 + 0.000748625648 338.6487593706 + 0.000780615856 365.4842428573 + 0.000811788741 392.2382113890 + 0.000841993719 418.6994267547 + 0.000871088928 444.6564361285 + 0.000898942095 469.9006296992 + 0.000925431287 494.2292616224 + 0.000950445554 517.4483633208 + 0.000973885455 539.3754837820 + 0.000995663455 559.8421984715 + 0.001015704199 578.6963365742 + 0.001033944661 595.8038852273 + 0.001050334175 611.0246707204 + 0.001064834354 624.3216920719 + 0.001077418904 635.5933752425 + 0.001088073327 644.7899817308 + 0.001096794549 651.8838275276 + 0.001103590462 656.8689219975 + 0.001108479395 659.7602611323 + 0.001111489524 660.5928045183 + 0.001112658234 659.4201716928 + 0.001112031433 656.3130981744 + 0.001109662848 651.3576948361 + 0.001105613282 644.6535564185 + 0.001099949872 636.3117657426 + 0.001092745335 626.4528398921 + 0.001084077212 615.2046630309 + 0.001074027135 602.7004478810 + 0.001062680088 589.0767639626 + 0.001035705885 576.7685962286 + 0.001005194017 564.2842149198 + 0.000974507892 551.2221150928 + 0.000943753319 537.6653733819 + 0.000913028727 523.6942237898 + 0.000882425216 509.3857300737 + 0.000852026659 494.8135271823 + 0.000821909842 480.0476309651 + 0.000792144645 465.1542875036 + 0.000762794240 450.1959496890 + 0.000733915330 435.2314387119 + 0.000705558400 420.3159870740 + 0.000677767983 405.5017425396 + 0.000650582940 390.8387562916 + 0.000624036755 376.3773558618 + 0.000598157825 362.1748822177 + 0.000572969761 348.3207058434 + 0.000548491326 335.0873923558 diff --git a/mytest/K2SO4.out b/mytest/K2SO4.out index bbd7eac7..ffc5e06b 100644 --- a/mytest/K2SO4.out +++ b/mytest/K2SO4.out @@ -136,10 +136,10 @@ Arcanite 0.00 -2.31 -2.31 1.000e+01 9.600e+00 -4.000e-01 pH = 7.784 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 38506 + Specific Conductance (µS/cm, 0°C) = 38523 Density (g/cm³) = 1.05582 Volume (L) = 1.01315 - Viscosity (mPa s) = 1.81948 + Viscosity (mPa s) = 1.81790 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -204,10 +204,10 @@ Arcanite 0.00 -2.11 -2.11 1.000e+01 9.507e+00 -4.931e-01 pH = 7.635 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 61240 + Specific Conductance (µS/cm, 10°C) = 61260 Density (g/cm³) = 1.06597 Volume (L) = 1.01873 - Viscosity (mPa s) = 1.36574 + Viscosity (mPa s) = 1.36493 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.479e+00 Mass of water (kg) = 1.000e+00 @@ -272,10 +272,10 @@ Arcanite 0.00 -2.02 -2.02 1.000e+01 9.460e+00 -5.403e-01 pH = 7.570 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 74682 + Specific Conductance (µS/cm, 15°C) = 74699 Density (g/cm³) = 1.07056 Volume (L) = 1.02205 - Viscosity (mPa s) = 1.20887 + Viscosity (mPa s) = 1.20837 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.621e+00 Mass of water (kg) = 1.000e+00 @@ -340,10 +340,10 @@ Arcanite 0.00 -1.95 -1.95 1.000e+01 9.412e+00 -5.875e-01 pH = 7.510 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 89422 + Specific Conductance (µS/cm, 20°C) = 89432 Density (g/cm³) = 1.07483 Volume (L) = 1.02564 - Viscosity (mPa s) = 1.08214 + Viscosity (mPa s) = 1.08190 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -476,10 +476,10 @@ Arcanite 0.00 -1.82 -1.82 1.000e+01 9.319e+00 -6.809e-01 pH = 7.405 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 122478 + Specific Conductance (µS/cm, 30°C) = 122462 Density (g/cm³) = 1.08243 Volume (L) = 1.03347 - Viscosity (mPa s) = 0.89110 + Viscosity (mPa s) = 0.89131 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.043e+00 Mass of water (kg) = 1.000e+00 @@ -544,10 +544,10 @@ Arcanite 0.00 -1.71 -1.71 1.000e+01 9.228e+00 -7.718e-01 pH = 7.319 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 159786 + Specific Conductance (µS/cm, 40°C) = 159720 Density (g/cm³) = 1.08883 Volume (L) = 1.04193 - Viscosity (mPa s) = 0.75490 + Viscosity (mPa s) = 0.75547 Activity of water = 0.973 Ionic strength (mol/kgw) = 2.315e+00 Mass of water (kg) = 1.000e+00 @@ -612,10 +612,10 @@ Arcanite 0.00 -1.63 -1.63 1.000e+01 9.141e+00 -8.592e-01 pH = 7.248 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 200851 + Specific Conductance (µS/cm, 50°C) = 200704 Density (g/cm³) = 1.09409 Volume (L) = 1.05085 - Viscosity (mPa s) = 0.65347 + Viscosity (mPa s) = 0.65436 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.578e+00 Mass of water (kg) = 1.000e+00 @@ -680,10 +680,10 @@ Arcanite 0.00 -1.57 -1.57 1.000e+01 9.057e+00 -9.430e-01 pH = 7.191 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 245426 + Specific Conductance (µS/cm, 60°C) = 245156 Density (g/cm³) = 1.09828 Volume (L) = 1.06013 - Viscosity (mPa s) = 0.57536 + Viscosity (mPa s) = 0.57651 Activity of water = 0.967 Ionic strength (mol/kgw) = 2.829e+00 Mass of water (kg) = 1.000e+00 @@ -748,10 +748,10 @@ Arcanite 0.00 -1.52 -1.52 1.000e+01 8.977e+00 -1.023e+00 pH = 7.145 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 293553 + Specific Conductance (µS/cm, 70°C) = 293111 Density (g/cm³) = 1.10150 Volume (L) = 1.06974 - Viscosity (mPa s) = 0.51360 + Viscosity (mPa s) = 0.51500 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.070e+00 Mass of water (kg) = 1.000e+00 @@ -816,10 +816,10 @@ Arcanite 0.00 -1.49 -1.49 1.000e+01 8.900e+00 -1.100e+00 pH = 7.110 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 345546 + Specific Conductance (µS/cm, 80°C) = 344868 Density (g/cm³) = 1.10381 Volume (L) = 1.07968 - Viscosity (mPa s) = 0.46376 + Viscosity (mPa s) = 0.46539 Activity of water = 0.961 Ionic strength (mol/kgw) = 3.301e+00 Mass of water (kg) = 1.000e+00 @@ -884,10 +884,10 @@ Arcanite 0.00 -1.47 -1.47 1.000e+01 8.825e+00 -1.175e+00 pH = 7.084 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 401880 + Specific Conductance (µS/cm, 90°C) = 400886 Density (g/cm³) = 1.10525 Volume (L) = 1.08999 - Viscosity (mPa s) = 0.42285 + Viscosity (mPa s) = 0.42468 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.524e+00 Mass of water (kg) = 1.000e+00 @@ -952,10 +952,10 @@ Arcanite 0.00 -1.46 -1.46 1.000e+01 8.753e+00 -1.247e+00 pH = 7.067 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 463003 + Specific Conductance (µS/cm, 100°C) = 461592 Density (g/cm³) = 1.10587 Volume (L) = 1.10073 - Viscosity (mPa s) = 0.38878 + Viscosity (mPa s) = 0.39081 Activity of water = 0.957 Ionic strength (mol/kgw) = 3.740e+00 Mass of water (kg) = 1.000e+00 @@ -1020,10 +1020,10 @@ Arcanite 0.00 -1.48 -1.48 1.000e+01 8.614e+00 -1.386e+00 pH = 7.052 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 600262 + Specific Conductance (µS/cm, 120°C) = 597616 Density (g/cm³) = 1.10473 Volume (L) = 1.12378 - Viscosity (mPa s) = 0.33569 + Viscosity (mPa s) = 0.33812 Activity of water = 0.953 Ionic strength (mol/kgw) = 4.157e+00 Mass of water (kg) = 1.000e+00 @@ -1089,10 +1089,10 @@ Arcanite -0.00 -1.54 -1.54 1.000e+01 8.484e+00 -1.516e+00 pH = 7.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 752098 + Specific Conductance (µS/cm, 140°C) = 747535 Density (g/cm³) = 1.09982 Volume (L) = 1.14950 - Viscosity (mPa s) = 0.29622 + Viscosity (mPa s) = 0.29904 Activity of water = 0.950 Ionic strength (mol/kgw) = 4.549e+00 Mass of water (kg) = 1.000e+00 @@ -1158,10 +1158,10 @@ Arcanite -0.00 -1.69 -1.69 1.000e+01 8.306e+00 -1.694e+00 pH = 7.109 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 979164 + Specific Conductance (µS/cm, 170°C) = 970224 Density (g/cm³) = 1.08350 Volume (L) = 1.19536 - Viscosity (mPa s) = 0.25214 + Viscosity (mPa s) = 0.25556 Activity of water = 0.948 Ionic strength (mol/kgw) = 5.082e+00 Mass of water (kg) = 1.000e+00 @@ -1227,10 +1227,10 @@ Arcanite -0.00 -1.75 -1.75 1.000e+01 8.254e+00 -1.746e+00 pH = 7.132 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 1047671 + Specific Conductance (µS/cm, 180°C) = 1036854 Density (g/cm³) = 1.07506 Volume (L) = 1.21325 - Viscosity (mPa s) = 0.23982 + Viscosity (mPa s) = 0.24344 Activity of water = 0.947 Ionic strength (mol/kgw) = 5.239e+00 Mass of water (kg) = 1.000e+00 @@ -1296,10 +1296,10 @@ Arcanite -0.00 -2.00 -2.00 1.000e+01 8.119e+00 -1.881e+00 pH = 7.215 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 210°C) = 1223113 + Specific Conductance (µS/cm, 210°C) = 1205085 Density (g/cm³) = 1.03856 Volume (L) = 1.27848 - Viscosity (mPa s) = 0.20486 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.20912 (solute contributions limited to 200 °C) Activity of water = 0.946 Ionic strength (mol/kgw) = 5.643e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/K2SO4_101.sel b/mytest/K2SO4_101.sel index 03a855c0..a2a24626 100644 --- a/mytest/K2SO4_101.sel +++ b/mytest/K2SO4_101.sel @@ -1,20 +1,20 @@ Mu SC 0.000000100645 0.0546913895 - 1.199993540434 38506.0287396381 - 1.479382168617 61240.9298305215 - 1.621003479258 74682.8257146010 - 1.762628708503 89422.1429524823 - 1.903454445773 105380.8714244978 - 2.042821785142 122478.1015264953 - 2.315281893287 159786.0793431179 - 2.577551496541 200851.7254487728 - 2.828930768273 245426.1241016703 - 3.069849438908 293553.6492466853 - 3.301298575510 345546.9164916250 - 3.524409505189 401880.5510103095 - 3.740174831650 463003.3712551625 - 4.157045240667 600262.4460053294 - 4.549108550373 752098.5284306018 - 5.081543324637 979164.7241931662 - 5.238815623263 1047671.6155817513 - 5.642624629986 1223113.8304632143 + 1.199993540434 38523.6197184251 + 1.479382168617 61260.0391249735 + 1.621003479258 74699.2619554891 + 1.762628708503 89432.5086875285 + 1.903454445773 105380.8919108945 + 2.042821785142 122462.6080524371 + 2.315281893287 159720.4181210774 + 2.577551496541 200704.0870248786 + 2.828930768273 245156.3562694782 + 3.069849438908 293111.4594604931 + 3.301298575510 344868.9531817851 + 3.524409505189 400886.5876308278 + 3.740174831650 461592.3275170134 + 4.157045240667 597616.2917678801 + 4.549108550373 747535.4338762416 + 5.081543324637 970224.0433137817 + 5.238815623263 1036854.6518212482 + 5.642624629986 1205085.1051170225 diff --git a/mytest/KCl-SO4.out b/mytest/KCl-SO4.out index bd51710c..88da0b1f 100644 --- a/mytest/KCl-SO4.out +++ b/mytest/KCl-SO4.out @@ -168,10 +168,10 @@ Sylvite -5.34 -4.56 0.78 0.000e+00 0 0.000e+00 pH = 7.569 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 80875 + Specific Conductance (µS/cm, 15°C) = 80879 Density (g/cm³) = 1.07060 Volume (L) = 1.02200 - Viscosity (mPa s) = 1.12113 + Viscosity (mPa s) = 1.12063 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.621e+00 Mass of water (kg) = 1.000e+00 @@ -259,10 +259,10 @@ Sylvite -1.13 -0.35 0.78 0.000e+00 0 0.000e+00 pH = 7.401 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 123312 + Specific Conductance (µS/cm, 15°C) = 123322 Density (g/cm³) = 1.07939 Volume (L) = 1.04086 - Viscosity (mPa s) = 1.10831 + Viscosity (mPa s) = 1.10800 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.843e+00 Mass of water (kg) = 1.000e+00 @@ -350,10 +350,10 @@ Sylvite -0.64 0.14 0.78 0.000e+00 0 0.000e+00 pH = 7.284 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 181647 + Specific Conductance (µS/cm, 15°C) = 181668 Density (g/cm³) = 1.10532 Volume (L) = 1.06680 - Viscosity (mPa s) = 1.10576 + Viscosity (mPa s) = 1.10544 Activity of water = 0.931 Ionic strength (mol/kgw) = 2.517e+00 Mass of water (kg) = 1.000e+00 @@ -441,10 +441,10 @@ Sylvite -0.32 0.47 0.78 0.000e+00 0 0.000e+00 pH = 7.209 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 238587 + Specific Conductance (µS/cm, 15°C) = 238619 Density (g/cm³) = 1.13515 Volume (L) = 1.09611 - Viscosity (mPa s) = 1.11637 + Viscosity (mPa s) = 1.11603 Activity of water = 0.901 Ionic strength (mol/kgw) = 3.355e+00 Mass of water (kg) = 1.000e+00 @@ -532,10 +532,10 @@ Sylvite -0.07 0.72 0.78 0.000e+00 0 0.000e+00 pH = 7.158 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 288214 + Specific Conductance (µS/cm, 15°C) = 288258 Density (g/cm³) = 1.16451 Volume (L) = 1.12750 - Viscosity (mPa s) = 1.14164 + Viscosity (mPa s) = 1.14126 Activity of water = 0.868 Ionic strength (mol/kgw) = 4.254e+00 Mass of water (kg) = 1.000e+00 @@ -623,10 +623,10 @@ Sylvite -0.00 0.78 0.78 0.000e+00 7.028e-01 7.028e-01 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -714,10 +714,10 @@ Sylvite -0.00 0.78 0.78 7.028e-01 1.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -805,10 +805,10 @@ Sylvite -0.00 0.78 0.78 1.703e+00 2.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -896,10 +896,10 @@ Sylvite -0.00 0.78 0.78 2.703e+00 3.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -987,10 +987,10 @@ Sylvite 0.00 0.78 0.78 3.703e+00 4.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -1078,10 +1078,10 @@ Sylvite -0.00 0.78 0.78 4.703e+00 5.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -1169,10 +1169,10 @@ Sylvite 0.00 0.78 0.78 5.703e+00 6.703e+00 1.000e+00 pH = 7.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 301268 + Specific Conductance (µS/cm, 15°C) = 301315 Density (g/cm³) = 1.17292 Volume (L) = 1.13717 - Viscosity (mPa s) = 1.15205 + Viscosity (mPa s) = 1.15166 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.529e+00 Mass of water (kg) = 1.000e+00 @@ -1260,10 +1260,10 @@ Sylvite 0.00 0.78 0.78 6.703e+00 7.653e+00 9.498e-01 pH = 7.047 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 299704 + Specific Conductance (µS/cm, 15°C) = 299751 Density (g/cm³) = 1.16706 Volume (L) = 1.13456 - Viscosity (mPa s) = 1.14741 + Viscosity (mPa s) = 1.14703 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.347e+00 Mass of water (kg) = 1.000e+00 @@ -1371,10 +1371,10 @@ Sylvite -5.43 -4.48 0.95 0.000e+00 0 0.000e+00 pH = 7.405 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 134528 + Specific Conductance (µS/cm, 30°C) = 134524 Density (g/cm³) = 1.08247 Volume (L) = 1.03343 - Viscosity (mPa s) = 0.81399 + Viscosity (mPa s) = 0.81420 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.043e+00 Mass of water (kg) = 1.000e+00 @@ -1462,10 +1462,10 @@ Sylvite -1.25 -0.30 0.95 0.000e+00 0 0.000e+00 pH = 7.252 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 181385 + Specific Conductance (µS/cm, 30°C) = 181378 Density (g/cm³) = 1.08647 Volume (L) = 1.05096 - Viscosity (mPa s) = 0.81362 + Viscosity (mPa s) = 0.81375 Activity of water = 0.955 Ionic strength (mol/kgw) = 2.158e+00 Mass of water (kg) = 1.000e+00 @@ -1553,10 +1553,10 @@ Sylvite -0.78 0.18 0.95 0.000e+00 0 0.000e+00 pH = 7.129 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 247541 + Specific Conductance (µS/cm, 30°C) = 247527 Density (g/cm³) = 1.10693 Volume (L) = 1.07572 - Viscosity (mPa s) = 0.82402 + Viscosity (mPa s) = 0.82415 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.717e+00 Mass of water (kg) = 1.000e+00 @@ -1644,10 +1644,10 @@ Sylvite -0.45 0.50 0.95 0.000e+00 0 0.000e+00 pH = 7.043 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 314604 + Specific Conductance (µS/cm, 30°C) = 314582 Density (g/cm³) = 1.13337 Volume (L) = 1.10439 - Viscosity (mPa s) = 0.84266 + Viscosity (mPa s) = 0.84280 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.482e+00 Mass of water (kg) = 1.000e+00 @@ -1735,10 +1735,10 @@ Sylvite -0.20 0.75 0.95 0.000e+00 0 0.000e+00 pH = 6.982 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 374296 + Specific Conductance (µS/cm, 30°C) = 374268 Density (g/cm³) = 1.16079 Volume (L) = 1.13533 - Viscosity (mPa s) = 0.86900 + Viscosity (mPa s) = 0.86915 Activity of water = 0.865 Ionic strength (mol/kgw) = 4.339e+00 Mass of water (kg) = 1.000e+00 @@ -1826,10 +1826,10 @@ Sylvite 0.00 0.95 0.95 0.000e+00 6.207e-02 6.207e-02 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -1917,10 +1917,10 @@ Sylvite 0.00 0.95 0.95 6.207e-02 1.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2008,10 +2008,10 @@ Sylvite 0.00 0.95 0.95 1.062e+00 2.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2099,10 +2099,10 @@ Sylvite 0.00 0.95 0.95 2.062e+00 3.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2190,10 +2190,10 @@ Sylvite 0.00 0.95 0.95 3.062e+00 4.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2281,10 +2281,10 @@ Sylvite 0.00 0.95 0.95 4.062e+00 5.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2372,10 +2372,10 @@ Sylvite -0.00 0.95 0.95 5.062e+00 6.062e+00 1.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 421459 + Specific Conductance (µS/cm, 30°C) = 421425 Density (g/cm³) = 1.18582 Volume (L) = 1.16588 - Viscosity (mPa s) = 0.90055 + Viscosity (mPa s) = 0.90071 Activity of water = 0.834 Ionic strength (mol/kgw) = 5.186e+00 Mass of water (kg) = 1.000e+00 @@ -2463,10 +2463,10 @@ Sylvite 0.00 0.95 0.95 6.062e+00 7.001e+00 9.387e-01 pH = 6.785 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 419181 + Specific Conductance (µS/cm, 30°C) = 419146 Density (g/cm³) = 1.18009 Volume (L) = 1.16322 - Viscosity (mPa s) = 0.89607 + Viscosity (mPa s) = 0.89623 Activity of water = 0.835 Ionic strength (mol/kgw) = 4.999e+00 Mass of water (kg) = 1.000e+00 @@ -2574,10 +2574,10 @@ Sylvite -5.59 -4.34 1.25 0.000e+00 0 0.000e+00 pH = 7.126 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 358356 + Specific Conductance (µS/cm, 75°C) = 358229 Density (g/cm³) = 1.10278 Volume (L) = 1.07465 - Viscosity (mPa s) = 0.43495 + Viscosity (mPa s) = 0.43649 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.187e+00 Mass of water (kg) = 1.000e+00 @@ -2665,10 +2665,10 @@ Sylvite -1.47 -0.21 1.25 0.000e+00 0 0.000e+00 pH = 7.005 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 409171 + Specific Conductance (µS/cm, 75°C) = 408971 Density (g/cm³) = 1.09913 Volume (L) = 1.08929 - Viscosity (mPa s) = 0.43787 + Viscosity (mPa s) = 0.43894 Activity of water = 0.943 Ionic strength (mol/kgw) = 3.113e+00 Mass of water (kg) = 1.000e+00 @@ -2756,10 +2756,10 @@ Sylvite -1.03 0.23 1.25 0.000e+00 0 0.000e+00 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 483199 + Specific Conductance (µS/cm, 75°C) = 482900 Density (g/cm³) = 1.10881 Volume (L) = 1.11041 - Viscosity (mPa s) = 0.45006 + Viscosity (mPa s) = 0.45101 Activity of water = 0.918 Ionic strength (mol/kgw) = 3.414e+00 Mass of water (kg) = 1.000e+00 @@ -2847,10 +2847,10 @@ Sylvite -0.72 0.53 1.25 0.000e+00 0 0.000e+00 pH = 6.794 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 565738 + Specific Conductance (µS/cm, 75°C) = 565325 Density (g/cm³) = 1.12705 Volume (L) = 1.13630 - Viscosity (mPa s) = 0.46781 + Viscosity (mPa s) = 0.46876 Activity of water = 0.889 Ionic strength (mol/kgw) = 3.982e+00 Mass of water (kg) = 1.000e+00 @@ -2938,10 +2938,10 @@ Sylvite -0.47 0.78 1.25 0.000e+00 0 0.000e+00 pH = 6.719 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 644307 + Specific Conductance (µS/cm, 75°C) = 643786 Density (g/cm³) = 1.14918 Volume (L) = 1.16525 - Viscosity (mPa s) = 0.48911 + Viscosity (mPa s) = 0.49011 Activity of water = 0.858 Ionic strength (mol/kgw) = 4.704e+00 Mass of water (kg) = 1.000e+00 @@ -3029,10 +3029,10 @@ Sylvite -0.26 0.99 1.25 0.000e+00 0 0.000e+00 pH = 6.661 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 713456 + Specific Conductance (µS/cm, 75°C) = 712840 Density (g/cm³) = 1.17263 Volume (L) = 1.19628 - Viscosity (mPa s) = 0.51292 + Viscosity (mPa s) = 0.51397 Activity of water = 0.826 Ionic strength (mol/kgw) = 5.517e+00 Mass of water (kg) = 1.000e+00 @@ -3120,10 +3120,10 @@ Sylvite -0.09 1.16 1.25 0.000e+00 0 0.000e+00 pH = 6.615 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 771609 + Specific Conductance (µS/cm, 75°C) = 770914 Density (g/cm³) = 1.19610 Volume (L) = 1.22886 - Viscosity (mPa s) = 0.53869 + Viscosity (mPa s) = 0.53981 Activity of water = 0.793 Ionic strength (mol/kgw) = 6.388e+00 Mass of water (kg) = 1.000e+00 @@ -3211,10 +3211,10 @@ Sylvite 0.00 1.25 1.25 0.000e+00 4.623e-01 4.623e-01 pH = 6.595 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 798339 + Specific Conductance (µS/cm, 75°C) = 797609 Density (g/cm³) = 1.20847 Volume (L) = 1.24691 - Viscosity (mPa s) = 0.55325 + Viscosity (mPa s) = 0.55441 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.873e+00 Mass of water (kg) = 1.000e+00 @@ -3302,10 +3302,10 @@ Sylvite 0.00 1.25 1.25 4.623e-01 1.462e+00 1.000e+00 pH = 6.595 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 798339 + Specific Conductance (µS/cm, 75°C) = 797609 Density (g/cm³) = 1.20847 Volume (L) = 1.24691 - Viscosity (mPa s) = 0.55325 + Viscosity (mPa s) = 0.55441 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.873e+00 Mass of water (kg) = 1.000e+00 @@ -3393,10 +3393,10 @@ Sylvite 0.00 1.25 1.25 1.462e+00 2.462e+00 1.000e+00 pH = 6.595 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 798339 + Specific Conductance (µS/cm, 75°C) = 797609 Density (g/cm³) = 1.20847 Volume (L) = 1.24691 - Viscosity (mPa s) = 0.55325 + Viscosity (mPa s) = 0.55441 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.873e+00 Mass of water (kg) = 1.000e+00 @@ -3484,10 +3484,10 @@ Sylvite 0.00 1.25 1.25 2.462e+00 3.462e+00 1.000e+00 pH = 6.595 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 798339 + Specific Conductance (µS/cm, 75°C) = 797609 Density (g/cm³) = 1.20847 Volume (L) = 1.24691 - Viscosity (mPa s) = 0.55325 + Viscosity (mPa s) = 0.55441 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.873e+00 Mass of water (kg) = 1.000e+00 @@ -3575,10 +3575,10 @@ Sylvite 0.00 1.25 1.25 3.462e+00 4.462e+00 1.000e+00 pH = 6.595 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 798339 + Specific Conductance (µS/cm, 75°C) = 797609 Density (g/cm³) = 1.20847 Volume (L) = 1.24691 - Viscosity (mPa s) = 0.55325 + Viscosity (mPa s) = 0.55441 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.873e+00 Mass of water (kg) = 1.000e+00 @@ -3666,10 +3666,10 @@ Sylvite 0.00 1.25 1.25 4.462e+00 5.375e+00 9.130e-01 pH = 6.201 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 789945 + Specific Conductance (µS/cm, 75°C) = 789204 Density (g/cm³) = 1.20152 Volume (L) = 1.24333 - Viscosity (mPa s) = 0.54906 + Viscosity (mPa s) = 0.55018 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.625e+00 Mass of water (kg) = 1.000e+00 @@ -3777,10 +3777,10 @@ Sylvite -5.65 -4.32 1.33 0.000e+00 0 0.000e+00 pH = 7.067 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 505958 + Specific Conductance (µS/cm, 100°C) = 505665 Density (g/cm³) = 1.10588 Volume (L) = 1.10071 - Viscosity (mPa s) = 0.34613 + Viscosity (mPa s) = 0.34823 Activity of water = 0.957 Ionic strength (mol/kgw) = 3.740e+00 Mass of water (kg) = 1.000e+00 @@ -3868,10 +3868,10 @@ Sylvite -1.54 -0.21 1.33 0.000e+00 0 0.000e+00 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 557113 + Specific Conductance (µS/cm, 100°C) = 556676 Density (g/cm³) = 1.10063 Volume (L) = 1.11445 - Viscosity (mPa s) = 0.34705 + Viscosity (mPa s) = 0.34856 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.617e+00 Mass of water (kg) = 1.000e+00 @@ -3959,10 +3959,10 @@ Sylvite -1.11 0.22 1.33 0.000e+00 0 0.000e+00 pH = 6.847 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 631135 + Specific Conductance (µS/cm, 100°C) = 630518 Density (g/cm³) = 1.10726 Volume (L) = 1.13421 - Viscosity (mPa s) = 0.35706 + Viscosity (mPa s) = 0.35838 Activity of water = 0.914 Ionic strength (mol/kgw) = 3.838e+00 Mass of water (kg) = 1.000e+00 @@ -4050,10 +4050,10 @@ Sylvite -0.81 0.52 1.33 0.000e+00 0 0.000e+00 pH = 6.755 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 716053 + Specific Conductance (µS/cm, 100°C) = 715232 Density (g/cm³) = 1.12250 Volume (L) = 1.15883 - Viscosity (mPa s) = 0.37189 + Viscosity (mPa s) = 0.37319 Activity of water = 0.886 Ionic strength (mol/kgw) = 4.328e+00 Mass of water (kg) = 1.000e+00 @@ -4141,10 +4141,10 @@ Sylvite -0.57 0.76 1.33 0.000e+00 0 0.000e+00 pH = 6.680 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 799125 + Specific Conductance (µS/cm, 100°C) = 798107 Density (g/cm³) = 1.14228 Volume (L) = 1.18678 - Viscosity (mPa s) = 0.38983 + Viscosity (mPa s) = 0.39116 Activity of water = 0.856 Ionic strength (mol/kgw) = 4.989e+00 Mass of water (kg) = 1.000e+00 @@ -4232,10 +4232,10 @@ Sylvite -0.37 0.96 1.33 0.000e+00 0 0.000e+00 pH = 6.621 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 873775 + Specific Conductance (µS/cm, 100°C) = 872584 Density (g/cm³) = 1.16403 Volume (L) = 1.21707 - Viscosity (mPa s) = 0.40982 + Viscosity (mPa s) = 0.41122 Activity of water = 0.825 Ionic strength (mol/kgw) = 5.757e+00 Mass of water (kg) = 1.000e+00 @@ -4323,10 +4323,10 @@ Sylvite -0.20 1.13 1.33 0.000e+00 0 0.000e+00 pH = 6.575 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 937624 + Specific Conductance (µS/cm, 100°C) = 936289 Density (g/cm³) = 1.18631 Volume (L) = 1.24911 - Viscosity (mPa s) = 0.43128 + Viscosity (mPa s) = 0.43275 Activity of water = 0.793 Ionic strength (mol/kgw) = 6.594e+00 Mass of water (kg) = 1.000e+00 @@ -4414,10 +4414,10 @@ Sylvite -0.05 1.28 1.33 0.000e+00 0 0.000e+00 pH = 6.539 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 990343 + Specific Conductance (µS/cm, 100°C) = 988898 Density (g/cm³) = 1.20831 Volume (L) = 1.28255 - Viscosity (mPa s) = 0.45386 + Viscosity (mPa s) = 0.45542 Activity of water = 0.761 Ionic strength (mol/kgw) = 7.480e+00 Mass of water (kg) = 1.000e+00 @@ -4505,10 +4505,10 @@ Sylvite 0.00 1.33 1.33 0.000e+00 6.511e-01 6.511e-01 pH = 6.528 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1006217 + Specific Conductance (µS/cm, 100°C) = 1004739 Density (g/cm³) = 1.21583 Volume (L) = 1.29449 - Viscosity (mPa s) = 0.46196 + Viscosity (mPa s) = 0.46355 Activity of water = 0.750 Ionic strength (mol/kgw) = 7.797e+00 Mass of water (kg) = 1.000e+00 @@ -4596,10 +4596,10 @@ Sylvite 0.00 1.33 1.33 6.511e-01 1.651e+00 1.000e+00 pH = 6.528 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1006217 + Specific Conductance (µS/cm, 100°C) = 1004739 Density (g/cm³) = 1.21583 Volume (L) = 1.29449 - Viscosity (mPa s) = 0.46196 + Viscosity (mPa s) = 0.46355 Activity of water = 0.750 Ionic strength (mol/kgw) = 7.797e+00 Mass of water (kg) = 1.000e+00 @@ -4687,10 +4687,10 @@ Sylvite 0.00 1.33 1.33 1.651e+00 2.651e+00 1.000e+00 pH = 6.528 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1006217 + Specific Conductance (µS/cm, 100°C) = 1004739 Density (g/cm³) = 1.21583 Volume (L) = 1.29449 - Viscosity (mPa s) = 0.46196 + Viscosity (mPa s) = 0.46355 Activity of water = 0.750 Ionic strength (mol/kgw) = 7.797e+00 Mass of water (kg) = 1.000e+00 @@ -4778,10 +4778,10 @@ Sylvite 0.00 1.33 1.33 2.651e+00 3.651e+00 1.000e+00 pH = 6.528 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1006217 + Specific Conductance (µS/cm, 100°C) = 1004739 Density (g/cm³) = 1.21583 Volume (L) = 1.29449 - Viscosity (mPa s) = 0.46196 + Viscosity (mPa s) = 0.46355 Activity of water = 0.750 Ionic strength (mol/kgw) = 7.797e+00 Mass of water (kg) = 1.000e+00 @@ -4869,10 +4869,10 @@ Sylvite 0.00 1.33 1.33 3.651e+00 4.555e+00 9.041e-01 pH = 5.971 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 989836 + Specific Conductance (µS/cm, 100°C) = 988326 Density (g/cm³) = 1.20657 Volume (L) = 1.28879 - Viscosity (mPa s) = 0.45674 + Viscosity (mPa s) = 0.45827 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.445e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/KCl-SO4_101.sel b/mytest/KCl-SO4_101.sel index a2544418..978a1470 100644 --- a/mytest/KCl-SO4_101.sel +++ b/mytest/KCl-SO4_101.sel @@ -1,54 +1,54 @@ Mu SC - 5.999999390360 288471.7231652020 - 1.620992487180 80875.1841076598 - 1.842522857873 123312.4009363823 - 2.517359081072 181647.7140932006 - 3.354529511678 238587.2551612151 - 4.254336303526 288214.3516838999 - 4.528641067712 301268.0767259067 - 4.528641068186 301268.0767283133 - 4.528641068307 301268.0767321388 - 4.528641068428 301268.0767359638 - 4.528641068549 301268.0767397895 - 4.528641068670 301268.0767436149 - 4.528641068791 301268.0767474403 - 4.347462918280 299704.0067464975 - 2.042805736850 134528.6782981562 - 2.158173586083 181385.9297346230 - 2.716862637814 247541.6399667161 - 3.482390597755 314604.3111550102 - 4.338778904073 374296.5318070934 - 5.185701419133 421459.7362416739 - 5.185701418819 421459.7362497088 - 5.185701418935 421459.7362556218 - 5.185701419051 421459.7362615349 - 5.185701419166 421459.7362674478 - 5.185701419282 421459.7362733611 - 5.185701419397 421459.7362792738 - 4.999218383134 419181.0616996432 - 3.186660194575 358356.3305102775 - 3.112594852390 409171.5743584498 - 3.413930379093 483199.9327748298 - 3.981604194429 565738.1499115155 - 4.703779024161 644307.8234694139 - 5.517131118867 713456.8233847169 - 6.387864617522 771609.3361752634 - 6.872596512945 798339.1947154206 - 6.872596512774 798339.1947396236 - 6.872596512978 798339.1947610583 - 6.872596513182 798339.1947824945 - 6.872596513386 798339.1948039295 - 6.624694440633 789945.8596750380 - 3.740145993443 505958.0389414766 - 3.617473726432 557113.4158324531 - 3.838035070393 631135.8551314208 - 4.327754506693 716053.1776466604 - 4.988716787412 799125.0866435367 - 5.756642876935 873775.9517856869 - 6.594374530180 937624.0493176598 - 7.479538855118 990343.9728419017 - 7.796754181002 1006217.2709227509 - 7.796754187188 1006217.2709400365 - 7.796754187688 1006217.2710079931 - 7.796754188189 1006217.2710759445 - 7.444818185356 989836.4754055454 + 5.999999390360 288471.7437540113 + 1.620992487180 80879.0720289855 + 1.842522857873 123322.5308316005 + 2.517359081072 181668.1059124621 + 3.354529511678 238619.5715964023 + 4.254336303526 288258.2625848419 + 4.528641067712 301315.1587876474 + 4.528641068186 301315.1587900720 + 4.528641068307 301315.1587939157 + 4.528641068428 301315.1587977591 + 4.528641068549 301315.1588016029 + 4.528641068670 301315.1588054465 + 4.528641068791 301315.1588092903 + 4.347462918280 299751.2265047143 + 2.042805736850 134524.9829984392 + 2.158173586083 181378.1134914493 + 2.716862637814 247527.4629987720 + 3.482390597755 314582.8447264893 + 4.338778904073 374268.0163210189 + 5.185701419133 421425.4405693076 + 5.185701418819 421425.4405773291 + 5.185701418935 421425.4405832287 + 5.185701419051 421425.4405891284 + 5.185701419166 421425.4405950280 + 5.185701419282 421425.4406009278 + 5.185701419397 421425.4406068273 + 4.999218383134 419146.4918672465 + 3.186660194575 358229.9031253549 + 3.112594852390 408971.3110440556 + 3.413930379093 482900.2757904854 + 3.981604194429 565325.9075087329 + 4.703779024161 643786.7083823577 + 5.517131118867 712840.1418174788 + 6.387864617522 770914.1664217429 + 6.872596512945 797609.1479468391 + 6.872596512774 797609.1479705900 + 6.872596512978 797609.1479915746 + 6.872596513182 797609.1480125608 + 6.872596513386 797609.1480335457 + 6.624694440633 789204.1193761453 + 3.740145993443 505665.0457483924 + 3.617473726432 556676.7608800093 + 3.838035070393 630518.3934131331 + 4.327754506693 715232.7401194751 + 4.988716787412 798107.6451472447 + 5.756642876935 872584.9703644202 + 6.594374530180 936289.9954753692 + 7.479538855118 988898.1524518802 + 7.796754181002 1004739.4643810854 + 7.796754187188 1004739.4643966407 + 7.796754187688 1004739.4644628054 + 7.796754188189 1004739.4645289647 + 7.444818185356 988326.9168020242 diff --git a/mytest/KCl.out b/mytest/KCl.out index 2f817813..9f18b3c0 100644 --- a/mytest/KCl.out +++ b/mytest/KCl.out @@ -143,10 +143,10 @@ Sylvite 0.00 0.71 0.71 1.000e+01 1.589e+01 5.891e+00 pH = 7.283 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 261239 + Specific Conductance (µS/cm, 10°C) = 261299 Density (g/cm³) = 1.16166 Volume (L) = 1.12453 - Viscosity (mPa s) = 1.26776 + Viscosity (mPa s) = 1.26715 Activity of water = 0.869 Ionic strength (mol/kgw) = 4.109e+00 Mass of water (kg) = 1.000e+00 @@ -209,10 +209,10 @@ Sylvite 0.00 0.84 0.84 1.000e+01 1.543e+01 5.426e+00 pH = 7.050 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 338955 + Specific Conductance (µS/cm, 20°C) = 338982 Density (g/cm³) = 1.17189 Volume (L) = 1.14434 - Viscosity (mPa s) = 1.04865 + Viscosity (mPa s) = 1.04847 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.574e+00 Mass of water (kg) = 1.000e+00 @@ -341,10 +341,10 @@ Sylvite 0.00 0.95 0.95 1.000e+01 1.500e+01 5.001e+00 pH = 6.852 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 419180 + Specific Conductance (µS/cm, 30°C) = 419146 Density (g/cm³) = 1.18009 Volume (L) = 1.16322 - Viscosity (mPa s) = 0.89607 + Viscosity (mPa s) = 0.89623 Activity of water = 0.835 Ionic strength (mol/kgw) = 4.999e+00 Mass of water (kg) = 1.000e+00 @@ -407,10 +407,10 @@ Sylvite 0.00 1.04 1.04 1.000e+01 1.461e+01 4.607e+00 pH = 6.681 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 500930 + Specific Conductance (µS/cm, 40°C) = 500802 Density (g/cm³) = 1.18671 Volume (L) = 1.18144 - Viscosity (mPa s) = 0.78353 + Viscosity (mPa s) = 0.78395 Activity of water = 0.820 Ionic strength (mol/kgw) = 5.393e+00 Mass of water (kg) = 1.000e+00 @@ -473,10 +473,10 @@ Sylvite 0.00 1.12 1.12 1.000e+01 1.424e+01 4.237e+00 pH = 6.530 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 583509 + Specific Conductance (µS/cm, 50°C) = 583254 Density (g/cm³) = 1.19209 Volume (L) = 1.19925 - Viscosity (mPa s) = 0.69702 + Viscosity (mPa s) = 0.69767 Activity of water = 0.807 Ionic strength (mol/kgw) = 5.763e+00 Mass of water (kg) = 1.000e+00 @@ -539,10 +539,10 @@ Sylvite 0.00 1.18 1.18 1.000e+01 1.388e+01 3.884e+00 pH = 6.395 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 666347 + Specific Conductance (µS/cm, 60°C) = 665928 Density (g/cm³) = 1.19647 Volume (L) = 1.21687 - Viscosity (mPa s) = 0.62850 + Viscosity (mPa s) = 0.62935 Activity of water = 0.794 Ionic strength (mol/kgw) = 6.116e+00 Mass of water (kg) = 1.000e+00 @@ -605,10 +605,10 @@ Sylvite 0.00 1.23 1.23 1.000e+01 1.354e+01 3.543e+00 pH = 6.275 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 748919 + Specific Conductance (µS/cm, 70°C) = 748296 Density (g/cm³) = 1.20002 Volume (L) = 1.23447 - Viscosity (mPa s) = 0.57299 + Viscosity (mPa s) = 0.57402 Activity of water = 0.783 Ionic strength (mol/kgw) = 6.457e+00 Mass of water (kg) = 1.000e+00 @@ -671,10 +671,10 @@ Sylvite 0.00 1.27 1.27 1.000e+01 1.321e+01 3.209e+00 pH = 6.168 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 830709 + Specific Conductance (µS/cm, 80°C) = 829838 Density (g/cm³) = 1.20285 Volume (L) = 1.25223 - Viscosity (mPa s) = 0.52725 + Viscosity (mPa s) = 0.52845 Activity of water = 0.772 Ionic strength (mol/kgw) = 6.791e+00 Mass of water (kg) = 1.000e+00 @@ -737,10 +737,10 @@ Sylvite 0.00 1.30 1.30 1.000e+01 1.288e+01 2.881e+00 pH = 6.070 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 911193 + Specific Conductance (µS/cm, 90°C) = 910028 Density (g/cm³) = 1.20502 Volume (L) = 1.27029 - Viscosity (mPa s) = 0.48903 + Viscosity (mPa s) = 0.49040 Activity of water = 0.762 Ionic strength (mol/kgw) = 7.119e+00 Mass of water (kg) = 1.000e+00 @@ -803,10 +803,10 @@ Sylvite 0.00 1.33 1.33 1.000e+01 1.256e+01 2.555e+00 pH = 5.982 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 989835 + Specific Conductance (µS/cm, 100°C) = 988325 Density (g/cm³) = 1.20657 Volume (L) = 1.28879 - Viscosity (mPa s) = 0.45674 + Viscosity (mPa s) = 0.45827 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.445e+00 Mass of water (kg) = 1.000e+00 @@ -869,10 +869,10 @@ Sylvite 0.00 1.36 1.36 1.000e+01 1.190e+01 1.905e+00 pH = 5.830 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 1139369 + Specific Conductance (µS/cm, 120°C) = 1137012 Density (g/cm³) = 1.20779 Volume (L) = 1.32765 - Viscosity (mPa s) = 0.40558 + Viscosity (mPa s) = 0.40743 Activity of water = 0.735 Ionic strength (mol/kgw) = 8.095e+00 Mass of water (kg) = 1.000e+00 @@ -936,10 +936,10 @@ Sylvite 0.00 1.37 1.37 1.000e+01 1.158e+01 1.578e+00 pH = 5.764 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 1209086 + Specific Conductance (µS/cm, 130°C) = 1206221 Density (g/cm³) = 1.20736 Volume (L) = 1.34828 - Viscosity (mPa s) = 0.38512 + Viscosity (mPa s) = 0.38712 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.422e+00 Mass of water (kg) = 1.000e+00 @@ -1003,10 +1003,10 @@ Sylvite 0.00 1.37 1.37 1.000e+01 1.125e+01 1.250e+00 pH = 5.704 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 1274661 + Specific Conductance (µS/cm, 140°C) = 1271232 Density (g/cm³) = 1.20615 Volume (L) = 1.36992 - Viscosity (mPa s) = 0.36729 + Viscosity (mPa s) = 0.36946 Activity of water = 0.721 Ionic strength (mol/kgw) = 8.750e+00 Mass of water (kg) = 1.000e+00 @@ -1070,10 +1070,10 @@ Sylvite 0.00 1.36 1.36 1.000e+01 1.092e+01 9.198e-01 pH = 5.650 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1335495 + Specific Conductance (µS/cm, 150°C) = 1331444 Density (g/cm³) = 1.20404 Volume (L) = 1.39276 - Viscosity (mPa s) = 0.35166 + Viscosity (mPa s) = 0.35401 Activity of water = 0.714 Ionic strength (mol/kgw) = 9.080e+00 Mass of water (kg) = 1.000e+00 @@ -1137,10 +1137,10 @@ Sylvite 0.00 1.35 1.35 1.000e+01 1.059e+01 5.873e-01 pH = 5.601 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 1390980 + Specific Conductance (µS/cm, 160°C) = 1386251 Density (g/cm³) = 1.20092 Volume (L) = 1.41702 - Viscosity (mPa s) = 0.33788 + Viscosity (mPa s) = 0.34041 Activity of water = 0.708 Ionic strength (mol/kgw) = 9.413e+00 Mass of water (kg) = 1.000e+00 @@ -1204,10 +1204,10 @@ Sylvite 0.00 1.31 1.31 1.000e+01 9.914e+00 -8.608e-02 pH = 5.517 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 1483372 + Specific Conductance (µS/cm, 180°C) = 1477127 Density (g/cm³) = 1.19104 Volume (L) = 1.47092 - Viscosity (mPa s) = 0.31477 + Viscosity (mPa s) = 0.31768 Activity of water = 0.698 Ionic strength (mol/kgw) = 1.009e+01 Mass of water (kg) = 1.000e+00 @@ -1271,10 +1271,10 @@ Sylvite 0.00 1.25 1.25 1.000e+01 9.224e+00 -7.761e-01 pH = 5.450 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1546287 + Specific Conductance (µS/cm, 200°C) = 1538352 Density (g/cm³) = 1.17496 Volume (L) = 1.53484 - Viscosity (mPa s) = 0.29624 + Viscosity (mPa s) = 0.29957 Activity of water = 0.690 Ionic strength (mol/kgw) = 1.078e+01 Mass of water (kg) = 1.000e+00 @@ -1338,10 +1338,10 @@ Sylvite 0.00 1.16 1.16 1.000e+01 8.497e+00 -1.503e+00 pH = 5.395 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 1579673 + Specific Conductance (µS/cm, 220°C) = 1569795 Density (g/cm³) = 1.15021 Volume (L) = 1.61501 - Viscosity (mPa s) = 0.27830 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.28210 (solute contributions limited to 200 °C) Activity of water = 0.685 Ionic strength (mol/kgw) = 1.150e+01 Mass of water (kg) = 1.000e+00 @@ -1405,10 +1405,10 @@ Sylvite -0.00 0.97 0.97 1.000e+01 7.161e+00 -2.839e+00 pH = 5.326 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1517625 + Specific Conductance (µS/cm, 250°C) = 1505171 Density (g/cm³) = 1.08435 Volume (L) = 1.80493 - Viscosity (mPa s) = 0.25938 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.26401 (solute contributions limited to 200 °C) Activity of water = 0.679 Ionic strength (mol/kgw) = 1.284e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/KCl_101.sel b/mytest/KCl_101.sel index aee3121d..99671441 100644 --- a/mytest/KCl_101.sel +++ b/mytest/KCl_101.sel @@ -1,22 +1,22 @@ Mu SC - 10.000000036020 497502.2233946550 - 4.108948726044 261239.2861206737 - 4.574456175046 338955.6347888230 - 4.791296925749 378825.6852336336 - 4.999195787564 419180.7909677575 - 5.392644332593 500930.2645217942 - 5.762750673292 583509.0730417105 - 6.115920970599 666347.2520309705 - 6.457212719968 748919.7571450896 - 6.790562606820 830709.9038442926 - 7.118994326640 911193.9323597196 - 7.444794667783 989835.3514810014 - 8.095414321820 1139369.7655803168 - 8.421843576209 1209086.0033709626 - 8.749974487776 1274661.1638106664 - 9.080173240414 1335495.8926978754 - 9.412705786190 1390980.8283456811 - 10.086083096514 1483372.6304717108 - 10.776094091966 1546287.7969018961 - 11.503369401090 1579673.8663851947 - 12.839095452557 1517625.8451166507 + 10.000000036020 497502.2904850276 + 4.108948726044 261299.8059214199 + 4.574456175046 338982.8277026358 + 4.791296925749 378825.7346378677 + 4.999195787564 419146.2211012990 + 5.392644332593 500802.6379925495 + 5.762750673292 583254.2761082255 + 6.115920970599 665928.2120962922 + 6.457212719968 748296.2930676097 + 6.790562606820 829838.6407357102 + 7.118994326640 910028.3172966569 + 7.444794667783 988325.7906229912 + 8.095414321820 1137012.9358142407 + 8.421843576209 1206221.8499992241 + 8.749974487776 1271232.2935283245 + 9.080173240414 1331444.8273847925 + 9.412705786190 1386251.1035496618 + 10.086083096514 1477127.1145081546 + 10.776094091966 1538352.2201863688 + 11.503369401090 1569795.9011490594 + 12.839095452557 1505171.0501361149 diff --git a/mytest/KinSorbNp_101.sel b/mytest/KinSorbNp_101.sel index decf90d9..e12abc87 100644 --- a/mytest/KinSorbNp_101.sel +++ b/mytest/KinSorbNp_101.sel @@ -1,15 +1,15 @@ Mu SC - 0.000051152362 12.5628712531 - 0.000051152362 12.5628712530 - 0.000119762333 17.7396587402 - 0.000119851528 17.7561555660 - 0.000119851554 17.7561696412 - 0.000119851642 17.7562159506 - 0.000119851894 17.7563498832 - 0.000119852694 17.7567742482 - 0.000119854859 17.7579222825 - 0.000119860101 17.7607018923 - 0.000119866786 17.7642445551 - 0.000119869532 17.7656999975 - 0.000119869455 17.7656587059 - 0.000119869454 17.7656583925 + 0.000051152362 12.5628712543 + 0.000051152362 12.5628712542 + 0.000119762333 17.7396587494 + 0.000119851528 17.7561555753 + 0.000119851554 17.7561696505 + 0.000119851642 17.7562159599 + 0.000119851894 17.7563498925 + 0.000119852694 17.7567742575 + 0.000119854859 17.7579222918 + 0.000119860101 17.7607019016 + 0.000119866786 17.7642445644 + 0.000119869532 17.7657000068 + 0.000119869455 17.7656587152 + 0.000119869454 17.7656584018 diff --git a/mytest/M_M2Cl_SC.out b/mytest/M_M2Cl_SC.out index b0e3fe0f..e324502a 100644 --- a/mytest/M_M2Cl_SC.out +++ b/mytest/M_M2Cl_SC.out @@ -4756,7 +4756,7 @@ Initial solution 10. Specific Conductance (µS/cm, 25°C) = 971 Density (g/cm³) = 0.99738 Volume (L) = 1.00303 - Viscosity (mPa s) = 0.89300 + Viscosity (mPa s) = 0.89299 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.262e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/M_M2Cl_SC_101.sel b/mytest/M_M2Cl_SC_101.sel index 9f0d42f4..92ddd10f 100644 --- a/mytest/M_M2Cl_SC_101.sel +++ b/mytest/M_M2Cl_SC_101.sel @@ -1,145 +1,145 @@ Mu SC - 0.000952104171 106.4751277030 - 0.008450110767 906.4871850840 - 0.095230129775 9098.1849850674 - 0.504700151181 41025.2008293908 - 0.961300157555 70260.9772968666 - 1.021600157890 73742.7432975730 - 2.091700154159 123915.4553907955 - 3.211200140191 157974.9118981268 - 4.381500121428 178800.4065665355 - 5.605100100810 188519.2863471014 - 6.885100080311 189147.2265769214 - 0.000501593199 62.0523128344 - 0.001003104241 123.2818969664 - 0.005015308440 601.0168819555 - 0.010031111378 1181.2652427423 - 0.020066115236 2309.1046195599 - 0.050191121909 5543.3547238406 - 0.100470127977 10655.6563363602 - 0.125640130021 13126.5117245251 - 0.150840131682 15554.8776122699 - 0.176060133059 17945.7492809452 - 0.201310134216 20304.3955188398 - 0.251840136028 24931.8651040859 - 0.302490137347 29461.5420606811 - 0.404070138981 38265.9051013769 - 0.506030139713 46778.0408560123 - 0.608440139836 55038.7559676706 - 0.711170139519 63059.5954601714 - 0.814380138868 70867.6785914697 - 0.917990137956 78466.8943339815 - 1.022000136834 85864.6701994680 - 1.231400134106 100088.7421792481 - 1.442600130902 113570.4494511398 - 1.655600127362 126328.5247926451 - 1.870500123583 138382.2079021156 - 2.087200119640 149737.0877457356 - 2.638300109372 175203.9579343818 - 3.202500098963 196609.6178210826 - 3.780700088761 214179.4276216124 - 4.373800078981 228168.6172903546 - 4.982800069759 238859.4582925463 - 5.609200061168 246554.0445550650 - 6.058700055553 250317.3117765954 - 0.000501583194 73.7921548523 - 0.001003104233 146.7232120650 - 0.005014808398 717.3895522354 - 0.010029111294 1412.9575880197 - 0.020058115066 2769.9926357896 - 0.050145121483 6686.9389235715 - 0.100580127164 12967.4357601573 - 0.125810129016 16023.2663375854 - 0.151070130490 19039.5860646344 - 0.176380131685 22024.9354600196 - 0.201720132665 24981.3974692850 - 0.252510134140 30822.7230015347 - 0.303450135140 36583.8753674698 - 0.405770136190 47910.8842611097 - 0.508690136403 59026.1448876051 - 0.612200136067 69963.1881798286 - 0.716400135344 80753.3150672989 - 0.821140134337 91394.3336532521 - 0.926590133114 101912.2183827234 - 1.032700131723 112307.3837973008 - 1.247000128569 132751.6380698673 - 1.463900125076 152726.9164533046 - 1.683800121360 172269.1923955600 - 1.906800117504 191376.8827896748 - 2.132700113573 210018.6686351238 - 2.711700103654 254593.1936877480 - 3.312600093925 296110.3529953750 - 3.937100084628 334320.4221624123 - 4.587700075894 369003.6930316067 - 0.000226527129 19.1306833166 - 0.000510849693 42.7608177256 - 0.000840188296 69.8469829878 - 0.001606276609 132.0258505805 - 0.003061588726 247.9219465901 - 0.004269083922 342.4672546531 - 0.006285376547 497.8650290265 - 0.007873271230 618.4703503791 - 0.009493866179 740.2061472275 - 0.012618657326 971.6646466474 - 0.015045051111 1148.8499888034 - 0.031689018218 2321.1821085393 - 0.070928970771 4906.5834124201 - 0.071882969885 4967.3017582899 - 0.076151966019 5238.0085766812 - 0.132929925662 8711.5649285183 - 0.207509889339 13016.5103793780 - 0.231509879810 14355.5442902632 - 0.272069865265 16576.1527420208 - 0.278039863263 16898.8480624214 - 0.377969833562 22161.7929147494 - 0.547589793357 30598.4532383624 - 0.550049792833 30716.8675134207 - 0.668129769011 36283.6317933300 - 0.702539762468 37864.9534508895 - 0.952799718266 48871.3456654484 - 1.182899680660 58308.2039553720 - 1.194599678791 58772.1498179173 - 1.966799558069 86428.1139143087 - 2.968499397085 114899.0873377628 - 4.794599072520 148882.0848733646 - 6.873598643244 163348.7900015114 - 8.879998160349 158696.2995223996 - 10.823997627049 144018.4783959114 - 12.647997075049 126689.3934011555 - 14.237996563970 111428.4006656290 - 15.728996071841 98067.7968040451 - 0.000228102446 20.2423305160 - 0.000752203996 65.8510631288 - 0.001504605448 130.2288265745 - 0.002265106583 194.4001782199 - 0.003009107524 256.5031611738 - 0.004515109126 380.5857135247 - 0.007524111665 623.5410590906 - 0.010533113721 861.4961981717 - 0.012093114667 983.2763677851 - 0.015045116294 1211.2085751374 - 0.022650119827 1786.0419608379 - 0.030090122701 2334.8362505052 - 0.043200126937 3277.2646531356 - 0.063030132171 4658.2941687388 - 0.075270134963 5490.0808167077 - 0.079050135775 5744.2665702293 - 0.096450139279 6899.9353058074 - 0.115380142744 8133.6972194728 - 0.119730143499 8414.1444180864 - 0.130412145301 9098.4909605851 - 0.145260147693 10039.7146225598 - 0.146250147849 10102.0984750034 - 0.149070148289 10279.5476663734 - 0.150000148433 10337.9876960616 - 0.150600148526 10375.6699516895 - 0.163500150486 11181.9678453178 - 0.226500159245 15026.4429176049 - 0.300000168381 19352.9957491127 - 1.131900257469 61763.8321015423 - 1.500000300337 77932.8956639875 - 3.000000543543 131954.5507927489 - 6.000001746483 193295.5972119061 - 9.000005708172 204392.6729081120 - 12.000019429561 184681.8614117529 - 18.000267828494 124074.5470078804 + 0.000952104171 106.4751283417 + 0.008450110767 906.4872011847 + 0.095230129775 9098.1855141519 + 0.504700151181 41025.2059326368 + 0.961300157555 70260.9885146642 + 1.021600157890 73742.7553226128 + 2.091700154159 123915.4800699603 + 3.211200140191 157974.9451639659 + 4.381500121428 178800.4438661583 + 5.605100100810 188519.3236764586 + 6.885100080311 189147.2609581651 + 0.000501593199 62.0523130004 + 0.001003104241 123.2818974325 + 0.005015308440 601.0168870309 + 0.010031111378 1181.2652568420 + 0.020066115236 2309.1046585044 + 0.050191121909 5543.3548713109 + 0.100470127977 10655.6567357259 + 0.125640130021 13126.5122735240 + 0.150840131682 15554.8783235979 + 0.176060133059 17945.7501657016 + 0.201310134216 20304.3965870079 + 0.251840136028 24931.8665649124 + 0.302490137347 29461.5439445201 + 0.404070138981 38265.9079050637 + 0.506030139713 46778.0446579553 + 0.608440139836 55038.7608290620 + 0.711170139519 63059.6014271137 + 0.814380138868 70867.6857006857 + 0.917990137956 78466.9026120436 + 1.022000136834 85864.6796649636 + 1.231400134106 100088.7540503755 + 1.442600130902 113570.4637305871 + 1.655600127362 126328.5414454051 + 1.870500123583 138382.2268635775 + 2.087200119640 149737.1089252234 + 2.638300109372 175203.9841533466 + 3.202500098963 196609.6481995095 + 3.780700088761 214179.4611912335 + 4.373800078981 228168.6530802775 + 4.982800069759 238859.4953891727 + 5.609200061168 246554.0821400331 + 6.058700055553 250317.3492772344 + 0.000501583194 73.7921549594 + 0.001003104233 146.7232123657 + 0.005014808398 717.3895555201 + 0.010029111294 1412.9575971671 + 0.020058115066 2769.9926611476 + 0.050145121483 6686.9390203651 + 0.100580127164 12967.4360260893 + 0.125810129016 16023.2667051814 + 0.151070130490 19039.5865433947 + 0.176380131685 22024.9360586036 + 0.201720132665 24981.3981955482 + 0.252510134140 30822.7240046486 + 0.303450135140 36583.8766733658 + 0.405770136190 47910.8862408041 + 0.508690136403 59026.1476209786 + 0.612200136067 69963.1917369045 + 0.716400135344 80753.3195115985 + 0.821140134337 91394.3390411168 + 0.926590133114 101912.2247670579 + 1.032700131723 112307.3912262749 + 1.247000128569 132751.6477185892 + 1.463900125076 152726.9284715298 + 1.683800121360 172269.2069131655 + 1.906800117504 191376.8999154392 + 2.132700113573 210018.6884541968 + 2.711700103654 254593.2204972528 + 3.312600093925 296110.3869341977 + 3.937100084628 334320.4630895943 + 4.587700075894 369003.7405472418 + 0.000226527129 19.1306834090 + 0.000510849693 42.7608180354 + 0.000840188296 69.8469836363 + 0.001606276609 132.0258522739 + 0.003061588726 247.9219509746 + 0.004269083922 342.4672617990 + 0.006285376547 497.8650416172 + 0.007873271230 618.4703678706 + 0.009493866179 740.2061701990 + 0.012618657326 971.6646813675 + 0.015045051111 1148.8500335876 + 0.031689018218 2321.1822391826 + 0.070928970771 4906.5838216666 + 0.071882969885 4967.3021752902 + 0.076151966019 5238.0090288547 + 0.132929925662 8711.5659107274 + 0.207509889339 13016.5121879371 + 0.231509879810 14355.5463881561 + 0.272069865265 16576.1553497356 + 0.278039863263 16898.8507471792 + 0.377969833562 22161.7969523562 + 0.547589793357 30598.4597710884 + 0.550049792833 30716.8740836573 + 0.668129769011 36283.6401953060 + 0.702539762468 37864.9623961180 + 0.952799718266 48871.3586333313 + 1.182899680660 58308.2206529536 + 1.194599678791 58772.1667044345 + 1.966799558069 86428.1427216658 + 2.968499397085 114899.1289191414 + 4.794599072520 148882.1394817999 + 6.873598643244 163348.8439565183 + 8.879998160349 158696.3432049313 + 10.823997627049 144018.5100163023 + 12.647997075049 126689.4153595356 + 14.237996563970 111428.4162589894 + 15.728996071841 98067.8080273716 + 0.000228102446 20.2423306081 + 0.000752203996 65.8510636724 + 0.001504605448 130.2288280939 + 0.002265106583 194.4001810011 + 0.003009107524 256.5031654014 + 0.004515109126 380.5857212021 + 0.007524111665 623.5410753070 + 0.010533113721 861.4962246523 + 0.012093114667 983.2764001536 + 0.015045116294 1211.2086195712 + 0.022650119827 1786.0420410730 + 0.030090122701 2334.8363711943 + 0.043200126937 3277.2648555745 + 0.063030132171 4658.2945150601 + 0.075270134963 5490.0812618251 + 0.079050135775 5744.2670472115 + 0.096450139279 6899.9359369333 + 0.115380142744 8133.6980308569 + 0.119730143499 8414.1452725719 + 0.130412145301 9098.4919233999 + 0.145260147693 10039.7157414407 + 0.146250147849 10102.0996045079 + 0.149070148289 10279.5488262833 + 0.150000148433 10337.9888660451 + 0.150600148526 10375.6711281843 + 0.163500150486 11181.9691640445 + 0.226500159245 15026.4449857606 + 0.300000168381 19352.9987858826 + 1.131900257469 61763.8492510071 + 1.500000300337 77932.9196545396 + 3.000000543543 131954.6004745908 + 6.000001746483 193295.6734538721 + 9.000005708172 204392.7421551397 + 12.000019429561 184681.9095994215 + 18.000267828494 124074.5640640114 diff --git a/mytest/McBride_rho.out b/mytest/McBride_rho.out index d204c0ed..fc1fcf03 100644 --- a/mytest/McBride_rho.out +++ b/mytest/McBride_rho.out @@ -62,7 +62,7 @@ Initial solution 1. Specific Conductance (µS/cm, 2°C) = 75 Density (g/cm³) = 1.00508 Volume (L) = 1.01603 - Viscosity (mPa s) = 1.82827 + Viscosity (mPa s) = 1.82826 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.791e-04 Mass of water (kg) = 1.000e+00 @@ -124,7 +124,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 75 Density (g/cm³) = 1.00508 Volume (L) = 1.01603 - Viscosity (mPa s) = 1.82827 + Viscosity (mPa s) = 1.82826 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.791e-04 Mass of water (kg) = 1.000e+00 @@ -300,7 +300,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 96 Density (g/cm³) = 1.01972 Volume (L) = 1.00145 - Viscosity (mPa s) = 1.77428 + Viscosity (mPa s) = 1.77427 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.605e-04 Mass of water (kg) = 1.000e+00 @@ -359,7 +359,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 104 Density (g/cm³) = 1.02436 Volume (L) = 0.99692 - Viscosity (mPa s) = 1.76011 + Viscosity (mPa s) = 1.76010 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.903e-04 Mass of water (kg) = 1.000e+00 @@ -477,7 +477,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 121 Density (g/cm³) = 1.03327 Volume (L) = 0.98831 - Viscosity (mPa s) = 1.73702 + Viscosity (mPa s) = 1.73701 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.540e-04 Mass of water (kg) = 1.000e+00 @@ -595,7 +595,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 140 Density (g/cm³) = 1.04176 Volume (L) = 0.98026 - Viscosity (mPa s) = 1.72029 + Viscosity (mPa s) = 1.72028 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.236e-04 Mass of water (kg) = 1.000e+00 @@ -654,7 +654,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 150 Density (g/cm³) = 1.04587 Volume (L) = 0.97641 - Viscosity (mPa s) = 1.71409 + Viscosity (mPa s) = 1.71408 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.608e-04 Mass of water (kg) = 1.000e+00 @@ -713,7 +713,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 161 Density (g/cm³) = 1.04991 Volume (L) = 0.97266 - Viscosity (mPa s) = 1.70923 + Viscosity (mPa s) = 1.70922 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.997e-04 Mass of water (kg) = 1.000e+00 @@ -1585,7 +1585,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 269 Density (g/cm³) = 1.00057 Volume (L) = 1.02062 - Viscosity (mPa s) = 0.55904 + Viscosity (mPa s) = 0.55905 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.632e-04 Mass of water (kg) = 1.000e+00 @@ -1705,7 +1705,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 299 Density (g/cm³) = 1.00882 Volume (L) = 1.01227 - Viscosity (mPa s) = 0.56368 + Viscosity (mPa s) = 0.56369 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.214e-04 Mass of water (kg) = 1.000e+00 @@ -2005,7 +2005,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 379 Density (g/cm³) = 1.02812 Volume (L) = 0.99326 - Viscosity (mPa s) = 0.57664 + Viscosity (mPa s) = 0.57665 Activity of water = 0.992 Ionic strength (mol/kgw) = 7.769e-04 Mass of water (kg) = 1.000e+00 @@ -2065,7 +2065,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 395 Density (g/cm³) = 1.03179 Volume (L) = 0.98974 - Viscosity (mPa s) = 0.57948 + Viscosity (mPa s) = 0.57949 Activity of water = 0.992 Ionic strength (mol/kgw) = 8.098e-04 Mass of water (kg) = 1.000e+00 @@ -2201,7 +2201,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 297 Density (g/cm³) = 0.98283 Volume (L) = 1.03904 - Viscosity (mPa s) = 0.38403 + Viscosity (mPa s) = 0.38404 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.084e-04 Mass of water (kg) = 1.000e+00 @@ -2561,7 +2561,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 394 Density (g/cm³) = 1.00747 Volume (L) = 1.01362 - Viscosity (mPa s) = 0.40048 + Viscosity (mPa s) = 0.40049 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.701e-04 Mass of water (kg) = 1.000e+00 @@ -2621,7 +2621,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 410 Density (g/cm³) = 1.01128 Volume (L) = 1.00980 - Viscosity (mPa s) = 0.40326 + Viscosity (mPa s) = 0.40327 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.981e-04 Mass of water (kg) = 1.000e+00 @@ -2681,7 +2681,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 427 Density (g/cm³) = 1.01502 Volume (L) = 1.00609 - Viscosity (mPa s) = 0.40606 + Viscosity (mPa s) = 0.40607 Activity of water = 0.992 Ionic strength (mol/kgw) = 7.264e-04 Mass of water (kg) = 1.000e+00 @@ -2818,7 +2818,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 285 Density (g/cm³) = 0.96119 Volume (L) = 1.06243 - Viscosity (mPa s) = 0.28339 + Viscosity (mPa s) = 0.28340 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.250e-04 Mass of water (kg) = 1.000e+00 @@ -2878,7 +2878,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 301 Density (g/cm³) = 0.96600 Volume (L) = 1.05714 - Viscosity (mPa s) = 0.28620 + Viscosity (mPa s) = 0.28621 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.484e-04 Mass of water (kg) = 1.000e+00 @@ -2938,7 +2938,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 316 Density (g/cm³) = 0.97063 Volume (L) = 1.05209 - Viscosity (mPa s) = 0.28896 + Viscosity (mPa s) = 0.28897 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.719e-04 Mass of water (kg) = 1.000e+00 @@ -2998,7 +2998,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 332 Density (g/cm³) = 0.97512 Volume (L) = 1.04725 - Viscosity (mPa s) = 0.29168 + Viscosity (mPa s) = 0.29169 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.954e-04 Mass of water (kg) = 1.000e+00 @@ -3058,7 +3058,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 348 Density (g/cm³) = 0.97948 Volume (L) = 1.04259 - Viscosity (mPa s) = 0.29438 + Viscosity (mPa s) = 0.29439 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.191e-04 Mass of water (kg) = 1.000e+00 @@ -3118,7 +3118,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 363 Density (g/cm³) = 0.98373 Volume (L) = 1.03809 - Viscosity (mPa s) = 0.29706 + Viscosity (mPa s) = 0.29707 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.428e-04 Mass of water (kg) = 1.000e+00 @@ -3178,7 +3178,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 379 Density (g/cm³) = 0.98788 Volume (L) = 1.03373 - Viscosity (mPa s) = 0.29973 + Viscosity (mPa s) = 0.29974 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.667e-04 Mass of water (kg) = 1.000e+00 @@ -3238,7 +3238,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 395 Density (g/cm³) = 0.99193 Volume (L) = 1.02951 - Viscosity (mPa s) = 0.30238 + Viscosity (mPa s) = 0.30239 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.906e-04 Mass of water (kg) = 1.000e+00 @@ -3298,7 +3298,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 410 Density (g/cm³) = 0.99588 Volume (L) = 1.02542 - Viscosity (mPa s) = 0.30503 + Viscosity (mPa s) = 0.30504 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.146e-04 Mass of water (kg) = 1.000e+00 @@ -3358,7 +3358,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 426 Density (g/cm³) = 0.99975 Volume (L) = 1.02145 - Viscosity (mPa s) = 0.30767 + Viscosity (mPa s) = 0.30768 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.387e-04 Mass of water (kg) = 1.000e+00 @@ -3418,7 +3418,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 442 Density (g/cm³) = 1.00351 Volume (L) = 1.01762 - Viscosity (mPa s) = 0.31029 + Viscosity (mPa s) = 0.31030 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.629e-04 Mass of water (kg) = 1.000e+00 @@ -3495,7 +3495,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 261 Density (g/cm³) = 0.94100 Volume (L) = 1.08523 - Viscosity (mPa s) = 0.22301 + Viscosity (mPa s) = 0.22302 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.548e-04 Mass of water (kg) = 1.000e+00 @@ -3555,7 +3555,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 276 Density (g/cm³) = 0.94619 Volume (L) = 1.07927 - Viscosity (mPa s) = 0.22571 + Viscosity (mPa s) = 0.22572 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.753e-04 Mass of water (kg) = 1.000e+00 @@ -3675,7 +3675,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 306 Density (g/cm³) = 0.95612 Volume (L) = 1.06806 - Viscosity (mPa s) = 0.23101 + Viscosity (mPa s) = 0.23102 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.167e-04 Mass of water (kg) = 1.000e+00 @@ -3735,7 +3735,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 320 Density (g/cm³) = 0.96084 Volume (L) = 1.06282 - Viscosity (mPa s) = 0.23360 + Viscosity (mPa s) = 0.23361 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.372e-04 Mass of water (kg) = 1.000e+00 @@ -3795,7 +3795,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 335 Density (g/cm³) = 0.96541 Volume (L) = 1.05779 - Viscosity (mPa s) = 0.23616 + Viscosity (mPa s) = 0.23617 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.577e-04 Mass of water (kg) = 1.000e+00 @@ -3855,7 +3855,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 349 Density (g/cm³) = 0.96986 Volume (L) = 1.05294 - Viscosity (mPa s) = 0.23869 + Viscosity (mPa s) = 0.23870 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.781e-04 Mass of water (kg) = 1.000e+00 @@ -3915,7 +3915,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 363 Density (g/cm³) = 0.97419 Volume (L) = 1.04826 - Viscosity (mPa s) = 0.24121 + Viscosity (mPa s) = 0.24122 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.984e-04 Mass of water (kg) = 1.000e+00 @@ -3975,7 +3975,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 377 Density (g/cm³) = 0.97840 Volume (L) = 1.04374 - Viscosity (mPa s) = 0.24370 + Viscosity (mPa s) = 0.24371 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.186e-04 Mass of water (kg) = 1.000e+00 @@ -4035,7 +4035,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 391 Density (g/cm³) = 0.98250 Volume (L) = 1.03938 - Viscosity (mPa s) = 0.24617 + Viscosity (mPa s) = 0.24618 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.387e-04 Mass of water (kg) = 1.000e+00 @@ -4095,7 +4095,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 405 Density (g/cm³) = 0.98649 Volume (L) = 1.03518 - Viscosity (mPa s) = 0.24861 + Viscosity (mPa s) = 0.24862 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.588e-04 Mass of water (kg) = 1.000e+00 @@ -4232,7 +4232,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 236 Density (g/cm³) = 0.92316 Volume (L) = 1.10620 - Viscosity (mPa s) = 0.18505 + Viscosity (mPa s) = 0.18506 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.015e-04 Mass of water (kg) = 1.000e+00 @@ -4292,7 +4292,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 250 Density (g/cm³) = 0.92879 Volume (L) = 1.09949 - Viscosity (mPa s) = 0.18765 + Viscosity (mPa s) = 0.18766 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.197e-04 Mass of water (kg) = 1.000e+00 @@ -4352,7 +4352,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 263 Density (g/cm³) = 0.93421 Volume (L) = 1.09312 - Viscosity (mPa s) = 0.19020 + Viscosity (mPa s) = 0.19021 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.377e-04 Mass of water (kg) = 1.000e+00 @@ -4412,7 +4412,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 276 Density (g/cm³) = 0.93942 Volume (L) = 1.08705 - Viscosity (mPa s) = 0.19269 + Viscosity (mPa s) = 0.19270 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.554e-04 Mass of water (kg) = 1.000e+00 @@ -4472,7 +4472,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 289 Density (g/cm³) = 0.94446 Volume (L) = 1.08125 - Viscosity (mPa s) = 0.19515 + Viscosity (mPa s) = 0.19516 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.729e-04 Mass of water (kg) = 1.000e+00 @@ -4532,7 +4532,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 302 Density (g/cm³) = 0.94934 Volume (L) = 1.07570 - Viscosity (mPa s) = 0.19757 + Viscosity (mPa s) = 0.19758 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.901e-04 Mass of water (kg) = 1.000e+00 @@ -4592,7 +4592,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 314 Density (g/cm³) = 0.95406 Volume (L) = 1.07038 - Viscosity (mPa s) = 0.19995 + Viscosity (mPa s) = 0.19997 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.071e-04 Mass of water (kg) = 1.000e+00 @@ -4652,7 +4652,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 326 Density (g/cm³) = 0.95864 Volume (L) = 1.06526 - Viscosity (mPa s) = 0.20231 + Viscosity (mPa s) = 0.20232 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.240e-04 Mass of water (kg) = 1.000e+00 @@ -4712,7 +4712,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 338 Density (g/cm³) = 0.96308 Volume (L) = 1.06034 - Viscosity (mPa s) = 0.20464 + Viscosity (mPa s) = 0.20465 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.406e-04 Mass of water (kg) = 1.000e+00 @@ -4772,7 +4772,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 350 Density (g/cm³) = 0.96740 Volume (L) = 1.05561 - Viscosity (mPa s) = 0.20695 + Viscosity (mPa s) = 0.20696 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.570e-04 Mass of water (kg) = 1.000e+00 @@ -4849,7 +4849,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 182 Density (g/cm³) = 0.89103 Volume (L) = 1.14608 - Viscosity (mPa s) = 0.15346 + Viscosity (mPa s) = 0.15347 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.204e-04 Mass of water (kg) = 1.000e+00 @@ -4909,7 +4909,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 193 Density (g/cm³) = 0.89721 Volume (L) = 1.13820 - Viscosity (mPa s) = 0.15616 + Viscosity (mPa s) = 0.15617 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.356e-04 Mass of water (kg) = 1.000e+00 @@ -4969,7 +4969,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 205 Density (g/cm³) = 0.90363 Volume (L) = 1.13011 - Viscosity (mPa s) = 0.15891 + Viscosity (mPa s) = 0.15892 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.517e-04 Mass of water (kg) = 1.000e+00 @@ -5029,7 +5029,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 217 Density (g/cm³) = 0.90977 Volume (L) = 1.12248 - Viscosity (mPa s) = 0.16152 + Viscosity (mPa s) = 0.16153 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.674e-04 Mass of water (kg) = 1.000e+00 @@ -5089,7 +5089,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 228 Density (g/cm³) = 0.91566 Volume (L) = 1.11526 - Viscosity (mPa s) = 0.16403 + Viscosity (mPa s) = 0.16404 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.827e-04 Mass of water (kg) = 1.000e+00 @@ -5149,7 +5149,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 239 Density (g/cm³) = 0.92131 Volume (L) = 1.10842 - Viscosity (mPa s) = 0.16646 + Viscosity (mPa s) = 0.16647 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.976e-04 Mass of water (kg) = 1.000e+00 @@ -5209,7 +5209,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 250 Density (g/cm³) = 0.92674 Volume (L) = 1.10193 - Viscosity (mPa s) = 0.16883 + Viscosity (mPa s) = 0.16884 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.122e-04 Mass of water (kg) = 1.000e+00 @@ -5266,10 +5266,10 @@ Using pressure 1. pH = 3.501 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 176°C) = 261 + Specific Conductance (µS/cm, 176°C) = 260 Density (g/cm³) = 0.93197 Volume (L) = 1.09574 - Viscosity (mPa s) = 0.17115 + Viscosity (mPa s) = 0.17116 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.264e-04 Mass of water (kg) = 1.000e+00 @@ -5329,7 +5329,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 271 Density (g/cm³) = 0.93703 Volume (L) = 1.08983 - Viscosity (mPa s) = 0.17343 + Viscosity (mPa s) = 0.17344 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.403e-04 Mass of water (kg) = 1.000e+00 @@ -5389,7 +5389,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 281 Density (g/cm³) = 0.94192 Volume (L) = 1.08417 - Viscosity (mPa s) = 0.17567 + Viscosity (mPa s) = 0.17568 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.539e-04 Mass of water (kg) = 1.000e+00 @@ -5449,7 +5449,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 290 Density (g/cm³) = 0.94667 Volume (L) = 1.07872 - Viscosity (mPa s) = 0.17789 + Viscosity (mPa s) = 0.17790 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.672e-04 Mass of water (kg) = 1.000e+00 @@ -5532,7 +5532,7 @@ Initial solution 1. Specific Conductance (µS/cm, 2°C) = 85 Density (g/cm³) = 1.00992 Volume (L) = 1.03150 - Viscosity (mPa s) = 1.95042 + Viscosity (mPa s) = 1.95041 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.369e-04 Mass of water (kg) = 1.000e+00 @@ -5594,7 +5594,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 85 Density (g/cm³) = 1.00992 Volume (L) = 1.03150 - Viscosity (mPa s) = 1.95042 + Viscosity (mPa s) = 1.95041 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.369e-04 Mass of water (kg) = 1.000e+00 @@ -5652,7 +5652,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 93 Density (g/cm³) = 1.01486 Volume (L) = 1.02648 - Viscosity (mPa s) = 1.92948 + Viscosity (mPa s) = 1.92947 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.737e-04 Mass of water (kg) = 1.000e+00 @@ -5711,7 +5711,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 101 Density (g/cm³) = 1.01968 Volume (L) = 1.02163 - Viscosity (mPa s) = 1.91065 + Viscosity (mPa s) = 1.91064 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.122e-04 Mass of water (kg) = 1.000e+00 @@ -5770,7 +5770,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 109 Density (g/cm³) = 1.02438 Volume (L) = 1.01694 - Viscosity (mPa s) = 1.89386 + Viscosity (mPa s) = 1.89385 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.525e-04 Mass of water (kg) = 1.000e+00 @@ -5829,7 +5829,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 118 Density (g/cm³) = 1.02896 Volume (L) = 1.01241 - Viscosity (mPa s) = 1.87905 + Viscosity (mPa s) = 1.87904 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.948e-04 Mass of water (kg) = 1.000e+00 @@ -5888,7 +5888,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 128 Density (g/cm³) = 1.03342 Volume (L) = 1.00804 - Viscosity (mPa s) = 1.86611 + Viscosity (mPa s) = 1.86610 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.389e-04 Mass of water (kg) = 1.000e+00 @@ -5947,7 +5947,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 138 Density (g/cm³) = 1.03777 Volume (L) = 1.00382 - Viscosity (mPa s) = 1.85496 + Viscosity (mPa s) = 1.85495 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.852e-04 Mass of water (kg) = 1.000e+00 @@ -6006,7 +6006,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 148 Density (g/cm³) = 1.04201 Volume (L) = 0.99973 - Viscosity (mPa s) = 1.84549 + Viscosity (mPa s) = 1.84548 Activity of water = 0.983 Ionic strength (mol/kgw) = 8.335e-04 Mass of water (kg) = 1.000e+00 @@ -6065,7 +6065,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 159 Density (g/cm³) = 1.04616 Volume (L) = 0.99577 - Viscosity (mPa s) = 1.83760 + Viscosity (mPa s) = 1.83759 Activity of water = 0.983 Ionic strength (mol/kgw) = 8.841e-04 Mass of water (kg) = 1.000e+00 @@ -6183,7 +6183,7 @@ Using pressure 1. Specific Conductance (µS/cm, 2°C) = 182 Density (g/cm³) = 1.05421 Volume (L) = 0.98816 - Viscosity (mPa s) = 1.82625 + Viscosity (mPa s) = 1.82624 Activity of water = 0.983 Ionic strength (mol/kgw) = 9.921e-04 Mass of water (kg) = 1.000e+00 @@ -6260,7 +6260,7 @@ Using pressure 1. Specific Conductance (µS/cm, 23°C) = 186 Density (g/cm³) = 1.00649 Volume (L) = 1.03501 - Viscosity (mPa s) = 1.00455 + Viscosity (mPa s) = 1.00454 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.554e-04 Mass of water (kg) = 1.000e+00 @@ -6379,7 +6379,7 @@ Using pressure 1. Specific Conductance (µS/cm, 23°C) = 213 Density (g/cm³) = 1.01533 Volume (L) = 1.02600 - Viscosity (mPa s) = 1.00134 + Viscosity (mPa s) = 1.00133 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.346e-04 Mass of water (kg) = 1.000e+00 @@ -6799,7 +6799,7 @@ Using pressure 1. Specific Conductance (µS/cm, 23°C) = 322 Density (g/cm³) = 1.04382 Volume (L) = 0.99800 - Viscosity (mPa s) = 1.00284 + Viscosity (mPa s) = 1.00283 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.053e-03 Mass of water (kg) = 1.000e+00 @@ -6995,7 +6995,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 321 Density (g/cm³) = 1.00017 Volume (L) = 1.04155 - Viscosity (mPa s) = 0.56735 + Viscosity (mPa s) = 0.56736 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.377e-04 Mass of water (kg) = 1.000e+00 @@ -7055,7 +7055,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 340 Density (g/cm³) = 1.00441 Volume (L) = 1.03716 - Viscosity (mPa s) = 0.56962 + Viscosity (mPa s) = 0.56963 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.767e-04 Mass of water (kg) = 1.000e+00 @@ -7175,7 +7175,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 378 Density (g/cm³) = 1.01265 Volume (L) = 1.02872 - Viscosity (mPa s) = 0.57439 + Viscosity (mPa s) = 0.57440 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.572e-04 Mass of water (kg) = 1.000e+00 @@ -7235,7 +7235,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 397 Density (g/cm³) = 1.01665 Volume (L) = 1.02467 - Viscosity (mPa s) = 0.57689 + Viscosity (mPa s) = 0.57690 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.986e-04 Mass of water (kg) = 1.000e+00 @@ -7295,7 +7295,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 417 Density (g/cm³) = 1.02058 Volume (L) = 1.02073 - Viscosity (mPa s) = 0.57947 + Viscosity (mPa s) = 0.57948 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.407e-04 Mass of water (kg) = 1.000e+00 @@ -7355,7 +7355,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 437 Density (g/cm³) = 1.02443 Volume (L) = 1.01689 - Viscosity (mPa s) = 0.58213 + Viscosity (mPa s) = 0.58214 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.837e-04 Mass of water (kg) = 1.000e+00 @@ -7475,7 +7475,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 478 Density (g/cm³) = 1.03193 Volume (L) = 1.00950 - Viscosity (mPa s) = 0.58770 + Viscosity (mPa s) = 0.58771 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.072e-03 Mass of water (kg) = 1.000e+00 @@ -7671,7 +7671,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 379 Density (g/cm³) = 0.98626 Volume (L) = 1.05625 - Viscosity (mPa s) = 0.38870 + Viscosity (mPa s) = 0.38871 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.955e-04 Mass of water (kg) = 1.000e+00 @@ -7728,10 +7728,10 @@ Using pressure 1. pH = 3.155 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 400 + Specific Conductance (µS/cm, 75°C) = 399 Density (g/cm³) = 0.99063 Volume (L) = 1.05159 - Viscosity (mPa s) = 0.39148 + Viscosity (mPa s) = 0.39149 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.314e-04 Mass of water (kg) = 1.000e+00 @@ -7791,7 +7791,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 420 Density (g/cm³) = 0.99489 Volume (L) = 1.04709 - Viscosity (mPa s) = 0.39426 + Viscosity (mPa s) = 0.39427 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.678e-04 Mass of water (kg) = 1.000e+00 @@ -7851,7 +7851,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 440 Density (g/cm³) = 0.99905 Volume (L) = 1.04273 - Viscosity (mPa s) = 0.39704 + Viscosity (mPa s) = 0.39705 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.045e-04 Mass of water (kg) = 1.000e+00 @@ -7911,7 +7911,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 461 Density (g/cm³) = 1.00311 Volume (L) = 1.03850 - Viscosity (mPa s) = 0.39983 + Viscosity (mPa s) = 0.39984 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.417e-04 Mass of water (kg) = 1.000e+00 @@ -7971,7 +7971,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 482 Density (g/cm³) = 1.00709 Volume (L) = 1.03439 - Viscosity (mPa s) = 0.40263 + Viscosity (mPa s) = 0.40264 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.792e-04 Mass of water (kg) = 1.000e+00 @@ -8031,7 +8031,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 503 Density (g/cm³) = 1.01099 Volume (L) = 1.03040 - Viscosity (mPa s) = 0.40545 + Viscosity (mPa s) = 0.40546 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.172e-04 Mass of water (kg) = 1.000e+00 @@ -8091,7 +8091,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 524 Density (g/cm³) = 1.01482 Volume (L) = 1.02652 - Viscosity (mPa s) = 0.40828 + Viscosity (mPa s) = 0.40829 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.556e-04 Mass of water (kg) = 1.000e+00 @@ -8148,10 +8148,10 @@ Using pressure 1. pH = 3.023 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 546 + Specific Conductance (µS/cm, 75°C) = 545 Density (g/cm³) = 1.01856 Volume (L) = 1.02275 - Viscosity (mPa s) = 0.41112 + Viscosity (mPa s) = 0.41113 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.944e-04 Mass of water (kg) = 1.000e+00 @@ -8211,7 +8211,7 @@ Using pressure 1. Specific Conductance (µS/cm, 75°C) = 567 Density (g/cm³) = 1.02222 Volume (L) = 1.01909 - Viscosity (mPa s) = 0.41398 + Viscosity (mPa s) = 0.41399 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.034e-03 Mass of water (kg) = 1.000e+00 @@ -8288,7 +8288,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 365 Density (g/cm³) = 0.96405 Volume (L) = 1.08058 - Viscosity (mPa s) = 0.28594 + Viscosity (mPa s) = 0.28595 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.783e-04 Mass of water (kg) = 1.000e+00 @@ -8347,7 +8347,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 385 Density (g/cm³) = 0.96891 Volume (L) = 1.07516 - Viscosity (mPa s) = 0.28879 + Viscosity (mPa s) = 0.28880 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.101e-04 Mass of water (kg) = 1.000e+00 @@ -8407,7 +8407,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 405 Density (g/cm³) = 0.97359 Volume (L) = 1.06999 - Viscosity (mPa s) = 0.29160 + Viscosity (mPa s) = 0.29161 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.421e-04 Mass of water (kg) = 1.000e+00 @@ -8467,7 +8467,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 425 Density (g/cm³) = 0.97813 Volume (L) = 1.06503 - Viscosity (mPa s) = 0.29436 + Viscosity (mPa s) = 0.29437 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.743e-04 Mass of water (kg) = 1.000e+00 @@ -8524,10 +8524,10 @@ Using pressure 1. pH = 3.170 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 446 + Specific Conductance (µS/cm, 100°C) = 445 Density (g/cm³) = 0.98253 Volume (L) = 1.06025 - Viscosity (mPa s) = 0.29710 + Viscosity (mPa s) = 0.29711 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.065e-04 Mass of water (kg) = 1.000e+00 @@ -8587,7 +8587,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 466 Density (g/cm³) = 0.98682 Volume (L) = 1.05565 - Viscosity (mPa s) = 0.29982 + Viscosity (mPa s) = 0.29983 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.389e-04 Mass of water (kg) = 1.000e+00 @@ -8647,7 +8647,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 486 Density (g/cm³) = 0.99100 Volume (L) = 1.05119 - Viscosity (mPa s) = 0.30253 + Viscosity (mPa s) = 0.30254 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.714e-04 Mass of water (kg) = 1.000e+00 @@ -8707,7 +8707,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 506 Density (g/cm³) = 0.99509 Volume (L) = 1.04687 - Viscosity (mPa s) = 0.30523 + Viscosity (mPa s) = 0.30524 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.040e-04 Mass of water (kg) = 1.000e+00 @@ -8767,7 +8767,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 526 Density (g/cm³) = 0.99908 Volume (L) = 1.04269 - Viscosity (mPa s) = 0.30792 + Viscosity (mPa s) = 0.30793 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.368e-04 Mass of water (kg) = 1.000e+00 @@ -8827,7 +8827,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 546 Density (g/cm³) = 1.00297 Volume (L) = 1.03865 - Viscosity (mPa s) = 0.31059 + Viscosity (mPa s) = 0.31060 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.696e-04 Mass of water (kg) = 1.000e+00 @@ -8887,7 +8887,7 @@ Using pressure 1. Specific Conductance (µS/cm, 100°C) = 566 Density (g/cm³) = 1.00676 Volume (L) = 1.03473 - Viscosity (mPa s) = 0.31325 + Viscosity (mPa s) = 0.31326 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.026e-04 Mass of water (kg) = 1.000e+00 @@ -8964,7 +8964,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 335 Density (g/cm³) = 0.94314 Volume (L) = 1.10454 - Viscosity (mPa s) = 0.22459 + Viscosity (mPa s) = 0.22460 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.812e-04 Mass of water (kg) = 1.000e+00 @@ -9024,7 +9024,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 354 Density (g/cm³) = 0.94843 Volume (L) = 1.09837 - Viscosity (mPa s) = 0.22734 + Viscosity (mPa s) = 0.22735 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.091e-04 Mass of water (kg) = 1.000e+00 @@ -9084,7 +9084,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 373 Density (g/cm³) = 0.95358 Volume (L) = 1.09244 - Viscosity (mPa s) = 0.23007 + Viscosity (mPa s) = 0.23008 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.373e-04 Mass of water (kg) = 1.000e+00 @@ -9144,7 +9144,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 392 Density (g/cm³) = 0.95854 Volume (L) = 1.08679 - Viscosity (mPa s) = 0.23274 + Viscosity (mPa s) = 0.23275 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.653e-04 Mass of water (kg) = 1.000e+00 @@ -9204,7 +9204,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 411 Density (g/cm³) = 0.96333 Volume (L) = 1.08138 - Viscosity (mPa s) = 0.23538 + Viscosity (mPa s) = 0.23539 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.932e-04 Mass of water (kg) = 1.000e+00 @@ -9264,7 +9264,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 429 Density (g/cm³) = 0.96798 Volume (L) = 1.07619 - Viscosity (mPa s) = 0.23798 + Viscosity (mPa s) = 0.23799 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.210e-04 Mass of water (kg) = 1.000e+00 @@ -9324,7 +9324,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 447 Density (g/cm³) = 0.97250 Volume (L) = 1.07119 - Viscosity (mPa s) = 0.24055 + Viscosity (mPa s) = 0.24056 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.487e-04 Mass of water (kg) = 1.000e+00 @@ -9384,7 +9384,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 465 Density (g/cm³) = 0.97689 Volume (L) = 1.06638 - Viscosity (mPa s) = 0.24310 + Viscosity (mPa s) = 0.24311 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.763e-04 Mass of water (kg) = 1.000e+00 @@ -9444,7 +9444,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 483 Density (g/cm³) = 0.98116 Volume (L) = 1.06173 - Viscosity (mPa s) = 0.24563 + Viscosity (mPa s) = 0.24564 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.038e-04 Mass of water (kg) = 1.000e+00 @@ -9504,7 +9504,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 501 Density (g/cm³) = 0.98532 Volume (L) = 1.05725 - Viscosity (mPa s) = 0.24814 + Viscosity (mPa s) = 0.24815 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.312e-04 Mass of water (kg) = 1.000e+00 @@ -9564,7 +9564,7 @@ Using pressure 1. Specific Conductance (µS/cm, 125°C) = 519 Density (g/cm³) = 0.98936 Volume (L) = 1.05294 - Viscosity (mPa s) = 0.25062 + Viscosity (mPa s) = 0.25063 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.585e-04 Mass of water (kg) = 1.000e+00 @@ -9641,7 +9641,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 287 Density (g/cm³) = 0.91868 Volume (L) = 1.13395 - Viscosity (mPa s) = 0.18335 + Viscosity (mPa s) = 0.18336 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.844e-04 Mass of water (kg) = 1.000e+00 @@ -9701,7 +9701,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 304 Density (g/cm³) = 0.92449 Volume (L) = 1.12682 - Viscosity (mPa s) = 0.18600 + Viscosity (mPa s) = 0.18601 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.084e-04 Mass of water (kg) = 1.000e+00 @@ -9761,7 +9761,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 321 Density (g/cm³) = 0.93028 Volume (L) = 1.11981 - Viscosity (mPa s) = 0.18868 + Viscosity (mPa s) = 0.18869 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.331e-04 Mass of water (kg) = 1.000e+00 @@ -9821,7 +9821,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 338 Density (g/cm³) = 0.93584 Volume (L) = 1.11316 - Viscosity (mPa s) = 0.19130 + Viscosity (mPa s) = 0.19131 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.575e-04 Mass of water (kg) = 1.000e+00 @@ -9881,7 +9881,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 355 Density (g/cm³) = 0.94119 Volume (L) = 1.10683 - Viscosity (mPa s) = 0.19386 + Viscosity (mPa s) = 0.19387 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.815e-04 Mass of water (kg) = 1.000e+00 @@ -9941,7 +9941,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 371 Density (g/cm³) = 0.94635 Volume (L) = 1.10079 - Viscosity (mPa s) = 0.19637 + Viscosity (mPa s) = 0.19638 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.052e-04 Mass of water (kg) = 1.000e+00 @@ -10001,7 +10001,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 387 Density (g/cm³) = 0.95133 Volume (L) = 1.09502 - Viscosity (mPa s) = 0.19884 + Viscosity (mPa s) = 0.19885 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.286e-04 Mass of water (kg) = 1.000e+00 @@ -10061,7 +10061,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 403 Density (g/cm³) = 0.95616 Volume (L) = 1.08950 - Viscosity (mPa s) = 0.20128 + Viscosity (mPa s) = 0.20129 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.517e-04 Mass of water (kg) = 1.000e+00 @@ -10121,7 +10121,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 418 Density (g/cm³) = 0.96084 Volume (L) = 1.08419 - Viscosity (mPa s) = 0.20368 + Viscosity (mPa s) = 0.20369 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.745e-04 Mass of water (kg) = 1.000e+00 @@ -10181,7 +10181,7 @@ Using pressure 1. Specific Conductance (µS/cm, 151°C) = 434 Density (g/cm³) = 0.96537 Volume (L) = 1.07910 - Viscosity (mPa s) = 0.20605 + Viscosity (mPa s) = 0.20607 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.971e-04 Mass of water (kg) = 1.000e+00 @@ -10238,10 +10238,10 @@ Using pressure 1. pH = 3.228 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 151°C) = 449 + Specific Conductance (µS/cm, 151°C) = 448 Density (g/cm³) = 0.96978 Volume (L) = 1.07420 - Viscosity (mPa s) = 0.20840 + Viscosity (mPa s) = 0.20841 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.193e-04 Mass of water (kg) = 1.000e+00 @@ -10318,7 +10318,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 239 Density (g/cm³) = 0.89084 Volume (L) = 1.16938 - Viscosity (mPa s) = 0.15293 + Viscosity (mPa s) = 0.15294 Activity of water = 0.984 Ionic strength (mol/kgw) = 2.985e-04 Mass of water (kg) = 1.000e+00 @@ -10378,7 +10378,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 252 Density (g/cm³) = 0.89728 Volume (L) = 1.16099 - Viscosity (mPa s) = 0.15603 + Viscosity (mPa s) = 0.15604 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.191e-04 Mass of water (kg) = 1.000e+00 @@ -10438,7 +10438,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 266 Density (g/cm³) = 0.90396 Volume (L) = 1.15241 - Viscosity (mPa s) = 0.15906 + Viscosity (mPa s) = 0.15907 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.409e-04 Mass of water (kg) = 1.000e+00 @@ -10498,7 +10498,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 280 Density (g/cm³) = 0.91034 Volume (L) = 1.14434 - Viscosity (mPa s) = 0.16187 + Viscosity (mPa s) = 0.16188 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.622e-04 Mass of water (kg) = 1.000e+00 @@ -10558,7 +10558,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 295 Density (g/cm³) = 0.91644 Volume (L) = 1.13672 - Viscosity (mPa s) = 0.16454 + Viscosity (mPa s) = 0.16455 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.830e-04 Mass of water (kg) = 1.000e+00 @@ -10615,10 +10615,10 @@ Using pressure 1. pH = 3.413 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 176°C) = 309 + Specific Conductance (µS/cm, 176°C) = 308 Density (g/cm³) = 0.92228 Volume (L) = 1.12951 - Viscosity (mPa s) = 0.16710 + Viscosity (mPa s) = 0.16711 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.032e-04 Mass of water (kg) = 1.000e+00 @@ -10678,7 +10678,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 322 Density (g/cm³) = 0.92789 Volume (L) = 1.12268 - Viscosity (mPa s) = 0.16957 + Viscosity (mPa s) = 0.16958 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.230e-04 Mass of water (kg) = 1.000e+00 @@ -10738,7 +10738,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 335 Density (g/cm³) = 0.93329 Volume (L) = 1.11619 - Viscosity (mPa s) = 0.17197 + Viscosity (mPa s) = 0.17199 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.423e-04 Mass of water (kg) = 1.000e+00 @@ -10798,7 +10798,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 348 Density (g/cm³) = 0.93850 Volume (L) = 1.11000 - Viscosity (mPa s) = 0.17432 + Viscosity (mPa s) = 0.17434 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.611e-04 Mass of water (kg) = 1.000e+00 @@ -10858,7 +10858,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 361 Density (g/cm³) = 0.94353 Volume (L) = 1.10408 - Viscosity (mPa s) = 0.17663 + Viscosity (mPa s) = 0.17665 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.796e-04 Mass of water (kg) = 1.000e+00 @@ -10918,7 +10918,7 @@ Using pressure 1. Specific Conductance (µS/cm, 176°C) = 373 Density (g/cm³) = 0.94841 Volume (L) = 1.09839 - Viscosity (mPa s) = 0.17891 + Viscosity (mPa s) = 0.17892 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.976e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/McBride_rho_101.sel b/mytest/McBride_rho_101.sel index aaf8be45..8d1b8def 100644 --- a/mytest/McBride_rho_101.sel +++ b/mytest/McBride_rho_101.sel @@ -1,268 +1,268 @@ Mu SC - 0.000379071137 75.1821620219 - 0.000379071137 75.1821620219 - 0.000404980088 81.9646003910 - 0.000432120111 89.1357967146 - 0.000460538464 96.6988957480 - 0.000490284705 104.6577878843 - 0.000521410572 113.0171799405 - 0.000553969814 121.7826709547 - 0.000588018023 130.9607800947 - 0.000623612207 140.5588498693 - 0.000660810654 150.5849244982 - 0.000699672394 161.0474411012 - 0.000469260891 153.2704770069 - 0.000497123127 164.0732266854 - 0.000525871949 175.2848628067 - 0.000555525219 186.8971768977 - 0.000586102338 198.9036759729 - 0.000617623953 211.2994984285 - 0.000650111630 224.0813612607 - 0.000683587468 237.2474293410 - 0.000718073633 250.7970682480 - 0.000753591836 264.7304602076 - 0.000790162715 279.0480674476 - 0.000507210707 240.1486401542 - 0.000534936957 254.4308322472 - 0.000563213426 269.0201811774 - 0.000592043095 283.9079252109 - 0.000621429921 299.0861138691 - 0.000651378708 314.5475509217 - 0.000681894953 330.2857276828 - 0.000712984685 346.2947272380 - 0.000744654274 362.5690916634 - 0.000776910238 379.1036492021 - 0.000809759017 395.8933000736 - 0.000482515584 281.6995504777 - 0.000508420259 297.3098627801 - 0.000534627067 313.0844669833 - 0.000561133593 329.0161402201 - 0.000587938182 345.0977810264 - 0.000615039959 361.3225002496 - 0.000642438850 377.6837083850 - 0.000670135641 394.1752350176 - 0.000698132056 410.7914876430 - 0.000726430873 427.5276519261 - 0.000755036067 444.3799331033 - 0.000424985691 285.5697142570 - 0.000448372695 301.2081099757 - 0.000471856643 316.8654233548 - 0.000495432307 332.5337256843 - 0.000519096231 348.2061205943 - 0.000542846152 363.8764645804 - 0.000566680988 379.5394923061 - 0.000590600888 395.1910224364 - 0.000614607343 410.8282436368 - 0.000638703364 426.4500764355 - 0.000662893705 442.0576044720 - 0.000354793838 261.9743805700 - 0.000375321545 276.7092917523 - 0.000396041906 291.5197688228 - 0.000416678830 306.2037357255 - 0.000437229701 320.7560264120 - 0.000457693977 335.1732281304 - 0.000478072876 349.4535577247 - 0.000498369173 363.5968515450 - 0.000518587093 377.6046543194 - 0.000538732284 391.4803935800 - 0.000558811865 405.2296271268 - 0.000283798216 223.2163489322 - 0.000301536355 236.5369757466 - 0.000319733515 250.1439175661 - 0.000337687812 263.5036530460 - 0.000355400251 276.6131132403 - 0.000372875135 289.4727991151 - 0.000390119205 302.0858464103 - 0.000407140981 314.4573538215 - 0.000423950266 326.5939065171 - 0.000440557773 338.5032481946 - 0.000456974862 350.1940678872 - 0.000220426724 182.5710570091 - 0.000235597425 193.5146028711 - 0.000251695900 205.3910242285 - 0.000267394874 217.0844488222 - 0.000282702578 228.5194800693 - 0.000297632070 239.6638907789 - 0.000312199505 250.5063899844 - 0.000326422840 261.0466132978 - 0.000340320846 271.2900023739 - 0.000353912378 281.2449181920 - 0.000367215826 290.9208884192 - 0.000536929128 85.4999065457 - 0.000536929128 85.4999065457 - 0.000573689771 93.1518064528 - 0.000612202641 101.2391578497 - 0.000652535291 109.7652996010 - 0.000694758585 118.7344329250 - 0.000738946560 128.1517025078 - 0.000785176058 138.0232515265 - 0.000833526612 148.3562691241 - 0.000884079954 159.1588924676 - 0.000936919559 170.4400181764 - 0.000992130063 182.2089780107 - 0.000655392633 186.7878176586 - 0.000694376714 199.9105294689 - 0.000734606721 213.5267626517 - 0.000776107914 227.6265236701 - 0.000818907717 242.2019039489 - 0.000863035328 257.2469758630 - 0.000908521261 272.7577227273 - 0.000955396807 288.7318732378 - 0.001003693396 305.1685940469 - 0.001053441858 322.0680159012 - 0.001104671572 339.4305744817 - 0.000699361583 303.6573862023 - 0.000737661049 321.6890411316 - 0.000776725362 340.1056506682 - 0.000816558758 358.8962091703 - 0.000857166815 378.0507247529 - 0.000898556293 397.5601503090 - 0.000940734925 417.4162975295 - 0.000983711185 437.6117138628 - 0.001027494039 458.1395126136 - 0.001072092668 478.9931524531 - 0.001117516167 500.1661647270 - 0.000660024083 359.9446282965 - 0.000695520385 379.8710671726 - 0.000731434664 400.0052119640 - 0.000767763657 420.3378095044 - 0.000804505128 440.8597712943 - 0.000841657908 461.5622933605 - 0.000879221929 482.4369692795 - 0.000917198291 503.4759449265 - 0.000955589377 524.6721237744 - 0.000994399008 546.0194251804 - 0.001033632639 567.5130951788 - 0.000578260842 365.8640724585 - 0.000610135078 385.8776427937 - 0.000642143916 405.9141315306 - 0.000674280920 425.9636762546 - 0.000706541347 446.0173230778 - 0.000738922080 466.0671154753 - 0.000771421604 486.1062580316 - 0.000804040073 506.1293844158 - 0.000836779462 526.1329282323 - 0.000869643800 546.1155909184 - 0.000902639483 566.0788982712 - 0.000481238100 335.9590450598 - 0.000509128242 354.8028952300 - 0.000537277765 373.7421748880 - 0.000565316413 392.5212768623 - 0.000593240536 411.1331428921 - 0.000621049308 429.5730361851 - 0.000648744296 447.8383787001 - 0.000676329184 465.9287361121 - 0.000703809620 483.8459305966 - 0.000731193184 501.5942637980 - 0.000758489447 519.1808337195 - 0.000384379331 287.1572330210 - 0.000408445987 304.0850463641 - 0.000433128310 321.3920248025 - 0.000457483146 338.4013918506 - 0.000481511699 355.1050700907 - 0.000505219663 371.5006233141 - 0.000528616062 387.5897301555 - 0.000551712350 403.3771135130 - 0.000574521731 418.8697911229 - 0.000597058655 434.0765605578 - 0.000619338457 449.0076596331 - 0.000298517663 239.3096827675 - 0.000319104316 252.1041443829 - 0.000340935562 266.4620320445 - 0.000362226519 280.8581777457 - 0.000382988127 295.0852956346 - 0.000403237912 309.0443421326 - 0.000422997646 322.6876453448 - 0.000442291569 335.9942102203 - 0.000461145057 348.9575795347 - 0.000479583625 361.5792706216 - 0.000497632174 373.8649520343 - 0.000692637345 84.8399411433 - 0.000692637345 84.8399411433 - 0.000740124278 92.3621250762 - 0.000789880411 100.3087099851 - 0.000841993530 108.6827298985 - 0.000896555718 117.4880872431 - 0.000953663228 126.7296310132 - 0.001013415924 136.4131935432 - 0.001075917245 146.5456433936 - 0.001141273517 157.1347736357 - 0.001209593379 168.1891107941 - 0.001280987036 179.7175887876 - 0.000830210670 200.1030079374 - 0.000879663193 214.1019771904 - 0.000930701513 228.6229683539 - 0.000983357922 243.6552758035 - 0.001037667466 259.1904195116 - 0.001093667470 275.2220307736 - 0.001151396959 291.7457692564 - 0.001210895974 308.7591368932 - 0.001272204770 326.2611398458 - 0.001335362889 344.2517727054 - 0.001400408075 362.7313050953 - 0.000871365535 339.6682349249 - 0.000919149868 359.7922222513 - 0.000967892905 380.3413829539 - 0.001017600028 401.3035023659 - 0.001068278295 422.6674839255 - 0.001119936249 444.4232747233 - 0.001172583654 466.5617668092 - 0.001226231216 489.0746566182 - 0.001280890264 511.9542519090 - 0.001336572413 535.1932222056 - 0.001393289185 558.7842910369 - 0.000813985027 407.7373575856 - 0.000857817578 430.2718482134 - 0.000902169818 453.0378364265 - 0.000947037752 476.0248082877 - 0.000992418650 499.2224523911 - 0.001038311093 522.6207989532 - 0.001084715017 546.2103501375 - 0.001131631801 569.9822586517 - 0.001179064401 593.9285639083 - 0.001227017543 618.0424882142 - 0.001275497963 642.3187922991 - 0.000708369076 415.7908822814 - 0.000747461031 438.4933101856 - 0.000786720855 461.2200300706 - 0.000826140637 483.9596354159 - 0.000865714533 506.7017961056 - 0.000905438688 529.4373626244 - 0.000945311209 552.1585572595 - 0.000985332238 574.8592855075 - 0.001025504144 597.5355642686 - 0.001065831803 620.1860601338 - 0.001106322976 642.8127278596 - 0.000587200541 382.2815209269 - 0.000621275491 403.6378806562 - 0.000655662586 425.1007044349 - 0.000689916382 446.3839504894 - 0.000724032337 467.4789849731 - 0.000758009364 488.3799195765 - 0.000791849302 509.0834208160 - 0.000825556572 529.5886903303 - 0.000859137998 549.8975919195 - 0.000892602755 570.0149045721 - 0.000925962444 589.9486826467 - 0.000468194103 328.0883349589 - 0.000497550319 347.1163608556 - 0.000527646393 366.5944485081 - 0.000557344820 385.7622993948 - 0.000586646926 404.6045884646 - 0.000615559534 423.1140105502 - 0.000644093544 441.2890427413 - 0.000672262832 459.1324086627 - 0.000700083419 476.6500170276 - 0.000727572856 493.8502341520 - 0.000754749781 510.7433989936 - 0.000363610029 280.0956886749 - 0.000388730514 292.7373577895 - 0.000415348565 307.7509506202 - 0.000441309149 323.2312864438 - 0.000466625412 338.7670969286 - 0.000491318568 354.1558138325 - 0.000515415040 369.2922129720 - 0.000538944291 384.1212101926 - 0.000561937195 398.6152125230 - 0.000584424814 412.7621698321 - 0.000606437480 426.5587826795 + 0.000379071137 75.1829017174 + 0.000379071137 75.1829017174 + 0.000404980088 81.9654317857 + 0.000432120111 89.1367283112 + 0.000460538464 96.6999365291 + 0.000490284705 104.6589473373 + 0.000521410572 113.0184680843 + 0.000553969814 121.7840983697 + 0.000588018023 130.9623579545 + 0.000623612207 140.5605899729 + 0.000660810654 150.5868393024 + 0.000699672394 161.0495437493 + 0.000469260891 153.2706506242 + 0.000497123127 164.0734175124 + 0.000525871949 175.2850719852 + 0.000555525219 186.8974055993 + 0.000586102338 198.9039254005 + 0.000617623953 211.2997698186 + 0.000650111630 224.0816558855 + 0.000683587468 237.2477485103 + 0.000718073633 250.7974133114 + 0.000753591836 264.7308325557 + 0.000790162715 279.0484685129 + 0.000507210707 240.1442432385 + 0.000534936957 254.4260605228 + 0.000563213426 269.0150172439 + 0.000592043095 283.9023515318 + 0.000621429921 299.0801127634 + 0.000651378708 314.5411045550 + 0.000681894953 330.2788180582 + 0.000712984685 346.2873361881 + 0.000744654274 362.5612008450 + 0.000776910238 379.0952400945 + 0.000809759017 395.8843539820 + 0.000482515584 281.6877099077 + 0.000508420259 297.2970714665 + 0.000534627067 313.0706924492 + 0.000561133593 329.0013502863 + 0.000587938182 345.0819438069 + 0.000615039959 361.3055841417 + 0.000642438850 377.6656820536 + 0.000670135641 394.1560673721 + 0.000698132056 410.7711478017 + 0.000726430873 427.5061091675 + 0.000755036067 444.3571567971 + 0.000424985691 285.5499311375 + 0.000448372695 301.1867466026 + 0.000471856643 316.8424409616 + 0.000495432307 332.5090870714 + 0.000519096231 348.1797899935 + 0.000542846152 363.8484075478 + 0.000566680988 379.5096756016 + 0.000590600888 395.1594138813 + 0.000614607343 410.7948119387 + 0.000638703364 426.4147909707 + 0.000662893705 442.0204350140 + 0.000354793838 261.9487759291 + 0.000375321545 276.6815809929 + 0.000396041906 291.4898905864 + 0.000416678830 306.1716596842 + 0.000437229701 320.7217253225 + 0.000457693977 335.1366774360 + 0.000478072876 349.4147351759 + 0.000498369173 363.5557368232 + 0.000518587093 377.5612286493 + 0.000538732284 391.4346393159 + 0.000558811865 405.1815272991 + 0.000283798216 223.1882093145 + 0.000301536355 236.5063830192 + 0.000319733515 250.1107562069 + 0.000337687812 263.4679096755 + 0.000355400251 276.5747798183 + 0.000372875135 289.4318718693 + 0.000390119205 302.0423249406 + 0.000407140981 314.4112403444 + 0.000423950266 326.5452052223 + 0.000440557773 338.4519646894 + 0.000456974862 350.1402087072 + 0.000220426724 182.5430621540 + 0.000235597425 193.4841706525 + 0.000251695900 205.3578802476 + 0.000267394874 217.0485693918 + 0.000282702578 228.4808647332 + 0.000297632070 239.6225526690 + 0.000312199505 250.4623506462 + 0.000326422840 260.9998996060 + 0.000340320846 271.2406445806 + 0.000353912378 281.1929486675 + 0.000367215826 290.8663408536 + 0.000536929128 85.5008403756 + 0.000536929128 85.5008403756 + 0.000573689771 93.1528551974 + 0.000612202641 101.2403321002 + 0.000652535291 109.7666105420 + 0.000694758585 118.7358923659 + 0.000738946560 128.1533229165 + 0.000785176058 138.0250460658 + 0.000833526612 148.3582516918 + 0.000884079954 159.1610777367 + 0.000936919559 170.4424216342 + 0.000992130063 182.2116159952 + 0.000655392633 186.7880581138 + 0.000694376714 199.9107936988 + 0.000734606721 213.5270522279 + 0.000776107914 227.6268402047 + 0.000818907717 242.2022490971 + 0.000863035328 257.2473513259 + 0.000908521261 272.7581302548 + 0.000955396807 288.7323146318 + 0.001003693396 305.1690711635 + 0.001053441858 322.0685306529 + 0.001104671572 339.4311288383 + 0.000699361583 303.6509905707 + 0.000737661049 321.6821008620 + 0.000776725362 340.0981405499 + 0.000816558758 358.8881037965 + 0.000857166815 378.0419985087 + 0.000898556293 397.5507773582 + 0.000940734925 417.4062518018 + 0.000983711185 437.6009690420 + 0.001027494039 458.1280421303 + 0.001072092668 478.9809294821 + 0.001117516167 500.1531621931 + 0.000660024083 359.9271691743 + 0.000695520385 379.8522071989 + 0.000731434664 399.9849034076 + 0.000767763657 420.3160050768 + 0.000804505128 440.8364241429 + 0.000841657908 461.5373570531 + 0.000879221929 482.4103977807 + 0.000917198291 503.4476925621 + 0.000955589377 524.6421451791 + 0.000994399008 545.9876752228 + 0.001033632639 567.4795288602 + 0.000578260842 365.8348045709 + 0.000610135078 385.8460398953 + 0.000642143916 405.8801365221 + 0.000674280920 425.9272343085 + 0.000706541347 445.9783814883 + 0.000738922080 466.0256234985 + 0.000771421604 486.0621667054 + 0.000804040073 506.0826463468 + 0.000836779462 526.0834973335 + 0.000869643800 546.0634220834 + 0.000902639483 566.0239469683 + 0.000481238100 335.9211103252 + 0.000509128242 354.7618510377 + 0.000537277765 373.6979311292 + 0.000565316413 392.4737887192 + 0.000593240536 411.0823701220 + 0.000621049308 429.5189425308 + 0.000648744296 447.7809313260 + 0.000676329184 465.8679050447 + 0.000703809620 483.7816881467 + 0.000731193184 501.5265839437 + 0.000758489447 519.1096914295 + 0.000384379331 287.1153306514 + 0.000408445987 304.0395416821 + 0.000433128310 321.3427461900 + 0.000457483146 338.3483170172 + 0.000481511699 355.0481851545 + 0.000505219663 371.4399210847 + 0.000528616062 387.5252087184 + 0.000551712350 403.3087750481 + 0.000574521731 418.7976409063 + 0.000597058655 434.0006061051 + 0.000619338457 448.9279099476 + 0.000298517663 239.2668016276 + 0.000319104316 252.0579519005 + 0.000340935562 266.4120376844 + 0.000362226519 280.8042835080 + 0.000382988127 295.0274635370 + 0.000403237912 308.9825675516 + 0.000422997646 322.6219436717 + 0.000442291569 335.9246093839 + 0.000461145057 348.8841154963 + 0.000479583625 361.5019845530 + 0.000497632174 373.7838885390 + 0.000692637345 84.8409090718 + 0.000692637345 84.8409090718 + 0.000740124278 92.3632110806 + 0.000789880411 100.3099248682 + 0.000841993530 108.6840850636 + 0.000896555718 117.4895947249 + 0.000953663228 126.7313035131 + 0.001013415924 136.4150444659 + 0.001075917245 146.5476868882 + 0.001141273517 157.1370246356 + 0.001209593379 168.1915850574 + 0.001280987036 179.7203029330 + 0.000830210670 200.1032841671 + 0.000879663193 214.1022806369 + 0.000930701513 228.6233008066 + 0.000983357922 243.6556390977 + 0.001037667466 259.1908155312 + 0.001093667470 275.2224614546 + 0.001151396959 291.7462365898 + 0.001210895974 308.7596429288 + 0.001272204770 326.2616866949 + 0.001335362889 344.2523625428 + 0.001400408075 362.7319401604 + 0.000871365535 339.6604532260 + 0.000919149868 359.7837790654 + 0.000967892905 380.3322478062 + 0.001017600028 401.2936445485 + 0.001068278295 422.6568724825 + 0.001119936249 444.4118784354 + 0.001172583654 466.5495541773 + 0.001226231216 489.0615958503 + 0.001280890264 511.9403109111 + 0.001336572413 535.1783685793 + 0.001393289185 558.7684920871 + 0.000813985027 407.7157644714 + 0.000857817578 430.2485251742 + 0.000902169818 453.0127247903 + 0.000947037752 475.9978499397 + 0.000992418650 499.1935897643 + 0.001038311093 522.5899750076 + 0.001084715017 546.1775083303 + 0.001131631801 569.9473428911 + 0.001179064401 593.8915184867 + 0.001227017543 618.0032577141 + 0.001275497963 642.2773214643 + 0.000708369076 415.7545381727 + 0.000747461031 438.4540728532 + 0.000786720855 461.1778291032 + 0.000826140637 483.9144032309 + 0.000865714533 506.6534677622 + 0.000905438688 529.3858756253 + 0.000945311209 552.1038513155 + 0.000985332238 574.8013022767 + 0.001025504144 597.4742470230 + 0.001065831803 620.1213533476 + 0.001106322976 642.7445766975 + 0.000587200541 382.2343279165 + 0.000621275491 403.5868388076 + 0.000655662586 425.0457030485 + 0.000689916382 446.3249341811 + 0.000724032337 467.4159040539 + 0.000758009364 488.3127293184 + 0.000791849302 509.0120807485 + 0.000825556572 529.5131635400 + 0.000859137998 549.8178443263 + 0.000892602755 569.9309041543 + 0.000925962444 589.8603985920 + 0.000468194103 328.0358630867 + 0.000497550319 347.0594612489 + 0.000527646393 366.5329067337 + 0.000557344820 385.6960838275 + 0.000586646926 404.5336787690 + 0.000615559534 423.0383953206 + 0.000644093544 441.2087175911 + 0.000672262832 459.0473746496 + 0.000700083419 476.5602793372 + 0.000727572856 493.7558009751 + 0.000754749781 510.6442805493 + 0.000363610029 280.0400054912 + 0.000388730514 292.6780764762 + 0.000415348565 307.6873055923 + 0.000441309149 323.1630454251 + 0.000466625412 338.6941485743 + 0.000491318568 354.0781116704 + 0.000515415040 369.2097485388 + 0.000538944291 384.0339985743 + 0.000561937195 398.5232839261 + 0.000584424814 412.6655644213 + 0.000606437480 426.4575473449 diff --git a/mytest/McClesk_101.sel b/mytest/McClesk_101.sel index 95976044..c4729ccd 100644 --- a/mytest/McClesk_101.sel +++ b/mytest/McClesk_101.sel @@ -1,24 +1,24 @@ Mu SC - 0.100580125493 12967.4360084523 - 0.125810127369 16023.2666792884 - 0.151070128945 19039.5865171347 - 0.176380130304 22024.9360385034 - 0.201720131498 24981.3981870155 - 0.252510133522 30822.7240318761 - 0.303450135200 36583.8767486378 - 0.405770137887 47910.8864291418 - 0.508690139997 59026.1479304608 - 0.612200141748 69963.1921658224 - 0.716400143252 80753.3200476347 - 0.821140144572 91394.3396666248 - 0.926590145754 101912.2254571589 - 1.032700146823 112307.3919526568 - 1.247000148700 132751.6484182587 - 1.463900150299 152726.9289925549 - 1.683800151675 172269.2070842178 - 1.906800152860 191376.8995500387 - 2.132700153876 210018.6873557821 - 2.711700155767 254593.2166668854 - 3.312600156868 296110.3790919014 - 3.937100157310 334320.4500722825 - 4.587700157200 369003.7214140167 + 0.100580125493 12967.4362743828 + 0.125810127369 16023.2670468827 + 0.151070128945 19039.5869958932 + 0.176380130304 22024.9366370853 + 0.201720131498 24981.3989132765 + 0.252510133522 30822.7250349876 + 0.303450135200 36583.8780545313 + 0.405770137887 47910.8884088333 + 0.508690139997 59026.1506638312 + 0.612200141748 69963.1957228951 + 0.716400143252 80753.3244919313 + 0.821140144572 91394.3450544865 + 0.926590145754 101912.2318414904 + 1.032700146823 112307.3993816281 + 1.247000148700 132751.6580669783 + 1.463900150299 152726.9410107784 + 1.683800151675 172269.2216018224 + 1.906800152860 191376.9166758030 + 2.132700153876 210018.7071748558 + 2.711700155767 254593.2434763932 + 3.312600156868 296110.4130307291 + 3.937100157310 334320.4909994712 + 4.587700157200 369003.7689296596 diff --git a/mytest/MgCl-SO4.out b/mytest/MgCl-SO4.out index 61cc0b64..dd13cb63 100644 --- a/mytest/MgCl-SO4.out +++ b/mytest/MgCl-SO4.out @@ -177,10 +177,10 @@ Kieserite -1.98 -1.91 0.07 0.000e+00 0 0.000e+00 pH = 6.414 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 130799 + Specific Conductance (µS/cm, 0°C) = 130826 Density (g/cm³) = 1.24088 Volume (L) = 1.04922 - Viscosity (mPa s) = 4.66030 + Viscosity (mPa s) = 4.65374 Activity of water = 0.944 Ionic strength (mol/kgw) = 8.722e+00 Mass of water (kg) = 1.031e+00 @@ -273,10 +273,10 @@ Kieserite -1.95 -1.88 0.07 0.000e+00 0 0.000e+00 pH = 6.354 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 123797 + Specific Conductance (µS/cm, 0°C) = 123829 Density (g/cm³) = 1.22193 Volume (L) = 0.99063 - Viscosity (mPa s) = 4.36692 + Viscosity (mPa s) = 4.36081 Activity of water = 0.932 Ionic strength (mol/kgw) = 8.099e+00 Mass of water (kg) = 9.723e-01 @@ -369,10 +369,10 @@ Kieserite -1.91 -1.84 0.07 0.000e+00 0 0.000e+00 pH = 6.269 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 117444 + Specific Conductance (µS/cm, 0°C) = 117481 Density (g/cm³) = 1.20429 Volume (L) = 0.93904 - Viscosity (mPa s) = 4.15899 + Viscosity (mPa s) = 4.15328 Activity of water = 0.918 Ionic strength (mol/kgw) = 7.555e+00 Mass of water (kg) = 9.194e-01 @@ -465,10 +465,10 @@ Kieserite -1.86 -1.79 0.07 0.000e+00 0 0.000e+00 pH = 6.148 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 112673 + Specific Conductance (µS/cm, 0°C) = 112718 Density (g/cm³) = 1.19107 Volume (L) = 0.89789 - Viscosity (mPa s) = 4.07902 + Viscosity (mPa s) = 4.07361 Activity of water = 0.901 Ionic strength (mol/kgw) = 7.209e+00 Mass of water (kg) = 8.758e-01 @@ -561,10 +561,10 @@ Kieserite -1.79 -1.72 0.07 0.000e+00 0 0.000e+00 pH = 5.989 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 109727 + Specific Conductance (µS/cm, 0°C) = 109778 Density (g/cm³) = 1.18450 Volume (L) = 0.86844 - Viscosity (mPa s) = 4.14952 + Viscosity (mPa s) = 4.14428 Activity of water = 0.878 Ionic strength (mol/kgw) = 7.137e+00 Mass of water (kg) = 8.427e-01 @@ -657,10 +657,10 @@ Kieserite -1.71 -1.64 0.07 0.000e+00 0 0.000e+00 pH = 5.798 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 107827 + Specific Conductance (µS/cm, 0°C) = 107883 Density (g/cm³) = 1.18453 Volume (L) = 0.84900 - Viscosity (mPa s) = 4.36952 + Viscosity (mPa s) = 4.36431 Activity of water = 0.851 Ionic strength (mol/kgw) = 7.335e+00 Mass of water (kg) = 8.188e-01 @@ -753,10 +753,10 @@ Kieserite -1.61 -1.54 0.07 0.000e+00 0 0.000e+00 pH = 5.585 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 105911 + Specific Conductance (µS/cm, 0°C) = 105969 Density (g/cm³) = 1.18975 Volume (L) = 0.83699 - Viscosity (mPa s) = 4.73493 + Viscosity (mPa s) = 4.72966 Activity of water = 0.818 Ionic strength (mol/kgw) = 7.746e+00 Mass of water (kg) = 8.016e-01 @@ -849,10 +849,10 @@ Kieserite -1.49 -1.42 0.07 0.000e+00 0 0.000e+00 pH = 5.357 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 103257 + Specific Conductance (µS/cm, 0°C) = 103314 Density (g/cm³) = 1.19864 Volume (L) = 0.83031 - Viscosity (mPa s) = 5.25198 + Viscosity (mPa s) = 5.24658 Activity of water = 0.781 Ionic strength (mol/kgw) = 8.318e+00 Mass of water (kg) = 7.891e-01 @@ -945,10 +945,10 @@ Kieserite -1.34 -1.28 0.07 0.000e+00 0 0.000e+00 pH = 5.120 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 99582 + Specific Conductance (µS/cm, 0°C) = 99637 Density (g/cm³) = 1.20999 Volume (L) = 0.82754 - Viscosity (mPa s) = 5.93783 + Viscosity (mPa s) = 5.93224 Activity of water = 0.740 Ionic strength (mol/kgw) = 9.007e+00 Mass of water (kg) = 7.800e-01 @@ -1041,10 +1041,10 @@ Kieserite -1.18 -1.11 0.07 0.000e+00 0 0.000e+00 pH = 4.880 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 94935 + Specific Conductance (µS/cm, 0°C) = 94984 Density (g/cm³) = 1.22288 Volume (L) = 0.82770 - Viscosity (mPa s) = 6.81743 + Viscosity (mPa s) = 6.81164 Activity of water = 0.695 Ionic strength (mol/kgw) = 9.783e+00 Mass of water (kg) = 7.734e-01 @@ -1137,10 +1137,10 @@ Kieserite -1.00 -0.93 0.07 0.000e+00 0 0.000e+00 pH = 4.639 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 89551 + Specific Conductance (µS/cm, 0°C) = 89594 Density (g/cm³) = 1.23664 Volume (L) = 0.83012 - Viscosity (mPa s) = 7.92090 + Viscosity (mPa s) = 7.91489 Activity of water = 0.647 Ionic strength (mol/kgw) = 1.062e+01 Mass of water (kg) = 7.686e-01 @@ -1233,10 +1233,10 @@ Kieserite -0.79 -0.72 0.07 0.000e+00 0 0.000e+00 pH = 4.400 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 83738 + Specific Conductance (µS/cm, 0°C) = 83774 Density (g/cm³) = 1.25078 Volume (L) = 0.83430 - Viscosity (mPa s) = 9.28187 + Viscosity (mPa s) = 9.27563 Activity of water = 0.598 Ionic strength (mol/kgw) = 1.150e+01 Mass of water (kg) = 7.651e-01 @@ -1329,10 +1329,10 @@ Kieserite -0.56 -0.49 0.07 0.000e+00 0 0.000e+00 pH = 4.163 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 77794 + Specific Conductance (µS/cm, 0°C) = 77824 Density (g/cm³) = 1.26494 Volume (L) = 0.83990 - Viscosity (mPa s) = 10.93661 + Viscosity (mPa s) = 10.93014 Activity of water = 0.548 Ionic strength (mol/kgw) = 1.242e+01 Mass of water (kg) = 7.626e-01 @@ -1425,10 +1425,10 @@ Kieserite -0.31 -0.24 0.07 0.000e+00 0 0.000e+00 pH = 3.932 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 71966 + Specific Conductance (µS/cm, 0°C) = 71991 Density (g/cm³) = 1.27888 Volume (L) = 0.84666 - Viscosity (mPa s) = 12.92359 + Viscosity (mPa s) = 12.91688 Activity of water = 0.497 Ionic strength (mol/kgw) = 1.336e+01 Mass of water (kg) = 7.608e-01 @@ -1521,10 +1521,10 @@ Kieserite -0.03 0.03 0.07 0.000e+00 0 0.000e+00 pH = 3.706 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 66438 + Specific Conductance (µS/cm, 0°C) = 66458 Density (g/cm³) = 1.29245 Volume (L) = 0.85441 - Viscosity (mPa s) = 15.28330 + Viscosity (mPa s) = 15.27636 Activity of water = 0.447 Ionic strength (mol/kgw) = 1.432e+01 Mass of water (kg) = 7.596e-01 @@ -1617,10 +1617,10 @@ Kieserite -0.00 0.07 0.07 0.000e+00 4.304e-01 4.304e-01 pH = 3.679 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 65795 + Specific Conductance (µS/cm, 0°C) = 65815 Density (g/cm³) = 1.29406 Volume (L) = 0.90863 - Viscosity (mPa s) = 15.59659 + Viscosity (mPa s) = 15.58962 Activity of water = 0.441 Ionic strength (mol/kgw) = 1.444e+01 Mass of water (kg) = 8.068e-01 @@ -1735,10 +1735,10 @@ Kieserite 0.00 -2.05 -2.05 0.000e+00 2.757e+00 2.757e+00 pH = 4.929 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1242071 + Specific Conductance (µS/cm, 100°C) = 1241846 Density (g/cm³) = 1.35571 Volume (L) = 2.45191 - Viscosity (mPa s) = 1.90197 + Viscosity (mPa s) = 1.90826 Activity of water = 0.875 Ionic strength (mol/kgw) = 1.672e+01 Mass of water (kg) = 2.211e+00 @@ -1831,10 +1831,10 @@ Kieserite 0.00 -2.05 -2.05 2.757e+00 3.883e+00 1.126e+00 pH = 4.824 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1180536 + Specific Conductance (µS/cm, 100°C) = 1180270 Density (g/cm³) = 1.33927 Volume (L) = 2.42965 - Viscosity (mPa s) = 1.82409 + Viscosity (mPa s) = 1.83012 Activity of water = 0.860 Ionic strength (mol/kgw) = 1.605e+01 Mass of water (kg) = 2.191e+00 @@ -1927,10 +1927,10 @@ Kieserite 0.00 -2.05 -2.05 3.883e+00 5.020e+00 1.136e+00 pH = 4.711 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1113515 + Specific Conductance (µS/cm, 100°C) = 1113182 Density (g/cm³) = 1.32175 Volume (L) = 2.40771 - Viscosity (mPa s) = 1.69919 + Viscosity (mPa s) = 1.70497 Activity of water = 0.843 Ionic strength (mol/kgw) = 1.535e+01 Mass of water (kg) = 2.171e+00 @@ -2023,10 +2023,10 @@ Kieserite 0.00 -2.05 -2.05 5.020e+00 6.145e+00 1.125e+00 pH = 4.585 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1040100 + Specific Conductance (µS/cm, 100°C) = 1039685 Density (g/cm³) = 1.30383 Volume (L) = 2.38713 - Viscosity (mPa s) = 1.58668 + Viscosity (mPa s) = 1.59224 Activity of water = 0.823 Ionic strength (mol/kgw) = 1.466e+01 Mass of water (kg) = 2.150e+00 @@ -2119,10 +2119,10 @@ Kieserite 0.00 -2.05 -2.05 6.145e+00 7.222e+00 1.077e+00 pH = 4.440 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 962085 + Specific Conductance (µS/cm, 100°C) = 961577 Density (g/cm³) = 1.28684 Volume (L) = 2.36941 - Viscosity (mPa s) = 1.49852 + Viscosity (mPa s) = 1.50389 Activity of water = 0.800 Ionic strength (mol/kgw) = 1.404e+01 Mass of water (kg) = 2.131e+00 @@ -2215,10 +2215,10 @@ Kieserite 0.00 -2.05 -2.05 7.222e+00 8.204e+00 9.828e-01 pH = 4.271 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 882049 + Specific Conductance (µS/cm, 100°C) = 881446 Density (g/cm³) = 1.27266 Volume (L) = 2.35629 - Viscosity (mPa s) = 1.44764 + Viscosity (mPa s) = 1.45286 Activity of water = 0.773 Ionic strength (mol/kgw) = 1.357e+01 Mass of water (kg) = 2.113e+00 @@ -2311,10 +2311,10 @@ Kieserite -0.00 -2.05 -2.05 8.204e+00 9.052e+00 8.479e-01 pH = 4.074 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 802486 + Specific Conductance (µS/cm, 100°C) = 801804 Density (g/cm³) = 1.26310 Volume (L) = 2.34905 - Viscosity (mPa s) = 1.44448 + Viscosity (mPa s) = 1.44960 Activity of water = 0.742 Ionic strength (mol/kgw) = 1.334e+01 Mass of water (kg) = 2.098e+00 @@ -2407,10 +2407,10 @@ Kieserite 0.00 -2.05 -2.05 9.052e+00 9.747e+00 6.946e-01 pH = 3.848 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 725015 + Specific Conductance (µS/cm, 100°C) = 724288 Density (g/cm³) = 1.25919 Volume (L) = 2.34808 - Viscosity (mPa s) = 1.49512 + Viscosity (mPa s) = 1.50021 Activity of water = 0.706 Ionic strength (mol/kgw) = 1.339e+01 Mass of water (kg) = 2.086e+00 @@ -2503,10 +2503,10 @@ Kieserite 0.00 -2.05 -2.05 9.747e+00 1.029e+01 5.472e-01 pH = 3.598 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 650587 + Specific Conductance (µS/cm, 100°C) = 649858 Density (g/cm³) = 1.26084 Volume (L) = 2.35290 - Viscosity (mPa s) = 1.60302 + Viscosity (mPa s) = 1.60814 Activity of water = 0.665 Ionic strength (mol/kgw) = 1.370e+01 Mass of water (kg) = 2.076e+00 @@ -2599,10 +2599,10 @@ Kieserite 0.00 -2.05 -2.05 1.029e+01 1.071e+01 4.193e-01 pH = 3.332 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 580133 + Specific Conductance (µS/cm, 100°C) = 579443 Density (g/cm³) = 1.26733 Volume (L) = 2.36267 - Viscosity (mPa s) = 1.77198 + Viscosity (mPa s) = 1.77718 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.424e+01 Mass of water (kg) = 2.068e+00 @@ -2695,10 +2695,10 @@ Kieserite 0.00 -2.05 -2.05 1.071e+01 1.103e+01 3.151e-01 pH = 3.056 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 514717 + Specific Conductance (µS/cm, 100°C) = 514097 Density (g/cm³) = 1.27765 Volume (L) = 2.37653 - Viscosity (mPa s) = 2.00754 + Viscosity (mPa s) = 2.01287 Activity of water = 0.572 Ionic strength (mol/kgw) = 1.498e+01 Mass of water (kg) = 2.062e+00 @@ -2791,10 +2791,10 @@ Kieserite 0.00 -2.05 -2.05 1.103e+01 1.126e+01 2.334e-01 pH = 2.776 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 455246 + Specific Conductance (µS/cm, 100°C) = 454710 Density (g/cm³) = 1.29079 Volume (L) = 2.39370 - Viscosity (mPa s) = 2.31698 + Viscosity (mPa s) = 2.32245 Activity of water = 0.522 Ionic strength (mol/kgw) = 1.587e+01 Mass of water (kg) = 2.058e+00 @@ -2887,10 +2887,10 @@ Kieserite 0.00 -2.05 -2.05 1.126e+01 1.143e+01 1.713e-01 pH = 2.496 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 402202 + Specific Conductance (µS/cm, 100°C) = 401754 Density (g/cm³) = 1.30588 Volume (L) = 2.41351 - Viscosity (mPa s) = 2.70875 + Viscosity (mPa s) = 2.71439 Activity of water = 0.472 Ionic strength (mol/kgw) = 1.687e+01 Mass of water (kg) = 2.055e+00 @@ -2983,10 +2983,10 @@ Kieserite -0.00 -2.05 -2.05 1.143e+01 1.156e+01 1.253e-01 pH = 2.217 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 355595 + Specific Conductance (µS/cm, 100°C) = 355229 Density (g/cm³) = 1.32221 Volume (L) = 2.43540 - Viscosity (mPa s) = 3.19215 + Viscosity (mPa s) = 3.19796 Activity of water = 0.422 Ionic strength (mol/kgw) = 1.796e+01 Mass of water (kg) = 2.053e+00 @@ -3079,10 +3079,10 @@ Kieserite 0.00 -2.05 -2.05 1.156e+01 1.165e+01 9.153e-02 pH = 1.940 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 315069 + Specific Conductance (µS/cm, 100°C) = 314774 Density (g/cm³) = 1.33924 Volume (L) = 2.45896 - Viscosity (mPa s) = 3.77704 + Viscosity (mPa s) = 3.78303 Activity of water = 0.375 Ionic strength (mol/kgw) = 1.911e+01 Mass of water (kg) = 2.051e+00 @@ -3175,10 +3175,10 @@ Kieserite 0.00 -2.05 -2.05 1.165e+01 1.172e+01 6.703e-02 pH = 1.665 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 280055 + Specific Conductance (µS/cm, 100°C) = 279820 Density (g/cm³) = 1.35659 Volume (L) = 2.48384 - Viscosity (mPa s) = 4.47379 + Viscosity (mPa s) = 4.47997 Activity of water = 0.329 Ionic strength (mol/kgw) = 2.031e+01 Mass of water (kg) = 2.050e+00 @@ -3271,10 +3271,10 @@ Kieserite 0.00 -2.05 -2.05 1.172e+01 1.177e+01 4.922e-02 pH = 1.389 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 249902 + Specific Conductance (µS/cm, 100°C) = 249715 Density (g/cm³) = 1.37399 Volume (L) = 2.50979 - Viscosity (mPa s) = 5.29327 + Viscosity (mPa s) = 5.29963 Activity of water = 0.286 Ionic strength (mol/kgw) = 2.154e+01 Mass of water (kg) = 2.049e+00 @@ -3367,10 +3367,10 @@ Kieserite 0.00 -2.05 -2.05 1.177e+01 1.180e+01 3.621e-02 pH = 1.114 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 223964 + Specific Conductance (µS/cm, 100°C) = 223816 Density (g/cm³) = 1.39126 Volume (L) = 2.53662 - Viscosity (mPa s) = 6.24683 + Viscosity (mPa s) = 6.25337 Activity of water = 0.247 Ionic strength (mol/kgw) = 2.279e+01 Mass of water (kg) = 2.048e+00 @@ -3463,10 +3463,10 @@ Kieserite 0.00 -2.05 -2.05 1.180e+01 1.184e+01 4.033e-02 pH = 0.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 212356 + Specific Conductance (µS/cm, 100°C) = 212223 Density (g/cm³) = 1.39984 Volume (L) = 2.18884 - Viscosity (mPa s) = 6.77918 + Viscosity (mPa s) = 6.78581 Activity of water = 0.228 Ionic strength (mol/kgw) = 2.343e+01 Mass of water (kg) = 1.758e+00 @@ -3559,10 +3559,10 @@ Kieserite 0.00 -2.05 -2.05 1.184e+01 1.189e+01 5.210e-02 pH = 0.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 212356 + Specific Conductance (µS/cm, 100°C) = 212223 Density (g/cm³) = 1.39984 Volume (L) = 1.46369 - Viscosity (mPa s) = 6.77918 + Viscosity (mPa s) = 6.78581 Activity of water = 0.228 Ionic strength (mol/kgw) = 2.343e+01 Mass of water (kg) = 1.176e+00 @@ -3655,10 +3655,10 @@ Kieserite 0.00 -2.05 -2.05 1.189e+01 1.195e+01 5.210e-02 pH = 0.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 212356 + Specific Conductance (µS/cm, 100°C) = 212223 Density (g/cm³) = 1.39984 Volume (L) = 0.73853 - Viscosity (mPa s) = 6.77918 + Viscosity (mPa s) = 6.78581 Activity of water = 0.228 Ionic strength (mol/kgw) = 2.343e+01 Mass of water (kg) = 5.931e-01 diff --git a/mytest/MgCl-SO4_101.sel b/mytest/MgCl-SO4_101.sel index 221b191b..f06181ec 100644 --- a/mytest/MgCl-SO4_101.sel +++ b/mytest/MgCl-SO4_101.sel @@ -1,39 +1,39 @@ Mu SC - 8.002994981348 238177.9574587312 - 8.722310664647 130799.7959281165 - 8.098704452429 123797.7577130579 - 7.555220322159 117444.1319964163 - 7.208569847601 112673.9922189192 - 7.137384345719 109727.7255116509 - 7.334543338696 107827.5265022261 - 7.746278978069 105911.6684397847 - 8.317988601650 103257.2812289492 - 9.007278234034 99582.7530487468 - 9.782701900708 94935.4143214449 - 10.620938824274 89551.3179554605 - 11.504785478999 83738.0235791525 - 12.421725145883 77794.1387094623 - 13.362801326894 71966.7235492819 - 14.321713923843 66438.8082837833 - 14.438900818266 65795.8192493133 - 16.719248651815 1242071.2715904820 - 16.050698414857 1180536.7709474401 - 15.351874270539 1113515.5723445187 - 14.659901833788 1040100.3771961253 - 14.038814230097 962085.6886178025 - 13.573776819204 882049.1862232349 - 13.343024155532 802486.1727032906 - 13.385538643275 725015.0977800378 - 13.695466078804 650587.1164603322 - 14.239974396837 580133.6232587587 - 14.977220046871 514717.7572250719 - 15.866031350331 455246.3331015714 - 16.870155542142 402202.5441297665 - 17.959875817746 355595.7423738477 - 19.112115230405 315069.5104269916 - 20.309653974710 280055.1527567320 - 21.539988860025 249902.0676372725 - 22.794197838428 223964.5888217516 - 23.430069508595 212356.0325204573 - 23.430069430075 212356.0344443170 - 23.430070370330 212356.0174156112 + 8.002994981348 238177.9783473907 + 8.722310664647 130826.3803908009 + 8.098704452429 123829.4751220927 + 7.555220322159 117481.8492954790 + 7.208569847601 112718.2665693435 + 7.137384345719 109778.3333389448 + 7.334543338696 107883.0900757202 + 7.746278978069 105969.7622970787 + 8.317988601650 103314.9853230057 + 9.007278234034 99637.3366130303 + 9.782701900708 94984.8526443178 + 10.620938824274 89594.4970530855 + 11.504785478999 83774.6624080055 + 12.421725145883 77824.5577516027 + 13.362801326894 71991.5879577520 + 14.321713923843 66458.9204874815 + 14.438900818266 65815.4111349746 + 16.719248651815 1241846.3808750736 + 16.050698414857 1180270.6283481659 + 15.351874270539 1113182.6387520826 + 14.659901833788 1039685.6958013922 + 14.038814230097 961577.4800171795 + 13.573776819204 881446.2232511744 + 13.343024155532 801804.5790291989 + 13.385538643275 724288.4417042942 + 13.695466078804 649858.3787087114 + 14.239974396837 579443.8725053741 + 14.977220046871 514097.2180083250 + 15.866031350331 454710.8077419535 + 16.870155542142 401754.8721068990 + 17.959875817746 355229.9150181215 + 19.112115230405 314774.9970286378 + 20.309653974710 279820.1243316117 + 21.539988860025 249715.2885739896 + 22.794197838428 223816.2784077467 + 23.430069508595 212223.8609466794 + 23.430069430075 212223.8628673923 + 23.430070370330 212223.8458571647 diff --git a/mytest/MgCl2.out b/mytest/MgCl2.out index 87cedb60..22d17e78 100644 --- a/mytest/MgCl2.out +++ b/mytest/MgCl2.out @@ -129,10 +129,10 @@ Bischofite 0.00 4.91 4.91 3.000e+02 2.861e+02 -1.393e+01 pH = 3.008 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47086 + Specific Conductance (µS/cm, 0°C) = 47098 Density (g/cm³) = 1.32081 Volume (L) = 2.90159 - Viscosity (mPa s) = 22.95627 + Viscosity (mPa s) = 22.94882 Activity of water = 0.325 Ionic strength (mol/kgw) = 1.668e+01 Mass of water (kg) = 2.506e+00 @@ -199,10 +199,10 @@ Bischofite 0.00 4.78 4.78 3.000e+02 2.854e+02 -1.460e+01 pH = 2.805 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 61273 + Specific Conductance (µS/cm, 10°C) = 61283 Density (g/cm³) = 1.32043 Volume (L) = 3.00587 - Viscosity (mPa s) = 17.05272 + Viscosity (mPa s) = 17.04926 Activity of water = 0.324 Ionic strength (mol/kgw) = 1.699e+01 Mass of water (kg) = 2.579e+00 @@ -269,10 +269,10 @@ Bischofite 0.00 4.72 4.72 3.000e+02 2.850e+02 -1.499e+01 pH = 2.708 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 68629 + Specific Conductance (µS/cm, 15°C) = 68636 Density (g/cm³) = 1.32113 Volume (L) = 3.06303 - Viscosity (mPa s) = 15.02393 + Viscosity (mPa s) = 15.02186 Activity of water = 0.323 Ionic strength (mol/kgw) = 1.716e+01 Mass of water (kg) = 2.620e+00 @@ -339,10 +339,10 @@ Bischofite 0.00 4.65 4.65 3.000e+02 2.846e+02 -1.540e+01 pH = 2.614 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 76120 + Specific Conductance (µS/cm, 20°C) = 76124 Density (g/cm³) = 1.32226 Volume (L) = 3.12461 - Viscosity (mPa s) = 13.39650 + Viscosity (mPa s) = 13.39556 Activity of water = 0.321 Ionic strength (mol/kgw) = 1.734e+01 Mass of water (kg) = 2.665e+00 @@ -479,10 +479,10 @@ Bischofite 0.00 4.53 4.53 3.000e+02 2.836e+02 -1.637e+01 pH = 2.430 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 91407 + Specific Conductance (µS/cm, 30°C) = 91402 Density (g/cm³) = 1.32565 Volume (L) = 3.26446 - Viscosity (mPa s) = 10.98299 + Viscosity (mPa s) = 10.98378 Activity of water = 0.318 Ionic strength (mol/kgw) = 1.773e+01 Mass of water (kg) = 2.769e+00 @@ -549,10 +549,10 @@ Bischofite 0.00 4.47 4.47 3.000e+02 2.831e+02 -1.693e+01 pH = 2.341 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 99152 + Specific Conductance (µS/cm, 35°C) = 99140 Density (g/cm³) = 1.32784 Volume (L) = 3.34478 - Viscosity (mPa s) = 10.07824 + Viscosity (mPa s) = 10.07972 Activity of water = 0.315 Ionic strength (mol/kgw) = 1.795e+01 Mass of water (kg) = 2.830e+00 @@ -619,10 +619,10 @@ Bischofite 0.00 4.41 4.41 3.000e+02 2.825e+02 -1.755e+01 pH = 2.252 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 106926 + Specific Conductance (µS/cm, 40°C) = 106908 Density (g/cm³) = 1.33033 Volume (L) = 3.43373 - Viscosity (mPa s) = 9.32183 + Viscosity (mPa s) = 9.32390 Activity of water = 0.313 Ionic strength (mol/kgw) = 1.817e+01 Mass of water (kg) = 2.897e+00 @@ -689,10 +689,10 @@ Bischofite 0.00 4.28 4.28 3.000e+02 2.810e+02 -1.904e+01 pH = 2.076 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 122424 + Specific Conductance (µS/cm, 50°C) = 122387 Density (g/cm³) = 1.33626 Volume (L) = 3.64450 - Viscosity (mPa s) = 8.15216 + Viscosity (mPa s) = 8.15523 Activity of water = 0.306 Ionic strength (mol/kgw) = 1.868e+01 Mass of water (kg) = 3.058e+00 @@ -759,10 +759,10 @@ Bischofite 0.00 4.16 4.16 3.000e+02 2.790e+02 -2.096e+01 pH = 1.898 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 137550 + Specific Conductance (µS/cm, 60°C) = 137492 Density (g/cm³) = 1.34350 Volume (L) = 3.91613 - Viscosity (mPa s) = 7.32760 + Viscosity (mPa s) = 7.33149 Activity of water = 0.298 Ionic strength (mol/kgw) = 1.925e+01 Mass of water (kg) = 3.266e+00 @@ -829,10 +829,10 @@ Bischofite -0.00 4.04 4.04 3.000e+02 2.764e+02 -2.357e+01 pH = 1.712 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 151803 + Specific Conductance (µS/cm, 70°C) = 151721 Density (g/cm³) = 1.35227 Volume (L) = 4.28282 - Viscosity (mPa s) = 6.76600 + Viscosity (mPa s) = 6.77061 Activity of water = 0.287 Ionic strength (mol/kgw) = 1.993e+01 Mass of water (kg) = 3.548e+00 @@ -899,10 +899,10 @@ Bischofite 0.00 3.92 3.92 3.000e+02 2.727e+02 -2.734e+01 pH = 1.513 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 164438 + Specific Conductance (µS/cm, 80°C) = 164332 Density (g/cm³) = 1.36297 Volume (L) = 4.81247 - Viscosity (mPa s) = 6.42838 + Viscosity (mPa s) = 6.43366 Activity of water = 0.273 Ionic strength (mol/kgw) = 2.074e+01 Mass of water (kg) = 3.956e+00 @@ -969,10 +969,10 @@ Bischofite 0.00 3.80 3.80 3.000e+02 2.666e+02 -3.344e+01 pH = 1.285 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 174289 + Specific Conductance (µS/cm, 90°C) = 174160 Density (g/cm³) = 1.37635 Volume (L) = 5.66653 - Viscosity (mPa s) = 6.31773 + Viscosity (mPa s) = 6.32365 Activity of water = 0.255 Ionic strength (mol/kgw) = 2.174e+01 Mass of water (kg) = 4.615e+00 @@ -1039,10 +1039,10 @@ Bischofite 0.00 3.68 3.68 3.000e+02 2.543e+02 -4.565e+01 pH = 1.002 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 179191 + Specific Conductance (µS/cm, 100°C) = 179049 Density (g/cm³) = 1.39417 Volume (L) = 7.37491 - Viscosity (mPa s) = 6.51460 + Viscosity (mPa s) = 6.52118 Activity of water = 0.231 Ionic strength (mol/kgw) = 2.308e+01 Mass of water (kg) = 5.935e+00 @@ -1109,10 +1109,10 @@ Bischofite -0.03 3.46 3.49 3.000e+02 0 -3.000e+02 pH = 0.234 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 116°C) = 165118 + Specific Conductance (µS/cm, 116°C) = 164996 Density (g/cm³) = 1.44441 Volume (L) = 42.91877 - Viscosity (mPa s) = 8.36990 + Viscosity (mPa s) = 8.37778 Activity of water = 0.161 Ionic strength (mol/kgw) = 2.692e+01 Mass of water (kg) = 3.343e+01 @@ -1225,10 +1225,10 @@ MgCl2_4H2O 0.00 5.15 5.15 1.000e+01 9.235e+00 -7.645e-01 pH = 0.056 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 116°C) = 155639 + Specific Conductance (µS/cm, 116°C) = 155534 Density (g/cm³) = 1.45571 Volume (L) = 1.36404 - Viscosity (mPa s) = 9.23266 + Viscosity (mPa s) = 9.24066 Activity of water = 0.144 Ionic strength (mol/kgw) = 2.779e+01 Mass of water (kg) = 1.055e+00 @@ -1311,10 +1311,10 @@ MgCl2_4H2O -0.00 4.86 4.86 1.000e+01 1.058e+01 5.813e-01 pH = -0.182 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 130°C) = 165574 + Specific Conductance (µS/cm, 130°C) = 165448 Density (g/cm³) = 1.47081 Volume (L) = 1.25530 - Viscosity (mPa s) = 9.05696 + Viscosity (mPa s) = 9.06583 Activity of water = 0.136 Ionic strength (mol/kgw) = 2.921e+01 Mass of water (kg) = 9.581e-01 @@ -1397,10 +1397,10 @@ MgCl2_4H2O 0.00 4.46 4.46 1.000e+01 1.274e+01 2.745e+00 pH = -0.642 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 168150 + Specific Conductance (µS/cm, 150°C) = 168010 Density (g/cm³) = 1.49196 Volume (L) = 1.08404 - Viscosity (mPa s) = 9.61226 + Viscosity (mPa s) = 9.62253 Activity of water = 0.118 Ionic strength (mol/kgw) = 3.202e+01 Mass of water (kg) = 8.022e-01 @@ -1483,10 +1483,10 @@ MgCl2_4H2O 0.00 4.06 4.06 1.000e+01 1.061e+01 6.105e-01 pH = -1.648 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 138910 + Specific Conductance (µS/cm, 170°C) = 138811 Density (g/cm³) = 1.52044 Volume (L) = 1.38319 - Viscosity (mPa s) = 13.27556 + Viscosity (mPa s) = 13.28782 Activity of water = 0.078 Ionic strength (mol/kgw) = 3.781e+01 Mass of water (kg) = 9.560e-01 @@ -1569,10 +1569,10 @@ MgCl2_4H2O -0.08 3.78 3.86 1.000e+01 0 -1.000e+01 pH = -2.107 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 125525 + Specific Conductance (µS/cm, 180°C) = 125439 Density (g/cm³) = 1.51274 Volume (L) = 2.60033 - Viscosity (mPa s) = 15.06422 + Viscosity (mPa s) = 15.07751 Activity of water = 0.067 Ionic strength (mol/kgw) = 4.053e+01 Mass of water (kg) = 1.721e+00 @@ -1685,10 +1685,10 @@ MgCl2_2H2O 0.00 6.06 6.06 1.000e+01 9.886e+00 -1.143e-01 pH = -1.986 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 129849 + Specific Conductance (µS/cm, 180°C) = 129757 Density (g/cm³) = 1.50769 Volume (L) = 1.50951 - Viscosity (mPa s) = 14.32513 + Viscosity (mPa s) = 14.33832 Activity of water = 0.071 Ionic strength (mol/kgw) = 3.991e+01 Mass of water (kg) = 1.004e+00 @@ -1771,10 +1771,10 @@ MgCl2_2H2O 0.00 5.82 5.82 1.000e+01 9.919e+00 -8.080e-02 pH = -2.055 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 187°C) = 128405 + Specific Conductance (µS/cm, 187°C) = 128309 Density (g/cm³) = 1.48372 Volume (L) = 1.54538 - Viscosity (mPa s) = 14.07293 + Viscosity (mPa s) = 14.08664 Activity of water = 0.074 Ionic strength (mol/kgw) = 4.053e+01 Mass of water (kg) = 1.003e+00 @@ -1857,10 +1857,10 @@ MgCl2_2H2O -0.00 5.37 5.37 1.000e+01 9.755e+00 -2.450e-01 pH = -2.242 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 120164 + Specific Conductance (µS/cm, 200°C) = 120066 Density (g/cm³) = 1.42339 Volume (L) = 1.65317 - Viscosity (mPa s) = 13.97412 + Viscosity (mPa s) = 13.98889 Activity of water = 0.078 Ionic strength (mol/kgw) = 4.199e+01 Mass of water (kg) = 1.009e+00 diff --git a/mytest/MgCl2_101.sel b/mytest/MgCl2_101.sel index 27e5e714..ee13c4e3 100644 --- a/mytest/MgCl2_101.sel +++ b/mytest/MgCl2_101.sel @@ -1,25 +1,25 @@ Mu SC 0.000000100645 0.0546913895 - 16.678338978857 47086.8108010861 - 16.990269954909 61273.5773366569 - 17.159783598987 68629.0319807400 - 17.339226295775 76120.1977678660 - 17.529364908169 83721.4207464154 - 17.731072004709 91407.5916708181 - 17.945351072266 99152.4275075587 - 18.173373244517 106926.8105568327 - 18.676406817521 122424.3133464482 - 19.254726956887 137550.7788951868 - 19.930048265686 151803.3625518533 - 20.737269255627 164438.9207685207 - 21.739429989535 174289.4636763285 - 23.076979169216 179191.5088776641 - 26.922881215056 165118.4968424989 - 27.789531337969 155639.9369643829 - 29.209725367234 165574.6629079961 - 32.016608213991 168150.8797238890 - 37.805777678180 138910.8620206266 - 40.525036780317 125525.4970428744 - 39.907494635891 129849.7471648185 - 40.528408734322 128405.8682854196 - 41.986386519778 120164.7471394558 + 16.678338978857 47098.8306979403 + 16.990269954909 61283.3786044310 + 17.159783598987 68636.4969619379 + 17.339226295775 76124.4166424079 + 17.529364908169 83721.4282946344 + 17.731072004709 91402.3797048473 + 17.945351072266 99140.9594932534 + 18.173373244517 106908.0391715548 + 18.676406817521 122387.8609468945 + 19.254726956887 137492.9509298321 + 19.930048265686 151721.5049398721 + 20.737269255627 164332.3164814842 + 21.739429989535 174160.7079943091 + 23.076979169216 179049.0393200235 + 26.922881215056 164996.8522945046 + 27.789531337969 155534.4692433530 + 29.209725367234 165448.0157818662 + 32.016608213991 168010.8958870822 + 37.805777678180 138811.4681364156 + 40.525036780317 125439.9373321656 + 39.907494635891 129757.3356537681 + 40.528408734322 128309.1856172320 + 41.986386519778 120066.6438126380 diff --git a/mytest/MgSO4.out b/mytest/MgSO4.out index 851b06bd..fee72a1d 100644 --- a/mytest/MgSO4.out +++ b/mytest/MgSO4.out @@ -158,10 +158,10 @@ Epsomite 0.00 -1.83 -1.83 1.000e+01 5.554e+00 -4.446e+00 pH = 6.021 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 27771 + Specific Conductance (µS/cm, 10°C) = 27780 Density (g/cm³) = 1.29231 Volume (L) = 1.62170 - Viscosity (mPa s) = 11.25006 + Viscosity (mPa s) = 11.24663 Activity of water = 0.910 Ionic strength (mol/kgw) = 1.139e+01 Mass of water (kg) = 1.561e+00 @@ -234,7 +234,7 @@ Epsomite 0.00 -1.74 -1.74 1.000e+01 4.249e+00 -5.751e+00 Specific Conductance (µS/cm, 25°C) = 35401 Density (g/cm³) = 1.32082 Volume (L) = 1.83031 - Viscosity (mPa s) = 9.95375 + Viscosity (mPa s) = 9.95374 Activity of water = 0.883 Ionic strength (mol/kgw) = 1.333e+01 Mass of water (kg) = 1.725e+00 @@ -304,10 +304,10 @@ Epsomite -0.00 -1.71 -1.71 1.000e+01 3.600e+00 -6.400e+00 pH = 5.537 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 36870 + Specific Conductance (µS/cm, 30°C) = 36867 Density (g/cm³) = 1.33367 Volume (L) = 1.93256 - Viscosity (mPa s) = 10.03878 + Viscosity (mPa s) = 10.03961 Activity of water = 0.870 Ionic strength (mol/kgw) = 1.417e+01 Mass of water (kg) = 1.807e+00 @@ -377,10 +377,10 @@ Epsomite -0.00 -1.68 -1.68 1.000e+01 2.785e+00 -7.215e+00 pH = 5.404 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 37645 + Specific Conductance (µS/cm, 35°C) = 37639 Density (g/cm³) = 1.34826 Volume (L) = 2.06073 - Viscosity (mPa s) = 10.36949 + Viscosity (mPa s) = 10.37108 Activity of water = 0.855 Ionic strength (mol/kgw) = 1.511e+01 Mass of water (kg) = 1.910e+00 @@ -450,10 +450,10 @@ Epsomite 0.00 -1.65 -1.65 1.000e+01 1.734e+00 -8.266e+00 pH = 5.262 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 37654 + Specific Conductance (µS/cm, 40°C) = 37646 Density (g/cm³) = 1.36471 Volume (L) = 2.22565 - Viscosity (mPa s) = 10.97716 + Viscosity (mPa s) = 10.97944 Activity of water = 0.838 Ionic strength (mol/kgw) = 1.619e+01 Mass of water (kg) = 2.042e+00 @@ -523,10 +523,10 @@ Epsomite -0.00 -1.61 -1.61 1.000e+01 3.309e-01 -9.669e+00 pH = 5.109 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 36835 + Specific Conductance (µS/cm, 45°C) = 36825 Density (g/cm³) = 1.38322 Volume (L) = 2.44593 - Viscosity (mPa s) = 11.92961 + Viscosity (mPa s) = 11.93253 Activity of water = 0.816 Ionic strength (mol/kgw) = 1.743e+01 Mass of water (kg) = 2.219e+00 @@ -596,10 +596,10 @@ Epsomite -0.07 -1.65 -1.58 1.000e+01 0 -1.000e+01 pH = 5.049 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 40806 + Specific Conductance (µS/cm, 50°C) = 40793 Density (g/cm³) = 1.38642 Volume (L) = 2.49911 - Viscosity (mPa s) = 10.89572 + Viscosity (mPa s) = 10.89916 Activity of water = 0.815 Ionic strength (mol/kgw) = 1.769e+01 Mass of water (kg) = 2.261e+00 @@ -687,10 +687,10 @@ Hexahydrite 0.00 -1.55 -1.55 2.000e+01 1.258e+01 -7.419e+00 pH = 5.236 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 36281 + Specific Conductance (µS/cm, 40°C) = 36273 Density (g/cm³) = 1.36924 Volume (L) = 1.96817 - Viscosity (mPa s) = 11.56616 + Viscosity (mPa s) = 11.56846 Activity of water = 0.832 Ionic strength (mol/kgw) = 1.647e+01 Mass of water (kg) = 1.802e+00 @@ -760,10 +760,10 @@ Hexahydrite -0.00 -1.53 -1.53 2.000e+01 1.109e+01 -8.905e+00 pH = 5.007 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 38494 + Specific Conductance (µS/cm, 50°C) = 38482 Density (g/cm³) = 1.39343 Volume (L) = 2.17776 - Viscosity (mPa s) = 11.80285 + Viscosity (mPa s) = 11.80634 Activity of water = 0.805 Ionic strength (mol/kgw) = 1.815e+01 Mass of water (kg) = 1.963e+00 @@ -833,10 +833,10 @@ Hexahydrite 0.00 -1.53 -1.53 2.000e+01 1.006e+01 -9.942e+00 pH = 4.881 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 38711 + Specific Conductance (µS/cm, 55°C) = 38698 Density (g/cm³) = 1.40795 Volume (L) = 2.32348 - Viscosity (mPa s) = 12.28736 + Viscosity (mPa s) = 12.29139 Activity of water = 0.788 Ionic strength (mol/kgw) = 1.917e+01 Mass of water (kg) = 2.075e+00 @@ -906,10 +906,10 @@ Hexahydrite 0.00 -1.52 -1.52 2.000e+01 8.715e+00 -1.129e+01 pH = 4.746 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 38247 + Specific Conductance (µS/cm, 60°C) = 38234 Density (g/cm³) = 1.42423 Volume (L) = 2.51243 - Viscosity (mPa s) = 13.07185 + Viscosity (mPa s) = 13.07641 Activity of water = 0.767 Ionic strength (mol/kgw) = 2.033e+01 Mass of water (kg) = 2.220e+00 @@ -979,10 +979,10 @@ Hexahydrite -0.00 -1.51 -1.51 2.000e+01 6.901e+00 -1.310e+01 pH = 4.597 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 37031 + Specific Conductance (µS/cm, 65°C) = 37018 Density (g/cm³) = 1.44251 Volume (L) = 2.76790 - Viscosity (mPa s) = 14.24767 + Viscosity (mPa s) = 14.25276 Activity of water = 0.743 Ionic strength (mol/kgw) = 2.169e+01 Mass of water (kg) = 2.416e+00 @@ -1052,10 +1052,10 @@ Hexahydrite -0.00 -1.50 -1.50 2.000e+01 4.296e+00 -1.570e+01 pH = 4.428 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 34970 + Specific Conductance (µS/cm, 70°C) = 34958 Density (g/cm³) = 1.46309 Volume (L) = 3.13573 - Viscosity (mPa s) = 15.98537 + Viscosity (mPa s) = 15.99100 Activity of water = 0.713 Ionic strength (mol/kgw) = 2.329e+01 Mass of water (kg) = 2.698e+00 @@ -1143,10 +1143,10 @@ Kieserite 0.00 -1.41 -1.41 1.000e+01 5.147e+00 -4.853e+00 pH = 4.926 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 65396 + Specific Conductance (µS/cm, 70°C) = 65349 Density (g/cm³) = 1.38590 Volume (L) = 1.20611 - Viscosity (mPa s) = 6.93216 + Viscosity (mPa s) = 6.93708 Activity of water = 0.830 Ionic strength (mol/kgw) = 1.785e+01 Mass of water (kg) = 1.087e+00 @@ -1216,10 +1216,10 @@ Kieserite -0.00 -1.58 -1.58 1.000e+01 5.126e+00 -4.874e+00 pH = 4.882 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 80824 + Specific Conductance (µS/cm, 80°C) = 80745 Density (g/cm³) = 1.38488 Volume (L) = 1.20911 - Viscosity (mPa s) = 5.71726 + Viscosity (mPa s) = 5.72274 Activity of water = 0.838 Ionic strength (mol/kgw) = 1.792e+01 Mass of water (kg) = 1.088e+00 @@ -1289,10 +1289,10 @@ Kieserite -0.00 -1.99 -1.99 1.000e+01 5.270e+00 -4.730e+00 pH = 4.871 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 126901 + Specific Conductance (µS/cm, 100°C) = 126684 Density (g/cm³) = 1.36857 Volume (L) = 1.20896 - Viscosity (mPa s) = 3.72402 + Viscosity (mPa s) = 3.73029 Activity of water = 0.865 Ionic strength (mol/kgw) = 1.743e+01 Mass of water (kg) = 1.085e+00 @@ -1362,10 +1362,10 @@ Kieserite 0.00 -2.50 -2.50 1.000e+01 5.706e+00 -4.294e+00 pH = 4.956 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 207555 + Specific Conductance (µS/cm, 120°C) = 206918 Density (g/cm³) = 1.32687 Volume (L) = 1.20145 - Viscosity (mPa s) = 2.21940 + Viscosity (mPa s) = 2.22610 Activity of water = 0.902 Ionic strength (mol/kgw) = 1.594e+01 Mass of water (kg) = 1.077e+00 @@ -1436,10 +1436,10 @@ Kieserite -0.00 -3.08 -3.08 1.000e+01 6.582e+00 -3.418e+00 pH = 5.139 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 356430 + Specific Conductance (µS/cm, 140°C) = 354288 Density (g/cm³) = 1.24677 Volume (L) = 1.18144 - Viscosity (mPa s) = 1.11386 + Viscosity (mPa s) = 1.12046 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.288e+01 Mass of water (kg) = 1.062e+00 @@ -1510,10 +1510,10 @@ Kieserite -0.00 -3.73 -3.73 1.000e+01 8.173e+00 -1.827e+00 pH = 5.429 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 522785 + Specific Conductance (µS/cm, 160°C) = 516341 Density (g/cm³) = 1.09928 Volume (L) = 1.13968 - Viscosity (mPa s) = 0.43516 + Viscosity (mPa s) = 0.44049 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.075e+00 Mass of water (kg) = 1.033e+00 @@ -1584,10 +1584,10 @@ Kieserite 0.00 -4.07 -4.07 1.000e+01 9.197e+00 -8.032e-01 pH = 5.596 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 368688 + Specific Conductance (µS/cm, 170°C) = 363415 Density (g/cm³) = 0.99110 Volume (L) = 1.12113 - Viscosity (mPa s) = 0.26105 + Viscosity (mPa s) = 0.26476 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.167e+00 Mass of water (kg) = 1.014e+00 @@ -1658,10 +1658,10 @@ Kieserite 0.00 -4.43 -4.43 1.000e+01 9.685e+00 -3.146e-01 pH = 5.687 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 177296 + Specific Conductance (µS/cm, 180°C) = 175030 Density (g/cm³) = 0.92676 Volume (L) = 1.12600 - Viscosity (mPa s) = 0.19162 + Viscosity (mPa s) = 0.19405 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.251e+00 Mass of water (kg) = 1.006e+00 @@ -1732,10 +1732,10 @@ Kieserite 0.00 -4.79 -4.79 1.000e+01 9.862e+00 -1.384e-01 pH = 5.737 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 190°C) = 85299 + Specific Conductance (µS/cm, 190°C) = 84409 Density (g/cm³) = 0.89465 Volume (L) = 1.13916 - Viscosity (mPa s) = 0.16274 + Viscosity (mPa s) = 0.16441 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.517e-01 Mass of water (kg) = 1.002e+00 @@ -1806,10 +1806,10 @@ Kieserite 0.00 -5.16 -5.16 1.000e+01 9.935e+00 -6.513e-02 pH = 5.769 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 41584 + Specific Conductance (µS/cm, 200°C) = 41257 Density (g/cm³) = 0.87390 Volume (L) = 1.15461 - Viscosity (mPa s) = 0.15467 + Viscosity (mPa s) = 0.15586 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.600e-01 Mass of water (kg) = 1.001e+00 diff --git a/mytest/MgSO4_101.sel b/mytest/MgSO4_101.sel index 1d3cf720..ffafae92 100644 --- a/mytest/MgSO4_101.sel +++ b/mytest/MgSO4_101.sel @@ -1,25 +1,25 @@ Mu SC 0.000000100645 0.0546913895 - 11.394113940138 27771.4705159042 - 13.333553371570 35401.7219923976 - 14.165816050907 36870.3856180305 - 15.110897415404 37645.5736602223 - 16.188241152887 37654.6030254088 - 17.426576880893 36835.0857971983 - 17.690314518547 40806.7010594570 - 16.468283369540 36281.1740687093 - 18.149817319085 38494.2843208033 - 19.167875068960 38711.3187939429 - 20.334721090938 38247.9827704436 - 21.687592222882 37031.6013642001 - 23.286410521678 34970.6414721134 - 17.850324132502 65396.6827080559 - 17.921813379574 80824.6336114406 - 17.433942492598 126901.7136874344 - 15.940959746695 207555.3233095118 - 12.878384968515 356430.5097200568 - 7.074507728653 522785.7983792619 - 3.166523190426 368688.1485055485 - 1.250961462505 177296.4315121046 - 0.551725583637 85299.4251535905 - 0.259985995389 41584.0783235206 + 11.394113940138 27780.1378562570 + 13.333553371570 35401.7271762048 + 14.165816050907 36867.2518662133 + 15.110897415404 37639.6953366403 + 16.188241152887 37646.6362049677 + 17.426576880893 36825.8711195638 + 17.690314518547 40793.5598229068 + 16.468283369540 36273.8263886162 + 18.149817319085 38482.6936618645 + 19.167875068960 38698.3724492777 + 20.334721090938 38234.3800719095 + 21.687592222882 37018.1243469789 + 23.286410521678 34958.1020382238 + 17.850324132502 65349.3161320499 + 17.921813379574 80745.7204479442 + 17.433942492598 126684.0808805241 + 15.940959746695 206918.5726751978 + 12.878384968515 354288.7049908868 + 7.074507728653 516341.8458886544 + 3.166523190426 363415.6703590778 + 1.250961462505 175030.0158857871 + 0.551725583637 84409.1981804045 + 0.259985995389 41257.0594042652 diff --git a/mytest/MoreExchMix.dmp b/mytest/MoreExchMix.dmp index c64827d0..294bc995 100644 --- a/mytest/MoreExchMix.dmp +++ b/mytest/MoreExchMix.dmp @@ -6,7 +6,8 @@ SOLUTION_RAW 5 -total_o 0.55508658925478 -cb -1.4803872180102e-15 -density 0.99714472270534 - -viscosity 0.89144404391777 + -viscosity 0.89144402619689 + -viscos_0 0.8900239182747 -totals C(-4) 2.729842079817e-13 C(4) 8.1407635881835e-06 @@ -105,7 +106,7 @@ SURFACE_RAW 5 -charge_balance 7.3990258364631e-14 -mass_water 0.1 -f_free 0 - -ddl_viscosity 1 + -ddl_viscosity 0 -la_psi -1.5020156718157 -capacitance0 1 -capacitance1 5 diff --git a/mytest/MoreExchMix.out b/mytest/MoreExchMix.out index eb6a3d91..d63be10e 100644 --- a/mytest/MoreExchMix.out +++ b/mytest/MoreExchMix.out @@ -283,7 +283,7 @@ Su 1.000e+04 m² for 1.000e+01 moles of Calcite Water in diffuse layer: 1.000e+01 kg, 100.0% of total DDL-water. - viscosity: 0.89144 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.351e-03 V. @@ -337,7 +337,7 @@ Su 1.000e+04 m² for 1.000e+01 moles of Calcite Water in diffuse layer: 1.000e+01 kg, 100.0% of total DDL-water. - viscosity: 0.89144 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.351e-03 V. @@ -538,7 +538,7 @@ Su 1.000e+02 m² for 1.000e-01 moles of Calcite Water in diffuse layer: 1.000e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89144 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.351e-03 V. @@ -691,7 +691,8 @@ Reading input data for simulation 5. -total_o 0.55508658925478 -cb -1.4803872180102e-15 -density 0.99714472270534 - -viscosity 0.89144404391777 + -viscosity 0.89144402619689 + -viscos_0 0.8900239182747 -totals C(-4) 2.729842079817e-13 C(4) 8.1407635881835e-06 @@ -779,7 +780,7 @@ Reading input data for simulation 5. -charge_balance 7.3990258364631e-14 -mass_water 0.1 -f_free 0 - -ddl_viscosity 1 + -ddl_viscosity 0 -la_psi -1.5020156718157 -capacitance0 1 -capacitance1 5 @@ -885,7 +886,7 @@ Su 1.000e+02 m² for 1.000e-01 moles of Calcite Water in diffuse layer: 1.000e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89144 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.351e-03 V. diff --git a/mytest/MoreExchMix_101.sel b/mytest/MoreExchMix_101.sel index 4cdda5a4..1d156769 100644 --- a/mytest/MoreExchMix_101.sel +++ b/mytest/MoreExchMix_101.sel @@ -1,8 +1,8 @@ Mu SC - 0.001099506090 320.9737662728 - 0.002686241891 204.1519830191 - 0.002686241891 204.1519830179 - 0.002686241891 204.1519830179 - 0.002686241895 204.1519831397 - 0.002686241895 204.1519831386 - 0.002686241896 204.1519832279 + 0.001099506090 320.9737686092 + 0.002686241891 204.1519859524 + 0.002686241891 204.1519859512 + 0.002686241891 204.1519859512 + 0.002686241895 204.1519860730 + 0.002686241895 204.1519860720 + 0.002686241896 204.1519861612 diff --git a/mytest/N2_ideal.out b/mytest/N2_ideal.out index 9f9c71d1..9d54c697 100644 --- a/mytest/N2_ideal.out +++ b/mytest/N2_ideal.out @@ -71,7 +71,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 12 Density (g/cm³) = 0.91701 Volume (L) = 1.09050 - Viscosity (mPa s) = 0.18261 + Viscosity (mPa s) = 0.18262 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-05 Mass of water (kg) = 1.000e+00 @@ -156,7 +156,7 @@ N2(g) 1.66 4.599e+01 1.000 0.000e+00 1.324e+00 1.324e+00 Specific Conductance (µS/cm, 150°C) = 12 Density (g/cm³) = 0.91704 Volume (L) = 1.09125 - Viscosity (mPa s) = 0.18261 + Viscosity (mPa s) = 0.18262 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-05 Mass of water (kg) = 1.000e+00 @@ -714,7 +714,7 @@ N2(g) 2.51 3.231e+02 1.000 7.974e+00 9.308e+00 1.335e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.93439 Volume (L) = 1.07447 - Viscosity (mPa s) = 0.19063 + Viscosity (mPa s) = 0.19064 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.194e-05 Mass of water (kg) = 1.000e+00 @@ -1179,7 +1179,7 @@ N2(g) 2.74 5.552e+02 0.999 1.466e+01 1.600e+01 1.341e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.94578 Volume (L) = 1.06327 - Viscosity (mPa s) = 0.19621 + Viscosity (mPa s) = 0.19622 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.197e-05 Mass of water (kg) = 1.000e+00 @@ -1365,7 +1365,7 @@ N2(g) 2.81 6.482e+02 0.999 1.734e+01 1.868e+01 1.343e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.95010 Volume (L) = 1.05890 - Viscosity (mPa s) = 0.19840 + Viscosity (mPa s) = 0.19841 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.198e-05 Mass of water (kg) = 1.000e+00 @@ -1551,7 +1551,7 @@ N2(g) 2.87 7.414e+02 0.999 2.003e+01 2.137e+01 1.344e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.95431 Volume (L) = 1.05459 - Viscosity (mPa s) = 0.20057 + Viscosity (mPa s) = 0.20058 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.200e-05 Mass of water (kg) = 1.000e+00 @@ -1830,7 +1830,7 @@ N2(g) 2.95 8.813e+02 0.999 2.406e+01 2.541e+01 1.346e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.96041 Volume (L) = 1.04826 - Viscosity (mPa s) = 0.20379 + Viscosity (mPa s) = 0.20380 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.203e-05 Mass of water (kg) = 1.000e+00 @@ -2040,7 +2040,7 @@ N2(g) 1.66 4.599e+01 0.000e+00 1.324e+00 1.324e+00 Specific Conductance (µS/cm, 150°C) = 12 Density (g/cm³) = 0.91704 Volume (L) = 1.09125 - Viscosity (mPa s) = 0.18261 + Viscosity (mPa s) = 0.18262 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-05 Mass of water (kg) = 1.000e+00 @@ -2408,7 +2408,7 @@ N2(g) 2.36 2.306e+02 5.309e+00 6.640e+00 1.332e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.92958 Volume (L) = 1.07906 - Viscosity (mPa s) = 0.18835 + Viscosity (mPa s) = 0.18836 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.192e-05 Mass of water (kg) = 1.000e+00 @@ -3604,7 +3604,7 @@ N2(g) 2.92 8.355e+02 2.272e+01 2.406e+01 1.346e+00 Specific Conductance (µS/cm, 150°C) = 11 Density (g/cm³) = 0.95844 Volume (L) = 1.05032 - Viscosity (mPa s) = 0.20274 + Viscosity (mPa s) = 0.20275 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.202e-05 Mass of water (kg) = 1.000e+00 diff --git a/mytest/N2_ideal_101.sel b/mytest/N2_ideal_101.sel index 85261cc7..915ab0f1 100644 --- a/mytest/N2_ideal_101.sel +++ b/mytest/N2_ideal_101.sel @@ -1,42 +1,42 @@ Mu SC - 0.000011900817 12.0128833726 - 0.000011904980 12.0012134687 - 0.000011909423 11.9733867192 - 0.000011914080 11.9549665423 - 0.000011918957 11.9376457712 - 0.000011924064 11.9213831892 - 0.000011929412 11.9061406322 - 0.000011935012 11.8918825627 - 0.000011940878 11.8785762260 - 0.000011947022 11.8661915394 - 0.000011953457 11.8547009197 - 0.000011960197 11.8440796392 - 0.000011967256 11.8343054711 - 0.000011974650 11.8253587823 - 0.000011982395 11.8172226248 - 0.000011990507 11.8098827635 - 0.000011999004 11.8033273644 - 0.000012007904 11.7975472613 - 0.000012017226 11.7925359105 - 0.000012026991 11.7882893878 - 0.000012037218 11.7848064166 - 0.000011904980 12.0012116021 - 0.000011909424 11.9733776646 - 0.000011914083 11.9549473252 - 0.000011918962 11.9376134688 - 0.000011924072 11.9213355904 - 0.000011929424 11.9060759445 - 0.000011935029 11.8917995796 - 0.000011940901 11.8784740779 - 0.000011947052 11.8660698430 - 0.000011953496 11.8545596751 - 0.000011960245 11.8439192065 - 0.000011967316 11.8341264631 - 0.000011974724 11.8251623205 - 0.000011982483 11.8170100789 - 0.000011990613 11.8096556290 - 0.000011999129 11.8030875244 - 0.000012008051 11.7972967589 - 0.000012017397 11.7922771778 - 0.000012027188 11.7880250769 - 0.000012037445 11.7845394604 + 0.000011900817 12.0128824240 + 0.000011904980 12.0012124840 + 0.000011909423 11.9733856974 + 0.000011914080 11.9549654809 + 0.000011918957 11.9376446683 + 0.000011924064 11.9213820428 + 0.000011929412 11.9061394404 + 0.000011935012 11.8918813233 + 0.000011940878 11.8785749368 + 0.000011947022 11.8661901980 + 0.000011953457 11.8546995237 + 0.000011960197 11.8440781861 + 0.000011967256 11.8343039581 + 0.000011974650 11.8253572067 + 0.000011982395 11.8172209837 + 0.000011990507 11.8098810538 + 0.000011999004 11.8033255829 + 0.000012007904 11.7975454046 + 0.000012017226 11.7925339751 + 0.000012026991 11.7882873701 + 0.000012037218 11.7848043127 + 0.000011904980 12.0012106174 + 0.000011909424 11.9733766428 + 0.000011914083 11.9549462637 + 0.000011918962 11.9376123658 + 0.000011924072 11.9213344439 + 0.000011929424 11.9060747526 + 0.000011935029 11.8917983400 + 0.000011940901 11.8784727885 + 0.000011947052 11.8660685013 + 0.000011953496 11.8545582788 + 0.000011960245 11.8439177530 + 0.000011967316 11.8341249497 + 0.000011974724 11.8251607443 + 0.000011982483 11.8170084370 + 0.000011990613 11.8096539184 + 0.000011999129 11.8030857418 + 0.000012008051 11.7972949010 + 0.000012017397 11.7922752410 + 0.000012027188 11.7880230576 + 0.000012037445 11.7845373546 diff --git a/mytest/NH4_2_SO4.out b/mytest/NH4_2_SO4.out index f18e3def..f31efac6 100644 --- a/mytest/NH4_2_SO4.out +++ b/mytest/NH4_2_SO4.out @@ -120,7 +120,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 8076 Density (g/cm³) = 1.00129 (Iterated) Volume (L) = 1.00375 - Viscosity (mPa s) = 1.01246 + Viscosity (mPa s) = 1.01241 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.797e-02 Mass of water (kg) = 1.000e+00 @@ -181,7 +181,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 15175 Density (g/cm³) = 1.00433 (Iterated) Volume (L) = 1.00575 - Viscosity (mPa s) = 1.02138 + Viscosity (mPa s) = 1.02131 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.845e-01 Mass of water (kg) = 1.000e+00 @@ -242,7 +242,7 @@ Initial solution 3. Specific Conductance (µS/cm, 20°C) = 28607 Density (g/cm³) = 1.01034 (Iterated) Volume (L) = 1.00998 - Viscosity (mPa s) = 1.03863 + Viscosity (mPa s) = 1.03855 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.458e-01 Mass of water (kg) = 1.000e+00 @@ -303,7 +303,7 @@ Initial solution 4. Specific Conductance (µS/cm, 20°C) = 41485 Density (g/cm³) = 1.01628 (Iterated) Volume (L) = 1.01445 - Viscosity (mPa s) = 1.05579 + Viscosity (mPa s) = 1.05569 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.983e-01 Mass of water (kg) = 1.000e+00 @@ -364,7 +364,7 @@ Initial solution 5. Specific Conductance (µS/cm, 20°C) = 53854 Density (g/cm³) = 1.02209 (Iterated) Volume (L) = 1.01910 - Viscosity (mPa s) = 1.07298 + Viscosity (mPa s) = 1.07287 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.437e-01 Mass of water (kg) = 1.000e+00 @@ -425,7 +425,7 @@ Initial solution 6. Specific Conductance (µS/cm, 20°C) = 66118 Density (g/cm³) = 1.02795 (Iterated) Volume (L) = 1.02401 - Viscosity (mPa s) = 1.09080 + Viscosity (mPa s) = 1.09068 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.875e-01 Mass of water (kg) = 1.000e+00 @@ -486,7 +486,7 @@ Initial solution 7. Specific Conductance (µS/cm, 20°C) = 78018 Density (g/cm³) = 1.03372 (Iterated) Volume (L) = 1.02907 - Viscosity (mPa s) = 1.10889 + Viscosity (mPa s) = 1.10876 Activity of water = 0.980 Ionic strength (mol/kgw) = 9.273e-01 Mass of water (kg) = 1.000e+00 @@ -547,7 +547,7 @@ Initial solution 8. Specific Conductance (µS/cm, 20°C) = 89886 Density (g/cm³) = 1.03956 (Iterated) Volume (L) = 1.03440 - Viscosity (mPa s) = 1.12799 + Viscosity (mPa s) = 1.12786 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.067e+00 Mass of water (kg) = 1.000e+00 @@ -605,10 +605,10 @@ Initial solution 9. pH = 5.292 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 101458 + Specific Conductance (µS/cm, 20°C) = 101457 Density (g/cm³) = 1.04532 (Iterated) Volume (L) = 1.03986 - Viscosity (mPa s) = 1.14756 + Viscosity (mPa s) = 1.14742 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.204e+00 Mass of water (kg) = 1.000e+00 @@ -666,10 +666,10 @@ Initial solution 10. pH = 5.279 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 112898 + Specific Conductance (µS/cm, 20°C) = 112897 Density (g/cm³) = 1.05108 (Iterated) Volume (L) = 1.04552 - Viscosity (mPa s) = 1.16780 + Viscosity (mPa s) = 1.16765 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.341e+00 Mass of water (kg) = 1.000e+00 @@ -727,10 +727,10 @@ Initial solution 11. pH = 5.266 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 124225 + Specific Conductance (µS/cm, 20°C) = 124223 Density (g/cm³) = 1.05684 (Iterated) Volume (L) = 1.05138 - Viscosity (mPa s) = 1.18869 + Viscosity (mPa s) = 1.18854 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.477e+00 Mass of water (kg) = 1.000e+00 @@ -788,10 +788,10 @@ Initial solution 12. pH = 5.242 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 146589 + Specific Conductance (µS/cm, 20°C) = 146587 Density (g/cm³) = 1.06840 (Iterated) Volume (L) = 1.06373 - Viscosity (mPa s) = 1.23238 + Viscosity (mPa s) = 1.23222 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.750e+00 Mass of water (kg) = 1.000e+00 @@ -849,10 +849,10 @@ Initial solution 13. pH = 5.220 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 168520 + Specific Conductance (µS/cm, 20°C) = 168517 Density (g/cm³) = 1.07993 (Iterated) Volume (L) = 1.07686 - Viscosity (mPa s) = 1.27819 + Viscosity (mPa s) = 1.27801 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.023e+00 Mass of water (kg) = 1.000e+00 @@ -910,10 +910,10 @@ Initial solution 14. pH = 5.199 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 190217 + Specific Conductance (µS/cm, 20°C) = 190213 Density (g/cm³) = 1.09151 (Iterated) Volume (L) = 1.09088 - Viscosity (mPa s) = 1.32611 + Viscosity (mPa s) = 1.32593 Activity of water = 0.944 Ionic strength (mol/kgw) = 2.300e+00 Mass of water (kg) = 1.000e+00 @@ -971,10 +971,10 @@ Initial solution 15. pH = 5.179 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 211615 + Specific Conductance (µS/cm, 20°C) = 211611 Density (g/cm³) = 1.10308 (Iterated) Volume (L) = 1.10578 - Viscosity (mPa s) = 1.37555 + Viscosity (mPa s) = 1.37536 Activity of water = 0.936 Ionic strength (mol/kgw) = 2.580e+00 Mass of water (kg) = 1.000e+00 @@ -1032,10 +1032,10 @@ Initial solution 16. pH = 5.160 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 232756 + Specific Conductance (µS/cm, 20°C) = 232751 Density (g/cm³) = 1.11463 (Iterated) Volume (L) = 1.12161 - Viscosity (mPa s) = 1.42613 + Viscosity (mPa s) = 1.42593 Activity of water = 0.927 Ionic strength (mol/kgw) = 2.865e+00 Mass of water (kg) = 1.000e+00 @@ -1093,10 +1093,10 @@ Initial solution 17. pH = 5.141 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 253773 + Specific Conductance (µS/cm, 20°C) = 253766 Density (g/cm³) = 1.12623 (Iterated) Volume (L) = 1.13852 - Viscosity (mPa s) = 1.47766 + Viscosity (mPa s) = 1.47745 Activity of water = 0.919 Ionic strength (mol/kgw) = 3.157e+00 Mass of water (kg) = 1.000e+00 @@ -1154,10 +1154,10 @@ Initial solution 18. pH = 5.124 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 274547 + Specific Conductance (µS/cm, 20°C) = 274539 Density (g/cm³) = 1.13780 (Iterated) Volume (L) = 1.15652 - Viscosity (mPa s) = 1.52932 + Viscosity (mPa s) = 1.52911 Activity of water = 0.910 Ionic strength (mol/kgw) = 3.455e+00 Mass of water (kg) = 1.000e+00 @@ -1215,10 +1215,10 @@ Initial solution 19. pH = 5.107 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 295158 + Specific Conductance (µS/cm, 20°C) = 295148 Density (g/cm³) = 1.14941 (Iterated) Volume (L) = 1.17578 - Viscosity (mPa s) = 1.58075 + Viscosity (mPa s) = 1.58053 Activity of water = 0.900 Ionic strength (mol/kgw) = 3.764e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NH4_2_SO4_101.sel b/mytest/NH4_2_SO4_101.sel index afa8c51e..797c59ac 100644 --- a/mytest/NH4_2_SO4_101.sel +++ b/mytest/NH4_2_SO4_101.sel @@ -1,20 +1,20 @@ Mu SC - 0.097971671830 8076.9404308325 - 0.184504431861 15175.2652927751 - 0.345808117162 28607.6640800751 - 0.498257279987 41485.2479177626 - 0.643659196858 53854.8851032659 - 0.787511032992 66118.9520926212 - 0.927272834248 78018.9897464884 - 1.067175184803 89886.9342240082 - 1.204339522557 101458.1525318968 - 1.340902702454 112898.8079999698 - 1.477200753446 124225.2895351950 - 1.750099086680 146589.9447456014 - 2.023354654496 168520.0663684143 - 2.300099333160 190217.3859259549 - 2.580134694396 211615.6824447636 - 2.864716964632 232756.9879740970 - 3.156599253950 253773.1778141430 - 3.455436189750 274547.4130054996 - 3.764045232277 295158.0428846562 + 0.097971671830 8076.9531435435 + 0.184504431861 15175.2835439380 + 0.345808117162 28607.6655603923 + 0.498257279987 41485.1966437008 + 0.643659196858 53854.7477281904 + 0.787511032992 66118.6939328854 + 0.927272834248 78018.5797191515 + 1.067175184803 89886.3377688719 + 1.204339522557 101457.3399722195 + 1.340902702454 112897.7478380254 + 1.477200753446 124223.9504881501 + 1.750099086680 146587.9548626273 + 2.023354654496 168517.3075449361 + 2.300099333160 190213.7380528709 + 2.580134694396 211611.0328591419 + 2.864716964632 232751.2273677416 + 3.156599253950 253766.1935880393 + 3.455436189750 274539.1020336541 + 3.764045232277 295148.2983816785 diff --git a/mytest/Na2SO4.out b/mytest/Na2SO4.out index b62a8173..f2eb9fe4 100644 --- a/mytest/Na2SO4.out +++ b/mytest/Na2SO4.out @@ -137,10 +137,10 @@ Thenardite -2.32 -2.50 -0.18 0.000e+00 0 0.000e+00 pH = 7.706 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 19640 + Specific Conductance (µS/cm, 0°C) = 19653 Density (g/cm³) = 1.03934 Volume (L) = 1.06033 - Viscosity (mPa s) = 2.06525 + Viscosity (mPa s) = 2.06364 Activity of water = 0.989 Ionic strength (mol/kgw) = 8.989e-01 Mass of water (kg) = 1.057e+00 @@ -206,10 +206,10 @@ Thenardite -2.19 -2.38 -0.19 0.000e+00 0 0.000e+00 pH = 7.678 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 2°C) = 23335 + Specific Conductance (µS/cm, 2°C) = 23351 Density (g/cm³) = 1.04478 Volume (L) = 1.07046 - Viscosity (mPa s) = 1.98189 + Viscosity (mPa s) = 1.98037 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.034e+00 Mass of water (kg) = 1.066e+00 @@ -275,10 +275,10 @@ Thenardite -2.07 -2.27 -0.20 0.000e+00 0 0.000e+00 pH = 7.651 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 4°C) = 27623 + Specific Conductance (µS/cm, 4°C) = 27641 Density (g/cm³) = 1.05088 Volume (L) = 1.08243 - Viscosity (mPa s) = 1.91160 + Viscosity (mPa s) = 1.91018 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.189e+00 Mass of water (kg) = 1.077e+00 @@ -344,10 +344,10 @@ Thenardite -1.95 -2.16 -0.21 0.000e+00 0 0.000e+00 pH = 7.625 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 32569 + Specific Conductance (µS/cm, 5°C) = 32589 Density (g/cm³) = 1.05774 Volume (L) = 1.09661 - Viscosity (mPa s) = 1.85377 + Viscosity (mPa s) = 1.85244 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.367e+00 Mass of water (kg) = 1.089e+00 @@ -413,10 +413,10 @@ Thenardite -1.83 -2.04 -0.22 0.000e+00 0 0.000e+00 pH = 7.599 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 7°C) = 38234 + Specific Conductance (µS/cm, 7°C) = 38257 Density (g/cm³) = 1.06544 Volume (L) = 1.11341 - Viscosity (mPa s) = 1.80803 + Viscosity (mPa s) = 1.80679 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.571e+00 Mass of water (kg) = 1.104e+00 @@ -482,10 +482,10 @@ Thenardite -1.71 -1.93 -0.22 0.000e+00 0 0.000e+00 pH = 7.574 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 9°C) = 44662 + Specific Conductance (µS/cm, 9°C) = 44687 Density (g/cm³) = 1.07410 Volume (L) = 1.13336 - Viscosity (mPa s) = 1.77430 + Viscosity (mPa s) = 1.77317 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.804e+00 Mass of water (kg) = 1.122e+00 @@ -551,10 +551,10 @@ Thenardite -1.59 -1.82 -0.23 0.000e+00 0 0.000e+00 pH = 7.550 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 11°C) = 51873 + Specific Conductance (µS/cm, 11°C) = 51899 Density (g/cm³) = 1.08379 Volume (L) = 1.15709 - Viscosity (mPa s) = 1.75278 + Viscosity (mPa s) = 1.75175 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.071e+00 Mass of water (kg) = 1.142e+00 @@ -620,10 +620,10 @@ Thenardite -1.48 -1.72 -0.24 0.000e+00 0 0.000e+00 pH = 7.527 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 13°C) = 59844 + Specific Conductance (µS/cm, 13°C) = 59871 Density (g/cm³) = 1.09462 Volume (L) = 1.18538 - Viscosity (mPa s) = 1.74394 + Viscosity (mPa s) = 1.74301 Activity of water = 0.973 Ionic strength (mol/kgw) = 2.375e+00 Mass of water (kg) = 1.166e+00 @@ -689,10 +689,10 @@ Thenardite -1.36 -1.61 -0.25 0.000e+00 0 0.000e+00 pH = 7.505 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 14°C) = 68500 + Specific Conductance (µS/cm, 14°C) = 68527 Density (g/cm³) = 1.10666 Volume (L) = 1.21915 - Viscosity (mPa s) = 1.74856 + Viscosity (mPa s) = 1.74774 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.720e+00 Mass of water (kg) = 1.195e+00 @@ -758,10 +758,10 @@ Thenardite -1.24 -1.50 -0.26 0.000e+00 0 0.000e+00 pH = 7.484 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 77698 + Specific Conductance (µS/cm, 16°C) = 77724 Density (g/cm³) = 1.11997 Volume (L) = 1.25957 - Viscosity (mPa s) = 1.76779 + Viscosity (mPa s) = 1.76710 Activity of water = 0.966 Ionic strength (mol/kgw) = 3.110e+00 Mass of water (kg) = 1.230e+00 @@ -827,10 +827,10 @@ Thenardite -1.13 -1.39 -0.27 0.000e+00 0 0.000e+00 pH = 7.464 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 18°C) = 87220 + Specific Conductance (µS/cm, 18°C) = 87245 Density (g/cm³) = 1.13458 Volume (L) = 1.30813 - Viscosity (mPa s) = 1.80333 + Viscosity (mPa s) = 1.80276 Activity of water = 0.961 Ionic strength (mol/kgw) = 3.548e+00 Mass of water (kg) = 1.271e+00 @@ -896,10 +896,10 @@ Thenardite -1.01 -1.28 -0.28 0.000e+00 0 0.000e+00 pH = 7.445 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 96774 + Specific Conductance (µS/cm, 20°C) = 96794 Density (g/cm³) = 1.15053 Volume (L) = 1.36678 - Viscosity (mPa s) = 1.85759 + Viscosity (mPa s) = 1.85715 Activity of water = 0.956 Ionic strength (mol/kgw) = 4.038e+00 Mass of water (kg) = 1.320e+00 @@ -965,10 +965,10 @@ Thenardite -0.89 -1.17 -0.28 0.000e+00 0 0.000e+00 pH = 7.428 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 21°C) = 105992 + Specific Conductance (µS/cm, 21°C) = 106007 Density (g/cm³) = 1.16786 Volume (L) = 1.43818 - Viscosity (mPa s) = 1.93412 + Viscosity (mPa s) = 1.93382 Activity of water = 0.950 Ionic strength (mol/kgw) = 4.585e+00 Mass of water (kg) = 1.380e+00 @@ -1034,10 +1034,10 @@ Thenardite -0.77 -1.06 -0.29 0.000e+00 0 0.000e+00 pH = 7.411 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 23°C) = 114443 + Specific Conductance (µS/cm, 23°C) = 114451 Density (g/cm³) = 1.18663 Volume (L) = 1.52626 - Viscosity (mPa s) = 2.03833 + Viscosity (mPa s) = 2.03817 Activity of water = 0.943 Ionic strength (mol/kgw) = 5.196e+00 Mass of water (kg) = 1.454e+00 @@ -1172,10 +1172,10 @@ Thenardite -0.52 -0.83 -0.31 0.000e+00 0 0.000e+00 pH = 7.383 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 27°C) = 126975 + Specific Conductance (µS/cm, 27°C) = 126967 Density (g/cm³) = 1.22912 Volume (L) = 1.78071 - Viscosity (mPa s) = 2.36904 + Viscosity (mPa s) = 2.36920 Activity of water = 0.926 Ionic strength (mol/kgw) = 6.649e+00 Mass of water (kg) = 1.665e+00 @@ -1241,10 +1241,10 @@ Thenardite -0.39 -0.70 -0.32 0.000e+00 0 0.000e+00 pH = 7.370 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 29°C) = 129797 + Specific Conductance (µS/cm, 29°C) = 129783 Density (g/cm³) = 1.25350 Volume (L) = 1.97559 - Viscosity (mPa s) = 2.63372 + Viscosity (mPa s) = 2.63406 Activity of water = 0.916 Ionic strength (mol/kgw) = 7.530e+00 Mass of water (kg) = 1.826e+00 @@ -1310,10 +1310,10 @@ Thenardite -0.24 -0.57 -0.33 0.000e+00 0 0.000e+00 pH = 7.359 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 129204 + Specific Conductance (µS/cm, 30°C) = 129185 Density (g/cm³) = 1.28092 Volume (L) = 2.25997 - Viscosity (mPa s) = 3.01945 + Viscosity (mPa s) = 3.01998 Activity of water = 0.903 Ionic strength (mol/kgw) = 8.566e+00 Mass of water (kg) = 2.060e+00 @@ -1379,10 +1379,10 @@ Thenardite -0.09 -0.42 -0.33 0.000e+00 0 0.000e+00 pH = 7.348 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 123860 + Specific Conductance (µS/cm, 32°C) = 123839 Density (g/cm³) = 1.31299 Volume (L) = 2.73147 - Viscosity (mPa s) = 3.63099 + Viscosity (mPa s) = 3.63173 Activity of water = 0.886 Ionic strength (mol/kgw) = 9.845e+00 Mass of water (kg) = 2.446e+00 @@ -1448,10 +1448,10 @@ Thenardite 0.00 -0.34 -0.34 0.000e+00 8.756e-01 8.756e-01 pH = 7.334 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 34°C) = 122432 + Specific Conductance (µS/cm, 34°C) = 122407 Density (g/cm³) = 1.32951 Volume (L) = 3.56678 - Viscosity (mPa s) = 3.93275 + Viscosity (mPa s) = 3.93367 Activity of water = 0.877 Ionic strength (mol/kgw) = 1.055e+01 Mass of water (kg) = 3.162e+00 @@ -1534,10 +1534,10 @@ Thenardite 0.00 -0.34 -0.34 2.000e+00 2.000e+00 0.000e+00 pH = 7.334 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 34°C) = 122432 + Specific Conductance (µS/cm, 34°C) = 122407 Density (g/cm³) = 1.32951 Volume (L) = 3.56678 - Viscosity (mPa s) = 3.93275 + Viscosity (mPa s) = 3.93367 Activity of water = 0.877 Ionic strength (mol/kgw) = 1.055e+01 Mass of water (kg) = 3.162e+00 @@ -1602,10 +1602,10 @@ Thenardite 0.00 -0.44 -0.44 2.000e+00 3.032e+00 1.032e+00 pH = 7.169 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 207769 + Specific Conductance (µS/cm, 54°C) = 207575 Density (g/cm³) = 1.29531 Volume (L) = 3.54778 - Viscosity (mPa s) = 1.99434 + Viscosity (mPa s) = 1.99647 Activity of water = 0.890 Ionic strength (mol/kgw) = 9.575e+00 Mass of water (kg) = 3.162e+00 @@ -1670,10 +1670,10 @@ Thenardite -0.00 -0.56 -0.56 2.000e+00 3.568e+00 1.568e+00 pH = 7.052 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 301803 + Specific Conductance (µS/cm, 74°C) = 301209 Density (g/cm³) = 1.27127 Volume (L) = 3.55497 - Viscosity (mPa s) = 1.26242 + Viscosity (mPa s) = 1.26524 Activity of water = 0.898 Ionic strength (mol/kgw) = 9.067e+00 Mass of water (kg) = 3.162e+00 @@ -1738,10 +1738,10 @@ Thenardite 0.00 -0.68 -0.68 2.000e+00 3.746e+00 1.746e+00 pH = 6.972 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 94°C) = 407202 + Specific Conductance (µS/cm, 94°C) = 405886 Density (g/cm³) = 1.25360 Volume (L) = 3.58490 - Viscosity (mPa s) = 0.91078 + Viscosity (mPa s) = 0.91410 Activity of water = 0.903 Ionic strength (mol/kgw) = 8.898e+00 Mass of water (kg) = 3.162e+00 @@ -1806,10 +1806,10 @@ Thenardite 0.00 -0.84 -0.84 2.000e+00 3.704e+00 1.704e+00 pH = 6.921 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 114°C) = 527763 + Specific Conductance (µS/cm, 114°C) = 525268 Density (g/cm³) = 1.23801 Volume (L) = 3.63487 - Viscosity (mPa s) = 0.71064 + Viscosity (mPa s) = 0.71441 Activity of water = 0.907 Ionic strength (mol/kgw) = 8.938e+00 Mass of water (kg) = 3.162e+00 @@ -1875,10 +1875,10 @@ Thenardite -0.00 -1.01 -1.01 2.000e+00 3.569e+00 1.569e+00 pH = 6.895 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 135°C) = 660636 + Specific Conductance (µS/cm, 135°C) = 656351 Density (g/cm³) = 1.22002 Volume (L) = 3.70425 - Viscosity (mPa s) = 0.58049 + Viscosity (mPa s) = 0.58467 Activity of water = 0.911 Ionic strength (mol/kgw) = 9.066e+00 Mass of water (kg) = 3.162e+00 @@ -1944,10 +1944,10 @@ Thenardite 0.00 -1.22 -1.22 2.000e+00 3.429e+00 1.429e+00 pH = 6.892 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 795976 + Specific Conductance (µS/cm, 155°C) = 789156 Density (g/cm³) = 1.19591 Volume (L) = 3.79554 - Viscosity (mPa s) = 0.48651 + Viscosity (mPa s) = 0.49112 Activity of water = 0.916 Ionic strength (mol/kgw) = 9.199e+00 Mass of water (kg) = 3.162e+00 @@ -2013,10 +2013,10 @@ Thenardite 0.00 -1.46 -1.46 2.000e+00 3.375e+00 1.375e+00 pH = 6.908 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 922075 + Specific Conductance (µS/cm, 175°C) = 911860 Density (g/cm³) = 1.16238 Volume (L) = 3.91162 - Viscosity (mPa s) = 0.41166 + Viscosity (mPa s) = 0.41668 Activity of water = 0.922 Ionic strength (mol/kgw) = 9.250e+00 Mass of water (kg) = 3.162e+00 @@ -2082,10 +2082,10 @@ Thenardite 0.00 -1.73 -1.73 2.000e+00 3.496e+00 1.496e+00 pH = 6.944 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 195°C) = 1031336 + Specific Conductance (µS/cm, 195°C) = 1016692 Density (g/cm³) = 1.11742 Volume (L) = 4.05361 - Viscosity (mPa s) = 0.34660 + Viscosity (mPa s) = 0.35201 Activity of water = 0.929 Ionic strength (mol/kgw) = 9.135e+00 Mass of water (kg) = 3.162e+00 @@ -2151,10 +2151,10 @@ Thenardite -0.00 -2.05 -2.05 2.000e+00 3.821e+00 1.821e+00 pH = 6.996 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 215°C) = 1113458 + Specific Conductance (µS/cm, 215°C) = 1093371 Density (g/cm³) = 1.06169 Volume (L) = 4.22297 - Viscosity (mPa s) = 0.29014 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.29589 (solute contributions limited to 200 °C) Activity of water = 0.937 Ionic strength (mol/kgw) = 8.827e+00 Mass of water (kg) = 3.162e+00 diff --git a/mytest/Na2SO4_101.sel b/mytest/Na2SO4_101.sel index 648648ca..dd9dae7b 100644 --- a/mytest/Na2SO4_101.sel +++ b/mytest/Na2SO4_101.sel @@ -1,32 +1,32 @@ Mu SC 0.000000100645 0.0546913895 - 0.898891989688 19640.6478088949 - 1.033923224615 23335.8743795652 - 1.188930444396 27623.3855876148 - 1.366811929957 32569.5787832305 - 1.570785303210 38234.3705327220 - 1.804350053126 44662.6832254418 - 2.071215364813 51873.0815186850 - 2.375197865112 59844.1244402819 - 2.720112285210 68500.0121092152 - 3.109702531523 77698.0666565342 - 3.547683841374 87220.8340906753 - 4.037978902971 96774.5080081151 - 4.585233321494 105992.9582369605 - 5.195693522101 114443.5781595914 - 5.878631942745 121628.9532257946 - 6.648689750151 126975.7312855957 - 7.530198174932 129797.8752141462 - 8.566476102369 129204.9884461385 - 9.844566031097 123860.8201568031 - 10.554747289452 122432.6117468987 - 10.554747289473 122432.6117467308 - 9.575390812253 207769.7121480611 - 9.066925667677 301803.4586637587 - 8.897832648329 407202.9822247704 - 8.937896687791 527763.0006162882 - 9.066418566993 660636.0579753326 - 9.199088926116 795976.5786462956 - 9.250228304993 922075.1940580995 - 9.135261541036 1031336.2666059048 - 8.827269533812 1113458.2227148982 + 0.898891989688 19653.8928630212 + 1.033923224615 23351.3443453443 + 1.188930444396 27641.2285942995 + 1.366811929957 32589.8670189194 + 1.570785303210 38257.0602845620 + 1.804350053126 44687.5676641203 + 2.071215364813 51899.7404672758 + 2.375197865112 59871.8794801453 + 2.720112285210 68527.8998084620 + 3.109702531523 77724.8456261074 + 3.547683841374 87245.0405988161 + 4.037978902971 96794.5684927407 + 4.585233321494 106007.3561916792 + 5.195693522101 114451.0611617139 + 5.878631942745 121628.7577237992 + 6.648689750151 126967.8005118539 + 7.530198174932 129783.0488686969 + 8.566476102369 129185.1503011162 + 9.844566031097 123839.0066176043 + 10.554747289452 122407.6727644781 + 10.554747289473 122407.6727643103 + 9.575390812253 207575.1350879332 + 9.066925667677 301209.7057040095 + 8.897832648329 405886.8949177529 + 8.937896687791 525268.4258923918 + 9.066418566993 656351.5018055282 + 9.199088926116 789156.9020780172 + 9.250228304993 911860.0352999056 + 9.135261541036 1016692.7990275654 + 8.827269533812 1093371.8798329481 diff --git a/mytest/Na2SO4_phr.out b/mytest/Na2SO4_phr.out index 95107883..d7b48bd7 100644 --- a/mytest/Na2SO4_phr.out +++ b/mytest/Na2SO4_phr.out @@ -149,10 +149,10 @@ Thenardite -2.08 -2.42 -0.34 0.000e+00 0 0.000e+00 pH = 7.586 Charge balance pe = 5.788 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 10499 + Specific Conductance (µS/cm, 0°C) = 10500 Density (g/cm³) = 1.04414 Volume (L) = 1.05658 - Viscosity (mPa s) = 1.87281 + Viscosity (mPa s) = 1.87246 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.086e-01 Mass of water (kg) = 1.058e+00 @@ -228,10 +228,10 @@ Thenardite -1.81 -2.12 -0.32 0.000e+00 0 0.000e+00 pH = 7.467 Charge balance pe = 6.544 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 16471 + Specific Conductance (µS/cm, 5°C) = 16474 Density (g/cm³) = 1.06174 Volume (L) = 1.08209 - Viscosity (mPa s) = 1.63796 + Viscosity (mPa s) = 1.63766 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.280e+00 Mass of water (kg) = 1.083e+00 @@ -307,10 +307,10 @@ Thenardite -1.51 -1.82 -0.31 0.000e+00 0 0.000e+00 pH = 7.341 Charge balance pe = 7.727 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 25421 + Specific Conductance (µS/cm, 10°C) = 25424 Density (g/cm³) = 1.08757 Volume (L) = 1.12358 - Viscosity (mPa s) = 1.49312 + Viscosity (mPa s) = 1.49288 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.839e+00 Mass of water (kg) = 1.124e+00 @@ -386,10 +386,10 @@ Thenardite -1.19 -1.49 -0.30 0.000e+00 0 0.000e+00 pH = 7.203 Charge balance pe = 9.722 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 38196 + Specific Conductance (µS/cm, 15°C) = 38199 Density (g/cm³) = 1.12787 Volume (L) = 1.19656 - Viscosity (mPa s) = 1.46184 + Viscosity (mPa s) = 1.46168 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.723e+00 Mass of water (kg) = 1.195e+00 @@ -465,10 +465,10 @@ Thenardite -0.82 -1.12 -0.30 0.000e+00 0 0.000e+00 pH = 7.057 Charge balance pe = 11.966 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 54118 + Specific Conductance (µS/cm, 20°C) = 54120 Density (g/cm³) = 1.20069 Volume (L) = 1.35741 - Viscosity (mPa s) = 1.70097 + Viscosity (mPa s) = 1.70088 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.337e+00 Mass of water (kg) = 1.352e+00 @@ -623,10 +623,10 @@ Thenardite -0.13 -0.44 -0.31 0.000e+00 0 0.000e+00 pH = 6.865 Charge balance pe = 11.588 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 65890 + Specific Conductance (µS/cm, 30°C) = 65889 Density (g/cm³) = 1.50650 Volume (L) = 3.23030 - Viscosity (mPa s) = 4.74742 + Viscosity (mPa s) = 4.74752 Activity of water = 0.806 Ionic strength (mol/kgw) = 1.139e+01 Mass of water (kg) = 3.162e+00 @@ -702,10 +702,10 @@ Thenardite -0.13 -0.45 -0.32 0.000e+00 0 0.000e+00 pH = 6.788 Charge balance pe = 11.243 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 72322 + Specific Conductance (µS/cm, 35°C) = 72320 Density (g/cm³) = 1.50406 Volume (L) = 3.23554 - Viscosity (mPa s) = 4.27865 + Viscosity (mPa s) = 4.27883 Activity of water = 0.806 Ionic strength (mol/kgw) = 1.139e+01 Mass of water (kg) = 3.162e+00 @@ -801,10 +801,10 @@ Thenardite 0.00 -0.37 -0.37 2.000e+00 2.824e+00 8.245e-01 pH = 6.574 Charge balance pe = 10.745 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 94490 + Specific Conductance (µS/cm, 50°C) = 94481 Density (g/cm³) = 1.46188 Volume (L) = 3.24878 - Viscosity (mPa s) = 2.86629 + Viscosity (mPa s) = 2.86667 Activity of water = 0.820 Ionic strength (mol/kgw) = 1.060e+01 Mass of water (kg) = 3.162e+00 @@ -900,10 +900,10 @@ Thenardite 0.00 -0.52 -0.52 2.000e+00 3.977e+00 1.977e+00 pH = 6.282 Charge balance pe = 9.791 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 133341 + Specific Conductance (µS/cm, 75°C) = 133308 Density (g/cm³) = 1.39609 Volume (L) = 3.28461 - Viscosity (mPa s) = 1.64611 + Viscosity (mPa s) = 1.64670 Activity of water = 0.838 Ionic strength (mol/kgw) = 9.510e+00 Mass of water (kg) = 3.162e+00 @@ -998,10 +998,10 @@ Thenardite 0.00 -0.70 -0.70 2.000e+00 4.464e+00 2.464e+00 pH = 6.053 Charge balance pe = 8.545 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 171550 + Specific Conductance (µS/cm, 100°C) = 171467 Density (g/cm³) = 1.35308 Volume (L) = 3.33789 - Viscosity (mPa s) = 1.11779 + Viscosity (mPa s) = 1.11856 Activity of water = 0.846 Ionic strength (mol/kgw) = 9.048e+00 Mass of water (kg) = 3.162e+00 @@ -1096,10 +1096,10 @@ Thenardite 0.00 -1.15 -1.15 2.000e+00 3.971e+00 1.971e+00 pH = 5.734 Charge balance pe = 6.634 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 237842 + Specific Conductance (µS/cm, 150°C) = 237587 Density (g/cm³) = 1.31304 Volume (L) = 3.49304 - Viscosity (mPa s) = 0.73787 + Viscosity (mPa s) = 0.73900 Activity of water = 0.838 Ionic strength (mol/kgw) = 9.516e+00 Mass of water (kg) = 3.162e+00 @@ -1207,10 +1207,10 @@ Thenardite -0.00 -1.71 -1.71 2.000e+00 2.004e+00 3.999e-03 pH = 5.562 Charge balance pe = 4.166 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 281135 + Specific Conductance (µS/cm, 200°C) = 280669 Density (g/cm³) = 1.30394 Volume (L) = 3.73168 - Viscosity (mPa s) = 0.65376 + Viscosity (mPa s) = 0.65530 Activity of water = 0.807 Ionic strength (mol/kgw) = 1.138e+01 Mass of water (kg) = 3.162e+00 @@ -1312,10 +1312,10 @@ Thenardite -0.20 -2.25 -2.05 2.000e+00 0 -2.000e+00 pH = 5.526 Charge balance pe = 4.322 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 225°C) = 283179 + Specific Conductance (µS/cm, 225°C) = 282657 Density (g/cm³) = 1.31812 Volume (L) = 3.90748 - Viscosity (mPa s) = 0.71408 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.71596 (solute contributions limited to 200 °C) Activity of water = 0.774 Ionic strength (mol/kgw) = 1.328e+01 Mass of water (kg) = 3.162e+00 diff --git a/mytest/Na2SO4_phr_101.sel b/mytest/Na2SO4_phr_101.sel index 69311164..6cc44b0a 100644 --- a/mytest/Na2SO4_phr_101.sel +++ b/mytest/Na2SO4_phr_101.sel @@ -1,16 +1,16 @@ Mu SC 0.000000100661 0.0546997340 - 0.908591471069 10499.5180200784 - 1.279842740647 16471.9035297737 - 1.838574036252 25421.8324790218 - 2.722597967240 38196.9050039858 - 4.336941047998 54118.3461871525 - 11.385487487878 59647.4394657620 - 11.385487528738 65890.0348956195 - 11.385487575620 72322.9525380412 - 10.603225372082 94490.2983109213 - 9.509675159982 133341.8660244493 - 9.047654647870 171550.7414522739 - 9.515511136245 237842.9732526094 - 11.381699038587 281135.0971095797 - 13.283074998524 283179.4417382416 + 0.908591471069 10500.9073486572 + 1.279842740647 16474.0060261263 + 1.838574036252 25424.6747354049 + 2.722597967240 38199.9872651821 + 4.336941047998 54120.2715442916 + 11.385487487878 59647.4407935932 + 11.385487528738 65889.0876046532 + 11.385487575620 72320.7940835564 + 10.603225372082 94481.6594446775 + 9.509675159982 133308.3589264930 + 9.047654647870 171467.1950459855 + 9.515511136245 237587.4921637982 + 11.381699038587 280669.8302018545 + 13.283074998524 282657.4715654009 diff --git a/mytest/NaCl-SO4.out b/mytest/NaCl-SO4.out index a55beec9..21276062 100644 --- a/mytest/NaCl-SO4.out +++ b/mytest/NaCl-SO4.out @@ -173,10 +173,10 @@ Mirabilite -0.00 -1.71 -1.71 1.000e+01 1.126e+01 1.263e+00 pH = 7.496 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 102393 + Specific Conductance (µS/cm, 15°C) = 102394 Density (g/cm³) = 1.11164 Volume (L) = 0.78911 - Viscosity (mPa s) = 1.16051 + Viscosity (mPa s) = 1.15974 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.863e+00 Mass of water (kg) = 7.725e-01 @@ -264,10 +264,10 @@ Mirabilite 0.00 -1.71 -1.71 1.100e+01 1.046e+01 -5.353e-01 pH = 7.276 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 158651 + Specific Conductance (µS/cm, 15°C) = 158667 Density (g/cm³) = 1.12674 Volume (L) = 0.95856 - Viscosity (mPa s) = 1.15316 + Viscosity (mPa s) = 1.15263 Activity of water = 0.924 Ionic strength (mol/kgw) = 3.391e+00 Mass of water (kg) = 9.163e-01 @@ -355,10 +355,10 @@ Mirabilite 0.00 -1.71 -1.71 1.000e+01 9.437e+00 -5.628e-01 pH = 7.161 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 207827 + Specific Conductance (µS/cm, 15°C) = 207857 Density (g/cm³) = 1.15360 Volume (L) = 1.17610 - Viscosity (mPa s) = 1.15352 + Viscosity (mPa s) = 1.15299 Activity of water = 0.884 Ionic strength (mol/kgw) = 4.258e+00 Mass of water (kg) = 1.101e+00 @@ -446,10 +446,10 @@ Mirabilite 0.00 -1.71 -1.71 9.000e+00 8.354e+00 -6.458e-01 pH = 7.100 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 241829 + Specific Conductance (µS/cm, 15°C) = 241869 Density (g/cm³) = 1.17466 Volume (L) = 1.40577 - Viscosity (mPa s) = 1.15429 + Viscosity (mPa s) = 1.15372 Activity of water = 0.853 Ionic strength (mol/kgw) = 4.966e+00 Mass of water (kg) = 1.297e+00 @@ -537,10 +537,10 @@ Mirabilite 0.00 -1.71 -1.71 8.000e+00 7.248e+00 -7.515e-01 pH = 7.064 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 265808 + Specific Conductance (µS/cm, 15°C) = 265856 Density (g/cm³) = 1.19052 Volume (L) = 1.64062 - Viscosity (mPa s) = 1.15495 + Viscosity (mPa s) = 1.15437 Activity of water = 0.828 Ionic strength (mol/kgw) = 5.519e+00 Mass of water (kg) = 1.496e+00 @@ -628,10 +628,10 @@ Mirabilite 0.00 -1.71 -1.71 7.000e+00 6.129e+00 -8.707e-01 pH = 7.043 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 283406 + Specific Conductance (µS/cm, 15°C) = 283459 Density (g/cm³) = 1.20273 Volume (L) = 1.87856 - Viscosity (mPa s) = 1.15550 + Viscosity (mPa s) = 1.15490 Activity of water = 0.809 Ionic strength (mol/kgw) = 5.958e+00 Mass of water (kg) = 1.697e+00 @@ -719,10 +719,10 @@ Mirabilite 0.00 -1.71 -1.71 6.000e+00 5.001e+00 -9.991e-01 pH = 7.030 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 296786 + Specific Conductance (µS/cm, 15°C) = 296844 Density (g/cm³) = 1.21238 Volume (L) = 2.11867 - Viscosity (mPa s) = 1.15596 + Viscosity (mPa s) = 1.15534 Activity of water = 0.793 Ionic strength (mol/kgw) = 6.313e+00 Mass of water (kg) = 1.901e+00 @@ -810,10 +810,10 @@ Mirabilite -0.00 -1.71 -1.71 5.000e+00 3.865e+00 -1.135e+00 pH = 7.021 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 307261 + Specific Conductance (µS/cm, 15°C) = 307323 Density (g/cm³) = 1.22017 Volume (L) = 2.36041 - Viscosity (mPa s) = 1.15633 + Viscosity (mPa s) = 1.15570 Activity of water = 0.780 Ionic strength (mol/kgw) = 6.605e+00 Mass of water (kg) = 2.105e+00 @@ -901,10 +901,10 @@ Mirabilite -0.00 -1.71 -1.71 3.865e+00 2.724e+00 -1.141e+00 pH = 7.016 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 315663 + Specific Conductance (µS/cm, 15°C) = 315728 Density (g/cm³) = 1.22660 Volume (L) = 2.60343 - Viscosity (mPa s) = 1.15665 + Viscosity (mPa s) = 1.15601 Activity of water = 0.769 Ionic strength (mol/kgw) = 6.850e+00 Mass of water (kg) = 2.311e+00 @@ -992,10 +992,10 @@ Mirabilite -0.00 -1.71 -1.71 2.724e+00 1.579e+00 -1.146e+00 pH = 7.013 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 322538 + Specific Conductance (µS/cm, 15°C) = 322606 Density (g/cm³) = 1.23199 Volume (L) = 2.84749 - Viscosity (mPa s) = 1.15692 + Viscosity (mPa s) = 1.15627 Activity of water = 0.759 Ionic strength (mol/kgw) = 7.057e+00 Mass of water (kg) = 2.517e+00 @@ -1083,10 +1083,10 @@ Mirabilite 0.00 -1.71 -1.71 1.579e+00 4.295e-01 -1.149e+00 pH = 7.011 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 328260 + Specific Conductance (µS/cm, 15°C) = 328329 Density (g/cm³) = 1.23658 Volume (L) = 3.09240 - Viscosity (mPa s) = 1.15716 + Viscosity (mPa s) = 1.15650 Activity of water = 0.751 Ionic strength (mol/kgw) = 7.236e+00 Mass of water (kg) = 2.724e+00 @@ -1174,10 +1174,10 @@ Mirabilite -0.20 -1.91 -1.71 4.295e-01 0 -4.295e-01 pH = 6.911 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 329851 + Specific Conductance (µS/cm, 15°C) = 329924 Density (g/cm³) = 1.22522 Volume (L) = 3.17609 - Viscosity (mPa s) = 1.15594 + Viscosity (mPa s) = 1.15532 Activity of water = 0.750 Ionic strength (mol/kgw) = 6.859e+00 Mass of water (kg) = 2.802e+00 @@ -1265,10 +1265,10 @@ Mirabilite -4.19 -5.90 -1.71 0.000e+00 0 0.000e+00 pH = 6.545 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 328556 + Specific Conductance (µS/cm, 15°C) = 328633 Density (g/cm³) = 1.20257 Volume (L) = 3.16056 - Viscosity (mPa s) = 1.15383 + Viscosity (mPa s) = 1.15328 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.103e+00 Mass of water (kg) = 2.802e+00 @@ -1380,10 +1380,10 @@ Thenardite 0.00 -1.81 -1.81 1.000e+01 8.977e+00 -1.023e+00 pH = 6.956 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1467232 + Specific Conductance (µS/cm, 200°C) = 1467229 Density (g/cm³) = 1.10418 Volume (L) = 1.29461 - Viscosity (mPa s) = 0.14413 + Viscosity (mPa s) = 0.14973 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.071e+00 Mass of water (kg) = 1.000e+00 @@ -1472,10 +1472,10 @@ Thenardite 0.00 -1.81 -1.81 8.977e+00 8.775e+00 -2.017e-01 pH = 6.899 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1433279 + Specific Conductance (µS/cm, 200°C) = 1431140 Density (g/cm³) = 1.08614 Volume (L) = 1.26553 - Viscosity (mPa s) = 0.14214 + Viscosity (mPa s) = 0.14657 Activity of water = 0.914 Ionic strength (mol/kgw) = 7.676e+00 Mass of water (kg) = 1.000e+00 @@ -1564,10 +1564,10 @@ Thenardite 0.00 -1.81 -1.81 8.775e+00 8.302e+00 -4.734e-01 pH = 6.810 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1474529 + Specific Conductance (µS/cm, 200°C) = 1470358 Density (g/cm³) = 1.07918 Volume (L) = 1.25854 - Viscosity (mPa s) = 0.14099 + Viscosity (mPa s) = 0.14475 Activity of water = 0.893 Ionic strength (mol/kgw) = 7.096e+00 Mass of water (kg) = 1.000e+00 @@ -1656,10 +1656,10 @@ Thenardite 0.00 -1.81 -1.81 8.302e+00 7.655e+00 -6.469e-01 pH = 6.709 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1570787 + Specific Conductance (µS/cm, 200°C) = 1564459 Density (g/cm³) = 1.08140 Volume (L) = 1.26361 - Viscosity (mPa s) = 0.14043 + Viscosity (mPa s) = 0.14385 Activity of water = 0.869 Ionic strength (mol/kgw) = 7.037e+00 Mass of water (kg) = 1.000e+00 @@ -1748,10 +1748,10 @@ Thenardite 0.00 -1.81 -1.81 7.655e+00 6.883e+00 -7.717e-01 pH = 6.602 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1703854 + Specific Conductance (µS/cm, 200°C) = 1695157 Density (g/cm³) = 1.09053 Volume (L) = 1.27689 - Viscosity (mPa s) = 0.14024 + Viscosity (mPa s) = 0.14354 Activity of water = 0.842 Ionic strength (mol/kgw) = 7.352e+00 Mass of water (kg) = 1.000e+00 @@ -1840,10 +1840,10 @@ Thenardite 0.00 -1.81 -1.81 6.883e+00 6.022e+00 -8.608e-01 pH = 6.495 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1855508 + Specific Conductance (µS/cm, 200°C) = 1844271 Density (g/cm³) = 1.10402 Volume (L) = 1.29631 - Viscosity (mPa s) = 0.14027 + Viscosity (mPa s) = 0.14358 Activity of water = 0.814 Ionic strength (mol/kgw) = 7.934e+00 Mass of water (kg) = 1.000e+00 @@ -1932,10 +1932,10 @@ Thenardite 0.00 -1.81 -1.81 6.000e+00 5.092e+00 -9.081e-01 pH = 6.386 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2012222 + Specific Conductance (µS/cm, 200°C) = 1998371 Density (g/cm³) = 1.12001 Volume (L) = 1.32116 - Viscosity (mPa s) = 0.14043 + Viscosity (mPa s) = 0.14383 Activity of water = 0.785 Ionic strength (mol/kgw) = 8.725e+00 Mass of water (kg) = 1.000e+00 @@ -2024,10 +2024,10 @@ Thenardite 0.00 -1.81 -1.81 5.000e+00 4.091e+00 -9.087e-01 pH = 6.274 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2165398 + Specific Conductance (µS/cm, 200°C) = 2148973 Density (g/cm³) = 1.13758 Volume (L) = 1.35221 - Viscosity (mPa s) = 0.14070 + Viscosity (mPa s) = 0.14425 Activity of water = 0.757 Ionic strength (mol/kgw) = 9.727e+00 Mass of water (kg) = 1.000e+00 @@ -2116,10 +2116,10 @@ Thenardite -0.00 -1.81 -1.81 4.000e+00 2.968e+00 -1.032e+00 pH = 6.149 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2311012 + Specific Conductance (µS/cm, 200°C) = 2292245 Density (g/cm³) = 1.15732 Volume (L) = 1.39478 - Viscosity (mPa s) = 0.14112 + Viscosity (mPa s) = 0.14491 Activity of water = 0.733 Ionic strength (mol/kgw) = 1.110e+01 Mass of water (kg) = 1.000e+00 @@ -2208,10 +2208,10 @@ Thenardite 0.00 -1.81 -1.81 2.968e+00 1.955e+00 -1.013e+00 pH = 6.143 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2317662 + Specific Conductance (µS/cm, 200°C) = 2298800 Density (g/cm³) = 1.15838 Volume (L) = 1.39740 - Viscosity (mPa s) = 0.14115 + Viscosity (mPa s) = 0.14495 Activity of water = 0.732 Ionic strength (mol/kgw) = 1.118e+01 Mass of water (kg) = 1.000e+00 @@ -2300,10 +2300,10 @@ Thenardite 0.00 -1.81 -1.81 1.955e+00 9.552e-01 -1.000e+00 pH = 6.143 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2317662 + Specific Conductance (µS/cm, 200°C) = 2298800 Density (g/cm³) = 1.15838 Volume (L) = 1.39740 - Viscosity (mPa s) = 0.14115 + Viscosity (mPa s) = 0.14495 Activity of water = 0.732 Ionic strength (mol/kgw) = 1.118e+01 Mass of water (kg) = 1.000e+00 @@ -2392,10 +2392,10 @@ Thenardite -0.01 -1.82 -1.81 9.552e-01 0 -9.552e-01 pH = 6.146 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2310979 + Specific Conductance (µS/cm, 200°C) = 2292108 Density (g/cm³) = 1.15666 Volume (L) = 1.39292 - Viscosity (mPa s) = 0.14109 + Viscosity (mPa s) = 0.14486 Activity of water = 0.732 Ionic strength (mol/kgw) = 1.103e+01 Mass of water (kg) = 1.000e+00 @@ -2484,10 +2484,10 @@ Thenardite -4.83 -6.64 -1.81 0.000e+00 0 0.000e+00 pH = 5.039 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2139386 + Specific Conductance (µS/cm, 200°C) = 2119379 Density (g/cm³) = 1.11245 Volume (L) = 1.31269 - Viscosity (mPa s) = 0.13970 + Viscosity (mPa s) = 0.14265 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.876e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaCl-SO4_101.sel b/mytest/NaCl-SO4_101.sel index e51f632d..ed177981 100644 --- a/mytest/NaCl-SO4_101.sel +++ b/mytest/NaCl-SO4_101.sel @@ -1,28 +1,28 @@ Mu SC - 6.000999711767 237021.5711333256 - 2.863448453537 102393.9896204591 - 3.390758872720 158651.2649028724 - 4.257790950267 207827.6457308081 - 4.965927351374 241829.8233261111 - 5.519474251098 265808.9340172372 - 5.958155331752 283406.3423884223 - 6.312821457416 296786.1194000704 - 6.604983220203 307261.5700719003 - 6.849624724199 315663.4098556209 - 7.057375422480 322538.5878515958 - 7.235949161137 328260.1966975706 - 6.859333204250 329851.1222545182 - 6.102540185230 328556.6819344942 - 9.070560759378 1467232.2871350301 - 7.675709595529 1433279.7214075020 - 7.096033907429 1474529.4308361923 - 7.036677739427 1570787.5595570607 - 7.351873461778 1703854.9117551001 - 7.934136952067 1855508.1847266601 - 8.725452910733 2012222.7666034054 - 9.727163613104 2165398.4892739188 - 11.097277946611 2311012.5259258770 - 11.181742989211 2317662.6534362584 - 11.181742989756 2317662.6534133786 - 11.026347267079 2310979.9935906655 - 7.876143810100 2139386.2668614872 + 6.000999711767 237021.5711474909 + 2.863448453537 102394.0051692252 + 3.390758872720 158667.4524443751 + 4.257790950267 207857.0957786674 + 4.965927351374 241869.4515883990 + 5.519474251098 265856.2939845750 + 5.958155331752 283459.6745099016 + 6.312821457416 296844.1614025157 + 6.604983220203 307323.4005595860 + 6.849624724199 315728.3418901379 + 7.057375422480 322606.0986620053 + 7.235949161137 328329.8808608070 + 6.859333204250 329924.1703324198 + 6.102540185230 328633.4847270650 + 9.070560759378 1467229.5826196354 + 7.675709595529 1431140.7575653861 + 7.096033907429 1470358.7399002844 + 7.036677739427 1564459.4315022351 + 7.351873461778 1695157.4812652506 + 7.934136952067 1844271.3097956670 + 8.725452910733 1998371.4161254854 + 9.727163613104 2148973.8992030397 + 11.097277946611 2292245.1762953047 + 11.181742989211 2298800.0685338578 + 11.181742989756 2298800.0685111145 + 11.026347267079 2292108.3162877401 + 7.876143810100 2119379.1976847560 diff --git a/mytest/NaCl.out b/mytest/NaCl.out index 62538e71..5bebe20b 100644 --- a/mytest/NaCl.out +++ b/mytest/NaCl.out @@ -134,10 +134,10 @@ Halite 0.00 1.50 1.50 2.000e+01 1.387e+01 -6.129e+00 pH = 6.837 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 225128 + Specific Conductance (µS/cm, 0°C) = 225250 Density (g/cm³) = 1.21290 Volume (L) = 1.11980 - Viscosity (mPa s) = 1.78425 + Viscosity (mPa s) = 1.78234 Activity of water = 0.756 Ionic strength (mol/kgw) = 6.129e+00 Mass of water (kg) = 1.000e+00 @@ -200,10 +200,10 @@ Halite 0.00 1.52 1.52 2.000e+01 1.389e+01 -6.110e+00 pH = 6.743 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 255760 + Specific Conductance (µS/cm, 5°C) = 255875 Density (g/cm³) = 1.20911 Volume (L) = 1.12240 - Viscosity (mPa s) = 1.53872 + Viscosity (mPa s) = 1.53735 Activity of water = 0.756 Ionic strength (mol/kgw) = 6.110e+00 Mass of water (kg) = 1.000e+00 @@ -266,10 +266,10 @@ Halite 0.00 1.54 1.54 2.000e+01 1.390e+01 -6.101e+00 pH = 6.645 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 291363 + Specific Conductance (µS/cm, 10°C) = 291463 Density (g/cm³) = 1.20557 Volume (L) = 1.12525 - Viscosity (mPa s) = 1.32406 + Viscosity (mPa s) = 1.32315 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.101e+00 Mass of water (kg) = 1.000e+00 @@ -332,10 +332,10 @@ Halite 0.00 1.56 1.56 2.000e+01 1.390e+01 -6.102e+00 pH = 6.552 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 328556 + Specific Conductance (µS/cm, 15°C) = 328633 Density (g/cm³) = 1.20257 Volume (L) = 1.12813 - Viscosity (mPa s) = 1.15383 + Viscosity (mPa s) = 1.15328 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.102e+00 Mass of water (kg) = 1.000e+00 @@ -398,10 +398,10 @@ Halite 0.00 1.57 1.57 2.000e+01 1.389e+01 -6.112e+00 pH = 6.465 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 367283 + Specific Conductance (µS/cm, 20°C) = 367327 Density (g/cm³) = 1.19995 Volume (L) = 1.13107 - Viscosity (mPa s) = 1.01631 + Viscosity (mPa s) = 1.01606 Activity of water = 0.754 Ionic strength (mol/kgw) = 6.112e+00 Mass of water (kg) = 1.000e+00 @@ -530,10 +530,10 @@ Halite -0.00 1.59 1.59 2.000e+01 1.385e+01 -6.152e+00 pH = 6.304 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 449112 + Specific Conductance (µS/cm, 30°C) = 449057 Density (g/cm³) = 1.19549 Volume (L) = 1.13722 - Viscosity (mPa s) = 0.80961 + Viscosity (mPa s) = 0.80981 Activity of water = 0.752 Ionic strength (mol/kgw) = 6.152e+00 Mass of water (kg) = 1.000e+00 @@ -596,10 +596,10 @@ Halite 0.00 1.61 1.61 2.000e+01 1.379e+01 -6.211e+00 pH = 6.159 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 536362 + Specific Conductance (µS/cm, 40°C) = 536152 Density (g/cm³) = 1.19166 Volume (L) = 1.14376 - Viscosity (mPa s) = 0.66345 + Viscosity (mPa s) = 0.66399 Activity of water = 0.750 Ionic strength (mol/kgw) = 6.211e+00 Mass of water (kg) = 1.000e+00 @@ -662,10 +662,10 @@ Halite 0.00 1.62 1.62 2.000e+01 1.372e+01 -6.282e+00 pH = 6.028 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 628461 + Specific Conductance (µS/cm, 50°C) = 628032 Density (g/cm³) = 1.18812 Volume (L) = 1.15068 - Viscosity (mPa s) = 0.55601 + Viscosity (mPa s) = 0.55681 Activity of water = 0.748 Ionic strength (mol/kgw) = 6.282e+00 Mass of water (kg) = 1.000e+00 @@ -728,10 +728,10 @@ Halite 0.00 1.62 1.62 2.000e+01 1.364e+01 -6.362e+00 pH = 5.909 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 724756 + Specific Conductance (µS/cm, 60°C) = 724032 Density (g/cm³) = 1.18467 Volume (L) = 1.15798 - Viscosity (mPa s) = 0.47459 + Viscosity (mPa s) = 0.47560 Activity of water = 0.746 Ionic strength (mol/kgw) = 6.362e+00 Mass of water (kg) = 1.000e+00 @@ -794,10 +794,10 @@ Halite 0.00 1.62 1.62 2.000e+01 1.355e+01 -6.448e+00 pH = 5.801 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 824531 + Specific Conductance (µS/cm, 70°C) = 823423 Density (g/cm³) = 1.18118 Volume (L) = 1.16565 - Viscosity (mPa s) = 0.41137 + Viscosity (mPa s) = 0.41255 Activity of water = 0.744 Ionic strength (mol/kgw) = 6.448e+00 Mass of water (kg) = 1.000e+00 @@ -860,10 +860,10 @@ Halite 0.00 1.61 1.61 2.000e+01 1.351e+01 -6.492e+00 pH = 5.751 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 875490 + Specific Conductance (µS/cm, 75°C) = 874152 Density (g/cm³) = 1.17939 Volume (L) = 1.16962 - Viscosity (mPa s) = 0.38493 + Viscosity (mPa s) = 0.38620 Activity of water = 0.743 Ionic strength (mol/kgw) = 6.492e+00 Mass of water (kg) = 1.000e+00 @@ -926,10 +926,10 @@ Halite 0.00 1.61 1.61 2.000e+01 1.346e+01 -6.538e+00 pH = 5.703 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 927036 + Specific Conductance (µS/cm, 80°C) = 925442 Density (g/cm³) = 1.17755 Volume (L) = 1.17368 - Viscosity (mPa s) = 0.36130 + Viscosity (mPa s) = 0.36263 Activity of water = 0.742 Ionic strength (mol/kgw) = 6.538e+00 Mass of water (kg) = 1.000e+00 @@ -992,10 +992,10 @@ Halite 0.00 1.60 1.60 2.000e+01 1.337e+01 -6.630e+00 pH = 5.613 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1031514 + Specific Conductance (µS/cm, 90°C) = 1029320 Density (g/cm³) = 1.17373 Volume (L) = 1.18209 - Viscosity (mPa s) = 0.32096 + Viscosity (mPa s) = 0.32244 Activity of water = 0.741 Ionic strength (mol/kgw) = 6.630e+00 Mass of water (kg) = 1.000e+00 @@ -1058,10 +1058,10 @@ Halite -0.00 1.58 1.58 2.000e+01 1.328e+01 -6.724e+00 pH = 5.532 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1137228 + Specific Conductance (µS/cm, 100°C) = 1134310 Density (g/cm³) = 1.16968 Volume (L) = 1.19091 - Viscosity (mPa s) = 0.28799 + Viscosity (mPa s) = 0.28960 Activity of water = 0.740 Ionic strength (mol/kgw) = 6.724e+00 Mass of water (kg) = 1.000e+00 @@ -1124,10 +1124,10 @@ Halite 0.00 1.56 1.56 2.000e+01 1.318e+01 -6.821e+00 pH = 5.458 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 1243518 + Specific Conductance (µS/cm, 110°C) = 1239735 Density (g/cm³) = 1.16536 Volume (L) = 1.20018 - Viscosity (mPa s) = 0.26071 + Viscosity (mPa s) = 0.26244 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.821e+00 Mass of water (kg) = 1.000e+00 @@ -1191,10 +1191,10 @@ Halite 0.00 1.52 1.52 2.000e+01 1.303e+01 -6.971e+00 pH = 5.360 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 1402488 + Specific Conductance (µS/cm, 125°C) = 1397121 Density (g/cm³) = 1.15836 Volume (L) = 1.21499 - Viscosity (mPa s) = 0.22784 + Viscosity (mPa s) = 0.22976 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.971e+00 Mass of water (kg) = 1.000e+00 @@ -1258,10 +1258,10 @@ Halite 0.00 1.44 1.44 2.000e+01 1.276e+01 -7.237e+00 pH = 5.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661901 + Specific Conductance (µS/cm, 150°C) = 1653018 Density (g/cm³) = 1.14515 Volume (L) = 1.24260 - Viscosity (mPa s) = 0.18795 + Viscosity (mPa s) = 0.19019 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.237e+00 Mass of water (kg) = 1.000e+00 @@ -1325,10 +1325,10 @@ Halite 0.00 1.33 1.33 2.000e+01 1.247e+01 -7.534e+00 pH = 5.121 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1909021 + Specific Conductance (µS/cm, 175°C) = 1895339 Density (g/cm³) = 1.12986 Volume (L) = 1.27477 - Viscosity (mPa s) = 0.16006 + Viscosity (mPa s) = 0.16264 Activity of water = 0.739 Ionic strength (mol/kgw) = 7.534e+00 Mass of water (kg) = 1.000e+00 @@ -1392,10 +1392,10 @@ Halite 0.00 1.19 1.19 2.000e+01 1.212e+01 -7.877e+00 pH = 5.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2140222 + Specific Conductance (µS/cm, 200°C) = 2120200 Density (g/cm³) = 1.11229 Volume (L) = 1.31295 - Viscosity (mPa s) = 0.13962 + Viscosity (mPa s) = 0.14258 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.877e+00 Mass of water (kg) = 1.000e+00 @@ -1459,10 +1459,10 @@ Halite 0.00 1.03 1.03 2.000e+01 1.171e+01 -8.295e+00 pH = 4.965 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 225°C) = 2353512 + Specific Conductance (µS/cm, 225°C) = 2325275 Density (g/cm³) = 1.09171 Volume (L) = 1.36003 - Viscosity (mPa s) = 0.12398 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12736 (solute contributions limited to 200 °C) Activity of water = 0.746 Ionic strength (mol/kgw) = 8.295e+00 Mass of water (kg) = 1.000e+00 @@ -1526,10 +1526,10 @@ Halite 0.00 0.84 0.84 2.000e+01 1.115e+01 -8.854e+00 pH = 4.879 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 2540384 + Specific Conductance (µS/cm, 250°C) = 2501625 Density (g/cm³) = 1.06500 Volume (L) = 1.42484 - Viscosity (mPa s) = 0.11146 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11535 (solute contributions limited to 200 °C) Activity of water = 0.749 Ionic strength (mol/kgw) = 8.854e+00 Mass of water (kg) = 1.000e+00 @@ -1593,10 +1593,10 @@ Halite 0.00 0.61 0.61 2.000e+01 1.022e+01 -9.778e+00 pH = 4.713 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 275°C) = 2631701 + Specific Conductance (µS/cm, 275°C) = 2580326 Density (g/cm³) = 1.01624 Volume (L) = 1.54632 - Viscosity (mPa s) = 0.10098 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10550 (solute contributions limited to 200 °C) Activity of water = 0.749 Ionic strength (mol/kgw) = 9.778e+00 Mass of water (kg) = 1.000e+00 @@ -1660,10 +1660,10 @@ Halite -0.00 0.34 0.34 2.000e+01 7.911e+00 -1.209e+01 pH = 4.124 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 2134441 + Specific Conductance (µS/cm, 300°C) = 2078511 Density (g/cm³) = 0.85026 Volume (L) = 2.00707 - Viscosity (mPa s) = 0.09191 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09747 (solute contributions limited to 200 °C) Activity of water = 0.736 Ionic strength (mol/kgw) = 1.209e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaCl_101.sel b/mytest/NaCl_101.sel index 4857f059..7e04ae34 100644 --- a/mytest/NaCl_101.sel +++ b/mytest/NaCl_101.sel @@ -1,26 +1,26 @@ Mu SC 0.000000100645 0.0546913895 - 6.129235053262 225128.4885281874 - 6.110290261319 255760.4164715387 - 6.101172820673 291363.3960733372 - 6.102464461470 328556.6651811772 - 6.112322867170 367283.7356034078 - 6.129227619847 407488.6909731325 - 6.151921530142 449112.9972734653 - 6.210692196969 536362.1458353254 - 6.282279489783 628461.1523324079 - 6.362359444964 724756.5896769646 - 6.448055499954 824531.9821981015 - 6.492406177258 875490.5624653794 - 6.537541752264 927036.5236779669 - 6.629762812652 1031514.1089010963 - 6.724229047851 1137228.6889945341 - 6.821164086006 1243518.6535922289 - 6.970895170587 1402488.5939369493 - 7.237146933171 1661901.2306790503 - 7.534160730303 1909021.9211018500 - 7.877482698309 2140222.2609805102 - 8.294514256938 2353512.0686906870 - 8.853962195325 2540384.6132168188 - 9.777664656990 2631701.5862336801 - 12.089224230001 2134441.9520443766 + 6.129235053262 225250.1388338855 + 6.110290261319 255875.1911337513 + 6.101172820673 291463.4446117121 + 6.102464461470 328633.4683875183 + 6.112322867170 367327.6203196705 + 6.129227619847 407488.7705819605 + 6.151921530142 449057.1146358979 + 6.210692196969 536152.5267545314 + 6.282279489783 628032.7089273789 + 6.362359444964 724032.5493078388 + 6.448055499954 823423.5018447029 + 6.492406177258 874152.7055917284 + 6.537541752264 925442.4511371164 + 6.629762812652 1029320.8453665947 + 6.724229047851 1134310.1046224306 + 6.821164086006 1239735.8293114831 + 6.970895170587 1397121.8940877591 + 7.237146933171 1653018.7097340662 + 7.534160730303 1895339.4689783929 + 7.877482698309 2120200.4376113787 + 8.294514256938 2325275.0374815362 + 8.853962195325 2501625.8047186406 + 9.777664656990 2580326.6791652716 + 12.089224230001 2078511.1617305160 diff --git a/mytest/NaCl_temp.out b/mytest/NaCl_temp.out index 90be1b5b..9ae31c24 100644 --- a/mytest/NaCl_temp.out +++ b/mytest/NaCl_temp.out @@ -216,10 +216,10 @@ Halite 0.00 1.61 1.61 2.000e+01 1.370e+01 -6.298e+00 pH = 6.030 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 375450 + Specific Conductance (µS/cm, 50°C) = 375253 Density (g/cm³) = 1.18852 Volume (L) = 1.15105 - Viscosity (mPa s) = 1.11604 + Viscosity (mPa s) = 1.11685 Activity of water = 0.748 Ionic strength (mol/kgw) = 6.298e+00 Mass of water (kg) = 1.000e+00 @@ -282,10 +282,10 @@ Halite -0.00 1.61 1.61 2.000e+01 1.354e+01 -6.463e+00 pH = 5.754 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 508145 + Specific Conductance (µS/cm, 75°C) = 507543 Density (g/cm³) = 1.17861 Volume (L) = 1.16892 - Viscosity (mPa s) = 0.78685 + Viscosity (mPa s) = 0.78813 Activity of water = 0.744 Ionic strength (mol/kgw) = 6.463e+00 Mass of water (kg) = 1.000e+00 @@ -348,10 +348,10 @@ Halite 0.00 1.58 1.58 2.000e+01 1.333e+01 -6.672e+00 pH = 5.535 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 644150 + Specific Conductance (µS/cm, 100°C) = 642865 Density (g/cm³) = 1.16832 Volume (L) = 1.18967 - Viscosity (mPa s) = 0.59864 + Viscosity (mPa s) = 0.60028 Activity of water = 0.741 Ionic strength (mol/kgw) = 6.672e+00 Mass of water (kg) = 1.000e+00 @@ -414,10 +414,10 @@ Halite 0.00 1.52 1.52 2.000e+01 1.307e+01 -6.929e+00 pH = 5.361 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 778468 + Specific Conductance (µS/cm, 125°C) = 776149 Density (g/cm³) = 1.15730 Volume (L) = 1.21400 - Viscosity (mPa s) = 0.48178 + Viscosity (mPa s) = 0.48376 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.929e+00 Mass of water (kg) = 1.000e+00 @@ -481,10 +481,10 @@ Halite -0.00 1.44 1.44 2.000e+01 1.276e+01 -7.236e+00 pH = 5.224 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 906413 + Specific Conductance (µS/cm, 150°C) = 902646 Density (g/cm³) = 1.14511 Volume (L) = 1.24256 - Viscosity (mPa s) = 0.40475 + Viscosity (mPa s) = 0.40707 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.236e+00 Mass of water (kg) = 1.000e+00 @@ -548,10 +548,10 @@ Halite 0.00 1.34 1.34 2.000e+01 1.241e+01 -7.592e+00 pH = 5.114 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1023917 + Specific Conductance (µS/cm, 175°C) = 1018234 Density (g/cm³) = 1.13119 Volume (L) = 1.27626 - Viscosity (mPa s) = 0.35153 + Viscosity (mPa s) = 0.35422 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.592e+00 Mass of water (kg) = 1.000e+00 @@ -615,10 +615,10 @@ Halite 0.00 1.20 1.20 2.000e+01 1.200e+01 -8.000e+00 pH = 5.022 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1127458 + Specific Conductance (µS/cm, 200°C) = 1119358 Density (g/cm³) = 1.11478 Volume (L) = 1.31646 - Viscosity (mPa s) = 0.31329 + Viscosity (mPa s) = 0.31641 Activity of water = 0.739 Ionic strength (mol/kgw) = 8.000e+00 Mass of water (kg) = 1.000e+00 @@ -682,10 +682,10 @@ Halite -0.00 1.05 1.05 2.000e+01 1.152e+01 -8.475e+00 pH = 4.937 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 225°C) = 1202403 + Specific Conductance (µS/cm, 225°C) = 1191604 Density (g/cm³) = 1.09458 Volume (L) = 1.36610 - Viscosity (mPa s) = 0.28848 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.29207 (solute contributions limited to 200 °C) Activity of water = 0.741 Ionic strength (mol/kgw) = 8.475e+00 Mass of water (kg) = 1.000e+00 @@ -749,10 +749,10 @@ Halite 0.00 0.86 0.86 2.000e+01 1.093e+01 -9.071e+00 pH = 4.837 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1246568 + Specific Conductance (µS/cm, 250°C) = 1232847 Density (g/cm³) = 1.06678 Volume (L) = 1.43436 - Viscosity (mPa s) = 0.27115 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.27530 (solute contributions limited to 200 °C) Activity of water = 0.743 Ionic strength (mol/kgw) = 9.071e+00 Mass of water (kg) = 1.000e+00 @@ -816,10 +816,10 @@ Halite 0.00 0.64 0.64 2.000e+01 1.000e+01 -9.996e+00 pH = 4.657 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 275°C) = 1212511 + Specific Conductance (µS/cm, 275°C) = 1196478 Density (g/cm³) = 1.01472 Volume (L) = 1.56123 - Viscosity (mPa s) = 0.26272 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.26756 (solute contributions limited to 200 °C) Activity of water = 0.742 Ionic strength (mol/kgw) = 9.996e+00 Mass of water (kg) = 1.000e+00 @@ -883,10 +883,10 @@ Halite -0.00 0.39 0.39 2.000e+01 7.869e+00 -1.213e+01 pH = 4.092 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 870525 + Specific Conductance (µS/cm, 300°C) = 857238 Density (g/cm³) = 0.84798 Volume (L) = 2.01532 - Viscosity (mPa s) = 0.27713 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.28304 (solute contributions limited to 200 °C) Activity of water = 0.727 Ionic strength (mol/kgw) = 1.213e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaCl_temp_101.sel b/mytest/NaCl_temp_101.sel index 3d8d25a5..65ab0948 100644 --- a/mytest/NaCl_temp_101.sel +++ b/mytest/NaCl_temp_101.sel @@ -1,14 +1,14 @@ Mu SC 0.000000100645 0.0546913895 - 6.162942748360 251003.5837223854 - 6.297580484280 375450.1421651618 - 6.462751315278 508145.1411740378 - 6.671603681297 644150.2100745621 - 6.929094689702 778468.2845050746 - 7.235677385195 906413.8112822199 - 7.591892002363 1023917.8211516693 - 8.000417746870 1127458.7438416872 - 8.475019161372 1202403.4688874453 - 9.071256330757 1246568.8943176018 - 9.996381139055 1212511.6690549639 - 12.130715586866 870525.3821576261 + 6.162942748360 251003.6211595168 + 6.297580484280 375253.0325770403 + 6.462751315278 507543.8031226930 + 6.671603681297 642865.2763215906 + 6.929094689702 776149.3199442487 + 7.235677385195 902646.3113633598 + 7.591892002363 1018234.9879532793 + 8.000417746870 1119358.0817980843 + 8.475019161372 1191604.2562219824 + 9.071256330757 1232847.3542964489 + 9.996381139055 1196478.5478319426 + 12.130715586866 857238.1971460063 diff --git a/mytest/NaKCl.out b/mytest/NaKCl.out index 355570f7..12726911 100644 --- a/mytest/NaKCl.out +++ b/mytest/NaKCl.out @@ -73,10 +73,10 @@ Initial solution 1. pH = 7.312 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 0°C) = 276091 + Specific Conductance (µS/cm, 0°C) = 276188 Density (g/cm³) = 1.30718 Volume (L) = 1.39236 - Viscosity (mPa s) = 2.74310 + Viscosity (mPa s) = 2.74097 Activity of water = 0.616 Ionic strength (mol/kgw) = 1.100e+01 Mass of water (kg) = 1.000e+00 @@ -160,10 +160,10 @@ Sylvite 0.00 0.56 0.56 1.000e+01 1.741e+01 7.408e+00 pH = 7.356 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 187619 + Specific Conductance (µS/cm, 0°C) = 187688 Density (g/cm³) = 1.14882 Volume (L) = 1.10358 - Viscosity (mPa s) = 1.60938 + Viscosity (mPa s) = 1.60816 Activity of water = 0.888 Ionic strength (mol/kgw) = 3.592e+00 Mass of water (kg) = 1.000e+00 @@ -246,10 +246,10 @@ Sylvite 0.00 0.56 0.56 1.741e+01 1.718e+01 -2.248e-01 pH = 7.314 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 192358 + Specific Conductance (µS/cm, 0°C) = 192434 Density (g/cm³) = 1.15485 Volume (L) = 1.10536 - Viscosity (mPa s) = 1.61053 + Viscosity (mPa s) = 1.60923 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.817e+00 Mass of water (kg) = 1.000e+00 @@ -332,10 +332,10 @@ Sylvite 0.00 0.56 0.56 1.718e+01 1.695e+01 -2.366e-01 pH = 7.272 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 197361 + Specific Conductance (µS/cm, 0°C) = 197444 Density (g/cm³) = 1.16121 Volume (L) = 1.10755 - Viscosity (mPa s) = 1.61396 + Viscosity (mPa s) = 1.61259 Activity of water = 0.870 Ionic strength (mol/kgw) = 4.054e+00 Mass of water (kg) = 1.000e+00 @@ -418,10 +418,10 @@ Sylvite 0.00 0.56 0.56 1.695e+01 1.670e+01 -2.485e-01 pH = 7.229 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 202618 + Specific Conductance (µS/cm, 0°C) = 202708 Density (g/cm³) = 1.16789 Volume (L) = 1.11019 - Viscosity (mPa s) = 1.61938 + Viscosity (mPa s) = 1.61792 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.302e+00 Mass of water (kg) = 1.000e+00 @@ -504,10 +504,10 @@ Sylvite 0.00 0.56 0.56 1.670e+01 1.644e+01 -2.605e-01 pH = 7.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 208116 + Specific Conductance (µS/cm, 0°C) = 208213 Density (g/cm³) = 1.17487 Volume (L) = 1.11327 - Viscosity (mPa s) = 1.62649 + Viscosity (mPa s) = 1.62496 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.563e+00 Mass of water (kg) = 1.000e+00 @@ -590,10 +590,10 @@ Sylvite 0.00 0.56 0.56 1.644e+01 1.616e+01 -2.726e-01 pH = 7.143 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 213842 + Specific Conductance (µS/cm, 0°C) = 213947 Density (g/cm³) = 1.18213 Volume (L) = 1.11680 - Viscosity (mPa s) = 1.63501 + Viscosity (mPa s) = 1.63341 Activity of water = 0.836 Ionic strength (mol/kgw) = 4.835e+00 Mass of water (kg) = 1.000e+00 @@ -676,10 +676,10 @@ Sylvite 0.00 0.56 0.56 1.616e+01 1.588e+01 -2.848e-01 pH = 7.099 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 219782 + Specific Conductance (µS/cm, 0°C) = 219894 Density (g/cm³) = 1.18966 Volume (L) = 1.12080 - Viscosity (mPa s) = 1.64468 + Viscosity (mPa s) = 1.64301 Activity of water = 0.823 Ionic strength (mol/kgw) = 5.120e+00 Mass of water (kg) = 1.000e+00 @@ -762,10 +762,10 @@ Sylvite 0.00 0.56 0.56 1.588e+01 1.558e+01 -2.970e-01 pH = 7.055 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 225918 + Specific Conductance (µS/cm, 0°C) = 226038 Density (g/cm³) = 1.19745 Volume (L) = 1.12528 - Viscosity (mPa s) = 1.65523 + Viscosity (mPa s) = 1.65349 Activity of water = 0.809 Ionic strength (mol/kgw) = 5.417e+00 Mass of water (kg) = 1.000e+00 @@ -848,10 +848,10 @@ Sylvite 0.00 0.56 0.56 1.558e+01 1.527e+01 -3.093e-01 pH = 7.010 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 232233 + Specific Conductance (µS/cm, 0°C) = 232360 Density (g/cm³) = 1.20546 Volume (L) = 1.13025 - Viscosity (mPa s) = 1.66643 + Viscosity (mPa s) = 1.66461 Activity of water = 0.793 Ionic strength (mol/kgw) = 5.726e+00 Mass of water (kg) = 1.000e+00 @@ -934,10 +934,10 @@ Sylvite 0.00 0.56 0.56 1.527e+01 1.495e+01 -3.215e-01 pH = 6.965 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 238706 + Specific Conductance (µS/cm, 0°C) = 238841 Density (g/cm³) = 1.21367 Volume (L) = 1.13572 - Viscosity (mPa s) = 1.67803 + Viscosity (mPa s) = 1.67615 Activity of water = 0.776 Ionic strength (mol/kgw) = 6.048e+00 Mass of water (kg) = 1.000e+00 @@ -1020,10 +1020,10 @@ Sylvite 0.00 0.56 0.56 1.495e+01 1.462e+01 -3.338e-01 pH = 6.919 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 245315 + Specific Conductance (µS/cm, 0°C) = 245458 Density (g/cm³) = 1.22206 Volume (L) = 1.14169 - Viscosity (mPa s) = 1.68983 + Viscosity (mPa s) = 1.68788 Activity of water = 0.758 Ionic strength (mol/kgw) = 6.382e+00 Mass of water (kg) = 1.000e+00 @@ -1106,10 +1106,10 @@ Sylvite 0.00 0.56 0.56 1.462e+01 1.427e+01 -3.459e-01 pH = 6.874 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252036 + Specific Conductance (µS/cm, 0°C) = 252187 Density (g/cm³) = 1.23060 Volume (L) = 1.14818 - Viscosity (mPa s) = 1.70163 + Viscosity (mPa s) = 1.69962 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.728e+00 Mass of water (kg) = 1.000e+00 @@ -1192,10 +1192,10 @@ Sylvite 0.00 0.56 0.56 1.427e+01 1.378e+01 -4.973e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1278,10 +1278,10 @@ Sylvite 0.00 0.56 0.56 1.378e+01 1.328e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1364,10 +1364,10 @@ Sylvite 0.00 0.56 0.56 1.328e+01 1.278e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1450,10 +1450,10 @@ Sylvite 0.00 0.56 0.56 1.278e+01 1.228e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1536,10 +1536,10 @@ Sylvite 0.00 0.56 0.56 1.228e+01 1.178e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1622,10 +1622,10 @@ Sylvite 0.00 0.56 0.56 1.178e+01 1.128e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1708,10 +1708,10 @@ Sylvite 0.00 0.56 0.56 1.128e+01 1.078e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1794,10 +1794,10 @@ Sylvite 0.00 0.56 0.56 1.078e+01 1.028e+01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1880,10 +1880,10 @@ Sylvite 0.00 0.56 0.56 1.028e+01 9.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -1966,10 +1966,10 @@ Sylvite 0.00 0.56 0.56 9.775e+00 9.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2052,10 +2052,10 @@ Sylvite 0.00 0.56 0.56 9.275e+00 8.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2138,10 +2138,10 @@ Sylvite 0.00 0.56 0.56 8.775e+00 8.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2224,10 +2224,10 @@ Sylvite 0.00 0.56 0.56 8.275e+00 7.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2310,10 +2310,10 @@ Sylvite 0.00 0.56 0.56 7.775e+00 7.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2396,10 +2396,10 @@ Sylvite 0.00 0.56 0.56 7.275e+00 6.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2482,10 +2482,10 @@ Sylvite 0.00 0.56 0.56 6.775e+00 6.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2568,10 +2568,10 @@ Sylvite 0.00 0.56 0.56 6.275e+00 5.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2654,10 +2654,10 @@ Sylvite 0.00 0.56 0.56 5.775e+00 5.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2740,10 +2740,10 @@ Sylvite 0.00 0.56 0.56 5.275e+00 4.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2826,10 +2826,10 @@ Sylvite 0.00 0.56 0.56 4.775e+00 4.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2912,10 +2912,10 @@ Sylvite 0.00 0.56 0.56 4.275e+00 3.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -2998,10 +2998,10 @@ Sylvite 0.00 0.56 0.56 3.775e+00 3.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3084,10 +3084,10 @@ Sylvite 0.00 0.56 0.56 3.275e+00 2.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3170,10 +3170,10 @@ Sylvite 0.00 0.56 0.56 2.775e+00 2.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3256,10 +3256,10 @@ Sylvite 0.00 0.56 0.56 2.275e+00 1.775e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3342,10 +3342,10 @@ Sylvite 0.00 0.56 0.56 1.775e+00 1.275e+00 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3428,10 +3428,10 @@ Sylvite 0.00 0.56 0.56 1.275e+00 7.752e-01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3514,10 +3514,10 @@ Sylvite 0.00 0.56 0.56 7.752e-01 2.752e-01 -5.000e-01 pH = 6.873 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 252158 + Specific Conductance (µS/cm, 0°C) = 252309 Density (g/cm³) = 1.23075 Volume (L) = 1.14830 - Viscosity (mPa s) = 1.70184 + Viscosity (mPa s) = 1.69983 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.734e+00 Mass of water (kg) = 1.000e+00 @@ -3600,10 +3600,10 @@ Sylvite -0.10 0.46 0.56 2.752e-01 0 -2.752e-01 pH = 6.865 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 246939 + Specific Conductance (µS/cm, 0°C) = 247085 Density (g/cm³) = 1.22765 Volume (L) = 1.14291 - Viscosity (mPa s) = 1.71794 + Viscosity (mPa s) = 1.71594 Activity of water = 0.742 Ionic strength (mol/kgw) = 6.622e+00 Mass of water (kg) = 1.000e+00 @@ -3686,10 +3686,10 @@ Sylvite -5.14 -4.58 0.56 0.000e+00 0 0.000e+00 pH = 6.831 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 221810 + Specific Conductance (µS/cm, 0°C) = 221932 Density (g/cm³) = 1.21337 Volume (L) = 1.11951 - Viscosity (mPa s) = 1.81538 + Viscosity (mPa s) = 1.81340 Activity of water = 0.756 Ionic strength (mol/kgw) = 6.132e+00 Mass of water (kg) = 1.000e+00 @@ -3793,10 +3793,10 @@ Sylvite 0.00 1.04 1.04 1.000e+01 1.561e+01 5.607e+00 pH = 6.631 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 500932 + Specific Conductance (µS/cm, 40°C) = 500804 Density (g/cm³) = 1.18671 Volume (L) = 1.18144 - Viscosity (mPa s) = 0.78352 + Viscosity (mPa s) = 0.78395 Activity of water = 0.820 Ionic strength (mol/kgw) = 5.393e+00 Mass of water (kg) = 1.000e+00 @@ -3880,10 +3880,10 @@ Sylvite 0.00 1.04 1.04 1.561e+01 1.544e+01 -1.721e-01 pH = 6.593 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 510278 + Specific Conductance (µS/cm, 40°C) = 510142 Density (g/cm³) = 1.19002 Volume (L) = 1.18217 - Viscosity (mPa s) = 0.77288 + Viscosity (mPa s) = 0.77332 Activity of water = 0.813 Ionic strength (mol/kgw) = 5.565e+00 Mass of water (kg) = 1.000e+00 @@ -3967,10 +3967,10 @@ Sylvite 0.00 1.04 1.04 1.544e+01 1.525e+01 -1.816e-01 pH = 6.554 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 520078 + Specific Conductance (µS/cm, 40°C) = 519932 Density (g/cm³) = 1.19360 Volume (L) = 1.18322 - Viscosity (mPa s) = 0.76298 + Viscosity (mPa s) = 0.76343 Activity of water = 0.804 Ionic strength (mol/kgw) = 5.746e+00 Mass of water (kg) = 1.000e+00 @@ -4054,10 +4054,10 @@ Sylvite 0.00 1.04 1.04 1.525e+01 1.506e+01 -1.916e-01 pH = 6.515 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 530344 + Specific Conductance (µS/cm, 40°C) = 530189 Density (g/cm³) = 1.19745 Volume (L) = 1.18462 - Viscosity (mPa s) = 0.75380 + Viscosity (mPa s) = 0.75427 Activity of water = 0.795 Ionic strength (mol/kgw) = 5.938e+00 Mass of water (kg) = 1.000e+00 @@ -4141,10 +4141,10 @@ Sylvite 0.00 1.04 1.04 1.506e+01 1.486e+01 -2.021e-01 pH = 6.475 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 541089 + Specific Conductance (µS/cm, 40°C) = 540924 Density (g/cm³) = 1.20158 Volume (L) = 1.18638 - Viscosity (mPa s) = 0.74532 + Viscosity (mPa s) = 0.74580 Activity of water = 0.785 Ionic strength (mol/kgw) = 6.140e+00 Mass of water (kg) = 1.000e+00 @@ -4228,10 +4228,10 @@ Sylvite 0.00 1.04 1.04 1.486e+01 1.465e+01 -2.131e-01 pH = 6.434 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 552318 + Specific Conductance (µS/cm, 40°C) = 552142 Density (g/cm³) = 1.20600 Volume (L) = 1.18853 - Viscosity (mPa s) = 0.73752 + Viscosity (mPa s) = 0.73801 Activity of water = 0.775 Ionic strength (mol/kgw) = 6.353e+00 Mass of water (kg) = 1.000e+00 @@ -4315,10 +4315,10 @@ Sylvite 0.00 1.04 1.04 1.465e+01 1.442e+01 -2.246e-01 pH = 6.393 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 564031 + Specific Conductance (µS/cm, 40°C) = 563844 Density (g/cm³) = 1.21072 Volume (L) = 1.19107 - Viscosity (mPa s) = 0.73037 + Viscosity (mPa s) = 0.73088 Activity of water = 0.763 Ionic strength (mol/kgw) = 6.578e+00 Mass of water (kg) = 1.000e+00 @@ -4402,10 +4402,10 @@ Sylvite 0.00 1.04 1.04 1.442e+01 1.419e+01 -2.366e-01 pH = 6.351 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 576221 + Specific Conductance (µS/cm, 40°C) = 576023 Density (g/cm³) = 1.21573 Volume (L) = 1.19404 - Viscosity (mPa s) = 0.72384 + Viscosity (mPa s) = 0.72436 Activity of water = 0.751 Ionic strength (mol/kgw) = 6.814e+00 Mass of water (kg) = 1.000e+00 @@ -4489,10 +4489,10 @@ Sylvite 0.00 1.04 1.04 1.419e+01 1.394e+01 -2.489e-01 pH = 6.309 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 588874 + Specific Conductance (µS/cm, 40°C) = 588664 Density (g/cm³) = 1.22105 Volume (L) = 1.19745 - Viscosity (mPa s) = 0.71790 + Viscosity (mPa s) = 0.71844 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.063e+00 Mass of water (kg) = 1.000e+00 @@ -4576,10 +4576,10 @@ Sylvite 0.00 1.04 1.04 1.394e+01 1.368e+01 -2.615e-01 pH = 6.265 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 601969 + Specific Conductance (µS/cm, 40°C) = 601746 Density (g/cm³) = 1.22665 Volume (L) = 1.20130 - Viscosity (mPa s) = 0.71253 + Viscosity (mPa s) = 0.71309 Activity of water = 0.725 Ionic strength (mol/kgw) = 7.325e+00 Mass of water (kg) = 1.000e+00 @@ -4663,10 +4663,10 @@ Sylvite 0.00 1.04 1.04 1.368e+01 1.338e+01 -2.927e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -4750,10 +4750,10 @@ Sylvite 0.00 1.04 1.04 1.338e+01 1.288e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -4837,10 +4837,10 @@ Sylvite 0.00 1.04 1.04 1.288e+01 1.238e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -4924,10 +4924,10 @@ Sylvite 0.00 1.04 1.04 1.238e+01 1.188e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5011,10 +5011,10 @@ Sylvite 0.00 1.04 1.04 1.188e+01 1.138e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5098,10 +5098,10 @@ Sylvite 0.00 1.04 1.04 1.138e+01 1.088e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5185,10 +5185,10 @@ Sylvite 0.00 1.04 1.04 1.088e+01 1.038e+01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5272,10 +5272,10 @@ Sylvite 0.00 1.04 1.04 1.038e+01 9.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5359,10 +5359,10 @@ Sylvite 0.00 1.04 1.04 9.883e+00 9.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5446,10 +5446,10 @@ Sylvite 0.00 1.04 1.04 9.383e+00 8.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5533,10 +5533,10 @@ Sylvite 0.00 1.04 1.04 8.883e+00 8.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5620,10 +5620,10 @@ Sylvite 0.00 1.04 1.04 8.383e+00 7.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5707,10 +5707,10 @@ Sylvite 0.00 1.04 1.04 7.883e+00 7.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5794,10 +5794,10 @@ Sylvite 0.00 1.04 1.04 7.383e+00 6.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5881,10 +5881,10 @@ Sylvite 0.00 1.04 1.04 6.883e+00 6.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -5968,10 +5968,10 @@ Sylvite 0.00 1.04 1.04 6.383e+00 5.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6055,10 +6055,10 @@ Sylvite 0.00 1.04 1.04 5.883e+00 5.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6142,10 +6142,10 @@ Sylvite 0.00 1.04 1.04 5.383e+00 4.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6229,10 +6229,10 @@ Sylvite 0.00 1.04 1.04 4.883e+00 4.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6316,10 +6316,10 @@ Sylvite 0.00 1.04 1.04 4.383e+00 3.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6403,10 +6403,10 @@ Sylvite 0.00 1.04 1.04 3.883e+00 3.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6490,10 +6490,10 @@ Sylvite 0.00 1.04 1.04 3.383e+00 2.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6577,10 +6577,10 @@ Sylvite 0.00 1.04 1.04 2.883e+00 2.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6664,10 +6664,10 @@ Sylvite 0.00 1.04 1.04 2.383e+00 1.883e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6751,10 +6751,10 @@ Sylvite 0.00 1.04 1.04 1.883e+00 1.383e+00 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6838,10 +6838,10 @@ Sylvite 0.00 1.04 1.04 1.383e+00 8.826e-01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -6925,10 +6925,10 @@ Sylvite 0.00 1.04 1.04 8.826e-01 3.826e-01 -5.000e-01 pH = 6.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 614331 + Specific Conductance (µS/cm, 40°C) = 614097 Density (g/cm³) = 1.23205 Volume (L) = 1.20524 - Viscosity (mPa s) = 0.70808 + Viscosity (mPa s) = 0.70864 Activity of water = 0.711 Ionic strength (mol/kgw) = 7.576e+00 Mass of water (kg) = 1.000e+00 @@ -7012,10 +7012,10 @@ Sylvite -0.02 1.02 1.04 3.826e-01 0 -3.826e-01 pH = 6.222 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 611585 + Specific Conductance (µS/cm, 40°C) = 611352 Density (g/cm³) = 1.23029 Volume (L) = 1.20235 - Viscosity (mPa s) = 0.70533 + Viscosity (mPa s) = 0.70589 Activity of water = 0.713 Ionic strength (mol/kgw) = 7.511e+00 Mass of water (kg) = 1.000e+00 @@ -7099,10 +7099,10 @@ Sylvite -0.14 0.90 1.04 0.000e+00 0 0.000e+00 pH = 6.210 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 599120 + Specific Conductance (µS/cm, 40°C) = 598890 Density (g/cm³) = 1.22274 Volume (L) = 1.19018 - Viscosity (mPa s) = 0.69438 + Viscosity (mPa s) = 0.69494 Activity of water = 0.721 Ionic strength (mol/kgw) = 7.239e+00 Mass of water (kg) = 1.000e+00 @@ -7186,10 +7186,10 @@ Sylvite -0.29 0.76 1.04 0.000e+00 0 0.000e+00 pH = 6.197 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 585386 + Specific Conductance (µS/cm, 40°C) = 585159 Density (g/cm³) = 1.21511 Volume (L) = 1.17825 - Viscosity (mPa s) = 0.68468 + Viscosity (mPa s) = 0.68523 Activity of water = 0.728 Ionic strength (mol/kgw) = 6.973e+00 Mass of water (kg) = 1.000e+00 @@ -7273,10 +7273,10 @@ Sylvite -0.48 0.56 1.04 0.000e+00 0 0.000e+00 pH = 6.184 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 570361 + Specific Conductance (µS/cm, 40°C) = 570138 Density (g/cm³) = 1.20738 Volume (L) = 1.16654 - Viscosity (mPa s) = 0.67625 + Viscosity (mPa s) = 0.67680 Activity of water = 0.736 Ionic strength (mol/kgw) = 6.713e+00 Mass of water (kg) = 1.000e+00 @@ -7360,10 +7360,10 @@ Sylvite -5.52 -4.48 1.04 0.000e+00 0 0.000e+00 pH = 6.157 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 536362 + Specific Conductance (µS/cm, 40°C) = 536152 Density (g/cm³) = 1.19166 Volume (L) = 1.14376 - Viscosity (mPa s) = 0.66345 + Viscosity (mPa s) = 0.66399 Activity of water = 0.750 Ionic strength (mol/kgw) = 6.211e+00 Mass of water (kg) = 1.000e+00 @@ -7467,10 +7467,10 @@ Sylvite 0.00 1.33 1.33 1.000e+01 1.356e+01 3.555e+00 pH = 5.970 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 989839 + Specific Conductance (µS/cm, 100°C) = 988329 Density (g/cm³) = 1.20657 Volume (L) = 1.28879 - Viscosity (mPa s) = 0.45674 + Viscosity (mPa s) = 0.45827 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.445e+00 Mass of water (kg) = 1.000e+00 @@ -7554,10 +7554,10 @@ Sylvite 0.00 1.33 1.33 1.356e+01 1.339e+01 -1.659e-01 pH = 5.933 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1010977 + Specific Conductance (µS/cm, 100°C) = 1009385 Density (g/cm³) = 1.20942 Volume (L) = 1.28933 - Viscosity (mPa s) = 0.44883 + Viscosity (mPa s) = 0.45038 Activity of water = 0.746 Ionic strength (mol/kgw) = 7.611e+00 Mass of water (kg) = 1.000e+00 @@ -7641,10 +7641,10 @@ Sylvite 0.00 1.33 1.33 1.339e+01 1.321e+01 -1.752e-01 pH = 5.895 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1032825 + Specific Conductance (µS/cm, 100°C) = 1031146 Density (g/cm³) = 1.21249 Volume (L) = 1.29018 - Viscosity (mPa s) = 0.44117 + Viscosity (mPa s) = 0.44276 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.786e+00 Mass of water (kg) = 1.000e+00 @@ -7728,10 +7728,10 @@ Sylvite 0.00 1.33 1.33 1.321e+01 1.303e+01 -1.848e-01 pH = 5.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1055387 + Specific Conductance (µS/cm, 100°C) = 1053614 Density (g/cm³) = 1.21581 Volume (L) = 1.29137 - Viscosity (mPa s) = 0.43379 + Viscosity (mPa s) = 0.43541 Activity of water = 0.730 Ionic strength (mol/kgw) = 7.971e+00 Mass of water (kg) = 1.000e+00 @@ -7815,10 +7815,10 @@ Sylvite 0.00 1.33 1.33 1.303e+01 1.283e+01 -1.950e-01 pH = 5.816 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1078659 + Specific Conductance (µS/cm, 100°C) = 1076788 Density (g/cm³) = 1.21937 Volume (L) = 1.29292 - Viscosity (mPa s) = 0.42669 + Viscosity (mPa s) = 0.42833 Activity of water = 0.722 Ionic strength (mol/kgw) = 8.166e+00 Mass of water (kg) = 1.000e+00 @@ -7902,10 +7902,10 @@ Sylvite 0.00 1.33 1.33 1.283e+01 1.263e+01 -2.055e-01 pH = 5.775 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1102630 + Specific Conductance (µS/cm, 100°C) = 1100655 Density (g/cm³) = 1.22318 Volume (L) = 1.29483 - Viscosity (mPa s) = 0.41987 + Viscosity (mPa s) = 0.42155 Activity of water = 0.713 Ionic strength (mol/kgw) = 8.371e+00 Mass of water (kg) = 1.000e+00 @@ -7989,10 +7989,10 @@ Sylvite 0.00 1.33 1.33 1.263e+01 1.241e+01 -2.164e-01 pH = 5.733 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1127282 + Specific Conductance (µS/cm, 100°C) = 1125197 Density (g/cm³) = 1.22724 Volume (L) = 1.29713 - Viscosity (mPa s) = 0.41334 + Viscosity (mPa s) = 0.41505 Activity of water = 0.704 Ionic strength (mol/kgw) = 8.588e+00 Mass of water (kg) = 1.000e+00 @@ -8076,10 +8076,10 @@ Sylvite 0.00 1.33 1.33 1.241e+01 1.218e+01 -2.277e-01 pH = 5.690 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1152586 + Specific Conductance (µS/cm, 100°C) = 1150385 Density (g/cm³) = 1.23156 Volume (L) = 1.29982 - Viscosity (mPa s) = 0.40711 + Viscosity (mPa s) = 0.40885 Activity of water = 0.694 Ionic strength (mol/kgw) = 8.815e+00 Mass of water (kg) = 1.000e+00 @@ -8163,10 +8163,10 @@ Sylvite 0.00 1.33 1.33 1.218e+01 1.195e+01 -2.394e-01 pH = 5.646 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1178505 + Specific Conductance (µS/cm, 100°C) = 1176183 Density (g/cm³) = 1.23614 Volume (L) = 1.30293 - Viscosity (mPa s) = 0.40118 + Viscosity (mPa s) = 0.40295 Activity of water = 0.684 Ionic strength (mol/kgw) = 9.055e+00 Mass of water (kg) = 1.000e+00 @@ -8250,10 +8250,10 @@ Sylvite 0.00 1.33 1.33 1.195e+01 1.169e+01 -2.513e-01 pH = 5.601 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1204991 + Specific Conductance (µS/cm, 100°C) = 1202541 Density (g/cm³) = 1.24098 Volume (L) = 1.30645 - Viscosity (mPa s) = 0.39555 + Viscosity (mPa s) = 0.39735 Activity of water = 0.674 Ionic strength (mol/kgw) = 9.306e+00 Mass of water (kg) = 1.000e+00 @@ -8337,10 +8337,10 @@ Sylvite 0.00 1.33 1.33 1.169e+01 1.129e+01 -4.030e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8424,10 +8424,10 @@ Sylvite 0.00 1.33 1.33 1.129e+01 1.079e+01 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8511,10 +8511,10 @@ Sylvite 0.00 1.33 1.33 1.079e+01 1.029e+01 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8598,10 +8598,10 @@ Sylvite 0.00 1.33 1.33 1.029e+01 9.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8685,10 +8685,10 @@ Sylvite 0.00 1.33 1.33 9.791e+00 9.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8772,10 +8772,10 @@ Sylvite 0.00 1.33 1.33 9.291e+00 8.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8859,10 +8859,10 @@ Sylvite 0.00 1.33 1.33 8.791e+00 8.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -8946,10 +8946,10 @@ Sylvite 0.00 1.33 1.33 8.291e+00 7.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9033,10 +9033,10 @@ Sylvite 0.00 1.33 1.33 7.791e+00 7.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9120,10 +9120,10 @@ Sylvite 0.00 1.33 1.33 7.291e+00 6.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9207,10 +9207,10 @@ Sylvite 0.00 1.33 1.33 6.791e+00 6.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9294,10 +9294,10 @@ Sylvite 0.00 1.33 1.33 6.291e+00 5.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9381,10 +9381,10 @@ Sylvite 0.00 1.33 1.33 5.791e+00 5.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9468,10 +9468,10 @@ Sylvite 0.00 1.33 1.33 5.291e+00 4.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9555,10 +9555,10 @@ Sylvite 0.00 1.33 1.33 4.791e+00 4.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9642,10 +9642,10 @@ Sylvite 0.00 1.33 1.33 4.291e+00 3.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9729,10 +9729,10 @@ Sylvite 0.00 1.33 1.33 3.791e+00 3.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9816,10 +9816,10 @@ Sylvite 0.00 1.33 1.33 3.291e+00 2.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9903,10 +9903,10 @@ Sylvite 0.00 1.33 1.33 2.791e+00 2.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -9990,10 +9990,10 @@ Sylvite 0.00 1.33 1.33 2.291e+00 1.791e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -10077,10 +10077,10 @@ Sylvite 0.00 1.33 1.33 1.791e+00 1.291e+00 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -10164,10 +10164,10 @@ Sylvite 0.00 1.33 1.33 1.291e+00 7.911e-01 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -10251,10 +10251,10 @@ Sylvite 0.00 1.33 1.33 7.911e-01 2.911e-01 -5.000e-01 pH = 5.582 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1215843 + Specific Conductance (µS/cm, 100°C) = 1213339 Density (g/cm³) = 1.24301 Volume (L) = 1.30800 - Viscosity (mPa s) = 0.39336 + Viscosity (mPa s) = 0.39518 Activity of water = 0.669 Ionic strength (mol/kgw) = 9.411e+00 Mass of water (kg) = 1.000e+00 @@ -10338,10 +10338,10 @@ Sylvite -0.03 1.30 1.33 2.911e-01 0 -2.911e-01 pH = 5.580 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1213916 + Specific Conductance (µS/cm, 100°C) = 1211397 Density (g/cm³) = 1.23985 Volume (L) = 1.30232 - Viscosity (mPa s) = 0.38848 + Viscosity (mPa s) = 0.39028 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.277e+00 Mass of water (kg) = 1.000e+00 @@ -10425,10 +10425,10 @@ Sylvite -0.09 1.24 1.33 0.000e+00 0 0.000e+00 pH = 5.576 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1208780 + Specific Conductance (µS/cm, 100°C) = 1206221 Density (g/cm³) = 1.23224 Volume (L) = 1.28892 - Viscosity (mPa s) = 0.37686 + Viscosity (mPa s) = 0.37864 Activity of water = 0.681 Ionic strength (mol/kgw) = 8.963e+00 Mass of water (kg) = 1.000e+00 @@ -10512,10 +10512,10 @@ Sylvite -0.17 1.16 1.33 0.000e+00 0 0.000e+00 pH = 5.571 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1202881 + Specific Conductance (µS/cm, 100°C) = 1200282 Density (g/cm³) = 1.22458 Volume (L) = 1.27579 - Viscosity (mPa s) = 0.36535 + Viscosity (mPa s) = 0.36711 Activity of water = 0.689 Ionic strength (mol/kgw) = 8.657e+00 Mass of water (kg) = 1.000e+00 @@ -10599,10 +10599,10 @@ Sylvite -0.25 1.08 1.33 0.000e+00 0 0.000e+00 pH = 5.566 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1196188 + Specific Conductance (µS/cm, 100°C) = 1193548 Density (g/cm³) = 1.21687 Volume (L) = 1.26293 - Viscosity (mPa s) = 0.35395 + Viscosity (mPa s) = 0.35568 Activity of water = 0.696 Ionic strength (mol/kgw) = 8.359e+00 Mass of water (kg) = 1.000e+00 @@ -10686,10 +10686,10 @@ Sylvite -0.35 0.98 1.33 0.000e+00 0 0.000e+00 pH = 5.561 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1188670 + Specific Conductance (µS/cm, 100°C) = 1185987 Density (g/cm³) = 1.20911 Volume (L) = 1.25032 - Viscosity (mPa s) = 0.34266 + Viscosity (mPa s) = 0.34438 Activity of water = 0.704 Ionic strength (mol/kgw) = 8.068e+00 Mass of water (kg) = 1.000e+00 @@ -10773,10 +10773,10 @@ Sylvite -0.46 0.87 1.33 0.000e+00 0 0.000e+00 pH = 5.555 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1180289 + Specific Conductance (µS/cm, 100°C) = 1177562 Density (g/cm³) = 1.20131 Volume (L) = 1.23797 - Viscosity (mPa s) = 0.33149 + Viscosity (mPa s) = 0.33318 Activity of water = 0.712 Ionic strength (mol/kgw) = 7.785e+00 Mass of water (kg) = 1.000e+00 @@ -10860,10 +10860,10 @@ Sylvite -0.60 0.73 1.33 0.000e+00 0 0.000e+00 pH = 5.550 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1171004 + Specific Conductance (µS/cm, 100°C) = 1168232 Density (g/cm³) = 1.19347 Volume (L) = 1.22586 - Viscosity (mPa s) = 0.32043 + Viscosity (mPa s) = 0.32210 Activity of water = 0.719 Ionic strength (mol/kgw) = 7.509e+00 Mass of water (kg) = 1.000e+00 @@ -10947,10 +10947,10 @@ Sylvite -0.80 0.53 1.33 0.000e+00 0 0.000e+00 pH = 5.544 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1160770 + Specific Conductance (µS/cm, 100°C) = 1157950 Density (g/cm³) = 1.18558 Volume (L) = 1.21398 - Viscosity (mPa s) = 0.30949 + Viscosity (mPa s) = 0.31114 Activity of water = 0.726 Ionic strength (mol/kgw) = 7.241e+00 Mass of water (kg) = 1.000e+00 @@ -11034,10 +11034,10 @@ Sylvite -5.83 -4.50 1.33 0.000e+00 0 0.000e+00 pH = 5.531 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1137228 + Specific Conductance (µS/cm, 100°C) = 1134310 Density (g/cm³) = 1.16968 Volume (L) = 1.19091 - Viscosity (mPa s) = 0.28799 + Viscosity (mPa s) = 0.28960 Activity of water = 0.740 Ionic strength (mol/kgw) = 6.724e+00 Mass of water (kg) = 1.000e+00 @@ -11141,10 +11141,10 @@ Sylvite 0.00 1.36 1.36 1.000e+01 1.192e+01 1.920e+00 pH = 5.645 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1335501 + Specific Conductance (µS/cm, 150°C) = 1331450 Density (g/cm³) = 1.20404 Volume (L) = 1.39276 - Viscosity (mPa s) = 0.35166 + Viscosity (mPa s) = 0.35400 Activity of water = 0.714 Ionic strength (mol/kgw) = 9.080e+00 Mass of water (kg) = 1.000e+00 @@ -11229,10 +11229,10 @@ Sylvite 0.00 1.36 1.36 1.192e+01 1.174e+01 -1.825e-01 pH = 5.603 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1365970 + Specific Conductance (µS/cm, 150°C) = 1361728 Density (g/cm³) = 1.20691 Volume (L) = 1.39404 - Viscosity (mPa s) = 0.34593 + Viscosity (mPa s) = 0.34831 Activity of water = 0.707 Ionic strength (mol/kgw) = 9.263e+00 Mass of water (kg) = 1.000e+00 @@ -11317,10 +11317,10 @@ Sylvite 0.00 1.36 1.36 1.174e+01 1.154e+01 -1.936e-01 pH = 5.560 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1397111 + Specific Conductance (µS/cm, 150°C) = 1392668 Density (g/cm³) = 1.21001 Volume (L) = 1.39575 - Viscosity (mPa s) = 0.34042 + Viscosity (mPa s) = 0.34283 Activity of water = 0.701 Ionic strength (mol/kgw) = 9.456e+00 Mass of water (kg) = 1.000e+00 @@ -11405,10 +11405,10 @@ Sylvite 0.00 1.36 1.36 1.154e+01 1.134e+01 -2.052e-01 pH = 5.516 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1428889 + Specific Conductance (µS/cm, 150°C) = 1424234 Density (g/cm³) = 1.21333 Volume (L) = 1.39790 - Viscosity (mPa s) = 0.33513 + Viscosity (mPa s) = 0.33757 Activity of water = 0.693 Ionic strength (mol/kgw) = 9.662e+00 Mass of water (kg) = 1.000e+00 @@ -11493,10 +11493,10 @@ Sylvite 0.00 1.36 1.36 1.134e+01 1.112e+01 -2.173e-01 pH = 5.470 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1461256 + Specific Conductance (µS/cm, 150°C) = 1456377 Density (g/cm³) = 1.21688 Volume (L) = 1.40052 - Viscosity (mPa s) = 0.33006 + Viscosity (mPa s) = 0.33254 Activity of water = 0.686 Ionic strength (mol/kgw) = 9.879e+00 Mass of water (kg) = 1.000e+00 @@ -11581,10 +11581,10 @@ Sylvite 0.00 1.36 1.36 1.112e+01 1.089e+01 -2.299e-01 pH = 5.423 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1494154 + Specific Conductance (µS/cm, 150°C) = 1489040 Density (g/cm³) = 1.22066 Volume (L) = 1.40363 - Viscosity (mPa s) = 0.32523 + Viscosity (mPa s) = 0.32775 Activity of water = 0.678 Ionic strength (mol/kgw) = 1.011e+01 Mass of water (kg) = 1.000e+00 @@ -11669,10 +11669,10 @@ Sylvite 0.00 1.36 1.36 1.089e+01 1.065e+01 -2.430e-01 pH = 5.374 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1527512 + Specific Conductance (µS/cm, 150°C) = 1522154 Density (g/cm³) = 1.22467 Volume (L) = 1.40724 - Viscosity (mPa s) = 0.32065 + Viscosity (mPa s) = 0.32321 Activity of water = 0.670 Ionic strength (mol/kgw) = 1.035e+01 Mass of water (kg) = 1.000e+00 @@ -11757,10 +11757,10 @@ Sylvite 0.00 1.36 1.36 1.065e+01 1.039e+01 -2.567e-01 pH = 5.324 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1561248 + Specific Conductance (µS/cm, 150°C) = 1555634 Density (g/cm³) = 1.22892 Volume (L) = 1.41139 - Viscosity (mPa s) = 0.31632 + Viscosity (mPa s) = 0.31892 Activity of water = 0.662 Ionic strength (mol/kgw) = 1.061e+01 Mass of water (kg) = 1.000e+00 @@ -11845,10 +11845,10 @@ Sylvite 0.00 1.36 1.36 1.039e+01 1.012e+01 -2.709e-01 pH = 5.271 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1595266 + Specific Conductance (µS/cm, 150°C) = 1589387 Density (g/cm³) = 1.23341 Volume (L) = 1.41610 - Viscosity (mPa s) = 0.31226 + Viscosity (mPa s) = 0.31490 Activity of water = 0.654 Ionic strength (mol/kgw) = 1.088e+01 Mass of water (kg) = 1.000e+00 @@ -11933,10 +11933,10 @@ Sylvite 0.00 1.36 1.36 1.012e+01 9.835e+00 -2.857e-01 pH = 5.216 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1629455 + Specific Conductance (µS/cm, 150°C) = 1623300 Density (g/cm³) = 1.23813 Volume (L) = 1.42140 - Viscosity (mPa s) = 0.30848 + Viscosity (mPa s) = 0.31115 Activity of water = 0.645 Ionic strength (mol/kgw) = 1.117e+01 Mass of water (kg) = 1.000e+00 @@ -12021,10 +12021,10 @@ Sylvite 0.00 1.36 1.36 9.835e+00 9.443e+00 -3.922e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12109,10 +12109,10 @@ Sylvite -0.00 1.36 1.36 9.443e+00 8.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12197,10 +12197,10 @@ Sylvite -0.00 1.36 1.36 8.943e+00 8.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12285,10 +12285,10 @@ Sylvite -0.00 1.36 1.36 8.443e+00 7.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12373,10 +12373,10 @@ Sylvite -0.00 1.36 1.36 7.943e+00 7.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12461,10 +12461,10 @@ Sylvite -0.00 1.36 1.36 7.443e+00 6.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12549,10 +12549,10 @@ Sylvite -0.00 1.36 1.36 6.943e+00 6.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12637,10 +12637,10 @@ Sylvite -0.00 1.36 1.36 6.443e+00 5.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12725,10 +12725,10 @@ Sylvite -0.00 1.36 1.36 5.943e+00 5.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12813,10 +12813,10 @@ Sylvite -0.00 1.36 1.36 5.443e+00 4.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12901,10 +12901,10 @@ Sylvite -0.00 1.36 1.36 4.943e+00 4.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -12989,10 +12989,10 @@ Sylvite -0.00 1.36 1.36 4.443e+00 3.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13077,10 +13077,10 @@ Sylvite -0.00 1.36 1.36 3.943e+00 3.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13165,10 +13165,10 @@ Sylvite -0.00 1.36 1.36 3.443e+00 2.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13253,10 +13253,10 @@ Sylvite -0.00 1.36 1.36 2.943e+00 2.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13341,10 +13341,10 @@ Sylvite -0.00 1.36 1.36 2.443e+00 1.943e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13429,10 +13429,10 @@ Sylvite -0.00 1.36 1.36 1.943e+00 1.443e+00 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13517,10 +13517,10 @@ Sylvite -0.00 1.36 1.36 1.443e+00 9.428e-01 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13605,10 +13605,10 @@ Sylvite -0.00 1.36 1.36 9.428e-01 4.428e-01 -5.000e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1647693 + Specific Conductance (µS/cm, 150°C) = 1641388 Density (g/cm³) = 1.24074 Volume (L) = 1.42447 - Viscosity (mPa s) = 0.30658 + Viscosity (mPa s) = 0.30927 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.132e+01 Mass of water (kg) = 1.000e+00 @@ -13693,10 +13693,10 @@ Sylvite -0.00 1.36 1.36 4.428e-01 0 -4.428e-01 pH = 5.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1648080 + Specific Conductance (µS/cm, 150°C) = 1641762 Density (g/cm³) = 1.23995 Volume (L) = 1.42262 - Viscosity (mPa s) = 0.30553 + Viscosity (mPa s) = 0.30822 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.128e+01 Mass of water (kg) = 1.000e+00 @@ -13781,10 +13781,10 @@ Sylvite -0.05 1.31 1.36 0.000e+00 0 0.000e+00 pH = 5.193 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1651255 + Specific Conductance (µS/cm, 150°C) = 1644813 Density (g/cm³) = 1.23303 Volume (L) = 1.40667 - Viscosity (mPa s) = 0.29635 + Viscosity (mPa s) = 0.29901 Activity of water = 0.649 Ionic strength (mol/kgw) = 1.091e+01 Mass of water (kg) = 1.000e+00 @@ -13869,10 +13869,10 @@ Sylvite -0.10 1.27 1.36 0.000e+00 0 0.000e+00 pH = 5.198 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1654044 + Specific Conductance (µS/cm, 150°C) = 1647470 Density (g/cm³) = 1.22603 Volume (L) = 1.39111 - Viscosity (mPa s) = 0.28720 + Viscosity (mPa s) = 0.28982 Activity of water = 0.657 Ionic strength (mol/kgw) = 1.056e+01 Mass of water (kg) = 1.000e+00 @@ -13957,10 +13957,10 @@ Sylvite -0.15 1.21 1.36 0.000e+00 0 0.000e+00 pH = 5.203 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1656452 + Specific Conductance (µS/cm, 150°C) = 1649739 Density (g/cm³) = 1.21897 Volume (L) = 1.37594 - Viscosity (mPa s) = 0.27807 + Viscosity (mPa s) = 0.28065 Activity of water = 0.665 Ionic strength (mol/kgw) = 1.021e+01 Mass of water (kg) = 1.000e+00 @@ -14045,10 +14045,10 @@ Sylvite -0.21 1.15 1.36 0.000e+00 0 0.000e+00 pH = 5.207 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1658483 + Specific Conductance (µS/cm, 150°C) = 1651622 Density (g/cm³) = 1.21185 Volume (L) = 1.36113 - Viscosity (mPa s) = 0.26896 + Viscosity (mPa s) = 0.27151 Activity of water = 0.672 Ionic strength (mol/kgw) = 9.873e+00 Mass of water (kg) = 1.000e+00 @@ -14133,10 +14133,10 @@ Sylvite -0.28 1.09 1.36 0.000e+00 0 0.000e+00 pH = 5.210 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1660146 + Specific Conductance (µS/cm, 150°C) = 1653126 Density (g/cm³) = 1.20466 Volume (L) = 1.34669 - Viscosity (mPa s) = 0.25988 + Viscosity (mPa s) = 0.26238 Activity of water = 0.680 Ionic strength (mol/kgw) = 9.545e+00 Mass of water (kg) = 1.000e+00 @@ -14221,10 +14221,10 @@ Sylvite -0.35 1.02 1.36 0.000e+00 0 0.000e+00 pH = 5.213 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661450 + Specific Conductance (µS/cm, 150°C) = 1654260 Density (g/cm³) = 1.19741 Volume (L) = 1.33258 - Viscosity (mPa s) = 0.25081 + Viscosity (mPa s) = 0.25328 Activity of water = 0.688 Ionic strength (mol/kgw) = 9.227e+00 Mass of water (kg) = 1.000e+00 @@ -14309,10 +14309,10 @@ Sylvite -0.43 0.93 1.36 0.000e+00 0 0.000e+00 pH = 5.216 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1662406 + Specific Conductance (µS/cm, 150°C) = 1655034 Density (g/cm³) = 1.19010 Volume (L) = 1.31881 - Viscosity (mPa s) = 0.24176 + Viscosity (mPa s) = 0.24420 Activity of water = 0.695 Ionic strength (mol/kgw) = 8.918e+00 Mass of water (kg) = 1.000e+00 @@ -14397,10 +14397,10 @@ Sylvite -0.52 0.84 1.36 0.000e+00 0 0.000e+00 pH = 5.218 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1663030 + Specific Conductance (µS/cm, 150°C) = 1655460 Density (g/cm³) = 1.18274 Volume (L) = 1.30537 - Viscosity (mPa s) = 0.23274 + Viscosity (mPa s) = 0.23514 Activity of water = 0.703 Ionic strength (mol/kgw) = 8.618e+00 Mass of water (kg) = 1.000e+00 @@ -14485,10 +14485,10 @@ Sylvite -0.64 0.73 1.36 0.000e+00 0 0.000e+00 pH = 5.220 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1663339 + Specific Conductance (µS/cm, 150°C) = 1655552 Density (g/cm³) = 1.17532 Volume (L) = 1.29223 - Viscosity (mPa s) = 0.22374 + Viscosity (mPa s) = 0.22610 Activity of water = 0.710 Ionic strength (mol/kgw) = 8.326e+00 Mass of water (kg) = 1.000e+00 @@ -14573,10 +14573,10 @@ Sylvite -0.78 0.59 1.36 0.000e+00 0 0.000e+00 pH = 5.221 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1663351 + Specific Conductance (µS/cm, 150°C) = 1655329 Density (g/cm³) = 1.16785 Volume (L) = 1.27940 - Viscosity (mPa s) = 0.21475 + Viscosity (mPa s) = 0.21709 Activity of water = 0.717 Ionic strength (mol/kgw) = 8.042e+00 Mass of water (kg) = 1.000e+00 @@ -14661,10 +14661,10 @@ Sylvite -0.97 0.40 1.36 0.000e+00 0 0.000e+00 pH = 5.223 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1663092 + Specific Conductance (µS/cm, 150°C) = 1654811 Density (g/cm³) = 1.16033 Volume (L) = 1.26686 - Viscosity (mPa s) = 0.20580 + Viscosity (mPa s) = 0.20810 Activity of water = 0.724 Ionic strength (mol/kgw) = 7.766e+00 Mass of water (kg) = 1.000e+00 @@ -14749,10 +14749,10 @@ Sylvite -6.00 -4.63 1.36 0.000e+00 0 0.000e+00 pH = 5.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661901 + Specific Conductance (µS/cm, 150°C) = 1653018 Density (g/cm³) = 1.14515 Volume (L) = 1.24260 - Viscosity (mPa s) = 0.18795 + Viscosity (mPa s) = 0.19019 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.237e+00 Mass of water (kg) = 1.000e+00 @@ -14857,10 +14857,10 @@ Sylvite 0.00 1.25 1.25 1.000e+01 1.022e+01 2.239e-01 pH = 5.446 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1546294 + Specific Conductance (µS/cm, 200°C) = 1538358 Density (g/cm³) = 1.17496 Volume (L) = 1.53484 - Viscosity (mPa s) = 0.29624 + Viscosity (mPa s) = 0.29957 Activity of water = 0.690 Ionic strength (mol/kgw) = 1.078e+01 Mass of water (kg) = 1.000e+00 @@ -14945,10 +14945,10 @@ Sylvite 0.00 1.25 1.25 1.022e+01 1.001e+01 -2.108e-01 pH = 5.395 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1579855 + Specific Conductance (µS/cm, 200°C) = 1571608 Density (g/cm³) = 1.17715 Volume (L) = 1.53850 - Viscosity (mPa s) = 0.29210 + Viscosity (mPa s) = 0.29548 Activity of water = 0.684 Ionic strength (mol/kgw) = 1.099e+01 Mass of water (kg) = 1.000e+00 @@ -15033,10 +15033,10 @@ Sylvite 0.00 1.25 1.25 1.001e+01 9.787e+00 -2.264e-01 pH = 5.342 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1613505 + Specific Conductance (µS/cm, 200°C) = 1604935 Density (g/cm³) = 1.17949 Volume (L) = 1.54291 - Viscosity (mPa s) = 0.28820 + Viscosity (mPa s) = 0.29161 Activity of water = 0.677 Ionic strength (mol/kgw) = 1.121e+01 Mass of water (kg) = 1.000e+00 @@ -15121,10 +15121,10 @@ Sylvite 0.00 1.25 1.25 9.787e+00 9.544e+00 -2.428e-01 pH = 5.286 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1647108 + Specific Conductance (µS/cm, 200°C) = 1638204 Density (g/cm³) = 1.18200 Volume (L) = 1.54814 - Viscosity (mPa s) = 0.28454 + Viscosity (mPa s) = 0.28799 Activity of water = 0.671 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -15209,10 +15209,10 @@ Sylvite 0.00 1.25 1.25 9.544e+00 9.284e+00 -2.601e-01 pH = 5.228 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1680509 + Specific Conductance (µS/cm, 200°C) = 1671260 Density (g/cm³) = 1.18466 Volume (L) = 1.55424 - Viscosity (mPa s) = 0.28113 + Viscosity (mPa s) = 0.28464 Activity of water = 0.664 Ionic strength (mol/kgw) = 1.172e+01 Mass of water (kg) = 1.000e+00 @@ -15297,10 +15297,10 @@ Sylvite 0.00 1.25 1.25 9.284e+00 9.005e+00 -2.787e-01 pH = 5.167 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1713526 + Specific Conductance (µS/cm, 200°C) = 1703925 Density (g/cm³) = 1.18747 Volume (L) = 1.56127 - Viscosity (mPa s) = 0.27800 + Viscosity (mPa s) = 0.28155 Activity of water = 0.657 Ionic strength (mol/kgw) = 1.199e+01 Mass of water (kg) = 1.000e+00 @@ -15385,10 +15385,10 @@ Sylvite 0.00 1.25 1.25 9.005e+00 8.706e+00 -2.987e-01 pH = 5.102 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1745952 + Specific Conductance (µS/cm, 200°C) = 1735992 Density (g/cm³) = 1.19042 Volume (L) = 1.56934 - Viscosity (mPa s) = 0.27517 + Viscosity (mPa s) = 0.27877 Activity of water = 0.650 Ionic strength (mol/kgw) = 1.229e+01 Mass of water (kg) = 1.000e+00 @@ -15473,10 +15473,10 @@ Sylvite 0.00 1.25 1.25 8.706e+00 8.386e+00 -3.204e-01 pH = 5.034 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1777544 + Specific Conductance (µS/cm, 200°C) = 1767223 Density (g/cm³) = 1.19352 Volume (L) = 1.57853 - Viscosity (mPa s) = 0.27265 + Viscosity (mPa s) = 0.27630 Activity of water = 0.643 Ionic strength (mol/kgw) = 1.261e+01 Mass of water (kg) = 1.000e+00 @@ -15561,10 +15561,10 @@ Sylvite 0.00 1.25 1.25 8.386e+00 8.042e+00 -3.444e-01 pH = 4.962 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1808018 + Specific Conductance (µS/cm, 200°C) = 1797336 Density (g/cm³) = 1.19676 Volume (L) = 1.58898 - Viscosity (mPa s) = 0.27049 + Viscosity (mPa s) = 0.27419 Activity of water = 0.637 Ionic strength (mol/kgw) = 1.296e+01 Mass of water (kg) = 1.000e+00 @@ -15649,10 +15649,10 @@ Sylvite 0.00 1.25 1.25 8.042e+00 7.670e+00 -3.712e-01 pH = 4.886 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1837032 + Specific Conductance (µS/cm, 200°C) = 1825995 Density (g/cm³) = 1.20014 Volume (L) = 1.60086 - Viscosity (mPa s) = 0.26873 + Viscosity (mPa s) = 0.27248 Activity of water = 0.630 Ionic strength (mol/kgw) = 1.333e+01 Mass of water (kg) = 1.000e+00 @@ -15737,10 +15737,10 @@ Sylvite 0.00 1.25 1.25 7.670e+00 7.268e+00 -4.021e-01 pH = 4.804 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1864168 + Specific Conductance (µS/cm, 200°C) = 1852786 Density (g/cm³) = 1.20365 Volume (L) = 1.61440 - Viscosity (mPa s) = 0.26741 + Viscosity (mPa s) = 0.27123 Activity of water = 0.623 Ionic strength (mol/kgw) = 1.373e+01 Mass of water (kg) = 1.000e+00 @@ -15825,10 +15825,10 @@ Sylvite 0.00 1.25 1.25 7.268e+00 6.806e+00 -4.628e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -15913,10 +15913,10 @@ Sylvite 0.00 1.25 1.25 6.806e+00 6.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16001,10 +16001,10 @@ Sylvite 0.00 1.25 1.25 6.306e+00 5.806e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16089,10 +16089,10 @@ Sylvite 0.00 1.25 1.25 5.806e+00 5.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16177,10 +16177,10 @@ Sylvite 0.00 1.25 1.25 5.306e+00 4.806e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16265,10 +16265,10 @@ Sylvite 0.00 1.25 1.25 4.806e+00 4.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16353,10 +16353,10 @@ Sylvite 0.00 1.25 1.25 4.306e+00 3.806e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16441,10 +16441,10 @@ Sylvite 0.00 1.25 1.25 3.806e+00 3.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16529,10 +16529,10 @@ Sylvite 0.00 1.25 1.25 3.306e+00 2.806e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16617,10 +16617,10 @@ Sylvite 0.00 1.25 1.25 2.806e+00 2.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16705,10 +16705,10 @@ Sylvite 0.00 1.25 1.25 2.306e+00 1.806e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16793,10 +16793,10 @@ Sylvite 0.00 1.25 1.25 1.806e+00 1.306e+00 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16881,10 +16881,10 @@ Sylvite 0.00 1.25 1.25 1.306e+00 8.055e-01 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -16969,10 +16969,10 @@ Sylvite 0.00 1.25 1.25 8.055e-01 3.055e-01 -5.000e-01 pH = 4.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1877464 + Specific Conductance (µS/cm, 200°C) = 1865908 Density (g/cm³) = 1.20555 Volume (L) = 1.62226 - Viscosity (mPa s) = 0.26693 + Viscosity (mPa s) = 0.27078 Activity of water = 0.620 Ionic strength (mol/kgw) = 1.396e+01 Mass of water (kg) = 1.000e+00 @@ -17057,10 +17057,10 @@ Sylvite -0.01 1.24 1.25 3.055e-01 0 -3.055e-01 pH = 4.770 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1883690 + Specific Conductance (µS/cm, 200°C) = 1872034 Density (g/cm³) = 1.20396 Volume (L) = 1.61305 - Viscosity (mPa s) = 0.26407 + Viscosity (mPa s) = 0.26789 Activity of water = 0.622 Ionic strength (mol/kgw) = 1.378e+01 Mass of water (kg) = 1.000e+00 @@ -17145,10 +17145,10 @@ Sylvite -0.04 1.21 1.25 0.000e+00 0 0.000e+00 pH = 4.799 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1899521 + Specific Conductance (µS/cm, 200°C) = 1887600 Density (g/cm³) = 1.19976 Volume (L) = 1.59004 - Viscosity (mPa s) = 0.25670 + Viscosity (mPa s) = 0.26046 Activity of water = 0.628 Ionic strength (mol/kgw) = 1.333e+01 Mass of water (kg) = 1.000e+00 @@ -17233,10 +17233,10 @@ Sylvite -0.07 1.18 1.25 0.000e+00 0 0.000e+00 pH = 4.825 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1915101 + Specific Conductance (µS/cm, 200°C) = 1902900 Density (g/cm³) = 1.19540 Volume (L) = 1.56794 - Viscosity (mPa s) = 0.24933 + Viscosity (mPa s) = 0.25304 Activity of water = 0.634 Ionic strength (mol/kgw) = 1.289e+01 Mass of water (kg) = 1.000e+00 @@ -17321,10 +17321,10 @@ Sylvite -0.10 1.14 1.25 0.000e+00 0 0.000e+00 pH = 4.848 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1930434 + Specific Conductance (µS/cm, 200°C) = 1917939 Density (g/cm³) = 1.19088 Volume (L) = 1.54668 - Viscosity (mPa s) = 0.24197 + Viscosity (mPa s) = 0.24562 Activity of water = 0.641 Ionic strength (mol/kgw) = 1.248e+01 Mass of water (kg) = 1.000e+00 @@ -17409,10 +17409,10 @@ Sylvite -0.14 1.11 1.25 0.000e+00 0 0.000e+00 pH = 4.869 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1945535 + Specific Conductance (µS/cm, 200°C) = 1932728 Density (g/cm³) = 1.18619 Volume (L) = 1.52618 - Viscosity (mPa s) = 0.23462 + Viscosity (mPa s) = 0.23821 Activity of water = 0.648 Ionic strength (mol/kgw) = 1.207e+01 Mass of water (kg) = 1.000e+00 @@ -17497,10 +17497,10 @@ Sylvite -0.19 1.06 1.25 0.000e+00 0 0.000e+00 pH = 4.888 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1960420 + Specific Conductance (µS/cm, 200°C) = 1947284 Density (g/cm³) = 1.18134 Volume (L) = 1.50641 - Viscosity (mPa s) = 0.22728 + Viscosity (mPa s) = 0.23081 Activity of water = 0.655 Ionic strength (mol/kgw) = 1.169e+01 Mass of water (kg) = 1.000e+00 @@ -17585,10 +17585,10 @@ Sylvite -0.23 1.02 1.25 0.000e+00 0 0.000e+00 pH = 4.906 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1975117 + Specific Conductance (µS/cm, 200°C) = 1961631 Density (g/cm³) = 1.17633 Volume (L) = 1.48730 - Viscosity (mPa s) = 0.21994 + Viscosity (mPa s) = 0.22342 Activity of water = 0.662 Ionic strength (mol/kgw) = 1.131e+01 Mass of water (kg) = 1.000e+00 @@ -17673,10 +17673,10 @@ Sylvite -0.28 0.97 1.25 0.000e+00 0 0.000e+00 pH = 4.922 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1989658 + Specific Conductance (µS/cm, 200°C) = 1975797 Density (g/cm³) = 1.17117 Volume (L) = 1.46883 - Viscosity (mPa s) = 0.21261 + Viscosity (mPa s) = 0.21604 Activity of water = 0.670 Ionic strength (mol/kgw) = 1.095e+01 Mass of water (kg) = 1.000e+00 @@ -17761,10 +17761,10 @@ Sylvite -0.34 0.91 1.25 0.000e+00 0 0.000e+00 pH = 4.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2004081 + Specific Conductance (µS/cm, 200°C) = 1989819 Density (g/cm³) = 1.16587 Volume (L) = 1.45097 - Viscosity (mPa s) = 0.20528 + Viscosity (mPa s) = 0.20866 Activity of water = 0.677 Ionic strength (mol/kgw) = 1.059e+01 Mass of water (kg) = 1.000e+00 @@ -17849,10 +17849,10 @@ Sylvite -0.40 0.85 1.25 0.000e+00 0 0.000e+00 pH = 4.950 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2018436 + Specific Conductance (µS/cm, 200°C) = 2003742 Density (g/cm³) = 1.16042 Volume (L) = 1.43367 - Viscosity (mPa s) = 0.19796 + Viscosity (mPa s) = 0.20128 Activity of water = 0.685 Ionic strength (mol/kgw) = 1.025e+01 Mass of water (kg) = 1.000e+00 @@ -17937,10 +17937,10 @@ Sylvite -0.47 0.78 1.25 0.000e+00 0 0.000e+00 pH = 4.963 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2032771 + Specific Conductance (µS/cm, 200°C) = 2017611 Density (g/cm³) = 1.15483 Volume (L) = 1.41692 - Viscosity (mPa s) = 0.19064 + Viscosity (mPa s) = 0.19392 Activity of water = 0.692 Ionic strength (mol/kgw) = 9.923e+00 Mass of water (kg) = 1.000e+00 @@ -18025,10 +18025,10 @@ Sylvite -0.55 0.70 1.25 0.000e+00 0 0.000e+00 pH = 4.975 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2047142 + Specific Conductance (µS/cm, 200°C) = 2031476 Density (g/cm³) = 1.14911 Volume (L) = 1.40068 - Viscosity (mPa s) = 0.18334 + Viscosity (mPa s) = 0.18657 Activity of water = 0.700 Ionic strength (mol/kgw) = 9.603e+00 Mass of water (kg) = 1.000e+00 @@ -18113,10 +18113,10 @@ Sylvite -0.64 0.61 1.25 0.000e+00 0 0.000e+00 pH = 4.987 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2061646 + Specific Conductance (µS/cm, 200°C) = 2045426 Density (g/cm³) = 1.14327 Volume (L) = 1.38493 - Viscosity (mPa s) = 0.17604 + Viscosity (mPa s) = 0.17922 Activity of water = 0.707 Ionic strength (mol/kgw) = 9.292e+00 Mass of water (kg) = 1.000e+00 @@ -18201,10 +18201,10 @@ Sylvite -0.75 0.50 1.25 0.000e+00 0 0.000e+00 pH = 4.998 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2076377 + Specific Conductance (µS/cm, 200°C) = 2059550 Density (g/cm³) = 1.13730 Volume (L) = 1.36966 - Viscosity (mPa s) = 0.16874 + Viscosity (mPa s) = 0.17188 Activity of water = 0.714 Ionic strength (mol/kgw) = 8.992e+00 Mass of water (kg) = 1.000e+00 @@ -18289,10 +18289,10 @@ Sylvite -0.89 0.36 1.25 0.000e+00 0 0.000e+00 pH = 5.008 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2091451 + Specific Conductance (µS/cm, 200°C) = 2073953 Density (g/cm³) = 1.13121 Volume (L) = 1.35485 - Viscosity (mPa s) = 0.16145 + Viscosity (mPa s) = 0.16454 Activity of water = 0.721 Ionic strength (mol/kgw) = 8.700e+00 Mass of water (kg) = 1.000e+00 @@ -18377,10 +18377,10 @@ Sylvite -1.08 0.17 1.25 0.000e+00 0 0.000e+00 pH = 5.018 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2107002 + Specific Conductance (µS/cm, 200°C) = 2088757 Density (g/cm³) = 1.12501 Volume (L) = 1.34047 - Viscosity (mPa s) = 0.15417 + Viscosity (mPa s) = 0.15721 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.417e+00 Mass of water (kg) = 1.000e+00 @@ -18465,10 +18465,10 @@ Sylvite -6.10 -4.85 1.25 0.000e+00 0 0.000e+00 pH = 5.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2140221 + Specific Conductance (µS/cm, 200°C) = 2120200 Density (g/cm³) = 1.11229 Volume (L) = 1.31295 - Viscosity (mPa s) = 0.13962 + Viscosity (mPa s) = 0.14258 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.877e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaKCl_101.sel b/mytest/NaKCl_101.sel index dfc9b72e..0ab887a4 100644 --- a/mytest/NaKCl_101.sel +++ b/mytest/NaKCl_101.sel @@ -1,212 +1,212 @@ Mu SC - 11.000000008185 276091.5204040082 - 3.592443773887 187619.6248601758 - 3.817220344417 192358.8548783948 - 4.053783997098 197361.8120776114 - 4.302249334593 202618.2162955424 - 4.562721387768 208116.2311649845 - 4.835294538145 213842.5149063383 - 5.120048898401 219782.1827665651 - 5.417044693908 225918.6969139561 - 5.726314924280 232233.7149959582 - 6.047856953983 238706.9313731391 - 6.381623671510 245315.9471616322 - 6.727514913078 252036.2030687422 - 6.733896434024 252158.8961285485 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296095 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296094 - 6.733896433647 252158.8961296094 - 6.621545222041 246939.6567765257 - 6.132058577373 221810.0394485533 - 5.392677846361 500932.0903654624 - 5.564812904060 510278.8327903807 - 5.746399882150 520078.0242163379 - 5.937977088211 530344.6496203818 - 6.140072534450 541089.5473880431 - 6.353194011294 552318.5243530663 - 6.577817985447 564031.4879945577 - 6.814377615468 576221.6467442695 - 7.063250322590 588874.8372592177 - 7.324745494634 601969.0412523795 - 7.575692204062 614331.7811824701 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977302 - 7.575692201099 614331.7811977302 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977300 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977300 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.575692201099 614331.7811977301 - 7.510969508032 611585.6011216147 - 7.239156977908 599120.7337794442 - 6.973335560158 585386.1604812131 - 6.713388583265 570361.0515867691 - 6.210697110171 536362.5131465537 - 7.444826948593 989839.5080908115 - 7.610737661415 1010977.4234025080 - 7.785900210169 1032825.6202364698 - 7.970746027065 1055387.3189787082 - 8.165701571412 1078659.2111560523 - 8.371182789015 1102630.5534485376 - 8.587589016509 1127282.3198249929 - 8.815296468528 1152586.4595745606 - 9.054651520522 1178505.3134337207 - 9.305964063761 1204991.2403553987 - 9.410984098920 1215843.3198873512 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877310 - 9.410984098875 1215843.3198877310 - 9.410984098875 1215843.3198877310 - 9.410984098875 1215843.3198877310 - 9.410984098875 1215843.3198877310 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.410984098875 1215843.3198877312 - 9.277251655575 1213916.7818074937 - 8.962995635567 1208780.6396462386 - 8.656803657336 1202881.3304342977 - 8.358506195626 1196188.9982509858 - 8.067925435842 1188670.6392422495 - 7.784876912979 1180289.6040745580 - 7.509171227423 1171004.9621498291 - 7.240615765651 1160770.5574375393 - 6.724234261644 1137228.9677161595 - 9.080208625548 1335501.9167361711 - 9.262694433951 1365970.3069041616 - 9.456308536772 1397111.9074828671 - 9.661520729976 1428889.6784664339 - 9.878817403736 1461256.4853620669 - 10.108702641406 1494154.1600199749 - 10.351700411179 1527512.6073828971 - 10.608358257293 1561248.9700947923 - 10.879253135610 1595266.8554126755 - 11.165000268758 1629455.6125435098 - 11.323493120382 1647693.3360825751 - 11.323493129964 1647693.3359396311 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.323493129964 1647693.3359396309 - 11.323493129964 1647693.3359396306 - 11.280813882033 1648080.9987386377 - 10.913479540378 1651255.7265971224 - 10.556587403560 1654044.7532380519 - 10.209815180694 1656452.0100939299 - 9.872860332121 1658483.2659128639 - 9.545434539964 1660146.1231740182 - 9.227259875176 1661450.1223942710 - 8.918066220949 1662406.9694813590 - 8.617589656358 1663030.9098104669 - 8.325571562741 1663339.2752654473 - 8.041758945168 1663351.1055120220 - 7.765903890025 1663092.0272134847 - 7.237151616579 1661901.1684845914 - 10.776134764685 1546294.4938201243 - 10.986948841712 1579855.6359101715 - 11.213311686784 1613505.6348374875 - 11.456069479298 1647108.9353951397 - 11.716211077916 1680509.2608118530 - 11.994909845185 1713526.4463582893 - 12.293584721291 1745952.2366966296 - 12.613990369176 1777544.4093515405 - 12.958354347418 1808018.1245541438 - 13.329594000458 1837032.5028668665 - 13.731676721553 1864168.5672277634 - 13.956485000891 1877464.0809029785 - 13.956485118372 1877464.0773249380 - 13.956485118373 1877464.0773249292 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.956485118373 1877464.0773249283 - 13.776218446496 1883690.1804977700 - 13.325974795938 1899521.6421006769 - 12.893179947158 1915101.1766857479 - 12.476265828876 1930434.7929869092 - 12.074003464660 1945535.0658616829 - 11.685405590762 1960420.9693887907 - 11.309660660274 1975117.9847661362 - 10.946087086708 1989658.4141948053 - 10.594100778550 2004081.9072017709 - 10.253191739840 2018436.2274997502 - 9.922886017739 2032771.7871310925 - 9.602740534674 2047142.3527992719 - 9.292446785514 2061646.0245393191 - 8.991659803440 2076377.9906671373 - 8.700058090194 2091451.6089110905 - 8.417339916626 2107002.6232962003 - 7.877488190751 2140221.9066698211 + 11.000000008185 276188.1388721436 + 3.592443773887 187688.4706857428 + 3.817220344417 192434.7573081768 + 4.053783997098 197444.8046278410 + 4.302249334593 202708.3542706660 + 4.562721387768 208213.5861081069 + 4.835294538145 213947.1714181434 + 5.120048898401 219894.2367511439 + 5.417044693908 226038.2545913268 + 5.726314924280 232360.8922073478 + 6.047856953983 238841.8528366296 + 6.381623671510 245458.7454386723 + 6.727514913078 252187.0170879920 + 6.733896434024 252309.8567749621 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.733896433647 252309.8567760235 + 6.621545222041 247085.6499807621 + 6.132058577373 221932.1161270119 + 5.392677846361 500804.4621083324 + 5.564812904060 510142.3954758127 + 5.746399882150 519932.3900091701 + 5.937977088211 530189.4108777553 + 6.140072534450 540924.2788191958 + 6.353194011294 552142.7855730014 + 6.577817985447 563844.8265328398 + 6.814377615468 576023.6015494964 + 7.063250322590 588664.9427123429 + 7.324745494634 601746.8316681336 + 7.575692204062 614097.8798033793 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186344 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186341 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186344 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186344 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186341 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186342 + 7.575692201099 614097.8798186344 + 7.510969508032 611352.2342564926 + 7.239156977908 598890.1951693769 + 6.973335560158 585159.3753360312 + 6.713388583265 570138.9810432312 + 6.210697110171 536152.8939188106 + 7.444826948593 988329.9312122728 + 7.610737661415 1009385.3637420889 + 7.785900210169 1031146.0279452105 + 7.970746027065 1053614.9056513524 + 8.165701571412 1076788.4707007932 + 8.371182789015 1100655.7902712431 + 8.587589016509 1125197.6848471256 + 8.815296468528 1150385.9943631168 + 9.054651520522 1176183.0024086889 + 9.305964063761 1202541.0706669891 + 9.410984098920 1213339.7849959966 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963757 + 9.410984098875 1213339.7849963754 + 9.410984098875 1213339.7849963754 + 9.277251655575 1211397.1982342810 + 8.962995635567 1206221.9181526899 + 8.656803657336 1200282.3727397211 + 8.358506195626 1193548.6160462156 + 8.067925435842 1185987.5529766709 + 7.784876912979 1177562.4435915423 + 7.509171227423 1168232.2705909079 + 7.240615765651 1157950.8016561437 + 6.724234261644 1134310.3842484357 + 9.080208625548 1331450.8142897410 + 9.262694433951 1361728.4118224124 + 9.456308536772 1392668.5752214571 + 9.661520729976 1424234.0495351255 + 9.878817403736 1456377.5792847963 + 10.108702641406 1489040.9899986638 + 10.351700411179 1522154.3173322324 + 10.608358257293 1555634.9955479288 + 10.879253135610 1589387.1096482906 + 11.165000268758 1623300.6992345827 + 11.323493120382 1641388.3296890694 + 11.323493129964 1641388.3295465659 + 11.323493129964 1641388.3295465654 + 11.323493129964 1641388.3295465654 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.323493129964 1641388.3295465657 + 11.280813882033 1641762.2405823832 + 10.913479540378 1644813.0294831384 + 10.556587403560 1647470.9872023358 + 10.209815180694 1649739.1585359590 + 9.872860332121 1651622.2871796857 + 9.545434539964 1653126.7886024695 + 9.227259875176 1654260.8247413244 + 8.918066220949 1655034.4941099230 + 8.617589656358 1655460.1589123670 + 8.325571562741 1655552.9327005548 + 8.041758945168 1655329.2441346545 + 7.765903890025 1654811.5899213091 + 7.237151616579 1653018.6549724333 + 10.776134764685 1538358.8559983929 + 10.986948841712 1571608.5342140493 + 11.213311686784 1604935.1563752869 + 11.456069479298 1638204.0652845323 + 11.716211077916 1671260.2342145259 + 11.994909845185 1703925.1706603889 + 12.293584721291 1735992.8005342737 + 12.613990369176 1767223.7033865403 + 12.958354347418 1797336.6133331903 + 13.329594000458 1825995.2135055016 + 13.731676721553 1852786.4118330150 + 13.956485000891 1865908.0846365404 + 13.956485118372 1865908.0810780684 + 13.956485118373 1865908.0810780590 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.956485118373 1865908.0810780583 + 13.776218446496 1872034.3201096212 + 13.325974795938 1887600.0763744402 + 12.893179947158 1902900.1552116273 + 12.476265828876 1917939.2671299872 + 12.074003464660 1932728.3887951132 + 11.685405590762 1947284.5709500476 + 11.309660660274 1961631.0064631749 + 10.946087086708 1975797.2895079060 + 10.594100778550 1989819.8702224938 + 10.253191739840 2003742.7293568982 + 9.922886017739 2017611.8973269325 + 9.602740534674 2031476.0222178074 + 9.292446785514 2045426.5390983727 + 8.991659803440 2059550.9534934706 + 8.700058090194 2073953.3114933656 + 8.417339916626 2088757.9826516903 + 7.877488190751 2120200.1038827989 diff --git a/mytest/NaKCl_Lang_101.sel b/mytest/NaKCl_Lang_101.sel index 3588e15e..6e4b6207 100644 --- a/mytest/NaKCl_Lang_101.sel +++ b/mytest/NaKCl_Lang_101.sel @@ -1,197 +1,197 @@ Mu SC Viscosity 0.000000100645 0.0546913895 0.8900243330 - 0.000400102928 49.5860097811 0.8901593566 - 0.000800103865 98.5639086001 0.8902311716 - 0.001200104573 147.1949019488 0.8902925206 - 0.001600105164 195.5522352936 0.8903484535 - 0.002000105679 243.6780671355 0.8904009262 - 0.002400106141 291.6007349652 0.8904509417 - 0.002800106563 339.3409667557 0.8904990960 - 0.003200106953 386.9147664225 0.8905457774 - 0.003600107316 434.3349658730 0.8905912554 - 0.004000107657 481.6121451929 0.8906357266 - 0.008000110331 948.0109182255 0.8910466005 - 0.012000112293 1405.5529326585 0.8914246509 - 0.016000113886 1856.4080224519 0.8917858520 - 0.020000115242 2301.7965582318 0.8921363933 - 0.024000116433 2742.5220477565 0.8924794509 - 0.028000117497 3179.1611425344 0.8928169121 - 0.032000118463 3612.1512122747 0.8931500075 - 0.036000119347 4041.8370957405 0.8934795925 - 0.040000120164 4468.4986162669 0.8938062900 - 0.080000126021 8606.7431004788 0.8969829392 - 0.120000129728 12577.0538643508 0.9000869269 - 0.160000132367 16427.5509338037 0.9031695822 - 0.200000134346 20182.8318336541 0.9062510615 - 0.240000135870 23857.8786954907 0.9093418647 - 0.280000137060 27462.7470509950 0.9124483377 - 0.320000137991 31004.6249344659 0.9155746934 - 0.360000138718 34488.8855205295 0.9187239171 - 0.400000139276 37919.6825821343 0.9218982287 - 0.920000138619 78612.0187935849 0.9659332325 - 1.440000131793 113409.5900083341 1.0157939763 - 1.960000122786 143167.4904110173 1.0719088136 - 2.480000112935 168371.4321017009 1.1344896234 - 3.000000102893 189438.0389073385 1.2036758422 - 3.520000093034 206770.4633760386 1.2795714790 - 4.040000083589 220765.0867641415 1.3622596966 - 4.560000074711 231806.1734095159 1.4518099534 - 5.080000066504 240258.7117407165 1.5482820081 - 5.600000058409 246462.5987219443 1.6517283864 - 6.120000050863 250728.9424950551 1.7621960056 - 0.000400007497 52.2624858904 0.8901470038 - 0.000800003535 103.9571075735 0.8902089936 - 0.001200002193 155.3010424280 0.8902609335 - 0.001600001516 206.3676843015 0.8903076720 - 0.002000001107 257.1996766948 0.8903510873 - 0.002400000833 307.8257562979 0.8903921425 - 0.002800000636 358.2669647130 0.8904314100 - 0.003200000488 408.5395560911 0.8904692624 - 0.003600000372 458.6565664575 0.8905059587 - 0.004000000278 508.6287457289 0.8905416876 - 0.007999999848 1001.9020711094 0.8908664507 - 0.011999999701 1486.2255286565 0.8911596323 - 0.015999999626 1963.8035274444 0.8914365689 - 0.019999999580 2435.8754590821 0.8917032023 - 0.023999999549 2903.2570845552 0.8919625807 - 0.027999999526 3366.5336665487 0.8922165151 - 0.031999999509 3826.1489753739 0.8924661862 - 0.035999999496 4282.4527985291 0.8927124142 - 0.039999999486 4735.7288994467 0.8929557966 - 0.079999999371 9140.4438637815 0.8952987315 - 0.119999999280 13378.6282946543 0.8975640394 - 0.159999999198 17498.9350667927 0.8998007263 - 0.199999999119 21526.1926428824 0.9020279642 - 0.239999999042 25475.5026421160 0.9042557054 - 0.279999998966 29356.9878650981 0.9064899471 - 0.319999998891 33177.8754844963 0.9087346604 - 0.359999998816 36943.5610962583 0.9109926542 - 0.399999998741 40658.2101610112 0.9132660146 - 0.919999997784 85258.4614812387 0.9446754240 - 1.439999996833 124335.8541513201 0.9801842461 - 1.959999995885 158670.2858354160 1.0202184905 - 2.479999994943 188650.0492117510 1.0650012837 - 2.999999994015 214586.0015687979 1.1146843289 - 3.519999993111 236778.2919229842 1.1693821687 - 4.039999992244 255530.8153687583 1.2291862504 - 4.559999991431 271150.3681774959 1.2941721884 - 5.079999990692 283941.3033556677 1.3644040614 - 5.599999990051 294199.5676742971 1.4399371897 - 6.119999989536 302207.5911867452 1.5208200412 - 0.000400243930 54.2877122468 0.8901347910 - 0.000800425904 107.9736494668 0.8901870639 - 0.001200618287 161.3091468639 0.8902296979 - 0.001600814201 214.3658499783 0.8902673434 - 0.002001011673 267.1860849049 0.8903018018 - 0.002401209962 319.7986195279 0.8903339968 - 0.002801408731 372.2246082819 0.8903644772 - 0.003201607807 424.4804306775 0.8903936005 - 0.003601807090 476.5792415153 0.8904216151 - 0.004002006521 528.5318982880 0.8904487019 - 0.008004004212 1041.5541026701 0.8906883733 - 0.012006003991 1545.5576670157 0.8908977492 - 0.016008004519 2042.7738771112 0.8910915338 - 0.020010005523 2534.4573576693 0.8912754225 - 0.024012006911 3021.4338636360 0.8914523361 - 0.028014008642 3504.2957836399 0.8916240098 - 0.032016010696 3983.4922506434 0.8917915740 - 0.036018013062 4459.3772447148 0.8919558141 - 0.040020015733 4932.2379009573 0.8921173018 - 0.080040058604 9533.4303687823 0.8936435320 - 0.120060130515 13969.9746261157 0.8950921965 - 0.160080231322 18291.0221742867 0.8965098893 - 0.200100360992 22521.6265124135 0.8979147253 - 0.240120519514 26677.0088510557 0.8993160461 - 0.280140706883 30767.3605535396 0.9007194425 - 0.320160923097 34799.9491969791 0.9021285913 - 0.360181168154 38780.1937826157 0.9035460750 - 0.400201442053 42712.2721873266 0.9049737987 - 0.840426358475 83422.1363959282 0.9216289443 - 1.280654764656 120383.1210559131 0.9404217238 - 1.720886660612 154130.4109112471 0.9616127092 - 2.161122046380 184892.0131326895 0.9853379549 - 2.601360922002 212813.9625855676 1.0116894231 - 3.041603287522 238019.6293935163 1.0407362852 - 3.481849142982 260629.9929368125 1.0725335504 - 3.922098488428 280770.7390027331 1.1071264727 - 4.362351323904 298573.9765429103 1.1445531514 - 4.802607649457 314177.5537803434 1.1848462169 - 5.242867465133 327723.3175106400 1.2280339970 - 0.000400764460 56.7655226890 0.8901220567 - 0.000801507780 112.9422906754 0.8901643657 - 0.001202255502 168.7598330107 0.8901974922 - 0.001603004373 224.2930226191 0.8902258669 - 0.002003753715 279.5856072635 0.8902512057 - 0.002404503301 334.6671155488 0.8902743889 - 0.002805253031 389.5591833032 0.8902959392 - 0.003206002856 444.2785291327 0.8903161974 - 0.003606752747 498.8385638866 0.8903353998 - 0.004007502689 553.2503477360 0.8903537189 - 0.008015003573 1090.7755433568 0.8905072204 - 0.012022506028 1619.1689874489 0.8906319082 - 0.016030009689 2140.6985404109 0.8907417841 - 0.020037514484 2656.6389421955 0.8908422692 - 0.024045020387 3167.8289919993 0.8909361427 - 0.028052527388 3674.8703154015 0.8910250545 - 0.032060035481 4178.2189636536 0.8911100796 - 0.036067544664 4678.2343050077 0.8911919638 - 0.040075054935 5175.2077949265 0.8912712503 - 0.080150217233 10017.1334818410 0.8919807291 - 0.120225487877 14694.6218691914 0.8926176660 - 0.160300866837 19257.4536211287 0.8932258964 - 0.200376354103 23730.9658380865 0.8938223010 - 0.240451949673 28130.5310728003 0.8944154925 - 0.280527653547 32466.4284281102 0.8950105644 - 0.320603465723 36745.9784384824 0.8956108238 - 0.360679386202 40974.6323610408 0.8962185614 - 0.400755414985 45156.5872334230 0.8968354423 - 0.841598879706 88712.1535447750 0.9044543445 - 1.282455449713 128687.9459255051 0.9139064843 - 1.723325125575 165599.3969984529 0.9253693799 - 2.164207907877 199649.4548902333 0.9389227684 - 2.605103797203 230954.8911661051 0.9546157101 - 3.046012794140 259606.6130696171 0.9724828360 - 3.486934899273 285691.2130801722 0.9925504007 - 3.927870113187 309299.4477432204 1.0148391608 - 4.368818436470 330529.2824297406 1.0393659821 - 4.809779869704 349486.3696553585 1.0661448383 - 5.250754413478 366283.2387917483 1.0951874802 - 0.000400102925 58.9555818343 0.8901089087 - 0.000800103858 117.2728284530 0.8901410700 - 0.001200104563 175.2248825655 0.8901645420 - 0.001600105151 232.8892212580 0.8901835178 - 0.002000105663 290.3104350223 0.8901996215 - 0.002400106122 347.5184935464 0.8902136859 - 0.002800106540 404.5353168678 0.8902262059 - 0.003200106926 461.3778278708 0.8902375037 - 0.003600107286 518.0595941600 0.8902478032 - 0.004000107625 574.5918014864 0.8902572675 - 0.008000110265 1133.2663358423 0.8903238527 - 0.012000112194 1682.7395492295 0.8903632379 - 0.016000113753 2225.3027851447 0.8903886705 - 0.020000115076 2762.2437234472 0.8904052784 - 0.024000116233 3294.4095495418 0.8904156898 - 0.028000117264 3822.4078196965 0.8904214645 - 0.032000118197 4346.6990193821 0.8904236183 - 0.036000119048 4867.6459636444 0.8904228560 - 0.040000119833 5385.5428654838 0.8904196903 - 0.080000125362 10436.6121989875 0.8903119517 - 0.120000128756 15323.6597626826 0.8901402567 - 0.160000131095 20096.8470738209 0.8899456159 - 0.200000132788 24781.6724638684 0.8897436521 - 0.240000134039 29393.5870537481 0.8895422300 - 0.280000134969 33942.9096055000 0.8893459271 - 0.320000135654 38436.9796001615 0.8891576595 - 0.360000136146 42881.2553214413 0.8889794039 - 0.400000136481 47279.9336030106 0.8888125621 - 0.840000134707 93289.5726992130 0.8879085291 - 1.280000128757 135836.4988990935 0.8889039988 - 1.720000121439 175419.1715556210 0.8918624500 - 2.160000113668 212223.4153241643 0.8967807184 - 2.600000105859 246347.9378925785 0.9036424287 - 3.040000098223 277864.2587829902 0.9124285282 - 3.480000090873 306838.3325777294 0.9231201506 - 3.920000083867 333339.3986079063 0.9356994567 - 4.360000077228 357443.5614616200 0.9501498374 - 4.800000070961 379234.8695762826 0.9664558966 - 5.240000065057 398805.0956521243 0.9846033617 + 0.000400102928 49.5860098997 0.8901593537 + 0.000800103865 98.5639089330 0.8902311675 + 0.001200104573 147.1949025574 0.8902925156 + 0.001600105164 195.5522362270 0.8903484477 + 0.002000105679 243.6780684358 0.8904009196 + 0.002400106141 291.6007366695 0.8904509346 + 0.002800106563 339.3409688976 0.8904990883 + 0.003200106953 386.9147690332 0.8905457691 + 0.003600107316 434.3349689812 0.8905912467 + 0.004000107657 481.6121488256 0.8906357173 + 0.008000110331 948.0109283330 0.8910465874 + 0.012000112293 1405.5529510046 0.8914246350 + 0.016000113886 1856.4080504204 0.8917858335 + 0.020000115242 2301.7965969893 0.8921363727 + 0.024000116433 2742.5220983239 0.8924794282 + 0.028000117497 3179.1612058267 0.8928168877 + 0.032000118463 3612.1512891251 0.8931499814 + 0.036000119347 4041.8371869170 0.8934795648 + 0.040000120164 4468.4987224837 0.8938062608 + 0.080000126021 8606.7433888177 0.8969828979 + 0.120000129728 12577.0543786695 0.9000868763 + 0.160000132367 16427.5517069223 0.9031695238 + 0.200000134346 20182.8328920824 0.9062509962 + 0.240000135870 23857.8800614876 0.9093417932 + 0.280000137060 27462.7487436870 0.9124482605 + 0.320000137991 31004.6269705353 0.9155746108 + 0.360000138718 34488.8879146729 0.9187238295 + 0.400000139276 37919.6853473875 0.9218981364 + 0.920000138619 78612.0270944850 0.9659330925 + 1.440000131793 113409.6042584005 1.0157938011 + 1.960000122786 143167.5103030366 1.0719086093 + 2.480000112935 168371.4569681240 1.1344893935 + 3.000000102893 189438.0679129137 1.2036755894 + 3.520000093034 206770.4956382143 1.2795712052 + 4.040000083589 220765.1214289112 1.3622594033 + 4.560000074711 231806.2096963114 1.4518096418 + 5.080000066504 240258.7489654638 1.5482816792 + 5.600000058409 246462.6363051553 1.6517280411 + 6.120000050863 250728.9799602038 1.7621956446 + 0.000400007497 52.2624860018 0.8901470010 + 0.000800003535 103.9571078866 0.8902089896 + 0.001200002193 155.3010430011 0.8902609286 + 0.001600001516 206.3676851807 0.8903076664 + 0.002000001107 257.1996779199 0.8903510810 + 0.002400000833 307.8257579041 0.8903921357 + 0.002800000636 358.2669667321 0.8904314026 + 0.003200000488 408.5395585525 0.8904692545 + 0.003600000372 458.6565693884 0.8905059503 + 0.004000000278 508.6287491549 0.8905416788 + 0.007999999848 1001.9020806515 0.8908664382 + 0.011999999701 1486.2255459888 0.8911596169 + 0.015999999626 1963.8035538836 0.8914365512 + 0.019999999580 2435.8754957398 0.8917031825 + 0.023999999549 2903.2571324062 0.8919625589 + 0.027999999526 3366.5337264678 0.8922164917 + 0.031999999509 3826.1490481591 0.8924661611 + 0.035999999496 4282.4528849169 0.8927123876 + 0.039999999486 4735.7290001228 0.8929557685 + 0.079999999371 9140.4441379442 0.8952986918 + 0.119999999280 13378.6287849471 0.8975639908 + 0.159999999198 17498.9358054819 0.8998006702 + 0.199999999119 21526.1936563094 0.9020279015 + 0.239999999042 25475.5039526366 0.9042556368 + 0.279999998966 29356.9894921351 0.9064898729 + 0.319999998891 33177.8774451863 0.9087345811 + 0.359999998816 36943.5634058822 0.9109925701 + 0.399999998741 40658.2128332992 0.9132659259 + 0.919999997784 85258.4696736074 0.9446752896 + 1.439999996833 124335.8685019399 0.9801840779 + 1.959999995885 158670.3062735843 1.0202182943 + 2.479999994943 188650.0752738292 1.0650010630 + 2.999999994015 214586.0325685400 1.1146840862 + 3.519999993111 236778.3270644707 1.1693819058 + 4.039999992244 255530.8538249257 1.2291859687 + 4.559999991431 271150.4091438171 1.2941718892 + 5.079999990692 283941.3460848183 1.3644037456 + 5.599999990051 294199.6114963030 1.4399368581 + 6.119999989536 302207.6355183683 1.5208196945 + 0.000400243930 54.2877123437 0.8901347883 + 0.000800425904 107.9736497390 0.8901870601 + 0.001200618287 161.3091473618 0.8902296932 + 0.001600814201 214.3658507423 0.8902673380 + 0.002001011673 267.1860859694 0.8903017958 + 0.002401209962 319.7986209235 0.8903339902 + 0.002801408731 372.2246100364 0.8903644701 + 0.003201607807 424.4804328163 0.8903935929 + 0.003601807090 476.5792440622 0.8904216071 + 0.004002006521 528.5319012651 0.8904486934 + 0.008004004212 1041.5541109634 0.8906883613 + 0.012006003991 1545.5576820822 0.8908977345 + 0.016008004519 2042.7739000980 0.8910915168 + 0.020010005523 2534.4573895455 0.8912754035 + 0.024012006911 3021.4339052522 0.8914523153 + 0.028014008642 3504.2958357599 0.8916239873 + 0.032016010696 3983.4923139649 0.8917915500 + 0.036018013062 4459.3773198820 0.8919557886 + 0.040020015733 4932.2379885706 0.8921172749 + 0.080040058604 9533.4306077464 0.8936434940 + 0.120060130515 13969.9750541380 0.8950921499 + 0.160080231322 18291.0228201890 0.8965098356 + 0.200100360992 22521.6273999752 0.8979146651 + 0.240120519514 26677.0100006827 0.8993159802 + 0.280140706883 30767.3619831668 0.9007193714 + 0.320160923097 34799.9509226234 0.9021285153 + 0.360181168154 38780.1958187433 0.9035459944 + 0.400201442053 42712.2745471108 0.9049737137 + 0.840426358475 83422.1429441846 0.9216288211 + 1.280654764656 120383.1324696850 0.9404215717 + 1.720886660612 154130.4274486091 0.9616125329 + 2.161122046380 184892.0347849303 0.9853377574 + 2.601360922002 212813.9891564460 1.0116892064 + 3.041603287522 238019.6605533145 1.0407360508 + 3.481849142982 260630.0282639433 1.0725332996 + 3.922098488428 280770.7780173353 1.1071262066 + 4.362351323904 298574.0187342358 1.1445528707 + 4.802607649457 314177.5986288223 1.1848459224 + 5.242867465133 327723.3645052133 1.2280336893 + 0.000400764460 56.7655227755 0.8901220541 + 0.000801507780 112.9422909187 0.8901643621 + 0.001202255502 168.7598334559 0.8901974878 + 0.001603004373 224.2930233023 0.8902258617 + 0.002003753715 279.5856082155 0.8902512000 + 0.002404503301 334.6671167971 0.8902743826 + 0.002805253031 389.5591848726 0.8902959325 + 0.003206002856 444.2785310461 0.8903161901 + 0.003606752747 498.8385661651 0.8903353921 + 0.004007502689 553.2503503997 0.8903537108 + 0.008015003573 1090.7755507815 0.8905072089 + 0.012022506028 1619.1690009440 0.8906318942 + 0.016030009689 2140.6985610086 0.8907417679 + 0.020037514484 2656.6389707694 0.8908422511 + 0.024045020387 3167.8290293170 0.8909361228 + 0.028052527388 3674.8703621534 0.8910250331 + 0.032060035481 4178.2190204707 0.8911100566 + 0.036067544664 4678.2343724736 0.8911919395 + 0.040075054935 5175.2078735858 0.8912712247 + 0.080150217233 10017.1336969138 0.8919806929 + 0.120225487877 14694.6222552408 0.8926176216 + 0.160300866837 19257.4542048329 0.8932258452 + 0.200376354103 23730.9666416647 0.8938222437 + 0.240451949673 28130.5321154980 0.8944154297 + 0.280527653547 32466.4297270017 0.8950104967 + 0.320603465723 36745.9800089605 0.8956107514 + 0.360679386202 40974.6342171423 0.8962184845 + 0.400755414985 45156.5893880566 0.8968353613 + 0.841598879706 88712.1596254843 0.9044542271 + 1.282455449713 128687.9566964792 0.9139063394 + 1.723325125575 165599.4128536869 0.9253692119 + 2.164207907877 199649.4759779608 0.9389225802 + 2.605103797203 230954.9174507578 0.9546155036 + 3.046012794140 259606.6443735248 0.9724826127 + 3.486934899273 285691.2491163248 0.9925501618 + 3.927870113187 309299.4881429707 1.0148389072 + 4.368818436470 330529.3267668720 1.0393657147 + 4.809779869704 349486.4174670277 1.0661445577 + 5.250754413478 366283.2895964804 1.0951871870 + 0.000400102925 58.9555819108 0.8901089063 + 0.000800103858 117.2728286678 0.8901410666 + 0.001200104563 175.2248829583 0.8901645378 + 0.001600105151 232.8892218607 0.8901835130 + 0.002000105663 290.3104358621 0.8901996161 + 0.002400106122 347.5184946476 0.8902136800 + 0.002800106540 404.5353182522 0.8902261995 + 0.003200106926 461.3778295586 0.8902374968 + 0.003600107286 518.0595961700 0.8902477959 + 0.004000107625 574.5918038363 0.8902572598 + 0.008000110265 1133.2663423952 0.8903238419 + 0.012000112194 1682.7395611455 0.8903632246 + 0.016000113753 2225.3028033397 0.8903886552 + 0.020000115076 2762.2437486976 0.8904052613 + 0.024000116233 3294.4095825307 0.8904156710 + 0.028000117264 3822.4078610392 0.8904214442 + 0.032000118197 4346.6990696415 0.8904235967 + 0.036000119048 4867.6460233418 0.8904228330 + 0.040000119833 5385.5429351061 0.8904196661 + 0.080000125362 10436.6123898373 0.8903119175 + 0.120000128756 15323.6601059962 0.8901402148 + 0.160000131095 20096.8475939358 0.8899455675 + 0.200000132788 24781.6731812337 0.8897435979 + 0.240000134039 29393.5879862285 0.8895421707 + 0.280000134969 33942.9107690785 0.8893458630 + 0.320000135654 38436.9810093681 0.8891575909 + 0.360000136146 42881.2569896371 0.8889793311 + 0.400000136481 47279.9355425860 0.8888124855 + 0.840000134707 93289.5782620284 0.8879084180 + 1.280000128757 135836.5089010984 0.8889038617 + 1.720000121439 175419.1864922312 0.8918622911 + 2.160000113668 212223.4354711342 0.8967805403 + 2.600000105859 246347.9633538233 0.9036422332 + 3.040000098223 277864.2895219609 0.9124283170 + 3.480000090873 306838.3684421915 0.9231199245 + 3.920000083867 333339.4393515226 0.9356992168 + 4.360000077228 357443.6067635671 0.9501495844 + 4.800000070961 379234.9190592808 0.9664556311 + 5.240000065057 398805.1488989119 0.9846030843 diff --git a/mytest/NaKCl_visc_101.sel b/mytest/NaKCl_visc_101.sel index fbdfbd07..834e721c 100644 --- a/mytest/NaKCl_visc_101.sel +++ b/mytest/NaKCl_visc_101.sel @@ -1,197 +1,197 @@ Mu SC 0.000000100645 0.0546913895 - 0.000400102928 49.5860097811 - 0.000800103865 98.5639086001 - 0.001200104573 147.1949019488 - 0.001600105164 195.5522352936 - 0.002000105679 243.6780671355 - 0.002400106141 291.6007349652 - 0.002800106563 339.3409667557 - 0.003200106953 386.9147664225 - 0.003600107316 434.3349658730 - 0.004000107657 481.6121451929 - 0.008000110331 948.0109182255 - 0.012000112293 1405.5529326585 - 0.016000113886 1856.4080224519 - 0.020000115242 2301.7965582318 - 0.024000116433 2742.5220477565 - 0.028000117497 3179.1611425344 - 0.032000118463 3612.1512122747 - 0.036000119347 4041.8370957405 - 0.040000120164 4468.4986162669 - 0.080000126021 8606.7431004788 - 0.120000129728 12577.0538643508 - 0.160000132367 16427.5509338037 - 0.200000134346 20182.8318336541 - 0.240000135870 23857.8786954907 - 0.280000137060 27462.7470509950 - 0.320000137991 31004.6249344659 - 0.360000138718 34488.8855205295 - 0.400000139276 37919.6825821343 - 0.920000138619 78612.0187935849 - 1.440000131793 113409.5900083341 - 1.960000122786 143167.4904110173 - 2.480000112935 168371.4321017009 - 3.000000102893 189438.0389073385 - 3.520000093034 206770.4633760386 - 4.040000083589 220765.0867641415 - 4.560000074711 231806.1734095159 - 5.080000066504 240258.7117407165 - 5.600000058409 246462.5987219443 - 6.120000050863 250728.9424950551 - 0.000400007497 52.2624858904 - 0.000800003535 103.9571075735 - 0.001200002193 155.3010424280 - 0.001600001516 206.3676843015 - 0.002000001107 257.1996766948 - 0.002400000833 307.8257562979 - 0.002800000636 358.2669647130 - 0.003200000488 408.5395560911 - 0.003600000372 458.6565664575 - 0.004000000278 508.6287457289 - 0.007999999848 1001.9020711094 - 0.011999999701 1486.2255286565 - 0.015999999626 1963.8035274444 - 0.019999999580 2435.8754590821 - 0.023999999549 2903.2570845552 - 0.027999999526 3366.5336665487 - 0.031999999509 3826.1489753739 - 0.035999999496 4282.4527985291 - 0.039999999486 4735.7288994467 - 0.079999999371 9140.4438637815 - 0.119999999280 13378.6282946543 - 0.159999999198 17498.9350667927 - 0.199999999119 21526.1926428824 - 0.239999999042 25475.5026421160 - 0.279999998966 29356.9878650981 - 0.319999998891 33177.8754844963 - 0.359999998816 36943.5610962583 - 0.399999998741 40658.2101610112 - 0.919999997784 85258.4614812387 - 1.439999996833 124335.8541513201 - 1.959999995885 158670.2858354160 - 2.479999994943 188650.0492117510 - 2.999999994015 214586.0015687979 - 3.519999993111 236778.2919229842 - 4.039999992244 255530.8153687583 - 4.559999991431 271150.3681774959 - 5.079999990692 283941.3033556677 - 5.599999990051 294199.5676742971 - 6.119999989536 302207.5911867452 - 0.000400243930 54.2877122468 - 0.000800425904 107.9736494668 - 0.001200618287 161.3091468639 - 0.001600814201 214.3658499783 - 0.002001011673 267.1860849049 - 0.002401209962 319.7986195279 - 0.002801408731 372.2246082819 - 0.003201607807 424.4804306775 - 0.003601807090 476.5792415153 - 0.004002006521 528.5318982880 - 0.008004004212 1041.5541026701 - 0.012006003991 1545.5576670157 - 0.016008004519 2042.7738771112 - 0.020010005523 2534.4573576693 - 0.024012006911 3021.4338636360 - 0.028014008642 3504.2957836399 - 0.032016010696 3983.4922506434 - 0.036018013062 4459.3772447148 - 0.040020015733 4932.2379009573 - 0.080040058604 9533.4303687823 - 0.120060130515 13969.9746261157 - 0.160080231322 18291.0221742867 - 0.200100360992 22521.6265124135 - 0.240120519514 26677.0088510557 - 0.280140706883 30767.3605535396 - 0.320160923097 34799.9491969791 - 0.360181168154 38780.1937826157 - 0.400201442053 42712.2721873266 - 0.840426358475 83422.1363959282 - 1.280654764656 120383.1210559131 - 1.720886660612 154130.4109112471 - 2.161122046380 184892.0131326895 - 2.601360922002 212813.9625855676 - 3.041603287522 238019.6293935163 - 3.481849142982 260629.9929368125 - 3.922098488428 280770.7390027331 - 4.362351323904 298573.9765429103 - 4.802607649457 314177.5537803434 - 5.242867465133 327723.3175106400 - 0.000400764460 56.7655226890 - 0.000801507780 112.9422906754 - 0.001202255502 168.7598330107 - 0.001603004373 224.2930226191 - 0.002003753715 279.5856072635 - 0.002404503301 334.6671155488 - 0.002805253031 389.5591833032 - 0.003206002856 444.2785291327 - 0.003606752747 498.8385638866 - 0.004007502689 553.2503477360 - 0.008015003573 1090.7755433568 - 0.012022506028 1619.1689874489 - 0.016030009689 2140.6985404109 - 0.020037514484 2656.6389421955 - 0.024045020387 3167.8289919993 - 0.028052527388 3674.8703154015 - 0.032060035481 4178.2189636536 - 0.036067544664 4678.2343050077 - 0.040075054935 5175.2077949265 - 0.080150217233 10017.1334818410 - 0.120225487877 14694.6218691914 - 0.160300866837 19257.4536211287 - 0.200376354103 23730.9658380865 - 0.240451949673 28130.5310728003 - 0.280527653547 32466.4284281102 - 0.320603465723 36745.9784384824 - 0.360679386202 40974.6323610408 - 0.400755414985 45156.5872334230 - 0.841598879706 88712.1535447750 - 1.282455449713 128687.9459255051 - 1.723325125575 165599.3969984529 - 2.164207907877 199649.4548902333 - 2.605103797203 230954.8911661051 - 3.046012794140 259606.6130696171 - 3.486934899273 285691.2130801722 - 3.927870113187 309299.4477432204 - 4.368818436470 330529.2824297406 - 4.809779869704 349486.3696553585 - 5.250754413478 366283.2387917483 - 0.000400102925 58.9555818343 - 0.000800103858 117.2728284530 - 0.001200104563 175.2248825655 - 0.001600105151 232.8892212580 - 0.002000105663 290.3104350223 - 0.002400106122 347.5184935464 - 0.002800106540 404.5353168678 - 0.003200106926 461.3778278708 - 0.003600107286 518.0595941600 - 0.004000107625 574.5918014864 - 0.008000110265 1133.2663358423 - 0.012000112194 1682.7395492295 - 0.016000113753 2225.3027851447 - 0.020000115076 2762.2437234472 - 0.024000116233 3294.4095495418 - 0.028000117264 3822.4078196965 - 0.032000118197 4346.6990193821 - 0.036000119048 4867.6459636444 - 0.040000119833 5385.5428654838 - 0.080000125362 10436.6121989875 - 0.120000128756 15323.6597626826 - 0.160000131095 20096.8470738209 - 0.200000132788 24781.6724638684 - 0.240000134039 29393.5870537481 - 0.280000134969 33942.9096055000 - 0.320000135654 38436.9796001615 - 0.360000136146 42881.2553214413 - 0.400000136481 47279.9336030106 - 0.840000134707 93289.5726992130 - 1.280000128757 135836.4988990935 - 1.720000121439 175419.1715556210 - 2.160000113668 212223.4153241643 - 2.600000105859 246347.9378925785 - 3.040000098223 277864.2587829902 - 3.480000090873 306838.3325777294 - 3.920000083867 333339.3986079063 - 4.360000077228 357443.5614616200 - 4.800000070961 379234.8695762826 - 5.240000065057 398805.0956521243 + 0.000400102928 49.5860098997 + 0.000800103865 98.5639089330 + 0.001200104573 147.1949025574 + 0.001600105164 195.5522362270 + 0.002000105679 243.6780684358 + 0.002400106141 291.6007366695 + 0.002800106563 339.3409688976 + 0.003200106953 386.9147690332 + 0.003600107316 434.3349689812 + 0.004000107657 481.6121488256 + 0.008000110331 948.0109283330 + 0.012000112293 1405.5529510046 + 0.016000113886 1856.4080504204 + 0.020000115242 2301.7965969893 + 0.024000116433 2742.5220983239 + 0.028000117497 3179.1612058267 + 0.032000118463 3612.1512891251 + 0.036000119347 4041.8371869170 + 0.040000120164 4468.4987224837 + 0.080000126021 8606.7433888177 + 0.120000129728 12577.0543786695 + 0.160000132367 16427.5517069223 + 0.200000134346 20182.8328920824 + 0.240000135870 23857.8800614876 + 0.280000137060 27462.7487436870 + 0.320000137991 31004.6269705353 + 0.360000138718 34488.8879146729 + 0.400000139276 37919.6853473875 + 0.920000138619 78612.0270944850 + 1.440000131793 113409.6042584005 + 1.960000122786 143167.5103030366 + 2.480000112935 168371.4569681240 + 3.000000102893 189438.0679129137 + 3.520000093034 206770.4956382143 + 4.040000083589 220765.1214289112 + 4.560000074711 231806.2096963114 + 5.080000066504 240258.7489654638 + 5.600000058409 246462.6363051553 + 6.120000050863 250728.9799602038 + 0.000400007497 52.2624860018 + 0.000800003535 103.9571078866 + 0.001200002193 155.3010430011 + 0.001600001516 206.3676851807 + 0.002000001107 257.1996779199 + 0.002400000833 307.8257579041 + 0.002800000636 358.2669667321 + 0.003200000488 408.5395585525 + 0.003600000372 458.6565693884 + 0.004000000278 508.6287491549 + 0.007999999848 1001.9020806515 + 0.011999999701 1486.2255459888 + 0.015999999626 1963.8035538836 + 0.019999999580 2435.8754957398 + 0.023999999549 2903.2571324062 + 0.027999999526 3366.5337264678 + 0.031999999509 3826.1490481591 + 0.035999999496 4282.4528849169 + 0.039999999486 4735.7290001228 + 0.079999999371 9140.4441379442 + 0.119999999280 13378.6287849471 + 0.159999999198 17498.9358054819 + 0.199999999119 21526.1936563094 + 0.239999999042 25475.5039526366 + 0.279999998966 29356.9894921351 + 0.319999998891 33177.8774451863 + 0.359999998816 36943.5634058822 + 0.399999998741 40658.2128332992 + 0.919999997784 85258.4696736074 + 1.439999996833 124335.8685019399 + 1.959999995885 158670.3062735843 + 2.479999994943 188650.0752738292 + 2.999999994015 214586.0325685400 + 3.519999993111 236778.3270644707 + 4.039999992244 255530.8538249257 + 4.559999991431 271150.4091438171 + 5.079999990692 283941.3460848183 + 5.599999990051 294199.6114963030 + 6.119999989536 302207.6355183683 + 0.000400243930 54.2877123437 + 0.000800425904 107.9736497390 + 0.001200618287 161.3091473618 + 0.001600814201 214.3658507423 + 0.002001011673 267.1860859694 + 0.002401209962 319.7986209235 + 0.002801408731 372.2246100364 + 0.003201607807 424.4804328163 + 0.003601807090 476.5792440622 + 0.004002006521 528.5319012651 + 0.008004004212 1041.5541109634 + 0.012006003991 1545.5576820822 + 0.016008004519 2042.7739000980 + 0.020010005523 2534.4573895455 + 0.024012006911 3021.4339052522 + 0.028014008642 3504.2958357599 + 0.032016010696 3983.4923139649 + 0.036018013062 4459.3773198820 + 0.040020015733 4932.2379885706 + 0.080040058604 9533.4306077464 + 0.120060130515 13969.9750541380 + 0.160080231322 18291.0228201890 + 0.200100360992 22521.6273999752 + 0.240120519514 26677.0100006827 + 0.280140706883 30767.3619831668 + 0.320160923097 34799.9509226234 + 0.360181168154 38780.1958187433 + 0.400201442053 42712.2745471108 + 0.840426358475 83422.1429441846 + 1.280654764656 120383.1324696850 + 1.720886660612 154130.4274486091 + 2.161122046380 184892.0347849303 + 2.601360922002 212813.9891564460 + 3.041603287522 238019.6605533145 + 3.481849142982 260630.0282639433 + 3.922098488428 280770.7780173353 + 4.362351323904 298574.0187342358 + 4.802607649457 314177.5986288223 + 5.242867465133 327723.3645052133 + 0.000400764460 56.7655227755 + 0.000801507780 112.9422909187 + 0.001202255502 168.7598334559 + 0.001603004373 224.2930233023 + 0.002003753715 279.5856082155 + 0.002404503301 334.6671167971 + 0.002805253031 389.5591848726 + 0.003206002856 444.2785310461 + 0.003606752747 498.8385661651 + 0.004007502689 553.2503503997 + 0.008015003573 1090.7755507815 + 0.012022506028 1619.1690009440 + 0.016030009689 2140.6985610086 + 0.020037514484 2656.6389707694 + 0.024045020387 3167.8290293170 + 0.028052527388 3674.8703621534 + 0.032060035481 4178.2190204707 + 0.036067544664 4678.2343724736 + 0.040075054935 5175.2078735858 + 0.080150217233 10017.1336969138 + 0.120225487877 14694.6222552408 + 0.160300866837 19257.4542048329 + 0.200376354103 23730.9666416647 + 0.240451949673 28130.5321154980 + 0.280527653547 32466.4297270017 + 0.320603465723 36745.9800089605 + 0.360679386202 40974.6342171423 + 0.400755414985 45156.5893880566 + 0.841598879706 88712.1596254843 + 1.282455449713 128687.9566964792 + 1.723325125575 165599.4128536869 + 2.164207907877 199649.4759779608 + 2.605103797203 230954.9174507578 + 3.046012794140 259606.6443735248 + 3.486934899273 285691.2491163248 + 3.927870113187 309299.4881429707 + 4.368818436470 330529.3267668720 + 4.809779869704 349486.4174670277 + 5.250754413478 366283.2895964804 + 0.000400102925 58.9555819108 + 0.000800103858 117.2728286678 + 0.001200104563 175.2248829583 + 0.001600105151 232.8892218607 + 0.002000105663 290.3104358621 + 0.002400106122 347.5184946476 + 0.002800106540 404.5353182522 + 0.003200106926 461.3778295586 + 0.003600107286 518.0595961700 + 0.004000107625 574.5918038363 + 0.008000110265 1133.2663423952 + 0.012000112194 1682.7395611455 + 0.016000113753 2225.3028033397 + 0.020000115076 2762.2437486976 + 0.024000116233 3294.4095825307 + 0.028000117264 3822.4078610392 + 0.032000118197 4346.6990696415 + 0.036000119048 4867.6460233418 + 0.040000119833 5385.5429351061 + 0.080000125362 10436.6123898373 + 0.120000128756 15323.6601059962 + 0.160000131095 20096.8475939358 + 0.200000132788 24781.6731812337 + 0.240000134039 29393.5879862285 + 0.280000134969 33942.9107690785 + 0.320000135654 38436.9810093681 + 0.360000136146 42881.2569896371 + 0.400000136481 47279.9355425860 + 0.840000134707 93289.5782620284 + 1.280000128757 135836.5089010984 + 1.720000121439 175419.1864922312 + 2.160000113668 212223.4354711342 + 2.600000105859 246347.9633538233 + 3.040000098223 277864.2895219609 + 3.480000090873 306838.3684421915 + 3.920000083867 333339.4393515226 + 4.360000077228 357443.6067635671 + 4.800000070961 379234.9190592808 + 5.240000065057 398805.1488989119 diff --git a/mytest/NaK_ClBr.out b/mytest/NaK_ClBr.out index a7a89312..23369388 100644 --- a/mytest/NaK_ClBr.out +++ b/mytest/NaK_ClBr.out @@ -2651,7 +2651,7 @@ Initial solution 7. Specific Conductance (µS/cm, 25°C) = 232844 Density (g/cm³) = 1.27165 (Iterated) Volume (L) = 1.11004 - Viscosity (mPa s) = 1.24770 + Viscosity (mPa s) = 1.24769 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaK_ClBr_101.sel b/mytest/NaK_ClBr_101.sel index 578ff6c0..9e4a6208 100644 --- a/mytest/NaK_ClBr_101.sel +++ b/mytest/NaK_ClBr_101.sel @@ -1,66 +1,66 @@ Mu SC - 0.100000128024 10609.0352745713 - 0.250000136395 24765.3543835137 - 0.500000141109 46282.9097733437 - 1.000000141808 84318.7552946531 - 2.000000136126 145262.4545237504 - 4.000000125888 219798.2398047010 - 0.100000127126 12896.6144967051 - 0.250000134119 30536.4584799030 - 0.500000136535 58097.3300979801 - 1.000000132598 109123.6025588222 - 2.000000117225 199154.3657102855 - 4.000000086796 337897.8983470034 - 0.100000127716 11376.1480776013 - 0.250000135588 26715.8365515227 - 0.500000139424 50324.6428289567 - 1.000000138239 92990.8062370762 - 2.000000128377 164728.3395904304 - 4.000000109328 263597.1631645818 - 0.100000127565 11757.8060649055 - 0.250000135203 27680.5182940083 - 0.500000138643 52305.3131493351 - 1.000000136636 97172.0748606236 - 2.000000125005 173903.2654193199 - 4.000000102113 284005.1531735486 - 0.100000127417 12138.3583693067 - 0.250000134830 28638.6284733858 - 0.500000137901 54260.4200221273 - 1.000000135159 101253.2126764138 - 2.000000122004 182701.0893094853 - 4.000000095823 303269.7783248637 - 0.100000127506 10844.1592872761 - 0.250000135427 25388.3555097243 - 0.500000139978 47591.9785779187 - 1.000000141879 87112.7797726129 - 2.000000142970 151405.8311595475 - 3.000000148767 199135.7777504354 - 4.000000161304 232844.4581106783 - 0.100000126591 13109.5198274374 - 0.250000133050 31032.1942346153 - 0.500000135035 58940.0460431065 - 1.000000131298 110273.1197003506 - 2.000000118674 199997.6740397612 - 3.000000107002 275189.4315535579 - 4.000000097731 337250.7432911451 - 0.100000127192 11603.5203511786 - 0.250000134587 27294.4677195977 - 0.500000138172 51471.3590928904 - 1.000000137849 95215.2319638983 - 2.000000133388 169069.6538314824 - 3.000000132236 227470.6618649249 - 4.000000136454 272201.8238198181 - 0.100000127038 11981.4344722522 - 0.250000134185 28237.7078913681 - 0.500000137329 53373.4573045557 - 1.000000136016 99119.3200329828 - 2.000000129102 177350.9187682811 - 3.000000124784 240559.7353416003 - 4.000000125050 290312.1728325072 - 0.100000126887 12358.3286453001 - 0.250000133795 29174.8598710711 - 0.500000136526 55251.7109914689 - 1.000000134310 102928.7216915703 - 2.000000125196 185265.0630335743 - 3.000000118011 252891.5864103647 - 4.000000114597 307251.1099823783 + 0.100000128024 10609.0356712739 + 0.250000136395 24765.3558294955 + 0.500000141109 46282.9135145197 + 1.000000141808 84318.7645081733 + 2.000000136126 145262.4748251926 + 4.000000125888 219798.2743134882 + 0.100000127126 12896.6147604196 + 0.250000134119 30536.4594687221 + 0.500000136535 58097.3327650663 + 1.000000132598 109123.6096616695 + 2.000000117225 199154.3839422912 + 4.000000086796 337897.9399451522 + 0.100000127716 11376.1484291146 + 0.250000135588 26715.8378449559 + 0.500000139424 50324.6462242280 + 1.000000138239 92990.8148394335 + 2.000000128377 164728.3596701315 + 4.000000109328 263597.2013359344 + 0.100000127565 11757.8063941444 + 0.250000135203 27680.5195111928 + 0.500000138643 52305.3163668944 + 1.000000136636 97172.0831220386 + 2.000000125005 173903.2852193362 + 4.000000102113 284005.1928146839 + 0.100000127417 12138.3586764860 + 0.250000134830 28638.6296143684 + 0.500000137901 54260.4230589897 + 1.000000135159 101253.2205739104 + 2.000000122004 182701.1087106467 + 4.000000095823 303269.8190857713 + 0.100000127506 10844.1596299157 + 0.250000135427 25388.3567659895 + 0.500000139978 47591.9818568747 + 1.000000141879 87112.7879818239 + 2.000000142970 151405.8498007426 + 3.000000148767 199135.8050659926 + 4.000000161304 232844.4912579741 + 0.100000126591 13109.5200459427 + 0.250000133050 31032.1950565607 + 0.500000135035 58940.0482680271 + 1.000000131298 110273.1256647623 + 2.000000118674 199997.6895926942 + 3.000000107002 275189.4578553588 + 4.000000097731 337250.7801605485 + 0.100000127192 11603.5206512600 + 0.250000134587 27294.4688292453 + 0.500000138172 51471.3620263597 + 1.000000137849 95215.2394955909 + 2.000000133388 169069.6718690818 + 3.000000132236 227470.6898065522 + 4.000000136454 272201.8596377869 + 0.100000127038 11981.4347514847 + 0.250000134185 28237.7089283244 + 0.500000137329 53373.4600627374 + 1.000000136016 99119.3271979430 + 2.000000129102 177350.9363456556 + 3.000000124784 240559.7632665896 + 4.000000125050 290312.2095554557 + 0.100000126887 12358.3289039803 + 0.250000133795 29174.8608358092 + 0.500000136526 55251.7135729652 + 1.000000134310 102928.7284723678 + 2.000000125196 185265.0800431109 + 3.000000118011 252891.6140681716 + 4.000000114597 307251.1472282180 diff --git a/mytest/NaK_ClSO4.out b/mytest/NaK_ClSO4.out index 2f6b2750..4e51a99f 100644 --- a/mytest/NaK_ClSO4.out +++ b/mytest/NaK_ClSO4.out @@ -1130,7 +1130,7 @@ Initial solution 16. Specific Conductance (µS/cm, 25°C) = 44482 Density (g/cm³) = 1.02743 Volume (L) = 1.01190 - Viscosity (mPa s) = 0.93314 + Viscosity (mPa s) = 0.93313 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.993e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaK_ClSO4_101.sel b/mytest/NaK_ClSO4_101.sel index 994a4a72..bfc07fe8 100644 --- a/mytest/NaK_ClSO4_101.sel +++ b/mytest/NaK_ClSO4_101.sel @@ -1,37 +1,37 @@ Mu SC Viscosity - 0.204598606676 16518.0943969155 0.9024304267 - 0.204199997536 16227.6244977892 0.9036221207 - 0.205798037821 15965.5914383087 0.9052754450 - 0.238599966281 17406.7446892953 0.9058679462 - 0.237399999963 16362.2034960111 0.9110732021 - 0.268777132920 17415.4669912837 0.9137253687 - 0.400583501675 29868.7774004009 0.9128477467 - 0.399999961439 29288.1713103795 0.9152779306 - 0.399699999909 28733.7421656353 0.9177433984 - 0.470599999796 31477.9024769392 0.9195308403 - 0.592799999840 42137.1121938133 0.9231658665 - 0.591276086759 41251.4154741085 0.9266984640 - 0.469599924908 29355.2746249281 0.9299229274 - 0.589899939174 40352.0987312556 0.9302826035 - 0.534999897104 31395.2670961766 0.9350432121 - 0.699299999696 44482.8117984067 0.9331351546 - 0.780799920333 53683.6133898145 0.9334322931 - 0.778899921289 52483.0744205123 0.9381764191 - 0.776599999789 51287.7183344578 0.9428755837 - 0.698699898552 41297.2021904065 0.9487009057 - 0.924560164816 56836.3434691999 0.9468444814 - 0.963999906582 64677.8150869082 0.9436355511 - 0.960999907870 63130.4463742064 0.9495096880 - 0.799958890428 44393.5607171418 0.9565730017 - 0.958999908878 61598.5662402870 0.9555463703 - 1.145299894457 75256.9435417046 0.9540464252 - 1.141899895944 73382.5995765321 0.9611107021 - 1.147099859020 68691.7415982388 0.9608089718 - 0.925799879082 52607.4089381380 0.9677617291 - 1.137399897648 71461.0612795168 0.9681853384 - 1.064199845380 56800.7435632771 0.9787066076 - 1.364299844828 80088.7601501054 0.9746621389 - 1.149499863508 63349.5447501742 0.9871239991 - 1.326799827148 68729.7608888849 1.0013887230 - 1.369699850365 73651.3239200913 1.0065337824 - 1.587899811149 80216.1134483721 1.0247101850 + 0.204598606676 16518.0954222775 0.9024303410 + 0.204199997536 16227.6255412635 0.9036220342 + 0.205798037821 15965.5925302847 0.9052753563 + 0.238599966281 17406.7460021373 0.9058678407 + 0.237399999963 16362.2049091209 0.9110730930 + 0.268777132920 17415.4686971764 0.9137252394 + 0.400583501675 29868.7799118886 0.9128476269 + 0.399999961439 29288.1738714340 0.9152778095 + 0.399699999909 28733.7447827515 0.9177432759 + 0.470599999796 31477.9056885361 0.9195306924 + 0.592799999840 42137.1164050298 0.9231657210 + 0.591276086759 41251.4197665299 0.9266983169 + 0.469599924908 29355.2780709245 0.9299227737 + 0.589899939174 40352.1030944307 0.9302824549 + 0.534999897104 31395.2712377490 0.9350430298 + 0.699299999696 44482.8171911972 0.9331349745 + 0.780799920333 53683.6194421144 0.9334321263 + 0.778899921289 52483.0805706985 0.9381762505 + 0.776599999789 51287.7245736240 0.9428754134 + 0.698699898552 41297.2079315896 0.9487007185 + 0.924560164816 56836.3512354156 0.9468442746 + 0.963999906582 64677.8230592775 0.9436353661 + 0.960999907870 63130.4544517830 0.9495095010 + 0.799958890428 44393.5676518063 0.9565727790 + 0.958999908878 61598.5744307641 0.9555461813 + 1.145299894457 75256.9535126949 0.9540462237 + 1.141899895944 73382.6096602771 0.9611104984 + 1.147099859020 68691.7518606351 0.9608087415 + 0.925799879082 52607.4171444468 0.9677615139 + 1.137399897648 71461.0714574015 0.9681851329 + 1.064199845380 56800.7535127111 0.9787063509 + 1.364299844828 80088.7729620256 0.9746618885 + 1.149499863508 63349.5555091708 0.9871237596 + 1.326799827148 68729.7739920343 1.0013884365 + 1.369699850365 73651.3372607298 1.0065335213 + 1.587899811149 80216.1297697598 1.0247098718 diff --git a/mytest/NaK_Mg_ClSO4.out b/mytest/NaK_Mg_ClSO4.out index 5c7f8a49..bd7d5862 100644 --- a/mytest/NaK_Mg_ClSO4.out +++ b/mytest/NaK_Mg_ClSO4.out @@ -532,7 +532,7 @@ Initial solution 7. Specific Conductance (µS/cm, 25°C) = 48151 Density (g/cm³) = 1.02299 Volume (L) = 1.01168 - Viscosity (mPa s) = 0.96155 + Viscosity (mPa s) = 0.96154 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.077e-01 Mass of water (kg) = 1.000e+00 @@ -682,7 +682,7 @@ Initial solution 9. Specific Conductance (µS/cm, 25°C) = 161049 Density (g/cm³) = 1.11541 Volume (L) = 1.05317 - Viscosity (mPa s) = 1.31640 + Viscosity (mPa s) = 1.31639 Activity of water = 0.906 Ionic strength (mol/kgw) = 3.539e+00 Mass of water (kg) = 1.000e+00 @@ -785,10 +785,10 @@ Initial solution 1. pH = 6.668 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 75668 + Specific Conductance (µS/cm, 40°C) = 75653 Density (g/cm³) = 1.01894 Volume (L) = 1.02004 - Viscosity (mPa s) = 0.70189 + Viscosity (mPa s) = 0.70208 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.078e-01 Mass of water (kg) = 1.000e+00 @@ -860,10 +860,10 @@ Initial solution 2. pH = 6.569 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 133900 + Specific Conductance (µS/cm, 40°C) = 133864 Density (g/cm³) = 1.04416 Volume (L) = 1.03310 - Viscosity (mPa s) = 0.75544 + Viscosity (mPa s) = 0.75571 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.416e+00 Mass of water (kg) = 1.000e+00 @@ -935,10 +935,10 @@ Initial solution 3. pH = 6.187 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 248594 + Specific Conductance (µS/cm, 40°C) = 248511 Density (g/cm³) = 1.11329 Volume (L) = 1.07502 - Viscosity (mPa s) = 0.95826 + Viscosity (mPa s) = 0.95869 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.539e+00 Mass of water (kg) = 1.000e+00 @@ -1010,10 +1010,10 @@ Initial solution 4. pH = 6.654 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 69908 + Specific Conductance (µS/cm, 40°C) = 69893 Density (g/cm³) = 1.01835 Volume (L) = 1.01866 - Viscosity (mPa s) = 0.70445 + Viscosity (mPa s) = 0.70465 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.078e-01 Mass of water (kg) = 1.000e+00 @@ -1085,10 +1085,10 @@ Initial solution 5. pH = 6.548 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 123465 + Specific Conductance (µS/cm, 40°C) = 123430 Density (g/cm³) = 1.04308 Volume (L) = 1.03032 - Viscosity (mPa s) = 0.75961 + Viscosity (mPa s) = 0.75989 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.416e+00 Mass of water (kg) = 1.000e+00 @@ -1160,10 +1160,10 @@ Initial solution 6. pH = 6.173 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 230871 + Specific Conductance (µS/cm, 40°C) = 230787 Density (g/cm³) = 1.11116 Volume (L) = 1.06805 - Viscosity (mPa s) = 0.96327 + Viscosity (mPa s) = 0.96372 Activity of water = 0.892 Ionic strength (mol/kgw) = 3.539e+00 Mass of water (kg) = 1.000e+00 @@ -1235,10 +1235,10 @@ Initial solution 7. pH = 6.643 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 63103 + Specific Conductance (µS/cm, 40°C) = 63087 Density (g/cm³) = 1.01764 Volume (L) = 1.01700 - Viscosity (mPa s) = 0.70799 + Viscosity (mPa s) = 0.70820 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.077e-01 Mass of water (kg) = 1.000e+00 @@ -1310,10 +1310,10 @@ Initial solution 8. pH = 6.537 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 111100 + Specific Conductance (µS/cm, 40°C) = 111065 Density (g/cm³) = 1.04176 Volume (L) = 1.02699 - Viscosity (mPa s) = 0.76555 + Viscosity (mPa s) = 0.76585 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.415e+00 Mass of water (kg) = 1.000e+00 @@ -1385,10 +1385,10 @@ Initial solution 9. pH = 6.186 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 209451 + Specific Conductance (µS/cm, 40°C) = 209368 Density (g/cm³) = 1.10856 Volume (L) = 1.05968 - Viscosity (mPa s) = 0.97196 + Viscosity (mPa s) = 0.97244 Activity of water = 0.906 Ionic strength (mol/kgw) = 3.539e+00 Mass of water (kg) = 1.000e+00 @@ -1491,10 +1491,10 @@ Initial solution 1. pH = 6.277 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 118053 + Specific Conductance (µS/cm, 75°C) = 117958 Density (g/cm³) = 1.00117 Volume (L) = 1.03821 - Viscosity (mPa s) = 0.41023 + Viscosity (mPa s) = 0.41067 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.090e-01 Mass of water (kg) = 1.000e+00 @@ -1566,10 +1566,10 @@ Initial solution 2. pH = 6.189 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 207691 + Specific Conductance (µS/cm, 75°C) = 207472 Density (g/cm³) = 1.02602 Volume (L) = 1.05151 - Viscosity (mPa s) = 0.44449 + Viscosity (mPa s) = 0.44511 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.418e+00 Mass of water (kg) = 1.000e+00 @@ -1641,10 +1641,10 @@ Initial solution 3. pH = 5.848 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 384766 + Specific Conductance (µS/cm, 75°C) = 384262 Density (g/cm³) = 1.09434 Volume (L) = 1.09395 - Viscosity (mPa s) = 0.56560 + Viscosity (mPa s) = 0.56659 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.545e+00 Mass of water (kg) = 1.000e+00 @@ -1716,10 +1716,10 @@ Initial solution 4. pH = 6.274 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 109791 + Specific Conductance (µS/cm, 75°C) = 109695 Density (g/cm³) = 1.00063 Volume (L) = 1.03677 - Viscosity (mPa s) = 0.41112 + Viscosity (mPa s) = 0.41158 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.093e-01 Mass of water (kg) = 1.000e+00 @@ -1791,10 +1791,10 @@ Initial solution 5. pH = 6.181 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 192881 + Specific Conductance (µS/cm, 75°C) = 192662 Density (g/cm³) = 1.02502 Volume (L) = 1.04862 - Viscosity (mPa s) = 0.44576 + Viscosity (mPa s) = 0.44641 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.418e+00 Mass of water (kg) = 1.000e+00 @@ -1866,10 +1866,10 @@ Initial solution 6. pH = 5.850 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 360552 + Specific Conductance (µS/cm, 75°C) = 360043 Density (g/cm³) = 1.09242 Volume (L) = 1.08668 - Viscosity (mPa s) = 0.56637 + Viscosity (mPa s) = 0.56740 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.546e+00 Mass of water (kg) = 1.000e+00 @@ -1941,10 +1941,10 @@ Initial solution 7. pH = 6.270 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 99884 + Specific Conductance (µS/cm, 75°C) = 99788 Density (g/cm³) = 0.99996 Volume (L) = 1.03505 - Viscosity (mPa s) = 0.41238 + Viscosity (mPa s) = 0.41287 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.090e-01 Mass of water (kg) = 1.000e+00 @@ -2016,10 +2016,10 @@ Initial solution 8. pH = 6.178 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 175148 + Specific Conductance (µS/cm, 75°C) = 174930 Density (g/cm³) = 1.02382 Volume (L) = 1.04514 - Viscosity (mPa s) = 0.44780 + Viscosity (mPa s) = 0.44850 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.418e+00 Mass of water (kg) = 1.000e+00 @@ -2091,10 +2091,10 @@ Initial solution 9. pH = 5.869 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 330890 + Specific Conductance (µS/cm, 75°C) = 330376 Density (g/cm³) = 1.09007 Volume (L) = 1.07795 - Viscosity (mPa s) = 0.56859 + Viscosity (mPa s) = 0.56968 Activity of water = 0.906 Ionic strength (mol/kgw) = 3.545e+00 Mass of water (kg) = 1.000e+00 @@ -2197,10 +2197,10 @@ Initial solution 1. pH = 6.085 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 147635 + Specific Conductance (µS/cm, 100°C) = 147434 Density (g/cm³) = 0.98498 Volume (L) = 1.05540 - Viscosity (mPa s) = 0.30781 + Viscosity (mPa s) = 0.30837 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.112e-01 Mass of water (kg) = 1.000e+00 @@ -2272,10 +2272,10 @@ Initial solution 2. pH = 6.002 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 259737 + Specific Conductance (µS/cm, 100°C) = 259277 Density (g/cm³) = 1.01002 Volume (L) = 1.06840 - Viscosity (mPa s) = 0.33458 + Viscosity (mPa s) = 0.33537 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.423e+00 Mass of water (kg) = 1.000e+00 @@ -2347,10 +2347,10 @@ Initial solution 3. pH = 5.680 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 483142 + Specific Conductance (µS/cm, 100°C) = 482082 Density (g/cm³) = 1.07874 Volume (L) = 1.11027 - Viscosity (mPa s) = 0.42607 + Viscosity (mPa s) = 0.42731 Activity of water = 0.883 Ionic strength (mol/kgw) = 3.555e+00 Mass of water (kg) = 1.000e+00 @@ -2422,10 +2422,10 @@ Initial solution 4. pH = 6.089 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 138063 + Specific Conductance (µS/cm, 100°C) = 137860 Density (g/cm³) = 0.98443 Volume (L) = 1.05395 - Viscosity (mPa s) = 0.30826 + Viscosity (mPa s) = 0.30884 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.114e-01 Mass of water (kg) = 1.000e+00 @@ -2497,10 +2497,10 @@ Initial solution 5. pH = 6.001 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 242883 + Specific Conductance (µS/cm, 100°C) = 242421 Density (g/cm³) = 1.00901 Volume (L) = 1.06547 - Viscosity (mPa s) = 0.33516 + Viscosity (mPa s) = 0.33598 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.422e+00 Mass of water (kg) = 1.000e+00 @@ -2572,10 +2572,10 @@ Initial solution 6. pH = 5.689 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 456657 + Specific Conductance (µS/cm, 100°C) = 455576 Density (g/cm³) = 1.07684 Volume (L) = 1.10289 - Viscosity (mPa s) = 0.42597 + Viscosity (mPa s) = 0.42727 Activity of water = 0.894 Ionic strength (mol/kgw) = 3.555e+00 Mass of water (kg) = 1.000e+00 @@ -2647,10 +2647,10 @@ Initial solution 7. pH = 6.088 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 126449 + Specific Conductance (µS/cm, 100°C) = 126245 Density (g/cm³) = 0.98375 Volume (L) = 1.05221 - Viscosity (mPa s) = 0.30895 + Viscosity (mPa s) = 0.30956 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.112e-01 Mass of water (kg) = 1.000e+00 @@ -2722,10 +2722,10 @@ Initial solution 8. pH = 6.001 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 222482 + Specific Conductance (µS/cm, 100°C) = 222016 Density (g/cm³) = 1.00780 Volume (L) = 1.06195 - Viscosity (mPa s) = 0.33620 + Viscosity (mPa s) = 0.33707 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.422e+00 Mass of water (kg) = 1.000e+00 @@ -2797,10 +2797,10 @@ Initial solution 9. pH = 5.710 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 423759 + Specific Conductance (µS/cm, 100°C) = 422655 Density (g/cm³) = 1.07450 Volume (L) = 1.09403 - Viscosity (mPa s) = 0.42675 + Viscosity (mPa s) = 0.42812 Activity of water = 0.908 Ionic strength (mol/kgw) = 3.555e+00 Mass of water (kg) = 1.000e+00 @@ -2903,10 +2903,10 @@ Initial solution 1. pH = 5.951 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 175466 + Specific Conductance (µS/cm, 125°C) = 175109 Density (g/cm³) = 0.96637 Volume (L) = 1.07595 - Viscosity (mPa s) = 0.24393 + Viscosity (mPa s) = 0.24459 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.151e-01 Mass of water (kg) = 1.000e+00 @@ -2979,10 +2979,10 @@ Initial solution 2. pH = 5.869 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 309645 + Specific Conductance (µS/cm, 125°C) = 308829 Density (g/cm³) = 0.99193 Volume (L) = 1.08834 - Viscosity (mPa s) = 0.26583 + Viscosity (mPa s) = 0.26676 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.431e+00 Mass of water (kg) = 1.000e+00 @@ -3055,10 +3055,10 @@ Initial solution 3. pH = 5.558 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 579583 + Specific Conductance (µS/cm, 125°C) = 577689 Density (g/cm³) = 1.06159 Volume (L) = 1.12921 - Viscosity (mPa s) = 0.33863 + Viscosity (mPa s) = 0.34010 Activity of water = 0.884 Ionic strength (mol/kgw) = 3.574e+00 Mass of water (kg) = 1.000e+00 @@ -3131,10 +3131,10 @@ Initial solution 4. pH = 5.959 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 165298 + Specific Conductance (µS/cm, 125°C) = 164936 Density (g/cm³) = 0.96579 Volume (L) = 1.07451 - Viscosity (mPa s) = 0.24418 + Viscosity (mPa s) = 0.24486 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.154e-01 Mass of water (kg) = 1.000e+00 @@ -3207,10 +3207,10 @@ Initial solution 5. pH = 5.872 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 292330 + Specific Conductance (µS/cm, 125°C) = 291501 Density (g/cm³) = 0.99086 Volume (L) = 1.08541 - Viscosity (mPa s) = 0.26608 + Viscosity (mPa s) = 0.26705 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.430e+00 Mass of water (kg) = 1.000e+00 @@ -3283,10 +3283,10 @@ Initial solution 6. pH = 5.571 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 554036 + Specific Conductance (µS/cm, 125°C) = 552082 Density (g/cm³) = 1.05960 Volume (L) = 1.12179 - Viscosity (mPa s) = 0.33822 + Viscosity (mPa s) = 0.33974 Activity of water = 0.896 Ionic strength (mol/kgw) = 3.575e+00 Mass of water (kg) = 1.000e+00 @@ -3359,10 +3359,10 @@ Initial solution 7. pH = 5.960 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 152721 + Specific Conductance (µS/cm, 125°C) = 152354 Density (g/cm³) = 0.96507 Volume (L) = 1.07277 - Viscosity (mPa s) = 0.24458 + Viscosity (mPa s) = 0.24530 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.150e-01 Mass of water (kg) = 1.000e+00 @@ -3435,10 +3435,10 @@ Initial solution 8. pH = 5.873 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 271052 + Specific Conductance (µS/cm, 125°C) = 270207 Density (g/cm³) = 0.98958 Volume (L) = 1.08189 - Viscosity (mPa s) = 0.26666 + Viscosity (mPa s) = 0.26768 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.430e+00 Mass of water (kg) = 1.000e+00 @@ -3511,10 +3511,10 @@ Initial solution 9. pH = 5.593 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 521533 + Specific Conductance (µS/cm, 125°C) = 519508 Density (g/cm³) = 1.05716 Volume (L) = 1.11288 - Viscosity (mPa s) = 0.33840 + Viscosity (mPa s) = 0.34001 Activity of water = 0.910 Ionic strength (mol/kgw) = 3.575e+00 Mass of water (kg) = 1.000e+00 @@ -3619,10 +3619,10 @@ Initial solution 1. pH = 5.864 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 201184 + Specific Conductance (µS/cm, 150°C) = 200613 Density (g/cm³) = 0.94556 Volume (L) = 1.10003 - Viscosity (mPa s) = 0.20141 + Viscosity (mPa s) = 0.20217 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.219e-01 Mass of water (kg) = 1.000e+00 @@ -3695,10 +3695,10 @@ Initial solution 2. pH = 5.778 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 356833 + Specific Conductance (µS/cm, 150°C) = 355522 Density (g/cm³) = 0.97203 Volume (L) = 1.11147 - Viscosity (mPa s) = 0.22002 + Viscosity (mPa s) = 0.22109 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.445e+00 Mass of water (kg) = 1.000e+00 @@ -3771,10 +3771,10 @@ Initial solution 3. pH = 5.473 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 671967 + Specific Conductance (µS/cm, 150°C) = 668906 Density (g/cm³) = 1.04318 Volume (L) = 1.15100 - Viscosity (mPa s) = 0.28045 + Viscosity (mPa s) = 0.28214 Activity of water = 0.886 Ionic strength (mol/kgw) = 3.609e+00 Mass of water (kg) = 1.000e+00 @@ -3847,10 +3847,10 @@ Initial solution 4. pH = 5.873 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 191378 + Specific Conductance (µS/cm, 150°C) = 190792 Density (g/cm³) = 0.94494 Volume (L) = 1.09863 - Viscosity (mPa s) = 0.20158 + Viscosity (mPa s) = 0.20236 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.225e-01 Mass of water (kg) = 1.000e+00 @@ -3923,10 +3923,10 @@ Initial solution 5. pH = 5.783 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 340845 + Specific Conductance (µS/cm, 150°C) = 339496 Density (g/cm³) = 0.97084 Volume (L) = 1.10857 - Viscosity (mPa s) = 0.22012 + Viscosity (mPa s) = 0.22123 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.445e+00 Mass of water (kg) = 1.000e+00 @@ -3999,10 +3999,10 @@ Initial solution 6. pH = 5.489 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 650372 + Specific Conductance (µS/cm, 150°C) = 647170 Density (g/cm³) = 1.04099 Volume (L) = 1.14364 - Viscosity (mPa s) = 0.27995 + Viscosity (mPa s) = 0.28170 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.610e+00 Mass of water (kg) = 1.000e+00 @@ -4075,10 +4075,10 @@ Initial solution 7. pH = 5.873 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 178891 + Specific Conductance (µS/cm, 150°C) = 178290 Density (g/cm³) = 0.94415 Volume (L) = 1.09692 - Viscosity (mPa s) = 0.20186 + Viscosity (mPa s) = 0.20269 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.222e-01 Mass of water (kg) = 1.000e+00 @@ -4151,10 +4151,10 @@ Initial solution 8. pH = 5.785 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 320849 + Specific Conductance (µS/cm, 150°C) = 319453 Density (g/cm³) = 0.96945 Volume (L) = 1.10512 - Viscosity (mPa s) = 0.22049 + Viscosity (mPa s) = 0.22166 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.445e+00 Mass of water (kg) = 1.000e+00 @@ -4227,10 +4227,10 @@ Initial solution 9. pH = 5.512 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 621625 + Specific Conductance (µS/cm, 150°C) = 618256 Density (g/cm³) = 1.03828 Volume (L) = 1.13479 - Viscosity (mPa s) = 0.27984 + Viscosity (mPa s) = 0.28168 Activity of water = 0.912 Ionic strength (mol/kgw) = 3.610e+00 Mass of water (kg) = 1.000e+00 @@ -4925,10 +4925,10 @@ Initial solution 1. pH = 6.735 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 79182 + Specific Conductance (µS/cm, 40°C) = 79166 Density (g/cm³) = 1.01956 Volume (L) = 1.02095 - Viscosity (mPa s) = 0.69994 + Viscosity (mPa s) = 0.70013 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.070e-01 Mass of water (kg) = 1.000e+00 @@ -4986,10 +4986,10 @@ Initial solution 2. pH = 6.687 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 140254 + Specific Conductance (µS/cm, 40°C) = 140217 Density (g/cm³) = 1.04530 Volume (L) = 1.03495 - Viscosity (mPa s) = 0.75232 + Viscosity (mPa s) = 0.75258 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -5047,10 +5047,10 @@ Initial solution 3. pH = 6.554 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 259344 + Specific Conductance (µS/cm, 40°C) = 259260 Density (g/cm³) = 1.11566 Volume (L) = 1.07972 - Viscosity (mPa s) = 0.95534 + Viscosity (mPa s) = 0.95575 Activity of water = 0.875 Ionic strength (mol/kgw) = 3.535e+00 Mass of water (kg) = 1.000e+00 @@ -5108,10 +5108,10 @@ Initial solution 4. pH = 6.774 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 76970 + Specific Conductance (µS/cm, 40°C) = 76955 Density (g/cm³) = 1.01963 Volume (L) = 1.02051 - Viscosity (mPa s) = 0.70035 + Viscosity (mPa s) = 0.70054 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.070e-01 Mass of water (kg) = 1.000e+00 @@ -5169,10 +5169,10 @@ Initial solution 5. pH = 6.740 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 136254 + Specific Conductance (µS/cm, 40°C) = 136218 Density (g/cm³) = 1.04544 Volume (L) = 1.03406 - Viscosity (mPa s) = 0.75302 + Viscosity (mPa s) = 0.75329 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -5230,10 +5230,10 @@ Initial solution 6. pH = 6.642 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 252735 + Specific Conductance (µS/cm, 40°C) = 252652 Density (g/cm³) = 1.11607 Volume (L) = 1.07757 - Viscosity (mPa s) = 0.95648 + Viscosity (mPa s) = 0.95690 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.534e+00 Mass of water (kg) = 1.000e+00 @@ -5291,10 +5291,10 @@ Initial solution 7. pH = 6.849 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 71833 + Specific Conductance (µS/cm, 40°C) = 71818 Density (g/cm³) = 1.01977 Volume (L) = 1.01943 - Viscosity (mPa s) = 0.70151 + Viscosity (mPa s) = 0.70171 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.068e-01 Mass of water (kg) = 1.000e+00 @@ -5352,10 +5352,10 @@ Initial solution 8. pH = 6.837 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 126967 + Specific Conductance (µS/cm, 40°C) = 126931 Density (g/cm³) = 1.04576 Volume (L) = 1.03194 - Viscosity (mPa s) = 0.75505 + Viscosity (mPa s) = 0.75533 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -5413,10 +5413,10 @@ Initial solution 9. pH = 6.785 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 237222 + Specific Conductance (µS/cm, 40°C) = 237138 Density (g/cm³) = 1.11706 Volume (L) = 1.07239 - Viscosity (mPa s) = 0.96025 + Viscosity (mPa s) = 0.96070 Activity of water = 0.891 Ionic strength (mol/kgw) = 3.534e+00 Mass of water (kg) = 1.000e+00 @@ -5505,10 +5505,10 @@ Initial solution 1. pH = 6.365 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 123139 + Specific Conductance (µS/cm, 75°C) = 123044 Density (g/cm³) = 1.00175 Volume (L) = 1.03918 - Viscosity (mPa s) = 0.40952 + Viscosity (mPa s) = 0.40995 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.083e-01 Mass of water (kg) = 1.000e+00 @@ -5566,10 +5566,10 @@ Initial solution 2. pH = 6.339 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 216725 + Specific Conductance (µS/cm, 75°C) = 216507 Density (g/cm³) = 1.02707 Volume (L) = 1.05347 - Viscosity (mPa s) = 0.44340 + Viscosity (mPa s) = 0.44401 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.416e+00 Mass of water (kg) = 1.000e+00 @@ -5627,10 +5627,10 @@ Initial solution 3. pH = 6.257 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 399662 + Specific Conductance (µS/cm, 75°C) = 399161 Density (g/cm³) = 1.09652 Volume (L) = 1.09890 - Viscosity (mPa s) = 0.56506 + Viscosity (mPa s) = 0.56603 Activity of water = 0.875 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -5688,10 +5688,10 @@ Initial solution 4. pH = 6.429 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 120065 + Specific Conductance (µS/cm, 75°C) = 119969 Density (g/cm³) = 1.00181 Volume (L) = 1.03873 - Viscosity (mPa s) = 0.40958 + Viscosity (mPa s) = 0.41001 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.083e-01 Mass of water (kg) = 1.000e+00 @@ -5749,10 +5749,10 @@ Initial solution 5. pH = 6.419 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 211222 + Specific Conductance (µS/cm, 75°C) = 211004 Density (g/cm³) = 1.02721 Volume (L) = 1.05257 - Viscosity (mPa s) = 0.44345 + Viscosity (mPa s) = 0.44407 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.416e+00 Mass of water (kg) = 1.000e+00 @@ -5810,10 +5810,10 @@ Initial solution 6. pH = 6.372 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 391091 + Specific Conductance (µS/cm, 75°C) = 390588 Density (g/cm³) = 1.09695 Volume (L) = 1.09669 - Viscosity (mPa s) = 0.56489 + Viscosity (mPa s) = 0.56586 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -5871,10 +5871,10 @@ Initial solution 7. pH = 6.538 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 112826 + Specific Conductance (µS/cm, 75°C) = 112730 Density (g/cm³) = 1.00193 Volume (L) = 1.03765 - Viscosity (mPa s) = 0.40980 + Viscosity (mPa s) = 0.41026 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.081e-01 Mass of water (kg) = 1.000e+00 @@ -5932,10 +5932,10 @@ Initial solution 8. pH = 6.548 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 198292 + Specific Conductance (µS/cm, 75°C) = 198073 Density (g/cm³) = 1.02752 Volume (L) = 1.05041 - Viscosity (mPa s) = 0.44375 + Viscosity (mPa s) = 0.44439 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.416e+00 Mass of water (kg) = 1.000e+00 @@ -5993,10 +5993,10 @@ Initial solution 9. pH = 6.538 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 370701 + Specific Conductance (µS/cm, 75°C) = 370190 Density (g/cm³) = 1.09796 Volume (L) = 1.09138 - Viscosity (mPa s) = 0.56492 + Viscosity (mPa s) = 0.56594 Activity of water = 0.891 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -6085,10 +6085,10 @@ Initial solution 1. pH = 6.198 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 153595 + Specific Conductance (µS/cm, 100°C) = 153396 Density (g/cm³) = 0.98554 Volume (L) = 1.05639 - Viscosity (mPa s) = 0.30741 + Viscosity (mPa s) = 0.30795 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.102e-01 Mass of water (kg) = 1.000e+00 @@ -6146,10 +6146,10 @@ Initial solution 2. pH = 6.186 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 270177 + Specific Conductance (µS/cm, 100°C) = 269720 Density (g/cm³) = 1.01105 Volume (L) = 1.07039 - Viscosity (mPa s) = 0.33401 + Viscosity (mPa s) = 0.33477 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.420e+00 Mass of water (kg) = 1.000e+00 @@ -6207,10 +6207,10 @@ Initial solution 3. pH = 6.134 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 500018 + Specific Conductance (µS/cm, 100°C) = 498968 Density (g/cm³) = 1.08086 Volume (L) = 1.11533 - Viscosity (mPa s) = 0.42599 + Viscosity (mPa s) = 0.42721 Activity of water = 0.876 Ionic strength (mol/kgw) = 3.550e+00 Mass of water (kg) = 1.000e+00 @@ -6268,10 +6268,10 @@ Initial solution 4. pH = 6.284 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 150231 + Specific Conductance (µS/cm, 100°C) = 150030 Density (g/cm³) = 0.98560 Volume (L) = 1.05595 - Viscosity (mPa s) = 0.30741 + Viscosity (mPa s) = 0.30796 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.106e-01 Mass of water (kg) = 1.000e+00 @@ -6329,10 +6329,10 @@ Initial solution 5. pH = 6.287 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 264243 + Specific Conductance (µS/cm, 100°C) = 263784 Density (g/cm³) = 1.01116 Volume (L) = 1.06950 - Viscosity (mPa s) = 0.33393 + Viscosity (mPa s) = 0.33471 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.420e+00 Mass of water (kg) = 1.000e+00 @@ -6390,10 +6390,10 @@ Initial solution 6. pH = 6.264 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 491520 + Specific Conductance (µS/cm, 100°C) = 490459 Density (g/cm³) = 1.08126 Volume (L) = 1.11313 - Viscosity (mPa s) = 0.42560 + Viscosity (mPa s) = 0.42683 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.551e+00 Mass of water (kg) = 1.000e+00 @@ -6451,10 +6451,10 @@ Initial solution 7. pH = 6.415 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 142061 + Specific Conductance (µS/cm, 100°C) = 141859 Density (g/cm³) = 0.98569 Volume (L) = 1.05487 - Viscosity (mPa s) = 0.30743 + Viscosity (mPa s) = 0.30800 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.103e-01 Mass of water (kg) = 1.000e+00 @@ -6512,10 +6512,10 @@ Initial solution 8. pH = 6.435 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 250111 + Specific Conductance (µS/cm, 100°C) = 249648 Density (g/cm³) = 1.01142 Volume (L) = 1.06735 - Viscosity (mPa s) = 0.33387 + Viscosity (mPa s) = 0.33468 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.420e+00 Mass of water (kg) = 1.000e+00 @@ -6573,10 +6573,10 @@ Initial solution 9. pH = 6.440 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 470802 + Specific Conductance (µS/cm, 100°C) = 469714 Density (g/cm³) = 1.08218 Volume (L) = 1.10781 - Viscosity (mPa s) = 0.42491 + Viscosity (mPa s) = 0.42619 Activity of water = 0.892 Ionic strength (mol/kgw) = 3.551e+00 Mass of water (kg) = 1.000e+00 @@ -6665,10 +6665,10 @@ Initial solution 1. pH = 6.100 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 182056 + Specific Conductance (µS/cm, 125°C) = 181703 Density (g/cm³) = 0.96695 Volume (L) = 1.07695 - Viscosity (mPa s) = 0.24370 + Viscosity (mPa s) = 0.24434 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.144e-01 Mass of water (kg) = 1.000e+00 @@ -6727,10 +6727,10 @@ Initial solution 2. pH = 6.100 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 320817 + Specific Conductance (µS/cm, 125°C) = 320009 Density (g/cm³) = 0.99297 Volume (L) = 1.09035 - Viscosity (mPa s) = 0.26550 + Viscosity (mPa s) = 0.26641 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.428e+00 Mass of water (kg) = 1.000e+00 @@ -6789,10 +6789,10 @@ Initial solution 3. pH = 6.067 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 597076 + Specific Conductance (µS/cm, 125°C) = 595211 Density (g/cm³) = 1.06367 Volume (L) = 1.13433 - Viscosity (mPa s) = 0.33869 + Viscosity (mPa s) = 0.34013 Activity of water = 0.878 Ionic strength (mol/kgw) = 3.568e+00 Mass of water (kg) = 1.000e+00 @@ -6851,10 +6851,10 @@ Initial solution 4. pH = 6.207 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 178789 + Specific Conductance (µS/cm, 125°C) = 178433 Density (g/cm³) = 0.96698 Volume (L) = 1.07653 - Viscosity (mPa s) = 0.24367 + Viscosity (mPa s) = 0.24432 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.148e-01 Mass of water (kg) = 1.000e+00 @@ -6913,10 +6913,10 @@ Initial solution 5. pH = 6.219 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 315429 + Specific Conductance (µS/cm, 125°C) = 314613 Density (g/cm³) = 0.99305 Volume (L) = 1.08948 - Viscosity (mPa s) = 0.26538 + Viscosity (mPa s) = 0.26631 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.428e+00 Mass of water (kg) = 1.000e+00 @@ -6975,10 +6975,10 @@ Initial solution 6. pH = 6.207 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 590704 + Specific Conductance (µS/cm, 125°C) = 588803 Density (g/cm³) = 1.06404 Volume (L) = 1.13220 - Viscosity (mPa s) = 0.33829 + Viscosity (mPa s) = 0.33974 Activity of water = 0.883 Ionic strength (mol/kgw) = 3.570e+00 Mass of water (kg) = 1.000e+00 @@ -7037,10 +7037,10 @@ Initial solution 7. pH = 6.357 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 170571 + Specific Conductance (µS/cm, 125°C) = 170209 Density (g/cm³) = 0.96702 Volume (L) = 1.07548 - Viscosity (mPa s) = 0.24361 + Viscosity (mPa s) = 0.24429 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.144e-01 Mass of water (kg) = 1.000e+00 @@ -7099,10 +7099,10 @@ Initial solution 8. pH = 6.380 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 302179 + Specific Conductance (µS/cm, 125°C) = 301344 Density (g/cm³) = 0.99320 Volume (L) = 1.08737 - Viscosity (mPa s) = 0.26518 + Viscosity (mPa s) = 0.26614 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.428e+00 Mass of water (kg) = 1.000e+00 @@ -7161,10 +7161,10 @@ Initial solution 9. pH = 6.391 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 573963 + Specific Conductance (µS/cm, 125°C) = 571983 Density (g/cm³) = 1.06474 Volume (L) = 1.12698 - Viscosity (mPa s) = 0.33736 + Viscosity (mPa s) = 0.33887 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.570e+00 Mass of water (kg) = 1.000e+00 @@ -7255,10 +7255,10 @@ Initial solution 1. pH = 6.062 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 208055 + Specific Conductance (µS/cm, 150°C) = 207491 Density (g/cm³) = 0.94618 Volume (L) = 1.10103 - Viscosity (mPa s) = 0.20128 + Viscosity (mPa s) = 0.20202 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.217e-01 Mass of water (kg) = 1.000e+00 @@ -7317,10 +7317,10 @@ Initial solution 2. pH = 6.069 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 367868 + Specific Conductance (µS/cm, 150°C) = 366576 Density (g/cm³) = 0.97308 Volume (L) = 1.11347 - Viscosity (mPa s) = 0.21980 + Viscosity (mPa s) = 0.22085 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.442e+00 Mass of water (kg) = 1.000e+00 @@ -7379,10 +7379,10 @@ Initial solution 3. pH = 6.045 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 688799 + Specific Conductance (µS/cm, 150°C) = 685800 Density (g/cm³) = 1.04528 Volume (L) = 1.15616 - Viscosity (mPa s) = 0.28054 + Viscosity (mPa s) = 0.28220 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.602e+00 Mass of water (kg) = 1.000e+00 @@ -7441,10 +7441,10 @@ Initial solution 4. pH = 6.186 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 205540 + Specific Conductance (µS/cm, 150°C) = 204967 Density (g/cm³) = 0.94621 Volume (L) = 1.10064 - Viscosity (mPa s) = 0.20126 + Viscosity (mPa s) = 0.20201 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.227e-01 Mass of water (kg) = 1.000e+00 @@ -7503,10 +7503,10 @@ Initial solution 5. pH = 6.201 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 364259 + Specific Conductance (µS/cm, 150°C) = 362943 Density (g/cm³) = 0.97312 Volume (L) = 1.11266 - Viscosity (mPa s) = 0.21970 + Viscosity (mPa s) = 0.22076 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.443e+00 Mass of water (kg) = 1.000e+00 @@ -7565,10 +7565,10 @@ Initial solution 6. pH = 6.192 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 686462 + Specific Conductance (µS/cm, 150°C) = 683380 Density (g/cm³) = 1.04554 Volume (L) = 1.15420 - Viscosity (mPa s) = 0.28018 + Viscosity (mPa s) = 0.28185 Activity of water = 0.884 Ionic strength (mol/kgw) = 3.606e+00 Mass of water (kg) = 1.000e+00 @@ -7627,10 +7627,10 @@ Initial solution 7. pH = 6.349 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 198312 + Specific Conductance (µS/cm, 150°C) = 197722 Density (g/cm³) = 0.94614 Volume (L) = 1.09964 - Viscosity (mPa s) = 0.20117 + Viscosity (mPa s) = 0.20195 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.215e-01 Mass of water (kg) = 1.000e+00 @@ -7689,10 +7689,10 @@ Initial solution 8. pH = 6.372 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 354333 + Specific Conductance (µS/cm, 150°C) = 352964 Density (g/cm³) = 0.97311 Volume (L) = 1.11066 - Viscosity (mPa s) = 0.21946 + Viscosity (mPa s) = 0.22056 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.443e+00 Mass of water (kg) = 1.000e+00 @@ -7751,10 +7751,10 @@ Initial solution 9. pH = 6.382 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 677597 + Specific Conductance (µS/cm, 150°C) = 674328 Density (g/cm³) = 1.04584 Volume (L) = 1.14926 - Viscosity (mPa s) = 0.27917 + Viscosity (mPa s) = 0.28090 Activity of water = 0.895 Ionic strength (mol/kgw) = 3.606e+00 Mass of water (kg) = 1.000e+00 @@ -8418,10 +8418,10 @@ Initial solution 1. pH = 6.691 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 88499 + Specific Conductance (µS/cm, 40°C) = 88482 Density (g/cm³) = 1.02177 Volume (L) = 1.02310 - Viscosity (mPa s) = 0.69905 + Viscosity (mPa s) = 0.69924 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.569e-01 Mass of water (kg) = 1.000e+00 @@ -8477,10 +8477,10 @@ Initial solution 2. pH = 6.632 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 149018 + Specific Conductance (µS/cm, 40°C) = 148982 Density (g/cm³) = 1.04594 Volume (L) = 1.03725 - Viscosity (mPa s) = 0.74294 + Viscosity (mPa s) = 0.74320 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -8536,10 +8536,10 @@ Initial solution 3. pH = 6.445 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 279710 + Specific Conductance (µS/cm, 40°C) = 279626 Density (g/cm³) = 1.11677 Volume (L) = 1.08550 - Viscosity (mPa s) = 0.92556 + Viscosity (mPa s) = 0.92597 Activity of water = 0.872 Ionic strength (mol/kgw) = 3.535e+00 Mass of water (kg) = 1.000e+00 @@ -8595,10 +8595,10 @@ Initial solution 4. pH = 6.701 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 85682 + Specific Conductance (µS/cm, 40°C) = 85667 Density (g/cm³) = 1.02032 Volume (L) = 1.02281 - Viscosity (mPa s) = 0.69177 + Viscosity (mPa s) = 0.69194 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.069e-01 Mass of water (kg) = 1.000e+00 @@ -8654,10 +8654,10 @@ Initial solution 5. pH = 6.643 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 153609 + Specific Conductance (µS/cm, 40°C) = 153574 Density (g/cm³) = 1.04671 Volume (L) = 1.03866 - Viscosity (mPa s) = 0.73442 + Viscosity (mPa s) = 0.73467 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -8713,10 +8713,10 @@ Initial solution 6. pH = 6.470 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 293023 + Specific Conductance (µS/cm, 40°C) = 292937 Density (g/cm³) = 1.11829 Volume (L) = 1.08913 - Viscosity (mPa s) = 0.89809 + Viscosity (mPa s) = 0.89849 Activity of water = 0.874 Ionic strength (mol/kgw) = 3.535e+00 Mass of water (kg) = 1.000e+00 @@ -8772,10 +8772,10 @@ Initial solution 7. pH = 6.708 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 88191 + Specific Conductance (µS/cm, 40°C) = 88177 Density (g/cm³) = 1.02080 Volume (L) = 1.02366 - Viscosity (mPa s) = 0.68722 + Viscosity (mPa s) = 0.68739 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.069e-01 Mass of water (kg) = 1.000e+00 @@ -8831,10 +8831,10 @@ Initial solution 8. pH = 6.655 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 159008 + Specific Conductance (µS/cm, 40°C) = 158974 Density (g/cm³) = 1.04763 Volume (L) = 1.04036 - Viscosity (mPa s) = 0.72451 + Viscosity (mPa s) = 0.72475 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -8890,10 +8890,10 @@ Initial solution 9. pH = 6.500 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 308523 + Specific Conductance (µS/cm, 40°C) = 308436 Density (g/cm³) = 1.12009 Volume (L) = 1.09348 - Viscosity (mPa s) = 0.86684 + Viscosity (mPa s) = 0.86723 Activity of water = 0.876 Ionic strength (mol/kgw) = 3.535e+00 Mass of water (kg) = 1.000e+00 @@ -8980,10 +8980,10 @@ Initial solution 1. pH = 6.284 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 129029 + Specific Conductance (µS/cm, 75°C) = 128936 Density (g/cm³) = 1.00212 Volume (L) = 1.04033 - Viscosity (mPa s) = 0.40791 + Viscosity (mPa s) = 0.40833 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.083e-01 Mass of water (kg) = 1.000e+00 @@ -9039,10 +9039,10 @@ Initial solution 2. pH = 6.228 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 228309 + Specific Conductance (µS/cm, 75°C) = 228095 Density (g/cm³) = 1.02775 Volume (L) = 1.05578 - Viscosity (mPa s) = 0.43983 + Viscosity (mPa s) = 0.44043 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.417e+00 Mass of water (kg) = 1.000e+00 @@ -9098,10 +9098,10 @@ Initial solution 3. pH = 6.057 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 425298 + Specific Conductance (µS/cm, 75°C) = 424800 Density (g/cm³) = 1.09770 Volume (L) = 1.10472 - Viscosity (mPa s) = 0.55331 + Viscosity (mPa s) = 0.55424 Activity of water = 0.872 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -9157,10 +9157,10 @@ Initial solution 4. pH = 6.288 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 131777 + Specific Conductance (µS/cm, 75°C) = 131687 Density (g/cm³) = 1.00254 Volume (L) = 1.04103 - Viscosity (mPa s) = 0.40635 + Viscosity (mPa s) = 0.40677 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.083e-01 Mass of water (kg) = 1.000e+00 @@ -9216,10 +9216,10 @@ Initial solution 5. pH = 6.237 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 234161 + Specific Conductance (µS/cm, 75°C) = 233952 Density (g/cm³) = 1.02854 Volume (L) = 1.05718 - Viscosity (mPa s) = 0.43635 + Viscosity (mPa s) = 0.43694 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.417e+00 Mass of water (kg) = 1.000e+00 @@ -9275,10 +9275,10 @@ Initial solution 6. pH = 6.079 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 441807 + Specific Conductance (µS/cm, 75°C) = 441309 Density (g/cm³) = 1.09929 Volume (L) = 1.10832 - Viscosity (mPa s) = 0.54170 + Viscosity (mPa s) = 0.54262 Activity of water = 0.874 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -9334,10 +9334,10 @@ Initial solution 7. pH = 6.294 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 135039 + Specific Conductance (µS/cm, 75°C) = 134952 Density (g/cm³) = 1.00305 Volume (L) = 1.04187 - Viscosity (mPa s) = 0.40452 + Viscosity (mPa s) = 0.40493 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.083e-01 Mass of water (kg) = 1.000e+00 @@ -9393,10 +9393,10 @@ Initial solution 8. pH = 6.247 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 241047 + Specific Conductance (µS/cm, 75°C) = 240844 Density (g/cm³) = 1.02949 Volume (L) = 1.05886 - Viscosity (mPa s) = 0.43228 + Viscosity (mPa s) = 0.43285 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.417e+00 Mass of water (kg) = 1.000e+00 @@ -9452,10 +9452,10 @@ Initial solution 9. pH = 6.106 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 460978 + Specific Conductance (µS/cm, 75°C) = 460482 Density (g/cm³) = 1.10117 Volume (L) = 1.11264 - Viscosity (mPa s) = 0.52833 + Viscosity (mPa s) = 0.52924 Activity of water = 0.876 Ionic strength (mol/kgw) = 3.541e+00 Mass of water (kg) = 1.000e+00 @@ -9542,10 +9542,10 @@ Initial solution 1. pH = 6.067 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 160114 + Specific Conductance (µS/cm, 100°C) = 159921 Density (g/cm³) = 0.98593 Volume (L) = 1.05753 - Viscosity (mPa s) = 0.30649 + Viscosity (mPa s) = 0.30702 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.103e-01 Mass of water (kg) = 1.000e+00 @@ -9601,10 +9601,10 @@ Initial solution 2. pH = 6.017 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 282801 + Specific Conductance (µS/cm, 100°C) = 282356 Density (g/cm³) = 1.01177 Volume (L) = 1.07270 - Viscosity (mPa s) = 0.33198 + Viscosity (mPa s) = 0.33273 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.421e+00 Mass of water (kg) = 1.000e+00 @@ -9660,10 +9660,10 @@ Initial solution 3. pH = 5.858 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 527040 + Specific Conductance (µS/cm, 100°C) = 526007 Density (g/cm³) = 1.08210 Volume (L) = 1.12119 - Viscosity (mPa s) = 0.41914 + Viscosity (mPa s) = 0.42033 Activity of water = 0.873 Ionic strength (mol/kgw) = 3.551e+00 Mass of water (kg) = 1.000e+00 @@ -9719,10 +9719,10 @@ Initial solution 4. pH = 6.071 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 163171 + Specific Conductance (µS/cm, 100°C) = 162983 Density (g/cm³) = 0.98637 Volume (L) = 1.05823 - Viscosity (mPa s) = 0.30556 + Viscosity (mPa s) = 0.30608 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.104e-01 Mass of water (kg) = 1.000e+00 @@ -9778,10 +9778,10 @@ Initial solution 5. pH = 6.025 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 289239 + Specific Conductance (µS/cm, 100°C) = 288805 Density (g/cm³) = 1.01257 Volume (L) = 1.07411 - Viscosity (mPa s) = 0.32986 + Viscosity (mPa s) = 0.33060 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.421e+00 Mass of water (kg) = 1.000e+00 @@ -9837,10 +9837,10 @@ Initial solution 6. pH = 5.878 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 544975 + Specific Conductance (µS/cm, 100°C) = 543950 Density (g/cm³) = 1.08370 Volume (L) = 1.12482 - Viscosity (mPa s) = 0.41201 + Viscosity (mPa s) = 0.41319 Activity of water = 0.875 Ionic strength (mol/kgw) = 3.551e+00 Mass of water (kg) = 1.000e+00 @@ -9896,10 +9896,10 @@ Initial solution 7. pH = 6.075 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 166757 + Specific Conductance (µS/cm, 100°C) = 166577 Density (g/cm³) = 0.98688 Volume (L) = 1.05907 - Viscosity (mPa s) = 0.30445 + Viscosity (mPa s) = 0.30496 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.103e-01 Mass of water (kg) = 1.000e+00 @@ -9955,10 +9955,10 @@ Initial solution 8. pH = 6.034 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 296794 + Specific Conductance (µS/cm, 100°C) = 296374 Density (g/cm³) = 1.01353 Volume (L) = 1.07579 - Viscosity (mPa s) = 0.32738 + Viscosity (mPa s) = 0.32811 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.421e+00 Mass of water (kg) = 1.000e+00 @@ -10014,10 +10014,10 @@ Initial solution 9. pH = 5.901 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 565791 + Specific Conductance (µS/cm, 100°C) = 564776 Density (g/cm³) = 1.08560 Volume (L) = 1.12916 - Viscosity (mPa s) = 0.40376 + Viscosity (mPa s) = 0.40491 Activity of water = 0.877 Ionic strength (mol/kgw) = 3.551e+00 Mass of water (kg) = 1.000e+00 @@ -10104,10 +10104,10 @@ Initial solution 1. pH = 5.901 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 188605 + Specific Conductance (µS/cm, 125°C) = 188265 Density (g/cm³) = 0.96736 Volume (L) = 1.07808 - Viscosity (mPa s) = 0.24311 + Viscosity (mPa s) = 0.24374 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.143e-01 Mass of water (kg) = 1.000e+00 @@ -10164,10 +10164,10 @@ Initial solution 2. pH = 5.857 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 333231 + Specific Conductance (µS/cm, 125°C) = 332451 Density (g/cm³) = 0.99374 Volume (L) = 1.09266 - Viscosity (mPa s) = 0.26423 + Viscosity (mPa s) = 0.26512 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.429e+00 Mass of water (kg) = 1.000e+00 @@ -10224,10 +10224,10 @@ Initial solution 3. pH = 5.709 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 622876 + Specific Conductance (µS/cm, 125°C) = 621063 Density (g/cm³) = 1.06505 Volume (L) = 1.14022 - Viscosity (mPa s) = 0.33440 + Viscosity (mPa s) = 0.33580 Activity of water = 0.875 Ionic strength (mol/kgw) = 3.570e+00 Mass of water (kg) = 1.000e+00 @@ -10284,10 +10284,10 @@ Initial solution 4. pH = 5.904 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 191830 + Specific Conductance (µS/cm, 125°C) = 191500 Density (g/cm³) = 0.96780 Volume (L) = 1.07879 - Viscosity (mPa s) = 0.24249 + Viscosity (mPa s) = 0.24311 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.144e-01 Mass of water (kg) = 1.000e+00 @@ -10344,10 +10344,10 @@ Initial solution 5. pH = 5.863 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 339977 + Specific Conductance (µS/cm, 125°C) = 339217 Density (g/cm³) = 0.99455 Volume (L) = 1.09407 - Viscosity (mPa s) = 0.26282 + Viscosity (mPa s) = 0.26370 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.429e+00 Mass of water (kg) = 1.000e+00 @@ -10404,10 +10404,10 @@ Initial solution 6. pH = 5.726 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 641664 + Specific Conductance (µS/cm, 125°C) = 639872 Density (g/cm³) = 1.06666 Volume (L) = 1.14392 - Viscosity (mPa s) = 0.32965 + Viscosity (mPa s) = 0.33104 Activity of water = 0.876 Ionic strength (mol/kgw) = 3.570e+00 Mass of water (kg) = 1.000e+00 @@ -10464,10 +10464,10 @@ Initial solution 7. pH = 5.908 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 195634 + Specific Conductance (µS/cm, 125°C) = 195317 Density (g/cm³) = 0.96833 Volume (L) = 1.07963 - Viscosity (mPa s) = 0.24175 + Viscosity (mPa s) = 0.24236 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.144e-01 Mass of water (kg) = 1.000e+00 @@ -10524,10 +10524,10 @@ Initial solution 8. pH = 5.871 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 347920 + Specific Conductance (µS/cm, 125°C) = 347185 Density (g/cm³) = 0.99551 Volume (L) = 1.09577 - Viscosity (mPa s) = 0.26115 + Viscosity (mPa s) = 0.26202 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.429e+00 Mass of water (kg) = 1.000e+00 @@ -10584,10 +10584,10 @@ Initial solution 9. pH = 5.747 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 663402 + Specific Conductance (µS/cm, 125°C) = 661638 Density (g/cm³) = 1.06854 Volume (L) = 1.14833 - Viscosity (mPa s) = 0.32410 + Viscosity (mPa s) = 0.32548 Activity of water = 0.878 Ionic strength (mol/kgw) = 3.570e+00 Mass of water (kg) = 1.000e+00 @@ -10676,10 +10676,10 @@ Initial solution 1. pH = 5.777 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 214007 + Specific Conductance (µS/cm, 150°C) = 213468 Density (g/cm³) = 0.94664 Volume (L) = 1.10215 - Viscosity (mPa s) = 0.20087 + Viscosity (mPa s) = 0.20159 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.217e-01 Mass of water (kg) = 1.000e+00 @@ -10736,10 +10736,10 @@ Initial solution 2. pH = 5.740 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 378790 + Specific Conductance (µS/cm, 150°C) = 377553 Density (g/cm³) = 0.97396 Volume (L) = 1.11577 - Viscosity (mPa s) = 0.21895 + Viscosity (mPa s) = 0.21998 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.444e+00 Mass of water (kg) = 1.000e+00 @@ -10796,10 +10796,10 @@ Initial solution 3. pH = 5.602 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 711121 + Specific Conductance (µS/cm, 150°C) = 708241 Density (g/cm³) = 1.04686 Volume (L) = 1.16207 - Viscosity (mPa s) = 0.27768 + Viscosity (mPa s) = 0.27931 Activity of water = 0.877 Ionic strength (mol/kgw) = 3.605e+00 Mass of water (kg) = 1.000e+00 @@ -10856,10 +10856,10 @@ Initial solution 4. pH = 5.779 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 217296 + Specific Conductance (µS/cm, 150°C) = 216774 Density (g/cm³) = 0.94709 Volume (L) = 1.10286 - Viscosity (mPa s) = 0.20042 + Viscosity (mPa s) = 0.20113 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.218e-01 Mass of water (kg) = 1.000e+00 @@ -10916,10 +10916,10 @@ Initial solution 5. pH = 5.745 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 385663 + Specific Conductance (µS/cm, 150°C) = 384459 Density (g/cm³) = 0.97477 Volume (L) = 1.11721 - Viscosity (mPa s) = 0.21792 + Viscosity (mPa s) = 0.21894 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.444e+00 Mass of water (kg) = 1.000e+00 @@ -10976,10 +10976,10 @@ Initial solution 6. pH = 5.617 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 730291 + Specific Conductance (µS/cm, 150°C) = 727453 Density (g/cm³) = 1.04847 Volume (L) = 1.16585 - Viscosity (mPa s) = 0.27429 + Viscosity (mPa s) = 0.27590 Activity of water = 0.878 Ionic strength (mol/kgw) = 3.606e+00 Mass of water (kg) = 1.000e+00 @@ -11036,10 +11036,10 @@ Initial solution 7. pH = 5.782 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 221201 + Specific Conductance (µS/cm, 150°C) = 220698 Density (g/cm³) = 0.94763 Volume (L) = 1.10372 - Viscosity (mPa s) = 0.19988 + Viscosity (mPa s) = 0.20059 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.219e-01 Mass of water (kg) = 1.000e+00 @@ -11096,10 +11096,10 @@ Initial solution 8. pH = 5.751 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 393711 + Specific Conductance (µS/cm, 150°C) = 392547 Density (g/cm³) = 0.97573 Volume (L) = 1.11893 - Viscosity (mPa s) = 0.21671 + Viscosity (mPa s) = 0.21771 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.443e+00 Mass of water (kg) = 1.000e+00 @@ -11156,10 +11156,10 @@ Initial solution 9. pH = 5.636 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 752361 + Specific Conductance (µS/cm, 150°C) = 749577 Density (g/cm³) = 1.05033 Volume (L) = 1.17035 - Viscosity (mPa s) = 0.27029 + Viscosity (mPa s) = 0.27188 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.605e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaK_Mg_ClSO4_101.sel b/mytest/NaK_Mg_ClSO4_101.sel index c294a22b..2ea3b8b7 100644 --- a/mytest/NaK_Mg_ClSO4_101.sel +++ b/mytest/NaK_Mg_ClSO4_101.sel @@ -1,163 +1,163 @@ Mu SC Viscosity - 0.707800019759 58125.1986616972 0.9512493711 - 1.415599935645 103379.8695786472 1.0197554043 - 3.539199546020 192894.2411763146 1.2901335482 - 0.707799900325 53540.8687765910 0.9556156200 - 1.415699747187 95023.0222073556 1.0270717378 - 3.539199087003 178431.7284686154 1.3002591078 - 0.707699755090 48151.1486508064 0.9615451183 - 1.415399520844 85168.8624615175 1.0372373450 - 3.538898597082 161049.1468403991 1.3163950775 - 0.707799981386 75668.7000142280 0.7018930736 - 1.415599804447 133900.2654567643 0.7554356245 - 3.539198982306 248594.4162870907 0.9582599973 - 0.707799722436 69908.7559506473 0.7044506395 - 1.415699393238 123465.9010776573 0.7596067718 - 3.539197973383 230871.4124518852 0.9632672968 - 0.707699408891 63103.4009465059 0.7079879323 - 1.415398901876 111100.6504706564 0.7655470698 - 3.538896912216 209451.5601537891 0.9719563792 - 0.708999343965 118053.5855861530 0.4102335855 - 1.418498509431 207691.3002364803 0.4444886461 - 3.545394785426 384766.5379960626 0.5655999231 - 0.709298041697 109791.0751379784 0.4111158293 - 1.418296468318 192881.0547721542 0.4457600606 - 3.545689948727 360552.4456795932 0.5663679556 - 0.708996507698 99884.4318418388 0.4123822991 - 1.418494076971 175148.8549064514 0.4478049460 - 3.545385029558 330890.4809579113 0.5685903613 - 0.711197450570 147635.7167615898 0.3078121218 - 1.422595280252 259737.3153654585 0.3345849461 - 3.555285993273 483142.5300950607 0.4260704932 - 0.711393917187 138063.1496831678 0.3082574153 - 1.422389816321 242883.5226149815 0.3351572790 - 3.555473672041 456657.4623253985 0.4259702405 - 0.711189842621 126449.9569822983 0.3089486851 - 1.422483582570 222482.3663507660 0.3362040092 - 3.555261459996 423759.6554818005 0.4267516378 - 0.715092428026 175466.1501859687 0.2439302403 - 1.430687326611 309645.3968752388 0.2658301599 - 3.574166726683 579583.1323999868 0.3386274619 - 0.715383831216 165298.1636447875 0.2441772980 - 1.430374304179 292330.4279044409 0.2660831219 - 3.574538948493 554036.4051030995 0.3382188145 - 0.714974269592 152721.8366877944 0.2445847883 - 1.430359970880 271052.2437329530 0.2666605408 - 3.574712296723 521533.6059794528 0.3384014930 - 0.721880995657 201184.4755866718 0.2014140512 - 1.445270048644 356833.4908335875 0.2200173157 - 3.609128464786 671967.4960448701 0.2804534980 - 0.722462075310 191378.0365384560 0.2015766363 - 1.444642047961 340845.9374128530 0.2201208436 - 3.609972135407 650372.5710066390 0.2799468996 - 0.722241982161 178891.5802838163 0.2018614253 - 1.445112630146 320849.9085704278 0.2204911179 - 3.609820447871 621625.1555206046 0.2798397658 - 0.707000113503 60919.1339728946 0.9480037764 - 1.413600097336 108477.0496299577 1.0144601819 - 3.534500042234 201655.7435804627 1.2843362028 - 0.707000090820 59140.1234752887 0.9488318144 - 1.413700069213 105251.7367093879 1.0159371326 - 3.534400007319 196194.6372522382 1.2871945578 - 0.706800045727 55023.8727150238 0.9510648727 - 1.413600016231 97783.7023470602 1.0199864518 - 3.534199948967 183413.0240226415 1.2955890824 - 0.707000178584 79182.3938068567 0.6999388789 - 1.413600145157 140254.0395640713 0.7523151433 - 3.534500040210 259344.1420338921 0.9553364164 - 0.707000126883 76970.6221437537 0.7003526549 - 1.413700081204 136254.7965442203 0.7530184918 - 3.534399962973 252735.4650136774 0.9564791329 - 0.706800028730 71833.8474866973 0.7015129951 - 1.413599966472 126967.6453530138 0.7550479148 - 3.534199838053 237222.4663975453 0.9602530253 - 0.708300309543 123139.4149380654 0.4095192727 - 1.416400174477 216725.9617066323 0.4433999477 - 3.540699836992 399662.4822537447 0.5650640856 - 0.708300056502 120065.0177160257 0.4095768341 - 1.416499877141 211222.7156906606 0.4434519267 - 3.540999510327 391091.6192357444 0.5648874099 - 0.708099626046 112826.5820453612 0.4098021545 - 1.416299390975 198292.5049486938 0.4437453804 - 3.540898994768 370701.1056010601 0.5649219604 - 0.710200165816 153595.9381208023 0.3074091964 - 1.420199884025 270177.5947840077 0.3340053575 - 3.550199281054 500018.4333207407 0.4259924375 - 0.710599549839 150231.2903698364 0.3074072577 - 1.420399190829 264243.3828572686 0.3339311421 - 3.550898556594 491520.7190109016 0.4255975907 - 0.710298568641 142061.9860952903 0.3074265838 - 1.420298096437 250111.5161609933 0.3338664124 - 3.550697397305 470802.1833750160 0.4249132594 - 0.714399444812 182056.8730645214 0.2436974981 - 1.428298957649 320817.7868264111 0.2655018461 - 3.568198072157 597076.9308693720 0.3386917010 - 0.714798192533 178789.3799142500 0.2436683377 - 1.428497577810 315429.6688318367 0.2653848896 - 3.570496649485 590704.1053591334 0.3382852672 - 0.714396231954 170571.5861762560 0.2436120018 - 1.428195399572 302179.3350037662 0.2651842595 - 3.570294328027 573963.7432456582 0.3373636011 - 0.721697728183 208055.6132579060 0.2012756682 - 1.442397007124 367868.8742237623 0.2198026225 - 3.601895880491 688799.5201651201 0.2805439276 - 0.722695453503 205540.1806763558 0.2012583848 - 1.443194532159 364259.2458533156 0.2196961234 - 3.606293345769 686462.6033596356 0.2801771212 - 0.721491894373 198312.3640530687 0.2011726214 - 1.442690560781 354333.2337754276 0.2194640207 - 3.605789106740 677597.7623704476 0.2791739543 - 0.706900139124 64519.1292846081 0.9408194920 - 1.413800130809 115740.4542026811 0.9989490618 - 3.534500092811 218979.8974415745 1.2359882274 - 0.706900138709 66288.0972144261 0.9345301253 - 1.413800130260 119627.7487740328 0.9852022186 - 3.534500092582 230469.1623600262 1.1926074576 - 0.706900138212 68385.2973934426 0.9271313863 - 1.413800129602 124196.9017838092 0.9692649100 - 3.534500092299 243860.2709950070 1.1435962907 - 0.756900239821 88499.3195704694 0.6990529404 - 1.413800226716 149018.5097250892 0.7429426088 - 3.534500162984 279710.5770957497 0.9255636828 - 0.706900239684 85682.1996065852 0.6917663185 - 1.413800226074 153609.1605849162 0.7344172314 - 3.534500162886 293023.5769046064 0.8980889685 - 0.706900239056 88191.2975747525 0.6872152799 - 1.413800225304 159008.3271922227 0.7245052629 - 3.534500162753 308523.3115596382 0.8668438873 - 0.708300664205 129029.1875190058 0.4079079399 - 1.416600633075 228309.3509082700 0.4398346258 - 3.541000467947 425298.5096657843 0.5533095424 - 0.708300663977 131777.2772881139 0.4063538569 - 1.416600633292 234161.1271905294 0.4363534532 - 3.541200469745 441807.7000842816 0.5416992844 - 0.708300663701 135039.0122060327 0.4045188862 - 1.416500633550 241047.3208685260 0.4322775760 - 3.541000471905 460978.7759071959 0.5283295747 - 0.710301158729 160114.5276054092 0.3064942310 - 1.420801113801 282801.4518728009 0.3319775210 - 3.550800839667 527040.3639673912 0.4191413917 - 0.710401159834 163171.0834355554 0.3055590666 - 1.420801116687 289239.0555022641 0.3298624858 - 3.551000845634 544975.4766354357 0.4120143460 - 0.710301161155 166757.8782466886 0.3044458605 - 1.420601120166 296794.7976689824 0.3273779401 - 3.550700852857 565791.0615674023 0.4037553615 - 0.714301813431 188605.0009233009 0.2431142179 - 1.429101760304 333231.3324804116 0.2642337062 - 3.570001354261 622876.0755146189 0.3343961801 - 0.714401817518 191830.4313730980 0.2424907021 - 1.428901768871 339977.1444144820 0.2628166864 - 3.570401368352 641664.7136434675 0.3296477870 - 0.714401822419 195634.6824208773 0.2417489894 - 1.428601779190 347920.5955978444 0.2611511232 - 3.569801385568 663402.9742543926 0.3241043438 - 0.721702595876 214007.6644456971 0.2008678304 - 1.444002548297 378790.5157083333 0.2189516541 - 3.605402002372 711121.3716604547 0.2776848678 - 0.721802605156 217296.9147214621 0.2004152922 - 1.443702566586 385663.5641749799 0.2179236013 - 3.606002029952 730291.8711063180 0.2742904772 - 0.721902616322 221201.5937061399 0.1998779652 - 1.443102588690 393711.1269188372 0.2167091945 - 3.604802063939 752361.6931164535 0.2702875880 + 0.707800019759 58125.2045755063 0.9512492424 + 1.415599935645 103379.8834428821 1.0197552223 + 3.539199546020 192894.2734994742 1.2901332604 + 0.707799900325 53540.8746756357 0.9556154844 + 1.415699747187 95023.0359587746 1.0270715460 + 3.539199087003 178431.7606918454 1.3002588046 + 0.707699755090 48151.1545341809 0.9615449728 + 1.415399520844 85168.8760671779 1.0372371392 + 3.538898597082 161049.1788532551 1.3163947520 + 0.707799981386 75653.1803476393 0.7020844323 + 1.415599804447 133864.2173204847 0.7557062467 + 3.539198982306 248511.0229649311 0.9586878996 + 0.707799722436 69893.2482994377 0.7046516773 + 1.415699393238 123430.0568196936 0.7598910902 + 3.539197973383 230787.9217881732 0.9637168411 + 0.707699408891 63087.9043029949 0.7082029737 + 1.415398901876 111065.0786069273 0.7658511844 + 3.538896912216 209368.1564538834 0.9724372761 + 0.708999343965 117958.1522132653 0.4106741417 + 1.418498509431 207472.3721536554 0.4451118604 + 3.545394785426 384262.8927701595 0.5665851364 + 0.709298041697 109695.2748151894 0.4115763248 + 1.418296468318 192662.1482461005 0.4464111584 + 3.545689948727 360043.6510553921 0.5673974548 + 0.708996507698 99788.3120637368 0.4128714817 + 1.418494076971 174930.0420439522 0.4484969418 + 3.545385029558 330376.4659667991 0.5696843179 + 0.711197450570 147434.8191116633 0.3083680758 + 1.422595280252 259277.9847505663 0.3353712369 + 3.555285993273 482082.0848277898 0.4273134899 + 0.711393917187 137860.6420531434 0.3088366272 + 1.422389816321 242421.2392366176 0.3359762151 + 3.555473672041 455576.5602721410 0.4272650572 + 0.711189842621 126245.7723965401 0.3095617058 + 1.422483582570 222016.7965142585 0.3370709744 + 3.555261459996 422655.7295357296 0.4281222362 + 0.715092428026 175109.8301073766 0.2445868347 + 1.430687326611 308829.8492581018 0.2667588768 + 3.574166726683 577689.0923164376 0.3400952977 + 0.715383831216 164936.4852838594 0.2448596216 + 1.430374304179 291501.4673107768 0.2670478519 + 3.574538948493 552082.0369976419 0.3397439101 + 0.714974269592 152354.5317978196 0.2453044637 + 1.430359970880 270207.7475405036 0.2676784158 + 3.574712296723 519508.5597524209 0.3400107171 + 0.721880995657 200613.6810391746 0.2021701199 + 1.445270048644 355522.1621057038 0.2210871790 + 3.609128464786 668906.0569680204 0.2821442074 + 0.722462075310 190792.7514913718 0.2023607557 + 1.444642047961 339496.0477360507 0.2212296613 + 3.609972135407 647170.4429924132 0.2816997770 + 0.722241982161 178290.5245503569 0.2026863858 + 1.445112630146 319453.9181103703 0.2216579604 + 3.609820447871 618256.4299127634 0.2816839965 + 0.707000113503 60919.1398898744 0.9480036513 + 1.413600097336 108477.0635522692 1.0144600051 + 3.534500042234 201655.7759415195 1.2843359233 + 0.707000090820 59140.1293893737 0.9488316869 + 1.413700069213 105251.7506068068 1.0159369523 + 3.534400007319 196194.6696325147 1.2871942726 + 0.706800045727 55023.8786278050 0.9510647386 + 1.413600016231 97783.7161963917 1.0199862621 + 3.534199948967 183413.0564484386 1.2955887825 + 0.707000178584 79166.8867548769 0.7001250805 + 1.413600145157 140217.9101988865 0.7525784163 + 3.534500040210 259260.8676555376 0.9557527348 + 0.707000126883 76955.1160532881 0.7005422792 + 1.413700081204 136218.7126312637 0.7532866135 + 3.534399962973 252652.0224165250 0.9569030857 + 0.706800028730 71818.3299311271 0.7017117485 + 1.413599966472 126931.6389659565 0.7553289946 + 3.534199838053 237138.6039677312 0.9606974776 + 0.708300309543 123044.3091845812 0.4099491351 + 1.416400174477 216507.4025656104 0.4440078238 + 3.540699836992 399161.9804168982 0.5660251848 + 0.708300056502 119969.7771620581 0.4100134345 + 1.416499877141 211004.0008707645 0.4440693529 + 3.540999510327 390588.1903036979 0.5658636163 + 0.708099626046 112730.9699145606 0.4102569741 + 1.416299390975 198073.2949337870 0.4443886119 + 3.540898994768 370190.5922470887 0.5659390504 + 0.710200165816 153396.2975441563 0.3079522893 + 1.420199884025 269720.6198618614 0.3347733560 + 3.550199281054 498968.7721678581 0.4272067654 + 0.710599549839 150030.7704373848 0.3079582468 + 1.420399190829 263784.5079937579 0.3347101057 + 3.550898556594 490459.6825059201 0.4268292481 + 0.710298568641 141859.7412851178 0.3079985237 + 1.420298096437 249648.1195201505 0.3346751287 + 3.550697397305 469714.2829458808 0.4261919709 + 0.714399444812 181703.6552128942 0.2443398872 + 1.428298957649 320009.8384594555 0.2664101675 + 3.568198072157 595211.5059497916 0.3401273617 + 0.714798192533 178433.1943373725 0.2443192200 + 1.428497577810 314613.5924098025 0.2663050414 + 3.570496649485 588803.9665708710 0.3397400182 + 0.714396231954 170209.2695195216 0.2442856230 + 1.428195399572 301344.6774565057 0.2661366687 + 3.570294328027 571983.9376637716 0.3388694822 + 0.721697728183 207491.4634007432 0.2020165411 + 1.442397007124 366576.8844974937 0.2208500227 + 3.601895880491 685800.7415899304 0.2821991152 + 0.722695453503 204967.2288036913 0.2020086394 + 1.443194532159 362943.1073016229 0.2207563221 + 3.606293345769 683380.7527719622 0.2818530702 + 0.721491894373 197722.8684555428 0.2019466633 + 1.442690560781 352964.0364744684 0.2205585799 + 3.605789106740 674328.4417871251 0.2809043794 + 0.706900139124 64519.1350637822 0.9408193712 + 1.413800130809 115740.4679953635 0.9989488909 + 3.534500092811 218979.9306307759 1.2359879571 + 0.706900138709 66288.1028489560 0.9345300063 + 1.413800130260 119627.7623861162 0.9852020504 + 3.534500092582 230469.1963310339 1.1926071916 + 0.706900138212 68385.3028499755 0.9271312697 + 1.413800129602 124196.9151534045 0.9692647450 + 3.534500092299 243860.3058030200 1.1435960299 + 0.756900239821 88482.7799568423 0.6992397651 + 1.413800226716 148982.8743459227 0.7431976982 + 3.534500162984 279626.1017549926 0.9259670147 + 0.706900239684 85667.4929331619 0.6919440435 + 1.413800226074 153574.1227055627 0.7346685726 + 3.534500162886 292937.9054897598 0.8984863739 + 0.706900239056 88177.0841286543 0.6873897457 + 1.413800225304 158974.0595815293 0.7247519949 + 3.534500162753 308436.4530014092 0.8672340031 + 0.708300664205 128936.8913512755 0.4083262938 + 1.416600633075 228095.4833807804 0.4404262628 + 3.541000467947 424800.2902451900 0.5542449421 + 0.708300663977 131687.6862462964 0.4067668944 + 1.416600633292 233952.0252583252 0.4369375822 + 3.541200469745 441309.7338579098 0.5426228326 + 0.708300663701 134952.6800765232 0.4049254124 + 1.416500633550 240844.1430339891 0.4328524748 + 3.541000471905 460482.3133297866 0.5292385384 + 0.710301158729 159921.4124814422 0.3070242499 + 1.420801113801 282356.7865879603 0.3327271308 + 3.550800839667 526007.7753147418 0.4203264392 + 0.710401159834 162983.7753063871 0.3060830553 + 1.420801116687 288805.3033205337 0.3306035196 + 3.551000845634 543950.1328508534 0.4131858714 + 0.710301161155 166577.6091713038 0.3049623980 + 1.420601120166 296374.4569569946 0.3281084362 + 3.550700852857 564776.4556558407 0.4049102539 + 0.714301813431 188265.0879486499 0.2437424742 + 1.429101760304 332451.0400052071 0.2651223490 + 3.570001354261 621063.1372483582 0.3358007155 + 0.714401817518 191500.9032059212 0.2431125252 + 1.428901768871 339217.1725851424 0.2636961110 + 3.570401368352 639872.4097973867 0.3310379299 + 0.714401822419 195317.6480326127 0.2423629139 + 1.428601779190 347185.3236300755 0.2620192805 + 3.569801385568 661638.5183575934 0.3254767057 + 0.721702595876 213468.2593622362 0.2015939170 + 1.444002548297 377553.6530557739 0.2199787182 + 3.605402002372 708241.7152088261 0.2793077874 + 0.721802605156 216774.0620536800 0.2011346977 + 1.443702566586 384459.9010681052 0.2189410361 + 3.606002029952 727453.3433073570 0.2758984903 + 0.721902616322 220698.5427069386 0.2005892236 + 1.443102588690 392547.7724126697 0.2177148252 + 3.604802063939 749577.0351616688 0.2718770025 diff --git a/mytest/NaMgCl.out b/mytest/NaMgCl.out index 30ac9b37..e86ef3bd 100644 --- a/mytest/NaMgCl.out +++ b/mytest/NaMgCl.out @@ -153,10 +153,10 @@ Halite 0.00 1.50 1.50 1.000e+01 3.868e+00 -6.132e+00 pH = 6.831 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 221809 + Specific Conductance (µS/cm, 0°C) = 221931 Density (g/cm³) = 1.21337 Volume (L) = 1.11951 - Viscosity (mPa s) = 1.81538 + Viscosity (mPa s) = 1.81340 Activity of water = 0.756 Ionic strength (mol/kgw) = 6.132e+00 Mass of water (kg) = 1.000e+00 @@ -235,10 +235,10 @@ Halite 0.00 1.50 1.50 3.868e+00 5.789e+00 1.921e+00 pH = 5.317 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 167811 + Specific Conductance (µS/cm, 0°C) = 167906 Density (g/cm³) = 1.21277 Volume (L) = 1.10600 - Viscosity (mPa s) = 2.85679 + Viscosity (mPa s) = 2.85415 Activity of water = 0.737 Ionic strength (mol/kgw) = 7.211e+00 Mass of water (kg) = 1.000e+00 @@ -324,10 +324,10 @@ Halite 0.00 1.50 1.50 5.789e+00 7.498e+00 1.709e+00 pH = 4.942 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 126388 + Specific Conductance (µS/cm, 0°C) = 126460 Density (g/cm³) = 1.21877 Volume (L) = 1.09672 - Viscosity (mPa s) = 4.30377 + Viscosity (mPa s) = 4.30018 Activity of water = 0.700 Ionic strength (mol/kgw) = 8.502e+00 Mass of water (kg) = 1.000e+00 @@ -413,10 +413,10 @@ Halite 0.00 1.50 1.50 7.498e+00 8.796e+00 1.298e+00 pH = 4.517 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 95631 + Specific Conductance (µS/cm, 0°C) = 95682 Density (g/cm³) = 1.23610 Volume (L) = 1.09701 - Viscosity (mPa s) = 6.63707 + Viscosity (mPa s) = 6.63224 Activity of water = 0.633 Ionic strength (mol/kgw) = 1.020e+01 Mass of water (kg) = 1.000e+00 @@ -502,10 +502,10 @@ Halite 0.00 1.50 1.50 8.796e+00 9.544e+00 7.487e-01 pH = 3.978 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 72759 + Specific Conductance (µS/cm, 0°C) = 72791 Density (g/cm³) = 1.26609 Volume (L) = 1.11167 - Viscosity (mPa s) = 10.68055 + Viscosity (mPa s) = 10.67451 Activity of water = 0.526 Ionic strength (mol/kgw) = 1.246e+01 Mass of water (kg) = 1.000e+00 @@ -591,10 +591,10 @@ Halite 0.00 1.50 1.50 9.544e+00 9.857e+00 3.121e-01 pH = 3.353 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 55250 + Specific Conductance (µS/cm, 0°C) = 55268 Density (g/cm³) = 1.30224 Volume (L) = 1.13991 - Viscosity (mPa s) = 17.56019 + Viscosity (mPa s) = 17.55321 Activity of water = 0.395 Ionic strength (mol/kgw) = 1.514e+01 Mass of water (kg) = 1.000e+00 @@ -680,10 +680,10 @@ Halite 0.00 1.50 1.50 9.857e+00 9.936e+00 7.912e-02 pH = 3.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47571 + Specific Conductance (µS/cm, 0°C) = 47583 Density (g/cm³) = 1.32143 Volume (L) = 1.01576 - Viscosity (mPa s) = 22.88584 + Viscosity (mPa s) = 22.87844 Activity of water = 0.324 Ionic strength (mol/kgw) = 1.670e+01 Mass of water (kg) = 8.762e-01 @@ -769,10 +769,10 @@ Halite -0.00 1.50 1.50 9.936e+00 9.955e+00 1.978e-02 pH = 3.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47571 + Specific Conductance (µS/cm, 0°C) = 47583 Density (g/cm³) = 1.32143 Volume (L) = 0.70332 - Viscosity (mPa s) = 22.88584 + Viscosity (mPa s) = 22.87844 Activity of water = 0.324 Ionic strength (mol/kgw) = 1.670e+01 Mass of water (kg) = 6.067e-01 @@ -858,10 +858,10 @@ Halite 0.00 1.50 1.50 9.955e+00 9.975e+00 1.978e-02 pH = 3.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47571 + Specific Conductance (µS/cm, 0°C) = 47583 Density (g/cm³) = 1.32143 Volume (L) = 0.39088 - Viscosity (mPa s) = 22.88584 + Viscosity (mPa s) = 22.87844 Activity of water = 0.324 Ionic strength (mol/kgw) = 1.670e+01 Mass of water (kg) = 3.372e-01 @@ -947,10 +947,10 @@ Halite 0.00 1.50 1.50 9.975e+00 9.995e+00 1.978e-02 pH = 3.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47571 + Specific Conductance (µS/cm, 0°C) = 47583 Density (g/cm³) = 1.32143 Volume (L) = 0.07843 - Viscosity (mPa s) = 22.88584 + Viscosity (mPa s) = 22.87844 Activity of water = 0.324 Ionic strength (mol/kgw) = 1.670e+01 Mass of water (kg) = 6.766e-02 @@ -1108,10 +1108,10 @@ Halite -0.00 1.58 1.58 1.000e+01 3.276e+00 -6.724e+00 pH = 5.531 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1137228 + Specific Conductance (µS/cm, 100°C) = 1134310 Density (g/cm³) = 1.16968 Volume (L) = 1.19091 - Viscosity (mPa s) = 0.28799 + Viscosity (mPa s) = 0.28960 Activity of water = 0.740 Ionic strength (mol/kgw) = 6.724e+00 Mass of water (kg) = 1.000e+00 @@ -1190,10 +1190,10 @@ Halite 0.00 1.58 1.58 3.276e+00 5.048e+00 1.772e+00 pH = 4.016 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 903961 + Specific Conductance (µS/cm, 100°C) = 901535 Density (g/cm³) = 1.17967 Volume (L) = 1.17375 - Viscosity (mPa s) = 0.44501 + Viscosity (mPa s) = 0.44710 Activity of water = 0.723 Ionic strength (mol/kgw) = 7.952e+00 Mass of water (kg) = 1.000e+00 @@ -1279,10 +1279,10 @@ Halite 0.00 1.58 1.58 5.048e+00 6.652e+00 1.604e+00 pH = 3.719 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 711674 + Specific Conductance (µS/cm, 100°C) = 709757 Density (g/cm³) = 1.19408 Volume (L) = 1.16081 - Viscosity (mPa s) = 0.65070 + Viscosity (mPa s) = 0.65342 Activity of water = 0.696 Ionic strength (mol/kgw) = 9.348e+00 Mass of water (kg) = 1.000e+00 @@ -1368,10 +1368,10 @@ Halite 0.00 1.58 1.58 6.652e+00 7.986e+00 1.334e+00 pH = 3.413 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 558702 + Specific Conductance (µS/cm, 100°C) = 557261 Density (g/cm³) = 1.21523 Volume (L) = 1.15479 - Viscosity (mPa s) = 0.95172 + Viscosity (mPa s) = 0.95522 Activity of water = 0.652 Ionic strength (mol/kgw) = 1.101e+01 Mass of water (kg) = 1.000e+00 @@ -1457,10 +1457,10 @@ Halite 0.00 1.58 1.58 7.986e+00 8.945e+00 9.592e-01 pH = 3.031 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 437946 + Specific Conductance (µS/cm, 100°C) = 436953 Density (g/cm³) = 1.24507 Volume (L) = 1.15855 - Viscosity (mPa s) = 1.42131 + Viscosity (mPa s) = 1.42566 Activity of water = 0.584 Ionic strength (mol/kgw) = 1.305e+01 Mass of water (kg) = 1.000e+00 @@ -1546,10 +1546,10 @@ Halite 0.00 1.58 1.58 8.945e+00 9.509e+00 5.635e-01 pH = 2.555 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 342964 + Specific Conductance (µS/cm, 100°C) = 342345 Density (g/cm³) = 1.28285 Volume (L) = 1.17298 - Viscosity (mPa s) = 2.16563 + Viscosity (mPa s) = 2.17074 Activity of water = 0.491 Ionic strength (mol/kgw) = 1.549e+01 Mass of water (kg) = 1.000e+00 @@ -1635,10 +1635,10 @@ Halite 0.00 1.58 1.58 9.509e+00 9.783e+00 2.746e-01 pH = 2.005 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 268736 + Specific Conductance (µS/cm, 100°C) = 268375 Density (g/cm³) = 1.32472 Volume (L) = 1.19566 - Viscosity (mPa s) = 3.31208 + Viscosity (mPa s) = 3.31780 Activity of water = 0.388 Ionic strength (mol/kgw) = 1.822e+01 Mass of water (kg) = 1.000e+00 @@ -1724,10 +1724,10 @@ Halite 0.00 1.58 1.58 9.783e+00 9.904e+00 1.208e-01 pH = 1.412 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 211606 + Specific Conductance (µS/cm, 100°C) = 211399 Density (g/cm³) = 1.36690 Volume (L) = 1.22326 - Viscosity (mPa s) = 4.99267 + Viscosity (mPa s) = 4.99891 Activity of water = 0.289 Ionic strength (mol/kgw) = 2.110e+01 Mass of water (kg) = 1.000e+00 @@ -1813,10 +1813,10 @@ Halite 0.00 1.58 1.58 9.904e+00 9.955e+00 5.125e-02 pH = 0.991 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 180382 + Specific Conductance (µS/cm, 100°C) = 180241 Density (g/cm³) = 1.39505 Volume (L) = 0.99648 - Viscosity (mPa s) = 6.53228 + Viscosity (mPa s) = 6.53883 Activity of water = 0.229 Ionic strength (mol/kgw) = 2.312e+01 Mass of water (kg) = 8.011e-01 @@ -1902,10 +1902,10 @@ Halite 0.00 1.58 1.58 9.955e+00 9.991e+00 3.561e-02 pH = 0.991 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 180382 + Specific Conductance (µS/cm, 100°C) = 180241 Density (g/cm³) = 1.39505 Volume (L) = 0.19996 - Viscosity (mPa s) = 6.53228 + Viscosity (mPa s) = 6.53883 Activity of water = 0.229 Ionic strength (mol/kgw) = 2.312e+01 Mass of water (kg) = 1.607e-01 @@ -2072,10 +2072,10 @@ MgCl2_2H2O Element not present. 0.000e+00 0 0.000e+00 pH = 5.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2139079 + Specific Conductance (µS/cm, 200°C) = 2119078 Density (g/cm³) = 1.11251 Volume (L) = 1.31259 - Viscosity (mPa s) = 0.13973 + Viscosity (mPa s) = 0.14268 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.876e+00 Mass of water (kg) = 1.000e+00 @@ -2155,10 +2155,10 @@ MgCl2_2H2O -5.15 0.21 5.37 0.000e+00 0 0.000e+00 pH = 3.420 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1740982 + Specific Conductance (µS/cm, 200°C) = 1724784 Density (g/cm³) = 1.12463 Volume (L) = 1.29060 - Viscosity (mPa s) = 0.21367 + Viscosity (mPa s) = 0.21735 Activity of water = 0.727 Ionic strength (mol/kgw) = 9.095e+00 Mass of water (kg) = 1.000e+00 @@ -2245,10 +2245,10 @@ MgCl2_2H2O -4.70 0.66 5.37 0.000e+00 0 0.000e+00 pH = 3.178 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1417068 + Specific Conductance (µS/cm, 200°C) = 1404140 Density (g/cm³) = 1.14113 Volume (L) = 1.27305 - Viscosity (mPa s) = 0.30517 + Viscosity (mPa s) = 0.30976 Activity of water = 0.706 Ionic strength (mol/kgw) = 1.049e+01 Mass of water (kg) = 1.000e+00 @@ -2335,10 +2335,10 @@ MgCl2_2H2O -4.32 1.05 5.36 0.000e+00 0 0.000e+00 pH = 2.947 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1156503 + Specific Conductance (µS/cm, 200°C) = 1146401 Density (g/cm³) = 1.16261 Volume (L) = 1.26209 - Viscosity (mPa s) = 0.42884 + Viscosity (mPa s) = 0.43454 Activity of water = 0.676 Ionic strength (mol/kgw) = 1.211e+01 Mass of water (kg) = 1.000e+00 @@ -2425,10 +2425,10 @@ MgCl2_2H2O -3.91 1.46 5.36 0.000e+00 0 0.000e+00 pH = 2.677 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 942326 + Specific Conductance (µS/cm, 200°C) = 934807 Density (g/cm³) = 1.18914 Volume (L) = 1.26014 - Viscosity (mPa s) = 0.60581 + Viscosity (mPa s) = 0.61275 Activity of water = 0.631 Ionic strength (mol/kgw) = 1.401e+01 Mass of water (kg) = 1.000e+00 @@ -2515,10 +2515,10 @@ MgCl2_2H2O -3.45 1.91 5.36 0.000e+00 0 0.000e+00 pH = 2.345 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 763736 + Specific Conductance (µS/cm, 200°C) = 758504 Density (g/cm³) = 1.21966 Volume (L) = 1.26909 - Viscosity (mPa s) = 0.86549 + Viscosity (mPa s) = 0.87366 Activity of water = 0.570 Ionic strength (mol/kgw) = 1.623e+01 Mass of water (kg) = 1.000e+00 @@ -2605,10 +2605,10 @@ MgCl2_2H2O -2.97 2.39 5.36 0.000e+00 0 0.000e+00 pH = 1.950 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 614993 + Specific Conductance (µS/cm, 200°C) = 611581 Density (g/cm³) = 1.25192 Volume (L) = 1.28900 - Viscosity (mPa s) = 1.24531 + Viscosity (mPa s) = 1.25458 Activity of water = 0.497 Ionic strength (mol/kgw) = 1.873e+01 Mass of water (kg) = 1.000e+00 @@ -2695,10 +2695,10 @@ MgCl2_2H2O -2.49 2.87 5.36 0.000e+00 0 0.000e+00 pH = 1.504 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 493209 + Specific Conductance (µS/cm, 200°C) = 491074 Density (g/cm³) = 1.28343 Volume (L) = 1.31810 - Viscosity (mPa s) = 1.78752 + Viscosity (mPa s) = 1.79774 Activity of water = 0.419 Ionic strength (mol/kgw) = 2.143e+01 Mass of water (kg) = 1.000e+00 @@ -2785,10 +2785,10 @@ MgCl2_2H2O -2.02 3.34 5.36 0.000e+00 0 0.000e+00 pH = 1.022 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 395671 + Specific Conductance (µS/cm, 200°C) = 394356 Density (g/cm³) = 1.31255 Volume (L) = 1.35396 - Viscosity (mPa s) = 2.53631 + Viscosity (mPa s) = 2.54735 Activity of water = 0.343 Ionic strength (mol/kgw) = 2.426e+01 Mass of water (kg) = 1.000e+00 @@ -2875,10 +2875,10 @@ MgCl2_2H2O -1.59 3.77 5.36 0.000e+00 0 0.000e+00 pH = 0.514 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 318791 + Specific Conductance (µS/cm, 200°C) = 317978 Density (g/cm³) = 1.33865 Volume (L) = 1.39457 - Viscosity (mPa s) = 3.53720 + Viscosity (mPa s) = 3.54897 Activity of water = 0.276 Ionic strength (mol/kgw) = 2.717e+01 Mass of water (kg) = 1.000e+00 @@ -2965,10 +2965,10 @@ MgCl2_2H2O -1.20 4.16 5.36 0.000e+00 0 0.000e+00 pH = -0.011 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 258622 + Specific Conductance (µS/cm, 200°C) = 258111 Density (g/cm³) = 1.36172 Volume (L) = 1.43853 - Viscosity (mPa s) = 4.83751 + Viscosity (mPa s) = 4.84996 Activity of water = 0.217 Ionic strength (mol/kgw) = 3.012e+01 Mass of water (kg) = 1.000e+00 @@ -3055,10 +3055,10 @@ MgCl2_2H2O -0.84 4.52 5.36 0.000e+00 0 0.000e+00 pH = -0.550 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 211531 + Specific Conductance (µS/cm, 200°C) = 211204 Density (g/cm³) = 1.38204 Volume (L) = 1.48493 - Viscosity (mPa s) = 6.48673 + Viscosity (mPa s) = 6.49981 Activity of water = 0.169 Ionic strength (mol/kgw) = 3.308e+01 Mass of water (kg) = 1.000e+00 @@ -3145,10 +3145,10 @@ MgCl2_2H2O -0.53 4.84 5.36 0.000e+00 0 0.000e+00 pH = -1.103 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 174518 + Specific Conductance (µS/cm, 200°C) = 174304 Density (g/cm³) = 1.39995 Volume (L) = 1.53313 - Viscosity (mPa s) = 8.53665 + Viscosity (mPa s) = 8.55032 Activity of water = 0.131 Ionic strength (mol/kgw) = 3.606e+01 Mass of water (kg) = 1.000e+00 @@ -3235,10 +3235,10 @@ MgCl2_2H2O -0.25 5.11 5.36 0.000e+00 0 0.000e+00 pH = -1.667 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 145234 + Specific Conductance (µS/cm, 200°C) = 145091 Density (g/cm³) = 1.41583 Volume (L) = 1.58270 - Viscosity (mPa s) = 11.04135 + Viscosity (mPa s) = 11.05559 Activity of water = 0.101 Ionic strength (mol/kgw) = 3.905e+01 Mass of water (kg) = 1.000e+00 @@ -3325,10 +3325,10 @@ MgCl2_2H2O -0.00 5.36 5.36 0.000e+00 0 0.000e+00 pH = -2.245 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 121891 + Specific Conductance (µS/cm, 200°C) = 121793 Density (g/cm³) = 1.43002 Volume (L) = 1.63332 - Viscosity (mPa s) = 14.05719 + Viscosity (mPa s) = 14.07198 Activity of water = 0.077 Ionic strength (mol/kgw) = 4.205e+01 Mass of water (kg) = 1.000e+00 @@ -3415,10 +3415,10 @@ MgCl2_2H2O -0.00 5.36 5.36 0.000e+00 1.978e+00 1.978e+00 pH = -2.257 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 121446 + Specific Conductance (µS/cm, 200°C) = 121349 Density (g/cm³) = 1.43031 Volume (L) = 1.51793 - Viscosity (mPa s) = 14.12765 + Viscosity (mPa s) = 14.14244 Activity of water = 0.077 Ionic strength (mol/kgw) = 4.211e+01 Mass of water (kg) = 9.287e-01 diff --git a/mytest/NaMgCl_101.sel b/mytest/NaMgCl_101.sel index 8a5a88da..c36432d9 100644 --- a/mytest/NaMgCl_101.sel +++ b/mytest/NaMgCl_101.sel @@ -1,40 +1,40 @@ Mu SC - 0.000000033952 0.0114689826 - 6.132053766901 221809.7740655612 - 7.211174982329 167811.9296792625 - 8.501965196353 126388.1118882147 - 10.204218652649 95631.1376752819 - 12.455539102725 72759.5536051034 - 15.143439694349 55250.9443435467 - 16.695864293917 47571.1168614423 - 16.695864288280 47571.1168819526 - 16.695864287490 47571.1168890349 - 16.695864280403 47571.1169525416 - 0.000000760968 0.7572688296 - 6.724229046556 1137228.6889680577 - 7.952326456055 903961.2710908446 - 9.348230013987 711674.7698778309 - 11.013841544369 558702.3275486103 - 13.054688253044 437946.7725703702 - 15.491147436911 342964.7419914398 - 18.216567647740 268736.8350359875 - 21.095783700730 211606.3206512408 - 23.123582540603 180382.8152531646 - 23.123582497234 180382.8161317578 - 0.000002215556 2.5565438291 - 7.875619321683 2139079.9324312462 - 9.095375951433 1740982.9575481634 - 10.487949869976 1417068.7488987378 - 12.108542948893 1156503.1808750448 - 14.012745019509 942326.1720089588 - 16.228545753250 763736.7317894478 - 18.726508695873 614993.9488277886 - 21.431190448782 493209.5422047078 - 24.264208946716 395671.0402739326 - 27.169962103874 318791.8261440617 - 30.115758423279 258622.1025990071 - 33.083807828867 211531.4543166605 - 36.064620425584 174518.4033342110 - 39.053115460279 145234.7311806767 - 42.046566616353 121891.2415680478 - 42.110577540964 121446.6401417929 + 0.000000033952 0.0114689830 + 6.132053766901 221931.8504935190 + 7.211174982329 167906.8202084744 + 8.501965196353 126460.3667448181 + 10.204218652649 95682.4643133324 + 12.455539102725 72791.1498876088 + 15.143439694349 55268.0519177209 + 16.695864293917 47583.1124884475 + 16.695864288280 47583.1125089693 + 16.695864287490 47583.1125160555 + 16.695864280403 47583.1125795975 + 0.000000760968 0.7572678746 + 6.724229046556 1134310.1045927370 + 7.952326456055 901535.0064437597 + 9.348230013987 709757.2170979418 + 11.013841544369 557261.7700674208 + 13.054688253044 436953.8867159875 + 15.491147436911 342345.6494451767 + 18.216567647740 268375.9704666063 + 21.095783700730 211399.8901715793 + 23.123582540603 180241.4338519246 + 23.123582497234 180241.4347289300 + 0.000002215556 2.5565189023 + 7.875619321683 2119078.1899398654 + 9.095375951433 1724784.7510727583 + 10.487949869976 1404140.9024402390 + 12.108542948893 1146401.8383723805 + 14.012745019509 934807.3186511907 + 16.228545753250 758504.7743124507 + 18.726508695873 611581.0028591776 + 21.431190448782 491074.7194135103 + 24.264208946716 394356.0284397032 + 27.169962103874 317978.4687674110 + 30.115758423279 258111.4094093088 + 33.083807828867 211204.3125910602 + 36.064620425584 174304.2547597494 + 39.053115460279 145091.4959580975 + 42.046566616353 121793.4428829043 + 42.110577540964 121349.6147522761 diff --git a/mytest/NaNH4K_ClBrSO4.out b/mytest/NaNH4K_ClBrSO4.out index c2600517..157a1e5d 100644 --- a/mytest/NaNH4K_ClBrSO4.out +++ b/mytest/NaNH4K_ClBrSO4.out @@ -244,7 +244,7 @@ Initial solution 3. Specific Conductance (µS/cm, 25°C) = 235671 Density (g/cm³) = 1.11216 Volume (L) = 1.07853 - Viscosity (mPa s) = 1.03753 + Viscosity (mPa s) = 1.03752 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -2110,7 +2110,7 @@ Initial solution 30. Specific Conductance (µS/cm, 25°C) = 292631 Density (g/cm³) = 1.17604 Volume (L) = 1.14489 - Viscosity (mPa s) = 1.30944 + Viscosity (mPa s) = 1.30943 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.642e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/NaNH4K_ClBrSO4_101.sel b/mytest/NaNH4K_ClBrSO4_101.sel index 007844b6..90ae7a9e 100644 --- a/mytest/NaNH4K_ClBrSO4_101.sel +++ b/mytest/NaNH4K_ClBrSO4_101.sel @@ -1,31 +1,31 @@ Mu SC Viscosity - 1.000000146505 97172.0840967784 0.9280920551 - 2.000000153301 173903.2822482166 0.9761521697 - 3.000000156391 235671.0565032407 1.0375251787 - 4.000000157320 284005.1690782324 1.1130169750 - 5.000000156894 320419.4644303606 1.2031207979 - 3.000000156391 262783.4527262045 0.9493125009 - 1.000000148572 98245.9429621998 0.9159432219 - 2.000000154834 175963.3822716338 0.9518178992 - 3.000000157266 238755.5319642359 1.0009668708 - 4.000000157764 288120.1038089117 1.0642413849 - 3.000000156681 207220.1918126512 1.1292888138 - 3.000000157857 264557.4451840336 0.8973480549 - 1.563224081892 127099.6357675080 1.2149573403 - 2.222017027728 187207.0669600464 1.3433203566 - 3.094258770377 254456.2641889502 1.6691524143 - 3.915507695684 318892.8498922151 2.0727059412 - 3.985848388425 337302.5882721393 1.7502361941 - 3.422991626001 291183.0459495255 1.6188777424 - 1.794778033675 152591.7448578523 1.1049917515 - 2.611188227098 213997.7704490251 1.1799548777 - 3.417021882613 269175.1333009069 1.1656425306 - 2.152855659898 183442.1569771403 1.1444092898 - 2.262837484641 184938.9651860554 1.1549496774 - 2.490497934628 211742.7466726785 1.1783331165 - 1.787582727362 161855.3373302777 1.0157752751 - 3.405353359221 266528.2354356344 1.2328106493 - 4.956719314079 334020.1056650415 1.5862270473 - 2.477685760903 207111.8149561532 1.0658610004 - 2.279946190134 201390.6563524692 1.0159248930 - 3.641777952830 292631.6789329059 1.3094351187 + 1.000000146505 97172.0923581932 0.9280919207 + 2.000000153301 173903.3020482375 0.9761519797 + 3.000000156391 235671.0872608185 1.0375249459 + 4.000000157320 284005.2087193761 1.1130167062 + 5.000000156894 320419.5103433949 1.2031204973 + 3.000000156391 262783.4834519565 0.9493122830 + 1.000000148572 98245.9506960048 0.9159430885 + 2.000000154834 175963.4010610184 0.9518177105 + 3.000000157266 238755.5615299261 1.0009666397 + 4.000000157764 288120.1423535001 1.0642411180 + 3.000000156681 207220.2213674713 1.1292885680 + 3.000000157857 264557.4730468141 0.8973478395 + 1.563224081892 127099.6370736827 1.2149570933 + 2.222017027728 187207.0645883114 1.3433200801 + 3.094258770377 254456.2571721761 1.6691520975 + 3.915507695684 318892.8372300697 2.0727055919 + 3.985848388425 337302.5713814501 1.7502358548 + 3.422991626001 291183.0341714146 1.6188774214 + 1.794778033675 152591.7456137338 1.1049914908 + 2.611188227098 213997.7698609826 1.1799545697 + 3.417021882613 269175.1310794209 1.1656421834 + 2.152855659898 183442.1558779782 1.1444090130 + 2.262837484641 184938.9667831784 1.1549493819 + 2.490497934628 211742.7434617837 1.1783328261 + 1.787582727362 161855.3448169400 1.0157750750 + 3.405353359221 266528.2465722981 1.2328103799 + 4.956719314079 334020.1142562393 1.5862267270 + 2.477685760903 207111.8296312655 1.0658607729 + 2.279946190134 201390.6679202383 1.0159246776 + 3.641777952830 292631.6807104598 1.3094348327 diff --git a/mytest/NaOH_density.out b/mytest/NaOH_density.out index 3fbb4cfd..4172c1c1 100644 --- a/mytest/NaOH_density.out +++ b/mytest/NaOH_density.out @@ -72,7 +72,7 @@ Na, mol/L: 1.0000e+00 Specific Conductance (µS/cm, 25°C) = 179782 Density (g/cm³) = 1.03944 (Iterated) Volume (L) = 0.50028 - Viscosity (mPa s) = 1.09756 + Viscosity (mPa s) = 1.09755 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.001e+00 Mass of water (kg) = 5.000e-01 diff --git a/mytest/NaOH_density_101.sel b/mytest/NaOH_density_101.sel index d77ac6c3..bb542033 100644 --- a/mytest/NaOH_density_101.sel +++ b/mytest/NaOH_density_101.sel @@ -1,5 +1,5 @@ Mu SC - 1.000553911614 179782.5163291675 - 1.000580157187 179786.6649668837 - 0.964640095616 324747.9077453028 - 1.022036207427 85867.2030577101 + 1.000553911614 179782.5179668564 + 1.000580157187 179786.6666046173 + 0.964640095616 324747.9446553811 + 1.022036207427 85867.2125236166 diff --git a/mytest/Na_MgCl.out b/mytest/Na_MgCl.out index 0025b772..af22d385 100644 --- a/mytest/Na_MgCl.out +++ b/mytest/Na_MgCl.out @@ -2675,7 +2675,7 @@ Initial solution 11. Specific Conductance (µS/cm, 25°C) = 65468 Density (g/cm³) = 1.03094 (Iterated) Volume (L) = 1.01222 - Viscosity (mPa s) = 1.05605 + Viscosity (mPa s) = 1.05604 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.265e+00 Mass of water (kg) = 1.000e+00 @@ -4842,7 +4842,7 @@ Initial solution 32. pH = 5.321 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 163348 + Specific Conductance (µS/cm, 25°C) = 163349 Density (g/cm³) = 1.15382 Volume (L) = 1.05576 Viscosity (mPa s) = 2.13997 @@ -4958,7 +4958,7 @@ Initial solution 34. pH = 4.860 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 144018 + Specific Conductance (µS/cm, 25°C) = 144019 Density (g/cm³) = 1.22644 Volume (L) = 1.09549 Viscosity (mPa s) = 3.97902 diff --git a/mytest/Na_MgCl_101.sel b/mytest/Na_MgCl_101.sel index 6454a7f9..6ced0d09 100644 --- a/mytest/Na_MgCl_101.sel +++ b/mytest/Na_MgCl_101.sel @@ -1,85 +1,85 @@ Mu SC - 0.000501593160 62.0523251573 - 0.001003104166 123.2819167451 - 0.005015308118 601.0169298364 - 0.010031110802 1181.2653057954 - 0.020066114253 2309.1046866951 - 0.050191120111 5543.3547972708 - 0.100470125484 10655.6564991080 - 0.125640127358 13126.5119674205 - 0.150840128932 15554.8779546759 - 0.176060130288 17945.7497393969 - 0.201310131480 20304.3961076561 - 0.251840133498 24931.8659890219 - 0.302490135171 29461.5432800602 - 0.404070137844 38265.9070697646 - 0.506030139947 46778.0436458546 - 0.608440141690 55038.7596198642 - 0.711170143181 63059.5999919675 - 0.814380144492 70867.6840034327 - 0.917990145662 78466.9006135431 - 1.022000146720 85864.6773222850 - 1.231400148575 100088.7510788619 - 1.442600150153 113570.4595623525 - 1.655600151511 126328.5360447085 - 1.870500152681 138382.2200883193 - 2.087200153685 149737.1007027142 - 2.638300155577 175203.9709100343 - 3.202500156722 196609.6291544356 - 3.780700157254 214179.4355455430 - 4.373800157288 228168.6202288827 - 4.982800156910 238859.4549872965 - 5.609200156189 246554.0338148788 - 6.058700155507 250317.2953238192 - 0.759100995451 53268.6556280593 - 1.533477063039 94684.7713041788 - 3.134919058187 156205.7976148865 - 4.817448868825 194155.2100556510 - 6.220342963521 209718.0701113212 - 1.012169573892 59542.8135827836 - 2.045281917187 103100.0187999154 - 4.186083040471 161514.5707747228 - 6.445594978700 187726.5619744737 - 8.160360276513 189334.3592844805 - 1.265272781877 65468.2612633660 - 2.557557314526 110698.2182727485 - 5.241791863134 163605.6768643326 - 8.090816238629 173438.7251901112 - 9.897659664617 163426.2649494665 - 0.000226519637 19.1296818364 - 0.000510850542 42.7613790536 - 0.000840180796 69.8465071392 - 0.001606264888 132.0252722562 - 0.003061566793 247.9207611882 - 0.004269137997 342.4798363474 - 0.006285340163 497.8634129490 - 0.007873141543 618.4584263733 - 0.009493727011 740.1935755982 - 0.012618602152 971.6629180406 - 0.015044990484 1148.8483248972 - 0.031688931088 2321.1813142092 - 0.070928845898 4906.5848987336 - 0.071882844263 4967.3032958985 - 0.076151837105 5238.0103413124 - 0.132929758752 8711.5693954097 - 0.207509680632 13016.5178378607 - 0.231509658661 14355.5526334849 - 0.272069623827 16576.1625237701 - 0.278039618904 16898.8580509250 - 0.377969542217 22161.8062287211 - 0.547589428924 30598.4718997815 - 0.550049427379 30716.8862504519 - 0.668129353057 36283.6540297790 - 0.702539332417 37864.9767093408 - 0.952799187891 48871.3762341037 - 1.182899059625 58308.2410979401 - 1.194599053150 58772.1872914061 - 1.966798617853 86428.1725027033 - 2.968497969099 114899.1712765592 - 4.794596313356 148882.2148413527 - 6.873593206247 163348.9959147866 - 8.879988180280 158696.6307378433 - 10.823980215391 144018.9919485210 - 12.647968347582 126690.1325142627 - 14.237952705599 111429.3788108715 - 15.728931457166 98069.0376827873 + 0.000501593160 62.0523253232 + 0.001003104166 123.2819172111 + 0.005015308118 601.0169349115 + 0.010031110802 1181.2653198946 + 0.020066114253 2309.1047256388 + 0.050191120111 5543.3549447399 + 0.100470125484 10655.6568984719 + 0.125640127358 13126.5125164174 + 0.150840128932 15554.8786660017 + 0.176060130288 17945.7506241509 + 0.201310131480 20304.3971758217 + 0.251840133498 24931.8674498457 + 0.302490135171 29461.5451638963 + 0.404070137844 38265.9098734483 + 0.506030139947 46778.0474477944 + 0.608440141690 55038.7644812524 + 0.711170143181 63059.6059589066 + 0.814380144492 70867.6911126458 + 0.917990145662 78466.9088916025 + 1.022000146720 85864.6867877783 + 1.231400148575 100088.7629499876 + 1.442600150153 113570.4738417986 + 1.655600151511 126328.5526974681 + 1.870500152681 138382.2390497813 + 2.087200153685 149737.1218822026 + 2.638300155577 175203.9971290005 + 3.202500156722 196609.6595328643 + 3.780700157254 214179.4691151654 + 4.373800157288 228168.6560188058 + 4.982800156910 238859.4920839220 + 5.609200156189 246554.0713998445 + 6.058700155507 250317.3328244547 + 0.759100995451 53268.6627934293 + 1.533477063039 94684.7878665744 + 3.134919058187 156205.8302299495 + 4.817448868825 194155.2514286067 + 6.220342963521 209718.1129736097 + 1.012169573892 59542.8249005313 + 2.045281917187 103100.0433719031 + 4.186083040471 161514.6137072422 + 6.445594978700 187726.6088215802 + 8.160360276513 189334.4014145129 + 1.265272781877 65468.2775523496 + 2.557557314526 110698.2516494282 + 5.241791863134 163605.7278665272 + 8.090816238629 173438.7704742489 + 9.897659664617 163426.3006045028 + 0.000226519637 19.1296819287 + 0.000510850542 42.7613793633 + 0.000840180796 69.8465077875 + 0.001606264888 132.0252739492 + 0.003061566793 247.9207655722 + 0.004269137997 342.4798434935 + 0.006285340163 497.8634255392 + 0.007873141543 618.4584438635 + 0.009493727011 740.1935985681 + 0.012618602152 971.6629527600 + 0.015044990484 1148.8483696806 + 0.031688931088 2321.1814448513 + 0.070928845898 4906.5853079786 + 0.071882844263 4967.3037128972 + 0.076151837105 5238.0107934844 + 0.132929758752 8711.5703776172 + 0.207509680632 13016.5196464184 + 0.231509658661 14355.5547313767 + 0.272069623827 16576.1651314842 + 0.278039618904 16898.8607356820 + 0.377969542217 22161.8102663283 + 0.547589428924 30598.4784325103 + 0.550049427379 30716.8928206912 + 0.668129353057 36283.6624317597 + 0.702539332417 37864.9856545745 + 0.952799187891 48871.3892019966 + 1.182899059625 58308.2577955364 + 1.194599053150 58772.2041779383 + 1.966798617853 86428.2013100912 + 2.968497969099 114899.2128579871 + 4.794596313356 148882.2694498641 + 6.873593206247 163349.0498699024 + 8.879988180280 158696.6744205253 + 10.823980215391 144019.0235691038 + 12.647968347582 126690.1544728653 + 14.237952705599 111429.3944044724 + 15.728931457166 98069.0489063650 diff --git a/mytest/O2_conc_PR_IS_101.sel b/mytest/O2_conc_PR_IS_101.sel index fae5aaae..7870c374 100644 --- a/mytest/O2_conc_PR_IS_101.sel +++ b/mytest/O2_conc_PR_IS_101.sel @@ -1,8 +1,8 @@ Mu SC 0.000000100661 0.0546997340 - 0.000000108541 0.0607575810 - 0.000000109496 0.0613257464 - 0.000000110454 0.0619024587 - 0.000000111414 0.0624869940 - 0.000000112378 0.0630787182 - 0.000000113344 0.0636770084 + 0.000000108541 0.0607575807 + 0.000000109496 0.0613257461 + 0.000000110454 0.0619024584 + 0.000000111414 0.0624869937 + 0.000000112378 0.0630787179 + 0.000000113344 0.0636770081 diff --git a/mytest/PR_EQ.out b/mytest/PR_EQ.out index 15348fca..3844bf45 100644 --- a/mytest/PR_EQ.out +++ b/mytest/PR_EQ.out @@ -239,10 +239,10 @@ Calcite -0.00 -8.63 -8.63 1.000e+01 9.972e+00 -2.813e-02 pH = 4.864 Charge balance pe = -2.027 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 6133 + Specific Conductance (µS/cm, 50°C) = 6132 Density (g/cm³) = 1.00475 Volume (L) = 1.04710 - Viscosity (mPa s) = 0.66810 + Viscosity (mPa s) = 0.66831 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.818e-02 Mass of water (kg) = 9.995e-01 diff --git a/mytest/PR_EQ_101.sel b/mytest/PR_EQ_101.sel index 54ded3a6..e1785e07 100644 --- a/mytest/PR_EQ_101.sel +++ b/mytest/PR_EQ_101.sel @@ -1,5 +1,5 @@ Mu SC 0.000000106116 0.0583722451 - 0.116414320195 5231.3043582372 - 0.078177992337 6133.8289223876 - 0.116414320190 5231.3043579777 + 0.116414320195 5231.3046338726 + 0.078177992337 6132.9128166351 + 0.116414320190 5231.3046336130 diff --git a/mytest/PR_EQ_GP_101.sel b/mytest/PR_EQ_GP_101.sel index 2abf2bad..120c4a2e 100644 --- a/mytest/PR_EQ_GP_101.sel +++ b/mytest/PR_EQ_GP_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000830396012 248.4467735581 - 0.000759448871 237.5662174909 + 0.000830396012 248.4467745769 + 0.000759448871 237.5662184409 diff --git a/mytest/PR_equil2.out b/mytest/PR_equil2.out index 947f65d6..7b4e06cc 100644 --- a/mytest/PR_equil2.out +++ b/mytest/PR_equil2.out @@ -166,7 +166,7 @@ N2(g) 1.99 9.695e+01 1.193 4.896e+00 4.641e+00 -2.555e-01 Specific Conductance (µS/cm, 25°C) = 48045 Density (g/cm³) = 1.03152 Volume (L) = 1.02358 - Viscosity (mPa s) = 1.50939 + Viscosity (mPa s) = 1.50938 Activity of water = 0.969 Ionic strength (mol/kgw) = 5.157e-01 Mass of water (kg) = 9.840e-01 diff --git a/mytest/PR_equil2_101.sel b/mytest/PR_equil2_101.sel index fb928f59..0029a21c 100644 --- a/mytest/PR_equil2_101.sel +++ b/mytest/PR_equil2_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.000816515014 253.9667232214 - 0.515682556903 48045.8124501927 - 0.000842862328 240.5773706598 - 0.000842862328 240.5773706598 + 0.000816515014 253.9667242676 + 0.515682556903 48045.8126005427 + 0.000842862328 240.5773716386 + 0.000842862328 240.5773716386 diff --git a/mytest/PR_equil_101.sel b/mytest/PR_equil_101.sel index 50d1d54c..08e7e20b 100644 --- a/mytest/PR_equil_101.sel +++ b/mytest/PR_equil_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.000379560194 139.4233790432 - 0.000379560194 139.4233790432 - 0.000332720731 124.0027889836 - 0.000380566364 139.8576932709 - 0.000380566365 139.8576935832 + 0.000379560194 139.4233794675 + 0.000379560194 139.4233794675 + 0.000332720731 124.0027893391 + 0.000380566364 139.8576936970 + 0.000380566365 139.8576940093 diff --git a/mytest/PR_initial_gas_noredox.out b/mytest/PR_initial_gas_noredox.out index accc895a..1cdb68f4 100644 --- a/mytest/PR_initial_gas_noredox.out +++ b/mytest/PR_initial_gas_noredox.out @@ -200,10 +200,10 @@ Initial solution 1. Khuff reservoir: Franco et al., 2009, SAJT. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 132°C) = 638910 + Specific Conductance (µS/cm, 132°C) = 636326 Density (g/cm³) = 1.09834 Volume (L) = 1.12710 - Viscosity (mPa s) = 0.36891 + Viscosity (mPa s) = 0.37088 Activity of water = 0.858 Ionic strength (mol/kgw) = 4.635e+00 Mass of water (kg) = 1.000e+00 @@ -378,10 +378,10 @@ Ng(g) 1.58 3.815e+01 1.229 1.152e+00 1.118e+00 -3.388e-02 pH = 5.636 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 132°C) = 638586 + Specific Conductance (µS/cm, 132°C) = 636001 Density (g/cm³) = 1.10315 Volume (L) = 1.12844 - Viscosity (mPa s) = 0.36824 + Viscosity (mPa s) = 0.37021 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.642e+00 Mass of water (kg) = 9.989e-01 @@ -592,10 +592,10 @@ Ng(g) -0.73 1.852e-01 1.011 1.118e+00 5.684e-03 -1.112e+00 pH = 6.502 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 132°C) = 655485 + Specific Conductance (µS/cm, 132°C) = 652797 Density (g/cm³) = 1.08079 Volume (L) = 1.14963 - Viscosity (mPa s) = 0.35128 + Viscosity (mPa s) = 0.35318 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.616e+00 Mass of water (kg) = 1.004e+00 @@ -780,10 +780,10 @@ Ng(g) -0.74 1.812e-01 1.007 1.118e+00 5.692e-03 -1.112e+00 pH = 6.443 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 121°C) = 612266 + Specific Conductance (µS/cm, 121°C) = 610128 Density (g/cm³) = 1.08907 Volume (L) = 1.14136 - Viscosity (mPa s) = 0.38602 + Viscosity (mPa s) = 0.38780 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.614e+00 Mass of water (kg) = 1.005e+00 @@ -968,10 +968,10 @@ Ng(g) -0.75 1.768e-01 1.005 1.118e+00 5.697e-03 -1.112e+00 pH = 6.383 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 109°C) = 567319 + Specific Conductance (µS/cm, 109°C) = 565657 Density (g/cm³) = 1.09701 Volume (L) = 1.13343 - Viscosity (mPa s) = 0.42783 + Viscosity (mPa s) = 0.42948 Activity of water = 0.857 Ionic strength (mol/kgw) = 4.612e+00 Mass of water (kg) = 1.005e+00 @@ -1156,10 +1156,10 @@ Ng(g) -0.76 1.721e-01 1.003 1.118e+00 5.702e-03 -1.112e+00 pH = 6.323 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 98°C) = 520933 + Specific Conductance (µS/cm, 98°C) = 519676 Density (g/cm³) = 1.10461 Volume (L) = 1.12588 - Viscosity (mPa s) = 0.47874 + Viscosity (mPa s) = 0.48027 Activity of water = 0.856 Ionic strength (mol/kgw) = 4.611e+00 Mass of water (kg) = 1.006e+00 @@ -1344,10 +1344,10 @@ Ng(g) -0.78 1.672e-01 1.002 1.118e+00 5.705e-03 -1.112e+00 pH = 6.266 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 87°C) = 473464 + Specific Conductance (µS/cm, 87°C) = 472546 Density (g/cm³) = 1.11185 Volume (L) = 1.11872 - Viscosity (mPa s) = 0.54158 + Viscosity (mPa s) = 0.54296 Activity of water = 0.854 Ionic strength (mol/kgw) = 4.611e+00 Mass of water (kg) = 1.006e+00 @@ -1532,10 +1532,10 @@ Ng(g) -0.79 1.622e-01 1.002 1.118e+00 5.706e-03 -1.112e+00 pH = 6.211 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 425321 + Specific Conductance (µS/cm, 75°C) = 424681 Density (g/cm³) = 1.11873 Volume (L) = 1.11196 - Viscosity (mPa s) = 0.62032 + Viscosity (mPa s) = 0.62155 Activity of water = 0.853 Ionic strength (mol/kgw) = 4.610e+00 Mass of water (kg) = 1.006e+00 @@ -1720,10 +1720,10 @@ Ng(g) -0.80 1.570e-01 1.001 1.118e+00 5.706e-03 -1.112e+00 pH = 6.161 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 376958 + Specific Conductance (µS/cm, 64°C) = 376540 Density (g/cm³) = 1.12526 Volume (L) = 1.10561 - Viscosity (mPa s) = 0.72076 + Viscosity (mPa s) = 0.72181 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.610e+00 Mass of water (kg) = 1.006e+00 @@ -1908,10 +1908,10 @@ Ng(g) -0.82 1.517e-01 1.001 1.118e+00 5.704e-03 -1.112e+00 pH = 6.117 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 328859 + Specific Conductance (µS/cm, 53°C) = 328613 Density (g/cm³) = 1.13143 Volume (L) = 1.09964 - Viscosity (mPa s) = 0.85161 + Viscosity (mPa s) = 0.85245 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.609e+00 Mass of water (kg) = 1.006e+00 @@ -2096,10 +2096,10 @@ Ng(g) -0.83 1.463e-01 1.000 1.118e+00 5.700e-03 -1.112e+00 pH = 6.081 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 281522 + Specific Conductance (µS/cm, 41°C) = 281404 Density (g/cm³) = 1.13729 Volume (L) = 1.09403 - Viscosity (mPa s) = 1.02656 + Viscosity (mPa s) = 1.02713 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.609e+00 Mass of water (kg) = 1.006e+00 @@ -2284,10 +2284,10 @@ Ng(g) -0.85 1.409e-01 1.000 1.118e+00 5.693e-03 -1.112e+00 pH = 6.059 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 235441 + Specific Conductance (µS/cm, 30°C) = 235412 Density (g/cm³) = 1.14289 Volume (L) = 1.08872 - Viscosity (mPa s) = 1.26824 + Viscosity (mPa s) = 1.26845 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.609e+00 Mass of water (kg) = 1.006e+00 diff --git a/mytest/PR_initial_gas_noredox_101.sel b/mytest/PR_initial_gas_noredox_101.sel index a6ac8647..2810ba36 100644 --- a/mytest/PR_initial_gas_noredox_101.sel +++ b/mytest/PR_initial_gas_noredox_101.sel @@ -1,13 +1,13 @@ Mu SC - 4.635066465994 638910.2127172180 - 4.641997021290 638586.9680947380 - 4.616305300833 655485.9746214432 - 4.614103932351 612266.8715316600 - 4.612490319789 567319.4985790356 - 4.611328212411 520933.9180824709 - 4.610509417347 473464.5624515998 - 4.609947437063 425321.2290235420 - 4.609573492285 376958.0293970811 - 4.609333655838 328859.3397427603 - 4.609186504208 281522.7389189306 - 4.609101035682 235441.4511556228 + 4.635066465994 636326.2339346560 + 4.641997021290 636001.9575447849 + 4.616305300833 652797.5536893671 + 4.614103932351 610128.6007920020 + 4.612490319789 565657.0263439675 + 4.611328212411 519676.8158572877 + 4.610509417347 472546.7713578776 + 4.609947437063 424681.5292853080 + 4.609573492285 376540.4855787360 + 4.609333655838 328613.6812378853 + 4.609186504208 281404.6387778351 + 4.609101035682 235412.6694009539 diff --git a/mytest/PR_mx_new_101.sel b/mytest/PR_mx_new_101.sel index 53592378..455ebc53 100644 --- a/mytest/PR_mx_new_101.sel +++ b/mytest/PR_mx_new_101.sel @@ -1,16 +1,16 @@ Mu SC 0.000000100661 0.0546997340 - 0.004380395635 494.8106095963 - 0.106017851924 10616.8766447544 - 0.176101132697 17094.9522737116 - 0.231247965457 22078.5729170346 - 0.276522835873 26145.1610446832 - 0.315328158146 29642.0112261489 - 0.350237223458 32814.6353458090 - 0.383280216654 35850.2893445090 - 0.416130693937 38901.8940919491 - 0.450257246302 42104.5201227785 - 0.487053218396 45588.0161122061 - 0.527952159461 49487.4572430359 - 0.574537354408 53952.4404601771 - 0.628653283154 59155.7972083991 + 0.004380395635 494.8106098453 + 0.106017851924 10616.8766668091 + 0.176101132697 17094.9523152985 + 0.231247965457 22078.5729746856 + 0.276522835873 26145.1611159053 + 0.315328158146 29642.0113093807 + 0.350237223458 32814.6354402487 + 0.383280216654 35850.2894499772 + 0.416130693937 38901.8942088083 + 0.450257246302 42104.5202519056 + 0.487053218396 45588.0162550138 + 0.527952159461 49487.4574015421 + 0.574537354408 53952.4406371275 + 0.628653283154 59155.7974074538 diff --git a/mytest/P_CO2_Na2SO4.out b/mytest/P_CO2_Na2SO4.out index b1881f29..869d36c7 100644 --- a/mytest/P_CO2_Na2SO4.out +++ b/mytest/P_CO2_Na2SO4.out @@ -68,10 +68,10 @@ Initial solution 1. pH = 6.842 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 140°C) = 425174 + Specific Conductance (µS/cm, 140°C) = 421985 Density (g/cm³) = 1.03719 Volume (L) = 1.10109 - Viscosity (mPa s) = 0.29534 + Viscosity (mPa s) = 0.29780 Activity of water = 0.967 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -163,10 +163,10 @@ H2O(g) 0.56 3.651e+00 0.928 0.000e+00 1.119e-01 1.119e-01 pH = 4.678 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 422487 + Specific Conductance (µS/cm, 140°C) = 419307 Density (g/cm³) = 1.03748 Volume (L) = 1.10146 - Viscosity (mPa s) = 0.29436 + Viscosity (mPa s) = 0.29683 Activity of water = 0.966 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 9.979e-01 @@ -265,10 +265,10 @@ H2O(g) 0.58 3.840e+00 0.886 0.000e+00 1.201e-01 1.201e-01 pH = 4.535 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 419610 + Specific Conductance (µS/cm, 140°C) = 416447 Density (g/cm³) = 1.03754 Volume (L) = 1.10358 - Viscosity (mPa s) = 0.29353 + Viscosity (mPa s) = 0.29600 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.978e-01 @@ -367,10 +367,10 @@ H2O(g) 0.61 4.035e+00 0.847 0.000e+00 1.288e-01 1.288e-01 pH = 4.455 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 416709 + Specific Conductance (µS/cm, 140°C) = 413563 Density (g/cm³) = 1.03760 Volume (L) = 1.10550 - Viscosity (mPa s) = 0.29288 + Viscosity (mPa s) = 0.29535 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.976e-01 @@ -469,10 +469,10 @@ H2O(g) 0.63 4.236e+00 0.811 0.000e+00 1.380e-01 1.380e-01 pH = 4.400 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 413818 + Specific Conductance (µS/cm, 140°C) = 410691 Density (g/cm³) = 1.03767 Volume (L) = 1.10724 - Viscosity (mPa s) = 0.29236 + Viscosity (mPa s) = 0.29483 Activity of water = 0.962 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.974e-01 @@ -571,10 +571,10 @@ H2O(g) 0.65 4.444e+00 0.777 0.000e+00 1.477e-01 1.477e-01 pH = 4.360 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 410959 + Specific Conductance (µS/cm, 140°C) = 407852 Density (g/cm³) = 1.03774 Volume (L) = 1.10880 - Viscosity (mPa s) = 0.29194 + Viscosity (mPa s) = 0.29440 Activity of water = 0.961 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.972e-01 @@ -673,10 +673,10 @@ H2O(g) 0.67 4.660e+00 0.744 0.000e+00 1.578e-01 1.578e-01 pH = 4.328 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 408143 + Specific Conductance (µS/cm, 140°C) = 405056 Density (g/cm³) = 1.03782 Volume (L) = 1.11021 - Viscosity (mPa s) = 0.29159 + Viscosity (mPa s) = 0.29406 Activity of water = 0.960 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.970e-01 @@ -775,10 +775,10 @@ H2O(g) 0.69 4.883e+00 0.713 0.000e+00 1.684e-01 1.684e-01 pH = 4.301 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 405376 + Specific Conductance (µS/cm, 140°C) = 402309 Density (g/cm³) = 1.03790 Volume (L) = 1.11149 - Viscosity (mPa s) = 0.29131 + Viscosity (mPa s) = 0.29378 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.968e-01 @@ -877,10 +877,10 @@ H2O(g) 0.71 5.114e+00 0.684 0.000e+00 1.795e-01 1.795e-01 pH = 4.279 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 402657 + Specific Conductance (µS/cm, 140°C) = 399611 Density (g/cm³) = 1.03798 Volume (L) = 1.11264 - Viscosity (mPa s) = 0.29108 + Viscosity (mPa s) = 0.29355 Activity of water = 0.958 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.966e-01 @@ -979,10 +979,10 @@ H2O(g) 0.73 5.353e+00 0.657 0.000e+00 1.911e-01 1.911e-01 pH = 4.260 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 399985 + Specific Conductance (µS/cm, 140°C) = 396960 Density (g/cm³) = 1.03806 Volume (L) = 1.11367 - Viscosity (mPa s) = 0.29089 + Viscosity (mPa s) = 0.29336 Activity of water = 0.957 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 9.964e-01 @@ -1081,10 +1081,10 @@ H2O(g) 0.75 5.601e+00 0.630 0.000e+00 2.031e-01 2.031e-01 pH = 4.244 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 397355 + Specific Conductance (µS/cm, 140°C) = 394351 Density (g/cm³) = 1.03815 Volume (L) = 1.11460 - Viscosity (mPa s) = 0.29074 + Viscosity (mPa s) = 0.29320 Activity of water = 0.957 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 9.962e-01 @@ -1170,10 +1170,10 @@ Initial solution 1. pH = 6.900 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 140°C) = 632069 + Specific Conductance (µS/cm, 140°C) = 627207 Density (g/cm³) = 1.13133 Volume (L) = 1.13503 - Viscosity (mPa s) = 0.40897 + Viscosity (mPa s) = 0.41246 Activity of water = 0.938 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -1265,10 +1265,10 @@ H2O(g) 0.55 3.546e+00 0.926 0.000e+00 1.087e-01 1.087e-01 pH = 4.621 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 628738 + Specific Conductance (µS/cm, 140°C) = 623898 Density (g/cm³) = 1.13190 Volume (L) = 1.13449 - Viscosity (mPa s) = 0.40869 + Viscosity (mPa s) = 0.41218 Activity of water = 0.937 Ionic strength (mol/kgw) = 6.008e+00 Mass of water (kg) = 9.980e-01 @@ -1367,10 +1367,10 @@ H2O(g) 0.57 3.739e+00 0.883 0.000e+00 1.171e-01 1.171e-01 pH = 4.479 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 625454 + Specific Conductance (µS/cm, 140°C) = 620637 Density (g/cm³) = 1.13208 Volume (L) = 1.13569 - Viscosity (mPa s) = 0.40824 + Viscosity (mPa s) = 0.41174 Activity of water = 0.936 Ionic strength (mol/kgw) = 6.007e+00 Mass of water (kg) = 9.978e-01 @@ -1469,10 +1469,10 @@ H2O(g) 0.60 3.936e+00 0.843 0.000e+00 1.260e-01 1.260e-01 pH = 4.399 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 622263 + Specific Conductance (µS/cm, 140°C) = 617471 Density (g/cm³) = 1.13226 Volume (L) = 1.13673 - Viscosity (mPa s) = 0.40791 + Viscosity (mPa s) = 0.41140 Activity of water = 0.934 Ionic strength (mol/kgw) = 6.007e+00 Mass of water (kg) = 9.976e-01 @@ -1571,10 +1571,10 @@ H2O(g) 0.62 4.141e+00 0.806 0.000e+00 1.353e-01 1.353e-01 pH = 4.345 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 619168 + Specific Conductance (µS/cm, 140°C) = 614400 Density (g/cm³) = 1.13245 Volume (L) = 1.13763 - Viscosity (mPa s) = 0.40765 + Viscosity (mPa s) = 0.41114 Activity of water = 0.933 Ionic strength (mol/kgw) = 6.007e+00 Mass of water (kg) = 9.974e-01 @@ -1673,10 +1673,10 @@ H2O(g) 0.64 4.352e+00 0.771 0.000e+00 1.451e-01 1.451e-01 pH = 4.304 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 616166 + Specific Conductance (µS/cm, 140°C) = 611422 Density (g/cm³) = 1.13264 Volume (L) = 1.13841 - Viscosity (mPa s) = 0.40745 + Viscosity (mPa s) = 0.41094 Activity of water = 0.933 Ionic strength (mol/kgw) = 6.007e+00 Mass of water (kg) = 9.972e-01 @@ -1775,10 +1775,10 @@ H2O(g) 0.66 4.570e+00 0.737 0.000e+00 1.554e-01 1.554e-01 pH = 4.273 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 613250 + Specific Conductance (µS/cm, 140°C) = 608530 Density (g/cm³) = 1.13283 Volume (L) = 1.13908 - Viscosity (mPa s) = 0.40730 + Viscosity (mPa s) = 0.41079 Activity of water = 0.932 Ionic strength (mol/kgw) = 6.008e+00 Mass of water (kg) = 9.970e-01 @@ -1877,10 +1877,10 @@ H2O(g) 0.68 4.796e+00 0.706 0.000e+00 1.661e-01 1.661e-01 pH = 4.247 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 610413 + Specific Conductance (µS/cm, 140°C) = 605717 Density (g/cm³) = 1.13302 Volume (L) = 1.13965 - Viscosity (mPa s) = 0.40719 + Viscosity (mPa s) = 0.41067 Activity of water = 0.931 Ionic strength (mol/kgw) = 6.008e+00 Mass of water (kg) = 9.968e-01 @@ -1979,10 +1979,10 @@ H2O(g) 0.70 5.029e+00 0.677 0.000e+00 1.773e-01 1.773e-01 pH = 4.225 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 607645 + Specific Conductance (µS/cm, 140°C) = 602972 Density (g/cm³) = 1.13322 Volume (L) = 1.14014 - Viscosity (mPa s) = 0.40711 + Viscosity (mPa s) = 0.41059 Activity of water = 0.930 Ionic strength (mol/kgw) = 6.009e+00 Mass of water (kg) = 9.966e-01 @@ -2081,10 +2081,10 @@ H2O(g) 0.72 5.270e+00 0.649 0.000e+00 1.890e-01 1.890e-01 pH = 4.206 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 604938 + Specific Conductance (µS/cm, 140°C) = 600288 Density (g/cm³) = 1.13342 Volume (L) = 1.14055 - Viscosity (mPa s) = 0.40705 + Viscosity (mPa s) = 0.41054 Activity of water = 0.930 Ionic strength (mol/kgw) = 6.010e+00 Mass of water (kg) = 9.964e-01 @@ -2183,10 +2183,10 @@ H2O(g) 0.74 5.519e+00 0.622 0.000e+00 2.011e-01 2.011e-01 pH = 4.190 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 602281 + Specific Conductance (µS/cm, 140°C) = 597655 Density (g/cm³) = 1.13362 Volume (L) = 1.14088 - Viscosity (mPa s) = 0.40702 + Viscosity (mPa s) = 0.41050 Activity of water = 0.929 Ionic strength (mol/kgw) = 6.011e+00 Mass of water (kg) = 9.961e-01 diff --git a/mytest/P_CO2_Na2SO4_101.sel b/mytest/P_CO2_Na2SO4_101.sel index 7847bcdc..81bc1ccc 100644 --- a/mytest/P_CO2_Na2SO4_101.sel +++ b/mytest/P_CO2_Na2SO4_101.sel @@ -1,23 +1,23 @@ Mu SC - 2.999977188125 425174.0724775512 - 3.002951997079 422487.0388552785 - 3.002201232106 419610.8903735341 - 3.001811380202 416709.5354645351 - 3.001626119799 413818.9741400986 - 3.001583267527 410959.9943692011 - 3.001650044971 408143.9780020184 - 3.001806412039 405376.0725470420 - 3.002038911591 402657.1663151250 - 3.002337895751 399985.1779236079 - 3.002696101946 397355.9197995666 - 5.999974691240 632069.3896508947 - 6.007567951325 628738.5006345983 - 6.006875475059 625454.5983869714 - 6.006694390260 622263.5661089837 - 6.006809328404 619168.6595222075 - 6.007134233446 616166.4325930553 - 6.007623600881 613250.5618736466 - 6.008249558121 610413.1761521968 - 6.008993370997 607645.4951469286 - 6.009841601545 604938.1781841805 - 6.010784126440 602281.5224410705 + 2.999977188125 421985.7037662158 + 3.002951997079 419307.8855796414 + 3.002201232106 416447.0056362987 + 3.001811380202 413563.2018548863 + 3.001626119799 410691.5905809955 + 3.001583267527 407852.4252219856 + 3.001650044971 405056.7406251776 + 3.001806412039 402309.4567535528 + 3.002038911591 399611.3156709891 + 3.002337895751 396960.1471319702 + 3.002696101946 394351.7162269092 + 5.999974691240 627207.6603592506 + 6.007567951325 623898.3687253088 + 6.006875475059 620637.9977887835 + 6.006694390260 617471.1172861785 + 6.006809328404 614400.4913018940 + 6.007134233446 611422.4627018411 + 6.007623600881 608530.6058623893 + 6.008249558121 605717.0054499822 + 6.008993370997 602972.8730115028 + 6.009841601545 600288.8839349860 + 6.010784126440 597655.3687329334 diff --git a/mytest/P_Vm_101.sel b/mytest/P_Vm_101.sel index a193ddb9..441d3f5e 100644 --- a/mytest/P_Vm_101.sel +++ b/mytest/P_Vm_101.sel @@ -1,25 +1,25 @@ Mu SC 0.000000100661 0.0546997340 - 0.000502892689 190.3372037212 - 0.000661702808 245.2454047244 - 0.000746983874 273.1204111428 - 0.000791007045 287.0649982492 - 0.000810666688 293.2237925128 - 0.000816754305 295.1345318402 - 0.000816970209 295.2033587073 - 0.000816570199 295.0832350992 - 0.000815806804 294.8545175268 - 0.000814896322 294.5816242172 - 0.000814122585 294.3493114054 - 0.000813778832 294.2453472454 - 0.000823225689 297.4674927359 - 0.000838368432 302.6740964910 - 0.000860472310 310.3285595163 - 0.000891210128 321.0429954304 - 0.000932891178 335.6685784522 - 0.000988882861 355.4688107952 - 0.001064455439 382.4807814193 - 0.001168703175 420.3655352710 + 0.000502892689 190.3372044078 + 0.000661702808 245.2454057381 + 0.000746983874 273.1204123411 + 0.000791007045 287.0649995444 + 0.000810666688 293.2237938517 + 0.000816754305 295.1345331928 + 0.000816970209 295.2033600604 + 0.000816570199 295.0832364514 + 0.000815806804 294.8545188773 + 0.000814896322 294.5816255657 + 0.000814122585 294.3493127523 + 0.000813778832 294.2453485915 + 0.000823225689 297.4674941042 + 0.000838368432 302.6740978953 + 0.000860472310 310.3285609738 + 0.000891210128 321.0429969633 + 0.000932891178 335.6685800896 + 0.000988882861 355.4688125768 + 0.001064455439 382.4807834029 + 0.001168703175 420.3655375471 0.000000105388 0.0561383328 0.000000106740 0.0567760920 0.000000107835 0.0573428434 @@ -60,68 +60,68 @@ 0.000000127974 0.0724060942 0.000000130816 0.0742700907 0.000000133961 0.0763303632 - 0.000273541092 107.0215341092 - 0.000372673190 139.9997588702 - 0.000438545983 159.2669491532 - 0.000484094062 171.2022012343 - 0.000512859378 178.1370255332 - 0.000525394555 181.0231152254 - 0.000525890040 181.1381062311 - 0.000524162334 180.7611918133 - 0.000520358033 179.9243225659 - 0.000514758039 178.6750723626 - 0.000507833631 177.1019216469 - 0.000500047964 175.2958096313 - 0.000491792011 173.3378590092 - 0.000483373033 171.2963885259 - 0.000475023844 169.2275817585 - 0.000466918623 167.1775304637 - 0.000459188207 165.1844335534 - 0.000451933588 163.2807734907 - 0.000445236464 161.4951442709 - 0.000439167778 159.8538799790 - 0.000433794630 158.3824883464 - 0.000429185796 157.1068619075 - 0.000425417588 156.0546710223 - 0.000422578629 155.2564772364 - 0.000420775666 154.7470830789 - 0.000420657168 154.7135321237 - 0.000420550450 154.6833074409 - 0.000420455674 154.6564577446 - 0.000420372979 154.6330240826 - 0.000420302569 154.6130658652 - 0.000420244558 154.5966170223 - 0.000420199124 154.5837289854 - 0.000420166423 154.5744470091 - 0.000420146669 154.5688326038 - 0.000420146494 154.5696773294 - 0.000421648205 155.2060855393 - 0.000423188826 155.8598610338 - 0.000424769206 156.5313953267 - 0.000426390230 157.2210981313 - 0.000428052824 157.9293982832 - 0.000429757962 158.6567457161 - 0.000431506662 159.4036132347 - 0.000433299999 160.1704987324 - 0.000435139102 160.9579275252 - 0.000437025163 161.7664549488 - 0.000438959438 162.5966692888 - 0.000440943259 163.4491950405 - 0.000442978033 164.3246961671 - 0.000445065257 165.2238806115 - 0.000447206517 166.1475041031 - 0.000449403505 167.0963755562 - 0.000451658021 168.0713622234 - 0.000453971991 169.0733952205 - 0.000456347469 170.1034770927 - 0.000458786659 171.1626882475 - 0.000461291924 172.2521957752 - 0.000463865802 173.3732619386 - 0.000466511023 174.5272544855 - 0.000469230531 175.7156574307 - 0.000472027500 176.9400838663 - 0.000474905362 178.2022891427 - 0.000477867830 179.5041861742 - 0.000480918930 180.8478620288 - 0.000484063026 182.2355966051 - 0.000487304865 183.6698834842 + 0.000273541092 107.0215343329 + 0.000372673190 139.9997592117 + 0.000438545983 159.2669495747 + 0.000484094062 171.2022017102 + 0.000512859378 178.1370260429 + 0.000525394555 181.0231157496 + 0.000525890040 181.1381067558 + 0.000524162334 180.7611923361 + 0.000520358033 179.9243230844 + 0.000514758039 178.6750728747 + 0.000507833631 177.1019221510 + 0.000500047964 175.2958101265 + 0.000491792011 173.3378594948 + 0.000483373033 171.2963890016 + 0.000475023844 169.2275822244 + 0.000466918623 167.1775309200 + 0.000459188207 165.1844340005 + 0.000451933588 163.2807739292 + 0.000445236464 161.4951447014 + 0.000439167778 159.8538804022 + 0.000433794630 158.3824887631 + 0.000429185796 157.1068623186 + 0.000425417588 156.0546714289 + 0.000422578629 155.2564776395 + 0.000420775666 154.7470834798 + 0.000420657168 154.7135325245 + 0.000420550450 154.6833078415 + 0.000420455674 154.6564581451 + 0.000420372979 154.6330244831 + 0.000420302569 154.6130662656 + 0.000420244558 154.5966174226 + 0.000420199124 154.5837293856 + 0.000420166423 154.5744474093 + 0.000420146669 154.5688330040 + 0.000420146494 154.5696777296 + 0.000421648205 155.2060859418 + 0.000423188826 155.8598614386 + 0.000424769206 156.5313957340 + 0.000426390230 157.2210985410 + 0.000428052824 157.9293986954 + 0.000429757962 158.6567461310 + 0.000431506662 159.4036136524 + 0.000433299999 160.1704991528 + 0.000435139102 160.9579279485 + 0.000437025163 161.7664553750 + 0.000438959438 162.5966697180 + 0.000440943259 163.4491954728 + 0.000442978033 164.3246966026 + 0.000445065257 165.2238810503 + 0.000447206517 166.1475045453 + 0.000449403505 167.0963760019 + 0.000451658021 168.0713626726 + 0.000453971991 169.0733956735 + 0.000456347469 170.1034775494 + 0.000458786659 171.1626887081 + 0.000461291924 172.2521962399 + 0.000463865802 173.3732624074 + 0.000466511023 174.5272549586 + 0.000469230531 175.7156579083 + 0.000472027500 176.9400843484 + 0.000474905362 178.2022896295 + 0.000477867830 179.5041866659 + 0.000480918930 180.8478625255 + 0.000484063026 182.2355971072 + 0.000487304865 183.6698839916 diff --git a/mytest/PercentSC_101.sel b/mytest/PercentSC_101.sel index 9e377790..5c2610d6 100644 --- a/mytest/PercentSC_101.sel +++ b/mytest/PercentSC_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.670402506809 52856.6430529688 + 0.670402506809 52856.6485243883 diff --git a/mytest/Ruby.out b/mytest/Ruby.out index 8dd0cb26..69f2f4a5 100644 --- a/mytest/Ruby.out +++ b/mytest/Ruby.out @@ -1080,7 +1080,7 @@ Initial solution 18. pH = 0.770 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 97110 + Specific Conductance (µS/cm, 25°C) = 97111 Density (g/cm³) = 1.01255 Volume (L) = 1.01212 Viscosity (mPa s) = 0.92323 @@ -1300,7 +1300,7 @@ Initial solution 22. pH = 0.085 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 288703 + Specific Conductance (µS/cm, 25°C) = 288704 Density (g/cm³) = 1.01973 Volume (L) = 1.02388 Viscosity (mPa s) = 0.92544 @@ -2546,7 +2546,7 @@ Initial solution 44. pH = -0.226 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 441439 + Specific Conductance (µS/cm, 25°C) = 441440 Density (g/cm³) = 1.05103 Volume (L) = 1.04982 Viscosity (mPa s) = 0.94186 @@ -3437,7 +3437,7 @@ Initial solution 60. pH = -1.332 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 797528 + Specific Conductance (µS/cm, 25°C) = 797529 Density (g/cm³) = 1.05901 Volume (L) = 1.08200 Viscosity (mPa s) = 1.07642 @@ -4110,7 +4110,7 @@ Initial solution 72. pH = -0.778 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 369621 + Specific Conductance (µS/cm, 25°C) = 369622 Density (g/cm³) = 1.10588 Volume (L) = 1.08384 Viscosity (mPa s) = 1.22946 @@ -4335,7 +4335,7 @@ Initial solution 76. pH = -0.743 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 451699 + Specific Conductance (µS/cm, 25°C) = 451700 Density (g/cm³) = 1.10753 Volume (L) = 1.09206 Viscosity (mPa s) = 1.12884 @@ -4512,7 +4512,7 @@ Initial solution 79. pH = -0.309 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 430971 + Specific Conductance (µS/cm, 25°C) = 430972 Density (g/cm³) = 1.12869 Volume (L) = 1.10781 Viscosity (mPa s) = 1.03174 diff --git a/mytest/Ruby_101.sel b/mytest/Ruby_101.sel index fa2a80c0..a2c47ef8 100644 --- a/mytest/Ruby_101.sel +++ b/mytest/Ruby_101.sel @@ -1,81 +1,81 @@ Mu SC Viscosity - 0.100000000000 39037.8163957789 0.8949866345 - 0.100000127116 12896.6147398138 0.8902305220 - 0.100000127935 10609.0359183574 0.8985395673 - 0.200000000000 75906.1553204265 0.8995933672 - 0.200000132605 24781.6725356966 0.8897436520 - 0.200000134161 20182.8319001066 0.9062510614 - 0.200000000000 42131.0191143932 0.9037215647 - 0.200000000000 53265.1936831904 0.9024177006 - 0.500000000000 178087.2436705413 0.9131832228 - 0.500000000000 155925.6675536004 0.9081268213 - 0.500000000000 132863.0637012067 0.9031119775 - 0.500000000000 108878.9338043566 0.8981542282 - 0.500000000000 83959.7222863246 0.8932649318 - 0.500000136409 58097.3309670118 0.8884515394 - 0.500000137714 53481.8977922729 0.9044315782 - 0.500000138369 51119.5213038597 0.9127229997 - 0.500000139689 46282.9116070467 0.9299541700 - 0.500000000000 97110.9974136129 0.9232281770 - 0.500000000000 123444.8465943408 0.9199194480 - 0.500000000000 94709.6872226384 0.9101013827 - 1.000000000000 325239.6912640301 0.9357011364 - 1.000000000000 288703.9708394521 0.9254369971 - 1.000000000000 248831.7718846419 0.9155394297 - 1.000000000000 205607.3933585908 0.9060065568 - 1.000000000000 159030.6590767232 0.8968414383 - 1.000000132166 109123.6040815901 0.8880445898 - 1.000000133141 104449.4587585224 0.9034869767 - 1.000000134121 99633.7007572908 0.9196928008 - 1.000000135105 94674.3752764055 0.9366934279 - 1.000000136093 89570.0524923744 0.9545177527 - 1.000000137086 84318.7569874028 0.9732095220 - 1.000000000000 127777.9082943134 0.9651463167 - 1.000000000000 173600.0715945044 0.9574166921 - 1.000000000000 221763.0419076402 0.9499842125 - 1.000000000000 272276.6619244544 0.9427856211 - 1.000000000000 234903.3564549563 0.9323505326 - 1.000000000000 184807.4414644966 0.9394618425 - 1.000000000000 195155.7706245232 0.9225202802 - 1.000000000000 152382.9243017275 0.9131960005 - 1.000000000000 143554.2905786177 0.9294038039 - 1.000000000000 136709.2370007040 0.9467713105 - 2.000000000000 549420.2583266855 0.9811966666 - 2.000000000000 500977.1259429642 0.9606849537 - 2.000000000000 441439.9307609108 0.9418612493 - 2.000000000000 371009.7290130634 0.9246308840 - 2.000000000000 290048.7334082749 0.9089462664 - 2.000000115882 199154.3679093283 0.8947664267 - 2.000000116955 189469.6512737270 0.9251612144 - 2.000000118026 179229.7570267613 0.9584161085 - 2.000000119098 168440.8840343273 0.9946437233 - 2.000000120169 157114.9342697320 1.0339485064 - 2.000000121238 145262.4533773167 1.0764910822 - 2.000000000000 208849.4494742377 1.0547916213 - 2.000000000000 280942.7848939538 1.0344949983 - 2.000000000000 361667.2722384952 1.0155476341 - 2.000000000000 451098.6622749849 0.9978484045 - 3.000000000000 700751.6858806259 1.0279462446 - 3.000000098898 275105.1886490661 0.9115507740 - 3.000000102661 189438.0389060979 1.2036758420 - 4.000000000000 797528.8729247059 1.0764198240 - 4.000000000000 761982.5154155545 1.0359025345 - 4.000000000000 695235.5863441853 1.0022196093 - 4.000000000000 599200.4372351837 0.9748818947 - 4.000000000000 477950.1012369824 0.9536149210 - 4.000000083741 337897.9002416748 0.9381880946 - 4.000000084072 317785.5997805919 1.0003890335 - 4.000000084370 295713.9377254216 1.0728307331 - 4.000000084634 271884.4727997077 1.1559048854 - 4.000000084863 246515.8008492637 1.2499842690 - 4.000000085057 219798.2331547418 1.3556562597 - 4.000000000000 283743.7102240762 1.2900642828 - 4.000000000000 369621.9301041643 1.2294641741 - 4.000000000000 481329.1717610102 1.1737982840 - 4.000000000000 622687.3971019958 1.1229056993 - 3.999900000000 589499.1831431191 1.0809061740 - 3.999900000000 451699.8817929410 1.1288434772 - 4.000000000000 379949.7748917196 1.1071545337 - 4.000000000000 334609.5096996851 1.1888438958 - 4.000000000000 430971.9368758673 1.0317430057 - 4.000000000000 525720.3949713121 1.0537075907 + 0.100000000000 39037.8183180015 0.8949866181 + 0.100000127116 12896.6150035284 0.8902304836 + 0.100000127935 10609.0363150603 0.8985395212 + 0.200000000000 75906.1605893501 0.8995933439 + 0.200000132605 24781.6732530619 0.8897435978 + 0.200000134161 20182.8329585349 0.9062509962 + 0.200000000000 42131.0243823607 0.9037215113 + 0.200000000000 53265.2001123614 0.9024176550 + 0.500000000000 178087.2629379981 0.9131831860 + 0.500000000000 155925.6893118818 0.9081267711 + 0.500000000000 132863.0844682324 0.9031119163 + 0.500000000000 108878.9507927719 0.8981541577 + 0.500000000000 83959.7331464382 0.8932648532 + 0.500000136409 58097.3336340986 0.8884514538 + 0.500000137714 53481.9009017175 0.9044314849 + 0.500000138369 51119.5246284603 0.9127229029 + 0.500000139689 46282.9153482244 0.9299540668 + 0.500000000000 97111.0161985096 0.9232280927 + 0.500000000000 123444.8697109841 0.9199193758 + 0.500000000000 94709.7033644552 0.9101013017 + 1.000000000000 325239.7396685374 0.9357010844 + 1.000000000000 288704.0266023619 0.9254369262 + 1.000000000000 248831.8261065581 0.9155393431 + 1.000000000000 205607.4384735200 0.9060064571 + 1.000000000000 159030.6883207488 0.8968413272 + 1.000000132166 109123.6111844387 0.8880444686 + 1.000000133141 104449.4663484657 0.9034868500 + 1.000000134121 99633.7088029900 0.9196926689 + 1.000000135105 94674.3837452611 0.9366932910 + 1.000000136093 89570.0613508218 0.9545176113 + 1.000000137086 84318.7662009263 0.9732093761 + 1.000000000000 127777.9371404057 0.9651461831 + 1.000000000000 173600.1167956239 0.9574165728 + 1.000000000000 221763.0983071851 0.9499841104 + 1.000000000000 272276.7212704858 0.9427855404 + 1.000000000000 234903.4121485087 0.9323504377 + 1.000000000000 184807.4872124775 0.9394617295 + 1.000000000000 195155.8163030285 0.9225201735 + 1.000000000000 152382.9542165390 0.9131958833 + 1.000000000000 143554.3199817364 0.9294036809 + 1.000000000000 136709.2666076158 0.9467711823 + 2.000000000000 549420.3674086881 0.9811965930 + 2.000000000000 500977.2563005302 0.9606848533 + 2.000000000000 441440.0616726445 0.9418611269 + 2.000000000000 371009.8410120285 0.9246307430 + 2.000000000000 290048.8076877038 0.9089461092 + 2.000000115882 199154.3861413366 0.8947662553 + 2.000000116955 189469.6702669843 0.9251610352 + 2.000000118026 179229.7766019503 0.9584159219 + 2.000000119098 168440.9040162201 0.9946435298 + 2.000000120169 157114.9544908320 1.0339483063 + 2.000000121238 145262.4736787633 1.0764908758 + 2.000000000000 208849.5069841003 1.0547914324 + 2.000000000000 280942.8767380574 1.0344948296 + 2.000000000000 361667.3906758518 1.0155474897 + 2.000000000000 451098.7914033124 0.9978482904 + 3.000000000000 700751.8463958852 1.0279461545 + 3.000000098898 275105.2189129579 0.9115505640 + 3.000000102661 189438.0679116732 1.2036755893 + 4.000000000000 797529.0714223515 1.0764197200 + 4.000000000000 761982.7676122191 1.0359023926 + 4.000000000000 695235.8515129264 1.0022194362 + 4.000000000000 599200.6712672731 0.9748816953 + 4.000000000000 477950.2595303780 0.9536146987 + 4.000000083741 337897.9418398270 0.9381878523 + 4.000000084072 317785.6411252093 1.0003887801 + 4.000000084370 295713.9780864487 1.0728304693 + 4.000000084634 271884.5115949382 1.1559046118 + 4.000000084863 246515.8376494999 1.2499839860 + 4.000000085057 219798.2676635323 1.3556559678 + 4.000000000000 283743.7879212847 1.2900640156 + 4.000000000000 369622.0581535191 1.2294639356 + 4.000000000000 481329.3504310088 1.1737980798 + 4.000000000000 622687.6107436044 1.1229055380 + 3.999900000000 589499.4058315179 1.0809059867 + 3.999900000000 451700.0473596060 1.1288432542 + 4.000000000000 379949.8919708821 1.1071542886 + 4.000000000000 334609.6079640578 1.1888436406 + 4.000000000000 430972.0770542078 1.0317427719 + 4.000000000000 525720.5950982770 1.0537073803 diff --git a/mytest/SC_Ohm.out b/mytest/SC_Ohm.out index 1461c821..37ad9c18 100644 --- a/mytest/SC_Ohm.out +++ b/mytest/SC_Ohm.out @@ -1343,7 +1343,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.957 Charge balance - pe = 10.977 Adjusted to redox equilibrium + pe = 10.979 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 134522 Density (g/cm³) = 1.06505 Volume (L) = 1037.69796 @@ -1371,12 +1371,12 @@ Reaction 1. Cl 1.800e+00 Cl- 1.800e+00 1.054e+00 0.255 0.023 -0.233 19.23 HCl 6.871e-09 4.010e-08 -8.163 -7.397 0.766 (0) -H(0) 1.268e-39 - H2 6.339e-40 9.595e-40 -39.198 -39.018 0.180 28.61 +H(0) 1.260e-39 + H2 6.299e-40 9.534e-40 -39.201 -39.021 0.180 28.61 Na 1.800e+00 Na+ 1.800e+00 1.440e+00 0.255 0.158 -0.097 0.06 -O(0) 5.273e-15 - O2 2.636e-15 3.990e-15 -14.579 -14.399 0.180 30.40 +O(0) 5.341e-15 + O2 2.670e-15 4.042e-15 -14.573 -14.393 0.180 30.40 ------------------------------Saturation indices------------------------------- @@ -1385,7 +1385,7 @@ O(0) 5.273e-15 H2(g) -35.92 -39.02 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.39 0.18 1.57 NaCl - O2(g) -11.51 -14.40 -2.89 O2 + O2(g) -11.50 -14.39 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1600,21 +1600,21 @@ Reaction 1. Cl 2.400e+00 Cl- 2.400e+00 1.392e+00 0.380 0.144 -0.237 19.40 HCl 5.080e-09 5.338e-08 -8.294 -7.273 1.021 (0) -H(0) 8.051e-40 - H2 4.025e-40 6.995e-40 -39.395 -39.155 0.240 28.61 +H(0) 8.069e-40 + H2 4.035e-40 7.011e-40 -39.394 -39.154 0.240 28.61 Na 2.400e+00 Na+ 2.400e+00 2.090e+00 0.380 0.320 -0.060 0.28 -O(0) 8.269e-15 - O2 4.135e-15 7.185e-15 -14.384 -14.144 0.240 30.40 +O(0) 8.231e-15 + O2 4.116e-15 7.152e-15 -14.386 -14.146 0.240 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.05 -39.16 -3.10 H2 + H2(g) -36.05 -39.15 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -1.11 0.46 1.57 NaCl - O2(g) -11.25 -14.14 -2.89 O2 + O2(g) -11.25 -14.15 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1647,7 +1647,7 @@ Reaction 2. pH = 6.592 Charge balance pe = 13.225 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 164777 + Specific Conductance (µS/cm, 25°C) = 164778 Density (g/cm³) = 1.08575 Volume (L) = 1050.21611 Viscosity (mPa s) = 1.12445 @@ -1829,18 +1829,18 @@ Reaction 1. Cl 3.000e+00 Cl- 3.000e+00 1.738e+00 0.477 0.240 -0.237 19.55 HCl 3.536e-09 6.688e-08 -8.452 -7.175 1.277 (0) -H(0) 5.304e-40 - H2 2.652e-40 5.291e-40 -39.576 -39.276 0.300 28.61 +H(0) 5.312e-40 + H2 2.656e-40 5.300e-40 -39.576 -39.276 0.300 28.61 Na 3.000e+00 Na+ 3.000e+00 2.865e+00 0.477 0.457 -0.020 0.48 -O(0) 1.204e-14 - O2 6.018e-15 1.201e-14 -14.221 -13.921 0.300 30.40 +O(0) 1.200e-14 + O2 5.999e-15 1.197e-14 -14.222 -13.922 0.300 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.18 -39.28 -3.10 H2 + H2(g) -36.17 -39.28 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.87 0.70 1.57 NaCl O2(g) -11.03 -13.92 -2.89 O2 @@ -2030,7 +2030,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = 11.085 Adjusted to redox equilibrium + pe = 11.087 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 209133 Density (g/cm³) = 1.12472 Volume (L) = 1076.17734 @@ -2058,18 +2058,18 @@ Reaction 1. Cl 3.600e+00 Cl- 3.600e+00 2.094e+00 0.556 0.321 -0.235 19.68 HCl 2.366e-09 8.059e-08 -8.626 -7.094 1.532 (0) -H(0) 5.205e-40 - H2 2.603e-40 5.962e-40 -39.585 -39.225 0.360 28.61 +H(0) 5.171e-40 + H2 2.586e-40 5.923e-40 -39.587 -39.227 0.360 28.61 Na 3.600e+00 Na+ 3.600e+00 3.788e+00 0.556 0.578 0.022 0.66 -O(0) 7.884e-15 - O2 3.942e-15 9.031e-15 -14.404 -14.044 0.360 30.40 +O(0) 7.989e-15 + O2 3.994e-15 9.151e-15 -14.399 -14.039 0.360 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.12 -39.22 -3.10 H2 + H2(g) -36.13 -39.23 -3.10 H2 H2O(g) -1.56 -0.06 1.50 H2O Halite -0.67 0.90 1.57 NaCl O2(g) -11.15 -14.04 -2.89 O2 @@ -2259,7 +2259,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.953 Charge balance - pe = 11.189 Adjusted to redox equilibrium + pe = 11.183 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 224461 Density (g/cm³) = 1.14309 Volume (L) = 1089.55681 @@ -2287,21 +2287,21 @@ Reaction 1. Cl 4.200e+00 Cl- 4.200e+00 2.461e+00 0.623 0.391 -0.232 19.80 HCl 1.541e-09 9.448e-08 -8.812 -7.025 1.788 (0) -H(0) 2.800e-40 - H2 1.400e-40 3.683e-40 -39.854 -39.434 0.420 28.61 +H(0) 2.881e-40 + H2 1.440e-40 3.789e-40 -39.842 -39.422 0.420 28.61 Na 4.200e+00 Na+ 4.200e+00 4.883e+00 0.623 0.689 0.065 0.82 -O(0) 1.717e-14 - O2 8.586e-15 2.258e-14 -14.066 -13.646 0.420 30.40 +O(0) 1.623e-14 + O2 8.113e-15 2.134e-14 -14.091 -13.671 0.420 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.33 -39.43 -3.10 H2 + H2(g) -36.32 -39.42 -3.10 H2 H2O(g) -1.57 -0.07 1.50 H2O Halite -0.49 1.08 1.57 NaCl - O2(g) -10.75 -13.65 -2.89 O2 + O2(g) -10.78 -13.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2488,7 +2488,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.955 Charge balance - pe = 11.235 Adjusted to redox equilibrium + pe = 11.262 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 236009 Density (g/cm³) = 1.16077 Volume (L) = 1103.17246 @@ -2517,20 +2517,20 @@ Cl 4.800e+00 Cl- 4.800e+00 2.841e+00 0.681 0.454 -0.228 19.90 HCl 9.833e-10 1.085e-07 -9.007 -6.964 2.043 (0) H(0) 0.000e+00 - H2 0.000e+00 2.948e-40 -40.010 -39.530 0.480 28.61 + H2 0.000e+00 2.601e-40 -40.065 -39.585 0.480 28.61 Na 4.800e+00 Na+ 4.800e+00 6.180e+00 0.681 0.791 0.110 0.97 -O(0) 2.224e-14 - O2 1.112e-14 3.359e-14 -13.954 -13.474 0.480 30.40 +O(0) 2.858e-14 + O2 1.429e-14 4.316e-14 -13.845 -13.365 0.480 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.43 -39.53 -3.10 H2 + H2(g) -36.48 -39.58 -3.10 H2 H2O(g) -1.58 -0.08 1.50 H2O Halite -0.33 1.24 1.57 NaCl - O2(g) -10.58 -13.47 -2.89 O2 + O2(g) -10.47 -13.36 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2717,7 +2717,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.958 Charge balance - pe = 11.253 Adjusted to redox equilibrium + pe = 11.280 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 244323 Density (g/cm³) = 1.17779 Volume (L) = 1117.00761 @@ -2746,20 +2746,20 @@ Cl 5.400e+00 Cl- 5.400e+00 3.235e+00 0.732 0.510 -0.222 20.00 HCl 6.179e-10 1.228e-07 -9.209 -6.911 2.298 (0) H(0) 0.000e+00 - H2 0.000e+00 2.681e-40 -40.112 -39.572 0.540 28.61 + H2 0.000e+00 2.365e-40 -40.166 -39.626 0.540 28.61 Na 5.400e+00 Na+ 5.400e+00 7.712e+00 0.732 0.887 0.155 1.12 -O(0) 2.230e-14 - O2 1.115e-14 3.866e-14 -13.953 -13.413 0.540 30.40 +O(0) 2.864e-14 + O2 1.432e-14 4.966e-14 -13.844 -13.304 0.540 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.47 -39.57 -3.10 H2 + H2(g) -36.53 -39.63 -3.10 H2 H2O(g) -1.59 -0.09 1.50 H2O Halite -0.17 1.40 1.57 NaCl - O2(g) -10.52 -13.41 -2.89 O2 + O2(g) -10.41 -13.30 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2946,7 +2946,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.961 Charge balance - pe = 11.307 Adjusted to redox equilibrium + pe = 11.326 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 249901 Density (g/cm³) = 1.19417 Volume (L) = 1131.04845 @@ -2975,20 +2975,20 @@ Cl 6.000e+00 Cl- 6.000e+00 3.644e+00 0.778 0.562 -0.217 20.09 HCl 3.835e-10 1.372e-07 -9.416 -6.863 2.554 (0) H(0) 0.000e+00 - H2 0.000e+00 2.055e-40 -40.287 -39.687 0.600 28.61 + H2 0.000e+00 1.884e-40 -40.325 -39.725 0.600 28.61 Na 6.000e+00 Na+ 6.000e+00 9.516e+00 0.778 0.978 0.200 1.25 -O(0) 3.142e-14 - O2 1.571e-14 6.255e-14 -13.804 -13.204 0.600 30.40 +O(0) 3.737e-14 + O2 1.868e-14 7.438e-14 -13.729 -13.129 0.600 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.59 -39.69 -3.10 H2 + H2(g) -36.62 -39.72 -3.10 H2 H2O(g) -1.60 -0.10 1.50 H2O Halite -0.03 1.54 1.57 NaCl - O2(g) -10.31 -13.20 -2.89 O2 + O2(g) -10.24 -13.13 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3021,7 +3021,7 @@ Reaction 2. pH = 5.942 Charge balance pe = 14.179 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 249901 + Specific Conductance (µS/cm, 25°C) = 249902 Density (g/cm³) = 1.19417 Volume (L) = 1131.04847 Viscosity (mPa s) = 1.73610 @@ -3175,7 +3175,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.965 Charge balance - pe = 11.332 Adjusted to redox equilibrium + pe = 11.350 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 253190 Density (g/cm³) = 1.20994 Volume (L) = 1145.28333 @@ -3204,20 +3204,20 @@ Cl 6.600e+00 Cl- 6.600e+00 4.067e+00 0.820 0.609 -0.210 20.18 HCl 2.357e-10 1.518e-07 -9.628 -6.819 2.809 (0) H(0) 0.000e+00 - H2 0.000e+00 1.800e-40 -40.405 -39.745 0.660 28.61 + H2 0.000e+00 1.660e-40 -40.440 -39.780 0.660 28.61 Na 6.600e+00 Na+ 6.600e+00 1.164e+01 0.820 1.066 0.246 1.38 -O(0) 3.386e-14 - O2 1.693e-14 7.739e-14 -13.771 -13.111 0.660 30.40 +O(0) 3.979e-14 + O2 1.990e-14 9.095e-14 -13.701 -13.041 0.660 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.64 -39.74 -3.10 H2 + H2(g) -36.68 -39.78 -3.10 H2 H2O(g) -1.61 -0.11 1.50 H2O Halite 0.11 1.68 1.57 NaCl - O2(g) -10.22 -13.11 -2.89 O2 + O2(g) -10.15 -13.04 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4872,7 +4872,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.962 Charge balance - pe = 11.013 Adjusted to redox equilibrium + pe = 11.015 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 98017 Density (g/cm³) = 1.04347 Volume (L) = 1025.55523 @@ -4900,21 +4900,21 @@ Reaction 1. Cl 1.200e+00 Cl- 1.200e+00 7.200e-01 0.079 -0.143 -0.222 19.03 HCl 8.345e-09 2.705e-08 -8.079 -7.568 0.511 (0) -H(0) 1.201e-39 - H2 6.005e-40 7.917e-40 -39.221 -39.101 0.120 28.61 +H(0) 1.191e-39 + H2 5.955e-40 7.850e-40 -39.225 -39.105 0.120 28.61 Na 1.200e+00 Na+ 1.200e+00 8.938e-01 0.079 -0.049 -0.128 -0.20 -O(0) 9.284e-15 - O2 4.642e-15 6.120e-15 -14.333 -14.213 0.120 30.40 +O(0) 9.442e-15 + O2 4.721e-15 6.224e-15 -14.326 -14.206 0.120 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.00 -39.10 -3.10 H2 + H2(g) -36.00 -39.11 -3.10 H2 H2O(g) -1.52 -0.02 1.50 H2O Halite -1.76 -0.19 1.57 NaCl - O2(g) -11.32 -14.21 -2.89 O2 + O2(g) -11.31 -14.21 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4947,7 +4947,7 @@ Reaction 2. pH = 6.660 Charge balance pe = 13.091 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 98017 + Specific Conductance (µS/cm, 25°C) = 98018 Density (g/cm³) = 1.04347 Volume (L) = 1025.55523 Viscosity (mPa s) = 0.99203 @@ -5023,7 +5023,7 @@ Reaction 0. pH = 7.411 Charge balance pe = -5.708 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 117095 + Specific Conductance (µS/cm, 25°C) = 117096 Density (g/cm³) = 1.05438 Volume (L) = 1031.57510 Viscosity (mPa s) = 1.02195 @@ -5101,8 +5101,8 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.959 Charge balance - pe = 11.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 117095 + pe = 11.040 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 117096 Density (g/cm³) = 1.05438 Volume (L) = 1031.57511 Viscosity (mPa s) = 1.02195 @@ -5129,21 +5129,21 @@ Reaction 1. Cl 1.500e+00 Cl- 1.500e+00 8.866e-01 0.176 -0.052 -0.228 19.14 HCl 7.713e-09 3.355e-08 -8.113 -7.474 0.638 (0) -H(0) 1.020e-39 - H2 5.099e-40 7.202e-40 -39.293 -39.143 0.150 28.61 +H(0) 1.006e-39 + H2 5.032e-40 7.109e-40 -39.298 -39.148 0.150 28.61 Na 1.500e+00 Na+ 1.500e+00 1.155e+00 0.176 0.063 -0.113 -0.06 -O(0) 1.025e-14 - O2 5.124e-15 7.238e-15 -14.290 -14.140 0.150 30.40 +O(0) 1.052e-14 + O2 5.259e-15 7.429e-15 -14.279 -14.129 0.150 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.04 -39.14 -3.10 H2 + H2(g) -36.05 -39.15 -3.10 H2 H2O(g) -1.53 -0.02 1.50 H2O Halite -1.56 0.01 1.57 NaCl - O2(g) -11.25 -14.14 -2.89 O2 + O2(g) -11.24 -14.13 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5330,7 +5330,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.957 Charge balance - pe = 11.047 Adjusted to redox equilibrium + pe = 11.050 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 134522 Density (g/cm³) = 1.06505 Volume (L) = 1037.69796 @@ -5358,12 +5358,12 @@ Reaction 1. Cl 1.800e+00 Cl- 1.800e+00 1.054e+00 0.255 0.023 -0.233 19.23 HCl 6.871e-09 4.010e-08 -8.163 -7.397 0.766 (0) -H(0) 9.188e-40 - H2 4.594e-40 6.954e-40 -39.338 -39.158 0.180 28.61 +H(0) 9.073e-40 + H2 4.536e-40 6.866e-40 -39.343 -39.163 0.180 28.61 Na 1.800e+00 Na+ 1.800e+00 1.440e+00 0.255 0.158 -0.097 0.06 -O(0) 1.004e-14 - O2 5.020e-15 7.598e-15 -14.299 -14.119 0.180 30.40 +O(0) 1.030e-14 + O2 5.149e-15 7.793e-15 -14.288 -14.108 0.180 30.40 ------------------------------Saturation indices------------------------------- @@ -5372,7 +5372,7 @@ O(0) 1.004e-14 H2(g) -36.06 -39.16 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.39 0.18 1.57 NaCl - O2(g) -11.23 -14.12 -2.89 O2 + O2(g) -11.22 -14.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5559,7 +5559,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.955 Charge balance - pe = 11.061 Adjusted to redox equilibrium + pe = 11.064 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 150388 Density (g/cm³) = 1.07551 Volume (L) = 1043.91411 @@ -5587,21 +5587,21 @@ Reaction 1. Cl 2.100e+00 Cl- 2.100e+00 1.222e+00 0.322 0.087 -0.235 19.32 HCl 5.965e-09 4.671e-08 -8.224 -7.331 0.894 (0) -H(0) 8.125e-40 - H2 4.062e-40 6.589e-40 -39.391 -39.181 0.210 28.61 +H(0) 8.023e-40 + H2 4.012e-40 6.506e-40 -39.397 -39.187 0.210 28.61 Na 2.100e+00 Na+ 2.100e+00 1.751e+00 0.322 0.243 -0.079 0.18 -O(0) 1.021e-14 - O2 5.106e-15 8.281e-15 -14.292 -14.082 0.210 30.40 +O(0) 1.047e-14 + O2 5.236e-15 8.492e-15 -14.281 -14.071 0.210 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.08 -39.18 -3.10 H2 + H2(g) -36.09 -39.19 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.24 0.33 1.57 NaCl - O2(g) -11.19 -14.08 -2.89 O2 + O2(g) -11.18 -14.07 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5710,7 +5710,7 @@ Reaction 0. pH = 7.798 Charge balance pe = -6.363 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 164777 + Specific Conductance (µS/cm, 25°C) = 164778 Density (g/cm³) = 1.08575 Volume (L) = 1050.21609 Viscosity (mPa s) = 1.12445 @@ -5788,7 +5788,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.953 Charge balance - pe = -1.662 Adjusted to redox equilibrium + pe = -1.627 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 164777 Density (g/cm³) = 1.08575 Volume (L) = 1050.21611 @@ -5816,21 +5816,21 @@ Reaction 1. Cl 2.400e+00 Cl- 2.400e+00 1.392e+00 0.380 0.144 -0.237 19.40 HCl 5.080e-09 5.338e-08 -8.294 -7.273 1.021 (0) -H(0) 2.126e-14 - H2 1.063e-14 1.847e-14 -13.974 -13.734 0.240 28.61 +H(0) 1.813e-14 + H2 9.063e-15 1.575e-14 -14.043 -13.803 0.240 28.61 Na 2.400e+00 Na+ 2.400e+00 2.090e+00 0.380 0.320 -0.060 0.28 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.227 -64.987 0.240 30.40 + O2 0.000e+00 0.000e+00 -65.089 -64.848 0.240 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.63 -13.73 -3.10 H2 + H2(g) -10.70 -13.80 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -1.11 0.46 1.57 NaCl - O2(g) -62.09 -64.99 -2.89 O2 + O2(g) -61.96 -64.85 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6017,7 +6017,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.655 Adjusted to redox equilibrium + pe = -1.308 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 177769 Density (g/cm³) = 1.09578 Volume (L) = 1056.59798 @@ -6045,21 +6045,21 @@ Reaction 1. Cl 2.700e+00 Cl- 2.700e+00 1.563e+00 0.431 0.194 -0.237 19.48 HCl 4.263e-09 6.010e-08 -8.370 -7.221 1.149 (0) -H(0) 1.937e-14 - H2 9.685e-15 1.803e-14 -14.014 -13.744 0.270 28.61 +H(0) 3.913e-15 + H2 1.956e-15 3.643e-15 -14.709 -14.439 0.270 28.61 Na 2.700e+00 Na+ 2.700e+00 2.461e+00 0.431 0.391 -0.040 0.39 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.246 -64.976 0.270 30.40 + O2 0.000e+00 0.000e+00 -63.857 -63.587 0.270 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.64 -13.74 -3.10 H2 + H2(g) -11.34 -14.44 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -0.98 0.59 1.57 NaCl - O2(g) -62.08 -64.98 -2.89 O2 + O2(g) -60.69 -63.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6092,7 +6092,7 @@ Reaction 2. pH = 5.999 Charge balance pe = 13.996 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 177769 + Specific Conductance (µS/cm, 25°C) = 177770 Density (g/cm³) = 1.09578 Volume (L) = 1056.59800 Viscosity (mPa s) = 1.16296 @@ -6246,7 +6246,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.709 Adjusted to redox equilibrium + pe = -1.470 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 189441 Density (g/cm³) = 1.10562 Volume (L) = 1063.05481 @@ -6274,21 +6274,21 @@ Reaction 1. Cl 3.000e+00 Cl- 3.000e+00 1.738e+00 0.477 0.240 -0.237 19.55 HCl 3.536e-09 6.688e-08 -8.452 -7.175 1.277 (0) -H(0) 2.319e-14 - H2 1.159e-14 2.313e-14 -13.936 -13.636 0.300 28.61 +H(0) 7.702e-15 + H2 3.851e-15 7.684e-15 -14.414 -14.114 0.300 28.61 Na 3.000e+00 Na+ 3.000e+00 2.865e+00 0.477 0.457 -0.020 0.48 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.502 -65.202 0.300 30.40 + O2 0.000e+00 0.000e+00 -64.545 -64.245 0.300 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.53 -13.64 -3.10 H2 + H2(g) -11.01 -14.11 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.87 0.70 1.57 NaCl - O2(g) -62.31 -65.20 -2.89 O2 + O2(g) -61.35 -64.24 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6475,7 +6475,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.749 Adjusted to redox equilibrium + pe = -1.546 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 199870 Density (g/cm³) = 1.11526 Volume (L) = 1069.58245 @@ -6503,21 +6503,21 @@ Reaction 1. Cl 3.300e+00 Cl- 3.300e+00 1.914e+00 0.519 0.282 -0.237 19.62 HCl 2.904e-09 7.371e-08 -8.537 -7.132 1.405 (0) -H(0) 2.604e-14 - H2 1.302e-14 2.784e-14 -13.885 -13.555 0.330 28.61 +H(0) 1.021e-14 + H2 5.103e-15 1.091e-14 -14.292 -13.962 0.330 28.61 Na 3.300e+00 Na+ 3.300e+00 3.307e+00 0.519 0.519 0.001 0.57 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.703 -65.373 0.330 30.40 + O2 0.000e+00 0.000e+00 -64.889 -64.559 0.330 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.45 -13.56 -3.10 H2 + H2(g) -10.86 -13.96 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.77 0.80 1.57 NaCl - O2(g) -62.48 -65.37 -2.89 O2 + O2(g) -61.67 -64.56 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/SC_Ohm1.out b/mytest/SC_Ohm1.out index b26f1d1c..d7f20eff 100644 --- a/mytest/SC_Ohm1.out +++ b/mytest/SC_Ohm1.out @@ -1334,7 +1334,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.957 Charge balance - pe = 10.977 Adjusted to redox equilibrium + pe = 10.979 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 134522 Density (g/cm³) = 1.06505 Volume (L) = 1037.69796 @@ -1362,12 +1362,12 @@ Reaction 1. Cl 1.800e+00 Cl- 1.800e+00 1.054e+00 0.255 0.023 -0.233 19.23 HCl 6.871e-09 4.010e-08 -8.163 -7.397 0.766 (0) -H(0) 1.268e-39 - H2 6.339e-40 9.595e-40 -39.198 -39.018 0.180 28.61 +H(0) 1.260e-39 + H2 6.299e-40 9.534e-40 -39.201 -39.021 0.180 28.61 Na 1.800e+00 Na+ 1.800e+00 1.440e+00 0.255 0.158 -0.097 0.06 -O(0) 5.273e-15 - O2 2.636e-15 3.990e-15 -14.579 -14.399 0.180 30.40 +O(0) 5.341e-15 + O2 2.670e-15 4.042e-15 -14.573 -14.393 0.180 30.40 ------------------------------Saturation indices------------------------------- @@ -1376,7 +1376,7 @@ O(0) 5.273e-15 H2(g) -35.92 -39.02 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.39 0.18 1.57 NaCl - O2(g) -11.51 -14.40 -2.89 O2 + O2(g) -11.50 -14.39 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1591,21 +1591,21 @@ Reaction 1. Cl 2.400e+00 Cl- 2.400e+00 1.392e+00 0.380 0.144 -0.237 19.40 HCl 5.080e-09 5.338e-08 -8.294 -7.273 1.021 (0) -H(0) 8.051e-40 - H2 4.025e-40 6.995e-40 -39.395 -39.155 0.240 28.61 +H(0) 8.069e-40 + H2 4.035e-40 7.011e-40 -39.394 -39.154 0.240 28.61 Na 2.400e+00 Na+ 2.400e+00 2.090e+00 0.380 0.320 -0.060 0.28 -O(0) 8.269e-15 - O2 4.135e-15 7.185e-15 -14.384 -14.144 0.240 30.40 +O(0) 8.231e-15 + O2 4.116e-15 7.152e-15 -14.386 -14.146 0.240 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.05 -39.16 -3.10 H2 + H2(g) -36.05 -39.15 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -1.11 0.46 1.57 NaCl - O2(g) -11.25 -14.14 -2.89 O2 + O2(g) -11.25 -14.15 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1638,7 +1638,7 @@ Reaction 2. pH = 6.592 Charge balance pe = 13.225 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 164777 + Specific Conductance (µS/cm, 25°C) = 164778 Density (g/cm³) = 1.08575 Volume (L) = 1050.21611 Viscosity (mPa s) = 1.12445 @@ -1820,18 +1820,18 @@ Reaction 1. Cl 3.000e+00 Cl- 3.000e+00 1.738e+00 0.477 0.240 -0.237 19.55 HCl 3.536e-09 6.688e-08 -8.452 -7.175 1.277 (0) -H(0) 5.304e-40 - H2 2.652e-40 5.291e-40 -39.576 -39.276 0.300 28.61 +H(0) 5.312e-40 + H2 2.656e-40 5.300e-40 -39.576 -39.276 0.300 28.61 Na 3.000e+00 Na+ 3.000e+00 2.865e+00 0.477 0.457 -0.020 0.48 -O(0) 1.204e-14 - O2 6.018e-15 1.201e-14 -14.221 -13.921 0.300 30.40 +O(0) 1.200e-14 + O2 5.999e-15 1.197e-14 -14.222 -13.922 0.300 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.18 -39.28 -3.10 H2 + H2(g) -36.17 -39.28 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.87 0.70 1.57 NaCl O2(g) -11.03 -13.92 -2.89 O2 @@ -2021,7 +2021,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = 11.085 Adjusted to redox equilibrium + pe = 11.087 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 209133 Density (g/cm³) = 1.12472 Volume (L) = 1076.17734 @@ -2049,18 +2049,18 @@ Reaction 1. Cl 3.600e+00 Cl- 3.600e+00 2.094e+00 0.556 0.321 -0.235 19.68 HCl 2.366e-09 8.059e-08 -8.626 -7.094 1.532 (0) -H(0) 5.205e-40 - H2 2.603e-40 5.962e-40 -39.585 -39.225 0.360 28.61 +H(0) 5.171e-40 + H2 2.586e-40 5.923e-40 -39.587 -39.227 0.360 28.61 Na 3.600e+00 Na+ 3.600e+00 3.788e+00 0.556 0.578 0.022 0.66 -O(0) 7.884e-15 - O2 3.942e-15 9.031e-15 -14.404 -14.044 0.360 30.40 +O(0) 7.989e-15 + O2 3.994e-15 9.151e-15 -14.399 -14.039 0.360 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.12 -39.22 -3.10 H2 + H2(g) -36.13 -39.23 -3.10 H2 H2O(g) -1.56 -0.06 1.50 H2O Halite -0.67 0.90 1.57 NaCl O2(g) -11.15 -14.04 -2.89 O2 @@ -2250,7 +2250,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.953 Charge balance - pe = 11.189 Adjusted to redox equilibrium + pe = 11.183 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 224461 Density (g/cm³) = 1.14309 Volume (L) = 1089.55681 @@ -2278,21 +2278,21 @@ Reaction 1. Cl 4.200e+00 Cl- 4.200e+00 2.461e+00 0.623 0.391 -0.232 19.80 HCl 1.541e-09 9.448e-08 -8.812 -7.025 1.788 (0) -H(0) 2.800e-40 - H2 1.400e-40 3.683e-40 -39.854 -39.434 0.420 28.61 +H(0) 2.881e-40 + H2 1.440e-40 3.789e-40 -39.842 -39.422 0.420 28.61 Na 4.200e+00 Na+ 4.200e+00 4.883e+00 0.623 0.689 0.065 0.82 -O(0) 1.717e-14 - O2 8.586e-15 2.258e-14 -14.066 -13.646 0.420 30.40 +O(0) 1.623e-14 + O2 8.113e-15 2.134e-14 -14.091 -13.671 0.420 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.33 -39.43 -3.10 H2 + H2(g) -36.32 -39.42 -3.10 H2 H2O(g) -1.57 -0.07 1.50 H2O Halite -0.49 1.08 1.57 NaCl - O2(g) -10.75 -13.65 -2.89 O2 + O2(g) -10.78 -13.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2479,7 +2479,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.955 Charge balance - pe = 11.235 Adjusted to redox equilibrium + pe = 11.262 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 236009 Density (g/cm³) = 1.16077 Volume (L) = 1103.17246 @@ -2508,20 +2508,20 @@ Cl 4.800e+00 Cl- 4.800e+00 2.841e+00 0.681 0.454 -0.228 19.90 HCl 9.833e-10 1.085e-07 -9.007 -6.964 2.043 (0) H(0) 0.000e+00 - H2 0.000e+00 2.948e-40 -40.010 -39.530 0.480 28.61 + H2 0.000e+00 2.601e-40 -40.065 -39.585 0.480 28.61 Na 4.800e+00 Na+ 4.800e+00 6.180e+00 0.681 0.791 0.110 0.97 -O(0) 2.224e-14 - O2 1.112e-14 3.359e-14 -13.954 -13.474 0.480 30.40 +O(0) 2.858e-14 + O2 1.429e-14 4.316e-14 -13.845 -13.365 0.480 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.43 -39.53 -3.10 H2 + H2(g) -36.48 -39.58 -3.10 H2 H2O(g) -1.58 -0.08 1.50 H2O Halite -0.33 1.24 1.57 NaCl - O2(g) -10.58 -13.47 -2.89 O2 + O2(g) -10.47 -13.36 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2708,7 +2708,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.958 Charge balance - pe = 11.253 Adjusted to redox equilibrium + pe = 11.280 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 244323 Density (g/cm³) = 1.17779 Volume (L) = 1117.00761 @@ -2737,20 +2737,20 @@ Cl 5.400e+00 Cl- 5.400e+00 3.235e+00 0.732 0.510 -0.222 20.00 HCl 6.179e-10 1.228e-07 -9.209 -6.911 2.298 (0) H(0) 0.000e+00 - H2 0.000e+00 2.681e-40 -40.112 -39.572 0.540 28.61 + H2 0.000e+00 2.365e-40 -40.166 -39.626 0.540 28.61 Na 5.400e+00 Na+ 5.400e+00 7.712e+00 0.732 0.887 0.155 1.12 -O(0) 2.230e-14 - O2 1.115e-14 3.866e-14 -13.953 -13.413 0.540 30.40 +O(0) 2.864e-14 + O2 1.432e-14 4.966e-14 -13.844 -13.304 0.540 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.47 -39.57 -3.10 H2 + H2(g) -36.53 -39.63 -3.10 H2 H2O(g) -1.59 -0.09 1.50 H2O Halite -0.17 1.40 1.57 NaCl - O2(g) -10.52 -13.41 -2.89 O2 + O2(g) -10.41 -13.30 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2937,7 +2937,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.961 Charge balance - pe = 11.307 Adjusted to redox equilibrium + pe = 11.326 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 249901 Density (g/cm³) = 1.19417 Volume (L) = 1131.04845 @@ -2966,20 +2966,20 @@ Cl 6.000e+00 Cl- 6.000e+00 3.644e+00 0.778 0.562 -0.217 20.09 HCl 3.835e-10 1.372e-07 -9.416 -6.863 2.554 (0) H(0) 0.000e+00 - H2 0.000e+00 2.055e-40 -40.287 -39.687 0.600 28.61 + H2 0.000e+00 1.884e-40 -40.325 -39.725 0.600 28.61 Na 6.000e+00 Na+ 6.000e+00 9.516e+00 0.778 0.978 0.200 1.25 -O(0) 3.142e-14 - O2 1.571e-14 6.255e-14 -13.804 -13.204 0.600 30.40 +O(0) 3.737e-14 + O2 1.868e-14 7.438e-14 -13.729 -13.129 0.600 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.59 -39.69 -3.10 H2 + H2(g) -36.62 -39.72 -3.10 H2 H2O(g) -1.60 -0.10 1.50 H2O Halite -0.03 1.54 1.57 NaCl - O2(g) -10.31 -13.20 -2.89 O2 + O2(g) -10.24 -13.13 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3012,7 +3012,7 @@ Reaction 2. pH = 5.942 Charge balance pe = 14.179 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 249901 + Specific Conductance (µS/cm, 25°C) = 249902 Density (g/cm³) = 1.19417 Volume (L) = 1131.04847 Viscosity (mPa s) = 1.73610 @@ -3166,7 +3166,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.965 Charge balance - pe = 11.332 Adjusted to redox equilibrium + pe = 11.350 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 253190 Density (g/cm³) = 1.20994 Volume (L) = 1145.28333 @@ -3195,20 +3195,20 @@ Cl 6.600e+00 Cl- 6.600e+00 4.067e+00 0.820 0.609 -0.210 20.18 HCl 2.357e-10 1.518e-07 -9.628 -6.819 2.809 (0) H(0) 0.000e+00 - H2 0.000e+00 1.800e-40 -40.405 -39.745 0.660 28.61 + H2 0.000e+00 1.660e-40 -40.440 -39.780 0.660 28.61 Na 6.600e+00 Na+ 6.600e+00 1.164e+01 0.820 1.066 0.246 1.38 -O(0) 3.386e-14 - O2 1.693e-14 7.739e-14 -13.771 -13.111 0.660 30.40 +O(0) 3.979e-14 + O2 1.990e-14 9.095e-14 -13.701 -13.041 0.660 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.64 -39.74 -3.10 H2 + H2(g) -36.68 -39.78 -3.10 H2 H2O(g) -1.61 -0.11 1.50 H2O Halite 0.11 1.68 1.57 NaCl - O2(g) -10.22 -13.11 -2.89 O2 + O2(g) -10.15 -13.04 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4863,7 +4863,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.962 Charge balance - pe = 11.013 Adjusted to redox equilibrium + pe = 11.015 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 98017 Density (g/cm³) = 1.04347 Volume (L) = 1025.55523 @@ -4891,21 +4891,21 @@ Reaction 1. Cl 1.200e+00 Cl- 1.200e+00 7.200e-01 0.079 -0.143 -0.222 19.03 HCl 8.345e-09 2.705e-08 -8.079 -7.568 0.511 (0) -H(0) 1.201e-39 - H2 6.005e-40 7.917e-40 -39.221 -39.101 0.120 28.61 +H(0) 1.191e-39 + H2 5.955e-40 7.850e-40 -39.225 -39.105 0.120 28.61 Na 1.200e+00 Na+ 1.200e+00 8.938e-01 0.079 -0.049 -0.128 -0.20 -O(0) 9.284e-15 - O2 4.642e-15 6.120e-15 -14.333 -14.213 0.120 30.40 +O(0) 9.442e-15 + O2 4.721e-15 6.224e-15 -14.326 -14.206 0.120 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.00 -39.10 -3.10 H2 + H2(g) -36.00 -39.11 -3.10 H2 H2O(g) -1.52 -0.02 1.50 H2O Halite -1.76 -0.19 1.57 NaCl - O2(g) -11.32 -14.21 -2.89 O2 + O2(g) -11.31 -14.21 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4938,7 +4938,7 @@ Reaction 2. pH = 6.660 Charge balance pe = 13.091 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 98017 + Specific Conductance (µS/cm, 25°C) = 98018 Density (g/cm³) = 1.04347 Volume (L) = 1025.55523 Viscosity (mPa s) = 0.99203 @@ -5014,7 +5014,7 @@ Reaction 0. pH = 7.411 Charge balance pe = -5.708 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 117095 + Specific Conductance (µS/cm, 25°C) = 117096 Density (g/cm³) = 1.05438 Volume (L) = 1031.57510 Viscosity (mPa s) = 1.02195 @@ -5092,8 +5092,8 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.959 Charge balance - pe = 11.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 117095 + pe = 11.040 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 117096 Density (g/cm³) = 1.05438 Volume (L) = 1031.57511 Viscosity (mPa s) = 1.02195 @@ -5120,21 +5120,21 @@ Reaction 1. Cl 1.500e+00 Cl- 1.500e+00 8.866e-01 0.176 -0.052 -0.228 19.14 HCl 7.713e-09 3.355e-08 -8.113 -7.474 0.638 (0) -H(0) 1.020e-39 - H2 5.099e-40 7.202e-40 -39.293 -39.143 0.150 28.61 +H(0) 1.006e-39 + H2 5.032e-40 7.109e-40 -39.298 -39.148 0.150 28.61 Na 1.500e+00 Na+ 1.500e+00 1.155e+00 0.176 0.063 -0.113 -0.06 -O(0) 1.025e-14 - O2 5.124e-15 7.238e-15 -14.290 -14.140 0.150 30.40 +O(0) 1.052e-14 + O2 5.259e-15 7.429e-15 -14.279 -14.129 0.150 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.04 -39.14 -3.10 H2 + H2(g) -36.05 -39.15 -3.10 H2 H2O(g) -1.53 -0.02 1.50 H2O Halite -1.56 0.01 1.57 NaCl - O2(g) -11.25 -14.14 -2.89 O2 + O2(g) -11.24 -14.13 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5321,7 +5321,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.957 Charge balance - pe = 11.047 Adjusted to redox equilibrium + pe = 11.050 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 134522 Density (g/cm³) = 1.06505 Volume (L) = 1037.69796 @@ -5349,12 +5349,12 @@ Reaction 1. Cl 1.800e+00 Cl- 1.800e+00 1.054e+00 0.255 0.023 -0.233 19.23 HCl 6.871e-09 4.010e-08 -8.163 -7.397 0.766 (0) -H(0) 9.188e-40 - H2 4.594e-40 6.954e-40 -39.338 -39.158 0.180 28.61 +H(0) 9.073e-40 + H2 4.536e-40 6.866e-40 -39.343 -39.163 0.180 28.61 Na 1.800e+00 Na+ 1.800e+00 1.440e+00 0.255 0.158 -0.097 0.06 -O(0) 1.004e-14 - O2 5.020e-15 7.598e-15 -14.299 -14.119 0.180 30.40 +O(0) 1.030e-14 + O2 5.149e-15 7.793e-15 -14.288 -14.108 0.180 30.40 ------------------------------Saturation indices------------------------------- @@ -5363,7 +5363,7 @@ O(0) 1.004e-14 H2(g) -36.06 -39.16 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.39 0.18 1.57 NaCl - O2(g) -11.23 -14.12 -2.89 O2 + O2(g) -11.22 -14.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5550,7 +5550,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.955 Charge balance - pe = 11.061 Adjusted to redox equilibrium + pe = 11.064 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 150388 Density (g/cm³) = 1.07551 Volume (L) = 1043.91411 @@ -5578,21 +5578,21 @@ Reaction 1. Cl 2.100e+00 Cl- 2.100e+00 1.222e+00 0.322 0.087 -0.235 19.32 HCl 5.965e-09 4.671e-08 -8.224 -7.331 0.894 (0) -H(0) 8.125e-40 - H2 4.062e-40 6.589e-40 -39.391 -39.181 0.210 28.61 +H(0) 8.023e-40 + H2 4.012e-40 6.506e-40 -39.397 -39.187 0.210 28.61 Na 2.100e+00 Na+ 2.100e+00 1.751e+00 0.322 0.243 -0.079 0.18 -O(0) 1.021e-14 - O2 5.106e-15 8.281e-15 -14.292 -14.082 0.210 30.40 +O(0) 1.047e-14 + O2 5.236e-15 8.492e-15 -14.281 -14.071 0.210 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.08 -39.18 -3.10 H2 + H2(g) -36.09 -39.19 -3.10 H2 H2O(g) -1.53 -0.03 1.50 H2O Halite -1.24 0.33 1.57 NaCl - O2(g) -11.19 -14.08 -2.89 O2 + O2(g) -11.18 -14.07 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5701,7 +5701,7 @@ Reaction 0. pH = 7.798 Charge balance pe = -6.363 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 164777 + Specific Conductance (µS/cm, 25°C) = 164778 Density (g/cm³) = 1.08575 Volume (L) = 1050.21609 Viscosity (mPa s) = 1.12445 @@ -5779,7 +5779,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.953 Charge balance - pe = -1.662 Adjusted to redox equilibrium + pe = -1.627 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 164777 Density (g/cm³) = 1.08575 Volume (L) = 1050.21611 @@ -5807,21 +5807,21 @@ Reaction 1. Cl 2.400e+00 Cl- 2.400e+00 1.392e+00 0.380 0.144 -0.237 19.40 HCl 5.080e-09 5.338e-08 -8.294 -7.273 1.021 (0) -H(0) 2.126e-14 - H2 1.063e-14 1.847e-14 -13.974 -13.734 0.240 28.61 +H(0) 1.813e-14 + H2 9.063e-15 1.575e-14 -14.043 -13.803 0.240 28.61 Na 2.400e+00 Na+ 2.400e+00 2.090e+00 0.380 0.320 -0.060 0.28 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.227 -64.987 0.240 30.40 + O2 0.000e+00 0.000e+00 -65.089 -64.848 0.240 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.63 -13.73 -3.10 H2 + H2(g) -10.70 -13.80 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -1.11 0.46 1.57 NaCl - O2(g) -62.09 -64.99 -2.89 O2 + O2(g) -61.96 -64.85 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6008,7 +6008,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.655 Adjusted to redox equilibrium + pe = -1.308 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 177769 Density (g/cm³) = 1.09578 Volume (L) = 1056.59798 @@ -6036,21 +6036,21 @@ Reaction 1. Cl 2.700e+00 Cl- 2.700e+00 1.563e+00 0.431 0.194 -0.237 19.48 HCl 4.263e-09 6.010e-08 -8.370 -7.221 1.149 (0) -H(0) 1.937e-14 - H2 9.685e-15 1.803e-14 -14.014 -13.744 0.270 28.61 +H(0) 3.913e-15 + H2 1.956e-15 3.643e-15 -14.709 -14.439 0.270 28.61 Na 2.700e+00 Na+ 2.700e+00 2.461e+00 0.431 0.391 -0.040 0.39 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.246 -64.976 0.270 30.40 + O2 0.000e+00 0.000e+00 -63.857 -63.587 0.270 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.64 -13.74 -3.10 H2 + H2(g) -11.34 -14.44 -3.10 H2 H2O(g) -1.54 -0.04 1.50 H2O Halite -0.98 0.59 1.57 NaCl - O2(g) -62.08 -64.98 -2.89 O2 + O2(g) -60.69 -63.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6083,7 +6083,7 @@ Reaction 2. pH = 5.999 Charge balance pe = 13.996 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 177769 + Specific Conductance (µS/cm, 25°C) = 177770 Density (g/cm³) = 1.09578 Volume (L) = 1056.59800 Viscosity (mPa s) = 1.16296 @@ -6237,7 +6237,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.709 Adjusted to redox equilibrium + pe = -1.470 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 189441 Density (g/cm³) = 1.10562 Volume (L) = 1063.05481 @@ -6265,21 +6265,21 @@ Reaction 1. Cl 3.000e+00 Cl- 3.000e+00 1.738e+00 0.477 0.240 -0.237 19.55 HCl 3.536e-09 6.688e-08 -8.452 -7.175 1.277 (0) -H(0) 2.319e-14 - H2 1.159e-14 2.313e-14 -13.936 -13.636 0.300 28.61 +H(0) 7.702e-15 + H2 3.851e-15 7.684e-15 -14.414 -14.114 0.300 28.61 Na 3.000e+00 Na+ 3.000e+00 2.865e+00 0.477 0.457 -0.020 0.48 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.502 -65.202 0.300 30.40 + O2 0.000e+00 0.000e+00 -64.545 -64.245 0.300 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.53 -13.64 -3.10 H2 + H2(g) -11.01 -14.11 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.87 0.70 1.57 NaCl - O2(g) -62.31 -65.20 -2.89 O2 + O2(g) -61.35 -64.24 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6466,7 +6466,7 @@ Reaction 1. ----------------------------Description of solution---------------------------- pH = 6.952 Charge balance - pe = -1.749 Adjusted to redox equilibrium + pe = -1.546 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 199870 Density (g/cm³) = 1.11526 Volume (L) = 1069.58245 @@ -6494,21 +6494,21 @@ Reaction 1. Cl 3.300e+00 Cl- 3.300e+00 1.914e+00 0.519 0.282 -0.237 19.62 HCl 2.904e-09 7.371e-08 -8.537 -7.132 1.405 (0) -H(0) 2.604e-14 - H2 1.302e-14 2.784e-14 -13.885 -13.555 0.330 28.61 +H(0) 1.021e-14 + H2 5.103e-15 1.091e-14 -14.292 -13.962 0.330 28.61 Na 3.300e+00 Na+ 3.300e+00 3.307e+00 0.519 0.519 0.001 0.57 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.703 -65.373 0.330 30.40 + O2 0.000e+00 0.000e+00 -64.889 -64.559 0.330 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -10.45 -13.56 -3.10 H2 + H2(g) -10.86 -13.96 -3.10 H2 H2O(g) -1.55 -0.05 1.50 H2O Halite -0.77 0.80 1.57 NaCl - O2(g) -62.48 -65.37 -2.89 O2 + O2(g) -61.67 -64.56 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/SC_Ohm1_101.sel b/mytest/SC_Ohm1_101.sel index 13818b9c..507daf85 100644 --- a/mytest/SC_Ohm1_101.sel +++ b/mytest/SC_Ohm1_101.sel @@ -1,59 +1,59 @@ Mu SC - 0.000100101771 12.5233835053 - 0.000100101771 12.5233835053 - 0.000100101772 12.5233835050 - 0.000100101772 12.5233835056 - 0.000100101772 12.5233835056 - 0.600100142108 54376.1989978503 - 1.200100149617 98017.9615500954 - 1.800100154286 134522.0110786654 - 2.400100157508 164777.9485497117 - 3.000100159655 189441.7304387398 - 3.600100161009 209133.8503811291 - 4.200100161757 224461.7658450501 - 4.800100162038 236009.4247928047 - 5.400100161952 244323.2497892520 - 6.000100161572 249901.8990769217 - 6.600100160948 253190.9602172507 - 0.000100101771 12.5233835053 - 0.000100101771 12.5233835053 - 0.000100101772 12.5233835050 - 0.000100101772 12.5233835056 - 0.000100101772 12.5233835056 - 0.300100135335 29250.0450653779 - 0.600100142108 54376.1989901587 - 0.900100146353 77171.4107868334 - 1.200100149555 98017.9615448028 - 1.500100152115 117095.9936896088 - 1.800100154224 134522.0110723787 - 2.100100155973 150388.3941358389 - 2.400100157419 164777.9485444523 - 2.700100158605 177769.8002256817 - 3.000100159565 189441.7304445677 - 3.300100160574 199870.9040805285 - 0.100470125484 10655.6564991080 - 0.125640127358 13126.5119674205 - 0.150840128932 15554.8779546759 - 0.176060130288 17945.7497393969 - 0.201310131480 20304.3961076561 - 0.251840133498 24931.8659890219 - 0.302490135171 29461.5432800602 - 0.404070137844 38265.9070697646 - 0.506030139947 46778.0436458546 - 0.608440141690 55038.7596198642 - 0.711170143181 63059.5999919675 - 0.814380144492 70867.6840034327 - 0.917990145662 78466.9006135431 - 1.022000146720 85864.6773222850 - 1.231400148575 100088.7510788619 - 1.442600150153 113570.4595623525 - 1.655600151511 126328.5360447085 - 1.870500152681 138382.2200883193 - 2.087200153685 149737.1007027142 - 2.638300155577 175203.9709100343 - 3.202500156722 196609.6291544356 - 3.780700157254 214179.4355455430 - 4.373800157288 228168.6202288827 - 4.982800156910 238859.4549872965 - 5.609200156189 246554.0338148788 - 6.058700155507 250317.2953238192 + 0.000100101771 12.5233835203 + 0.000100101771 12.5233835203 + 0.000100101772 12.5233835200 + 0.000100101772 12.5233835206 + 0.000100101772 12.5233835206 + 0.600100142108 54376.2037711951 + 1.200100149617 98017.9730617588 + 1.800100154286 134522.0292948028 + 2.400100157508 164777.9727035748 + 3.000100159655 189441.7594450277 + 3.600100161009 209133.8830675923 + 4.200100161757 224461.8010881939 + 4.800100162038 236009.4615914118 + 5.400100161952 244323.2872965464 + 6.000100161572 249901.9366064079 + 6.600100160948 253190.9972331216 + 0.000100101771 12.5233835203 + 0.000100101771 12.5233835203 + 0.000100101772 12.5233835200 + 0.000100101772 12.5233835206 + 0.000100101772 12.5233835206 + 0.300100135335 29250.0469286621 + 0.600100142108 54376.2037635035 + 0.900100146353 77171.4188618595 + 1.200100149555 98017.9730564662 + 1.500100152115 117096.0086165711 + 1.800100154224 134522.0292885161 + 2.100100155973 150388.4154434857 + 2.400100157419 164777.9726983153 + 2.700100158605 177769.8269509424 + 3.000100159565 189441.7594508559 + 3.300100160574 199870.9350727201 + 0.100470125484 10655.6568984719 + 0.125640127358 13126.5125164174 + 0.150840128932 15554.8786660017 + 0.176060130288 17945.7506241509 + 0.201310131480 20304.3971758217 + 0.251840133498 24931.8674498457 + 0.302490135171 29461.5451638963 + 0.404070137844 38265.9098734483 + 0.506030139947 46778.0474477944 + 0.608440141690 55038.7644812524 + 0.711170143181 63059.6059589066 + 0.814380144492 70867.6911126458 + 0.917990145662 78466.9088916025 + 1.022000146720 85864.6867877783 + 1.231400148575 100088.7629499876 + 1.442600150153 113570.4738417986 + 1.655600151511 126328.5526974681 + 1.870500152681 138382.2390497813 + 2.087200153685 149737.1218822026 + 2.638300155577 175203.9971290005 + 3.202500156722 196609.6595328643 + 3.780700157254 214179.4691151654 + 4.373800157288 228168.6560188058 + 4.982800156910 238859.4920839220 + 5.609200156189 246554.0713998445 + 6.058700155507 250317.3328244547 diff --git a/mytest/SC_Ohm_101.sel b/mytest/SC_Ohm_101.sel index 13818b9c..507daf85 100644 --- a/mytest/SC_Ohm_101.sel +++ b/mytest/SC_Ohm_101.sel @@ -1,59 +1,59 @@ Mu SC - 0.000100101771 12.5233835053 - 0.000100101771 12.5233835053 - 0.000100101772 12.5233835050 - 0.000100101772 12.5233835056 - 0.000100101772 12.5233835056 - 0.600100142108 54376.1989978503 - 1.200100149617 98017.9615500954 - 1.800100154286 134522.0110786654 - 2.400100157508 164777.9485497117 - 3.000100159655 189441.7304387398 - 3.600100161009 209133.8503811291 - 4.200100161757 224461.7658450501 - 4.800100162038 236009.4247928047 - 5.400100161952 244323.2497892520 - 6.000100161572 249901.8990769217 - 6.600100160948 253190.9602172507 - 0.000100101771 12.5233835053 - 0.000100101771 12.5233835053 - 0.000100101772 12.5233835050 - 0.000100101772 12.5233835056 - 0.000100101772 12.5233835056 - 0.300100135335 29250.0450653779 - 0.600100142108 54376.1989901587 - 0.900100146353 77171.4107868334 - 1.200100149555 98017.9615448028 - 1.500100152115 117095.9936896088 - 1.800100154224 134522.0110723787 - 2.100100155973 150388.3941358389 - 2.400100157419 164777.9485444523 - 2.700100158605 177769.8002256817 - 3.000100159565 189441.7304445677 - 3.300100160574 199870.9040805285 - 0.100470125484 10655.6564991080 - 0.125640127358 13126.5119674205 - 0.150840128932 15554.8779546759 - 0.176060130288 17945.7497393969 - 0.201310131480 20304.3961076561 - 0.251840133498 24931.8659890219 - 0.302490135171 29461.5432800602 - 0.404070137844 38265.9070697646 - 0.506030139947 46778.0436458546 - 0.608440141690 55038.7596198642 - 0.711170143181 63059.5999919675 - 0.814380144492 70867.6840034327 - 0.917990145662 78466.9006135431 - 1.022000146720 85864.6773222850 - 1.231400148575 100088.7510788619 - 1.442600150153 113570.4595623525 - 1.655600151511 126328.5360447085 - 1.870500152681 138382.2200883193 - 2.087200153685 149737.1007027142 - 2.638300155577 175203.9709100343 - 3.202500156722 196609.6291544356 - 3.780700157254 214179.4355455430 - 4.373800157288 228168.6202288827 - 4.982800156910 238859.4549872965 - 5.609200156189 246554.0338148788 - 6.058700155507 250317.2953238192 + 0.000100101771 12.5233835203 + 0.000100101771 12.5233835203 + 0.000100101772 12.5233835200 + 0.000100101772 12.5233835206 + 0.000100101772 12.5233835206 + 0.600100142108 54376.2037711951 + 1.200100149617 98017.9730617588 + 1.800100154286 134522.0292948028 + 2.400100157508 164777.9727035748 + 3.000100159655 189441.7594450277 + 3.600100161009 209133.8830675923 + 4.200100161757 224461.8010881939 + 4.800100162038 236009.4615914118 + 5.400100161952 244323.2872965464 + 6.000100161572 249901.9366064079 + 6.600100160948 253190.9972331216 + 0.000100101771 12.5233835203 + 0.000100101771 12.5233835203 + 0.000100101772 12.5233835200 + 0.000100101772 12.5233835206 + 0.000100101772 12.5233835206 + 0.300100135335 29250.0469286621 + 0.600100142108 54376.2037635035 + 0.900100146353 77171.4188618595 + 1.200100149555 98017.9730564662 + 1.500100152115 117096.0086165711 + 1.800100154224 134522.0292885161 + 2.100100155973 150388.4154434857 + 2.400100157419 164777.9726983153 + 2.700100158605 177769.8269509424 + 3.000100159565 189441.7594508559 + 3.300100160574 199870.9350727201 + 0.100470125484 10655.6568984719 + 0.125640127358 13126.5125164174 + 0.150840128932 15554.8786660017 + 0.176060130288 17945.7506241509 + 0.201310131480 20304.3971758217 + 0.251840133498 24931.8674498457 + 0.302490135171 29461.5451638963 + 0.404070137844 38265.9098734483 + 0.506030139947 46778.0474477944 + 0.608440141690 55038.7644812524 + 0.711170143181 63059.6059589066 + 0.814380144492 70867.6911126458 + 0.917990145662 78466.9088916025 + 1.022000146720 85864.6867877783 + 1.231400148575 100088.7629499876 + 1.442600150153 113570.4738417986 + 1.655600151511 126328.5526974681 + 1.870500152681 138382.2390497813 + 2.087200153685 149737.1218822026 + 2.638300155577 175203.9971290005 + 3.202500156722 196609.6595328643 + 3.780700157254 214179.4691151654 + 4.373800157288 228168.6560188058 + 4.982800156910 238859.4920839220 + 5.609200156189 246554.0713998445 + 6.058700155507 250317.3328244547 diff --git a/mytest/SC_temp_101.sel b/mytest/SC_temp_101.sel index e98a4abd..7fbebf81 100644 --- a/mytest/SC_temp_101.sel +++ b/mytest/SC_temp_101.sel @@ -2,4 +2,4 @@ 0.000000100661 0.0546997340 0.000000100661 0.0546997340 0.000000100645 0.0546913856 - 0.000001058119 1.1244418995 + 0.000001058119 1.1244401532 diff --git a/mytest/Sat_P_rho_101.sel b/mytest/Sat_P_rho_101.sel index 4683f662..ebfb1268 100644 --- a/mytest/Sat_P_rho_101.sel +++ b/mytest/Sat_P_rho_101.sel @@ -1,22 +1,22 @@ Mu SC - 0.000000055789 0.0237740951 - 0.000000055784 0.0237724297 - 0.000000082523 0.0449974618 - 0.000000135722 0.0876717525 - 0.000000220713 0.1635804092 - 0.000000341082 0.2832816318 - 0.000000498340 0.4541577185 - 0.000000690963 0.6781520383 - 0.000000914010 0.9503501106 - 0.000001158974 1.2584861486 - 0.000001414266 1.5838766357 - 0.000001666289 1.9037149813 - 0.000001900679 2.1939488019 - 0.000002103767 2.4324708125 - 0.000002264115 2.6019683737 - 0.000002373933 2.6923518339 - 0.000002430327 2.7019029158 - 0.000002436384 2.6378460446 - 0.000002402424 2.5162486091 - 0.000002348502 2.3624431868 - 0.000002311784 2.2148157699 + 0.000000055789 0.0237740962 + 0.000000055784 0.0237724308 + 0.000000082523 0.0449974629 + 0.000000135722 0.0876717505 + 0.000000220713 0.1635803915 + 0.000000341082 0.2832815602 + 0.000000498340 0.4541575013 + 0.000000690963 0.6781514898 + 0.000000914010 0.9503489072 + 0.000001158974 1.2584837943 + 0.000001414266 1.5838724568 + 0.000001666289 1.9037081662 + 0.000001900679 2.1939384919 + 0.000002103767 2.4324562339 + 0.000002264115 2.6019489849 + 0.000002373933 2.6923274451 + 0.000002430327 2.7018737452 + 0.000002436384 2.6378126706 + 0.000002402424 2.5162117940 + 0.000002348502 2.3624035329 + 0.000002311784 2.2147730628 diff --git a/mytest/SrSO4_P.out b/mytest/SrSO4_P.out index 5a6295d7..3ef16912 100644 --- a/mytest/SrSO4_P.out +++ b/mytest/SrSO4_P.out @@ -1002,7 +1002,7 @@ Celestite 0.00 -7.15 -7.15 1.000e+01 1.000e+01 -3.478e-04 Specific Conductance (µS/cm, 100°C) = 260 Density (g/cm³) = 0.95841 Volume (L) = 1.04346 - Viscosity (mPa s) = 0.28184 + Viscosity (mPa s) = 0.28190 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.281e-03 Mass of water (kg) = 1.000e+00 @@ -1081,7 +1081,7 @@ Celestite 0.00 -7.10 -7.10 1.000e+01 1.000e+01 -3.692e-04 Specific Conductance (µS/cm, 100°C) = 275 Density (g/cm³) = 0.96160 Volume (L) = 1.04001 - Viscosity (mPa s) = 0.28370 + Viscosity (mPa s) = 0.28376 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.361e-03 Mass of water (kg) = 1.000e+00 @@ -1161,7 +1161,7 @@ Celestite 0.00 -7.05 -7.05 1.000e+01 1.000e+01 -3.913e-04 Specific Conductance (µS/cm, 100°C) = 291 Density (g/cm³) = 0.96470 Volume (L) = 1.03666 - Viscosity (mPa s) = 0.28553 + Viscosity (mPa s) = 0.28559 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.444e-03 Mass of water (kg) = 1.000e+00 @@ -1241,7 +1241,7 @@ Celestite 0.00 -7.01 -7.01 1.000e+01 1.000e+01 -4.142e-04 Specific Conductance (µS/cm, 100°C) = 307 Density (g/cm³) = 0.96774 Volume (L) = 1.03342 - Viscosity (mPa s) = 0.28735 + Viscosity (mPa s) = 0.28740 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.530e-03 Mass of water (kg) = 1.000e+00 @@ -1321,7 +1321,7 @@ Celestite 0.00 -6.96 -6.96 1.000e+01 1.000e+01 -4.379e-04 Specific Conductance (µS/cm, 100°C) = 323 Density (g/cm³) = 0.97071 Volume (L) = 1.03026 - Viscosity (mPa s) = 0.28915 + Viscosity (mPa s) = 0.28920 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.619e-03 Mass of water (kg) = 1.000e+00 @@ -1401,7 +1401,7 @@ Celestite 0.00 -6.92 -6.92 1.000e+01 1.000e+01 -4.623e-04 Specific Conductance (µS/cm, 100°C) = 340 Density (g/cm³) = 0.97363 Volume (L) = 1.02717 - Viscosity (mPa s) = 0.29093 + Viscosity (mPa s) = 0.29099 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.711e-03 Mass of water (kg) = 1.000e+00 @@ -1481,7 +1481,7 @@ Celestite 0.00 -6.88 -6.88 1.000e+01 1.000e+01 -4.875e-04 Specific Conductance (µS/cm, 100°C) = 358 Density (g/cm³) = 0.97649 Volume (L) = 1.02417 - Viscosity (mPa s) = 0.29271 + Viscosity (mPa s) = 0.29277 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.806e-03 Mass of water (kg) = 1.000e+00 @@ -1561,7 +1561,7 @@ Celestite 0.00 -6.83 -6.83 1.000e+01 9.999e+00 -5.136e-04 Specific Conductance (µS/cm, 100°C) = 376 Density (g/cm³) = 0.97931 Volume (L) = 1.02123 - Viscosity (mPa s) = 0.29448 + Viscosity (mPa s) = 0.29454 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.904e-03 Mass of water (kg) = 1.000e+00 @@ -1641,7 +1641,7 @@ Celestite -0.00 -6.79 -6.79 1.000e+01 9.999e+00 -5.405e-04 Specific Conductance (µS/cm, 100°C) = 395 Density (g/cm³) = 0.98208 Volume (L) = 1.01835 - Viscosity (mPa s) = 0.29624 + Viscosity (mPa s) = 0.29631 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.005e-03 Mass of water (kg) = 1.000e+00 @@ -1721,7 +1721,7 @@ Celestite -0.00 -6.75 -6.75 1.000e+01 9.999e+00 -5.682e-04 Specific Conductance (µS/cm, 100°C) = 414 Density (g/cm³) = 0.98481 Volume (L) = 1.01553 - Viscosity (mPa s) = 0.29800 + Viscosity (mPa s) = 0.29807 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.109e-03 Mass of water (kg) = 1.000e+00 @@ -1875,7 +1875,7 @@ Celestite -0.00 -8.08 -8.08 1.000e+01 1.000e+01 -1.125e-04 Specific Conductance (µS/cm, 200°C) = 163 Density (g/cm³) = 0.86469 Volume (L) = 1.15650 - Viscosity (mPa s) = 0.13465 + Viscosity (mPa s) = 0.13470 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.262e-04 Mass of water (kg) = 1.000e+00 @@ -1955,7 +1955,7 @@ Celestite -0.00 -8.02 -8.02 1.000e+01 1.000e+01 -1.204e-04 Specific Conductance (µS/cm, 200°C) = 174 Density (g/cm³) = 0.86859 Volume (L) = 1.15132 - Viscosity (mPa s) = 0.13595 + Viscosity (mPa s) = 0.13600 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.572e-04 Mass of water (kg) = 1.000e+00 @@ -2035,7 +2035,7 @@ Celestite -0.00 -7.95 -7.95 1.000e+01 1.000e+01 -1.307e-04 Specific Conductance (µS/cm, 200°C) = 188 Density (g/cm³) = 0.87341 Volume (L) = 1.14497 - Viscosity (mPa s) = 0.13741 + Viscosity (mPa s) = 0.13747 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.976e-04 Mass of water (kg) = 1.000e+00 @@ -2115,7 +2115,7 @@ Celestite -0.00 -7.89 -7.89 1.000e+01 1.000e+01 -1.413e-04 Specific Conductance (µS/cm, 200°C) = 202 Density (g/cm³) = 0.87806 Volume (L) = 1.13890 - Viscosity (mPa s) = 0.13937 + Viscosity (mPa s) = 0.13943 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.390e-04 Mass of water (kg) = 1.000e+00 @@ -2195,7 +2195,7 @@ Celestite 0.00 -7.83 -7.83 1.000e+01 1.000e+01 -1.521e-04 Specific Conductance (µS/cm, 200°C) = 216 Density (g/cm³) = 0.88257 Volume (L) = 1.13309 - Viscosity (mPa s) = 0.14090 + Viscosity (mPa s) = 0.14096 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.814e-04 Mass of water (kg) = 1.000e+00 @@ -2275,7 +2275,7 @@ Celestite -0.00 -7.77 -7.77 1.000e+01 1.000e+01 -1.632e-04 Specific Conductance (µS/cm, 200°C) = 231 Density (g/cm³) = 0.88692 Volume (L) = 1.12753 - Viscosity (mPa s) = 0.14245 + Viscosity (mPa s) = 0.14251 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.249e-04 Mass of water (kg) = 1.000e+00 @@ -2355,7 +2355,7 @@ Celestite -0.00 -7.71 -7.71 1.000e+01 1.000e+01 -1.746e-04 Specific Conductance (µS/cm, 200°C) = 246 Density (g/cm³) = 0.89114 Volume (L) = 1.12219 - Viscosity (mPa s) = 0.14398 + Viscosity (mPa s) = 0.14405 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.695e-04 Mass of water (kg) = 1.000e+00 @@ -2435,7 +2435,7 @@ Celestite -0.00 -7.66 -7.66 1.000e+01 1.000e+01 -1.863e-04 Specific Conductance (µS/cm, 200°C) = 262 Density (g/cm³) = 0.89524 Volume (L) = 1.11706 - Viscosity (mPa s) = 0.14549 + Viscosity (mPa s) = 0.14556 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.154e-04 Mass of water (kg) = 1.000e+00 @@ -2515,7 +2515,7 @@ Celestite -0.00 -7.60 -7.60 1.000e+01 1.000e+01 -1.983e-04 Specific Conductance (µS/cm, 200°C) = 277 Density (g/cm³) = 0.89921 Volume (L) = 1.11213 - Viscosity (mPa s) = 0.14698 + Viscosity (mPa s) = 0.14705 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.624e-04 Mass of water (kg) = 1.000e+00 @@ -2595,7 +2595,7 @@ Celestite -0.00 -7.55 -7.55 1.000e+01 1.000e+01 -2.106e-04 Specific Conductance (µS/cm, 200°C) = 293 Density (g/cm³) = 0.90307 Volume (L) = 1.10738 - Viscosity (mPa s) = 0.14844 + Viscosity (mPa s) = 0.14852 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.108e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/SrSO4_P_101.sel b/mytest/SrSO4_P_101.sel index 485bf4d4..5b4d2e68 100644 --- a/mytest/SrSO4_P_101.sel +++ b/mytest/SrSO4_P_101.sel @@ -1,34 +1,34 @@ Mu SC 0.000000100644 0.0547821292 - 0.002310639220 154.0776081936 - 0.002474439056 165.7830613998 - 0.002634926049 177.2975305688 - 0.002791039239 188.5550953793 - 0.002941814987 199.4871879263 - 0.003086393961 210.0286873167 - 0.003224025324 220.1202324826 - 0.003354068570 229.7093123047 - 0.003475992870 238.7507707799 - 0.003589374653 247.2069901713 - 0.000000760967 0.7555719569 - 0.001280503629 260.0317022303 - 0.001360955719 275.3039798484 - 0.001444183793 291.0072531728 - 0.001530239022 307.1381261397 - 0.001619175442 323.6905840390 - 0.001711049898 340.7515697160 - 0.001805921938 358.4125832459 - 0.001903853669 376.5575636645 - 0.002004909573 395.1929855804 - 0.002109156390 414.3257570887 - 0.000002215543 2.5502897891 - 0.000426237276 163.2690421074 - 0.000457196707 174.0620931479 - 0.000497576661 188.1501190324 - 0.000538968190 202.4338400620 - 0.000581398384 216.9670856515 - 0.000624906148 231.7419793563 - 0.000669540483 246.7768371578 - 0.000715359052 262.0908954696 - 0.000762427067 277.7051302891 - 0.000810816434 293.6419981891 + 0.002310639220 154.0776082808 + 0.002474439056 165.7830614971 + 0.002634926049 177.2975306764 + 0.002791039239 188.5550954972 + 0.002941814987 199.4871880545 + 0.003086393961 210.0286874552 + 0.003224025324 220.1202326311 + 0.003354068570 229.7093124629 + 0.003475992870 238.7507709476 + 0.003589374653 247.2069903478 + 0.000000760967 0.7555712755 + 0.001280503629 260.0301993344 + 0.001360955719 275.3023419240 + 0.001444183793 291.0054721862 + 0.001530239022 307.1361938326 + 0.001619175442 323.6884919567 + 0.001711049898 340.7493082368 + 0.001805921938 358.4101414375 + 0.001903853669 376.5549314723 + 0.002004909573 395.1901525663 + 0.002109156390 414.3227124179 + 0.000002215543 2.5502723970 + 0.000426237276 163.2670178257 + 0.000457196707 174.0598713572 + 0.000497576661 188.1476258546 + 0.000538968190 202.4310744101 + 0.000581398384 216.9640213304 + 0.000624906148 231.7386015863 + 0.000669540483 246.7731295315 + 0.000715359052 262.0868406828 + 0.000762427067 277.7007101390 + 0.000810816434 293.6371934982 diff --git a/mytest/SrSO4_tc.out b/mytest/SrSO4_tc.out index c8dab6ca..cb0e30f8 100644 --- a/mytest/SrSO4_tc.out +++ b/mytest/SrSO4_tc.out @@ -218,7 +218,7 @@ Celestite -0.00 -6.66 -6.66 1.000e+01 9.999e+00 -6.278e-04 Specific Conductance (µS/cm, 50°C) = 250 Density (g/cm³) = 0.99667 Volume (L) = 1.00346 - Viscosity (mPa s) = 0.55129 + Viscosity (mPa s) = 0.55133 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.323e-03 Mass of water (kg) = 1.000e+00 @@ -298,7 +298,7 @@ Celestite -0.00 -6.83 -6.83 1.000e+01 9.999e+00 -5.157e-04 Specific Conductance (µS/cm, 75°C) = 291 Density (g/cm³) = 0.98367 Volume (L) = 1.01670 - Viscosity (mPa s) = 0.38317 + Viscosity (mPa s) = 0.38322 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.902e-03 Mass of water (kg) = 1.000e+00 @@ -378,7 +378,7 @@ Celestite -0.00 -7.01 -7.01 1.000e+01 1.000e+01 -4.140e-04 Specific Conductance (µS/cm, 100°C) = 306 Density (g/cm³) = 0.96771 Volume (L) = 1.03345 - Viscosity (mPa s) = 0.28733 + Viscosity (mPa s) = 0.28739 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.529e-03 Mass of water (kg) = 1.000e+00 @@ -458,7 +458,7 @@ Celestite -0.00 -7.21 -7.21 1.000e+01 1.000e+01 -3.249e-04 Specific Conductance (µS/cm, 125°C) = 299 Density (g/cm³) = 0.94908 Volume (L) = 1.05372 - Viscosity (mPa s) = 0.22757 + Viscosity (mPa s) = 0.22763 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.207e-03 Mass of water (kg) = 1.000e+00 @@ -538,7 +538,7 @@ Celestite -0.00 -7.42 -7.42 1.000e+01 1.000e+01 -2.498e-04 Specific Conductance (µS/cm, 150°C) = 275 Density (g/cm³) = 0.92791 Volume (L) = 1.07773 - Viscosity (mPa s) = 0.18776 + Viscosity (mPa s) = 0.18782 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.351e-04 Mass of water (kg) = 1.000e+00 @@ -618,7 +618,7 @@ Celestite 0.00 -7.65 -7.65 1.000e+01 1.000e+01 -1.888e-04 Specific Conductance (µS/cm, 175°C) = 240 Density (g/cm³) = 0.90425 Volume (L) = 1.10593 - Viscosity (mPa s) = 0.15981 + Viscosity (mPa s) = 0.15986 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.136e-04 Mass of water (kg) = 1.000e+00 @@ -698,7 +698,7 @@ Celestite -0.00 -7.89 -7.89 1.000e+01 1.000e+01 -1.412e-04 Specific Conductance (µS/cm, 200°C) = 202 Density (g/cm³) = 0.87802 Volume (L) = 1.13896 - Viscosity (mPa s) = 0.13936 + Viscosity (mPa s) = 0.13941 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.385e-04 Mass of water (kg) = 1.000e+00 @@ -778,7 +778,7 @@ Celestite 0.00 -8.13 -8.13 1.000e+01 1.000e+01 -1.055e-04 Specific Conductance (µS/cm, 225°C) = 165 Density (g/cm³) = 0.84896 Volume (L) = 1.17794 - Viscosity (mPa s) = 0.12348 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12353 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 4.052e-04 Mass of water (kg) = 1.000e+00 @@ -858,7 +858,7 @@ Celestite 0.00 -8.37 -8.37 1.000e+01 1.000e+01 -7.998e-05 Specific Conductance (µS/cm, 250°C) = 135 Density (g/cm³) = 0.81648 Volume (L) = 1.22479 - Viscosity (mPa s) = 0.11082 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11088 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.084e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/SrSO4_tc_101.sel b/mytest/SrSO4_tc_101.sel index 58f071dd..263ef2f7 100644 --- a/mytest/SrSO4_tc_101.sel +++ b/mytest/SrSO4_tc_101.sel @@ -1,12 +1,12 @@ Mu SC 0.000000109772 0.0609631457 - 0.002789500442 188.4438329235 - 0.002322758949 250.5812786148 - 0.001902325060 291.2865381663 - 0.001529362837 306.9744442357 - 0.001206588835 299.8355448824 - 0.000935089569 275.4255035597 - 0.000713559785 240.6242735147 - 0.000538548494 202.2894081315 - 0.000405213975 165.9011713058 - 0.000308439845 135.2806307087 + 0.002789500442 188.4438330413 + 0.002322758949 250.5807715170 + 0.001902325060 291.2853309674 + 0.001529362837 306.9725134859 + 0.001206588835 299.8330278534 + 0.000935089569 275.4226438127 + 0.000713559785 240.6213466081 + 0.000538548494 202.2866454163 + 0.000405213975 165.8986977531 + 0.000308439845 135.2784698020 diff --git a/mytest/SurfMixRelatedKin_101.sel b/mytest/SurfMixRelatedKin_101.sel index 8f12360f..34649e52 100644 --- a/mytest/SurfMixRelatedKin_101.sel +++ b/mytest/SurfMixRelatedKin_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000999711309 389.5324644655 - 0.000999711312 389.5324644763 - 0.001353627547 162.1038073632 + 0.000999711309 389.5324663732 + 0.000999711312 389.5324663840 + 0.001353627547 162.1038091218 diff --git a/mytest/SurfMixRelatedMin_101.sel b/mytest/SurfMixRelatedMin_101.sel index 32ffe5eb..972aafa1 100644 --- a/mytest/SurfMixRelatedMin_101.sel +++ b/mytest/SurfMixRelatedMin_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000999711309 389.5324644655 - 0.000999711312 389.5324644763 - 0.007809355772 683.6319290308 + 0.000999711309 389.5324663732 + 0.000999711312 389.5324663840 + 0.007809355772 683.6319460084 diff --git a/mytest/Tn_M_M2Cl.out b/mytest/Tn_M_M2Cl.out index c6538385..7bf5d448 100644 --- a/mytest/Tn_M_M2Cl.out +++ b/mytest/Tn_M_M2Cl.out @@ -589,7 +589,7 @@ Initial solution 11. pH = -1.332 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 797528 + Specific Conductance (µS/cm, 25°C) = 797529 Density (g/cm³) = 1.05901 Volume (L) = 1.08200 Viscosity (mPa s) = 1.07642 @@ -844,7 +844,7 @@ Initial solution 16. pH = -3.019 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 843511 + Specific Conductance (µS/cm, 25°C) = 843512 Density (g/cm³) = 1.11862 Volume (L) = 1.18731 Viscosity (mPa s) = 1.35585 @@ -895,7 +895,7 @@ Initial solution 17. pH = -3.348 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 811176 + Specific Conductance (µS/cm, 25°C) = 811177 Density (g/cm³) = 1.12881 Volume (L) = 1.20889 Viscosity (mPa s) = 1.42097 @@ -2044,7 +2044,7 @@ Initial solution 20. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.830 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -3533,7 +3533,7 @@ Initial solution 11. Specific Conductance (µS/cm, 25°C) = 140480 Density (g/cm³) = 1.23290 Volume (L) = 1.09969 - Viscosity (mPa s) = 4.24618 + Viscosity (mPa s) = 4.24617 Activity of water = 0.615 Ionic strength (mol/kgw) = 1.121e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Tn_M_M2Cl_101.sel b/mytest/Tn_M_M2Cl_101.sel index 707ab6de..b4195b95 100644 --- a/mytest/Tn_M_M2Cl_101.sel +++ b/mytest/Tn_M_M2Cl_101.sel @@ -1,76 +1,76 @@ Mu SC - 0.005000000002 2068.5052699762 - 0.010000000001 4102.9602244258 - 0.020000000001 8118.4432582330 - 0.050000000000 19912.0128965767 - 0.100000000000 39037.8163957789 - 0.200000000000 75906.1553204265 - 0.500000000000 178087.2436705413 - 1.000000000000 325239.6912640301 - 2.000000000000 549420.2583266855 - 3.000000000000 700751.6858806259 - 4.000000000000 797528.8729247059 - 5.000000000000 853383.6526788933 - 6.000000000000 878723.4643783389 - 7.000000000000 881591.0889628069 - 8.000000000000 868235.3474396099 - 9.000000000000 843511.8349274942 - 10.000000000000 811176.9874107051 - 0.010000111363 1177.7201629138 - 0.020000115215 2301.7966433878 - 0.050000121878 5523.3578306510 - 0.100000127935 10609.0359183574 - 0.200000134161 20182.8319001066 - 0.250000135972 24765.3556471265 - 0.500000139689 46282.9116070467 - 0.750000139309 66025.8249374562 - 1.000000137086 84318.7569874028 - 1.250000133840 101310.2723378449 - 1.500000129973 117089.9046922482 - 1.750000125722 131722.6692123146 - 2.000000121238 145262.4533773167 - 2.250000116625 157757.9729800459 - 2.500000111958 169255.5902397523 - 2.750000107289 179800.6464306594 - 3.000000102661 189438.0389060979 - 3.500000093640 206168.0598577473 - 4.000000085057 219798.2331547418 - 4.500000077000 230671.0292812597 - 5.000000069511 239112.8728779670 - 5.500000062601 245429.2011253605 - 6.000000056261 249901.1873359738 - 0.001000104227 146.2886029689 - 0.002010105672 291.7432201233 - 0.005020108402 718.1332672198 - 0.010030111294 1413.0949200413 - 0.020070115070 2771.5957167159 - 0.050220121495 6696.5005565343 - 0.100580127164 12967.4357601573 - 0.201720132665 24981.3974692850 - 0.508690136403 59026.1448876051 - 1.032800131721 112317.0935216303 - 3.313000093918 296136.4172145025 - 0.301109855805 18136.4976379632 - 0.604244781603 33299.7351471508 - 1.211729676060 59448.7551412971 - 1.519799627669 71102.3606855036 - 1.519799627669 71102.3606855036 - 3.080399378439 117620.2904164832 - 4.041149211875 137480.3577503470 - 6.304798767604 161659.4307562233 - 7.299448546564 163637.2500650633 - 10.117497828011 150072.6364622259 - 11.211297513640 140480.4877378646 - 0.007530111670 624.0200486307 - 0.015040116296 1209.6501224929 - 0.015040116296 1209.6501224929 - 0.030050122678 2334.7987975375 - 0.030050122678 2334.7987975375 - 0.045250127540 3419.4282584531 - 0.075300134969 5492.1029108603 - 0.075300134969 5492.1029108603 - 0.105350140940 7485.5570782145 - 0.150400148519 10352.2584824043 - 0.150400148519 10352.2584824043 - 0.226100159170 15013.1296392796 - 0.302500168734 19471.2953216501 + 0.005000000002 2068.5052927075 + 0.010000000001 4102.9602882393 + 0.020000000001 8118.4434369522 + 0.050000000000 19912.0135902192 + 0.100000000000 39037.8183180015 + 0.200000000000 75906.1605893501 + 0.500000000000 178087.2629379981 + 1.000000000000 325239.7396685374 + 2.000000000000 549420.3674086881 + 3.000000000000 700751.8463958852 + 4.000000000000 797529.0714223515 + 5.000000000000 853383.8758578021 + 6.000000000000 878723.7006233331 + 7.000000000000 881591.3288162120 + 8.000000000000 868235.5836094875 + 9.000000000000 843512.0620889664 + 10.000000000000 811177.2019235207 + 0.010000111363 1177.7201769495 + 0.020000115215 2301.7966821453 + 0.050000121878 5523.3579773120 + 0.100000127935 10609.0363150603 + 0.200000134161 20182.8329585349 + 0.250000135972 24765.3570931091 + 0.500000139689 46282.9153482244 + 0.750000139309 66025.8313309909 + 1.000000137086 84318.7662009263 + 1.250000133840 101310.2844223948 + 1.500000129973 117089.9196180893 + 1.750000125722 131722.6868913076 + 2.000000121238 145262.4736787633 + 2.250000116625 157757.9957427279 + 2.500000111958 169255.6152814308 + 2.750000107289 179800.6735557084 + 3.000000102661 189438.0679116732 + 3.500000093640 206168.0920108174 + 4.000000085057 219798.2676635323 + 4.500000077000 230671.0654177595 + 5.000000069511 239112.9099987695 + 5.500000062601 245429.2386797452 + 6.000000056261 249901.2248655083 + 0.001000104227 146.2886032684 + 0.002010105672 291.7432209693 + 0.005020108402 718.1332705096 + 0.010030111294 1413.0949291900 + 0.020070115070 2771.5957420961 + 0.050220121495 6696.5006535388 + 0.100580127164 12967.4360260893 + 0.201720132665 24981.3981955482 + 0.508690136403 59026.1476209786 + 1.032800131721 112317.1009516072 + 3.313000093918 296136.4511579653 + 0.301109855805 18136.5006248371 + 0.604244781603 33299.7425510290 + 1.211729676060 59448.7723042031 + 1.519799627669 71102.3827492736 + 1.519799627669 71102.3827492736 + 3.080399378439 117620.3331908608 + 4.041149211875 137480.4086585055 + 6.304798767604 161659.4862511392 + 7.299448546564 163637.3023586385 + 10.117497828011 150072.6723811228 + 11.211297513640 140480.5171120004 + 0.007530111670 624.0200648660 + 0.015040116296 1209.6501668625 + 0.015040116296 1209.6501668625 + 0.030050122678 2334.7989181452 + 0.030050122678 2334.7989181452 + 0.045250127540 3419.4284745424 + 0.075300134969 5492.1033562281 + 0.075300134969 5492.1033562281 + 0.105350140940 7485.5577928265 + 0.150400148519 10352.2596554806 + 0.150400148519 10352.2596554806 + 0.226100159170 15013.1317039207 + 0.302500168734 19471.2983885908 diff --git a/mytest/TotalPlus_101.sel b/mytest/TotalPlus_101.sel index 4edcecf7..5bcdeedd 100644 --- a/mytest/TotalPlus_101.sel +++ b/mytest/TotalPlus_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.000832294832 35.4663356006 + 0.000832294832 35.4663356008 diff --git a/mytest/Vm0_tc.out b/mytest/Vm0_tc.out index 5ce428c1..f15dec4a 100644 --- a/mytest/Vm0_tc.out +++ b/mytest/Vm0_tc.out @@ -860,7 +860,7 @@ Using temperature 1. Specific Conductance (µS/cm, 50°C) = 0 Density (g/cm³) = 0.98803 Volume (L) = 1.01212 - Viscosity (mPa s) = 0.54651 + Viscosity (mPa s) = 0.54652 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.528e-07 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm0_tc_101.sel b/mytest/Vm0_tc_101.sel index 0f44e2de..917d9656 100644 --- a/mytest/Vm0_tc_101.sel +++ b/mytest/Vm0_tc_101.sel @@ -1,36 +1,36 @@ Mu SC 0.000000220058 0.0531406436 - 0.000000153737 0.0127502986 - 0.000000180175 0.0270887555 + 0.000000153737 0.0127503022 + 0.000000180175 0.0270887591 0.000000220058 0.0531406436 - 0.000000276660 0.0966406516 - 0.000000352842 0.1636141581 - 0.000000450697 0.2594329283 - 0.000000571246 0.3879230974 - 0.000000714196 0.5506376921 - 0.000000877797 0.7463555722 - 0.000001059012 0.9710727587 - 0.000001253172 1.2176840797 - 0.000001454520 1.4767274457 - 0.000001656424 1.7369974137 - 0.000001851776 1.9864393148 - 0.000002033435 2.2131419509 - 0.000002194703 2.4063297929 - 0.000002329798 2.5572057843 - 0.000000153737 0.0102854698 - 0.000000180175 0.0241229865 + 0.000000276660 0.0966406389 + 0.000000352842 0.1636141132 + 0.000000450697 0.2594328132 + 0.000000571246 0.3879228438 + 0.000000714196 0.5506371867 + 0.000000877797 0.7463546400 + 0.000001059012 0.9710711467 + 0.000001253172 1.2176814479 + 0.000001454520 1.4767233666 + 0.000001656424 1.7369913868 + 0.000001851776 1.9864308008 + 0.000002033435 2.2131304072 + 0.000002194703 2.4063147403 + 0.000002329798 2.5571868623 + 0.000000153737 0.0102854709 + 0.000000180175 0.0241229880 0.000000220058 0.0501330880 - 0.000000276660 0.0939880690 - 0.000000352842 0.1614734005 - 0.000000450697 0.2576987769 - 0.000000571246 0.3863117464 - 0.000000714196 0.5487870611 - 0.000000877797 0.7438978130 - 0.000001059012 0.9676759278 - 0.000001253172 1.2130707327 - 0.000001454520 1.4706832407 - 0.000001656424 1.7293728057 - 0.000001851776 1.9771480373 - 0.000002033435 2.2021581821 - 0.000002194702 2.3936816317 - 0.000002329797 2.5430621987 + 0.000000276660 0.0939880619 + 0.000000352842 0.1614733718 + 0.000000450697 0.2576986959 + 0.000000571246 0.3863115542 + 0.000000714196 0.5487866555 + 0.000000877797 0.7438970312 + 0.000001059012 0.9676745299 + 0.000001253172 1.2130683909 + 0.000001454520 1.4706795391 + 0.000001656424 1.7293672540 + 0.000001851776 1.9771401008 + 0.000002033435 2.2021473272 + 0.000002194702 2.3936673810 + 0.000002329797 2.5430441888 diff --git a/mytest/Vm_BaCl2_sol.out b/mytest/Vm_BaCl2_sol.out index 7696928e..407487cd 100644 --- a/mytest/Vm_BaCl2_sol.out +++ b/mytest/Vm_BaCl2_sol.out @@ -227,7 +227,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1839 Density (g/cm³) = 1.00082 Volume (L) = 1.00111 - Viscosity (mPa s) = 1.14141 + Viscosity (mPa s) = 1.14134 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.790e-02 Mass of water (kg) = 1.000e+00 @@ -301,10 +301,10 @@ Reaction 1. pH = 7.142 Charge balance pe = -0.302 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 5494 + Specific Conductance (µS/cm, 15°C) = 5495 Density (g/cm³) = 1.00455 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.14680 + Viscosity (mPa s) = 1.14667 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.850e-02 Mass of water (kg) = 1.000e+00 @@ -378,10 +378,10 @@ Reaction 1. pH = 7.131 Charge balance pe = -0.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9007 + Specific Conductance (µS/cm, 15°C) = 9009 Density (g/cm³) = 1.00832 Volume (L) = 1.00207 - Viscosity (mPa s) = 1.15181 + Viscosity (mPa s) = 1.15164 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -455,10 +455,10 @@ Reaction 1. pH = 7.131 Charge balance pe = -0.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9024 + Specific Conductance (µS/cm, 15°C) = 9026 Density (g/cm³) = 1.00834 Volume (L) = 1.00207 - Viscosity (mPa s) = 1.15183 + Viscosity (mPa s) = 1.15166 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -532,10 +532,10 @@ Reaction 1. pH = 7.121 Charge balance pe = -0.240 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12738 + Specific Conductance (µS/cm, 15°C) = 12742 Density (g/cm³) = 1.01246 Volume (L) = 1.00262 - Viscosity (mPa s) = 1.15718 + Viscosity (mPa s) = 1.15698 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.178e-01 Mass of water (kg) = 1.000e+00 @@ -609,10 +609,10 @@ Reaction 1. pH = 7.111 Charge balance pe = -0.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 17080 + Specific Conductance (µS/cm, 15°C) = 17086 Density (g/cm³) = 1.01743 Volume (L) = 1.00330 - Viscosity (mPa s) = 1.16359 + Viscosity (mPa s) = 1.16335 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.994e-01 Mass of water (kg) = 1.000e+00 @@ -686,10 +686,10 @@ Reaction 1. pH = 7.111 Charge balance pe = -0.166 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 17111 + Specific Conductance (µS/cm, 15°C) = 17117 Density (g/cm³) = 1.01747 Volume (L) = 1.00330 - Viscosity (mPa s) = 1.16364 + Viscosity (mPa s) = 1.16339 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -763,10 +763,10 @@ Reaction 1. pH = 7.097 Charge balance pe = 0.268 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 24659 + Specific Conductance (µS/cm, 15°C) = 24669 Density (g/cm³) = 1.02644 Volume (L) = 1.00455 - Viscosity (mPa s) = 1.17530 + Viscosity (mPa s) = 1.17501 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -840,10 +840,10 @@ Reaction 1. pH = 7.084 Charge balance pe = 11.479 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 32007 + Specific Conductance (µS/cm, 15°C) = 32022 Density (g/cm³) = 1.03557 Volume (L) = 1.00587 - Viscosity (mPa s) = 1.18743 + Viscosity (mPa s) = 1.18709 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -917,10 +917,10 @@ Reaction 1. pH = 7.060 Charge balance pe = 11.127 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 45583 + Specific Conductance (µS/cm, 15°C) = 45610 Density (g/cm³) = 1.05353 Volume (L) = 1.00856 - Viscosity (mPa s) = 1.21225 + Viscosity (mPa s) = 1.21183 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -994,10 +994,10 @@ Reaction 1. pH = 7.037 Charge balance pe = -1.010 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 58607 + Specific Conductance (µS/cm, 15°C) = 58645 Density (g/cm³) = 1.07228 Volume (L) = 1.01152 - Viscosity (mPa s) = 1.23966 + Viscosity (mPa s) = 1.23918 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -1071,10 +1071,10 @@ Reaction 1. pH = 7.017 Charge balance pe = -0.137 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 69080 + Specific Conductance (µS/cm, 15°C) = 69128 Density (g/cm³) = 1.08864 Volume (L) = 1.01422 - Viscosity (mPa s) = 1.26493 + Viscosity (mPa s) = 1.26439 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -1148,10 +1148,10 @@ Reaction 1. pH = 6.998 Charge balance pe = 11.713 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 78089 + Specific Conductance (µS/cm, 15°C) = 78147 Density (g/cm³) = 1.10384 Volume (L) = 1.01682 - Viscosity (mPa s) = 1.28953 + Viscosity (mPa s) = 1.28895 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -1225,10 +1225,10 @@ Reaction 1. pH = 6.973 Charge balance pe = -0.124 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 88536 + Specific Conductance (µS/cm, 15°C) = 88604 Density (g/cm³) = 1.12304 Volume (L) = 1.02024 - Viscosity (mPa s) = 1.32223 + Viscosity (mPa s) = 1.32159 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -1302,10 +1302,10 @@ Reaction 1. pH = 6.907 Charge balance pe = 11.503 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 110777 + Specific Conductance (µS/cm, 15°C) = 110867 Density (g/cm³) = 1.17188 Volume (L) = 1.02963 - Viscosity (mPa s) = 1.41378 + Viscosity (mPa s) = 1.41302 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -1379,10 +1379,10 @@ Reaction 1. pH = 6.905 Charge balance pe = -0.764 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 111289 + Specific Conductance (µS/cm, 15°C) = 111380 Density (g/cm³) = 1.17318 Volume (L) = 1.02989 - Viscosity (mPa s) = 1.41638 + Viscosity (mPa s) = 1.41562 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -1456,10 +1456,10 @@ Reaction 1. pH = 6.858 Charge balance pe = -0.848 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 122917 + Specific Conductance (µS/cm, 15°C) = 123018 Density (g/cm³) = 1.20563 Volume (L) = 1.03671 - Viscosity (mPa s) = 1.48441 + Viscosity (mPa s) = 1.48357 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -1533,10 +1533,10 @@ Reaction 1. pH = 6.852 Charge balance pe = -0.725 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 124164 + Specific Conductance (µS/cm, 15°C) = 124266 Density (g/cm³) = 1.20953 Volume (L) = 1.03756 - Viscosity (mPa s) = 1.49295 + Viscosity (mPa s) = 1.49211 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.673e+00 Mass of water (kg) = 1.000e+00 @@ -1610,10 +1610,10 @@ Reaction 1. pH = 6.784 Charge balance pe = -0.448 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 136157 + Specific Conductance (µS/cm, 15°C) = 136266 Density (g/cm³) = 1.25286 Volume (L) = 1.04750 - Viscosity (mPa s) = 1.59402 + Viscosity (mPa s) = 1.59309 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -1687,10 +1687,10 @@ Reaction 1. pH = 6.763 Charge balance pe = 11.809 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 139169 + Specific Conductance (µS/cm, 15°C) = 139280 Density (g/cm³) = 1.26604 Volume (L) = 1.05071 - Viscosity (mPa s) = 1.62700 + Viscosity (mPa s) = 1.62603 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -3949,7 +3949,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 119223 Density (g/cm³) = 1.14161 Volume (L) = 1.02767 - Viscosity (mPa s) = 1.08465 + Viscosity (mPa s) = 1.08464 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.495e+00 Mass of water (kg) = 1.000e+00 @@ -4257,7 +4257,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 146313 Density (g/cm³) = 1.20136 Volume (L) = 1.04040 - Viscosity (mPa s) = 1.18818 + Viscosity (mPa s) = 1.18817 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -4642,7 +4642,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 161502 Density (g/cm³) = 1.24860 Volume (L) = 1.05157 - Viscosity (mPa s) = 1.28143 + Viscosity (mPa s) = 1.28142 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.509e+00 Mass of water (kg) = 1.000e+00 @@ -4793,7 +4793,7 @@ Reaction 1. pH = 6.711 Charge balance pe = -0.614 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 166143 + Specific Conductance (µS/cm, 25°C) = 166144 Density (g/cm³) = 1.26678 Volume (L) = 1.05614 Viscosity (mPa s) = 1.32017 @@ -4976,7 +4976,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 2737 Density (g/cm³) = 0.99572 Volume (L) = 1.00624 - Viscosity (mPa s) = 0.72203 + Viscosity (mPa s) = 0.72208 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.790e-02 Mass of water (kg) = 1.000e+00 @@ -5050,10 +5050,10 @@ Reaction 1. pH = 6.822 Charge balance pe = -0.057 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 8142 + Specific Conductance (µS/cm, 35°C) = 8141 Density (g/cm³) = 0.99939 Volume (L) = 1.00676 - Viscosity (mPa s) = 0.72623 + Viscosity (mPa s) = 0.72632 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.850e-02 Mass of water (kg) = 1.000e+00 @@ -5127,10 +5127,10 @@ Reaction 1. pH = 6.816 Charge balance pe = -0.045 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 13311 + Specific Conductance (µS/cm, 35°C) = 13307 Density (g/cm³) = 1.00309 Volume (L) = 1.00730 - Viscosity (mPa s) = 0.73015 + Viscosity (mPa s) = 0.73027 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -5204,10 +5204,10 @@ Reaction 1. pH = 6.816 Charge balance pe = -0.015 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 13336 + Specific Conductance (µS/cm, 35°C) = 13332 Density (g/cm³) = 1.00310 Volume (L) = 1.00731 - Viscosity (mPa s) = 0.73017 + Viscosity (mPa s) = 0.73029 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -5281,10 +5281,10 @@ Reaction 1. pH = 6.811 Charge balance pe = -0.131 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 18776 + Specific Conductance (µS/cm, 35°C) = 18769 Density (g/cm³) = 1.00715 Volume (L) = 1.00791 - Viscosity (mPa s) = 0.73436 + Viscosity (mPa s) = 0.73451 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.178e-01 Mass of water (kg) = 1.000e+00 @@ -5358,10 +5358,10 @@ Reaction 1. pH = 6.806 Charge balance pe = 10.009 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 25150 + Specific Conductance (µS/cm, 35°C) = 25139 Density (g/cm³) = 1.01206 Volume (L) = 1.00866 - Viscosity (mPa s) = 0.73941 + Viscosity (mPa s) = 0.73958 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -5435,10 +5435,10 @@ Reaction 1. pH = 6.798 Charge balance pe = 8.770 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 36076 + Specific Conductance (µS/cm, 35°C) = 36058 Density (g/cm³) = 1.02086 Volume (L) = 1.01004 - Viscosity (mPa s) = 0.74851 + Viscosity (mPa s) = 0.74872 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -5512,10 +5512,10 @@ Reaction 1. pH = 6.796 Charge balance pe = 0.136 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 39743 + Specific Conductance (µS/cm, 35°C) = 39723 Density (g/cm³) = 1.02392 Volume (L) = 1.01053 - Viscosity (mPa s) = 0.75170 + Viscosity (mPa s) = 0.75192 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -5589,10 +5589,10 @@ Reaction 1. pH = 6.792 Charge balance pe = 9.394 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 46622 + Specific Conductance (µS/cm, 35°C) = 46597 Density (g/cm³) = 1.02982 Volume (L) = 1.01149 - Viscosity (mPa s) = 0.75791 + Viscosity (mPa s) = 0.75816 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -5666,10 +5666,10 @@ Reaction 1. pH = 6.781 Charge balance pe = 10.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 65876 + Specific Conductance (µS/cm, 35°C) = 65834 Density (g/cm³) = 1.04743 Volume (L) = 1.01444 - Viscosity (mPa s) = 0.77702 + Viscosity (mPa s) = 0.77732 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -5743,10 +5743,10 @@ Reaction 1. pH = 6.778 Charge balance pe = 10.322 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 71750 + Specific Conductance (µS/cm, 35°C) = 71702 Density (g/cm³) = 1.05316 Volume (L) = 1.01543 - Viscosity (mPa s) = 0.78343 + Viscosity (mPa s) = 0.78375 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -5820,10 +5820,10 @@ Reaction 1. pH = 6.771 Charge balance pe = 10.046 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 84064 + Specific Conductance (µS/cm, 35°C) = 84003 Density (g/cm³) = 1.06580 Volume (L) = 1.01766 - Viscosity (mPa s) = 0.79792 + Viscosity (mPa s) = 0.79827 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -5897,10 +5897,10 @@ Reaction 1. pH = 6.763 Charge balance pe = 9.503 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 98490 + Specific Conductance (µS/cm, 35°C) = 98415 Density (g/cm³) = 1.08185 Volume (L) = 1.02059 - Viscosity (mPa s) = 0.81704 + Viscosity (mPa s) = 0.81742 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -5974,10 +5974,10 @@ Reaction 1. pH = 6.755 Charge balance pe = 0.344 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 110759 + Specific Conductance (µS/cm, 35°C) = 110671 Density (g/cm³) = 1.09675 Volume (L) = 1.02339 - Viscosity (mPa s) = 0.83552 + Viscosity (mPa s) = 0.83594 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -6051,10 +6051,10 @@ Reaction 1. pH = 6.745 Charge balance pe = 9.729 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 124822 + Specific Conductance (µS/cm, 35°C) = 124719 Density (g/cm³) = 1.11558 Volume (L) = 1.02706 - Viscosity (mPa s) = 0.85993 + Viscosity (mPa s) = 0.86039 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -6128,10 +6128,10 @@ Reaction 1. pH = 6.737 Charge balance pe = -0.382 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 134666 + Specific Conductance (µS/cm, 35°C) = 134553 Density (g/cm³) = 1.13014 Volume (L) = 1.02999 - Viscosity (mPa s) = 0.87962 + Viscosity (mPa s) = 0.88010 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -6205,10 +6205,10 @@ Reaction 1. pH = 6.733 Charge balance pe = 10.385 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 139422 + Specific Conductance (µS/cm, 35°C) = 139303 Density (g/cm³) = 1.13766 Volume (L) = 1.03154 - Viscosity (mPa s) = 0.89006 + Viscosity (mPa s) = 0.89056 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -6282,10 +6282,10 @@ Reaction 1. pH = 6.718 Charge balance pe = 10.143 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 154193 + Specific Conductance (µS/cm, 35°C) = 154061 Density (g/cm³) = 1.16352 Volume (L) = 1.03702 - Viscosity (mPa s) = 0.92750 + Viscosity (mPa s) = 0.92804 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -6359,10 +6359,10 @@ Reaction 1. pH = 6.717 Charge balance pe = 10.229 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 154862 + Specific Conductance (µS/cm, 35°C) = 154728 Density (g/cm³) = 1.16480 Volume (L) = 1.03730 - Viscosity (mPa s) = 0.92941 + Viscosity (mPa s) = 0.92995 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -6436,10 +6436,10 @@ Reaction 1. pH = 6.696 Charge balance pe = -0.607 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 169912 + Specific Conductance (µS/cm, 35°C) = 169766 Density (g/cm³) = 1.19670 Volume (L) = 1.04446 - Viscosity (mPa s) = 0.97902 + Viscosity (mPa s) = 0.97962 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -6513,10 +6513,10 @@ Reaction 1. pH = 6.693 Charge balance pe = 10.020 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 171515 + Specific Conductance (µS/cm, 35°C) = 171368 Density (g/cm³) = 1.20052 Volume (L) = 1.04534 - Viscosity (mPa s) = 0.98523 + Viscosity (mPa s) = 0.98583 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.673e+00 Mass of water (kg) = 1.000e+00 @@ -6590,10 +6590,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 10.851 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 186825 + Specific Conductance (µS/cm, 35°C) = 186669 Density (g/cm³) = 1.24318 Volume (L) = 1.05565 - Viscosity (mPa s) = 1.05821 + Viscosity (mPa s) = 1.05887 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -6667,10 +6667,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 10.851 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 186825 + Specific Conductance (µS/cm, 35°C) = 186669 Density (g/cm³) = 1.24318 Volume (L) = 1.05565 - Viscosity (mPa s) = 1.05821 + Viscosity (mPa s) = 1.05887 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -6744,10 +6744,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 10.477 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 190645 + Specific Conductance (µS/cm, 35°C) = 190487 Density (g/cm³) = 1.25618 Volume (L) = 1.05895 - Viscosity (mPa s) = 1.08188 + Viscosity (mPa s) = 1.08256 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -6924,10 +6924,10 @@ Reaction 1. pH = 6.681 Charge balance pe = 0.076 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 9511 + Specific Conductance (µS/cm, 45°C) = 9506 Density (g/cm³) = 0.99553 Volume (L) = 1.01066 - Viscosity (mPa s) = 0.60211 + Viscosity (mPa s) = 0.60227 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.850e-02 Mass of water (kg) = 1.000e+00 @@ -7001,10 +7001,10 @@ Reaction 1. pH = 6.675 Charge balance pe = 0.091 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 15530 + Specific Conductance (µS/cm, 45°C) = 15520 Density (g/cm³) = 0.99921 Volume (L) = 1.01121 - Viscosity (mPa s) = 0.60562 + Viscosity (mPa s) = 0.60584 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -7078,10 +7078,10 @@ Reaction 1. pH = 6.675 Charge balance pe = 0.160 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 15559 + Specific Conductance (µS/cm, 45°C) = 15549 Density (g/cm³) = 0.99923 Volume (L) = 1.01121 - Viscosity (mPa s) = 0.60564 + Viscosity (mPa s) = 0.60585 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -7155,10 +7155,10 @@ Reaction 1. pH = 6.670 Charge balance pe = 0.143 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 21883 + Specific Conductance (µS/cm, 45°C) = 21867 Density (g/cm³) = 1.00325 Volume (L) = 1.01183 - Viscosity (mPa s) = 0.60939 + Viscosity (mPa s) = 0.60965 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.178e-01 Mass of water (kg) = 1.000e+00 @@ -7232,10 +7232,10 @@ Reaction 1. pH = 6.666 Charge balance pe = -0.164 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 29280 + Specific Conductance (µS/cm, 45°C) = 29255 Density (g/cm³) = 1.00812 Volume (L) = 1.01260 - Viscosity (mPa s) = 0.61391 + Viscosity (mPa s) = 0.61421 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -7309,10 +7309,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 9.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 41926 + Specific Conductance (µS/cm, 45°C) = 41883 Density (g/cm³) = 1.01687 Volume (L) = 1.01401 - Viscosity (mPa s) = 0.62203 + Viscosity (mPa s) = 0.62240 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -7386,10 +7386,10 @@ Reaction 1. pH = 6.657 Charge balance pe = 8.710 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 46163 + Specific Conductance (µS/cm, 45°C) = 46113 Density (g/cm³) = 1.01991 Volume (L) = 1.01451 - Viscosity (mPa s) = 0.62488 + Viscosity (mPa s) = 0.62528 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -7463,10 +7463,10 @@ Reaction 1. pH = 6.654 Charge balance pe = 9.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 54095 + Specific Conductance (µS/cm, 45°C) = 54032 Density (g/cm³) = 1.02576 Volume (L) = 1.01549 - Viscosity (mPa s) = 0.63042 + Viscosity (mPa s) = 0.63085 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -7540,10 +7540,10 @@ Reaction 1. pH = 6.645 Charge balance pe = 8.653 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 76214 + Specific Conductance (µS/cm, 45°C) = 76111 Density (g/cm³) = 1.04326 Volume (L) = 1.01850 - Viscosity (mPa s) = 0.64742 + Viscosity (mPa s) = 0.64794 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -7617,10 +7617,10 @@ Reaction 1. pH = 6.643 Charge balance pe = 0.818 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 82937 + Specific Conductance (µS/cm, 45°C) = 82820 Density (g/cm³) = 1.04895 Volume (L) = 1.01951 - Viscosity (mPa s) = 0.65311 + Viscosity (mPa s) = 0.65366 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -7694,10 +7694,10 @@ Reaction 1. pH = 6.637 Charge balance pe = 9.175 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 96993 + Specific Conductance (µS/cm, 45°C) = 96847 Density (g/cm³) = 1.06151 Volume (L) = 1.02178 - Viscosity (mPa s) = 0.66595 + Viscosity (mPa s) = 0.66656 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -7771,10 +7771,10 @@ Reaction 1. pH = 6.631 Charge balance pe = 9.289 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 113395 + Specific Conductance (µS/cm, 45°C) = 113214 Density (g/cm³) = 1.07744 Volume (L) = 1.02476 - Viscosity (mPa s) = 0.68285 + Viscosity (mPa s) = 0.68353 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -7848,10 +7848,10 @@ Reaction 1. pH = 6.626 Charge balance pe = 0.234 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 127290 + Specific Conductance (µS/cm, 45°C) = 127078 Density (g/cm³) = 1.09225 Volume (L) = 1.02761 - Viscosity (mPa s) = 0.69916 + Viscosity (mPa s) = 0.69990 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -7925,10 +7925,10 @@ Reaction 1. pH = 6.619 Charge balance pe = -0.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 143155 + Specific Conductance (µS/cm, 45°C) = 142909 Density (g/cm³) = 1.11096 Volume (L) = 1.03134 - Viscosity (mPa s) = 0.72065 + Viscosity (mPa s) = 0.72145 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -8002,10 +8002,10 @@ Reaction 1. pH = 6.614 Charge balance pe = 9.785 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 154224 + Specific Conductance (µS/cm, 45°C) = 153954 Density (g/cm³) = 1.12542 Volume (L) = 1.03431 - Viscosity (mPa s) = 0.73794 + Viscosity (mPa s) = 0.73879 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -8079,10 +8079,10 @@ Reaction 1. pH = 6.611 Charge balance pe = 9.217 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 159560 + Specific Conductance (µS/cm, 45°C) = 159279 Density (g/cm³) = 1.13290 Volume (L) = 1.03587 - Viscosity (mPa s) = 0.74711 + Viscosity (mPa s) = 0.74799 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -8156,10 +8156,10 @@ Reaction 1. pH = 6.602 Charge balance pe = 9.897 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 176093 + Specific Conductance (µS/cm, 45°C) = 175781 Density (g/cm³) = 1.15861 Volume (L) = 1.04142 - Viscosity (mPa s) = 0.77991 + Viscosity (mPa s) = 0.78086 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -8233,10 +8233,10 @@ Reaction 1. pH = 6.601 Charge balance pe = 9.811 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 176840 + Specific Conductance (µS/cm, 45°C) = 176526 Density (g/cm³) = 1.15988 Volume (L) = 1.04170 - Viscosity (mPa s) = 0.78158 + Viscosity (mPa s) = 0.78253 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -8310,10 +8310,10 @@ Reaction 1. pH = 6.588 Charge balance pe = -0.565 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 193625 + Specific Conductance (µS/cm, 45°C) = 193282 Density (g/cm³) = 1.19161 Volume (L) = 1.04892 - Viscosity (mPa s) = 0.82492 + Viscosity (mPa s) = 0.82596 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -8387,10 +8387,10 @@ Reaction 1. pH = 6.587 Charge balance pe = 9.558 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 195410 + Specific Conductance (µS/cm, 45°C) = 195065 Density (g/cm³) = 1.19541 Volume (L) = 1.04981 - Viscosity (mPa s) = 0.83033 + Viscosity (mPa s) = 0.83139 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.673e+00 Mass of water (kg) = 1.000e+00 @@ -8464,10 +8464,10 @@ Reaction 1. pH = 6.566 Charge balance pe = 9.626 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 212439 + Specific Conductance (µS/cm, 45°C) = 212074 Density (g/cm³) = 1.23789 Volume (L) = 1.06017 - Viscosity (mPa s) = 0.89386 + Viscosity (mPa s) = 0.89503 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -8541,10 +8541,10 @@ Reaction 1. pH = 6.566 Charge balance pe = 9.626 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 212439 + Specific Conductance (µS/cm, 45°C) = 212074 Density (g/cm³) = 1.23789 Volume (L) = 1.06017 - Viscosity (mPa s) = 0.89386 + Viscosity (mPa s) = 0.89503 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -8618,10 +8618,10 @@ Reaction 1. pH = 6.558 Charge balance pe = 9.715 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 216686 + Specific Conductance (µS/cm, 45°C) = 216318 Density (g/cm³) = 1.25084 Volume (L) = 1.06348 - Viscosity (mPa s) = 0.91442 + Viscosity (mPa s) = 0.91562 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -8798,10 +8798,10 @@ Reaction 1. pH = 6.555 Charge balance pe = 0.210 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 7604 + Specific Conductance (µS/cm, 55°C) = 7599 Density (g/cm³) = 0.98931 Volume (L) = 1.01504 - Viscosity (mPa s) = 0.50782 + Viscosity (mPa s) = 0.50800 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.030e-02 Mass of water (kg) = 1.000e+00 @@ -8875,10 +8875,10 @@ Reaction 1. pH = 6.546 Charge balance pe = 0.184 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 17759 + Specific Conductance (µS/cm, 55°C) = 17742 Density (g/cm³) = 0.99465 Volume (L) = 1.01585 - Viscosity (mPa s) = 0.51251 + Viscosity (mPa s) = 0.51279 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -8952,10 +8952,10 @@ Reaction 1. pH = 6.546 Charge balance pe = 0.267 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 17857 + Specific Conductance (µS/cm, 55°C) = 17840 Density (g/cm³) = 0.99470 Volume (L) = 1.01586 - Viscosity (mPa s) = 0.51255 + Viscosity (mPa s) = 0.51284 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.509e-01 Mass of water (kg) = 1.000e+00 @@ -9029,10 +9029,10 @@ Reaction 1. pH = 6.542 Charge balance pe = 0.127 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 25033 + Specific Conductance (µS/cm, 55°C) = 25004 Density (g/cm³) = 0.99868 Volume (L) = 1.01648 - Viscosity (mPa s) = 0.51592 + Viscosity (mPa s) = 0.51626 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -9106,10 +9106,10 @@ Reaction 1. pH = 6.537 Charge balance pe = 0.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 33421 + Specific Conductance (µS/cm, 55°C) = 33376 Density (g/cm³) = 1.00351 Volume (L) = 1.01725 - Viscosity (mPa s) = 0.51997 + Viscosity (mPa s) = 0.52038 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -9183,10 +9183,10 @@ Reaction 1. pH = 6.531 Charge balance pe = 0.374 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 48124 + Specific Conductance (µS/cm, 55°C) = 48046 Density (g/cm³) = 1.01242 Volume (L) = 1.01871 - Viscosity (mPa s) = 0.52746 + Viscosity (mPa s) = 0.52796 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.518e-01 Mass of water (kg) = 1.000e+00 @@ -9260,10 +9260,10 @@ Reaction 1. pH = 6.529 Charge balance pe = -0.256 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 52591 + Specific Conductance (µS/cm, 55°C) = 52502 Density (g/cm³) = 1.01523 Volume (L) = 1.01918 - Viscosity (mPa s) = 0.52985 + Viscosity (mPa s) = 0.53037 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -9337,10 +9337,10 @@ Reaction 1. pH = 6.526 Charge balance pe = 8.917 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 61576 + Specific Conductance (µS/cm, 55°C) = 61463 Density (g/cm³) = 1.02106 Volume (L) = 1.02017 - Viscosity (mPa s) = 0.53482 + Viscosity (mPa s) = 0.53539 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -9414,10 +9414,10 @@ Reaction 1. pH = 6.518 Charge balance pe = 8.574 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 86550 + Specific Conductance (µS/cm, 55°C) = 86365 Density (g/cm³) = 1.03845 Volume (L) = 1.02321 - Viscosity (mPa s) = 0.55005 + Viscosity (mPa s) = 0.55076 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -9491,10 +9491,10 @@ Reaction 1. pH = 6.516 Charge balance pe = 8.707 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 94118 + Specific Conductance (µS/cm, 55°C) = 93909 Density (g/cm³) = 1.04411 Volume (L) = 1.02423 - Viscosity (mPa s) = 0.55514 + Viscosity (mPa s) = 0.55589 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -9568,10 +9568,10 @@ Reaction 1. pH = 6.512 Charge balance pe = -0.101 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 109908 + Specific Conductance (µS/cm, 55°C) = 109649 Density (g/cm³) = 1.05660 Volume (L) = 1.02653 - Viscosity (mPa s) = 0.56662 + Viscosity (mPa s) = 0.56744 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -9645,10 +9645,10 @@ Reaction 1. pH = 6.506 Charge balance pe = -0.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 128277 + Specific Conductance (µS/cm, 55°C) = 127957 Density (g/cm³) = 1.07245 Volume (L) = 1.02953 - Viscosity (mPa s) = 0.58170 + Viscosity (mPa s) = 0.58261 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -9722,10 +9722,10 @@ Reaction 1. pH = 6.497 Charge balance pe = -0.411 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 161456 + Specific Conductance (µS/cm, 55°C) = 161024 Density (g/cm³) = 1.10579 Volume (L) = 1.03616 - Viscosity (mPa s) = 0.61533 + Viscosity (mPa s) = 0.61641 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -9799,10 +9799,10 @@ Reaction 1. pH = 6.493 Charge balance pe = 8.430 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 173750 + Specific Conductance (µS/cm, 55°C) = 173278 Density (g/cm³) = 1.12019 Volume (L) = 1.03914 - Viscosity (mPa s) = 0.63068 + Viscosity (mPa s) = 0.63182 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -9876,10 +9876,10 @@ Reaction 1. pH = 6.492 Charge balance pe = 8.599 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 179668 + Specific Conductance (µS/cm, 55°C) = 179177 Density (g/cm³) = 1.12762 Volume (L) = 1.04072 - Viscosity (mPa s) = 0.63882 + Viscosity (mPa s) = 0.63999 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -9953,10 +9953,10 @@ Reaction 1. pH = 6.485 Charge balance pe = 8.787 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 197977 + Specific Conductance (µS/cm, 55°C) = 197431 Density (g/cm³) = 1.15322 Volume (L) = 1.04629 - Viscosity (mPa s) = 0.66786 + Viscosity (mPa s) = 0.66914 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -10030,10 +10030,10 @@ Reaction 1. pH = 6.485 Charge balance pe = 0.024 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 198802 + Specific Conductance (µS/cm, 55°C) = 198255 Density (g/cm³) = 1.15448 Volume (L) = 1.04657 - Viscosity (mPa s) = 0.66933 + Viscosity (mPa s) = 0.67062 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -10107,10 +10107,10 @@ Reaction 1. pH = 6.477 Charge balance pe = 0.196 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 217351 + Specific Conductance (µS/cm, 55°C) = 216757 Density (g/cm³) = 1.18608 Volume (L) = 1.05380 - Viscosity (mPa s) = 0.70762 + Viscosity (mPa s) = 0.70903 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -10184,10 +10184,10 @@ Reaction 1. pH = 6.476 Charge balance pe = -0.117 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 219323 + Specific Conductance (µS/cm, 55°C) = 218724 Density (g/cm³) = 1.18987 Volume (L) = 1.05470 - Viscosity (mPa s) = 0.71240 + Viscosity (mPa s) = 0.71382 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.673e+00 Mass of water (kg) = 1.000e+00 @@ -10261,10 +10261,10 @@ Reaction 1. pH = 6.463 Charge balance pe = 7.765 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 238134 + Specific Conductance (µS/cm, 55°C) = 237504 Density (g/cm³) = 1.23222 Volume (L) = 1.06505 - Viscosity (mPa s) = 0.76837 + Viscosity (mPa s) = 0.76995 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -10338,10 +10338,10 @@ Reaction 1. pH = 6.463 Charge balance pe = 7.765 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 238134 + Specific Conductance (µS/cm, 55°C) = 237504 Density (g/cm³) = 1.23222 Volume (L) = 1.06505 - Viscosity (mPa s) = 0.76837 + Viscosity (mPa s) = 0.76995 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -10415,10 +10415,10 @@ Reaction 1. pH = 6.458 Charge balance pe = 9.113 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 242830 + Specific Conductance (µS/cm, 55°C) = 242195 Density (g/cm³) = 1.24514 Volume (L) = 1.06835 - Viscosity (mPa s) = 0.78646 + Viscosity (mPa s) = 0.78808 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -10595,10 +10595,10 @@ Reaction 1. pH = 6.287 Charge balance pe = 0.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 4829 + Specific Conductance (µS/cm, 80°C) = 4825 Density (g/cm³) = 0.97345 Volume (L) = 1.02926 - Viscosity (mPa s) = 0.35591 + Viscosity (mPa s) = 0.35609 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.790e-02 Mass of water (kg) = 1.000e+00 @@ -10672,10 +10672,10 @@ Reaction 1. pH = 6.278 Charge balance pe = 0.433 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 14262 + Specific Conductance (µS/cm, 80°C) = 14239 Density (g/cm³) = 0.97705 Volume (L) = 1.02978 - Viscosity (mPa s) = 0.35861 + Viscosity (mPa s) = 0.35894 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.850e-02 Mass of water (kg) = 1.000e+00 @@ -10749,10 +10749,10 @@ Reaction 1. pH = 6.272 Charge balance pe = 0.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 23259 + Specific Conductance (µS/cm, 80°C) = 23211 Density (g/cm³) = 0.98069 Volume (L) = 1.03033 - Viscosity (mPa s) = 0.36115 + Viscosity (mPa s) = 0.36157 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -10826,10 +10826,10 @@ Reaction 1. pH = 6.267 Charge balance pe = 0.240 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 32671 + Specific Conductance (µS/cm, 80°C) = 32591 Density (g/cm³) = 0.98467 Volume (L) = 1.03094 - Viscosity (mPa s) = 0.36384 + Viscosity (mPa s) = 0.36435 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -10903,10 +10903,10 @@ Reaction 1. pH = 6.263 Charge balance pe = 0.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 43547 + Specific Conductance (µS/cm, 80°C) = 43424 Density (g/cm³) = 0.98946 Volume (L) = 1.03170 - Viscosity (mPa s) = 0.36705 + Viscosity (mPa s) = 0.36765 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -10980,10 +10980,10 @@ Reaction 1. pH = 6.256 Charge balance pe = 6.987 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 62109 + Specific Conductance (µS/cm, 80°C) = 61900 Density (g/cm³) = 0.99807 Volume (L) = 1.03310 - Viscosity (mPa s) = 0.37282 + Viscosity (mPa s) = 0.37356 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -11057,10 +11057,10 @@ Reaction 1. pH = 6.255 Charge balance pe = 7.478 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 68299 + Specific Conductance (µS/cm, 80°C) = 68058 Density (g/cm³) = 1.00107 Volume (L) = 1.03360 - Viscosity (mPa s) = 0.37485 + Viscosity (mPa s) = 0.37562 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -11134,10 +11134,10 @@ Reaction 1. pH = 6.251 Charge balance pe = 7.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 79851 + Specific Conductance (µS/cm, 80°C) = 79548 Density (g/cm³) = 1.00683 Volume (L) = 1.03458 - Viscosity (mPa s) = 0.37876 + Viscosity (mPa s) = 0.37961 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -11211,10 +11211,10 @@ Reaction 1. pH = 6.244 Charge balance pe = -0.028 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 111800 + Specific Conductance (µS/cm, 80°C) = 111308 Density (g/cm³) = 1.02405 Volume (L) = 1.03760 - Viscosity (mPa s) = 0.39070 + Viscosity (mPa s) = 0.39174 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -11288,10 +11288,10 @@ Reaction 1. pH = 6.242 Charge balance pe = 0.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 121436 + Specific Conductance (µS/cm, 80°C) = 120883 Density (g/cm³) = 1.02966 Volume (L) = 1.03861 - Viscosity (mPa s) = 0.39468 + Viscosity (mPa s) = 0.39578 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -11365,10 +11365,10 @@ Reaction 1. pH = 6.238 Charge balance pe = 7.148 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 141472 + Specific Conductance (µS/cm, 80°C) = 140789 Density (g/cm³) = 1.04202 Volume (L) = 1.04089 - Viscosity (mPa s) = 0.40363 + Viscosity (mPa s) = 0.40484 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -11442,10 +11442,10 @@ Reaction 1. pH = 6.231 Charge balance pe = 0.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 184178 + Specific Conductance (µS/cm, 80°C) = 183209 Density (g/cm³) = 1.07229 Volume (L) = 1.04673 - Viscosity (mPa s) = 0.42661 + Viscosity (mPa s) = 0.42806 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -11519,10 +11519,10 @@ Reaction 1. pH = 6.225 Charge balance pe = 7.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 221656 + Specific Conductance (µS/cm, 80°C) = 220445 Density (g/cm³) = 1.10500 Volume (L) = 1.05343 - Viscosity (mPa s) = 0.45318 + Viscosity (mPa s) = 0.45486 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -11596,10 +11596,10 @@ Reaction 1. pH = 6.224 Charge balance pe = 7.519 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 229037 + Specific Conductance (µS/cm, 80°C) = 227780 Density (g/cm³) = 1.11237 Volume (L) = 1.05499 - Viscosity (mPa s) = 0.45943 + Viscosity (mPa s) = 0.46116 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -11673,10 +11673,10 @@ Reaction 1. pH = 6.220 Charge balance pe = 7.540 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 251841 + Specific Conductance (µS/cm, 80°C) = 250455 Density (g/cm³) = 1.13776 Volume (L) = 1.06050 - Viscosity (mPa s) = 0.48170 + Viscosity (mPa s) = 0.48359 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -11750,10 +11750,10 @@ Reaction 1. pH = 6.212 Charge balance pe = -0.046 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 301985 + Specific Conductance (µS/cm, 80°C) = 300408 Density (g/cm³) = 1.21631 Volume (L) = 1.07897 - Viscosity (mPa s) = 0.55824 + Viscosity (mPa s) = 0.56056 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -11827,10 +11827,10 @@ Reaction 1. pH = 6.210 Charge balance pe = 7.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 307907 + Specific Conductance (µS/cm, 80°C) = 306322 Density (g/cm³) = 1.22919 Volume (L) = 1.08221 - Viscosity (mPa s) = 0.57194 + Viscosity (mPa s) = 0.57433 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -12007,10 +12007,10 @@ Reaction 1. pH = 6.101 Charge balance pe = 0.609 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 17255 + Specific Conductance (µS/cm, 100°C) = 17213 Density (g/cm³) = 0.96376 Volume (L) = 1.04417 - Viscosity (mPa s) = 0.28561 + Viscosity (mPa s) = 0.28601 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.120e-02 Mass of water (kg) = 1.000e+00 @@ -12084,10 +12084,10 @@ Reaction 1. pH = 6.095 Charge balance pe = 0.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 27436 + Specific Conductance (µS/cm, 100°C) = 27351 Density (g/cm³) = 0.96727 Volume (L) = 1.04467 - Viscosity (mPa s) = 0.28770 + Viscosity (mPa s) = 0.28821 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.509e-01 Mass of water (kg) = 1.000e+00 @@ -12161,10 +12161,10 @@ Reaction 1. pH = 6.090 Charge balance pe = 0.667 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 38368 + Specific Conductance (µS/cm, 100°C) = 38227 Density (g/cm³) = 0.97120 Volume (L) = 1.04525 - Viscosity (mPa s) = 0.28998 + Viscosity (mPa s) = 0.29059 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -12238,10 +12238,10 @@ Reaction 1. pH = 6.085 Charge balance pe = 0.588 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 51104 + Specific Conductance (µS/cm, 100°C) = 50886 Density (g/cm³) = 0.97596 Volume (L) = 1.04597 - Viscosity (mPa s) = 0.29271 + Viscosity (mPa s) = 0.29343 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -12315,10 +12315,10 @@ Reaction 1. pH = 6.079 Charge balance pe = 6.699 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 73320 + Specific Conductance (µS/cm, 100°C) = 72949 Density (g/cm³) = 0.98474 Volume (L) = 1.04734 - Viscosity (mPa s) = 0.29774 + Viscosity (mPa s) = 0.29862 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.518e-01 Mass of water (kg) = 1.000e+00 @@ -12392,10 +12392,10 @@ Reaction 1. pH = 6.077 Charge balance pe = 6.676 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 80043 + Specific Conductance (µS/cm, 100°C) = 79620 Density (g/cm³) = 0.98751 Volume (L) = 1.04779 - Viscosity (mPa s) = 0.29933 + Viscosity (mPa s) = 0.30026 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -12469,10 +12469,10 @@ Reaction 1. pH = 6.074 Charge balance pe = 0.452 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 93290 + Specific Conductance (µS/cm, 100°C) = 92761 Density (g/cm³) = 0.99315 Volume (L) = 1.04871 - Viscosity (mPa s) = 0.30259 + Viscosity (mPa s) = 0.30361 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.982e-01 Mass of water (kg) = 1.000e+00 @@ -12546,10 +12546,10 @@ Reaction 1. pH = 6.067 Charge balance pe = 6.455 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 127711 + Specific Conductance (µS/cm, 100°C) = 126882 Density (g/cm³) = 1.00890 Volume (L) = 1.05139 - Viscosity (mPa s) = 0.31187 + Viscosity (mPa s) = 0.31310 Activity of water = 0.985 Ionic strength (mol/kgw) = 8.751e-01 Mass of water (kg) = 1.000e+00 @@ -12623,10 +12623,10 @@ Reaction 1. pH = 6.064 Charge balance pe = 0.285 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 141956 + Specific Conductance (µS/cm, 100°C) = 140994 Density (g/cm³) = 1.01595 Volume (L) = 1.05263 - Viscosity (mPa s) = 0.31611 + Viscosity (mPa s) = 0.31742 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -12700,10 +12700,10 @@ Reaction 1. pH = 6.060 Charge balance pe = 0.807 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 163735 + Specific Conductance (µS/cm, 100°C) = 162565 Density (g/cm³) = 1.02742 Volume (L) = 1.05469 - Viscosity (mPa s) = 0.32314 + Viscosity (mPa s) = 0.32459 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.205e+00 Mass of water (kg) = 1.000e+00 @@ -12777,10 +12777,10 @@ Reaction 1. pH = 6.053 Charge balance pe = 6.117 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 216651 + Specific Conductance (µS/cm, 100°C) = 214965 Density (g/cm³) = 1.05965 Volume (L) = 1.06078 - Viscosity (mPa s) = 0.34383 + Viscosity (mPa s) = 0.34558 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.787e+00 Mass of water (kg) = 1.000e+00 @@ -12854,10 +12854,10 @@ Reaction 1. pH = 6.047 Charge balance pe = 6.357 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 259739 + Specific Conductance (µS/cm, 100°C) = 257653 Density (g/cm³) = 1.09225 Volume (L) = 1.06734 - Viscosity (mPa s) = 0.36620 + Viscosity (mPa s) = 0.36823 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.389e+00 Mass of water (kg) = 1.000e+00 @@ -12931,10 +12931,10 @@ Reaction 1. pH = 6.047 Charge balance pe = 6.065 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 266657 + Specific Conductance (µS/cm, 100°C) = 264511 Density (g/cm³) = 1.09822 Volume (L) = 1.06858 - Viscosity (mPa s) = 0.37045 + Viscosity (mPa s) = 0.37253 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -13008,10 +13008,10 @@ Reaction 1. pH = 6.044 Charge balance pe = 0.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 292473 + Specific Conductance (µS/cm, 100°C) = 290119 Density (g/cm³) = 1.12286 Volume (L) = 1.07384 - Viscosity (mPa s) = 0.38857 + Viscosity (mPa s) = 0.39084 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -13085,10 +13085,10 @@ Reaction 1. pH = 6.040 Charge balance pe = 6.958 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 326574 + Specific Conductance (µS/cm, 100°C) = 324003 Density (g/cm³) = 1.16321 Volume (L) = 1.08288 - Viscosity (mPa s) = 0.42018 + Viscosity (mPa s) = 0.42272 Activity of water = 0.936 Ionic strength (mol/kgw) = 3.740e+00 Mass of water (kg) = 1.000e+00 @@ -13162,10 +13162,10 @@ Reaction 1. pH = 6.038 Charge balance pe = 6.398 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 351594 + Specific Conductance (µS/cm, 100°C) = 348928 Density (g/cm³) = 1.20178 Volume (L) = 1.09202 - Viscosity (mPa s) = 0.45272 + Viscosity (mPa s) = 0.45551 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -13343,10 +13343,10 @@ Reaction 1. pH = 5.961 Charge balance pe = 0.734 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 13522 + Specific Conductance (µS/cm, 120°C) = 13485 Density (g/cm³) = 0.94675 Volume (L) = 1.06073 - Viscosity (mPa s) = 0.23462 + Viscosity (mPa s) = 0.23500 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.120e-02 Mass of water (kg) = 1.000e+00 @@ -13421,10 +13421,10 @@ Reaction 1. pH = 5.957 Charge balance pe = 0.739 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 19580 + Specific Conductance (µS/cm, 120°C) = 19514 Density (g/cm³) = 0.94852 Volume (L) = 1.06095 - Viscosity (mPa s) = 0.23559 + Viscosity (mPa s) = 0.23604 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.120e-02 Mass of water (kg) = 1.000e+00 @@ -13499,10 +13499,10 @@ Reaction 1. pH = 5.951 Charge balance pe = 0.692 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 31114 + Specific Conductance (µS/cm, 120°C) = 30980 Density (g/cm³) = 0.95203 Volume (L) = 1.06139 - Viscosity (mPa s) = 0.23741 + Viscosity (mPa s) = 0.23800 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.509e-01 Mass of water (kg) = 1.000e+00 @@ -13577,10 +13577,10 @@ Reaction 1. pH = 5.945 Charge balance pe = 0.398 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 43496 + Specific Conductance (µS/cm, 120°C) = 43273 Density (g/cm³) = 0.95595 Volume (L) = 1.06191 - Viscosity (mPa s) = 0.23939 + Viscosity (mPa s) = 0.24010 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -13655,10 +13655,10 @@ Reaction 1. pH = 5.940 Charge balance pe = 5.622 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 57918 + Specific Conductance (µS/cm, 120°C) = 57576 Density (g/cm³) = 0.96071 Volume (L) = 1.06257 - Viscosity (mPa s) = 0.24177 + Viscosity (mPa s) = 0.24260 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -13733,10 +13733,10 @@ Reaction 1. pH = 5.933 Charge balance pe = 5.157 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 83072 + Specific Conductance (µS/cm, 120°C) = 82488 Density (g/cm³) = 0.96947 Volume (L) = 1.06384 - Viscosity (mPa s) = 0.24613 + Viscosity (mPa s) = 0.24715 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.518e-01 Mass of water (kg) = 1.000e+00 @@ -13811,10 +13811,10 @@ Reaction 1. pH = 5.931 Charge balance pe = 5.616 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 90681 + Specific Conductance (µS/cm, 120°C) = 90017 Density (g/cm³) = 0.97224 Volume (L) = 1.06426 - Viscosity (mPa s) = 0.24751 + Viscosity (mPa s) = 0.24858 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -13889,10 +13889,10 @@ Reaction 1. pH = 5.927 Charge balance pe = 0.322 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 105672 + Specific Conductance (µS/cm, 120°C) = 104843 Density (g/cm³) = 0.97785 Volume (L) = 1.06512 - Viscosity (mPa s) = 0.25033 + Viscosity (mPa s) = 0.25150 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.982e-01 Mass of water (kg) = 1.000e+00 @@ -13967,10 +13967,10 @@ Reaction 1. pH = 5.920 Charge balance pe = 5.219 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 144606 + Specific Conductance (µS/cm, 120°C) = 143311 Density (g/cm³) = 0.99355 Volume (L) = 1.06763 - Viscosity (mPa s) = 0.25834 + Viscosity (mPa s) = 0.25975 Activity of water = 0.985 Ionic strength (mol/kgw) = 8.751e-01 Mass of water (kg) = 1.000e+00 @@ -14045,10 +14045,10 @@ Reaction 1. pH = 5.917 Charge balance pe = 0.646 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 160710 + Specific Conductance (µS/cm, 120°C) = 159211 Density (g/cm³) = 1.00057 Volume (L) = 1.06880 - Viscosity (mPa s) = 0.26199 + Viscosity (mPa s) = 0.26351 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -14123,10 +14123,10 @@ Reaction 1. pH = 5.906 Charge balance pe = 5.973 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 242817 + Specific Conductance (µS/cm, 120°C) = 240237 Density (g/cm³) = 1.04272 Volume (L) = 1.07633 - Viscosity (mPa s) = 0.28503 + Viscosity (mPa s) = 0.28704 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.762e+00 Mass of water (kg) = 1.000e+00 @@ -14201,10 +14201,10 @@ Reaction 1. pH = 5.901 Charge balance pe = 5.716 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 292789 + Specific Conductance (µS/cm, 120°C) = 289586 Density (g/cm³) = 1.07575 Volume (L) = 1.08274 - Viscosity (mPa s) = 0.30450 + Viscosity (mPa s) = 0.30683 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.374e+00 Mass of water (kg) = 1.000e+00 @@ -14279,10 +14279,10 @@ Reaction 1. pH = 5.900 Charge balance pe = 5.716 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 301710 + Specific Conductance (µS/cm, 120°C) = 298404 Density (g/cm³) = 1.08250 Volume (L) = 1.08410 - Viscosity (mPa s) = 0.30863 + Viscosity (mPa s) = 0.31102 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -14357,10 +14357,10 @@ Reaction 1. pH = 5.897 Charge balance pe = 5.735 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 331013 + Specific Conductance (µS/cm, 120°C) = 327395 Density (g/cm³) = 1.10703 Volume (L) = 1.08919 - Viscosity (mPa s) = 0.32411 + Viscosity (mPa s) = 0.32672 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -14435,10 +14435,10 @@ Reaction 1. pH = 5.894 Charge balance pe = 5.705 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 369914 + Specific Conductance (µS/cm, 120°C) = 365971 Density (g/cm³) = 1.14723 Volume (L) = 1.09797 - Viscosity (mPa s) = 0.35108 + Viscosity (mPa s) = 0.35401 Activity of water = 0.936 Ionic strength (mol/kgw) = 3.740e+00 Mass of water (kg) = 1.000e+00 @@ -14617,10 +14617,10 @@ Reaction 1. pH = 5.841 Charge balance pe = 4.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 21580 + Specific Conductance (µS/cm, 140°C) = 21483 Density (g/cm³) = 0.93158 Volume (L) = 1.08024 - Viscosity (mPa s) = 0.19984 + Viscosity (mPa s) = 0.20035 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.120e-02 Mass of water (kg) = 1.000e+00 @@ -14695,10 +14695,10 @@ Reaction 1. pH = 5.834 Charge balance pe = 3.982 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 34160 + Specific Conductance (µS/cm, 140°C) = 33965 Density (g/cm³) = 0.93506 Volume (L) = 1.08061 - Viscosity (mPa s) = 0.20144 + Viscosity (mPa s) = 0.20211 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -14773,10 +14773,10 @@ Reaction 1. pH = 5.828 Charge balance pe = 4.090 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 47930 + Specific Conductance (µS/cm, 140°C) = 47604 Density (g/cm³) = 0.93902 Volume (L) = 1.08106 - Viscosity (mPa s) = 0.20322 + Viscosity (mPa s) = 0.20402 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -14851,10 +14851,10 @@ Reaction 1. pH = 5.822 Charge balance pe = 3.819 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 63833 + Specific Conductance (µS/cm, 140°C) = 63334 Density (g/cm³) = 0.94379 Volume (L) = 1.08162 - Viscosity (mPa s) = 0.20532 + Viscosity (mPa s) = 0.20626 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -14929,10 +14929,10 @@ Reaction 1. pH = 5.815 Charge balance pe = 3.913 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 90951 + Specific Conductance (µS/cm, 140°C) = 90110 Density (g/cm³) = 0.95234 Volume (L) = 1.08271 - Viscosity (mPa s) = 0.20907 + Viscosity (mPa s) = 0.21022 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -15007,10 +15007,10 @@ Reaction 1. pH = 5.812 Charge balance pe = 0.591 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 99985 + Specific Conductance (µS/cm, 140°C) = 99020 Density (g/cm³) = 0.95531 Volume (L) = 1.08311 - Viscosity (mPa s) = 0.21038 + Viscosity (mPa s) = 0.21159 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -15085,10 +15085,10 @@ Reaction 1. pH = 5.809 Charge balance pe = 4.257 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 116536 + Specific Conductance (µS/cm, 140°C) = 115332 Density (g/cm³) = 0.96092 Volume (L) = 1.08388 - Viscosity (mPa s) = 0.21286 + Viscosity (mPa s) = 0.21419 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.982e-01 Mass of water (kg) = 1.000e+00 @@ -15163,10 +15163,10 @@ Reaction 1. pH = 5.801 Charge balance pe = 4.631 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 163335 + Specific Conductance (µS/cm, 140°C) = 161396 Density (g/cm³) = 0.97807 Volume (L) = 1.08638 - Viscosity (mPa s) = 0.22058 + Viscosity (mPa s) = 0.22220 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -15241,10 +15241,10 @@ Reaction 1. pH = 5.798 Charge balance pe = 4.762 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 177335 + Specific Conductance (µS/cm, 140°C) = 175164 Density (g/cm³) = 0.98361 Volume (L) = 1.08723 - Viscosity (mPa s) = 0.22312 + Viscosity (mPa s) = 0.22483 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -15319,10 +15319,10 @@ Reaction 1. pH = 5.794 Charge balance pe = 0.506 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 204544 + Specific Conductance (µS/cm, 140°C) = 201913 Density (g/cm³) = 0.99501 Volume (L) = 1.08904 - Viscosity (mPa s) = 0.22843 + Viscosity (mPa s) = 0.23030 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.205e+00 Mass of water (kg) = 1.000e+00 @@ -15397,10 +15397,10 @@ Reaction 1. pH = 5.787 Charge balance pe = 4.725 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 268326 + Specific Conductance (µS/cm, 140°C) = 264608 Density (g/cm³) = 1.02572 Volume (L) = 1.09427 - Viscosity (mPa s) = 0.24333 + Viscosity (mPa s) = 0.24560 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -15475,10 +15475,10 @@ Reaction 1. pH = 5.781 Charge balance pe = 5.523 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 322783 + Specific Conductance (µS/cm, 140°C) = 318194 Density (g/cm³) = 1.05799 Volume (L) = 1.10023 - Viscosity (mPa s) = 0.25999 + Viscosity (mPa s) = 0.26262 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -15553,10 +15553,10 @@ Reaction 1. pH = 5.780 Charge balance pe = 0.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 333551 + Specific Conductance (µS/cm, 140°C) = 328803 Density (g/cm³) = 1.06527 Volume (L) = 1.10164 - Viscosity (mPa s) = 0.26389 + Viscosity (mPa s) = 0.26659 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -15631,10 +15631,10 @@ Reaction 1. pH = 5.778 Charge balance pe = 0.417 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 366988 + Specific Conductance (µS/cm, 140°C) = 361788 Density (g/cm³) = 1.09033 Volume (L) = 1.10664 - Viscosity (mPa s) = 0.27774 + Viscosity (mPa s) = 0.28069 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -15709,10 +15709,10 @@ Reaction 1. pH = 5.775 Charge balance pe = 5.508 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 406495 + Specific Conductance (µS/cm, 140°C) = 400872 Density (g/cm³) = 1.12629 Volume (L) = 1.11424 - Viscosity (mPa s) = 0.29878 + Viscosity (mPa s) = 0.30205 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.673e+00 Mass of water (kg) = 1.000e+00 @@ -15787,10 +15787,10 @@ Reaction 1. pH = 5.773 Charge balance pe = 4.796 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 442340 + Specific Conductance (µS/cm, 140°C) = 436483 Density (g/cm³) = 1.16798 Volume (L) = 1.12362 - Viscosity (mPa s) = 0.32492 + Viscosity (mPa s) = 0.32855 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -15865,10 +15865,10 @@ Reaction 1. pH = 5.773 Charge balance pe = 5.443 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 451557 + Specific Conductance (µS/cm, 140°C) = 445671 Density (g/cm³) = 1.18074 Volume (L) = 1.12661 - Viscosity (mPa s) = 0.33331 + Viscosity (mPa s) = 0.33704 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_BaCl2_sol_101.sel b/mytest/Vm_BaCl2_sol_101.sel index 4989e3de..84aae82c 100644 --- a/mytest/Vm_BaCl2_sol_101.sel +++ b/mytest/Vm_BaCl2_sol_101.sel @@ -1,204 +1,204 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000067373 0.0312920192 - 0.027900073461 1839.6481279402 - 0.088500073293 5494.6343305082 - 0.150000071933 9007.6489139219 - 0.150300071925 9024.4513475229 - 0.217800070092 12738.8595335869 - 0.299400067684 17080.2751969086 - 0.300000067666 17111.6695782498 - 0.448200063040 24659.1232641802 - 0.600000058107 32007.0450318691 - 0.901200047892 45583.4435386781 - 1.219200036521 58607.1146051436 - 1.500000025962 69080.2988554382 - 1.763400015598 78089.9284818090 - 2.100000001694 88536.0442945146 - 2.976299962041 110777.1043349175 - 2.999999960901 111289.7637970171 - 3.599999930876 122917.4760561765 - 3.672899927078 124164.8462871582 - 4.499999881750 136157.1158510549 - 4.757399866797 139169.5874585611 + 0.000000067373 0.0312920198 + 0.027900073461 1839.8556517402 + 0.088500073293 5495.7331522514 + 0.150000071933 9009.9830283043 + 0.150300071925 9026.7920960461 + 0.217800070092 12742.8141284065 + 0.299400067684 17086.4447193472 + 0.300000067666 17117.8562711282 + 0.448200063040 24669.8578629836 + 0.600000058107 32022.9029049285 + 0.901200047892 45610.1788961928 + 1.219200036521 58645.5828175119 + 1.500000025962 69128.8481369673 + 1.763400015598 78147.4468692239 + 2.100000001694 88604.1210419142 + 2.976299962041 110867.1116019450 + 2.999999960901 111380.2496339010 + 3.599999930876 123018.1691235648 + 3.672899927078 124266.5406881294 + 4.499999881750 136266.9908004689 + 4.757399866797 139280.9547501389 0.000000100644 0.0547821292 - 0.011640110158 986.6344408244 - 0.027900113514 2280.9774548781 - 0.046860115655 3733.3542470116 - 0.082080117896 6334.2094233005 - 0.088500118176 6798.2037644245 - 0.116370119121 8783.9962977070 - 0.150000119853 11127.9561684753 - 0.150300119858 11148.6397269125 - 0.217800120547 15715.3933605463 - 0.236430120618 16948.3236942634 - 0.299400120603 21039.1899244053 - 0.300000120601 21077.6347879234 - 0.448200119568 30298.0446746295 - 0.470700119328 31653.2031227170 - 0.500001118991 33401.4740101686 - 0.600000117657 39232.7112903293 - 0.709410115930 45384.8268542812 - 0.901200112367 55631.9001063001 - 0.948420111399 58054.7933788402 - 0.999999110304 60657.7792262716 - 1.160640106653 68481.4850957585 - 1.219200105236 71229.9350531083 - 1.500000097823 83677.8989785847 - 1.512000097484 84183.8298485716 - 1.763400089968 94317.9090707669 - 2.100000078686 106574.7987959156 - 2.363100068906 115194.0962527389 - 2.495100063685 119223.4542801914 - 2.499999063488 119369.3571958664 - 2.976300042905 132386.2791898425 - 3.000000041811 132976.6845036307 - 3.600000012033 146313.5313360659 - 3.672900008147 147738.1580019070 - 3.761400003354 149415.2193816983 - 4.499999960257 161376.8177926473 - 4.499999960257 161376.8177926473 - 4.508999959699 161502.1369783409 - 4.757399944006 164787.2364614716 - 4.867799936851 166143.9332358398 - 0.000000144671 0.0897028169 - 0.027900165739 2737.5356949986 - 0.088500175696 8142.8490938605 - 0.150000180600 13311.3777307085 - 0.150300180619 13336.0426011770 - 0.217800183947 18776.2073856844 - 0.300000186572 25150.1376511156 - 0.448200189245 36076.1032431805 - 0.500001189793 39743.9957547171 - 0.600000190469 46622.7964590369 - 0.901200190424 65876.6461375182 - 0.999999189914 71750.3232808673 - 1.219200188100 84064.2592829689 - 1.500000184568 98490.6247934470 - 1.763400180127 110759.5966601728 - 2.100000172925 124822.3193213803 - 2.363100166116 134666.5995454724 - 2.499999162164 139422.0793540178 - 2.976300146211 154193.9155028318 - 3.000000145327 154862.0213772687 - 3.600000120106 169912.4617658091 - 3.672900116668 171515.6340577661 - 4.500000072043 186825.7423153074 - 4.500000072043 186825.7423153074 - 4.757400056091 190645.3048979680 - 0.000000200960 0.1389183081 - 0.088500248368 9511.4320450516 - 0.150000256932 15530.4810125940 - 0.150300256965 15559.1794760710 - 0.217800263222 21883.5393670693 - 0.300000268646 29280.0901034116 - 0.448200275260 41926.5988964160 - 0.500001276985 46163.0109962494 - 0.600000279743 54095.7594055814 - 0.901200285039 76214.5710630560 - 0.999999286095 82937.2764979545 - 1.219200287564 96993.2854207292 - 1.500000287982 113395.5374108204 - 1.763400287088 127290.1820325585 - 2.100000284287 143155.4944789579 - 2.363100280850 154224.0854102303 - 2.499999278632 159560.2859361226 - 2.976300268616 176093.9294058359 - 3.000000268023 176840.2942922717 - 3.600000249954 193625.0566480683 - 3.672900247349 195410.1094077193 - 4.500000211333 212439.7174825796 - 4.500000211333 212439.7174825796 - 4.757400197634 216686.5041824672 - 0.000000270724 0.2051343431 - 0.060300329668 7604.4455802303 - 0.150000351145 17759.4582981231 - 0.150900351298 17857.6574682657 - 0.218100360898 25033.4100165515 - 0.300000369492 33421.6730989118 - 0.451800380748 48124.8884632187 - 0.500001383549 52591.6281218390 - 0.600000388572 61576.0930565860 - 0.901200399528 86550.3925625094 - 0.999999402204 94118.5727466624 - 1.219200407017 109908.7775201761 - 1.500000411386 128277.9817616928 - 2.100000415510 161456.4555543168 - 2.363100415391 173750.2060861539 - 2.499999414894 179668.8772487315 - 2.976300410884 197977.1815414277 - 3.000000410592 198802.7068760971 - 3.600000400232 217351.9302231333 - 3.672900398576 219323.3934995497 - 4.500000373412 238134.0397830055 - 4.500000373412 238134.0397830055 - 4.757400363064 242830.1826607355 - 0.000000508194 0.4582106561 - 0.027900597132 4829.4566735059 - 0.088500646707 14262.3541634227 - 0.150300674567 23259.2676564515 - 0.218100695896 32671.3699820581 - 0.300000715194 43547.3754545484 - 0.448200740749 62109.6816957077 - 0.500001747947 68299.2515614478 - 0.600000760170 79851.1159616434 - 0.901200788469 111800.6561654199 - 0.999999795929 121436.3742829687 - 1.219200810354 141472.9029465138 - 1.763400837503 184178.7449122000 - 2.363100858036 221656.8175347614 - 2.499999861681 229037.7491037962 - 2.976300871810 251841.3307798337 - 4.500000880909 301985.6309380182 - 4.757400879061 307907.9722101706 - 0.000000760967 0.7555719569 - 0.091200983379 17255.1679447968 - 0.150901026258 27436.8183120987 - 0.218101060480 38368.5395306690 - 0.300001091916 51104.1594303196 - 0.451801134632 73320.5584558680 - 0.500002145611 80043.1127047454 - 0.598201165433 93290.1104865541 - 0.875101209274 127711.5288111634 - 1.000000225255 141956.6220339939 - 1.204501248078 163735.2601349677 - 1.787101298274 216651.3478165770 - 2.388601335852 259739.5412024345 - 2.500000341692 266657.6890260026 - 2.964301363035 292473.6519325911 - 3.740101389730 326574.0098818571 - 4.500001406907 351594.7759810410 - 0.000001058119 1.1245307870 - 0.061201340815 13522.9892463884 - 0.091201386250 19580.9027655131 - 0.150901450157 31114.9393988387 - 0.218101501308 43496.3370231982 - 0.300001548400 57918.9521619693 - 0.451801612520 83072.1238148359 - 0.500002629017 90681.3994528729 - 0.598201658813 105672.6611594081 - 0.875101724737 144606.4391547516 - 1.000000748779 160710.9442107284 - 1.761901856293 242817.1394739432 - 2.373601915700 292789.7331203404 - 2.500000926127 301710.2487351181 - 2.964301960275 331013.2269782327 - 3.740102005814 369914.2749364282 - 0.000001379394 1.5337895791 - 0.091201834427 21580.9420588208 - 0.150301923049 34160.9073303385 - 0.218101995477 47930.6362018256 - 0.300002061567 63833.9221455282 - 0.448202149822 90951.7352155737 - 0.500003174813 99985.6271434969 - 0.598202216661 116536.3730269414 - 0.901202316502 163335.8212125706 - 1.000001342814 177335.0074323323 - 1.204502390889 204544.7833899439 - 1.763402493386 268326.1325611696 - 2.363102575262 322783.5882541597 - 2.500001591237 333551.9117778917 - 2.976302640945 366988.1492556730 - 3.672902700845 406495.9635586193 - 4.500002757629 442340.4511061480 - 4.757402772782 451557.6547041292 + 0.011640110158 986.6345022757 + 0.027900113514 2280.9776742256 + 0.046860115655 3733.3547113713 + 0.082080117896 6334.2104627443 + 0.088500118176 6798.2049221577 + 0.116370119121 8783.9980087414 + 0.150000119853 11127.9586216201 + 0.150300119858 11148.6421870019 + 0.217800120547 15715.3975066204 + 0.236430120618 16948.3283437470 + 0.299400120603 21039.1963748864 + 0.300000120601 21077.6412562297 + 0.448200119568 30298.0558455684 + 0.470700119328 31653.2150503745 + 0.500001118991 33401.4869364975 + 0.600000117657 39232.7277186354 + 0.709410115930 45384.8472353937 + 0.901200112367 55631.9275730785 + 0.948420111399 58054.8226007552 + 0.999999110304 60657.8103639437 + 1.160640106653 68481.5221606202 + 1.219200105236 71229.9742536064 + 1.500000097823 83677.9481231649 + 1.512000097484 84183.8794049139 + 1.763400089968 94317.9669547549 + 2.100000078686 106574.8668318563 + 2.363100068906 115194.1713585548 + 2.495100063685 119223.5326394468 + 2.499999063488 119369.4356720895 + 2.976300042905 132386.3677668116 + 3.000000041811 132976.7735188589 + 3.600000012033 146313.6295546119 + 3.672900008147 147738.2571048796 + 3.761400003354 149415.3194951294 + 4.499999960257 161376.9238919300 + 4.499999960257 161376.9238919300 + 4.508999959699 161502.2431262275 + 4.757399944006 164787.3437484624 + 4.867799936851 166144.0409100520 + 0.000000144671 0.0897028141 + 0.027900165739 2737.1868487864 + 0.088500175696 8141.0132344436 + 0.150000180600 13307.4963339246 + 0.150300180619 13332.1502559806 + 0.217800183947 18769.6616147386 + 0.300000186572 25139.9502897428 + 0.448200189245 36058.5805262226 + 0.500001189793 39723.7468696109 + 0.600000190469 46597.1267625157 + 0.901200190424 65834.0333686047 + 0.999999189914 71702.1216876363 + 1.219200188100 84003.8594789972 + 1.500000184568 98415.3259465710 + 1.763400180127 110671.3388945209 + 2.100000172925 124719.1761780492 + 2.363100166116 134553.2067050522 + 2.499999162164 139303.8374735780 + 2.976300146211 154061.3098606667 + 3.000000145327 154728.7990759927 + 3.600000120106 169766.4604434423 + 3.672900116668 171368.4265683575 + 4.500000072043 186669.2657152151 + 4.500000072043 186669.2657152151 + 4.757400056091 190487.3625117969 + 0.000000200960 0.1389182971 + 0.088500248368 9506.8851061439 + 0.150000256932 15520.8870185548 + 0.150300256965 15549.5585063970 + 0.217800263222 21867.3906573984 + 0.300000268646 29255.0108747807 + 0.448200275260 41883.6133751166 + 0.500001276985 46113.3958031112 + 0.600000279743 54032.9988272506 + 0.901200285039 76111.0202386633 + 0.999999286095 82820.3641035122 + 1.219200287564 96847.3661567751 + 1.500000287982 113214.4794585280 + 1.763400287088 127078.8281793584 + 2.100000284287 142909.6684920409 + 2.363100280850 153954.7472930726 + 2.499999278632 159279.8957087323 + 2.976300268616 175781.1183157486 + 3.000000268023 176526.1036804115 + 3.600000249954 193282.5955956492 + 3.672900247349 195065.0207339161 + 4.500000211333 212074.9417407624 + 4.500000211333 212074.9417407624 + 4.757400197634 216318.8190487085 + 0.000000270724 0.2051343124 + 0.060300329668 7599.6650722772 + 0.150000351145 17742.0581387728 + 0.150900351298 17840.1108493981 + 0.218100360898 25004.1162731832 + 0.300000369492 33376.3508298044 + 0.451800380748 48046.6297064452 + 0.500001383549 52502.3313839126 + 0.600000388572 61463.3502739570 + 0.901200399528 86365.3470740641 + 0.999999402204 93909.9841571698 + 1.219200407017 109649.3118060592 + 1.500000411386 127957.3127807238 + 2.100000415510 161024.2793815513 + 2.363100415391 173278.0196342319 + 2.499999414894 179177.9839212967 + 2.976300410884 197431.8533009538 + 3.000000410592 198255.0794782929 + 3.600000400232 216757.6184949100 + 3.672900398576 218724.7979733157 + 4.500000373412 237504.0295671205 + 4.500000373412 237504.0295671205 + 4.757400363064 242195.8080959363 + 0.000000508194 0.4582104436 + 0.027900597132 4825.0962634548 + 0.088500646707 14239.6527345484 + 0.150300674567 23211.5029251030 + 0.218100695896 32591.4618775841 + 0.300000715194 43424.2089375158 + 0.448200740749 61900.5043154133 + 0.500001747947 68058.5360756988 + 0.600000760170 79548.3131376359 + 0.901200788469 111308.6561471741 + 0.999999795929 120883.4655159202 + 1.219200810354 140789.4979049150 + 1.763400837503 183209.5893769657 + 2.363100858036 220445.0316104023 + 2.499999861681 227780.9974069085 + 2.976300871810 250455.5559177755 + 4.500000880909 300408.8866692793 + 4.757400879061 306322.7305826555 + 0.000000760967 0.7555712755 + 0.091200983379 17213.0910872674 + 0.150901026258 27351.6990371219 + 0.218101060480 38227.2313206180 + 0.300001091916 50886.8477933895 + 0.451801134632 72949.0239156992 + 0.500002145611 79620.4104638545 + 0.598201165433 92761.4598999167 + 0.875101209274 126882.2209096466 + 1.000000225255 140994.8840797387 + 1.204501248078 162565.1779484352 + 1.787101298274 214965.2322225000 + 2.388601335852 257653.1687813376 + 2.500000341692 264511.3266121034 + 2.964301363035 290119.8836821946 + 3.740101389730 324003.3339730309 + 4.500001406907 348928.5636822597 + 0.000001058119 1.1245290397 + 0.061201340815 13485.0392510341 + 0.091201386250 19514.2387074435 + 0.150901450157 30980.3444211422 + 0.218101501308 43273.2754088047 + 0.300001548400 57576.5186315112 + 0.451801612520 82488.2934356068 + 0.500002629017 90017.6935999075 + 0.598201658813 104843.8732918127 + 0.875101724737 143311.2692057148 + 1.000000748779 159211.2600724747 + 1.761901856293 240237.9997654309 + 2.373601915700 289586.9053339313 + 2.500000926127 298404.2821004720 + 2.964301960275 327395.3658093253 + 3.740102005814 365971.6195933188 + 0.000001379394 1.5337858119 + 0.091201834427 21483.2927499705 + 0.150301923049 33965.1481831444 + 0.218101995477 47604.8591386728 + 0.300002061567 63334.4760386300 + 0.448202149822 90110.5425927354 + 0.500003174813 99020.1567536447 + 0.598202216661 115332.1023849356 + 0.901202316502 161396.8534451059 + 1.000001342814 175164.1309778573 + 1.204502390889 201913.8661426557 + 1.763402493386 264608.6656437745 + 2.363102575262 318194.6142257722 + 2.500001591237 328803.8994181293 + 2.976302640945 361788.2683988686 + 3.672902700845 400872.9780457963 + 4.500002757629 436483.4622494122 + 4.757402772782 445671.1298108270 diff --git a/mytest/Vm_CaCl2_sol.out b/mytest/Vm_CaCl2_sol.out index ac5b067c..9d4f034c 100644 --- a/mytest/Vm_CaCl2_sol.out +++ b/mytest/Vm_CaCl2_sol.out @@ -225,10 +225,10 @@ Reaction 1. pH = 7.049 Charge balance pe = -0.120 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8299 + Specific Conductance (µS/cm, 15°C) = 8301 Density (g/cm³) = 1.00367 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.15862 + Viscosity (mPa s) = 1.15844 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -303,10 +303,10 @@ Reaction 1. pH = 6.998 Charge balance pe = -0.237 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 15570 + Specific Conductance (µS/cm, 15°C) = 15573 Density (g/cm³) = 1.00824 Volume (L) = 1.00284 - Viscosity (mPa s) = 1.17648 + Viscosity (mPa s) = 1.17623 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -381,10 +381,10 @@ Reaction 1. pH = 6.820 Charge balance pe = 10.544 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 63409 + Specific Conductance (µS/cm, 15°C) = 63432 Density (g/cm³) = 1.04363 Volume (L) = 1.01136 - Viscosity (mPa s) = 1.31283 + Viscosity (mPa s) = 1.31226 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -459,10 +459,10 @@ Reaction 1. pH = 6.712 Charge balance pe = -0.500 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 108445 + Specific Conductance (µS/cm, 15°C) = 108494 Density (g/cm³) = 1.08575 Volume (L) = 1.02324 - Viscosity (mPa s) = 1.49320 + Viscosity (mPa s) = 1.49239 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -537,10 +537,10 @@ Reaction 1. pH = 6.587 Charge balance pe = 11.885 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 160291 + Specific Conductance (µS/cm, 15°C) = 160368 Density (g/cm³) = 1.16377 Volume (L) = 1.05001 - Viscosity (mPa s) = 1.98329 + Viscosity (mPa s) = 1.98215 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -615,10 +615,10 @@ Reaction 1. pH = 6.507 Charge balance pe = -0.329 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 168830 + Specific Conductance (µS/cm, 15°C) = 168899 Density (g/cm³) = 1.23400 Volume (L) = 1.08020 - Viscosity (mPa s) = 2.82771 + Viscosity (mPa s) = 2.82632 Activity of water = 0.847 Ionic strength (mol/kgw) = 9.000e+00 Mass of water (kg) = 1.000e+00 @@ -693,10 +693,10 @@ Reaction 1. pH = 6.447 Charge balance pe = -0.611 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 150993 + Specific Conductance (µS/cm, 15°C) = 151040 Density (g/cm³) = 1.29681 Volume (L) = 1.11346 - Viscosity (mPa s) = 4.27234 + Viscosity (mPa s) = 4.27074 Activity of water = 0.796 Ionic strength (mol/kgw) = 1.200e+01 Mass of water (kg) = 1.000e+00 @@ -771,10 +771,10 @@ Reaction 1. pH = 6.357 Charge balance pe = -0.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 99628 + Specific Conductance (µS/cm, 15°C) = 99644 Density (g/cm³) = 1.40165 Volume (L) = 1.18854 - Viscosity (mPa s) = 10.07070 + Viscosity (mPa s) = 10.06873 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -3140,7 +3140,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 24482 Density (g/cm³) = 1.00874 Volume (L) = 1.00565 - Viscosity (mPa s) = 0.93235 + Viscosity (mPa s) = 0.93234 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.903e-01 Mass of water (kg) = 1.000e+00 @@ -4856,7 +4856,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 56149 Density (g/cm³) = 1.02690 Volume (L) = 1.01023 - Viscosity (mPa s) = 0.99298 + Viscosity (mPa s) = 0.99297 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 1.000e+00 @@ -8132,7 +8132,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 166030 Density (g/cm³) = 1.11675 Volume (L) = 1.03857 - Viscosity (mPa s) = 1.34851 + Viscosity (mPa s) = 1.34850 Activity of water = 0.927 Ionic strength (mol/kgw) = 4.320e+00 Mass of water (kg) = 1.000e+00 @@ -8597,10 +8597,10 @@ Reaction 1. pH = 6.615 Charge balance pe = 11.761 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 172209 + Specific Conductance (µS/cm, 25°C) = 172210 Density (g/cm³) = 1.12443 Volume (L) = 1.04140 - Viscosity (mPa s) = 1.38788 + Viscosity (mPa s) = 1.38787 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.622e+00 Mass of water (kg) = 1.000e+00 @@ -8987,7 +8987,7 @@ Reaction 1. pH = 6.594 Charge balance pe = 10.935 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 183587 + Specific Conductance (µS/cm, 25°C) = 183588 Density (g/cm³) = 1.14071 Volume (L) = 1.04765 Viscosity (mPa s) = 1.47914 @@ -9299,10 +9299,10 @@ Reaction 1. pH = 6.581 Charge balance pe = 10.531 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 189793 + Specific Conductance (µS/cm, 25°C) = 189794 Density (g/cm³) = 1.15144 Volume (L) = 1.05194 - Viscosity (mPa s) = 1.54610 + Viscosity (mPa s) = 1.54609 Activity of water = 0.903 Ionic strength (mol/kgw) = 5.710e+00 Mass of water (kg) = 1.000e+00 @@ -9614,7 +9614,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 193268 Density (g/cm³) = 1.15842 Volume (L) = 1.05481 - Viscosity (mPa s) = 1.59293 + Viscosity (mPa s) = 1.59292 Activity of water = 0.898 Ionic strength (mol/kgw) = 5.998e+00 Mass of water (kg) = 1.000e+00 @@ -9770,7 +9770,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 193486 Density (g/cm³) = 1.15889 Volume (L) = 1.05501 - Viscosity (mPa s) = 1.59618 + Viscosity (mPa s) = 1.59617 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.018e+00 Mass of water (kg) = 1.000e+00 @@ -9923,7 +9923,7 @@ Reaction 1. pH = 6.566 Charge balance pe = 11.650 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 196192 + Specific Conductance (µS/cm, 25°C) = 196193 Density (g/cm³) = 1.16514 Volume (L) = 1.05763 Viscosity (mPa s) = 1.64068 @@ -10547,7 +10547,7 @@ Reaction 1. pH = 6.536 Charge balance pe = 11.703 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 204067 + Specific Conductance (µS/cm, 25°C) = 204068 Density (g/cm³) = 1.19361 Volume (L) = 1.07025 Viscosity (mPa s) = 1.87810 @@ -10706,7 +10706,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 204141 Density (g/cm³) = 1.19411 Volume (L) = 1.07048 - Viscosity (mPa s) = 1.88284 + Viscosity (mPa s) = 1.88283 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.522e+00 Mass of water (kg) = 1.000e+00 @@ -11174,7 +11174,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 204984 Density (g/cm³) = 1.22095 Volume (L) = 1.08348 - Viscosity (mPa s) = 2.17353 + Viscosity (mPa s) = 2.17352 Activity of water = 0.852 Ionic strength (mol/kgw) = 8.727e+00 Mass of water (kg) = 1.000e+00 @@ -12263,7 +12263,7 @@ Reaction 1. pH = 6.466 Charge balance pe = 11.445 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 191977 + Specific Conductance (µS/cm, 25°C) = 191978 Density (g/cm³) = 1.27160 Volume (L) = 1.11128 Viscosity (mPa s) = 2.97944 @@ -13514,7 +13514,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 154673 Density (g/cm³) = 1.34079 Volume (L) = 1.15806 - Viscosity (mPa s) = 5.01203 + Viscosity (mPa s) = 5.01202 Activity of water = 0.746 Ionic strength (mol/kgw) = 1.494e+01 Mass of water (kg) = 1.000e+00 @@ -13748,7 +13748,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 151219 Density (g/cm³) = 1.34632 Volume (L) = 1.16236 - Viscosity (mPa s) = 5.24626 + Viscosity (mPa s) = 5.24625 Activity of water = 0.740 Ionic strength (mol/kgw) = 1.527e+01 Mass of water (kg) = 1.000e+00 @@ -14138,7 +14138,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 135033 Density (g/cm³) = 1.37189 Volume (L) = 1.18349 - Viscosity (mPa s) = 6.52422 + Viscosity (mPa s) = 6.52421 Activity of water = 0.713 Ionic strength (mol/kgw) = 1.686e+01 Mass of water (kg) = 1.000e+00 @@ -14528,7 +14528,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 124060 Density (g/cm³) = 1.38921 Volume (L) = 1.19919 - Viscosity (mPa s) = 7.61254 + Viscosity (mPa s) = 7.61253 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -15158,7 +15158,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 102205 Density (g/cm³) = 1.42477 Volume (L) = 1.23566 - Viscosity (mPa s) = 10.62632 + Viscosity (mPa s) = 10.62631 Activity of water = 0.651 Ionic strength (mol/kgw) = 2.056e+01 Mass of water (kg) = 1.000e+00 @@ -15314,7 +15314,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 91591 Density (g/cm³) = 1.44295 Volume (L) = 1.25705 - Viscosity (mPa s) = 12.72096 + Viscosity (mPa s) = 12.72095 Activity of water = 0.626 Ionic strength (mol/kgw) = 2.200e+01 Mass of water (kg) = 1.000e+00 @@ -15470,7 +15470,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 90205 Density (g/cm³) = 1.44539 Volume (L) = 1.26008 - Viscosity (mPa s) = 13.03777 + Viscosity (mPa s) = 13.03776 Activity of water = 0.623 Ionic strength (mol/kgw) = 2.220e+01 Mass of water (kg) = 1.000e+00 @@ -15805,10 +15805,10 @@ Reaction 1. pH = 6.795 Charge balance pe = -0.063 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12462 + Specific Conductance (µS/cm, 35°C) = 12461 Density (g/cm³) = 0.99851 Volume (L) = 1.00705 - Viscosity (mPa s) = 0.73448 + Viscosity (mPa s) = 0.73460 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -15883,10 +15883,10 @@ Reaction 1. pH = 6.775 Charge balance pe = 0.174 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 22040 + Specific Conductance (µS/cm, 35°C) = 22035 Density (g/cm³) = 1.00243 Volume (L) = 1.00798 - Viscosity (mPa s) = 0.74608 + Viscosity (mPa s) = 0.74625 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.820e-01 Mass of water (kg) = 1.000e+00 @@ -15961,10 +15961,10 @@ Reaction 1. pH = 6.773 Charge balance pe = 0.004 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 23295 + Specific Conductance (µS/cm, 35°C) = 23291 Density (g/cm³) = 1.00296 Volume (L) = 1.00811 - Viscosity (mPa s) = 0.74764 + Viscosity (mPa s) = 0.74781 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -16039,10 +16039,10 @@ Reaction 1. pH = 6.713 Charge balance pe = 0.375 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 67281 + Specific Conductance (µS/cm, 35°C) = 67257 Density (g/cm³) = 1.02358 Volume (L) = 1.01350 - Viscosity (mPa s) = 0.80734 + Viscosity (mPa s) = 0.80767 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 1.000e+00 @@ -16117,10 +16117,10 @@ Reaction 1. pH = 6.684 Charge balance pe = 10.190 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 93134 + Specific Conductance (µS/cm, 35°C) = 93096 Density (g/cm³) = 1.03740 Volume (L) = 1.01745 - Viscosity (mPa s) = 0.84804 + Viscosity (mPa s) = 0.84844 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -16195,10 +16195,10 @@ Reaction 1. pH = 6.670 Charge balance pe = 10.473 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 106920 + Specific Conductance (µS/cm, 35°C) = 106874 Density (g/cm³) = 1.04532 Volume (L) = 1.01982 - Viscosity (mPa s) = 0.87197 + Viscosity (mPa s) = 0.87240 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.785e+00 Mass of water (kg) = 1.000e+00 @@ -16273,10 +16273,10 @@ Reaction 1. pH = 6.621 Charge balance pe = 10.287 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 156612 + Specific Conductance (µS/cm, 35°C) = 156536 Density (g/cm³) = 1.07809 Volume (L) = 1.03040 - Viscosity (mPa s) = 0.97783 + Viscosity (mPa s) = 0.97839 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.997e+00 Mass of water (kg) = 1.000e+00 @@ -16351,10 +16351,10 @@ Reaction 1. pH = 6.621 Charge balance pe = 8.966 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 156729 + Specific Conductance (µS/cm, 35°C) = 156653 Density (g/cm³) = 1.07818 Volume (L) = 1.03043 - Viscosity (mPa s) = 0.97813 + Viscosity (mPa s) = 0.97870 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -16429,10 +16429,10 @@ Reaction 1. pH = 6.575 Charge balance pe = 10.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 201964 + Specific Conductance (µS/cm, 35°C) = 201860 Density (g/cm³) = 1.11783 Volume (L) = 1.04491 - Viscosity (mPa s) = 1.13112 + Viscosity (mPa s) = 1.13181 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.542e+00 Mass of water (kg) = 1.000e+00 @@ -16507,10 +16507,10 @@ Reaction 1. pH = 6.557 Charge balance pe = -0.410 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 217707 + Specific Conductance (µS/cm, 35°C) = 217595 Density (g/cm³) = 1.13661 Volume (L) = 1.05243 - Viscosity (mPa s) = 1.21841 + Viscosity (mPa s) = 1.21916 Activity of water = 0.910 Ionic strength (mol/kgw) = 5.303e+00 Mass of water (kg) = 1.000e+00 @@ -16585,10 +16585,10 @@ Reaction 1. pH = 6.541 Charge balance pe = 10.420 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 228601 + Specific Conductance (µS/cm, 35°C) = 228485 Density (g/cm³) = 1.15333 Volume (L) = 1.05952 - Viscosity (mPa s) = 1.30727 + Viscosity (mPa s) = 1.30807 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -16663,10 +16663,10 @@ Reaction 1. pH = 6.510 Charge balance pe = 10.320 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 242248 + Specific Conductance (µS/cm, 35°C) = 242132 Density (g/cm³) = 1.19064 Volume (L) = 1.07670 - Viscosity (mPa s) = 1.55632 + Viscosity (mPa s) = 1.55722 Activity of water = 0.870 Ionic strength (mol/kgw) = 7.621e+00 Mass of water (kg) = 1.000e+00 @@ -16741,10 +16741,10 @@ Reaction 1. pH = 6.488 Charge balance pe = 10.535 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 242968 + Specific Conductance (µS/cm, 35°C) = 242861 Density (g/cm³) = 1.22061 Volume (L) = 1.09204 - Viscosity (mPa s) = 1.82675 + Viscosity (mPa s) = 1.82772 Activity of water = 0.847 Ionic strength (mol/kgw) = 9.000e+00 Mass of water (kg) = 1.000e+00 @@ -16819,10 +16819,10 @@ Reaction 1. pH = 6.466 Charge balance pe = -0.348 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 235156 + Specific Conductance (µS/cm, 35°C) = 235063 Density (g/cm³) = 1.25181 Volume (L) = 1.10966 - Viscosity (mPa s) = 2.20348 + Viscosity (mPa s) = 2.20453 Activity of water = 0.821 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -16897,10 +16897,10 @@ Reaction 1. pH = 6.459 Charge balance pe = -0.246 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 231225 + Specific Conductance (µS/cm, 35°C) = 231137 Density (g/cm³) = 1.26146 Volume (L) = 1.11549 - Viscosity (mPa s) = 2.34531 + Viscosity (mPa s) = 2.34639 Activity of water = 0.813 Ionic strength (mol/kgw) = 1.101e+01 Mass of water (kg) = 1.000e+00 @@ -16975,10 +16975,10 @@ Reaction 1. pH = 6.447 Charge balance pe = 10.786 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 221713 + Specific Conductance (µS/cm, 35°C) = 221636 Density (g/cm³) = 1.28055 Volume (L) = 1.12760 - Viscosity (mPa s) = 2.66908 + Viscosity (mPa s) = 2.67021 Activity of water = 0.796 Ionic strength (mol/kgw) = 1.200e+01 Mass of water (kg) = 1.000e+00 @@ -17053,10 +17053,10 @@ Reaction 1. pH = 6.425 Charge balance pe = 10.833 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 199844 + Specific Conductance (µS/cm, 35°C) = 199787 Density (g/cm³) = 1.31529 Volume (L) = 1.15186 - Viscosity (mPa s) = 3.44553 + Viscosity (mPa s) = 3.44674 Activity of water = 0.763 Ionic strength (mol/kgw) = 1.392e+01 Mass of water (kg) = 1.000e+00 @@ -17131,10 +17131,10 @@ Reaction 1. pH = 6.411 Charge balance pe = 10.693 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 184381 + Specific Conductance (µS/cm, 35°C) = 184334 Density (g/cm³) = 1.33684 Volume (L) = 1.16857 - Viscosity (mPa s) = 4.08647 + Viscosity (mPa s) = 4.08774 Activity of water = 0.742 Ionic strength (mol/kgw) = 1.520e+01 Mass of water (kg) = 1.000e+00 @@ -17209,10 +17209,10 @@ Reaction 1. pH = 6.386 Charge balance pe = 10.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 151642 + Specific Conductance (µS/cm, 35°C) = 151614 Density (g/cm³) = 1.38014 Volume (L) = 1.20690 - Viscosity (mPa s) = 5.91455 + Viscosity (mPa s) = 5.91593 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.799e+01 Mass of water (kg) = 1.000e+00 @@ -17287,10 +17287,10 @@ Reaction 1. pH = 6.386 Charge balance pe = 10.721 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 151576 + Specific Conductance (µS/cm, 35°C) = 151547 Density (g/cm³) = 1.38023 Volume (L) = 1.20699 - Viscosity (mPa s) = 5.91916 + Viscosity (mPa s) = 5.92054 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -17365,10 +17365,10 @@ Reaction 1. pH = 6.376 Charge balance pe = -1.004 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 138407 + Specific Conductance (µS/cm, 35°C) = 138384 Density (g/cm³) = 1.39770 Volume (L) = 1.22465 - Viscosity (mPa s) = 6.94016 + Viscosity (mPa s) = 6.94158 Activity of water = 0.673 Ionic strength (mol/kgw) = 1.924e+01 Mass of water (kg) = 1.000e+00 @@ -17547,10 +17547,10 @@ Reaction 1. pH = 6.664 Charge balance pe = 0.108 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 14651 + Specific Conductance (µS/cm, 45°C) = 14646 Density (g/cm³) = 0.99467 Volume (L) = 1.01094 - Viscosity (mPa s) = 0.60900 + Viscosity (mPa s) = 0.60922 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -17625,10 +17625,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 0.144 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 27355 + Specific Conductance (µS/cm, 45°C) = 27344 Density (g/cm³) = 0.99910 Volume (L) = 1.01201 - Viscosity (mPa s) = 0.62034 + Viscosity (mPa s) = 0.62065 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -17703,10 +17703,10 @@ Reaction 1. pH = 6.586 Charge balance pe = -0.199 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 108872 + Specific Conductance (µS/cm, 45°C) = 108781 Density (g/cm³) = 1.03329 Volume (L) = 1.02149 - Viscosity (mPa s) = 0.70670 + Viscosity (mPa s) = 0.70740 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -17781,10 +17781,10 @@ Reaction 1. pH = 6.542 Charge balance pe = 9.630 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 182565 + Specific Conductance (µS/cm, 45°C) = 182380 Density (g/cm³) = 1.07373 Volume (L) = 1.03469 - Viscosity (mPa s) = 0.81781 + Viscosity (mPa s) = 0.81879 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -17859,10 +17859,10 @@ Reaction 1. pH = 6.488 Charge balance pe = -1.041 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 265956 + Specific Conductance (µS/cm, 45°C) = 265673 Density (g/cm³) = 1.14819 Volume (L) = 1.06426 - Viscosity (mPa s) = 1.09243 + Viscosity (mPa s) = 1.09382 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -17937,10 +17937,10 @@ Reaction 1. pH = 6.451 Charge balance pe = 9.726 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 284382 + Specific Conductance (µS/cm, 45°C) = 284117 Density (g/cm³) = 1.21483 Volume (L) = 1.09723 - Viscosity (mPa s) = 1.51238 + Viscosity (mPa s) = 1.51408 Activity of water = 0.847 Ionic strength (mol/kgw) = 9.000e+00 Mass of water (kg) = 1.000e+00 @@ -18015,10 +18015,10 @@ Reaction 1. pH = 6.423 Charge balance pe = 9.864 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 262065 + Specific Conductance (µS/cm, 45°C) = 261872 Density (g/cm³) = 1.27425 Volume (L) = 1.13317 - Viscosity (mPa s) = 2.17905 + Viscosity (mPa s) = 2.18101 Activity of water = 0.796 Ionic strength (mol/kgw) = 1.200e+01 Mass of water (kg) = 1.000e+00 @@ -18093,10 +18093,10 @@ Reaction 1. pH = 6.383 Charge balance pe = 10.792 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 182383 + Specific Conductance (µS/cm, 45°C) = 182308 Density (g/cm³) = 1.37335 Volume (L) = 1.21303 - Viscosity (mPa s) = 4.70891 + Viscosity (mPa s) = 4.71131 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -18275,10 +18275,10 @@ Reaction 1. pH = 6.609 Charge balance pe = 0.202 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 9816 + Specific Conductance (µS/cm, 50°C) = 9813 Density (g/cm³) = 0.99068 Volume (L) = 1.01274 - Viscosity (mPa s) = 0.55439 + Viscosity (mPa s) = 0.55459 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.928e-02 Mass of water (kg) = 1.000e+00 @@ -18353,10 +18353,10 @@ Reaction 1. pH = 6.601 Charge balance pe = 0.172 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 15674 + Specific Conductance (µS/cm, 50°C) = 15668 Density (g/cm³) = 0.99246 Volume (L) = 1.01315 - Viscosity (mPa s) = 0.55878 + Viscosity (mPa s) = 0.55904 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.491e-01 Mass of water (kg) = 1.000e+00 @@ -18431,10 +18431,10 @@ Reaction 1. pH = 6.587 Charge balance pe = 7.933 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 29256 + Specific Conductance (µS/cm, 50°C) = 29240 Density (g/cm³) = 0.99686 Volume (L) = 1.01422 - Viscosity (mPa s) = 0.56928 + Viscosity (mPa s) = 0.56964 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.982e-01 Mass of water (kg) = 1.000e+00 @@ -18509,10 +18509,10 @@ Reaction 1. pH = 6.587 Charge balance pe = 8.418 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 29781 + Specific Conductance (µS/cm, 50°C) = 29764 Density (g/cm³) = 0.99703 Volume (L) = 1.01426 - Viscosity (mPa s) = 0.56970 + Viscosity (mPa s) = 0.57006 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.042e-01 Mass of water (kg) = 1.000e+00 @@ -18587,10 +18587,10 @@ Reaction 1. pH = 6.587 Charge balance pe = 0.129 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 29972 + Specific Conductance (µS/cm, 50°C) = 29955 Density (g/cm³) = 0.99710 Volume (L) = 1.01428 - Viscosity (mPa s) = 0.56985 + Viscosity (mPa s) = 0.57021 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.064e-01 Mass of water (kg) = 1.000e+00 @@ -18665,10 +18665,10 @@ Reaction 1. pH = 6.569 Charge balance pe = 0.043 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 53646 + Specific Conductance (µS/cm, 50°C) = 53606 Density (g/cm³) = 1.00543 Volume (L) = 1.01642 - Viscosity (mPa s) = 0.58933 + Viscosity (mPa s) = 0.58984 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.931e-01 Mass of water (kg) = 1.000e+00 @@ -18743,10 +18743,10 @@ Reaction 1. pH = 6.567 Charge balance pe = 9.333 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 57118 + Specific Conductance (µS/cm, 50°C) = 57074 Density (g/cm³) = 1.00671 Volume (L) = 1.01676 - Viscosity (mPa s) = 0.59231 + Viscosity (mPa s) = 0.59285 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.375e-01 Mass of water (kg) = 1.000e+00 @@ -18821,10 +18821,10 @@ Reaction 1. pH = 6.559 Charge balance pe = 0.500 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 70652 + Specific Conductance (µS/cm, 50°C) = 70592 Density (g/cm³) = 1.01184 Volume (L) = 1.01816 - Viscosity (mPa s) = 0.60428 + Viscosity (mPa s) = 0.60488 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.166e-01 Mass of water (kg) = 1.000e+00 @@ -18899,10 +18899,10 @@ Reaction 1. pH = 6.541 Charge balance pe = 9.204 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 102594 + Specific Conductance (µS/cm, 50°C) = 102490 Density (g/cm³) = 1.02480 Volume (L) = 1.02187 - Viscosity (mPa s) = 0.63483 + Viscosity (mPa s) = 0.63558 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.276e+00 Mass of water (kg) = 1.000e+00 @@ -18977,10 +18977,10 @@ Reaction 1. pH = 6.532 Charge balance pe = -0.291 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 121443 + Specific Conductance (µS/cm, 50°C) = 121310 Density (g/cm³) = 1.03306 Volume (L) = 1.02435 - Viscosity (mPa s) = 0.65464 + Viscosity (mPa s) = 0.65547 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -19055,10 +19055,10 @@ Reaction 1. pH = 6.520 Charge balance pe = 9.335 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 146179 + Specific Conductance (µS/cm, 50°C) = 146008 Density (g/cm³) = 1.04468 Volume (L) = 1.02800 - Viscosity (mPa s) = 0.68315 + Viscosity (mPa s) = 0.68409 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.998e+00 Mass of water (kg) = 1.000e+00 @@ -19133,10 +19133,10 @@ Reaction 1. pH = 6.505 Charge balance pe = 9.485 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 179328 + Specific Conductance (µS/cm, 50°C) = 179102 Density (g/cm³) = 1.06191 Volume (L) = 1.03371 - Viscosity (mPa s) = 0.72730 + Viscosity (mPa s) = 0.72838 Activity of water = 0.955 Ionic strength (mol/kgw) = 2.641e+00 Mass of water (kg) = 1.000e+00 @@ -19211,10 +19211,10 @@ Reaction 1. pH = 6.496 Charge balance pe = 9.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 198937 + Specific Conductance (µS/cm, 50°C) = 198678 Density (g/cm³) = 1.07323 Volume (L) = 1.03766 - Viscosity (mPa s) = 0.75789 + Viscosity (mPa s) = 0.75905 Activity of water = 0.948 Ionic strength (mol/kgw) = 3.072e+00 Mass of water (kg) = 1.000e+00 @@ -19289,10 +19289,10 @@ Reaction 1. pH = 6.420 Charge balance pe = 9.872 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 304189 + Specific Conductance (µS/cm, 50°C) = 303839 Density (g/cm³) = 1.22426 Volume (L) = 1.10664 - Viscosity (mPa s) = 1.48225 + Viscosity (mPa s) = 1.48431 Activity of water = 0.837 Ionic strength (mol/kgw) = 9.591e+00 Mass of water (kg) = 1.000e+00 @@ -19367,10 +19367,10 @@ Reaction 1. pH = 6.387 Charge balance pe = -0.500 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 241892 + Specific Conductance (µS/cm, 50°C) = 241717 Density (g/cm³) = 1.32446 Volume (L) = 1.17485 - Viscosity (mPa s) = 2.90657 + Viscosity (mPa s) = 2.90914 Activity of water = 0.744 Ionic strength (mol/kgw) = 1.503e+01 Mass of water (kg) = 1.000e+00 @@ -19445,10 +19445,10 @@ Reaction 1. pH = 6.370 Charge balance pe = 10.978 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 182056 + Specific Conductance (µS/cm, 50°C) = 181970 Density (g/cm³) = 1.38840 Volume (L) = 1.23380 - Viscosity (mPa s) = 4.95300 + Viscosity (mPa s) = 4.95592 Activity of water = 0.672 Ionic strength (mol/kgw) = 1.927e+01 Mass of water (kg) = 1.000e+00 @@ -19627,10 +19627,10 @@ Reaction 1. pH = 6.540 Charge balance pe = 0.199 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 16875 + Specific Conductance (µS/cm, 55°C) = 16867 Density (g/cm³) = 0.99015 Volume (L) = 1.01556 - Viscosity (mPa s) = 0.51515 + Viscosity (mPa s) = 0.51544 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -19705,10 +19705,10 @@ Reaction 1. pH = 6.527 Charge balance pe = 0.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 31484 + Specific Conductance (µS/cm, 55°C) = 31462 Density (g/cm³) = 0.99456 Volume (L) = 1.01662 - Viscosity (mPa s) = 0.52500 + Viscosity (mPa s) = 0.52541 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -19783,10 +19783,10 @@ Reaction 1. pH = 6.481 Charge balance pe = 8.392 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 124980 + Specific Conductance (µS/cm, 55°C) = 124815 Density (g/cm³) = 1.02862 Volume (L) = 1.02612 - Viscosity (mPa s) = 0.59983 + Viscosity (mPa s) = 0.60076 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -19861,10 +19861,10 @@ Reaction 1. pH = 6.450 Charge balance pe = -0.253 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 209202 + Specific Conductance (µS/cm, 55°C) = 208869 Density (g/cm³) = 1.06887 Volume (L) = 1.03941 - Viscosity (mPa s) = 0.69554 + Viscosity (mPa s) = 0.69684 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -19939,10 +19939,10 @@ Reaction 1. pH = 6.415 Charge balance pe = -0.297 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 305024 + Specific Conductance (µS/cm, 55°C) = 304516 Density (g/cm³) = 1.14293 Volume (L) = 1.06916 - Viscosity (mPa s) = 0.92756 + Viscosity (mPa s) = 0.92940 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -20017,10 +20017,10 @@ Reaction 1. pH = 6.394 Charge balance pe = -0.577 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 328355 + Specific Conductance (µS/cm, 55°C) = 327871 Density (g/cm³) = 1.20926 Volume (L) = 1.10229 - Viscosity (mPa s) = 1.27279 + Viscosity (mPa s) = 1.27505 Activity of water = 0.847 Ionic strength (mol/kgw) = 9.000e+00 Mass of water (kg) = 1.000e+00 @@ -20095,10 +20095,10 @@ Reaction 1. pH = 6.379 Charge balance pe = 9.418 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 305606 + Specific Conductance (µS/cm, 55°C) = 305243 Density (g/cm³) = 1.26850 Volume (L) = 1.13831 - Viscosity (mPa s) = 1.81038 + Viscosity (mPa s) = 1.81299 Activity of water = 0.796 Ionic strength (mol/kgw) = 1.200e+01 Mass of water (kg) = 1.000e+00 @@ -20173,10 +20173,10 @@ Reaction 1. pH = 6.360 Charge balance pe = 9.686 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 216637 + Specific Conductance (µS/cm, 55°C) = 216491 Density (g/cm³) = 1.36775 Volume (L) = 1.21799 - Viscosity (mPa s) = 3.81875 + Viscosity (mPa s) = 3.82194 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -20355,10 +20355,10 @@ Reaction 1. pH = 6.320 Charge balance pe = 0.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21215 + Specific Conductance (µS/cm, 75°C) = 21196 Density (g/cm³) = 0.97930 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.38638 + Viscosity (mPa s) = 0.38678 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.491e-01 Mass of water (kg) = 1.000e+00 @@ -20433,10 +20433,10 @@ Reaction 1. pH = 6.320 Charge balance pe = 0.454 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21234 + Specific Conductance (µS/cm, 75°C) = 21215 Density (g/cm³) = 0.97930 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.38639 + Viscosity (mPa s) = 0.38679 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.493e-01 Mass of water (kg) = 1.000e+00 @@ -20511,10 +20511,10 @@ Reaction 1. pH = 6.319 Charge balance pe = 0.456 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21747 + Specific Conductance (µS/cm, 75°C) = 21727 Density (g/cm³) = 0.97942 Volume (L) = 1.02680 - Viscosity (mPa s) = 0.38660 + Viscosity (mPa s) = 0.38700 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.532e-01 Mass of water (kg) = 1.000e+00 @@ -20589,10 +20589,10 @@ Reaction 1. pH = 6.309 Charge balance pe = 0.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 39814 + Specific Conductance (µS/cm, 75°C) = 39764 Density (g/cm³) = 0.98377 Volume (L) = 1.02780 - Viscosity (mPa s) = 0.39409 + Viscosity (mPa s) = 0.39465 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.005e-01 Mass of water (kg) = 1.000e+00 @@ -20667,10 +20667,10 @@ Reaction 1. pH = 6.309 Charge balance pe = 0.407 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 40256 + Specific Conductance (µS/cm, 75°C) = 40206 Density (g/cm³) = 0.98388 Volume (L) = 1.02782 - Viscosity (mPa s) = 0.39428 + Viscosity (mPa s) = 0.39485 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.042e-01 Mass of water (kg) = 1.000e+00 @@ -20745,10 +20745,10 @@ Reaction 1. pH = 6.296 Charge balance pe = 0.333 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 74043 + Specific Conductance (µS/cm, 75°C) = 73917 Density (g/cm³) = 0.99270 Volume (L) = 1.03001 - Viscosity (mPa s) = 0.40917 + Viscosity (mPa s) = 0.40997 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.081e-01 Mass of water (kg) = 1.000e+00 @@ -20823,10 +20823,10 @@ Reaction 1. pH = 6.290 Charge balance pe = 6.521 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 95378 + Specific Conductance (µS/cm, 75°C) = 95194 Density (g/cm³) = 0.99867 Volume (L) = 1.03159 - Viscosity (mPa s) = 0.41920 + Viscosity (mPa s) = 0.42013 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.166e-01 Mass of water (kg) = 1.000e+00 @@ -20901,10 +20901,10 @@ Reaction 1. pH = 6.275 Charge balance pe = 7.513 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 156262 + Specific Conductance (µS/cm, 75°C) = 155888 Density (g/cm³) = 1.01734 Volume (L) = 1.03690 - Viscosity (mPa s) = 0.45101 + Viscosity (mPa s) = 0.45227 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.483e+00 Mass of water (kg) = 1.000e+00 @@ -20979,10 +20979,10 @@ Reaction 1. pH = 6.274 Charge balance pe = 7.579 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 163774 + Specific Conductance (µS/cm, 75°C) = 163375 Density (g/cm³) = 1.01983 Volume (L) = 1.03765 - Viscosity (mPa s) = 0.45532 + Viscosity (mPa s) = 0.45662 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -21057,10 +21057,10 @@ Reaction 1. pH = 6.257 Charge balance pe = 7.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 261073 + Specific Conductance (µS/cm, 75°C) = 260319 Density (g/cm³) = 1.05673 Volume (L) = 1.04971 - Viscosity (mPa s) = 0.52254 + Viscosity (mPa s) = 0.52431 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.954e+00 Mass of water (kg) = 1.000e+00 @@ -21135,10 +21135,10 @@ Reaction 1. pH = 6.257 Charge balance pe = 7.975 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 268072 + Specific Conductance (µS/cm, 75°C) = 267293 Density (g/cm³) = 1.05981 Volume (L) = 1.05080 - Viscosity (mPa s) = 0.52851 + Viscosity (mPa s) = 0.53032 Activity of water = 0.948 Ionic strength (mol/kgw) = 3.072e+00 Mass of water (kg) = 1.000e+00 @@ -21213,10 +21213,10 @@ Reaction 1. pH = 6.239 Charge balance pe = 8.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 421919 + Specific Conductance (µS/cm, 75°C) = 420800 Density (g/cm³) = 1.21039 Volume (L) = 1.11932 - Viscosity (mPa s) = 1.00094 + Viscosity (mPa s) = 1.00414 Activity of water = 0.837 Ionic strength (mol/kgw) = 9.591e+00 Mass of water (kg) = 1.000e+00 @@ -21291,10 +21291,10 @@ Reaction 1. pH = 6.245 Charge balance pe = -1.197 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 351384 + Specific Conductance (µS/cm, 75°C) = 350764 Density (g/cm³) = 1.31140 Volume (L) = 1.18655 - Viscosity (mPa s) = 1.85767 + Viscosity (mPa s) = 1.86168 Activity of water = 0.744 Ionic strength (mol/kgw) = 1.503e+01 Mass of water (kg) = 1.000e+00 @@ -21369,10 +21369,10 @@ Reaction 1. pH = 6.255 Charge balance pe = 8.956 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 272570 + Specific Conductance (µS/cm, 75°C) = 272243 Density (g/cm³) = 1.37695 Volume (L) = 1.24407 - Viscosity (mPa s) = 3.05415 + Viscosity (mPa s) = 3.05868 Activity of water = 0.672 Ionic strength (mol/kgw) = 1.927e+01 Mass of water (kg) = 1.000e+00 @@ -21551,10 +21551,10 @@ Reaction 1. pH = 6.109 Charge balance pe = 0.578 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 16513 + Specific Conductance (µS/cm, 99°C) = 16494 Density (g/cm³) = 0.96181 Volume (L) = 1.04314 - Viscosity (mPa s) = 0.28913 + Viscosity (mPa s) = 0.28951 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.928e-02 Mass of water (kg) = 1.000e+00 @@ -21629,10 +21629,10 @@ Reaction 1. pH = 6.097 Charge balance pe = 0.579 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 38227 + Specific Conductance (µS/cm, 99°C) = 38158 Density (g/cm³) = 0.96593 Volume (L) = 1.04391 - Viscosity (mPa s) = 0.29465 + Viscosity (mPa s) = 0.29526 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.256e-01 Mass of water (kg) = 1.000e+00 @@ -21707,10 +21707,10 @@ Reaction 1. pH = 6.092 Charge balance pe = 6.144 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 49061 + Specific Conductance (µS/cm, 99°C) = 48961 Density (g/cm³) = 0.96809 Volume (L) = 1.04435 - Viscosity (mPa s) = 0.29748 + Viscosity (mPa s) = 0.29818 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.982e-01 Mass of water (kg) = 1.000e+00 @@ -21785,10 +21785,10 @@ Reaction 1. pH = 6.092 Charge balance pe = 6.087 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 50260 + Specific Conductance (µS/cm, 99°C) = 50156 Density (g/cm³) = 0.96834 Volume (L) = 1.04440 - Viscosity (mPa s) = 0.29779 + Viscosity (mPa s) = 0.29850 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.064e-01 Mass of water (kg) = 1.000e+00 @@ -21863,10 +21863,10 @@ Reaction 1. pH = 6.080 Charge balance pe = 0.380 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 89950 + Specific Conductance (µS/cm, 99°C) = 89701 Density (g/cm³) = 0.97676 Volume (L) = 1.04626 - Viscosity (mPa s) = 0.30862 + Viscosity (mPa s) = 0.30961 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.931e-01 Mass of water (kg) = 1.000e+00 @@ -21941,10 +21941,10 @@ Reaction 1. pH = 6.079 Charge balance pe = 5.031 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 95029 + Specific Conductance (µS/cm, 99°C) = 94758 Density (g/cm³) = 0.97789 Volume (L) = 1.04652 - Viscosity (mPa s) = 0.31006 + Viscosity (mPa s) = 0.31108 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.318e-01 Mass of water (kg) = 1.000e+00 @@ -22019,10 +22019,10 @@ Reaction 1. pH = 6.079 Charge balance pe = 0.338 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 95775 + Specific Conductance (µS/cm, 99°C) = 95501 Density (g/cm³) = 0.97805 Volume (L) = 1.04656 - Viscosity (mPa s) = 0.31027 + Viscosity (mPa s) = 0.31130 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.375e-01 Mass of water (kg) = 1.000e+00 @@ -22097,10 +22097,10 @@ Reaction 1. pH = 6.065 Charge balance pe = 6.550 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 172160 + Specific Conductance (µS/cm, 99°C) = 171517 Density (g/cm³) = 0.99627 Volume (L) = 1.05114 - Viscosity (mPa s) = 0.33371 + Viscosity (mPa s) = 0.33516 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.276e+00 Mass of water (kg) = 1.000e+00 @@ -22175,10 +22175,10 @@ Reaction 1. pH = 6.063 Charge balance pe = 6.359 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 186649 + Specific Conductance (µS/cm, 99°C) = 185928 Density (g/cm³) = 1.00000 Volume (L) = 1.05215 - Viscosity (mPa s) = 0.33858 + Viscosity (mPa s) = 0.34011 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.410e+00 Mass of water (kg) = 1.000e+00 @@ -22253,10 +22253,10 @@ Reaction 1. pH = 6.055 Charge balance pe = 6.497 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 245500 + Specific Conductance (µS/cm, 99°C) = 244443 Density (g/cm³) = 1.01621 Volume (L) = 1.05680 - Viscosity (mPa s) = 0.36009 + Viscosity (mPa s) = 0.36191 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.998e+00 Mass of water (kg) = 1.000e+00 @@ -22331,10 +22331,10 @@ Reaction 1. pH = 6.050 Charge balance pe = 6.833 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 301476 + Specific Conductance (µS/cm, 99°C) = 300083 Density (g/cm³) = 1.03347 Volume (L) = 1.06215 - Viscosity (mPa s) = 0.38387 + Viscosity (mPa s) = 0.38596 Activity of water = 0.955 Ionic strength (mol/kgw) = 2.641e+00 Mass of water (kg) = 1.000e+00 @@ -22513,10 +22513,10 @@ Reaction 1. pH = 5.907 Charge balance pe = 0.700 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 31649 + Specific Conductance (µS/cm, 127°C) = 31576 Density (g/cm³) = 0.94209 Volume (L) = 1.06732 - Viscosity (mPa s) = 0.22397 + Viscosity (mPa s) = 0.22456 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.491e-01 Mass of water (kg) = 1.000e+00 @@ -22591,10 +22591,10 @@ Reaction 1. pH = 5.895 Charge balance pe = 5.368 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 60111 + Specific Conductance (µS/cm, 127°C) = 59917 Density (g/cm³) = 0.94688 Volume (L) = 1.06799 - Viscosity (mPa s) = 0.22875 + Viscosity (mPa s) = 0.22960 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.042e-01 Mass of water (kg) = 1.000e+00 @@ -22669,10 +22669,10 @@ Reaction 1. pH = 5.876 Charge balance pe = 5.566 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 143211 + Specific Conductance (µS/cm, 127°C) = 142509 Density (g/cm³) = 0.96222 Volume (L) = 1.07066 - Viscosity (mPa s) = 0.24371 + Viscosity (mPa s) = 0.24510 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.166e-01 Mass of water (kg) = 1.000e+00 @@ -22747,10 +22747,10 @@ Reaction 1. pH = 5.863 Charge balance pe = 5.470 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 247426 + Specific Conductance (µS/cm, 127°C) = 245891 Density (g/cm³) = 0.98402 Volume (L) = 1.07541 - Viscosity (mPa s) = 0.26518 + Viscosity (mPa s) = 0.26710 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -22825,10 +22825,10 @@ Reaction 1. pH = 5.851 Charge balance pe = 4.689 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 408834 + Specific Conductance (µS/cm, 127°C) = 405815 Density (g/cm³) = 1.02496 Volume (L) = 1.08653 - Viscosity (mPa s) = 0.30790 + Viscosity (mPa s) = 0.31058 Activity of water = 0.948 Ionic strength (mol/kgw) = 3.072e+00 Mass of water (kg) = 1.000e+00 @@ -22903,10 +22903,10 @@ Reaction 1. pH = 5.853 Charge balance pe = 5.592 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 689726 + Specific Conductance (µS/cm, 127°C) = 684804 Density (g/cm³) = 1.17847 Volume (L) = 1.14964 - Viscosity (mPa s) = 0.55066 + Viscosity (mPa s) = 0.55541 Activity of water = 0.837 Ionic strength (mol/kgw) = 9.591e+00 Mass of water (kg) = 1.000e+00 @@ -22981,10 +22981,10 @@ Reaction 1. pH = 5.871 Charge balance pe = 5.917 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 628867 + Specific Conductance (µS/cm, 127°C) = 625575 Density (g/cm³) = 1.28239 Volume (L) = 1.21339 - Viscosity (mPa s) = 0.92866 + Viscosity (mPa s) = 0.93460 Activity of water = 0.744 Ionic strength (mol/kgw) = 1.503e+01 Mass of water (kg) = 1.000e+00 @@ -23059,10 +23059,10 @@ Reaction 1. pH = 5.889 Charge balance pe = 6.016 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 520495 + Specific Conductance (µS/cm, 127°C) = 518501 Density (g/cm³) = 1.35113 Volume (L) = 1.26784 - Viscosity (mPa s) = 1.42448 + Viscosity (mPa s) = 1.43122 Activity of water = 0.672 Ionic strength (mol/kgw) = 1.927e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_CaCl2_sol_101.sel b/mytest/Vm_CaCl2_sol_101.sel index 1929ee97..87b0145a 100644 --- a/mytest/Vm_CaCl2_sol_101.sel +++ b/mytest/Vm_CaCl2_sol_101.sel @@ -1,294 +1,294 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000067373 0.0312876270 - 0.150000024056 8299.9672881639 - 0.299999996946 15570.1972021093 - 1.499999887134 63409.1569959137 - 2.999999817584 108445.1781681689 - 5.999999728362 160291.1348890800 - 8.999999666605 168830.6791864438 - 11.999999622608 150993.9749722287 - 17.999999572825 99628.7318138343 + 0.000000067373 0.0312876275 + 0.150000024056 8301.0810808771 + 0.299999996946 15573.0986733669 + 1.499999887134 63432.5780953112 + 2.999999817584 108494.6065357139 + 5.999999728362 160368.0401664110 + 8.999999666605 168899.5132349578 + 11.999999622608 151040.5205509521 + 17.999999572825 99644.3876018356 0.000000100644 0.0547765031 - 0.037680100830 2883.5111459740 - 0.060900096781 4511.6143249327 - 0.066000095899 4860.9190768786 - 0.067050095718 4932.5176624244 - 0.071700094919 5248.3572521287 - 0.098610090408 7041.1649333552 - 0.100200090148 7145.4391791669 - 0.111000088398 7849.4156205536 - 0.135000084620 9389.4840584642 - 0.140700083744 9750.7996475349 - 0.150000082331 10336.9611486436 - 0.150030082326 10338.8454744084 - 0.151500082105 10431.1272178082 - 0.177000078340 12017.0540685761 - 0.178200078166 12091.0277283620 - 0.199050075193 13367.6112683656 - 0.200100075045 13431.4796520407 - 0.205500074290 13759.3353977128 - 0.217200072671 14466.2738010434 - 0.244800068946 16116.4810283738 - 0.249600068311 16401.1087512974 - 0.251100068114 16489.9169625967 - 0.287490063419 18625.1902675309 - 0.292500062788 18916.4001538942 - 0.299700061886 19333.7888600230 - 0.300000061849 19351.1518125612 - 0.303000061475 19524.6582508603 - 0.362400054311 22916.3837951828 - 0.390300051086 24482.7078801695 - 0.391950050898 24574.8379072301 - 0.395100050539 24750.5701842338 - 0.421800047542 26232.2379487954 - 0.430500046580 26712.0570618660 - 0.431700046448 26778.1268375686 - 0.499800039166 30484.8691149141 - 0.535500035504 32396.2220072225 - 0.556200033427 33495.0174440628 - 0.567300032326 34081.4438568069 - 0.584400030647 34981.1287991290 - 0.588690030229 35206.1384647530 - 0.606900028470 36158.1661165001 - 0.613800027809 36517.6113886118 - 0.754500014989 43700.6672899396 - 0.760500014468 44001.0514191122 - 0.788700012044 45406.6652294434 - 0.789750011955 45458.8064951118 - 0.789900011942 45466.2541001820 - 0.877800004653 49782.6669850166 - 0.983999996321 54875.3814654324 - 1.000199995092 55640.9506909774 - 1.010999994278 56149.7104583971 - 1.011599994233 56177.9370662960 - 1.046399991644 57808.3238603658 - 1.079699989209 59356.1367947864 - 1.180799982060 63983.5756223169 - 1.202099980598 64945.0351265804 - 1.217999979516 65659.7488561951 - 1.249199977415 67054.8306909358 - 1.446899964762 75674.3885673796 - 1.460699963918 76262.2302097924 - 1.497899961665 77838.0949003729 - 1.499999961539 77926.6763232570 - 1.505699961197 78166.9084241928 - 1.507799961072 78255.3402635203 - 1.588499956316 81623.4081582791 - 1.662599952075 84664.8489343628 - 1.720199948858 86995.8270245650 - 1.752899947060 88306.3871497759 - 1.782599945445 89488.7824544052 - 1.812899943814 90687.3406610245 - 1.841699942279 91819.3809056251 - 1.999499934120 97899.6434531907 - 2.007299933727 98194.8910481773 - 2.008799933652 98251.6128397570 - 2.146199926881 103370.5996309205 - 2.326199918400 109851.1851326934 - 2.366999916533 111285.2413900373 - 2.558399908028 117844.0211036907 - 2.601899906148 119296.3597323336 - 2.724599900946 123317.6726437706 - 2.867699895052 127868.8120029110 - 2.978699890599 131297.5422646196 - 2.996699889886 131845.2726410533 - 2.999999889756 131945.4403477627 - 3.014999889164 132399.7746157954 - 3.057599887493 133681.3984860267 - 3.273899879210 139992.2051165171 - 3.473399871849 145525.3896635653 - 3.482099871533 145760.4801708861 - 3.567299868469 148035.5356559160 - 3.824699859462 154611.3281892390 - 3.967799854607 158075.9282750429 - 4.319999843083 166030.5952722328 - 4.426199839718 168271.4461214129 - 4.500299837400 169792.1659990350 - 4.561799835493 171027.7148468414 - 4.568099835299 171152.9251594749 - 4.570199835234 171194.6060582415 - 4.621799833648 172209.9818002390 - 4.998899822380 179122.7894963008 - 5.047499820968 179949.4114288811 - 5.129999818590 181319.4092496375 - 5.267099814693 183504.2207483107 - 5.272499814540 183587.9392639594 - 5.303399813672 184063.6059215807 - 5.345399812497 184700.9097339628 - 5.636399804521 188827.0549887968 - 5.710199802543 189793.9468881910 - 5.822099799578 191199.4508977360 - 5.845199798971 191480.5639293835 - 5.936999796576 192567.3799949025 - 5.998499794986 193268.5125840241 - 5.999999794947 193285.3443416876 - 6.017999794484 193486.3305591421 - 6.062699793338 193977.5084891634 - 6.278699787888 196192.9964468397 - 6.318899786889 196576.7292876440 - 6.350099786118 196868.4307792576 - 6.634499779212 199284.0765885360 - 6.678299778169 199617.6832805085 - 6.880199773430 201025.7590036149 - 7.231799765443 202982.3472498718 - 7.233599765403 202990.7861172206 - 7.499999759568 204067.9666252918 - 7.501199759542 204072.0582233311 - 7.521899759096 204141.5726923972 - 7.765499753930 204811.6285962028 - 7.796699753279 204878.0746138468 - 7.913999750852 205089.4349067947 - 8.360999741902 205358.5502769876 - 8.517299738881 205261.5741879694 - 8.727299734907 204984.2174755251 - 8.874899732172 204692.2301095597 - 8.999999729890 204384.3850671909 - 9.050999728969 204243.4096667845 - 9.110399727904 204068.1345250816 - 9.431399722272 202922.2025094881 - 9.680399718046 201815.0457010060 - 9.685499717961 201790.4819842141 - 9.999599712807 200139.6490562899 - 10.063499711781 199771.8471970821 - 10.332899707542 198110.3802480842 - 10.673699702370 195770.6897910144 - 10.782299700766 194973.8972171008 - 10.871099699469 194305.1875763964 - 11.166299695258 191977.9738567190 - 11.576699689649 188504.0532524856 - 11.727899687653 187162.6587671360 - 11.770499687097 186779.2981128329 - 11.871299685793 185863.1446187762 - 11.898299685447 185615.6489512715 - 11.999999684153 184675.7723972423 - 11.999999684153 184675.7723972423 - 12.174899681965 183032.6562850885 - 12.641099676366 178509.3451188590 - 13.921799662636 165382.0131530108 - 14.092799660977 163587.4192323888 - 14.287499659138 161539.6929245722 - 14.518199657023 159110.5212737169 - 14.574899656515 158513.4396197986 - 14.791499654610 156233.8017384965 - 14.939999653339 154673.1301114701 - 15.001199652824 154030.7180375709 - 15.196199651214 151987.6854015960 - 15.269699650619 151219.4086010935 - 16.079699644516 142845.3969225379 - 16.104899644339 142588.2141179566 - 16.559699641275 137989.1410847451 - 16.649399640699 137092.2252474799 - 16.856699639406 135033.2145240170 - 17.129099637781 132358.2717005961 - 17.606699635138 127757.9501536591 - 17.766599634310 126244.5662546182 - 17.993999633182 124116.3552173630 - 17.999999633153 124060.5894486037 - 18.451799631082 119919.8636912710 - 18.754199629819 117214.0109905394 - 18.857399629411 116302.8314675362 - 19.237199628003 113003.7199377073 - 19.393199627469 111673.5003234708 - 19.975199625696 106839.2666550310 - 20.000399625627 106634.5323104854 - 20.557499624264 102205.3417587062 - 21.229799623028 97105.0826184975 - 21.998999622147 91591.2179429143 - 22.024199622127 91416.2620867252 - 22.199999622009 90205.6130519350 - 22.376699621918 89006.0579751825 - 23.634899622099 80950.2458037847 - 0.000000144671 0.0896960789 - 0.150000152619 12462.8948616062 - 0.282000142612 22040.2330020274 - 0.300000141222 23295.8152175735 - 1.011000092025 67281.0441578194 - 1.500000064601 93134.0524749526 - 1.785000050339 106920.0262582017 - 2.996699998725 156612.5997987708 - 2.999999998599 156729.9172749022 - 4.541999945437 201964.6464210729 - 5.303399922606 217707.7680456966 - 5.999999903357 228601.8675878307 - 7.621499863879 242248.3249344543 - 8.999999835432 242968.5890457301 - 10.517099808770 235156.1351283637 - 11.005499801115 231225.5218013008 - 11.999999786802 221713.3287556075 - 13.921799763563 199844.5437909108 - 15.196199751046 184381.1124982858 - 17.993999730663 151642.5381599786 - 17.999999730628 151576.3635363536 - 19.237199724427 138407.8117802413 - 0.000000200960 0.1389108065 - 0.150000236277 14651.0732208122 - 0.300000234602 27355.9140463463 - 1.500000190475 108872.7292322980 - 3.000000140066 182565.6598675977 - 6.000000056526 265956.7751471233 - 8.999999991940 284382.6616534886 - 11.999999943409 262065.8640365662 - 17.999999882916 182383.8197531066 - 0.000000234097 0.1697380512 - 0.089280279147 9816.1034682960 - 0.149100283842 15674.5012599032 - 0.298200287121 29256.9294479668 - 0.304200287134 29781.5469349081 - 0.306390287138 29972.6776663771 - 0.593070283708 53646.9811954082 - 0.637530282791 57118.2919704689 - 0.816600278656 70652.5986372679 - 1.276230266652 102594.1359234408 - 1.573800258603 121443.0151143550 - 1.998390247137 146179.6633340478 - 2.641050230018 179328.4723393890 - 3.072000218731 198937.9215728318 - 9.591000078505 304189.6897433530 - 15.030000007894 241892.6405530662 - 19.273199974899 182056.8822314364 - 0.000000270724 0.2051267000 - 0.150000335763 16875.4403932541 - 0.300000343964 31484.2143572351 - 1.500000335355 124980.1152988697 - 3.000000306715 209202.3974420055 - 6.000000246981 305024.8082982579 - 9.000000195490 328355.9791835097 - 12.000000154488 305606.0185036350 - 18.000000098944 216637.9613939952 - 0.000000453436 0.3969680115 - 0.149100590141 21215.1080567374 - 0.149250590183 21234.4339440460 - 0.153240591284 21747.6860130141 - 0.300450620010 39814.3776482789 - 0.304200620544 40256.6060852154 - 0.608130649919 74043.6890173734 - 0.816600661882 95378.0968341528 - 1.483470684327 156262.3221606132 - 1.573800686358 163774.9543638560 - 2.953560703728 261073.0974366670 - 3.072000704437 268072.4395491340 - 9.591000696538 421919.7061254556 - 15.030000683156 351384.5487324478 - 19.273200674988 272570.7945204542 - 0.000000747149 0.7388247411 - 0.089280959651 16513.3343006169 - 0.225601036496 38227.4342096656 - 0.298201061922 49061.8147047415 - 0.306391064440 50260.6858154161 - 0.593071128191 89950.9269260461 - 0.631801134531 95029.3693689134 - 0.637531135439 95775.7335004228 - 1.276231207941 172160.2408936722 - 1.409701218783 186649.3850524005 - 1.998391257580 245500.3042305379 - 2.641051289028 301476.6004308266 - 0.000001169077 1.2652515322 - 0.149101606840 31649.4892114478 - 0.304201720396 60111.2091455318 - 0.816601899334 143211.5528772635 - 1.573802032728 247426.1504824770 - 3.072002180918 408834.6344773977 - 9.591002454893 689726.9171000117 - 15.030002568033 628867.0417103636 - 19.273202618095 520495.5770865506 + 0.037680100830 2883.5113125055 + 0.060900096781 4511.6146547607 + 0.066000095899 4860.9194464994 + 0.067050095718 4932.5180403938 + 0.071700094919 5248.3576676877 + 0.098610090408 7041.1655843668 + 0.100200090148 7145.4398449617 + 0.111000088398 7849.4163890910 + 0.135000084620 9389.4850687497 + 0.140700083744 9750.8007177419 + 0.150000082331 10336.9623185354 + 0.150030082326 10338.8466446255 + 0.151500082105 10431.1284039945 + 0.177000078340 12017.0555404259 + 0.178200078166 12091.0292140399 + 0.199050075193 13367.6129994460 + 0.200100075045 13431.4813957282 + 0.205500074290 13759.3372065991 + 0.217200072671 14466.2757532254 + 0.244800068946 16116.4833289803 + 0.249600068311 16401.1111139091 + 0.251100068114 16489.9193446672 + 0.287490063419 18625.1931330832 + 0.292500062788 18916.4030876452 + 0.299700061886 19333.7918924408 + 0.300000061849 19351.1548491067 + 0.303000061475 19524.6613287549 + 0.362400054311 22916.3877171255 + 0.390300051086 24482.7122137764 + 0.391950050898 24574.8422654618 + 0.395100050539 24750.5745895604 + 0.421800047542 26232.2427576035 + 0.430500046580 26712.0620037480 + 0.431700046448 26778.1317978653 + 0.499800039166 30484.8751424112 + 0.535500035504 32396.2286100554 + 0.556200033427 33495.0243849796 + 0.567300032326 34081.4509802948 + 0.584400030647 34981.1362055517 + 0.588690030229 35206.1459424679 + 0.606900028470 36158.1738981728 + 0.613800027809 36517.6192860105 + 0.754500014989 43700.6776048220 + 0.760500014468 44001.0618392262 + 0.788700012044 45406.6761461476 + 0.789750011955 45458.8174303678 + 0.789900011942 45466.2650380887 + 0.877800004653 49782.6794901434 + 0.983999996321 54875.3958949504 + 1.000199995092 55640.9654164211 + 1.010999994278 56149.7253814232 + 1.011599994233 56177.9520003057 + 1.046399991644 57808.3394325750 + 1.079699989209 59356.1529796260 + 1.180799982060 63983.5936762389 + 1.202099980598 64945.0535756220 + 1.217999979516 65659.7676004106 + 1.249199977415 67054.8500148295 + 1.446899964762 75674.4115697626 + 1.460699963918 76262.2534687517 + 1.497899961665 77838.1188505203 + 1.499999961539 77926.7003124006 + 1.505699961197 78166.9325191698 + 1.507799961072 78255.3643974835 + 1.588499956316 81623.4337880170 + 1.662599952075 84664.8759323625 + 1.720199948858 86995.8550818453 + 1.752899947060 88306.4158064936 + 1.782599945445 89488.8116542499 + 1.812899943814 90687.3704135983 + 1.841699942279 91819.4111822142 + 1.999499934120 97899.6765748452 + 2.007299933727 98194.9243092160 + 2.008799933652 98251.6461275859 + 2.146199926881 103370.6353520831 + 2.326199918400 109851.2239736974 + 2.366999916533 111285.2809264947 + 2.558399908028 117844.0638398186 + 2.601899906148 119296.4031805078 + 2.724599900946 123317.7180684780 + 2.867699895052 127868.8596707451 + 2.978699890599 131297.5916243569 + 2.996699889886 131845.3222710845 + 2.999999889756 131945.4900272230 + 3.014999889164 132399.8245194449 + 3.057599887493 133681.4490219800 + 3.273899879210 139992.2587603497 + 3.473399871849 145525.4460165792 + 3.482099871533 145760.5366385127 + 3.567299868469 148035.5932300925 + 3.824699859462 154611.3889285171 + 3.967799854607 158075.9906558899 + 4.319999843083 166030.6613251452 + 4.426199839718 168271.5131774009 + 4.500299837400 169792.2337260763 + 4.561799835493 171027.7831127883 + 4.568099835299 171152.9934797014 + 4.570199835234 171194.6743965232 + 4.621799833648 172210.0505761535 + 4.998899822380 179122.8611199094 + 5.047499820968 179949.4833746943 + 5.129999818590 181319.4817190776 + 5.267099814693 183504.2940232330 + 5.272499814540 183588.0125689600 + 5.303399813672 184063.6793963028 + 5.345399812497 184700.9834328506 + 5.636399804521 188827.1300361148 + 5.710199802543 189794.0222212332 + 5.822099799578 191199.5266212484 + 5.845199798971 191480.6397271332 + 5.936999796576 192567.4560663189 + 5.998499794986 193268.5888198311 + 5.999999794947 193285.4205813154 + 6.017999794484 193486.4068439219 + 6.062699793338 193977.5848805116 + 6.278699787888 196193.0732429368 + 6.318899786889 196576.8061392181 + 6.350099786118 196868.5076696608 + 6.634499779212 199284.1536660774 + 6.678299778169 199617.7603607521 + 6.880199773430 201025.8360093831 + 7.231799765443 202982.4238000713 + 7.233599765403 202990.8626640706 + 7.499999759568 204068.0425684400 + 7.501199759542 204072.1341632875 + 7.521899759096 204141.6485766432 + 7.765499753930 204811.7037353634 + 7.796699753279 204878.1496460453 + 7.913999750852 205089.5095144664 + 8.360999741902 205358.6229657981 + 8.517299738881 205261.6461037623 + 8.727299734907 204984.2882790960 + 8.874899732172 204692.3000850148 + 8.999999729890 204384.4543132655 + 9.050999728969 204243.4786087012 + 9.110399727904 204068.2031079983 + 9.431399722272 202922.2690715905 + 9.680399718046 201815.1106142125 + 9.685499717961 201790.5468630070 + 9.999599712807 200139.7117734337 + 10.063499711781 199771.9094654688 + 10.332899707542 198110.4405981196 + 10.673699702370 195770.7476689578 + 10.782299700766 194973.9543003880 + 10.871099699469 194305.2440083751 + 11.166299695258 191978.0281187957 + 11.576699689649 188504.1045053493 + 11.727899687653 187162.7089191569 + 11.770499687097 186779.3479558041 + 11.871299685793 185863.1937326888 + 11.898299685447 185615.6978704654 + 11.999999684153 184675.8205853175 + 11.999999684153 184675.8205853175 + 12.174899681965 183032.7032252228 + 12.641099676366 178509.3888020164 + 13.921799662636 165382.0485696175 + 14.092799660977 163587.4536327564 + 14.287499659138 161539.7261946663 + 14.518199657023 159110.5532419038 + 14.574899656515 158513.4712742486 + 14.791499654610 156233.8322171647 + 14.939999653339 154673.1598048497 + 15.001199652824 154030.7474122395 + 15.196199651214 151987.7137798778 + 15.269699650619 151219.4366113400 + 16.079699644516 142845.4211451456 + 16.104899644339 142588.2382304644 + 16.559699641275 137989.1632876798 + 16.649399640699 137092.2470908049 + 16.856699639406 135033.2355571578 + 17.129099637781 132358.2917124998 + 17.606699635138 127757.9684893463 + 17.766599634310 126244.5840603674 + 17.993999633182 124116.3722954057 + 17.999999633153 124060.6065078504 + 18.451799631082 119919.8793929430 + 18.754199629819 117214.0258448147 + 18.857399629411 116302.8460433624 + 19.237199628003 113003.7335338755 + 19.393199627469 111673.5135370800 + 19.975199625696 106839.2785369851 + 20.000399625627 106634.5441380363 + 20.557499624264 102205.3524479469 + 21.229799623028 97105.0920860850 + 21.998999622147 91591.2261928597 + 22.024199622127 91416.2702997381 + 22.199999622009 90205.6210122034 + 22.376699621918 89006.0656898483 + 23.634899622099 80950.2519901589 + 0.000000144671 0.0896960762 + 0.150000152619 12461.0437091999 + 0.282000142612 22035.8265316696 + 0.300000141222 23291.0228710565 + 1.011000092025 67257.7050223927 + 1.500000064601 93096.7253152242 + 1.785000050339 106874.6444620450 + 2.996699998725 156536.2728612500 + 2.999999998599 156653.5158011033 + 4.541999945437 201860.5435702841 + 5.303399922606 217595.5068707480 + 5.999999903357 228485.2932026891 + 7.621499863879 242132.0155806841 + 8.999999835432 242861.0817044235 + 10.517099808770 235063.3502243574 + 11.005499801115 231137.9768231132 + 11.999999786802 221636.5539836495 + 13.921799763563 199787.1502699509 + 15.196199751046 184334.6450834851 + 17.993999730663 151614.0302410892 + 17.999999730628 151547.8859710244 + 19.237199724427 138384.9574940008 + 0.000000200960 0.1389107956 + 0.150000236277 14646.4954341365 + 0.300000234602 27344.0852392171 + 1.500000190475 108781.4489441816 + 3.000000140066 182380.1454168216 + 6.000000056526 265673.9218668701 + 8.999999991940 284117.6949265391 + 11.999999943409 261872.0029161695 + 17.999999882916 182308.6531119401 + 0.000000234097 0.1697380323 + 0.089280279147 9813.0412293732 + 0.149100283842 15668.2438841448 + 0.298200287121 29240.7694984283 + 0.304200287134 29764.9464439563 + 0.306390287138 29955.9157158104 + 0.593070283708 53606.7885095378 + 0.637530282791 57074.1705365810 + 0.816600278656 70592.1725112101 + 1.276230266652 102490.1434222966 + 1.573800258603 121310.7401442951 + 1.998390247137 146008.1991611803 + 2.641050230018 179102.1251513929 + 3.072000218731 198678.5752600062 + 9.591000078505 303839.4343143262 + 15.030000007894 241717.6874075103 + 19.273199974899 181970.3514925595 + 0.000000270724 0.2051266693 + 0.150000335763 16867.1322044256 + 0.300000343964 31462.7762702481 + 1.500000335355 124815.6720276508 + 3.000000306715 208869.5356663075 + 6.000000246981 304516.0339964579 + 9.000000195490 327871.7683177734 + 12.000000154488 305243.4481377986 + 18.000000098944 216491.1765564104 + 0.000000453436 0.3969678596 + 0.149100590141 21196.0146568843 + 0.149250590183 21215.3140145133 + 0.153240591284 21727.8569662129 + 0.300450620010 39764.6880715360 + 0.304200620544 40206.0798272053 + 0.608130649919 73917.6929057946 + 0.816600661882 95194.9957309641 + 1.483470684327 155888.8315880110 + 1.573800686358 163375.8567212032 + 2.953560703728 260319.9177012414 + 3.072000704437 267293.0708678694 + 9.591000696538 420800.3864078795 + 15.030000683156 350764.9802975222 + 19.273200674988 272243.1807981596 + 0.000000747149 0.7388240944 + 0.089280959651 16494.1401212496 + 0.225601036496 38158.4391820508 + 0.298201061922 48961.1544880535 + 0.306391064440 50156.2894226975 + 0.593071128191 89701.4142201980 + 0.631801134531 94758.7206452933 + 0.637531135439 95501.9360149112 + 1.276231207941 171517.6153431863 + 1.409701218783 185928.5582438303 + 1.998391257580 244443.7697853553 + 2.641051289028 300083.0951724336 + 0.000001169077 1.2652492046 + 0.149101606840 31576.2739753841 + 0.304201720396 59917.6807149777 + 0.816601899334 142509.3620045031 + 1.573802032728 245891.6185547253 + 3.072002180918 405815.3652641258 + 9.591002454893 684804.3828339806 + 15.030002568033 625575.7517757826 + 19.273202618095 518501.6789328391 diff --git a/mytest/Vm_HCl_sol.out b/mytest/Vm_HCl_sol.out index 6535a1fb..1ec1d7e3 100644 --- a/mytest/Vm_HCl_sol.out +++ b/mytest/Vm_HCl_sol.out @@ -234,10 +234,10 @@ Reaction 1. pH = 1.121 Charge balance pe = 4.750 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 25908 + Specific Conductance (µS/cm, 5°C) = 25910 Density (g/cm³) = 1.00173 Volume (L) = 1.00165 - Viscosity (mPa s) = 1.52245 + Viscosity (mPa s) = 1.52239 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.082e-02 Mass of water (kg) = 1.000e+00 @@ -308,10 +308,10 @@ Reaction 1. pH = 0.821 Charge balance pe = 18.641 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 52716 + Specific Conductance (µS/cm, 5°C) = 52721 Density (g/cm³) = 1.00374 Volume (L) = 1.00333 - Viscosity (mPa s) = 1.52712 + Viscosity (mPa s) = 1.52704 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.875e-01 Mass of water (kg) = 1.000e+00 @@ -382,10 +382,10 @@ Reaction 1. pH = 0.658 Charge balance pe = 18.923 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 77308 + Specific Conductance (µS/cm, 5°C) = 77318 Density (g/cm³) = 1.00566 Volume (L) = 1.00492 - Viscosity (mPa s) = 1.53187 + Viscosity (mPa s) = 1.53177 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.784e-01 Mass of water (kg) = 1.000e+00 @@ -456,10 +456,10 @@ Reaction 1. pH = 0.541 Charge balance pe = 5.247 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 101209 + Specific Conductance (µS/cm, 5°C) = 101225 Density (g/cm³) = 1.00759 Volume (L) = 1.00652 - Viscosity (mPa s) = 1.53682 + Viscosity (mPa s) = 1.53671 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.688e-01 Mass of water (kg) = 1.000e+00 @@ -530,10 +530,10 @@ Reaction 1. pH = 0.500 Charge balance pe = 5.264 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 111152 + Specific Conductance (µS/cm, 5°C) = 111169 Density (g/cm³) = 1.00841 Volume (L) = 1.00720 - Viscosity (mPa s) = 1.53895 + Viscosity (mPa s) = 1.53884 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.071e-01 Mass of water (kg) = 1.000e+00 @@ -604,10 +604,10 @@ Reaction 1. pH = 0.428 Charge balance pe = 19.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 131124 + Specific Conductance (µS/cm, 5°C) = 131147 Density (g/cm³) = 1.01007 Volume (L) = 1.00858 - Viscosity (mPa s) = 1.54333 + Viscosity (mPa s) = 1.54321 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.850e-01 Mass of water (kg) = 1.000e+00 @@ -678,10 +678,10 @@ Reaction 1. pH = 0.365 Charge balance pe = 5.504 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 150974 + Specific Conductance (µS/cm, 5°C) = 151002 Density (g/cm³) = 1.01174 Volume (L) = 1.00999 - Viscosity (mPa s) = 1.54779 + Viscosity (mPa s) = 1.54766 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.639e-01 Mass of water (kg) = 1.000e+00 @@ -752,10 +752,10 @@ Reaction 1. pH = 0.311 Charge balance pe = 19.316 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 170116 + Specific Conductance (µS/cm, 5°C) = 170150 Density (g/cm³) = 1.01338 Volume (L) = 1.01138 - Viscosity (mPa s) = 1.55215 + Viscosity (mPa s) = 1.55201 Activity of water = 0.977 Ionic strength (mol/kgw) = 6.414e-01 Mass of water (kg) = 1.000e+00 @@ -826,10 +826,10 @@ Reaction 1. pH = 0.262 Charge balance pe = 5.650 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 189460 + Specific Conductance (µS/cm, 5°C) = 189499 Density (g/cm³) = 1.01504 Volume (L) = 1.01282 - Viscosity (mPa s) = 1.55659 + Viscosity (mPa s) = 1.55644 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.212e-01 Mass of water (kg) = 1.000e+00 @@ -900,10 +900,10 @@ Reaction 1. pH = 0.220 Charge balance pe = 19.389 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 207949 + Specific Conductance (µS/cm, 5°C) = 207995 Density (g/cm³) = 1.01664 Volume (L) = 1.01422 - Viscosity (mPa s) = 1.56084 + Viscosity (mPa s) = 1.56068 Activity of water = 0.972 Ionic strength (mol/kgw) = 7.989e-01 Mass of water (kg) = 1.000e+00 @@ -1080,10 +1080,10 @@ Reaction 1. pH = 2.038 Charge balance pe = 3.628 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 3546 + Specific Conductance (µS/cm, 15°C) = 3547 Density (g/cm³) = 0.99924 Volume (L) = 1.00113 - Viscosity (mPa s) = 1.13827 + Viscosity (mPa s) = 1.13826 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.002e-02 Mass of water (kg) = 1.000e+00 @@ -1157,7 +1157,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7109 Density (g/cm³) = 0.99943 Volume (L) = 1.00131 - Viscosity (mPa s) = 1.13881 + Viscosity (mPa s) = 1.13880 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.021e-02 Mass of water (kg) = 1.000e+00 @@ -1231,7 +1231,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 10433 Density (g/cm³) = 0.99962 Volume (L) = 1.00148 - Viscosity (mPa s) = 1.13931 + Viscosity (mPa s) = 1.13929 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.978e-02 Mass of water (kg) = 1.000e+00 @@ -1302,10 +1302,10 @@ Reaction 1. pH = 1.370 Charge balance pe = 17.016 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 17369 + Specific Conductance (µS/cm, 15°C) = 17370 Density (g/cm³) = 1.00000 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.14035 + Viscosity (mPa s) = 1.14034 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.989e-02 Mass of water (kg) = 1.000e+00 @@ -1376,10 +1376,10 @@ Reaction 1. pH = 1.206 Charge balance pe = 17.296 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 25652 + Specific Conductance (µS/cm, 15°C) = 25653 Density (g/cm³) = 1.00047 Volume (L) = 1.00227 - Viscosity (mPa s) = 1.14164 + Viscosity (mPa s) = 1.14162 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.415e-02 Mass of water (kg) = 1.000e+00 @@ -1450,10 +1450,10 @@ Reaction 1. pH = 1.121 Charge balance pe = 4.633 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 31342 + Specific Conductance (µS/cm, 15°C) = 31344 Density (g/cm³) = 1.00080 Volume (L) = 1.00258 - Viscosity (mPa s) = 1.14255 + Viscosity (mPa s) = 1.14253 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.094e-02 Mass of water (kg) = 1.000e+00 @@ -1524,10 +1524,10 @@ Reaction 1. pH = 1.090 Charge balance pe = 17.481 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 33742 + Specific Conductance (µS/cm, 15°C) = 33744 Density (g/cm³) = 1.00094 Volume (L) = 1.00271 - Viscosity (mPa s) = 1.14294 + Viscosity (mPa s) = 1.14292 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.806e-02 Mass of water (kg) = 1.000e+00 @@ -1598,10 +1598,10 @@ Reaction 1. pH = 1.003 Charge balance pe = 17.646 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 41454 + Specific Conductance (µS/cm, 15°C) = 41456 Density (g/cm³) = 1.00140 Volume (L) = 1.00312 - Viscosity (mPa s) = 1.14423 + Viscosity (mPa s) = 1.14420 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.210e-01 Mass of water (kg) = 1.000e+00 @@ -1672,10 +1672,10 @@ Reaction 1. pH = 0.929 Charge balance pe = 17.741 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 49350 + Specific Conductance (µS/cm, 15°C) = 49352 Density (g/cm³) = 1.00187 Volume (L) = 1.00355 - Viscosity (mPa s) = 1.14558 + Viscosity (mPa s) = 1.14555 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.448e-01 Mass of water (kg) = 1.000e+00 @@ -1746,10 +1746,10 @@ Reaction 1. pH = 0.822 Charge balance pe = 17.722 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 63548 + Specific Conductance (µS/cm, 15°C) = 63551 Density (g/cm³) = 1.00273 Volume (L) = 1.00434 - Viscosity (mPa s) = 1.14810 + Viscosity (mPa s) = 1.14807 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.880e-01 Mass of water (kg) = 1.000e+00 @@ -1820,10 +1820,10 @@ Reaction 1. pH = 0.753 Charge balance pe = 17.574 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 74614 + Specific Conductance (µS/cm, 15°C) = 74619 Density (g/cm³) = 1.00342 Volume (L) = 1.00496 - Viscosity (mPa s) = 1.15015 + Viscosity (mPa s) = 1.15012 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.221e-01 Mass of water (kg) = 1.000e+00 @@ -1894,10 +1894,10 @@ Reaction 1. pH = 0.658 Charge balance pe = 17.992 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 92871 + Specific Conductance (µS/cm, 15°C) = 92878 Density (g/cm³) = 1.00458 Volume (L) = 1.00600 - Viscosity (mPa s) = 1.15367 + Viscosity (mPa s) = 1.15363 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.792e-01 Mass of water (kg) = 1.000e+00 @@ -1968,10 +1968,10 @@ Reaction 1. pH = 0.541 Charge balance pe = 18.025 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 121148 + Specific Conductance (µS/cm, 15°C) = 121158 Density (g/cm³) = 1.00644 Volume (L) = 1.00767 - Viscosity (mPa s) = 1.15940 + Viscosity (mPa s) = 1.15936 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.701e-01 Mass of water (kg) = 1.000e+00 @@ -2042,10 +2042,10 @@ Reaction 1. pH = 0.500 Charge balance pe = 5.068 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 132853 + Specific Conductance (µS/cm, 15°C) = 132865 Density (g/cm³) = 1.00722 Volume (L) = 1.00838 - Viscosity (mPa s) = 1.16187 + Viscosity (mPa s) = 1.16182 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.085e-01 Mass of water (kg) = 1.000e+00 @@ -2116,10 +2116,10 @@ Reaction 1. pH = 0.427 Charge balance pe = 18.172 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 156235 + Specific Conductance (µS/cm, 15°C) = 156250 Density (g/cm³) = 1.00882 Volume (L) = 1.00983 - Viscosity (mPa s) = 1.16692 + Viscosity (mPa s) = 1.16687 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.868e-01 Mass of water (kg) = 1.000e+00 @@ -2190,10 +2190,10 @@ Reaction 1. pH = 0.365 Charge balance pe = 5.634 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 179325 + Specific Conductance (µS/cm, 15°C) = 179343 Density (g/cm³) = 1.01043 Volume (L) = 1.01131 - Viscosity (mPa s) = 1.17206 + Viscosity (mPa s) = 1.17200 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.662e-01 Mass of water (kg) = 1.000e+00 @@ -2264,10 +2264,10 @@ Reaction 1. pH = 0.311 Charge balance pe = 18.396 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 201419 + Specific Conductance (µS/cm, 15°C) = 201441 Density (g/cm³) = 1.01200 Volume (L) = 1.01276 - Viscosity (mPa s) = 1.17707 + Viscosity (mPa s) = 1.17701 Activity of water = 0.977 Ionic strength (mol/kgw) = 6.441e-01 Mass of water (kg) = 1.000e+00 @@ -2338,10 +2338,10 @@ Reaction 1. pH = 0.262 Charge balance pe = 18.299 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 223602 + Specific Conductance (µS/cm, 15°C) = 223627 Density (g/cm³) = 1.01359 Volume (L) = 1.01426 - Viscosity (mPa s) = 1.18219 + Viscosity (mPa s) = 1.18212 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.243e-01 Mass of water (kg) = 1.000e+00 @@ -2412,10 +2412,10 @@ Reaction 1. pH = 0.219 Charge balance pe = 5.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 244667 + Specific Conductance (µS/cm, 15°C) = 244696 Density (g/cm³) = 1.01513 Volume (L) = 1.01573 - Viscosity (mPa s) = 1.18710 + Viscosity (mPa s) = 1.18703 Activity of water = 0.972 Ionic strength (mol/kgw) = 8.024e-01 Mass of water (kg) = 1.000e+00 @@ -6884,7 +6884,7 @@ Reaction 1. pH = -0.169 Charge balance pe = 5.928 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 579545 + Specific Conductance (µS/cm, 25°C) = 579546 Density (g/cm³) = 1.03345 Volume (L) = 1.04224 Viscosity (mPa s) = 1.00573 @@ -7402,7 +7402,7 @@ Reaction 1. pH = -0.287 Charge balance pe = 18.018 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 701434 + Specific Conductance (µS/cm, 25°C) = 701435 Density (g/cm³) = 1.04301 Volume (L) = 1.05539 Viscosity (mPa s) = 1.03648 @@ -8290,7 +8290,7 @@ Reaction 1. pH = -0.530 Charge balance pe = 18.520 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 945247 + Specific Conductance (µS/cm, 25°C) = 945248 Density (g/cm³) = 1.07040 Volume (L) = 1.09819 Viscosity (mPa s) = 1.13952 @@ -8364,7 +8364,7 @@ Reaction 1. pH = -0.539 Charge balance pe = 6.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 952444 + Specific Conductance (µS/cm, 25°C) = 952445 Density (g/cm³) = 1.07165 Volume (L) = 1.10028 Viscosity (mPa s) = 1.14476 @@ -8586,7 +8586,7 @@ Reaction 1. pH = -0.573 Charge balance pe = 6.227 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 978466 + Specific Conductance (µS/cm, 25°C) = 978467 Density (g/cm³) = 1.07669 Volume (L) = 1.10879 Viscosity (mPa s) = 1.16623 @@ -8882,7 +8882,7 @@ Reaction 1. pH = -0.606 Charge balance pe = 6.242 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1000407 + Specific Conductance (µS/cm, 25°C) = 1000408 Density (g/cm³) = 1.08181 Volume (L) = 1.11763 Viscosity (mPa s) = 1.18861 @@ -8956,7 +8956,7 @@ Reaction 1. pH = -0.626 Charge balance pe = 18.322 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1012269 + Specific Conductance (µS/cm, 25°C) = 1012270 Density (g/cm³) = 1.08510 Volume (L) = 1.12340 Viscosity (mPa s) = 1.20323 @@ -9030,7 +9030,7 @@ Reaction 1. pH = -0.629 Charge balance pe = 5.880 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1013927 + Specific Conductance (µS/cm, 25°C) = 1013928 Density (g/cm³) = 1.08560 Volume (L) = 1.12428 Viscosity (mPa s) = 1.20547 @@ -9770,7 +9770,7 @@ Reaction 1. pH = -0.733 Charge balance pe = 6.392 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1051519 + Specific Conductance (µS/cm, 25°C) = 1051520 Density (g/cm³) = 1.10473 Volume (L) = 1.15960 Viscosity (mPa s) = 1.29607 @@ -9918,7 +9918,7 @@ Reaction 1. pH = -0.769 Charge balance pe = 18.679 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1053231 + Specific Conductance (µS/cm, 25°C) = 1053232 Density (g/cm³) = 1.11217 Volume (L) = 1.17423 Viscosity (mPa s) = 1.33472 @@ -10545,7 +10545,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 4703 Density (g/cm³) = 0.99417 Volume (L) = 1.00623 - Viscosity (mPa s) = 0.71972 + Viscosity (mPa s) = 0.71973 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.002e-02 Mass of water (kg) = 1.000e+00 @@ -10616,10 +10616,10 @@ Reaction 1. pH = 1.585 Charge balance pe = 3.943 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 13813 + Specific Conductance (µS/cm, 35°C) = 13812 Density (g/cm³) = 0.99453 Volume (L) = 1.00660 - Viscosity (mPa s) = 0.72073 + Viscosity (mPa s) = 0.72074 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.980e-02 Mass of water (kg) = 1.000e+00 @@ -10690,10 +10690,10 @@ Reaction 1. pH = 1.371 Charge balance pe = 15.357 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 22969 + Specific Conductance (µS/cm, 35°C) = 22968 Density (g/cm³) = 0.99491 Volume (L) = 1.00697 - Viscosity (mPa s) = 0.72175 + Viscosity (mPa s) = 0.72176 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.997e-02 Mass of water (kg) = 1.000e+00 @@ -10764,10 +10764,10 @@ Reaction 1. pH = 1.092 Charge balance pe = 15.821 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 44515 + Specific Conductance (µS/cm, 35°C) = 44512 Density (g/cm³) = 0.99581 Volume (L) = 1.00787 - Viscosity (mPa s) = 0.72426 + Viscosity (mPa s) = 0.72428 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.831e-02 Mass of water (kg) = 1.000e+00 @@ -10838,10 +10838,10 @@ Reaction 1. pH = 1.005 Charge balance pe = 15.987 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 54629 + Specific Conductance (µS/cm, 35°C) = 54626 Density (g/cm³) = 0.99625 Volume (L) = 1.00831 - Viscosity (mPa s) = 0.72550 + Viscosity (mPa s) = 0.72552 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.214e-01 Mass of water (kg) = 1.000e+00 @@ -10912,10 +10912,10 @@ Reaction 1. pH = 0.931 Charge balance pe = 16.081 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 64961 + Specific Conductance (µS/cm, 35°C) = 64957 Density (g/cm³) = 0.99670 Volume (L) = 1.00875 - Viscosity (mPa s) = 0.72680 + Viscosity (mPa s) = 0.72682 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.453e-01 Mass of water (kg) = 1.000e+00 @@ -10986,10 +10986,10 @@ Reaction 1. pH = 0.754 Charge balance pe = 15.911 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 97856 + Specific Conductance (µS/cm, 35°C) = 97848 Density (g/cm³) = 0.99819 Volume (L) = 1.01022 - Viscosity (mPa s) = 0.73116 + Viscosity (mPa s) = 0.73119 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.231e-01 Mass of water (kg) = 1.000e+00 @@ -11060,10 +11060,10 @@ Reaction 1. pH = 0.424 Charge balance pe = 16.546 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 203680 + Specific Conductance (µS/cm, 35°C) = 203657 Density (g/cm³) = 1.00345 Volume (L) = 1.01540 - Viscosity (mPa s) = 0.74725 + Viscosity (mPa s) = 0.74729 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.943e-01 Mass of water (kg) = 1.000e+00 @@ -11134,10 +11134,10 @@ Reaction 1. pH = 0.354 Charge balance pe = 5.202 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 236214 + Specific Conductance (µS/cm, 35°C) = 236185 Density (g/cm³) = 1.00518 Volume (L) = 1.01714 - Viscosity (mPa s) = 0.75270 + Viscosity (mPa s) = 0.75274 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.848e-01 Mass of water (kg) = 1.000e+00 @@ -11208,10 +11208,10 @@ Reaction 1. pH = 0.291 Charge balance pe = 16.751 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 269568 + Specific Conductance (µS/cm, 35°C) = 269533 Density (g/cm³) = 1.00702 Volume (L) = 1.01901 - Viscosity (mPa s) = 0.75847 + Viscosity (mPa s) = 0.75852 Activity of water = 0.976 Ionic strength (mol/kgw) = 6.815e-01 Mass of water (kg) = 1.000e+00 @@ -11282,10 +11282,10 @@ Reaction 1. pH = 0.232 Charge balance pe = 16.724 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 303774 + Specific Conductance (µS/cm, 35°C) = 303731 Density (g/cm³) = 1.00896 Volume (L) = 1.02102 - Viscosity (mPa s) = 0.76457 + Viscosity (mPa s) = 0.76462 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.848e-01 Mass of water (kg) = 1.000e+00 @@ -11356,10 +11356,10 @@ Reaction 1. pH = 0.140 Charge balance pe = 5.564 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 364355 + Specific Conductance (µS/cm, 35°C) = 364298 Density (g/cm³) = 1.01251 Volume (L) = 1.02482 - Viscosity (mPa s) = 0.77570 + Viscosity (mPa s) = 0.77576 Activity of water = 0.966 Ionic strength (mol/kgw) = 9.790e-01 Mass of water (kg) = 1.000e+00 @@ -11430,10 +11430,10 @@ Reaction 1. pH = 0.075 Charge balance pe = 5.013 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 412067 + Specific Conductance (µS/cm, 35°C) = 411999 Density (g/cm³) = 1.01540 Volume (L) = 1.02803 - Viscosity (mPa s) = 0.78471 + Viscosity (mPa s) = 0.78477 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.142e+00 Mass of water (kg) = 1.000e+00 @@ -11504,10 +11504,10 @@ Reaction 1. pH = -0.014 Charge balance pe = 5.622 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 485656 + Specific Conductance (µS/cm, 35°C) = 485569 Density (g/cm³) = 1.02003 Volume (L) = 1.03341 - Viscosity (mPa s) = 0.79891 + Viscosity (mPa s) = 0.79898 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -11578,10 +11578,10 @@ Reaction 1. pH = -0.052 Charge balance pe = 17.111 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 519000 + Specific Conductance (µS/cm, 35°C) = 518903 Density (g/cm³) = 1.02218 Volume (L) = 1.03602 - Viscosity (mPa s) = 0.80546 + Viscosity (mPa s) = 0.80553 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.546e+00 Mass of water (kg) = 1.000e+00 @@ -11652,10 +11652,10 @@ Reaction 1. pH = -0.110 Charge balance pe = 5.885 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 573991 + Specific Conductance (µS/cm, 35°C) = 573878 Density (g/cm³) = 1.02583 Volume (L) = 1.04061 - Viscosity (mPa s) = 0.81648 + Viscosity (mPa s) = 0.81656 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.776e+00 Mass of water (kg) = 1.000e+00 @@ -11726,10 +11726,10 @@ Reaction 1. pH = -0.164 Charge balance pe = 17.165 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 628268 + Specific Conductance (µS/cm, 35°C) = 628138 Density (g/cm³) = 1.02956 Volume (L) = 1.04551 - Viscosity (mPa s) = 0.82772 + Viscosity (mPa s) = 0.82780 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.020e+00 Mass of water (kg) = 1.000e+00 @@ -11800,10 +11800,10 @@ Reaction 1. pH = -0.168 Charge balance pe = 5.533 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 632332 + Specific Conductance (µS/cm, 35°C) = 632201 Density (g/cm³) = 1.02985 Volume (L) = 1.04589 - Viscosity (mPa s) = 0.82858 + Viscosity (mPa s) = 0.82866 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.039e+00 Mass of water (kg) = 1.000e+00 @@ -11874,10 +11874,10 @@ Reaction 1. pH = -0.184 Charge balance pe = 17.271 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 649251 + Specific Conductance (µS/cm, 35°C) = 649114 Density (g/cm³) = 1.03105 Volume (L) = 1.04751 - Viscosity (mPa s) = 0.83220 + Viscosity (mPa s) = 0.83228 Activity of water = 0.927 Ionic strength (mol/kgw) = 2.119e+00 Mass of water (kg) = 1.000e+00 @@ -11948,10 +11948,10 @@ Reaction 1. pH = -0.198 Charge balance pe = 17.287 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 663664 + Specific Conductance (µS/cm, 35°C) = 663523 Density (g/cm³) = 1.03208 Volume (L) = 1.04893 - Viscosity (mPa s) = 0.83533 + Viscosity (mPa s) = 0.83542 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.189e+00 Mass of water (kg) = 1.000e+00 @@ -12022,10 +12022,10 @@ Reaction 1. pH = -0.223 Charge balance pe = 17.184 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 689870 + Specific Conductance (µS/cm, 35°C) = 689720 Density (g/cm³) = 1.03400 Volume (L) = 1.05159 - Viscosity (mPa s) = 0.84117 + Viscosity (mPa s) = 0.84126 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.321e+00 Mass of water (kg) = 1.000e+00 @@ -12096,10 +12096,10 @@ Reaction 1. pH = -0.234 Charge balance pe = 17.298 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 702021 + Specific Conductance (µS/cm, 35°C) = 701868 Density (g/cm³) = 1.03490 Volume (L) = 1.05287 - Viscosity (mPa s) = 0.84394 + Viscosity (mPa s) = 0.84403 Activity of water = 0.918 Ionic strength (mol/kgw) = 2.384e+00 Mass of water (kg) = 1.000e+00 @@ -12170,10 +12170,10 @@ Reaction 1. pH = -0.286 Charge balance pe = 17.121 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 758275 + Specific Conductance (µS/cm, 35°C) = 758102 Density (g/cm³) = 1.03928 Volume (L) = 1.05918 - Viscosity (mPa s) = 0.85752 + Viscosity (mPa s) = 0.85762 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.695e+00 Mass of water (kg) = 1.000e+00 @@ -12244,10 +12244,10 @@ Reaction 1. pH = -0.315 Charge balance pe = 5.801 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 790903 + Specific Conductance (µS/cm, 35°C) = 790718 Density (g/cm³) = 1.04199 Volume (L) = 1.06319 - Viscosity (mPa s) = 0.86611 + Viscosity (mPa s) = 0.86621 Activity of water = 0.901 Ionic strength (mol/kgw) = 2.892e+00 Mass of water (kg) = 1.000e+00 @@ -12427,7 +12427,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 10467 Density (g/cm³) = 0.99054 Volume (L) = 1.01030 - Viscosity (mPa s) = 0.59680 + Viscosity (mPa s) = 0.59681 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.023e-02 Mass of water (kg) = 1.000e+00 @@ -12498,10 +12498,10 @@ Reaction 1. pH = 1.586 Charge balance pe = 3.797 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 15348 + Specific Conductance (µS/cm, 45°C) = 15347 Density (g/cm³) = 0.99071 Volume (L) = 1.01048 - Viscosity (mPa s) = 0.59725 + Viscosity (mPa s) = 0.59727 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.982e-02 Mass of water (kg) = 1.000e+00 @@ -12572,10 +12572,10 @@ Reaction 1. pH = 1.372 Charge balance pe = 14.604 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 25511 + Specific Conductance (µS/cm, 45°C) = 25509 Density (g/cm³) = 0.99108 Volume (L) = 1.01085 - Viscosity (mPa s) = 0.59820 + Viscosity (mPa s) = 0.59822 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -12646,10 +12646,10 @@ Reaction 1. pH = 1.208 Charge balance pe = 14.885 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 37615 + Specific Conductance (µS/cm, 45°C) = 37611 Density (g/cm³) = 0.99154 Volume (L) = 1.01131 - Viscosity (mPa s) = 0.59936 + Viscosity (mPa s) = 0.59939 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.437e-02 Mass of water (kg) = 1.000e+00 @@ -12720,10 +12720,10 @@ Reaction 1. pH = 1.093 Charge balance pe = 15.069 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 49402 + Specific Conductance (µS/cm, 45°C) = 49396 Density (g/cm³) = 0.99198 Volume (L) = 1.01176 - Viscosity (mPa s) = 0.60053 + Viscosity (mPa s) = 0.60056 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.843e-02 Mass of water (kg) = 1.000e+00 @@ -12794,10 +12794,10 @@ Reaction 1. pH = 1.006 Charge balance pe = 15.234 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 60606 + Specific Conductance (µS/cm, 45°C) = 60599 Density (g/cm³) = 0.99242 Volume (L) = 1.01219 - Viscosity (mPa s) = 0.60168 + Viscosity (mPa s) = 0.60171 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.216e-01 Mass of water (kg) = 1.000e+00 @@ -12868,10 +12868,10 @@ Reaction 1. pH = 0.931 Charge balance pe = 15.328 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 72043 + Specific Conductance (µS/cm, 45°C) = 72033 Density (g/cm³) = 0.99287 Volume (L) = 1.01264 - Viscosity (mPa s) = 0.60288 + Viscosity (mPa s) = 0.60292 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.455e-01 Mass of water (kg) = 1.000e+00 @@ -12942,10 +12942,10 @@ Reaction 1. pH = 0.754 Charge balance pe = 15.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 108402 + Specific Conductance (µS/cm, 45°C) = 108383 Density (g/cm³) = 0.99435 Volume (L) = 1.01412 - Viscosity (mPa s) = 0.60692 + Viscosity (mPa s) = 0.60697 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.236e-01 Mass of water (kg) = 1.000e+00 @@ -13016,10 +13016,10 @@ Reaction 1. pH = 0.356 Charge balance pe = 5.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 259516 + Specific Conductance (µS/cm, 45°C) = 259446 Density (g/cm³) = 1.00125 Volume (L) = 1.02107 - Viscosity (mPa s) = 0.62666 + Viscosity (mPa s) = 0.62674 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.850e-01 Mass of water (kg) = 1.000e+00 @@ -13090,10 +13090,10 @@ Reaction 1. pH = 0.288 Charge balance pe = 5.473 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 298539 + Specific Conductance (µS/cm, 45°C) = 298453 Density (g/cm³) = 1.00320 Volume (L) = 1.02311 - Viscosity (mPa s) = 0.63238 + Viscosity (mPa s) = 0.63247 Activity of water = 0.976 Ionic strength (mol/kgw) = 6.895e-01 Mass of water (kg) = 1.000e+00 @@ -13164,10 +13164,10 @@ Reaction 1. pH = 0.227 Charge balance pe = 5.945 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 337458 + Specific Conductance (µS/cm, 45°C) = 337354 Density (g/cm³) = 1.00522 Volume (L) = 1.02524 - Viscosity (mPa s) = 0.63828 + Viscosity (mPa s) = 0.63838 Activity of water = 0.972 Ionic strength (mol/kgw) = 7.988e-01 Mass of water (kg) = 1.000e+00 @@ -13238,10 +13238,10 @@ Reaction 1. pH = 0.182 Charge balance pe = 5.645 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 368178 + Specific Conductance (µS/cm, 45°C) = 368059 Density (g/cm³) = 1.00685 Volume (L) = 1.02701 - Viscosity (mPa s) = 0.64306 + Viscosity (mPa s) = 0.64316 Activity of water = 0.969 Ionic strength (mol/kgw) = 8.889e-01 Mass of water (kg) = 1.000e+00 @@ -13312,10 +13312,10 @@ Reaction 1. pH = 0.156 Charge balance pe = 15.954 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 386661 + Specific Conductance (µS/cm, 45°C) = 386534 Density (g/cm³) = 1.00786 Volume (L) = 1.02811 - Viscosity (mPa s) = 0.64598 + Viscosity (mPa s) = 0.64608 Activity of water = 0.967 Ionic strength (mol/kgw) = 9.448e-01 Mass of water (kg) = 1.000e+00 @@ -13386,10 +13386,10 @@ Reaction 1. pH = 0.076 Charge balance pe = 4.925 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 450116 + Specific Conductance (µS/cm, 45°C) = 449955 Density (g/cm³) = 1.01140 Volume (L) = 1.03210 - Viscosity (mPa s) = 0.65624 + Viscosity (mPa s) = 0.65635 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.147e+00 Mass of water (kg) = 1.000e+00 @@ -13460,10 +13460,10 @@ Reaction 1. pH = -0.014 Charge balance pe = 5.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 528485 + Specific Conductance (µS/cm, 45°C) = 528280 Density (g/cm³) = 1.01598 Volume (L) = 1.03753 - Viscosity (mPa s) = 0.66933 + Viscosity (mPa s) = 0.66946 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.419e+00 Mass of water (kg) = 1.000e+00 @@ -13534,10 +13534,10 @@ Reaction 1. pH = -0.051 Charge balance pe = 16.373 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 563783 + Specific Conductance (µS/cm, 45°C) = 563557 Density (g/cm³) = 1.01812 Volume (L) = 1.04016 - Viscosity (mPa s) = 0.67538 + Viscosity (mPa s) = 0.67551 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.551e+00 Mass of water (kg) = 1.000e+00 @@ -13608,10 +13608,10 @@ Reaction 1. pH = -0.109 Charge balance pe = 5.830 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 621712 + Specific Conductance (µS/cm, 45°C) = 621449 Density (g/cm³) = 1.02173 Volume (L) = 1.04479 - Viscosity (mPa s) = 0.68554 + Viscosity (mPa s) = 0.68569 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.781e+00 Mass of water (kg) = 1.000e+00 @@ -13682,10 +13682,10 @@ Reaction 1. pH = -0.163 Charge balance pe = 16.485 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 678545 + Specific Conductance (µS/cm, 45°C) = 678244 Density (g/cm³) = 1.02544 Volume (L) = 1.04971 - Viscosity (mPa s) = 0.69591 + Viscosity (mPa s) = 0.69606 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.025e+00 Mass of water (kg) = 1.000e+00 @@ -13756,10 +13756,10 @@ Reaction 1. pH = -0.167 Charge balance pe = 5.870 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 682787 + Specific Conductance (µS/cm, 45°C) = 682484 Density (g/cm³) = 1.02572 Volume (L) = 1.05010 - Viscosity (mPa s) = 0.69670 + Viscosity (mPa s) = 0.69685 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.044e+00 Mass of water (kg) = 1.000e+00 @@ -13830,10 +13830,10 @@ Reaction 1. pH = -0.183 Charge balance pe = 16.531 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 700427 + Specific Conductance (µS/cm, 45°C) = 700111 Density (g/cm³) = 1.02691 Volume (L) = 1.05173 - Viscosity (mPa s) = 0.70004 + Viscosity (mPa s) = 0.70019 Activity of water = 0.927 Ionic strength (mol/kgw) = 2.125e+00 Mass of water (kg) = 1.000e+00 @@ -13904,10 +13904,10 @@ Reaction 1. pH = -0.197 Charge balance pe = 16.531 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 715428 + Specific Conductance (µS/cm, 45°C) = 715101 Density (g/cm³) = 1.02794 Volume (L) = 1.05315 - Viscosity (mPa s) = 0.70293 + Viscosity (mPa s) = 0.70308 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.195e+00 Mass of water (kg) = 1.000e+00 @@ -13978,10 +13978,10 @@ Reaction 1. pH = -0.221 Charge balance pe = 16.434 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 742643 + Specific Conductance (µS/cm, 45°C) = 742298 Density (g/cm³) = 1.02984 Volume (L) = 1.05583 - Viscosity (mPa s) = 0.70830 + Viscosity (mPa s) = 0.70846 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.327e+00 Mass of water (kg) = 1.000e+00 @@ -14052,10 +14052,10 @@ Reaction 1. pH = -0.233 Charge balance pe = 16.548 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 755237 + Specific Conductance (µS/cm, 45°C) = 754882 Density (g/cm³) = 1.03074 Volume (L) = 1.05712 - Viscosity (mPa s) = 0.71085 + Viscosity (mPa s) = 0.71101 Activity of water = 0.918 Ionic strength (mol/kgw) = 2.390e+00 Mass of water (kg) = 1.000e+00 @@ -14126,10 +14126,10 @@ Reaction 1. pH = -0.284 Charge balance pe = 16.468 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 813319 + Specific Conductance (µS/cm, 45°C) = 812922 Density (g/cm³) = 1.03510 Volume (L) = 1.06346 - Viscosity (mPa s) = 0.72332 + Viscosity (mPa s) = 0.72349 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.700e+00 Mass of water (kg) = 1.000e+00 @@ -14200,10 +14200,10 @@ Reaction 1. pH = -0.314 Charge balance pe = 5.768 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 846843 + Specific Conductance (µS/cm, 45°C) = 846419 Density (g/cm³) = 1.03779 Volume (L) = 1.06749 - Viscosity (mPa s) = 0.73118 + Viscosity (mPa s) = 0.73136 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.897e+00 Mass of water (kg) = 1.000e+00 @@ -14380,10 +14380,10 @@ Reaction 1. pH = 1.748 Charge balance pe = 13.681 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 11443 + Specific Conductance (µS/cm, 55°C) = 11442 Density (g/cm³) = 0.98602 Volume (L) = 1.01493 - Viscosity (mPa s) = 0.50457 + Viscosity (mPa s) = 0.50459 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.023e-02 Mass of water (kg) = 1.000e+00 @@ -14454,10 +14454,10 @@ Reaction 1. pH = 1.587 Charge balance pe = 4.109 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 16775 + Specific Conductance (µS/cm, 55°C) = 16773 Density (g/cm³) = 0.98620 Volume (L) = 1.01511 - Viscosity (mPa s) = 0.50498 + Viscosity (mPa s) = 0.50501 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.983e-02 Mass of water (kg) = 1.000e+00 @@ -14528,10 +14528,10 @@ Reaction 1. pH = 1.373 Charge balance pe = 13.898 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 27873 + Specific Conductance (µS/cm, 55°C) = 27869 Density (g/cm³) = 0.98657 Volume (L) = 1.01548 - Viscosity (mPa s) = 0.50585 + Viscosity (mPa s) = 0.50589 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.004e-02 Mass of water (kg) = 1.000e+00 @@ -14602,10 +14602,10 @@ Reaction 1. pH = 1.209 Charge balance pe = 14.177 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 41083 + Specific Conductance (µS/cm, 55°C) = 41076 Density (g/cm³) = 0.98702 Volume (L) = 1.01593 - Viscosity (mPa s) = 0.50692 + Viscosity (mPa s) = 0.50696 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.444e-02 Mass of water (kg) = 1.000e+00 @@ -14676,10 +14676,10 @@ Reaction 1. pH = 1.007 Charge balance pe = 14.528 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 66159 + Specific Conductance (µS/cm, 55°C) = 66145 Density (g/cm³) = 0.98791 Volume (L) = 1.01682 - Viscosity (mPa s) = 0.50904 + Viscosity (mPa s) = 0.50909 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.217e-01 Mass of water (kg) = 1.000e+00 @@ -14750,10 +14750,10 @@ Reaction 1. pH = 0.933 Charge balance pe = 14.622 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 78624 + Specific Conductance (µS/cm, 55°C) = 78606 Density (g/cm³) = 0.98836 Volume (L) = 1.01727 - Viscosity (mPa s) = 0.51014 + Viscosity (mPa s) = 0.51020 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.457e-01 Mass of water (kg) = 1.000e+00 @@ -14824,10 +14824,10 @@ Reaction 1. pH = 0.755 Charge balance pe = 14.453 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 118210 + Specific Conductance (µS/cm, 55°C) = 118177 Density (g/cm³) = 0.98984 Volume (L) = 1.01874 - Viscosity (mPa s) = 0.51384 + Viscosity (mPa s) = 0.51391 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.240e-01 Mass of water (kg) = 1.000e+00 @@ -14898,10 +14898,10 @@ Reaction 1. pH = 0.076 Charge balance pe = 5.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 485991 + Specific Conductance (µS/cm, 55°C) = 485709 Density (g/cm³) = 1.00683 Volume (L) = 1.03679 - Viscosity (mPa s) = 0.55875 + Viscosity (mPa s) = 0.55890 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.151e+00 Mass of water (kg) = 1.000e+00 @@ -14972,10 +14972,10 @@ Reaction 1. pH = -0.013 Charge balance pe = 5.538 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 569036 + Specific Conductance (µS/cm, 55°C) = 568679 Density (g/cm³) = 1.01139 Volume (L) = 1.04223 - Viscosity (mPa s) = 0.57068 + Viscosity (mPa s) = 0.57085 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.424e+00 Mass of water (kg) = 1.000e+00 @@ -15046,10 +15046,10 @@ Reaction 1. pH = -0.050 Charge balance pe = 15.657 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 606271 + Specific Conductance (µS/cm, 55°C) = 605877 Density (g/cm³) = 1.01353 Volume (L) = 1.04488 - Viscosity (mPa s) = 0.57619 + Viscosity (mPa s) = 0.57637 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.556e+00 Mass of water (kg) = 1.000e+00 @@ -15120,10 +15120,10 @@ Reaction 1. pH = -0.108 Charge balance pe = 5.747 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 667154 + Specific Conductance (µS/cm, 55°C) = 666698 Density (g/cm³) = 1.01714 Volume (L) = 1.04951 - Viscosity (mPa s) = 0.58546 + Viscosity (mPa s) = 0.58566 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.786e+00 Mass of water (kg) = 1.000e+00 @@ -15194,10 +15194,10 @@ Reaction 1. pH = -0.162 Charge balance pe = 15.719 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 726614 + Specific Conductance (µS/cm, 55°C) = 726095 Density (g/cm³) = 1.02083 Volume (L) = 1.05445 - Viscosity (mPa s) = 0.59492 + Viscosity (mPa s) = 0.59513 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.031e+00 Mass of water (kg) = 1.000e+00 @@ -15268,10 +15268,10 @@ Reaction 1. pH = -0.166 Charge balance pe = 5.864 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 731042 + Specific Conductance (µS/cm, 55°C) = 730518 Density (g/cm³) = 1.02112 Volume (L) = 1.05483 - Viscosity (mPa s) = 0.59564 + Viscosity (mPa s) = 0.59585 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.050e+00 Mass of water (kg) = 1.000e+00 @@ -15342,10 +15342,10 @@ Reaction 1. pH = -0.182 Charge balance pe = 15.814 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 749438 + Specific Conductance (µS/cm, 55°C) = 748893 Density (g/cm³) = 1.02230 Volume (L) = 1.05647 - Viscosity (mPa s) = 0.59868 + Viscosity (mPa s) = 0.59890 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.130e+00 Mass of water (kg) = 1.000e+00 @@ -15416,10 +15416,10 @@ Reaction 1. pH = -0.196 Charge balance pe = 15.825 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 765062 + Specific Conductance (µS/cm, 55°C) = 764500 Density (g/cm³) = 1.02333 Volume (L) = 1.05789 - Viscosity (mPa s) = 0.60131 + Viscosity (mPa s) = 0.60153 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.200e+00 Mass of water (kg) = 1.000e+00 @@ -15490,10 +15490,10 @@ Reaction 1. pH = -0.220 Charge balance pe = 15.714 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 793363 + Specific Conductance (µS/cm, 55°C) = 792769 Density (g/cm³) = 1.02524 Volume (L) = 1.06058 - Viscosity (mPa s) = 0.60621 + Viscosity (mPa s) = 0.60643 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.332e+00 Mass of water (kg) = 1.000e+00 @@ -15564,10 +15564,10 @@ Reaction 1. pH = -0.231 Charge balance pe = 15.844 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 806439 + Specific Conductance (µS/cm, 55°C) = 805830 Density (g/cm³) = 1.02614 Volume (L) = 1.06186 - Viscosity (mPa s) = 0.60853 + Viscosity (mPa s) = 0.60876 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.395e+00 Mass of water (kg) = 1.000e+00 @@ -15638,10 +15638,10 @@ Reaction 1. pH = -0.283 Charge balance pe = 16.188 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 866586 + Specific Conductance (µS/cm, 55°C) = 865905 Density (g/cm³) = 1.03049 Volume (L) = 1.06821 - Viscosity (mPa s) = 0.61987 + Viscosity (mPa s) = 0.62011 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.705e+00 Mass of water (kg) = 1.000e+00 @@ -15712,10 +15712,10 @@ Reaction 1. pH = -0.312 Charge balance pe = 5.756 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 901181 + Specific Conductance (µS/cm, 55°C) = 900458 Density (g/cm³) = 1.03319 Volume (L) = 1.07224 - Viscosity (mPa s) = 0.62700 + Viscosity (mPa s) = 0.62725 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.902e+00 Mass of water (kg) = 1.000e+00 @@ -15892,10 +15892,10 @@ Reaction 1. pH = 0.077 Charge balance pe = 5.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 519688 + Specific Conductance (µS/cm, 65°C) = 519255 Density (g/cm³) = 1.00175 Volume (L) = 1.04204 - Viscosity (mPa s) = 0.48293 + Viscosity (mPa s) = 0.48312 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.155e+00 Mass of water (kg) = 1.000e+00 @@ -15966,10 +15966,10 @@ Reaction 1. pH = -0.012 Charge balance pe = 5.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 607303 + Specific Conductance (µS/cm, 65°C) = 606754 Density (g/cm³) = 1.00633 Volume (L) = 1.04748 - Viscosity (mPa s) = 0.49375 + Viscosity (mPa s) = 0.49397 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.428e+00 Mass of water (kg) = 1.000e+00 @@ -16040,10 +16040,10 @@ Reaction 1. pH = -0.049 Charge balance pe = 14.991 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 646453 + Specific Conductance (µS/cm, 65°C) = 645850 Density (g/cm³) = 1.00846 Volume (L) = 1.05012 - Viscosity (mPa s) = 0.49875 + Viscosity (mPa s) = 0.49898 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.561e+00 Mass of water (kg) = 1.000e+00 @@ -16114,10 +16114,10 @@ Reaction 1. pH = -0.107 Charge balance pe = 5.825 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 710287 + Specific Conductance (µS/cm, 65°C) = 709591 Density (g/cm³) = 1.01208 Volume (L) = 1.05475 - Viscosity (mPa s) = 0.50717 + Viscosity (mPa s) = 0.50742 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.791e+00 Mass of water (kg) = 1.000e+00 @@ -16188,10 +16188,10 @@ Reaction 1. pH = -0.160 Charge balance pe = 15.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 772418 + Specific Conductance (µS/cm, 65°C) = 771627 Density (g/cm³) = 1.01579 Volume (L) = 1.05968 - Viscosity (mPa s) = 0.51576 + Viscosity (mPa s) = 0.51602 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.036e+00 Mass of water (kg) = 1.000e+00 @@ -16262,10 +16262,10 @@ Reaction 1. pH = -0.164 Charge balance pe = 5.651 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 777036 + Specific Conductance (µS/cm, 65°C) = 776238 Density (g/cm³) = 1.01608 Volume (L) = 1.06006 - Viscosity (mPa s) = 0.51641 + Viscosity (mPa s) = 0.51668 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.055e+00 Mass of water (kg) = 1.000e+00 @@ -16336,10 +16336,10 @@ Reaction 1. pH = -0.180 Charge balance pe = 15.165 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 796211 + Specific Conductance (µS/cm, 65°C) = 795383 Density (g/cm³) = 1.01727 Volume (L) = 1.06169 - Viscosity (mPa s) = 0.51918 + Viscosity (mPa s) = 0.51944 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.135e+00 Mass of water (kg) = 1.000e+00 @@ -16410,10 +16410,10 @@ Reaction 1. pH = -0.194 Charge balance pe = 15.160 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 812483 + Specific Conductance (µS/cm, 65°C) = 811628 Density (g/cm³) = 1.01830 Volume (L) = 1.06312 - Viscosity (mPa s) = 0.52156 + Viscosity (mPa s) = 0.52184 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.205e+00 Mass of water (kg) = 1.000e+00 @@ -16484,10 +16484,10 @@ Reaction 1. pH = -0.218 Charge balance pe = 15.054 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 841921 + Specific Conductance (µS/cm, 65°C) = 841019 Density (g/cm³) = 1.02022 Volume (L) = 1.06580 - Viscosity (mPa s) = 0.52601 + Viscosity (mPa s) = 0.52629 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.337e+00 Mass of water (kg) = 1.000e+00 @@ -16558,10 +16558,10 @@ Reaction 1. pH = -0.230 Charge balance pe = 15.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 855508 + Specific Conductance (µS/cm, 65°C) = 854584 Density (g/cm³) = 1.02112 Volume (L) = 1.06708 - Viscosity (mPa s) = 0.52812 + Viscosity (mPa s) = 0.52840 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.400e+00 Mass of water (kg) = 1.000e+00 @@ -16632,10 +16632,10 @@ Reaction 1. pH = -0.281 Charge balance pe = 15.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 917887 + Specific Conductance (µS/cm, 65°C) = 916857 Density (g/cm³) = 1.02550 Volume (L) = 1.07341 - Viscosity (mPa s) = 0.53839 + Viscosity (mPa s) = 0.53869 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.710e+00 Mass of water (kg) = 1.000e+00 @@ -16706,10 +16706,10 @@ Reaction 1. pH = -0.310 Charge balance pe = 5.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 953683 + Specific Conductance (µS/cm, 65°C) = 952591 Density (g/cm³) = 1.02820 Volume (L) = 1.07744 - Viscosity (mPa s) = 0.54485 + Viscosity (mPa s) = 0.54516 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.906e+00 Mass of water (kg) = 1.000e+00 @@ -16886,10 +16886,10 @@ Reaction 1. pH = 1.739 Charge balance pe = 12.488 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 13502 + Specific Conductance (µS/cm, 75°C) = 13500 Density (g/cm³) = 0.97520 Volume (L) = 1.02621 - Viscosity (mPa s) = 0.37823 + Viscosity (mPa s) = 0.37826 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.077e-02 Mass of water (kg) = 1.000e+00 @@ -16960,10 +16960,10 @@ Reaction 1. pH = 1.654 Charge balance pe = 12.433 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 16543 + Specific Conductance (µS/cm, 75°C) = 16540 Density (g/cm³) = 0.97529 Volume (L) = 1.02630 - Viscosity (mPa s) = 0.37840 + Viscosity (mPa s) = 0.37844 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.553e-02 Mass of water (kg) = 1.000e+00 @@ -17034,10 +17034,10 @@ Reaction 1. pH = 1.367 Charge balance pe = 12.882 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 32686 + Specific Conductance (µS/cm, 75°C) = 32678 Density (g/cm³) = 0.97577 Volume (L) = 1.02676 - Viscosity (mPa s) = 0.37933 + Viscosity (mPa s) = 0.37938 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.114e-02 Mass of water (kg) = 1.000e+00 @@ -17108,10 +17108,10 @@ Reaction 1. pH = 1.086 Charge balance pe = 4.626 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 63460 + Specific Conductance (µS/cm, 75°C) = 63437 Density (g/cm³) = 0.97672 Volume (L) = 1.02766 - Viscosity (mPa s) = 0.38116 + Viscosity (mPa s) = 0.38123 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.013e-01 Mass of water (kg) = 1.000e+00 @@ -17182,10 +17182,10 @@ Reaction 1. pH = 0.079 Charge balance pe = 5.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 551151 + Specific Conductance (µS/cm, 75°C) = 550532 Density (g/cm³) = 0.99622 Volume (L) = 1.04783 - Viscosity (mPa s) = 0.42278 + Viscosity (mPa s) = 0.42301 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.158e+00 Mass of water (kg) = 1.000e+00 @@ -17256,10 +17256,10 @@ Reaction 1. pH = -0.010 Charge balance pe = 5.548 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 643205 + Specific Conductance (µS/cm, 75°C) = 642423 Density (g/cm³) = 1.00082 Volume (L) = 1.05324 - Viscosity (mPa s) = 0.43259 + Viscosity (mPa s) = 0.43285 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.433e+00 Mass of water (kg) = 1.000e+00 @@ -17330,10 +17330,10 @@ Reaction 1. pH = -0.047 Charge balance pe = 14.363 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 684234 + Specific Conductance (µS/cm, 75°C) = 683375 Density (g/cm³) = 1.00297 Volume (L) = 1.05587 - Viscosity (mPa s) = 0.43712 + Viscosity (mPa s) = 0.43740 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.565e+00 Mass of water (kg) = 1.000e+00 @@ -17404,10 +17404,10 @@ Reaction 1. pH = -0.105 Charge balance pe = 5.572 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 750990 + Specific Conductance (µS/cm, 75°C) = 750001 Density (g/cm³) = 1.00662 Volume (L) = 1.06047 - Viscosity (mPa s) = 0.44476 + Viscosity (mPa s) = 0.44506 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.796e+00 Mass of water (kg) = 1.000e+00 @@ -17478,10 +17478,10 @@ Reaction 1. pH = -0.159 Charge balance pe = 14.420 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 815799 + Specific Conductance (µS/cm, 75°C) = 814677 Density (g/cm³) = 1.01036 Volume (L) = 1.06538 - Viscosity (mPa s) = 0.45256 + Viscosity (mPa s) = 0.45287 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.040e+00 Mass of water (kg) = 1.000e+00 @@ -17552,10 +17552,10 @@ Reaction 1. pH = -0.162 Charge balance pe = 5.836 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 820610 + Specific Conductance (µS/cm, 75°C) = 819478 Density (g/cm³) = 1.01064 Volume (L) = 1.06576 - Viscosity (mPa s) = 0.45316 + Viscosity (mPa s) = 0.45347 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.059e+00 Mass of water (kg) = 1.000e+00 @@ -17626,10 +17626,10 @@ Reaction 1. pH = -0.179 Charge balance pe = 14.528 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 840575 + Specific Conductance (µS/cm, 75°C) = 839402 Density (g/cm³) = 1.01185 Volume (L) = 1.06739 - Viscosity (mPa s) = 0.45566 + Viscosity (mPa s) = 0.45598 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.140e+00 Mass of water (kg) = 1.000e+00 @@ -17700,10 +17700,10 @@ Reaction 1. pH = -0.192 Charge balance pe = 14.537 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 857506 + Specific Conductance (µS/cm, 75°C) = 856296 Density (g/cm³) = 1.01289 Volume (L) = 1.06880 - Viscosity (mPa s) = 0.45783 + Viscosity (mPa s) = 0.45816 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.210e+00 Mass of water (kg) = 1.000e+00 @@ -17774,10 +17774,10 @@ Reaction 1. pH = -0.216 Charge balance pe = 14.443 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 888111 + Specific Conductance (µS/cm, 75°C) = 886835 Density (g/cm³) = 1.01481 Volume (L) = 1.07147 - Viscosity (mPa s) = 0.46187 + Viscosity (mPa s) = 0.46220 Activity of water = 0.919 Ionic strength (mol/kgw) = 2.342e+00 Mass of water (kg) = 1.000e+00 @@ -17848,10 +17848,10 @@ Reaction 1. pH = -0.228 Charge balance pe = 14.551 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 902225 + Specific Conductance (µS/cm, 75°C) = 900918 Density (g/cm³) = 1.01573 Volume (L) = 1.07275 - Viscosity (mPa s) = 0.46378 + Viscosity (mPa s) = 0.46412 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.405e+00 Mass of water (kg) = 1.000e+00 @@ -17922,10 +17922,10 @@ Reaction 1. pH = -0.279 Charge balance pe = 14.412 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 966940 + Specific Conductance (µS/cm, 75°C) = 965488 Density (g/cm³) = 1.02014 Volume (L) = 1.07905 - Viscosity (mPa s) = 0.47311 + Viscosity (mPa s) = 0.47347 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.714e+00 Mass of water (kg) = 1.000e+00 @@ -17996,10 +17996,10 @@ Reaction 1. pH = -0.308 Charge balance pe = 5.727 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 1004020 + Specific Conductance (µS/cm, 75°C) = 1002482 Density (g/cm³) = 1.02287 Volume (L) = 1.08306 - Viscosity (mPa s) = 0.47896 + Viscosity (mPa s) = 0.47933 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.910e+00 Mass of water (kg) = 1.000e+00 @@ -18546,7 +18546,7 @@ Reaction 1. pH = -0.627 Charge balance pe = 18.595 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1018068 + Specific Conductance (µS/cm, 25°C) = 1018069 Density (g/cm³) = 1.08955 Volume (L) = 1.11917 Viscosity (mPa s) = 1.20418 @@ -18726,10 +18726,10 @@ Reaction 1. pH = 1.095 Charge balance pe = 11.740 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 70603 + Specific Conductance (µS/cm, 100°C) = 70557 Density (g/cm³) = 0.96498 Volume (L) = 1.04012 - Viscosity (mPa s) = 0.28733 + Viscosity (mPa s) = 0.28742 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 1.000e+00 @@ -18800,10 +18800,10 @@ Reaction 1. pH = 0.816 Charge balance pe = 4.823 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 134744 + Specific Conductance (µS/cm, 100°C) = 134620 Density (g/cm³) = 0.96692 Volume (L) = 1.04180 - Viscosity (mPa s) = 0.29032 + Viscosity (mPa s) = 0.29045 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -18874,10 +18874,10 @@ Reaction 1. pH = 0.442 Charge balance pe = 5.286 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 306983 + Specific Conductance (µS/cm, 100°C) = 306550 Density (g/cm³) = 0.97269 Volume (L) = 1.04701 - Viscosity (mPa s) = 0.29974 + Viscosity (mPa s) = 0.29995 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.899e-01 Mass of water (kg) = 1.000e+00 @@ -18948,10 +18948,10 @@ Reaction 1. pH = 0.146 Charge balance pe = 12.675 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 550160 + Specific Conductance (µS/cm, 100°C) = 549118 Density (g/cm³) = 0.98230 Volume (L) = 1.05644 - Viscosity (mPa s) = 0.31592 + Viscosity (mPa s) = 0.31622 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -19022,10 +19022,10 @@ Reaction 1. pH = -0.307 Charge balance pe = 12.960 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1119782 + Specific Conductance (µS/cm, 100°C) = 1116749 Density (g/cm³) = 1.01325 Volume (L) = 1.09455 - Viscosity (mPa s) = 0.36671 + Viscosity (mPa s) = 0.36722 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.951e+00 Mass of water (kg) = 1.000e+00 @@ -19096,10 +19096,10 @@ Reaction 1. pH = -0.608 Charge balance pe = 13.621 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1435266 + Specific Conductance (µS/cm, 100°C) = 1430899 Density (g/cm³) = 1.05322 Volume (L) = 1.15777 - Viscosity (mPa s) = 0.44130 + Viscosity (mPa s) = 0.44204 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.008e+00 Mass of water (kg) = 1.000e+00 @@ -19276,10 +19276,10 @@ Reaction 1. pH = 1.113 Charge balance pe = 9.145 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 81164 + Specific Conductance (µS/cm, 175°C) = 80990 Density (g/cm³) = 0.90030 Volume (L) = 1.11484 - Viscosity (mPa s) = 0.15869 + Viscosity (mPa s) = 0.15887 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.006e-01 Mass of water (kg) = 1.000e+00 @@ -19350,10 +19350,10 @@ Reaction 1. pH = 0.836 Charge balance pe = 9.582 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 155338 + Specific Conductance (µS/cm, 175°C) = 154873 Density (g/cm³) = 0.90287 Volume (L) = 1.11571 - Viscosity (mPa s) = 0.16043 + Viscosity (mPa s) = 0.16068 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.992e-01 Mass of water (kg) = 1.000e+00 @@ -19424,10 +19424,10 @@ Reaction 1. pH = 0.462 Charge balance pe = 10.095 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 357642 + Specific Conductance (µS/cm, 175°C) = 356009 Density (g/cm³) = 0.91032 Volume (L) = 1.11876 - Viscosity (mPa s) = 0.16573 + Viscosity (mPa s) = 0.16613 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.972e-01 Mass of water (kg) = 1.000e+00 @@ -19498,10 +19498,10 @@ Reaction 1. pH = 0.168 Charge balance pe = 10.301 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 649477 + Specific Conductance (µS/cm, 175°C) = 645505 Density (g/cm³) = 0.92238 Volume (L) = 1.12506 - Viscosity (mPa s) = 0.17474 + Viscosity (mPa s) = 0.17531 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.017e+00 Mass of water (kg) = 1.000e+00 @@ -19572,10 +19572,10 @@ Reaction 1. pH = -0.279 Charge balance pe = 10.774 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1338712 + Specific Conductance (µS/cm, 175°C) = 1327300 Density (g/cm³) = 0.95991 Volume (L) = 1.15537 - Viscosity (mPa s) = 0.20431 + Viscosity (mPa s) = 0.20527 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.971e+00 Mass of water (kg) = 1.000e+00 @@ -19646,10 +19646,10 @@ Reaction 1. pH = -0.576 Charge balance pe = 11.222 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1742167 + Specific Conductance (µS/cm, 175°C) = 1725955 Density (g/cm³) = 1.00351 Volume (L) = 1.21513 - Viscosity (mPa s) = 0.24812 + Viscosity (mPa s) = 0.24950 Activity of water = 0.795 Ionic strength (mol/kgw) = 6.013e+00 Mass of water (kg) = 1.000e+00 @@ -19826,10 +19826,10 @@ Reaction 1. pH = 1.143 Charge balance pe = 7.587 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 76798 + Specific Conductance (µS/cm, 250°C) = 76429 Density (g/cm³) = 0.81051 Volume (L) = 1.23835 - Viscosity (mPa s) = 0.10943 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10971 (solute contributions limited to 200 °C) Activity of water = 0.997 Ionic strength (mol/kgw) = 1.010e-01 Mass of water (kg) = 1.000e+00 @@ -19900,10 +19900,10 @@ Reaction 1. pH = 0.870 Charge balance pe = 7.808 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 148172 + Specific Conductance (µS/cm, 250°C) = 147180 Density (g/cm³) = 0.81492 Volume (L) = 1.23612 - Viscosity (mPa s) = 0.11064 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11104 (solute contributions limited to 200 °C) Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -19974,10 +19974,10 @@ Reaction 1. pH = 0.500 Charge balance pe = 8.210 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 349275 + Specific Conductance (µS/cm, 250°C) = 345721 Density (g/cm³) = 0.82745 Volume (L) = 1.23079 - Viscosity (mPa s) = 0.11421 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11484 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.016e-01 Mass of water (kg) = 1.000e+00 @@ -20048,10 +20048,10 @@ Reaction 1. pH = 0.208 Charge balance pe = 8.522 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 654897 + Specific Conductance (µS/cm, 250°C) = 645990 Density (g/cm³) = 0.84718 Volume (L) = 1.22493 - Viscosity (mPa s) = 0.12022 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12113 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 1.027e+00 Mass of water (kg) = 1.000e+00 @@ -20122,10 +20122,10 @@ Reaction 1. pH = -0.232 Charge balance pe = 8.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1432113 + Specific Conductance (µS/cm, 250°C) = 1405447 Density (g/cm³) = 0.90396 Volume (L) = 1.22689 - Viscosity (mPa s) = 0.14090 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14245 (solute contributions limited to 200 °C) Activity of water = 0.898 Ionic strength (mol/kgw) = 2.983e+00 Mass of water (kg) = 1.000e+00 @@ -20196,10 +20196,10 @@ Reaction 1. pH = -0.526 Charge balance pe = 9.432 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1920885 + Specific Conductance (µS/cm, 250°C) = 1882570 Density (g/cm³) = 0.95416 Volume (L) = 1.27796 - Viscosity (mPa s) = 0.17207 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.17427 (solute contributions limited to 200 °C) Activity of water = 0.795 Ionic strength (mol/kgw) = 6.015e+00 Mass of water (kg) = 1.000e+00 @@ -20376,10 +20376,10 @@ Reaction 1. pH = 1.180 Charge balance pe = 6.333 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 68553 + Specific Conductance (µS/cm, 300°C) = 68030 Density (g/cm³) = 0.72465 Volume (L) = 1.38507 - Viscosity (mPa s) = 0.08770 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08808 (solute contributions limited to 200 °C) Activity of water = 0.997 Ionic strength (mol/kgw) = 1.011e-01 Mass of water (kg) = 1.000e+00 @@ -20450,10 +20450,10 @@ Reaction 1. pH = 0.911 Charge balance pe = 6.557 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 134382 + Specific Conductance (µS/cm, 300°C) = 132958 Density (g/cm³) = 0.73319 Volume (L) = 1.37390 - Viscosity (mPa s) = 0.08870 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08923 (solute contributions limited to 200 °C) Activity of water = 0.993 Ionic strength (mol/kgw) = 2.008e-01 Mass of water (kg) = 1.000e+00 @@ -20524,10 +20524,10 @@ Reaction 1. pH = 0.548 Charge balance pe = 6.958 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 330244 + Specific Conductance (µS/cm, 300°C) = 324944 Density (g/cm³) = 0.75750 Volume (L) = 1.34445 - Viscosity (mPa s) = 0.09158 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09241 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.036e-01 Mass of water (kg) = 1.000e+00 @@ -20598,10 +20598,10 @@ Reaction 1. pH = 0.260 Charge balance pe = 7.263 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 656379 + Specific Conductance (µS/cm, 300°C) = 642362 Density (g/cm³) = 0.79585 Volume (L) = 1.30394 - Viscosity (mPa s) = 0.09640 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09759 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 1.032e+00 Mass of water (kg) = 1.000e+00 @@ -20672,10 +20672,10 @@ Reaction 1. pH = -0.175 Charge balance pe = 7.777 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 1629316 + Specific Conductance (µS/cm, 300°C) = 1582259 Density (g/cm³) = 0.90192 Volume (L) = 1.22966 - Viscosity (mPa s) = 0.11336 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11538 (solute contributions limited to 200 °C) Activity of water = 0.898 Ionic strength (mol/kgw) = 2.987e+00 Mass of water (kg) = 1.000e+00 @@ -21402,10 +21402,10 @@ Reaction 1. pH = 1.095 Charge balance pe = 11.737 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 70460 + Specific Conductance (µS/cm, 100°C) = 70414 Density (g/cm³) = 0.97306 Volume (L) = 1.03149 - Viscosity (mPa s) = 0.29222 + Viscosity (mPa s) = 0.29232 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 1.000e+00 @@ -21476,10 +21476,10 @@ Reaction 1. pH = 0.816 Charge balance pe = 4.799 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 134282 + Specific Conductance (µS/cm, 100°C) = 134158 Density (g/cm³) = 0.97499 Volume (L) = 1.03318 - Viscosity (mPa s) = 0.29530 + Viscosity (mPa s) = 0.29544 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.970e-01 Mass of water (kg) = 1.000e+00 @@ -21550,10 +21550,10 @@ Reaction 1. pH = 0.442 Charge balance pe = 5.258 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 304977 + Specific Conductance (µS/cm, 100°C) = 304551 Density (g/cm³) = 0.98076 Volume (L) = 1.03840 - Viscosity (mPa s) = 0.30507 + Viscosity (mPa s) = 0.30528 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.882e-01 Mass of water (kg) = 1.000e+00 @@ -21624,10 +21624,10 @@ Reaction 1. pH = 0.146 Charge balance pe = 12.670 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 544861 + Specific Conductance (µS/cm, 100°C) = 543838 Density (g/cm³) = 0.99038 Volume (L) = 1.04782 - Viscosity (mPa s) = 0.32187 + Viscosity (mPa s) = 0.32217 Activity of water = 0.965 Ionic strength (mol/kgw) = 9.962e-01 Mass of water (kg) = 1.000e+00 @@ -21698,10 +21698,10 @@ Reaction 1. pH = -0.308 Charge balance pe = 13.007 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1109459 + Specific Conductance (µS/cm, 100°C) = 1106478 Density (g/cm³) = 1.02134 Volume (L) = 1.08588 - Viscosity (mPa s) = 0.37379 + Viscosity (mPa s) = 0.37431 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.945e+00 Mass of water (kg) = 1.000e+00 @@ -21772,10 +21772,10 @@ Reaction 1. pH = -0.610 Charge balance pe = 13.616 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1425850 + Specific Conductance (µS/cm, 100°C) = 1421536 Density (g/cm³) = 1.06148 Volume (L) = 1.14876 - Viscosity (mPa s) = 0.44937 + Viscosity (mPa s) = 0.45012 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.007e+00 Mass of water (kg) = 1.000e+00 @@ -21952,10 +21952,10 @@ Reaction 1. pH = 1.111 Charge balance pe = 9.147 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 80792 + Specific Conductance (µS/cm, 175°C) = 80620 Density (g/cm³) = 0.91099 Volume (L) = 1.10176 - Viscosity (mPa s) = 0.16309 + Viscosity (mPa s) = 0.16327 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.006e-01 Mass of water (kg) = 1.000e+00 @@ -22026,10 +22026,10 @@ Reaction 1. pH = 0.833 Charge balance pe = 9.584 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 154472 + Specific Conductance (µS/cm, 175°C) = 154014 Density (g/cm³) = 0.91348 Volume (L) = 1.10275 - Viscosity (mPa s) = 0.16488 + Viscosity (mPa s) = 0.16514 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.991e-01 Mass of water (kg) = 1.000e+00 @@ -22100,10 +22100,10 @@ Reaction 1. pH = 0.460 Charge balance pe = 10.097 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 354853 + Specific Conductance (µS/cm, 175°C) = 353247 Density (g/cm³) = 0.92071 Volume (L) = 1.10613 - Viscosity (mPa s) = 0.17037 + Viscosity (mPa s) = 0.17077 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.966e-01 Mass of water (kg) = 1.000e+00 @@ -22174,10 +22174,10 @@ Reaction 1. pH = 0.165 Charge balance pe = 10.304 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 642736 + Specific Conductance (µS/cm, 175°C) = 638841 Density (g/cm³) = 0.93247 Volume (L) = 1.11289 - Viscosity (mPa s) = 0.17972 + Viscosity (mPa s) = 0.18030 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.016e+00 Mass of water (kg) = 1.000e+00 @@ -22248,10 +22248,10 @@ Reaction 1. pH = -0.282 Charge balance pe = 10.777 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1321323 + Specific Conductance (µS/cm, 175°C) = 1310157 Density (g/cm³) = 0.96934 Volume (L) = 1.14413 - Viscosity (mPa s) = 0.21017 + Viscosity (mPa s) = 0.21116 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.969e+00 Mass of water (kg) = 1.000e+00 @@ -22322,10 +22322,10 @@ Reaction 1. pH = -0.580 Charge balance pe = 11.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 1719838 + Specific Conductance (µS/cm, 175°C) = 1703948 Density (g/cm³) = 1.01304 Volume (L) = 1.20369 - Viscosity (mPa s) = 0.25509 + Viscosity (mPa s) = 0.25649 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.012e+00 Mass of water (kg) = 1.000e+00 @@ -22502,10 +22502,10 @@ Reaction 1. pH = 1.138 Charge balance pe = 7.594 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 76817 + Specific Conductance (µS/cm, 250°C) = 76454 Density (g/cm³) = 0.82818 Volume (L) = 1.21193 - Viscosity (mPa s) = 0.11420 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11450 (solute contributions limited to 200 °C) Activity of water = 0.997 Ionic strength (mol/kgw) = 1.010e-01 Mass of water (kg) = 1.000e+00 @@ -22576,10 +22576,10 @@ Reaction 1. pH = 0.863 Charge balance pe = 7.815 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 147918 + Specific Conductance (µS/cm, 250°C) = 146945 Density (g/cm³) = 0.83214 Volume (L) = 1.21054 - Viscosity (mPa s) = 0.11546 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11588 (solute contributions limited to 200 °C) Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -22650,10 +22650,10 @@ Reaction 1. pH = 0.493 Charge balance pe = 8.218 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 347023 + Specific Conductance (µS/cm, 250°C) = 343547 Density (g/cm³) = 0.84342 Volume (L) = 1.20749 - Viscosity (mPa s) = 0.11919 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11984 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.015e-01 Mass of water (kg) = 1.000e+00 @@ -22724,10 +22724,10 @@ Reaction 1. pH = 0.201 Charge balance pe = 8.530 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 646464 + Specific Conductance (µS/cm, 250°C) = 637807 Density (g/cm³) = 0.86123 Volume (L) = 1.20495 - Viscosity (mPa s) = 0.12546 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12640 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 1.027e+00 Mass of water (kg) = 1.000e+00 @@ -22798,10 +22798,10 @@ Reaction 1. pH = -0.241 Charge balance pe = 8.993 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1393790 + Specific Conductance (µS/cm, 250°C) = 1368220 Density (g/cm³) = 0.91315 Volume (L) = 1.21454 - Viscosity (mPa s) = 0.14705 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14864 (solute contributions limited to 200 °C) Activity of water = 0.898 Ionic strength (mol/kgw) = 2.982e+00 Mass of water (kg) = 1.000e+00 @@ -22872,10 +22872,10 @@ Reaction 1. pH = -0.535 Charge balance pe = 9.441 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 250°C) = 1860682 + Specific Conductance (µS/cm, 250°C) = 1824084 Density (g/cm³) = 0.96188 Volume (L) = 1.26771 - Viscosity (mPa s) = 0.17952 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.18178 (solute contributions limited to 200 °C) Activity of water = 0.795 Ionic strength (mol/kgw) = 6.015e+00 Mass of water (kg) = 1.000e+00 @@ -22984,7 +22984,7 @@ Reaction 1. Specific Conductance (µS/cm, 300°C) = 2 Density (g/cm³) = 0.74732 Volume (L) = 1.33811 - Viscosity (mPa s) = 0.09258 + Viscosity (mPa s) = 0.09259 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.941e-06 Mass of water (kg) = 1.000e+00 @@ -23052,10 +23052,10 @@ Reaction 1. pH = 1.166 Charge balance pe = 6.351 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 69419 + Specific Conductance (µS/cm, 300°C) = 68907 Density (g/cm³) = 0.75448 Volume (L) = 1.33031 - Viscosity (mPa s) = 0.09389 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09427 (solute contributions limited to 200 °C) Activity of water = 0.997 Ionic strength (mol/kgw) = 1.012e-01 Mass of water (kg) = 1.000e+00 @@ -23126,10 +23126,10 @@ Reaction 1. pH = 0.896 Charge balance pe = 6.575 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 135117 + Specific Conductance (µS/cm, 300°C) = 133732 Density (g/cm³) = 0.76113 Volume (L) = 1.32349 - Viscosity (mPa s) = 0.09495 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09549 (solute contributions limited to 200 °C) Activity of water = 0.993 Ionic strength (mol/kgw) = 2.009e-01 Mass of water (kg) = 1.000e+00 @@ -23200,10 +23200,10 @@ Reaction 1. pH = 0.530 Charge balance pe = 6.977 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 326098 + Specific Conductance (µS/cm, 300°C) = 321026 Density (g/cm³) = 0.77995 Volume (L) = 1.30575 - Viscosity (mPa s) = 0.09801 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09886 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.036e-01 Mass of water (kg) = 1.000e+00 @@ -23274,10 +23274,10 @@ Reaction 1. pH = 0.240 Charge balance pe = 7.282 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 631501 + Specific Conductance (µS/cm, 300°C) = 618418 Density (g/cm³) = 0.80939 Volume (L) = 1.28212 - Viscosity (mPa s) = 0.10314 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10437 (solute contributions limited to 200 °C) Activity of water = 0.965 Ionic strength (mol/kgw) = 1.032e+00 Mass of water (kg) = 1.000e+00 @@ -23348,10 +23348,10 @@ Reaction 1. pH = -0.196 Charge balance pe = 7.824 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 1475334 + Specific Conductance (µS/cm, 300°C) = 1433947 Density (g/cm³) = 0.89065 Volume (L) = 1.24522 - Viscosity (mPa s) = 0.12120 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12330 (solute contributions limited to 200 °C) Activity of water = 0.898 Ionic strength (mol/kgw) = 2.987e+00 Mass of water (kg) = 1.000e+00 @@ -23422,10 +23422,10 @@ Reaction 1. pH = -0.488 Charge balance pe = 8.207 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 2004600 + Specific Conductance (µS/cm, 300°C) = 1944920 Density (g/cm³) = 0.94329 Volume (L) = 1.29270 - Viscosity (mPa s) = 0.14861 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15159 (solute contributions limited to 200 °C) Activity of water = 0.795 Ionic strength (mol/kgw) = 6.016e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_HCl_sol_101.sel b/mytest/Vm_HCl_sol_101.sel index 6af686c4..d63c4d72 100644 --- a/mytest/Vm_HCl_sol_101.sel +++ b/mytest/Vm_HCl_sol_101.sel @@ -1,310 +1,310 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164526030 - 0.090818557979 25908.5919298603 - 0.187532041619 52716.1453724704 - 0.278434926449 77308.3912069081 - 0.368845600413 101209.8338884956 - 0.407068395922 111152.0129720989 - 0.484969414110 131124.6759901142 - 0.563889197281 150974.0853367639 - 0.641433299505 170116.4562306369 - 0.721237213376 189460.1083375541 - 0.798882739225 207949.9516520968 - 0.000000067373 0.0312876270 - 0.010019933882 3546.9547710502 - 0.020206359050 7109.0273374477 - 0.029775364594 10433.2900139432 - 0.049892425759 17369.4882410651 - 0.074145767424 25652.6978597771 - 0.090939874277 31342.8074347812 - 0.098055027134 33742.8299692495 - 0.121043703484 41454.9300318611 - 0.144774940147 49350.0755602391 - 0.187955024094 63548.1170946555 - 0.222065285073 74614.1778067421 - 0.279237900942 92871.9379665900 - 0.370064441916 121148.7724196426 - 0.408500456757 132853.4133878820 - 0.486810094449 156235.9579512122 - 0.566189185307 179325.1751621124 - 0.644110977777 201419.1376707723 - 0.724325876926 223602.2031893066 - 0.802368657895 244667.0982766576 + 0.000000043183 0.0164526034 + 0.090818557979 25910.5580396959 + 0.187532041619 52721.8918624558 + 0.278434926449 77318.6414378626 + 0.368845600413 101225.2412408013 + 0.407068395922 111169.7684097840 + 0.484969414110 131147.4811655214 + 0.563889197281 151002.3231196393 + 0.641433299505 170150.3002552287 + 0.721237213376 189499.9647098923 + 0.798882739225 207995.8666936801 + 0.000000067373 0.0312876275 + 0.010019933882 3547.0040080155 + 0.020206359050 7109.1676512472 + 0.029775364594 10433.5401688099 + 0.049892425759 17370.0277800249 + 0.074145767424 25653.6695751565 + 0.090939874277 31344.1222592980 + 0.098055027134 33744.2997247065 + 0.121043703484 41456.9355885119 + 0.144774940147 49352.6852958004 + 0.187955024094 63551.9412107719 + 0.222065285073 74619.0521980944 + 0.279237900942 92878.7250381505 + 0.370064441916 121158.9201234054 + 0.408500456757 132865.0819441654 + 0.486810094449 156250.8751103609 + 0.566189185307 179343.5592860405 + 0.644110977777 201441.0660375976 + 0.724325876926 223627.9018953837 + 0.802368657895 244696.5652905557 0.000000100644 0.0547765031 - 0.010021819205 4141.8683567115 - 0.020213552394 8297.3402911246 - 0.029790290381 12172.8822825664 - 0.039627607832 16130.2400002568 - 0.049931293735 20252.5478670542 - 0.056928124921 23039.5966905895 - 0.074225614889 29889.8430707086 - 0.078405824626 31537.1216740459 - 0.097103466347 38867.7204361162 - 0.098186451056 39290.4711178132 - 0.113435775685 45222.1601290547 - 0.121233819996 48240.4769691230 - 0.122820757207 48853.4906837151 - 0.134874605317 53496.2953583677 - 0.144612539696 57229.8578904620 - 0.145033866452 57391.0512705178 - 0.148259787374 58624.2965014313 - 0.192378462764 75324.7082639108 - 0.195143363019 76361.1356337059 - 0.210564212554 82119.9003882026 - 0.214535442182 83596.9635126265 - 0.222595160573 86587.2421478730 - 0.247456645108 95748.6411771647 - 0.249325668629 96433.5731985469 - 0.293144802435 112341.2796460029 - 0.304328379484 116355.4628756955 - 0.329361225941 125274.0373137579 - 0.359844075799 136011.4356716169 - 0.362364539661 136893.2765176284 - 0.362277470612 136862.8285804221 - 0.362360794754 136891.9669395210 - 0.382127182380 143776.3452353634 - 0.473756120866 174979.1696795149 - 0.535699705033 195434.4047188596 - 0.565915202448 205232.7488697185 - 0.576344009404 208587.9352105500 - 0.581162120540 210133.4567729501 - 0.601288297573 216558.3880911664 - 0.600334594972 216255.0581549512 - 0.658575203657 234577.6709650957 - 0.659763133331 234947.2005658066 - 0.749626395650 262432.4343245007 - 0.755228596930 264116.0060310064 - 0.842868878439 290017.4466392943 - 0.848638565174 291694.5780783081 - 0.850297307500 292176.1148124999 - 0.914812459369 310691.9255258802 - 0.914992124765 310742.9188078128 - 0.965565831760 324974.4687737630 - 1.091507352184 359398.2967026595 - 1.137939873569 371742.6152978922 - 1.208015335815 390037.3123528124 - 1.409020957497 440417.8506758378 - 1.540382649241 471782.7731897383 - 1.769821976575 523848.2841379089 - 1.872717396485 546134.3993723115 - 1.880373333523 547767.1069193704 - 2.013728656975 575650.2401123001 - 2.032766695058 579545.9415418649 - 2.113269669364 595787.5218925916 - 2.145233710775 602133.1193795439 - 2.183510384954 609655.2755755734 - 2.315435621021 634946.3413023767 - 2.378586187854 646707.3178320356 - 2.441528228617 658208.7460240837 - 2.689708967098 701434.9935758368 - 2.886901782360 733400.4536623484 - 2.945435761037 742489.7668502892 - 2.992668930215 749692.4867104833 - 3.125692191800 769351.2416666867 - 3.283965969850 791555.8278346088 - 3.802879762310 855725.3332219031 - 4.174966532835 894196.2021574539 - 4.174633685877 894164.3907398545 - 4.477089628034 921272.1154886251 - 4.597739260404 931124.7140900247 - 4.783010483456 945256.5711701202 - 4.782891496549 945247.8700777824 - 4.883591615641 952444.8662341917 - 5.091268401830 966268.4140042362 - 5.091236929458 966266.4194113971 - 5.293200840995 978466.9973497393 - 5.402674459211 984597.0014475294 - 5.402400001268 984582.0434256669 - 5.716479439620 1000409.1084446673 - 5.716453140664 1000407.8878784985 - 5.991473599094 1012269.8064863271 - 6.033493887486 1013927.9310148369 - 6.353842512347 1025300.5477189586 - 6.615294914892 1033004.4774433471 - 6.704225965136 1035318.2343445726 - 6.724985275276 1035836.5250352259 - 6.827300952055 1038272.1275820428 - 6.955973048818 1041059.2260370047 - 7.033888519084 1042600.4432522437 - 7.366746700570 1047980.6557942616 - 7.610888771479 1050732.3138638099 - 7.703329216001 1051519.9164910200 - 8.044110965717 1053259.3771554963 - 8.388163501512 1053231.7838910581 - 8.444158665320 1053064.2690869423 - 8.737440576494 1051469.2498507299 - 9.090597056778 1048012.7246045653 - 9.293367149781 1045308.2275025868 - 9.446737220899 1042929.6992952193 - 9.809250597875 1036224.2467490562 - 0.000000144671 0.0896960789 - 0.010023594828 4703.4603613694 - 0.029804374012 13813.1320354510 - 0.049968018503 22969.4889808876 - 0.098310924470 44515.1731504194 - 0.121414041364 54629.9171580269 - 0.145279511387 64961.5687000854 - 0.223098852216 97856.0178786505 - 0.494315270703 203680.7473268034 - 0.584834262127 236214.7350639025 - 0.681472001255 269568.8737916852 - 0.784809938429 303774.1026367885 - 0.978953616914 364355.2250673448 - 1.142446764345 412067.2077858875 - 1.414304221989 485656.3612956285 - 1.545936011585 519000.2533374983 - 1.775687381638 573991.6936873639 - 2.019723715966 628268.0913385012 - 2.038763989502 632332.4769085384 - 2.119265143407 649251.2659596601 - 2.189489950263 663664.0062294287 - 2.321352492655 689870.1864930454 - 2.384459299050 702021.9927188619 - 2.695261093146 758275.4405716428 - 2.892181893975 790903.7592650843 - 0.000000200960 0.1389108065 - 0.020226725197 10467.9768934795 - 0.029817654003 15348.5775776763 - 0.050002687950 25511.7147858832 - 0.074372554972 37615.3014185232 - 0.098428674785 49402.5243960674 - 0.121584660401 60606.9161535564 - 0.145512230154 72043.8903599245 - 0.223576866385 108402.2865505205 - 0.585005030130 259516.1878409213 - 0.689465151471 298539.9435028623 - 0.798776947328 337458.2451975500 - 0.888869091715 368178.0327664464 - 0.944758563112 386661.6046704946 - 1.146722155522 450116.6714187385 - 1.419305637938 528485.9376065235 - 1.551187930982 563783.6977277698 - 1.781225512233 621712.5723575079 - 2.025375940773 678545.5463748680 - 2.044417813460 682787.8462879480 - 2.124914931952 700427.0918309645 - 2.195122884201 715428.0491208320 - 2.326923273513 742643.8056778982 - 2.389987568384 755237.5378313654 - 2.700482492071 813319.8187372929 - 2.897145672937 846843.1685488443 - 0.000000270724 0.2051267000 - 0.020232744125 11443.8013479690 - 0.029830168413 16775.3907890429 - 0.050035390844 27873.1593541496 - 0.074439967069 41083.3418959034 - 0.121745995791 66159.3977254103 - 0.145732419609 78624.6012591023 - 0.224029826796 118210.5840698742 - 1.150769381887 485991.0531270254 - 1.424030432386 569036.7666947691 - 1.556144558310 606271.9370083357 - 1.786444144882 667154.2053736369 - 2.030694626986 726614.9528237339 - 2.049737447733 731042.8342617480 - 2.130228658370 749438.1433796755 - 2.200419053413 765062.4289111809 - 2.332158171650 793363.3568660471 - 2.395181340487 806439.4522684641 - 2.705383717301 866586.1856976933 - 2.901803407408 901181.9152320222 - 0.000000354775 0.2906196947 - 1.154593258199 519688.9172335894 - 1.428485498028 607303.3916541495 - 1.560813842698 646453.4203630189 - 1.791352860566 710287.3764674539 - 2.035690686481 772418.4449109505 - 2.054733926208 777036.9198803569 - 2.135217703866 796211.9944363403 - 2.205390097242 812483.4695984320 - 2.337069175836 841921.9162339376 - 2.400052677127 855508.7105227754 - 2.709976795998 917887.4764132319 - 2.906166778908 953683.1369595657 - 0.000000453436 0.3969680115 - 0.020769996792 13502.3866013106 - 0.025532499143 16543.7310940674 - 0.051139839269 32686.7882206738 - 0.101253328857 63460.6527772837 - 1.158199731310 551151.6104360067 - 1.432679007296 643205.2242886422 - 1.565205005697 684234.2225276054 - 1.795962512786 750990.5398292805 - 2.040376255387 815799.2074043887 - 2.059419473894 820610.2955474155 - 2.139894567664 840575.7724115734 - 2.210048705984 857506.3995623670 - 2.341669254443 888111.1647006001 - 2.404614657044 902225.2011227222 - 2.714274694749 966940.7801183772 - 2.910248344882 1004020.5393300110 + 0.010021819205 4141.8684073854 + 0.020213552394 8297.3404354701 + 0.029790290381 12172.8825398182 + 0.039627607832 16130.2403935744 + 0.049931293735 20252.5484215149 + 0.056928124921 23039.5973641488 + 0.074225614889 29889.8440684716 + 0.078405824626 31537.1227559897 + 0.097103466347 38867.7219195726 + 0.098186451056 39290.4726257069 + 0.113435775685 45222.1619937565 + 0.121233819996 48240.4790250200 + 0.122820757207 48853.4927792108 + 0.134874605317 53496.2977619586 + 0.144612539696 57229.8605520144 + 0.145033866452 57391.0539434072 + 0.148259787374 58624.2992615956 + 0.192378462764 75324.7122955739 + 0.195143363019 76361.1397495347 + 0.210564212554 82119.9049823102 + 0.214535442182 83596.9682322613 + 0.222595160573 86587.2471251315 + 0.247456645108 95748.6469721374 + 0.249325668629 96433.5790563378 + 0.293144802435 112341.2870259628 + 0.304328379484 116355.4706583273 + 0.329361225941 125274.0460167451 + 0.359844075799 136011.4455283010 + 0.362364539661 136893.2864712246 + 0.362277470612 136862.8385306667 + 0.362360794754 136891.9768929730 + 0.382127182380 143776.3559564280 + 0.473756120866 174979.1841153697 + 0.535699705033 195434.4217882458 + 0.565915202448 205232.7672533973 + 0.576344009404 208587.9540519342 + 0.581162120540 210133.4758264709 + 0.601288297573 216558.4080352908 + 0.600334594972 216255.0780567142 + 0.658575203657 234577.6934807402 + 0.659763133331 234947.2231353058 + 0.749626395650 262432.4610223282 + 0.755228596930 264116.0329894460 + 0.842868878439 290017.4777165236 + 0.848638565174 291694.6094292062 + 0.850297307500 292176.1462421283 + 0.914812459369 310691.9600346598 + 0.914992124765 310742.9533252110 + 0.965565831760 324974.5057257804 + 1.091507352184 359398.3397805862 + 1.137939873569 371742.6606524469 + 1.208015335815 390037.3611573216 + 1.409020957497 440417.9094387735 + 1.540382649241 471782.8384832726 + 1.769821976575 523848.3608175538 + 1.872717396485 546134.4811301515 + 1.880373333523 547767.1890540151 + 2.013728656975 575650.3287819247 + 2.032766695058 579546.0311395166 + 2.113269669364 595787.6153987360 + 2.145233710775 602133.2144299981 + 2.183510384954 609655.3724692125 + 2.315435621021 634946.4444927956 + 2.378586187854 646707.4240028611 + 2.441528228617 658208.8551416117 + 2.689708967098 701435.1140521320 + 2.886901782360 733400.5828286706 + 2.945435761037 742489.8985331057 + 2.992668930215 749692.6204018886 + 3.125692191800 769351.3809056241 + 3.283965969850 791555.9734560192 + 3.802879762310 855725.4980101667 + 4.174966532835 894196.3789878723 + 4.174633685877 894164.5675601307 + 4.477089628034 921272.3010708902 + 4.597739260404 931124.9029192716 + 4.783010483456 945256.7647197283 + 4.782891496549 945248.0636244596 + 4.883591615641 952445.0622152360 + 5.091268401830 966268.6147236718 + 5.091236929458 966266.6201301427 + 5.293200840995 978467.2023257879 + 5.402674459211 984597.2085922575 + 5.402400001268 984582.2505650774 + 5.716479439620 1000409.3212893355 + 5.716453140664 1000408.1007227201 + 5.991473599094 1012270.0237272988 + 6.033493887486 1013928.1488804361 + 6.353842512347 1025300.7699518829 + 6.615294914892 1033004.7027416651 + 6.704225965136 1035318.4605868969 + 6.724985275276 1035836.7514908289 + 6.827300952055 1038272.3550500388 + 6.955973048818 1041059.4546876343 + 7.033888519084 1042600.6725705948 + 7.366746700570 1047980.8875626414 + 7.610888771479 1050732.5470245159 + 7.703329216001 1051520.1500916549 + 8.044110965717 1053259.6119737795 + 8.388163501512 1053232.0193118635 + 8.444158665320 1053064.5045479152 + 8.737440576494 1051469.4852650242 + 9.090597056778 1048012.9594083959 + 9.293367149781 1045308.4616940832 + 9.446737220899 1042929.9329018199 + 9.809250597875 1036224.4785752923 + 0.000000144671 0.0896960762 + 0.010023594828 4703.3816907531 + 0.029804374012 13812.7329078313 + 0.049968018503 22968.6291784333 + 0.098310924470 44512.8376862786 + 0.121414041364 54626.7348397472 + 0.145279511387 64957.4339810179 + 0.223098852216 97848.3355106072 + 0.494315270703 203657.4452034895 + 0.584834262127 236185.5650652111 + 0.681472001255 269533.2340421363 + 0.784809938429 303731.3778727215 + 0.978953616914 364298.9007388356 + 1.142446764345 411999.2793394677 + 1.414304221989 485569.0779269271 + 1.545936011585 518903.6400220057 + 1.775687381638 573878.9537588138 + 2.019723715966 628138.5499347181 + 2.038763989502 632201.6424358605 + 2.119265143407 649114.9968791092 + 2.189489950263 663523.0415814869 + 2.321352492655 689720.5290379300 + 2.384459299050 701868.2366356308 + 2.695261093146 758102.1515054220 + 2.892181893975 790718.7171332171 + 0.000000200960 0.1389107956 + 0.020226725197 10467.4327924494 + 0.029817654003 15347.6083584593 + 0.050002687950 25509.6276974050 + 0.074372554972 37611.5495627296 + 0.098428674785 49396.8601777176 + 0.121584660401 60599.2013284410 + 0.145512230154 72033.8711880798 + 0.223576866385 108383.7001673012 + 0.585005030130 259446.5074544438 + 0.689465151471 298453.7803609617 + 0.798776947328 337354.4845494452 + 0.888869091715 368059.6043499158 + 0.944758563112 386534.0321189460 + 1.146722155522 449955.9545038039 + 1.419305637938 528280.7112292768 + 1.551187930982 563557.1873388012 + 1.781225512233 621449.5192991846 + 2.025375940773 678244.7355014792 + 2.044417813460 682484.1422684297 + 2.124914931952 700111.2477641904 + 2.195122884201 715101.7409792929 + 2.326923273513 742298.1860582555 + 2.389987568384 754882.8398399125 + 2.700482492071 812922.0894599422 + 2.897145672937 846419.7330462649 + 0.000000270724 0.2051266693 + 0.020232744125 11442.8301454485 + 0.029830168413 16773.6610634225 + 0.050035390844 27869.4356872440 + 0.074439967069 41076.6500937055 + 0.121745995791 66145.6456426932 + 0.145732419609 78606.7470926514 + 0.224029826796 118177.4992564485 + 1.150769381887 485709.5918023881 + 1.424030432386 568679.0352031640 + 1.556144558310 605877.9618618758 + 1.786444144882 666698.3298337073 + 2.030694626986 726095.5326892161 + 2.049737447733 730518.5618687292 + 2.130228658370 748893.5356898755 + 2.200419053413 764500.3259648504 + 2.332158171650 792769.0447188001 + 2.395181340487 805830.0332055964 + 2.705383717301 865905.4578284288 + 2.901803407408 900458.8220126262 + 0.000000354775 0.2906196223 + 1.154593258199 519255.6542920702 + 1.428485498028 606754.6452925876 + 1.560813842698 645850.0657248767 + 1.791352860566 709591.1436234079 + 2.035690686481 771627.3565230683 + 2.054733926208 776238.6081217866 + 2.135217703866 795383.4402129246 + 2.205390097242 811628.9348978077 + 2.337069175836 841019.6421506662 + 2.400052677127 854584.0857515580 + 2.709976795998 916857.6909890437 + 2.906166778908 952591.1378276161 + 0.000000453436 0.3969678596 + 0.020769996792 13500.1165915530 + 0.025532499143 16540.6462233391 + 0.051139839269 32678.1568911289 + 0.101253328857 63437.1131405352 + 1.158199731310 550532.5542660201 + 1.432679007296 642423.1863613179 + 1.565205005697 683375.4145028293 + 1.795962512786 750001.5924782733 + 2.040376255387 814677.8970421256 + 2.059419473894 819478.9276503699 + 2.139894567664 839402.3294226704 + 2.210048705984 856296.8535291529 + 2.341669254443 886835.3798037117 + 2.404614657044 900918.4486654410 + 2.714274694749 965488.6939747706 + 2.910248344882 1002482.7539561072 0.000000105115 0.0577981395 - 0.099198555648 40088.7576274624 - 0.194628815982 76921.9188425773 - 0.478521527976 178129.9544656695 - 0.973219474043 329419.6019823595 - 2.915063229445 741819.4917916231 - 6.000839221195 1018068.8730074486 - 0.000000792054 0.7865314597 - 0.100077049950 70603.9951246408 - 0.197440512085 134744.7711034018 - 0.489921105254 306983.1092229869 - 1.000354615890 550160.8928857661 - 2.950623430395 1119782.5238144554 - 6.008431179596 1435266.7311089986 - 0.000002014442 2.3185143281 - 0.100633377999 81164.7543181277 - 0.199231944423 155338.6151184563 - 0.497207620798 357642.4161712507 - 1.017338199392 649477.7157556564 - 2.971323906122 1338712.5395017739 - 6.012849784761 1742167.5818310976 - 0.000002573069 2.8011057780 - 0.100975147529 76798.1572270730 - 0.200322271071 148172.1940120534 - 0.501568432952 349275.9425425299 - 1.027223926893 654897.1107137946 - 2.982672831374 1432113.1459830974 - 6.015250307831 1920885.5269720305 - 0.000002371526 2.2770566631 - 0.101142032406 68553.3073579016 - 0.200840012799 134382.4782150325 - 0.503556972068 330244.2819702117 - 1.031562104636 656379.5353217184 - 2.987354915254 1629316.5502538802 + 0.099198555648 40088.7591702109 + 0.194628815982 76921.9229730809 + 0.478521527976 178129.9691869060 + 0.973219474043 329419.6394263476 + 2.915063229445 741819.6223075879 + 6.000839221195 1018069.0906336008 + 0.000000792054 0.7865307382 + 0.100077049950 70557.1881653950 + 0.197440512085 134620.2683023618 + 0.489921105254 306550.7183158245 + 1.000354615890 549118.8193965482 + 2.950623430395 1116749.3580567404 + 6.008431179596 1430899.6474348770 + 0.000002014442 2.3185031567 + 0.100633377999 80990.5385485417 + 0.199231944423 154873.4792030215 + 0.497207620798 356009.9636619143 + 1.017338199392 645505.0145667684 + 2.971323906122 1327300.8682122908 + 6.012849784761 1725955.3302370333 + 0.000002573069 2.8010711312 + 0.100975147529 76429.5399526841 + 0.200322271071 147180.9877150582 + 0.501568432952 345721.1583317965 + 1.027223926893 645990.8842752301 + 2.982672831374 1405447.2578170025 + 6.015250307831 1882570.6480307737 + 0.000002371526 2.2770131831 + 0.101142032406 68030.9016660065 + 0.200840012799 132958.8739903234 + 0.503556972068 324944.1961976561 + 1.031562104636 642362.3337853638 + 2.987354915254 1582259.5942681388 0.000000113338 0.0633997024 - 0.098897694159 40654.3139336013 - 0.193682300443 77833.1929476182 - 0.474743456293 179415.1475884079 - 0.964124642856 330434.9184942213 - 2.902319410307 745448.5518051371 - 5.998082673837 1025541.5076869543 - 0.000000854286 0.8482331572 - 0.099943314238 70460.9614778290 - 0.197012856923 134282.1813193268 - 0.488179756527 304977.8133746783 - 0.996210169708 544861.9029774935 - 2.945226825987 1109459.5198751620 - 6.007244822166 1425850.8752089257 - 0.000002202833 2.5266138139 - 0.100592749346 80792.1731886731 - 0.199095646400 154472.7896002141 - 0.496613141594 354853.0589725784 - 1.015862336444 642736.2860050045 - 2.969303149808 1321323.8286520375 - 6.012365029038 1719838.0969257404 - 0.000002947376 3.2141630805 - 0.100981114812 76817.0899466339 - 0.200328314371 147918.8381847075 - 0.501516508011 347023.8094801539 - 1.026952795187 646464.2748556839 - 2.982029822748 1393790.0217684479 - 6.015047493430 1860682.3377152078 - 0.000002940900 2.8770077297 - 0.101158867056 69419.2790521991 - 0.200877603942 135117.7514376442 - 0.503622626193 326098.8163765761 - 1.031555579804 631501.4368212713 - 2.987030632820 1475334.0018367460 - 6.016080819705 2004600.4328480363 + 0.098897694159 40654.3154892230 + 0.193682300443 77833.1970988078 + 0.474743456293 179415.1622822279 + 0.964124642856 330434.9556373521 + 2.902319410307 745448.6816594694 + 5.998082673837 1025541.7251261531 + 0.000000854286 0.8482323536 + 0.099943314238 70414.5210186229 + 0.197012856923 134158.8814758027 + 0.488179756527 304551.4498657858 + 0.996210169708 543838.9696339725 + 2.945226825987 1106478.1364735158 + 6.007244822166 1421536.3657006011 + 0.000002202833 2.5266011947 + 0.100592749346 80620.2306067554 + 0.199095646400 154014.1756593268 + 0.496613141594 353247.5223045169 + 1.015862336444 638841.0414687821 + 2.969303149808 1310157.6377715780 + 6.012365029038 1703948.4131169547 + 0.000002947376 3.2141212676 + 0.100981114812 76454.5065056053 + 0.200328314371 146945.3844583679 + 0.501516508011 343547.3630270286 + 1.026952795187 637807.9850901107 + 2.982029822748 1368220.7943194269 + 6.015047493430 1824084.6735882545 + 0.000002940900 2.8769486552 + 0.101158867056 68907.6653060920 + 0.200877603942 133732.1865547295 + 0.503622626193 321026.2214490614 + 1.031555579804 618418.3754290250 + 2.987030632820 1433947.5883437512 + 6.016080819705 1944920.8087245692 diff --git a/mytest/Vm_KCl_sol.out b/mytest/Vm_KCl_sol.out index 19f2e3b8..5e52073d 100644 --- a/mytest/Vm_KCl_sol.out +++ b/mytest/Vm_KCl_sol.out @@ -224,10 +224,10 @@ Reaction 1. pH = 7.358 Charge balance pe = -0.477 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 3381 + Specific Conductance (µS/cm, 5°C) = 3382 Density (g/cm³) = 1.00193 Volume (L) = 1.00105 - Viscosity (mPa s) = 1.51586 + Viscosity (mPa s) = 1.51577 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -304,7 +304,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 4994 Density (g/cm³) = 1.00291 Volume (L) = 1.00156 - Viscosity (mPa s) = 1.51435 + Viscosity (mPa s) = 1.51424 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.004e-02 Mass of water (kg) = 1.000e+00 @@ -381,7 +381,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 7352 Density (g/cm³) = 1.00437 Volume (L) = 1.00233 - Viscosity (mPa s) = 1.51205 + Viscosity (mPa s) = 1.51191 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -458,7 +458,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 8129 Density (g/cm³) = 1.00486 Volume (L) = 1.00259 - Viscosity (mPa s) = 1.51127 + Viscosity (mPa s) = 1.51113 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -535,7 +535,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 9672 Density (g/cm³) = 1.00583 Volume (L) = 1.00311 - Viscosity (mPa s) = 1.50971 + Viscosity (mPa s) = 1.50956 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.201e-01 Mass of water (kg) = 1.000e+00 @@ -612,7 +612,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 12702 Density (g/cm³) = 1.00776 Volume (L) = 1.00414 - Viscosity (mPa s) = 1.50661 + Viscosity (mPa s) = 1.50643 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -686,10 +686,10 @@ Reaction 1. pH = 7.349 Charge balance pe = -0.398 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 15687 + Specific Conductance (µS/cm, 5°C) = 15688 Density (g/cm³) = 1.00968 Volume (L) = 1.00518 - Viscosity (mPa s) = 1.50353 + Viscosity (mPa s) = 1.50333 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -763,10 +763,10 @@ Reaction 1. pH = 7.347 Charge balance pe = -0.390 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 19369 + Specific Conductance (µS/cm, 5°C) = 19370 Density (g/cm³) = 1.01207 Volume (L) = 1.00649 - Viscosity (mPa s) = 1.49971 + Viscosity (mPa s) = 1.49948 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -840,10 +840,10 @@ Reaction 1. pH = 7.347 Charge balance pe = -0.520 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 19381 + Specific Conductance (µS/cm, 5°C) = 19383 Density (g/cm³) = 1.01208 Volume (L) = 1.00650 - Viscosity (mPa s) = 1.49970 + Viscosity (mPa s) = 1.49947 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.502e-01 Mass of water (kg) = 1.000e+00 @@ -917,10 +917,10 @@ Reaction 1. pH = 7.344 Charge balance pe = -0.589 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 26591 + Specific Conductance (µS/cm, 5°C) = 26593 Density (g/cm³) = 1.01681 Volume (L) = 1.00913 - Viscosity (mPa s) = 1.49226 + Viscosity (mPa s) = 1.49199 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.500e-01 Mass of water (kg) = 1.000e+00 @@ -994,10 +994,10 @@ Reaction 1. pH = 7.343 Charge balance pe = -0.485 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 30143 + Specific Conductance (µS/cm, 5°C) = 30146 Density (g/cm³) = 1.01916 Volume (L) = 1.01046 - Viscosity (mPa s) = 1.48863 + Viscosity (mPa s) = 1.48835 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -1071,10 +1071,10 @@ Reaction 1. pH = 7.342 Charge balance pe = -0.592 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 33842 + Specific Conductance (µS/cm, 5°C) = 33845 Density (g/cm³) = 1.02161 Volume (L) = 1.01187 - Viscosity (mPa s) = 1.48490 + Viscosity (mPa s) = 1.48460 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.525e-01 Mass of water (kg) = 1.000e+00 @@ -1148,10 +1148,10 @@ Reaction 1. pH = 7.341 Charge balance pe = -0.681 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 37132 + Specific Conductance (µS/cm, 5°C) = 37136 Density (g/cm³) = 1.02381 Volume (L) = 1.01313 - Viscosity (mPa s) = 1.48162 + Viscosity (mPa s) = 1.48130 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.997e-01 Mass of water (kg) = 1.000e+00 @@ -1225,10 +1225,10 @@ Reaction 1. pH = 7.341 Charge balance pe = -0.708 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 37150 + Specific Conductance (µS/cm, 5°C) = 37154 Density (g/cm³) = 1.02382 Volume (L) = 1.01314 - Viscosity (mPa s) = 1.48160 + Viscosity (mPa s) = 1.48128 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.999e-01 Mass of water (kg) = 1.000e+00 @@ -1302,10 +1302,10 @@ Reaction 1. pH = 7.338 Charge balance pe = -0.703 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 50862 + Specific Conductance (µS/cm, 5°C) = 50868 Density (g/cm³) = 1.03301 Volume (L) = 1.01857 - Viscosity (mPa s) = 1.46842 + Viscosity (mPa s) = 1.46804 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -1379,10 +1379,10 @@ Reaction 1. pH = 7.335 Charge balance pe = -0.851 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 66634 + Specific Conductance (µS/cm, 5°C) = 66643 Density (g/cm³) = 1.04365 Volume (L) = 1.02511 - Viscosity (mPa s) = 1.45437 + Viscosity (mPa s) = 1.45393 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.369e-01 Mass of water (kg) = 1.000e+00 @@ -1456,10 +1456,10 @@ Reaction 1. pH = 7.334 Charge balance pe = -0.571 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 70755 + Specific Conductance (µS/cm, 5°C) = 70766 Density (g/cm³) = 1.04644 Volume (L) = 1.02687 - Viscosity (mPa s) = 1.45092 + Viscosity (mPa s) = 1.45047 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -1533,10 +1533,10 @@ Reaction 1. pH = 7.329 Charge balance pe = -0.866 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 95926 + Specific Conductance (µS/cm, 5°C) = 95944 Density (g/cm³) = 1.06356 Volume (L) = 1.03810 - Viscosity (mPa s) = 1.43200 + Viscosity (mPa s) = 1.43147 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.396e+00 Mass of water (kg) = 1.000e+00 @@ -1610,10 +1610,10 @@ Reaction 1. pH = 7.325 Charge balance pe = -0.647 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 127219 + Specific Conductance (µS/cm, 5°C) = 127246 Density (g/cm³) = 1.08507 Volume (L) = 1.05334 - Viscosity (mPa s) = 1.41428 + Viscosity (mPa s) = 1.41365 Activity of water = 0.935 Ionic strength (mol/kgw) = 1.917e+00 Mass of water (kg) = 1.000e+00 @@ -1687,10 +1687,10 @@ Reaction 1. pH = 7.322 Charge balance pe = -1.069 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 153990 + Specific Conductance (µS/cm, 5°C) = 154027 Density (g/cm³) = 1.10380 Volume (L) = 1.06772 - Viscosity (mPa s) = 1.40507 + Viscosity (mPa s) = 1.40438 Activity of water = 0.919 Ionic strength (mol/kgw) = 2.395e+00 Mass of water (kg) = 1.000e+00 @@ -1764,10 +1764,10 @@ Reaction 1. pH = 7.320 Charge balance pe = 11.831 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 183260 + Specific Conductance (µS/cm, 5°C) = 183309 Density (g/cm³) = 1.12483 Volume (L) = 1.08529 - Viscosity (mPa s) = 1.40273 + Viscosity (mPa s) = 1.40196 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.961e+00 Mass of water (kg) = 1.000e+00 @@ -1841,10 +1841,10 @@ Reaction 1. pH = 7.320 Charge balance pe = -1.108 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 206104 + Specific Conductance (µS/cm, 5°C) = 206164 Density (g/cm³) = 1.14188 Volume (L) = 1.10078 - Viscosity (mPa s) = 1.40801 + Viscosity (mPa s) = 1.40717 Activity of water = 0.883 Ionic strength (mol/kgw) = 3.447e+00 Mass of water (kg) = 1.000e+00 @@ -1918,10 +1918,10 @@ Reaction 1. pH = 7.321 Charge balance pe = 11.727 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 231896 + Specific Conductance (µS/cm, 5°C) = 231968 Density (g/cm³) = 1.16216 Volume (L) = 1.12091 - Viscosity (mPa s) = 1.42416 + Viscosity (mPa s) = 1.42325 Activity of water = 0.862 Ionic strength (mol/kgw) = 4.060e+00 Mass of water (kg) = 1.000e+00 @@ -2101,7 +2101,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 4361 Density (g/cm³) = 1.00101 Volume (L) = 1.00197 - Viscosity (mPa s) = 1.13703 + Viscosity (mPa s) = 1.13700 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -2178,7 +2178,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 4364 Density (g/cm³) = 1.00102 Volume (L) = 1.00197 - Viscosity (mPa s) = 1.13703 + Viscosity (mPa s) = 1.13700 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.003e-02 Mass of water (kg) = 1.000e+00 @@ -2255,7 +2255,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 5402 Density (g/cm³) = 1.00149 Volume (L) = 1.00223 - Viscosity (mPa s) = 1.13676 + Viscosity (mPa s) = 1.13672 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -2332,7 +2332,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 10463 Density (g/cm³) = 1.00386 Volume (L) = 1.00358 - Viscosity (mPa s) = 1.13531 + Viscosity (mPa s) = 1.13525 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -2406,10 +2406,10 @@ Reaction 1. pH = 7.160 Charge balance pe = -0.303 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10506 + Specific Conductance (µS/cm, 15°C) = 10507 Density (g/cm³) = 1.00388 Volume (L) = 1.00359 - Viscosity (mPa s) = 1.13530 + Viscosity (mPa s) = 1.13524 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.004e-01 Mass of water (kg) = 1.000e+00 @@ -2483,10 +2483,10 @@ Reaction 1. pH = 7.156 Charge balance pe = -0.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 16325 + Specific Conductance (µS/cm, 15°C) = 16326 Density (g/cm³) = 1.00669 Volume (L) = 1.00521 - Viscosity (mPa s) = 1.13349 + Viscosity (mPa s) = 1.13342 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -2560,10 +2560,10 @@ Reaction 1. pH = 7.155 Charge balance pe = -0.290 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 20282 + Specific Conductance (µS/cm, 15°C) = 20283 Density (g/cm³) = 1.00862 Volume (L) = 1.00634 - Viscosity (mPa s) = 1.13224 + Viscosity (mPa s) = 1.13216 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.014e-01 Mass of water (kg) = 1.000e+00 @@ -2637,10 +2637,10 @@ Reaction 1. pH = 7.153 Charge balance pe = -0.379 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 24847 + Specific Conductance (µS/cm, 15°C) = 24848 Density (g/cm³) = 1.01088 Volume (L) = 1.00767 - Viscosity (mPa s) = 1.13078 + Viscosity (mPa s) = 1.13069 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -2714,10 +2714,10 @@ Reaction 1. pH = 7.149 Charge balance pe = -0.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 38561 + Specific Conductance (µS/cm, 15°C) = 38563 Density (g/cm³) = 1.01778 Volume (L) = 1.01183 - Viscosity (mPa s) = 1.12646 + Viscosity (mPa s) = 1.12635 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -2791,10 +2791,10 @@ Reaction 1. pH = 7.148 Charge balance pe = -0.384 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 42498 + Specific Conductance (µS/cm, 15°C) = 42500 Density (g/cm³) = 1.01979 Volume (L) = 1.01306 - Viscosity (mPa s) = 1.12525 + Viscosity (mPa s) = 1.12513 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.440e-01 Mass of water (kg) = 1.000e+00 @@ -2868,10 +2868,10 @@ Reaction 1. pH = 7.147 Charge balance pe = -0.581 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 47451 + Specific Conductance (µS/cm, 15°C) = 47453 Density (g/cm³) = 1.02232 Volume (L) = 1.01463 - Viscosity (mPa s) = 1.12376 + Viscosity (mPa s) = 1.12363 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -2945,10 +2945,10 @@ Reaction 1. pH = 7.147 Charge balance pe = -0.484 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 48142 + Specific Conductance (µS/cm, 15°C) = 48145 Density (g/cm³) = 1.02268 Volume (L) = 1.01485 - Viscosity (mPa s) = 1.12355 + Viscosity (mPa s) = 1.12343 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.079e-01 Mass of water (kg) = 1.000e+00 @@ -3022,10 +3022,10 @@ Reaction 1. pH = 7.143 Charge balance pe = -0.564 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 64748 + Specific Conductance (µS/cm, 15°C) = 64753 Density (g/cm³) = 1.03127 Volume (L) = 1.02029 - Viscosity (mPa s) = 1.11884 + Viscosity (mPa s) = 1.11869 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -3099,10 +3099,10 @@ Reaction 1. pH = 7.140 Charge balance pe = -0.401 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 81516 + Specific Conductance (µS/cm, 15°C) = 81522 Density (g/cm³) = 1.04005 Volume (L) = 1.02603 - Viscosity (mPa s) = 1.11460 + Viscosity (mPa s) = 1.11443 Activity of water = 0.969 Ionic strength (mol/kgw) = 9.003e-01 Mass of water (kg) = 1.000e+00 @@ -3176,10 +3176,10 @@ Reaction 1. pH = 7.139 Charge balance pe = -0.818 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 89679 + Specific Conductance (µS/cm, 15°C) = 89686 Density (g/cm³) = 1.04435 Volume (L) = 1.02892 - Viscosity (mPa s) = 1.11274 + Viscosity (mPa s) = 1.11256 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -3253,10 +3253,10 @@ Reaction 1. pH = 7.139 Charge balance pe = -0.818 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 89679 + Specific Conductance (µS/cm, 15°C) = 89686 Density (g/cm³) = 1.04435 Volume (L) = 1.02892 - Viscosity (mPa s) = 1.11274 + Viscosity (mPa s) = 1.11256 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -3330,10 +3330,10 @@ Reaction 1. pH = 7.135 Charge balance pe = 11.522 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 119011 + Specific Conductance (µS/cm, 15°C) = 119021 Density (g/cm³) = 1.06001 Volume (L) = 1.03980 - Viscosity (mPa s) = 1.10733 + Viscosity (mPa s) = 1.10712 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.371e+00 Mass of water (kg) = 1.000e+00 @@ -3407,10 +3407,10 @@ Reaction 1. pH = 7.131 Charge balance pe = 11.267 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 155521 + Specific Conductance (µS/cm, 15°C) = 155537 Density (g/cm³) = 1.07992 Volume (L) = 1.05457 - Viscosity (mPa s) = 1.10379 + Viscosity (mPa s) = 1.10354 Activity of water = 0.937 Ionic strength (mol/kgw) = 1.862e+00 Mass of water (kg) = 1.000e+00 @@ -3484,10 +3484,10 @@ Reaction 1. pH = 7.130 Charge balance pe = -1.114 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 165271 + Specific Conductance (µS/cm, 15°C) = 165289 Density (g/cm³) = 1.08533 Volume (L) = 1.05877 - Viscosity (mPa s) = 1.10353 + Viscosity (mPa s) = 1.10328 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -3561,10 +3561,10 @@ Reaction 1. pH = 7.128 Charge balance pe = -0.882 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 189731 + Specific Conductance (µS/cm, 15°C) = 189754 Density (g/cm³) = 1.09909 Volume (L) = 1.06986 - Viscosity (mPa s) = 1.10437 + Viscosity (mPa s) = 1.10409 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.359e+00 Mass of water (kg) = 1.000e+00 @@ -3638,10 +3638,10 @@ Reaction 1. pH = 7.126 Charge balance pe = -0.778 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 222115 + Specific Conductance (µS/cm, 15°C) = 222145 Density (g/cm³) = 1.11788 Volume (L) = 1.08597 - Viscosity (mPa s) = 1.10926 + Viscosity (mPa s) = 1.10895 Activity of water = 0.902 Ionic strength (mol/kgw) = 2.870e+00 Mass of water (kg) = 1.000e+00 @@ -3715,10 +3715,10 @@ Reaction 1. pH = 7.126 Charge balance pe = 11.381 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 229893 + Specific Conductance (µS/cm, 15°C) = 229924 Density (g/cm³) = 1.12250 Volume (L) = 1.09012 - Viscosity (mPa s) = 1.11119 + Viscosity (mPa s) = 1.11088 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -3792,10 +3792,10 @@ Reaction 1. pH = 7.126 Charge balance pe = 10.395 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 252799 + Specific Conductance (µS/cm, 15°C) = 252835 Density (g/cm³) = 1.13645 Volume (L) = 1.10313 - Viscosity (mPa s) = 1.11892 + Viscosity (mPa s) = 1.11859 Activity of water = 0.884 Ionic strength (mol/kgw) = 3.402e+00 Mass of water (kg) = 1.000e+00 @@ -3869,10 +3869,10 @@ Reaction 1. pH = 7.126 Charge balance pe = -0.984 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 281213 + Specific Conductance (µS/cm, 15°C) = 281256 Density (g/cm³) = 1.15460 Volume (L) = 1.12124 - Viscosity (mPa s) = 1.13372 + Viscosity (mPa s) = 1.13336 Activity of water = 0.866 Ionic strength (mol/kgw) = 3.951e+00 Mass of water (kg) = 1.000e+00 @@ -3946,10 +3946,10 @@ Reaction 1. pH = 7.126 Charge balance pe = 11.817 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 283581 + Specific Conductance (µS/cm, 15°C) = 283625 Density (g/cm³) = 1.15616 Volume (L) = 1.12287 - Viscosity (mPa s) = 1.13527 + Viscosity (mPa s) = 1.13491 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -4023,10 +4023,10 @@ Reaction 1. pH = 7.127 Charge balance pe = 11.377 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 302099 + Specific Conductance (µS/cm, 15°C) = 302147 Density (g/cm³) = 1.16874 Volume (L) = 1.13640 - Viscosity (mPa s) = 1.14947 + Viscosity (mPa s) = 1.14909 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.402e+00 Mass of water (kg) = 1.000e+00 @@ -16372,7 +16372,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 334983 Density (g/cm³) = 1.15031 Volume (L) = 1.12526 - Viscosity (mPa s) = 0.93659 + Viscosity (mPa s) = 0.93658 Activity of water = 0.866 Ionic strength (mol/kgw) = 3.949e+00 Mass of water (kg) = 1.000e+00 @@ -17861,7 +17861,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 7507 Density (g/cm³) = 0.99206 Volume (L) = 1.01101 - Viscosity (mPa s) = 0.59693 + Viscosity (mPa s) = 0.59697 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -17938,7 +17938,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 16226 Density (g/cm³) = 0.99434 Volume (L) = 1.01244 - Viscosity (mPa s) = 0.59788 + Viscosity (mPa s) = 0.59794 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -18012,10 +18012,10 @@ Reaction 1. pH = 6.683 Charge balance pe = 0.105 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 17923 + Specific Conductance (µS/cm, 45°C) = 17922 Density (g/cm³) = 0.99480 Volume (L) = 1.01272 - Viscosity (mPa s) = 0.59805 + Viscosity (mPa s) = 0.59813 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -18089,10 +18089,10 @@ Reaction 1. pH = 6.683 Charge balance pe = 0.176 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 19747 + Specific Conductance (µS/cm, 45°C) = 19746 Density (g/cm³) = 0.99529 Volume (L) = 1.01303 - Viscosity (mPa s) = 0.59824 + Viscosity (mPa s) = 0.59832 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.108e-01 Mass of water (kg) = 1.000e+00 @@ -18166,10 +18166,10 @@ Reaction 1. pH = 6.681 Charge balance pe = -0.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 24632 + Specific Conductance (µS/cm, 45°C) = 24630 Density (g/cm³) = 0.99662 Volume (L) = 1.01388 - Viscosity (mPa s) = 0.59875 + Viscosity (mPa s) = 0.59884 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.402e-01 Mass of water (kg) = 1.000e+00 @@ -18243,10 +18243,10 @@ Reaction 1. pH = 6.679 Charge balance pe = -0.024 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 27868 + Specific Conductance (µS/cm, 45°C) = 27866 Density (g/cm³) = 0.99751 Volume (L) = 1.01445 - Viscosity (mPa s) = 0.59909 + Viscosity (mPa s) = 0.59918 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -18320,10 +18320,10 @@ Reaction 1. pH = 6.677 Charge balance pe = 0.102 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 36710 + Specific Conductance (µS/cm, 45°C) = 36707 Density (g/cm³) = 0.99999 Volume (L) = 1.01604 - Viscosity (mPa s) = 0.60001 + Viscosity (mPa s) = 0.60012 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.150e-01 Mass of water (kg) = 1.000e+00 @@ -18397,10 +18397,10 @@ Reaction 1. pH = 6.675 Charge balance pe = -0.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 42232 + Specific Conductance (µS/cm, 45°C) = 42228 Density (g/cm³) = 1.00155 Volume (L) = 1.01706 - Viscosity (mPa s) = 0.60059 + Viscosity (mPa s) = 0.60071 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -18474,10 +18474,10 @@ Reaction 1. pH = 6.670 Charge balance pe = -0.042 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 65148 + Specific Conductance (µS/cm, 45°C) = 65141 Density (g/cm³) = 1.00819 Volume (L) = 1.02146 - Viscosity (mPa s) = 0.60307 + Viscosity (mPa s) = 0.60321 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -18551,10 +18551,10 @@ Reaction 1. pH = 6.669 Charge balance pe = 0.141 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 69893 + Specific Conductance (µS/cm, 45°C) = 69884 Density (g/cm³) = 1.00959 Volume (L) = 1.02240 - Viscosity (mPa s) = 0.60360 + Viscosity (mPa s) = 0.60375 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.319e-01 Mass of water (kg) = 1.000e+00 @@ -18628,10 +18628,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.269 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 79879 + Specific Conductance (µS/cm, 45°C) = 79869 Density (g/cm³) = 1.01255 Volume (L) = 1.02442 - Viscosity (mPa s) = 0.60473 + Viscosity (mPa s) = 0.60490 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -18705,10 +18705,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.269 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 79879 + Specific Conductance (µS/cm, 45°C) = 79869 Density (g/cm³) = 1.01255 Volume (L) = 1.02442 - Viscosity (mPa s) = 0.60473 + Viscosity (mPa s) = 0.60490 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -18782,10 +18782,10 @@ Reaction 1. pH = 6.664 Charge balance pe = -0.134 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 108282 + Specific Conductance (µS/cm, 45°C) = 108266 Density (g/cm³) = 1.02115 Volume (L) = 1.03039 - Viscosity (mPa s) = 0.60814 + Viscosity (mPa s) = 0.60833 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -18859,10 +18859,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 0.013 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 148646 + Specific Conductance (µS/cm, 45°C) = 148619 Density (g/cm³) = 1.03375 Volume (L) = 1.03948 - Viscosity (mPa s) = 0.61349 + Viscosity (mPa s) = 0.61372 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -18936,10 +18936,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 0.013 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 148646 + Specific Conductance (µS/cm, 45°C) = 148619 Density (g/cm³) = 1.03375 Volume (L) = 1.03948 - Viscosity (mPa s) = 0.61349 + Viscosity (mPa s) = 0.61372 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -19013,10 +19013,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 0.013 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 148646 + Specific Conductance (µS/cm, 45°C) = 148619 Density (g/cm³) = 1.03375 Volume (L) = 1.03948 - Viscosity (mPa s) = 0.61349 + Viscosity (mPa s) = 0.61372 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -19090,10 +19090,10 @@ Reaction 1. pH = 6.654 Charge balance pe = -0.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 210835 + Specific Conductance (µS/cm, 45°C) = 210790 Density (g/cm³) = 1.05398 Volume (L) = 1.05489 - Viscosity (mPa s) = 0.62313 + Viscosity (mPa s) = 0.62341 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -19167,10 +19167,10 @@ Reaction 1. pH = 6.652 Charge balance pe = -0.348 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 230528 + Specific Conductance (µS/cm, 45°C) = 230476 Density (g/cm³) = 1.06060 Volume (L) = 1.06017 - Viscosity (mPa s) = 0.62660 + Viscosity (mPa s) = 0.62689 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.669e+00 Mass of water (kg) = 1.000e+00 @@ -19244,10 +19244,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 9.412 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 267409 + Specific Conductance (µS/cm, 45°C) = 267343 Density (g/cm³) = 1.07332 Volume (L) = 1.07061 - Viscosity (mPa s) = 0.63372 + Viscosity (mPa s) = 0.63405 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -19321,10 +19321,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 9.412 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 267409 + Specific Conductance (µS/cm, 45°C) = 267343 Density (g/cm³) = 1.07332 Volume (L) = 1.07061 - Viscosity (mPa s) = 0.63372 + Viscosity (mPa s) = 0.63405 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -19398,10 +19398,10 @@ Reaction 1. pH = 6.649 Charge balance pe = 9.506 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 278820 + Specific Conductance (µS/cm, 45°C) = 278750 Density (g/cm³) = 1.07734 Volume (L) = 1.07401 - Viscosity (mPa s) = 0.63611 + Viscosity (mPa s) = 0.63645 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.107e+00 Mass of water (kg) = 1.000e+00 @@ -19475,10 +19475,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 1.315 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 318872 + Specific Conductance (µS/cm, 45°C) = 318787 Density (g/cm³) = 1.09182 Volume (L) = 1.08661 - Viscosity (mPa s) = 0.64528 + Viscosity (mPa s) = 0.64565 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -19552,10 +19552,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.245 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 338999 + Specific Conductance (µS/cm, 45°C) = 338905 Density (g/cm³) = 1.09933 Volume (L) = 1.09339 - Viscosity (mPa s) = 0.65041 + Viscosity (mPa s) = 0.65079 Activity of water = 0.908 Ionic strength (mol/kgw) = 2.709e+00 Mass of water (kg) = 1.000e+00 @@ -19629,10 +19629,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.101 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 365593 + Specific Conductance (µS/cm, 45°C) = 365488 Density (g/cm³) = 1.10953 Volume (L) = 1.10286 - Viscosity (mPa s) = 0.65781 + Viscosity (mPa s) = 0.65821 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -19706,10 +19706,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.101 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 365593 + Specific Conductance (µS/cm, 45°C) = 365488 Density (g/cm³) = 1.10953 Volume (L) = 1.10286 - Viscosity (mPa s) = 0.65781 + Viscosity (mPa s) = 0.65821 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -19783,10 +19783,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.387 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 367393 + Specific Conductance (µS/cm, 45°C) = 367287 Density (g/cm³) = 1.11024 Volume (L) = 1.10353 - Viscosity (mPa s) = 0.65834 + Viscosity (mPa s) = 0.65874 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.020e+00 Mass of water (kg) = 1.000e+00 @@ -19860,10 +19860,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 10.067 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 406377 + Specific Conductance (µS/cm, 45°C) = 406254 Density (g/cm³) = 1.12586 Volume (L) = 1.11874 - Viscosity (mPa s) = 0.67078 + Viscosity (mPa s) = 0.67121 Activity of water = 0.882 Ionic strength (mol/kgw) = 3.481e+00 Mass of water (kg) = 1.000e+00 @@ -19937,10 +19937,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.451 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 407881 + Specific Conductance (µS/cm, 45°C) = 407757 Density (g/cm³) = 1.12649 Volume (L) = 1.11936 - Viscosity (mPa s) = 0.67130 + Viscosity (mPa s) = 0.67173 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.500e+00 Mass of water (kg) = 1.000e+00 @@ -20014,10 +20014,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.783 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 444589 + Specific Conductance (µS/cm, 45°C) = 444449 Density (g/cm³) = 1.14209 Volume (L) = 1.13542 - Viscosity (mPa s) = 0.68516 + Viscosity (mPa s) = 0.68562 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.980e+00 Mass of water (kg) = 1.000e+00 @@ -20091,10 +20091,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.550 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 446016 + Specific Conductance (µS/cm, 45°C) = 445874 Density (g/cm³) = 1.14271 Volume (L) = 1.13609 - Viscosity (mPa s) = 0.68575 + Viscosity (mPa s) = 0.68621 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -20168,10 +20168,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.550 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 446016 + Specific Conductance (µS/cm, 45°C) = 445874 Density (g/cm³) = 1.14271 Volume (L) = 1.13609 - Viscosity (mPa s) = 0.68575 + Viscosity (mPa s) = 0.68621 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -20245,10 +20245,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.778 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 480262 + Specific Conductance (µS/cm, 45°C) = 480104 Density (g/cm³) = 1.15824 Volume (L) = 1.15304 - Viscosity (mPa s) = 0.70115 + Viscosity (mPa s) = 0.70163 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -20322,10 +20322,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.683 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 480331 + Specific Conductance (µS/cm, 45°C) = 480174 Density (g/cm³) = 1.15828 Volume (L) = 1.15307 - Viscosity (mPa s) = 0.70118 + Viscosity (mPa s) = 0.70167 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.501e+00 Mass of water (kg) = 1.000e+00 @@ -20502,10 +20502,10 @@ Reaction 1. pH = 6.442 Charge balance pe = 0.323 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 9644 + Specific Conductance (µS/cm, 65°C) = 9643 Density (g/cm³) = 0.98239 Volume (L) = 1.02097 - Viscosity (mPa s) = 0.43424 + Viscosity (mPa s) = 0.43432 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -20579,10 +20579,10 @@ Reaction 1. pH = 6.436 Charge balance pe = 0.292 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 20796 + Specific Conductance (µS/cm, 65°C) = 20793 Density (g/cm³) = 0.98466 Volume (L) = 1.02239 - Viscosity (mPa s) = 0.43550 + Viscosity (mPa s) = 0.43562 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -20656,10 +20656,10 @@ Reaction 1. pH = 6.435 Charge balance pe = 0.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 22957 + Specific Conductance (µS/cm, 65°C) = 22954 Density (g/cm³) = 0.98511 Volume (L) = 1.02268 - Viscosity (mPa s) = 0.43575 + Viscosity (mPa s) = 0.43586 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 1.000e+00 @@ -20733,10 +20733,10 @@ Reaction 1. pH = 6.431 Charge balance pe = 0.293 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 35640 + Specific Conductance (µS/cm, 65°C) = 35634 Density (g/cm³) = 0.98781 Volume (L) = 1.02441 - Viscosity (mPa s) = 0.43717 + Viscosity (mPa s) = 0.43732 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -20810,10 +20810,10 @@ Reaction 1. pH = 6.426 Charge balance pe = 0.490 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 53900 + Specific Conductance (µS/cm, 65°C) = 53889 Density (g/cm³) = 0.99182 Volume (L) = 1.02704 - Viscosity (mPa s) = 0.43924 + Viscosity (mPa s) = 0.43943 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -20887,10 +20887,10 @@ Reaction 1. pH = 6.421 Charge balance pe = 0.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 82924 + Specific Conductance (µS/cm, 65°C) = 82903 Density (g/cm³) = 0.99841 Volume (L) = 1.03146 - Viscosity (mPa s) = 0.44265 + Viscosity (mPa s) = 0.44289 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -20964,10 +20964,10 @@ Reaction 1. pH = 6.420 Charge balance pe = 0.379 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 85737 + Specific Conductance (µS/cm, 65°C) = 85715 Density (g/cm³) = 0.99906 Volume (L) = 1.03190 - Viscosity (mPa s) = 0.44298 + Viscosity (mPa s) = 0.44323 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.149e-01 Mass of water (kg) = 1.000e+00 @@ -21041,10 +21041,10 @@ Reaction 1. pH = 6.414 Charge balance pe = 8.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 137240 + Specific Conductance (µS/cm, 65°C) = 137194 Density (g/cm³) = 1.01128 Volume (L) = 1.04045 - Viscosity (mPa s) = 0.44942 + Viscosity (mPa s) = 0.44974 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -21118,10 +21118,10 @@ Reaction 1. pH = 6.412 Charge balance pe = 0.142 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 153012 + Specific Conductance (µS/cm, 65°C) = 152958 Density (g/cm³) = 1.01513 Volume (L) = 1.04323 - Viscosity (mPa s) = 0.45150 + Viscosity (mPa s) = 0.45184 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.915e-01 Mass of water (kg) = 1.000e+00 @@ -21195,10 +21195,10 @@ Reaction 1. pH = 6.409 Charge balance pe = 8.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 187721 + Specific Conductance (µS/cm, 65°C) = 187647 Density (g/cm³) = 1.02377 Volume (L) = 1.04960 - Viscosity (mPa s) = 0.45627 + Viscosity (mPa s) = 0.45665 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -21272,10 +21272,10 @@ Reaction 1. pH = 6.406 Charge balance pe = 0.422 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 221251 + Specific Conductance (µS/cm, 65°C) = 221156 Density (g/cm³) = 1.03235 Volume (L) = 1.05611 - Viscosity (mPa s) = 0.46114 + Viscosity (mPa s) = 0.46156 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.211e+00 Mass of water (kg) = 1.000e+00 @@ -21349,10 +21349,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 0.573 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 341565 + Specific Conductance (µS/cm, 65°C) = 341383 Density (g/cm³) = 1.06507 Volume (L) = 1.08266 - Viscosity (mPa s) = 0.48126 + Viscosity (mPa s) = 0.48180 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.054e+00 Mass of water (kg) = 1.000e+00 @@ -21426,10 +21426,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 6.838 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 396706 + Specific Conductance (µS/cm, 65°C) = 396479 Density (g/cm³) = 1.08124 Volume (L) = 1.09684 - Viscosity (mPa s) = 0.49221 + Viscosity (mPa s) = 0.49281 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.494e+00 Mass of water (kg) = 1.000e+00 @@ -21503,10 +21503,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.243 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 498109 + Specific Conductance (µS/cm, 65°C) = 497792 Density (g/cm³) = 1.11350 Volume (L) = 1.12740 - Viscosity (mPa s) = 0.51637 + Viscosity (mPa s) = 0.51707 Activity of water = 0.884 Ionic strength (mol/kgw) = 3.425e+00 Mass of water (kg) = 1.000e+00 @@ -21580,10 +21580,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 8.301 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 541790 + Specific Conductance (µS/cm, 65°C) = 541432 Density (g/cm³) = 1.12867 Volume (L) = 1.14292 - Viscosity (mPa s) = 0.52895 + Viscosity (mPa s) = 0.52969 Activity of water = 0.868 Ionic strength (mol/kgw) = 3.890e+00 Mass of water (kg) = 1.000e+00 @@ -21657,10 +21657,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 8.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 585093 + Specific Conductance (µS/cm, 65°C) = 584694 Density (g/cm³) = 1.14472 Volume (L) = 1.16021 - Viscosity (mPa s) = 0.54319 + Viscosity (mPa s) = 0.54398 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.401e+00 Mass of water (kg) = 1.000e+00 @@ -21837,10 +21837,10 @@ Reaction 1. pH = 6.238 Charge balance pe = 0.483 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 11701 + Specific Conductance (µS/cm, 85°C) = 11699 Density (g/cm³) = 0.97046 Volume (L) = 1.03351 - Viscosity (mPa s) = 0.33440 + Viscosity (mPa s) = 0.33450 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -21914,10 +21914,10 @@ Reaction 1. pH = 6.234 Charge balance pe = 0.489 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 18801 + Specific Conductance (µS/cm, 85°C) = 18798 Density (g/cm³) = 0.97165 Volume (L) = 1.03424 - Viscosity (mPa s) = 0.33509 + Viscosity (mPa s) = 0.33522 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.598e-02 Mass of water (kg) = 1.000e+00 @@ -21991,10 +21991,10 @@ Reaction 1. pH = 6.232 Charge balance pe = 0.492 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 25181 + Specific Conductance (µS/cm, 85°C) = 25176 Density (g/cm³) = 0.97275 Volume (L) = 1.03492 - Viscosity (mPa s) = 0.33571 + Viscosity (mPa s) = 0.33586 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -22068,10 +22068,10 @@ Reaction 1. pH = 6.231 Charge balance pe = 0.488 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 27912 + Specific Conductance (µS/cm, 85°C) = 27906 Density (g/cm³) = 0.97322 Volume (L) = 1.03521 - Viscosity (mPa s) = 0.33597 + Viscosity (mPa s) = 0.33613 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.005e-01 Mass of water (kg) = 1.000e+00 @@ -22145,10 +22145,10 @@ Reaction 1. pH = 6.226 Charge balance pe = 0.465 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 43082 + Specific Conductance (µS/cm, 85°C) = 43070 Density (g/cm³) = 0.97591 Volume (L) = 1.03691 - Viscosity (mPa s) = 0.33744 + Viscosity (mPa s) = 0.33764 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -22222,10 +22222,10 @@ Reaction 1. pH = 6.223 Charge balance pe = 0.428 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 54353 + Specific Conductance (µS/cm, 85°C) = 54336 Density (g/cm³) = 0.97796 Volume (L) = 1.03822 - Viscosity (mPa s) = 0.33855 + Viscosity (mPa s) = 0.33877 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.057e-01 Mass of water (kg) = 1.000e+00 @@ -22299,10 +22299,10 @@ Reaction 1. pH = 6.221 Charge balance pe = 0.604 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 65054 + Specific Conductance (µS/cm, 85°C) = 65032 Density (g/cm³) = 0.97993 Volume (L) = 1.03950 - Viscosity (mPa s) = 0.33961 + Viscosity (mPa s) = 0.33986 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -22376,10 +22376,10 @@ Reaction 1. pH = 6.215 Charge balance pe = 0.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 99894 + Specific Conductance (µS/cm, 85°C) = 99851 Density (g/cm³) = 0.98654 Volume (L) = 1.04388 - Viscosity (mPa s) = 0.34316 + Viscosity (mPa s) = 0.34347 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -22453,10 +22453,10 @@ Reaction 1. pH = 6.207 Charge balance pe = 6.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 164853 + Specific Conductance (µS/cm, 85°C) = 164762 Density (g/cm³) = 0.99942 Volume (L) = 1.05280 - Viscosity (mPa s) = 0.35017 + Viscosity (mPa s) = 0.35058 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -22530,10 +22530,10 @@ Reaction 1. pH = 6.202 Charge balance pe = 0.120 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 224970 + Specific Conductance (µS/cm, 85°C) = 224823 Density (g/cm³) = 1.01192 Volume (L) = 1.06190 - Viscosity (mPa s) = 0.35717 + Viscosity (mPa s) = 0.35766 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -22607,10 +22607,10 @@ Reaction 1. pH = 6.199 Charge balance pe = 6.911 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 268408 + Specific Conductance (µS/cm, 85°C) = 268218 Density (g/cm³) = 1.02129 Volume (L) = 1.06899 - Viscosity (mPa s) = 0.36257 + Viscosity (mPa s) = 0.36311 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.231e+00 Mass of water (kg) = 1.000e+00 @@ -22684,10 +22684,10 @@ Reaction 1. pH = 6.195 Charge balance pe = -0.067 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 343818 + Specific Conductance (µS/cm, 85°C) = 343542 Density (g/cm³) = 1.03827 Volume (L) = 1.08241 - Viscosity (mPa s) = 0.37270 + Viscosity (mPa s) = 0.37333 Activity of water = 0.944 Ionic strength (mol/kgw) = 1.661e+00 Mass of water (kg) = 1.000e+00 @@ -22761,10 +22761,10 @@ Reaction 1. pH = 6.189 Charge balance pe = 7.129 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 542532 + Specific Conductance (µS/cm, 85°C) = 541997 Density (g/cm³) = 1.08827 Volume (L) = 1.12648 - Viscosity (mPa s) = 0.40566 + Viscosity (mPa s) = 0.40651 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.030e+00 Mass of water (kg) = 1.000e+00 @@ -22838,10 +22838,10 @@ Reaction 1. pH = 6.190 Charge balance pe = 7.200 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 599535 + Specific Conductance (µS/cm, 85°C) = 598919 Density (g/cm³) = 1.10445 Volume (L) = 1.14231 - Viscosity (mPa s) = 0.41749 + Viscosity (mPa s) = 0.41840 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.509e+00 Mass of water (kg) = 1.000e+00 @@ -22915,10 +22915,10 @@ Reaction 1. pH = 6.191 Charge balance pe = 7.919 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 652487 + Specific Conductance (µS/cm, 85°C) = 651793 Density (g/cm³) = 1.12048 Volume (L) = 1.15882 - Viscosity (mPa s) = 0.42985 + Viscosity (mPa s) = 0.43082 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.003e+00 Mass of water (kg) = 1.000e+00 @@ -22992,10 +22992,10 @@ Reaction 1. pH = 6.192 Charge balance pe = 7.080 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 700416 + Specific Conductance (µS/cm, 85°C) = 699652 Density (g/cm³) = 1.13600 Volume (L) = 1.17567 - Viscosity (mPa s) = 0.44248 + Viscosity (mPa s) = 0.44352 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.501e+00 Mass of water (kg) = 1.000e+00 @@ -23172,10 +23172,10 @@ Reaction 1. pH = 6.150 Charge balance pe = 0.533 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 12674 + Specific Conductance (µS/cm, 95°C) = 12672 Density (g/cm³) = 0.96375 Volume (L) = 1.04071 - Viscosity (mPa s) = 0.29838 + Viscosity (mPa s) = 0.29849 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -23249,10 +23249,10 @@ Reaction 1. pH = 6.144 Charge balance pe = 0.403 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 27250 + Specific Conductance (µS/cm, 95°C) = 27243 Density (g/cm³) = 0.96605 Volume (L) = 1.04209 - Viscosity (mPa s) = 0.29967 + Viscosity (mPa s) = 0.29983 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -23326,10 +23326,10 @@ Reaction 1. pH = 6.142 Charge balance pe = 0.627 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 30762 + Specific Conductance (µS/cm, 95°C) = 30753 Density (g/cm³) = 0.96662 Volume (L) = 1.04244 - Viscosity (mPa s) = 0.29998 + Viscosity (mPa s) = 0.30015 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.024e-01 Mass of water (kg) = 1.000e+00 @@ -23403,10 +23403,10 @@ Reaction 1. pH = 6.138 Charge balance pe = 0.669 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 46588 + Specific Conductance (µS/cm, 95°C) = 46573 Density (g/cm³) = 0.96923 Volume (L) = 1.04406 - Viscosity (mPa s) = 0.30138 + Viscosity (mPa s) = 0.30159 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -23480,10 +23480,10 @@ Reaction 1. pH = 6.136 Charge balance pe = 0.568 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 54071 + Specific Conductance (µS/cm, 95°C) = 54051 Density (g/cm³) = 0.97049 Volume (L) = 1.04485 - Viscosity (mPa s) = 0.30205 + Viscosity (mPa s) = 0.30228 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.880e-01 Mass of water (kg) = 1.000e+00 @@ -23557,10 +23557,10 @@ Reaction 1. pH = 6.132 Charge balance pe = 0.645 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 70307 + Specific Conductance (µS/cm, 95°C) = 70277 Density (g/cm³) = 0.97327 Volume (L) = 1.04662 - Viscosity (mPa s) = 0.30352 + Viscosity (mPa s) = 0.30379 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -23634,10 +23634,10 @@ Reaction 1. pH = 6.126 Charge balance pe = 0.373 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 107885 + Specific Conductance (µS/cm, 95°C) = 107828 Density (g/cm³) = 0.97990 Volume (L) = 1.05095 - Viscosity (mPa s) = 0.30702 + Viscosity (mPa s) = 0.30736 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -23711,10 +23711,10 @@ Reaction 1. pH = 6.125 Charge balance pe = 0.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 109588 + Specific Conductance (µS/cm, 95°C) = 109529 Density (g/cm³) = 0.98020 Volume (L) = 1.05115 - Viscosity (mPa s) = 0.30718 + Viscosity (mPa s) = 0.30752 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.070e-01 Mass of water (kg) = 1.000e+00 @@ -23788,10 +23788,10 @@ Reaction 1. pH = 6.112 Charge balance pe = 0.218 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 242537 + Specific Conductance (µS/cm, 95°C) = 242344 Density (g/cm³) = 1.00536 Volume (L) = 1.06883 - Viscosity (mPa s) = 0.32079 + Viscosity (mPa s) = 0.32133 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -23865,10 +23865,10 @@ Reaction 1. pH = 6.109 Charge balance pe = 0.273 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 284612 + Specific Conductance (µS/cm, 95°C) = 284366 Density (g/cm³) = 1.01381 Volume (L) = 1.07516 - Viscosity (mPa s) = 0.32554 + Viscosity (mPa s) = 0.32613 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.207e+00 Mass of water (kg) = 1.000e+00 @@ -23942,10 +23942,10 @@ Reaction 1. pH = 6.105 Charge balance pe = 0.093 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 371921 + Specific Conductance (µS/cm, 95°C) = 371557 Density (g/cm³) = 1.03215 Volume (L) = 1.08954 - Viscosity (mPa s) = 0.33619 + Viscosity (mPa s) = 0.33688 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.671e+00 Mass of water (kg) = 1.000e+00 @@ -24019,10 +24019,10 @@ Reaction 1. pH = 6.102 Charge balance pe = 6.477 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 444829 + Specific Conductance (µS/cm, 95°C) = 444356 Density (g/cm³) = 1.04837 Volume (L) = 1.10302 - Viscosity (mPa s) = 0.34604 + Viscosity (mPa s) = 0.34682 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.097e+00 Mass of water (kg) = 1.000e+00 @@ -24096,10 +24096,10 @@ Reaction 1. pH = 6.101 Charge balance pe = -0.057 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 516353 + Specific Conductance (µS/cm, 95°C) = 515766 Density (g/cm³) = 1.06522 Volume (L) = 1.11778 - Viscosity (mPa s) = 0.35675 + Viscosity (mPa s) = 0.35761 Activity of water = 0.913 Ionic strength (mol/kgw) = 2.558e+00 Mass of water (kg) = 1.000e+00 @@ -24173,10 +24173,10 @@ Reaction 1. pH = 6.100 Charge balance pe = 6.576 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 583880 + Specific Conductance (µS/cm, 95°C) = 583181 Density (g/cm³) = 1.08211 Volume (L) = 1.13341 - Viscosity (mPa s) = 0.36802 + Viscosity (mPa s) = 0.36895 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.038e+00 Mass of water (kg) = 1.000e+00 @@ -24250,10 +24250,10 @@ Reaction 1. pH = 6.100 Charge balance pe = -0.190 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 642314 + Specific Conductance (µS/cm, 95°C) = 641516 Density (g/cm³) = 1.09765 Volume (L) = 1.14857 - Viscosity (mPa s) = 0.37889 + Viscosity (mPa s) = 0.37989 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.497e+00 Mass of water (kg) = 1.000e+00 @@ -24327,10 +24327,10 @@ Reaction 1. pH = 6.101 Charge balance pe = 0.110 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 699180 + Specific Conductance (µS/cm, 95°C) = 698282 Density (g/cm³) = 1.11377 Volume (L) = 1.16512 - Viscosity (mPa s) = 0.39073 + Viscosity (mPa s) = 0.39180 Activity of water = 0.864 Ionic strength (mol/kgw) = 3.993e+00 Mass of water (kg) = 1.000e+00 @@ -24404,10 +24404,10 @@ Reaction 1. pH = 6.103 Charge balance pe = 7.684 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 751362 + Specific Conductance (µS/cm, 95°C) = 750373 Density (g/cm³) = 1.12962 Volume (L) = 1.18227 - Viscosity (mPa s) = 0.40297 + Viscosity (mPa s) = 0.40411 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -24584,10 +24584,10 @@ Reaction 1. pH = 6.116 Charge balance pe = 0.558 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 16403 + Specific Conductance (µS/cm, 99°C) = 16400 Density (g/cm³) = 0.96144 Volume (L) = 1.04406 - Viscosity (mPa s) = 0.28614 + Viscosity (mPa s) = 0.28626 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.091e-02 Mass of water (kg) = 1.000e+00 @@ -24661,10 +24661,10 @@ Reaction 1. pH = 6.110 Charge balance pe = 0.591 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 31072 + Specific Conductance (µS/cm, 99°C) = 31063 Density (g/cm³) = 0.96372 Volume (L) = 1.04542 - Viscosity (mPa s) = 0.28738 + Viscosity (mPa s) = 0.28755 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.004e-01 Mass of water (kg) = 1.000e+00 @@ -24738,10 +24738,10 @@ Reaction 1. pH = 6.109 Charge balance pe = 0.626 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 32256 + Specific Conductance (µS/cm, 99°C) = 32246 Density (g/cm³) = 0.96390 Volume (L) = 1.04553 - Viscosity (mPa s) = 0.28748 + Viscosity (mPa s) = 0.28766 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.045e-01 Mass of water (kg) = 1.000e+00 @@ -24815,10 +24815,10 @@ Reaction 1. pH = 6.107 Charge balance pe = 0.668 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 40103 + Specific Conductance (µS/cm, 99°C) = 40089 Density (g/cm³) = 0.96516 Volume (L) = 1.04630 - Viscosity (mPa s) = 0.28815 + Viscosity (mPa s) = 0.28835 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.320e-01 Mass of water (kg) = 1.000e+00 @@ -24892,10 +24892,10 @@ Reaction 1. pH = 6.101 Charge balance pe = 0.420 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 60708 + Specific Conductance (µS/cm, 99°C) = 60683 Density (g/cm³) = 0.96853 Volume (L) = 1.04839 - Viscosity (mPa s) = 0.28992 + Viscosity (mPa s) = 0.29017 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.066e-01 Mass of water (kg) = 1.000e+00 @@ -24969,10 +24969,10 @@ Reaction 1. pH = 6.090 Charge balance pe = 0.612 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 132990 + Specific Conductance (µS/cm, 99°C) = 132907 Density (g/cm³) = 0.98101 Volume (L) = 1.05653 - Viscosity (mPa s) = 0.29645 + Viscosity (mPa s) = 0.29684 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.891e-01 Mass of water (kg) = 1.000e+00 @@ -25046,10 +25046,10 @@ Reaction 1. pH = 6.084 Charge balance pe = 0.076 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 185277 + Specific Conductance (µS/cm, 99°C) = 185139 Density (g/cm³) = 0.99051 Volume (L) = 1.06305 - Viscosity (mPa s) = 0.30148 + Viscosity (mPa s) = 0.30195 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.104e-01 Mass of water (kg) = 1.000e+00 @@ -25123,10 +25123,10 @@ Reaction 1. pH = 6.080 Charge balance pe = 5.187 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 237054 + Specific Conductance (µS/cm, 99°C) = 236855 Density (g/cm³) = 1.00026 Volume (L) = 1.07002 - Viscosity (mPa s) = 0.30675 + Viscosity (mPa s) = 0.30729 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.429e-01 Mass of water (kg) = 1.000e+00 @@ -25200,10 +25200,10 @@ Reaction 1. pH = 6.074 Charge balance pe = 6.600 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 334937 + Specific Conductance (µS/cm, 99°C) = 334605 Density (g/cm³) = 1.01964 Volume (L) = 1.08462 - Viscosity (mPa s) = 0.31758 + Viscosity (mPa s) = 0.31824 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.421e+00 Mass of water (kg) = 1.000e+00 @@ -25277,10 +25277,10 @@ Reaction 1. pH = 6.069 Charge balance pe = 6.463 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 442698 + Specific Conductance (µS/cm, 99°C) = 442198 Density (g/cm³) = 1.04252 Volume (L) = 1.10317 - Viscosity (mPa s) = 0.33105 + Viscosity (mPa s) = 0.33184 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.013e+00 Mass of water (kg) = 1.000e+00 @@ -25354,10 +25354,10 @@ Reaction 1. pH = 6.067 Charge balance pe = 6.792 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 666182 + Specific Conductance (µS/cm, 99°C) = 665289 Density (g/cm³) = 1.09681 Volume (L) = 1.15316 - Viscosity (mPa s) = 0.36657 + Viscosity (mPa s) = 0.36762 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.552e+00 Mass of water (kg) = 1.000e+00 @@ -25535,10 +25535,10 @@ Reaction 1. pH = 5.925 Charge balance pe = 0.704 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 36455 + Specific Conductance (µS/cm, 125°C) = 36438 Density (g/cm³) = 0.94383 Volume (L) = 1.06749 - Viscosity (mPa s) = 0.22470 + Viscosity (mPa s) = 0.22491 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.009e-01 Mass of water (kg) = 1.000e+00 @@ -25613,10 +25613,10 @@ Reaction 1. pH = 5.885 Charge balance pe = 5.931 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 390555 + Specific Conductance (µS/cm, 125°C) = 389963 Density (g/cm³) = 1.00098 Volume (L) = 1.10543 - Viscosity (mPa s) = 0.25247 + Viscosity (mPa s) = 0.25327 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.429e+00 Mass of water (kg) = 1.000e+00 @@ -25691,10 +25691,10 @@ Reaction 1. pH = 5.878 Charge balance pe = 5.553 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 773218 + Specific Conductance (µS/cm, 125°C) = 771664 Density (g/cm³) = 1.07913 Volume (L) = 1.17344 - Viscosity (mPa s) = 0.29661 + Viscosity (mPa s) = 0.29788 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.572e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_KCl_sol_101.sel b/mytest/Vm_KCl_sol_101.sel index 71c0c7c3..74cea257 100644 --- a/mytest/Vm_KCl_sol_101.sel +++ b/mytest/Vm_KCl_sol_101.sel @@ -1,332 +1,332 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.040000050547 3381.9809490758 - 0.060040051720 4994.2090242033 - 0.090000052986 7352.3350653819 - 0.100010053329 8129.3975384118 - 0.120060053934 9672.5169406229 - 0.160000054908 12702.2590257801 - 0.199980055677 15687.5765789898 - 0.250000056454 19369.2169333947 - 0.250170056456 19381.6409259387 - 0.350020057629 26591.6359486098 - 0.400000058096 30143.7068960610 - 0.452530058526 33842.0846889830 - 0.499660058872 37132.4712595263 - 0.499920058874 37150.5540490745 - 0.700000060053 50862.5949534448 - 0.936920061082 66634.0028157011 - 1.000000061313 70755.5696844465 - 1.396060062486 95926.9915193850 - 1.917390063514 127219.8288766419 - 2.394920064082 153990.2748637672 - 2.961220064396 183260.7583916300 - 3.446570064415 206104.8423767585 - 4.059680064178 231896.7225183124 - 0.000000067373 0.0312920192 - 0.040000079105 4361.6448117741 - 0.040030079108 4364.7866582722 - 0.050000080123 5402.5552839400 - 0.100000083612 10463.0171322858 - 0.100441083635 10506.8182049235 - 0.160000086208 16325.8438189040 - 0.201434087529 20282.8397661095 - 0.250000088790 24847.2311014301 - 0.400000091593 38561.4486189213 - 0.444040092227 42498.4763666061 - 0.500000092953 47451.1689035411 - 0.507863093049 48142.8297864197 - 0.700000095053 64748.9516556326 - 0.900260096679 81516.0420500734 - 1.000000097373 89679.4832821706 - 1.000000097373 89679.4832821706 - 1.370830099508 119011.0107141391 - 1.862350101580 155521.1117570163 - 2.000000102042 165271.5030886955 - 2.359040103049 189731.1589729423 - 2.870070104055 222115.5557727101 - 3.000000104242 229893.3451171753 - 3.402230104670 252799.2488038834 - 3.951200104937 281213.9838924474 - 4.000000104945 283581.9446210873 - 4.401560104933 302099.5497792825 + 0.000000043183 0.0164557984 + 0.040000050547 3382.0760874928 + 0.060040051720 4994.3813466609 + 0.090000052986 7352.6462215919 + 0.100010053329 8129.7604295132 + 0.120060053934 9672.9906027718 + 0.160000054908 12702.9788794191 + 0.199980055677 15688.5729731531 + 0.250000056454 19370.5967157749 + 0.250170056456 19383.0220772074 + 0.350020057629 26593.8911084946 + 0.400000058096 30146.4479368498 + 0.452530058526 33845.3680456371 + 0.499660058872 37136.2671925231 + 0.499920058874 37154.3528755450 + 0.700000060053 50868.8180862085 + 0.936920061082 66643.5488767150 + 1.000000061313 70766.0731193458 + 1.396060062486 95944.0976308159 + 1.917390063514 127246.8454346247 + 2.394920064082 154027.1486097460 + 2.961220064396 183309.7188059099 + 3.446570064415 206164.0564656439 + 4.059680064178 231968.1767050637 + 0.000000067373 0.0312920198 + 0.040000079105 4361.7106354971 + 0.040030079108 4364.8525541618 + 0.050000080123 5402.6464660143 + 0.100000083612 10463.2672603446 + 0.100441083635 10507.0699369642 + 0.160000086208 16326.3384911163 + 0.201434087529 20283.5303139908 + 0.250000088790 24848.1750968945 + 0.400000091593 38563.3110756563 + 0.444040092227 42500.6420954523 + 0.500000092953 47453.7393992429 + 0.507863093049 48145.4588171775 + 0.700000095053 64753.1262734699 + 0.900260096679 81522.0331379947 + 1.000000097373 89686.4458542274 + 1.000000097373 89686.4458542274 + 1.370830099508 119021.9040131853 + 1.862350101580 155537.7905593927 + 2.000000102042 165289.8830163342 + 2.359040103049 189754.0769036326 + 2.870070104055 222145.0349499861 + 3.000000104242 229924.4860961415 + 3.402230104670 252835.4564272361 + 3.951200104937 281256.7820412115 + 4.000000104945 283625.3043248823 + 4.401560104933 302147.3475486677 0.000000100644 0.0547821292 - 0.040000118536 5385.5431008462 - 0.040110118555 5399.7446026344 - 0.040111118555 5399.8736978553 - 0.042251118912 5675.7417486301 - 0.046420119571 6210.9895622873 - 0.050000120102 6668.4508949459 - 0.050155120124 6688.2139818506 - 0.051030120249 6799.7142264718 - 0.055810120905 7406.9163488884 - 0.057500121127 7620.8531745592 - 0.059000121319 7810.4251300617 - 0.059830121424 7915.1975777840 - 0.060040121450 7941.6924269250 - 0.075900123258 9927.6612212968 - 0.079740123650 10404.3877682641 - 0.087000124351 11301.7396491081 - 0.087690124415 11386.7663482867 - 0.090000124627 11671.1048908975 - 0.095500125113 12346.1940094526 - 0.096350125186 12450.2926035730 - 0.098490125368 12712.1064450778 - 0.099740125472 12864.8586952058 - 0.099900125486 12884.4016881776 - 0.099900125486 12884.4016881776 - 0.100000125494 12896.6149921786 - 0.100400125527 12945.4600189515 - 0.100448125531 12951.3205430317 - 0.101582125625 13089.7208715994 - 0.118200126902 15106.4390467118 - 0.124600127353 15877.7558495003 - 0.133100127923 16897.8825347952 - 0.134000127982 17005.6201698104 - 0.145800128719 18413.5108898623 - 0.150040128971 18917.3496955588 - 0.159700129523 20061.4014344609 - 0.160000129540 20096.8476542595 - 0.161565129626 20281.6790458576 - 0.163100129710 20462.8381489699 - 0.182566130721 22749.5118173598 - 0.199100131506 24677.1126513518 - 0.201445131613 24949.4743987930 - 0.220820132454 27190.5334765501 - 0.250000133602 30536.4599918726 - 0.250000133602 30536.4599918726 - 0.255500133804 31163.4244843619 - 0.267895134247 32572.2948744770 - 0.274100134461 33275.5113544116 - 0.274290134468 33297.0227700059 - 0.303040135406 36537.8580876912 - 0.318240135870 38240.3241210244 - 0.319700135914 38403.4669116040 - 0.329740136208 39523.5707167915 - 0.364118137158 43336.1443073615 - 0.400000138065 47279.9358168431 - 0.400370138074 47320.4216661903 - 0.404300138169 47750.2246109685 - 0.412334138360 48627.6036869641 - 0.438650138964 51489.9599377364 - 0.443200139065 51983.0969742738 - 0.447460139158 52444.3412727724 - 0.454980139322 53257.4747706667 - 0.494400140142 57497.8782108254 - 0.500000140254 58097.3339780457 - 0.500000140254 58097.3339780457 - 0.500000140254 58097.3339780457 - 0.503100140315 58428.8679990002 - 0.503890140331 58513.3207927244 - 0.504100140335 58535.7678881457 - 0.507930140410 58944.9850253426 - 0.518410140614 60063.0353037027 - 0.518843140622 60109.1766967538 - 0.533100140893 61626.1126513395 - 0.592300141953 67878.0563934030 - 0.596800142030 68350.2788809833 - 0.614880142333 70243.3884193971 - 0.649742142898 73875.1350423978 - 0.700000143667 79068.9241219406 - 0.704470143734 79528.5265758508 - 0.706900143769 79778.2194474532 - 0.723500144011 81480.9768560779 - 0.725030144033 81637.6587236636 - 0.748500144367 84035.7077648646 - 0.800400145075 89302.9504479589 - 0.824770145394 91759.6033733705 - 0.893560146255 98638.1886782422 - 0.903210146372 99596.6346400910 - 0.928010146666 102052.5681301990 - 0.947700146895 103995.1083215663 - 0.991000147386 108244.2842087165 - 0.997300147456 108859.9528154451 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.004910147540 109602.7759820413 - 1.016000147661 110683.5961189845 - 1.018000147683 110878.3011421678 - 1.019582147700 111032.2667874443 - 1.021575147722 111226.1745199393 - 1.024090147749 111470.7779752917 - 1.049015148016 113889.3989878405 - 1.217300149691 129961.0209574010 - 1.296800150415 137400.6150000906 - 1.358400150949 143099.1548529163 - 1.375273151092 144650.1005939368 - 1.377650151112 144868.2491108127 - 1.383660151162 145419.4385591340 - 1.413900151412 148184.6351659658 - 1.469000151855 153188.1652943314 - 1.500000152098 155983.5164153621 - 1.500654152103 156042.3373367473 - 1.521092152260 157877.3669457981 - 1.546910152456 160186.6992778002 - 1.703200153576 173959.6554975004 - 1.721800153702 175575.3252978887 - 1.775800154060 180237.9463332996 - 1.843810154494 186051.1825262854 - 2.000000155425 199154.3856724088 - 2.000000155425 199154.3856724088 - 2.000000155425 199154.3856724088 - 2.011393155489 200096.7761477529 - 2.047600155691 203079.6575310970 - 2.083023155884 205980.2682833275 - 2.091000155926 206631.0559220172 - 2.106000156007 207852.4077697743 - 2.106650156010 207905.2620855640 - 2.284600156903 222155.5057802300 - 2.350000157207 227283.2830016329 - 2.366920157283 228600.3914851944 - 2.374500157317 229189.1750433576 - 2.424000157535 233014.8692504634 - 2.496800157843 238580.7932937667 - 2.500000157856 238823.7993366301 - 2.604000158269 246646.1198817872 - 2.725170158715 255576.2164047737 - 2.767704158863 258664.2904131483 - 2.797700158965 260827.5585540483 - 2.880830159235 266760.2091610410 - 2.893580159275 267662.0115246067 - 3.000000159595 275105.2135183248 - 3.000000159595 275105.2135183248 - 3.000000159595 275105.2135183248 - 3.001300159599 275195.2141806608 - 3.012000159630 275935.1439773074 - 3.013678159634 276051.0452407132 - 3.355400160490 298887.5420560483 - 3.410020160605 302397.4087548922 - 3.412300160610 302543.0864230865 - 3.421610160629 303137.2477239476 - 3.493400160772 307681.5811586363 - 3.500000160784 308096.0577972806 - 3.532700160846 310141.3995854141 - 3.534700160849 310266.0549161145 - 3.548500160875 311124.7892148899 - 3.590115160949 313699.7152707619 - 3.918000161437 333224.4508234918 - 3.930330161452 333932.4895506394 - 3.931770161454 334015.0574855581 - 3.948700161474 334983.8808205615 - 3.956000161483 335400.5339833130 - 3.957850161485 335506.0170813572 - 3.961800161490 335731.1006380793 - 4.000000161533 337897.9285262976 - 4.000000161533 337897.9285262976 - 4.033833161570 339802.0459883646 - 4.153000161688 346397.0933411033 - 4.272000161788 352810.5915164200 - 4.400040161875 359520.9308686481 - 4.400580161875 359548.8163237356 - 4.500000161929 364623.8404416511 - 4.500000161929 364623.8404416511 - 4.554690161954 367365.7567879112 - 4.591192161968 369176.2487687430 - 4.603000161973 369758.5820386879 - 4.693400162002 374162.9389909157 - 4.818100162028 380083.0972116992 - 0.000000200960 0.1389183081 - 0.040000238263 7507.7546160113 - 0.090000251172 16226.9492017517 - 0.100000253023 17923.2190790080 - 0.110840254867 19747.9693263815 - 0.140240259206 24632.3539478352 - 0.160000261708 27868.6130360357 - 0.214990267486 36710.7870410619 - 0.250000270522 42232.7067620029 - 0.400000280326 65148.5582362683 - 0.431920281979 69893.3311330769 - 0.500000285175 79879.6709803977 - 0.500000285175 79879.6709803977 - 0.700000292782 108282.4942526562 - 1.000000301338 148646.0338781512 - 1.000000301338 148646.0338781512 - 1.000000301338 148646.0338781512 - 1.500000311752 210835.9324207162 - 1.668760314583 230528.5834749442 - 2.000000319404 267409.0049832070 - 2.000000319404 267409.0049832070 - 2.106830320779 278820.1988608294 - 2.500000325195 318872.7594090651 - 2.709410327184 338999.0537961930 - 3.000000329584 365593.8930777679 - 3.000000329584 365593.8930777679 - 3.020280329737 367393.3771708413 - 3.481320332768 406377.9469642774 - 3.500000332874 407881.4468332384 - 3.980310335212 444589.6598690341 - 4.000000335293 446016.1629380558 - 4.000000335293 446016.1629380558 - 4.500000337013 480262.2451346432 - 4.501070337016 480331.5453038263 - 0.000000354775 0.2906266063 - 0.040000423762 9644.0205979806 - 0.090000447935 20796.2634794141 - 0.099980451411 22957.7649167881 - 0.160000467818 35640.5543741417 - 0.250000484566 53900.6536529949 - 0.400000503301 82924.8785205043 - 0.414940504809 85737.6824193676 - 0.700000527165 137240.1456959747 - 0.791540532681 153012.4584544559 - 1.000000543500 187721.7673509017 - 1.210810552682 221251.2037886376 - 2.053600579142 341565.3876404556 - 2.494080588665 396706.9384901532 - 3.425060603174 498109.8628711273 - 3.889560608115 541790.1033498412 - 4.400920612272 585093.6924148453 - 0.000000566469 0.5248208249 - 0.040000682282 11701.1172837935 - 0.065980706606 18801.8544130957 - 0.090000723291 25181.4470469028 - 0.100450729477 27912.8989375614 - 0.160000757225 43082.0141668315 - 0.205670773148 54353.0088126767 - 0.250000785949 65054.6222222213 - 0.400000818186 99894.8631146226 - 0.700000859232 164853.7398603238 - 1.000000887157 224970.1285758097 - 1.230600904100 268408.8800607310 - 1.661060929349 343818.2858036695 - 3.030150979186 542532.2245576777 - 3.509120989963 599535.8165599976 - 4.002930998701 652487.2669568378 - 4.500841005555 700416.5060893812 - 0.000000693037 0.6737094450 - 0.040000838517 12674.2752178633 - 0.090000890280 27250.9453540459 - 0.102440899517 30762.0218829470 - 0.160000933222 46588.9831901379 - 0.187950946081 54071.4863392789 - 0.250000969646 70307.6200009016 - 0.400001010590 107885.4603672434 - 0.406991012146 109588.1895630258 - 1.000001097997 242537.8172250570 - 1.207301117350 284612.0336697077 - 1.670931151713 371921.8226853239 - 2.097481176003 444829.5820879306 - 2.557551196674 516353.1778101965 - 3.037691213872 583880.5862167826 - 3.497121226930 642314.8911985783 - 3.992701238122 699180.1776339058 - 4.500121247086 751362.5256945791 - 0.000000747149 0.7388248064 - 0.050910921262 16403.8248680001 - 0.100400970705 31072.3495572706 - 0.104500973868 32256.5594102303 - 0.132000992849 40103.3203450429 - 0.206601031612 60708.9563381299 - 0.489101113796 132990.8448217865 - 0.710401152326 185277.0946312482 - 0.942901182868 237054.3551593674 - 1.420701229076 334937.5501923847 - 2.013001269524 442698.2833439225 - 3.551701331355 666182.0748972698 - 0.000001137128 1.2246303646 - 0.100901505401 36455.1412882165 - 1.428701936790 390555.3732670741 - 3.571802103124 773218.7551735641 + 0.040000118536 5385.5431704676 + 0.040110118555 5399.7446725353 + 0.040111118555 5399.8737677588 + 0.042251118912 5675.7418240399 + 0.046420119571 6210.9896487855 + 0.050000120102 6668.4509913311 + 0.050155120124 6688.2140786713 + 0.051030120249 6799.7143257619 + 0.055810120905 7406.9164619999 + 0.057500121127 7620.8532926878 + 0.059000121319 7810.4252526988 + 0.059830121424 7915.1977029380 + 0.060040121450 7941.6925527183 + 0.075900123258 9927.6613981196 + 0.079740123650 10404.3879582134 + 0.087000124351 11301.7398646407 + 0.087690124415 11386.7665663015 + 0.090000124627 11671.1051172848 + 0.095500125113 12346.1942561552 + 0.096350125186 12450.2928534623 + 0.098490125368 12712.1067030446 + 0.099740125472 12864.8589579268 + 0.099900125486 12884.4019515090 + 0.099900125486 12884.4019515090 + 0.100000125494 12896.6152558917 + 0.100400125527 12945.4602841932 + 0.100448125531 12951.3208084570 + 0.101582125625 13089.7211413738 + 0.118200126902 15106.4393826035 + 0.124600127353 15877.7562119963 + 0.133100127923 16897.8829335560 + 0.134000127982 17005.6205724718 + 0.145800128719 18413.5113447056 + 0.150040128971 18917.3501696141 + 0.159700129523 20061.4019531679 + 0.160000129540 20096.8481743725 + 0.161565129626 20281.6795733235 + 0.163100129710 20462.8386836778 + 0.182566130721 22749.5124464236 + 0.199100131506 24677.1133640723 + 0.201445131613 24949.4751236291 + 0.220820132454 27190.5343037827 + 0.250000133602 30536.4609806895 + 0.250000133602 30536.4609806895 + 0.255500133804 31163.4255045811 + 0.267895134247 32572.2959665237 + 0.274100134461 33275.5124829559 + 0.274290134468 33297.0238996734 + 0.303040135406 36537.8593910549 + 0.318240135870 38240.3255191320 + 0.319700135914 38403.4683189148 + 0.329740136208 39523.5721878687 + 0.364118137158 43336.1460029359 + 0.400000138065 47279.9377564157 + 0.400370138074 47320.4236083283 + 0.404300138169 47750.2265804164 + 0.412334138360 48627.6057125848 + 0.438650138964 51489.9621505245 + 0.443200139065 51983.0992199052 + 0.447460139158 52444.3435492804 + 0.454980139322 53257.4771019763 + 0.494400140142 57497.8808354406 + 0.500000140254 58097.3366451294 + 0.500000140254 58097.3366451294 + 0.500000140254 58097.3366451294 + 0.503100140315 58428.8706896770 + 0.503890140331 58513.3234894232 + 0.504100140335 58535.7705864459 + 0.507930140410 58944.9877528973 + 0.518410140614 60063.0381117650 + 0.518843140622 60109.1795081567 + 0.533100140893 61626.1155733669 + 0.592300141953 67878.0597874227 + 0.596800142030 68350.2823116862 + 0.614880142333 70243.3919985918 + 0.649742142898 73875.1389128042 + 0.700000143667 79068.9284230315 + 0.704470143734 79528.5309158467 + 0.706900143769 79778.2238086389 + 0.723500144011 81480.9813627673 + 0.725030144033 81637.6632438292 + 0.748500144367 84035.7124931132 + 0.800400145075 89302.9556451529 + 0.824770145394 91759.6087947902 + 0.893560146255 98638.1947457536 + 0.903210146372 99596.6407997343 + 0.928010146666 102052.5745282433 + 0.947700146895 103995.1149105249 + 0.991000147386 108244.2912224439 + 0.997300147456 108859.9598915260 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.004910147540 109602.7831336239 + 1.016000147661 110683.6033809502 + 1.018000147683 110878.3084240847 + 1.019582147700 111032.2740851522 + 1.021575147722 111226.1818375526 + 1.024090147749 111470.7853180432 + 1.049015148016 113889.4065808629 + 1.217300149691 129961.0302906022 + 1.296800150415 137400.6251830085 + 1.358400150949 143099.1657050592 + 1.375273151092 144650.1116309387 + 1.377650151112 144868.2601739086 + 1.383660151162 145419.4496882625 + 1.413900151412 148184.6466285554 + 1.469000151855 153188.1773695185 + 1.500000152098 155983.5288379084 + 1.500654152103 156042.3497666419 + 1.521092152260 157877.3796057458 + 1.546910152456 160186.7122294748 + 1.703200153576 173959.6702394191 + 1.721800153702 175575.3402553815 + 1.775800154060 180237.9619193486 + 1.843810154494 186051.1989092474 + 2.000000155425 199154.4039044173 + 2.000000155425 199154.4039044173 + 2.000000155425 199154.4039044173 + 2.011393155489 200096.7945155142 + 2.047600155691 203079.6763309568 + 2.083023155884 205980.2875068591 + 2.091000155926 206631.0752410747 + 2.106000156007 207852.4272685706 + 2.106650156010 207905.2815921521 + 2.284600156903 222155.5274281666 + 2.350000157207 227283.3054395033 + 2.366920157283 228600.4141275873 + 2.374500157317 229189.1977773906 + 2.424000157535 233014.8925831227 + 2.496800157843 238580.8175071024 + 2.500000157856 238823.8235886762 + 2.604000158269 246646.1453913715 + 2.725170158715 255576.2433766043 + 2.767704158863 258664.3178970718 + 2.797700158965 260827.5863986394 + 2.880830159235 266760.2380027979 + 2.893580159275 267662.0405189596 + 3.000000159595 275105.2437822206 + 3.000000159595 275105.2437822206 + 3.000000159595 275105.2437822206 + 3.001300159599 275195.2444600158 + 3.012000159630 275935.1743838558 + 3.013678159634 276051.0756672007 + 3.355400160490 298887.5764903663 + 3.410020160605 302397.4438184583 + 3.412300160610 302543.1215128418 + 3.421610160629 303137.2829205767 + 3.493400160772 307681.6171757583 + 3.500000160784 308096.0938895056 + 3.532700160846 310141.4360488974 + 3.534700160849 310266.0914022589 + 3.548500160875 311124.8258572498 + 3.590115160949 313699.7523826390 + 3.918000161437 333224.4915456134 + 3.930330161452 333932.5304052117 + 3.931770161454 334015.0983555827 + 3.948700161474 334983.9218719953 + 3.956000161483 335400.5751128194 + 3.957850161485 335506.0582306344 + 3.961800161490 335731.1418295511 + 4.000000161533 337897.9701244567 + 4.000000161533 337897.9701244567 + 4.033833161570 339802.0879446187 + 4.153000161688 346397.1365425215 + 4.272000161788 352810.6359353318 + 4.400040161875 359520.9765673976 + 4.400580161875 359548.8620278150 + 4.500000161929 364623.8871170854 + 4.500000161929 364623.8871170854 + 4.554690161954 367365.8039891558 + 4.591192161968 369176.2963175132 + 4.603000161973 369758.6296992883 + 4.693400162002 374162.9874980079 + 4.818100162028 380083.1468579830 + 0.000000200960 0.1389182971 + 0.040000238263 7507.4791992809 + 0.090000251172 16226.0577252491 + 0.100000253023 17922.1814549808 + 0.110840254867 19746.7660680274 + 0.140240259206 24630.6671141074 + 0.160000261708 27866.5756579175 + 0.214990267486 36707.6805966705 + 0.250000270522 42228.8565736639 + 0.400000280326 65141.0747627421 + 0.431920281979 69884.9954319696 + 0.500000285175 79869.4393927124 + 0.500000285175 79869.4393927124 + 0.700000292782 108266.1729056262 + 1.000000301338 148619.4874837863 + 1.000000301338 148619.4874837863 + 1.000000301338 148619.4874837863 + 1.500000311752 210790.5528086711 + 1.668760314583 230476.5531025039 + 2.000000319404 267343.7218895292 + 2.000000319404 267343.7218895292 + 2.106830320779 278750.6171162169 + 2.500000325195 318787.4065149762 + 2.709410327184 338905.4018781768 + 3.000000329584 365488.9259639346 + 3.000000329584 365488.9259639346 + 3.020280329737 367287.6309285574 + 3.481320332768 406254.9398555242 + 3.500000332874 407757.7604214073 + 3.980310335212 444449.1209907044 + 4.000000335293 445874.9598395107 + 4.000000335293 445874.9598395107 + 4.500000337013 480104.9353461404 + 4.501070337016 480174.2026629215 + 0.000000354775 0.2906265338 + 0.040000423762 9643.2217647249 + 0.090000447935 20793.6873380932 + 0.099980451411 22954.7691856792 + 0.160000467818 35634.6904866910 + 0.250000484566 53889.6212685137 + 0.400000503301 82903.5761742595 + 0.414940504809 85715.2673307436 + 0.700000527165 137194.2292544623 + 0.791540532681 152958.2809964963 + 1.000000543500 187647.8763558928 + 1.210810552682 221156.4456706681 + 2.053600579142 341383.4474340342 + 2.494080588665 396479.7319600153 + 3.425060603174 497792.8225054493 + 3.889560608115 541432.3581252687 + 4.400920612272 584694.8021340446 + 0.000000566469 0.5248205333 + 0.040000682282 11699.4866696500 + 0.065980706606 18798.4964565080 + 0.090000723291 25176.2043349056 + 0.100450729477 27906.7643208276 + 0.160000757225 43070.1170469149 + 0.205670773148 54336.0475553800 + 0.250000785949 65032.3111928274 + 0.400000818186 99851.9838845662 + 0.700000859232 164762.0690588920 + 1.000000887157 224823.6880514901 + 1.230600904100 268218.1333940197 + 1.661060929349 343542.7173381645 + 3.030150979186 541997.0831610261 + 3.509120989963 598919.4266801879 + 4.002930998701 651793.7483703292 + 4.500841005555 699652.3155420647 + 0.000000693037 0.6737089236 + 0.040000838517 12672.0975653613 + 0.090000890280 27243.9528522456 + 0.102440899517 30753.6093366112 + 0.160000933222 46573.1348641821 + 0.187950946081 54051.5951609180 + 0.250000969646 70277.9362398350 + 0.400001010590 107828.5116415584 + 0.406991012146 109529.8702033700 + 1.000001097997 242344.4396245578 + 1.207301117350 284366.5627893931 + 1.670931151713 371557.2955254171 + 2.097481176003 444356.2248057218 + 2.557551196674 515766.3788114426 + 3.037691213872 583181.8482294847 + 3.497121226930 641516.3794031673 + 3.992701238122 698282.7417904856 + 4.500121247086 750373.3986264711 + 0.000000747149 0.7388241598 + 0.050910921262 16400.3931650721 + 0.100400970705 31063.2609379130 + 0.104500973868 32246.9370736654 + 0.132000992849 40089.9062789663 + 0.206601031612 60683.7077782213 + 0.489101113796 132907.6445703633 + 0.710401152326 185139.8158017070 + 0.942901182868 236855.6485012875 + 1.420701229076 334605.4329192377 + 2.013001269524 442198.7564417518 + 3.551701331355 665289.7379779083 + 0.000001137128 1.2246282157 + 0.100901505401 36438.5923934910 + 1.428701936790 389963.5080350289 + 3.571802103124 771664.7430473494 diff --git a/mytest/Vm_KHCO3_sol.out b/mytest/Vm_KHCO3_sol.out index 94158159..cf4881eb 100644 --- a/mytest/Vm_KHCO3_sol.out +++ b/mytest/Vm_KHCO3_sol.out @@ -228,10 +228,10 @@ Reaction 1. pH = 8.215 Charge balance pe = 11.432 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 26283 + Specific Conductance (µS/cm, 5°C) = 26284 Density (g/cm³) = 1.03337 Volume (L) = 1.01649 - Viscosity (mPa s) = 1.71909 + Viscosity (mPa s) = 1.71867 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.784e-01 Mass of water (kg) = 1.000e+00 @@ -315,10 +315,10 @@ Reaction 1. pH = 8.254 Charge balance pe = 11.407 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 16735 + Specific Conductance (µS/cm, 5°C) = 16736 Density (g/cm³) = 1.02037 Volume (L) = 1.00964 - Viscosity (mPa s) = 1.65033 + Viscosity (mPa s) = 1.65000 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.925e-01 Mass of water (kg) = 1.000e+00 @@ -405,7 +405,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 8884 Density (g/cm³) = 1.01030 Volume (L) = 1.00472 - Viscosity (mPa s) = 1.58910 + Viscosity (mPa s) = 1.58886 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.485e-01 Mass of water (kg) = 1.000e+00 @@ -492,7 +492,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 4964 Density (g/cm³) = 1.00554 Volume (L) = 1.00252 - Viscosity (mPa s) = 1.55781 + Viscosity (mPa s) = 1.55763 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.033e-02 Mass of water (kg) = 1.000e+00 @@ -579,7 +579,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 3186 Density (g/cm³) = 1.00347 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.54363 + Viscosity (mPa s) = 1.54349 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.049e-02 Mass of water (kg) = 1.000e+00 @@ -666,7 +666,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 1948 Density (g/cm³) = 1.00206 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.53383 + Viscosity (mPa s) = 1.53373 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.027e-02 Mass of water (kg) = 1.000e+00 @@ -753,7 +753,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 997 Density (g/cm³) = 1.00101 Volume (L) = 1.00049 - Viscosity (mPa s) = 1.52635 + Viscosity (mPa s) = 1.52627 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.515e-02 Mass of water (kg) = 1.000e+00 @@ -942,10 +942,10 @@ Reaction 1. pH = 8.153 Charge balance pe = 11.555 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 30087 + Specific Conductance (µS/cm, 10°C) = 30088 Density (g/cm³) = 1.03260 Volume (L) = 1.01725 - Viscosity (mPa s) = 1.49890 + Viscosity (mPa s) = 1.49862 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.760e-01 Mass of water (kg) = 1.000e+00 @@ -1029,10 +1029,10 @@ Reaction 1. pH = 8.193 Charge balance pe = 11.603 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 19209 + Specific Conductance (µS/cm, 10°C) = 19210 Density (g/cm³) = 1.01977 Volume (L) = 1.01023 - Viscosity (mPa s) = 1.43032 + Viscosity (mPa s) = 1.43010 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.914e-01 Mass of water (kg) = 1.000e+00 @@ -1119,7 +1119,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 10221 Density (g/cm³) = 1.00986 Volume (L) = 1.00516 - Viscosity (mPa s) = 1.37167 + Viscosity (mPa s) = 1.37152 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.482e-01 Mass of water (kg) = 1.000e+00 @@ -1206,7 +1206,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 5719 Density (g/cm³) = 1.00519 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.34237 + Viscosity (mPa s) = 1.34226 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.023e-02 Mass of water (kg) = 1.000e+00 @@ -1293,7 +1293,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 3673 Density (g/cm³) = 1.00314 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.32924 + Viscosity (mPa s) = 1.32915 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.045e-02 Mass of water (kg) = 1.000e+00 @@ -1380,7 +1380,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 2247 Density (g/cm³) = 1.00176 Volume (L) = 1.00125 - Viscosity (mPa s) = 1.32021 + Viscosity (mPa s) = 1.32014 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.026e-02 Mass of water (kg) = 1.000e+00 @@ -1467,7 +1467,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 1150 Density (g/cm³) = 1.00073 Volume (L) = 1.00077 - Viscosity (mPa s) = 1.31335 + Viscosity (mPa s) = 1.31330 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.515e-02 Mass of water (kg) = 1.000e+00 @@ -1656,10 +1656,10 @@ Reaction 1. pH = 8.100 Charge balance pe = 10.641 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 34008 + Specific Conductance (µS/cm, 15°C) = 34009 Density (g/cm³) = 1.03158 Volume (L) = 1.01825 - Viscosity (mPa s) = 1.32246 + Viscosity (mPa s) = 1.32229 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.735e-01 Mass of water (kg) = 1.000e+00 @@ -1746,7 +1746,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 21768 Density (g/cm³) = 1.01890 Volume (L) = 1.01110 - Viscosity (mPa s) = 1.25512 + Viscosity (mPa s) = 1.25499 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.904e-01 Mass of water (kg) = 1.000e+00 @@ -1830,10 +1830,10 @@ Reaction 1. pH = 8.190 Charge balance pe = 10.562 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 11609 + Specific Conductance (µS/cm, 15°C) = 11610 Density (g/cm³) = 1.00912 Volume (L) = 1.00590 - Viscosity (mPa s) = 1.19906 + Viscosity (mPa s) = 1.19897 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.479e-01 Mass of water (kg) = 1.000e+00 @@ -1920,7 +1920,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 6505 Density (g/cm³) = 1.00451 Volume (L) = 1.00355 - Viscosity (mPa s) = 1.17149 + Viscosity (mPa s) = 1.17142 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.013e-02 Mass of water (kg) = 1.000e+00 @@ -2007,7 +2007,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 4180 Density (g/cm³) = 1.00249 Volume (L) = 1.00255 - Viscosity (mPa s) = 1.15921 + Viscosity (mPa s) = 1.15916 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.041e-02 Mass of water (kg) = 1.000e+00 @@ -2094,7 +2094,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 2559 Density (g/cm³) = 1.00113 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.15081 + Viscosity (mPa s) = 1.15077 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.025e-02 Mass of water (kg) = 1.000e+00 @@ -2181,7 +2181,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1311 Density (g/cm³) = 1.00012 Volume (L) = 1.00139 - Viscosity (mPa s) = 1.14444 + Viscosity (mPa s) = 1.14441 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.515e-02 Mass of water (kg) = 1.000e+00 @@ -4650,10 +4650,10 @@ Reaction 1. pH = 7.950 Charge balance pe = 9.131 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 50514 + Specific Conductance (µS/cm, 35°C) = 50513 Density (g/cm³) = 1.02542 Volume (L) = 1.02437 - Viscosity (mPa s) = 0.87681 + Viscosity (mPa s) = 0.87692 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.633e-01 Mass of water (kg) = 1.000e+00 @@ -4740,7 +4740,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 32637 Density (g/cm³) = 1.01313 Volume (L) = 1.01686 - Viscosity (mPa s) = 0.81694 + Viscosity (mPa s) = 0.81703 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.860e-01 Mass of water (kg) = 1.000e+00 @@ -4827,7 +4827,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 17561 Density (g/cm³) = 1.00368 Volume (L) = 1.01134 - Viscosity (mPa s) = 0.76933 + Viscosity (mPa s) = 0.76939 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.465e-01 Mass of water (kg) = 1.000e+00 @@ -4914,7 +4914,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 9891 Density (g/cm³) = 0.99924 Volume (L) = 1.00884 - Viscosity (mPa s) = 0.74652 + Viscosity (mPa s) = 0.74657 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.970e-02 Mass of water (kg) = 1.000e+00 @@ -5001,7 +5001,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 6373 Density (g/cm³) = 0.99730 Volume (L) = 1.00777 - Viscosity (mPa s) = 0.73650 + Viscosity (mPa s) = 0.73654 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.023e-02 Mass of water (kg) = 1.000e+00 @@ -5088,7 +5088,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 3911 Density (g/cm³) = 0.99599 Volume (L) = 1.00706 - Viscosity (mPa s) = 0.72969 + Viscosity (mPa s) = 0.72972 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.019e-02 Mass of water (kg) = 1.000e+00 @@ -5175,7 +5175,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 2007 Density (g/cm³) = 0.99501 Volume (L) = 1.00653 - Viscosity (mPa s) = 0.72456 + Viscosity (mPa s) = 0.72458 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.514e-02 Mass of water (kg) = 1.000e+00 @@ -5364,10 +5364,10 @@ Reaction 1. pH = 7.907 Charge balance pe = 8.405 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 59049 + Specific Conductance (µS/cm, 45°C) = 59047 Density (g/cm³) = 1.02127 Volume (L) = 1.02853 - Viscosity (mPa s) = 0.74340 + Viscosity (mPa s) = 0.74360 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.581e-01 Mass of water (kg) = 1.000e+00 @@ -5451,10 +5451,10 @@ Reaction 1. pH = 7.947 Charge balance pe = 8.387 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 38317 + Specific Conductance (µS/cm, 45°C) = 38316 Density (g/cm³) = 1.00911 Volume (L) = 1.02091 - Viscosity (mPa s) = 0.68704 + Viscosity (mPa s) = 0.68720 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.837e-01 Mass of water (kg) = 1.000e+00 @@ -5541,7 +5541,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 20706 Density (g/cm³) = 0.99976 Volume (L) = 1.01531 - Viscosity (mPa s) = 0.64248 + Viscosity (mPa s) = 0.64259 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.458e-01 Mass of water (kg) = 1.000e+00 @@ -5628,7 +5628,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 11693 Density (g/cm³) = 0.99536 Volume (L) = 1.01277 - Viscosity (mPa s) = 0.62120 + Viscosity (mPa s) = 0.62128 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.947e-02 Mass of water (kg) = 1.000e+00 @@ -5715,7 +5715,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 7545 Density (g/cm³) = 0.99345 Volume (L) = 1.01168 - Viscosity (mPa s) = 0.61187 + Viscosity (mPa s) = 0.61193 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.014e-02 Mass of water (kg) = 1.000e+00 @@ -5802,7 +5802,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 4635 Density (g/cm³) = 0.99215 Volume (L) = 1.01096 - Viscosity (mPa s) = 0.60554 + Viscosity (mPa s) = 0.60559 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.015e-02 Mass of water (kg) = 1.000e+00 @@ -5889,7 +5889,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 2381 Density (g/cm³) = 0.99118 Volume (L) = 1.01042 - Viscosity (mPa s) = 0.60079 + Viscosity (mPa s) = 0.60082 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.513e-02 Mass of water (kg) = 1.000e+00 @@ -6078,10 +6078,10 @@ Reaction 1. pH = 7.882 Charge balance pe = 7.729 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 67628 + Specific Conductance (µS/cm, 55°C) = 67625 Density (g/cm³) = 1.01653 Volume (L) = 1.03333 - Viscosity (mPa s) = 0.64298 + Viscosity (mPa s) = 0.64324 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.529e-01 Mass of water (kg) = 1.000e+00 @@ -6165,10 +6165,10 @@ Reaction 1. pH = 7.921 Charge balance pe = 7.705 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 44065 + Specific Conductance (µS/cm, 55°C) = 44063 Density (g/cm³) = 1.00445 Volume (L) = 1.02564 - Viscosity (mPa s) = 0.58974 + Viscosity (mPa s) = 0.58995 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.813e-01 Mass of water (kg) = 1.000e+00 @@ -6255,7 +6255,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 23912 Density (g/cm³) = 0.99517 Volume (L) = 1.01999 - Viscosity (mPa s) = 0.54765 + Viscosity (mPa s) = 0.54780 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.451e-01 Mass of water (kg) = 1.000e+00 @@ -6342,7 +6342,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 13539 Density (g/cm³) = 0.99081 Volume (L) = 1.01743 - Viscosity (mPa s) = 0.52757 + Viscosity (mPa s) = 0.52768 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.923e-02 Mass of water (kg) = 1.000e+00 @@ -6429,7 +6429,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 8749 Density (g/cm³) = 0.98890 Volume (L) = 1.01633 - Viscosity (mPa s) = 0.51876 + Viscosity (mPa s) = 0.51885 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.004e-02 Mass of water (kg) = 1.000e+00 @@ -6516,7 +6516,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 5381 Density (g/cm³) = 0.98762 Volume (L) = 1.01560 - Viscosity (mPa s) = 0.51280 + Viscosity (mPa s) = 0.51287 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.012e-02 Mass of water (kg) = 1.000e+00 @@ -6603,7 +6603,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 2768 Density (g/cm³) = 0.98665 Volume (L) = 1.01506 - Viscosity (mPa s) = 0.50832 + Viscosity (mPa s) = 0.50837 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.512e-02 Mass of water (kg) = 1.000e+00 @@ -6792,10 +6792,10 @@ Reaction 1. pH = 7.871 Charge balance pe = 7.080 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 76154 + Specific Conductance (µS/cm, 65°C) = 76149 Density (g/cm³) = 1.01123 Volume (L) = 1.03874 - Viscosity (mPa s) = 0.56526 + Viscosity (mPa s) = 0.56557 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.476e-01 Mass of water (kg) = 1.000e+00 @@ -6879,10 +6879,10 @@ Reaction 1. pH = 7.910 Charge balance pe = 7.051 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 49812 + Specific Conductance (µS/cm, 65°C) = 49809 Density (g/cm³) = 0.99922 Volume (L) = 1.03101 - Viscosity (mPa s) = 0.51481 + Viscosity (mPa s) = 0.51505 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.789e-01 Mass of water (kg) = 1.000e+00 @@ -6966,10 +6966,10 @@ Reaction 1. pH = 7.962 Charge balance pe = 7.011 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 27142 + Specific Conductance (µS/cm, 65°C) = 27141 Density (g/cm³) = 0.98999 Volume (L) = 1.02533 - Viscosity (mPa s) = 0.47479 + Viscosity (mPa s) = 0.47497 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.443e-01 Mass of water (kg) = 1.000e+00 @@ -7056,7 +7056,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 15408 Density (g/cm³) = 0.98565 Volume (L) = 1.02275 - Viscosity (mPa s) = 0.45567 + Viscosity (mPa s) = 0.45580 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.897e-02 Mass of water (kg) = 1.000e+00 @@ -7143,7 +7143,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 9971 Density (g/cm³) = 0.98375 Volume (L) = 1.02165 - Viscosity (mPa s) = 0.44729 + Viscosity (mPa s) = 0.44739 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.993e-02 Mass of water (kg) = 1.000e+00 @@ -7230,7 +7230,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 6140 Density (g/cm³) = 0.98247 Volume (L) = 1.02092 - Viscosity (mPa s) = 0.44161 + Viscosity (mPa s) = 0.44169 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.007e-02 Mass of water (kg) = 1.000e+00 @@ -7317,7 +7317,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 3162 Density (g/cm³) = 0.98151 Volume (L) = 1.02038 - Viscosity (mPa s) = 0.43736 + Viscosity (mPa s) = 0.43741 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.511e-02 Mass of water (kg) = 1.000e+00 @@ -7506,10 +7506,10 @@ Reaction 1. pH = 7.872 Charge balance pe = 6.456 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 84539 + Specific Conductance (µS/cm, 75°C) = 84533 Density (g/cm³) = 1.00544 Volume (L) = 1.04473 - Viscosity (mPa s) = 0.50360 + Viscosity (mPa s) = 0.50394 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.425e-01 Mass of water (kg) = 1.000e+00 @@ -7593,10 +7593,10 @@ Reaction 1. pH = 7.912 Charge balance pe = 6.424 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 55496 + Specific Conductance (µS/cm, 75°C) = 55492 Density (g/cm³) = 0.99347 Volume (L) = 1.03698 - Viscosity (mPa s) = 0.45569 + Viscosity (mPa s) = 0.45596 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.766e-01 Mass of water (kg) = 1.000e+00 @@ -7680,10 +7680,10 @@ Reaction 1. pH = 7.964 Charge balance pe = 6.381 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 30359 + Specific Conductance (µS/cm, 75°C) = 30357 Density (g/cm³) = 0.98427 Volume (L) = 1.03129 - Viscosity (mPa s) = 0.41749 + Viscosity (mPa s) = 0.41769 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.435e-01 Mass of water (kg) = 1.000e+00 @@ -7770,7 +7770,7 @@ Reaction 1. Specific Conductance (µS/cm, 75°C) = 17279 Density (g/cm³) = 0.97993 Volume (L) = 1.02872 - Viscosity (mPa s) = 0.39919 + Viscosity (mPa s) = 0.39934 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.870e-02 Mass of water (kg) = 1.000e+00 @@ -7854,10 +7854,10 @@ Reaction 1. pH = 8.035 Charge balance pe = 6.737 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 11199 + Specific Conductance (µS/cm, 75°C) = 11198 Density (g/cm³) = 0.97804 Volume (L) = 1.02762 - Viscosity (mPa s) = 0.39116 + Viscosity (mPa s) = 0.39128 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.981e-02 Mass of water (kg) = 1.000e+00 @@ -7941,10 +7941,10 @@ Reaction 1. pH = 8.060 Charge balance pe = -2.620 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 6905 + Specific Conductance (µS/cm, 75°C) = 6904 Density (g/cm³) = 0.97676 Volume (L) = 1.02689 - Viscosity (mPa s) = 0.38573 + Viscosity (mPa s) = 0.38582 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.003e-02 Mass of water (kg) = 1.000e+00 @@ -8028,10 +8028,10 @@ Reaction 1. pH = 8.080 Charge balance pe = -2.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 3561 + Specific Conductance (µS/cm, 75°C) = 3560 Density (g/cm³) = 0.97580 Volume (L) = 1.02635 - Viscosity (mPa s) = 0.38167 + Viscosity (mPa s) = 0.38173 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.510e-02 Mass of water (kg) = 1.000e+00 @@ -8220,10 +8220,10 @@ Reaction 1. pH = 7.885 Charge balance pe = 5.852 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 92710 + Specific Conductance (µS/cm, 85°C) = 92701 Density (g/cm³) = 0.99917 Volume (L) = 1.05128 - Viscosity (mPa s) = 0.45347 + Viscosity (mPa s) = 0.45385 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.375e-01 Mass of water (kg) = 1.000e+00 @@ -8307,10 +8307,10 @@ Reaction 1. pH = 7.925 Charge balance pe = 5.821 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 61063 + Specific Conductance (µS/cm, 85°C) = 61057 Density (g/cm³) = 0.98723 Volume (L) = 1.04353 - Viscosity (mPa s) = 0.40799 + Viscosity (mPa s) = 0.40829 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.742e-01 Mass of water (kg) = 1.000e+00 @@ -8394,10 +8394,10 @@ Reaction 1. pH = 7.977 Charge balance pe = 5.778 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 33530 + Specific Conductance (µS/cm, 85°C) = 33528 Density (g/cm³) = 0.97804 Volume (L) = 1.03786 - Viscosity (mPa s) = 0.37149 + Viscosity (mPa s) = 0.37170 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.428e-01 Mass of water (kg) = 1.000e+00 @@ -8481,10 +8481,10 @@ Reaction 1. pH = 8.019 Charge balance pe = -2.172 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 19133 + Specific Conductance (µS/cm, 85°C) = 19132 Density (g/cm³) = 0.97371 Volume (L) = 1.03529 - Viscosity (mPa s) = 0.35394 + Viscosity (mPa s) = 0.35410 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.842e-02 Mass of water (kg) = 1.000e+00 @@ -8571,7 +8571,7 @@ Reaction 1. Specific Conductance (µS/cm, 85°C) = 12418 Density (g/cm³) = 0.97181 Volume (L) = 1.03420 - Viscosity (mPa s) = 0.34624 + Viscosity (mPa s) = 0.34637 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.969e-02 Mass of water (kg) = 1.000e+00 @@ -8658,7 +8658,7 @@ Reaction 1. Specific Conductance (µS/cm, 85°C) = 7666 Density (g/cm³) = 0.97053 Volume (L) = 1.03347 - Viscosity (mPa s) = 0.34104 + Viscosity (mPa s) = 0.34114 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.998e-02 Mass of water (kg) = 1.000e+00 @@ -8745,7 +8745,7 @@ Reaction 1. Specific Conductance (µS/cm, 85°C) = 3959 Density (g/cm³) = 0.96957 Volume (L) = 1.03294 - Viscosity (mPa s) = 0.33716 + Viscosity (mPa s) = 0.33723 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.508e-02 Mass of water (kg) = 1.000e+00 @@ -8934,10 +8934,10 @@ Reaction 1. pH = 7.908 Charge balance pe = 5.278 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 100611 + Specific Conductance (µS/cm, 95°C) = 100599 Density (g/cm³) = 0.99246 Volume (L) = 1.05839 - Viscosity (mPa s) = 0.41160 + Viscosity (mPa s) = 0.41201 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.326e-01 Mass of water (kg) = 1.000e+00 @@ -9021,10 +9021,10 @@ Reaction 1. pH = 7.948 Charge balance pe = 5.243 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 66466 + Specific Conductance (µS/cm, 95°C) = 66459 Density (g/cm³) = 0.98053 Volume (L) = 1.05066 - Viscosity (mPa s) = 0.36859 + Viscosity (mPa s) = 0.36892 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.718e-01 Mass of water (kg) = 1.000e+00 @@ -9108,10 +9108,10 @@ Reaction 1. pH = 7.999 Charge balance pe = 5.202 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 36626 + Specific Conductance (µS/cm, 95°C) = 36623 Density (g/cm³) = 0.97134 Volume (L) = 1.04502 - Viscosity (mPa s) = 0.33379 + Viscosity (mPa s) = 0.33403 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.420e-01 Mass of water (kg) = 1.000e+00 @@ -9195,10 +9195,10 @@ Reaction 1. pH = 8.040 Charge balance pe = -2.214 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 20951 + Specific Conductance (µS/cm, 95°C) = 20950 Density (g/cm³) = 0.96700 Volume (L) = 1.04248 - Viscosity (mPa s) = 0.31702 + Viscosity (mPa s) = 0.31719 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.814e-02 Mass of water (kg) = 1.000e+00 @@ -9285,7 +9285,7 @@ Reaction 1. Specific Conductance (µS/cm, 95°C) = 13618 Density (g/cm³) = 0.96510 Volume (L) = 1.04139 - Viscosity (mPa s) = 0.30966 + Viscosity (mPa s) = 0.30980 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.956e-02 Mass of water (kg) = 1.000e+00 @@ -9372,7 +9372,7 @@ Reaction 1. Specific Conductance (µS/cm, 95°C) = 8418 Density (g/cm³) = 0.96382 Volume (L) = 1.04067 - Viscosity (mPa s) = 0.30470 + Viscosity (mPa s) = 0.30481 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.992e-02 Mass of water (kg) = 1.000e+00 @@ -9459,7 +9459,7 @@ Reaction 1. Specific Conductance (µS/cm, 95°C) = 4353 Density (g/cm³) = 0.96285 Volume (L) = 1.04015 - Viscosity (mPa s) = 0.30100 + Viscosity (mPa s) = 0.30107 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.506e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_KHCO3_sol_101.sel b/mytest/Vm_KHCO3_sol_101.sel index 1e415d5c..8e81243b 100644 --- a/mytest/Vm_KHCO3_sol_101.sel +++ b/mytest/Vm_KHCO3_sol_101.sel @@ -1,108 +1,108 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.478413064340 26283.3444445867 - 0.292470988471 16735.7620301957 - 0.148490912326 8884.0731938873 - 0.080326086541 4964.7017166676 - 0.050486392985 3186.1026756152 - 0.030273639507 1948.7438842854 - 0.015152456661 997.3240237358 - 0.000000054251 0.0229565195 - 0.476003523017 30087.8153332774 - 0.291449605918 19209.7833406864 - 0.148188650832 10221.6098877738 - 0.080230166838 5719.7100770334 - 0.050447625063 3673.0961851572 - 0.030260144439 2247.7873601194 - 0.015149755795 1150.9146225552 - 0.000000067373 0.0312920192 - 0.473544762823 34008.7339520089 - 0.290401499879 21768.6546449353 - 0.147877040268 11609.9250684128 - 0.080131179440 6505.0703944259 - 0.050407687563 4180.2484764606 - 0.030246323385 2559.4963786296 - 0.015147050691 1311.1471686946 + 0.000000043183 0.0164557984 + 0.478413064340 26284.1982983118 + 0.292470988471 16736.2088494016 + 0.148490912326 8884.2502999191 + 0.080326086541 4964.7763537395 + 0.050486392985 3186.1410872066 + 0.030273639507 1948.7622186128 + 0.015152456661 997.3306973138 + 0.000000054251 0.0229565200 + 0.476003523017 30088.5463231240 + 0.291449605918 19210.1698298781 + 0.148188650832 10221.7642927032 + 0.080230166838 5719.7753985084 + 0.050447625063 3673.1298627169 + 0.030260144439 2247.8034556945 + 0.015149755795 1150.9204874534 + 0.000000067373 0.0312920198 + 0.473544762823 34009.2837131332 + 0.290401499879 21768.9481109459 + 0.147877040268 11610.0432024444 + 0.080131179440 6505.1205628421 + 0.050407687563 4180.2743882869 + 0.030246323385 2559.5087790139 + 0.015147050691 1311.1516919912 0.000000100644 0.0547821292 - 0.015141424419 1649.2983089327 - 0.030217377683 3216.4227721682 - 0.050323896291 5247.5138955364 - 0.079923669111 8154.8216865936 - 0.087186634071 8856.3162304410 - 0.096853739307 9783.7378885847 - 0.100088052862 10092.5052463540 - 0.147226581657 14516.4578879561 - 0.172087349006 16799.2414153383 - 0.194084271888 18793.6958257518 - 0.245201456796 23345.7192556596 - 0.281066961224 26476.8094294011 - 0.288232830453 27096.6192114204 - 0.316841613706 29552.8163469330 - 0.377084358730 34634.1172270531 - 0.465243379783 41865.6413804823 - 0.468504331156 42128.7481682964 - 0.477600772468 42861.0907650361 - 0.615455727636 53684.5541230715 - 0.636346033074 55281.6708827962 - 0.704202061954 60395.3090472673 - 0.720471331894 61604.8760069981 - 0.808153569961 68017.4559971251 - 0.876897816493 72923.2275083315 - 0.922358223976 76110.4354801935 - 0.000000144671 0.0897028169 - 0.463343106870 50514.0933973656 - 0.285982267398 32637.9730751522 - 0.146542073611 17561.8546771930 - 0.079703289263 9891.4322738596 - 0.050234404723 6373.8015293431 - 0.030186239896 3911.1011662862 - 0.015135189615 2007.5793535245 - 0.000000200960 0.1389183081 - 0.458113214298 59049.5142749189 - 0.283669067286 38317.8286296216 - 0.145827173257 20706.8207245423 - 0.079470260784 11693.4791917508 - 0.050138829557 7545.6357013130 - 0.030152430868 4635.4601116749 - 0.015127954562 2381.9675132961 - 0.000000270724 0.2051343431 - 0.452865167447 67628.8756453087 - 0.281313281690 44065.0486306538 - 0.145086247419 23912.9230276756 - 0.079225112966 13539.6707996380 - 0.050036909836 8749.5245335696 - 0.030115484549 5381.3816626322 - 0.015119283952 2768.4110048713 - 0.000000354775 0.2906266063 - 0.447646263808 76154.6465313439 - 0.278934871835 49812.1132525660 - 0.144324042073 27142.5090928964 - 0.078968533614 15408.7655098853 - 0.049928412799 9971.8914250107 - 0.030074887330 6140.6518636494 - 0.015108672546 3162.8009895862 - 0.000000453436 0.3969732245 - 0.442499607695 84539.7675302533 - 0.276553051606 55496.5594081350 - 0.143545404031 30359.4925907324 - 0.078701234176 17279.9816367774 - 0.049813049046 11199.3220712176 - 0.030030030475 6905.1027516642 - 0.015095546840 3561.0386231131 - 0.000000566469 0.5248208249 - 0.437463619017 92710.6762531749 - 0.274185812954 61063.1553417251 - 0.142755040727 33530.5386029804 - 0.078423827678 19133.6297380392 - 0.049690403406 12418.9510822123 - 0.029980191621 7666.8358694221 - 0.015079316812 3959.1388222281 - 0.000000693037 0.6737094450 - 0.432571899874 100611.0489048588 - 0.271849597076 66466.4514368640 - 0.141957314783 36626.4109071656 - 0.078136729860 20951.8156763216 - 0.049559901904 13618.8830281201 - 0.029924573588 8418.4582018623 - 0.015059494170 4353.3346393536 + 0.015141424419 1649.2983136272 + 0.030217377683 3216.4227850100 + 0.050323896291 5247.5139222985 + 0.079923669111 8154.8217382181 + 0.087186634071 8856.3162887833 + 0.096853739307 9783.7379561858 + 0.100088052862 10092.5053171285 + 0.147226581657 14516.4580085892 + 0.172087349006 16799.2415644824 + 0.194084271888 18793.6960011207 + 0.245201456796 23345.7194948460 + 0.281066961224 26476.8097152345 + 0.288232830453 27096.6195067222 + 0.316841613706 29552.8166804540 + 0.377084358730 34634.1176428116 + 0.465243379783 41865.6419193924 + 0.468504331156 42128.7487118031 + 0.477600772468 42861.0913213762 + 0.615455727636 53684.5548749926 + 0.636346033074 55281.6716644021 + 0.704202061954 60395.3099251426 + 0.720471331894 61604.8769079024 + 0.808153569961 68017.4570216467 + 0.876897816493 72923.2286290677 + 0.922358223976 76110.4366641733 + 0.000000144671 0.0897028141 + 0.463343106870 50513.2827485149 + 0.285982267398 32637.5253486233 + 0.146542073611 17561.6691220711 + 0.079703289263 9891.3522440564 + 0.050234404723 6373.7598845671 + 0.030186239896 3911.0811275364 + 0.015135189615 2007.5720120737 + 0.000000200960 0.1389182971 + 0.458113214298 59047.6225704987 + 0.283669067286 38316.7675361423 + 0.145827173257 20706.3746445669 + 0.079470260784 11693.2852635501 + 0.050138829557 7545.5343954089 + 0.030152430868 4635.4112275081 + 0.015127954562 2381.9495660133 + 0.000000270724 0.2051343124 + 0.452865167447 67625.6321693334 + 0.281313281690 44063.2024401738 + 0.145086247419 23912.1358677302 + 0.079225112966 13539.3258323329 + 0.050036909836 8749.3436170138 + 0.030115484549 5381.2941177649 + 0.015119283952 2768.3788010665 + 0.000000354775 0.2906265338 + 0.447646263808 76149.7844705553 + 0.278934871835 49809.3073186849 + 0.144324042073 27141.2960842271 + 0.078968533614 15408.2296437071 + 0.049928412799 9971.6092930767 + 0.030074887330 6140.5149707843 + 0.015108672546 3162.7505505652 + 0.000000453436 0.3969730726 + 0.442499607695 84533.0255044271 + 0.276553051606 55492.6184444654 + 0.143545404031 30357.7660898556 + 0.078701234176 17279.2129400493 + 0.049813049046 11198.9158280386 + 0.030030030475 6904.9051487739 + 0.015095546840 3560.9657322359 + 0.000000566469 0.5248205333 + 0.437463619017 92701.7949487506 + 0.274185812954 61057.9035795909 + 0.142755040727 33528.2089804942 + 0.078423827678 19132.5848221321 + 0.049690403406 12418.3969465305 + 0.029980191621 7666.5657654715 + 0.015079316812 3959.0391425369 + 0.000000693037 0.6737089236 + 0.432571899874 100599.7599010691 + 0.271849597076 66459.7091456023 + 0.141957314783 36623.3865007540 + 0.078136729860 20950.4501480563 + 0.049559901904 13618.1567411400 + 0.029924573588 8418.1036599095 + 0.015059494170 4353.2038493226 diff --git a/mytest/Vm_LiCl_sol_101.sel b/mytest/Vm_LiCl_sol_101.sel index 89823cd8..6ddc00bc 100644 --- a/mytest/Vm_LiCl_sol_101.sel +++ b/mytest/Vm_LiCl_sol_101.sel @@ -1,356 +1,356 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.050000051179 3066.8459524645 - 0.100000053328 5895.6435191452 - 0.118900053901 6932.8922961904 - 0.200000055677 11250.4087649841 - 0.238300056287 13231.8417302027 - 0.300000057090 16364.8545872162 - 0.358100057709 19259.5391417162 - 0.400000058096 21318.5133370678 - 0.478600058722 25124.8426273594 - 0.478600058722 25124.8426273594 - 0.500000058875 26149.6816352710 - 0.600000059512 30880.7001784915 - 0.700000060053 35526.0731126387 - 0.721000060157 36491.7232105879 - 0.800000060523 40095.8999887851 - 0.900000060940 44597.5746813183 - 1.000000061313 49036.7199631868 - 1.000000061313 49036.7199631868 - 1.200000061958 57744.1801930098 - 1.212800061995 58294.1781513665 - 1.400000062495 66244.4273106372 - 1.600000062946 74555.5348480089 - 1.800000063323 82690.7643506464 - 2.000000063635 90660.3107880953 - 2.000000063635 90660.3107880953 - 2.500000064168 109909.2959199683 - 3.000000064405 128264.9762446632 - 3.000000064405 128264.9762446632 - 3.500000064405 145794.2388430338 - 4.500000063865 178573.5395043972 - 6.000000062157 222625.8321547255 - 8.000000058868 273112.0143822090 - 11.000000052513 334388.0053944718 - 14.000000044702 382122.1939017863 - 17.800000032570 428283.6683735643 - 0.000000067373 0.0312920192 - 0.050000080123 4001.8778079185 - 0.118900084550 9037.4188291351 - 0.238300088508 17231.2909323681 - 0.358100090926 25063.9262835865 - 0.478600092684 32679.2075564880 - 0.478600092684 32679.2075564880 - 0.500000092953 34009.2341617105 - 0.500000092953 34009.2341617105 - 0.500000092953 34009.2341617105 - 0.721000095242 47422.0148583565 - 1.000000097373 63671.1597390965 - 1.009000097433 64184.5277063222 - 1.212800098672 75648.2889083869 - 2.000000102042 117435.4562681389 - 2.000000102042 117435.4562681389 - 2.592500103566 146677.2066939931 - 3.000000104242 165821.9503039108 - 3.000000104242 165821.9503039108 - 4.000000104945 209788.1513389404 - 4.181400104957 217335.2927331121 - 4.500000104910 230290.6820897811 - 5.712800104086 276319.5125674145 - 6.000000103772 286503.9442043883 - 6.000000103772 286503.9442043883 - 7.241700102018 327662.0029394410 - 8.000000100682 350667.6321018099 - 8.000000100682 350667.6321018099 - 8.826800099030 374074.4909477595 - 9.863000096697 401140.8565188501 - 10.000000096367 404542.4615325328 - 10.913000094050 426225.3751019465 - 11.000000093819 428205.2932579207 - 11.963000091128 449180.4220761038 - 12.923000088214 468481.0803222886 - 14.000000084664 488399.8172156919 - 14.067000084433 489582.4240547735 - 15.063000080859 506434.6971584267 - 15.827000077930 518490.5571304891 - 17.249000072016 539116.0384063702 - 17.800000069551 546528.8823652563 - 17.906000069066 547920.3522355765 - 18.729000065159 558362.4222084001 - 19.584000060834 568571.3608555821 - 0.000000082766 0.0417864350 - 0.050000098597 4492.5719084489 - 0.100000102959 8626.3206777571 - 0.500000114781 38123.0656732541 - 0.500000114781 38123.0656732541 - 0.500000114781 38123.0656732541 - 1.000000120491 71327.7133140121 - 1.000000120491 71327.7133140121 - 1.009000120569 71902.1352611880 - 2.000000126667 131441.3611988220 - 2.000000126667 131441.3611988220 - 2.085000127026 136249.0322110080 - 2.592500128780 164099.7167435788 - 3.000000129778 185467.7233383801 - 3.000000129778 185467.7233383801 - 3.196000130147 195448.4618112219 - 4.000000131051 234500.0585207265 - 4.181400131141 242911.4374811449 - 4.358000131195 250965.4178260466 - 4.500000131215 257346.7921114617 - 5.712800130709 308598.7032267420 - 6.000000130443 319931.8285718332 - 6.000000130443 319931.8285718332 - 7.241700128809 365709.2056643790 - 8.000000127484 391282.9765796654 - 8.000000127484 391282.9765796654 - 8.826800125799 417294.9534828207 - 9.863000123363 447367.3707053760 - 10.000000123015 451146.5230883976 - 10.913000120547 475236.2966283183 - 11.000000120298 477436.0927936653 - 11.963000117390 500743.2274539390 - 12.923000114205 522196.9540192712 - 14.000000110285 544350.2459156141 - 14.067000110029 545666.0633358660 - 15.063000106045 564425.0919937337 - 15.827000102757 577856.9096856313 - 17.249000096069 600867.6441937904 - 17.800000093264 609149.9368353144 - 17.906000092710 610705.4584576661 - 18.729000088242 622388.1907900426 - 19.584000083271 633828.6026227998 + 0.000000043183 0.0164557984 + 0.050000051179 3066.9911562727 + 0.100000053328 5896.0413357843 + 0.118900053901 6933.4035361454 + 0.200000055677 11251.4928113055 + 0.238300056287 13233.2373197662 + 0.300000057090 16366.7987402141 + 0.358100057709 19262.0468032944 + 0.400000058096 21321.4529501144 + 0.478600058722 25128.6451501249 + 0.478600058722 25128.6451501249 + 0.500000058875 26153.7302173722 + 0.600000059512 30885.9565958598 + 0.700000060053 35532.6254805066 + 0.721000060157 36498.5581070793 + 0.800000060523 40103.8280582390 + 0.900000060940 44606.9514296972 + 1.000000061313 49047.6127182637 + 1.000000061313 49047.6127182637 + 1.200000061958 57758.2883043832 + 1.212800061995 58308.4997954793 + 1.400000062495 66261.9697453667 + 1.600000062946 74576.7055088167 + 1.800000063323 82715.7365720740 + 2.000000063635 90689.2405677075 + 2.000000063635 90689.2405677075 + 2.500000064168 109948.7087909981 + 3.000000064405 128315.5707511578 + 3.000000064405 128315.5707511578 + 3.500000064405 145856.5710165345 + 4.500000063865 178660.5861449689 + 6.000000062157 222751.8944792652 + 8.000000058868 273291.5844072234 + 11.000000052513 334647.2319258856 + 14.000000044702 382457.5927403389 + 17.800000032570 428708.8284718199 + 0.000000067373 0.0312920198 + 0.050000080123 4001.9770833160 + 0.118900084550 9037.7679854869 + 0.238300088508 17232.2430720175 + 0.358100090926 25065.6359279483 + 0.478600092684 32681.7985351322 + 0.478600092684 32681.7985351322 + 0.500000092953 34011.9925510901 + 0.500000092953 34011.9925510901 + 0.500000092953 34011.9925510901 + 0.721000095242 47426.6677460199 + 1.000000097373 63678.5684281780 + 1.009000097433 64192.0311243087 + 1.212800098672 75658.0237943299 + 2.000000102042 117455.0817372980 + 2.000000102042 117455.0817372980 + 2.592500103566 146705.2774583972 + 3.000000104242 165856.1985505076 + 3.000000104242 165856.1985505076 + 4.000000104945 209838.4947194676 + 4.181400104957 217388.6664189248 + 4.500000104910 230349.4419687771 + 5.712800104086 276399.3320404481 + 6.000000103772 286588.8405064176 + 6.000000103772 286588.8405064176 + 7.241700102018 327769.0412513511 + 8.000000100682 350788.2440566151 + 8.000000100682 350788.2440566151 + 8.826800099030 374209.8616902861 + 9.863000096697 401294.5774339493 + 10.000000096367 404698.5920294677 + 10.913000094050 426397.4435430810 + 11.000000093819 428378.8686655721 + 11.963000091128 449370.5269440020 + 12.923000088214 468687.3671704617 + 14.000000084664 488623.8811092695 + 14.067000084433 489807.5802713567 + 15.063000080859 506675.9006172247 + 15.827000077930 518743.8260116562 + 17.249000072016 539391.2017734055 + 17.800000069551 546812.3353548269 + 17.906000069066 548205.3877174308 + 18.729000065159 558659.6118373618 + 19.584000060834 568880.9333696043 + 0.000000082766 0.0417864354 + 0.050000098597 4492.6289615009 + 0.100000102959 8626.4767919033 + 0.500000114781 38124.6484532085 + 0.500000114781 38124.6484532085 + 0.500000114781 38124.6484532085 + 1.000000120491 71331.9616425952 + 1.000000120491 71331.9616425952 + 1.009000120569 71906.4378665460 + 2.000000126667 131452.6041774821 + 2.000000126667 131452.6041774821 + 2.085000127026 136260.9425621476 + 2.592500128780 164115.7900841949 + 3.000000129778 185487.3278464515 + 3.000000129778 185487.3278464515 + 3.196000130147 195469.8147309859 + 4.000000131051 234528.8561963124 + 4.181400131141 242941.9649674788 + 4.358000131195 250997.6438910934 + 4.500000131215 257380.3935076560 + 5.712800130709 308644.3153299740 + 6.000000130443 319980.3343845091 + 6.000000130443 319980.3343845091 + 7.241700128809 365770.3255737442 + 8.000000127484 391351.8248262703 + 8.000000127484 391351.8248262703 + 8.826800125799 417372.2017994090 + 9.863000123363 447455.0597464581 + 10.000000123015 451235.5828953544 + 10.913000120547 475334.4223453868 + 11.000000120298 477535.0756508748 + 11.963000117390 500851.6117023011 + 12.923000114205 522314.5421367422 + 14.000000110285 544477.9464437879 + 14.067000110029 545794.3853032556 + 15.063000106045 564562.5448540305 + 15.827000102757 578001.2299251264 + 17.249000096069 601024.4326968883 + 17.800000093264 609311.4486909203 + 17.906000092710 610867.8721929517 + 18.729000088242 622557.5335389174 + 19.584000083271 634005.0092605799 0.000000100644 0.0547821292 - 0.050000120102 4996.2910824985 - 0.102000125659 9769.2498823543 - 0.107820126123 10289.1197013330 - 0.118900126952 11272.4951799668 - 0.179000130543 16485.7081919647 - 0.203000131683 18520.6563080004 - 0.216890132289 19688.1330733524 - 0.238300133157 21474.2102880873 - 0.250600133624 22493.3881741617 - 0.325180136076 28578.1027380677 - 0.358100136997 31218.2329515133 - 0.478600139821 40686.3038251473 - 0.500000140254 42339.4300938784 - 0.500000140254 42339.4300938784 - 0.501900140291 42485.8267261457 - 0.626000142516 51924.9460124481 - 0.651790142930 53858.3301129387 - 0.721000143975 59003.1295185828 - 0.760730144538 61929.2063525515 - 0.870370145971 69908.1204797728 - 0.954000146968 75905.7397908080 - 0.978880147250 77676.0953192014 - 0.986000147330 78181.5802723885 - 1.004000147530 79457.2469379854 - 1.087890148422 85361.1196228387 - 1.198000149510 93011.0066381159 - 1.212800149649 94030.9756783100 - 1.547000152457 116577.9969603507 - 2.000000155425 145796.5155061120 - 2.000000155425 145796.5155061120 - 2.015000155509 146739.6805301307 - 2.087000155905 151246.1435025050 - 2.592500158225 181959.0266011761 - 2.977000159528 204298.2476695774 - 3.000000159595 205607.9590713720 - 3.000000159595 205607.9590713720 - 3.038000159703 207765.4071525228 - 3.180000160080 215757.3268588007 - 4.000000161533 259840.2145564717 - 4.181400161714 269139.0466087302 - 4.358000161848 278041.5683128029 - 4.393000161870 279788.6101625055 - 4.500000161929 285094.4424671723 - 4.710000162006 295355.9291007047 - 4.974000162038 307976.8476604309 - 5.458000161929 330335.3504252266 - 5.539000161892 333981.5162583859 - 5.712800161795 341714.8906396033 - 5.985000161598 353584.1544858977 - 6.000000161586 354229.7622613491 - 6.000000161586 354229.7622613491 - 7.141000160245 400872.2285285224 - 7.241700160092 404764.8142377261 - 8.000000158782 432988.5729606135 - 8.000000158782 432988.5729606135 - 8.163000158466 438813.0553764920 - 8.827000157059 461700.2875731072 - 9.863000154505 494881.5027700301 - 10.000000154136 499052.6802064147 - 10.256000153426 506717.8060250079 - 10.913000151491 525646.2379038336 - 11.000000151223 528075.2065323156 - 11.355000150098 537805.4643632621 - 11.963000148061 553818.2510605815 - 12.923000144560 577531.0822305450 - 13.304000143073 586443.3877456527 - 14.000000140210 602041.7504937812 - 14.067000139924 603498.5724435766 - 14.758000136871 618087.2693452784 - 15.063000135461 624282.6763284361 - 15.827000131756 639184.5457624478 - 16.676000127336 654775.7438839786 - 17.249000124163 664764.3477311640 - 17.800000120961 673990.6124029624 - 17.906000120327 675724.7464485766 - 18.729000115205 688763.7238108201 - 19.584000109480 701560.6281484187 - 0.000000144671 0.0897028169 - 0.050000173257 6036.1110149462 - 0.100000181256 11577.8761218324 - 0.100000181256 11577.8761218324 - 0.118900183428 13606.5672905490 - 0.200000190303 22037.4840975739 - 0.238300192722 25900.8759453618 - 0.300000195973 32003.6158207690 - 0.358100198525 37636.3820960667 - 0.400000200145 41639.9137592295 - 0.478600202814 49034.9681778447 - 0.478600202814 49034.9681778447 - 0.500000203474 51024.7777576462 - 0.500000203474 51024.7777576462 - 0.500000203474 51024.7777576462 - 0.500000203474 51024.7777576462 - 0.600000206267 60203.8052649272 - 0.700000208689 69206.5522429906 - 0.721000209161 71076.7756295040 - 0.800000210838 78053.5895780132 - 0.900000212778 86759.9844519390 - 1.000000214549 95337.2096518635 - 1.000000214549 95337.2096518635 - 1.009000214702 96103.1472887876 - 1.200000217697 112138.4317834737 - 1.212800217884 113198.6504551668 - 1.400000220434 128510.9210674747 - 1.600000222844 144492.0409379732 - 1.800000224982 160109.4471481434 - 2.000000226885 175384.6072186409 - 2.000000226885 175384.6072186409 - 2.000000226885 175384.6072186409 - 2.500000230783 212181.8516776975 - 2.592500231387 218783.4625495684 - 3.000000233679 247146.0602872162 - 3.000000233679 247146.0602872162 - 4.000000237262 312135.3112943287 - 4.181400237668 323271.7340281369 - 4.500000238235 342375.9187389328 - 5.712800239028 410133.4573822725 - 6.000000238961 425103.9412482698 - 6.000000238961 425103.9412482698 - 7.241700237824 485544.9954183664 - 8.000000236555 519303.6729846316 - 8.000000236555 519303.6729846316 - 8.826800234744 553650.2884758894 - 9.863000231899 593391.5779685582 - 10.000000231477 598389.7947369934 - 10.913000228400 630280.6407707528 - 11.000000228083 633195.9052249130 - 11.963000224295 664125.0888113726 - 12.923000220013 692680.0856212556 - 14.000000214595 722284.2103040970 - 14.067000214236 724047.1943729540 - 15.827000203844 767385.8602372919 - 17.249000194006 798682.8773604672 - 17.800000189817 810033.1429857315 - 17.906000188985 812170.7000172865 - 18.729000182236 828289.7565922550 - 19.584000174638 844198.8704753282 - 0.000000200960 0.1389183081 - 0.100000253023 13625.6707436663 - 0.119000256159 16023.0007716274 - 0.238000269526 30421.0905185240 - 0.358000277964 44228.1756546595 - 0.479000284232 57667.3180658393 - 0.479000284232 57667.3180658393 - 0.500000285175 59959.7068656606 - 0.500000285175 59959.7068656606 - 0.721000293470 83498.7279462647 - 1.000000301338 111971.5143074833 - 1.000000301338 111971.5143074833 - 1.213000306212 132949.6942066606 - 2.000000319404 205874.6656608141 - 2.000000319404 205874.6656608141 - 3.000000329584 290003.3184628573 - 3.000000329584 290003.3184628573 - 4.000000335293 366153.2013401140 - 4.500000337013 401577.5351376945 - 6.000000339138 498477.6826992405 - 6.000000339138 498477.6826992405 - 8.000000337266 608881.7758540962 - 8.000000337266 608881.7758540962 - 10.000000331650 701775.8655709538 - 11.000000327639 742777.4984083725 - 14.000000310963 848342.8989371056 - 17.800000279039 953967.8367509095 - 0.000000234097 0.1697457187 - 0.506000333991 65190.9926616606 - 1.000000352917 120408.4674851570 - 2.000000374412 221360.1008616435 - 3.196000388306 328473.3852946016 - 4.358000395200 421094.8041211343 - 4.500000395742 431726.9235701344 - 6.000000398706 535898.0800484200 - 7.804000397528 643913.1673472832 - 8.000000397164 654656.5134614034 - 11.000000386863 798966.7459896783 - 14.000000368299 913258.3494156029 - 17.800000332130 1028599.1864624528 - 0.000000354775 0.2906266063 - 0.119000457327 20931.2399084987 - 0.238000482669 39696.2932308685 - 0.358000498779 57682.9192399045 - 0.479000510784 75188.3552024423 - 0.479000510784 75188.3552024423 - 0.721000528481 108837.1573774137 - 1.213000552770 173268.9050377884 - 0.000000566469 0.5248208249 - 0.118900739248 25766.7446841266 - 0.238300782773 48923.5197168489 - 0.358100810413 71009.9086162615 - 0.478600830995 92462.2225411889 - 0.478600830995 92462.2225411889 - 0.721000861490 133963.4050293426 - 1.212800902894 213358.0103179409 - 0.000000693037 0.6737094450 - 0.118900910460 28109.8426356707 - 0.238300965616 53358.1886496547 - 0.358101000709 77445.4430962671 - 0.478601026878 100849.1083511640 - 0.478601026878 100849.1083511640 - 0.499321030779 104806.4111520867 - 1.212801117841 232883.5638326724 - 0.000000456921 0.4001836311 - 0.100000584361 19895.0004581659 - 0.200000617042 37779.1515391098 - 0.500000665576 87265.0018765030 - 1.000000706494 162903.0998637107 - 0.000000766852 0.7614411017 - 0.100000996021 24908.5916754692 - 0.200001055750 47258.9697418308 - 0.500001145147 109158.4741958087 - 1.000001219923 204006.6444699223 - 0.000001145680 1.2336142041 - 0.100001514467 29425.5584104704 - 0.200001612089 55808.1555920641 - 0.500001758714 129037.8787872730 - 1.000001880904 241700.9891008501 - 0.000001551775 1.7517791997 - 0.100002092841 33240.6406141219 - 0.200002237992 63054.7914384510 - 0.500002456927 146107.0039700008 - 1.000002638527 274578.0273082072 - 0.000001929535 2.2236167993 - 0.100002662864 36237.6277147864 - 0.200002862107 68795.5084041418 - 0.500003163825 159951.1691430943 - 1.000003413520 301927.0127101185 - 0.000002221739 2.5572659927 - 0.100003149233 38373.3218800061 - 0.200003404513 72965.8618146197 - 0.500003792789 170483.0618061418 - 1.000004113272 323681.1095278603 + 0.050000120102 4996.2911863260 + 0.102000125659 9769.2501746038 + 0.107820126123 10289.1200180148 + 0.118900126952 11272.4955447660 + 0.179000130543 16485.7088503240 + 0.203000131683 18520.6570971564 + 0.216890132289 19688.1339413760 + 0.238300133157 21474.2112819804 + 0.250600133624 22493.3892426315 + 0.325180136076 28578.1042912977 + 0.358100136997 31218.2347351079 + 0.478600139821 40686.3065270265 + 0.500000140254 42339.4329701388 + 0.500000140254 42339.4329701388 + 0.501900140291 42485.8296180427 + 0.626000142516 51924.9499770226 + 0.651790142930 53858.3343124255 + 0.721000143975 59003.1343673679 + 0.760730144538 61929.2115859723 + 0.870370145971 69908.1268168266 + 0.954000146968 75905.7470086780 + 0.978880147250 77676.1028052596 + 0.986000147330 78181.5878356985 + 1.004000147530 79457.2546975817 + 1.087890148422 85361.1283154061 + 1.198000149510 93011.0165984631 + 1.212800149649 94030.9858126259 + 1.547000152457 116578.0112272580 + 2.000000155425 145796.5359099532 + 2.000000155425 145796.5359099532 + 2.015000155509 146739.7011462518 + 2.087000155905 151246.1651449219 + 2.592500158225 181959.0557599161 + 2.977000159528 204298.2828574099 + 3.000000159595 205607.9946272059 + 3.000000159595 205607.9946272059 + 3.038000159703 207765.4433180511 + 3.180000160080 215757.3653207266 + 4.000000161533 259840.2667564026 + 4.181400161714 269139.1019389729 + 4.358000161848 278041.6267164233 + 4.393000161870 279788.6691780640 + 4.500000161929 285094.5033590007 + 4.710000162006 295355.9936974997 + 4.974000162038 307976.9169529845 + 5.458000161929 330335.4284180290 + 5.539000161892 333981.5957168909 + 5.712800161795 341714.9732509056 + 5.985000161598 353584.2420539198 + 6.000000161586 354229.8501031107 + 6.000000161586 354229.8501031107 + 7.141000160245 400872.3373081030 + 7.241700160092 404764.9248712789 + 8.000000158782 432988.6975526409 + 8.000000158782 432988.6975526409 + 8.163000158466 438813.1829650228 + 8.827000157059 461700.4273372323 + 9.863000154505 494881.6613810232 + 10.000000154136 499052.8412921893 + 10.256000153426 506717.9717226790 + 10.913000151491 525646.4153573250 + 11.000000151223 528075.3855333477 + 11.355000150098 537805.6496555584 + 11.963000148061 553818.4470368485 + 12.923000144560 577531.2948291193 + 13.304000143073 586443.6068539128 + 14.000000140210 602041.9813622184 + 14.067000139924 603498.8044350443 + 14.758000136871 618087.5128255945 + 15.063000135461 624282.9248254983 + 15.827000131756 639184.8066802091 + 16.676000127336 654776.0183616296 + 17.249000124163 664764.6312182230 + 17.800000120961 673990.9044473014 + 17.906000120327 675725.0401273612 + 18.729000115205 688764.0300527313 + 19.584000109480 701560.9472096985 + 0.000000144671 0.0897028141 + 0.050000173257 6035.9475179882 + 0.100000181256 11577.4292558194 + 0.100000181256 11577.4292558194 + 0.118900183428 13605.9933862511 + 0.200000190303 22036.2696493831 + 0.238300192722 25899.3136009718 + 0.300000195973 32001.4414826066 + 0.358100198525 37633.5796990152 + 0.400000200145 41636.6302742236 + 0.478600202814 49030.7243773630 + 0.478600202814 49030.7243773630 + 0.500000203474 51020.2602870482 + 0.500000203474 51020.2602870482 + 0.500000203474 51020.2602870482 + 0.500000203474 51020.2602870482 + 0.600000206267 60197.9453535640 + 0.700000208689 69199.2534776594 + 0.721000209161 71069.1633703119 + 0.800000210838 78044.7649232544 + 0.900000212778 86749.5544730630 + 1.000000214549 95325.1012573805 + 1.000000214549 95325.1012573805 + 1.009000214702 96090.8844427901 + 1.200000217697 112122.7682215050 + 1.212800217884 113182.7510026432 + 1.400000220434 128491.4665253067 + 1.600000222844 144468.5877500552 + 1.800000224982 160081.8107238110 + 2.000000226885 175352.6223867719 + 2.000000226885 175352.6223867719 + 2.000000226885 175352.6223867719 + 2.500000230783 212138.3774008819 + 2.592500231387 218737.7780782322 + 3.000000233679 247090.3722612906 + 3.000000233679 247090.3722612906 + 4.000000237262 312053.6180253879 + 4.181400237668 323185.1530245080 + 4.500000238235 342280.6559365960 + 5.712800239028 410004.3127143557 + 6.000000238961 424966.6416975014 + 6.000000238961 424966.6416975014 + 7.241700237824 485372.1750748309 + 8.000000236555 519109.1057196104 + 8.000000236555 519109.1057196104 + 8.826800234744 553432.0908993501 + 9.863000231899 593144.0100680890 + 10.000000231477 598138.3702436466 + 10.913000228400 630003.7027168432 + 11.000000228083 632916.5541622932 + 11.963000224295 663819.2580025644 + 12.923000220013 692348.3010416685 + 14.000000214595 721923.8626483897 + 14.067000214236 723685.0894944409 + 15.827000203844 766978.4222021969 + 17.249000194006 798239.9530186475 + 17.800000189817 809576.7317217634 + 17.906000188985 811711.7105347350 + 18.729000182236 827810.9245102644 + 19.584000174638 843699.7416206556 + 0.000000200960 0.1389182971 + 0.100000253023 13624.5720340078 + 0.119000256159 16021.5882562810 + 0.238000269526 30417.2595341661 + 0.358000277964 44221.2968888268 + 0.479000284232 57656.8872076196 + 0.479000284232 57656.8872076196 + 0.500000285175 59948.6169881506 + 0.500000285175 59948.6169881506 + 0.721000293470 83480.0460484902 + 1.000000301338 111941.8053000500 + 1.000000301338 111941.8053000500 + 1.213000306212 132910.6801456361 + 2.000000319404 205796.2331607087 + 2.000000319404 205796.2331607087 + 3.000000329584 289866.8235219374 + 3.000000329584 289866.8235219374 + 4.000000335293 365953.0458390543 + 4.500000337013 401344.1748604216 + 6.000000339138 498141.4954470731 + 6.000000339138 498141.4954470731 + 8.000000337266 608405.5231447963 + 8.000000337266 608405.5231447963 + 10.000000331650 701160.4462643589 + 11.000000327639 742093.6390291104 + 14.000000310963 847459.9793693897 + 17.800000279039 952847.0507841823 + 0.000000234097 0.1697456998 + 0.506000333991 65175.5000502456 + 1.000000352917 120367.6710431230 + 2.000000374412 221252.4108495762 + 3.196000388306 328269.3559187040 + 4.358000395200 420787.5072761838 + 4.500000395742 431406.5849971329 + 6.000000398706 535436.6265750155 + 7.804000397528 643278.3271331716 + 8.000000397164 654002.8079396683 + 11.000000386863 798027.8230226481 + 14.000000368299 912045.3372859998 + 17.800000332130 1027057.2499126279 + 0.000000354775 0.2906265338 + 0.119000457327 20927.2257547629 + 0.238000482669 39685.4186188718 + 0.358000498779 57663.4032380610 + 0.479000510784 75158.7694051982 + 0.479000510784 75158.7694051982 + 0.721000528481 108784.1809431892 + 1.213000552770 173158.2814862542 + 0.000000566469 0.5248205333 + 0.118900739248 25758.7100785659 + 0.238300782773 48901.7046699797 + 0.358100810413 70970.8209505373 + 0.478600830995 92403.0597601774 + 0.478600830995 92403.0597601774 + 0.721000861490 133857.3140674865 + 1.212800902894 213136.3700330976 + 0.000000693037 0.6737089236 + 0.118900910460 28099.2035631979 + 0.238300965616 53329.3090999356 + 0.358101000709 77393.6958597617 + 0.478601026878 100770.7750470313 + 0.478601026878 100770.7750470313 + 0.499321030779 104723.1906985429 + 1.212801117841 232589.8355538523 + 0.000000456921 0.4001834774 + 0.100000584361 19890.4587493025 + 0.200000617042 37766.8396670077 + 0.500000665576 87219.3121629182 + 1.000000706494 162780.7274084175 + 0.000000766852 0.7614404127 + 0.100000996021 24899.1719759885 + 0.200001055750 47233.4561168800 + 0.500001145147 109063.7716112773 + 1.000001219923 203752.6272397949 + 0.000001145680 1.2336120327 + 0.100001514467 29409.2254834938 + 0.200001612089 55763.9277687910 + 0.500001758714 128873.4653737633 + 1.000001880904 241258.7924077353 + 0.000001551775 1.7517739130 + 0.100002092841 33215.3124475657 + 0.200002237992 62986.1730241734 + 0.500002456927 145851.1905102291 + 1.000002638527 273887.3377405316 + 0.000001929535 2.2236063232 + 0.100002662864 36201.2938062283 + 0.200002862107 68696.9455376271 + 0.500003163825 159582.1289740897 + 1.000003413520 300925.5914935195 + 0.000002221739 2.5572485341 + 0.100003149233 38324.1239937780 + 0.200003404513 72832.0968553748 + 0.500003792789 169979.1889092287 + 1.000004113272 322305.0642159543 diff --git a/mytest/Vm_MgCl2_sol.out b/mytest/Vm_MgCl2_sol.out index 03c518e0..3c332eb2 100644 --- a/mytest/Vm_MgCl2_sol.out +++ b/mytest/Vm_MgCl2_sol.out @@ -225,10 +225,10 @@ Reaction 1. pH = 7.016 Charge balance pe = -0.255 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 4058 + Specific Conductance (µS/cm, 5°C) = 4059 Density (g/cm³) = 1.00258 Volume (L) = 1.00054 - Viscosity (mPa s) = 1.54546 + Viscosity (mPa s) = 1.54506 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -303,10 +303,10 @@ Reaction 1. pH = 6.986 Charge balance pe = -0.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5020 + Specific Conductance (µS/cm, 5°C) = 5021 Density (g/cm³) = 1.00327 Volume (L) = 1.00067 - Viscosity (mPa s) = 1.55175 + Viscosity (mPa s) = 1.55130 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.241e-01 Mass of water (kg) = 1.000e+00 @@ -381,10 +381,10 @@ Reaction 1. pH = 6.964 Charge balance pe = -0.133 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5802 + Specific Conductance (µS/cm, 5°C) = 5804 Density (g/cm³) = 1.00384 Volume (L) = 1.00077 - Viscosity (mPa s) = 1.55692 + Viscosity (mPa s) = 1.55644 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.455e-01 Mass of water (kg) = 1.000e+00 @@ -459,10 +459,10 @@ Reaction 1. pH = 6.921 Charge balance pe = -0.113 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 7624 + Specific Conductance (µS/cm, 5°C) = 7626 Density (g/cm³) = 1.00522 Volume (L) = 1.00103 - Viscosity (mPa s) = 1.56917 + Viscosity (mPa s) = 1.56860 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -537,10 +537,10 @@ Reaction 1. pH = 6.893 Charge balance pe = -0.015 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 8996 + Specific Conductance (µS/cm, 5°C) = 8999 Density (g/cm³) = 1.00628 Volume (L) = 1.00123 - Viscosity (mPa s) = 1.57857 + Viscosity (mPa s) = 1.57795 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.367e-01 Mass of water (kg) = 1.000e+00 @@ -615,10 +615,10 @@ Reaction 1. pH = 6.862 Charge balance pe = 0.069 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 10744 + Specific Conductance (µS/cm, 5°C) = 10748 Density (g/cm³) = 1.00766 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.59077 + Viscosity (mPa s) = 1.59009 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.888e-01 Mass of water (kg) = 1.000e+00 @@ -693,10 +693,10 @@ Reaction 1. pH = 6.812 Charge balance pe = -0.436 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 14076 + Specific Conductance (µS/cm, 5°C) = 14082 Density (g/cm³) = 1.01039 Volume (L) = 1.00203 - Viscosity (mPa s) = 1.61470 + Viscosity (mPa s) = 1.61391 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -771,10 +771,10 @@ Reaction 1. pH = 6.739 Charge balance pe = 12.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 19954 + Specific Conductance (µS/cm, 5°C) = 19964 Density (g/cm³) = 1.01546 Volume (L) = 1.00306 - Viscosity (mPa s) = 1.65905 + Viscosity (mPa s) = 1.65808 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.850e-01 Mass of water (kg) = 1.000e+00 @@ -849,10 +849,10 @@ Reaction 1. pH = 6.739 Charge balance pe = -0.067 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 19977 + Specific Conductance (µS/cm, 5°C) = 19986 Density (g/cm³) = 1.01548 Volume (L) = 1.00306 - Viscosity (mPa s) = 1.65922 + Viscosity (mPa s) = 1.65825 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.857e-01 Mass of water (kg) = 1.000e+00 @@ -927,10 +927,10 @@ Reaction 1. pH = 6.673 Charge balance pe = 0.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 26146 + Specific Conductance (µS/cm, 5°C) = 26161 Density (g/cm³) = 1.02113 Volume (L) = 1.00427 - Viscosity (mPa s) = 1.70879 + Viscosity (mPa s) = 1.70766 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -1005,10 +1005,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 12.675 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 27382 + Specific Conductance (µS/cm, 5°C) = 27398 Density (g/cm³) = 1.02230 Volume (L) = 1.00453 - Viscosity (mPa s) = 1.71912 + Viscosity (mPa s) = 1.71795 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.483e-01 Mass of water (kg) = 1.000e+00 @@ -1083,10 +1083,10 @@ Reaction 1. pH = 6.592 Charge balance pe = 13.077 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 34584 + Specific Conductance (µS/cm, 5°C) = 34605 Density (g/cm³) = 1.02939 Volume (L) = 1.00612 - Viscosity (mPa s) = 1.78208 + Viscosity (mPa s) = 1.78073 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.125e+00 Mass of water (kg) = 1.000e+00 @@ -1161,10 +1161,10 @@ Reaction 1. pH = 6.569 Charge balance pe = -0.016 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 37055 + Specific Conductance (µS/cm, 5°C) = 37079 Density (g/cm³) = 1.03193 Volume (L) = 1.00672 - Viscosity (mPa s) = 1.80488 + Viscosity (mPa s) = 1.80348 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.224e+00 Mass of water (kg) = 1.000e+00 @@ -1239,10 +1239,10 @@ Reaction 1. pH = 6.496 Charge balance pe = 12.782 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 45234 + Specific Conductance (µS/cm, 5°C) = 45266 Density (g/cm³) = 1.04076 Volume (L) = 1.00885 - Viscosity (mPa s) = 1.88544 + Viscosity (mPa s) = 1.88384 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -1317,10 +1317,10 @@ Reaction 1. pH = 6.480 Charge balance pe = 0.043 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 47037 + Specific Conductance (µS/cm, 5°C) = 47071 Density (g/cm³) = 1.04280 Volume (L) = 1.00936 - Viscosity (mPa s) = 1.90437 + Viscosity (mPa s) = 1.90274 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.656e+00 Mass of water (kg) = 1.000e+00 @@ -1395,10 +1395,10 @@ Reaction 1. pH = 6.433 Charge balance pe = -0.031 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 52267 + Specific Conductance (µS/cm, 5°C) = 52306 Density (g/cm³) = 1.04892 Volume (L) = 1.01092 - Viscosity (mPa s) = 1.96213 + Viscosity (mPa s) = 1.96038 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.902e+00 Mass of water (kg) = 1.000e+00 @@ -1473,10 +1473,10 @@ Reaction 1. pH = 6.364 Charge balance pe = 0.038 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 59983 + Specific Conductance (µS/cm, 5°C) = 60030 Density (g/cm³) = 1.05859 Volume (L) = 1.01350 - Viscosity (mPa s) = 2.05663 + Viscosity (mPa s) = 2.05470 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -1551,10 +1551,10 @@ Reaction 1. pH = 6.251 Charge balance pe = 1.063 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 71874 + Specific Conductance (µS/cm, 5°C) = 71933 Density (g/cm³) = 1.07539 Volume (L) = 1.01830 - Viscosity (mPa s) = 2.23356 + Viscosity (mPa s) = 2.23136 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -1733,10 +1733,10 @@ Reaction 1. pH = 6.806 Charge balance pe = -0.010 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 5299 + Specific Conductance (µS/cm, 15°C) = 5300 Density (g/cm³) = 1.00168 Volume (L) = 1.00144 - Viscosity (mPa s) = 1.15819 + Viscosity (mPa s) = 1.15803 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -1811,10 +1811,10 @@ Reaction 1. pH = 6.779 Charge balance pe = 0.134 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 6361 + Specific Conductance (µS/cm, 15°C) = 6362 Density (g/cm³) = 1.00226 Volume (L) = 1.00155 - Viscosity (mPa s) = 1.16220 + Viscosity (mPa s) = 1.16203 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.201e-01 Mass of water (kg) = 1.000e+00 @@ -1889,10 +1889,10 @@ Reaction 1. pH = 6.774 Charge balance pe = 0.018 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 6553 + Specific Conductance (µS/cm, 15°C) = 6554 Density (g/cm³) = 1.00236 Volume (L) = 1.00157 - Viscosity (mPa s) = 1.16293 + Viscosity (mPa s) = 1.16275 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.241e-01 Mass of water (kg) = 1.000e+00 @@ -1967,10 +1967,10 @@ Reaction 1. pH = 6.752 Charge balance pe = 0.117 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 7572 + Specific Conductance (µS/cm, 15°C) = 7573 Density (g/cm³) = 1.00293 Volume (L) = 1.00169 - Viscosity (mPa s) = 1.16682 + Viscosity (mPa s) = 1.16663 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.455e-01 Mass of water (kg) = 1.000e+00 @@ -2045,10 +2045,10 @@ Reaction 1. pH = 6.748 Charge balance pe = 0.101 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 7783 + Specific Conductance (µS/cm, 15°C) = 7784 Density (g/cm³) = 1.00304 Volume (L) = 1.00171 - Viscosity (mPa s) = 1.16763 + Viscosity (mPa s) = 1.16744 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -2123,10 +2123,10 @@ Reaction 1. pH = 6.709 Charge balance pe = -0.082 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9946 + Specific Conductance (µS/cm, 15°C) = 9947 Density (g/cm³) = 1.00428 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.17604 + Viscosity (mPa s) = 1.17582 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -2201,10 +2201,10 @@ Reaction 1. pH = 6.681 Charge balance pe = 0.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 11732 + Specific Conductance (µS/cm, 15°C) = 11734 Density (g/cm³) = 1.00532 Volume (L) = 1.00218 - Viscosity (mPa s) = 1.18312 + Viscosity (mPa s) = 1.18288 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.367e-01 Mass of water (kg) = 1.000e+00 @@ -2279,10 +2279,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 0.269 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 13204 + Specific Conductance (µS/cm, 15°C) = 13207 Density (g/cm³) = 1.00620 Volume (L) = 1.00236 - Viscosity (mPa s) = 1.18904 + Viscosity (mPa s) = 1.18878 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.702e-01 Mass of water (kg) = 1.000e+00 @@ -2357,10 +2357,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 0.085 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 14008 + Specific Conductance (µS/cm, 15°C) = 14011 Density (g/cm³) = 1.00669 Volume (L) = 1.00246 - Viscosity (mPa s) = 1.19230 + Viscosity (mPa s) = 1.19203 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.888e-01 Mass of water (kg) = 1.000e+00 @@ -2435,10 +2435,10 @@ Reaction 1. pH = 6.644 Charge balance pe = 0.076 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 14489 + Specific Conductance (µS/cm, 15°C) = 14491 Density (g/cm³) = 1.00698 Volume (L) = 1.00252 - Viscosity (mPa s) = 1.19426 + Viscosity (mPa s) = 1.19399 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -2513,10 +2513,10 @@ Reaction 1. pH = 6.599 Charge balance pe = 0.227 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 18342 + Specific Conductance (µS/cm, 15°C) = 18346 Density (g/cm³) = 1.00937 Volume (L) = 1.00304 - Viscosity (mPa s) = 1.21029 + Viscosity (mPa s) = 1.20998 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -2591,10 +2591,10 @@ Reaction 1. pH = 6.563 Charge balance pe = 0.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 21913 + Specific Conductance (µS/cm, 15°C) = 21918 Density (g/cm³) = 1.01167 Volume (L) = 1.00354 - Viscosity (mPa s) = 1.22562 + Viscosity (mPa s) = 1.22527 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.804e-01 Mass of water (kg) = 1.000e+00 @@ -2669,10 +2669,10 @@ Reaction 1. pH = 6.525 Charge balance pe = 0.119 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 26010 + Specific Conductance (µS/cm, 15°C) = 26017 Density (g/cm³) = 1.01438 Volume (L) = 1.00415 - Viscosity (mPa s) = 1.24375 + Viscosity (mPa s) = 1.24337 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.857e-01 Mass of water (kg) = 1.000e+00 @@ -2747,10 +2747,10 @@ Reaction 1. pH = 6.460 Charge balance pe = 12.137 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 34017 + Specific Conductance (µS/cm, 15°C) = 34027 Density (g/cm³) = 1.01994 Volume (L) = 1.00544 - Viscosity (mPa s) = 1.28098 + Viscosity (mPa s) = 1.28053 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -2825,10 +2825,10 @@ Reaction 1. pH = 6.378 Charge balance pe = 12.262 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 44951 + Specific Conductance (µS/cm, 15°C) = 44966 Density (g/cm³) = 1.02806 Volume (L) = 1.00742 - Viscosity (mPa s) = 1.33599 + Viscosity (mPa s) = 1.33545 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.125e+00 Mass of water (kg) = 1.000e+00 @@ -2903,10 +2903,10 @@ Reaction 1. pH = 6.356 Charge balance pe = 0.002 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 48149 + Specific Conductance (µS/cm, 15°C) = 48166 Density (g/cm³) = 1.03056 Volume (L) = 1.00805 - Viscosity (mPa s) = 1.35309 + Viscosity (mPa s) = 1.35254 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.224e+00 Mass of water (kg) = 1.000e+00 @@ -2981,10 +2981,10 @@ Reaction 1. pH = 6.297 Charge balance pe = 0.283 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 56559 + Specific Conductance (µS/cm, 15°C) = 56580 Density (g/cm³) = 1.03741 Volume (L) = 1.00983 - Viscosity (mPa s) = 1.40060 + Viscosity (mPa s) = 1.39999 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -3059,10 +3059,10 @@ Reaction 1. pH = 6.282 Charge balance pe = 11.970 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 58723 + Specific Conductance (µS/cm, 15°C) = 58745 Density (g/cm³) = 1.03924 Volume (L) = 1.01032 - Viscosity (mPa s) = 1.41348 + Viscosity (mPa s) = 1.41286 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -3137,10 +3137,10 @@ Reaction 1. pH = 6.266 Charge balance pe = 0.432 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 61051 + Specific Conductance (µS/cm, 15°C) = 61074 Density (g/cm³) = 1.04125 Volume (L) = 1.01086 - Viscosity (mPa s) = 1.42767 + Viscosity (mPa s) = 1.42703 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.656e+00 Mass of water (kg) = 1.000e+00 @@ -3215,10 +3215,10 @@ Reaction 1. pH = 6.220 Charge balance pe = 11.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 67799 + Specific Conductance (µS/cm, 15°C) = 67826 Density (g/cm³) = 1.04727 Volume (L) = 1.01251 - Viscosity (mPa s) = 1.47092 + Viscosity (mPa s) = 1.47023 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.902e+00 Mass of water (kg) = 1.000e+00 @@ -3293,10 +3293,10 @@ Reaction 1. pH = 6.151 Charge balance pe = 12.145 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 77742 + Specific Conductance (µS/cm, 15°C) = 77774 Density (g/cm³) = 1.05677 Volume (L) = 1.01524 - Viscosity (mPa s) = 1.54160 + Viscosity (mPa s) = 1.54085 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -3371,10 +3371,10 @@ Reaction 1. pH = 6.049 Charge balance pe = 12.498 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 91570 + Specific Conductance (µS/cm, 15°C) = 91609 Density (g/cm³) = 1.07159 Volume (L) = 1.01974 - Viscosity (mPa s) = 1.65933 + Viscosity (mPa s) = 1.65847 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.922e+00 Mass of water (kg) = 1.000e+00 @@ -3449,10 +3449,10 @@ Reaction 1. pH = 6.038 Charge balance pe = 12.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 93036 + Specific Conductance (µS/cm, 15°C) = 93076 Density (g/cm³) = 1.07330 Volume (L) = 1.02029 - Viscosity (mPa s) = 1.67363 + Viscosity (mPa s) = 1.67277 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -3527,10 +3527,10 @@ Reaction 1. pH = 6.037 Charge balance pe = 12.081 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 93125 + Specific Conductance (µS/cm, 15°C) = 93165 Density (g/cm³) = 1.07341 Volume (L) = 1.02032 - Viscosity (mPa s) = 1.67451 + Viscosity (mPa s) = 1.67364 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -3605,10 +3605,10 @@ Reaction 1. pH = 5.627 Charge balance pe = 12.987 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 128883 + Specific Conductance (µS/cm, 15°C) = 128937 Density (g/cm³) = 1.13942 Volume (L) = 1.04477 - Viscosity (mPa s) = 2.43449 + Viscosity (mPa s) = 2.43326 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -6829,7 +6829,7 @@ Reaction 1. pH = 6.075 Charge balance pe = 11.570 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 74687 + Specific Conductance (µS/cm, 25°C) = 74688 Density (g/cm³) = 1.03791 Volume (L) = 1.01301 Viscosity (mPa s) = 1.11272 @@ -7609,7 +7609,7 @@ Reaction 1. pH = 5.840 Charge balance pe = 11.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 115556 + Specific Conductance (µS/cm, 25°C) = 115557 Density (g/cm³) = 1.07052 Volume (L) = 1.02294 Viscosity (mPa s) = 1.30954 @@ -9016,7 +9016,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 127535 Density (g/cm³) = 1.25467 Volume (L) = 1.11478 - Viscosity (mPa s) = 5.33423 + Viscosity (mPa s) = 5.33422 Activity of water = 0.786 Ionic strength (mol/kgw) = 1.256e+01 Mass of water (kg) = 1.000e+00 @@ -9429,10 +9429,10 @@ Reaction 1. pH = 6.259 Charge balance pe = 0.495 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 9427 + Specific Conductance (µS/cm, 45°C) = 9424 Density (g/cm³) = 0.99276 Volume (L) = 1.01043 - Viscosity (mPa s) = 0.60690 + Viscosity (mPa s) = 0.60709 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -9507,10 +9507,10 @@ Reaction 1. pH = 6.198 Charge balance pe = 0.589 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 13826 + Specific Conductance (µS/cm, 45°C) = 13821 Density (g/cm³) = 0.99411 Volume (L) = 1.01072 - Viscosity (mPa s) = 0.61194 + Viscosity (mPa s) = 0.61217 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -9585,10 +9585,10 @@ Reaction 1. pH = 6.158 Charge balance pe = 0.629 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 17654 + Specific Conductance (µS/cm, 45°C) = 17648 Density (g/cm³) = 0.99532 Volume (L) = 1.01097 - Viscosity (mPa s) = 0.61641 + Viscosity (mPa s) = 0.61668 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -9663,10 +9663,10 @@ Reaction 1. pH = 6.092 Charge balance pe = 0.714 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 25687 + Specific Conductance (µS/cm, 45°C) = 25675 Density (g/cm³) = 0.99798 Volume (L) = 1.01156 - Viscosity (mPa s) = 0.62608 + Viscosity (mPa s) = 0.62641 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -9741,10 +9741,10 @@ Reaction 1. pH = 6.046 Charge balance pe = 0.521 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 32495 + Specific Conductance (µS/cm, 45°C) = 32479 Density (g/cm³) = 1.00034 Volume (L) = 1.01210 - Viscosity (mPa s) = 0.63456 + Viscosity (mPa s) = 0.63494 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -9819,10 +9819,10 @@ Reaction 1. pH = 5.905 Charge balance pe = 0.537 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 60146 + Specific Conductance (µS/cm, 45°C) = 60104 Density (g/cm³) = 1.01072 Volume (L) = 1.01461 - Viscosity (mPa s) = 0.67189 + Viscosity (mPa s) = 0.67244 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -9897,10 +9897,10 @@ Reaction 1. pH = 5.799 Charge balance pe = 10.022 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 85549 + Specific Conductance (µS/cm, 45°C) = 85480 Density (g/cm³) = 1.02138 Volume (L) = 1.01741 - Viscosity (mPa s) = 0.71072 + Viscosity (mPa s) = 0.71140 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.234e+00 Mass of water (kg) = 1.000e+00 @@ -9975,10 +9975,10 @@ Reaction 1. pH = 5.743 Charge balance pe = 10.030 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 99785 + Specific Conductance (µS/cm, 45°C) = 99700 Density (g/cm³) = 1.02787 Volume (L) = 1.01920 - Viscosity (mPa s) = 0.73480 + Viscosity (mPa s) = 0.73554 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -10053,10 +10053,10 @@ Reaction 1. pH = 5.728 Charge balance pe = 10.356 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 103584 + Specific Conductance (µS/cm, 45°C) = 103494 Density (g/cm³) = 1.02967 Volume (L) = 1.01971 - Viscosity (mPa s) = 0.74155 + Viscosity (mPa s) = 0.74231 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -10131,10 +10131,10 @@ Reaction 1. pH = 5.719 Charge balance pe = 10.017 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 105885 + Specific Conductance (µS/cm, 45°C) = 105793 Density (g/cm³) = 1.03077 Volume (L) = 1.02003 - Viscosity (mPa s) = 0.74572 + Viscosity (mPa s) = 0.74649 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.620e+00 Mass of water (kg) = 1.000e+00 @@ -10209,10 +10209,10 @@ Reaction 1. pH = 5.597 Charge balance pe = 10.435 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 136918 + Specific Conductance (µS/cm, 45°C) = 136788 Density (g/cm³) = 1.04689 Volume (L) = 1.02482 - Viscosity (mPa s) = 0.80848 + Viscosity (mPa s) = 0.80939 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -10287,10 +10287,10 @@ Reaction 1. pH = 5.534 Charge balance pe = 0.672 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 152200 + Specific Conductance (µS/cm, 45°C) = 152051 Density (g/cm³) = 1.05583 Volume (L) = 1.02765 - Viscosity (mPa s) = 0.84535 + Viscosity (mPa s) = 0.84634 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.679e+00 Mass of water (kg) = 1.000e+00 @@ -10365,10 +10365,10 @@ Reaction 1. pH = 5.484 Charge balance pe = 11.144 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 163702 + Specific Conductance (µS/cm, 45°C) = 163539 Density (g/cm³) = 1.06314 Volume (L) = 1.03004 - Viscosity (mPa s) = 0.87687 + Viscosity (mPa s) = 0.87792 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -10443,10 +10443,10 @@ Reaction 1. pH = 5.484 Charge balance pe = 10.230 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 163858 + Specific Conductance (µS/cm, 45°C) = 163694 Density (g/cm³) = 1.06324 Volume (L) = 1.03008 - Viscosity (mPa s) = 0.87733 + Viscosity (mPa s) = 0.87837 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -10521,10 +10521,10 @@ Reaction 1. pH = 5.443 Charge balance pe = 10.814 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 172867 + Specific Conductance (µS/cm, 45°C) = 172693 Density (g/cm³) = 1.06940 Volume (L) = 1.03215 - Viscosity (mPa s) = 0.90508 + Viscosity (mPa s) = 0.90617 Activity of water = 0.944 Ionic strength (mol/kgw) = 3.270e+00 Mass of water (kg) = 1.000e+00 @@ -10599,10 +10599,10 @@ Reaction 1. pH = 5.385 Charge balance pe = 10.535 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 184814 + Specific Conductance (µS/cm, 45°C) = 184626 Density (g/cm³) = 1.07832 Volume (L) = 1.03526 - Viscosity (mPa s) = 0.94744 + Viscosity (mPa s) = 0.94860 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.665e+00 Mass of water (kg) = 1.000e+00 @@ -10677,10 +10677,10 @@ Reaction 1. pH = 5.217 Charge balance pe = 10.418 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 212914 + Specific Conductance (µS/cm, 45°C) = 212699 Density (g/cm³) = 1.10517 Volume (L) = 1.04528 - Viscosity (mPa s) = 1.09534 + Viscosity (mPa s) = 1.09668 Activity of water = 0.917 Ionic strength (mol/kgw) = 4.890e+00 Mass of water (kg) = 1.000e+00 @@ -10755,10 +10755,10 @@ Reaction 1. pH = 5.208 Charge balance pe = 10.318 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 214049 + Specific Conductance (µS/cm, 45°C) = 213833 Density (g/cm³) = 1.10656 Volume (L) = 1.04583 - Viscosity (mPa s) = 1.10407 + Viscosity (mPa s) = 1.10542 Activity of water = 0.916 Ionic strength (mol/kgw) = 4.955e+00 Mass of water (kg) = 1.000e+00 @@ -10833,10 +10833,10 @@ Reaction 1. pH = 5.074 Charge balance pe = 0.764 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 227672 + Specific Conductance (µS/cm, 45°C) = 227451 Density (g/cm³) = 1.12852 Volume (L) = 1.05487 - Viscosity (mPa s) = 1.25933 + Viscosity (mPa s) = 1.26082 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -10911,10 +10911,10 @@ Reaction 1. pH = 5.044 Charge balance pe = 11.183 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 229646 + Specific Conductance (µS/cm, 45°C) = 229426 Density (g/cm³) = 1.13347 Volume (L) = 1.05701 - Viscosity (mPa s) = 1.29973 + Viscosity (mPa s) = 1.30124 Activity of water = 0.894 Ionic strength (mol/kgw) = 6.241e+00 Mass of water (kg) = 1.000e+00 @@ -10989,10 +10989,10 @@ Reaction 1. pH = 5.007 Charge balance pe = 0.946 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 231524 + Specific Conductance (µS/cm, 45°C) = 231306 Density (g/cm³) = 1.13955 Volume (L) = 1.05970 - Viscosity (mPa s) = 1.35252 + Viscosity (mPa s) = 1.35407 Activity of water = 0.889 Ionic strength (mol/kgw) = 6.540e+00 Mass of water (kg) = 1.000e+00 @@ -11067,10 +11067,10 @@ Reaction 1. pH = 4.895 Charge balance pe = 11.555 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 233665 + Specific Conductance (µS/cm, 45°C) = 233459 Density (g/cm³) = 1.15789 Volume (L) = 1.06817 - Viscosity (mPa s) = 1.53635 + Viscosity (mPa s) = 1.53800 Activity of water = 0.873 Ionic strength (mol/kgw) = 7.461e+00 Mass of water (kg) = 1.000e+00 @@ -11145,10 +11145,10 @@ Reaction 1. pH = 4.801 Charge balance pe = 1.122 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 231668 + Specific Conductance (µS/cm, 45°C) = 231477 Density (g/cm³) = 1.17310 Volume (L) = 1.07565 - Viscosity (mPa s) = 1.72273 + Viscosity (mPa s) = 1.72447 Activity of water = 0.860 Ionic strength (mol/kgw) = 8.250e+00 Mass of water (kg) = 1.000e+00 @@ -11223,10 +11223,10 @@ Reaction 1. pH = 4.737 Charge balance pe = 11.972 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 228556 + Specific Conductance (µS/cm, 45°C) = 228377 Density (g/cm³) = 1.18343 Volume (L) = 1.08097 - Viscosity (mPa s) = 1.87053 + Viscosity (mPa s) = 1.87232 Activity of water = 0.850 Ionic strength (mol/kgw) = 8.798e+00 Mass of water (kg) = 1.000e+00 @@ -11301,10 +11301,10 @@ Reaction 1. pH = 4.607 Charge balance pe = 11.406 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 218683 + Specific Conductance (µS/cm, 45°C) = 218531 Density (g/cm³) = 1.20410 Volume (L) = 1.09225 - Viscosity (mPa s) = 2.22991 + Viscosity (mPa s) = 2.23182 Activity of water = 0.831 Ionic strength (mol/kgw) = 9.930e+00 Mass of water (kg) = 1.000e+00 @@ -11379,10 +11379,10 @@ Reaction 1. pH = 4.398 Charge balance pe = 1.612 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 196323 + Specific Conductance (µS/cm, 45°C) = 196213 Density (g/cm³) = 1.23611 Volume (L) = 1.11156 - Viscosity (mPa s) = 3.00814 + Viscosity (mPa s) = 3.01021 Activity of water = 0.800 Ionic strength (mol/kgw) = 1.178e+01 Mass of water (kg) = 1.000e+00 @@ -11457,10 +11457,10 @@ Reaction 1. pH = 4.235 Charge balance pe = 12.065 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 176372 + Specific Conductance (µS/cm, 45°C) = 176291 Density (g/cm³) = 1.26009 Volume (L) = 1.12770 - Viscosity (mPa s) = 3.83638 + Viscosity (mPa s) = 3.83858 Activity of water = 0.775 Ionic strength (mol/kgw) = 1.326e+01 Mass of water (kg) = 1.000e+00 @@ -11535,10 +11535,10 @@ Reaction 1. pH = 4.047 Charge balance pe = 12.493 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 153456 + Specific Conductance (µS/cm, 45°C) = 153400 Density (g/cm³) = 1.28646 Volume (L) = 1.14741 - Viscosity (mPa s) = 5.09156 + Viscosity (mPa s) = 5.09391 Activity of water = 0.745 Ionic strength (mol/kgw) = 1.500e+01 Mass of water (kg) = 1.000e+00 @@ -11717,10 +11717,10 @@ Reaction 1. pH = 5.951 Charge balance pe = 0.812 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 12341 + Specific Conductance (µS/cm, 65°C) = 12333 Density (g/cm³) = 0.98312 Volume (L) = 1.02034 - Viscosity (mPa s) = 0.44118 + Viscosity (mPa s) = 0.44148 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -11795,10 +11795,10 @@ Reaction 1. pH = 5.848 Charge balance pe = 0.802 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 23089 + Specific Conductance (µS/cm, 65°C) = 23070 Density (g/cm³) = 0.98570 Volume (L) = 1.02084 - Viscosity (mPa s) = 0.44817 + Viscosity (mPa s) = 0.44860 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -11873,10 +11873,10 @@ Reaction 1. pH = 5.736 Charge balance pe = 8.793 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 42480 + Specific Conductance (µS/cm, 65°C) = 42432 Density (g/cm³) = 0.99074 Volume (L) = 1.02191 - Viscosity (mPa s) = 0.46147 + Viscosity (mPa s) = 0.46208 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -11951,10 +11951,10 @@ Reaction 1. pH = 5.594 Charge balance pe = 8.969 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 78638 + Specific Conductance (µS/cm, 65°C) = 78520 Density (g/cm³) = 1.00115 Volume (L) = 1.02431 - Viscosity (mPa s) = 0.48876 + Viscosity (mPa s) = 0.48962 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -12029,10 +12029,10 @@ Reaction 1. pH = 5.484 Charge balance pe = 9.244 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 113109 + Specific Conductance (µS/cm, 65°C) = 112910 Density (g/cm³) = 1.01225 Volume (L) = 1.02711 - Viscosity (mPa s) = 0.51819 + Viscosity (mPa s) = 0.51927 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.251e+00 Mass of water (kg) = 1.000e+00 @@ -12107,10 +12107,10 @@ Reaction 1. pH = 5.417 Charge balance pe = 7.887 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 135521 + Specific Conductance (µS/cm, 65°C) = 135265 Density (g/cm³) = 1.02015 Volume (L) = 1.02923 - Viscosity (mPa s) = 0.53953 + Viscosity (mPa s) = 0.54074 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -12185,10 +12185,10 @@ Reaction 1. pH = 5.286 Charge balance pe = 1.249 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 179257 + Specific Conductance (µS/cm, 65°C) = 178883 Density (g/cm³) = 1.03741 Volume (L) = 1.03418 - Viscosity (mPa s) = 0.58811 + Viscosity (mPa s) = 0.58957 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -12263,10 +12263,10 @@ Reaction 1. pH = 5.251 Charge balance pe = 1.559 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 190656 + Specific Conductance (µS/cm, 65°C) = 190251 Density (g/cm³) = 1.04241 Volume (L) = 1.03570 - Viscosity (mPa s) = 0.60281 + Viscosity (mPa s) = 0.60433 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.508e+00 Mass of water (kg) = 1.000e+00 @@ -12341,10 +12341,10 @@ Reaction 1. pH = 5.174 Charge balance pe = 0.864 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 214507 + Specific Conductance (µS/cm, 65°C) = 214038 Density (g/cm³) = 1.05372 Volume (L) = 1.03925 - Viscosity (mPa s) = 0.63751 + Viscosity (mPa s) = 0.63917 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -12419,10 +12419,10 @@ Reaction 1. pH = 5.059 Charge balance pe = 8.350 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 246775 + Specific Conductance (µS/cm, 65°C) = 246223 Density (g/cm³) = 1.07161 Volume (L) = 1.04522 - Viscosity (mPa s) = 0.69746 + Viscosity (mPa s) = 0.69934 Activity of water = 0.936 Ionic strength (mol/kgw) = 3.783e+00 Mass of water (kg) = 1.000e+00 @@ -12497,10 +12497,10 @@ Reaction 1. pH = 4.699 Charge balance pe = 1.391 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 306246 + Specific Conductance (µS/cm, 65°C) = 305608 Density (g/cm³) = 1.13063 Volume (L) = 1.06792 - Viscosity (mPa s) = 0.97289 + Viscosity (mPa s) = 0.97535 Activity of water = 0.889 Ionic strength (mol/kgw) = 6.535e+00 Mass of water (kg) = 1.000e+00 @@ -12575,10 +12575,10 @@ Reaction 1. pH = 4.535 Charge balance pe = 10.127 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 310025 + Specific Conductance (µS/cm, 65°C) = 309436 Density (g/cm³) = 1.15785 Volume (L) = 1.08002 - Viscosity (mPa s) = 1.16868 + Viscosity (mPa s) = 1.17139 Activity of water = 0.866 Ionic strength (mol/kgw) = 7.892e+00 Mass of water (kg) = 1.000e+00 @@ -12653,10 +12653,10 @@ Reaction 1. pH = 4.367 Charge balance pe = 10.644 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 300746 + Specific Conductance (µS/cm, 65°C) = 300245 Density (g/cm³) = 1.18541 Volume (L) = 1.09342 - Viscosity (mPa s) = 1.43979 + Viscosity (mPa s) = 1.44274 Activity of water = 0.841 Ionic strength (mol/kgw) = 9.331e+00 Mass of water (kg) = 1.000e+00 @@ -12731,10 +12731,10 @@ Reaction 1. pH = 4.193 Charge balance pe = 10.701 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 280953 + Specific Conductance (µS/cm, 65°C) = 280555 Density (g/cm³) = 1.21341 Volume (L) = 1.10831 - Viscosity (mPa s) = 1.82110 + Viscosity (mPa s) = 1.82428 Activity of water = 0.815 Ionic strength (mol/kgw) = 1.086e+01 Mass of water (kg) = 1.000e+00 @@ -12809,10 +12809,10 @@ Reaction 1. pH = 4.034 Charge balance pe = 1.246 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 257797 + Specific Conductance (µS/cm, 65°C) = 257488 Density (g/cm³) = 1.23812 Volume (L) = 1.12263 - Viscosity (mPa s) = 2.27943 + Viscosity (mPa s) = 2.28281 Activity of water = 0.791 Ionic strength (mol/kgw) = 1.229e+01 Mass of water (kg) = 1.000e+00 @@ -12887,10 +12887,10 @@ Reaction 1. pH = 3.866 Charge balance pe = 11.019 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 231093 + Specific Conductance (µS/cm, 65°C) = 230865 Density (g/cm³) = 1.26356 Volume (L) = 1.13865 - Viscosity (mPa s) = 2.91270 + Viscosity (mPa s) = 2.91628 Activity of water = 0.765 Ionic strength (mol/kgw) = 1.382e+01 Mass of water (kg) = 1.000e+00 @@ -13069,10 +13069,10 @@ Reaction 1. pH = 5.627 Charge balance pe = 1.073 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 40311 + Specific Conductance (µS/cm, 75°C) = 40257 Density (g/cm³) = 0.98338 Volume (L) = 1.02740 - Viscosity (mPa s) = 0.39857 + Viscosity (mPa s) = 0.39919 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.253e-01 Mass of water (kg) = 1.000e+00 @@ -13147,10 +13147,10 @@ Reaction 1. pH = 5.518 Charge balance pe = 1.537 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 67811 + Specific Conductance (µS/cm, 75°C) = 67693 Density (g/cm³) = 0.99020 Volume (L) = 1.02885 - Viscosity (mPa s) = 0.41414 + Viscosity (mPa s) = 0.41499 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.913e-01 Mass of water (kg) = 1.000e+00 @@ -13225,10 +13225,10 @@ Reaction 1. pH = 5.442 Charge balance pe = 1.152 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 91646 + Specific Conductance (µS/cm, 75°C) = 91462 Density (g/cm³) = 0.99658 Volume (L) = 1.03030 - Viscosity (mPa s) = 0.42871 + Viscosity (mPa s) = 0.42972 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.438e-01 Mass of water (kg) = 1.000e+00 @@ -13303,10 +13303,10 @@ Reaction 1. pH = 5.363 Charge balance pe = 8.312 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 119519 + Specific Conductance (µS/cm, 75°C) = 119251 Density (g/cm³) = 1.00460 Volume (L) = 1.03224 - Viscosity (mPa s) = 0.44716 + Viscosity (mPa s) = 0.44835 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.165e+00 Mass of water (kg) = 1.000e+00 @@ -13381,10 +13381,10 @@ Reaction 1. pH = 5.275 Charge balance pe = 8.310 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 152310 + Specific Conductance (µS/cm, 75°C) = 151933 Density (g/cm³) = 1.01486 Volume (L) = 1.03488 - Viscosity (mPa s) = 0.47122 + Viscosity (mPa s) = 0.47260 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.583e+00 Mass of water (kg) = 1.000e+00 @@ -13459,10 +13459,10 @@ Reaction 1. pH = 5.811 Charge balance pe = 0.899 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 13796 + Specific Conductance (µS/cm, 75°C) = 13785 Density (g/cm³) = 0.97744 Volume (L) = 1.02627 - Viscosity (mPa s) = 0.38472 + Viscosity (mPa s) = 0.38506 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -13537,10 +13537,10 @@ Reaction 1. pH = 5.707 Charge balance pe = 0.964 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 25803 + Specific Conductance (µS/cm, 75°C) = 25776 Density (g/cm³) = 0.98003 Volume (L) = 1.02675 - Viscosity (mPa s) = 0.39085 + Viscosity (mPa s) = 0.39134 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -13615,10 +13615,10 @@ Reaction 1. pH = 5.595 Charge balance pe = 1.010 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 47474 + Specific Conductance (µS/cm, 75°C) = 47405 Density (g/cm³) = 0.98510 Volume (L) = 1.02776 - Viscosity (mPa s) = 0.40250 + Viscosity (mPa s) = 0.40319 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -13693,10 +13693,10 @@ Reaction 1. pH = 5.453 Charge balance pe = 1.180 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 87923 + Specific Conductance (µS/cm, 75°C) = 87750 Density (g/cm³) = 0.99556 Volume (L) = 1.03006 - Viscosity (mPa s) = 0.42637 + Viscosity (mPa s) = 0.42735 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -13771,10 +13771,10 @@ Reaction 1. pH = 5.341 Charge balance pe = 1.366 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 127320 + Specific Conductance (µS/cm, 75°C) = 127027 Density (g/cm³) = 1.00695 Volume (L) = 1.03283 - Viscosity (mPa s) = 0.45264 + Viscosity (mPa s) = 0.45387 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.261e+00 Mass of water (kg) = 1.000e+00 @@ -13849,10 +13849,10 @@ Reaction 1. pH = 5.277 Charge balance pe = 8.304 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 151643 + Specific Conductance (µS/cm, 75°C) = 151268 Density (g/cm³) = 1.01464 Volume (L) = 1.03482 - Viscosity (mPa s) = 0.47070 + Viscosity (mPa s) = 0.47208 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -13927,10 +13927,10 @@ Reaction 1. pH = 5.146 Charge balance pe = 9.211 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 200721 + Specific Conductance (µS/cm, 75°C) = 200174 Density (g/cm³) = 1.03197 Volume (L) = 1.03963 - Viscosity (mPa s) = 0.51304 + Viscosity (mPa s) = 0.51470 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -14005,10 +14005,10 @@ Reaction 1. pH = 5.128 Charge balance pe = 8.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 207240 + Specific Conductance (µS/cm, 75°C) = 206670 Density (g/cm³) = 1.03450 Volume (L) = 1.04037 - Viscosity (mPa s) = 0.51944 + Viscosity (mPa s) = 0.52114 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.403e+00 Mass of water (kg) = 1.000e+00 @@ -14083,10 +14083,10 @@ Reaction 1. pH = 5.034 Charge balance pe = 0.968 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 240363 + Specific Conductance (µS/cm, 75°C) = 239675 Density (g/cm³) = 1.04835 Volume (L) = 1.04457 - Viscosity (mPa s) = 0.55599 + Viscosity (mPa s) = 0.55789 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -14161,10 +14161,10 @@ Reaction 1. pH = 4.936 Charge balance pe = 9.217 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 271676 + Specific Conductance (µS/cm, 75°C) = 270882 Density (g/cm³) = 1.06358 Volume (L) = 1.04947 - Viscosity (mPa s) = 0.59960 + Viscosity (mPa s) = 0.60170 Activity of water = 0.938 Ionic strength (mol/kgw) = 3.661e+00 Mass of water (kg) = 1.000e+00 @@ -14239,10 +14239,10 @@ Reaction 1. pH = 4.755 Charge balance pe = 9.250 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 317420 + Specific Conductance (µS/cm, 75°C) = 316496 Density (g/cm³) = 1.09309 Volume (L) = 1.05981 - Viscosity (mPa s) = 0.69904 + Viscosity (mPa s) = 0.70150 Activity of water = 0.915 Ionic strength (mol/kgw) = 4.993e+00 Mass of water (kg) = 1.000e+00 @@ -14317,10 +14317,10 @@ Reaction 1. pH = 4.581 Charge balance pe = 9.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 343182 + Specific Conductance (µS/cm, 75°C) = 342233 Density (g/cm³) = 1.12203 Volume (L) = 1.07104 - Viscosity (mPa s) = 0.82546 + Viscosity (mPa s) = 0.82823 Activity of water = 0.892 Ionic strength (mol/kgw) = 6.356e+00 Mass of water (kg) = 1.000e+00 @@ -14395,10 +14395,10 @@ Reaction 1. pH = 4.424 Charge balance pe = 9.861 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 350700 + Specific Conductance (µS/cm, 75°C) = 349806 Density (g/cm³) = 1.14841 Volume (L) = 1.08222 - Viscosity (mPa s) = 0.97833 + Viscosity (mPa s) = 0.98136 Activity of water = 0.870 Ionic strength (mol/kgw) = 7.651e+00 Mass of water (kg) = 1.000e+00 @@ -14473,10 +14473,10 @@ Reaction 1. pH = 4.276 Charge balance pe = 1.208 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 345276 + Specific Conductance (µS/cm, 75°C) = 344484 Density (g/cm³) = 1.17319 Volume (L) = 1.09360 - Viscosity (mPa s) = 1.16826 + Viscosity (mPa s) = 1.17154 Activity of water = 0.848 Ionic strength (mol/kgw) = 8.916e+00 Mass of water (kg) = 1.000e+00 @@ -14551,10 +14551,10 @@ Reaction 1. pH = 4.094 Charge balance pe = 10.590 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 325933 + Specific Conductance (µS/cm, 75°C) = 325295 Density (g/cm³) = 1.20293 Volume (L) = 1.10844 - Viscosity (mPa s) = 1.47891 + Viscosity (mPa s) = 1.48247 Activity of water = 0.821 Ionic strength (mol/kgw) = 1.050e+01 Mass of water (kg) = 1.000e+00 @@ -14629,10 +14629,10 @@ Reaction 1. pH = 3.931 Charge balance pe = 10.426 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 300977 + Specific Conductance (µS/cm, 75°C) = 300478 Density (g/cm³) = 1.22898 Volume (L) = 1.12257 - Viscosity (mPa s) = 1.85215 + Viscosity (mPa s) = 1.85595 Activity of water = 0.797 Ionic strength (mol/kgw) = 1.196e+01 Mass of water (kg) = 1.000e+00 @@ -14811,10 +14811,10 @@ Reaction 1. pH = 5.679 Charge balance pe = 0.995 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 15229 + Specific Conductance (µS/cm, 85°C) = 15215 Density (g/cm³) = 0.97124 Volume (L) = 1.03282 - Viscosity (mPa s) = 0.33960 + Viscosity (mPa s) = 0.33998 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -14889,10 +14889,10 @@ Reaction 1. pH = 5.575 Charge balance pe = 1.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 28477 + Specific Conductance (µS/cm, 85°C) = 28439 Density (g/cm³) = 0.97386 Volume (L) = 1.03326 - Viscosity (mPa s) = 0.34505 + Viscosity (mPa s) = 0.34559 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -14967,10 +14967,10 @@ Reaction 1. pH = 5.462 Charge balance pe = 1.127 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 52403 + Specific Conductance (µS/cm, 85°C) = 52307 Density (g/cm³) = 0.97896 Volume (L) = 1.03420 - Viscosity (mPa s) = 0.35538 + Viscosity (mPa s) = 0.35614 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -15045,10 +15045,10 @@ Reaction 1. pH = 5.321 Charge balance pe = 1.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 97115 + Specific Conductance (µS/cm, 85°C) = 96876 Density (g/cm³) = 0.98949 Volume (L) = 1.03638 - Viscosity (mPa s) = 0.37651 + Viscosity (mPa s) = 0.37759 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -15123,10 +15123,10 @@ Reaction 1. pH = 5.259 Charge balance pe = 7.473 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 120773 + Specific Conductance (µS/cm, 85°C) = 120445 Density (g/cm³) = 0.99556 Volume (L) = 1.03775 - Viscosity (mPa s) = 0.38875 + Viscosity (mPa s) = 0.38999 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.044e+00 Mass of water (kg) = 1.000e+00 @@ -15201,10 +15201,10 @@ Reaction 1. pH = 5.145 Charge balance pe = 7.247 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 167679 + Specific Conductance (µS/cm, 85°C) = 167159 Density (g/cm³) = 1.00868 Volume (L) = 1.04093 - Viscosity (mPa s) = 0.41570 + Viscosity (mPa s) = 0.41723 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -15279,10 +15279,10 @@ Reaction 1. pH = 5.046 Charge balance pe = 8.642 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 209235 + Specific Conductance (µS/cm, 85°C) = 208534 Density (g/cm³) = 1.02174 Volume (L) = 1.04436 - Viscosity (mPa s) = 0.44346 + Viscosity (mPa s) = 0.44522 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.113e+00 Mass of water (kg) = 1.000e+00 @@ -15357,10 +15357,10 @@ Reaction 1. pH = 5.015 Charge balance pe = 8.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 222142 + Specific Conductance (µS/cm, 85°C) = 221383 Density (g/cm³) = 1.02612 Volume (L) = 1.04557 - Viscosity (mPa s) = 0.45306 + Viscosity (mPa s) = 0.45490 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -15435,10 +15435,10 @@ Reaction 1. pH = 4.903 Charge balance pe = 9.043 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 266240 + Specific Conductance (µS/cm, 85°C) = 265285 Density (g/cm³) = 1.04259 Volume (L) = 1.05034 - Viscosity (mPa s) = 0.49087 + Viscosity (mPa s) = 0.49297 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -15513,10 +15513,10 @@ Reaction 1. pH = 4.836 Charge balance pe = 8.836 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 290748 + Specific Conductance (µS/cm, 85°C) = 289688 Density (g/cm³) = 1.05306 Volume (L) = 1.05356 - Viscosity (mPa s) = 0.51664 + Viscosity (mPa s) = 0.51890 Activity of water = 0.941 Ionic strength (mol/kgw) = 3.449e+00 Mass of water (kg) = 1.000e+00 @@ -15591,10 +15591,10 @@ Reaction 1. pH = 4.759 Charge balance pe = 9.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 316117 + Specific Conductance (µS/cm, 85°C) = 314953 Density (g/cm³) = 1.06537 Volume (L) = 1.05751 - Viscosity (mPa s) = 0.54916 + Viscosity (mPa s) = 0.55159 Activity of water = 0.932 Ionic strength (mol/kgw) = 3.990e+00 Mass of water (kg) = 1.000e+00 @@ -15669,10 +15669,10 @@ Reaction 1. pH = 4.690 Charge balance pe = 8.313 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 335967 + Specific Conductance (µS/cm, 85°C) = 334730 Density (g/cm³) = 1.07654 Volume (L) = 1.06127 - Viscosity (mPa s) = 0.58127 + Viscosity (mPa s) = 0.58384 Activity of water = 0.924 Ionic strength (mol/kgw) = 4.490e+00 Mass of water (kg) = 1.000e+00 @@ -15747,10 +15747,10 @@ Reaction 1. pH = 4.437 Charge balance pe = 1.751 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 383776 + Specific Conductance (µS/cm, 85°C) = 382447 Density (g/cm³) = 1.11905 Volume (L) = 1.07694 - Viscosity (mPa s) = 0.73558 + Viscosity (mPa s) = 0.73866 Activity of water = 0.890 Ionic strength (mol/kgw) = 6.464e+00 Mass of water (kg) = 1.000e+00 @@ -15825,10 +15825,10 @@ Reaction 1. pH = 4.311 Charge balance pe = 9.287 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 391644 + Specific Conductance (µS/cm, 85°C) = 390370 Density (g/cm³) = 1.14044 Volume (L) = 1.08567 - Viscosity (mPa s) = 0.84097 + Viscosity (mPa s) = 0.84430 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.503e+00 Mass of water (kg) = 1.000e+00 @@ -15903,10 +15903,10 @@ Reaction 1. pH = 4.271 Charge balance pe = 9.204 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 392018 + Specific Conductance (µS/cm, 85°C) = 390775 Density (g/cm³) = 1.14728 Volume (L) = 1.08859 - Viscosity (mPa s) = 0.87997 + Viscosity (mPa s) = 0.88337 Activity of water = 0.867 Ionic strength (mol/kgw) = 7.842e+00 Mass of water (kg) = 1.000e+00 @@ -15981,10 +15981,10 @@ Reaction 1. pH = 3.964 Charge balance pe = 10.064 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 367194 + Specific Conductance (µS/cm, 85°C) = 366279 Density (g/cm³) = 1.19852 Volume (L) = 1.11236 - Viscosity (mPa s) = 1.28558 + Viscosity (mPa s) = 1.28951 Activity of water = 0.822 Ionic strength (mol/kgw) = 1.050e+01 Mass of water (kg) = 1.000e+00 @@ -16163,10 +16163,10 @@ Reaction 1. pH = 5.554 Charge balance pe = 1.073 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 16626 + Specific Conductance (µS/cm, 95°C) = 16606 Density (g/cm³) = 0.96456 Volume (L) = 1.03997 - Viscosity (mPa s) = 0.30299 + Viscosity (mPa s) = 0.30340 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -16241,10 +16241,10 @@ Reaction 1. pH = 5.450 Charge balance pe = 1.134 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 31085 + Specific Conductance (µS/cm, 95°C) = 31034 Density (g/cm³) = 0.96720 Volume (L) = 1.04037 - Viscosity (mPa s) = 0.30788 + Viscosity (mPa s) = 0.30846 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -16319,10 +16319,10 @@ Reaction 1. pH = 5.338 Charge balance pe = 1.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 57221 + Specific Conductance (µS/cm, 95°C) = 57093 Density (g/cm³) = 0.97235 Volume (L) = 1.04123 - Viscosity (mPa s) = 0.31713 + Viscosity (mPa s) = 0.31796 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -16397,10 +16397,10 @@ Reaction 1. pH = 5.197 Charge balance pe = 2.107 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 106136 + Specific Conductance (µS/cm, 95°C) = 105817 Density (g/cm³) = 0.98297 Volume (L) = 1.04325 - Viscosity (mPa s) = 0.33604 + Viscosity (mPa s) = 0.33722 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -16475,10 +16475,10 @@ Reaction 1. pH = 5.074 Charge balance pe = 7.224 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 159327 + Specific Conductance (µS/cm, 95°C) = 158758 Density (g/cm³) = 0.99591 Volume (L) = 1.04605 - Viscosity (mPa s) = 0.35932 + Viscosity (mPa s) = 0.36084 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.316e+00 Mass of water (kg) = 1.000e+00 @@ -16553,10 +16553,10 @@ Reaction 1. pH = 5.021 Charge balance pe = 7.509 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 183498 + Specific Conductance (µS/cm, 95°C) = 182806 Density (g/cm³) = 1.00231 Volume (L) = 1.04755 - Viscosity (mPa s) = 0.37106 + Viscosity (mPa s) = 0.37272 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -16631,10 +16631,10 @@ Reaction 1. pH = 4.898 Charge balance pe = 8.090 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 240295 + Specific Conductance (µS/cm, 95°C) = 239299 Density (g/cm³) = 1.01891 Volume (L) = 1.05172 - Viscosity (mPa s) = 0.40251 + Viscosity (mPa s) = 0.40449 Activity of water = 0.962 Ionic strength (mol/kgw) = 2.256e+00 Mass of water (kg) = 1.000e+00 @@ -16709,10 +16709,10 @@ Reaction 1. pH = 4.891 Charge balance pe = 7.923 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 243350 + Specific Conductance (µS/cm, 95°C) = 242339 Density (g/cm³) = 1.01987 Volume (L) = 1.05197 - Viscosity (mPa s) = 0.40439 + Viscosity (mPa s) = 0.40639 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -16787,10 +16787,10 @@ Reaction 1. pH = 4.780 Charge balance pe = 8.146 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 291942 + Specific Conductance (µS/cm, 95°C) = 290667 Density (g/cm³) = 1.03646 Volume (L) = 1.05655 - Viscosity (mPa s) = 0.43803 + Viscosity (mPa s) = 0.44031 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -16865,10 +16865,10 @@ Reaction 1. pH = 4.689 Charge balance pe = 8.230 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 328049 + Specific Conductance (µS/cm, 95°C) = 326586 Density (g/cm³) = 1.05080 Volume (L) = 1.06080 - Viscosity (mPa s) = 0.46949 + Viscosity (mPa s) = 0.47200 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.613e+00 Mass of water (kg) = 1.000e+00 @@ -16943,10 +16943,10 @@ Reaction 1. pH = 4.554 Charge balance pe = 9.168 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 373181 + Specific Conductance (µS/cm, 95°C) = 371508 Density (g/cm³) = 1.07286 Volume (L) = 1.06782 - Viscosity (mPa s) = 0.52391 + Viscosity (mPa s) = 0.52674 Activity of water = 0.922 Ionic strength (mol/kgw) = 4.588e+00 Mass of water (kg) = 1.000e+00 @@ -17021,10 +17021,10 @@ Reaction 1. pH = 4.357 Charge balance pe = 8.393 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 417660 + Specific Conductance (µS/cm, 95°C) = 415863 Density (g/cm³) = 1.10632 Volume (L) = 1.07958 - Viscosity (mPa s) = 0.62704 + Viscosity (mPa s) = 0.63030 Activity of water = 0.896 Ionic strength (mol/kgw) = 6.124e+00 Mass of water (kg) = 1.000e+00 @@ -17099,10 +17099,10 @@ Reaction 1. pH = 4.243 Charge balance pe = 1.012 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 430421 + Specific Conductance (µS/cm, 95°C) = 428656 Density (g/cm³) = 1.12577 Volume (L) = 1.08702 - Viscosity (mPa s) = 0.70334 + Viscosity (mPa s) = 0.70684 Activity of water = 0.880 Ionic strength (mol/kgw) = 7.049e+00 Mass of water (kg) = 1.000e+00 @@ -17177,10 +17177,10 @@ Reaction 1. pH = 4.071 Charge balance pe = 9.134 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 432673 + Specific Conductance (µS/cm, 95°C) = 431072 Density (g/cm³) = 1.15518 Volume (L) = 1.09913 - Viscosity (mPa s) = 0.85128 + Viscosity (mPa s) = 0.85513 Activity of water = 0.856 Ionic strength (mol/kgw) = 8.497e+00 Mass of water (kg) = 1.000e+00 @@ -17255,10 +17255,10 @@ Reaction 1. pH = 3.915 Charge balance pe = 9.491 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 419489 + Specific Conductance (µS/cm, 95°C) = 418114 Density (g/cm³) = 1.18175 Volume (L) = 1.11096 - Viscosity (mPa s) = 1.03049 + Viscosity (mPa s) = 1.03464 Activity of water = 0.832 Ionic strength (mol/kgw) = 9.858e+00 Mass of water (kg) = 1.000e+00 @@ -17333,10 +17333,10 @@ Reaction 1. pH = 3.748 Charge balance pe = 10.387 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 394042 + Specific Conductance (µS/cm, 95°C) = 392933 Density (g/cm³) = 1.20951 Volume (L) = 1.12428 - Viscosity (mPa s) = 1.28083 + Viscosity (mPa s) = 1.28527 Activity of water = 0.807 Ionic strength (mol/kgw) = 1.134e+01 Mass of water (kg) = 1.000e+00 @@ -17411,10 +17411,10 @@ Reaction 1. pH = 3.567 Charge balance pe = 10.139 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 358752 + Specific Conductance (µS/cm, 95°C) = 357913 Density (g/cm³) = 1.23892 Volume (L) = 1.13950 - Viscosity (mPa s) = 1.64029 + Viscosity (mPa s) = 1.64504 Activity of water = 0.779 Ionic strength (mol/kgw) = 1.297e+01 Mass of water (kg) = 1.000e+00 @@ -17593,10 +17593,10 @@ Reaction 1. pH = 5.322 Charge balance pe = 7.061 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 50174 + Specific Conductance (µS/cm, 99°C) = 50063 Density (g/cm³) = 0.96783 Volume (L) = 1.04391 - Viscosity (mPa s) = 0.30083 + Viscosity (mPa s) = 0.30161 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.253e-01 Mass of water (kg) = 1.000e+00 @@ -17671,10 +17671,10 @@ Reaction 1. pH = 5.213 Charge balance pe = 1.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 84508 + Specific Conductance (µS/cm, 99°C) = 84266 Density (g/cm³) = 0.97479 Volume (L) = 1.04512 - Viscosity (mPa s) = 0.31268 + Viscosity (mPa s) = 0.31373 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.913e-01 Mass of water (kg) = 1.000e+00 @@ -17749,10 +17749,10 @@ Reaction 1. pH = 5.138 Charge balance pe = 1.497 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 114346 + Specific Conductance (µS/cm, 99°C) = 113970 Density (g/cm³) = 0.98129 Volume (L) = 1.04636 - Viscosity (mPa s) = 0.32374 + Viscosity (mPa s) = 0.32499 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.438e-01 Mass of water (kg) = 1.000e+00 @@ -17827,10 +17827,10 @@ Reaction 1. pH = 5.059 Charge balance pe = 1.480 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 149322 + Specific Conductance (µS/cm, 99°C) = 148771 Density (g/cm³) = 0.98944 Volume (L) = 1.04805 - Viscosity (mPa s) = 0.33773 + Viscosity (mPa s) = 0.33920 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.165e+00 Mass of water (kg) = 1.000e+00 @@ -17905,10 +17905,10 @@ Reaction 1. pH = 4.972 Charge balance pe = 1.764 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 190579 + Specific Conductance (µS/cm, 99°C) = 189805 Density (g/cm³) = 0.99987 Volume (L) = 1.05038 - Viscosity (mPa s) = 0.35593 + Viscosity (mPa s) = 0.35764 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.583e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_MgCl2_sol_101.sel b/mytest/Vm_MgCl2_sol_101.sel index 9087876b..df1c14fd 100644 --- a/mytest/Vm_MgCl2_sol_101.sel +++ b/mytest/Vm_MgCl2_sol_101.sel @@ -1,228 +1,228 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164526030 - 0.098339930894 4058.9220358671 - 0.124109917546 5020.6063869195 - 0.145529907609 5802.6613511319 - 0.196859886621 7624.5965233114 - 0.236699872202 8996.5278988144 - 0.288809854985 10744.8546504723 - 0.391919824525 14076.5783697058 - 0.584999774810 19954.9858597886 - 0.585749774629 19977.0371847909 - 0.803009724641 26146.5024241202 - 0.848339714680 27382.9630275802 - 1.124549655999 34584.0121377274 - 1.224329635330 37055.4401325842 - 1.574279563462 45234.9421683746 - 1.655789546670 47037.8440456860 - 1.902119495362 52267.2044415608 - 2.296049410433 59983.6128732305 - 2.995529245668 71874.6597499420 - 0.000000067373 0.0312876270 - 0.098339881686 5299.8730962189 - 0.120119863241 6361.5396316964 - 0.124109860077 6553.5640002922 - 0.145529843999 7572.7663818321 - 0.149999840813 7783.1315327679 - 0.196859810066 9946.2314862762 - 0.236699786766 11732.6920500855 - 0.270239768578 13204.7222724465 - 0.288809758954 14008.3988071859 - 0.299999753289 14489.0150436685 - 0.391919709759 18342.5962218148 - 0.480419671539 21913.2920504715 - 0.585749629157 26010.6696587117 - 0.803009548323 34017.8868641270 - 1.124549437120 44951.3011323453 - 1.224329403585 48149.9522418921 - 1.499999311615 56559.2796997398 - 1.574279286803 58723.8238735116 - 1.655789259481 61051.9250278865 - 1.902119175930 67799.4922650379 - 2.296049037459 77742.6206197205 - 2.922298798245 91570.1346906483 - 2.995528769316 93036.7233004673 - 2.999998766542 93125.2538541460 - 5.999997009917 128883.9053193647 + 0.000000043183 0.0164526034 + 0.098339930894 4059.8141671856 + 0.124109917546 5021.8397845340 + 0.145529907609 5804.1987211629 + 0.196859886621 7626.9241131303 + 0.236699872202 8999.5184612044 + 0.288809854985 10748.7651851749 + 0.391919824525 14082.4464031397 + 0.584999774810 19964.8483293955 + 0.585749774629 19986.9157585950 + 0.803009724641 26161.1627569512 + 0.848339714680 27398.6414765190 + 1.124549655999 34605.9451318318 + 1.224329635330 37079.6296773707 + 1.574279563462 45266.9063319102 + 1.655789546670 47071.5727055621 + 1.902119495362 52306.1250807357 + 2.296049410433 60030.3163739559 + 2.995529245668 71933.2880566294 + 0.000000067373 0.0312876275 + 0.098339881686 5300.4872075168 + 0.120119863241 6362.3507851803 + 0.124109860077 6554.4127444280 + 0.145529843999 7573.8240498169 + 0.149999840813 7784.2342240938 + 0.196859810066 9947.8320493218 + 0.236699786766 11734.7478791595 + 0.270239768578 13207.1803368577 + 0.288809758954 14011.0861294938 + 0.299999753289 14491.8425860108 + 0.391919709759 18346.6264077214 + 0.480419671539 21918.5485182412 + 0.585749629157 26017.4483278213 + 0.803009548323 34027.9384918513 + 1.124549437120 44966.3234424247 + 1.224329403585 48166.5152454131 + 1.499999311615 56580.0376130819 + 1.574279286803 58745.6898889102 + 1.655789259481 61074.9935518693 + 1.902119175930 67826.0971562480 + 2.296049037459 77774.5219691826 + 2.922298798245 91609.3814139614 + 2.995528769316 93076.7348129456 + 2.999998766542 93165.3113859157 + 5.999997009917 128937.1172328146 0.000000100644 0.0547765031 - 0.093599810485 6328.1912767564 - 0.098339803721 6620.5465883934 - 0.099359802291 6683.2537514698 - 0.120278774688 7954.4724100608 - 0.145529744821 9455.4740903059 - 0.149999739843 9717.7925064268 - 0.151139738587 9784.5393415046 - 0.151139738587 9784.5393415046 - 0.196859691825 12414.5807213358 - 0.198299690449 12496.0453615507 - 0.236699655446 14641.1678480273 - 0.270869626536 16509.6119595154 - 0.273599624301 16657.3841853070 - 0.299099603892 18027.5580302413 - 0.299099603892 18027.5580302413 - 0.299999603186 18075.5920924691 - 0.391919535235 22875.4609771149 - 0.394829533196 23024.2191171412 - 0.410399522387 23817.0585813287 - 0.482150474432 27406.6989834705 - 0.584999409808 32385.2816095499 - 0.585749409351 32420.9189809322 - 0.591899405609 32712.7963814218 - 0.596789402642 32944.4323870583 - 0.596789402642 32944.4323870583 - 0.699299341977 37713.5637730138 - 0.755399309806 40257.0278069454 - 0.789899290323 41799.1151716601 - 0.803009282959 42380.8207192226 - 0.848339257729 44374.3858378034 - 0.893699232751 46342.3349970892 - 1.022879162869 51806.1110737378 - 1.124549108714 55967.6028139088 - 1.446298939872 68402.3819916947 - 1.467898928482 69199.6374363288 - 1.484608919820 69813.3111680033 - 1.484608919820 69813.3111680033 - 1.499998911717 70376.1368637360 - 1.574278872547 73061.0370401044 - 1.619998848633 74687.9868358808 - 1.655788829556 75948.1731416132 - 1.902118698022 84312.3552806576 - 2.145928564980 92083.1122574303 - 2.296048482614 96628.5741030969 - 2.392738423954 99462.8382227881 - 2.912398112394 113494.1604252941 - 2.972908070176 115000.5232991102 - 2.972908070176 115000.5232991102 - 2.975098067981 115054.5558707474 - 2.995528055496 115556.9818938217 - 2.999998052585 115666.5181520444 - 3.269997871446 122024.2544533562 - 4.425926965612 143737.4797123612 - 4.425926965612 143737.4797123612 - 4.496996901793 144792.8534428498 - 4.889996529377 150068.4469779375 - 5.807995515621 158843.8152915068 - 5.999995275023 160083.2681235357 - 6.539994538430 162540.6335399605 - 6.785994171366 163182.2009574558 - 6.974993874971 163483.3421419265 - 8.249991504730 161659.4231047628 - 8.855990114908 158825.0756236752 - 9.236989139186 156534.9248987218 - 9.929987136969 151562.3032983027 - 10.334985815866 148271.8365615956 - 12.221977840203 130833.5036477576 - 12.560976025800 127535.6138805624 - 14.135965615777 112383.3968296124 - 14.999958228456 104449.8401952253 - 15.083957435364 103699.0092366317 - 0.000000200960 0.1389108065 - 0.098339507897 9427.5195317484 - 0.149999365507 13826.5413876991 - 0.196859258530 17654.8204625841 - 0.299999061061 25687.5052917595 - 0.391918909625 32495.8011778975 - 0.803008346488 60146.0760770775 - 1.233957824431 85549.0419741005 - 1.499997509311 99785.2901956748 - 1.574277420944 103584.1752878898 - 1.619997366410 105885.9641125016 - 2.296046530634 136918.5101340946 - 2.678756018723 152200.3839086299 - 2.995525559067 163702.9516420092 - 2.999995552985 163858.0924529931 - 3.269995140518 172867.9513441441 - 3.665484492224 184814.4894492058 - 4.889992077227 212914.3482314094 - 4.955091927264 214049.9102236366 - 5.999989211542 227672.5579148727 - 6.241098486870 229646.0424139778 - 6.539987529820 231524.6804832201 - 7.461434133196 233665.2936151524 - 8.249980604163 231668.8434826850 - 8.798287752404 228556.5410181526 - 9.929970633212 218683.1385686694 - 11.783624332625 196323.3249799392 - 13.264435639485 176372.9855398708 - 14.999904640502 153456.6097345871 - 0.000000354775 0.2906196947 - 0.098338900826 12341.2232698825 - 0.196858399110 23089.5302466465 - 0.391917696699 42480.5196147629 - 0.803006557816 78638.8473876298 - 1.250755457654 113109.6897973657 - 1.574274675301 135521.4333701809 - 2.296042844005 179257.4747508661 - 2.508412265054 190656.0155259956 - 2.995520849013 214507.5787728612 - 3.782928236545 246775.8395146978 - 6.535084347683 306246.9019436477 - 7.892423513917 310025.0651923141 - 9.330817755529 300746.5663215662 - 10.864724329677 280953.3307262626 - 12.285944306515 257797.3910137923 - 13.823369509693 231093.4736766761 - 0.000000453436 0.3969680115 - 0.325317064474 40311.7806475538 - 0.591325965608 67811.5565157227 - 0.843775056579 91646.3728417012 - 1.165253966679 119519.8859833269 - 1.583242568462 152310.5803378435 - 0.098338419793 13796.5538702598 - 0.196857730855 25803.8358774580 - 0.391916765521 47474.9815760325 - 0.803005198897 87923.0238134401 - 1.260593648659 127320.7904610545 - 1.574272599004 151643.7369290576 - 2.296040059685 200721.7497245573 - 2.402689661031 207240.8367456363 - 2.995517293604 240363.1442517246 - 3.661034265838 271676.3281566030 - 4.992906660681 317420.2592670037 - 6.355826051965 343182.9618517190 - 7.650882386842 350700.1115811164 - 8.916144542290 345276.4651200306 - 10.503263683070 325933.0116790731 - 11.960294071626 300977.6026651029 - 0.000000566469 0.5248180130 - 0.098337780611 15229.8554128113 - 0.196856852050 28477.9710393171 - 0.391915550978 52403.7537880913 - 0.803003436368 97115.4263169594 - 1.043992319900 120773.0663797428 - 1.574269913936 167679.5620418030 - 2.112827374702 209235.5633570641 - 2.296036465883 222142.0480633366 - 2.995512704088 266240.6366797778 - 3.448779962101 290748.4985602287 - 3.989946311173 316117.2714295468 - 4.489592524044 335967.0232261977 - 6.463572459996 383776.1449452331 - 7.503057629103 391644.2810713617 - 7.842381977700 392018.8240883077 - 10.497439174953 367194.3371309519 - 0.000000693037 0.6737088739 - 0.098336948927 16626.6641636449 - 0.196855719269 31085.8678503607 - 0.391913996151 57221.2036907132 - 0.803001192109 106136.4355076109 - 1.316028069513 159327.8291927580 - 1.574266506686 183498.9796471929 - 2.255892175863 240295.2825624955 - 2.296031906937 243350.9727602619 - 2.995506886056 291942.4686293552 - 3.613321803013 328049.4130375593 - 4.587892214892 373181.1679552881 - 6.123512011363 417660.1539306379 - 7.049115913812 430421.1528045491 - 8.496942845391 432673.3106040014 - 9.857550256933 419489.4400635928 - 11.336726758768 394042.4806265621 - 12.972257964837 358752.4530075265 - 0.000000747149 0.7388247411 - 0.325313859869 50174.4785463018 - 0.591321671193 84508.6509582401 - 0.843769856420 114346.0263571312 - 1.165247670238 149322.1107647366 - 1.583234852531 190579.5595676963 + 0.093599810485 6328.1918801796 + 0.098339803721 6620.5472348510 + 0.099359802291 6683.2544072893 + 0.120278774688 7954.4732652840 + 0.145529744821 9455.4752031126 + 0.149999739843 9717.7936665571 + 0.151139738587 9784.5405137821 + 0.151139738587 9784.5405137821 + 0.196859691825 12414.5824046522 + 0.198299690449 12496.0470616591 + 0.236699655446 14641.1700095955 + 0.270869626536 16509.6145516134 + 0.273599624301 16657.3868125283 + 0.299099603892 18027.5609903104 + 0.299099603892 18027.5609903104 + 0.299999603186 18075.5950644374 + 0.391919535235 22875.4652114662 + 0.394829533196 23024.2233928120 + 0.410399522387 23817.0630793141 + 0.482150474432 27406.7045301766 + 0.584999409808 32385.2887154028 + 0.585749409351 32420.9260983504 + 0.591899405609 32712.8035937683 + 0.596789402642 32944.4396750012 + 0.596789402642 32944.4396750012 + 0.699299341977 37713.5726663656 + 0.755399309806 40257.0375923066 + 0.789899290323 41799.1255090972 + 0.803009282959 42380.8312670363 + 0.848339257729 44374.3971151245 + 0.893699232751 46342.3470070135 + 1.022879162869 51806.1251777362 + 1.124549108714 55967.6185666533 + 1.446298939872 68402.4028996630 + 1.467898928482 69199.6586847085 + 1.484608919820 69813.3326791076 + 1.484608919820 69813.3326791076 + 1.499998911717 70376.1586163184 + 1.574278872547 73061.0599512070 + 1.619998848633 74688.0104539843 + 1.655788829556 75948.1973097394 + 1.902118698022 84312.3831444439 + 2.145928564980 92083.1436050175 + 2.296048482614 96628.6075001021 + 2.392738423954 99462.8728988293 + 2.912398112394 113494.2013880545 + 2.972908070176 115000.5649266120 + 2.972908070176 115000.5649266120 + 2.975098067981 115054.5975220366 + 2.995528055496 115557.0237661012 + 2.999998052585 115666.5600724547 + 3.269997871446 122024.2991323360 + 4.425926965612 143737.5327996930 + 4.425926965612 143737.5327996930 + 4.496996901793 144792.9068660852 + 4.889996529377 150068.5018887643 + 5.807995515621 158843.8713661630 + 5.999995275023 160083.3240659177 + 6.539994538430 162540.6885010435 + 6.785994171366 163182.2552027453 + 6.974993874971 163483.3957360793 + 8.249991504730 161659.4705475765 + 8.855990114908 158825.1194537198 + 9.236989139186 156534.9663557990 + 9.929987136969 151562.3403888494 + 10.334985815866 148271.8711346515 + 12.221977840203 130833.5276426502 + 12.560976025800 127535.6362435907 + 14.135965615777 112383.4127754761 + 14.999958228456 104449.8533818150 + 15.083957435364 103699.0221808706 + 0.000000200960 0.1389107956 + 0.098339507897 9424.9844000222 + 0.149999365507 13821.9962227912 + 0.196859258530 17648.2295515635 + 0.299999061061 25675.8793162992 + 0.391918909625 32479.2461519527 + 0.803008346488 60104.8984231029 + 1.233957824431 85480.7077079727 + 1.499997509311 99700.4819419085 + 1.574277420944 103494.8585425015 + 1.619997366410 105793.8960914079 + 2.296046530634 136788.3768972464 + 2.678756018723 152051.2806956221 + 2.995525559067 163539.7374422605 + 2.999995552985 163694.6898236278 + 3.269995140518 172693.7310584409 + 3.665484492224 184626.4602188495 + 4.889992077227 212699.0879910689 + 4.955091927264 213833.8464828786 + 5.999989211542 227451.7735240841 + 6.241098486870 229426.1801404695 + 6.539987529820 231306.8820080319 + 7.461434133196 233459.3246505481 + 8.249980604163 231477.9128184518 + 8.798287752404 228377.7521899458 + 9.929970633212 218531.3268457362 + 11.783624332625 196213.9908825025 + 13.264435639485 176291.6779724545 + 14.999904640502 153400.2348001770 + 0.000000354775 0.2906196223 + 0.098338900826 12333.9278033916 + 0.196858399110 23070.5870006276 + 0.391917696699 42432.9809032138 + 0.803006557816 78520.6616742523 + 1.250755457654 112910.5483053333 + 1.574274675301 135265.0628520465 + 2.296042844005 178883.6964177121 + 2.508412265054 190251.1489748536 + 2.995520849013 214038.1750973926 + 3.782928236545 246223.3143102020 + 6.535084347683 305608.0147684987 + 7.892423513917 309436.3141283485 + 9.330817755529 300245.0877049916 + 10.864724329677 280555.7906468844 + 12.285944306515 257488.9649491480 + 13.823369509693 230865.0977013915 + 0.000000453436 0.3969678596 + 0.325317064474 40257.4161866384 + 0.591325965608 67693.4837194799 + 0.843775056579 91462.8825579264 + 1.165253966679 119251.2551011989 + 1.583242568462 151933.3666373553 + 0.098338419793 13785.8818599770 + 0.196857730855 25776.1393004788 + 0.391916765521 47405.4938387012 + 0.803005198897 87750.2592863495 + 1.260593648659 127027.0269138621 + 1.574272599004 151268.7996196375 + 2.296040059685 200174.7548167204 + 2.402689661031 206670.6129829415 + 2.995517293604 239675.5977687009 + 3.661034265838 270882.3784384693 + 4.992906660681 316496.4626369770 + 6.355826051965 342233.6869839369 + 7.650882386842 349806.3142946524 + 8.916144542290 344484.4944845147 + 10.503263683070 325295.5202837398 + 11.960294071626 300478.4335954124 + 0.000000566469 0.5248177214 + 0.098337780611 15215.0700181293 + 0.196856852050 28439.6156684174 + 0.391915550978 52307.5364632148 + 0.803003436368 96876.1431837507 + 1.043992319900 120445.4284394906 + 1.574269913936 167159.8990986732 + 2.112827374702 208534.2875502123 + 2.296036465883 221383.3044436685 + 2.995512704088 265285.9689527019 + 3.448779962101 289688.1883270473 + 3.989946311173 314953.7409587068 + 4.489592524044 334730.4708388422 + 6.463572459996 382447.1874982719 + 7.503057629103 390370.9680032673 + 7.842381977700 390775.0266001435 + 10.497439174953 366279.9915550365 + 0.000000693037 0.6737083524 + 0.098336948927 16606.9849563365 + 0.196855719269 31034.8348912828 + 0.391913996151 57093.1832875316 + 0.803001192109 105817.9202704082 + 1.316028069513 158758.8294388178 + 1.574266506686 182806.6081210455 + 2.255892175863 239299.9954120503 + 2.296031906937 242339.1126798890 + 2.995506886056 290667.9165019175 + 3.613321803013 326586.6048758943 + 4.587892214892 371508.3128572820 + 6.123512011363 415863.8007563740 + 7.049115913812 428656.2947662261 + 8.496942845391 431072.0277849302 + 9.857550256933 418114.2962660902 + 11.336726758768 392933.2799613894 + 12.972257964837 357913.2263810653 + 0.000000747149 0.7388240944 + 0.325313859869 50063.2207996741 + 0.591321671193 84266.9004794280 + 0.843769856420 113970.0969711879 + 1.165247670238 148771.2839398443 + 1.583234852531 189805.2149174306 diff --git a/mytest/Vm_NH4Cl_sol.out b/mytest/Vm_NH4Cl_sol.out index 4e48e0bd..ee6b73c3 100644 --- a/mytest/Vm_NH4Cl_sol.out +++ b/mytest/Vm_NH4Cl_sol.out @@ -240,7 +240,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 111 Density (g/cm³) = 0.99946 Volume (L) = 1.00060 - Viscosity (mPa s) = 1.21723 + Viscosity (mPa s) = 1.21722 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 @@ -319,7 +319,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 545 Density (g/cm³) = 0.99953 Volume (L) = 1.00074 - Viscosity (mPa s) = 1.21727 + Viscosity (mPa s) = 1.21725 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.000e-03 Mass of water (kg) = 1.000e+00 @@ -398,7 +398,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 1074 Density (g/cm³) = 0.99962 Volume (L) = 1.00091 - Viscosity (mPa s) = 1.21722 + Viscosity (mPa s) = 1.21720 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.001e-02 Mass of water (kg) = 1.000e+00 @@ -477,7 +477,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 2105 Density (g/cm³) = 0.99981 Volume (L) = 1.00126 - Viscosity (mPa s) = 1.21703 + Viscosity (mPa s) = 1.21699 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.002e-02 Mass of water (kg) = 1.000e+00 @@ -556,7 +556,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 5085 Density (g/cm³) = 1.00036 Volume (L) = 1.00232 - Viscosity (mPa s) = 1.21622 + Viscosity (mPa s) = 1.21616 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.006e-02 Mass of water (kg) = 1.000e+00 @@ -635,7 +635,7 @@ Reaction 1. Specific Conductance (µS/cm, 12°C) = 9866 Density (g/cm³) = 1.00125 Volume (L) = 1.00410 - Viscosity (mPa s) = 1.21464 + Viscosity (mPa s) = 1.21457 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 1.000e+00 @@ -711,10 +711,10 @@ Reaction 1. pH = 5.319 Charge balance pe = 1.224 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 19141 + Specific Conductance (µS/cm, 12°C) = 19142 Density (g/cm³) = 1.00300 Volume (L) = 1.00769 - Viscosity (mPa s) = 1.21127 + Viscosity (mPa s) = 1.21116 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -790,10 +790,10 @@ Reaction 1. pH = 5.179 Charge balance pe = 13.747 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 46203 + Specific Conductance (µS/cm, 12°C) = 46205 Density (g/cm³) = 1.00801 Volume (L) = 1.01862 - Viscosity (mPa s) = 1.20102 + Viscosity (mPa s) = 1.20086 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.006e-01 Mass of water (kg) = 1.000e+00 @@ -869,10 +869,10 @@ Reaction 1. pH = 5.154 Charge balance pe = 1.123 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 55060 + Specific Conductance (µS/cm, 12°C) = 55064 Density (g/cm³) = 1.00962 Volume (L) = 1.02230 - Viscosity (mPa s) = 1.19771 + Viscosity (mPa s) = 1.19753 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.008e-01 Mass of water (kg) = 1.000e+00 @@ -1058,7 +1058,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1141 Density (g/cm³) = 0.99928 Volume (L) = 1.00125 - Viscosity (mPa s) = 1.13777 + Viscosity (mPa s) = 1.13775 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.001e-02 Mass of water (kg) = 1.000e+00 @@ -1137,7 +1137,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 2235 Density (g/cm³) = 0.99946 Volume (L) = 1.00161 - Viscosity (mPa s) = 1.13764 + Viscosity (mPa s) = 1.13762 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.002e-02 Mass of water (kg) = 1.000e+00 @@ -1216,7 +1216,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 5390 Density (g/cm³) = 1.00000 Volume (L) = 1.00267 - Viscosity (mPa s) = 1.13705 + Viscosity (mPa s) = 1.13701 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -1295,7 +1295,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 5396 Density (g/cm³) = 1.00000 Volume (L) = 1.00268 - Viscosity (mPa s) = 1.13705 + Viscosity (mPa s) = 1.13701 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.006e-02 Mass of water (kg) = 1.000e+00 @@ -1374,7 +1374,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7434 Density (g/cm³) = 1.00035 Volume (L) = 1.00339 - Viscosity (mPa s) = 1.13658 + Viscosity (mPa s) = 1.13653 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -1453,7 +1453,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 10447 Density (g/cm³) = 1.00088 Volume (L) = 1.00446 - Viscosity (mPa s) = 1.13584 + Viscosity (mPa s) = 1.13578 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -1529,10 +1529,10 @@ Reaction 1. pH = 5.394 Charge balance pe = 13.297 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10459 + Specific Conductance (µS/cm, 15°C) = 10460 Density (g/cm³) = 1.00088 Volume (L) = 1.00447 - Viscosity (mPa s) = 1.13583 + Viscosity (mPa s) = 1.13578 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 1.000e+00 @@ -1611,7 +1611,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 20235 Density (g/cm³) = 1.00260 Volume (L) = 1.00808 - Viscosity (mPa s) = 1.13320 + Viscosity (mPa s) = 1.13312 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -1687,10 +1687,10 @@ Reaction 1. pH = 5.278 Charge balance pe = 1.223 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 20260 + Specific Conductance (µS/cm, 15°C) = 20261 Density (g/cm³) = 1.00261 Volume (L) = 1.00809 - Viscosity (mPa s) = 1.13319 + Viscosity (mPa s) = 1.13311 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -1766,10 +1766,10 @@ Reaction 1. pH = 5.214 Charge balance pe = 13.386 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 29825 + Specific Conductance (µS/cm, 15°C) = 29826 Density (g/cm³) = 1.00428 Volume (L) = 1.01172 - Viscosity (mPa s) = 1.13048 + Viscosity (mPa s) = 1.13038 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -1845,10 +1845,10 @@ Reaction 1. pH = 5.138 Charge balance pe = 0.937 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 48680 + Specific Conductance (µS/cm, 15°C) = 48682 Density (g/cm³) = 1.00754 Volume (L) = 1.01907 - Viscosity (mPa s) = 1.12511 + Viscosity (mPa s) = 1.12498 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -1924,10 +1924,10 @@ Reaction 1. pH = 5.138 Charge balance pe = 13.564 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 48740 + Specific Conductance (µS/cm, 15°C) = 48743 Density (g/cm³) = 1.00755 Volume (L) = 1.01909 - Viscosity (mPa s) = 1.12509 + Viscosity (mPa s) = 1.12496 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.006e-01 Mass of water (kg) = 1.000e+00 @@ -2003,10 +2003,10 @@ Reaction 1. pH = 5.046 Charge balance pe = 1.547 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 94225 + Specific Conductance (µS/cm, 15°C) = 94231 Density (g/cm³) = 1.01519 Volume (L) = 1.03773 - Viscosity (mPa s) = 1.11265 + Viscosity (mPa s) = 1.11247 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -2082,10 +2082,10 @@ Reaction 1. pH = 5.000 Charge balance pe = 1.706 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 137310 + Specific Conductance (µS/cm, 15°C) = 137321 Density (g/cm³) = 1.02227 Volume (L) = 1.05670 - Viscosity (mPa s) = 1.10203 + Viscosity (mPa s) = 1.10180 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -2161,10 +2161,10 @@ Reaction 1. pH = 4.973 Charge balance pe = 1.307 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 177770 + Specific Conductance (µS/cm, 15°C) = 177786 Density (g/cm³) = 1.02887 Volume (L) = 1.07592 - Viscosity (mPa s) = 1.09338 + Viscosity (mPa s) = 1.09312 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -2240,10 +2240,10 @@ Reaction 1. pH = 4.949 Charge balance pe = 13.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 250727 + Specific Conductance (µS/cm, 15°C) = 250755 Density (g/cm³) = 1.04081 Volume (L) = 1.11497 - Viscosity (mPa s) = 1.08219 + Viscosity (mPa s) = 1.08188 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -2319,10 +2319,10 @@ Reaction 1. pH = 4.946 Charge balance pe = 0.904 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 313360 + Specific Conductance (µS/cm, 15°C) = 313400 Density (g/cm³) = 1.05131 Volume (L) = 1.15472 - Viscosity (mPa s) = 1.07925 + Viscosity (mPa s) = 1.07889 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -2398,10 +2398,10 @@ Reaction 1. pH = 4.955 Charge balance pe = 0.997 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 366259 + Specific Conductance (µS/cm, 15°C) = 366310 Density (g/cm³) = 1.06059 Volume (L) = 1.19505 - Viscosity (mPa s) = 1.08457 + Viscosity (mPa s) = 1.08416 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -2587,7 +2587,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 6022 Density (g/cm³) = 0.99908 Volume (L) = 1.00360 - Viscosity (mPa s) = 1.00160 + Viscosity (mPa s) = 1.00159 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -2663,10 +2663,10 @@ Reaction 1. pH = 5.377 Charge balance pe = 12.886 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 8301 + Specific Conductance (µS/cm, 20°C) = 8302 Density (g/cm³) = 0.99942 Volume (L) = 1.00432 - Viscosity (mPa s) = 1.00137 + Viscosity (mPa s) = 1.00135 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -2745,7 +2745,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 11655 Density (g/cm³) = 0.99994 Volume (L) = 1.00541 - Viscosity (mPa s) = 1.00097 + Viscosity (mPa s) = 1.00095 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -2824,7 +2824,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 22512 Density (g/cm³) = 1.00161 Volume (L) = 1.00907 - Viscosity (mPa s) = 0.99950 + Viscosity (mPa s) = 0.99946 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -2903,7 +2903,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 33101 Density (g/cm³) = 1.00325 Volume (L) = 1.01275 - Viscosity (mPa s) = 0.99795 + Viscosity (mPa s) = 0.99791 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -2979,10 +2979,10 @@ Reaction 1. pH = 5.058 Charge balance pe = 1.835 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 53826 + Specific Conductance (µS/cm, 20°C) = 53828 Density (g/cm³) = 1.00643 Volume (L) = 1.02018 - Viscosity (mPa s) = 0.99485 + Viscosity (mPa s) = 0.99479 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -3058,10 +3058,10 @@ Reaction 1. pH = 4.966 Charge balance pe = 1.817 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 103631 + Specific Conductance (µS/cm, 20°C) = 103634 Density (g/cm³) = 1.01393 Volume (L) = 1.03902 - Viscosity (mPa s) = 0.98775 + Viscosity (mPa s) = 0.98767 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -3137,10 +3137,10 @@ Reaction 1. pH = 4.920 Charge balance pe = 1.514 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 150592 + Specific Conductance (µS/cm, 20°C) = 150598 Density (g/cm³) = 1.02090 Volume (L) = 1.05812 - Viscosity (mPa s) = 0.98197 + Viscosity (mPa s) = 0.98187 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -3216,10 +3216,10 @@ Reaction 1. pH = 4.894 Charge balance pe = 2.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 194618 + Specific Conductance (µS/cm, 20°C) = 194627 Density (g/cm³) = 1.02743 Volume (L) = 1.07743 - Viscosity (mPa s) = 0.97764 + Viscosity (mPa s) = 0.97752 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -3295,10 +3295,10 @@ Reaction 1. pH = 4.869 Charge balance pe = 1.188 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 273893 + Specific Conductance (µS/cm, 20°C) = 273908 Density (g/cm³) = 1.03932 Volume (L) = 1.11658 - Viscosity (mPa s) = 0.97351 + Viscosity (mPa s) = 0.97337 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -3374,10 +3374,10 @@ Reaction 1. pH = 4.867 Charge balance pe = 1.108 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 341923 + Specific Conductance (µS/cm, 20°C) = 341945 Density (g/cm³) = 1.04988 Volume (L) = 1.15629 - Viscosity (mPa s) = 0.97551 + Viscosity (mPa s) = 0.97535 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -3453,10 +3453,10 @@ Reaction 1. pH = 4.876 Charge balance pe = 1.394 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 399489 + Specific Conductance (µS/cm, 20°C) = 399517 Density (g/cm³) = 1.05932 Volume (L) = 1.19648 - Viscosity (mPa s) = 0.98369 + Viscosity (mPa s) = 0.98351 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -6881,7 +6881,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 167591 Density (g/cm³) = 1.01989 Volume (L) = 1.06115 - Viscosity (mPa s) = 0.88227 + Viscosity (mPa s) = 0.88226 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.538e+00 Mass of water (kg) = 1.000e+00 @@ -7908,7 +7908,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 296510 Density (g/cm³) = 1.03769 Volume (L) = 1.11832 - Viscosity (mPa s) = 0.88263 + Viscosity (mPa s) = 0.88262 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -7987,7 +7987,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 296510 Density (g/cm³) = 1.03769 Volume (L) = 1.11832 - Viscosity (mPa s) = 0.88263 + Viscosity (mPa s) = 0.88262 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -9169,7 +9169,7 @@ Reaction 1. pH = 4.819 Charge balance pe = 0.732 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 488667 + Specific Conductance (µS/cm, 25°C) = 488668 Density (g/cm³) = 1.06752 Volume (L) = 1.24366 Viscosity (mPa s) = 0.91648 @@ -9516,7 +9516,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 7325 Density (g/cm³) = 0.99649 Volume (L) = 1.00620 - Viscosity (mPa s) = 0.79793 + Viscosity (mPa s) = 0.79794 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -9595,7 +9595,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 10089 Density (g/cm³) = 0.99682 Volume (L) = 1.00694 - Viscosity (mPa s) = 0.79799 + Viscosity (mPa s) = 0.79801 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -9674,7 +9674,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 14146 Density (g/cm³) = 0.99732 Volume (L) = 1.00805 - Viscosity (mPa s) = 0.79805 + Viscosity (mPa s) = 0.79807 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -9753,7 +9753,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 27218 Density (g/cm³) = 0.99894 Volume (L) = 1.01177 - Viscosity (mPa s) = 0.79811 + Viscosity (mPa s) = 0.79814 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -9829,10 +9829,10 @@ Reaction 1. pH = 4.982 Charge balance pe = 12.351 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 39883 + Specific Conductance (µS/cm, 30°C) = 39882 Density (g/cm³) = 1.00053 Volume (L) = 1.01551 - Viscosity (mPa s) = 0.79809 + Viscosity (mPa s) = 0.79812 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -9908,10 +9908,10 @@ Reaction 1. pH = 4.907 Charge balance pe = 1.633 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 64482 + Specific Conductance (µS/cm, 30°C) = 64480 Density (g/cm³) = 1.00361 Volume (L) = 1.02305 - Viscosity (mPa s) = 0.79799 + Viscosity (mPa s) = 0.79804 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -9987,10 +9987,10 @@ Reaction 1. pH = 4.815 Charge balance pe = 1.817 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 122907 + Specific Conductance (µS/cm, 30°C) = 122902 Density (g/cm³) = 1.01090 Volume (L) = 1.04213 - Viscosity (mPa s) = 0.79799 + Viscosity (mPa s) = 0.79806 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -10066,10 +10066,10 @@ Reaction 1. pH = 4.769 Charge balance pe = 1.583 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 177432 + Specific Conductance (µS/cm, 30°C) = 177425 Density (g/cm³) = 1.01772 Volume (L) = 1.06142 - Viscosity (mPa s) = 0.79867 + Viscosity (mPa s) = 0.79875 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -10145,10 +10145,10 @@ Reaction 1. pH = 4.743 Charge balance pe = 2.391 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 228208 + Specific Conductance (µS/cm, 30°C) = 228197 Density (g/cm³) = 1.02414 Volume (L) = 1.08089 - Viscosity (mPa s) = 0.80013 + Viscosity (mPa s) = 0.80023 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -10224,10 +10224,10 @@ Reaction 1. pH = 4.719 Charge balance pe = 12.395 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 319027 + Specific Conductance (µS/cm, 30°C) = 319008 Density (g/cm³) = 1.03595 Volume (L) = 1.12020 - Viscosity (mPa s) = 0.80560 + Viscosity (mPa s) = 0.80572 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -10303,10 +10303,10 @@ Reaction 1. pH = 4.717 Charge balance pe = 12.572 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 396549 + Specific Conductance (µS/cm, 30°C) = 396524 Density (g/cm³) = 1.04658 Volume (L) = 1.15993 - Viscosity (mPa s) = 0.81455 + Viscosity (mPa s) = 0.81469 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -10382,10 +10382,10 @@ Reaction 1. pH = 4.726 Charge balance pe = 12.590 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 462073 + Specific Conductance (µS/cm, 30°C) = 462040 Density (g/cm³) = 1.05622 Volume (L) = 1.19999 - Viscosity (mPa s) = 0.82701 + Viscosity (mPa s) = 0.82717 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -10571,7 +10571,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 3325 Density (g/cm³) = 0.99437 Volume (L) = 1.00674 - Viscosity (mPa s) = 0.71981 + Viscosity (mPa s) = 0.71983 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.002e-02 Mass of water (kg) = 1.000e+00 @@ -10647,10 +10647,10 @@ Reaction 1. pH = 5.213 Charge balance pe = 11.720 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 7992 + Specific Conductance (µS/cm, 35°C) = 7991 Density (g/cm³) = 0.99487 Volume (L) = 1.00785 - Viscosity (mPa s) = 0.72009 + Viscosity (mPa s) = 0.72011 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -10729,7 +10729,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 8001 Density (g/cm³) = 0.99487 Volume (L) = 1.00785 - Viscosity (mPa s) = 0.72009 + Viscosity (mPa s) = 0.72011 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.006e-02 Mass of water (kg) = 1.000e+00 @@ -10808,7 +10808,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 9881 Density (g/cm³) = 0.99507 Volume (L) = 1.00831 - Viscosity (mPa s) = 0.72018 + Viscosity (mPa s) = 0.72021 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.250e-02 Mass of water (kg) = 1.000e+00 @@ -10884,10 +10884,10 @@ Reaction 1. pH = 5.153 Charge balance pe = 11.876 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 11003 + Specific Conductance (µS/cm, 35°C) = 11002 Density (g/cm³) = 0.99520 Volume (L) = 1.00859 - Viscosity (mPa s) = 0.72024 + Viscosity (mPa s) = 0.72027 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -10963,10 +10963,10 @@ Reaction 1. pH = 5.090 Charge balance pe = 11.919 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 15422 + Specific Conductance (µS/cm, 35°C) = 15421 Density (g/cm³) = 0.99569 Volume (L) = 1.00970 - Viscosity (mPa s) = 0.72044 + Viscosity (mPa s) = 0.72048 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -11045,7 +11045,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 15440 Density (g/cm³) = 0.99569 Volume (L) = 1.00971 - Viscosity (mPa s) = 0.72044 + Viscosity (mPa s) = 0.72048 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 1.000e+00 @@ -11121,10 +11121,10 @@ Reaction 1. pH = 5.052 Charge balance pe = 1.773 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 19038 + Specific Conductance (µS/cm, 35°C) = 19037 Density (g/cm³) = 0.99609 Volume (L) = 1.01063 - Viscosity (mPa s) = 0.72059 + Viscosity (mPa s) = 0.72063 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.250e-01 Mass of water (kg) = 1.000e+00 @@ -11200,10 +11200,10 @@ Reaction 1. pH = 4.974 Charge balance pe = 0.841 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 29638 + Specific Conductance (µS/cm, 35°C) = 29637 Density (g/cm³) = 0.99730 Volume (L) = 1.01344 - Viscosity (mPa s) = 0.72099 + Viscosity (mPa s) = 0.72105 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -11279,10 +11279,10 @@ Reaction 1. pH = 4.974 Charge balance pe = 1.486 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 29674 + Specific Conductance (µS/cm, 35°C) = 29673 Density (g/cm³) = 0.99730 Volume (L) = 1.01345 - Viscosity (mPa s) = 0.72099 + Viscosity (mPa s) = 0.72105 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -11358,10 +11358,10 @@ Reaction 1. pH = 4.939 Charge balance pe = 2.092 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 36556 + Specific Conductance (µS/cm, 35°C) = 36555 Density (g/cm³) = 0.99808 Volume (L) = 1.01532 - Viscosity (mPa s) = 0.72123 + Viscosity (mPa s) = 0.72129 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -11437,10 +11437,10 @@ Reaction 1. pH = 4.911 Charge balance pe = 12.029 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 43384 + Specific Conductance (µS/cm, 35°C) = 43382 Density (g/cm³) = 0.99887 Volume (L) = 1.01720 - Viscosity (mPa s) = 0.72146 + Viscosity (mPa s) = 0.72153 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -11516,10 +11516,10 @@ Reaction 1. pH = 4.835 Charge balance pe = 1.994 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 70012 + Specific Conductance (µS/cm, 35°C) = 70008 Density (g/cm³) = 1.00192 Volume (L) = 1.02478 - Viscosity (mPa s) = 0.72235 + Viscosity (mPa s) = 0.72244 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -11595,10 +11595,10 @@ Reaction 1. pH = 4.835 Charge balance pe = 1.994 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 70012 + Specific Conductance (µS/cm, 35°C) = 70008 Density (g/cm³) = 1.00192 Volume (L) = 1.02478 - Viscosity (mPa s) = 0.72235 + Viscosity (mPa s) = 0.72244 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -11674,10 +11674,10 @@ Reaction 1. pH = 4.835 Charge balance pe = 12.209 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 70097 + Specific Conductance (µS/cm, 35°C) = 70093 Density (g/cm³) = 1.00193 Volume (L) = 1.02480 - Viscosity (mPa s) = 0.72235 + Viscosity (mPa s) = 0.72244 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.006e-01 Mass of water (kg) = 1.000e+00 @@ -11753,10 +11753,10 @@ Reaction 1. pH = 4.809 Charge balance pe = 1.427 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 83087 + Specific Conductance (µS/cm, 35°C) = 83082 Density (g/cm³) = 1.00342 Volume (L) = 1.02862 - Viscosity (mPa s) = 0.72279 + Viscosity (mPa s) = 0.72289 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.008e-01 Mass of water (kg) = 1.000e+00 @@ -11832,10 +11832,10 @@ Reaction 1. pH = 4.743 Charge balance pe = 1.912 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 132953 + Specific Conductance (µS/cm, 35°C) = 132943 Density (g/cm³) = 1.00916 Volume (L) = 1.04393 - Viscosity (mPa s) = 0.72468 + Viscosity (mPa s) = 0.72481 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -11911,10 +11911,10 @@ Reaction 1. pH = 4.743 Charge balance pe = 1.912 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 132953 + Specific Conductance (µS/cm, 35°C) = 132943 Density (g/cm³) = 1.00916 Volume (L) = 1.04393 - Viscosity (mPa s) = 0.72468 + Viscosity (mPa s) = 0.72481 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -11990,10 +11990,10 @@ Reaction 1. pH = 4.698 Charge balance pe = 1.730 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 191383 + Specific Conductance (µS/cm, 35°C) = 191367 Density (g/cm³) = 1.01593 Volume (L) = 1.06330 - Viscosity (mPa s) = 0.72749 + Viscosity (mPa s) = 0.72765 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -12069,10 +12069,10 @@ Reaction 1. pH = 4.671 Charge balance pe = 12.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 245573 + Specific Conductance (µS/cm, 35°C) = 245549 Density (g/cm³) = 1.02232 Volume (L) = 1.08282 - Viscosity (mPa s) = 0.73088 + Viscosity (mPa s) = 0.73106 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -12148,10 +12148,10 @@ Reaction 1. pH = 4.648 Charge balance pe = 1.827 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 342035 + Specific Conductance (µS/cm, 35°C) = 341996 Density (g/cm³) = 1.03410 Volume (L) = 1.12221 - Viscosity (mPa s) = 0.73957 + Viscosity (mPa s) = 0.73980 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -12227,10 +12227,10 @@ Reaction 1. pH = 4.646 Charge balance pe = 12.232 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 423976 + Specific Conductance (µS/cm, 35°C) = 423921 Density (g/cm³) = 1.04475 Volume (L) = 1.16197 - Viscosity (mPa s) = 0.75091 + Viscosity (mPa s) = 0.75116 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -12306,10 +12306,10 @@ Reaction 1. pH = 4.655 Charge balance pe = 12.070 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 493014 + Specific Conductance (µS/cm, 35°C) = 492944 Density (g/cm³) = 1.05444 Volume (L) = 1.20202 - Viscosity (mPa s) = 0.76492 + Viscosity (mPa s) = 0.76521 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -12492,10 +12492,10 @@ Reaction 1. pH = 5.143 Charge balance pe = 11.568 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 8665 + Specific Conductance (µS/cm, 40°C) = 8664 Density (g/cm³) = 0.99305 Volume (L) = 1.00969 - Viscosity (mPa s) = 0.65394 + Viscosity (mPa s) = 0.65398 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -12571,10 +12571,10 @@ Reaction 1. pH = 5.083 Charge balance pe = 11.635 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 11927 + Specific Conductance (µS/cm, 40°C) = 11926 Density (g/cm³) = 0.99338 Volume (L) = 1.01044 - Viscosity (mPa s) = 0.65415 + Viscosity (mPa s) = 0.65419 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -12653,7 +12653,7 @@ Reaction 1. Specific Conductance (µS/cm, 40°C) = 16712 Density (g/cm³) = 0.99386 Volume (L) = 1.01156 - Viscosity (mPa s) = 0.65444 + Viscosity (mPa s) = 0.65450 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -12729,10 +12729,10 @@ Reaction 1. pH = 4.905 Charge balance pe = 0.901 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 32096 + Specific Conductance (µS/cm, 40°C) = 32094 Density (g/cm³) = 0.99546 Volume (L) = 1.01530 - Viscosity (mPa s) = 0.65535 + Viscosity (mPa s) = 0.65544 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -12808,10 +12808,10 @@ Reaction 1. pH = 4.841 Charge balance pe = 11.814 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 46953 + Specific Conductance (µS/cm, 40°C) = 46950 Density (g/cm³) = 0.99703 Volume (L) = 1.01908 - Viscosity (mPa s) = 0.65620 + Viscosity (mPa s) = 0.65630 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -12887,10 +12887,10 @@ Reaction 1. pH = 4.766 Charge balance pe = 1.282 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 75684 + Specific Conductance (µS/cm, 40°C) = 75678 Density (g/cm³) = 1.00007 Volume (L) = 1.02668 - Viscosity (mPa s) = 0.65782 + Viscosity (mPa s) = 0.65795 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -12966,10 +12966,10 @@ Reaction 1. pH = 4.674 Charge balance pe = 2.213 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 143357 + Specific Conductance (µS/cm, 40°C) = 143342 Density (g/cm³) = 1.00727 Volume (L) = 1.04589 - Viscosity (mPa s) = 0.66193 + Viscosity (mPa s) = 0.66211 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -13045,10 +13045,10 @@ Reaction 1. pH = 4.629 Charge balance pe = 1.865 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 205908 + Specific Conductance (µS/cm, 40°C) = 205881 Density (g/cm³) = 1.01402 Volume (L) = 1.06531 - Viscosity (mPa s) = 0.66637 + Viscosity (mPa s) = 0.66659 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -13124,10 +13124,10 @@ Reaction 1. pH = 4.603 Charge balance pe = 11.496 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 263704 + Specific Conductance (µS/cm, 40°C) = 263664 Density (g/cm³) = 1.02038 Volume (L) = 1.08487 - Viscosity (mPa s) = 0.67124 + Viscosity (mPa s) = 0.67149 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -13203,10 +13203,10 @@ Reaction 1. pH = 4.580 Charge balance pe = 11.774 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 366109 + Specific Conductance (µS/cm, 40°C) = 366044 Density (g/cm³) = 1.03215 Volume (L) = 1.12433 - Viscosity (mPa s) = 0.68241 + Viscosity (mPa s) = 0.68273 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -13282,10 +13282,10 @@ Reaction 1. pH = 4.577 Charge balance pe = 12.687 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 452653 + Specific Conductance (µS/cm, 40°C) = 452563 Density (g/cm³) = 1.04281 Volume (L) = 1.16413 - Viscosity (mPa s) = 0.69560 + Viscosity (mPa s) = 0.69596 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -13361,10 +13361,10 @@ Reaction 1. pH = 4.587 Charge balance pe = 11.850 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 525285 + Specific Conductance (µS/cm, 40°C) = 525172 Density (g/cm³) = 1.05254 Volume (L) = 1.20419 - Viscosity (mPa s) = 0.71084 + Viscosity (mPa s) = 0.71125 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -13550,7 +13550,7 @@ Reaction 1. Specific Conductance (µS/cm, 42°C) = 3748 Density (g/cm³) = 0.99157 Volume (L) = 1.00958 - Viscosity (mPa s) = 0.62421 + Viscosity (mPa s) = 0.62424 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.002e-02 Mass of water (kg) = 1.000e+00 @@ -13629,7 +13629,7 @@ Reaction 1. Specific Conductance (µS/cm, 42°C) = 17383 Density (g/cm³) = 0.99289 Volume (L) = 1.01256 - Viscosity (mPa s) = 0.62510 + Viscosity (mPa s) = 0.62516 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 1.000e+00 @@ -13705,10 +13705,10 @@ Reaction 1. pH = 4.871 Charge balance pe = 1.581 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 42°C) = 33378 + Specific Conductance (µS/cm, 42°C) = 33376 Density (g/cm³) = 0.99449 Volume (L) = 1.01632 - Viscosity (mPa s) = 0.62614 + Viscosity (mPa s) = 0.62624 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.003e-01 Mass of water (kg) = 1.000e+00 @@ -13784,10 +13784,10 @@ Reaction 1. pH = 4.732 Charge balance pe = 11.825 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 42°C) = 78668 + Specific Conductance (µS/cm, 42°C) = 78660 Density (g/cm³) = 0.99909 Volume (L) = 1.02772 - Viscosity (mPa s) = 0.62906 + Viscosity (mPa s) = 0.62920 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.006e-01 Mass of water (kg) = 1.000e+00 @@ -13863,10 +13863,10 @@ Reaction 1. pH = 4.706 Charge balance pe = 1.484 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 42°C) = 93179 + Specific Conductance (µS/cm, 42°C) = 93170 Density (g/cm³) = 1.00057 Volume (L) = 1.03155 - Viscosity (mPa s) = 0.63001 + Viscosity (mPa s) = 0.63017 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.008e-01 Mass of water (kg) = 1.000e+00 @@ -14052,7 +14052,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 9342 Density (g/cm³) = 0.99104 Volume (L) = 1.01174 - Viscosity (mPa s) = 0.59728 + Viscosity (mPa s) = 0.59733 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -14131,7 +14131,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 11548 Density (g/cm³) = 0.99125 Volume (L) = 1.01220 - Viscosity (mPa s) = 0.59743 + Viscosity (mPa s) = 0.59748 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.250e-02 Mass of water (kg) = 1.000e+00 @@ -14207,10 +14207,10 @@ Reaction 1. pH = 5.016 Charge balance pe = 11.261 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 12858 + Specific Conductance (µS/cm, 45°C) = 12857 Density (g/cm³) = 0.99137 Volume (L) = 1.01248 - Viscosity (mPa s) = 0.59752 + Viscosity (mPa s) = 0.59758 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -14286,10 +14286,10 @@ Reaction 1. pH = 4.953 Charge balance pe = 11.305 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 18014 + Specific Conductance (µS/cm, 45°C) = 18013 Density (g/cm³) = 0.99186 Volume (L) = 1.01360 - Viscosity (mPa s) = 0.59787 + Viscosity (mPa s) = 0.59794 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -14365,10 +14365,10 @@ Reaction 1. pH = 4.915 Charge balance pe = 1.772 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 22232 + Specific Conductance (µS/cm, 45°C) = 22231 Density (g/cm³) = 0.99226 Volume (L) = 1.01454 - Viscosity (mPa s) = 0.59817 + Viscosity (mPa s) = 0.59825 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.250e-01 Mass of water (kg) = 1.000e+00 @@ -14444,10 +14444,10 @@ Reaction 1. pH = 4.838 Charge balance pe = 0.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 34586 + Specific Conductance (µS/cm, 45°C) = 34584 Density (g/cm³) = 0.99346 Volume (L) = 1.01735 - Viscosity (mPa s) = 0.59903 + Viscosity (mPa s) = 0.59913 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -14523,10 +14523,10 @@ Reaction 1. pH = 4.802 Charge balance pe = 1.816 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 42640 + Specific Conductance (µS/cm, 45°C) = 42637 Density (g/cm³) = 0.99424 Volume (L) = 1.01924 - Viscosity (mPa s) = 0.59959 + Viscosity (mPa s) = 0.59970 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -14602,10 +14602,10 @@ Reaction 1. pH = 4.774 Charge balance pe = 11.414 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 50584 + Specific Conductance (µS/cm, 45°C) = 50579 Density (g/cm³) = 0.99502 Volume (L) = 1.02113 - Viscosity (mPa s) = 0.60014 + Viscosity (mPa s) = 0.60026 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -14681,10 +14681,10 @@ Reaction 1. pH = 4.699 Charge balance pe = 1.610 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 81496 + Specific Conductance (µS/cm, 45°C) = 81487 Density (g/cm³) = 0.99805 Volume (L) = 1.02875 - Viscosity (mPa s) = 0.60232 + Viscosity (mPa s) = 0.60248 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -14760,10 +14760,10 @@ Reaction 1. pH = 4.699 Charge balance pe = 1.610 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 81496 + Specific Conductance (µS/cm, 45°C) = 81487 Density (g/cm³) = 0.99805 Volume (L) = 1.02875 - Viscosity (mPa s) = 0.60232 + Viscosity (mPa s) = 0.60248 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -14839,10 +14839,10 @@ Reaction 1. pH = 4.607 Charge balance pe = 1.642 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 154153 + Specific Conductance (µS/cm, 45°C) = 154130 Density (g/cm³) = 1.00525 Volume (L) = 1.04799 - Viscosity (mPa s) = 0.60776 + Viscosity (mPa s) = 0.60799 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -14918,10 +14918,10 @@ Reaction 1. pH = 4.607 Charge balance pe = 1.642 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 154153 + Specific Conductance (µS/cm, 45°C) = 154130 Density (g/cm³) = 1.00525 Volume (L) = 1.04799 - Viscosity (mPa s) = 0.60776 + Viscosity (mPa s) = 0.60799 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -14997,10 +14997,10 @@ Reaction 1. pH = 4.562 Charge balance pe = 2.293 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 221103 + Specific Conductance (µS/cm, 45°C) = 221063 Density (g/cm³) = 1.01199 Volume (L) = 1.06744 - Viscosity (mPa s) = 0.61344 + Viscosity (mPa s) = 0.61371 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -15076,10 +15076,10 @@ Reaction 1. pH = 4.536 Charge balance pe = 1.708 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 282785 + Specific Conductance (µS/cm, 45°C) = 282728 Density (g/cm³) = 1.01834 Volume (L) = 1.08704 - Viscosity (mPa s) = 0.61943 + Viscosity (mPa s) = 0.61975 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -15155,10 +15155,10 @@ Reaction 1. pH = 4.513 Charge balance pe = 1.827 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 391664 + Specific Conductance (µS/cm, 45°C) = 391570 Density (g/cm³) = 1.03010 Volume (L) = 1.12656 - Viscosity (mPa s) = 0.63251 + Viscosity (mPa s) = 0.63290 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -15234,10 +15234,10 @@ Reaction 1. pH = 4.511 Charge balance pe = 11.740 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 483275 + Specific Conductance (µS/cm, 45°C) = 483146 Density (g/cm³) = 1.04078 Volume (L) = 1.16641 - Viscosity (mPa s) = 0.64712 + Viscosity (mPa s) = 0.64757 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -15313,10 +15313,10 @@ Reaction 1. pH = 4.521 Charge balance pe = 1.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 559892 + Specific Conductance (µS/cm, 45°C) = 559731 Density (g/cm³) = 1.05053 Volume (L) = 1.20649 - Viscosity (mPa s) = 0.66331 + Viscosity (mPa s) = 0.66382 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -15502,7 +15502,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 10021 Density (g/cm³) = 0.98887 Volume (L) = 1.01396 - Viscosity (mPa s) = 0.54851 + Viscosity (mPa s) = 0.54857 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -15578,10 +15578,10 @@ Reaction 1. pH = 4.951 Charge balance pe = 10.968 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 13792 + Specific Conductance (µS/cm, 50°C) = 13791 Density (g/cm³) = 0.98920 Volume (L) = 1.01470 - Viscosity (mPa s) = 0.54872 + Viscosity (mPa s) = 0.54879 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -15657,10 +15657,10 @@ Reaction 1. pH = 4.888 Charge balance pe = 11.012 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 19323 + Specific Conductance (µS/cm, 50°C) = 19321 Density (g/cm³) = 0.98969 Volume (L) = 1.01582 - Viscosity (mPa s) = 0.54908 + Viscosity (mPa s) = 0.54917 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -15736,10 +15736,10 @@ Reaction 1. pH = 4.773 Charge balance pe = 1.015 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 37102 + Specific Conductance (µS/cm, 50°C) = 37099 Density (g/cm³) = 0.99129 Volume (L) = 1.01958 - Viscosity (mPa s) = 0.55037 + Viscosity (mPa s) = 0.55049 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -15815,10 +15815,10 @@ Reaction 1. pH = 4.709 Charge balance pe = 11.123 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 54269 + Specific Conductance (µS/cm, 50°C) = 54263 Density (g/cm³) = 0.99286 Volume (L) = 1.02336 - Viscosity (mPa s) = 0.55166 + Viscosity (mPa s) = 0.55181 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -15894,10 +15894,10 @@ Reaction 1. pH = 4.634 Charge balance pe = 1.569 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 87443 + Specific Conductance (µS/cm, 50°C) = 87431 Density (g/cm³) = 0.99590 Volume (L) = 1.03098 - Viscosity (mPa s) = 0.55423 + Viscosity (mPa s) = 0.55442 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -15973,10 +15973,10 @@ Reaction 1. pH = 4.543 Charge balance pe = 1.895 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 165347 + Specific Conductance (µS/cm, 50°C) = 165316 Density (g/cm³) = 1.00310 Volume (L) = 1.05024 - Viscosity (mPa s) = 0.56066 + Viscosity (mPa s) = 0.56093 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -16052,10 +16052,10 @@ Reaction 1. pH = 4.498 Charge balance pe = 1.895 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 237001 + Specific Conductance (µS/cm, 50°C) = 236947 Density (g/cm³) = 1.00984 Volume (L) = 1.06971 - Viscosity (mPa s) = 0.56727 + Viscosity (mPa s) = 0.56759 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -16131,10 +16131,10 @@ Reaction 1. pH = 4.472 Charge balance pe = 1.380 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 302891 + Specific Conductance (µS/cm, 50°C) = 302813 Density (g/cm³) = 1.01621 Volume (L) = 1.08933 - Viscosity (mPa s) = 0.57411 + Viscosity (mPa s) = 0.57449 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -16210,10 +16210,10 @@ Reaction 1. pH = 4.450 Charge balance pe = 1.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 418886 + Specific Conductance (µS/cm, 50°C) = 418760 Density (g/cm³) = 1.02797 Volume (L) = 1.12890 - Viscosity (mPa s) = 0.58862 + Viscosity (mPa s) = 0.58908 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -16289,10 +16289,10 @@ Reaction 1. pH = 4.449 Charge balance pe = 11.373 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 423466 + Specific Conductance (µS/cm, 50°C) = 423337 Density (g/cm³) = 1.02846 Volume (L) = 1.13062 - Viscosity (mPa s) = 0.58927 + Viscosity (mPa s) = 0.58974 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -16368,10 +16368,10 @@ Reaction 1. pH = 4.447 Charge balance pe = 1.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 475587 + Specific Conductance (µS/cm, 50°C) = 475434 Density (g/cm³) = 1.03409 Volume (L) = 1.15123 - Viscosity (mPa s) = 0.59727 + Viscosity (mPa s) = 0.59778 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -16447,10 +16447,10 @@ Reaction 1. pH = 4.448 Charge balance pe = 11.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 516184 + Specific Conductance (µS/cm, 50°C) = 516011 Density (g/cm³) = 1.03866 Volume (L) = 1.16878 - Viscosity (mPa s) = 0.60431 + Viscosity (mPa s) = 0.60484 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -16526,10 +16526,10 @@ Reaction 1. pH = 4.448 Charge balance pe = 11.602 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 525307 + Specific Conductance (µS/cm, 50°C) = 525130 Density (g/cm³) = 1.03971 Volume (L) = 1.17293 - Viscosity (mPa s) = 0.60600 + Viscosity (mPa s) = 0.60655 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -16605,10 +16605,10 @@ Reaction 1. pH = 4.453 Charge balance pe = 1.849 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 572492 + Specific Conductance (µS/cm, 50°C) = 572291 Density (g/cm³) = 1.04534 Volume (L) = 1.19579 - Viscosity (mPa s) = 0.61556 + Viscosity (mPa s) = 0.61614 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -16684,10 +16684,10 @@ Reaction 1. pH = 4.458 Charge balance pe = 1.984 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 597360 + Specific Conductance (µS/cm, 50°C) = 597145 Density (g/cm³) = 1.04844 Volume (L) = 1.20891 - Viscosity (mPa s) = 0.62122 + Viscosity (mPa s) = 0.62182 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -16763,10 +16763,10 @@ Reaction 1. pH = 4.462 Charge balance pe = 1.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 617012 + Specific Conductance (µS/cm, 50°C) = 616787 Density (g/cm³) = 1.05096 Volume (L) = 1.21988 - Viscosity (mPa s) = 0.62604 + Viscosity (mPa s) = 0.62666 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -16842,10 +16842,10 @@ Reaction 1. pH = 4.473 Charge balance pe = 11.039 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 658738 + Specific Conductance (µS/cm, 50°C) = 658490 Density (g/cm³) = 1.05660 Volume (L) = 1.24531 - Viscosity (mPa s) = 0.63756 + Viscosity (mPa s) = 0.63821 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -16921,10 +16921,10 @@ Reaction 1. pH = 4.487 Charge balance pe = 0.928 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 697544 + Specific Conductance (µS/cm, 50°C) = 697274 Density (g/cm³) = 1.06224 Volume (L) = 1.27217 - Viscosity (mPa s) = 0.65024 + Viscosity (mPa s) = 0.65093 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -17000,10 +17000,10 @@ Reaction 1. pH = 4.504 Charge balance pe = 0.736 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 733310 + Specific Conductance (µS/cm, 50°C) = 733020 Density (g/cm³) = 1.06790 Volume (L) = 1.30059 - Viscosity (mPa s) = 0.66422 + Viscosity (mPa s) = 0.66495 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -17079,10 +17079,10 @@ Reaction 1. pH = 4.524 Charge balance pe = 0.743 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 765918 + Specific Conductance (µS/cm, 50°C) = 765610 Density (g/cm³) = 1.07357 Volume (L) = 1.33067 - Viscosity (mPa s) = 0.67967 + Viscosity (mPa s) = 0.68044 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -17158,10 +17158,10 @@ Reaction 1. pH = 4.546 Charge balance pe = 11.707 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 795257 + Specific Conductance (µS/cm, 50°C) = 794933 Density (g/cm³) = 1.07927 Volume (L) = 1.36258 - Viscosity (mPa s) = 0.69679 + Viscosity (mPa s) = 0.69759 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -17347,7 +17347,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 10697 Density (g/cm³) = 0.98653 Volume (L) = 1.01636 - Viscosity (mPa s) = 0.50651 + Viscosity (mPa s) = 0.50658 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -17423,10 +17423,10 @@ Reaction 1. pH = 4.888 Charge balance pe = 10.690 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 14723 + Specific Conductance (µS/cm, 55°C) = 14722 Density (g/cm³) = 0.98687 Volume (L) = 1.01710 - Viscosity (mPa s) = 0.50662 + Viscosity (mPa s) = 0.50670 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.000e-02 Mass of water (kg) = 1.000e+00 @@ -17502,10 +17502,10 @@ Reaction 1. pH = 4.826 Charge balance pe = 10.728 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 20631 + Specific Conductance (µS/cm, 55°C) = 20629 Density (g/cm³) = 0.98736 Volume (L) = 1.01822 - Viscosity (mPa s) = 0.50691 + Viscosity (mPa s) = 0.50701 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -17581,10 +17581,10 @@ Reaction 1. pH = 4.710 Charge balance pe = 1.069 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 39634 + Specific Conductance (µS/cm, 55°C) = 39630 Density (g/cm³) = 0.98897 Volume (L) = 1.02197 - Viscosity (mPa s) = 0.50817 + Viscosity (mPa s) = 0.50831 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -17660,10 +17660,10 @@ Reaction 1. pH = 4.647 Charge balance pe = 10.839 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 57999 + Specific Conductance (µS/cm, 55°C) = 57991 Density (g/cm³) = 0.99054 Volume (L) = 1.02575 - Viscosity (mPa s) = 0.50955 + Viscosity (mPa s) = 0.50972 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -17739,10 +17739,10 @@ Reaction 1. pH = 4.571 Charge balance pe = 2.505 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 93510 + Specific Conductance (µS/cm, 55°C) = 93494 Density (g/cm³) = 0.99360 Volume (L) = 1.03336 - Viscosity (mPa s) = 0.51236 + Viscosity (mPa s) = 0.51257 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -17818,10 +17818,10 @@ Reaction 1. pH = 4.571 Charge balance pe = 2.505 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 93510 + Specific Conductance (µS/cm, 55°C) = 93494 Density (g/cm³) = 0.99360 Volume (L) = 1.03336 - Viscosity (mPa s) = 0.51236 + Viscosity (mPa s) = 0.51257 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -17897,10 +17897,10 @@ Reaction 1. pH = 4.480 Charge balance pe = 1.717 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 176919 + Specific Conductance (µS/cm, 55°C) = 176878 Density (g/cm³) = 1.00083 Volume (L) = 1.05261 - Viscosity (mPa s) = 0.51948 + Viscosity (mPa s) = 0.51979 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -17976,10 +17976,10 @@ Reaction 1. pH = 4.480 Charge balance pe = 1.717 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 176919 + Specific Conductance (µS/cm, 55°C) = 176878 Density (g/cm³) = 1.00083 Volume (L) = 1.05261 - Viscosity (mPa s) = 0.51948 + Viscosity (mPa s) = 0.51979 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -18055,10 +18055,10 @@ Reaction 1. pH = 4.436 Charge balance pe = 2.022 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 253575 + Specific Conductance (µS/cm, 55°C) = 253505 Density (g/cm³) = 1.00760 Volume (L) = 1.07209 - Viscosity (mPa s) = 0.52676 + Viscosity (mPa s) = 0.52713 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -18134,10 +18134,10 @@ Reaction 1. pH = 4.410 Charge balance pe = 10.949 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 323986 + Specific Conductance (µS/cm, 55°C) = 323885 Density (g/cm³) = 1.01398 Volume (L) = 1.09172 - Viscosity (mPa s) = 0.53422 + Viscosity (mPa s) = 0.53466 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -18213,10 +18213,10 @@ Reaction 1. pH = 4.388 Charge balance pe = 1.796 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 447736 + Specific Conductance (µS/cm, 55°C) = 447573 Density (g/cm³) = 1.02577 Volume (L) = 1.13132 - Viscosity (mPa s) = 0.54979 + Viscosity (mPa s) = 0.55032 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -18292,10 +18292,10 @@ Reaction 1. pH = 4.387 Charge balance pe = 11.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 452616 + Specific Conductance (µS/cm, 55°C) = 452451 Density (g/cm³) = 1.02625 Volume (L) = 1.13304 - Viscosity (mPa s) = 0.55048 + Viscosity (mPa s) = 0.55102 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -18371,10 +18371,10 @@ Reaction 1. pH = 4.385 Charge balance pe = 1.086 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 508134 + Specific Conductance (µS/cm, 55°C) = 507937 Density (g/cm³) = 1.03189 Volume (L) = 1.15368 - Viscosity (mPa s) = 0.55892 + Viscosity (mPa s) = 0.55950 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -18450,10 +18450,10 @@ Reaction 1. pH = 4.386 Charge balance pe = 11.725 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 551343 + Specific Conductance (µS/cm, 55°C) = 551121 Density (g/cm³) = 1.03647 Volume (L) = 1.17125 - Viscosity (mPa s) = 0.56627 + Viscosity (mPa s) = 0.56688 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -18529,10 +18529,10 @@ Reaction 1. pH = 4.387 Charge balance pe = 11.318 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 561049 + Specific Conductance (µS/cm, 55°C) = 560822 Density (g/cm³) = 1.03752 Volume (L) = 1.17541 - Viscosity (mPa s) = 0.56803 + Viscosity (mPa s) = 0.56865 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -18608,10 +18608,10 @@ Reaction 1. pH = 4.392 Charge balance pe = 1.836 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 611232 + Specific Conductance (µS/cm, 55°C) = 610974 Density (g/cm³) = 1.04316 Volume (L) = 1.19829 - Viscosity (mPa s) = 0.57791 + Viscosity (mPa s) = 0.57857 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -18687,10 +18687,10 @@ Reaction 1. pH = 4.396 Charge balance pe = 11.041 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 637669 + Specific Conductance (µS/cm, 55°C) = 637394 Density (g/cm³) = 1.04626 Volume (L) = 1.21142 - Viscosity (mPa s) = 0.58370 + Viscosity (mPa s) = 0.58438 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -18766,10 +18766,10 @@ Reaction 1. pH = 4.400 Charge balance pe = 1.053 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 658556 + Specific Conductance (µS/cm, 55°C) = 658269 Density (g/cm³) = 1.04879 Volume (L) = 1.22241 - Viscosity (mPa s) = 0.58862 + Viscosity (mPa s) = 0.58932 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -18845,10 +18845,10 @@ Reaction 1. pH = 4.412 Charge balance pe = 10.847 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 702899 + Specific Conductance (µS/cm, 55°C) = 702583 Density (g/cm³) = 1.05443 Volume (L) = 1.24787 - Viscosity (mPa s) = 0.60027 + Viscosity (mPa s) = 0.60102 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -18924,10 +18924,10 @@ Reaction 1. pH = 4.426 Charge balance pe = 1.015 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 744141 + Specific Conductance (µS/cm, 55°C) = 743799 Density (g/cm³) = 1.06008 Volume (L) = 1.27476 - Viscosity (mPa s) = 0.61298 + Viscosity (mPa s) = 0.61376 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -19003,10 +19003,10 @@ Reaction 1. pH = 4.443 Charge balance pe = 0.780 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 782170 + Specific Conductance (µS/cm, 55°C) = 781803 Density (g/cm³) = 1.06575 Volume (L) = 1.30321 - Viscosity (mPa s) = 0.62686 + Viscosity (mPa s) = 0.62768 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -19082,10 +19082,10 @@ Reaction 1. pH = 4.463 Charge balance pe = 0.815 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 816876 + Specific Conductance (µS/cm, 55°C) = 816486 Density (g/cm³) = 1.07143 Volume (L) = 1.33333 - Viscosity (mPa s) = 0.64205 + Viscosity (mPa s) = 0.64292 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -19161,10 +19161,10 @@ Reaction 1. pH = 4.485 Charge balance pe = 11.550 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 848157 + Specific Conductance (µS/cm, 55°C) = 847748 Density (g/cm³) = 1.07714 Volume (L) = 1.36527 - Viscosity (mPa s) = 0.65873 + Viscosity (mPa s) = 0.65964 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -19240,10 +19240,10 @@ Reaction 1. pH = 4.510 Charge balance pe = 11.382 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 875917 + Specific Conductance (µS/cm, 55°C) = 875490 Density (g/cm³) = 1.08288 Volume (L) = 1.39919 - Viscosity (mPa s) = 0.67709 + Viscosity (mPa s) = 0.67804 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -19426,10 +19426,10 @@ Reaction 1. pH = 4.328 Charge balance pe = 10.793 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 483187 + Specific Conductance (µS/cm, 60°C) = 482980 Density (g/cm³) = 1.02398 Volume (L) = 1.13556 - Viscosity (mPa s) = 0.51601 + Viscosity (mPa s) = 0.51660 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -19505,10 +19505,10 @@ Reaction 1. pH = 4.326 Charge balance pe = 1.130 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 542369 + Specific Conductance (µS/cm, 60°C) = 542124 Density (g/cm³) = 1.02963 Volume (L) = 1.15622 - Viscosity (mPa s) = 0.52475 + Viscosity (mPa s) = 0.52539 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -19584,10 +19584,10 @@ Reaction 1. pH = 4.327 Charge balance pe = 11.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 598751 + Specific Conductance (µS/cm, 60°C) = 598468 Density (g/cm³) = 1.03527 Volume (L) = 1.17796 - Viscosity (mPa s) = 0.53412 + Viscosity (mPa s) = 0.53481 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -19663,10 +19663,10 @@ Reaction 1. pH = 4.333 Charge balance pe = 10.358 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 652205 + Specific Conductance (µS/cm, 60°C) = 651884 Density (g/cm³) = 1.04091 Volume (L) = 1.20087 - Viscosity (mPa s) = 0.54421 + Viscosity (mPa s) = 0.54494 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -19742,10 +19742,10 @@ Reaction 1. pH = 4.341 Charge balance pe = 1.156 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 702605 + Specific Conductance (µS/cm, 60°C) = 702249 Density (g/cm³) = 1.04655 Volume (L) = 1.22503 - Viscosity (mPa s) = 0.55507 + Viscosity (mPa s) = 0.55585 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -19821,10 +19821,10 @@ Reaction 1. pH = 4.353 Charge balance pe = 11.554 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 749834 + Specific Conductance (µS/cm, 60°C) = 749443 Density (g/cm³) = 1.05219 Volume (L) = 1.25053 - Viscosity (mPa s) = 0.56680 + Viscosity (mPa s) = 0.56763 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -19900,10 +19900,10 @@ Reaction 1. pH = 4.367 Charge balance pe = 1.019 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 793777 + Specific Conductance (µS/cm, 60°C) = 793354 Density (g/cm³) = 1.05784 Volume (L) = 1.27747 - Viscosity (mPa s) = 0.57949 + Viscosity (mPa s) = 0.58036 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -19979,10 +19979,10 @@ Reaction 1. pH = 4.384 Charge balance pe = 0.832 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 834326 + Specific Conductance (µS/cm, 60°C) = 833873 Density (g/cm³) = 1.06350 Volume (L) = 1.30596 - Viscosity (mPa s) = 0.59326 + Viscosity (mPa s) = 0.59417 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -20058,10 +20058,10 @@ Reaction 1. pH = 4.403 Charge balance pe = 0.942 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 871378 + Specific Conductance (µS/cm, 60°C) = 870898 Density (g/cm³) = 1.06918 Volume (L) = 1.33614 - Viscosity (mPa s) = 0.60822 + Viscosity (mPa s) = 0.60918 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -20137,10 +20137,10 @@ Reaction 1. pH = 4.426 Charge balance pe = 1.391 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 904837 + Specific Conductance (µS/cm, 60°C) = 904334 Density (g/cm³) = 1.07488 Volume (L) = 1.36814 - Viscosity (mPa s) = 0.62453 + Viscosity (mPa s) = 0.62554 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -20216,10 +20216,10 @@ Reaction 1. pH = 4.451 Charge balance pe = 11.086 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 934614 + Specific Conductance (µS/cm, 60°C) = 934091 Density (g/cm³) = 1.08061 Volume (L) = 1.40212 - Viscosity (mPa s) = 0.64234 + Viscosity (mPa s) = 0.64340 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -20402,10 +20402,10 @@ Reaction 1. pH = 4.270 Charge balance pe = 10.504 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 514807 + Specific Conductance (µS/cm, 65°C) = 514553 Density (g/cm³) = 1.02164 Volume (L) = 1.13816 - Viscosity (mPa s) = 0.48530 + Viscosity (mPa s) = 0.48594 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -20481,10 +20481,10 @@ Reaction 1. pH = 4.268 Charge balance pe = 1.177 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 577836 + Specific Conductance (µS/cm, 65°C) = 577537 Density (g/cm³) = 1.02731 Volume (L) = 1.15883 - Viscosity (mPa s) = 0.49422 + Viscosity (mPa s) = 0.49492 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -20560,10 +20560,10 @@ Reaction 1. pH = 4.270 Charge balance pe = 10.760 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 637864 + Specific Conductance (µS/cm, 65°C) = 637519 Density (g/cm³) = 1.03296 Volume (L) = 1.18060 - Viscosity (mPa s) = 0.50375 + Viscosity (mPa s) = 0.50450 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -20639,10 +20639,10 @@ Reaction 1. pH = 4.275 Charge balance pe = 10.509 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 694759 + Specific Conductance (µS/cm, 65°C) = 694370 Density (g/cm³) = 1.03861 Volume (L) = 1.20354 - Viscosity (mPa s) = 0.51395 + Viscosity (mPa s) = 0.51475 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -20718,10 +20718,10 @@ Reaction 1. pH = 4.284 Charge balance pe = 1.156 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 748400 + Specific Conductance (µS/cm, 65°C) = 747968 Density (g/cm³) = 1.04425 Volume (L) = 1.22773 - Viscosity (mPa s) = 0.52489 + Viscosity (mPa s) = 0.52574 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -20797,10 +20797,10 @@ Reaction 1. pH = 4.295 Charge balance pe = 10.855 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 798669 + Specific Conductance (µS/cm, 65°C) = 798196 Density (g/cm³) = 1.04988 Volume (L) = 1.25327 - Viscosity (mPa s) = 0.53663 + Viscosity (mPa s) = 0.53753 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -20876,10 +20876,10 @@ Reaction 1. pH = 4.310 Charge balance pe = 1.079 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 845454 + Specific Conductance (µS/cm, 65°C) = 844943 Density (g/cm³) = 1.05553 Volume (L) = 1.28026 - Viscosity (mPa s) = 0.54927 + Viscosity (mPa s) = 0.55022 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -20955,10 +20955,10 @@ Reaction 1. pH = 4.327 Charge balance pe = 0.863 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 888652 + Specific Conductance (µS/cm, 65°C) = 888106 Density (g/cm³) = 1.06118 Volume (L) = 1.30882 - Viscosity (mPa s) = 0.56290 + Viscosity (mPa s) = 0.56390 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -21034,10 +21034,10 @@ Reaction 1. pH = 4.346 Charge balance pe = 0.937 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 928162 + Specific Conductance (µS/cm, 65°C) = 927584 Density (g/cm³) = 1.06684 Volume (L) = 1.33907 - Viscosity (mPa s) = 0.57764 + Viscosity (mPa s) = 0.57869 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -21113,10 +21113,10 @@ Reaction 1. pH = 4.369 Charge balance pe = 1.379 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 963894 + Specific Conductance (µS/cm, 65°C) = 963288 Density (g/cm³) = 1.07252 Volume (L) = 1.37115 - Viscosity (mPa s) = 0.59361 + Viscosity (mPa s) = 0.59471 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -21192,10 +21192,10 @@ Reaction 1. pH = 4.394 Charge balance pe = 10.809 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 995763 + Specific Conductance (µS/cm, 65°C) = 995134 Density (g/cm³) = 1.07823 Volume (L) = 1.40523 - Viscosity (mPa s) = 0.61096 + Viscosity (mPa s) = 0.61211 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -21378,10 +21378,10 @@ Reaction 1. pH = 4.215 Charge balance pe = 10.317 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 547013 + Specific Conductance (µS/cm, 70°C) = 546709 Density (g/cm³) = 1.01924 Volume (L) = 1.14084 - Viscosity (mPa s) = 0.45799 + Viscosity (mPa s) = 0.45869 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -21457,10 +21457,10 @@ Reaction 1. pH = 4.213 Charge balance pe = 1.249 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 613988 + Specific Conductance (µS/cm, 70°C) = 613630 Density (g/cm³) = 1.02493 Volume (L) = 1.16152 - Viscosity (mPa s) = 0.46698 + Viscosity (mPa s) = 0.46774 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -21536,10 +21536,10 @@ Reaction 1. pH = 4.215 Charge balance pe = 10.503 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 677748 + Specific Conductance (µS/cm, 70°C) = 677336 Density (g/cm³) = 1.03060 Volume (L) = 1.18330 - Viscosity (mPa s) = 0.47656 + Viscosity (mPa s) = 0.47737 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -21615,10 +21615,10 @@ Reaction 1. pH = 4.220 Charge balance pe = 10.933 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 738163 + Specific Conductance (µS/cm, 70°C) = 737699 Density (g/cm³) = 1.03626 Volume (L) = 1.20627 - Viscosity (mPa s) = 0.48679 + Viscosity (mPa s) = 0.48765 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -21694,10 +21694,10 @@ Reaction 1. pH = 4.229 Charge balance pe = 1.235 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 795107 + Specific Conductance (µS/cm, 70°C) = 794593 Density (g/cm³) = 1.04190 Volume (L) = 1.23050 - Viscosity (mPa s) = 0.49771 + Viscosity (mPa s) = 0.49863 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -21773,10 +21773,10 @@ Reaction 1. pH = 4.240 Charge balance pe = 10.758 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 848465 + Specific Conductance (µS/cm, 70°C) = 847903 Density (g/cm³) = 1.04753 Volume (L) = 1.25609 - Viscosity (mPa s) = 0.50940 + Viscosity (mPa s) = 0.51038 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -21852,10 +21852,10 @@ Reaction 1. pH = 4.254 Charge balance pe = 1.101 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 898124 + Specific Conductance (µS/cm, 70°C) = 897518 Density (g/cm³) = 1.05316 Volume (L) = 1.28314 - Viscosity (mPa s) = 0.52194 + Viscosity (mPa s) = 0.52297 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -21931,10 +21931,10 @@ Reaction 1. pH = 4.271 Charge balance pe = 0.924 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 943983 + Specific Conductance (µS/cm, 70°C) = 943336 Density (g/cm³) = 1.05879 Volume (L) = 1.31177 - Viscosity (mPa s) = 0.53541 + Viscosity (mPa s) = 0.53649 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -22010,10 +22010,10 @@ Reaction 1. pH = 4.291 Charge balance pe = 1.045 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 985944 + Specific Conductance (µS/cm, 70°C) = 985260 Density (g/cm³) = 1.06443 Volume (L) = 1.34210 - Viscosity (mPa s) = 0.54991 + Viscosity (mPa s) = 0.55104 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -22089,10 +22089,10 @@ Reaction 1. pH = 4.314 Charge balance pe = 1.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 1023919 + Specific Conductance (µS/cm, 70°C) = 1023204 Density (g/cm³) = 1.07008 Volume (L) = 1.37429 - Viscosity (mPa s) = 0.56556 + Viscosity (mPa s) = 0.56674 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -22168,10 +22168,10 @@ Reaction 1. pH = 4.339 Charge balance pe = 10.571 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 1057828 + Specific Conductance (µS/cm, 70°C) = 1057085 Density (g/cm³) = 1.07574 Volume (L) = 1.40848 - Viscosity (mPa s) = 0.58248 + Viscosity (mPa s) = 0.58372 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -22247,10 +22247,10 @@ Reaction 1. pH = 4.367 Charge balance pe = 10.577 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 1087597 + Specific Conductance (µS/cm, 70°C) = 1086833 Density (g/cm³) = 1.08142 Volume (L) = 1.44486 - Viscosity (mPa s) = 0.60083 + Viscosity (mPa s) = 0.60213 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -22433,10 +22433,10 @@ Reaction 1. pH = 4.161 Charge balance pe = 10.003 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 579250 + Specific Conductance (µS/cm, 75°C) = 578891 Density (g/cm³) = 1.01679 Volume (L) = 1.14359 - Viscosity (mPa s) = 0.43400 + Viscosity (mPa s) = 0.43475 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -22512,10 +22512,10 @@ Reaction 1. pH = 4.159 Charge balance pe = 1.279 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 650205 + Specific Conductance (µS/cm, 75°C) = 649783 Density (g/cm³) = 1.02251 Volume (L) = 1.16427 - Viscosity (mPa s) = 0.44291 + Viscosity (mPa s) = 0.44371 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -22591,10 +22591,10 @@ Reaction 1. pH = 4.161 Charge balance pe = 10.250 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 717724 + Specific Conductance (µS/cm, 75°C) = 717239 Density (g/cm³) = 1.02820 Volume (L) = 1.18607 - Viscosity (mPa s) = 0.45241 + Viscosity (mPa s) = 0.45327 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -22670,10 +22670,10 @@ Reaction 1. pH = 4.166 Charge balance pe = 9.595 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 781670 + Specific Conductance (µS/cm, 75°C) = 781125 Density (g/cm³) = 1.03386 Volume (L) = 1.20906 - Viscosity (mPa s) = 0.46254 + Viscosity (mPa s) = 0.46346 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -22749,10 +22749,10 @@ Reaction 1. pH = 4.175 Charge balance pe = 1.297 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 841916 + Specific Conductance (µS/cm, 75°C) = 841313 Density (g/cm³) = 1.03951 Volume (L) = 1.23333 - Viscosity (mPa s) = 0.47336 + Viscosity (mPa s) = 0.47434 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -22828,10 +22828,10 @@ Reaction 1. pH = 4.187 Charge balance pe = 1.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 898344 + Specific Conductance (µS/cm, 75°C) = 897686 Density (g/cm³) = 1.04514 Volume (L) = 1.25897 - Viscosity (mPa s) = 0.48492 + Viscosity (mPa s) = 0.48596 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -22907,10 +22907,10 @@ Reaction 1. pH = 4.201 Charge balance pe = 1.202 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 950842 + Specific Conductance (µS/cm, 75°C) = 950133 Density (g/cm³) = 1.05075 Volume (L) = 1.28608 - Viscosity (mPa s) = 0.49728 + Viscosity (mPa s) = 0.49838 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -22986,10 +22986,10 @@ Reaction 1. pH = 4.218 Charge balance pe = 0.959 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 999309 + Specific Conductance (µS/cm, 75°C) = 998553 Density (g/cm³) = 1.05636 Volume (L) = 1.31479 - Viscosity (mPa s) = 0.51054 + Viscosity (mPa s) = 0.51169 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -23065,10 +23065,10 @@ Reaction 1. pH = 4.238 Charge balance pe = 1.027 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 1043647 + Specific Conductance (µS/cm, 75°C) = 1042850 Density (g/cm³) = 1.06196 Volume (L) = 1.34522 - Viscosity (mPa s) = 0.52477 + Viscosity (mPa s) = 0.52598 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -23144,10 +23144,10 @@ Reaction 1. pH = 4.260 Charge balance pe = 9.940 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 1083772 + Specific Conductance (µS/cm, 75°C) = 1082938 Density (g/cm³) = 1.06756 Volume (L) = 1.37752 - Viscosity (mPa s) = 0.54009 + Viscosity (mPa s) = 0.54135 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -23223,10 +23223,10 @@ Reaction 1. pH = 4.286 Charge balance pe = 10.300 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 1119601 + Specific Conductance (µS/cm, 75°C) = 1118737 Density (g/cm³) = 1.07317 Volume (L) = 1.41185 - Viscosity (mPa s) = 0.55659 + Viscosity (mPa s) = 0.55792 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -23302,10 +23302,10 @@ Reaction 1. pH = 4.314 Charge balance pe = 10.334 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 1151067 + Specific Conductance (µS/cm, 75°C) = 1150179 Density (g/cm³) = 1.07879 Volume (L) = 1.44839 - Viscosity (mPa s) = 0.57444 + Viscosity (mPa s) = 0.57583 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -23488,10 +23488,10 @@ Reaction 1. pH = 4.109 Charge balance pe = 9.750 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 610770 + Specific Conductance (µS/cm, 80°C) = 610356 Density (g/cm³) = 1.01429 Volume (L) = 1.14640 - Viscosity (mPa s) = 0.41363 + Viscosity (mPa s) = 0.41442 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -23567,10 +23567,10 @@ Reaction 1. pH = 4.107 Charge balance pe = 1.329 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 685719 + Specific Conductance (µS/cm, 80°C) = 685231 Density (g/cm³) = 1.02005 Volume (L) = 1.16708 - Viscosity (mPa s) = 0.42222 + Viscosity (mPa s) = 0.42308 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -23646,10 +23646,10 @@ Reaction 1. pH = 4.109 Charge balance pe = 9.995 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 757002 + Specific Conductance (µS/cm, 80°C) = 756441 Density (g/cm³) = 1.02576 Volume (L) = 1.18889 - Viscosity (mPa s) = 0.43145 + Viscosity (mPa s) = 0.43237 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -23725,10 +23725,10 @@ Reaction 1. pH = 4.115 Charge balance pe = 9.782 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 824476 + Specific Conductance (µS/cm, 80°C) = 823845 Density (g/cm³) = 1.03144 Volume (L) = 1.21190 - Viscosity (mPa s) = 0.44132 + Viscosity (mPa s) = 0.44230 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -23804,10 +23804,10 @@ Reaction 1. pH = 4.123 Charge balance pe = 1.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 888008 + Specific Conductance (µS/cm, 80°C) = 887311 Density (g/cm³) = 1.03709 Volume (L) = 1.23620 - Viscosity (mPa s) = 0.45189 + Viscosity (mPa s) = 0.45293 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -23883,10 +23883,10 @@ Reaction 1. pH = 4.135 Charge balance pe = 2.185 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 947479 + Specific Conductance (µS/cm, 80°C) = 946719 Density (g/cm³) = 1.04271 Volume (L) = 1.26190 - Viscosity (mPa s) = 0.46319 + Viscosity (mPa s) = 0.46430 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -23962,10 +23962,10 @@ Reaction 1. pH = 4.149 Charge balance pe = 1.180 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1002772 + Specific Conductance (µS/cm, 80°C) = 1001954 Density (g/cm³) = 1.04831 Volume (L) = 1.28908 - Viscosity (mPa s) = 0.47529 + Viscosity (mPa s) = 0.47645 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -24041,10 +24041,10 @@ Reaction 1. pH = 4.166 Charge balance pe = 1.034 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1053786 + Specific Conductance (µS/cm, 80°C) = 1052915 Density (g/cm³) = 1.05389 Volume (L) = 1.31787 - Viscosity (mPa s) = 0.48825 + Viscosity (mPa s) = 0.48947 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -24120,10 +24120,10 @@ Reaction 1. pH = 4.186 Charge balance pe = 1.055 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1100422 + Specific Conductance (µS/cm, 80°C) = 1099504 Density (g/cm³) = 1.05945 Volume (L) = 1.34841 - Viscosity (mPa s) = 0.50215 + Viscosity (mPa s) = 0.50343 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -24199,10 +24199,10 @@ Reaction 1. pH = 4.209 Charge balance pe = 9.697 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1142596 + Specific Conductance (µS/cm, 80°C) = 1141637 Density (g/cm³) = 1.06500 Volume (L) = 1.38084 - Viscosity (mPa s) = 0.51708 + Viscosity (mPa s) = 0.51842 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -24278,10 +24278,10 @@ Reaction 1. pH = 4.234 Charge balance pe = 10.056 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1180228 + Specific Conductance (µS/cm, 80°C) = 1179234 Density (g/cm³) = 1.07054 Volume (L) = 1.41532 - Viscosity (mPa s) = 0.53315 + Viscosity (mPa s) = 0.53456 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -24357,10 +24357,10 @@ Reaction 1. pH = 4.263 Charge balance pe = 10.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1213249 + Specific Conductance (µS/cm, 80°C) = 1212228 Density (g/cm³) = 1.07608 Volume (L) = 1.45203 - Viscosity (mPa s) = 0.55048 + Viscosity (mPa s) = 0.55196 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -24436,10 +24436,10 @@ Reaction 1. pH = 4.294 Charge balance pe = 10.009 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1241602 + Specific Conductance (µS/cm, 80°C) = 1240561 Density (g/cm³) = 1.08162 Volume (L) = 1.49119 - Viscosity (mPa s) = 0.56922 + Viscosity (mPa s) = 0.57076 Activity of water = 0.610 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -24622,10 +24622,10 @@ Reaction 1. pH = 4.059 Charge balance pe = 9.521 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 640384 + Specific Conductance (µS/cm, 85°C) = 639914 Density (g/cm³) = 1.01175 Volume (L) = 1.14928 - Viscosity (mPa s) = 0.39795 + Viscosity (mPa s) = 0.39878 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -24701,10 +24701,10 @@ Reaction 1. pH = 4.057 Charge balance pe = 1.371 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 719369 + Specific Conductance (µS/cm, 85°C) = 718815 Density (g/cm³) = 1.01755 Volume (L) = 1.16995 - Viscosity (mPa s) = 0.40582 + Viscosity (mPa s) = 0.40672 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -24780,10 +24780,10 @@ Reaction 1. pH = 4.059 Charge balance pe = 9.766 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 794462 + Specific Conductance (µS/cm, 85°C) = 793825 Density (g/cm³) = 1.02329 Volume (L) = 1.19175 - Viscosity (mPa s) = 0.41442 + Viscosity (mPa s) = 0.41539 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -24859,10 +24859,10 @@ Reaction 1. pH = 4.065 Charge balance pe = 1.595 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 865507 + Specific Conductance (µS/cm, 85°C) = 864790 Density (g/cm³) = 1.02899 Volume (L) = 1.21478 - Viscosity (mPa s) = 0.42375 + Viscosity (mPa s) = 0.42479 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -24938,10 +24938,10 @@ Reaction 1. pH = 4.073 Charge balance pe = 1.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 932364 + Specific Conductance (µS/cm, 85°C) = 931571 Density (g/cm³) = 1.03465 Volume (L) = 1.23912 - Viscosity (mPa s) = 0.43382 + Viscosity (mPa s) = 0.43492 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -25017,10 +25017,10 @@ Reaction 1. pH = 4.085 Charge balance pe = 9.990 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 994904 + Specific Conductance (µS/cm, 85°C) = 994039 Density (g/cm³) = 1.04026 Volume (L) = 1.26486 - Viscosity (mPa s) = 0.44465 + Viscosity (mPa s) = 0.44581 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -25096,10 +25096,10 @@ Reaction 1. pH = 4.099 Charge balance pe = 1.277 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1053007 + Specific Conductance (µS/cm, 85°C) = 1052076 Density (g/cm³) = 1.04584 Volume (L) = 1.29212 - Viscosity (mPa s) = 0.45629 + Viscosity (mPa s) = 0.45752 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -25175,10 +25175,10 @@ Reaction 1. pH = 4.117 Charge balance pe = 1.069 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1106566 + Specific Conductance (µS/cm, 85°C) = 1105574 Density (g/cm³) = 1.05139 Volume (L) = 1.32100 - Viscosity (mPa s) = 0.46879 + Viscosity (mPa s) = 0.47008 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -25254,10 +25254,10 @@ Reaction 1. pH = 4.136 Charge balance pe = 1.231 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1155480 + Specific Conductance (µS/cm, 85°C) = 1154436 Density (g/cm³) = 1.05691 Volume (L) = 1.35165 - Viscosity (mPa s) = 0.48223 + Viscosity (mPa s) = 0.48358 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -25333,10 +25333,10 @@ Reaction 1. pH = 4.159 Charge balance pe = 10.074 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1199664 + Specific Conductance (µS/cm, 85°C) = 1198574 Density (g/cm³) = 1.06240 Volume (L) = 1.38421 - Viscosity (mPa s) = 0.49667 + Viscosity (mPa s) = 0.49809 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -25412,10 +25412,10 @@ Reaction 1. pH = 4.184 Charge balance pe = 9.922 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1239038 + Specific Conductance (µS/cm, 85°C) = 1237908 Density (g/cm³) = 1.06787 Volume (L) = 1.41886 - Viscosity (mPa s) = 0.51222 + Viscosity (mPa s) = 0.51370 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -25491,10 +25491,10 @@ Reaction 1. pH = 4.213 Charge balance pe = 9.848 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1273533 + Specific Conductance (µS/cm, 85°C) = 1272373 Density (g/cm³) = 1.07332 Volume (L) = 1.45577 - Viscosity (mPa s) = 0.52898 + Viscosity (mPa s) = 0.53053 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -25570,10 +25570,10 @@ Reaction 1. pH = 4.245 Charge balance pe = 9.730 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 1303093 + Specific Conductance (µS/cm, 85°C) = 1301910 Density (g/cm³) = 1.07875 Volume (L) = 1.49516 - Viscosity (mPa s) = 0.54709 + Viscosity (mPa s) = 0.54871 Activity of water = 0.610 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -25756,10 +25756,10 @@ Reaction 1. pH = 4.010 Charge balance pe = 9.247 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 665941 + Specific Conductance (µS/cm, 90°C) = 665427 Density (g/cm³) = 1.00917 Volume (L) = 1.15222 - Viscosity (mPa s) = 0.38949 + Viscosity (mPa s) = 0.39037 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -25835,10 +25835,10 @@ Reaction 1. pH = 4.008 Charge balance pe = 1.415 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 749097 + Specific Conductance (µS/cm, 90°C) = 748487 Density (g/cm³) = 1.01502 Volume (L) = 1.17286 - Viscosity (mPa s) = 0.39585 + Viscosity (mPa s) = 0.39680 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -25914,10 +25914,10 @@ Reaction 1. pH = 4.011 Charge balance pe = 9.521 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 828163 + Specific Conductance (µS/cm, 90°C) = 827458 Density (g/cm³) = 1.02080 Volume (L) = 1.19466 - Viscosity (mPa s) = 0.40318 + Viscosity (mPa s) = 0.40420 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -25993,10 +25993,10 @@ Reaction 1. pH = 4.016 Charge balance pe = 8.957 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 902957 + Specific Conductance (µS/cm, 90°C) = 902161 Density (g/cm³) = 1.02652 Volume (L) = 1.21770 - Viscosity (mPa s) = 0.41141 + Viscosity (mPa s) = 0.41250 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -26072,10 +26072,10 @@ Reaction 1. pH = 4.025 Charge balance pe = 1.372 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 973319 + Specific Conductance (µS/cm, 90°C) = 972436 Density (g/cm³) = 1.03219 Volume (L) = 1.24207 - Viscosity (mPa s) = 0.42050 + Viscosity (mPa s) = 0.42166 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -26151,10 +26151,10 @@ Reaction 1. pH = 4.037 Charge balance pe = 1.848 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1039105 + Specific Conductance (µS/cm, 90°C) = 1038139 Density (g/cm³) = 1.03780 Volume (L) = 1.26786 - Viscosity (mPa s) = 0.43045 + Viscosity (mPa s) = 0.43167 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -26230,10 +26230,10 @@ Reaction 1. pH = 4.051 Charge balance pe = 1.290 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1100182 + Specific Conductance (µS/cm, 90°C) = 1099141 Density (g/cm³) = 1.04337 Volume (L) = 1.29518 - Viscosity (mPa s) = 0.44128 + Viscosity (mPa s) = 0.44257 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -26309,10 +26309,10 @@ Reaction 1. pH = 4.068 Charge balance pe = 1.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1156433 + Specific Conductance (µS/cm, 90°C) = 1155324 Density (g/cm³) = 1.04888 Volume (L) = 1.32416 - Viscosity (mPa s) = 0.45301 + Viscosity (mPa s) = 0.45437 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -26388,10 +26388,10 @@ Reaction 1. pH = 4.088 Charge balance pe = 1.237 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1207753 + Specific Conductance (µS/cm, 90°C) = 1206582 Density (g/cm³) = 1.05435 Volume (L) = 1.35493 - Viscosity (mPa s) = 0.46571 + Viscosity (mPa s) = 0.46713 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -26467,10 +26467,10 @@ Reaction 1. pH = 4.111 Charge balance pe = 2.062 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1254049 + Specific Conductance (µS/cm, 90°C) = 1252825 Density (g/cm³) = 1.05978 Volume (L) = 1.38764 - Viscosity (mPa s) = 0.47943 + Viscosity (mPa s) = 0.48092 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -26546,10 +26546,10 @@ Reaction 1. pH = 4.136 Charge balance pe = 9.574 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1295238 + Specific Conductance (µS/cm, 90°C) = 1293971 Density (g/cm³) = 1.06517 Volume (L) = 1.42246 - Viscosity (mPa s) = 0.49426 + Viscosity (mPa s) = 0.49582 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -26625,10 +26625,10 @@ Reaction 1. pH = 4.165 Charge balance pe = 9.610 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1331254 + Specific Conductance (µS/cm, 90°C) = 1329950 Density (g/cm³) = 1.07052 Volume (L) = 1.45958 - Viscosity (mPa s) = 0.51030 + Viscosity (mPa s) = 0.51193 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -26704,10 +26704,10 @@ Reaction 1. pH = 4.197 Charge balance pe = 9.456 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1362037 + Specific Conductance (µS/cm, 90°C) = 1360708 Density (g/cm³) = 1.07583 Volume (L) = 1.49922 - Viscosity (mPa s) = 0.52765 + Viscosity (mPa s) = 0.52935 Activity of water = 0.610 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -26783,10 +26783,10 @@ Reaction 1. pH = 4.232 Charge balance pe = 0.780 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1387545 + Specific Conductance (µS/cm, 90°C) = 1386199 Density (g/cm³) = 1.08111 Volume (L) = 1.54162 - Viscosity (mPa s) = 0.54645 + Viscosity (mPa s) = 0.54823 Activity of water = 0.576 Ionic strength (mol/kgw) = 1.246e+01 Mass of water (kg) = 1.000e+00 @@ -26969,10 +26969,10 @@ Reaction 1. pH = 3.963 Charge balance pe = 9.048 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 683567 + Specific Conductance (µS/cm, 95°C) = 683035 Density (g/cm³) = 1.00656 Volume (L) = 1.15521 - Viscosity (mPa s) = 0.39381 + Viscosity (mPa s) = 0.39473 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -27048,10 +27048,10 @@ Reaction 1. pH = 3.961 Charge balance pe = 1.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 771140 + Specific Conductance (µS/cm, 95°C) = 770501 Density (g/cm³) = 1.01246 Volume (L) = 1.17582 - Viscosity (mPa s) = 0.39707 + Viscosity (mPa s) = 0.39806 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -27127,10 +27127,10 @@ Reaction 1. pH = 3.964 Charge balance pe = 9.292 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 854521 + Specific Conductance (µS/cm, 95°C) = 853775 Density (g/cm³) = 1.01829 Volume (L) = 1.19761 - Viscosity (mPa s) = 0.40182 + Viscosity (mPa s) = 0.40288 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -27206,10 +27206,10 @@ Reaction 1. pH = 3.969 Charge balance pe = 2.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 933470 + Specific Conductance (µS/cm, 95°C) = 932620 Density (g/cm³) = 1.02404 Volume (L) = 1.22065 - Viscosity (mPa s) = 0.40783 + Viscosity (mPa s) = 0.40897 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -27285,10 +27285,10 @@ Reaction 1. pH = 3.978 Charge balance pe = 1.432 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1007779 + Specific Conductance (µS/cm, 95°C) = 1006829 Density (g/cm³) = 1.02972 Volume (L) = 1.24504 - Viscosity (mPa s) = 0.41500 + Viscosity (mPa s) = 0.41620 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -27364,10 +27364,10 @@ Reaction 1. pH = 3.990 Charge balance pe = 1.673 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1077267 + Specific Conductance (µS/cm, 95°C) = 1076221 Density (g/cm³) = 1.03534 Volume (L) = 1.27088 - Viscosity (mPa s) = 0.42324 + Viscosity (mPa s) = 0.42452 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -27443,10 +27443,10 @@ Reaction 1. pH = 4.005 Charge balance pe = 1.360 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1141772 + Specific Conductance (µS/cm, 95°C) = 1140638 Density (g/cm³) = 1.04089 Volume (L) = 1.29827 - Viscosity (mPa s) = 0.43254 + Viscosity (mPa s) = 0.43388 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -27522,10 +27522,10 @@ Reaction 1. pH = 4.022 Charge balance pe = 1.158 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1201154 + Specific Conductance (µS/cm, 95°C) = 1199941 Density (g/cm³) = 1.04637 Volume (L) = 1.32734 - Viscosity (mPa s) = 0.44288 + Viscosity (mPa s) = 0.44430 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -27601,10 +27601,10 @@ Reaction 1. pH = 4.042 Charge balance pe = 1.196 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1255290 + Specific Conductance (µS/cm, 95°C) = 1254005 Density (g/cm³) = 1.05179 Volume (L) = 1.35823 - Viscosity (mPa s) = 0.45429 + Viscosity (mPa s) = 0.45578 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -27680,10 +27680,10 @@ Reaction 1. pH = 4.064 Charge balance pe = 9.853 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1304074 + Specific Conductance (µS/cm, 95°C) = 1302727 Density (g/cm³) = 1.05715 Volume (L) = 1.39109 - Viscosity (mPa s) = 0.46682 + Viscosity (mPa s) = 0.46837 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -27759,10 +27759,10 @@ Reaction 1. pH = 4.090 Charge balance pe = 9.375 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1347414 + Specific Conductance (µS/cm, 95°C) = 1346015 Density (g/cm³) = 1.06245 Volume (L) = 1.42609 - Viscosity (mPa s) = 0.48051 + Viscosity (mPa s) = 0.48214 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -27838,10 +27838,10 @@ Reaction 1. pH = 4.150 Charge balance pe = 9.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1417484 + Specific Conductance (µS/cm, 95°C) = 1416011 Density (g/cm³) = 1.07288 Volume (L) = 1.50335 - Viscosity (mPa s) = 0.51173 + Viscosity (mPa s) = 0.51351 Activity of water = 0.610 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -27917,10 +27917,10 @@ Reaction 1. pH = 4.185 Charge balance pe = 0.697 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 1444110 + Specific Conductance (µS/cm, 95°C) = 1442617 Density (g/cm³) = 1.07801 Volume (L) = 1.54607 - Viscosity (mPa s) = 0.52948 + Viscosity (mPa s) = 0.53133 Activity of water = 0.576 Ionic strength (mol/kgw) = 1.246e+01 Mass of water (kg) = 1.000e+00 @@ -28103,10 +28103,10 @@ Reaction 1. pH = 3.917 Charge balance pe = 8.827 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 687249 + Specific Conductance (µS/cm, 100°C) = 686753 Density (g/cm³) = 1.00392 Volume (L) = 1.15825 - Viscosity (mPa s) = 0.42257 + Viscosity (mPa s) = 0.42352 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.043e+00 Mass of water (kg) = 1.000e+00 @@ -28182,10 +28182,10 @@ Reaction 1. pH = 3.916 Charge balance pe = 1.478 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 779348 + Specific Conductance (µS/cm, 100°C) = 778736 Density (g/cm³) = 1.00989 Volume (L) = 1.17882 - Viscosity (mPa s) = 0.41949 + Viscosity (mPa s) = 0.42052 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.561e+00 Mass of water (kg) = 1.000e+00 @@ -28261,10 +28261,10 @@ Reaction 1. pH = 3.918 Charge balance pe = 9.056 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 867434 + Specific Conductance (µS/cm, 100°C) = 866704 Density (g/cm³) = 1.01577 Volume (L) = 1.20058 - Viscosity (mPa s) = 0.41896 + Viscosity (mPa s) = 0.42007 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.104e+00 Mass of water (kg) = 1.000e+00 @@ -28340,10 +28340,10 @@ Reaction 1. pH = 3.924 Charge balance pe = 8.846 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 951135 + Specific Conductance (µS/cm, 100°C) = 950287 Density (g/cm³) = 1.02156 Volume (L) = 1.22362 - Viscosity (mPa s) = 0.42051 + Viscosity (mPa s) = 0.42169 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.674e+00 Mass of water (kg) = 1.000e+00 @@ -28419,10 +28419,10 @@ Reaction 1. pH = 3.933 Charge balance pe = 1.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1030137 + Specific Conductance (µS/cm, 100°C) = 1029173 Density (g/cm³) = 1.02726 Volume (L) = 1.24803 - Viscosity (mPa s) = 0.42382 + Viscosity (mPa s) = 0.42507 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.273e+00 Mass of water (kg) = 1.000e+00 @@ -28498,10 +28498,10 @@ Reaction 1. pH = 3.945 Charge balance pe = 8.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1104168 + Specific Conductance (µS/cm, 100°C) = 1103093 Density (g/cm³) = 1.03288 Volume (L) = 1.27391 - Viscosity (mPa s) = 0.42869 + Viscosity (mPa s) = 0.43001 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.904e+00 Mass of water (kg) = 1.000e+00 @@ -28577,10 +28577,10 @@ Reaction 1. pH = 3.959 Charge balance pe = 1.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1172995 + Specific Conductance (µS/cm, 100°C) = 1171816 Density (g/cm³) = 1.03841 Volume (L) = 1.30136 - Viscosity (mPa s) = 0.43499 + Viscosity (mPa s) = 0.43639 Activity of water = 0.777 Ionic strength (mol/kgw) = 6.568e+00 Mass of water (kg) = 1.000e+00 @@ -28656,10 +28656,10 @@ Reaction 1. pH = 3.977 Charge balance pe = 1.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1236419 + Specific Conductance (µS/cm, 100°C) = 1235144 Density (g/cm³) = 1.04387 Volume (L) = 1.33052 - Viscosity (mPa s) = 0.44266 + Viscosity (mPa s) = 0.44414 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.270e+00 Mass of water (kg) = 1.000e+00 @@ -28735,10 +28735,10 @@ Reaction 1. pH = 3.997 Charge balance pe = 1.264 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1294269 + Specific Conductance (µS/cm, 100°C) = 1292906 Density (g/cm³) = 1.04924 Volume (L) = 1.36153 - Viscosity (mPa s) = 0.45167 + Viscosity (mPa s) = 0.45321 Activity of water = 0.728 Ionic strength (mol/kgw) = 8.012e+00 Mass of water (kg) = 1.000e+00 @@ -28814,10 +28814,10 @@ Reaction 1. pH = 4.019 Charge balance pe = 9.007 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1346402 + Specific Conductance (µS/cm, 100°C) = 1344962 Density (g/cm³) = 1.05453 Volume (L) = 1.39455 - Viscosity (mPa s) = 0.46199 + Viscosity (mPa s) = 0.46362 Activity of water = 0.701 Ionic strength (mol/kgw) = 8.797e+00 Mass of water (kg) = 1.000e+00 @@ -28893,10 +28893,10 @@ Reaction 1. pH = 4.045 Charge balance pe = 9.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1392698 + Specific Conductance (µS/cm, 100°C) = 1391193 Density (g/cm³) = 1.05973 Volume (L) = 1.42975 - Viscosity (mPa s) = 0.47367 + Viscosity (mPa s) = 0.47537 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.630e+00 Mass of water (kg) = 1.000e+00 @@ -28972,10 +28972,10 @@ Reaction 1. pH = 4.073 Charge balance pe = 9.146 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1433065 + Specific Conductance (µS/cm, 100°C) = 1431506 Density (g/cm³) = 1.06486 Volume (L) = 1.46733 - Viscosity (mPa s) = 0.48675 + Viscosity (mPa s) = 0.48852 Activity of water = 0.642 Ionic strength (mol/kgw) = 1.052e+01 Mass of water (kg) = 1.000e+00 @@ -29051,10 +29051,10 @@ Reaction 1. pH = 4.105 Charge balance pe = 9.012 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1467430 + Specific Conductance (µS/cm, 100°C) = 1465830 Density (g/cm³) = 1.06990 Volume (L) = 1.50752 - Viscosity (mPa s) = 0.50129 + Viscosity (mPa s) = 0.50314 Activity of water = 0.610 Ionic strength (mol/kgw) = 1.146e+01 Mass of water (kg) = 1.000e+00 @@ -29130,10 +29130,10 @@ Reaction 1. pH = 4.140 Charge balance pe = 0.776 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1495746 + Specific Conductance (µS/cm, 100°C) = 1494118 Density (g/cm³) = 1.07487 Volume (L) = 1.55058 - Viscosity (mPa s) = 0.51739 + Viscosity (mPa s) = 0.51932 Activity of water = 0.576 Ionic strength (mol/kgw) = 1.246e+01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_NH4Cl_sol_101.sel b/mytest/Vm_NH4Cl_sol_101.sel index 7fa790a2..8d43f84d 100644 --- a/mytest/Vm_NH4Cl_sol_101.sel +++ b/mytest/Vm_NH4Cl_sol_101.sel @@ -1,363 +1,363 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000060542 0.0268751501 - 0.001000008018 111.5211131768 - 0.005000002277 545.1625482991 - 0.010009998423 1074.5162905842 - 0.020019990396 2105.7045118841 - 0.050059961485 5085.5695207547 - 0.100129905656 9866.1356529234 - 0.200259789347 19141.9107996803 - 0.500649505515 46203.0787810339 - 0.600779439381 55060.8535103485 - 0.000000067373 0.0312920192 - 0.010009998424 1141.1039389516 - 0.020019989708 2235.7133331231 - 0.049999958475 5390.3305418585 - 0.050059958407 5396.5199784545 - 0.069999935086 7434.5942206158 - 0.099999898189 10447.0023136283 - 0.100129898026 10459.9477151043 - 0.199999772610 20235.3741626135 - 0.200259772291 20260.5039086630 - 0.299999655609 29825.3076003483 - 0.499999466131 48680.3040556437 - 0.500649465618 48740.9886530590 - 0.999999240178 94225.5458550986 - 1.499999244861 137310.3795595421 - 1.999999351711 177770.5801852990 - 2.999999613184 250727.7338962806 - 3.999999799224 313360.4215050363 - 4.999999900945 366259.5266704526 - 0.000000082766 0.0417864350 - 0.049999951821 6022.9433918023 - 0.069999924594 8301.9895621165 - 0.099999881678 11655.2839914008 - 0.199999735685 22512.2820301070 - 0.299999599763 33101.2055719378 - 0.499999379804 53826.8127792709 - 0.999999118027 103631.5847372274 - 1.499999124650 150592.1143855357 - 1.999999248697 194618.0928301183 - 2.999999552603 273893.5448799100 - 3.999999768837 341923.9087845041 - 4.999999886798 399489.8496899071 + 0.000000060542 0.0268751507 + 0.001000008018 111.5213972354 + 0.005000002277 545.1656453312 + 0.010009998423 1074.5249266738 + 0.020019990396 2105.7284562249 + 0.050059961485 5085.6610461650 + 0.100129905656 9866.3866516595 + 0.200259789347 19142.5968055993 + 0.500649505515 46205.6652165612 + 0.600779439381 55064.2208070654 + 0.000000067373 0.0312920198 + 0.010009998424 1141.1113982954 + 0.020019989708 2235.7340093472 + 0.049999958475 5390.4093940081 + 0.050059958407 5396.5989685617 + 0.069999935086 7434.7229145366 + 0.099999898189 10447.2183720094 + 0.100129898026 10460.1641811824 + 0.199999772610 20235.9639466418 + 0.200259772291 20261.0948023412 + 0.299999655609 29826.3676608111 + 0.499999466131 48682.5209010773 + 0.500649465618 48743.2096578938 + 0.999999240178 94231.5538980836 + 1.499999244861 137321.0742887175 + 1.999999351711 177786.5699689300 + 2.999999613184 250755.3736254136 + 3.999999799224 313400.1504249870 + 4.999999900945 366310.8570108448 + 0.000000082766 0.0417864354 + 0.049999951821 6022.9889214409 + 0.069999924594 8302.0638284072 + 0.099999881678 11655.4085768185 + 0.199999735685 22512.6213378065 + 0.299999599763 33101.8141821245 + 0.499999379804 53828.0808211389 + 0.999999118027 103634.9940059547 + 1.499999124650 150598.1410742304 + 1.999999248697 194627.0474250811 + 2.999999552603 273908.8608041850 + 3.999999768837 341945.7456124692 + 4.999999886798 399517.9050698503 0.000000100644 0.0547821292 - 0.010009998553 1415.3965578699 - 0.020019986644 2771.0197608053 - 0.049939944555 6661.2327894846 - 0.049999944464 6668.8681466718 - 0.050059944372 6676.5029745267 - 0.060409928301 7986.1024236972 - 0.069999912979 9187.7857193857 - 0.099999863373 12889.6937933662 - 0.099999863373 12889.6937933662 - 0.100129863155 12905.5769516793 - 0.150669777456 19002.9128306689 - 0.151689775727 19124.6141984535 - 0.199999694816 24841.6798017425 - 0.199999694816 24841.6798017425 - 0.200259694393 24872.2255823714 - 0.200269694371 24873.4003655166 - 0.253109609358 31040.4943407351 - 0.299999537991 36454.8015935582 - 0.304159531891 36932.8424955163 - 0.399999400614 47855.5845347895 - 0.406879391931 48633.5189135862 - 0.407219391494 48671.9432499167 - 0.461369326804 54768.1328538980 - 0.499989284494 59088.5159999072 - 0.499999284459 59089.6317963566 - 0.500649283702 59162.1570965283 - 0.552549231712 64933.2675291686 - 0.598719190029 70035.0665999847 - 0.599999188933 70176.0829501447 - 0.600779188269 70262.0036493923 - 0.711859105065 82412.8480635622 - 0.799569054698 91889.5391220101 - 0.799999054482 91935.7453026516 - 0.821939043849 94290.0629537132 - 0.899639012009 102576.3026745239 - 0.939538999019 106800.2280732219 - 0.999998983231 113160.4329540315 - 0.999998983231 113160.4329540315 - 1.000838983033 113248.4568041865 - 1.032468976611 116556.1630611569 - 1.499998991063 163899.9665214284 - 1.537698999377 167591.2920241368 - 1.564629004793 170216.5684714790 - 1.648759025455 178356.1971243044 - 1.653029027082 178766.8280478748 - 1.971469125301 208713.5492707492 - 1.999999135178 211331.6714563308 - 1.999999135178 211331.6714563308 - 2.046809151594 215604.3057549895 - 2.168099195088 226542.6592795822 - 2.338339257536 241574.7915501305 - 2.631129363057 266561.9076728859 - 2.821079428011 282194.9297654918 - 2.894419452201 288110.8212745909 - 2.999999485947 296510.9597775631 - 2.999999485947 296510.9597775631 - 3.290609571781 318931.9042807478 - 3.445319612826 330455.0655702979 - 3.933489722451 364984.0475607304 - 3.999999735013 369477.7078702903 - 3.999999735013 369477.7078702903 - 4.099699753105 376121.0791164015 - 4.521169817568 402998.9539650579 - 4.633669831837 409850.1989273777 - 4.810539852223 420352.8183438714 - 4.999999871266 431244.5237042227 - 4.999999871266 431244.5237042227 - 5.367939901514 451364.1629563504 - 5.550969913645 460878.1240240932 - 5.999999936870 482877.2591743610 - 6.124919941993 488667.9695134775 - 6.338709949564 498255.4199866327 - 7.379999971554 539431.0386192233 - 0.000000121213 0.0706339985 - 0.049999936376 7325.9394437442 - 0.069999900201 10089.1080734218 - 0.099999843242 14146.4727816842 - 0.199999649871 27218.7651848416 - 0.299999470119 39883.7366066900 - 0.499999179696 64482.0259460521 - 0.999998835424 122907.2071591889 - 1.499998845302 177432.4729687911 - 1.999999010973 228208.4700207276 - 2.999999413126 319027.2427369338 - 3.999999698725 396549.8579793512 - 4.999999854567 462073.3373600386 - 0.000000144671 0.0897028169 - 0.020019983066 3325.0455680882 - 0.049999927537 7992.0569451275 - 0.050059927417 8001.1891862318 - 0.062499901979 9881.2471372807 - 0.069999886225 11003.1838738602 - 0.099999821222 15422.0050285871 - 0.100129820936 15440.9478933290 - 0.124999765831 19038.0914140576 - 0.199999600752 29638.6843538767 - 0.200259600183 29674.9242671153 - 0.249999495519 36556.6329674434 - 0.299999395937 43384.6440303070 - 0.499999065307 70012.3606300613 - 0.499999065307 70012.3606300613 - 0.500649064413 70097.3705541356 - 0.600778940210 83087.1202190689 - 0.999998674417 132953.3978587203 - 0.999998674417 132953.3978587203 - 1.499998686706 191383.9123229219 - 1.999998876143 245573.4460429840 - 2.999999334034 342035.9834723935 - 3.999999658507 423976.9708774241 - 4.999999835993 493014.4432364955 - 0.000000171199 0.1123477610 - 0.049999917931 8665.0784753082 - 0.069999871023 11927.2135576454 - 0.099999797271 16712.6675378581 - 0.199999547359 32096.4272971729 - 0.299999315427 46953.2335468831 - 0.499998941321 75684.2607163928 - 0.999998500098 143357.8465597821 - 1.499998515184 205908.6973877213 - 1.999998730067 263704.4357114225 - 2.999999248721 366109.9625328385 - 3.999999615674 452653.7685290427 - 4.999999816237 525285.2886086508 - 0.000000185666 0.1251211019 - 0.020019980030 3748.2236441648 - 0.100129784224 17383.7814169580 - 0.200259518381 33378.5006178626 - 0.500648874617 78668.2053344715 - 0.600778725669 93179.9455095164 - 0.000000200960 0.1389183081 - 0.049999907535 9342.6305284874 - 0.062499874762 11548.4614119334 - 0.069999854574 12858.1484084193 - 0.099999771366 18014.5702362905 - 0.124999700543 22232.2462766495 - 0.199999489673 34586.5317323074 - 0.249999355378 42640.8954821406 - 0.299999228483 50584.0852170668 - 0.499998807633 81496.6998928538 - 0.499998807633 81496.6998928538 - 0.999998312461 154153.6725911142 - 0.999998312461 154153.6725911142 - 1.499998330795 221103.4461355816 - 1.999998573397 282785.8333062609 - 2.999999157699 391664.0136832072 - 3.999999569670 483275.7287198313 - 4.999999795109 559892.3766841374 - 0.000000234097 0.1697457187 - 0.049999896347 10021.7035779489 - 0.069999836869 13792.2207051754 - 0.099999743480 19323.0086226452 - 0.199999427676 37102.3753176640 - 0.299999135142 54269.8925786735 - 0.499998664255 87443.3893377605 - 0.999998111652 165347.6224821528 - 1.499998133723 237001.7789972737 - 1.999998406131 302891.2373674019 - 2.999999059684 418886.4960023233 - 3.043289084673 423466.1250363591 - 3.560859347837 475587.6670234575 - 3.999999520750 516184.4151946945 - 4.103669555323 525307.6599440679 - 4.673619708602 572492.9362673243 - 4.999999772637 597360.4921027030 - 5.272799815595 617012.5287687244 - 5.903519886407 658738.2336565716 - 6.568329930835 697544.4312960895 - 7.270079957178 733310.2283023135 - 8.011919971777 765918.0490110472 - 8.797409979138 795257.6121714497 - 0.000000270724 0.2051343431 - 0.049999884361 10697.7336854820 - 0.069999817906 14723.8811251898 - 0.099999713626 20631.2285657431 - 0.199999361391 39634.5420937162 - 0.299999035448 57999.5767095266 - 0.499998511344 93510.7271710854 - 0.499998511344 93510.7271710854 - 0.999997897932 176919.2711757774 - 0.999997897932 176919.2711757774 - 1.499997924456 253575.7235363167 - 1.999998228499 323986.1171262429 - 2.999998956275 447736.3959352430 - 3.043288984164 452616.8437646485 - 3.560859276869 508134.5565878075 - 3.999999468928 551343.3173833427 - 4.103669507458 561049.8584105945 - 4.673619677730 611232.7499195000 - 4.999999748882 637669.0635324700 - 5.272799796665 658556.7895792490 - 5.903519875321 702899.4879085217 - 6.568329924800 744141.9202266604 - 7.270079954137 782170.7698180075 - 8.011919970503 816876.5785627642 - 8.797409978818 848157.6640874123 - 9.630489982460 875917.2102075003 - 0.000000310931 0.2453529908 - 3.043288877962 483187.4838528969 - 3.560859201769 542369.6973647918 - 4.103669456898 598751.8435262442 - 4.673619645184 652205.0865934390 - 5.272799776639 702605.5073817675 - 5.903519863689 749834.2998079626 - 6.568329918409 793777.1553272145 - 7.270079950988 834326.2475300070 - 8.011919969161 871378.1398195862 - 8.797409978511 904837.7347165670 - 9.630489982695 934614.8792155583 - 0.000000354775 0.2906266063 - 3.043288766751 514807.1759977851 - 3.560859123261 577836.7060867700 - 4.103669403955 637864.1053151753 - 4.673619611163 694759.8644139055 - 5.272799755771 748400.7150208177 - 5.903519851546 798669.6143401067 - 6.568329911789 845454.9023331782 - 7.270079947688 888652.2406730430 - 8.011919967804 928162.2082346111 - 8.797409978220 963894.3158862791 - 9.630489982971 995763.1777640516 - 0.000000402280 0.3411284822 - 3.043288650748 547013.5685061502 - 3.560859041426 613988.2131327852 - 4.103669348868 677748.7618156869 - 4.673619575749 738163.3906104079 - 5.272799734066 795107.8137267242 - 5.903519838932 848465.0455315685 - 6.568329904925 898124.3372777598 - 7.270079944298 943983.0877386151 - 8.011919966421 985944.1480723068 - 8.797409977951 1023919.9349930984 - 9.630489983290 1057828.2145656571 - 10.515649985204 1087597.5626290664 - 0.000000453436 0.3969732245 - 3.043288530366 579250.0437020431 - 3.560858956563 650205.5597290144 - 4.103669291781 717724.1524938626 - 4.673619539085 781670.0082636202 - 5.272799711608 841916.2099675963 - 5.903519825923 898344.2544388558 - 6.568329897848 950842.7684067478 - 7.270079940818 999309.3918444737 - 8.011919965020 1043647.8181571187 - 8.797409977695 1083772.0246081152 - 9.630489983652 1119601.6898133426 - 10.515649985887 1151067.8559542212 - 0.000000508194 0.4582106561 - 3.043288406082 610770.8769015943 - 3.560858869138 685719.9169029269 - 4.103669232921 757002.4331288855 - 4.673619501293 824476.0285677771 - 5.272799688491 888008.9224963874 - 5.903519812493 947479.1169333863 - 6.568329890587 1002772.8370287152 - 7.270079937263 1053786.3747568903 - 8.011919963607 1100422.8472752355 - 8.797409977466 1142596.5500654199 - 9.630489984055 1180228.0267446942 - 10.515649986624 1213249.9591623798 - 11.457909987069 1241602.8849857198 - 0.000000566469 0.5248208249 - 3.043288278433 640384.6793629668 - 3.560858779115 719369.7373346157 - 4.103669172567 794462.2444735302 - 4.673619462571 865507.6178546398 - 5.272799664824 932364.7161970136 - 5.903519798781 994904.3698265012 - 6.568329883181 1053007.3460300718 - 7.270079933660 1106566.0471681068 - 8.011919962191 1155480.9216708054 - 8.797409977261 1199664.8874493567 - 9.630489984501 1239038.0323890881 - 10.515649987405 1273533.6389599061 - 11.457909988041 1303093.8238109166 - 0.000000628137 0.5967102415 - 3.043288148073 665941.9190352681 - 3.560858687294 749097.7907671584 - 4.103669111023 828163.1608016600 - 4.673619423046 902957.6084604250 - 5.272799640740 973319.8963531532 - 5.903519784847 1039105.2690417410 - 6.568329875675 1100182.1833666570 - 7.270079929997 1156433.8152841097 - 8.011919960768 1207753.5173492029 - 8.797409977082 1254049.5115947740 - 9.630489984985 1295238.9568043842 - 10.515649988244 1331254.0880202760 - 11.457909989064 1362037.3185788516 - 12.462989988650 1387545.0227657652 - 0.000000693037 0.6737094450 - 3.043288015016 683567.3891897188 - 3.560858593962 771140.5859851444 - 4.103669048300 854521.7228149435 - 4.673619382948 933470.7719770729 - 5.272799616205 1007779.9029981607 - 5.903519770754 1077267.2737629875 - 6.568329868024 1141772.3160346274 - 7.270079926314 1201154.8361198776 - 8.011919959358 1255290.5430044923 - 8.797409976930 1304074.5362131237 - 9.630489985505 1347414.7662847571 - 11.457909990134 1417484.3421284053 - 12.462989989829 1444110.5364495364 - 0.000000760967 0.7555719569 - 3.043287880574 687249.1202597874 - 3.560858499567 779348.8122254916 - 4.103668985033 867434.7066312488 - 4.673619342456 951135.8527516535 - 5.272799591515 1030137.0253083968 - 5.903519756440 1104168.0354660868 - 6.568329860365 1172995.3118417109 - 7.270079922628 1236419.7196848269 - 8.011919957965 1294269.2851693342 - 8.797409976804 1346402.1286643650 - 9.630489986059 1392698.3191319702 - 10.515649990034 1433065.2284440771 - 11.457909991236 1467430.5551559876 - 12.462989991073 1495746.5919265968 + 0.010009998553 1415.3965657685 + 0.020019986644 2771.0197826767 + 0.049939944555 6661.2328725802 + 0.049999944464 6668.8682299127 + 0.050059944372 6676.5030579129 + 0.060409928301 7986.1025332763 + 0.069999912979 9187.7858550939 + 0.099999863373 12889.6940208620 + 0.099999863373 12889.6940208620 + 0.100129863155 12905.5771796031 + 0.150669777456 19002.9132418657 + 0.151689775727 19124.6146136696 + 0.199999694816 24841.6804200450 + 0.199999694816 24841.6804200450 + 0.200259694393 24872.2262018306 + 0.200269694371 24873.4009850203 + 0.253109609358 31040.4952081270 + 0.299999537991 36454.8027005385 + 0.304159531891 36932.8436245739 + 0.399999400614 47855.5862061307 + 0.406879391931 48633.5206261838 + 0.407219391494 48671.9449645607 + 0.461369326804 54768.1349033486 + 0.499989284494 59088.5182984384 + 0.499999284459 59089.6340949533 + 0.500649283702 59162.1593993873 + 0.552549231712 64933.2701795500 + 0.598719190029 70035.0695709618 + 0.599999188933 70176.0859301570 + 0.600779188269 70262.0066349142 + 0.711859105065 82412.8518619794 + 0.799569054698 91889.5435991249 + 0.799999054482 91935.7497831683 + 0.821939043849 94290.0676087283 + 0.899639012009 102576.3079616784 + 0.939538999019 106800.2336931818 + 0.999998983231 113160.4390882873 + 0.999998983231 113160.4390882873 + 1.000838983033 113248.4629456697 + 1.032468976611 116556.1694763818 + 1.499998991063 163899.9772944690 + 1.537698999377 167591.3031701586 + 1.564629004793 170216.5798855946 + 1.648759025455 178356.2093844772 + 1.653029027082 178766.8403513210 + 1.971469125301 208713.5648805698 + 1.999999135178 211331.6873691410 + 1.999999135178 211331.6873691410 + 2.046809151594 215604.3221670046 + 2.168099195088 226542.6769962451 + 2.338339257536 241574.8111215871 + 2.631129363057 266561.9304834220 + 2.821079428011 282194.9546999074 + 2.894419452201 288110.8470320018 + 2.999999485947 296510.9867215757 + 2.999999485947 296510.9867215757 + 3.290609571781 318931.9344941528 + 3.445319612826 330455.0975209711 + 3.933489722451 364984.0849420772 + 3.999999735013 369477.7459825692 + 3.999999735013 369477.7459825692 + 4.099699753105 376121.1183192033 + 4.521169817568 402998.9976973038 + 4.633669831837 409850.2438432299 + 4.810539852223 420352.8650959564 + 4.999999871266 431244.5723874197 + 4.999999871266 431244.5723874197 + 5.367939901514 451364.2152738225 + 5.550969913645 460878.1780878339 + 5.999999936870 482877.3173340866 + 6.124919941993 488668.0287627436 + 6.338709949564 498255.4810478979 + 7.379999971554 539431.1075056939 + 0.000000121213 0.0706339976 + 0.049999936376 7325.8806851635 + 0.069999900201 10089.0123252235 + 0.099999843242 14146.3123770112 + 0.199999649871 27218.3300392585 + 0.299999470119 39882.9588397978 + 0.499999179696 64480.4158816370 + 0.999998835424 122902.9395869800 + 1.499998845302 177425.0236673407 + 1.999999010973 228197.5272799973 + 2.999999413126 319008.8904372778 + 3.999999698725 396524.0971242223 + 4.999999854567 462040.6227301031 + 0.000000144671 0.0897028141 + 0.020019983066 3325.0107565484 + 0.049999927537 7991.9246904928 + 0.050059927417 8001.0567010610 + 0.062499901979 9881.0643293102 + 0.069999886225 11002.9684576638 + 0.099999821222 15421.6443583045 + 0.100129820936 15440.5865465322 + 0.124999765831 19037.5939717656 + 0.199999600752 29637.7075604015 + 0.200259600183 29673.9456546159 + 0.249999495519 36555.2889395966 + 0.299999395937 43382.9007291594 + 0.499999065307 70008.7616641172 + 0.499999065307 70008.7616641172 + 0.500649064413 70093.7649797514 + 0.600778940210 83082.4585989661 + 0.999998674417 132943.9173031518 + 0.999998674417 132943.9173031518 + 1.499998686706 191367.4555434487 + 1.999998876143 245549.3948780274 + 2.999999334034 341996.0059908757 + 3.999999658507 423921.2644786527 + 4.999999835993 492944.1049329428 + 0.000000171199 0.1123477552 + 0.049999917931 8664.8568463974 + 0.069999871023 11926.8527093868 + 0.099999797271 16712.0636841912 + 0.199999547359 32094.7943038738 + 0.299999315427 46950.3229267586 + 0.499998941321 75678.2664045660 + 0.999998500098 143342.1431137589 + 1.499998515184 205881.5761218990 + 1.999998730067 263664.9832917441 + 2.999999248721 366044.9245779344 + 3.999999615674 452563.7621681591 + 4.999999816237 525172.2670385720 + 0.000000185666 0.1251210938 + 0.020019980030 3748.1518093693 + 0.100129784224 17383.0375052285 + 0.200259518381 33376.4902178285 + 0.500648874617 78660.8382876675 + 0.600778725669 93170.4366917912 + 0.000000200960 0.1389182971 + 0.049999907535 9342.3025134261 + 0.062499874762 11548.0082178411 + 0.069999854574 12857.6145119664 + 0.099999771366 18013.6771807707 + 0.124999700543 22231.0154549905 + 0.199999489673 34584.1196705146 + 0.249999355378 42637.5806970994 + 0.299999228483 50579.7908424019 + 0.499998807633 81487.8744200233 + 0.499998807633 81487.8744200233 + 0.999998312461 154130.6650788964 + 0.999998312461 154130.6650788964 + 1.499998330795 221063.8898128930 + 1.999998573397 282728.5342443460 + 2.999999157699 391570.2636711428 + 3.999999569670 483146.8080707223 + 4.999999795109 559731.3289415074 + 0.000000234097 0.1697456998 + 0.049999896347 10021.2512653315 + 0.069999836869 13791.4846180226 + 0.099999743480 19321.7777057763 + 0.199999427676 37099.0538722440 + 0.299999135142 54263.9845819033 + 0.499998664255 87431.2692391615 + 0.999998111652 165316.1602969681 + 1.499998133723 236947.9038333317 + 1.999998406131 302813.4910307257 + 2.999999059684 418760.1530203208 + 3.043289084673 423337.7065965283 + 3.560859347837 475434.8571587693 + 3.999999520750 516011.6774915702 + 4.103669555323 525130.3387710362 + 4.673619708602 572291.3379993930 + 4.999999772637 597145.7430993418 + 5.272799815595 616787.2319838136 + 5.903519886407 658490.1531182077 + 6.568329930835 697274.8100294013 + 7.270079957178 733020.6273457336 + 8.011919971777 765610.3357340058 + 8.797409979138 794933.9432484396 + 0.000000270724 0.2051343124 + 0.049999884361 10697.1388736792 + 0.069999817906 14722.9130183699 + 0.099999713626 20629.6096610376 + 0.199999361391 39630.1757015871 + 0.299999035448 57991.8148954020 + 0.499998511344 93494.8259548179 + 0.499998511344 93494.8259548179 + 0.999997897932 176878.1413820497 + 0.999997897932 176878.1413820497 + 1.499997924456 253505.5406946835 + 1.999998228499 323885.1757933274 + 2.999998956275 447573.3556343929 + 3.043288984164 452451.1657184841 + 3.560859276869 507937.9617802982 + 3.999999468928 551121.5729857467 + 4.103669507458 560822.3429479328 + 4.673619677730 610974.7477077442 + 4.999999748882 637394.6015477609 + 5.272799796665 658269.1522797950 + 5.903519875321 702583.4675269240 + 6.568329924800 743799.1528253559 + 7.270079954137 781803.2572900208 + 8.011919970503 816486.6698206981 + 8.797409978818 847748.0310155584 + 9.630489982460 875490.8220577554 + 0.000000310931 0.2453529428 + 3.043288877962 482980.1953748703 + 3.560859201769 542124.3443022207 + 4.103669456898 598468.5908137610 + 4.673619645184 651884.6264426215 + 5.272799776639 702249.0264523797 + 5.903519863689 749443.4504616926 + 6.568329918409 793354.0291633030 + 7.270079950988 833873.3476350624 + 8.011919969161 870898.3534690198 + 8.797409978511 904334.3012028096 + 9.630489982695 934091.3572970431 + 0.000000354775 0.2906265338 + 3.043288766751 514553.8133798091 + 3.560859123261 577537.4788846232 + 4.103669403955 637519.4016403307 + 4.673619611163 694370.6958276471 + 5.272799755771 747968.6684374495 + 5.903519851546 798196.8098661909 + 6.568329911789 844943.9548777810 + 7.270079947688 888106.2211541487 + 8.011919967804 927584.6065445105 + 8.797409978220 963288.9994306203 + 9.630489982971 995134.3510461317 + 0.000000402280 0.3411283760 + 3.043288650748 546709.7422769042 + 3.560859041426 613630.0409133269 + 4.103669348868 677336.9077429189 + 4.673619575749 737699.2467468680 + 5.272799734066 794593.4340775659 + 5.903519838932 847903.0883003623 + 6.568329904925 897518.0127375585 + 7.270079944298 943336.1068400743 + 8.011919966421 985260.6743423045 + 8.797409977951 1023204.5326323017 + 9.630489983290 1057085.7990890378 + 10.515649985204 1086833.3454233231 + 0.000000453436 0.3969730726 + 3.043288530366 578891.8789251334 + 3.560858956563 649783.8515309910 + 4.103669291781 717239.8840284743 + 4.673619539085 781125.0068265912 + 5.272799711608 841313.0600979055 + 5.903519825923 897686.2221018408 + 6.568329897848 950133.7330108684 + 7.270079940818 998553.7804760019 + 8.011919965020 1042850.5448345500 + 8.797409977695 1082938.4265148006 + 9.630489983652 1118737.4678544819 + 10.515649985887 1150179.0096542982 + 0.000000508194 0.4582104436 + 3.043288406082 610356.0503161638 + 3.560858869138 685231.5843865578 + 4.103669232921 756441.9091131687 + 4.673619501293 823845.6077763314 + 5.272799688491 887311.7680177164 + 5.903519812493 946719.1629406926 + 6.568329890587 1001954.7021148133 + 7.270079937263 1052915.2791979325 + 8.011919963607 1099504.5374700800 + 8.797409977466 1141637.2208495298 + 9.630489984055 1179234.2500351446 + 10.515649986624 1212228.6073768539 + 11.457909987069 1240561.0589490160 + 0.000000566469 0.5248205333 + 3.043288278433 639914.7813651643 + 3.560858779115 718815.5422599979 + 4.103669172567 793825.3271636417 + 4.673619462571 864790.7092750930 + 5.272799664824 931571.5600616304 + 5.903519798781 994039.5982551253 + 6.568329883181 1052076.3693605559 + 7.270079933660 1105574.9498684739 + 8.011919962191 1154436.3679724641 + 8.797409977261 1198574.0260674015 + 9.630489984501 1237908.4099010797 + 10.515649987405 1272373.1089580599 + 11.457909988041 1301910.4613601435 + 0.000000628137 0.5967098484 + 3.043288148073 665427.3834637415 + 3.560858687294 748487.3563591362 + 4.103669111023 827458.3730307802 + 4.673619423046 902161.4306009397 + 5.272799640740 972436.5242466792 + 5.903519784847 1038139.9691087638 + 6.568329875675 1099141.1502136453 + 7.270079929997 1155324.0367249276 + 8.011919960768 1206582.6541548057 + 8.797409977082 1252825.7761237905 + 9.630489984985 1293971.0038998064 + 10.515649988244 1329950.9027061963 + 11.457909989064 1360708.1125048001 + 12.462989988650 1386199.1299153001 + 0.000000693037 0.6737089236 + 3.043288015016 683035.8740990285 + 3.560858593962 770501.4378495833 + 4.103669048300 853775.6143254687 + 4.673619382948 932620.2298096310 + 5.272799616205 1006829.0699461958 + 5.903519770754 1076221.6975667486 + 6.568329868024 1140638.7566549717 + 7.270079926314 1199941.0879355208 + 8.011919959358 1254005.2681747524 + 8.797409976930 1302727.1020303341 + 9.630489985505 1346015.0970157306 + 11.457909990134 1416011.4671065956 + 12.462989989829 1442617.0963842797 + 0.000000760967 0.7555712755 + 3.043287880574 686753.1526608902 + 3.560858499567 778736.6723463787 + 4.103668985033 866704.2334453247 + 4.673619342456 950287.3858864687 + 5.272799591515 1029173.1657933713 + 5.903519756440 1103093.4072498442 + 6.568329860365 1171816.3267877360 + 7.270079922628 1235144.3404120582 + 8.011919957965 1292906.7962806362 + 8.797409976804 1344962.9033474931 + 9.630489986059 1391193.6002358452 + 10.515649990034 1431506.9067925960 + 11.457909991236 1465830.9654321230 + 12.462989991073 1494118.3056187818 diff --git a/mytest/Vm_Na2CO3_sol.out b/mytest/Vm_Na2CO3_sol.out index 754974bc..75e84616 100644 --- a/mytest/Vm_Na2CO3_sol.out +++ b/mytest/Vm_Na2CO3_sol.out @@ -225,7 +225,7 @@ Reaction 1. Specific Conductance (µS/cm, 1°C) = 1046 Density (g/cm³) = 1.00107 Volume (L) = 0.99996 - Viscosity (mPa s) = 1.74238 + Viscosity (mPa s) = 1.74211 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.865e-02 Mass of water (kg) = 1.000e+00 @@ -303,10 +303,10 @@ Reaction 1. pH = 11.695 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 1949 + Specific Conductance (µS/cm, 1°C) = 1950 Density (g/cm³) = 1.00222 Volume (L) = 0.99984 - Viscosity (mPa s) = 1.75196 + Viscosity (mPa s) = 1.75157 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.737e-02 Mass of water (kg) = 1.000e+00 @@ -387,7 +387,7 @@ Reaction 1. Specific Conductance (µS/cm, 1°C) = 2202 Density (g/cm³) = 1.00256 Volume (L) = 0.99980 - Viscosity (mPa s) = 1.75475 + Viscosity (mPa s) = 1.75433 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.581e-02 Mass of water (kg) = 1.000e+00 @@ -468,7 +468,7 @@ Reaction 1. Specific Conductance (µS/cm, 1°C) = 4037 Density (g/cm³) = 1.00516 Volume (L) = 0.99953 - Viscosity (mPa s) = 1.77664 + Viscosity (mPa s) = 1.77604 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.317e-01 Mass of water (kg) = 1.000e+00 @@ -546,10 +546,10 @@ Reaction 1. pH = 11.827 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 4330 + Specific Conductance (µS/cm, 1°C) = 4331 Density (g/cm³) = 1.00560 Volume (L) = 0.99949 - Viscosity (mPa s) = 1.78040 + Viscosity (mPa s) = 1.77978 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.428e-01 Mass of water (kg) = 1.000e+00 @@ -627,10 +627,10 @@ Reaction 1. pH = 11.875 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 5787 + Specific Conductance (µS/cm, 1°C) = 5788 Density (g/cm³) = 1.00786 Volume (L) = 0.99927 - Viscosity (mPa s) = 1.80021 + Viscosity (mPa s) = 1.79947 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.006e-01 Mass of water (kg) = 1.000e+00 @@ -708,10 +708,10 @@ Reaction 1. pH = 11.875 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 5793 + Specific Conductance (µS/cm, 1°C) = 5794 Density (g/cm³) = 1.00787 Volume (L) = 0.99927 - Viscosity (mPa s) = 1.80029 + Viscosity (mPa s) = 1.79955 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.008e-01 Mass of water (kg) = 1.000e+00 @@ -789,10 +789,10 @@ Reaction 1. pH = 11.917 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 7438 + Specific Conductance (µS/cm, 1°C) = 7440 Density (g/cm³) = 1.01058 Volume (L) = 0.99904 - Viscosity (mPa s) = 1.82491 + Viscosity (mPa s) = 1.82405 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.703e-01 Mass of water (kg) = 1.000e+00 @@ -870,10 +870,10 @@ Reaction 1. pH = 11.965 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 9880 + Specific Conductance (µS/cm, 1°C) = 9883 Density (g/cm³) = 1.01485 Volume (L) = 0.99870 - Viscosity (mPa s) = 1.86597 + Viscosity (mPa s) = 1.86494 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.812e-01 Mass of water (kg) = 1.000e+00 @@ -951,10 +951,10 @@ Reaction 1. pH = 11.969 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 10120 + Specific Conductance (µS/cm, 1°C) = 10123 Density (g/cm³) = 1.01528 Volume (L) = 0.99867 - Viscosity (mPa s) = 1.87031 + Viscosity (mPa s) = 1.86926 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.926e-01 Mass of water (kg) = 1.000e+00 @@ -1032,10 +1032,10 @@ Reaction 1. pH = 11.969 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 10154 + Specific Conductance (µS/cm, 1°C) = 10157 Density (g/cm³) = 1.01535 Volume (L) = 0.99866 - Viscosity (mPa s) = 1.87093 + Viscosity (mPa s) = 1.86988 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.942e-01 Mass of water (kg) = 1.000e+00 @@ -1113,10 +1113,10 @@ Reaction 1. pH = 12.013 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 13104 + Specific Conductance (µS/cm, 1°C) = 13109 Density (g/cm³) = 1.02094 Volume (L) = 0.99828 - Viscosity (mPa s) = 1.92912 + Viscosity (mPa s) = 1.92789 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.413e-01 Mass of water (kg) = 1.000e+00 @@ -1194,10 +1194,10 @@ Reaction 1. pH = 12.056 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 16746 + Specific Conductance (µS/cm, 1°C) = 16752 Density (g/cm³) = 1.02845 Volume (L) = 0.99787 - Viscosity (mPa s) = 2.01425 + Viscosity (mPa s) = 2.01281 Activity of water = 0.990 Ionic strength (mol/kgw) = 7.410e-01 Mass of water (kg) = 1.000e+00 @@ -1275,10 +1275,10 @@ Reaction 1. pH = 12.115 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 22870 + Specific Conductance (µS/cm, 1°C) = 22880 Density (g/cm³) = 1.04270 Volume (L) = 0.99737 - Viscosity (mPa s) = 2.19887 + Viscosity (mPa s) = 2.19708 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.128e+00 Mass of water (kg) = 1.000e+00 @@ -1356,10 +1356,10 @@ Reaction 1. pH = 12.153 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 27495 + Specific Conductance (µS/cm, 1°C) = 27508 Density (g/cm³) = 1.05512 Volume (L) = 0.99721 - Viscosity (mPa s) = 2.38517 + Viscosity (mPa s) = 2.38313 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.474e+00 Mass of water (kg) = 1.000e+00 @@ -1437,10 +1437,10 @@ Reaction 1. pH = 12.190 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 1°C) = 32130 + Specific Conductance (µS/cm, 1°C) = 32146 Density (g/cm³) = 1.06948 Volume (L) = 0.99734 - Viscosity (mPa s) = 2.63186 + Viscosity (mPa s) = 2.62954 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.883e+00 Mass of water (kg) = 9.999e-01 @@ -1620,10 +1620,10 @@ Reaction 1. pH = 11.734 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5569 + Specific Conductance (µS/cm, 5°C) = 5570 Density (g/cm³) = 1.00640 Volume (L) = 0.99946 - Viscosity (mPa s) = 1.56929 + Viscosity (mPa s) = 1.56879 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.642e-01 Mass of water (kg) = 1.000e+00 @@ -1701,10 +1701,10 @@ Reaction 1. pH = 11.734 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5576 + Specific Conductance (µS/cm, 5°C) = 5577 Density (g/cm³) = 1.00641 Volume (L) = 0.99946 - Viscosity (mPa s) = 1.56936 + Viscosity (mPa s) = 1.56886 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.645e-01 Mass of water (kg) = 1.000e+00 @@ -1782,10 +1782,10 @@ Reaction 1. pH = 11.838 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 10347 + Specific Conductance (µS/cm, 5°C) = 10350 Density (g/cm³) = 1.01325 Volume (L) = 0.99898 - Viscosity (mPa s) = 1.62637 + Viscosity (mPa s) = 1.62564 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.439e-01 Mass of water (kg) = 1.000e+00 @@ -1863,10 +1863,10 @@ Reaction 1. pH = 11.838 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 10355 + Specific Conductance (µS/cm, 5°C) = 10357 Density (g/cm³) = 1.01326 Volume (L) = 0.99898 - Viscosity (mPa s) = 1.62647 + Viscosity (mPa s) = 1.62574 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.442e-01 Mass of water (kg) = 1.000e+00 @@ -1944,10 +1944,10 @@ Reaction 1. pH = 11.931 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 17670 + Specific Conductance (µS/cm, 5°C) = 17676 Density (g/cm³) = 1.02546 Volume (L) = 0.99838 - Viscosity (mPa s) = 1.74205 + Viscosity (mPa s) = 1.74103 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.714e-01 Mass of water (kg) = 1.000e+00 @@ -2025,10 +2025,10 @@ Reaction 1. pH = 11.931 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 17714 + Specific Conductance (µS/cm, 5°C) = 17720 Density (g/cm³) = 1.02554 Volume (L) = 0.99838 - Viscosity (mPa s) = 1.74286 + Viscosity (mPa s) = 1.74184 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.735e-01 Mass of water (kg) = 1.000e+00 @@ -2106,10 +2106,10 @@ Reaction 1. pH = 11.973 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 22238 + Specific Conductance (µS/cm, 5°C) = 22246 Density (g/cm³) = 1.03413 Volume (L) = 0.99814 - Viscosity (mPa s) = 1.83523 + Viscosity (mPa s) = 1.83404 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.087e-01 Mass of water (kg) = 1.000e+00 @@ -2187,10 +2187,10 @@ Reaction 1. pH = 11.973 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 22241 + Specific Conductance (µS/cm, 5°C) = 22249 Density (g/cm³) = 1.03413 Volume (L) = 0.99813 - Viscosity (mPa s) = 1.83532 + Viscosity (mPa s) = 1.83413 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.089e-01 Mass of water (kg) = 1.000e+00 @@ -2268,10 +2268,10 @@ Reaction 1. pH = 12.019 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 27943 + Specific Conductance (µS/cm, 5°C) = 27954 Density (g/cm³) = 1.04626 Volume (L) = 0.99801 - Viscosity (mPa s) = 1.98161 + Viscosity (mPa s) = 1.98021 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.247e+00 Mass of water (kg) = 9.999e-01 @@ -2349,10 +2349,10 @@ Reaction 1. pH = 12.019 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 27974 + Specific Conductance (µS/cm, 5°C) = 27985 Density (g/cm³) = 1.04633 Volume (L) = 0.99801 - Viscosity (mPa s) = 1.98252 + Viscosity (mPa s) = 1.98113 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.249e+00 Mass of water (kg) = 9.999e-01 @@ -2430,10 +2430,10 @@ Reaction 1. pH = 12.065 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 34406 + Specific Conductance (µS/cm, 5°C) = 34420 Density (g/cm³) = 1.06220 Volume (L) = 0.99821 - Viscosity (mPa s) = 2.20392 + Viscosity (mPa s) = 2.20229 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.704e+00 Mass of water (kg) = 9.999e-01 @@ -2511,10 +2511,10 @@ Reaction 1. pH = 12.066 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 34488 + Specific Conductance (µS/cm, 5°C) = 34502 Density (g/cm³) = 1.06242 Volume (L) = 0.99822 - Viscosity (mPa s) = 2.20727 + Viscosity (mPa s) = 2.20563 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.710e+00 Mass of water (kg) = 9.999e-01 @@ -2592,10 +2592,10 @@ Reaction 1. pH = 12.095 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 38524 + Specific Conductance (µS/cm, 5°C) = 38540 Density (g/cm³) = 1.07400 Volume (L) = 0.99863 - Viscosity (mPa s) = 2.39179 + Viscosity (mPa s) = 2.39000 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.049e+00 Mass of water (kg) = 9.999e-01 @@ -2673,10 +2673,10 @@ Reaction 1. pH = 12.095 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 38541 + Specific Conductance (µS/cm, 5°C) = 38557 Density (g/cm³) = 1.07405 Volume (L) = 0.99863 - Viscosity (mPa s) = 2.39270 + Viscosity (mPa s) = 2.39090 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.051e+00 Mass of water (kg) = 9.999e-01 @@ -2754,10 +2754,10 @@ Reaction 1. pH = 12.129 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 43187 + Specific Conductance (µS/cm, 5°C) = 43205 Density (g/cm³) = 1.08953 Volume (L) = 0.99952 - Viscosity (mPa s) = 2.67224 + Viscosity (mPa s) = 2.67025 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.516e+00 Mass of water (kg) = 9.999e-01 @@ -2835,10 +2835,10 @@ Reaction 1. pH = 12.130 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 43232 + Specific Conductance (µS/cm, 5°C) = 43250 Density (g/cm³) = 1.08969 Volume (L) = 0.99953 - Viscosity (mPa s) = 2.67540 + Viscosity (mPa s) = 2.67341 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.521e+00 Mass of water (kg) = 9.999e-01 @@ -2916,10 +2916,10 @@ Reaction 1. pH = 12.152 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 46069 + Specific Conductance (µS/cm, 5°C) = 46088 Density (g/cm³) = 1.10073 Volume (L) = 1.00041 - Viscosity (mPa s) = 2.89977 + Viscosity (mPa s) = 2.89765 Activity of water = 0.967 Ionic strength (mol/kgw) = 2.860e+00 Mass of water (kg) = 9.999e-01 @@ -3099,10 +3099,10 @@ Reaction 1. pH = 11.494 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8239 + Specific Conductance (µS/cm, 15°C) = 8240 Density (g/cm³) = 1.00611 Volume (L) = 1.00050 - Viscosity (mPa s) = 1.18082 + Viscosity (mPa s) = 1.18061 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.851e-01 Mass of water (kg) = 1.000e+00 @@ -3180,10 +3180,10 @@ Reaction 1. pH = 11.586 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 14199 + Specific Conductance (µS/cm, 15°C) = 14200 Density (g/cm³) = 1.01239 Volume (L) = 1.00027 - Viscosity (mPa s) = 1.22082 + Viscosity (mPa s) = 1.22053 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.559e-01 Mass of water (kg) = 1.000e+00 @@ -3261,10 +3261,10 @@ Reaction 1. pH = 11.686 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 24757 + Specific Conductance (µS/cm, 15°C) = 24761 Density (g/cm³) = 1.02535 Volume (L) = 1.00006 - Viscosity (mPa s) = 1.31312 + Viscosity (mPa s) = 1.31271 Activity of water = 0.990 Ionic strength (mol/kgw) = 7.159e-01 Mass of water (kg) = 9.999e-01 @@ -3342,10 +3342,10 @@ Reaction 1. pH = 11.728 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 30866 + Specific Conductance (µS/cm, 15°C) = 30872 Density (g/cm³) = 1.03390 Volume (L) = 1.00010 - Viscosity (mPa s) = 1.38172 + Viscosity (mPa s) = 1.38124 Activity of water = 0.987 Ionic strength (mol/kgw) = 9.587e-01 Mass of water (kg) = 9.999e-01 @@ -3423,10 +3423,10 @@ Reaction 1. pH = 11.775 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 38739 + Specific Conductance (µS/cm, 15°C) = 38747 Density (g/cm³) = 1.04624 Volume (L) = 1.00038 - Viscosity (mPa s) = 1.49193 + Viscosity (mPa s) = 1.49137 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.316e+00 Mass of water (kg) = 9.999e-01 @@ -3504,10 +3504,10 @@ Reaction 1. pH = 11.825 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 47693 + Specific Conductance (µS/cm, 15°C) = 47704 Density (g/cm³) = 1.06253 Volume (L) = 1.00112 - Viscosity (mPa s) = 1.65919 + Viscosity (mPa s) = 1.65854 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.799e+00 Mass of water (kg) = 9.999e-01 @@ -3585,10 +3585,10 @@ Reaction 1. pH = 11.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 53292 + Specific Conductance (µS/cm, 15°C) = 53304 Density (g/cm³) = 1.07436 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.79728 + Viscosity (mPa s) = 1.79657 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.159e+00 Mass of water (kg) = 9.999e-01 @@ -3666,10 +3666,10 @@ Reaction 1. pH = 11.893 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 59667 + Specific Conductance (µS/cm, 15°C) = 59680 Density (g/cm³) = 1.08999 Volume (L) = 1.00333 - Viscosity (mPa s) = 2.00342 + Viscosity (mPa s) = 2.00263 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.645e+00 Mass of water (kg) = 9.999e-01 @@ -3849,10 +3849,10 @@ Reaction 1. pH = 11.541 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 24029 + Specific Conductance (µS/cm, 20°C) = 24030 Density (g/cm³) = 1.01953 Volume (L) = 1.00125 - Viscosity (mPa s) = 1.12312 + Viscosity (mPa s) = 1.12296 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.853e-01 Mass of water (kg) = 9.999e-01 @@ -3930,10 +3930,10 @@ Reaction 1. pH = 11.541 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 24029 + Specific Conductance (µS/cm, 20°C) = 24030 Density (g/cm³) = 1.01953 Volume (L) = 1.00125 - Viscosity (mPa s) = 1.12312 + Viscosity (mPa s) = 1.12296 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.853e-01 Mass of water (kg) = 9.999e-01 @@ -4011,10 +4011,10 @@ Reaction 1. pH = 11.646 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 40993 + Specific Conductance (µS/cm, 20°C) = 40998 Density (g/cm³) = 1.04046 Volume (L) = 1.00163 - Viscosity (mPa s) = 1.27065 + Viscosity (mPa s) = 1.27041 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.189e+00 Mass of water (kg) = 9.999e-01 @@ -4092,10 +4092,10 @@ Reaction 1. pH = 11.711 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 53982 + Specific Conductance (µS/cm, 20°C) = 53988 Density (g/cm³) = 1.06038 Volume (L) = 1.00267 - Viscosity (mPa s) = 1.44189 + Viscosity (mPa s) = 1.44160 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.784e+00 Mass of water (kg) = 9.999e-01 @@ -4173,10 +4173,10 @@ Reaction 1. pH = 11.761 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 63937 + Specific Conductance (µS/cm, 20°C) = 63945 Density (g/cm³) = 1.07906 Volume (L) = 1.00420 - Viscosity (mPa s) = 1.63316 + Viscosity (mPa s) = 1.63282 Activity of water = 0.971 Ionic strength (mol/kgw) = 2.361e+00 Mass of water (kg) = 9.999e-01 @@ -4254,10 +4254,10 @@ Reaction 1. pH = 11.761 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 63937 + Specific Conductance (µS/cm, 20°C) = 63945 Density (g/cm³) = 1.07906 Volume (L) = 1.00420 - Viscosity (mPa s) = 1.63316 + Viscosity (mPa s) = 1.63282 Activity of water = 0.971 Ionic strength (mol/kgw) = 2.361e+00 Mass of water (kg) = 9.999e-01 @@ -4335,10 +4335,10 @@ Reaction 1. pH = 11.805 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 71962 + Specific Conductance (µS/cm, 20°C) = 71970 Density (g/cm³) = 1.09749 Volume (L) = 1.00624 - Viscosity (mPa s) = 1.85472 + Viscosity (mPa s) = 1.85434 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.947e+00 Mass of water (kg) = 9.999e-01 @@ -4416,10 +4416,10 @@ Reaction 1. pH = 11.815 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 73649 + Specific Conductance (µS/cm, 20°C) = 73657 Density (g/cm³) = 1.10192 Volume (L) = 1.00680 - Viscosity (mPa s) = 1.91322 + Viscosity (mPa s) = 1.91284 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.091e+00 Mass of water (kg) = 9.999e-01 @@ -4497,10 +4497,10 @@ Reaction 1. pH = 11.876 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 82532 + Specific Conductance (µS/cm, 20°C) = 82541 Density (g/cm³) = 1.13028 Volume (L) = 1.01117 - Viscosity (mPa s) = 2.34301 + Viscosity (mPa s) = 2.34257 Activity of water = 0.953 Ionic strength (mol/kgw) = 4.039e+00 Mass of water (kg) = 9.999e-01 @@ -4578,10 +4578,10 @@ Reaction 1. pH = 11.958 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 90456 + Specific Conductance (µS/cm, 20°C) = 90464 Density (g/cm³) = 1.17127 Volume (L) = 1.01992 - Viscosity (mPa s) = 3.16544 + Viscosity (mPa s) = 3.16492 Activity of water = 0.937 Ionic strength (mol/kgw) = 5.502e+00 Mass of water (kg) = 9.999e-01 @@ -4659,10 +4659,10 @@ Reaction 1. pH = 11.958 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 90456 + Specific Conductance (µS/cm, 20°C) = 90464 Density (g/cm³) = 1.17127 Volume (L) = 1.01992 - Viscosity (mPa s) = 3.16544 + Viscosity (mPa s) = 3.16492 Activity of water = 0.937 Ionic strength (mol/kgw) = 5.502e+00 Mass of water (kg) = 9.999e-01 @@ -4740,10 +4740,10 @@ Reaction 1. pH = 11.981 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 91877 + Specific Conductance (µS/cm, 20°C) = 91885 Density (g/cm³) = 1.18322 Volume (L) = 1.02306 - Viscosity (mPa s) = 3.46006 + Viscosity (mPa s) = 3.45953 Activity of water = 0.931 Ionic strength (mol/kgw) = 5.952e+00 Mass of water (kg) = 9.999e-01 @@ -7920,7 +7920,7 @@ Reaction 1. pH = 11.576 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 54084 + Specific Conductance (µS/cm, 25°C) = 54085 Density (g/cm³) = 1.04905 Volume (L) = 1.00372 Viscosity (mPa s) = 1.19539 @@ -9399,10 +9399,10 @@ Reaction 1. pH = 11.562 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 80919 + Specific Conductance (µS/cm, 30°C) = 80909 Density (g/cm³) = 1.07542 Volume (L) = 1.00796 - Viscosity (mPa s) = 1.27229 + Viscosity (mPa s) = 1.27256 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.370e+00 Mass of water (kg) = 9.999e-01 @@ -9480,10 +9480,10 @@ Reaction 1. pH = 11.684 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 105235 + Specific Conductance (µS/cm, 30°C) = 105223 Density (g/cm³) = 1.12633 Volume (L) = 1.01527 - Viscosity (mPa s) = 1.79603 + Viscosity (mPa s) = 1.79639 Activity of water = 0.951 Ionic strength (mol/kgw) = 4.055e+00 Mass of water (kg) = 9.998e-01 @@ -9561,10 +9561,10 @@ Reaction 1. pH = 11.773 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 116009 + Specific Conductance (µS/cm, 30°C) = 115998 Density (g/cm³) = 1.16749 Volume (L) = 1.02399 - Viscosity (mPa s) = 2.40030 + Viscosity (mPa s) = 2.40072 Activity of water = 0.933 Ionic strength (mol/kgw) = 5.525e+00 Mass of water (kg) = 9.998e-01 @@ -9642,10 +9642,10 @@ Reaction 1. pH = 11.797 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 118007 + Specific Conductance (µS/cm, 30°C) = 117997 Density (g/cm³) = 1.17949 Volume (L) = 1.02704 - Viscosity (mPa s) = 2.61502 + Viscosity (mPa s) = 2.61546 Activity of water = 0.927 Ionic strength (mol/kgw) = 5.975e+00 Mass of water (kg) = 9.998e-01 @@ -9825,10 +9825,10 @@ Reaction 1. pH = 11.014 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 9558 + Specific Conductance (µS/cm, 35°C) = 9557 Density (g/cm³) = 0.99875 Volume (L) = 1.00589 - Viscosity (mPa s) = 0.73775 + Viscosity (mPa s) = 0.73786 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.282e-01 Mass of water (kg) = 9.999e-01 @@ -9906,10 +9906,10 @@ Reaction 1. pH = 11.196 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 26922 + Specific Conductance (µS/cm, 35°C) = 26918 Density (g/cm³) = 1.01002 Volume (L) = 1.00589 - Viscosity (mPa s) = 0.78166 + Viscosity (mPa s) = 0.78188 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.470e-01 Mass of water (kg) = 9.999e-01 @@ -9987,10 +9987,10 @@ Reaction 1. pH = 11.280 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 41899 + Specific Conductance (µS/cm, 35°C) = 41891 Density (g/cm³) = 1.02166 Volume (L) = 1.00616 - Viscosity (mPa s) = 0.83248 + Viscosity (mPa s) = 0.83277 Activity of water = 0.989 Ionic strength (mol/kgw) = 7.853e-01 Mass of water (kg) = 9.999e-01 @@ -10068,10 +10068,10 @@ Reaction 1. pH = 11.317 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 50106 + Specific Conductance (µS/cm, 35°C) = 50095 Density (g/cm³) = 1.02878 Volume (L) = 1.00645 - Viscosity (mPa s) = 0.86654 + Viscosity (mPa s) = 0.86687 Activity of water = 0.986 Ionic strength (mol/kgw) = 9.960e-01 Mass of water (kg) = 9.999e-01 @@ -10149,10 +10149,10 @@ Reaction 1. pH = 11.415 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 74947 + Specific Conductance (µS/cm, 35°C) = 74930 Density (g/cm³) = 1.05422 Volume (L) = 1.00812 - Viscosity (mPa s) = 1.00807 + Viscosity (mPa s) = 1.00851 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.769e+00 Mass of water (kg) = 9.999e-01 @@ -10230,10 +10230,10 @@ Reaction 1. pH = 11.463 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 87627 + Specific Conductance (µS/cm, 35°C) = 87605 Density (g/cm³) = 1.07026 Volume (L) = 1.00965 - Viscosity (mPa s) = 1.11470 + Viscosity (mPa s) = 1.11519 Activity of water = 0.971 Ionic strength (mol/kgw) = 2.273e+00 Mass of water (kg) = 9.998e-01 @@ -10311,10 +10311,10 @@ Reaction 1. pH = 11.496 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 95863 + Specific Conductance (µS/cm, 35°C) = 95840 Density (g/cm³) = 1.08231 Volume (L) = 1.01102 - Viscosity (mPa s) = 1.20463 + Viscosity (mPa s) = 1.20517 Activity of water = 0.967 Ionic strength (mol/kgw) = 2.659e+00 Mass of water (kg) = 9.998e-01 @@ -10392,10 +10392,10 @@ Reaction 1. pH = 11.517 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 100968 + Specific Conductance (µS/cm, 35°C) = 100943 Density (g/cm³) = 1.09063 Volume (L) = 1.01209 - Viscosity (mPa s) = 1.27210 + Viscosity (mPa s) = 1.27267 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.930e+00 Mass of water (kg) = 9.998e-01 @@ -10473,10 +10473,10 @@ Reaction 1. pH = 11.524 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 102449 + Specific Conductance (µS/cm, 35°C) = 102424 Density (g/cm³) = 1.09320 Volume (L) = 1.01243 - Viscosity (mPa s) = 1.29381 + Viscosity (mPa s) = 1.29438 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.014e+00 Mass of water (kg) = 9.998e-01 @@ -10656,10 +10656,10 @@ Reaction 1. pH = 10.961 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 23138 + Specific Conductance (µS/cm, 45°C) = 23132 Density (g/cm³) = 1.00077 Volume (L) = 1.00983 - Viscosity (mPa s) = 0.62935 + Viscosity (mPa s) = 0.62965 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.951e-01 Mass of water (kg) = 9.999e-01 @@ -10737,10 +10737,10 @@ Reaction 1. pH = 11.065 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 40501 + Specific Conductance (µS/cm, 45°C) = 40487 Density (g/cm³) = 1.01102 Volume (L) = 1.01004 - Viscosity (mPa s) = 0.66361 + Viscosity (mPa s) = 0.66404 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.925e-01 Mass of water (kg) = 9.999e-01 @@ -10818,10 +10818,10 @@ Reaction 1. pH = 11.216 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 80368 + Specific Conductance (µS/cm, 45°C) = 80330 Density (g/cm³) = 1.04078 Volume (L) = 1.01168 - Viscosity (mPa s) = 0.78344 + Viscosity (mPa s) = 0.78412 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.489e+00 Mass of water (kg) = 9.998e-01 @@ -10899,10 +10899,10 @@ Reaction 1. pH = 11.360 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 123039 + Specific Conductance (µS/cm, 45°C) = 122975 Density (g/cm³) = 1.08730 Volume (L) = 1.01660 - Viscosity (mPa s) = 1.04146 + Viscosity (mPa s) = 1.04244 Activity of water = 0.962 Ionic strength (mol/kgw) = 2.970e+00 Mass of water (kg) = 9.998e-01 @@ -11082,10 +11082,10 @@ Reaction 1. pH = 10.427 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 82210 + Specific Conductance (µS/cm, 100°C) = 82087 Density (g/cm³) = 0.97872 Volume (L) = 1.04338 - Viscosity (mPa s) = 0.30892 + Viscosity (mPa s) = 0.30977 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.758e-01 Mass of water (kg) = 9.996e-01 @@ -11163,10 +11163,10 @@ Reaction 1. pH = 10.603 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 164110 + Specific Conductance (µS/cm, 100°C) = 163758 Density (g/cm³) = 1.00806 Volume (L) = 1.04452 - Viscosity (mPa s) = 0.35752 + Viscosity (mPa s) = 0.35893 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.464e+00 Mass of water (kg) = 9.994e-01 @@ -11244,10 +11244,10 @@ Reaction 1. pH = 10.789 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 256521 + Specific Conductance (µS/cm, 100°C) = 255903 Density (g/cm³) = 1.05475 Volume (L) = 1.04798 - Viscosity (mPa s) = 0.45845 + Viscosity (mPa s) = 0.46049 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.938e+00 Mass of water (kg) = 9.992e-01 diff --git a/mytest/Vm_Na2CO3_sol_101.sel b/mytest/Vm_Na2CO3_sol_101.sel index 3f651920..3540e6d0 100644 --- a/mytest/Vm_Na2CO3_sol_101.sel +++ b/mytest/Vm_Na2CO3_sol_101.sel @@ -1,138 +1,138 @@ Mu SC 0.000000100644 0.0547821166 - 0.000000035661 0.0123528660 - 0.028645919737 1046.3809796985 - 0.057368359772 1949.7970138648 - 0.065812586626 2202.1291018212 - 0.131659573707 4037.2319326369 - 0.142812424569 4330.2215939192 - 0.200574205297 5787.1771726988 - 0.200813576338 5793.0286449533 - 0.270338201433 7438.6113103436 - 0.381215674353 9880.2464780598 - 0.392596451239 10120.2491083545 - 0.394213752303 10154.2099437179 - 0.541266957406 13104.8459796669 - 0.741048193875 16746.2790689167 - 1.128452799217 22870.0912287337 - 1.474218142094 27495.6605200250 - 1.883253653399 32130.5579432343 - 0.000000043183 0.0164343314 - 0.164218823047 5569.1968461737 - 0.164458014821 5576.1188309492 - 0.343898892478 10347.8434343772 - 0.344198268181 10355.2379142950 - 0.671365083599 17670.3619015058 - 0.673522394022 17714.3267239307 - 0.908707183062 22238.0505795864 - 0.908916984349 22241.8638277175 - 1.247315798346 27943.3957345551 - 1.249324438995 27974.7404757810 - 1.703631718547 34406.2391526172 - 1.710078794522 34488.7471931582 - 2.049424902565 38524.2093891290 - 2.051014358676 38541.7587106836 - 2.515761949864 43187.9685551978 - 2.520740785479 43232.8251969064 - 2.860151808730 46069.6450920085 - 0.000000067373 0.0312733044 - 0.185107382170 8239.6997011268 - 0.355947848760 14199.0121452750 - 0.715882241845 24757.5603093601 - 0.958747353994 30866.7986846366 - 1.315850318831 38739.7590497929 - 1.799422908578 47693.8977834278 - 2.158841327796 53292.3727586324 - 2.645189863982 59667.0977927577 - 0.000000082766 0.0417744594 - 0.585319571552 24029.0138052419 - 0.585319571552 24029.0138052419 - 1.188898583469 40993.9076350440 - 1.784033524584 53982.4633870465 - 2.360522907134 63937.8772276764 - 2.360522907134 63937.8772276764 - 2.947464295615 71962.1177149662 - 3.091148273930 73649.6150880015 - 4.038986392355 82532.6043837571 - 5.501852538812 90456.5412185435 - 5.501852538812 90456.5412185435 - 5.952120391558 91877.6572214526 + 0.000000035661 0.0123528665 + 0.028645919737 1046.4685046099 + 0.057368359772 1950.0317316838 + 0.065812586626 2202.4136735119 + 0.131659573707 4037.9734127365 + 0.142812424569 4331.0496497467 + 0.200574205297 5788.4837865079 + 0.200813576338 5794.3373321429 + 0.270338201433 7440.5463982521 + 0.381215674353 9883.2511443664 + 0.392596451239 10123.3668016047 + 0.394213752303 10157.3437351484 + 0.541266957406 13109.4678086571 + 0.741048193875 16752.9305717329 + 1.128452799217 22880.4148115245 + 1.474218142094 27508.7685218987 + 1.883253653399 32146.2639145057 + 0.000000043183 0.0164343319 + 0.164218823047 5570.1580601806 + 0.164458014821 5577.0819277089 + 0.343898892478 10350.3768439301 + 0.344198268181 10357.7741267403 + 0.671365083599 17676.0734988180 + 0.673522394022 17720.0593472917 + 0.908707183062 22246.0242649132 + 0.908916984349 22249.8394527725 + 1.247315798346 27954.3075357218 + 1.249324438995 27985.6684309699 + 1.703631718547 34420.3889818259 + 1.710078794522 34502.9364453937 + 2.049424902565 38540.2290470952 + 2.051014358676 38557.7858376944 + 2.515761949864 43205.7707805560 + 2.520740785479 43250.6422735738 + 2.860151808730 46088.2890680202 + 0.000000067373 0.0312733051 + 0.185107382170 8240.4758645621 + 0.355947848760 14200.8345928531 + 0.715882241845 24761.8087250200 + 0.958747353994 30872.6515997979 + 1.315850318831 38747.7614368589 + 1.799422908578 47704.2837604792 + 2.158841327796 53304.1148628831 + 2.645189863982 59680.1500104887 + 0.000000082766 0.0417744600 + 0.585319571552 24030.9574760827 + 0.585319571552 24030.9574760827 + 1.188898583469 40998.1354148923 + 1.784033524584 53988.4978195982 + 2.360522907134 63945.1430887551 + 2.360522907134 63945.1430887551 + 2.947464295615 71970.1596727576 + 3.091148273930 73657.7836713765 + 4.038986392355 82541.1227621645 + 5.501852538812 90464.5529379995 + 5.501852538812 90464.5529379995 + 5.952120391558 91885.3827108484 0.000000100644 0.0547821166 - 0.011257240821 907.1742613888 - 0.018443516065 1409.3149308255 - 0.024612042653 1821.9654569800 - 0.031625409087 2275.9404327470 - 0.033307683853 2382.8113710135 - 0.053990864509 3646.8444841954 - 0.057726731889 3866.9550732470 - 0.065233053709 4302.9475312173 - 0.069834624536 4566.3967524173 - 0.081628740961 5229.6966413294 - 0.116853698440 7126.0169761773 - 0.117062126318 7136.9139497550 - 0.127783448248 7692.9434803817 - 0.144140815541 8525.3522722994 - 0.147538415922 8696.0055815595 - 0.166349800168 9627.9685050936 - 0.192776447808 10903.5732720194 - 0.193104628542 10919.1867355727 - 0.220290214434 12194.7716161027 - 0.272273004753 14546.1631417939 - 0.288103903686 15241.9707456178 - 0.296468401619 15606.1048716661 - 0.378740628139 19070.9522240153 - 0.460997893316 22351.2069954500 - 0.534373105759 25145.5724937398 - 0.588049728424 27119.8907514380 - 0.595351018887 27384.1778868847 - 0.718540056275 31700.8252702219 - 0.719767369909 31742.5458287882 - 0.740033556294 32427.9843047805 - 0.881802981597 37048.7069302331 - 0.883270291809 37095.0142308174 - 1.115838980108 44078.4554005972 - 1.290021457790 48884.7844905173 - 1.292178729041 48942.2157178284 - 1.455035810161 53138.3546841064 - 1.464834971428 53382.3068811762 - 1.493273973118 54084.9930645406 - 1.740590379411 59876.7438639021 - 1.743497767510 59941.5615554642 - 1.899814868299 63320.8392917390 - 2.126385611260 67868.6354853304 - 2.243247651933 70062.2985120327 - 2.360295175240 72161.4748235749 - 2.618272884711 76461.6885694338 - 2.943562351675 81293.8538815761 - 2.945301622174 81318.0381522604 - 2.950819312811 81394.6487816611 - 2.993461714821 81981.0098180919 - 3.592055511814 89219.1003396268 - 4.491852781419 97153.2809285791 - 5.240549987650 101652.9441934237 - 5.992587684515 104699.9400471265 - 7.488643920182 107578.4528892677 - 0.000000121213 0.0706525639 - 2.369903570982 80919.5092915553 - 4.054537495699 105235.3868318047 - 5.524889763969 116009.3798641990 - 5.974793780793 118007.8949043237 - 0.000000144671 0.0897480541 - 0.128158193564 9558.6665415254 - 0.446972426944 26922.5797225033 - 0.785316969784 41899.1333254214 - 0.996030851489 50106.0236111606 - 1.769389276196 74947.9821005776 - 2.272587812207 87627.3138536170 - 2.658672111233 95863.6714058434 - 2.929625645732 100968.1804082862 - 3.013782651173 102449.2472627305 - 0.000000200960 0.1390472929 - 0.295070990567 23138.8742521375 - 0.592492694705 40501.3656617046 - 1.488639055461 80368.9558122824 - 2.970419288355 123039.2969457129 - 0.000000760968 0.7572688298 - 0.575799282910 82210.3715373988 - 1.464043630940 164110.7853531195 - 2.937735123629 256521.2323462815 + 0.011257240821 907.1742769482 + 0.018443516065 1409.3149628248 + 0.024612042653 1821.9655055895 + 0.031625409087 2275.9405024903 + 0.033307683853 2382.8114461384 + 0.053990864509 3646.8446335869 + 0.057726731889 3866.9552374283 + 0.065233053709 4302.9477261986 + 0.069834624536 4566.3969669480 + 0.081628740961 5229.6969080763 + 0.116853698440 7126.0174140812 + 0.117062126318 7136.9143887303 + 0.127783448248 7692.9439752783 + 0.144140815541 8525.3528553920 + 0.147538415922 8696.0061833761 + 0.166349800168 9627.9692128822 + 0.192776447808 10903.5741346137 + 0.193104628542 10919.1876001290 + 0.220290214434 12194.7726462085 + 0.272273004753 14546.1645027673 + 0.288103903686 15241.9722104734 + 0.296468401619 15606.1063919186 + 0.378740628139 19070.9543046214 + 0.460997893316 22351.2096565735 + 0.534373105759 25145.5756827044 + 0.588049728424 27119.8943296536 + 0.595351018887 27384.1815181508 + 0.718540056275 31700.8297961739 + 0.719767369909 31742.5503636255 + 0.740033556294 32427.9889861870 + 0.881802981597 37048.7126255722 + 0.883270291809 37095.0199365182 + 1.115838980108 44078.4627009445 + 1.290021457790 48884.7929096363 + 1.292178729041 48942.2241503424 + 1.455035810161 53138.3640931138 + 1.464834971428 53382.3163467011 + 1.493273973118 54085.0026926192 + 1.740590379411 59876.7548116230 + 1.743497767510 59941.5725176839 + 1.899814868299 63320.8509986103 + 2.126385611260 67868.6481508994 + 2.243247651933 70062.3116174470 + 2.360295175240 72161.4883333507 + 2.618272884711 76461.7028478136 + 2.943562351675 81293.8689054701 + 2.945301622174 81318.0531795155 + 2.950819312811 81394.6638195365 + 2.993461714821 81981.0249358978 + 3.592055511814 89219.1162135169 + 4.491852781419 97153.2969328858 + 5.240549987650 101652.9597049857 + 5.992587684515 104699.9547482909 + 7.488643920182 107578.4655852172 + 0.000000121213 0.0706525626 + 2.369903570982 80909.8062565765 + 4.054537495699 105223.7254598872 + 5.524889763969 115998.2175697891 + 5.974793780793 117997.0792071729 + 0.000000144671 0.0897480503 + 0.128158193564 9557.8806729637 + 0.446972426944 26918.5116868006 + 0.785316969784 41891.1446457455 + 0.996030851489 50095.6376623134 + 1.769389276196 74930.0322806457 + 2.272587812207 87605.7646236627 + 2.658672111233 95840.0660600984 + 2.929625645732 100943.4673748632 + 3.013782651173 102424.2422916335 + 0.000000200960 0.1390472778 + 0.295070990567 23132.9491159446 + 0.592492694705 40487.1144276428 + 1.488639055461 80330.2037529469 + 2.970419288355 122975.8862100221 + 0.000000760968 0.7572678748 + 0.575799282910 82087.6088927380 + 1.464043630940 163758.6571703454 + 2.937735123629 255903.0275384542 diff --git a/mytest/Vm_Na2SO4_sol.out b/mytest/Vm_Na2SO4_sol.out index 917beec1..3a19b765 100644 --- a/mytest/Vm_Na2SO4_sol.out +++ b/mytest/Vm_Na2SO4_sol.out @@ -229,7 +229,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 3634 Density (g/cm³) = 1.00423 Volume (L) = 1.00028 - Viscosity (mPa s) = 1.54275 + Viscosity (mPa s) = 1.54245 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.082e-02 Mass of water (kg) = 1.000e+00 @@ -314,10 +314,10 @@ Reaction 1. pH = 7.485 Charge balance pe = -1.655 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5469 + Specific Conductance (µS/cm, 5°C) = 5470 Density (g/cm³) = 1.00671 Volume (L) = 1.00046 - Viscosity (mPa s) = 1.55481 + Viscosity (mPa s) = 1.55444 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.227e-01 Mass of water (kg) = 1.000e+00 @@ -402,10 +402,10 @@ Reaction 1. pH = 7.489 Charge balance pe = -1.782 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 5942 + Specific Conductance (µS/cm, 5°C) = 5943 Density (g/cm³) = 1.00737 Volume (L) = 1.00051 - Viscosity (mPa s) = 1.55800 + Viscosity (mPa s) = 1.55762 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.336e-01 Mass of water (kg) = 1.000e+00 @@ -490,10 +490,10 @@ Reaction 1. pH = 7.535 Charge balance pe = -1.806 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 14902 + Specific Conductance (µS/cm, 5°C) = 14904 Density (g/cm³) = 1.02134 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.62685 + Viscosity (mPa s) = 1.62628 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.435e-01 Mass of water (kg) = 1.000e+00 @@ -578,10 +578,10 @@ Reaction 1. pH = 7.542 Charge balance pe = 11.916 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 17521 + Specific Conductance (µS/cm, 5°C) = 17523 Density (g/cm³) = 1.02586 Volume (L) = 1.00242 - Viscosity (mPa s) = 1.65060 + Viscosity (mPa s) = 1.64998 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.066e-01 Mass of water (kg) = 1.000e+00 @@ -666,10 +666,10 @@ Reaction 1. pH = 7.553 Charge balance pe = -1.824 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 24377 + Specific Conductance (µS/cm, 5°C) = 24381 Density (g/cm³) = 1.03857 Volume (L) = 1.00414 - Viscosity (mPa s) = 1.72256 + Viscosity (mPa s) = 1.72185 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.765e-01 Mass of water (kg) = 1.000e+00 @@ -754,10 +754,10 @@ Reaction 1. pH = 7.560 Charge balance pe = -1.826 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 35754 + Specific Conductance (µS/cm, 5°C) = 35759 Density (g/cm³) = 1.06273 Volume (L) = 1.00808 - Viscosity (mPa s) = 1.88321 + Viscosity (mPa s) = 1.88236 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.799e-01 Mass of water (kg) = 1.000e+00 @@ -842,10 +842,10 @@ Reaction 1. pH = 7.559 Charge balance pe = 12.025 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 39003 + Specific Conductance (µS/cm, 5°C) = 39009 Density (g/cm³) = 1.07045 Volume (L) = 1.00950 - Viscosity (mPa s) = 1.94188 + Viscosity (mPa s) = 1.94099 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.733e-01 Mass of water (kg) = 1.000e+00 @@ -930,10 +930,10 @@ Reaction 1. pH = 7.558 Charge balance pe = 11.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 42805 + Specific Conductance (µS/cm, 5°C) = 42811 Density (g/cm³) = 1.08005 Volume (L) = 1.01137 - Viscosity (mPa s) = 2.02012 + Viscosity (mPa s) = 2.01919 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.088e+00 Mass of water (kg) = 1.000e+00 @@ -1018,10 +1018,10 @@ Reaction 1. pH = 7.557 Charge balance pe = 12.024 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 45047 + Specific Conductance (µS/cm, 5°C) = 45054 Density (g/cm³) = 1.08603 Volume (L) = 1.01259 - Viscosity (mPa s) = 2.07200 + Viscosity (mPa s) = 2.07104 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.158e+00 Mass of water (kg) = 1.000e+00 @@ -1106,10 +1106,10 @@ Reaction 1. pH = 7.531 Charge balance pe = -1.860 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 64766 + Specific Conductance (µS/cm, 5°C) = 64775 Density (g/cm³) = 1.15532 Volume (L) = 1.02950 - Viscosity (mPa s) = 2.87762 + Viscosity (mPa s) = 2.87644 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.952e+00 Mass of water (kg) = 1.000e+00 @@ -1298,10 +1298,10 @@ Reaction 1. pH = 7.285 Charge balance pe = -1.506 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 4798 + Specific Conductance (µS/cm, 15°C) = 4799 Density (g/cm³) = 1.00325 Volume (L) = 1.00126 - Viscosity (mPa s) = 1.15600 + Viscosity (mPa s) = 1.15588 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.948e-02 Mass of water (kg) = 1.000e+00 @@ -1389,7 +1389,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 5839 Density (g/cm³) = 1.00428 Volume (L) = 1.00136 - Viscosity (mPa s) = 1.15990 + Viscosity (mPa s) = 1.15977 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.709e-02 Mass of water (kg) = 1.000e+00 @@ -1477,7 +1477,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7113 Density (g/cm³) = 1.00557 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.16479 + Viscosity (mPa s) = 1.16465 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.188e-01 Mass of water (kg) = 1.000e+00 @@ -1565,7 +1565,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7141 Density (g/cm³) = 1.00560 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.16490 + Viscosity (mPa s) = 1.16476 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.193e-01 Mass of water (kg) = 1.000e+00 @@ -1650,10 +1650,10 @@ Reaction 1. pH = 7.307 Charge balance pe = 11.231 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 7148 + Specific Conductance (µS/cm, 15°C) = 7149 Density (g/cm³) = 1.00561 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.16493 + Viscosity (mPa s) = 1.16479 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.194e-01 Mass of water (kg) = 1.000e+00 @@ -1741,7 +1741,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7203 Density (g/cm³) = 1.00567 Volume (L) = 1.00150 - Viscosity (mPa s) = 1.16514 + Viscosity (mPa s) = 1.16500 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.203e-01 Mass of water (kg) = 1.000e+00 @@ -1829,7 +1829,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7822 Density (g/cm³) = 1.00631 Volume (L) = 1.00156 - Viscosity (mPa s) = 1.16757 + Viscosity (mPa s) = 1.16742 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.309e-01 Mass of water (kg) = 1.000e+00 @@ -1917,7 +1917,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 8372 Density (g/cm³) = 1.00690 Volume (L) = 1.00162 - Viscosity (mPa s) = 1.16975 + Viscosity (mPa s) = 1.16960 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.403e-01 Mass of water (kg) = 1.000e+00 @@ -2002,10 +2002,10 @@ Reaction 1. pH = 7.318 Charge balance pe = -1.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8642 + Specific Conductance (µS/cm, 15°C) = 8643 Density (g/cm³) = 1.00719 Volume (L) = 1.00165 - Viscosity (mPa s) = 1.17083 + Viscosity (mPa s) = 1.17068 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.449e-01 Mass of water (kg) = 1.000e+00 @@ -2090,10 +2090,10 @@ Reaction 1. pH = 7.329 Charge balance pe = -1.289 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10691 + Specific Conductance (µS/cm, 15°C) = 10692 Density (g/cm³) = 1.00943 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.17924 + Viscosity (mPa s) = 1.17907 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.802e-01 Mass of water (kg) = 1.000e+00 @@ -2181,7 +2181,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 10715 Density (g/cm³) = 1.00945 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.17934 + Viscosity (mPa s) = 1.17917 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.806e-01 Mass of water (kg) = 1.000e+00 @@ -2269,7 +2269,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 12900 Density (g/cm³) = 1.01194 Volume (L) = 1.00219 - Viscosity (mPa s) = 1.18872 + Viscosity (mPa s) = 1.18854 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.185e-01 Mass of water (kg) = 1.000e+00 @@ -2357,7 +2357,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 12935 Density (g/cm³) = 1.01198 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.18888 + Viscosity (mPa s) = 1.18870 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.191e-01 Mass of water (kg) = 1.000e+00 @@ -2442,10 +2442,10 @@ Reaction 1. pH = 7.340 Charge balance pe = -1.531 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12955 + Specific Conductance (µS/cm, 15°C) = 12956 Density (g/cm³) = 1.01201 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.18897 + Viscosity (mPa s) = 1.18879 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.194e-01 Mass of water (kg) = 1.000e+00 @@ -2530,10 +2530,10 @@ Reaction 1. pH = 7.340 Charge balance pe = 11.148 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12971 + Specific Conductance (µS/cm, 15°C) = 12972 Density (g/cm³) = 1.01202 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.18904 + Viscosity (mPa s) = 1.18886 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.197e-01 Mass of water (kg) = 1.000e+00 @@ -2621,7 +2621,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 15318 Density (g/cm³) = 1.01479 Volume (L) = 1.00254 - Viscosity (mPa s) = 1.19964 + Viscosity (mPa s) = 1.19944 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.607e-01 Mass of water (kg) = 1.000e+00 @@ -2709,7 +2709,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 17121 Density (g/cm³) = 1.01699 Volume (L) = 1.00283 - Viscosity (mPa s) = 1.20816 + Viscosity (mPa s) = 1.20795 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.925e-01 Mass of water (kg) = 1.000e+00 @@ -2794,10 +2794,10 @@ Reaction 1. pH = 7.354 Charge balance pe = -1.619 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 17187 + Specific Conductance (µS/cm, 15°C) = 17188 Density (g/cm³) = 1.01707 Volume (L) = 1.00284 - Viscosity (mPa s) = 1.20848 + Viscosity (mPa s) = 1.20827 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.936e-01 Mass of water (kg) = 1.000e+00 @@ -2882,10 +2882,10 @@ Reaction 1. pH = 7.359 Charge balance pe = 11.281 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 19151 + Specific Conductance (µS/cm, 15°C) = 19152 Density (g/cm³) = 1.01953 Volume (L) = 1.00317 - Viscosity (mPa s) = 1.21815 + Viscosity (mPa s) = 1.21794 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.285e-01 Mass of water (kg) = 1.000e+00 @@ -2970,10 +2970,10 @@ Reaction 1. pH = 7.360 Charge balance pe = -1.666 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 19496 + Specific Conductance (µS/cm, 15°C) = 19497 Density (g/cm³) = 1.01997 Volume (L) = 1.00323 - Viscosity (mPa s) = 1.21989 + Viscosity (mPa s) = 1.21968 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.346e-01 Mass of water (kg) = 1.000e+00 @@ -3058,10 +3058,10 @@ Reaction 1. pH = 7.363 Charge balance pe = -1.706 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 21063 + Specific Conductance (µS/cm, 15°C) = 21064 Density (g/cm³) = 1.02198 Volume (L) = 1.00351 - Viscosity (mPa s) = 1.22797 + Viscosity (mPa s) = 1.22775 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.627e-01 Mass of water (kg) = 1.000e+00 @@ -3146,10 +3146,10 @@ Reaction 1. pH = 7.367 Charge balance pe = 11.040 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 22899 + Specific Conductance (µS/cm, 15°C) = 22900 Density (g/cm³) = 1.02439 Volume (L) = 1.00385 - Viscosity (mPa s) = 1.23779 + Viscosity (mPa s) = 1.23756 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.958e-01 Mass of water (kg) = 1.000e+00 @@ -3234,10 +3234,10 @@ Reaction 1. pH = 7.367 Charge balance pe = -1.045 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 23144 + Specific Conductance (µS/cm, 15°C) = 23146 Density (g/cm³) = 1.02472 Volume (L) = 1.00390 - Viscosity (mPa s) = 1.23913 + Viscosity (mPa s) = 1.23890 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.003e-01 Mass of water (kg) = 1.000e+00 @@ -3322,10 +3322,10 @@ Reaction 1. pH = 7.378 Charge balance pe = -1.690 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 31801 + Specific Conductance (µS/cm, 15°C) = 31803 Density (g/cm³) = 1.03684 Volume (L) = 1.00581 - Viscosity (mPa s) = 1.29133 + Viscosity (mPa s) = 1.29106 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.607e-01 Mass of water (kg) = 1.000e+00 @@ -3410,10 +3410,10 @@ Reaction 1. pH = 7.380 Charge balance pe = -1.673 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 34314 + Specific Conductance (µS/cm, 15°C) = 34317 Density (g/cm³) = 1.04060 Volume (L) = 1.00645 - Viscosity (mPa s) = 1.30845 + Viscosity (mPa s) = 1.30817 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.088e-01 Mass of water (kg) = 1.000e+00 @@ -3498,10 +3498,10 @@ Reaction 1. pH = 7.383 Charge balance pe = 11.285 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 39686 + Specific Conductance (µS/cm, 15°C) = 39689 Density (g/cm³) = 1.04898 Volume (L) = 1.00795 - Viscosity (mPa s) = 1.34842 + Viscosity (mPa s) = 1.34812 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.142e-01 Mass of water (kg) = 1.000e+00 @@ -3586,10 +3586,10 @@ Reaction 1. pH = 7.384 Charge balance pe = -1.039 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 46440 + Specific Conductance (µS/cm, 15°C) = 46443 Density (g/cm³) = 1.06028 Volume (L) = 1.01013 - Viscosity (mPa s) = 1.40631 + Viscosity (mPa s) = 1.40599 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.527e-01 Mass of water (kg) = 1.000e+00 @@ -3674,10 +3674,10 @@ Reaction 1. pH = 7.384 Charge balance pe = -1.658 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 46578 + Specific Conductance (µS/cm, 15°C) = 46582 Density (g/cm³) = 1.06052 Volume (L) = 1.01018 - Viscosity (mPa s) = 1.40760 + Viscosity (mPa s) = 1.40728 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.557e-01 Mass of water (kg) = 1.000e+00 @@ -3762,10 +3762,10 @@ Reaction 1. pH = 7.384 Charge balance pe = 11.268 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 50809 + Specific Conductance (µS/cm, 15°C) = 50813 Density (g/cm³) = 1.06809 Volume (L) = 1.01173 - Viscosity (mPa s) = 1.44917 + Viscosity (mPa s) = 1.44883 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.467e-01 Mass of water (kg) = 1.000e+00 @@ -3850,10 +3850,10 @@ Reaction 1. pH = 7.381 Charge balance pe = 11.311 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 58703 + Specific Conductance (µS/cm, 15°C) = 58707 Density (g/cm³) = 1.08337 Volume (L) = 1.01508 - Viscosity (mPa s) = 1.54008 + Viscosity (mPa s) = 1.53971 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.127e+00 Mass of water (kg) = 1.000e+00 @@ -3938,10 +3938,10 @@ Reaction 1. pH = 7.353 Charge balance pe = -1.690 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 84857 + Specific Conductance (µS/cm, 15°C) = 84863 Density (g/cm³) = 1.15134 Volume (L) = 1.03306 - Viscosity (mPa s) = 2.08214 + Viscosity (mPa s) = 2.08168 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.906e+00 Mass of water (kg) = 1.000e+00 @@ -7389,7 +7389,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 28799 Density (g/cm³) = 1.02192 Volume (L) = 1.00628 - Viscosity (mPa s) = 0.96971 + Viscosity (mPa s) = 0.96970 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.888e-01 Mass of water (kg) = 1.000e+00 @@ -7826,7 +7826,7 @@ Reaction 1. pH = 7.224 Charge balance pe = -1.340 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 35804 + Specific Conductance (µS/cm, 25°C) = 35805 Density (g/cm³) = 1.02948 Volume (L) = 1.00756 Viscosity (mPa s) = 0.99529 @@ -10221,7 +10221,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 9210 Density (g/cm³) = 0.99914 Volume (L) = 1.00662 - Viscosity (mPa s) = 0.73381 + Viscosity (mPa s) = 0.73390 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.666e-02 Mass of water (kg) = 1.000e+00 @@ -10309,7 +10309,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 11057 Density (g/cm³) = 1.00033 Volume (L) = 1.00677 - Viscosity (mPa s) = 0.73683 + Viscosity (mPa s) = 0.73693 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.165e-01 Mass of water (kg) = 1.000e+00 @@ -10394,10 +10394,10 @@ Reaction 1. pH = 7.020 Charge balance pe = -1.257 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 11153 + Specific Conductance (µS/cm, 35°C) = 11152 Density (g/cm³) = 1.00039 Volume (L) = 1.00678 - Viscosity (mPa s) = 0.73699 + Viscosity (mPa s) = 0.73709 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.175e-01 Mass of water (kg) = 1.000e+00 @@ -10485,7 +10485,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 11739 Density (g/cm³) = 1.00078 Volume (L) = 1.00683 - Viscosity (mPa s) = 0.73797 + Viscosity (mPa s) = 0.73807 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.238e-01 Mass of water (kg) = 1.000e+00 @@ -10570,10 +10570,10 @@ Reaction 1. pH = 7.026 Charge balance pe = -1.386 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12104 + Specific Conductance (µS/cm, 35°C) = 12103 Density (g/cm³) = 1.00102 Volume (L) = 1.00686 - Viscosity (mPa s) = 0.73858 + Viscosity (mPa s) = 0.73868 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.278e-01 Mass of water (kg) = 1.000e+00 @@ -10658,10 +10658,10 @@ Reaction 1. pH = 7.032 Charge balance pe = 10.002 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 13416 + Specific Conductance (µS/cm, 35°C) = 13415 Density (g/cm³) = 1.00190 Volume (L) = 1.00698 - Viscosity (mPa s) = 0.74082 + Viscosity (mPa s) = 0.74092 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.419e-01 Mass of water (kg) = 1.000e+00 @@ -10746,10 +10746,10 @@ Reaction 1. pH = 7.045 Charge balance pe = -1.237 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 16554 + Specific Conductance (µS/cm, 35°C) = 16553 Density (g/cm³) = 1.00407 Volume (L) = 1.00728 - Viscosity (mPa s) = 0.74634 + Viscosity (mPa s) = 0.74645 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.760e-01 Mass of water (kg) = 1.000e+00 @@ -10834,10 +10834,10 @@ Reaction 1. pH = 7.057 Charge balance pe = -1.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 19931 + Specific Conductance (µS/cm, 35°C) = 19930 Density (g/cm³) = 1.00651 Volume (L) = 1.00763 - Viscosity (mPa s) = 0.75257 + Viscosity (mPa s) = 0.75269 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.130e-01 Mass of water (kg) = 1.000e+00 @@ -10922,10 +10922,10 @@ Reaction 1. pH = 7.057 Charge balance pe = -1.239 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 19948 + Specific Conductance (µS/cm, 35°C) = 19947 Density (g/cm³) = 1.00652 Volume (L) = 1.00763 - Viscosity (mPa s) = 0.75260 + Viscosity (mPa s) = 0.75272 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.132e-01 Mass of water (kg) = 1.000e+00 @@ -11010,10 +11010,10 @@ Reaction 1. pH = 7.057 Charge balance pe = -1.290 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 19979 + Specific Conductance (µS/cm, 35°C) = 19978 Density (g/cm³) = 1.00655 Volume (L) = 1.00764 - Viscosity (mPa s) = 0.75266 + Viscosity (mPa s) = 0.75278 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.135e-01 Mass of water (kg) = 1.000e+00 @@ -11098,10 +11098,10 @@ Reaction 1. pH = 7.066 Charge balance pe = 9.913 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 23586 + Specific Conductance (µS/cm, 35°C) = 23585 Density (g/cm³) = 1.00925 Volume (L) = 1.00804 - Viscosity (mPa s) = 0.75966 + Viscosity (mPa s) = 0.75979 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.534e-01 Mass of water (kg) = 1.000e+00 @@ -11186,10 +11186,10 @@ Reaction 1. pH = 7.073 Charge balance pe = 9.838 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 26384 + Specific Conductance (µS/cm, 35°C) = 26383 Density (g/cm³) = 1.01142 Volume (L) = 1.00838 - Viscosity (mPa s) = 0.76533 + Viscosity (mPa s) = 0.76546 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.846e-01 Mass of water (kg) = 1.000e+00 @@ -11274,10 +11274,10 @@ Reaction 1. pH = 7.078 Charge balance pe = -1.466 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 29417 + Specific Conductance (µS/cm, 35°C) = 29415 Density (g/cm³) = 1.01383 Volume (L) = 1.00877 - Viscosity (mPa s) = 0.77172 + Viscosity (mPa s) = 0.77186 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.187e-01 Mass of water (kg) = 1.000e+00 @@ -11362,10 +11362,10 @@ Reaction 1. pH = 7.079 Charge balance pe = 9.879 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 29982 + Specific Conductance (µS/cm, 35°C) = 29980 Density (g/cm³) = 1.01429 Volume (L) = 1.00884 - Viscosity (mPa s) = 0.77294 + Viscosity (mPa s) = 0.77308 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.251e-01 Mass of water (kg) = 1.000e+00 @@ -11450,10 +11450,10 @@ Reaction 1. pH = 7.079 Charge balance pe = -1.426 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 29986 + Specific Conductance (µS/cm, 35°C) = 29984 Density (g/cm³) = 1.01429 Volume (L) = 1.00884 - Viscosity (mPa s) = 0.77294 + Viscosity (mPa s) = 0.77309 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.251e-01 Mass of water (kg) = 1.000e+00 @@ -11538,10 +11538,10 @@ Reaction 1. pH = 7.083 Charge balance pe = -1.328 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 32408 + Specific Conductance (µS/cm, 35°C) = 32406 Density (g/cm³) = 1.01627 Volume (L) = 1.00917 - Viscosity (mPa s) = 0.77827 + Viscosity (mPa s) = 0.77842 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.526e-01 Mass of water (kg) = 1.000e+00 @@ -11626,10 +11626,10 @@ Reaction 1. pH = 7.087 Charge balance pe = 9.933 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 35598 + Specific Conductance (µS/cm, 35°C) = 35596 Density (g/cm³) = 1.01894 Volume (L) = 1.00963 - Viscosity (mPa s) = 0.78556 + Viscosity (mPa s) = 0.78571 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.892e-01 Mass of water (kg) = 1.000e+00 @@ -11714,10 +11714,10 @@ Reaction 1. pH = 7.099 Charge balance pe = -1.455 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 48770 + Specific Conductance (µS/cm, 35°C) = 48767 Density (g/cm³) = 1.03072 Volume (L) = 1.01179 - Viscosity (mPa s) = 0.81903 + Viscosity (mPa s) = 0.81921 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.444e-01 Mass of water (kg) = 1.000e+00 @@ -11802,10 +11802,10 @@ Reaction 1. pH = 7.101 Charge balance pe = -1.449 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 52605 + Specific Conductance (µS/cm, 35°C) = 52602 Density (g/cm³) = 1.03438 Volume (L) = 1.01251 - Viscosity (mPa s) = 0.82989 + Viscosity (mPa s) = 0.83007 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.912e-01 Mass of water (kg) = 1.000e+00 @@ -11890,10 +11890,10 @@ Reaction 1. pH = 7.101 Charge balance pe = 9.834 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 52795 + Specific Conductance (µS/cm, 35°C) = 52791 Density (g/cm³) = 1.03456 Volume (L) = 1.01254 - Viscosity (mPa s) = 0.83044 + Viscosity (mPa s) = 0.83063 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.935e-01 Mass of water (kg) = 1.000e+00 @@ -11978,10 +11978,10 @@ Reaction 1. pH = 7.103 Charge balance pe = 9.903 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 60801 + Specific Conductance (µS/cm, 35°C) = 60796 Density (g/cm³) = 1.04254 Volume (L) = 1.01418 - Viscosity (mPa s) = 0.85501 + Viscosity (mPa s) = 0.85521 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.937e-01 Mass of water (kg) = 1.000e+00 @@ -12066,10 +12066,10 @@ Reaction 1. pH = 7.104 Charge balance pe = 9.952 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 66904 + Specific Conductance (µS/cm, 35°C) = 66899 Density (g/cm³) = 1.04895 Volume (L) = 1.01556 - Viscosity (mPa s) = 0.87559 + Viscosity (mPa s) = 0.87580 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.727e-01 Mass of water (kg) = 1.000e+00 @@ -12160,10 +12160,10 @@ Reaction 1. pH = 7.104 Charge balance pe = 9.527 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 71114 + Specific Conductance (µS/cm, 35°C) = 71109 Density (g/cm³) = 1.05355 Volume (L) = 1.01658 - Viscosity (mPa s) = 0.89082 + Viscosity (mPa s) = 0.89104 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.287e-01 Mass of water (kg) = 1.000e+00 @@ -12248,10 +12248,10 @@ Reaction 1. pH = 7.104 Charge balance pe = -1.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 71326 + Specific Conductance (µS/cm, 35°C) = 71321 Density (g/cm³) = 1.05378 Volume (L) = 1.01664 - Viscosity (mPa s) = 0.89162 + Viscosity (mPa s) = 0.89183 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.315e-01 Mass of water (kg) = 1.000e+00 @@ -12336,10 +12336,10 @@ Reaction 1. pH = 7.103 Charge balance pe = 9.903 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 77797 + Specific Conductance (µS/cm, 35°C) = 77791 Density (g/cm³) = 1.06116 Volume (L) = 1.01834 - Viscosity (mPa s) = 0.91695 + Viscosity (mPa s) = 0.91718 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.204e-01 Mass of water (kg) = 1.000e+00 @@ -12424,10 +12424,10 @@ Reaction 1. pH = 7.101 Charge balance pe = -1.151 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 87045 + Specific Conductance (µS/cm, 35°C) = 87038 Density (g/cm³) = 1.07240 Volume (L) = 1.02106 - Viscosity (mPa s) = 0.95766 + Viscosity (mPa s) = 0.95789 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.054e+00 Mass of water (kg) = 1.000e+00 @@ -12512,10 +12512,10 @@ Reaction 1. pH = 7.100 Charge balance pe = -1.470 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 89742 + Specific Conductance (µS/cm, 35°C) = 89734 Density (g/cm³) = 1.07584 Volume (L) = 1.02193 - Viscosity (mPa s) = 0.97067 + Viscosity (mPa s) = 0.97091 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.094e+00 Mass of water (kg) = 1.000e+00 @@ -12600,10 +12600,10 @@ Reaction 1. pH = 7.093 Charge balance pe = 9.905 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 102735 + Specific Conductance (µS/cm, 35°C) = 102727 Density (g/cm³) = 1.09368 Volume (L) = 1.02663 - Viscosity (mPa s) = 1.04242 + Viscosity (mPa s) = 1.04268 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.303e+00 Mass of water (kg) = 1.000e+00 @@ -12688,10 +12688,10 @@ Reaction 1. pH = 7.087 Charge balance pe = 9.751 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 112080 + Specific Conductance (µS/cm, 35°C) = 112071 Density (g/cm³) = 1.10805 Volume (L) = 1.03068 - Viscosity (mPa s) = 1.10588 + Viscosity (mPa s) = 1.10616 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.469e+00 Mass of water (kg) = 1.000e+00 @@ -12776,10 +12776,10 @@ Reaction 1. pH = 7.077 Charge balance pe = 9.972 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 122163 + Specific Conductance (µS/cm, 35°C) = 122153 Density (g/cm³) = 1.12547 Volume (L) = 1.03589 - Viscosity (mPa s) = 1.19043 + Viscosity (mPa s) = 1.19072 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.669e+00 Mass of water (kg) = 1.000e+00 @@ -12864,10 +12864,10 @@ Reaction 1. pH = 7.076 Charge balance pe = -1.461 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 123932 + Specific Conductance (µS/cm, 35°C) = 123922 Density (g/cm³) = 1.12878 Volume (L) = 1.03692 - Viscosity (mPa s) = 1.20752 + Viscosity (mPa s) = 1.20782 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.707e+00 Mass of water (kg) = 1.000e+00 @@ -12952,10 +12952,10 @@ Reaction 1. pH = 7.068 Charge balance pe = 9.967 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 130358 + Specific Conductance (µS/cm, 35°C) = 130347 Density (g/cm³) = 1.14161 Volume (L) = 1.04101 - Viscosity (mPa s) = 1.27710 + Viscosity (mPa s) = 1.27741 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.854e+00 Mass of water (kg) = 1.000e+00 @@ -13040,10 +13040,10 @@ Reaction 1. pH = 7.057 Charge balance pe = 9.933 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 138557 + Specific Conductance (µS/cm, 35°C) = 138546 Density (g/cm³) = 1.16033 Volume (L) = 1.04731 - Viscosity (mPa s) = 1.38904 + Viscosity (mPa s) = 1.38936 Activity of water = 0.944 Ionic strength (mol/kgw) = 2.069e+00 Mass of water (kg) = 1.000e+00 @@ -13128,10 +13128,10 @@ Reaction 1. pH = 7.046 Charge balance pe = -1.463 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 144921 + Specific Conductance (µS/cm, 35°C) = 144910 Density (g/cm³) = 1.17753 Volume (L) = 1.05343 - Viscosity (mPa s) = 1.50418 + Viscosity (mPa s) = 1.50451 Activity of water = 0.938 Ionic strength (mol/kgw) = 2.268e+00 Mass of water (kg) = 1.000e+00 @@ -13320,10 +13320,10 @@ Reaction 1. pH = 6.906 Charge balance pe = 9.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 13217 + Specific Conductance (µS/cm, 45°C) = 13216 Density (g/cm³) = 0.99644 Volume (L) = 1.01070 - Viscosity (mPa s) = 0.61064 + Viscosity (mPa s) = 0.61080 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.157e-01 Mass of water (kg) = 1.000e+00 @@ -13408,10 +13408,10 @@ Reaction 1. pH = 6.906 Charge balance pe = 9.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 13217 + Specific Conductance (µS/cm, 45°C) = 13216 Density (g/cm³) = 0.99644 Volume (L) = 1.01070 - Viscosity (mPa s) = 0.61064 + Viscosity (mPa s) = 0.61080 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.157e-01 Mass of water (kg) = 1.000e+00 @@ -13496,10 +13496,10 @@ Reaction 1. pH = 6.946 Charge balance pe = -1.153 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 23823 + Specific Conductance (µS/cm, 45°C) = 23821 Density (g/cm³) = 1.00258 Volume (L) = 1.01159 - Viscosity (mPa s) = 0.62393 + Viscosity (mPa s) = 0.62414 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.116e-01 Mass of water (kg) = 1.000e+00 @@ -13584,10 +13584,10 @@ Reaction 1. pH = 6.946 Charge balance pe = -1.153 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 23823 + Specific Conductance (µS/cm, 45°C) = 23821 Density (g/cm³) = 1.00258 Volume (L) = 1.01159 - Viscosity (mPa s) = 0.62393 + Viscosity (mPa s) = 0.62414 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.116e-01 Mass of water (kg) = 1.000e+00 @@ -13672,10 +13672,10 @@ Reaction 1. pH = 6.965 Charge balance pe = 9.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 33325 + Specific Conductance (µS/cm, 45°C) = 33321 Density (g/cm³) = 1.00863 Volume (L) = 1.01257 - Viscosity (mPa s) = 0.63735 + Viscosity (mPa s) = 0.63758 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.995e-01 Mass of water (kg) = 1.000e+00 @@ -13760,10 +13760,10 @@ Reaction 1. pH = 6.966 Charge balance pe = -0.961 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 33779 + Specific Conductance (µS/cm, 45°C) = 33775 Density (g/cm³) = 1.00893 Volume (L) = 1.01262 - Viscosity (mPa s) = 0.63802 + Viscosity (mPa s) = 0.63826 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.038e-01 Mass of water (kg) = 1.000e+00 @@ -13848,10 +13848,10 @@ Reaction 1. pH = 6.990 Charge balance pe = 9.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 59444 + Specific Conductance (µS/cm, 45°C) = 59435 Density (g/cm³) = 1.02754 Volume (L) = 1.01610 - Viscosity (mPa s) = 0.68219 + Viscosity (mPa s) = 0.68250 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.533e-01 Mass of water (kg) = 1.000e+00 @@ -13936,10 +13936,10 @@ Reaction 1. pH = 6.995 Charge balance pe = -1.387 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 80919 + Specific Conductance (µS/cm, 45°C) = 80906 Density (g/cm³) = 1.04562 Volume (L) = 1.02001 - Viscosity (mPa s) = 0.72957 + Viscosity (mPa s) = 0.72993 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.799e-01 Mass of water (kg) = 1.000e+00 @@ -14024,10 +14024,10 @@ Reaction 1. pH = 6.995 Charge balance pe = -0.873 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 84816 + Specific Conductance (µS/cm, 45°C) = 84802 Density (g/cm³) = 1.04917 Volume (L) = 1.02083 - Viscosity (mPa s) = 0.73943 + Viscosity (mPa s) = 0.73980 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.232e-01 Mass of water (kg) = 1.000e+00 @@ -14112,10 +14112,10 @@ Reaction 1. pH = 6.992 Charge balance pe = -1.207 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 99552 + Specific Conductance (µS/cm, 45°C) = 99535 Density (g/cm³) = 1.06343 Volume (L) = 1.02430 - Viscosity (mPa s) = 0.78099 + Viscosity (mPa s) = 0.78139 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.950e-01 Mass of water (kg) = 1.000e+00 @@ -14200,10 +14200,10 @@ Reaction 1. pH = 6.990 Charge balance pe = -1.362 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 107040 + Specific Conductance (µS/cm, 45°C) = 107022 Density (g/cm³) = 1.07125 Volume (L) = 1.02630 - Viscosity (mPa s) = 0.80516 + Viscosity (mPa s) = 0.80557 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.088e+00 Mass of water (kg) = 1.000e+00 @@ -14288,10 +14288,10 @@ Reaction 1. pH = 6.987 Charge balance pe = 9.289 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 114446 + Specific Conductance (µS/cm, 45°C) = 114426 Density (g/cm³) = 1.07942 Volume (L) = 1.02848 - Viscosity (mPa s) = 0.83150 + Viscosity (mPa s) = 0.83193 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.184e+00 Mass of water (kg) = 1.000e+00 @@ -14376,10 +14376,10 @@ Reaction 1. pH = 6.980 Charge balance pe = 9.297 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 127037 + Specific Conductance (µS/cm, 45°C) = 127015 Density (g/cm³) = 1.09444 Volume (L) = 1.03268 - Viscosity (mPa s) = 0.88318 + Viscosity (mPa s) = 0.88364 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.359e+00 Mass of water (kg) = 1.000e+00 @@ -14464,10 +14464,10 @@ Reaction 1. pH = 6.976 Charge balance pe = 7.643 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 133762 + Specific Conductance (µS/cm, 45°C) = 133739 Density (g/cm³) = 1.10317 Volume (L) = 1.03524 - Viscosity (mPa s) = 0.91522 + Viscosity (mPa s) = 0.91569 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.461e+00 Mass of water (kg) = 1.000e+00 @@ -14552,10 +14552,10 @@ Reaction 1. pH = 6.964 Charge balance pe = -1.383 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 147998 + Specific Conductance (µS/cm, 45°C) = 147972 Density (g/cm³) = 1.12371 Volume (L) = 1.04160 - Viscosity (mPa s) = 0.99721 + Viscosity (mPa s) = 0.99771 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.698e+00 Mass of water (kg) = 1.000e+00 @@ -14640,10 +14640,10 @@ Reaction 1. pH = 6.961 Charge balance pe = 9.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 150923 + Specific Conductance (µS/cm, 45°C) = 150898 Density (g/cm³) = 1.12836 Volume (L) = 1.04310 - Viscosity (mPa s) = 1.01716 + Viscosity (mPa s) = 1.01767 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.752e+00 Mass of water (kg) = 1.000e+00 @@ -14728,10 +14728,10 @@ Reaction 1. pH = 6.956 Charge balance pe = -1.403 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 156135 + Specific Conductance (µS/cm, 45°C) = 156109 Density (g/cm³) = 1.13710 Volume (L) = 1.04599 - Viscosity (mPa s) = 1.05617 + Viscosity (mPa s) = 1.05670 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.853e+00 Mass of water (kg) = 1.000e+00 @@ -14816,10 +14816,10 @@ Reaction 1. pH = 6.950 Charge balance pe = 9.373 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 160750 + Specific Conductance (µS/cm, 45°C) = 160723 Density (g/cm³) = 1.14541 Volume (L) = 1.04882 - Viscosity (mPa s) = 1.09518 + Viscosity (mPa s) = 1.09571 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.949e+00 Mass of water (kg) = 1.000e+00 @@ -14904,10 +14904,10 @@ Reaction 1. pH = 6.939 Charge balance pe = 9.389 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 168972 + Specific Conductance (µS/cm, 45°C) = 168945 Density (g/cm³) = 1.16191 Volume (L) = 1.05466 - Viscosity (mPa s) = 1.17875 + Viscosity (mPa s) = 1.17931 Activity of water = 0.941 Ionic strength (mol/kgw) = 2.141e+00 Mass of water (kg) = 1.000e+00 @@ -15096,10 +15096,10 @@ Reaction 1. pH = 6.810 Charge balance pe = 8.742 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 15475 + Specific Conductance (µS/cm, 55°C) = 15473 Density (g/cm³) = 0.99188 Volume (L) = 1.01535 - Viscosity (mPa s) = 0.51636 + Viscosity (mPa s) = 0.51656 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.151e-01 Mass of water (kg) = 1.000e+00 @@ -15184,10 +15184,10 @@ Reaction 1. pH = 6.852 Charge balance pe = -1.082 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 27878 + Specific Conductance (µS/cm, 55°C) = 27874 Density (g/cm³) = 0.99797 Volume (L) = 1.01627 - Viscosity (mPa s) = 0.52777 + Viscosity (mPa s) = 0.52804 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.104e-01 Mass of water (kg) = 1.000e+00 @@ -15272,10 +15272,10 @@ Reaction 1. pH = 6.865 Charge balance pe = -1.115 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 34104 + Specific Conductance (µS/cm, 55°C) = 34098 Density (g/cm³) = 1.00128 Volume (L) = 1.01681 - Viscosity (mPa s) = 0.53407 + Viscosity (mPa s) = 0.53436 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.592e-01 Mass of water (kg) = 1.000e+00 @@ -15360,10 +15360,10 @@ Reaction 1. pH = 6.893 Charge balance pe = -1.241 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 59683 + Specific Conductance (µS/cm, 55°C) = 59671 Density (g/cm³) = 1.01634 Volume (L) = 1.01956 - Viscosity (mPa s) = 0.56413 + Viscosity (mPa s) = 0.56451 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.668e-01 Mass of water (kg) = 1.000e+00 @@ -15448,10 +15448,10 @@ Reaction 1. pH = 6.902 Charge balance pe = -1.292 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 81926 + Specific Conductance (µS/cm, 55°C) = 81906 Density (g/cm³) = 1.03131 Volume (L) = 1.02270 - Viscosity (mPa s) = 0.59641 + Viscosity (mPa s) = 0.59685 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.596e-01 Mass of water (kg) = 1.000e+00 @@ -15536,10 +15536,10 @@ Reaction 1. pH = 6.903 Charge balance pe = -0.782 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 99200 + Specific Conductance (µS/cm, 55°C) = 99175 Density (g/cm³) = 1.04422 Volume (L) = 1.02567 - Viscosity (mPa s) = 0.62630 + Viscosity (mPa s) = 0.62678 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.196e-01 Mass of water (kg) = 1.000e+00 @@ -15624,10 +15624,10 @@ Reaction 1. pH = 6.903 Charge balance pe = -1.301 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 101160 + Specific Conductance (µS/cm, 55°C) = 101135 Density (g/cm³) = 1.04576 Volume (L) = 1.02604 - Viscosity (mPa s) = 0.63000 + Viscosity (mPa s) = 0.63049 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.384e-01 Mass of water (kg) = 1.000e+00 @@ -15712,10 +15712,10 @@ Reaction 1. pH = 6.902 Charge balance pe = -1.299 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 102479 + Specific Conductance (µS/cm, 55°C) = 102453 Density (g/cm³) = 1.04680 Volume (L) = 1.02629 - Viscosity (mPa s) = 0.63253 + Viscosity (mPa s) = 0.63302 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.512e-01 Mass of water (kg) = 1.000e+00 @@ -15800,10 +15800,10 @@ Reaction 1. pH = 6.900 Charge balance pe = -1.137 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 117961 + Specific Conductance (µS/cm, 55°C) = 117930 Density (g/cm³) = 1.05969 Volume (L) = 1.02953 - Viscosity (mPa s) = 0.66480 + Viscosity (mPa s) = 0.66533 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.007e+00 Mass of water (kg) = 1.000e+00 @@ -15888,10 +15888,10 @@ Reaction 1. pH = 6.899 Charge balance pe = 8.617 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 119140 + Specific Conductance (µS/cm, 55°C) = 119109 Density (g/cm³) = 1.06072 Volume (L) = 1.02980 - Viscosity (mPa s) = 0.66747 + Viscosity (mPa s) = 0.66800 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -15976,10 +15976,10 @@ Reaction 1. pH = 6.898 Charge balance pe = -1.335 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 125211 + Specific Conductance (µS/cm, 55°C) = 125178 Density (g/cm³) = 1.06614 Volume (L) = 1.03123 - Viscosity (mPa s) = 0.68176 + Viscosity (mPa s) = 0.68230 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.084e+00 Mass of water (kg) = 1.000e+00 @@ -16064,10 +16064,10 @@ Reaction 1. pH = 6.894 Charge balance pe = 8.679 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 133986 + Specific Conductance (µS/cm, 55°C) = 133951 Density (g/cm³) = 1.07433 Volume (L) = 1.03346 - Viscosity (mPa s) = 0.70415 + Viscosity (mPa s) = 0.70471 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.181e+00 Mass of water (kg) = 1.000e+00 @@ -16152,10 +16152,10 @@ Reaction 1. pH = 6.888 Charge balance pe = 8.651 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 147677 + Specific Conductance (µS/cm, 55°C) = 147637 Density (g/cm³) = 1.08812 Volume (L) = 1.03739 - Viscosity (mPa s) = 0.74401 + Viscosity (mPa s) = 0.74461 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.343e+00 Mass of water (kg) = 1.000e+00 @@ -16240,10 +16240,10 @@ Reaction 1. pH = 6.882 Charge balance pe = 8.125 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 156551 + Specific Conductance (µS/cm, 55°C) = 156509 Density (g/cm³) = 1.09781 Volume (L) = 1.04029 - Viscosity (mPa s) = 0.77384 + Viscosity (mPa s) = 0.77446 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.456e+00 Mass of water (kg) = 1.000e+00 @@ -16328,10 +16328,10 @@ Reaction 1. pH = 6.880 Charge balance pe = 8.584 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 160302 + Specific Conductance (µS/cm, 55°C) = 160259 Density (g/cm³) = 1.10212 Volume (L) = 1.04161 - Viscosity (mPa s) = 0.78761 + Viscosity (mPa s) = 0.78824 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.506e+00 Mass of water (kg) = 1.000e+00 @@ -16416,10 +16416,10 @@ Reaction 1. pH = 6.879 Charge balance pe = -1.352 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 161622 + Specific Conductance (µS/cm, 55°C) = 161578 Density (g/cm³) = 1.10367 Volume (L) = 1.04209 - Viscosity (mPa s) = 0.79263 + Viscosity (mPa s) = 0.79326 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.524e+00 Mass of water (kg) = 1.000e+00 @@ -16504,10 +16504,10 @@ Reaction 1. pH = 6.871 Charge balance pe = 8.753 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 171323 + Specific Conductance (µS/cm, 55°C) = 171277 Density (g/cm³) = 1.11563 Volume (L) = 1.04589 - Viscosity (mPa s) = 0.83292 + Viscosity (mPa s) = 0.83357 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.663e+00 Mass of water (kg) = 1.000e+00 @@ -16592,10 +16592,10 @@ Reaction 1. pH = 6.870 Charge balance pe = -1.287 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 173301 + Specific Conductance (µS/cm, 55°C) = 173254 Density (g/cm³) = 1.11820 Volume (L) = 1.04673 - Viscosity (mPa s) = 0.84195 + Viscosity (mPa s) = 0.84261 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.693e+00 Mass of water (kg) = 1.000e+00 @@ -16680,10 +16680,10 @@ Reaction 1. pH = 6.862 Charge balance pe = -1.272 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 181288 + Specific Conductance (µS/cm, 55°C) = 181240 Density (g/cm³) = 1.12916 Volume (L) = 1.05038 - Viscosity (mPa s) = 0.88189 + Viscosity (mPa s) = 0.88257 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.821e+00 Mass of water (kg) = 1.000e+00 @@ -16768,10 +16768,10 @@ Reaction 1. pH = 6.860 Charge balance pe = 8.618 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 183324 + Specific Conductance (µS/cm, 55°C) = 183276 Density (g/cm³) = 1.13212 Volume (L) = 1.05138 - Viscosity (mPa s) = 0.89309 + Viscosity (mPa s) = 0.89378 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.855e+00 Mass of water (kg) = 1.000e+00 @@ -16960,10 +16960,10 @@ Reaction 1. pH = 6.664 Charge balance pe = 7.600 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 20124 + Specific Conductance (µS/cm, 75°C) = 20120 Density (g/cm³) = 0.98098 Volume (L) = 1.02663 - Viscosity (mPa s) = 0.38719 + Viscosity (mPa s) = 0.38746 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.137e-01 Mass of water (kg) = 1.000e+00 @@ -17048,10 +17048,10 @@ Reaction 1. pH = 6.670 Charge balance pe = 7.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21642 + Specific Conductance (µS/cm, 75°C) = 21637 Density (g/cm³) = 0.98152 Volume (L) = 1.02670 - Viscosity (mPa s) = 0.38797 + Viscosity (mPa s) = 0.38825 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.225e-01 Mass of water (kg) = 1.000e+00 @@ -17136,10 +17136,10 @@ Reaction 1. pH = 6.708 Charge balance pe = 7.543 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 34848 + Specific Conductance (µS/cm, 75°C) = 34839 Density (g/cm³) = 0.98648 Volume (L) = 1.02745 - Viscosity (mPa s) = 0.39517 + Viscosity (mPa s) = 0.39552 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.998e-01 Mass of water (kg) = 1.000e+00 @@ -17224,10 +17224,10 @@ Reaction 1. pH = 6.710 Charge balance pe = -0.975 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 36226 + Specific Conductance (µS/cm, 75°C) = 36216 Density (g/cm³) = 0.98702 Volume (L) = 1.02754 - Viscosity (mPa s) = 0.39597 + Viscosity (mPa s) = 0.39633 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.079e-01 Mass of water (kg) = 1.000e+00 @@ -17312,10 +17312,10 @@ Reaction 1. pH = 6.714 Charge balance pe = 7.469 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 38153 + Specific Conductance (µS/cm, 75°C) = 38143 Density (g/cm³) = 0.98779 Volume (L) = 1.02766 - Viscosity (mPa s) = 0.39710 + Viscosity (mPa s) = 0.39746 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.193e-01 Mass of water (kg) = 1.000e+00 @@ -17400,10 +17400,10 @@ Reaction 1. pH = 6.732 Charge balance pe = 7.469 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 50655 + Specific Conductance (µS/cm, 75°C) = 50639 Density (g/cm³) = 0.99297 Volume (L) = 1.02853 - Viscosity (mPa s) = 0.40482 + Viscosity (mPa s) = 0.40524 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.944e-01 Mass of water (kg) = 1.000e+00 @@ -17488,10 +17488,10 @@ Reaction 1. pH = 6.744 Charge balance pe = 7.519 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 62656 + Specific Conductance (µS/cm, 75°C) = 62634 Density (g/cm³) = 0.99826 Volume (L) = 1.02949 - Viscosity (mPa s) = 0.41291 + Viscosity (mPa s) = 0.41336 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.681e-01 Mass of water (kg) = 1.000e+00 @@ -17576,10 +17576,10 @@ Reaction 1. pH = 6.746 Charge balance pe = -0.956 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 64949 + Specific Conductance (µS/cm, 75°C) = 64926 Density (g/cm³) = 0.99931 Volume (L) = 1.02968 - Viscosity (mPa s) = 0.41453 + Viscosity (mPa s) = 0.41499 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.823e-01 Mass of water (kg) = 1.000e+00 @@ -17664,10 +17664,10 @@ Reaction 1. pH = 6.747 Charge balance pe = -1.021 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 66391 + Specific Conductance (µS/cm, 75°C) = 66368 Density (g/cm³) = 0.99997 Volume (L) = 1.02981 - Viscosity (mPa s) = 0.41556 + Viscosity (mPa s) = 0.41603 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.913e-01 Mass of water (kg) = 1.000e+00 @@ -17752,10 +17752,10 @@ Reaction 1. pH = 6.751 Charge balance pe = 7.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 72953 + Specific Conductance (µS/cm, 75°C) = 72927 Density (g/cm³) = 1.00303 Volume (L) = 1.03040 - Viscosity (mPa s) = 0.42038 + Viscosity (mPa s) = 0.42087 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.326e-01 Mass of water (kg) = 1.000e+00 @@ -17840,10 +17840,10 @@ Reaction 1. pH = 6.759 Charge balance pe = 7.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 91332 + Specific Conductance (µS/cm, 75°C) = 91296 Density (g/cm³) = 1.01208 Volume (L) = 1.03224 - Viscosity (mPa s) = 0.43505 + Viscosity (mPa s) = 0.43559 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.515e-01 Mass of water (kg) = 1.000e+00 @@ -17928,10 +17928,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 7.526 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 107843 + Specific Conductance (µS/cm, 75°C) = 107798 Density (g/cm³) = 1.02081 Volume (L) = 1.03415 - Viscosity (mPa s) = 0.44980 + Viscosity (mPa s) = 0.45039 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.628e-01 Mass of water (kg) = 1.000e+00 @@ -18016,10 +18016,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 7.458 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 107999 + Specific Conductance (µS/cm, 75°C) = 107954 Density (g/cm³) = 1.02089 Volume (L) = 1.03417 - Viscosity (mPa s) = 0.44995 + Viscosity (mPa s) = 0.45054 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.639e-01 Mass of water (kg) = 1.000e+00 @@ -18104,10 +18104,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.194 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 123694 + Specific Conductance (µS/cm, 75°C) = 123641 Density (g/cm³) = 1.02975 Volume (L) = 1.03623 - Viscosity (mPa s) = 0.46557 + Viscosity (mPa s) = 0.46620 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.744e-01 Mass of water (kg) = 1.000e+00 @@ -18192,10 +18192,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 127834 + Specific Conductance (µS/cm, 75°C) = 127778 Density (g/cm³) = 1.03218 Volume (L) = 1.03681 - Viscosity (mPa s) = 0.46997 + Viscosity (mPa s) = 0.47061 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.044e-01 Mass of water (kg) = 1.000e+00 @@ -18280,10 +18280,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.173 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 128498 + Specific Conductance (µS/cm, 75°C) = 128442 Density (g/cm³) = 1.03258 Volume (L) = 1.03691 - Viscosity (mPa s) = 0.47069 + Viscosity (mPa s) = 0.47133 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.093e-01 Mass of water (kg) = 1.000e+00 @@ -18368,10 +18368,10 @@ Reaction 1. pH = 6.760 Charge balance pe = 7.526 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 145551 + Specific Conductance (µS/cm, 75°C) = 145485 Density (g/cm³) = 1.04308 Volume (L) = 1.03954 - Viscosity (mPa s) = 0.49031 + Viscosity (mPa s) = 0.49100 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.374e-01 Mass of water (kg) = 1.000e+00 @@ -18456,10 +18456,10 @@ Reaction 1. pH = 6.755 Charge balance pe = -0.752 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 165892 + Specific Conductance (µS/cm, 75°C) = 165815 Density (g/cm³) = 1.05668 Volume (L) = 1.04315 - Viscosity (mPa s) = 0.51719 + Viscosity (mPa s) = 0.51793 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.101e+00 Mass of water (kg) = 1.000e+00 @@ -18544,10 +18544,10 @@ Reaction 1. pH = 6.751 Charge balance pe = -1.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 178136 + Specific Conductance (µS/cm, 75°C) = 178052 Density (g/cm³) = 1.06550 Volume (L) = 1.04562 - Viscosity (mPa s) = 0.53558 + Viscosity (mPa s) = 0.53635 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.206e+00 Mass of water (kg) = 1.000e+00 @@ -18632,10 +18632,10 @@ Reaction 1. pH = 6.739 Charge balance pe = -1.051 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 203910 + Specific Conductance (µS/cm, 75°C) = 203813 Density (g/cm³) = 1.08601 Volume (L) = 1.05172 - Viscosity (mPa s) = 0.58149 + Viscosity (mPa s) = 0.58232 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.448e+00 Mass of water (kg) = 1.000e+00 @@ -18720,10 +18720,10 @@ Reaction 1. pH = 6.738 Charge balance pe = -1.088 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 204621 + Specific Conductance (µS/cm, 75°C) = 204523 Density (g/cm³) = 1.08662 Volume (L) = 1.05191 - Viscosity (mPa s) = 0.58292 + Viscosity (mPa s) = 0.58376 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.455e+00 Mass of water (kg) = 1.000e+00 @@ -18808,10 +18808,10 @@ Reaction 1. pH = 6.726 Charge balance pe = -1.182 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 223790 + Specific Conductance (µS/cm, 75°C) = 223684 Density (g/cm³) = 1.10413 Volume (L) = 1.05752 - Viscosity (mPa s) = 0.62617 + Viscosity (mPa s) = 0.62705 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.660e+00 Mass of water (kg) = 1.000e+00 @@ -18896,10 +18896,10 @@ Reaction 1. pH = 6.723 Charge balance pe = -1.083 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 226926 + Specific Conductance (µS/cm, 75°C) = 226819 Density (g/cm³) = 1.10722 Volume (L) = 1.05855 - Viscosity (mPa s) = 0.63422 + Viscosity (mPa s) = 0.63511 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.696e+00 Mass of water (kg) = 1.000e+00 @@ -18984,10 +18984,10 @@ Reaction 1. pH = 6.707 Charge balance pe = 7.522 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 246040 + Specific Conductance (µS/cm, 75°C) = 245926 Density (g/cm³) = 1.12784 Volume (L) = 1.06567 - Viscosity (mPa s) = 0.69150 + Viscosity (mPa s) = 0.69245 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.938e+00 Mass of water (kg) = 1.000e+00 @@ -19072,10 +19072,10 @@ Reaction 1. pH = 6.700 Charge balance pe = 7.821 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 253093 + Specific Conductance (µS/cm, 75°C) = 252977 Density (g/cm³) = 1.13641 Volume (L) = 1.06878 - Viscosity (mPa s) = 0.71731 + Viscosity (mPa s) = 0.71828 Activity of water = 0.944 Ionic strength (mol/kgw) = 2.039e+00 Mass of water (kg) = 1.000e+00 @@ -19160,10 +19160,10 @@ Reaction 1. pH = 6.690 Charge balance pe = -1.260 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 262095 + Specific Conductance (µS/cm, 75°C) = 261977 Density (g/cm³) = 1.14838 Volume (L) = 1.07326 - Viscosity (mPa s) = 0.75553 + Viscosity (mPa s) = 0.75653 Activity of water = 0.940 Ionic strength (mol/kgw) = 2.181e+00 Mass of water (kg) = 1.000e+00 @@ -19248,10 +19248,10 @@ Reaction 1. pH = 6.673 Charge balance pe = -0.823 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 274518 + Specific Conductance (µS/cm, 75°C) = 274399 Density (g/cm³) = 1.16752 Volume (L) = 1.08076 - Viscosity (mPa s) = 0.82258 + Viscosity (mPa s) = 0.82362 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.408e+00 Mass of water (kg) = 1.000e+00 @@ -19336,10 +19336,10 @@ Reaction 1. pH = 6.655 Charge balance pe = 7.688 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 285138 + Specific Conductance (µS/cm, 75°C) = 285020 Density (g/cm³) = 1.18779 Volume (L) = 1.08918 - Viscosity (mPa s) = 0.90270 + Viscosity (mPa s) = 0.90380 Activity of water = 0.925 Ionic strength (mol/kgw) = 2.652e+00 Mass of water (kg) = 1.000e+00 @@ -19528,10 +19528,10 @@ Reaction 1. pH = 6.625 Charge balance pe = -1.104 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 48306 + Specific Conductance (µS/cm, 95°C) = 48286 Density (g/cm³) = 0.97539 Volume (L) = 1.04140 - Viscosity (mPa s) = 0.31361 + Viscosity (mPa s) = 0.31404 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.230e-01 Mass of water (kg) = 1.000e+00 @@ -19616,10 +19616,10 @@ Reaction 1. pH = 6.657 Charge balance pe = -1.102 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 85263 + Specific Conductance (µS/cm, 95°C) = 85219 Density (g/cm³) = 0.98856 Volume (L) = 1.04364 - Viscosity (mPa s) = 0.32981 + Viscosity (mPa s) = 0.33037 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.048e-01 Mass of water (kg) = 1.000e+00 @@ -19704,10 +19704,10 @@ Reaction 1. pH = 6.668 Charge balance pe = 6.359 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 116751 + Specific Conductance (µS/cm, 95°C) = 116683 Density (g/cm³) = 1.00124 Volume (L) = 1.04613 - Viscosity (mPa s) = 0.34638 + Viscosity (mPa s) = 0.34703 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.690e-01 Mass of water (kg) = 1.000e+00 @@ -19792,10 +19792,10 @@ Reaction 1. pH = 6.669 Charge balance pe = 5.935 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 136919 + Specific Conductance (µS/cm, 95°C) = 136834 Density (g/cm³) = 1.01007 Volume (L) = 1.04804 - Viscosity (mPa s) = 0.35849 + Viscosity (mPa s) = 0.35920 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.799e-01 Mass of water (kg) = 1.000e+00 @@ -19880,10 +19880,10 @@ Reaction 1. pH = 6.667 Charge balance pe = -1.174 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 171704 + Specific Conductance (µS/cm, 95°C) = 171590 Density (g/cm³) = 1.02674 Volume (L) = 1.05196 - Viscosity (mPa s) = 0.38268 + Viscosity (mPa s) = 0.38347 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.838e-01 Mass of water (kg) = 1.000e+00 @@ -19968,10 +19968,10 @@ Reaction 1. pH = 6.663 Charge balance pe = 6.411 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 189468 + Specific Conductance (µS/cm, 95°C) = 189340 Density (g/cm³) = 1.03605 Volume (L) = 1.05432 - Viscosity (mPa s) = 0.39696 + Viscosity (mPa s) = 0.39780 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.955e-01 Mass of water (kg) = 1.000e+00 @@ -20056,10 +20056,10 @@ Reaction 1. pH = 6.663 Charge balance pe = -0.933 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 192195 + Specific Conductance (µS/cm, 95°C) = 192064 Density (g/cm³) = 1.03753 Volume (L) = 1.05471 - Viscosity (mPa s) = 0.39929 + Viscosity (mPa s) = 0.40013 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.013e+00 Mass of water (kg) = 1.000e+00 @@ -20144,10 +20144,10 @@ Reaction 1. pH = 6.656 Charge balance pe = 6.530 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 214269 + Specific Conductance (µS/cm, 95°C) = 214120 Density (g/cm³) = 1.05008 Volume (L) = 1.05810 - Viscosity (mPa s) = 0.41964 + Viscosity (mPa s) = 0.42053 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.162e+00 Mass of water (kg) = 1.000e+00 @@ -20232,10 +20232,10 @@ Reaction 1. pH = 6.650 Charge balance pe = -1.158 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 229643 + Specific Conductance (µS/cm, 95°C) = 229482 Density (g/cm³) = 1.05949 Volume (L) = 1.06076 - Viscosity (mPa s) = 0.43565 + Viscosity (mPa s) = 0.43658 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.273e+00 Mass of water (kg) = 1.000e+00 @@ -20320,10 +20320,10 @@ Reaction 1. pH = 6.640 Charge balance pe = 6.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 250678 + Specific Conductance (µS/cm, 95°C) = 250501 Density (g/cm³) = 1.07340 Volume (L) = 1.06491 - Viscosity (mPa s) = 0.46064 + Viscosity (mPa s) = 0.46162 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.436e+00 Mass of water (kg) = 1.000e+00 @@ -20408,10 +20408,10 @@ Reaction 1. pH = 6.630 Charge balance pe = 6.491 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 268452 + Specific Conductance (µS/cm, 95°C) = 268262 Density (g/cm³) = 1.08628 Volume (L) = 1.06895 - Viscosity (mPa s) = 0.48531 + Viscosity (mPa s) = 0.48633 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.587e+00 Mass of water (kg) = 1.000e+00 @@ -20600,10 +20600,10 @@ Reaction 1. pH = 6.565 Charge balance pe = 6.295 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 29065 + Specific Conductance (µS/cm, 100°C) = 29055 Density (g/cm³) = 0.96545 Volume (L) = 1.04429 - Viscosity (mPa s) = 0.29015 + Viscosity (mPa s) = 0.29049 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.258e-01 Mass of water (kg) = 1.000e+00 @@ -20688,10 +20688,10 @@ Reaction 1. pH = 6.565 Charge balance pe = 6.295 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 29065 + Specific Conductance (µS/cm, 100°C) = 29055 Density (g/cm³) = 0.96545 Volume (L) = 1.04429 - Viscosity (mPa s) = 0.29015 + Viscosity (mPa s) = 0.29049 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.258e-01 Mass of water (kg) = 1.000e+00 @@ -20776,10 +20776,10 @@ Reaction 1. pH = 6.602 Charge balance pe = -0.902 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 46142 + Specific Conductance (µS/cm, 100°C) = 46123 Density (g/cm³) = 0.97055 Volume (L) = 1.04498 - Viscosity (mPa s) = 0.29584 + Viscosity (mPa s) = 0.29627 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.023e-01 Mass of water (kg) = 1.000e+00 @@ -20864,10 +20864,10 @@ Reaction 1. pH = 6.607 Charge balance pe = -1.027 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 49384 + Specific Conductance (µS/cm, 100°C) = 49362 Density (g/cm³) = 0.97156 Volume (L) = 1.04513 - Viscosity (mPa s) = 0.29700 + Viscosity (mPa s) = 0.29744 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.170e-01 Mass of water (kg) = 1.000e+00 @@ -20952,10 +20952,10 @@ Reaction 1. pH = 6.607 Charge balance pe = -1.027 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 49384 + Specific Conductance (µS/cm, 100°C) = 49362 Density (g/cm³) = 0.97156 Volume (L) = 1.04513 - Viscosity (mPa s) = 0.29700 + Viscosity (mPa s) = 0.29744 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.170e-01 Mass of water (kg) = 1.000e+00 @@ -21040,10 +21040,10 @@ Reaction 1. pH = 6.624 Charge balance pe = 6.356 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 64487 + Specific Conductance (µS/cm, 100°C) = 64456 Density (g/cm³) = 0.97649 Volume (L) = 1.04590 - Viscosity (mPa s) = 0.30265 + Viscosity (mPa s) = 0.30315 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.865e-01 Mass of water (kg) = 1.000e+00 @@ -21128,10 +21128,10 @@ Reaction 1. pH = 6.637 Charge balance pe = -0.662 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 82001 + Specific Conductance (µS/cm, 100°C) = 81957 Density (g/cm³) = 0.98257 Volume (L) = 1.04692 - Viscosity (mPa s) = 0.30981 + Viscosity (mPa s) = 0.31037 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.691e-01 Mass of water (kg) = 1.000e+00 @@ -21216,10 +21216,10 @@ Reaction 1. pH = 6.637 Charge balance pe = -0.931 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 82141 + Specific Conductance (µS/cm, 100°C) = 82096 Density (g/cm³) = 0.98262 Volume (L) = 1.04693 - Viscosity (mPa s) = 0.30987 + Viscosity (mPa s) = 0.31043 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.698e-01 Mass of water (kg) = 1.000e+00 @@ -21304,10 +21304,10 @@ Reaction 1. pH = 6.637 Charge balance pe = 6.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 82210 + Specific Conductance (µS/cm, 100°C) = 82165 Density (g/cm³) = 0.98264 Volume (L) = 1.04693 - Viscosity (mPa s) = 0.30990 + Viscosity (mPa s) = 0.31046 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.701e-01 Mass of water (kg) = 1.000e+00 @@ -21392,10 +21392,10 @@ Reaction 1. pH = 6.637 Charge balance pe = 6.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 82210 + Specific Conductance (µS/cm, 100°C) = 82165 Density (g/cm³) = 0.98264 Volume (L) = 1.04693 - Viscosity (mPa s) = 0.30990 + Viscosity (mPa s) = 0.31046 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.701e-01 Mass of water (kg) = 1.000e+00 @@ -21480,10 +21480,10 @@ Reaction 1. pH = 6.642 Charge balance pe = 6.226 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 93083 + Specific Conductance (µS/cm, 100°C) = 93029 Density (g/cm³) = 0.98661 Volume (L) = 1.04765 - Viscosity (mPa s) = 0.31469 + Viscosity (mPa s) = 0.31527 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.225e-01 Mass of water (kg) = 1.000e+00 @@ -21568,10 +21568,10 @@ Reaction 1. pH = 6.650 Charge balance pe = -1.053 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 120655 + Specific Conductance (µS/cm, 100°C) = 120578 Density (g/cm³) = 0.99732 Volume (L) = 1.04973 - Viscosity (mPa s) = 0.32805 + Viscosity (mPa s) = 0.32871 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.601e-01 Mass of water (kg) = 1.000e+00 @@ -21656,10 +21656,10 @@ Reaction 1. pH = 6.650 Charge balance pe = -1.053 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 120655 + Specific Conductance (µS/cm, 100°C) = 120578 Density (g/cm³) = 0.99732 Volume (L) = 1.04973 - Viscosity (mPa s) = 0.32805 + Viscosity (mPa s) = 0.32871 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.601e-01 Mass of water (kg) = 1.000e+00 @@ -21744,10 +21744,10 @@ Reaction 1. pH = 6.652 Charge balance pe = 6.230 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 159100 + Specific Conductance (µS/cm, 100°C) = 158989 Density (g/cm³) = 1.01387 Volume (L) = 1.05334 - Viscosity (mPa s) = 0.34999 + Viscosity (mPa s) = 0.35076 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.652e-01 Mass of water (kg) = 1.000e+00 @@ -21832,10 +21832,10 @@ Reaction 1. pH = 6.651 Charge balance pe = -0.983 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 169618 + Specific Conductance (µS/cm, 100°C) = 169498 Density (g/cm³) = 1.01876 Volume (L) = 1.05449 - Viscosity (mPa s) = 0.35677 + Viscosity (mPa s) = 0.35756 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.245e-01 Mass of water (kg) = 1.000e+00 @@ -21920,10 +21920,10 @@ Reaction 1. pH = 6.643 Charge balance pe = -1.111 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 207681 + Specific Conductance (µS/cm, 100°C) = 207526 Density (g/cm³) = 1.03792 Volume (L) = 1.05931 - Viscosity (mPa s) = 0.38478 + Viscosity (mPa s) = 0.38566 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.054e+00 Mass of water (kg) = 1.000e+00 @@ -22008,10 +22008,10 @@ Reaction 1. pH = 6.607 Charge balance pe = 6.295 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 286562 + Specific Conductance (µS/cm, 100°C) = 286342 Density (g/cm³) = 1.08766 Volume (L) = 1.07398 - Viscosity (mPa s) = 0.46970 + Viscosity (mPa s) = 0.47078 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.636e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_Na2SO4_sol_101.sel b/mytest/Vm_Na2SO4_sol_101.sel index 5b0d98c2..ab09d1cc 100644 --- a/mytest/Vm_Na2SO4_sol_101.sel +++ b/mytest/Vm_Na2SO4_sol_101.sel @@ -1,250 +1,250 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.080820443309 3634.5026112829 - 0.122717410466 5469.9383363926 - 0.133572446246 5942.8554380766 - 0.343503619872 14902.3524027425 - 0.406587034241 17521.2817291978 - 0.576544748023 24377.9782972057 - 0.879878821991 35754.5501085031 - 0.973312909015 39003.8426865555 - 1.087752752471 42805.4447456439 - 1.158286781772 45047.6311821468 - 1.952254063853 64766.7548758719 - 0.000000067373 0.0312920192 - 0.079475010055 4798.9596514182 - 0.097093849727 5839.1737635864 - 0.118771983265 7113.3177853213 - 0.119253006956 7141.5229954526 - 0.119380095842 7148.9744796810 - 0.120311394994 7203.5724318449 - 0.130874864147 7822.1251508787 - 0.140285667176 8372.0597989790 - 0.144923263783 8642.6814685240 - 0.180177044729 10691.7336876595 - 0.180582805909 10715.2344580978 - 0.218454984874 12900.3427814390 - 0.219060764557 12935.1590854317 - 0.219421419354 12955.8852100952 - 0.219694681234 12971.5879216928 - 0.260704897890 15318.1755023751 - 0.292458034982 17121.0642309100 - 0.293631127118 17187.4300964807 - 0.328491331506 19151.5814419154 - 0.334641741664 19496.4842051076 - 0.362696496294 21063.3626894417 - 0.395819794051 22899.5235188634 - 0.400264564776 23144.7514292278 - 0.560732757107 31801.0652339840 - 0.608808899743 34314.9325153667 - 0.714194401844 39686.4689163070 - 0.852741306290 46440.0903978923 - 0.855668099804 46578.8225750870 - 0.946702530020 50809.9004121710 - 1.127195679488 58703.1006840427 - 1.905740986509 84857.0093939154 + 0.000000043183 0.0164557984 + 0.080820443309 3634.7235213326 + 0.122717410466 5470.3366047841 + 0.133572446246 5943.3040311345 + 0.343503619872 14904.0005253248 + 0.406587034241 17523.3432128200 + 0.576544748023 24381.1999225972 + 0.879878821991 35759.7896748520 + 0.973312909015 39009.6448362218 + 1.087752752471 42811.8797617837 + 1.158286781772 45054.4217922203 + 1.952254063853 64775.5512091957 + 0.000000067373 0.0312920198 + 0.079475010055 4799.1073742490 + 0.097093849727 5839.3699254061 + 0.118771983265 7113.5784797553 + 0.119253006956 7141.7851780886 + 0.119380095842 7149.2370558960 + 0.120311394994 7203.8378971227 + 0.130874864147 7822.4239804081 + 0.140285667176 8372.3892348845 + 0.144923263783 8643.0262787774 + 0.180177044729 10692.2011278749 + 0.180582805909 10715.7033649230 + 0.218454984874 12900.9534581129 + 0.219060764557 12935.7721034124 + 0.219421419354 12956.4996230225 + 0.219694681234 12972.2033920558 + 0.260704897890 15318.9543558738 + 0.292458034982 17121.9752782886 + 0.293631127118 17188.3461117563 + 0.328491331506 19152.6475247771 + 0.334641741664 19497.5772195012 + 0.362696496294 21064.5800765818 + 0.395819794051 22900.8905792141 + 0.400264564776 23146.1387772581 + 0.560732757107 31803.2046500786 + 0.608808899743 34317.3001881807 + 0.714194401844 39689.3325345239 + 0.852741306290 46443.5825483132 + 0.855668099804 46582.3275883187 + 0.946702530020 50813.7948750109 + 1.127195679488 58707.6955247197 + 1.905740986509 84863.2586423260 0.000000100644 0.0547821292 - 0.057327297217 4462.3657450305 - 0.063423934239 4927.1863685390 - 0.075049597386 5811.1951992454 - 0.079988167673 6185.8601086535 - 0.081888682814 6329.9134145779 - 0.087397252358 6747.0528409736 - 0.095413197954 7353.0535680523 - 0.102739192224 7905.8855091716 - 0.117487494042 9016.0155532496 - 0.117566538349 9021.9555098733 - 0.117608136978 9025.0814878063 - 0.117608136978 9025.0814878063 - 0.118647290337 9103.1605919587 - 0.129017203646 9881.3553980539 - 0.137261901641 10498.8203759515 - 0.142623337395 10899.7650275567 - 0.147861095385 11291.0173573608 - 0.161112961083 12278.9634188221 - 0.167824799994 12778.2784642135 - 0.171760005420 13070.6988835008 - 0.194103840149 14726.3781292058 - 0.212722700096 16099.9364767734 - 0.213288022351 16141.5541137505 - 0.215462630158 16301.5953332558 - 0.215518475977 16305.7043201103 - 0.215518475977 16305.7043201103 - 0.215872100508 16331.7219125012 - 0.238660697587 18004.0598551871 - 0.255475827136 19232.5274246099 - 0.271373315388 20389.5769327691 - 0.281608678947 21132.2424082546 - 0.286750365103 21504.6346709404 - 0.305206865893 22837.5654942175 - 0.323085092516 24122.9828844497 - 0.336132803860 25057.4615015197 - 0.356171932100 26486.5959470721 - 0.382578975529 28358.4230029397 - 0.388834803796 28799.9191148845 - 0.392768550823 29077.1528126095 - 0.394705935339 29213.5817817928 - 0.447373711333 32894.1957200533 - 0.455538271044 33459.8041730919 - 0.489604052957 35804.9991051649 - 0.550667680909 39947.6685395789 - 0.590055887907 42576.8511977993 - 0.597881981741 43095.1370397231 - 0.636332045124 45621.3730893893 - 0.701440431730 49821.2371185256 - 0.797594220132 55838.7206176095 - 0.837717836012 58282.6398063826 - 0.838562829715 58333.6760030646 - 0.840598312372 58456.5427549086 - 0.844776493208 58708.4223295860 - 0.930225119523 63762.6727080600 - 1.040210717322 69991.3201348383 - 1.105656302260 73546.9483841760 - 1.108112598697 73678.1880517837 - 1.131819556860 74936.5979034068 - 1.170874413132 76977.0196591977 - 1.415227092240 88813.4876252728 - 1.482359828950 91784.0492650663 - 1.494770531001 92319.9638457255 - 1.695836413239 100430.6372785370 - 1.720886602960 101366.3390608092 - 1.721948366499 101405.6368136746 - 2.059055656571 112424.7483725977 - 2.294020410884 118459.0882294048 - 2.501009222357 122734.7846594190 - 0.000000144671 0.0897028169 - 0.096662452941 9210.7987575380 - 0.116488332723 11057.8545806615 - 0.117514959532 11153.2652155626 - 0.123829842450 11739.6492007615 - 0.127759236611 12104.0944690244 - 0.141935696625 13416.2360837805 - 0.176028859895 16554.6603766036 - 0.213013811633 19931.7984591716 - 0.213192152327 19948.0128957691 - 0.213541394863 19979.7632983375 - 0.253409470752 23586.9603875988 - 0.284599609855 26384.5642523430 - 0.318690962713 29417.0567569846 - 0.325078141501 29982.1995090866 - 0.325128767758 29986.6751206889 - 0.352621625369 32408.1645631959 - 0.389165329357 35598.4382489304 - 0.544439044653 48770.8921367478 - 0.591155576559 52605.9095762218 - 0.593480415377 52795.1470950682 - 0.693669086363 60801.5718381069 - 0.772670205992 66904.4865192132 - 0.828666174075 71114.7045885911 - 0.831520706575 71326.7275029368 - 0.920362626659 77797.7166576078 - 1.053818110000 87045.6431671855 - 1.094376505427 89742.2049224357 - 1.302523317686 102735.8028569316 - 1.468507499761 112080.7868914808 - 1.668732396418 122163.3768520165 - 1.706745979332 123932.5766806648 - 1.854021651796 130358.0206551966 - 2.069413902742 138557.7871003844 - 2.268389647006 144921.5538306419 - 0.000000200960 0.1389183081 - 0.115697965632 13217.9325213411 - 0.115697965632 13217.9325213411 - 0.211620596362 23823.9094404467 - 0.211620596362 23823.9094404467 - 0.299529198330 33325.7345910392 - 0.303776134157 33779.2482590859 - 0.553281116861 59444.5549946622 - 0.779855329700 80919.1099581264 - 0.823231675833 84816.7036773904 - 0.994998932285 99552.1880049512 - 1.087781456047 107040.6545655778 - 1.183906826975 114446.7165333824 - 1.359358964384 127037.8977791064 - 1.460635026647 133762.5333032288 - 1.698231141501 147998.2723133584 - 1.751983083219 150923.9227326582 - 1.853039458145 156135.5482034601 - 1.949206090726 160750.3204548951 - 2.140877817298 168972.5699859127 - 0.000000270724 0.2051343431 - 0.115066147096 15475.3798412836 - 0.210418201738 27878.6276674260 - 0.259160180580 34104.2548084793 - 0.466806588795 59683.6401362935 - 0.659567055127 81926.1961666621 - 0.819607619812 99200.7119485163 - 0.838445714413 101160.4100197740 - 0.851209793189 102479.3098795864 - 1.006692333840 117961.2522777570 - 1.019001109762 119140.4841881558 - 1.083539025428 125211.4425584303 - 1.180601285200 133986.8790572021 - 1.342521643099 147677.2032349753 - 1.455775293483 156551.1687031189 - 1.505992641952 160302.6362159834 - 1.524021457109 161622.1644227033 - 1.663148692879 171323.6667223861 - 1.693090856238 173301.0947192542 - 1.820566527482 181288.5194614803 - 1.854948249332 183324.5435628174 - 0.000000453436 0.3969732245 - 0.113724911184 20124.2879110884 - 0.122504288751 21642.2353108467 - 0.199759087599 34848.8775194979 - 0.207911106221 36226.6815123545 - 0.219344161469 38153.8927958616 - 0.294409454197 50655.5810243894 - 0.368054248483 62656.0473413940 - 0.382318063416 64949.0162160463 - 0.391323876774 66391.4053175537 - 0.432628410104 72953.3241574854 - 0.551485564253 91332.4542540235 - 0.662795051423 107843.0106131856 - 0.663870988303 107999.2141127822 - 0.774404514723 123694.5599008147 - 0.804415742793 127834.7524643317 - 0.809263083676 128498.5721790127 - 0.937413581612 145551.6730944522 - 1.100758443471 165892.8365508262 - 1.205714367686 178136.2070459571 - 1.447619116951 203910.6442118218 - 1.454769752969 204621.1600855576 - 1.660130898819 223790.1663179193 - 1.696356128742 226926.5258828834 - 1.938314490728 246040.9486216545 - 2.039234475808 253093.3391649635 - 2.180641708604 262095.0987371656 - 2.408444030500 274518.5193503642 - 2.652475086161 285138.5118961631 - 0.000000693037 0.6737094450 - 0.222997569162 48306.5077086025 - 0.404773495940 85263.3500832658 - 0.569034535838 116751.9176849520 - 0.679850704751 136919.6641757132 - 0.883778756639 171704.7286147292 - 0.995494396510 189468.6280557784 - 1.013168575091 192195.1088559499 - 1.162148806872 214269.8464188863 - 1.272961022889 229643.8603206043 - 1.436107583496 250678.7404910942 - 1.586851189049 268452.1511422328 - 0.000000760967 0.7555719569 - 0.125792865670 29065.3574915315 - 0.125792865670 29065.3574915315 - 0.202322370016 46142.7010191066 - 0.217044713832 49384.0834358075 - 0.217044713832 49384.0834358075 - 0.286532341654 64487.9687265590 - 0.369084626557 82001.9428290917 - 0.369753113279 82141.8166755472 - 0.370079497576 82210.0976283679 - 0.370079497576 82210.0976283679 - 0.422524763168 93083.0064986474 - 0.560124625599 120655.5006976581 - 0.560124625599 120655.5006976581 - 0.765197607787 159100.5421722658 - 0.824516165622 169618.7292996645 - 1.053576051752 207681.6597832541 - 1.636160404704 286562.8284659355 + 0.057327297217 4462.3658422513 + 0.063423934239 4927.1864808261 + 0.075049597386 5811.1953419185 + 0.079988167673 6185.8602648463 + 0.081888682814 6329.9135760656 + 0.087397252358 6747.0530180874 + 0.095413197954 7353.0537686174 + 0.102739192224 7905.8857318704 + 0.117487494042 9016.0158223994 + 0.117566538349 9021.9557792785 + 0.117608136978 9025.0817573460 + 0.117608136978 9025.0817573460 + 0.118647290337 9103.1608648632 + 0.129017203646 9881.3557051542 + 0.137261901641 10498.8207110096 + 0.142623337395 10899.7653811446 + 0.147861095385 11291.0177293075 + 0.161112961083 12278.9638383004 + 0.167824799994 12778.2789083315 + 0.171760005420 13070.6993422350 + 0.194103840149 14726.3786731751 + 0.212722700096 16099.9370944739 + 0.213288022351 16141.5547337255 + 0.215462630158 16301.5959619995 + 0.215518475977 16305.7049490796 + 0.215518475977 16305.7049490796 + 0.215872100508 16331.7225428994 + 0.238660697587 18004.0605792744 + 0.255475827136 19232.5282197315 + 0.271373315388 20389.5777964056 + 0.281608678947 21132.2433166535 + 0.286750365103 21504.6356020079 + 0.305206865893 22837.5665076045 + 0.323085092516 24122.9839788949 + 0.336132803860 25057.4626558720 + 0.356171932100 26486.5971945541 + 0.382578975529 28358.4243749978 + 0.388834803796 28799.9205167316 + 0.392768550823 29077.1542332386 + 0.394705935339 29213.5832116859 + 0.447373711333 32894.1974048532 + 0.455538271044 33459.8058978578 + 0.489604052957 35805.0009976634 + 0.550667680909 39947.6707353843 + 0.590055887907 42576.8535899734 + 0.597881981741 43095.1394709068 + 0.636332045124 45621.3757119306 + 0.701440431730 49821.2400627607 + 0.797594220132 55838.7240270926 + 0.837717836012 58282.6434051395 + 0.838562829715 58333.6796057713 + 0.840598312372 58456.5463671236 + 0.844776493208 58708.4259612899 + 0.930225119523 63762.6767292450 + 1.040210717322 69991.3246281608 + 1.105656302260 73546.9531406935 + 1.108112598697 73678.1928179042 + 1.131819556860 74936.6027611564 + 1.170874413132 76977.0246636656 + 1.415227092240 88813.4934211301 + 1.482359828950 91784.0552386536 + 1.494770531001 92319.9698502671 + 1.695836413239 100430.6437024379 + 1.720886602960 101366.3455262734 + 1.721948366499 101405.6432808492 + 2.059055656571 112424.7551822859 + 2.294020410884 118459.0950655007 + 2.501009222357 122734.7914002981 + 0.000000144671 0.0897028141 + 0.096662452941 9210.4764019085 + 0.116488332723 11057.4348743036 + 0.117514959532 11152.8402773983 + 0.123829842450 11739.1916917919 + 0.127759236611 12103.6163627158 + 0.141935696625 13415.6816601866 + 0.176028859895 16553.9107503615 + 0.213013811633 19930.8210422958 + 0.213192152327 19947.0343447703 + 0.213541394863 19978.7825254724 + 0.253409470752 23585.7183822155 + 0.284599609855 26383.1085361736 + 0.318690962713 29415.3595971792 + 0.325078141501 29980.4563092105 + 0.325128767758 29984.9315549465 + 0.352621625369 32406.2202557892 + 0.389165329357 35596.2214927635 + 0.544439044653 48767.4736809620 + 0.591155576559 52602.1236173331 + 0.593480415377 52791.3428472971 + 0.693669086363 60796.9833907850 + 0.772670205992 66899.2910506963 + 0.828666174075 71109.0884912489 + 0.831520706575 71321.0902175693 + 0.920362626659 77791.4341266072 + 1.053818110000 87038.4516945097 + 1.094376505427 89734.7535819823 + 1.302523317686 102727.1531044423 + 1.468507499761 112071.3554830767 + 1.668732396418 122153.2154727584 + 1.706745979332 123922.3028280784 + 1.854021651796 130347.3875278749 + 2.069413902742 138546.8367589043 + 2.268389647006 144910.5100419122 + 0.000000200960 0.1389182971 + 0.115697965632 13216.9075622462 + 0.115697965632 13216.9075622462 + 0.211620596362 23821.5200933775 + 0.211620596362 23821.5200933775 + 0.299529198330 33321.8846835804 + 0.303776134157 33775.3241377369 + 0.553281116861 59435.9536190127 + 0.779855329700 80906.1659970081 + 0.823231675833 84802.9561187122 + 0.994998932285 99535.4133741835 + 1.087781456047 107022.3701660407 + 1.183906826975 114426.9753467925 + 1.359358964384 127015.8044724718 + 1.460635026647 133739.2720413192 + 1.698231141501 147972.8284110067 + 1.751983083219 150898.0925554755 + 1.853039458145 156109.0964028562 + 1.949206090726 160723.4005517561 + 2.140877817298 168945.0573009683 + 0.000000270724 0.2051343124 + 0.115066147096 15473.5396382943 + 0.210418201738 27874.3367850500 + 0.259160180580 34098.5348051753 + 0.466806588795 59671.0914537604 + 0.659567055127 81906.9136508326 + 0.819607619812 99175.9626055250 + 0.838445714413 101135.0359007048 + 0.851209793189 102453.5152219225 + 1.006692333840 117930.5437736621 + 1.019001109762 119109.4050375013 + 1.083539025428 125178.4689815528 + 1.180601285200 133951.2202198416 + 1.342521643099 147637.5369333989 + 1.455775293483 156509.0689434978 + 1.505992641952 160259.5571086450 + 1.524021457109 161578.7487305347 + 1.663148692879 171277.9202026835 + 1.693090856238 173254.9079786301 + 1.820566527482 181240.6980686841 + 1.854948249332 183276.3467015033 + 0.000000453436 0.3969730726 + 0.113724911184 20120.1169379987 + 0.122504288751 21637.6014189636 + 0.199759087599 34839.6694468250 + 0.207911106221 36216.9467259932 + 0.219344161469 38143.4074242169 + 0.294409454197 50639.8734652335 + 0.368054248483 62634.8395739889 + 0.382318063416 64926.7116877183 + 0.391323876774 66368.4040592333 + 0.432628410104 72927.0910146233 + 0.551485564253 91296.7120223169 + 0.662795051423 107798.3046425713 + 0.663870988303 107954.4219707095 + 0.774404514723 123641.0227973744 + 0.804415742793 127778.8887745313 + 0.809263083676 128442.3350300964 + 0.937413581612 145485.8362862733 + 1.100758443471 165815.6882229186 + 1.205714367686 178052.4330139875 + 1.447619116951 203813.7310668106 + 1.454769752969 204523.9056161966 + 1.660130898819 223684.2831856136 + 1.696356128742 226819.3555040062 + 1.938314490728 245926.9447247600 + 2.039234475808 252977.3622346503 + 2.180641708604 261977.1767202769 + 2.408444030500 274399.3296693120 + 2.652475086161 285020.2244699204 + 0.000000693037 0.6737089236 + 0.222997569162 48286.7510087955 + 0.404773495940 85219.0455217205 + 0.569034535838 116683.5013631320 + 0.679850704751 136834.8868659686 + 0.883778756639 171590.9531597197 + 0.995494396510 189340.0070669328 + 1.013168575091 192064.2225992043 + 1.162148806872 214120.8713910807 + 1.272961022889 229482.6809780365 + 1.436107583496 250501.6646580621 + 1.586851189049 268262.6444878824 + 0.000000760967 0.7555712755 + 0.125792865670 29055.2761426930 + 0.125792865670 29055.2761426930 + 0.202322370016 46123.0226433236 + 0.217044713832 49362.3839223198 + 0.217044713832 49362.3839223198 + 0.286532341654 64456.1583879790 + 0.369084626557 81957.2073559679 + 0.369753113279 82096.9735555654 + 0.370079497576 82165.2019360535 + 0.370079497576 82165.2019360535 + 0.422524763168 93029.5541960955 + 0.560124625599 120578.9867209384 + 0.560124625599 120578.9867209384 + 0.765197607787 158989.7945667189 + 0.824516165622 169498.4066982965 + 1.053576051752 207526.7432922287 + 1.636160404704 286342.9203153168 diff --git a/mytest/Vm_NaCl_sol.out b/mytest/Vm_NaCl_sol.out index c7e7eb24..eeec71c9 100644 --- a/mytest/Vm_NaCl_sol.out +++ b/mytest/Vm_NaCl_sol.out @@ -226,7 +226,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 4588 Density (g/cm³) = 1.00297 Volume (L) = 1.00103 - Viscosity (mPa s) = 1.52638 + Viscosity (mPa s) = 1.52624 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.845e-02 Mass of water (kg) = 1.000e+00 @@ -300,10 +300,10 @@ Reaction 1. pH = 7.354 Charge balance pe = -0.523 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 6150 + Specific Conductance (µS/cm, 5°C) = 6151 Density (g/cm³) = 1.00405 Volume (L) = 1.00140 - Viscosity (mPa s) = 1.52899 + Viscosity (mPa s) = 1.52882 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.340e-02 Mass of water (kg) = 1.000e+00 @@ -380,7 +380,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 6240 Density (g/cm³) = 1.00411 Volume (L) = 1.00143 - Viscosity (mPa s) = 1.52914 + Viscosity (mPa s) = 1.52897 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.485e-02 Mass of water (kg) = 1.000e+00 @@ -457,7 +457,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 6558 Density (g/cm³) = 1.00433 Volume (L) = 1.00150 - Viscosity (mPa s) = 1.52968 + Viscosity (mPa s) = 1.52950 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -531,10 +531,10 @@ Reaction 1. pH = 7.352 Charge balance pe = -0.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 8038 + Specific Conductance (µS/cm, 5°C) = 8039 Density (g/cm³) = 1.00538 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.53219 + Viscosity (mPa s) = 1.53200 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.243e-01 Mass of water (kg) = 1.000e+00 @@ -608,10 +608,10 @@ Reaction 1. pH = 7.350 Charge balance pe = -0.466 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 10263 + Specific Conductance (µS/cm, 5°C) = 10264 Density (g/cm³) = 1.00698 Volume (L) = 1.00244 - Viscosity (mPa s) = 1.53604 + Viscosity (mPa s) = 1.53582 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.615e-01 Mass of water (kg) = 1.000e+00 @@ -685,10 +685,10 @@ Reaction 1. pH = 7.350 Charge balance pe = -0.514 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 10549 + Specific Conductance (µS/cm, 5°C) = 10550 Density (g/cm³) = 1.00719 Volume (L) = 1.00251 - Viscosity (mPa s) = 1.53655 + Viscosity (mPa s) = 1.53632 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.663e-01 Mass of water (kg) = 1.000e+00 @@ -762,10 +762,10 @@ Reaction 1. pH = 7.349 Charge balance pe = -0.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 12431 + Specific Conductance (µS/cm, 5°C) = 12432 Density (g/cm³) = 1.00856 Volume (L) = 1.00301 - Viscosity (mPa s) = 1.53989 + Viscosity (mPa s) = 1.53964 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.985e-01 Mass of water (kg) = 1.000e+00 @@ -839,10 +839,10 @@ Reaction 1. pH = 7.349 Charge balance pe = -0.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 12518 + Specific Conductance (µS/cm, 5°C) = 12520 Density (g/cm³) = 1.00863 Volume (L) = 1.00303 - Viscosity (mPa s) = 1.54005 + Viscosity (mPa s) = 1.53980 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -916,10 +916,10 @@ Reaction 1. pH = 7.347 Charge balance pe = -0.460 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 15792 + Specific Conductance (µS/cm, 5°C) = 15794 Density (g/cm³) = 1.01106 Volume (L) = 1.00393 - Viscosity (mPa s) = 1.54605 + Viscosity (mPa s) = 1.54577 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.572e-01 Mass of water (kg) = 1.000e+00 @@ -993,10 +993,10 @@ Reaction 1. pH = 7.345 Charge balance pe = -0.759 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 19292 + Specific Conductance (µS/cm, 5°C) = 19295 Density (g/cm³) = 1.01371 Volume (L) = 1.00492 - Viscosity (mPa s) = 1.55273 + Viscosity (mPa s) = 1.55241 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.200e-01 Mass of water (kg) = 1.000e+00 @@ -1070,10 +1070,10 @@ Reaction 1. pH = 7.345 Charge balance pe = -0.380 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 20014 + Specific Conductance (µS/cm, 5°C) = 20017 Density (g/cm³) = 1.01426 Volume (L) = 1.00513 - Viscosity (mPa s) = 1.55414 + Viscosity (mPa s) = 1.55382 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.331e-01 Mass of water (kg) = 1.000e+00 @@ -1147,10 +1147,10 @@ Reaction 1. pH = 7.344 Charge balance pe = -0.737 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 21286 + Specific Conductance (µS/cm, 5°C) = 21289 Density (g/cm³) = 1.01524 Volume (L) = 1.00550 - Viscosity (mPa s) = 1.55666 + Viscosity (mPa s) = 1.55633 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.564e-01 Mass of water (kg) = 1.000e+00 @@ -1224,10 +1224,10 @@ Reaction 1. pH = 7.342 Charge balance pe = -0.462 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 27652 + Specific Conductance (µS/cm, 5°C) = 27657 Density (g/cm³) = 1.02022 Volume (L) = 1.00744 - Viscosity (mPa s) = 1.56987 + Viscosity (mPa s) = 1.56949 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.758e-01 Mass of water (kg) = 1.000e+00 @@ -1301,10 +1301,10 @@ Reaction 1. pH = 7.342 Charge balance pe = -0.614 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 28041 + Specific Conductance (µS/cm, 5°C) = 28046 Density (g/cm³) = 1.02052 Volume (L) = 1.00756 - Viscosity (mPa s) = 1.57071 + Viscosity (mPa s) = 1.57033 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.832e-01 Mass of water (kg) = 1.000e+00 @@ -1378,10 +1378,10 @@ Reaction 1. pH = 7.341 Charge balance pe = -0.203 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 28916 + Specific Conductance (µS/cm, 5°C) = 28921 Density (g/cm³) = 1.02122 Volume (L) = 1.00784 - Viscosity (mPa s) = 1.57262 + Viscosity (mPa s) = 1.57223 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -1455,10 +1455,10 @@ Reaction 1. pH = 7.341 Charge balance pe = -0.629 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 28978 + Specific Conductance (µS/cm, 5°C) = 28984 Density (g/cm³) = 1.02127 Volume (L) = 1.00786 - Viscosity (mPa s) = 1.57275 + Viscosity (mPa s) = 1.57236 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.012e-01 Mass of water (kg) = 1.000e+00 @@ -1532,10 +1532,10 @@ Reaction 1. pH = 7.341 Charge balance pe = 0.168 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 29015 + Specific Conductance (µS/cm, 5°C) = 29020 Density (g/cm³) = 1.02130 Volume (L) = 1.00787 - Viscosity (mPa s) = 1.57283 + Viscosity (mPa s) = 1.57244 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.019e-01 Mass of water (kg) = 1.000e+00 @@ -1609,10 +1609,10 @@ Reaction 1. pH = 7.341 Charge balance pe = 11.825 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 29324 + Specific Conductance (µS/cm, 5°C) = 29329 Density (g/cm³) = 1.02154 Volume (L) = 1.00797 - Viscosity (mPa s) = 1.57351 + Viscosity (mPa s) = 1.57312 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.079e-01 Mass of water (kg) = 1.000e+00 @@ -1686,10 +1686,10 @@ Reaction 1. pH = 7.339 Charge balance pe = -0.674 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 36822 + Specific Conductance (µS/cm, 5°C) = 36829 Density (g/cm³) = 1.02760 Volume (L) = 1.01042 - Viscosity (mPa s) = 1.59081 + Viscosity (mPa s) = 1.59037 Activity of water = 0.978 Ionic strength (mol/kgw) = 6.556e-01 Mass of water (kg) = 1.000e+00 @@ -1763,10 +1763,10 @@ Reaction 1. pH = 7.338 Charge balance pe = -0.685 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 38247 + Specific Conductance (µS/cm, 5°C) = 38255 Density (g/cm³) = 1.02878 Volume (L) = 1.01091 - Viscosity (mPa s) = 1.59429 + Viscosity (mPa s) = 1.59383 Activity of water = 0.977 Ionic strength (mol/kgw) = 6.844e-01 Mass of water (kg) = 1.000e+00 @@ -1840,10 +1840,10 @@ Reaction 1. pH = 7.338 Charge balance pe = -0.324 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 40219 + Specific Conductance (µS/cm, 5°C) = 40228 Density (g/cm³) = 1.03041 Volume (L) = 1.01159 - Viscosity (mPa s) = 1.59920 + Viscosity (mPa s) = 1.59873 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.247e-01 Mass of water (kg) = 1.000e+00 @@ -1917,10 +1917,10 @@ Reaction 1. pH = 7.337 Charge balance pe = 12.034 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 43256 + Specific Conductance (µS/cm, 5°C) = 43266 Density (g/cm³) = 1.03295 Volume (L) = 1.01266 - Viscosity (mPa s) = 1.60701 + Viscosity (mPa s) = 1.60652 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.875e-01 Mass of water (kg) = 1.000e+00 @@ -1994,10 +1994,10 @@ Reaction 1. pH = 7.337 Charge balance pe = -0.485 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 43854 + Specific Conductance (µS/cm, 5°C) = 43864 Density (g/cm³) = 1.03345 Volume (L) = 1.01287 - Viscosity (mPa s) = 1.60859 + Viscosity (mPa s) = 1.60809 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.000e-01 Mass of water (kg) = 1.000e+00 @@ -2071,10 +2071,10 @@ Reaction 1. pH = 7.336 Charge balance pe = -0.830 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 45809 + Specific Conductance (µS/cm, 5°C) = 45819 Density (g/cm³) = 1.03510 Volume (L) = 1.01358 - Viscosity (mPa s) = 1.61381 + Viscosity (mPa s) = 1.61331 Activity of water = 0.971 Ionic strength (mol/kgw) = 8.412e-01 Mass of water (kg) = 1.000e+00 @@ -2148,10 +2148,10 @@ Reaction 1. pH = 7.335 Charge balance pe = -0.844 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 50743 + Specific Conductance (µS/cm, 5°C) = 50755 Density (g/cm³) = 1.03933 Volume (L) = 1.01541 - Viscosity (mPa s) = 1.62761 + Viscosity (mPa s) = 1.62708 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.471e-01 Mass of water (kg) = 1.000e+00 @@ -2225,10 +2225,10 @@ Reaction 1. pH = 7.334 Charge balance pe = -0.575 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 51482 + Specific Conductance (µS/cm, 5°C) = 51495 Density (g/cm³) = 1.03997 Volume (L) = 1.01569 - Viscosity (mPa s) = 1.62976 + Viscosity (mPa s) = 1.62922 Activity of water = 0.967 Ionic strength (mol/kgw) = 9.632e-01 Mass of water (kg) = 1.000e+00 @@ -2302,10 +2302,10 @@ Reaction 1. pH = 7.334 Charge balance pe = -0.760 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 52915 + Specific Conductance (µS/cm, 5°C) = 52928 Density (g/cm³) = 1.04122 Volume (L) = 1.01624 - Viscosity (mPa s) = 1.63397 + Viscosity (mPa s) = 1.63342 Activity of water = 0.966 Ionic strength (mol/kgw) = 9.947e-01 Mass of water (kg) = 1.000e+00 @@ -2379,10 +2379,10 @@ Reaction 1. pH = 7.334 Charge balance pe = 1.146 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 53119 + Specific Conductance (µS/cm, 5°C) = 53132 Density (g/cm³) = 1.04140 Volume (L) = 1.01632 - Viscosity (mPa s) = 1.63458 + Viscosity (mPa s) = 1.63403 Activity of water = 0.966 Ionic strength (mol/kgw) = 9.992e-01 Mass of water (kg) = 1.000e+00 @@ -2456,10 +2456,10 @@ Reaction 1. pH = 7.334 Charge balance pe = -0.978 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 53209 + Specific Conductance (µS/cm, 5°C) = 53222 Density (g/cm³) = 1.04148 Volume (L) = 1.01636 - Viscosity (mPa s) = 1.63485 + Viscosity (mPa s) = 1.63430 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.001e+00 Mass of water (kg) = 1.000e+00 @@ -2533,10 +2533,10 @@ Reaction 1. pH = 7.331 Charge balance pe = -0.234 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 61971 + Specific Conductance (µS/cm, 5°C) = 61987 Density (g/cm³) = 1.04928 Volume (L) = 1.01987 - Viscosity (mPa s) = 1.66256 + Viscosity (mPa s) = 1.66196 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -2610,10 +2610,10 @@ Reaction 1. pH = 7.331 Charge balance pe = 0.865 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 64566 + Specific Conductance (µS/cm, 5°C) = 64583 Density (g/cm³) = 1.05165 Volume (L) = 1.02096 - Viscosity (mPa s) = 1.67143 + Viscosity (mPa s) = 1.67081 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.261e+00 Mass of water (kg) = 1.000e+00 @@ -2687,10 +2687,10 @@ Reaction 1. pH = 7.328 Charge balance pe = -0.728 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 74319 + Specific Conductance (µS/cm, 5°C) = 74341 Density (g/cm³) = 1.06082 Volume (L) = 1.02530 - Viscosity (mPa s) = 1.70777 + Viscosity (mPa s) = 1.70709 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -2764,10 +2764,10 @@ Reaction 1. pH = 7.328 Charge balance pe = -0.416 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 74396 + Specific Conductance (µS/cm, 5°C) = 74417 Density (g/cm³) = 1.06089 Volume (L) = 1.02533 - Viscosity (mPa s) = 1.70808 + Viscosity (mPa s) = 1.70740 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.502e+00 Mass of water (kg) = 1.000e+00 @@ -2841,10 +2841,10 @@ Reaction 1. pH = 7.326 Charge balance pe = -0.772 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 85034 + Specific Conductance (µS/cm, 5°C) = 85061 Density (g/cm³) = 1.07145 Volume (L) = 1.03054 - Viscosity (mPa s) = 1.75419 + Viscosity (mPa s) = 1.75345 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.782e+00 Mass of water (kg) = 1.000e+00 @@ -2918,10 +2918,10 @@ Reaction 1. pH = 7.325 Charge balance pe = -0.931 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 90981 + Specific Conductance (µS/cm, 5°C) = 91010 Density (g/cm³) = 1.07765 Volume (L) = 1.03370 - Viscosity (mPa s) = 1.78350 + Viscosity (mPa s) = 1.78272 Activity of water = 0.934 Ionic strength (mol/kgw) = 1.950e+00 Mass of water (kg) = 1.000e+00 @@ -2995,10 +2995,10 @@ Reaction 1. pH = 7.325 Charge balance pe = -1.071 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 91499 + Specific Conductance (µS/cm, 5°C) = 91528 Density (g/cm³) = 1.07820 Volume (L) = 1.03398 - Viscosity (mPa s) = 1.78619 + Viscosity (mPa s) = 1.78541 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.965e+00 Mass of water (kg) = 1.000e+00 @@ -3072,10 +3072,10 @@ Reaction 1. pH = 7.324 Charge balance pe = -1.060 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 92813 + Specific Conductance (µS/cm, 5°C) = 92842 Density (g/cm³) = 1.07961 Volume (L) = 1.03471 - Viscosity (mPa s) = 1.79312 + Viscosity (mPa s) = 1.79233 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.003e+00 Mass of water (kg) = 1.000e+00 @@ -3149,10 +3149,10 @@ Reaction 1. pH = 7.323 Charge balance pe = 11.859 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 100938 + Specific Conductance (µS/cm, 5°C) = 100971 Density (g/cm³) = 1.08861 Volume (L) = 1.03949 - Viscosity (mPa s) = 1.83964 + Viscosity (mPa s) = 1.83881 Activity of water = 0.923 Ionic strength (mol/kgw) = 2.252e+00 Mass of water (kg) = 1.000e+00 @@ -3226,10 +3226,10 @@ Reaction 1. pH = 7.322 Charge balance pe = 12.147 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 107656 + Specific Conductance (µS/cm, 5°C) = 107692 Density (g/cm³) = 1.09650 Volume (L) = 1.04382 - Viscosity (mPa s) = 1.88367 + Viscosity (mPa s) = 1.88280 Activity of water = 0.916 Ionic strength (mol/kgw) = 2.473e+00 Mass of water (kg) = 1.000e+00 @@ -3303,10 +3303,10 @@ Reaction 1. pH = 7.321 Charge balance pe = -0.579 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 115691 + Specific Conductance (µS/cm, 5°C) = 115731 Density (g/cm³) = 1.10661 Volume (L) = 1.04955 - Viscosity (mPa s) = 1.94472 + Viscosity (mPa s) = 1.94381 Activity of water = 0.906 Ionic strength (mol/kgw) = 2.763e+00 Mass of water (kg) = 1.000e+00 @@ -3380,10 +3380,10 @@ Reaction 1. pH = 7.320 Charge balance pe = -1.130 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 120507 + Specific Conductance (µS/cm, 5°C) = 120549 Density (g/cm³) = 1.11310 Volume (L) = 1.05336 - Viscosity (mPa s) = 1.98681 + Viscosity (mPa s) = 1.98586 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.951e+00 Mass of water (kg) = 1.000e+00 @@ -3457,10 +3457,10 @@ Reaction 1. pH = 7.320 Charge balance pe = -0.841 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 121295 + Specific Conductance (µS/cm, 5°C) = 121337 Density (g/cm³) = 1.11419 Volume (L) = 1.05401 - Viscosity (mPa s) = 1.99416 + Viscosity (mPa s) = 1.99321 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.984e+00 Mass of water (kg) = 1.000e+00 @@ -3534,10 +3534,10 @@ Reaction 1. pH = 7.320 Charge balance pe = -0.571 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 132406 + Specific Conductance (µS/cm, 5°C) = 132453 Density (g/cm³) = 1.13101 Volume (L) = 1.06436 - Viscosity (mPa s) = 2.11576 + Viscosity (mPa s) = 2.11473 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.487e+00 Mass of water (kg) = 1.000e+00 @@ -3611,10 +3611,10 @@ Reaction 1. pH = 7.321 Charge balance pe = 11.263 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 140657 + Specific Conductance (µS/cm, 5°C) = 140708 Density (g/cm³) = 1.14575 Volume (L) = 1.07400 - Viscosity (mPa s) = 2.23723 + Viscosity (mPa s) = 2.23613 Activity of water = 0.866 Ionic strength (mol/kgw) = 3.945e+00 Mass of water (kg) = 1.000e+00 @@ -3688,10 +3688,10 @@ Reaction 1. pH = 7.322 Charge balance pe = -0.654 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 147892 + Specific Conductance (µS/cm, 5°C) = 147945 Density (g/cm³) = 1.16138 Volume (L) = 1.08484 - Viscosity (mPa s) = 2.38278 + Viscosity (mPa s) = 2.38161 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.447e+00 Mass of water (kg) = 1.000e+00 @@ -3765,10 +3765,10 @@ Reaction 1. pH = 7.324 Charge balance pe = -0.858 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 153237 + Specific Conductance (µS/cm, 5°C) = 153291 Density (g/cm³) = 1.17586 Volume (L) = 1.09549 - Viscosity (mPa s) = 2.53472 + Viscosity (mPa s) = 2.53350 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.930e+00 Mass of water (kg) = 1.000e+00 @@ -3842,10 +3842,10 @@ Reaction 1. pH = 7.326 Charge balance pe = -1.280 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 157003 + Specific Conductance (µS/cm, 5°C) = 157058 Density (g/cm³) = 1.18905 Volume (L) = 1.10573 - Viscosity (mPa s) = 2.68897 + Viscosity (mPa s) = 2.68768 Activity of water = 0.817 Ionic strength (mol/kgw) = 5.386e+00 Mass of water (kg) = 1.000e+00 @@ -3919,10 +3919,10 @@ Reaction 1. pH = 7.329 Charge balance pe = 12.512 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 160186 + Specific Conductance (µS/cm, 5°C) = 160240 Density (g/cm³) = 1.20481 Volume (L) = 1.11871 - Viscosity (mPa s) = 2.89541 + Viscosity (mPa s) = 2.89406 Activity of water = 0.798 Ionic strength (mol/kgw) = 5.952e+00 Mass of water (kg) = 1.000e+00 @@ -7953,7 +7953,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 21350 Density (g/cm³) = 1.00569 Volume (L) = 1.00670 - Viscosity (mPa s) = 0.90723 + Viscosity (mPa s) = 0.90722 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.126e-01 Mass of water (kg) = 1.000e+00 @@ -15961,7 +15961,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 85644 Density (g/cm³) = 1.03676 Volume (L) = 1.02197 - Viscosity (mPa s) = 0.97495 + Viscosity (mPa s) = 0.97494 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -20809,7 +20809,7 @@ Reaction 1. pH = 6.950 Charge balance pe = -0.556 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 191257 + Specific Conductance (µS/cm, 25°C) = 191258 Density (g/cm³) = 1.10723 Volume (L) = 1.06413 Viscosity (mPa s) = 1.21067 @@ -21579,7 +21579,7 @@ Reaction 1. pH = 6.950 Charge balance pe = 10.546 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 210855 + Specific Conductance (µS/cm, 25°C) = 210856 Density (g/cm³) = 1.12659 Volume (L) = 1.07751 Viscosity (mPa s) = 1.30119 @@ -22429,7 +22429,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -22506,7 +22506,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -22580,7 +22580,7 @@ Reaction 1. pH = 6.953 Charge balance pe = -0.710 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 232171 + Specific Conductance (µS/cm, 25°C) = 232172 Density (g/cm³) = 1.15436 Volume (L) = 1.09815 Viscosity (mPa s) = 1.45534 @@ -22657,7 +22657,7 @@ Reaction 1. pH = 6.953 Charge balance pe = 11.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 233208 + Specific Conductance (µS/cm, 25°C) = 233209 Density (g/cm³) = 1.15603 Volume (L) = 1.09944 Viscosity (mPa s) = 1.46562 @@ -24455,10 +24455,10 @@ Reaction 1. pH = 6.686 Charge balance pe = 0.105 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 10519 + Specific Conductance (µS/cm, 45°C) = 10518 Density (g/cm³) = 0.99291 Volume (L) = 1.01117 - Viscosity (mPa s) = 0.60048 + Viscosity (mPa s) = 0.60055 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.845e-02 Mass of water (kg) = 1.000e+00 @@ -24533,10 +24533,10 @@ Reaction 1. pH = 6.686 Charge balance pe = 0.169 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 10961 + Specific Conductance (µS/cm, 45°C) = 10960 Density (g/cm³) = 0.99303 Volume (L) = 1.01123 - Viscosity (mPa s) = 0.60067 + Viscosity (mPa s) = 0.60074 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.152e-02 Mass of water (kg) = 1.000e+00 @@ -24611,10 +24611,10 @@ Reaction 1. pH = 6.684 Charge balance pe = 0.092 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 14073 + Specific Conductance (µS/cm, 45°C) = 14072 Density (g/cm³) = 0.99389 Volume (L) = 1.01164 - Viscosity (mPa s) = 0.60201 + Viscosity (mPa s) = 0.60209 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.340e-02 Mass of water (kg) = 1.000e+00 @@ -24689,10 +24689,10 @@ Reaction 1. pH = 6.683 Charge balance pe = 0.079 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 14998 + Specific Conductance (µS/cm, 45°C) = 14997 Density (g/cm³) = 0.99416 Volume (L) = 1.01176 - Viscosity (mPa s) = 0.60241 + Viscosity (mPa s) = 0.60250 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -24767,10 +24767,10 @@ Reaction 1. pH = 6.682 Charge balance pe = 0.113 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 18354 + Specific Conductance (µS/cm, 45°C) = 18352 Density (g/cm³) = 0.99511 Volume (L) = 1.01221 - Viscosity (mPa s) = 0.60388 + Viscosity (mPa s) = 0.60398 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.243e-01 Mass of water (kg) = 1.000e+00 @@ -24845,10 +24845,10 @@ Reaction 1. pH = 6.679 Charge balance pe = 0.064 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 23266 + Specific Conductance (µS/cm, 45°C) = 23263 Density (g/cm³) = 0.99654 Volume (L) = 1.01289 - Viscosity (mPa s) = 0.60607 + Viscosity (mPa s) = 0.60618 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.606e-01 Mass of water (kg) = 1.000e+00 @@ -24923,10 +24923,10 @@ Reaction 1. pH = 6.678 Charge balance pe = 0.246 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 28011 + Specific Conductance (µS/cm, 45°C) = 28007 Density (g/cm³) = 0.99794 Volume (L) = 1.01358 - Viscosity (mPa s) = 0.60823 + Viscosity (mPa s) = 0.60835 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.966e-01 Mass of water (kg) = 1.000e+00 @@ -25001,10 +25001,10 @@ Reaction 1. pH = 6.677 Charge balance pe = 0.144 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 28460 + Specific Conductance (µS/cm, 45°C) = 28456 Density (g/cm³) = 0.99807 Volume (L) = 1.01364 - Viscosity (mPa s) = 0.60844 + Viscosity (mPa s) = 0.60856 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -25079,10 +25079,10 @@ Reaction 1. pH = 6.677 Charge balance pe = 0.158 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 30623 + Specific Conductance (µS/cm, 45°C) = 30618 Density (g/cm³) = 0.99872 Volume (L) = 1.01396 - Viscosity (mPa s) = 0.60944 + Viscosity (mPa s) = 0.60957 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.167e-01 Mass of water (kg) = 1.000e+00 @@ -25157,10 +25157,10 @@ Reaction 1. pH = 6.675 Charge balance pe = 0.017 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 34719 + Specific Conductance (µS/cm, 45°C) = 34713 Density (g/cm³) = 0.99996 Volume (L) = 1.01457 - Viscosity (mPa s) = 0.61136 + Viscosity (mPa s) = 0.61150 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.487e-01 Mass of water (kg) = 1.000e+00 @@ -25235,10 +25235,10 @@ Reaction 1. pH = 6.675 Charge balance pe = -0.004 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 35668 + Specific Conductance (µS/cm, 45°C) = 35662 Density (g/cm³) = 1.00025 Volume (L) = 1.01472 - Viscosity (mPa s) = 0.61181 + Viscosity (mPa s) = 0.61195 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.562e-01 Mass of water (kg) = 1.000e+00 @@ -25313,10 +25313,10 @@ Reaction 1. pH = 6.675 Charge balance pe = 0.237 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 35803 + Specific Conductance (µS/cm, 45°C) = 35797 Density (g/cm³) = 1.00029 Volume (L) = 1.01474 - Viscosity (mPa s) = 0.61188 + Viscosity (mPa s) = 0.61202 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.572e-01 Mass of water (kg) = 1.000e+00 @@ -25391,10 +25391,10 @@ Reaction 1. pH = 6.675 Charge balance pe = -0.254 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 36905 + Specific Conductance (µS/cm, 45°C) = 36899 Density (g/cm³) = 1.00063 Volume (L) = 1.01490 - Viscosity (mPa s) = 0.61241 + Viscosity (mPa s) = 0.61255 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.660e-01 Mass of water (kg) = 1.000e+00 @@ -25469,10 +25469,10 @@ Reaction 1. pH = 6.673 Charge balance pe = -0.160 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 43620 + Specific Conductance (µS/cm, 45°C) = 43612 Density (g/cm³) = 1.00271 Volume (L) = 1.01595 - Viscosity (mPa s) = 0.61567 + Viscosity (mPa s) = 0.61582 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.200e-01 Mass of water (kg) = 1.000e+00 @@ -25547,10 +25547,10 @@ Reaction 1. pH = 6.672 Charge balance pe = 0.028 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 45226 + Specific Conductance (µS/cm, 45°C) = 45218 Density (g/cm³) = 1.00322 Volume (L) = 1.01620 - Viscosity (mPa s) = 0.61647 + Viscosity (mPa s) = 0.61662 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.331e-01 Mass of water (kg) = 1.000e+00 @@ -25625,10 +25625,10 @@ Reaction 1. pH = 6.672 Charge balance pe = 0.050 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 48063 + Specific Conductance (µS/cm, 45°C) = 48053 Density (g/cm³) = 1.00411 Volume (L) = 1.01665 - Viscosity (mPa s) = 0.61789 + Viscosity (mPa s) = 0.61805 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.565e-01 Mass of water (kg) = 1.000e+00 @@ -25703,10 +25703,10 @@ Reaction 1. pH = 6.671 Charge balance pe = 0.048 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 51235 + Specific Conductance (µS/cm, 45°C) = 51225 Density (g/cm³) = 1.00512 Volume (L) = 1.01717 - Viscosity (mPa s) = 0.61949 + Viscosity (mPa s) = 0.61966 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.828e-01 Mass of water (kg) = 1.000e+00 @@ -25781,10 +25781,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.280 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 63006 + Specific Conductance (µS/cm, 45°C) = 62992 Density (g/cm³) = 1.00893 Volume (L) = 1.01914 - Viscosity (mPa s) = 0.62567 + Viscosity (mPa s) = 0.62586 Activity of water = 0.984 Ionic strength (mol/kgw) = 4.832e-01 Mass of water (kg) = 1.000e+00 @@ -25859,10 +25859,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.092 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 64936 + Specific Conductance (µS/cm, 45°C) = 64921 Density (g/cm³) = 1.00957 Volume (L) = 1.01947 - Viscosity (mPa s) = 0.62671 + Viscosity (mPa s) = 0.62691 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -25937,10 +25937,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.092 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 64936 + Specific Conductance (µS/cm, 45°C) = 64921 Density (g/cm³) = 1.00957 Volume (L) = 1.01947 - Viscosity (mPa s) = 0.62671 + Viscosity (mPa s) = 0.62691 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -26015,10 +26015,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.092 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 64936 + Specific Conductance (µS/cm, 45°C) = 64921 Density (g/cm³) = 1.00957 Volume (L) = 1.01947 - Viscosity (mPa s) = 0.62671 + Viscosity (mPa s) = 0.62691 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -26093,10 +26093,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.002 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 65621 + Specific Conductance (µS/cm, 45°C) = 65607 Density (g/cm³) = 1.00979 Volume (L) = 1.01959 - Viscosity (mPa s) = 0.62709 + Viscosity (mPa s) = 0.62728 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.060e-01 Mass of water (kg) = 1.000e+00 @@ -26171,10 +26171,10 @@ Reaction 1. pH = 6.668 Charge balance pe = -0.442 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 65834 + Specific Conductance (µS/cm, 45°C) = 65819 Density (g/cm³) = 1.00986 Volume (L) = 1.01962 - Viscosity (mPa s) = 0.62720 + Viscosity (mPa s) = 0.62740 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.079e-01 Mass of water (kg) = 1.000e+00 @@ -26249,10 +26249,10 @@ Reaction 1. pH = 6.667 Charge balance pe = -0.074 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 66990 + Specific Conductance (µS/cm, 45°C) = 66975 Density (g/cm³) = 1.01025 Volume (L) = 1.01982 - Viscosity (mPa s) = 0.62784 + Viscosity (mPa s) = 0.62803 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.180e-01 Mass of water (kg) = 1.000e+00 @@ -26327,10 +26327,10 @@ Reaction 1. pH = 6.667 Charge balance pe = 0.213 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 67100 + Specific Conductance (µS/cm, 45°C) = 67085 Density (g/cm³) = 1.01028 Volume (L) = 1.01984 - Viscosity (mPa s) = 0.62790 + Viscosity (mPa s) = 0.62809 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.190e-01 Mass of water (kg) = 1.000e+00 @@ -26405,10 +26405,10 @@ Reaction 1. pH = 6.667 Charge balance pe = -0.139 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 67676 + Specific Conductance (µS/cm, 45°C) = 67661 Density (g/cm³) = 1.01047 Volume (L) = 1.01994 - Viscosity (mPa s) = 0.62821 + Viscosity (mPa s) = 0.62841 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.241e-01 Mass of water (kg) = 1.000e+00 @@ -26483,10 +26483,10 @@ Reaction 1. pH = 6.665 Charge balance pe = -0.318 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 82269 + Specific Conductance (µS/cm, 45°C) = 82248 Density (g/cm³) = 1.01541 Volume (L) = 1.02256 - Viscosity (mPa s) = 0.63652 + Viscosity (mPa s) = 0.63674 Activity of water = 0.978 Ionic strength (mol/kgw) = 6.556e-01 Mass of water (kg) = 1.000e+00 @@ -26561,10 +26561,10 @@ Reaction 1. pH = 6.664 Charge balance pe = 0.032 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 85901 + Specific Conductance (µS/cm, 45°C) = 85879 Density (g/cm³) = 1.01666 Volume (L) = 1.02324 - Viscosity (mPa s) = 0.63868 + Viscosity (mPa s) = 0.63890 Activity of water = 0.977 Ionic strength (mol/kgw) = 6.893e-01 Mass of water (kg) = 1.000e+00 @@ -26639,10 +26639,10 @@ Reaction 1. pH = 6.663 Charge balance pe = 9.288 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 95384 + Specific Conductance (µS/cm, 45°C) = 95358 Density (g/cm³) = 1.01998 Volume (L) = 1.02505 - Viscosity (mPa s) = 0.64449 + Viscosity (mPa s) = 0.64473 Activity of water = 0.974 Ionic strength (mol/kgw) = 7.790e-01 Mass of water (kg) = 1.000e+00 @@ -26717,10 +26717,10 @@ Reaction 1. pH = 6.663 Charge balance pe = -0.621 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 95436 + Specific Conductance (µS/cm, 45°C) = 95410 Density (g/cm³) = 1.02000 Volume (L) = 1.02506 - Viscosity (mPa s) = 0.64452 + Viscosity (mPa s) = 0.64476 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.795e-01 Mass of water (kg) = 1.000e+00 @@ -26795,10 +26795,10 @@ Reaction 1. pH = 6.662 Charge balance pe = -0.341 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 96264 + Specific Conductance (µS/cm, 45°C) = 96238 Density (g/cm³) = 1.02029 Volume (L) = 1.02522 - Viscosity (mPa s) = 0.64504 + Viscosity (mPa s) = 0.64528 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.875e-01 Mass of water (kg) = 1.000e+00 @@ -26873,10 +26873,10 @@ Reaction 1. pH = 6.662 Charge balance pe = 0.139 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 97409 + Specific Conductance (µS/cm, 45°C) = 97382 Density (g/cm³) = 1.02070 Volume (L) = 1.02544 - Viscosity (mPa s) = 0.64576 + Viscosity (mPa s) = 0.64600 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.985e-01 Mass of water (kg) = 1.000e+00 @@ -26951,10 +26951,10 @@ Reaction 1. pH = 6.662 Charge balance pe = 0.134 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 97564 + Specific Conductance (µS/cm, 45°C) = 97537 Density (g/cm³) = 1.02075 Volume (L) = 1.02547 - Viscosity (mPa s) = 0.64586 + Viscosity (mPa s) = 0.64610 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.000e-01 Mass of water (kg) = 1.000e+00 @@ -27029,10 +27029,10 @@ Reaction 1. pH = 6.662 Charge balance pe = 0.102 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 101795 + Specific Conductance (µS/cm, 45°C) = 101767 Density (g/cm³) = 1.02227 Volume (L) = 1.02631 - Viscosity (mPa s) = 0.64857 + Viscosity (mPa s) = 0.64882 Activity of water = 0.971 Ionic strength (mol/kgw) = 8.412e-01 Mass of water (kg) = 1.000e+00 @@ -27107,10 +27107,10 @@ Reaction 1. pH = 6.660 Charge balance pe = -0.596 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 112442 + Specific Conductance (µS/cm, 45°C) = 112408 Density (g/cm³) = 1.02614 Volume (L) = 1.02846 - Viscosity (mPa s) = 0.65563 + Viscosity (mPa s) = 0.65590 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.471e-01 Mass of water (kg) = 1.000e+00 @@ -27185,10 +27185,10 @@ Reaction 1. pH = 6.660 Charge balance pe = -0.011 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 114073 + Specific Conductance (µS/cm, 45°C) = 114039 Density (g/cm³) = 1.02675 Volume (L) = 1.02880 - Viscosity (mPa s) = 0.65675 + Viscosity (mPa s) = 0.65701 Activity of water = 0.967 Ionic strength (mol/kgw) = 9.636e-01 Mass of water (kg) = 1.000e+00 @@ -27263,10 +27263,10 @@ Reaction 1. pH = 6.660 Charge balance pe = 0.061 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 114240 + Specific Conductance (µS/cm, 45°C) = 114206 Density (g/cm³) = 1.02681 Volume (L) = 1.02884 - Viscosity (mPa s) = 0.65686 + Viscosity (mPa s) = 0.65713 Activity of water = 0.967 Ionic strength (mol/kgw) = 9.654e-01 Mass of water (kg) = 1.000e+00 @@ -27341,10 +27341,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 0.313 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 117113 + Specific Conductance (µS/cm, 45°C) = 117078 Density (g/cm³) = 1.02787 Volume (L) = 1.02944 - Viscosity (mPa s) = 0.65885 + Viscosity (mPa s) = 0.65912 Activity of water = 0.966 Ionic strength (mol/kgw) = 9.947e-01 Mass of water (kg) = 1.000e+00 @@ -27419,10 +27419,10 @@ Reaction 1. pH = 6.659 Charge balance pe = -0.331 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 117627 + Specific Conductance (µS/cm, 45°C) = 117592 Density (g/cm³) = 1.02807 Volume (L) = 1.02955 - Viscosity (mPa s) = 0.65921 + Viscosity (mPa s) = 0.65948 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -27497,10 +27497,10 @@ Reaction 1. pH = 6.659 Charge balance pe = -0.331 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 117627 + Specific Conductance (µS/cm, 45°C) = 117592 Density (g/cm³) = 1.02807 Volume (L) = 1.02955 - Viscosity (mPa s) = 0.65921 + Viscosity (mPa s) = 0.65948 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -27575,10 +27575,10 @@ Reaction 1. pH = 6.659 Charge balance pe = -0.331 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 117627 + Specific Conductance (µS/cm, 45°C) = 117592 Density (g/cm³) = 1.02807 Volume (L) = 1.02955 - Viscosity (mPa s) = 0.65921 + Viscosity (mPa s) = 0.65948 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -27653,10 +27653,10 @@ Reaction 1. pH = 6.659 Charge balance pe = -0.331 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 117627 + Specific Conductance (µS/cm, 45°C) = 117592 Density (g/cm³) = 1.02807 Volume (L) = 1.02955 - Viscosity (mPa s) = 0.65921 + Viscosity (mPa s) = 0.65948 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -27731,10 +27731,10 @@ Reaction 1. pH = 6.659 Charge balance pe = -0.140 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 122492 + Specific Conductance (µS/cm, 45°C) = 122454 Density (g/cm³) = 1.02989 Volume (L) = 1.03058 - Viscosity (mPa s) = 0.66265 + Viscosity (mPa s) = 0.66293 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.050e+00 Mass of water (kg) = 1.000e+00 @@ -27809,10 +27809,10 @@ Reaction 1. pH = 6.658 Charge balance pe = -0.161 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 126192 + Specific Conductance (µS/cm, 45°C) = 126153 Density (g/cm³) = 1.03130 Volume (L) = 1.03138 - Viscosity (mPa s) = 0.66533 + Viscosity (mPa s) = 0.66561 Activity of water = 0.963 Ionic strength (mol/kgw) = 1.089e+00 Mass of water (kg) = 1.000e+00 @@ -27887,10 +27887,10 @@ Reaction 1. pH = 6.657 Charge balance pe = -0.295 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 136483 + Specific Conductance (µS/cm, 45°C) = 136439 Density (g/cm³) = 1.03527 Volume (L) = 1.03367 - Viscosity (mPa s) = 0.67306 + Viscosity (mPa s) = 0.67335 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -27965,10 +27965,10 @@ Reaction 1. pH = 6.656 Charge balance pe = 0.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 138797 + Specific Conductance (µS/cm, 45°C) = 138752 Density (g/cm³) = 1.03618 Volume (L) = 1.03420 - Viscosity (mPa s) = 0.67485 + Viscosity (mPa s) = 0.67515 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.225e+00 Mass of water (kg) = 1.000e+00 @@ -28043,10 +28043,10 @@ Reaction 1. pH = 6.656 Charge balance pe = -0.047 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 142009 + Specific Conductance (µS/cm, 45°C) = 141963 Density (g/cm³) = 1.03745 Volume (L) = 1.03494 - Viscosity (mPa s) = 0.67738 + Viscosity (mPa s) = 0.67769 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.261e+00 Mass of water (kg) = 1.000e+00 @@ -28121,10 +28121,10 @@ Reaction 1. pH = 6.654 Charge balance pe = -0.073 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 156858 + Specific Conductance (µS/cm, 45°C) = 156804 Density (g/cm³) = 1.04346 Volume (L) = 1.03849 - Viscosity (mPa s) = 0.68968 + Viscosity (mPa s) = 0.69001 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.431e+00 Mass of water (kg) = 1.000e+00 @@ -28199,10 +28199,10 @@ Reaction 1. pH = 6.654 Charge balance pe = 9.238 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 162827 + Specific Conductance (µS/cm, 45°C) = 162770 Density (g/cm³) = 1.04595 Volume (L) = 1.03998 - Viscosity (mPa s) = 0.69493 + Viscosity (mPa s) = 0.69526 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.502e+00 Mass of water (kg) = 1.000e+00 @@ -28277,10 +28277,10 @@ Reaction 1. pH = 6.653 Charge balance pe = 0.162 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 166721 + Specific Conductance (µS/cm, 45°C) = 166662 Density (g/cm³) = 1.04760 Volume (L) = 1.04098 - Viscosity (mPa s) = 0.69845 + Viscosity (mPa s) = 0.69879 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.549e+00 Mass of water (kg) = 1.000e+00 @@ -28355,10 +28355,10 @@ Reaction 1. pH = 6.653 Charge balance pe = 0.107 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 167331 + Specific Conductance (µS/cm, 45°C) = 167272 Density (g/cm³) = 1.04786 Volume (L) = 1.04113 - Viscosity (mPa s) = 0.69901 + Viscosity (mPa s) = 0.69935 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.556e+00 Mass of water (kg) = 1.000e+00 @@ -28433,10 +28433,10 @@ Reaction 1. pH = 6.651 Charge balance pe = -0.436 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 185204 + Specific Conductance (µS/cm, 45°C) = 185136 Density (g/cm³) = 1.05568 Volume (L) = 1.04593 - Viscosity (mPa s) = 0.71635 + Viscosity (mPa s) = 0.71672 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.782e+00 Mass of water (kg) = 1.000e+00 @@ -28511,10 +28511,10 @@ Reaction 1. pH = 6.651 Charge balance pe = -0.738 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 186548 + Specific Conductance (µS/cm, 45°C) = 186479 Density (g/cm³) = 1.05629 Volume (L) = 1.04631 - Viscosity (mPa s) = 0.71774 + Viscosity (mPa s) = 0.71810 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.800e+00 Mass of water (kg) = 1.000e+00 @@ -28589,10 +28589,10 @@ Reaction 1. pH = 6.650 Charge balance pe = -0.153 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 198731 + Specific Conductance (µS/cm, 45°C) = 198655 Density (g/cm³) = 1.06192 Volume (L) = 1.04984 - Viscosity (mPa s) = 0.73086 + Viscosity (mPa s) = 0.73125 Activity of water = 0.933 Ionic strength (mol/kgw) = 1.965e+00 Mass of water (kg) = 1.000e+00 @@ -28667,10 +28667,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 8.748 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 201234 + Specific Conductance (µS/cm, 45°C) = 201158 Density (g/cm³) = 1.06311 Volume (L) = 1.05059 - Viscosity (mPa s) = 0.73370 + Viscosity (mPa s) = 0.73408 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -28745,10 +28745,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 8.748 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 201234 + Specific Conductance (µS/cm, 45°C) = 201158 Density (g/cm³) = 1.06311 Volume (L) = 1.05059 - Viscosity (mPa s) = 0.73370 + Viscosity (mPa s) = 0.73408 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -28823,10 +28823,10 @@ Reaction 1. pH = 6.650 Charge balance pe = 8.748 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 201234 + Specific Conductance (µS/cm, 45°C) = 201158 Density (g/cm³) = 1.06311 Volume (L) = 1.05059 - Viscosity (mPa s) = 0.73370 + Viscosity (mPa s) = 0.73408 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -28901,10 +28901,10 @@ Reaction 1. pH = 6.650 Charge balance pe = -0.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 201475 + Specific Conductance (µS/cm, 45°C) = 201398 Density (g/cm³) = 1.06322 Volume (L) = 1.05066 - Viscosity (mPa s) = 0.73397 + Viscosity (mPa s) = 0.73436 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.003e+00 Mass of water (kg) = 1.000e+00 @@ -28979,10 +28979,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.823 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 208444 + Specific Conductance (µS/cm, 45°C) = 208363 Density (g/cm³) = 1.06658 Volume (L) = 1.05281 - Viscosity (mPa s) = 0.74214 + Viscosity (mPa s) = 0.74254 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.103e+00 Mass of water (kg) = 1.000e+00 @@ -29057,10 +29057,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.257 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 208855 + Specific Conductance (µS/cm, 45°C) = 208774 Density (g/cm³) = 1.06679 Volume (L) = 1.05294 - Viscosity (mPa s) = 0.74264 + Viscosity (mPa s) = 0.74303 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.109e+00 Mass of water (kg) = 1.000e+00 @@ -29135,10 +29135,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.204 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 218425 + Specific Conductance (µS/cm, 45°C) = 218338 Density (g/cm³) = 1.07156 Volume (L) = 1.05603 - Viscosity (mPa s) = 0.75458 + Viscosity (mPa s) = 0.75499 Activity of water = 0.923 Ionic strength (mol/kgw) = 2.252e+00 Mass of water (kg) = 1.000e+00 @@ -29213,10 +29213,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.607 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 232410 + Specific Conductance (µS/cm, 45°C) = 232316 Density (g/cm³) = 1.07890 Volume (L) = 1.06085 - Viscosity (mPa s) = 0.77369 + Viscosity (mPa s) = 0.77411 Activity of water = 0.916 Ionic strength (mol/kgw) = 2.473e+00 Mass of water (kg) = 1.000e+00 @@ -29291,10 +29291,10 @@ Reaction 1. pH = 6.648 Charge balance pe = -0.462 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 234023 + Specific Conductance (µS/cm, 45°C) = 233929 Density (g/cm³) = 1.07977 Volume (L) = 1.06143 - Viscosity (mPa s) = 0.77603 + Viscosity (mPa s) = 0.77646 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -29369,10 +29369,10 @@ Reaction 1. pH = 6.648 Charge balance pe = -0.462 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 234023 + Specific Conductance (µS/cm, 45°C) = 233929 Density (g/cm³) = 1.07977 Volume (L) = 1.06143 - Viscosity (mPa s) = 0.77603 + Viscosity (mPa s) = 0.77646 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -29447,10 +29447,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.255 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 236017 + Specific Conductance (µS/cm, 45°C) = 235922 Density (g/cm³) = 1.08086 Volume (L) = 1.06216 - Viscosity (mPa s) = 0.77897 + Viscosity (mPa s) = 0.77941 Activity of water = 0.914 Ionic strength (mol/kgw) = 2.533e+00 Mass of water (kg) = 1.000e+00 @@ -29525,10 +29525,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.265 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 243303 + Specific Conductance (µS/cm, 45°C) = 243204 Density (g/cm³) = 1.08494 Volume (L) = 1.06491 - Viscosity (mPa s) = 0.79017 + Viscosity (mPa s) = 0.79061 Activity of water = 0.910 Ionic strength (mol/kgw) = 2.658e+00 Mass of water (kg) = 1.000e+00 @@ -29603,10 +29603,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.656 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 249132 + Specific Conductance (µS/cm, 45°C) = 249029 Density (g/cm³) = 1.08831 Volume (L) = 1.06720 - Viscosity (mPa s) = 0.79965 + Viscosity (mPa s) = 0.80010 Activity of water = 0.906 Ionic strength (mol/kgw) = 2.762e+00 Mass of water (kg) = 1.000e+00 @@ -29681,10 +29681,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.503 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 259175 + Specific Conductance (µS/cm, 45°C) = 259067 Density (g/cm³) = 1.09438 Volume (L) = 1.07138 - Viscosity (mPa s) = 0.81726 + Viscosity (mPa s) = 0.81773 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.951e+00 Mass of water (kg) = 1.000e+00 @@ -29759,10 +29759,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 1.188 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 260815 + Specific Conductance (µS/cm, 45°C) = 260706 Density (g/cm³) = 1.09540 Volume (L) = 1.07209 - Viscosity (mPa s) = 0.82031 + Viscosity (mPa s) = 0.82078 Activity of water = 0.899 Ionic strength (mol/kgw) = 2.984e+00 Mass of water (kg) = 1.000e+00 @@ -29837,10 +29837,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 0.681 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 261647 + Specific Conductance (µS/cm, 45°C) = 261538 Density (g/cm³) = 1.09592 Volume (L) = 1.07246 - Viscosity (mPa s) = 0.82187 + Viscosity (mPa s) = 0.82234 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -29915,10 +29915,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 0.681 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 261647 + Specific Conductance (µS/cm, 45°C) = 261538 Density (g/cm³) = 1.09592 Volume (L) = 1.07246 - Viscosity (mPa s) = 0.82187 + Viscosity (mPa s) = 0.82234 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -29993,10 +29993,10 @@ Reaction 1. pH = 6.647 Charge balance pe = -0.328 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 265986 + Specific Conductance (µS/cm, 45°C) = 265874 Density (g/cm³) = 1.09869 Volume (L) = 1.07440 - Viscosity (mPa s) = 0.83025 + Viscosity (mPa s) = 0.83072 Activity of water = 0.895 Ionic strength (mol/kgw) = 3.087e+00 Mass of water (kg) = 1.000e+00 @@ -30071,10 +30071,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 9.308 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 274304 + Specific Conductance (µS/cm, 45°C) = 274188 Density (g/cm³) = 1.10423 Volume (L) = 1.07832 - Viscosity (mPa s) = 0.84744 + Viscosity (mPa s) = 0.84793 Activity of water = 0.889 Ionic strength (mol/kgw) = 3.263e+00 Mass of water (kg) = 1.000e+00 @@ -30149,10 +30149,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 9.611 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 284113 + Specific Conductance (µS/cm, 45°C) = 283992 Density (g/cm³) = 1.11119 Volume (L) = 1.08334 - Viscosity (mPa s) = 0.86995 + Viscosity (mPa s) = 0.87046 Activity of water = 0.881 Ionic strength (mol/kgw) = 3.487e+00 Mass of water (kg) = 1.000e+00 @@ -30227,10 +30227,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 9.617 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 296121 + Specific Conductance (µS/cm, 45°C) = 295995 Density (g/cm³) = 1.12049 Volume (L) = 1.09020 - Viscosity (mPa s) = 0.90169 + Viscosity (mPa s) = 0.90222 Activity of water = 0.871 Ionic strength (mol/kgw) = 3.791e+00 Mass of water (kg) = 1.000e+00 @@ -30305,10 +30305,10 @@ Reaction 1. pH = 6.647 Charge balance pe = 9.534 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 301645 + Specific Conductance (µS/cm, 45°C) = 301516 Density (g/cm³) = 1.12513 Volume (L) = 1.09369 - Viscosity (mPa s) = 0.91824 + Viscosity (mPa s) = 0.91878 Activity of water = 0.866 Ionic strength (mol/kgw) = 3.945e+00 Mass of water (kg) = 1.000e+00 @@ -30383,10 +30383,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.652 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 303548 + Specific Conductance (µS/cm, 45°C) = 303418 Density (g/cm³) = 1.12678 Volume (L) = 1.09495 - Viscosity (mPa s) = 0.92428 + Viscosity (mPa s) = 0.92483 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -30461,10 +30461,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.652 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 303548 + Specific Conductance (µS/cm, 45°C) = 303418 Density (g/cm³) = 1.12678 Volume (L) = 1.09495 - Viscosity (mPa s) = 0.92428 + Viscosity (mPa s) = 0.92483 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -30539,10 +30539,10 @@ Reaction 1. pH = 6.648 Charge balance pe = 9.451 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 309942 + Specific Conductance (µS/cm, 45°C) = 309809 Density (g/cm³) = 1.13262 Volume (L) = 1.09942 - Viscosity (mPa s) = 0.94607 + Viscosity (mPa s) = 0.94662 Activity of water = 0.857 Ionic strength (mol/kgw) = 4.196e+00 Mass of water (kg) = 1.000e+00 @@ -30617,10 +30617,10 @@ Reaction 1. pH = 6.649 Charge balance pe = -0.568 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 315750 + Specific Conductance (µS/cm, 45°C) = 315615 Density (g/cm³) = 1.13834 Volume (L) = 1.10387 - Viscosity (mPa s) = 0.96820 + Viscosity (mPa s) = 0.96877 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.390e+00 Mass of water (kg) = 1.000e+00 @@ -30695,10 +30695,10 @@ Reaction 1. pH = 6.649 Charge balance pe = 9.272 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 317357 + Specific Conductance (µS/cm, 45°C) = 317221 Density (g/cm³) = 1.14001 Volume (L) = 1.10518 - Viscosity (mPa s) = 0.97479 + Viscosity (mPa s) = 0.97537 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.447e+00 Mass of water (kg) = 1.000e+00 @@ -30773,10 +30773,10 @@ Reaction 1. pH = 6.649 Charge balance pe = 0.089 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 318807 + Specific Conductance (µS/cm, 45°C) = 318671 Density (g/cm³) = 1.14154 Volume (L) = 1.10639 - Viscosity (mPa s) = 0.98094 + Viscosity (mPa s) = 0.98151 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -30851,10 +30851,10 @@ Reaction 1. pH = 6.651 Charge balance pe = 8.998 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 329364 + Specific Conductance (µS/cm, 45°C) = 329223 Density (g/cm³) = 1.15390 Volume (L) = 1.11633 - Viscosity (mPa s) = 1.03264 + Viscosity (mPa s) = 1.03324 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.930e+00 Mass of water (kg) = 1.000e+00 @@ -30929,10 +30929,10 @@ Reaction 1. pH = 6.651 Charge balance pe = 9.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 330869 + Specific Conductance (µS/cm, 45°C) = 330728 Density (g/cm³) = 1.15587 Volume (L) = 1.11795 - Viscosity (mPa s) = 1.04127 + Viscosity (mPa s) = 1.04188 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -31007,10 +31007,10 @@ Reaction 1. pH = 6.651 Charge balance pe = 9.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 330869 + Specific Conductance (µS/cm, 45°C) = 330728 Density (g/cm³) = 1.15587 Volume (L) = 1.11795 - Viscosity (mPa s) = 1.04127 + Viscosity (mPa s) = 1.04188 Activity of water = 0.830 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -31085,10 +31085,10 @@ Reaction 1. pH = 6.651 Charge balance pe = 9.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 331417 + Specific Conductance (µS/cm, 45°C) = 331276 Density (g/cm³) = 1.15661 Volume (L) = 1.11856 - Viscosity (mPa s) = 1.04451 + Viscosity (mPa s) = 1.04512 Activity of water = 0.829 Ionic strength (mol/kgw) = 5.026e+00 Mass of water (kg) = 1.000e+00 @@ -31163,10 +31163,10 @@ Reaction 1. pH = 6.653 Charge balance pe = -0.404 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 338246 + Specific Conductance (µS/cm, 45°C) = 338103 Density (g/cm³) = 1.16666 Volume (L) = 1.12695 - Viscosity (mPa s) = 1.09036 + Viscosity (mPa s) = 1.09100 Activity of water = 0.817 Ionic strength (mol/kgw) = 5.386e+00 Mass of water (kg) = 1.000e+00 @@ -31241,10 +31241,10 @@ Reaction 1. pH = 6.654 Charge balance pe = 9.829 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 342399 + Specific Conductance (µS/cm, 45°C) = 342256 Density (g/cm³) = 1.17386 Volume (L) = 1.13311 - Viscosity (mPa s) = 1.12503 + Viscosity (mPa s) = 1.12568 Activity of water = 0.808 Ionic strength (mol/kgw) = 5.648e+00 Mass of water (kg) = 1.000e+00 @@ -31319,10 +31319,10 @@ Reaction 1. pH = 6.655 Charge balance pe = 9.855 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 344502 + Specific Conductance (µS/cm, 45°C) = 344358 Density (g/cm³) = 1.17797 Volume (L) = 1.13667 - Viscosity (mPa s) = 1.14552 + Viscosity (mPa s) = 1.14617 Activity of water = 0.803 Ionic strength (mol/kgw) = 5.800e+00 Mass of water (kg) = 1.000e+00 @@ -31397,10 +31397,10 @@ Reaction 1. pH = 6.656 Charge balance pe = -0.577 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 346402 + Specific Conductance (µS/cm, 45°C) = 346259 Density (g/cm³) = 1.18205 Volume (L) = 1.14025 - Viscosity (mPa s) = 1.16638 + Viscosity (mPa s) = 1.16704 Activity of water = 0.798 Ionic strength (mol/kgw) = 5.952e+00 Mass of water (kg) = 1.000e+00 @@ -31475,10 +31475,10 @@ Reaction 1. pH = 6.656 Charge balance pe = -0.252 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 346964 + Specific Conductance (µS/cm, 45°C) = 346820 Density (g/cm³) = 1.18334 Volume (L) = 1.14139 - Viscosity (mPa s) = 1.17307 + Viscosity (mPa s) = 1.17374 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -31553,10 +31553,10 @@ Reaction 1. pH = 6.657 Charge balance pe = -1.175 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 348068 + Specific Conductance (µS/cm, 45°C) = 347924 Density (g/cm³) = 1.18600 Volume (L) = 1.14376 - Viscosity (mPa s) = 1.18708 + Viscosity (mPa s) = 1.18775 Activity of water = 0.793 Ionic strength (mol/kgw) = 6.100e+00 Mass of water (kg) = 1.000e+00 @@ -31735,10 +31735,10 @@ Reaction 1. pH = 6.435 Charge balance pe = 0.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 19513 + Specific Conductance (µS/cm, 65°C) = 19508 Density (g/cm³) = 0.98446 Volume (L) = 1.02172 - Viscosity (mPa s) = 0.43829 + Viscosity (mPa s) = 0.43843 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -31813,10 +31813,10 @@ Reaction 1. pH = 6.428 Charge balance pe = 0.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 39748 + Specific Conductance (µS/cm, 65°C) = 39735 Density (g/cm³) = 0.98897 Volume (L) = 1.02396 - Viscosity (mPa s) = 0.44397 + Viscosity (mPa s) = 0.44418 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.167e-01 Mass of water (kg) = 1.000e+00 @@ -31891,10 +31891,10 @@ Reaction 1. pH = 6.426 Charge balance pe = 0.575 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 46269 + Specific Conductance (µS/cm, 65°C) = 46252 Density (g/cm³) = 0.99049 Volume (L) = 1.02472 - Viscosity (mPa s) = 0.44589 + Viscosity (mPa s) = 0.44611 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.562e-01 Mass of water (kg) = 1.000e+00 @@ -31969,10 +31969,10 @@ Reaction 1. pH = 6.422 Charge balance pe = 0.174 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 61162 + Specific Conductance (µS/cm, 65°C) = 61136 Density (g/cm³) = 0.99403 Volume (L) = 1.02655 - Viscosity (mPa s) = 0.45042 + Viscosity (mPa s) = 0.45068 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.494e-01 Mass of water (kg) = 1.000e+00 @@ -32047,10 +32047,10 @@ Reaction 1. pH = 6.418 Charge balance pe = 0.068 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 86795 + Specific Conductance (µS/cm, 65°C) = 86751 Density (g/cm³) = 1.00040 Volume (L) = 1.02992 - Viscosity (mPa s) = 0.45876 + Viscosity (mPa s) = 0.45908 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.190e-01 Mass of water (kg) = 1.000e+00 @@ -32125,10 +32125,10 @@ Reaction 1. pH = 6.417 Charge balance pe = 0.120 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 88040 + Specific Conductance (µS/cm, 65°C) = 87996 Density (g/cm³) = 1.00072 Volume (L) = 1.03009 - Viscosity (mPa s) = 0.45919 + Viscosity (mPa s) = 0.45950 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.275e-01 Mass of water (kg) = 1.000e+00 @@ -32203,10 +32203,10 @@ Reaction 1. pH = 6.415 Charge balance pe = 8.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 102123 + Specific Conductance (µS/cm, 65°C) = 102067 Density (g/cm³) = 1.00436 Volume (L) = 1.03207 - Viscosity (mPa s) = 0.46410 + Viscosity (mPa s) = 0.46445 Activity of water = 0.979 Ionic strength (mol/kgw) = 6.258e-01 Mass of water (kg) = 1.000e+00 @@ -32281,10 +32281,10 @@ Reaction 1. pH = 6.412 Charge balance pe = 0.270 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 123131 + Specific Conductance (µS/cm, 65°C) = 123057 Density (g/cm³) = 1.00998 Volume (L) = 1.03520 - Viscosity (mPa s) = 0.47189 + Viscosity (mPa s) = 0.47227 Activity of water = 0.974 Ionic strength (mol/kgw) = 7.790e-01 Mass of water (kg) = 1.000e+00 @@ -32359,10 +32359,10 @@ Reaction 1. pH = 6.411 Charge balance pe = 0.400 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 135795 + Specific Conductance (µS/cm, 65°C) = 135709 Density (g/cm³) = 1.01348 Volume (L) = 1.03717 - Viscosity (mPa s) = 0.47686 + Viscosity (mPa s) = 0.47727 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.753e-01 Mass of water (kg) = 1.000e+00 @@ -32437,10 +32437,10 @@ Reaction 1. pH = 6.409 Charge balance pe = -0.074 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 151635 + Specific Conductance (µS/cm, 65°C) = 151535 Density (g/cm³) = 1.01797 Volume (L) = 1.03976 - Viscosity (mPa s) = 0.48341 + Viscosity (mPa s) = 0.48385 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -32515,10 +32515,10 @@ Reaction 1. pH = 6.407 Charge balance pe = 2.024 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 164330 + Specific Conductance (µS/cm, 65°C) = 164217 Density (g/cm³) = 1.02168 Volume (L) = 1.04192 - Viscosity (mPa s) = 0.48895 + Viscosity (mPa s) = 0.48941 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.104e+00 Mass of water (kg) = 1.000e+00 @@ -32593,10 +32593,10 @@ Reaction 1. pH = 6.406 Charge balance pe = -0.312 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 178718 + Specific Conductance (µS/cm, 65°C) = 178591 Density (g/cm³) = 1.02599 Volume (L) = 1.04447 - Viscosity (mPa s) = 0.49556 + Viscosity (mPa s) = 0.49604 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.225e+00 Mass of water (kg) = 1.000e+00 @@ -32671,10 +32671,10 @@ Reaction 1. pH = 6.403 Charge balance pe = -0.358 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 215170 + Specific Conductance (µS/cm, 65°C) = 215003 Density (g/cm³) = 1.03754 Volume (L) = 1.05149 - Viscosity (mPa s) = 0.51411 + Viscosity (mPa s) = 0.51466 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.556e+00 Mass of water (kg) = 1.000e+00 @@ -32749,10 +32749,10 @@ Reaction 1. pH = 6.402 Charge balance pe = 7.922 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 220649 + Specific Conductance (µS/cm, 65°C) = 220476 Density (g/cm³) = 1.03936 Volume (L) = 1.05262 - Viscosity (mPa s) = 0.51716 + Viscosity (mPa s) = 0.51772 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.609e+00 Mass of water (kg) = 1.000e+00 @@ -32827,10 +32827,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 0.048 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 258450 + Specific Conductance (µS/cm, 65°C) = 258234 Density (g/cm³) = 1.05263 Volume (L) = 1.06105 - Viscosity (mPa s) = 0.54042 + Viscosity (mPa s) = 0.54104 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -32905,10 +32905,10 @@ Reaction 1. pH = 6.398 Charge balance pe = -0.628 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 278794 + Specific Conductance (µS/cm, 65°C) = 278554 Density (g/cm³) = 1.06037 Volume (L) = 1.06612 - Viscosity (mPa s) = 0.55487 + Viscosity (mPa s) = 0.55553 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.233e+00 Mass of water (kg) = 1.000e+00 @@ -32983,10 +32983,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.247 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 300351 + Specific Conductance (µS/cm, 65°C) = 300085 Density (g/cm³) = 1.06913 Volume (L) = 1.07200 - Viscosity (mPa s) = 0.57207 + Viscosity (mPa s) = 0.57277 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -33061,10 +33061,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.505 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 303945 + Specific Conductance (µS/cm, 65°C) = 303675 Density (g/cm³) = 1.07066 Volume (L) = 1.07303 - Viscosity (mPa s) = 0.57516 + Viscosity (mPa s) = 0.57586 Activity of water = 0.913 Ionic strength (mol/kgw) = 2.547e+00 Mass of water (kg) = 1.000e+00 @@ -33139,10 +33139,10 @@ Reaction 1. pH = 6.396 Charge balance pe = -0.121 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 338067 + Specific Conductance (µS/cm, 65°C) = 337757 Density (g/cm³) = 1.08627 Volume (L) = 1.08390 - Viscosity (mPa s) = 0.60840 + Viscosity (mPa s) = 0.60917 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.036e+00 Mass of water (kg) = 1.000e+00 @@ -33217,10 +33217,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 8.542 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 389549 + Specific Conductance (µS/cm, 65°C) = 389183 Density (g/cm³) = 1.11548 Volume (L) = 1.10548 - Viscosity (mPa s) = 0.67941 + Viscosity (mPa s) = 0.68029 Activity of water = 0.864 Ionic strength (mol/kgw) = 3.989e+00 Mass of water (kg) = 1.000e+00 @@ -33295,10 +33295,10 @@ Reaction 1. pH = 6.398 Charge balance pe = -0.264 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 401278 + Specific Conductance (µS/cm, 65°C) = 400900 Density (g/cm³) = 1.12368 Volume (L) = 1.11184 - Viscosity (mPa s) = 0.70163 + Viscosity (mPa s) = 0.70254 Activity of water = 0.855 Ionic strength (mol/kgw) = 4.267e+00 Mass of water (kg) = 1.000e+00 @@ -33373,10 +33373,10 @@ Reaction 1. pH = 6.399 Charge balance pe = -0.406 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 412470 + Specific Conductance (µS/cm, 65°C) = 412082 Density (g/cm³) = 1.13239 Volume (L) = 1.11873 - Viscosity (mPa s) = 0.72635 + Viscosity (mPa s) = 0.72729 Activity of water = 0.845 Ionic strength (mol/kgw) = 4.566e+00 Mass of water (kg) = 1.000e+00 @@ -33451,10 +33451,10 @@ Reaction 1. pH = 6.404 Charge balance pe = -0.157 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 440238 + Specific Conductance (µS/cm, 65°C) = 439831 Density (g/cm³) = 1.16025 Volume (L) = 1.14182 - Viscosity (mPa s) = 0.81424 + Viscosity (mPa s) = 0.81527 Activity of water = 0.811 Ionic strength (mol/kgw) = 5.557e+00 Mass of water (kg) = 1.000e+00 @@ -33529,10 +33529,10 @@ Reaction 1. pH = 6.405 Charge balance pe = 8.326 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 443504 + Specific Conductance (µS/cm, 65°C) = 443096 Density (g/cm³) = 1.16456 Volume (L) = 1.14553 - Viscosity (mPa s) = 0.82912 + Viscosity (mPa s) = 0.83017 Activity of water = 0.806 Ionic strength (mol/kgw) = 5.716e+00 Mass of water (kg) = 1.000e+00 @@ -33607,10 +33607,10 @@ Reaction 1. pH = 6.406 Charge balance pe = 8.291 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 447192 + Specific Conductance (µS/cm, 65°C) = 446782 Density (g/cm³) = 1.16991 Volume (L) = 1.15020 - Viscosity (mPa s) = 0.84807 + Viscosity (mPa s) = 0.84913 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.914e+00 Mass of water (kg) = 1.000e+00 @@ -33789,10 +33789,10 @@ Reaction 1. pH = 6.143 Charge balance pe = 0.344 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 26080 + Specific Conductance (µS/cm, 95°C) = 26067 Density (g/cm³) = 0.96585 Volume (L) = 1.04140 - Viscosity (mPa s) = 0.30126 + Viscosity (mPa s) = 0.30145 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -33867,10 +33867,10 @@ Reaction 1. pH = 6.135 Charge balance pe = 0.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 49276 + Specific Conductance (µS/cm, 95°C) = 49244 Density (g/cm³) = 0.96975 Volume (L) = 1.04325 - Viscosity (mPa s) = 0.30499 + Viscosity (mPa s) = 0.30527 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -33945,10 +33945,10 @@ Reaction 1. pH = 6.132 Charge balance pe = 0.427 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 61653 + Specific Conductance (µS/cm, 95°C) = 61608 Density (g/cm³) = 0.97191 Volume (L) = 1.04430 - Viscosity (mPa s) = 0.30707 + Viscosity (mPa s) = 0.30738 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.562e-01 Mass of water (kg) = 1.000e+00 @@ -34023,10 +34023,10 @@ Reaction 1. pH = 6.131 Charge balance pe = 0.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 63711 + Specific Conductance (µS/cm, 95°C) = 63664 Density (g/cm³) = 0.97228 Volume (L) = 1.04448 - Viscosity (mPa s) = 0.30742 + Viscosity (mPa s) = 0.30774 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.657e-01 Mass of water (kg) = 1.000e+00 @@ -34101,10 +34101,10 @@ Reaction 1. pH = 6.129 Charge balance pe = 0.357 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 75280 + Specific Conductance (µS/cm, 95°C) = 75219 Density (g/cm³) = 0.97436 Volume (L) = 1.04551 - Viscosity (mPa s) = 0.30943 + Viscosity (mPa s) = 0.30977 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.200e-01 Mass of water (kg) = 1.000e+00 @@ -34179,10 +34179,10 @@ Reaction 1. pH = 6.123 Charge balance pe = 0.523 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 111686 + Specific Conductance (µS/cm, 95°C) = 111575 Density (g/cm³) = 0.98115 Volume (L) = 1.04899 - Viscosity (mPa s) = 0.31611 + Viscosity (mPa s) = 0.31654 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -34257,10 +34257,10 @@ Reaction 1. pH = 6.121 Charge balance pe = 0.586 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 119389 + Specific Conductance (µS/cm, 95°C) = 119266 Density (g/cm³) = 0.98264 Volume (L) = 1.04977 - Viscosity (mPa s) = 0.31759 + Viscosity (mPa s) = 0.31804 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.398e-01 Mass of water (kg) = 1.000e+00 @@ -34335,10 +34335,10 @@ Reaction 1. pH = 6.116 Charge balance pe = 0.073 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 166785 + Specific Conductance (µS/cm, 95°C) = 166583 Density (g/cm³) = 0.99216 Volume (L) = 1.05490 - Viscosity (mPa s) = 0.32735 + Viscosity (mPa s) = 0.32790 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.980e-01 Mass of water (kg) = 1.000e+00 @@ -34413,10 +34413,10 @@ Reaction 1. pH = 6.116 Charge balance pe = 0.168 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 167135 + Specific Conductance (µS/cm, 95°C) = 166932 Density (g/cm³) = 0.99224 Volume (L) = 1.05494 - Viscosity (mPa s) = 0.32743 + Viscosity (mPa s) = 0.32798 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.000e-01 Mass of water (kg) = 1.000e+00 @@ -34491,10 +34491,10 @@ Reaction 1. pH = 6.111 Charge balance pe = 7.142 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 213368 + Specific Conductance (µS/cm, 95°C) = 213077 Density (g/cm³) = 1.00218 Volume (L) = 1.06054 - Viscosity (mPa s) = 0.33811 + Viscosity (mPa s) = 0.33875 Activity of water = 0.963 Ionic strength (mol/kgw) = 1.076e+00 Mass of water (kg) = 1.000e+00 @@ -34569,10 +34569,10 @@ Reaction 1. pH = 6.111 Charge balance pe = 0.423 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 214010 + Specific Conductance (µS/cm, 95°C) = 213718 Density (g/cm³) = 1.00232 Volume (L) = 1.06063 - Viscosity (mPa s) = 0.33827 + Viscosity (mPa s) = 0.33891 Activity of water = 0.963 Ionic strength (mol/kgw) = 1.080e+00 Mass of water (kg) = 1.000e+00 @@ -34647,10 +34647,10 @@ Reaction 1. pH = 6.110 Charge balance pe = 6.823 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 232963 + Specific Conductance (µS/cm, 95°C) = 232633 Density (g/cm³) = 1.00661 Volume (L) = 1.06311 - Viscosity (mPa s) = 0.34304 + Viscosity (mPa s) = 0.34371 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -34725,10 +34725,10 @@ Reaction 1. pH = 6.105 Charge balance pe = 0.356 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 300808 + Specific Conductance (µS/cm, 95°C) = 300330 Density (g/cm³) = 1.02307 Volume (L) = 1.07301 - Viscosity (mPa s) = 0.36235 + Viscosity (mPa s) = 0.36314 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.673e+00 Mass of water (kg) = 1.000e+00 @@ -34803,10 +34803,10 @@ Reaction 1. pH = 6.103 Charge balance pe = 6.652 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 336217 + Specific Conductance (µS/cm, 95°C) = 335659 Density (g/cm³) = 1.03248 Volume (L) = 1.07892 - Viscosity (mPa s) = 0.37414 + Viscosity (mPa s) = 0.37499 Activity of water = 0.934 Ionic strength (mol/kgw) = 1.950e+00 Mass of water (kg) = 1.000e+00 @@ -34881,10 +34881,10 @@ Reaction 1. pH = 6.101 Charge balance pe = 6.653 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 372390 + Specific Conductance (µS/cm, 95°C) = 371748 Density (g/cm³) = 1.04284 Volume (L) = 1.08561 - Viscosity (mPa s) = 0.38776 + Viscosity (mPa s) = 0.38868 Activity of water = 0.923 Ionic strength (mol/kgw) = 2.261e+00 Mass of water (kg) = 1.000e+00 @@ -34959,10 +34959,10 @@ Reaction 1. pH = 6.100 Charge balance pe = -0.090 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 434537 + Specific Conductance (µS/cm, 95°C) = 433749 Density (g/cm³) = 1.06286 Volume (L) = 1.09915 - Viscosity (mPa s) = 0.41623 + Viscosity (mPa s) = 0.41727 Activity of water = 0.902 Ionic strength (mol/kgw) = 2.879e+00 Mass of water (kg) = 1.000e+00 @@ -35037,10 +35037,10 @@ Reaction 1. pH = 6.100 Charge balance pe = 0.217 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 487646 + Specific Conductance (µS/cm, 95°C) = 486738 Density (g/cm³) = 1.08321 Volume (L) = 1.11370 - Viscosity (mPa s) = 0.44825 + Viscosity (mPa s) = 0.44939 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.531e+00 Mass of water (kg) = 1.000e+00 @@ -35115,10 +35115,10 @@ Reaction 1. pH = 6.101 Charge balance pe = 0.453 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 524578 + Specific Conductance (µS/cm, 95°C) = 523590 Density (g/cm³) = 1.10012 Volume (L) = 1.12639 - Viscosity (mPa s) = 0.47747 + Viscosity (mPa s) = 0.47870 Activity of water = 0.861 Ionic strength (mol/kgw) = 4.092e+00 Mass of water (kg) = 1.000e+00 @@ -35193,10 +35193,10 @@ Reaction 1. pH = 6.101 Charge balance pe = -0.088 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 528607 + Specific Conductance (µS/cm, 95°C) = 527611 Density (g/cm³) = 1.10216 Volume (L) = 1.12796 - Viscosity (mPa s) = 0.48116 + Viscosity (mPa s) = 0.48240 Activity of water = 0.859 Ionic strength (mol/kgw) = 4.161e+00 Mass of water (kg) = 1.000e+00 @@ -35375,10 +35375,10 @@ Reaction 1. pH = 5.897 Charge balance pe = 0.567 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 183745 + Specific Conductance (µS/cm, 125°C) = 183399 Density (g/cm³) = 0.96664 Volume (L) = 1.07725 - Viscosity (mPa s) = 0.24353 + Viscosity (mPa s) = 0.24416 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.069e-01 Mass of water (kg) = 1.000e+00 @@ -35453,10 +35453,10 @@ Reaction 1. pH = 5.891 Charge balance pe = 0.133 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 245529 + Specific Conductance (µS/cm, 125°C) = 244999 Density (g/cm³) = 0.97750 Volume (L) = 1.08281 - Viscosity (mPa s) = 0.25237 + Viscosity (mPa s) = 0.25312 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -35531,10 +35531,10 @@ Reaction 1. pH = 5.881 Charge balance pe = 5.214 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 418814 + Specific Conductance (µS/cm, 125°C) = 417677 Density (g/cm³) = 1.01272 Volume (L) = 1.10286 - Viscosity (mPa s) = 0.28408 + Viscosity (mPa s) = 0.28514 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -35609,10 +35609,10 @@ Reaction 1. pH = 5.879 Charge balance pe = 5.350 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 487684 + Specific Conductance (µS/cm, 125°C) = 486288 Density (g/cm³) = 1.02943 Volume (L) = 1.11334 - Viscosity (mPa s) = 0.30092 + Viscosity (mPa s) = 0.30210 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -35687,10 +35687,10 @@ Reaction 1. pH = 5.878 Charge balance pe = 5.798 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 600353 + Specific Conductance (µS/cm, 125°C) = 598534 Density (g/cm³) = 1.06235 Volume (L) = 1.13576 - Viscosity (mPa s) = 0.33798 + Viscosity (mPa s) = 0.33939 Activity of water = 0.880 Ionic strength (mol/kgw) = 3.535e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_NaCl_sol_101.sel b/mytest/Vm_NaCl_sol_101.sel index 62c4753d..9d4400e8 100644 --- a/mytest/Vm_NaCl_sol_101.sel +++ b/mytest/Vm_NaCl_sol_101.sel @@ -1,461 +1,461 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.068450052120 4588.1163390754 - 0.093400053106 6150.6290869949 - 0.094850053156 6240.3679301643 - 0.100000053328 6558.2345948388 - 0.124260054049 8038.9141341777 - 0.161465054939 10263.5497315467 - 0.166300055040 10549.0561161766 - 0.198490055651 12431.1812568702 - 0.200000055677 12518.7144615584 - 0.257240056553 15792.2210315648 - 0.320000057316 19292.7833964450 - 0.333120057456 20014.1240496840 - 0.356409057693 21286.2563762101 - 0.475759058701 27652.5303325348 - 0.483190058755 28041.0173539013 - 0.500000058875 28916.6102652659 - 0.501200058883 28978.9460462914 - 0.501900058888 29015.2982457114 - 0.507860058929 29324.5030184890 - 0.655630059823 36822.0840045479 - 0.684443059974 38247.9015539494 - 0.724670060175 40219.7164273266 - 0.787500060468 43256.5333712038 - 0.800000060523 43854.5715256775 - 0.841150060700 45809.1534646122 - 0.947100061120 50743.5509423994 - 0.963232061180 51482.6760797110 - 0.994700061294 52915.3166507421 - 0.999200061310 53119.2045009238 - 1.001200061317 53209.7425953244 - 1.200000061958 61971.0484519965 - 1.261000062132 64566.3883458938 - 1.499860062730 74319.6619707385 - 1.501800062735 74396.2428674309 - 1.782400063293 85034.9704765584 - 1.950000063563 90981.4544935104 - 1.965000063585 91499.0385772374 - 2.003400063640 92813.2003715631 - 2.251700063944 100938.3618622109 - 2.473300064147 107656.2560373247 - 2.762500064325 115691.5089529217 - 2.951400064393 120507.4957114422 - 2.983600064402 121295.2415538021 - 3.487100064407 132406.7272661724 - 3.944700064242 140657.9909754122 - 4.447300063908 147892.7555136468 - 4.930300063465 153237.0959412633 - 5.385900062957 157003.6932488184 - 5.951800062224 160186.1418570098 + 0.000000043183 0.0164557984 + 0.068450052120 4588.4331534523 + 0.093400053106 6151.1243924274 + 0.094850053156 6240.8743003833 + 0.100000053328 6558.7808320323 + 0.124260054049 8039.6593368754 + 0.161465054939 10264.6316585378 + 0.166300055040 10550.1843107358 + 0.198490055651 12432.6306675096 + 0.200000055677 12520.1794743426 + 0.257240056553 15794.3090589887 + 0.320000057316 19295.6165127442 + 0.333120057456 20017.1200723258 + 0.356409057693 21289.5471073615 + 0.475759058701 27657.4285815985 + 0.483190058755 28046.0204230317 + 0.500000058875 28921.8522642859 + 0.501200058883 28984.2051956667 + 0.501900058888 29020.5674051667 + 0.507860058929 29329.8575757058 + 0.655630059823 36829.6414100032 + 0.684443059974 38255.9049454905 + 0.724670060175 40228.3499039875 + 0.787500060468 43266.1663362793 + 0.800000060523 43864.4053396607 + 0.841150060700 45819.6526456167 + 0.947100061120 50755.7880858441 + 0.963232061180 51495.1804198197 + 0.994700061294 52928.3437796946 + 0.999200061310 53132.3065474950 + 1.001200061317 53222.8779505111 + 1.200000061958 61987.5194987436 + 1.261000062132 64583.8872776026 + 1.499860062730 74341.1643200281 + 1.501800062735 74417.7774501281 + 1.782400063293 85061.0838161878 + 1.950000063563 91010.1994908025 + 1.965000063585 91528.0145489277 + 2.003400063640 92842.7639836052 + 2.251700063944 100971.5884299571 + 2.473300064147 107692.5309820658 + 2.762500064325 115731.4169612146 + 2.951400064393 120549.5542900920 + 2.983600064402 121337.6487839396 + 3.487100064407 132453.9013032984 + 3.944700064242 140708.4010614685 + 4.447300063908 147945.5992094853 + 4.930300063465 153291.2924624227 + 5.385900062957 157058.4036427715 + 5.951800062224 160240.6385367830 0.000000100644 0.0547821292 - 0.052243120420 5757.8565421103 - 0.052500120456 5784.6790038396 - 0.057600121140 6315.0648970008 - 0.058200121217 6377.2333453024 - 0.061770121665 6746.1760471383 - 0.063200121838 6893.5099753098 - 0.066620122242 7244.8675586370 - 0.076990123371 8302.0526304872 - 0.079400123616 8546.0820508051 - 0.080040123680 8610.7860735186 - 0.093300124921 9942.3641684843 - 0.094850125057 10096.9456686163 - 0.098600125377 10470.0548488859 - 0.099450125448 10554.4563498335 - 0.099700125469 10579.2685252473 - 0.099890125485 10598.1222049875 - 0.099900125486 10599.1144185306 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100200125511 10628.8768593877 - 0.100390125526 10647.7224407849 - 0.100390125526 10647.7224407849 - 0.100900125569 10698.2927864576 - 0.103490125780 10954.7727152670 - 0.110940126364 11689.4568514363 - 0.112400126474 11832.9167136837 - 0.119760127014 12553.6214710350 - 0.120759127085 12651.1320996327 - 0.141670128467 14676.0559920167 - 0.143500128579 14851.8642205112 - 0.148600128886 15340.6931453901 - 0.154000129201 15856.5051162248 - 0.155400129281 15989.9427013146 - 0.162253129664 16641.4268843375 - 0.164800129803 16882.8545716146 - 0.165534129842 16952.3600127654 - 0.173500130263 17704.7207641273 - 0.176900130437 18024.7587876473 - 0.178420130514 18167.6294965114 - 0.197490131432 19949.6732690837 - 0.198100131461 20006.3665413966 - 0.198490131478 20042.6032565896 - 0.200000131547 20182.8324934305 - 0.200000131547 20182.8324934305 - 0.200090131552 20191.1869279645 - 0.200090131552 20191.1869279645 - 0.201288131606 20302.3552975832 - 0.201720131625 20342.4252194038 - 0.212622132106 21350.6086761387 - 0.218700132365 21910.2074273176 - 0.230000132829 22946.0299149980 - 0.236310133079 23521.9230549501 - 0.249900133598 24756.3029945149 - 0.250930133636 24849.5341398532 - 0.255400133800 25253.6200876818 - 0.258360133908 25520.7419413503 - 0.262370134052 25882.0402913429 - 0.280763134687 27530.8793791481 - 0.288000134926 28175.9696925486 - 0.299180135285 29168.5746149370 - 0.299720135302 29216.3981286224 - 0.299720135302 29216.3981286224 - 0.299900135308 29232.3368676006 - 0.300000135311 29241.1911974487 - 0.300260135319 29264.2107001912 - 0.300481135326 29283.7752854265 - 0.304200135443 29612.7354322335 - 0.309342135601 30066.7198464941 - 0.320000135923 31004.6263517539 - 0.329360136197 31824.9374020774 - 0.339500136487 32710.1203729456 - 0.347819136718 33433.6761325992 - 0.349500136764 33579.5955818084 - 0.351610136822 33762.6185331606 - 0.355200136919 34073.6716151263 - 0.360790137069 34557.1509437591 - 0.391400137854 37186.3984845392 - 0.399660138057 37890.7383898118 - 0.399660138057 37890.7383898118 - 0.400000138065 37919.6845939451 - 0.400090138067 37927.3462182541 - 0.400090138067 37927.3462182541 - 0.404043138163 38263.6119919863 - 0.405700138202 38404.4214125963 - 0.407040138234 38518.2302903574 - 0.420860138559 39688.7611102324 - 0.421200138567 39717.4848739319 - 0.436430138914 41000.5599446944 - 0.447600139162 41937.1928212216 - 0.447800139166 41953.9298860897 - 0.470800139658 43870.9144103482 - 0.497100140196 46044.4343770526 - 0.499460140243 46238.5254231026 - 0.499460140243 46238.5254231026 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.501200140278 46381.5276126800 - 0.501800140290 46430.8192929895 - 0.501900140291 46439.0336054434 - 0.503000140313 46529.3728130644 - 0.505997140372 46775.3367462663 - 0.506771140387 46838.8187754609 - 0.528653140809 48626.7715097634 - 0.561400141412 51278.4959641205 - 0.568740141543 51868.9877925193 - 0.599710142079 54345.1730078662 - 0.599710142079 54345.1730078662 - 0.600000142084 54368.2440359870 - 0.650400142908 58345.8843396820 - 0.652000142933 58471.1312280168 - 0.683549143421 60928.0929679268 - 0.688900143501 61342.4433955777 - 0.699170143655 62135.7836787605 - 0.699170143655 62135.7836787605 - 0.700000143667 62199.7901223303 - 0.702300143701 62377.0732206447 - 0.704580143735 62552.6913700839 - 0.706900143769 62731.2645147300 - 0.719800143958 63721.8839404244 - 0.724400144024 64074.1847565168 - 0.724670144028 64094.8483042050 - 0.799570145064 69762.1499236701 - 0.799570145064 69762.1499236701 - 0.800000145070 69794.3177306934 - 0.800000145070 69794.3177306934 - 0.853820145765 73788.0277868882 - 0.863600145887 74506.8933564132 - 0.874100146018 75276.3582278522 - 0.900000146333 77164.1501463445 - 0.901250146348 77254.8936834582 - 0.901250146348 77254.8936834582 - 0.920800146581 78669.7621612683 - 0.963647147078 81742.2343972796 - 0.980700147271 82954.3072757609 - 0.986500147336 83365.1667251930 - 0.994720147427 83946.2528189946 - 0.995580147437 84006.9664742582 - 0.999200147477 84262.3601304440 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000100147487 84325.8135539470 - 1.000100147487 84325.8135539470 - 1.001200147499 84403.3449150051 - 1.003400147523 84558.3323252045 - 1.006900147562 84804.6964541718 - 1.018857147692 85644.4348952266 - 1.021000147715 85794.6255091918 - 1.188800149422 97265.6507915396 - 1.200000149529 98011.3149783687 - 1.200000149529 98011.3149783687 - 1.261020150094 102030.8434388794 - 1.317400150596 105680.7910743081 - 1.384650151170 109955.2715345230 - 1.392300151234 110436.1101424731 - 1.400000151298 110918.9835075863 - 1.413800151411 111781.6173080594 - 1.474580151899 115538.7939196269 - 1.499860152097 117081.4049561398 - 1.501790152112 117198.6932652035 - 1.508800152166 117624.1248397486 - 1.572480152647 121447.7713885845 - 1.585400152742 122214.5742532759 - 1.600000152849 123077.4634874565 - 1.665400153315 126895.8489827062 - 1.672800153366 127323.0977403004 - 1.782430154103 133539.6859490955 - 1.800000154216 134516.4675258683 - 1.899500154836 139947.6537263651 - 1.938400155068 142025.0409968737 - 1.950000155136 142639.5631537853 - 1.954600155163 142882.6246287235 - 1.961000155201 143220.2043158139 - 1.965000155224 143430.8416453941 - 1.993000155385 144897.7824161277 - 1.994000155390 144949.9302288092 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.001000155430 145314.4968399155 - 2.003380155444 145438.2630013381 - 2.064300155782 148574.1834640247 - 2.088900155915 149823.0866981023 - 2.251740156746 157841.4050708492 - 2.315600157049 160869.6731906143 - 2.366600157282 163241.8769372391 - 2.397100157418 164641.1019933344 - 2.426460157546 165974.3735425323 - 2.473330157745 168075.2190341945 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.513930157913 169867.8165565401 - 2.718600158692 178526.9645270727 - 2.762450158845 180301.7062493201 - 2.811600159011 182257.8576155797 - 2.898600159291 185635.6738797332 - 2.929600159386 186813.3822174564 - 2.940500159419 187224.2758804049 - 2.951430159452 187634.6332250304 - 2.983550159547 188830.9230286989 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.023000159661 190280.6628491410 - 3.023400159662 190295.2525496280 - 3.049929159737 191257.9783557594 - 3.093920159857 192833.2205169384 - 3.224900160191 197369.1686310098 - 3.257900160270 198476.1037362410 - 3.432100160651 204085.7845961128 - 3.486500160758 205758.6457561340 - 3.487100160759 205776.8904458890 - 3.500000160784 206168.0697481750 - 3.534500160849 207204.1277415784 - 3.539741160859 207360.2347113662 - 3.660200161068 210855.9920467763 - 3.673600161089 211234.0572891854 - 3.681300161102 211450.3354822842 - 3.944700161469 218432.4795448716 - 3.987300161519 219487.5825840810 - 4.000000161533 219798.2395871696 - 4.000000161533 219798.2395871696 - 4.050567161588 221017.5875808860 - 4.217900161745 224855.9534521323 - 4.339700161836 227465.2303252149 - 4.447300161902 229645.1594890350 - 4.500000161929 230671.0310870819 - 4.500000161929 230671.0310870819 - 4.579735161964 232171.9901899381 - 4.636800161985 233208.9844240859 - 4.928800162038 238047.3894648687 - 4.930300162038 238070.2861868507 - 4.991000162038 238980.5830841756 - 5.000000162038 239112.8694555192 - 5.000000162038 239112.8694555192 - 5.024728162036 239472.7966723462 - 5.116000162028 240756.9180159842 - 5.243240162003 242433.1321955610 - 5.259300161998 242635.4748402033 - 5.346000161972 243692.8767317098 - 5.385900161958 244159.9543140715 - 5.495200161913 245377.7524526062 - 5.542600161890 245878.3036249750 - 5.800000161737 248316.7745560079 - 5.802300161736 248336.4975792200 - 5.822670161721 248509.6218973001 - 5.834500161713 248608.8882077402 - 5.951800161625 249543.1465163145 - 6.000000161586 249901.1716617419 - 6.021600161568 250056.8164055390 - 6.100000161500 250597.1731533318 - 0.000000200960 0.1389108065 - 0.068450246545 10519.5965588046 - 0.071519247269 10961.9577364671 - 0.093400251822 14073.5603594367 - 0.100000253026 14998.9380723988 - 0.124260256957 18354.9271336223 - 0.160602261784 23266.6707189845 - 0.196560265713 28011.7407549261 - 0.200000266056 28460.3526997707 - 0.216680267647 30623.3080485106 - 0.248683270419 34719.4158005490 - 0.256170271022 35668.0500889563 - 0.257240271107 35803.3366176074 - 0.265980271789 36905.7417163091 - 0.320000275610 43620.1861608950 - 0.333120276451 45226.5934554346 - 0.356468277878 48063.1916553431 - 0.382848279394 51235.3380412269 - 0.483190284428 63006.8491438546 - 0.500000285180 64936.1468138678 - 0.500000285180 64936.1468138678 - 0.500000285180 64936.1468138678 - 0.506000285444 65621.9437468443 - 0.507860285525 65834.2413563703 - 0.518010285963 66990.2659602215 - 0.518980286004 67100.5246227165 - 0.524054286220 67676.6617166307 - 0.655630291276 82269.2461839494 - 0.689310292431 85901.9219286673 - 0.779010295295 95384.6655763526 - 0.779510295310 95436.7600734157 - 0.787470295551 96264.9864582050 - 0.798500295881 97409.1724186802 - 0.800000295926 97564.4635331303 - 0.841150297124 101795.9258108599 - 0.947100300003 112442.0671061061 - 0.963647300429 114073.1987943640 - 0.965352300473 114240.7943430982 - 0.994720301213 117113.6969352010 - 1.000000301344 117627.4418564426 - 1.000000301344 117627.4418564426 - 1.000000301344 117627.4418564426 - 1.000000301344 117627.4418564426 - 1.050430302570 122492.2535191519 - 1.089320303483 126192.4657990381 - 1.200000305942 136483.9341950665 - 1.225410306480 138797.6244869849 - 1.261020307219 142009.8011708115 - 1.430900310515 156858.1024997557 - 1.501790311791 162827.4569825468 - 1.548890312609 166721.5480891254 - 1.556330312736 167331.4630464360 - 1.782430316347 185204.6870216053 - 1.800100316610 186548.5580756057 - 1.965000318943 198731.1883723314 - 2.000000319412 201234.9465553053 - 2.000000319412 201234.9465553053 - 2.000000319412 201234.9465553053 - 2.003380319456 201475.2404426782 - 2.103060320739 208444.3769553604 - 2.109040320814 208855.3060821879 - 2.251740322526 218425.0488743743 - 2.473330324933 232410.4600094185 - 2.500000325203 234023.9718113744 - 2.500000325203 234023.9718113744 - 2.533300325535 236017.9895202979 - 2.658340326729 243303.9199059799 - 2.762450327660 249132.1124368770 - 2.951430329218 259175.3538041974 - 2.983550329467 260815.2781635280 - 3.000000329592 261647.7400646565 - 3.000000329592 261647.7400646565 - 3.087380330239 265986.3585461436 - 3.263290331446 274304.4443921158 - 3.487100332810 284113.2220850352 - 3.791080334385 296121.8451441638 - 3.944700335071 301645.7748716830 - 4.000000335302 303548.4536191357 - 4.000000335302 303548.4536191357 - 4.196120336052 309942.1556573508 - 4.390380336697 315750.7532896028 - 4.447300336869 317357.5798404793 - 4.500000337022 318807.8347758126 - 4.930300338043 329364.2862099678 - 5.000000338174 330869.1103288392 - 5.000000338174 330869.1103288392 - 5.026070338220 331417.9551598072 - 5.385900338739 338246.0750044527 - 5.648440338982 342399.9242620040 - 5.800000339075 344502.3342494660 - 5.951800339135 346402.7293362232 - 6.000000339147 346964.6083841264 - 6.100000339163 348068.3203468670 - 0.000000354775 0.2906196947 - 0.100000451422 19513.2634463778 - 0.216680479090 39748.3959721948 - 0.256170485518 46269.5761971884 - 0.349370497801 61162.6079209969 - 0.518980514180 86795.4264066388 - 0.527510514873 88040.8340162271 - 0.625830522241 102123.0962793813 - 0.779010531969 123131.5724004874 - 0.875250537290 135795.0326555312 - 1.000000543511 151635.6439794888 - 1.103670548210 164330.2405290414 - 1.225410553279 178718.5941389596 - 1.556330564855 215170.4898863538 - 1.609170566540 220649.2173157646 - 2.000000577822 258450.9003759035 - 2.232540583342 278794.3841070997 - 2.500000588913 300351.1934115614 - 2.547010589815 303945.3249262843 - 3.035630598000 338067.3997362888 - 3.989210609037 389549.8429079261 - 4.266790611311 401278.1215051785 - 4.565810613384 412470.5457318811 - 5.557430617962 440238.5483605151 - 5.715770618417 443504.8788902134 - 5.913880618896 447192.3318101284 - 0.000000693037 0.6737088739 - 0.100000897780 26080.1497128499 - 0.200000951125 49276.6103631097 - 0.256170971713 61653.5154074399 - 0.265680974815 63711.5686830684 - 0.320000990632 75280.7010180693 - 0.500001030887 111686.5241200871 - 0.539801038019 119389.3233049538 - 0.798011075452 166785.8772406356 - 0.800001075697 167135.1393702910 - 1.075511105391 213368.7218819510 - 1.079511105812 214010.3645700611 - 1.200001116734 232963.9924624563 - 1.672671148063 300808.1360506181 - 1.950001168235 336217.4210085783 - 2.260601183928 372390.7002162086 - 2.878851208656 434537.0210356901 - 3.531011227796 487646.7570300095 - 4.092221240076 524578.5779080339 - 4.161051241364 528607.1775347610 - 0.000001137128 1.2246303646 - 0.706901807875 183745.2711772186 - 1.000001870288 245529.5415279972 - 2.000002000481 418814.0431425553 - 2.500002041944 487684.3756863159 - 3.534502101362 600353.9886615787 + 0.052243120420 5757.8566983581 + 0.052500120456 5784.6791611975 + 0.057600121140 6315.0650768588 + 0.058200121217 6377.2335278651 + 0.061770121665 6746.1762460374 + 0.063200121838 6893.5101808670 + 0.066620122242 7244.8677803752 + 0.076990123371 8302.0529034037 + 0.079400123616 8546.0823360489 + 0.080040123680 8610.7863620624 + 0.093300124921 9942.3645277882 + 0.094850125057 10096.9460364772 + 0.098600125377 10470.0552376855 + 0.099450125448 10554.4567434250 + 0.099700125469 10579.2689202514 + 0.099890125485 10598.1226010662 + 0.099900125486 10599.1148146658 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100200125511 10628.8772572213 + 0.100390125526 10647.7228396952 + 0.100390125526 10647.7228396952 + 0.100900125569 10698.2931882621 + 0.103490125780 10954.7731318611 + 0.110940126364 11689.4573114050 + 0.112400126474 11832.9171822940 + 0.119760127014 12553.6219838901 + 0.120759127085 12651.1326185793 + 0.141670128467 14676.0566429313 + 0.143500128579 14851.8648833629 + 0.148600128886 15340.6938418228 + 0.154000129201 15856.5058487071 + 0.155400129281 15989.9434432243 + 0.162253129664 16641.4276728660 + 0.164800129803 16882.8553776661 + 0.165534129842 16952.3608238861 + 0.173500130263 17704.7216308140 + 0.176900130437 18024.7596783516 + 0.178420130514 18167.6303980102 + 0.197490131432 19949.6743089144 + 0.198100131461 20006.3675857384 + 0.198490131478 20042.6043038183 + 0.200000131547 20182.8335518564 + 0.200000131547 20182.8335518564 + 0.200090131552 20191.1879870588 + 0.200090131552 20191.1879870588 + 0.201288131606 20302.3563655851 + 0.201720131625 20342.4262906226 + 0.212622132106 21350.6098293795 + 0.218700132365 21910.2086269715 + 0.230000132829 22946.0312021987 + 0.236310133079 23521.9243917284 + 0.249900133598 24756.3044396891 + 0.250930133636 24849.5355933309 + 0.255400133800 25253.6215773351 + 0.258360133908 25520.7434550832 + 0.262370134052 25882.0418378532 + 0.280763134687 27530.8810782382 + 0.288000134926 28175.9714526479 + 0.299180135285 29168.5764703250 + 0.299720135302 29216.3999886442 + 0.299720135302 29216.3999886442 + 0.299900135308 29232.3387291676 + 0.300000135311 29241.1930598743 + 0.300260135319 29264.2125648496 + 0.300481135326 29283.7771519834 + 0.304200135443 29612.7373308080 + 0.309342135601 30066.7217895563 + 0.320000135923 31004.6283878204 + 0.329360136197 31824.9395206818 + 0.339500136487 32710.1225818466 + 0.347819136718 33433.6784162455 + 0.349500136764 33579.5978806297 + 0.351610136822 33762.6208510632 + 0.355200136919 34073.6739655794 + 0.360790137069 34557.1533451078 + 0.391400137854 37186.4011689752 + 0.399660138057 37890.7411518567 + 0.399660138057 37890.7411518567 + 0.400000138065 37919.6873591953 + 0.400090138067 37927.3489843529 + 0.400090138067 37927.3489843529 + 0.404043138163 38263.6147954146 + 0.405700138202 38404.4242317056 + 0.407040138234 38518.2331221622 + 0.420860138559 39688.7640737064 + 0.421200138567 39717.4878406618 + 0.436430138914 41000.5630580722 + 0.447600139162 41937.1960431226 + 0.447800139166 41953.9331099412 + 0.470800139658 43870.9178601524 + 0.497100140196 46044.4380890741 + 0.499460140243 46238.5291588452 + 0.499460140243 46238.5291588452 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.501200140278 46381.5313659313 + 0.501800140290 46430.8230522822 + 0.501900140291 46439.0373657432 + 0.503000140313 46529.3765844456 + 0.505997140372 46775.3405478731 + 0.506771140387 46838.8225848815 + 0.528653140809 48626.7755414007 + 0.561400141412 51278.5003327981 + 0.568740141543 51868.9922374384 + 0.599710142079 54345.1777771009 + 0.599710142079 54345.1777771009 + 0.600000142084 54368.2488082779 + 0.650400142908 58345.8896481599 + 0.652000142933 58471.1365536725 + 0.683549143421 60928.0986340983 + 0.688900143501 61342.4491198311 + 0.699170143655 62135.7895147416 + 0.699170143655 62135.7895147416 + 0.700000143667 62199.7959673553 + 0.702300143701 62377.0790907421 + 0.704580143735 62552.6972650515 + 0.706900143769 62731.2704350203 + 0.719800143958 63721.8900018083 + 0.724400144024 64074.1908683299 + 0.724670144028 64094.8544189800 + 0.799570145064 69762.1568674134 + 0.799570145064 69762.1568674134 + 0.800000145070 69794.3246792344 + 0.800000145070 69794.3246792344 + 0.853820145765 73788.0353388894 + 0.863600145887 74506.9010186531 + 0.874100146018 75276.3660086251 + 0.900000146333 77164.1582202370 + 0.901250146348 77254.9017715224 + 0.901250146348 77254.9017715224 + 0.920800146581 78669.7704712570 + 0.963647147078 81742.2431952895 + 0.980700147271 82954.3162685392 + 0.986500147336 83365.1757842758 + 0.994720147427 83946.2619720956 + 0.995580147437 84006.9756371988 + 0.999200147477 84262.3693348091 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000100147487 84325.8227686126 + 1.000100147487 84325.8227686126 + 1.001200147499 84403.3541422610 + 1.003400147523 84558.3415776439 + 1.006900147562 84804.7057466833 + 1.018857147692 85644.4443247018 + 1.021000147715 85794.6349632245 + 1.188800149422 97265.6621733539 + 1.200000149529 98011.3264888832 + 1.200000149529 98011.3264888832 + 1.261020150094 102030.8556497941 + 1.317400150596 105680.8039305650 + 1.384650151170 109955.2851572327 + 1.392300151234 110436.1238520939 + 1.400000151298 110918.9973046230 + 1.413800151411 111781.6312616004 + 1.474580151899 115538.8085597524 + 1.499860152097 117081.4198804089 + 1.501790152112 117198.7082111286 + 1.508800152166 117624.1398642859 + 1.572480152647 121447.7871238348 + 1.585400152742 122214.5901319307 + 1.600000152849 123077.4795278237 + 1.665400153315 126895.8657428168 + 1.672800153366 127323.1145813512 + 1.782430154103 133539.7039764063 + 1.800000154216 134516.4857409392 + 1.899500154836 139947.6729914858 + 1.938400155068 142025.0606661158 + 1.950000155136 142639.5829428126 + 1.954600155163 142882.6444651586 + 1.961000155201 143220.2242181190 + 1.965000155224 143430.8615888155 + 1.993000155385 144897.8026462213 + 1.994000155390 144949.9504691039 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.001000155430 145314.5171515455 + 2.003380155444 145438.2833371931 + 2.064300155782 148574.2044148925 + 2.088900155915 149823.1078945059 + 2.251740156746 157841.4278500433 + 2.315600157049 160869.6965696091 + 2.366600157282 163241.9007864970 + 2.397100157418 164641.1261200593 + 2.426460157546 165974.3979336612 + 2.473330157745 168075.2438418930 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.513930157913 169867.8417195440 + 2.718600158692 178526.9914014943 + 2.762450158845 180301.7334728570 + 2.811600159011 182257.8852229873 + 2.898600159291 185635.7021472638 + 2.929600159386 186813.4107142067 + 2.940500159419 187224.3044570021 + 2.951430159452 187634.6618813022 + 2.983550159547 188830.9519168393 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.023000159661 190280.6920174240 + 3.023400159662 190295.2817207254 + 3.049929159737 191258.0077123337 + 3.093920159857 192833.2501759789 + 3.224900160191 197369.1991530474 + 3.257900160270 198476.1344668630 + 3.432100160651 204085.8163692634 + 3.486500160758 205758.6778348404 + 3.487100160759 205776.9225279129 + 3.500000160784 206168.1019012466 + 3.534500160849 207204.1600820636 + 3.539741160859 207360.2670799918 + 3.660200161068 210856.0250383575 + 3.673600161089 211234.0903472616 + 3.681300161102 211450.3685783180 + 3.944700161469 218432.5138303227 + 3.987300161519 219487.6170423742 + 4.000000161533 219798.2740959610 + 4.000000161533 219798.2740959610 + 4.050567161588 221017.6222860875 + 4.217900161745 224855.9887551154 + 4.339700161836 227465.2660142613 + 4.447300161902 229645.1954858805 + 4.500000161929 230671.0672235818 + 4.500000161929 230671.0672235818 + 4.579735161964 232172.0265241683 + 4.636800161985 233209.0208899798 + 4.928800162038 238047.4264813153 + 4.930300162038 238070.3232056129 + 4.991000162038 238980.6201924084 + 5.000000162038 239112.9065763208 + 5.000000162038 239112.9065763208 + 5.024728162036 239472.8338267643 + 5.116000162028 240756.9552830090 + 5.243240162003 242433.1695902851 + 5.259300161998 242635.5122486886 + 5.346000161972 243692.9142056172 + 5.385900161958 244159.9918131469 + 5.495200161913 245377.7900051500 + 5.542600161890 245878.3411938351 + 5.800000161737 248316.8121447770 + 5.802300161736 248336.5351676656 + 5.822670161721 248509.6594825078 + 5.834500161713 248608.9257907619 + 5.951800161625 249543.1840657547 + 6.000000161586 249901.2091912730 + 6.021600161568 250056.8539250249 + 6.100000161500 250597.2106306439 + 0.000000200960 0.1389107956 + 0.068450246545 10518.6890630768 + 0.071519247269 10960.9914100815 + 0.093400251822 14072.1456899161 + 0.100000253026 14997.3790439019 + 0.124260256957 18352.8054890487 + 0.160602261784 23263.6241108849 + 0.196560265713 28007.6971418553 + 0.200000266056 28456.2099233617 + 0.216680267647 30618.6758034249 + 0.248683270419 34713.8069838177 + 0.256170271022 35662.2061924237 + 0.257240271107 35797.4589300585 + 0.265980271789 36899.5862300841 + 0.320000275610 43612.2480094138 + 0.333120276451 45218.2066788155 + 0.356468277878 48053.9928067768 + 0.382848279394 51225.2018873081 + 0.483190284428 62992.9828537503 + 0.500000285180 64921.6335273948 + 0.500000285180 64921.6335273948 + 0.500000285180 64921.6335273948 + 0.506000285444 65607.1981740345 + 0.507860285525 65819.4236337423 + 0.518010285963 66975.0533617480 + 0.518980286004 67085.2741864603 + 0.524054286220 67661.2130715011 + 0.655630291276 82248.5133891045 + 0.689310292431 85879.7991658450 + 0.779010295295 95358.7854664555 + 0.779510295310 95410.8588262803 + 0.787470295551 96238.7484534866 + 0.798500295881 97382.4670130032 + 0.800000295926 97537.6944976929 + 0.841150297124 101767.4054598671 + 0.947100300003 112408.9974728379 + 0.963647300429 114039.4148978358 + 0.965352300473 114206.9368069357 + 0.994720301213 117078.5699165485 + 1.000000301344 117592.0864117988 + 1.000000301344 117592.0864117988 + 1.000000301344 117592.0864117988 + 1.000000301344 117592.0864117988 + 1.050430302570 122454.7143150621 + 1.089320303483 126153.2411773183 + 1.200000305942 136439.9170209959 + 1.225410306480 138752.5096841670 + 1.261020307219 141963.1508211646 + 1.430900310515 156804.1895321072 + 1.501790311791 162770.5544258473 + 1.548890312609 166662.6757264209 + 1.556330312736 167272.2808246594 + 1.782430316347 185136.2799510676 + 1.800100316610 186479.4472313290 + 1.965000318943 198655.6445865361 + 2.000000319412 201158.0702615816 + 2.000000319412 201158.0702615816 + 2.000000319412 201158.0702615816 + 2.003380319456 201398.2361010735 + 2.103060320739 208363.6477376650 + 2.109040320814 208774.3566165069 + 2.251740322526 218338.9552582661 + 2.473330324933 232316.8195531242 + 2.500000325203 233929.4603873383 + 2.500000325203 233929.4603873383 + 2.533300325535 235922.4020705987 + 2.658340326729 243204.4065753362 + 2.762450327660 249029.4696265957 + 2.951430329218 259067.3563728578 + 2.983550329467 260706.4125262490 + 3.000000329592 261538.4344938147 + 3.000000329592 261538.4344938147 + 3.087380330239 265874.7695390504 + 3.263290331446 274188.5299757081 + 3.487100332810 283992.3223359985 + 3.791080334385 295995.0776395895 + 3.944700335071 301516.4239672026 + 4.000000335302 303418.2335414992 + 4.000000335302 303418.2335414992 + 4.196120336052 309809.1052530057 + 4.390380336697 315615.2741835443 + 4.447300336869 317221.4572036561 + 4.500000337022 318671.1431163269 + 4.930300338043 329223.8654068395 + 5.000000338174 330728.2310751755 + 5.000000338174 330728.2310751755 + 5.026070338220 331276.9143034387 + 5.385900338739 338103.3259532057 + 5.648440338982 342256.4993462118 + 5.800000339075 344358.7184972223 + 5.951800339135 346259.0584313111 + 6.000000339147 346820.9471335757 + 6.100000339163 347924.7192212390 + 0.000000354775 0.2906196223 + 0.100000451422 19508.7672981152 + 0.216680479090 39735.0857087590 + 0.256170485518 46252.8013233584 + 0.349370497801 61136.9713893071 + 0.518980514180 86751.8887017430 + 0.527510514873 87996.3510817529 + 0.625830522241 102067.4883088235 + 0.779010531969 123057.9989031117 + 0.875250537290 135709.9215630754 + 1.000000543511 151535.4308684692 + 1.103670548210 164217.4360264516 + 1.225410553279 178591.0436129380 + 1.556330564855 215003.6632812490 + 1.609170566540 220476.2861097834 + 2.000000577822 258234.7846902200 + 2.232540583342 278554.4846162272 + 2.500000588913 300085.9144790295 + 2.547010589815 303675.8122064486 + 3.035630598000 337757.9990752464 + 3.989210609037 389183.8220480264 + 4.266790611311 400900.5193099674 + 4.565810613384 412082.6940336590 + 5.557430617962 439831.0933989645 + 5.715770618417 443096.0585190427 + 5.913880618896 446782.3890750491 + 0.000000693037 0.6737083524 + 0.100000897780 26067.9829962736 + 0.200000951125 49244.4989784784 + 0.256170971713 61608.3534054433 + 0.265680974815 63664.0951268762 + 0.320000990632 75219.5386485486 + 0.500001030887 111575.4956589553 + 0.539801038019 119266.5814574823 + 0.798011075452 166583.6107112676 + 0.800001075697 166932.2438966954 + 1.075511105391 213077.8830333811 + 1.079511105812 213718.2450640086 + 1.200001116734 232633.3859548519 + 1.672671148063 300330.9916641866 + 1.950001168235 335659.7325743630 + 2.260601183928 371748.9883017316 + 2.878851208656 433749.7565516522 + 3.531011227796 486738.1375148862 + 4.092221240076 523590.6663462856 + 4.161051241364 527611.0347703010 + 0.000001137128 1.2246282157 + 0.706901807875 183399.4882169836 + 1.000001870288 244999.3080985941 + 2.000002000481 417677.9012420534 + 2.500002041944 486288.0328811107 + 3.534502101362 598534.1468684945 diff --git a/mytest/Vm_NaHCO3_sol.out b/mytest/Vm_NaHCO3_sol.out index 81869fff..b19b4f59 100644 --- a/mytest/Vm_NaHCO3_sol.out +++ b/mytest/Vm_NaHCO3_sol.out @@ -231,7 +231,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 194 Density (g/cm³) = 1.00013 Volume (L) = 1.00024 - Viscosity (mPa s) = 1.79592 + Viscosity (mPa s) = 1.79585 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.384e-03 Mass of water (kg) = 1.000e+00 @@ -313,7 +313,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 717 Density (g/cm³) = 1.00094 Volume (L) = 1.00046 - Viscosity (mPa s) = 1.80600 + Viscosity (mPa s) = 1.80586 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.690e-02 Mass of water (kg) = 1.000e+00 @@ -395,7 +395,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 1447 Density (g/cm³) = 1.00214 Volume (L) = 1.00079 - Viscosity (mPa s) = 1.82020 + Viscosity (mPa s) = 1.81999 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.537e-02 Mass of water (kg) = 1.000e+00 @@ -477,7 +477,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 2411 Density (g/cm³) = 1.00379 Volume (L) = 1.00127 - Viscosity (mPa s) = 1.83941 + Viscosity (mPa s) = 1.83914 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.114e-02 Mass of water (kg) = 1.000e+00 @@ -559,7 +559,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 3817 Density (g/cm³) = 1.00632 Volume (L) = 1.00202 - Viscosity (mPa s) = 1.86828 + Viscosity (mPa s) = 1.86793 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.010e-01 Mass of water (kg) = 1.000e+00 @@ -638,10 +638,10 @@ Reaction 1. pH = 8.288 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 4963 + Specific Conductance (µS/cm, 0°C) = 4964 Density (g/cm³) = 1.00849 Volume (L) = 1.00269 - Viscosity (mPa s) = 1.89254 + Viscosity (mPa s) = 1.89213 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.354e-01 Mass of water (kg) = 1.000e+00 @@ -720,10 +720,10 @@ Reaction 1. pH = 8.247 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 6666 + Specific Conductance (µS/cm, 0°C) = 6667 Density (g/cm³) = 1.01186 Volume (L) = 1.00376 - Viscosity (mPa s) = 1.92975 + Viscosity (mPa s) = 1.92927 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.896e-01 Mass of water (kg) = 1.000e+00 @@ -802,10 +802,10 @@ Reaction 1. pH = 8.202 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 8912 + Specific Conductance (µS/cm, 0°C) = 8915 Density (g/cm³) = 1.01660 Volume (L) = 1.00533 - Viscosity (mPa s) = 1.98088 + Viscosity (mPa s) = 1.98031 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.665e-01 Mass of water (kg) = 1.000e+00 @@ -884,10 +884,10 @@ Reaction 1. pH = 8.155 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 11646 + Specific Conductance (µS/cm, 0°C) = 11650 Density (g/cm³) = 1.02279 Volume (L) = 1.00749 - Viscosity (mPa s) = 2.04618 + Viscosity (mPa s) = 2.04550 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.688e-01 Mass of water (kg) = 1.000e+00 @@ -966,10 +966,10 @@ Reaction 1. pH = 8.112 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 14464 + Specific Conductance (µS/cm, 0°C) = 14469 Density (g/cm³) = 1.02968 Volume (L) = 1.01004 - Viscosity (mPa s) = 2.11699 + Viscosity (mPa s) = 2.11621 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.847e-01 Mass of water (kg) = 1.000e+00 @@ -1048,10 +1048,10 @@ Reaction 1. pH = 8.072 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 17160 + Specific Conductance (µS/cm, 0°C) = 17167 Density (g/cm³) = 1.03678 Volume (L) = 1.01280 - Viscosity (mPa s) = 2.18802 + Viscosity (mPa s) = 2.18715 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.064e-01 Mass of water (kg) = 1.000e+00 @@ -1130,10 +1130,10 @@ Reaction 1. pH = 8.028 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 20231 + Specific Conductance (µS/cm, 0°C) = 20240 Density (g/cm³) = 1.04550 Volume (L) = 1.01639 - Viscosity (mPa s) = 2.27278 + Viscosity (mPa s) = 2.27181 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.589e-01 Mass of water (kg) = 1.000e+00 @@ -1322,7 +1322,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 2479 Density (g/cm³) = 1.00329 Volume (L) = 1.00106 - Viscosity (mPa s) = 1.55159 + Viscosity (mPa s) = 1.55142 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.259e-02 Mass of water (kg) = 1.000e+00 @@ -1401,10 +1401,10 @@ Reaction 1. pH = 8.176 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 7994 + Specific Conductance (µS/cm, 5°C) = 7996 Density (g/cm³) = 1.01188 Volume (L) = 1.00397 - Viscosity (mPa s) = 1.63178 + Viscosity (mPa s) = 1.63144 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.925e-01 Mass of water (kg) = 1.000e+00 @@ -1483,10 +1483,10 @@ Reaction 1. pH = 8.118 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 11607 + Specific Conductance (µS/cm, 5°C) = 11610 Density (g/cm³) = 1.01825 Volume (L) = 1.00630 - Viscosity (mPa s) = 1.68908 + Viscosity (mPa s) = 1.68866 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.986e-01 Mass of water (kg) = 1.000e+00 @@ -1565,10 +1565,10 @@ Reaction 1. pH = 8.073 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 14834 + Specific Conductance (µS/cm, 5°C) = 14838 Density (g/cm³) = 1.02442 Volume (L) = 1.00868 - Viscosity (mPa s) = 1.74344 + Viscosity (mPa s) = 1.74295 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.035e-01 Mass of water (kg) = 1.000e+00 @@ -1647,10 +1647,10 @@ Reaction 1. pH = 8.004 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 20339 + Specific Conductance (µS/cm, 5°C) = 20346 Density (g/cm³) = 1.03609 Volume (L) = 1.01348 - Viscosity (mPa s) = 1.84324 + Viscosity (mPa s) = 1.84264 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.064e-01 Mass of water (kg) = 1.000e+00 @@ -1729,10 +1729,10 @@ Reaction 1. pH = 7.972 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 22980 + Specific Conductance (µS/cm, 5°C) = 22988 Density (g/cm³) = 1.04222 Volume (L) = 1.01616 - Viscosity (mPa s) = 1.89433 + Viscosity (mPa s) = 1.89368 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.155e-01 Mass of water (kg) = 1.000e+00 @@ -1811,10 +1811,10 @@ Reaction 1. pH = 7.945 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 25169 + Specific Conductance (µS/cm, 5°C) = 25178 Density (g/cm³) = 1.04758 Volume (L) = 1.01859 - Viscosity (mPa s) = 1.93830 + Viscosity (mPa s) = 1.93760 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.124e-01 Mass of water (kg) = 1.000e+00 @@ -1893,10 +1893,10 @@ Reaction 1. pH = 7.919 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 27317 + Specific Conductance (µS/cm, 5°C) = 27327 Density (g/cm³) = 1.05310 Volume (L) = 1.02118 - Viscosity (mPa s) = 1.98288 + Viscosity (mPa s) = 1.98215 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.136e-01 Mass of water (kg) = 1.000e+00 @@ -1975,10 +1975,10 @@ Reaction 1. pH = 7.893 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 29406 + Specific Conductance (µS/cm, 5°C) = 29417 Density (g/cm³) = 1.05873 Volume (L) = 1.02390 - Viscosity (mPa s) = 2.02761 + Viscosity (mPa s) = 2.02683 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.018e+00 Mass of water (kg) = 1.000e+00 @@ -2057,10 +2057,10 @@ Reaction 1. pH = 7.893 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 29407 + Specific Conductance (µS/cm, 5°C) = 29418 Density (g/cm³) = 1.05873 Volume (L) = 1.02390 - Viscosity (mPa s) = 2.02762 + Viscosity (mPa s) = 2.02685 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.018e+00 Mass of water (kg) = 1.000e+00 @@ -2249,7 +2249,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 3513 Density (g/cm³) = 1.00251 Volume (L) = 1.00213 - Viscosity (mPa s) = 1.16208 + Viscosity (mPa s) = 1.16201 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.609e-02 Mass of water (kg) = 1.000e+00 @@ -2331,7 +2331,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7159 Density (g/cm³) = 1.00646 Volume (L) = 1.00362 - Viscosity (mPa s) = 1.18881 + Viscosity (mPa s) = 1.18870 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.222e-01 Mass of water (kg) = 1.000e+00 @@ -2410,10 +2410,10 @@ Reaction 1. pH = 8.034 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 13095 + Specific Conductance (µS/cm, 15°C) = 13097 Density (g/cm³) = 1.01356 Volume (L) = 1.00645 - Viscosity (mPa s) = 1.23579 + Viscosity (mPa s) = 1.23564 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.434e-01 Mass of water (kg) = 1.000e+00 @@ -2492,10 +2492,10 @@ Reaction 1. pH = 7.995 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 16612 + Specific Conductance (µS/cm, 15°C) = 16615 Density (g/cm³) = 1.01815 Volume (L) = 1.00838 - Viscosity (mPa s) = 1.26562 + Viscosity (mPa s) = 1.26545 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.231e-01 Mass of water (kg) = 1.000e+00 @@ -2574,10 +2574,10 @@ Reaction 1. pH = 7.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 22274 + Specific Conductance (µS/cm, 15°C) = 22278 Density (g/cm³) = 1.02616 Volume (L) = 1.01189 - Viscosity (mPa s) = 1.31688 + Viscosity (mPa s) = 1.31668 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.647e-01 Mass of water (kg) = 1.000e+00 @@ -2656,10 +2656,10 @@ Reaction 1. pH = 7.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 27613 + Specific Conductance (µS/cm, 15°C) = 27618 Density (g/cm³) = 1.03447 Volume (L) = 1.01573 - Viscosity (mPa s) = 1.36908 + Viscosity (mPa s) = 1.36885 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.147e-01 Mass of water (kg) = 1.000e+00 @@ -2738,10 +2738,10 @@ Reaction 1. pH = 7.855 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 31564 + Specific Conductance (µS/cm, 15°C) = 31570 Density (g/cm³) = 1.04112 Volume (L) = 1.01894 - Viscosity (mPa s) = 1.41028 + Viscosity (mPa s) = 1.41002 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.373e-01 Mass of water (kg) = 1.000e+00 @@ -2820,10 +2820,10 @@ Reaction 1. pH = 7.811 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 36371 + Specific Conductance (µS/cm, 15°C) = 36378 Density (g/cm³) = 1.04986 Volume (L) = 1.02335 - Viscosity (mPa s) = 1.46354 + Viscosity (mPa s) = 1.46325 Activity of water = 0.974 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -2902,10 +2902,10 @@ Reaction 1. pH = 7.781 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 39730 + Specific Conductance (µS/cm, 15°C) = 39738 Density (g/cm³) = 1.05641 Volume (L) = 1.02680 - Viscosity (mPa s) = 1.50291 + Viscosity (mPa s) = 1.50261 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.026e+00 Mass of water (kg) = 1.000e+00 @@ -3091,10 +3091,10 @@ Reaction 1. pH = 8.005 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 13333 + Specific Conductance (µS/cm, 20°C) = 13334 Density (g/cm³) = 1.01078 Volume (L) = 1.00682 - Viscosity (mPa s) = 1.07554 + Viscosity (mPa s) = 1.07548 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.141e-01 Mass of water (kg) = 1.000e+00 @@ -3173,10 +3173,10 @@ Reaction 1. pH = 8.005 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 13333 + Specific Conductance (µS/cm, 20°C) = 13334 Density (g/cm³) = 1.01078 Volume (L) = 1.00682 - Viscosity (mPa s) = 1.07554 + Viscosity (mPa s) = 1.07548 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.141e-01 Mass of water (kg) = 1.000e+00 @@ -3255,10 +3255,10 @@ Reaction 1. pH = 7.951 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 18719 + Specific Conductance (µS/cm, 20°C) = 18720 Density (g/cm³) = 1.01679 Volume (L) = 1.00943 - Viscosity (mPa s) = 1.10938 + Viscosity (mPa s) = 1.10930 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.195e-01 Mass of water (kg) = 1.000e+00 @@ -3337,10 +3337,10 @@ Reaction 1. pH = 7.907 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 23733 + Specific Conductance (µS/cm, 20°C) = 23735 Density (g/cm³) = 1.02285 Volume (L) = 1.01217 - Viscosity (mPa s) = 1.14304 + Viscosity (mPa s) = 1.14296 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.277e-01 Mass of water (kg) = 1.000e+00 @@ -3419,10 +3419,10 @@ Reaction 1. pH = 7.837 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 32501 + Specific Conductance (µS/cm, 20°C) = 32504 Density (g/cm³) = 1.03461 Volume (L) = 1.01780 - Viscosity (mPa s) = 1.20730 + Viscosity (mPa s) = 1.20719 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.425e-01 Mass of water (kg) = 1.000e+00 @@ -3501,10 +3501,10 @@ Reaction 1. pH = 7.778 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 40042 + Specific Conductance (µS/cm, 20°C) = 40046 Density (g/cm³) = 1.04605 Volume (L) = 1.02365 - Viscosity (mPa s) = 1.26859 + Viscosity (mPa s) = 1.26846 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.577e-01 Mass of water (kg) = 1.000e+00 @@ -3583,10 +3583,10 @@ Reaction 1. pH = 7.778 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 40042 + Specific Conductance (µS/cm, 20°C) = 40046 Density (g/cm³) = 1.04605 Volume (L) = 1.02365 - Viscosity (mPa s) = 1.26859 + Viscosity (mPa s) = 1.26846 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.577e-01 Mass of water (kg) = 1.000e+00 @@ -3665,10 +3665,10 @@ Reaction 1. pH = 7.722 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 47149 + Specific Conductance (µS/cm, 20°C) = 47154 Density (g/cm³) = 1.05811 Volume (L) = 1.03021 - Viscosity (mPa s) = 1.33205 + Viscosity (mPa s) = 1.33191 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.091e+00 Mass of water (kg) = 1.000e+00 @@ -3747,10 +3747,10 @@ Reaction 1. pH = 7.716 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 47871 + Specific Conductance (µS/cm, 20°C) = 47877 Density (g/cm³) = 1.05942 Volume (L) = 1.03094 - Viscosity (mPa s) = 1.33883 + Viscosity (mPa s) = 1.33869 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.117e+00 Mass of water (kg) = 1.000e+00 @@ -8392,7 +8392,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 5794 Density (g/cm³) = 0.99746 Volume (L) = 1.00744 - Viscosity (mPa s) = 0.73325 + Viscosity (mPa s) = 0.73330 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.907e-02 Mass of water (kg) = 1.000e+00 @@ -8471,10 +8471,10 @@ Reaction 1. pH = 7.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 11081 + Specific Conductance (µS/cm, 35°C) = 11080 Density (g/cm³) = 1.00093 Volume (L) = 1.00896 - Viscosity (mPa s) = 0.74671 + Viscosity (mPa s) = 0.74678 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.198e-01 Mass of water (kg) = 1.000e+00 @@ -8553,10 +8553,10 @@ Reaction 1. pH = 7.891 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 20449 + Specific Conductance (µS/cm, 35°C) = 20446 Density (g/cm³) = 1.00766 Volume (L) = 1.01204 - Viscosity (mPa s) = 0.77243 + Viscosity (mPa s) = 0.77253 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.398e-01 Mass of water (kg) = 1.000e+00 @@ -8635,10 +8635,10 @@ Reaction 1. pH = 7.853 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 25897 + Specific Conductance (µS/cm, 35°C) = 25893 Density (g/cm³) = 1.01190 Volume (L) = 1.01406 - Viscosity (mPa s) = 0.78850 + Viscosity (mPa s) = 0.78861 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.168e-01 Mass of water (kg) = 1.000e+00 @@ -8717,10 +8717,10 @@ Reaction 1. pH = 7.802 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 34257 + Specific Conductance (µS/cm, 35°C) = 34251 Density (g/cm³) = 1.01892 Volume (L) = 1.01752 - Viscosity (mPa s) = 0.81479 + Viscosity (mPa s) = 0.81493 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.457e-01 Mass of water (kg) = 1.000e+00 @@ -8799,10 +8799,10 @@ Reaction 1. pH = 7.747 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 43932 + Specific Conductance (µS/cm, 35°C) = 43924 Density (g/cm³) = 1.02784 Volume (L) = 1.02212 - Viscosity (mPa s) = 0.84790 + Viscosity (mPa s) = 0.84806 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.131e-01 Mass of water (kg) = 1.000e+00 @@ -8881,10 +8881,10 @@ Reaction 1. pH = 7.714 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 50132 + Specific Conductance (µS/cm, 35°C) = 50122 Density (g/cm³) = 1.03405 Volume (L) = 1.02545 - Viscosity (mPa s) = 0.87077 + Viscosity (mPa s) = 0.87094 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.319e-01 Mass of water (kg) = 1.000e+00 @@ -8963,10 +8963,10 @@ Reaction 1. pH = 7.671 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 57993 + Specific Conductance (µS/cm, 35°C) = 57980 Density (g/cm³) = 1.04255 Volume (L) = 1.03018 - Viscosity (mPa s) = 0.90180 + Viscosity (mPa s) = 0.90199 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.972e-01 Mass of water (kg) = 1.000e+00 @@ -9045,10 +9045,10 @@ Reaction 1. pH = 7.642 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 63396 + Specific Conductance (µS/cm, 35°C) = 63381 Density (g/cm³) = 1.04883 Volume (L) = 1.03380 - Viscosity (mPa s) = 0.92457 + Viscosity (mPa s) = 0.92478 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.022e+00 Mass of water (kg) = 1.000e+00 @@ -9234,10 +9234,10 @@ Reaction 1. pH = 8.009 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 6977 + Specific Conductance (µS/cm, 45°C) = 6976 Density (g/cm³) = 0.99360 Volume (L) = 1.01137 - Viscosity (mPa s) = 0.60675 + Viscosity (mPa s) = 0.60684 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.930e-02 Mass of water (kg) = 1.000e+00 @@ -9316,10 +9316,10 @@ Reaction 1. pH = 7.937 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 13127 + Specific Conductance (µS/cm, 45°C) = 13125 Density (g/cm³) = 0.99691 Volume (L) = 1.01288 - Viscosity (mPa s) = 0.61681 + Viscosity (mPa s) = 0.61693 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.180e-01 Mass of water (kg) = 1.000e+00 @@ -9398,10 +9398,10 @@ Reaction 1. pH = 7.850 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 24689 + Specific Conductance (µS/cm, 45°C) = 24682 Density (g/cm³) = 1.00370 Volume (L) = 1.01610 - Viscosity (mPa s) = 0.63719 + Viscosity (mPa s) = 0.63736 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.407e-01 Mass of water (kg) = 1.000e+00 @@ -9480,10 +9480,10 @@ Reaction 1. pH = 7.849 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 24856 + Specific Conductance (µS/cm, 45°C) = 24849 Density (g/cm³) = 1.00380 Volume (L) = 1.01615 - Viscosity (mPa s) = 0.63750 + Viscosity (mPa s) = 0.63767 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.426e-01 Mass of water (kg) = 1.000e+00 @@ -9562,10 +9562,10 @@ Reaction 1. pH = 7.809 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 31861 + Specific Conductance (µS/cm, 45°C) = 31851 Density (g/cm³) = 1.00827 Volume (L) = 1.01836 - Viscosity (mPa s) = 0.65080 + Viscosity (mPa s) = 0.65100 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.248e-01 Mass of water (kg) = 1.000e+00 @@ -9644,10 +9644,10 @@ Reaction 1. pH = 7.762 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 41179 + Specific Conductance (µS/cm, 45°C) = 41164 Density (g/cm³) = 1.01465 Volume (L) = 1.02162 - Viscosity (mPa s) = 0.66964 + Viscosity (mPa s) = 0.66987 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.437e-01 Mass of water (kg) = 1.000e+00 @@ -9726,10 +9726,10 @@ Reaction 1. pH = 7.761 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 41317 + Specific Conductance (µS/cm, 45°C) = 41301 Density (g/cm³) = 1.01475 Volume (L) = 1.02167 - Viscosity (mPa s) = 0.66992 + Viscosity (mPa s) = 0.67016 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.455e-01 Mass of water (kg) = 1.000e+00 @@ -9808,10 +9808,10 @@ Reaction 1. pH = 7.708 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 53054 + Specific Conductance (µS/cm, 45°C) = 53032 Density (g/cm³) = 1.02353 Volume (L) = 1.02634 - Viscosity (mPa s) = 0.69568 + Viscosity (mPa s) = 0.69596 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.124e-01 Mass of water (kg) = 1.000e+00 @@ -9890,10 +9890,10 @@ Reaction 1. pH = 7.674 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 60691 + Specific Conductance (µS/cm, 45°C) = 60665 Density (g/cm³) = 1.02974 Volume (L) = 1.02977 - Viscosity (mPa s) = 0.71375 + Viscosity (mPa s) = 0.71405 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.323e-01 Mass of water (kg) = 1.000e+00 @@ -9972,10 +9972,10 @@ Reaction 1. pH = 7.633 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 70107 + Specific Conductance (µS/cm, 45°C) = 70074 Density (g/cm³) = 1.03797 Volume (L) = 1.03448 - Viscosity (mPa s) = 0.73761 + Viscosity (mPa s) = 0.73794 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.943e-01 Mass of water (kg) = 1.000e+00 @@ -10054,10 +10054,10 @@ Reaction 1. pH = 7.632 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 70346 + Specific Conductance (µS/cm, 45°C) = 70313 Density (g/cm³) = 1.03819 Volume (L) = 1.03461 - Viscosity (mPa s) = 0.73824 + Viscosity (mPa s) = 0.73857 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.986e-01 Mass of water (kg) = 1.000e+00 @@ -10136,10 +10136,10 @@ Reaction 1. pH = 7.604 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 76765 + Specific Conductance (µS/cm, 45°C) = 76728 Density (g/cm³) = 1.04422 Volume (L) = 1.03817 - Viscosity (mPa s) = 0.75562 + Viscosity (mPa s) = 0.75597 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -10218,10 +10218,10 @@ Reaction 1. pH = 7.603 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 76817 + Specific Conductance (µS/cm, 45°C) = 76780 Density (g/cm³) = 1.04427 Volume (L) = 1.03820 - Viscosity (mPa s) = 0.75576 + Viscosity (mPa s) = 0.75612 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.020e+00 Mass of water (kg) = 1.000e+00 @@ -10408,10 +10408,10 @@ Reaction 1. pH = 7.916 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 17697 + Specific Conductance (µS/cm, 75°C) = 17687 Density (g/cm³) = 0.98135 Volume (L) = 1.02756 - Viscosity (mPa s) = 0.38728 + Viscosity (mPa s) = 0.38748 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.018e-01 Mass of water (kg) = 1.000e+00 @@ -10491,10 +10491,10 @@ Reaction 1. pH = 7.834 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 33098 + Specific Conductance (µS/cm, 75°C) = 33073 Density (g/cm³) = 0.98689 Volume (L) = 1.03031 - Viscosity (mPa s) = 0.39593 + Viscosity (mPa s) = 0.39622 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.039e-01 Mass of water (kg) = 1.000e+00 @@ -10574,10 +10574,10 @@ Reaction 1. pH = 7.738 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 60129 + Specific Conductance (µS/cm, 75°C) = 60067 Density (g/cm³) = 0.99771 Volume (L) = 1.03598 - Viscosity (mPa s) = 0.41272 + Viscosity (mPa s) = 0.41312 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.080e-01 Mass of water (kg) = 1.000e+00 @@ -10657,10 +10657,10 @@ Reaction 1. pH = 7.644 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 94130 + Specific Conductance (µS/cm, 75°C) = 94010 Density (g/cm³) = 1.01341 Volume (L) = 1.04479 - Viscosity (mPa s) = 0.43693 + Viscosity (mPa s) = 0.43746 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.138e-01 Mass of water (kg) = 1.000e+00 @@ -10848,10 +10848,10 @@ Reaction 1. pH = 7.967 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 23063 + Specific Conductance (µS/cm, 100°C) = 23042 Density (g/cm³) = 0.96491 Volume (L) = 1.04507 - Viscosity (mPa s) = 0.28775 + Viscosity (mPa s) = 0.28799 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.019e-01 Mass of water (kg) = 1.000e+00 @@ -10931,10 +10931,10 @@ Reaction 1. pH = 7.886 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 43318 + Specific Conductance (µS/cm, 100°C) = 43264 Density (g/cm³) = 0.97044 Volume (L) = 1.04778 - Viscosity (mPa s) = 0.29291 + Viscosity (mPa s) = 0.29325 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.041e-01 Mass of water (kg) = 1.000e+00 @@ -11014,10 +11014,10 @@ Reaction 1. pH = 7.790 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 79342 + Specific Conductance (µS/cm, 100°C) = 79206 Density (g/cm³) = 0.98123 Volume (L) = 1.05338 - Viscosity (mPa s) = 0.30298 + Viscosity (mPa s) = 0.30346 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.084e-01 Mass of water (kg) = 1.000e+00 @@ -11097,10 +11097,10 @@ Reaction 1. pH = 7.696 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 125525 + Specific Conductance (µS/cm, 100°C) = 125253 Density (g/cm³) = 0.99689 Volume (L) = 1.06211 - Viscosity (mPa s) = 0.31764 + Viscosity (mPa s) = 0.31828 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.144e-01 Mass of water (kg) = 1.000e+00 @@ -11288,10 +11288,10 @@ Reaction 1. pH = 8.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 28271 + Specific Conductance (µS/cm, 125°C) = 28234 Density (g/cm³) = 0.94566 Volume (L) = 1.06635 - Viscosity (mPa s) = 0.22579 + Viscosity (mPa s) = 0.22607 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.020e-01 Mass of water (kg) = 1.000e+00 @@ -11371,10 +11371,10 @@ Reaction 1. pH = 7.985 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 53373 + Specific Conductance (µS/cm, 125°C) = 53275 Density (g/cm³) = 0.95123 Volume (L) = 1.06894 - Viscosity (mPa s) = 0.22868 + Viscosity (mPa s) = 0.22908 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.042e-01 Mass of water (kg) = 1.000e+00 @@ -11454,10 +11454,10 @@ Reaction 1. pH = 7.889 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 98728 + Specific Conductance (µS/cm, 125°C) = 98476 Density (g/cm³) = 0.96209 Volume (L) = 1.07433 - Viscosity (mPa s) = 0.23445 + Viscosity (mPa s) = 0.23501 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.087e-01 Mass of water (kg) = 1.000e+00 @@ -11537,10 +11537,10 @@ Reaction 1. pH = 7.795 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 158209 + Specific Conductance (µS/cm, 125°C) = 157690 Density (g/cm³) = 0.97785 Volume (L) = 1.08279 - Viscosity (mPa s) = 0.24305 + Viscosity (mPa s) = 0.24379 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.149e-01 Mass of water (kg) = 1.000e+00 @@ -11728,10 +11728,10 @@ Reaction 1. pH = 8.177 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 33140 + Specific Conductance (µS/cm, 150°C) = 33080 Density (g/cm³) = 0.92372 Volume (L) = 1.09168 - Viscosity (mPa s) = 0.18410 + Viscosity (mPa s) = 0.18441 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.019e-01 Mass of water (kg) = 1.000e+00 @@ -11811,10 +11811,10 @@ Reaction 1. pH = 8.113 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 63046 + Specific Conductance (µS/cm, 150°C) = 62884 Density (g/cm³) = 0.92939 Volume (L) = 1.09405 - Viscosity (mPa s) = 0.18508 + Viscosity (mPa s) = 0.18553 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.043e-01 Mass of water (kg) = 1.000e+00 @@ -11894,10 +11894,10 @@ Reaction 1. pH = 8.020 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 118287 + Specific Conductance (µS/cm, 150°C) = 117859 Density (g/cm³) = 0.94044 Volume (L) = 1.09907 - Viscosity (mPa s) = 0.18740 + Viscosity (mPa s) = 0.18802 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.089e-01 Mass of water (kg) = 1.000e+00 @@ -11977,10 +11977,10 @@ Reaction 1. pH = 7.927 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 192949 + Specific Conductance (µS/cm, 150°C) = 192039 Density (g/cm³) = 0.95642 Volume (L) = 1.10705 - Viscosity (mPa s) = 0.19136 + Viscosity (mPa s) = 0.19219 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.153e-01 Mass of water (kg) = 1.000e+00 @@ -12168,10 +12168,10 @@ Reaction 1. pH = 8.300 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 37955 + Specific Conductance (µS/cm, 175°C) = 37862 Density (g/cm³) = 0.89904 Volume (L) = 1.12165 - Viscosity (mPa s) = 0.15271 + Viscosity (mPa s) = 0.15305 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.017e-01 Mass of water (kg) = 1.000e+00 @@ -12251,10 +12251,10 @@ Reaction 1. pH = 8.257 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 73496 + Specific Conductance (µS/cm, 175°C) = 73237 Density (g/cm³) = 0.90489 Volume (L) = 1.12368 - Viscosity (mPa s) = 0.15103 + Viscosity (mPa s) = 0.15152 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.041e-01 Mass of water (kg) = 1.000e+00 @@ -12334,10 +12334,10 @@ Reaction 1. pH = 8.173 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 141905 + Specific Conductance (µS/cm, 175°C) = 141180 Density (g/cm³) = 0.91624 Volume (L) = 1.12809 - Viscosity (mPa s) = 0.14914 + Viscosity (mPa s) = 0.14984 Activity of water = 0.989 Ionic strength (mol/kgw) = 4.090e-01 Mass of water (kg) = 1.000e+00 @@ -12417,10 +12417,10 @@ Reaction 1. pH = 8.081 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 239012 + Specific Conductance (µS/cm, 175°C) = 237371 Density (g/cm³) = 0.93262 Volume (L) = 1.13531 - Viscosity (mPa s) = 0.14827 + Viscosity (mPa s) = 0.14919 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.156e-01 Mass of water (kg) = 1.000e+00 @@ -12608,10 +12608,10 @@ Reaction 1. pH = 8.422 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 15077 + Specific Conductance (µS/cm, 200°C) = 15063 Density (g/cm³) = 0.87136 Volume (L) = 1.15727 - Viscosity (mPa s) = 0.36359 + Viscosity (mPa s) = 0.36397 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.015e-01 Mass of water (kg) = 1.000e+00 @@ -12691,10 +12691,10 @@ Reaction 1. pH = 8.405 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1067648 + Specific Conductance (µS/cm, 200°C) = 1021389 Density (g/cm³) = 0.87749 Volume (L) = 1.15876 - Viscosity (mPa s) = 0.01645 + Viscosity (mPa s) = 0.01699 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.039e-01 Mass of water (kg) = 1.000e+00 @@ -12774,10 +12774,10 @@ Reaction 1. pH = 8.335 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 382643 + Specific Conductance (µS/cm, 200°C) = 376658 Density (g/cm³) = 0.88934 Volume (L) = 1.16222 - Viscosity (mPa s) = 0.05948 + Viscosity (mPa s) = 0.06025 Activity of water = 0.989 Ionic strength (mol/kgw) = 4.088e-01 Mass of water (kg) = 1.000e+00 @@ -12857,10 +12857,10 @@ Reaction 1. pH = 8.248 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 553520 + Specific Conductance (µS/cm, 200°C) = 543520 Density (g/cm³) = 0.90634 Volume (L) = 1.16823 - Viscosity (mPa s) = 0.06752 + Viscosity (mPa s) = 0.06853 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.157e-01 Mass of water (kg) = 1.000e+00 @@ -13048,10 +13048,10 @@ Reaction 1. pH = 7.934 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 23056 + Specific Conductance (µS/cm, 100°C) = 23035 Density (g/cm³) = 0.96859 Volume (L) = 1.04109 - Viscosity (mPa s) = 0.28985 + Viscosity (mPa s) = 0.29009 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.018e-01 Mass of water (kg) = 1.000e+00 @@ -13131,10 +13131,10 @@ Reaction 1. pH = 7.855 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 43281 + Specific Conductance (µS/cm, 100°C) = 43228 Density (g/cm³) = 0.97406 Volume (L) = 1.04384 - Viscosity (mPa s) = 0.29491 + Viscosity (mPa s) = 0.29526 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.037e-01 Mass of water (kg) = 1.000e+00 @@ -13214,10 +13214,10 @@ Reaction 1. pH = 7.724 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 95806 + Specific Conductance (µS/cm, 100°C) = 95625 Density (g/cm³) = 0.99004 Volume (L) = 1.05247 - Viscosity (mPa s) = 0.30970 + Viscosity (mPa s) = 0.31025 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.103e-01 Mass of water (kg) = 1.000e+00 @@ -13297,10 +13297,10 @@ Reaction 1. pH = 7.597 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 164992 + Specific Conductance (µS/cm, 100°C) = 164583 Density (g/cm³) = 1.01526 Volume (L) = 1.06755 - Viscosity (mPa s) = 0.33304 + Viscosity (mPa s) = 0.33381 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.018e+00 Mass of water (kg) = 1.000e+00 @@ -13488,10 +13488,10 @@ Reaction 1. pH = 8.260 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 37700 + Specific Conductance (µS/cm, 175°C) = 37609 Density (g/cm³) = 0.90397 Volume (L) = 1.11551 - Viscosity (mPa s) = 0.15529 + Viscosity (mPa s) = 0.15563 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.016e-01 Mass of water (kg) = 1.000e+00 @@ -13571,10 +13571,10 @@ Reaction 1. pH = 8.217 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 72721 + Specific Conductance (µS/cm, 175°C) = 72468 Density (g/cm³) = 0.90974 Volume (L) = 1.11764 - Viscosity (mPa s) = 0.15398 + Viscosity (mPa s) = 0.15447 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.037e-01 Mass of water (kg) = 1.000e+00 @@ -13654,10 +13654,10 @@ Reaction 1. pH = 8.101 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 172534 + Specific Conductance (µS/cm, 175°C) = 171558 Density (g/cm³) = 0.92648 Volume (L) = 1.12468 - Viscosity (mPa s) = 0.15219 + Viscosity (mPa s) = 0.15298 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.110e-01 Mass of water (kg) = 1.000e+00 @@ -13737,10 +13737,10 @@ Reaction 1. pH = 7.978 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 323117 + Specific Conductance (µS/cm, 175°C) = 320512 Density (g/cm³) = 0.95270 Volume (L) = 1.13765 - Viscosity (mPa s) = 0.15255 + Viscosity (mPa s) = 0.15366 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -14368,10 +14368,10 @@ Reaction 1. pH = 7.864 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 23078 + Specific Conductance (µS/cm, 100°C) = 23058 Density (g/cm³) = 0.97659 Volume (L) = 1.03257 - Viscosity (mPa s) = 0.29452 + Viscosity (mPa s) = 0.29477 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.018e-01 Mass of water (kg) = 1.000e+00 @@ -14451,10 +14451,10 @@ Reaction 1. pH = 7.787 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 43351 + Specific Conductance (µS/cm, 100°C) = 43298 Density (g/cm³) = 0.98197 Volume (L) = 1.03543 - Viscosity (mPa s) = 0.29944 + Viscosity (mPa s) = 0.29979 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.036e-01 Mass of water (kg) = 1.000e+00 @@ -14534,10 +14534,10 @@ Reaction 1. pH = 7.660 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 96134 + Specific Conductance (µS/cm, 100°C) = 95953 Density (g/cm³) = 0.99772 Volume (L) = 1.04438 - Viscosity (mPa s) = 0.31373 + Viscosity (mPa s) = 0.31428 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.102e-01 Mass of water (kg) = 1.000e+00 @@ -14617,10 +14617,10 @@ Reaction 1. pH = 7.536 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 166037 + Specific Conductance (µS/cm, 100°C) = 165624 Density (g/cm³) = 1.02253 Volume (L) = 1.05996 - Viscosity (mPa s) = 0.33610 + Viscosity (mPa s) = 0.33688 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.017e+00 Mass of water (kg) = 1.000e+00 @@ -14808,10 +14808,10 @@ Reaction 1. pH = 8.177 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 37336 + Specific Conductance (µS/cm, 175°C) = 37247 Density (g/cm³) = 0.91458 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.16054 + Viscosity (mPa s) = 0.16090 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.016e-01 Mass of water (kg) = 1.000e+00 @@ -14891,10 +14891,10 @@ Reaction 1. pH = 8.138 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 71683 + Specific Conductance (µS/cm, 175°C) = 71439 Density (g/cm³) = 0.92023 Volume (L) = 1.10491 - Viscosity (mPa s) = 0.15983 + Viscosity (mPa s) = 0.16033 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.036e-01 Mass of water (kg) = 1.000e+00 @@ -14974,10 +14974,10 @@ Reaction 1. pH = 8.026 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 168551 + Specific Conductance (µS/cm, 175°C) = 167623 Density (g/cm³) = 0.93662 Volume (L) = 1.11251 - Viscosity (mPa s) = 0.15909 + Viscosity (mPa s) = 0.15989 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.108e-01 Mass of water (kg) = 1.000e+00 @@ -15057,10 +15057,10 @@ Reaction 1. pH = 7.908 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 313560 + Specific Conductance (µS/cm, 175°C) = 311113 Density (g/cm³) = 0.96231 Volume (L) = 1.12629 - Viscosity (mPa s) = 0.16014 + Viscosity (mPa s) = 0.16126 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.018e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_NaHCO3_sol_101.sel b/mytest/Vm_NaHCO3_sol_101.sel index fc8da4cd..c897b6a8 100644 --- a/mytest/Vm_NaHCO3_sol_101.sel +++ b/mytest/Vm_NaHCO3_sol_101.sel @@ -1,179 +1,179 @@ Mu SC 0.000000100644 0.0547821166 - 0.000000033952 0.0114689826 - 0.004384232917 194.5360482444 - 0.016897027281 717.5672868168 - 0.035370648211 1447.2583561937 - 0.061138051064 2411.5691402766 - 0.101032297031 3817.1064991133 - 0.135443342553 4963.0372019091 - 0.189594004635 6666.0331869414 - 0.266519390798 8912.5712900478 - 0.368791165752 11646.2324330143 - 0.484745969286 14464.2671632376 - 0.606419667514 17160.1503134129 - 0.758929665501 20231.3525464683 - 0.000000043183 0.0164343314 - 0.052594830782 2479.0750680403 - 0.192499396514 7994.9193843037 - 0.298620942547 11607.2227472851 - 0.403479016651 14834.2771779195 - 0.606368025384 20339.9859665352 - 0.715536949605 22980.6501078813 - 0.812433174395 25169.1158610798 - 0.913610493465 27317.2812145839 - 1.018152049632 29406.3060397095 - 1.018192765814 29407.0957409291 - 0.000000067373 0.0312733044 - 0.056087183760 3513.5549233512 - 0.122151134037 7159.1687671055 - 0.243354061958 13095.6746144368 - 0.323095163478 16612.7552358795 - 0.464721775207 22274.7840816458 - 0.614737171887 27613.8337412847 - 0.737255265306 31564.4920852309 - 0.901162307596 36371.2126370339 - 1.026463490037 39730.3122803904 - 0.000000082766 0.0417744594 - 0.214058622014 13333.2041129528 - 0.214058622014 13333.2041129528 - 0.319515244164 18719.3924516704 - 0.427664893852 23733.9150183451 - 0.642518324187 32501.2592350733 - 0.857728286729 40042.2061805490 - 0.857728286729 40042.2061805490 - 1.091439683098 47149.5532676962 - 1.117100115147 47871.9919427657 + 0.000000033952 0.0114689830 + 0.004384232917 194.5442767202 + 0.016897027281 717.6264472287 + 0.035370648211 1447.4294536486 + 0.061138051064 2411.9397456767 + 0.101032297031 3817.8483909257 + 0.135443342553 4964.1392422875 + 0.189594004635 6667.7494912339 + 0.266519390798 8915.2188896048 + 0.368791165752 11650.1656427192 + 0.484745969286 14469.6688176871 + 0.606419667514 17167.0689852941 + 0.758929665501 20240.1109336793 + 0.000000043183 0.0164343319 + 0.052594830782 2479.3653857849 + 0.192499396514 7996.6197616215 + 0.298620942547 11610.1892698333 + 0.403479016651 14838.5398070410 + 0.606368025384 20346.7384484004 + 0.715536949605 22988.6972647855 + 0.812433174395 25178.2770329906 + 0.913610493465 27327.5681598683 + 1.018152049632 29417.7155828500 + 1.018192765814 29418.5057133222 + 0.000000067373 0.0312733051 + 0.056087183760 3513.7768702661 + 0.122151134037 7159.8209018555 + 0.243354061958 13097.2932856192 + 0.323095163478 16615.0637096638 + 0.464721775207 22278.3450767809 + 0.614737171887 27618.7057256325 + 0.737255265306 31570.4001142212 + 0.901162307596 36378.4439416577 + 1.026463490037 39738.5032944771 + 0.000000082766 0.0417744600 + 0.214058622014 13334.0037914493 + 0.214058622014 13334.0037914493 + 0.319515244164 18720.7213153099 + 0.427664893852 23735.8045702344 + 0.642518324187 32504.2526113816 + 0.857728286729 40046.2466621641 + 0.857728286729 40046.2466621641 + 1.091439683098 47154.6436906820 + 1.117100115147 47877.1919607983 0.000000100644 0.0547821166 - 0.003011232021 270.6423400868 - 0.004731103660 420.7633337614 - 0.008203566196 718.3186668889 - 0.014222864740 1221.5151967459 - 0.017914301120 1524.0411687810 - 0.023444534510 1970.2718161771 - 0.035438622657 2914.4647906126 - 0.037399770532 3066.1972273806 - 0.041302477475 3366.1606633024 - 0.053483396682 4286.8223143048 - 0.065334737225 5162.4161154597 - 0.087013141289 6719.7975706744 - 0.101918425252 7761.3491725007 - 0.101918425252 7761.3491725007 - 0.129353296293 9623.8678820416 - 0.180018423613 12902.7591181418 - 0.191254475088 13604.7973098111 - 0.201991497374 14267.8013114782 - 0.201991497374 14267.8013114782 - 0.254128492203 17385.4488822859 - 0.269388367942 18268.1062040880 - 0.274858648975 18581.4150118163 - 0.304420044170 20247.2408269744 - 0.304420044170 20247.2408269744 - 0.324599027502 21358.9037475745 - 0.337026002158 22033.6546963605 - 0.381109455944 24369.5437717959 - 0.406348184597 25668.2837370488 - 0.406348184597 25668.2837370488 - 0.450691836250 27886.2765705992 - 0.497812517491 30159.3049467902 - 0.538066518701 32037.0176109851 - 0.542750603149 32251.8453541606 - 0.611409214767 35317.4104404060 - 0.611409214767 35317.4104404060 - 0.650098340817 36979.4011200309 - 0.680202972512 38241.8406583956 - 0.706844953737 39337.4646241416 - 0.706844953737 39337.4646241416 - 0.788006101523 42556.6767065776 - 0.814317913190 43563.9541257623 - 0.814317913190 43563.9541257623 - 0.820068707772 43781.8357336159 - 0.822002591771 43854.9243565157 - 0.859746774505 45263.4875616007 - 0.912481517462 47176.2049043373 - 0.996730468595 50106.1318526150 - 1.093991138537 53310.6013830406 - 1.101845412026 53561.5558083583 - 1.015972149139 50754.7122535658 - 0.101521317617 7733.8849012254 - 0.203071316356 14334.0643536089 - 0.508942958062 30684.2425927528 - 0.000000144671 0.0897480541 - 0.059071599760 5794.6460508696 - 0.119797700007 11081.7661575200 - 0.239795867305 20449.6723130276 - 0.316760557479 25897.4458385946 - 0.445741649370 34257.2042436520 - 0.613131468706 43932.8343836158 - 0.731893083257 50132.9990945380 - 0.897167373279 57993.1164495465 - 1.021505337355 63396.2738674860 - 0.000000200960 0.1390472929 - 0.059301005335 6977.5873708573 - 0.117994945226 13127.8865971224 - 0.240732846446 24689.5629576374 - 0.242618798060 24856.3794947234 - 0.324830042949 31861.7654401089 - 0.443680294626 41179.9266434471 - 0.445514436645 41317.0608680949 - 0.612374087102 53054.2789668668 - 0.732326105808 60691.8926858527 - 0.894255637436 70107.6344780238 - 0.898591269996 70346.9603303624 - 1.019287262465 76765.8068228629 - 1.020304686714 76817.9943252479 - 0.000000456921 0.4009126032 - 0.101841127922 17697.5450245004 - 0.203911544477 33098.2779630472 - 0.408004204860 60129.2094359429 - 0.713830040074 94130.0671722913 - 0.000000766853 0.7631511554 - 0.101926333389 23063.5845631977 - 0.204105306703 43318.8267779054 - 0.408390290688 79342.5794474599 - 0.714408390986 125525.3433848388 - 0.000001145683 1.2366623177 - 0.101956964592 28271.8315318515 - 0.204234450102 53373.6913549394 - 0.408699894687 98728.9880932978 - 0.714899024130 158209.3088374197 - 0.000001551781 1.7562554208 - 0.101898135045 33140.6257681733 - 0.204258423170 63046.3945458371 - 0.408899182222 118287.4952030095 - 0.715284161727 192949.5956834862 - 0.000001929544 2.2292650203 - 0.101731391785 37955.3685906893 - 0.204135528498 73496.2011543879 - 0.408952619950 141905.4103877689 - 0.715558936986 239012.2570292096 - 0.000002221753 2.5635370142 - 0.101487661318 15077.9975065066 - 0.203857818420 1067648.2041293303 - 0.408839788912 382643.9691476850 - 0.715737960132 553520.8540479827 - 0.000000792058 0.7883011374 - 0.101817604973 23056.5148129568 - 0.203679118226 43281.9277963954 - 0.510297120815 95806.0336174637 - 1.017748906624 164992.4258998287 - 0.000002008583 2.3172974406 - 0.101619422272 37700.8451228746 - 0.203693103056 72721.3984642024 - 0.511040237728 172534.5191592898 - 1.019042715859 323117.4787467108 + 0.003011232021 270.6423434662 + 0.004731103660 420.7633403420 + 0.008203566196 718.3186816591 + 0.014222864740 1221.5152297331 + 0.017914301120 1524.0412149026 + 0.023444534510 1970.2718842424 + 0.035438622657 2914.4649138568 + 0.037399770532 3066.1973604879 + 0.041302477475 3366.1608166564 + 0.053483396682 4286.8225356170 + 0.065334737225 5162.4164088673 + 0.087013141289 6719.7980083405 + 0.101918425252 7761.3497170080 + 0.101918425252 7761.3497170080 + 0.129353296293 9623.8686362014 + 0.180018423613 12902.7602926711 + 0.191254475088 13604.7985820143 + 0.201991497374 14267.8026782302 + 0.201991497374 14267.8026782302 + 0.254128492203 17385.4507218010 + 0.269388367942 18268.1081853673 + 0.274858648975 18581.4170442100 + 0.304420044170 20247.2431378765 + 0.304420044170 20247.2431378765 + 0.324599027502 21358.9062504133 + 0.337026002158 22033.6573179772 + 0.381109455944 24369.5468172740 + 0.406348184597 25668.2870262926 + 0.406348184597 25668.2870262926 + 0.450691836250 27886.2802886978 + 0.497812517491 30159.3091198226 + 0.538066518701 32037.0221708513 + 0.542750603149 32251.8499588914 + 0.611409214767 35317.4156982316 + 0.611409214767 35317.4156982316 + 0.650098340817 36979.4067415018 + 0.680202972512 38241.8465603197 + 0.706844953737 39337.4707723022 + 0.706844953737 39337.4707723022 + 0.788006101523 42556.6835926861 + 0.814317913190 43563.9612469669 + 0.814317913190 43563.9612469669 + 0.820068707772 43781.8429059249 + 0.822002591771 43854.9315459875 + 0.859746774505 45263.4950837415 + 0.912481517462 47176.2128838278 + 0.996730468595 50106.1405444524 + 1.093991138537 53310.6108690271 + 1.101845412026 53561.5653571608 + 1.015972149139 50754.7211049135 + 0.101521317617 7733.8854428157 + 0.203071316356 14334.0657299309 + 0.508942958062 30684.2468729544 + 0.000000144671 0.0897480503 + 0.059071599760 5794.2377199592 + 0.119797700007 11080.6736926267 + 0.239795867305 20446.9138248644 + 0.316760557479 25893.5132505220 + 0.445741649370 34251.2375873562 + 0.613131468706 43924.2260033968 + 0.731893083257 50122.5646201467 + 0.897167373279 57980.2428101233 + 1.021505337355 63381.6543463748 + 0.000000200960 0.1390472778 + 0.059301005335 6976.5598372387 + 0.117994945226 13125.2020826075 + 0.240732846446 24682.5753108786 + 0.242618798060 24849.3204977757 + 0.324830042949 31851.5087011718 + 0.443680294626 41164.8763573700 + 0.445514436645 41301.9359404523 + 0.612374087102 53032.3819437385 + 0.732326105808 60665.2278368507 + 0.894255637436 70074.7633652900 + 0.898591269996 70313.9272173405 + 1.019287262465 76728.3574610146 + 1.020304686714 76780.5085166729 + 0.000000456921 0.4009123894 + 0.101841127922 17687.9929710451 + 0.203911544477 33073.4950270270 + 0.408004204860 60067.9923994551 + 0.713830040074 94010.3699735462 + 0.000000766853 0.7631501899 + 0.101926333389 23042.9506230062 + 0.204105306703 43264.7649879064 + 0.408390290688 79206.6887671639 + 0.714408390986 125253.6942313690 + 0.000001145683 1.2366592553 + 0.101956964592 28234.6412147375 + 0.204234450102 53275.1063995797 + 0.408699894687 98476.0415056777 + 0.714899024130 157690.3669922581 + 0.000001551781 1.7562479211 + 0.101898135045 33080.5006171867 + 0.204258423170 62884.2232805389 + 0.408899182222 117859.1079643567 + 0.715284161727 192039.1550344481 + 0.000001929544 2.2292500792 + 0.101731391785 37862.9957869951 + 0.204135528498 73237.2678758543 + 0.408952619950 141180.4200413609 + 0.715558936986 237371.5162310704 + 0.000002221753 2.5635119919 + 0.101487661318 15063.7429427829 + 0.203857818420 1021389.5046564523 + 0.408839788912 376658.7149137617 + 0.715737960132 543520.9478572238 + 0.000000792058 0.7883001263 + 0.101817604973 23035.9384409056 + 0.203679118226 43228.0478970666 + 0.510297120815 95625.4419756434 + 1.017748906624 164583.7159272081 + 0.000002008583 2.3172816598 + 0.101619422272 37609.9263330941 + 0.203693103056 72468.4255508688 + 0.511040237728 171558.1908697533 + 1.019042715859 320512.1220263722 0.000000113324 0.0633901985 - 0.101510176987 7959.2809089590 - 0.203043555551 14765.5836539902 - 0.508858205057 31679.2770855391 - 1.015795187275 52548.9537975706 - 0.000000854177 0.8500286218 - 0.101800104042 23078.7164822225 - 0.203634485695 43351.8812438215 - 0.510157552606 96134.9691973434 - 1.017453667260 166037.6159573364 - 0.000002195800 2.5245762157 - 0.101588992923 37336.3032024409 - 0.203604514516 71683.7593619166 - 0.510756091611 168551.3674732953 - 1.018466873657 313560.9306173156 + 0.101510176987 7959.2814635279 + 0.203043555551 14765.5850663562 + 0.508858205057 31679.2815029641 + 1.015795187275 52548.9630045636 + 0.000000854177 0.8500274957 + 0.101800104042 23058.2105432544 + 0.203634485695 43298.1033387555 + 0.510157552606 95953.9092511588 + 1.017453667260 165624.8645316121 + 0.000002195800 2.5245583965 + 0.101588992923 37247.6259267510 + 0.203604514516 71439.3178534143 + 0.510756091611 167623.9021416789 + 1.018466873657 311113.8211182346 diff --git a/mytest/Vm_NaNO3_sol.out b/mytest/Vm_NaNO3_sol.out index edec744a..33667310 100644 --- a/mytest/Vm_NaNO3_sol.out +++ b/mytest/Vm_NaNO3_sol.out @@ -244,7 +244,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 1012 Density (g/cm³) = 1.00088 Volume (L) = 1.00040 - Viscosity (mPa s) = 1.51865 + Viscosity (mPa s) = 1.51858 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -329,7 +329,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 1964 Density (g/cm³) = 1.00180 Volume (L) = 1.00077 - Viscosity (mPa s) = 1.51885 + Viscosity (mPa s) = 1.51875 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -414,7 +414,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 3776 Density (g/cm³) = 1.00362 Volume (L) = 1.00151 - Viscosity (mPa s) = 1.51937 + Viscosity (mPa s) = 1.51923 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -499,7 +499,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 7162 Density (g/cm³) = 1.00724 Volume (L) = 1.00301 - Viscosity (mPa s) = 1.52090 + Viscosity (mPa s) = 1.52069 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -584,7 +584,7 @@ Reaction 1. Specific Conductance (µS/cm, 5°C) = 13837 Density (g/cm³) = 1.01495 Volume (L) = 1.00632 - Viscosity (mPa s) = 1.52583 + Viscosity (mPa s) = 1.52554 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -666,10 +666,10 @@ Reaction 1. pH = 7.502 Charge balance pe = 14.009 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 25125 + Specific Conductance (µS/cm, 5°C) = 25127 Density (g/cm³) = 1.02937 Volume (L) = 1.01283 - Viscosity (mPa s) = 1.53970 + Viscosity (mPa s) = 1.53929 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -861,7 +861,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1331 Density (g/cm³) = 0.99998 Volume (L) = 1.00130 - Viscosity (mPa s) = 1.13838 + Viscosity (mPa s) = 1.13835 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -946,7 +946,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 2581 Density (g/cm³) = 1.00086 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.13891 + Viscosity (mPa s) = 1.13887 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -1031,7 +1031,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 4157 Density (g/cm³) = 1.00201 Volume (L) = 1.00224 - Viscosity (mPa s) = 1.13963 + Viscosity (mPa s) = 1.13957 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -1116,7 +1116,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 4959 Density (g/cm³) = 1.00261 Volume (L) = 1.00252 - Viscosity (mPa s) = 1.14001 + Viscosity (mPa s) = 1.13996 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -1201,7 +1201,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 7903 Density (g/cm³) = 1.00488 Volume (L) = 1.00360 - Viscosity (mPa s) = 1.14158 + Viscosity (mPa s) = 1.14151 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -1286,7 +1286,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 9391 Density (g/cm³) = 1.00607 Volume (L) = 1.00417 - Viscosity (mPa s) = 1.14246 + Viscosity (mPa s) = 1.14238 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -1368,10 +1368,10 @@ Reaction 1. pH = 7.318 Charge balance pe = 13.309 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 18101 + Specific Conductance (µS/cm, 15°C) = 18102 Density (g/cm³) = 1.01348 Volume (L) = 1.00779 - Viscosity (mPa s) = 1.14868 + Viscosity (mPa s) = 1.14856 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -1453,10 +1453,10 @@ Reaction 1. pH = 7.344 Charge balance pe = 13.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 32701 + Specific Conductance (µS/cm, 15°C) = 32702 Density (g/cm³) = 1.02725 Volume (L) = 1.01484 - Viscosity (mPa s) = 1.16322 + Viscosity (mPa s) = 1.16306 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -1538,10 +1538,10 @@ Reaction 1. pH = 7.344 Charge balance pe = 13.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 32755 + Specific Conductance (µS/cm, 15°C) = 32757 Density (g/cm³) = 1.02730 Volume (L) = 1.01487 - Viscosity (mPa s) = 1.16329 + Viscosity (mPa s) = 1.16312 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -1623,10 +1623,10 @@ Reaction 1. pH = 7.366 Charge balance pe = 13.335 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 57293 + Specific Conductance (µS/cm, 15°C) = 57297 Density (g/cm³) = 1.05389 Volume (L) = 1.02951 - Viscosity (mPa s) = 1.20086 + Viscosity (mPa s) = 1.20063 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -1708,10 +1708,10 @@ Reaction 1. pH = 7.376 Charge balance pe = 13.369 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 94450 + Specific Conductance (µS/cm, 15°C) = 94458 Density (g/cm³) = 1.10347 Volume (L) = 1.06029 - Viscosity (mPa s) = 1.30405 + Viscosity (mPa s) = 1.30373 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -1793,10 +1793,10 @@ Reaction 1. pH = 7.370 Charge balance pe = 13.406 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 120502 + Specific Conductance (µS/cm, 15°C) = 120513 Density (g/cm³) = 1.14861 Volume (L) = 1.09262 - Viscosity (mPa s) = 1.44083 + Viscosity (mPa s) = 1.44044 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -1878,10 +1878,10 @@ Reaction 1. pH = 7.360 Charge balance pe = 13.442 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 137870 + Specific Conductance (µS/cm, 15°C) = 137882 Density (g/cm³) = 1.18812 Volume (L) = 1.12489 - Viscosity (mPa s) = 1.60182 + Viscosity (mPa s) = 1.60136 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -1963,10 +1963,10 @@ Reaction 1. pH = 7.333 Charge balance pe = 13.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 157748 + Specific Conductance (µS/cm, 15°C) = 157761 Density (g/cm³) = 1.26122 Volume (L) = 1.19724 - Viscosity (mPa s) = 2.03755 + Viscosity (mPa s) = 2.03699 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -2158,7 +2158,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 4681 Density (g/cm³) = 1.00106 Volume (L) = 1.00318 - Viscosity (mPa s) = 1.00393 + Viscosity (mPa s) = 1.00391 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -2243,7 +2243,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 8895 Density (g/cm³) = 1.00389 Volume (L) = 1.00459 - Viscosity (mPa s) = 1.00609 + Viscosity (mPa s) = 1.00605 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -2328,7 +2328,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 8895 Density (g/cm³) = 1.00389 Volume (L) = 1.00459 - Viscosity (mPa s) = 1.00609 + Viscosity (mPa s) = 1.00605 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -2413,7 +2413,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 23946 Density (g/cm³) = 1.01518 Volume (L) = 1.01041 - Viscosity (mPa s) = 1.01631 + Viscosity (mPa s) = 1.01626 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -2495,10 +2495,10 @@ Reaction 1. pH = 7.273 Charge balance pe = 12.986 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 36699 + Specific Conductance (µS/cm, 20°C) = 36700 Density (g/cm³) = 1.02589 Volume (L) = 1.01619 - Viscosity (mPa s) = 1.02802 + Viscosity (mPa s) = 1.02795 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -2580,10 +2580,10 @@ Reaction 1. pH = 7.279 Charge balance pe = 12.989 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 41511 + Specific Conductance (µS/cm, 20°C) = 41512 Density (g/cm³) = 1.03017 Volume (L) = 1.01857 - Viscosity (mPa s) = 1.03320 + Viscosity (mPa s) = 1.03313 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -2665,10 +2665,10 @@ Reaction 1. pH = 7.293 Charge balance pe = 12.997 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 58700 + Specific Conductance (µS/cm, 20°C) = 58702 Density (g/cm³) = 1.04655 Volume (L) = 1.02796 - Viscosity (mPa s) = 1.05556 + Viscosity (mPa s) = 1.05546 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -2750,10 +2750,10 @@ Reaction 1. pH = 7.297 Charge balance pe = 13.001 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 64149 + Specific Conductance (µS/cm, 20°C) = 64151 Density (g/cm³) = 1.05211 Volume (L) = 1.03126 - Viscosity (mPa s) = 1.06404 + Viscosity (mPa s) = 1.06394 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -2835,10 +2835,10 @@ Reaction 1. pH = 7.307 Charge balance pe = 13.034 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 105409 + Specific Conductance (µS/cm, 20°C) = 105413 Density (g/cm³) = 1.10093 Volume (L) = 1.06273 - Viscosity (mPa s) = 1.15926 + Viscosity (mPa s) = 1.15911 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -2920,10 +2920,10 @@ Reaction 1. pH = 7.302 Charge balance pe = 13.071 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 134212 + Specific Conductance (µS/cm, 20°C) = 134218 Density (g/cm³) = 1.14549 Volume (L) = 1.09560 - Viscosity (mPa s) = 1.28263 + Viscosity (mPa s) = 1.28245 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -3005,10 +3005,10 @@ Reaction 1. pH = 7.291 Charge balance pe = 13.108 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 153382 + Specific Conductance (µS/cm, 20°C) = 153389 Density (g/cm³) = 1.18459 Volume (L) = 1.12824 - Viscosity (mPa s) = 1.42609 + Viscosity (mPa s) = 1.42588 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -3090,10 +3090,10 @@ Reaction 1. pH = 7.262 Charge balance pe = 13.184 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 175368 + Specific Conductance (µS/cm, 20°C) = 175375 Density (g/cm³) = 1.25732 Volume (L) = 1.20095 - Viscosity (mPa s) = 1.81049 + Viscosity (mPa s) = 1.81024 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -10189,10 +10189,10 @@ Reaction 1. pH = 7.039 Charge balance pe = 12.339 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 5776 + Specific Conductance (µS/cm, 30°C) = 5775 Density (g/cm³) = 0.99843 Volume (L) = 1.00583 - Viscosity (mPa s) = 0.79982 + Viscosity (mPa s) = 0.79984 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -10277,7 +10277,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 10963 Density (g/cm³) = 1.00118 Volume (L) = 1.00731 - Viscosity (mPa s) = 0.80216 + Viscosity (mPa s) = 0.80219 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -10362,7 +10362,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 10963 Density (g/cm³) = 1.00118 Volume (L) = 1.00731 - Viscosity (mPa s) = 0.80216 + Viscosity (mPa s) = 0.80219 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -10447,7 +10447,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 20374 Density (g/cm³) = 1.00658 Volume (L) = 1.01028 - Viscosity (mPa s) = 0.80706 + Viscosity (mPa s) = 0.80710 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.991e-01 Mass of water (kg) = 1.000e+00 @@ -10532,7 +10532,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 23276 Density (g/cm³) = 1.00833 Volume (L) = 1.01125 - Viscosity (mPa s) = 0.80873 + Viscosity (mPa s) = 0.80877 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.315e-01 Mass of water (kg) = 1.000e+00 @@ -10617,7 +10617,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 29425 Density (g/cm³) = 1.01217 Volume (L) = 1.01342 - Viscosity (mPa s) = 0.81254 + Viscosity (mPa s) = 0.81258 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -10702,7 +10702,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 33154 Density (g/cm³) = 1.01457 Volume (L) = 1.01480 - Viscosity (mPa s) = 0.81501 + Viscosity (mPa s) = 0.81506 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.481e-01 Mass of water (kg) = 1.000e+00 @@ -10784,10 +10784,10 @@ Reaction 1. pH = 7.147 Charge balance pe = 12.346 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 45002 + Specific Conductance (µS/cm, 30°C) = 45001 Density (g/cm³) = 1.02259 Volume (L) = 1.01947 - Viscosity (mPa s) = 0.82377 + Viscosity (mPa s) = 0.82383 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -10869,10 +10869,10 @@ Reaction 1. pH = 7.153 Charge balance pe = 12.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 50864 + Specific Conductance (µS/cm, 30°C) = 50863 Density (g/cm³) = 1.02676 Volume (L) = 1.02195 - Viscosity (mPa s) = 0.82863 + Viscosity (mPa s) = 0.82870 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -10954,10 +10954,10 @@ Reaction 1. pH = 7.154 Charge balance pe = 12.347 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 51725 + Specific Conductance (µS/cm, 30°C) = 51724 Density (g/cm³) = 1.02738 Volume (L) = 1.02233 - Viscosity (mPa s) = 0.82937 + Viscosity (mPa s) = 0.82944 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.920e-01 Mass of water (kg) = 1.000e+00 @@ -11039,10 +11039,10 @@ Reaction 1. pH = 7.169 Charge balance pe = 12.354 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 71738 + Specific Conductance (µS/cm, 30°C) = 71736 Density (g/cm³) = 1.04271 Volume (L) = 1.03175 - Viscosity (mPa s) = 0.84907 + Viscosity (mPa s) = 0.84915 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -11124,10 +11124,10 @@ Reaction 1. pH = 7.171 Charge balance pe = 12.355 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 74326 + Specific Conductance (µS/cm, 30°C) = 74324 Density (g/cm³) = 1.04481 Volume (L) = 1.03307 - Viscosity (mPa s) = 0.85198 + Viscosity (mPa s) = 0.85206 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.338e-01 Mass of water (kg) = 1.000e+00 @@ -11209,10 +11209,10 @@ Reaction 1. pH = 7.173 Charge balance pe = 12.357 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 78334 + Specific Conductance (µS/cm, 30°C) = 78332 Density (g/cm³) = 1.04813 Volume (L) = 1.03518 - Viscosity (mPa s) = 0.85667 + Viscosity (mPa s) = 0.85675 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -11294,10 +11294,10 @@ Reaction 1. pH = 7.184 Charge balance pe = 12.387 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 125951 + Specific Conductance (µS/cm, 30°C) = 125946 Density (g/cm³) = 1.09356 Volume (L) = 1.06606 - Viscosity (mPa s) = 0.93450 + Viscosity (mPa s) = 0.93462 Activity of water = 0.934 Ionic strength (mol/kgw) = 1.951e+00 Mass of water (kg) = 1.000e+00 @@ -11379,10 +11379,10 @@ Reaction 1. pH = 7.184 Charge balance pe = 12.389 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 127990 + Specific Conductance (µS/cm, 30°C) = 127985 Density (g/cm³) = 1.09581 Volume (L) = 1.06769 - Viscosity (mPa s) = 0.93904 + Viscosity (mPa s) = 0.93917 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -11464,10 +11464,10 @@ Reaction 1. pH = 7.178 Charge balance pe = 12.427 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 162398 + Specific Conductance (µS/cm, 30°C) = 162391 Density (g/cm³) = 1.13952 Volume (L) = 1.10133 - Viscosity (mPa s) = 1.04199 + Viscosity (mPa s) = 1.04214 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -11549,10 +11549,10 @@ Reaction 1. pH = 7.176 Charge balance pe = 12.433 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 166404 + Specific Conductance (µS/cm, 30°C) = 166396 Density (g/cm³) = 1.14554 Volume (L) = 1.10627 - Viscosity (mPa s) = 1.05853 + Viscosity (mPa s) = 1.05869 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.145e+00 Mass of water (kg) = 1.000e+00 @@ -11634,10 +11634,10 @@ Reaction 1. pH = 7.166 Charge balance pe = 12.465 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 185238 + Specific Conductance (µS/cm, 30°C) = 185229 Density (g/cm³) = 1.17810 Volume (L) = 1.13445 - Viscosity (mPa s) = 1.15938 + Viscosity (mPa s) = 1.15955 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -11719,10 +11719,10 @@ Reaction 1. pH = 7.133 Charge balance pe = 12.546 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 211556 + Specific Conductance (µS/cm, 30°C) = 211547 Density (g/cm³) = 1.25067 Volume (L) = 1.20733 - Viscosity (mPa s) = 1.46872 + Viscosity (mPa s) = 1.46893 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -11914,7 +11914,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 2036 Density (g/cm³) = 0.99486 Volume (L) = 1.00645 - Viscosity (mPa s) = 0.72011 + Viscosity (mPa s) = 0.72013 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -11996,10 +11996,10 @@ Reaction 1. pH = 6.953 Charge balance pe = 12.035 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 3944 + Specific Conductance (µS/cm, 35°C) = 3943 Density (g/cm³) = 0.99569 Volume (L) = 1.00690 - Viscosity (mPa s) = 0.72083 + Viscosity (mPa s) = 0.72086 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -12081,10 +12081,10 @@ Reaction 1. pH = 6.975 Charge balance pe = 12.038 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 6343 + Specific Conductance (µS/cm, 35°C) = 6342 Density (g/cm³) = 0.99678 Volume (L) = 1.00749 - Viscosity (mPa s) = 0.72177 + Viscosity (mPa s) = 0.72180 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -12169,7 +12169,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 7562 Density (g/cm³) = 0.99735 Volume (L) = 1.00781 - Viscosity (mPa s) = 0.72226 + Viscosity (mPa s) = 0.72229 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -12251,10 +12251,10 @@ Reaction 1. pH = 7.009 Charge balance pe = 12.039 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12033 + Specific Conductance (µS/cm, 35°C) = 12032 Density (g/cm³) = 0.99950 Volume (L) = 1.00900 - Viscosity (mPa s) = 0.72413 + Viscosity (mPa s) = 0.72418 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -12336,10 +12336,10 @@ Reaction 1. pH = 7.018 Charge balance pe = 12.039 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 14287 + Specific Conductance (µS/cm, 35°C) = 14286 Density (g/cm³) = 1.00063 Volume (L) = 1.00963 - Viscosity (mPa s) = 0.72513 + Viscosity (mPa s) = 0.72519 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -12421,10 +12421,10 @@ Reaction 1. pH = 7.056 Charge balance pe = 12.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 27430 + Specific Conductance (µS/cm, 35°C) = 27429 Density (g/cm³) = 1.00763 Volume (L) = 1.01364 - Viscosity (mPa s) = 0.73168 + Viscosity (mPa s) = 0.73176 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -12506,10 +12506,10 @@ Reaction 1. pH = 7.090 Charge balance pe = 12.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 49278 + Specific Conductance (µS/cm, 35°C) = 49276 Density (g/cm³) = 1.02067 Volume (L) = 1.02139 - Viscosity (mPa s) = 0.74530 + Viscosity (mPa s) = 0.74541 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -12591,10 +12591,10 @@ Reaction 1. pH = 7.090 Charge balance pe = 12.037 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 49360 + Specific Conductance (µS/cm, 35°C) = 49358 Density (g/cm³) = 1.02072 Volume (L) = 1.02142 - Viscosity (mPa s) = 0.74536 + Viscosity (mPa s) = 0.74547 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -12676,10 +12676,10 @@ Reaction 1. pH = 7.117 Charge balance pe = 12.046 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 85619 + Specific Conductance (µS/cm, 35°C) = 85613 Density (g/cm³) = 1.04593 Volume (L) = 1.03735 - Viscosity (mPa s) = 0.77670 + Viscosity (mPa s) = 0.77686 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -12761,10 +12761,10 @@ Reaction 1. pH = 7.129 Charge balance pe = 12.078 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 139543 + Specific Conductance (µS/cm, 35°C) = 139531 Density (g/cm³) = 1.09318 Volume (L) = 1.07026 - Viscosity (mPa s) = 0.85379 + Viscosity (mPa s) = 0.85402 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -12846,10 +12846,10 @@ Reaction 1. pH = 7.123 Charge balance pe = 12.116 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 176787 + Specific Conductance (µS/cm, 35°C) = 176771 Density (g/cm³) = 1.13659 Volume (L) = 1.10417 - Viscosity (mPa s) = 0.94878 + Viscosity (mPa s) = 0.94905 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -12931,10 +12931,10 @@ Reaction 1. pH = 7.110 Charge balance pe = 12.155 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 201484 + Specific Conductance (µS/cm, 35°C) = 201466 Density (g/cm³) = 1.17502 Volume (L) = 1.13743 - Viscosity (mPa s) = 1.05622 + Viscosity (mPa s) = 1.05654 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -13016,10 +13016,10 @@ Reaction 1. pH = 7.075 Charge balance pe = 12.239 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 230013 + Specific Conductance (µS/cm, 35°C) = 229993 Density (g/cm³) = 1.24771 Volume (L) = 1.21020 - Viscosity (mPa s) = 1.33747 + Viscosity (mPa s) = 1.33786 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -13211,7 +13211,7 @@ Reaction 1. Specific Conductance (µS/cm, 40°C) = 13122 Density (g/cm³) = 0.99763 Volume (L) = 1.01090 - Viscosity (mPa s) = 0.65773 + Viscosity (mPa s) = 0.65780 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -13293,10 +13293,10 @@ Reaction 1. pH = 7.012 Charge balance pe = 11.736 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 35127 + Specific Conductance (µS/cm, 40°C) = 35125 Density (g/cm³) = 1.00838 Volume (L) = 1.01723 - Viscosity (mPa s) = 0.66779 + Viscosity (mPa s) = 0.66791 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -13378,10 +13378,10 @@ Reaction 1. pH = 7.044 Charge balance pe = 11.736 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 60565 + Specific Conductance (µS/cm, 40°C) = 60560 Density (g/cm³) = 1.02267 Volume (L) = 1.02604 - Viscosity (mPa s) = 0.68284 + Viscosity (mPa s) = 0.68301 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -13463,10 +13463,10 @@ Reaction 1. pH = 7.062 Charge balance pe = 11.741 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 85228 + Specific Conductance (µS/cm, 40°C) = 85220 Density (g/cm³) = 1.03830 Volume (L) = 1.03613 - Viscosity (mPa s) = 0.70147 + Viscosity (mPa s) = 0.70169 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -13658,7 +13658,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 2413 Density (g/cm³) = 0.99103 Volume (L) = 1.01035 - Viscosity (mPa s) = 0.59673 + Viscosity (mPa s) = 0.59677 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -13743,7 +13743,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 4670 Density (g/cm³) = 0.99184 Volume (L) = 1.01081 - Viscosity (mPa s) = 0.59746 + Viscosity (mPa s) = 0.59751 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -13828,7 +13828,7 @@ Reaction 1. Specific Conductance (µS/cm, 45°C) = 7507 Density (g/cm³) = 0.99291 Volume (L) = 1.01143 - Viscosity (mPa s) = 0.59839 + Viscosity (mPa s) = 0.59845 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -13910,10 +13910,10 @@ Reaction 1. pH = 6.870 Charge balance pe = 11.457 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 8949 + Specific Conductance (µS/cm, 45°C) = 8948 Density (g/cm³) = 0.99346 Volume (L) = 1.01175 - Viscosity (mPa s) = 0.59887 + Viscosity (mPa s) = 0.59894 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -13995,10 +13995,10 @@ Reaction 1. pH = 6.899 Charge balance pe = 11.453 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 14228 + Specific Conductance (µS/cm, 45°C) = 14227 Density (g/cm³) = 0.99558 Volume (L) = 1.01298 - Viscosity (mPa s) = 0.60072 + Viscosity (mPa s) = 0.60080 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -14080,10 +14080,10 @@ Reaction 1. pH = 6.909 Charge balance pe = 11.451 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 16887 + Specific Conductance (µS/cm, 45°C) = 16886 Density (g/cm³) = 0.99668 Volume (L) = 1.01363 - Viscosity (mPa s) = 0.60169 + Viscosity (mPa s) = 0.60179 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -14165,10 +14165,10 @@ Reaction 1. pH = 6.951 Charge balance pe = 11.444 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 32368 + Specific Conductance (µS/cm, 45°C) = 32366 Density (g/cm³) = 1.00355 Volume (L) = 1.01776 - Viscosity (mPa s) = 0.60796 + Viscosity (mPa s) = 0.60810 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -14250,10 +14250,10 @@ Reaction 1. pH = 6.988 Charge balance pe = 11.441 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 58015 + Specific Conductance (µS/cm, 45°C) = 58009 Density (g/cm³) = 1.01634 Volume (L) = 1.02574 - Viscosity (mPa s) = 0.62070 + Viscosity (mPa s) = 0.62090 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -14335,10 +14335,10 @@ Reaction 1. pH = 6.989 Charge balance pe = 11.441 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 58110 + Specific Conductance (µS/cm, 45°C) = 58105 Density (g/cm³) = 1.01639 Volume (L) = 1.02577 - Viscosity (mPa s) = 0.62076 + Viscosity (mPa s) = 0.62095 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -14420,10 +14420,10 @@ Reaction 1. pH = 7.018 Charge balance pe = 11.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 100459 + Specific Conductance (µS/cm, 45°C) = 100446 Density (g/cm³) = 1.04116 Volume (L) = 1.04211 - Viscosity (mPa s) = 0.64929 + Viscosity (mPa s) = 0.64956 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -14505,10 +14505,10 @@ Reaction 1. pH = 7.031 Charge balance pe = 11.479 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 163002 + Specific Conductance (µS/cm, 45°C) = 162974 Density (g/cm³) = 1.08770 Volume (L) = 1.07566 - Viscosity (mPa s) = 0.71738 + Viscosity (mPa s) = 0.71777 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -14590,10 +14590,10 @@ Reaction 1. pH = 7.023 Charge balance pe = 11.518 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 205954 + Specific Conductance (µS/cm, 45°C) = 205916 Density (g/cm³) = 1.13068 Volume (L) = 1.10994 - Viscosity (mPa s) = 0.79944 + Viscosity (mPa s) = 0.79992 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -14675,10 +14675,10 @@ Reaction 1. pH = 7.009 Charge balance pe = 11.558 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 234385 + Specific Conductance (µS/cm, 45°C) = 234340 Density (g/cm³) = 1.16895 Volume (L) = 1.14333 - Viscosity (mPa s) = 0.89110 + Viscosity (mPa s) = 0.89166 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -14760,10 +14760,10 @@ Reaction 1. pH = 6.971 Charge balance pe = 11.645 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 267385 + Specific Conductance (µS/cm, 45°C) = 267337 Density (g/cm³) = 1.24216 Volume (L) = 1.21561 - Viscosity (mPa s) = 1.12851 + Viscosity (mPa s) = 1.12919 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -14952,10 +14952,10 @@ Reaction 1. pH = 6.849 Charge balance pe = 11.170 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 15346 + Specific Conductance (µS/cm, 50°C) = 15345 Density (g/cm³) = 0.99335 Volume (L) = 1.01525 - Viscosity (mPa s) = 0.55137 + Viscosity (mPa s) = 0.55147 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -15037,10 +15037,10 @@ Reaction 1. pH = 6.916 Charge balance pe = 11.156 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 40979 + Specific Conductance (µS/cm, 50°C) = 40975 Density (g/cm³) = 1.00392 Volume (L) = 1.02175 - Viscosity (mPa s) = 0.56088 + Viscosity (mPa s) = 0.56106 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -15122,10 +15122,10 @@ Reaction 1. pH = 6.951 Charge balance pe = 11.153 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 70495 + Specific Conductance (µS/cm, 50°C) = 70486 Density (g/cm³) = 1.01796 Volume (L) = 1.03078 - Viscosity (mPa s) = 0.57481 + Viscosity (mPa s) = 0.57506 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -15207,10 +15207,10 @@ Reaction 1. pH = 6.969 Charge balance pe = 11.157 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 99007 + Specific Conductance (µS/cm, 50°C) = 98991 Density (g/cm³) = 1.03335 Volume (L) = 1.04110 - Viscosity (mPa s) = 0.59176 + Viscosity (mPa s) = 0.59207 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -15402,7 +15402,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 2800 Density (g/cm³) = 0.98649 Volume (L) = 1.01499 - Viscosity (mPa s) = 0.50455 + Viscosity (mPa s) = 0.50459 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -15487,7 +15487,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 5416 Density (g/cm³) = 0.98729 Volume (L) = 1.01547 - Viscosity (mPa s) = 0.50525 + Viscosity (mPa s) = 0.50532 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -15572,7 +15572,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 8701 Density (g/cm³) = 0.98834 Volume (L) = 1.01609 - Viscosity (mPa s) = 0.50614 + Viscosity (mPa s) = 0.50623 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.000e-02 Mass of water (kg) = 1.000e+00 @@ -15657,7 +15657,7 @@ Reaction 1. Specific Conductance (µS/cm, 55°C) = 10369 Density (g/cm³) = 0.98889 Volume (L) = 1.01642 - Viscosity (mPa s) = 0.50661 + Viscosity (mPa s) = 0.50670 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -15739,10 +15739,10 @@ Reaction 1. pH = 6.804 Charge balance pe = 10.893 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 16474 + Specific Conductance (µS/cm, 55°C) = 16473 Density (g/cm³) = 0.99097 Volume (L) = 1.01769 - Viscosity (mPa s) = 0.50836 + Viscosity (mPa s) = 0.50848 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -15824,10 +15824,10 @@ Reaction 1. pH = 6.816 Charge balance pe = 10.890 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 19547 + Specific Conductance (µS/cm, 55°C) = 19546 Density (g/cm³) = 0.99206 Volume (L) = 1.01836 - Viscosity (mPa s) = 0.50928 + Viscosity (mPa s) = 0.50941 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -15909,10 +15909,10 @@ Reaction 1. pH = 6.861 Charge balance pe = 10.878 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 37409 + Specific Conductance (µS/cm, 55°C) = 37405 Density (g/cm³) = 0.99882 Volume (L) = 1.02258 - Viscosity (mPa s) = 0.51517 + Viscosity (mPa s) = 0.51535 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -15994,10 +15994,10 @@ Reaction 1. pH = 6.901 Charge balance pe = 10.872 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 66909 + Specific Conductance (µS/cm, 55°C) = 66899 Density (g/cm³) = 1.01141 Volume (L) = 1.03074 - Viscosity (mPa s) = 0.52695 + Viscosity (mPa s) = 0.52721 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -16079,10 +16079,10 @@ Reaction 1. pH = 6.901 Charge balance pe = 10.872 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 67019 + Specific Conductance (µS/cm, 55°C) = 67009 Density (g/cm³) = 1.01146 Volume (L) = 1.03077 - Viscosity (mPa s) = 0.52699 + Viscosity (mPa s) = 0.52726 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -16164,10 +16164,10 @@ Reaction 1. pH = 6.932 Charge balance pe = 10.877 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 115520 + Specific Conductance (µS/cm, 55°C) = 115496 Density (g/cm³) = 1.03587 Volume (L) = 1.04742 - Viscosity (mPa s) = 0.55292 + Viscosity (mPa s) = 0.55329 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -16249,10 +16249,10 @@ Reaction 1. pH = 6.945 Charge balance pe = 10.907 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 186721 + Specific Conductance (µS/cm, 55°C) = 186672 Density (g/cm³) = 1.08188 Volume (L) = 1.08144 - Viscosity (mPa s) = 0.61357 + Viscosity (mPa s) = 0.61409 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -16334,10 +16334,10 @@ Reaction 1. pH = 6.937 Charge balance pe = 10.947 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 235380 + Specific Conductance (µS/cm, 55°C) = 235312 Density (g/cm³) = 1.12458 Volume (L) = 1.11596 - Viscosity (mPa s) = 0.68555 + Viscosity (mPa s) = 0.68619 Activity of water = 0.898 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -16419,10 +16419,10 @@ Reaction 1. pH = 6.922 Charge balance pe = 10.988 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 267537 + Specific Conductance (µS/cm, 55°C) = 267458 Density (g/cm³) = 1.16283 Volume (L) = 1.14935 - Viscosity (mPa s) = 0.76524 + Viscosity (mPa s) = 0.76598 Activity of water = 0.865 Ionic strength (mol/kgw) = 3.959e+00 Mass of water (kg) = 1.000e+00 @@ -16504,10 +16504,10 @@ Reaction 1. pH = 6.880 Charge balance pe = 11.079 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 305026 + Specific Conductance (µS/cm, 55°C) = 304942 Density (g/cm³) = 1.23678 Volume (L) = 1.22089 - Viscosity (mPa s) = 0.97016 + Viscosity (mPa s) = 0.97106 Activity of water = 0.796 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -16696,10 +16696,10 @@ Reaction 1. pH = 6.761 Charge balance pe = 10.622 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 17608 + Specific Conductance (µS/cm, 60°C) = 17607 Density (g/cm³) = 0.98844 Volume (L) = 1.02030 - Viscosity (mPa s) = 0.47063 + Viscosity (mPa s) = 0.47076 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -16781,10 +16781,10 @@ Reaction 1. pH = 6.833 Charge balance pe = 10.602 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 46912 + Specific Conductance (µS/cm, 60°C) = 46906 Density (g/cm³) = 0.99885 Volume (L) = 1.02693 - Viscosity (mPa s) = 0.47948 + Viscosity (mPa s) = 0.47970 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -16866,10 +16866,10 @@ Reaction 1. pH = 6.870 Charge balance pe = 10.596 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 80540 + Specific Conductance (µS/cm, 60°C) = 80524 Density (g/cm³) = 1.01270 Volume (L) = 1.03614 - Viscosity (mPa s) = 0.49225 + Viscosity (mPa s) = 0.49257 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -16951,10 +16951,10 @@ Reaction 1. pH = 6.890 Charge balance pe = 10.599 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 112918 + Specific Conductance (µS/cm, 60°C) = 112892 Density (g/cm³) = 1.02788 Volume (L) = 1.04663 - Viscosity (mPa s) = 0.50765 + Viscosity (mPa s) = 0.50803 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -17146,7 +17146,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 3192 Density (g/cm³) = 0.98134 Volume (L) = 1.02032 - Viscosity (mPa s) = 0.43377 + Viscosity (mPa s) = 0.43382 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -17231,7 +17231,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 6171 Density (g/cm³) = 0.98213 Volume (L) = 1.02081 - Viscosity (mPa s) = 0.43443 + Viscosity (mPa s) = 0.43451 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -17313,10 +17313,10 @@ Reaction 1. pH = 6.687 Charge balance pe = 10.369 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 11807 + Specific Conductance (µS/cm, 65°C) = 11806 Density (g/cm³) = 0.98371 Volume (L) = 1.02178 - Viscosity (mPa s) = 0.43570 + Viscosity (mPa s) = 0.43581 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -17398,10 +17398,10 @@ Reaction 1. pH = 6.735 Charge balance pe = 10.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 22236 + Specific Conductance (µS/cm, 65°C) = 22233 Density (g/cm³) = 0.98683 Volume (L) = 1.02375 - Viscosity (mPa s) = 0.43820 + Viscosity (mPa s) = 0.43835 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -17483,10 +17483,10 @@ Reaction 1. pH = 6.784 Charge balance pe = 10.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 42492 + Specific Conductance (µS/cm, 65°C) = 42486 Density (g/cm³) = 0.99350 Volume (L) = 1.02805 - Viscosity (mPa s) = 0.44364 + Viscosity (mPa s) = 0.44387 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -17568,10 +17568,10 @@ Reaction 1. pH = 6.826 Charge balance pe = 10.328 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 75983 + Specific Conductance (µS/cm, 65°C) = 75968 Density (g/cm³) = 1.00598 Volume (L) = 1.03639 - Viscosity (mPa s) = 0.45448 + Viscosity (mPa s) = 0.45480 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -17760,10 +17760,10 @@ Reaction 1. pH = 6.686 Charge balance pe = 10.098 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 19882 + Specific Conductance (µS/cm, 70°C) = 19880 Density (g/cm³) = 0.98294 Volume (L) = 1.02600 - Viscosity (mPa s) = 0.40782 + Viscosity (mPa s) = 0.40797 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -17845,10 +17845,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 10.072 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 52859 + Specific Conductance (µS/cm, 70°C) = 52849 Density (g/cm³) = 0.99323 Volume (L) = 1.03275 - Viscosity (mPa s) = 0.41595 + Viscosity (mPa s) = 0.41621 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -17930,10 +17930,10 @@ Reaction 1. pH = 6.800 Charge balance pe = 10.065 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 90585 + Specific Conductance (µS/cm, 70°C) = 90562 Density (g/cm³) = 1.00691 Volume (L) = 1.04209 - Viscosity (mPa s) = 0.42759 + Viscosity (mPa s) = 0.42795 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -18015,10 +18015,10 @@ Reaction 1. pH = 6.821 Charge balance pe = 10.067 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 126812 + Specific Conductance (µS/cm, 70°C) = 126772 Density (g/cm³) = 1.02193 Volume (L) = 1.05273 - Viscosity (mPa s) = 0.44153 + Viscosity (mPa s) = 0.44198 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -18207,10 +18207,10 @@ Reaction 1. pH = 6.519 Charge balance pe = 9.889 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 3586 + Specific Conductance (µS/cm, 75°C) = 3585 Density (g/cm³) = 0.97562 Volume (L) = 1.02630 - Viscosity (mPa s) = 0.37822 + Viscosity (mPa s) = 0.37828 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -18295,7 +18295,7 @@ Reaction 1. Specific Conductance (µS/cm, 75°C) = 6928 Density (g/cm³) = 0.97641 Volume (L) = 1.02679 - Viscosity (mPa s) = 0.37884 + Viscosity (mPa s) = 0.37892 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -18377,10 +18377,10 @@ Reaction 1. pH = 6.615 Charge balance pe = 9.858 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 13246 + Specific Conductance (µS/cm, 75°C) = 13245 Density (g/cm³) = 0.97796 Volume (L) = 1.02778 - Viscosity (mPa s) = 0.38001 + Viscosity (mPa s) = 0.38013 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -18462,10 +18462,10 @@ Reaction 1. pH = 6.666 Charge balance pe = 9.839 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 24922 + Specific Conductance (µS/cm, 75°C) = 24918 Density (g/cm³) = 0.98105 Volume (L) = 1.02978 - Viscosity (mPa s) = 0.38230 + Viscosity (mPa s) = 0.38247 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -18547,10 +18547,10 @@ Reaction 1. pH = 6.718 Charge balance pe = 9.820 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 47561 + Specific Conductance (µS/cm, 75°C) = 47552 Density (g/cm³) = 0.98765 Volume (L) = 1.03414 - Viscosity (mPa s) = 0.38727 + Viscosity (mPa s) = 0.38753 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -18632,10 +18632,10 @@ Reaction 1. pH = 6.761 Charge balance pe = 9.809 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 84904 + Specific Conductance (µS/cm, 75°C) = 84881 Density (g/cm³) = 0.99999 Volume (L) = 1.04260 - Viscosity (mPa s) = 0.39713 + Viscosity (mPa s) = 0.39749 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -18824,10 +18824,10 @@ Reaction 1. pH = 6.622 Charge balance pe = 9.595 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 22143 + Specific Conductance (µS/cm, 80°C) = 22140 Density (g/cm³) = 0.97692 Volume (L) = 1.03233 - Viscosity (mPa s) = 0.35796 + Viscosity (mPa s) = 0.35813 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -18909,10 +18909,10 @@ Reaction 1. pH = 6.701 Charge balance pe = 9.565 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 58753 + Specific Conductance (µS/cm, 80°C) = 58739 Density (g/cm³) = 0.98709 Volume (L) = 1.03917 - Viscosity (mPa s) = 0.36534 + Viscosity (mPa s) = 0.36564 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.030e-01 Mass of water (kg) = 1.000e+00 @@ -18994,10 +18994,10 @@ Reaction 1. pH = 6.741 Charge balance pe = 9.557 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 100526 + Specific Conductance (µS/cm, 80°C) = 100493 Density (g/cm³) = 1.00063 Volume (L) = 1.04863 - Viscosity (mPa s) = 0.37588 + Viscosity (mPa s) = 0.37628 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.800e-01 Mass of water (kg) = 1.000e+00 @@ -19079,10 +19079,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 9.558 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 140544 + Specific Conductance (µS/cm, 80°C) = 140488 Density (g/cm³) = 1.01551 Volume (L) = 1.05939 - Viscosity (mPa s) = 0.38846 + Viscosity (mPa s) = 0.38897 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.920e-01 Mass of water (kg) = 1.000e+00 @@ -19274,7 +19274,7 @@ Reaction 1. Specific Conductance (µS/cm, 85°C) = 3976 Density (g/cm³) = 0.96939 Volume (L) = 1.03290 - Viscosity (mPa s) = 0.33382 + Viscosity (mPa s) = 0.33388 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -19356,10 +19356,10 @@ Reaction 1. pH = 6.500 Charge balance pe = 9.391 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 7679 + Specific Conductance (µS/cm, 85°C) = 7678 Density (g/cm³) = 0.97016 Volume (L) = 1.03340 - Viscosity (mPa s) = 0.33438 + Viscosity (mPa s) = 0.33447 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -19441,10 +19441,10 @@ Reaction 1. pH = 6.554 Charge balance pe = 9.368 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 14670 + Specific Conductance (µS/cm, 85°C) = 14668 Density (g/cm³) = 0.97171 Volume (L) = 1.03440 - Viscosity (mPa s) = 0.33544 + Viscosity (mPa s) = 0.33558 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -19526,10 +19526,10 @@ Reaction 1. pH = 6.608 Charge balance pe = 9.345 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 27575 + Specific Conductance (µS/cm, 85°C) = 27571 Density (g/cm³) = 0.97476 Volume (L) = 1.03642 - Viscosity (mPa s) = 0.33751 + Viscosity (mPa s) = 0.33771 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -19611,10 +19611,10 @@ Reaction 1. pH = 6.662 Charge balance pe = 9.324 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 52561 + Specific Conductance (µS/cm, 85°C) = 52548 Density (g/cm³) = 0.98129 Volume (L) = 1.04084 - Viscosity (mPa s) = 0.34200 + Viscosity (mPa s) = 0.34228 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -19696,10 +19696,10 @@ Reaction 1. pH = 6.706 Charge balance pe = 9.312 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 93689 + Specific Conductance (µS/cm, 85°C) = 93658 Density (g/cm³) = 0.99351 Volume (L) = 1.04939 - Viscosity (mPa s) = 0.35088 + Viscosity (mPa s) = 0.35128 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 @@ -19891,7 +19891,7 @@ Reaction 1. Specific Conductance (µS/cm, 95°C) = 4359 Density (g/cm³) = 0.96266 Volume (L) = 1.04012 - Viscosity (mPa s) = 0.29776 + Viscosity (mPa s) = 0.29783 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -19973,10 +19973,10 @@ Reaction 1. pH = 6.445 Charge balance pe = 8.924 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 8414 + Specific Conductance (µS/cm, 95°C) = 8413 Density (g/cm³) = 0.96343 Volume (L) = 1.04062 - Viscosity (mPa s) = 0.29826 + Viscosity (mPa s) = 0.29836 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -20058,10 +20058,10 @@ Reaction 1. pH = 6.502 Charge balance pe = 8.898 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 16063 + Specific Conductance (µS/cm, 95°C) = 16061 Density (g/cm³) = 0.96496 Volume (L) = 1.04163 - Viscosity (mPa s) = 0.29921 + Viscosity (mPa s) = 0.29936 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -20143,10 +20143,10 @@ Reaction 1. pH = 6.559 Charge balance pe = 8.872 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 30169 + Specific Conductance (µS/cm, 95°C) = 30163 Density (g/cm³) = 0.96799 Volume (L) = 1.04367 - Viscosity (mPa s) = 0.30105 + Viscosity (mPa s) = 0.30126 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -20228,10 +20228,10 @@ Reaction 1. pH = 6.614 Charge balance pe = 8.849 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 57440 + Specific Conductance (µS/cm, 95°C) = 57423 Density (g/cm³) = 0.97446 Volume (L) = 1.04814 - Viscosity (mPa s) = 0.30504 + Viscosity (mPa s) = 0.30535 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -20313,10 +20313,10 @@ Reaction 1. pH = 6.659 Charge balance pe = 8.836 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 102255 + Specific Conductance (µS/cm, 95°C) = 102212 Density (g/cm³) = 0.98657 Volume (L) = 1.05678 - Viscosity (mPa s) = 0.31296 + Viscosity (mPa s) = 0.31339 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_NaNO3_sol_101.sel b/mytest/Vm_NaNO3_sol_101.sel index cbb9c204..4ae8b435 100644 --- a/mytest/Vm_NaNO3_sol_101.sel +++ b/mytest/Vm_NaNO3_sol_101.sel @@ -1,236 +1,236 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000043183 0.0164557980 - 0.015090043380 1012.5733333112 - 0.030170043181 1964.3795541634 - 0.060390042838 3776.6200915990 - 0.120790042309 7162.2978664644 - 0.251400041523 13837.1470761128 - 0.501000040626 25125.5386372805 - 0.000000067373 0.0312920192 - 0.015090065897 1331.6944835132 - 0.030170065043 2581.8319261573 - 0.050000064246 4157.1644917135 - 0.060390063909 4959.0650228890 - 0.100000062905 7903.8314193851 - 0.120790062493 9391.5781864204 - 0.251400060754 18101.9169921371 - 0.500000059121 32701.0125231788 - 0.501000059116 32755.8408077512 - 1.000000058019 57293.9764042598 - 2.000000058588 94450.7736619686 - 3.000000060390 120502.7739074789 - 3.959000062492 137870.4708528630 - 6.000000067028 157748.9849153996 - 0.000000082766 0.0417864350 - 0.050000077092 4681.2672120948 - 0.100000075086 8895.0863811401 - 0.100000075086 8895.0863811401 - 0.303000071448 23946.0146466991 - 0.500000069922 36699.7247221027 - 0.580000069538 41511.9796015302 - 0.892000068746 58700.6467279151 - 1.000000068649 64149.2914929887 - 2.000000069761 105409.1935028486 - 3.000000072452 134212.5317254221 - 3.959000075507 153382.3187093862 - 6.000000082134 175368.5921722434 + 0.000000043183 0.0164557984 + 0.015090043380 1012.5869913572 + 0.030170043181 1964.4170116903 + 0.060390042838 3776.7221322382 + 0.120790042309 7162.5727679494 + 0.251400041523 13837.9198930333 + 0.501000040626 25127.5383785594 + 0.000000067373 0.0312920198 + 0.015090065897 1331.7039608000 + 0.030170065043 2581.8578900383 + 0.050000064246 4157.2183296905 + 0.060390063909 4959.1356317315 + 0.100000062905 7903.9765141670 + 0.120790062493 9391.7678744361 + 0.251400060754 18102.4475664813 + 0.500000059121 32702.3709123844 + 0.501000059116 32757.2028411338 + 1.000000058019 57297.3126205680 + 2.000000058588 94458.0748975931 + 3.000000060390 120513.0974484315 + 3.959000062492 137882.5450545208 + 6.000000067028 157761.8024420890 + 0.000000082766 0.0417864354 + 0.050000077092 4681.2983403620 + 0.100000075086 8895.1701792645 + 0.100000075086 8895.1701792645 + 0.303000071448 23946.4099986463 + 0.500000069922 36700.5043882834 + 0.580000069538 41512.9289438831 + 0.892000068746 58702.2993935013 + 1.000000068649 64151.1957812892 + 2.000000069761 105413.3313825017 + 3.000000072452 134218.3625343740 + 3.959000075507 153389.1326163183 + 6.000000082134 175375.8465497525 0.000000100644 0.0547821292 - 0.015090095377 1674.6504501690 - 0.030170093256 3244.7814116439 - 0.050000091421 5221.4850932286 - 0.051760091287 5393.1254158416 - 0.060390090678 6227.0088031394 - 0.072090089957 7338.7102614436 - 0.096720088712 9618.0232975494 - 0.100000088568 9916.0051092634 - 0.100000088568 9916.0051092634 - 0.101110088520 10016.5723930956 - 0.120790087741 11777.8085795760 - 0.200330085479 18546.0796515859 - 0.206560085343 19056.1634568130 - 0.251400084473 22654.8452595492 - 0.298820083727 26335.0505699198 - 0.303000083668 26653.7980348017 - 0.335760083239 29122.3073779996 - 0.400890082531 33884.9137232274 - 0.467690081961 38589.2022975508 - 0.498380081741 40694.6365065025 - 0.500000081730 40804.8450047170 - 0.500000081730 40804.8450047170 - 0.501000081723 40872.8291916177 - 0.580000081259 46137.1921106054 - 0.598960081166 47370.6763068923 - 0.689770080800 53129.2316459523 - 0.699740080767 53747.0499648147 - 0.798940080506 59748.8383647778 - 0.892000080355 65152.7987429453 - 0.896970080350 65435.5697785278 - 0.940650080307 67896.2249885499 - 1.000000080272 71170.8079050783 - 1.000000080272 71170.8079050783 - 1.000040080272 71172.9887688563 - 1.010890080268 71763.2704068511 - 1.196330080316 81474.2096844264 - 1.473320080694 94763.9536727841 - 1.500000080745 95973.4468564382 - 1.796220081450 108641.2603637519 - 2.000000082051 116601.3618709444 - 2.000000082051 116601.3618709444 - 2.083250082318 119689.1607342682 - 2.127960082466 121309.7397669287 - 2.461760083654 132618.1689169146 - 2.500000083798 133828.6925358649 - 2.799120084971 142737.2427210927 - 3.000000085796 148192.6619115770 - 3.000000085796 148192.6619115770 - 3.112680086269 151078.6817228156 - 3.144300086403 151866.8435023289 - 3.485890087876 159803.5331730496 - 3.500000087938 160109.4867290235 - 3.800280089264 166234.8306235900 - 3.959000089972 169188.3272372346 - 4.000000090155 169920.8611323575 - 4.125750090719 172092.1879810670 - 4.285190091437 174686.8463382735 - 4.500000092404 177915.8849802440 - 4.510460092451 178065.5938771534 - 4.919240094289 183401.6997008799 - 5.000000094650 184342.8909000132 - 5.261120095814 187149.0420341453 - 5.583710097237 190147.4653243418 - 5.991320099003 193264.8922052181 - 6.000000099041 193323.7099732606 - 6.206880099921 194637.8453963494 - 6.451960100948 195986.4907517339 - 6.793770102348 197519.2859687817 - 7.185660103902 198824.4791904887 - 7.519930105180 199595.3095835235 - 7.619040105550 199768.1958970394 - 7.916770106634 200145.5319743142 - 8.304690107984 200342.1944935053 - 8.791290109570 200170.9142416610 - 9.224000110871 199678.0048737803 - 9.259790110974 199624.2785533836 - 9.969660112854 198197.9557581920 - 10.628140114310 196346.8570356613 - 10.755340114558 195939.8037251359 - 11.267610115441 194160.6834707737 - 0.000000121213 0.0706339985 - 0.050000107211 5776.0057872691 - 0.100000103309 10963.1302162923 - 0.100000103309 10963.1302162925 - 0.199080099265 20374.9835139694 - 0.231520098397 23276.5998700717 - 0.303000096907 29425.8726510089 - 0.348100096180 33154.7007643098 - 0.500000094499 45002.3645793562 - 0.580000093934 50864.5637611702 - 0.592020093863 51725.3510078568 - 0.892000092921 71738.5937149029 - 0.933800092884 74326.4052175984 - 1.000000092860 78334.9300204505 - 1.950760095249 125951.1034376949 - 2.000000095456 127990.8516480169 - 3.000000100444 162398.5105484311 - 3.144600101245 166404.0434258332 - 3.959000105923 185238.3092087896 - 6.000000117810 211556.8220743481 - 0.000000144671 0.0897028169 - 0.015090132166 2036.7134895815 - 0.030170127913 3944.0093021100 - 0.050000124410 6343.0580489933 - 0.060390123034 7562.6475217050 - 0.100000119245 12033.0889046060 - 0.120790117806 14287.1534853439 - 0.251400112374 27430.8604630688 - 0.500000108174 49278.7444656392 - 0.501000108164 49360.3942326591 - 1.000000106375 85619.0268466067 - 2.000000109970 139543.0410669009 - 3.000000116414 176787.8018588390 - 3.959000123397 201484.7765698032 - 6.000000138501 230013.2463752578 - 0.000000171199 0.1123477610 - 0.100000136287 13122.5461639792 - 0.303000126172 35127.1073820829 - 0.580000121922 60565.2914197355 - 0.892000120748 85228.0291695950 - 0.000000200960 0.1389183081 - 0.015090176078 2413.3819551398 - 0.030170168599 4670.7526047144 - 0.050000162683 7507.7412847128 - 0.060390160415 8949.1018613264 - 0.100000154326 14228.1782971349 - 0.120790152073 16887.6671052015 - 0.251400143874 32368.9577025375 - 0.500000137966 58015.1678955540 - 0.501000137953 58110.8237055626 - 1.000000136007 100459.4365958805 - 2.000000142286 163002.6015994641 - 3.000000152388 205954.9660713792 - 3.959000163059 234385.4266420191 - 6.000000185880 267385.2229131765 - 0.000000234097 0.1697457187 - 0.100000173238 15346.6622451548 - 0.303000158579 40979.2168811506 - 0.580000152974 70495.7110889431 - 0.892000151820 99007.1014946766 - 0.000000270724 0.2051343431 - 0.015090226356 2800.1714434016 - 0.030170214403 5416.2990551957 - 0.050000205284 8701.5020688784 - 0.060390201864 10369.6377590547 - 0.100000192884 16474.6766754332 - 0.120790189636 19547.8104242457 - 0.251400178191 37409.3089856619 - 0.500000170483 66909.6278936405 - 0.501000170467 67019.4691934519 - 1.000000168763 115520.1870924265 - 2.000000178915 186721.7138207154 - 3.000000193874 235380.5025693894 - 3.959000209277 267537.4145708006 - 6.000000241667 305026.6869308865 - 0.000000310931 0.2453529908 - 0.100000213117 17608.9113945722 - 0.303000193327 46912.6749009880 - 0.580000186470 80540.0941412141 - 0.892000185666 112918.9098141688 - 0.000000354775 0.2906266062 - 0.015090281713 3192.5782477342 - 0.030170264002 6171.9169549754 - 0.060390246138 11807.5325416611 - 0.120790229406 22236.1978523533 - 0.251400214428 42492.7678194759 - 0.501000205016 75983.8122293964 - 0.000000402280 0.3411284822 - 0.100000254725 19882.9493855765 - 0.303000229550 52859.2475117174 - 0.580000221757 90585.9601845703 - 0.892000221801 126812.1998982130 - 0.000000453436 0.3969732245 - 0.015090340435 3586.1369862769 - 0.030170315792 6928.9676409856 - 0.060390291835 13246.2924927870 - 0.120790270209 24922.0124137508 - 0.251400251655 47561.6751287933 - 0.501000240894 84904.9252736333 - 0.000000508194 0.4582106561 - 0.100000296814 22143.1526039780 - 0.303000266382 58753.3584784821 - 0.580000258191 100526.4763827581 - 0.892000259755 140544.7829389539 - 0.000000566469 0.5248208249 - 0.015090400535 3976.5171158388 - 0.030170368037 7679.0933052948 - 0.060390337511 14670.0158383656 - 0.120790310881 27575.7002290417 - 0.251400288959 52561.2210999693 - 0.501000277419 93689.9946284068 - 0.000000693037 0.6737094450 - 0.015090459924 4359.6241110701 - 0.030170419007 8414.4141999362 - 0.060390381783 16063.7758412993 - 0.120790350322 30169.7117370808 - 0.251400325485 57440.9317259422 - 0.501000313954 102255.1716779277 + 0.015090095377 1674.6504602203 + 0.030170093256 3244.7814391536 + 0.050000091421 5221.4851502125 + 0.051760091287 5393.1254757270 + 0.060390090678 6227.0088778376 + 0.072090089957 7338.7103576554 + 0.096720088712 9618.0234437126 + 0.100000088568 9916.0052625052 + 0.100000088568 9916.0052625052 + 0.101110088520 10016.5725487540 + 0.120790087741 11777.8087797552 + 0.200330085479 18546.0800585022 + 0.206560085343 19056.1638814400 + 0.251400084473 22654.8458170251 + 0.298820083727 26335.0512769811 + 0.303000083668 26653.7987554479 + 0.335760083239 29122.3082071517 + 0.400890082531 33884.9147777349 + 0.467690081961 38589.2035944342 + 0.498380081741 40694.6379179713 + 0.500000081730 40804.8464222854 + 0.500000081730 40804.8464222854 + 0.501000081723 40872.8306129537 + 0.580000081259 46137.1938350676 + 0.598960081166 47370.6781055595 + 0.689770080800 53129.2338063958 + 0.699740080767 53747.0521655369 + 0.798940080506 59748.8409709664 + 0.892000080355 65152.8017353309 + 0.896970080350 65435.5727916505 + 0.940650080307 67896.2281842790 + 1.000000080272 71170.8113496725 + 1.000000080272 71170.8113496725 + 1.000040080272 71172.9922136184 + 1.010890080268 71763.2738971687 + 1.196330080316 81474.2139529364 + 1.473320080694 94763.9590846215 + 1.500000080745 95973.4523762280 + 1.796220081450 108641.2670457262 + 2.000000082051 116601.3693061461 + 2.000000082051 116601.3693061461 + 2.083250082318 119689.1684647802 + 2.127960082466 121309.7476529075 + 2.461760083654 132618.1778907960 + 2.500000083798 133828.7016258993 + 2.799120084971 142737.2526576365 + 3.000000085796 148192.6723543288 + 3.000000085796 148192.6723543288 + 3.112680086269 151078.6924276559 + 3.144300086403 151866.8542779124 + 3.485890087876 159803.5446358493 + 3.500000087938 160109.4982172294 + 3.800280089264 166234.8425984336 + 3.959000089972 169188.3394289284 + 4.000000090155 169920.8733756988 + 4.125750090719 172092.2003719306 + 4.285190091437 174686.8588932591 + 4.500000092404 177915.8977177146 + 4.510460092451 178065.6066224212 + 4.919240094289 183401.7126769755 + 5.000000094650 184342.9039056315 + 5.261120095814 187149.0551021505 + 5.583710097237 190147.4784055582 + 5.991320099003 193264.9052154858 + 6.000000099041 193323.7229810680 + 6.206880099921 194637.8583349287 + 6.451960100948 195986.5035839565 + 6.793770102348 197519.2986143410 + 7.185660103902 198824.4915763857 + 7.519930105180 199595.3217170515 + 7.619040105550 199768.2079512162 + 7.916770106634 200145.5437797276 + 8.304690107984 200342.2059558461 + 8.791290109570 200170.9252526092 + 9.224000110871 199678.0154717337 + 9.259790110974 199624.2891169012 + 9.969660112854 198197.9656366895 + 10.628140114310 196346.8662860360 + 10.755340114558 195939.8128560071 + 11.267610115441 194160.6921285097 + 0.000000121213 0.0706339976 + 0.050000107211 5775.9655135798 + 0.100000103309 10963.0220182991 + 0.100000103309 10963.0220182994 + 0.199080099265 20374.6991494256 + 0.231520098397 23276.2493527365 + 0.303000096907 29425.3653602525 + 0.348100096180 33154.0880464265 + 0.500000094499 45001.3690418380 + 0.580000093934 50863.3537398836 + 0.592020093863 51724.1081747473 + 0.892000092921 71736.5002625648 + 0.933800092884 74324.1903636829 + 1.000000092860 78332.5224002409 + 1.950760095249 125946.0612911193 + 2.000000095456 127985.6868859817 + 3.000000100444 162391.2794777462 + 3.144600101245 166396.5833995516 + 3.959000105923 185229.8759584144 + 6.000000117810 211547.8103046429 + 0.000000144671 0.0897028141 + 0.015090132166 2036.6974513697 + 0.030170127913 3943.9654460211 + 0.050000124410 6342.9672894853 + 0.060390123034 7562.5285999424 + 0.100000119245 12032.8452980817 + 0.120790117806 14286.8354847232 + 0.251400112374 27429.9782136295 + 0.500000108174 49276.5141291934 + 0.501000108164 49358.1580160008 + 1.000000106375 85613.6565773036 + 2.000000109970 139531.5870488602 + 3.000000116414 176771.8135032919 + 3.959000123397 201466.1507945650 + 6.000000138501 229993.3217731226 + 0.000000171199 0.1123477552 + 0.100000136287 13122.1377565234 + 0.303000126172 35125.2028241823 + 0.580000121922 60560.7743589923 + 0.892000120748 85220.2553481527 + 0.000000200960 0.1389182971 + 0.015090176078 2413.3419969442 + 0.030170168599 4670.6434297675 + 0.050000162683 7507.5155381539 + 0.060390160415 8948.8061806923 + 0.100000154326 14227.5733878579 + 0.120790152073 16886.8779421052 + 0.251400143874 32366.7753683130 + 0.500000137966 58009.6781912521 + 0.501000137953 58105.3196267474 + 1.000000136007 100446.3199775509 + 2.000000142286 162974.9105158741 + 3.000000152388 205916.5265897389 + 3.959000163059 234340.7492595146 + 6.000000185880 267337.3848196360 + 0.000000234097 0.1697456998 + 0.100000173238 15345.8268632036 + 0.303000158579 40975.3389583761 + 0.580000152974 70486.5575561793 + 0.892000151820 98991.4176688426 + 0.000000270724 0.2051343124 + 0.015090226356 2800.0984304561 + 0.030170214403 5416.0997173867 + 0.050000205284 8701.0901964036 + 0.060390201864 10369.0984754501 + 0.100000192884 16473.5746307110 + 0.120790189636 19546.3734424056 + 0.251400178191 37405.3460199528 + 0.500000170483 66899.6997906548 + 0.501000170467 67009.5152418118 + 1.000000168763 115496.6163508518 + 2.000000178915 186672.3770544181 + 3.000000193874 235312.3490744512 + 3.959000209277 267458.3842295959 + 6.000000241667 304942.0872860664 + 0.000000310931 0.2453529428 + 0.100000213117 17607.5043402166 + 0.303000193327 46906.1679503057 + 0.580000186470 80524.7944082342 + 0.892000185666 112892.7884982306 + 0.000000354775 0.2906265337 + 0.015090281713 3192.4618397659 + 0.030170264002 6171.5993597156 + 0.060390246138 11806.6741472964 + 0.120790229406 22233.9137187216 + 0.251400214428 42486.4825451806 + 0.501000205016 75968.0769269502 + 0.000000402280 0.3411283760 + 0.100000254725 19880.8090194703 + 0.303000229550 52849.3791597472 + 0.580000221757 90562.8259979054 + 0.892000221801 126772.8110455543 + 0.000000453436 0.3969730726 + 0.015090340435 3585.9657248910 + 0.030170315792 6928.5006791017 + 0.060390291835 13245.0314271401 + 0.120790270209 24918.6605653272 + 0.251400251655 47552.4676179708 + 0.501000240894 84881.9301495969 + 0.000000508194 0.4582104436 + 0.100000296814 22140.1016474741 + 0.303000266382 58739.3229468253 + 0.580000258191 100493.6413734487 + 0.892000259755 140488.9834127217 + 0.000000566469 0.5248205333 + 0.015090400535 3976.2785376314 + 0.030170368037 7678.4431543292 + 0.060390337511 14668.2612521994 + 0.120790310881 27571.0406148506 + 0.251400288959 52548.4362875744 + 0.501000277419 93658.1150508417 + 0.000000693037 0.6737089236 + 0.015090459924 4359.3048799464 + 0.030170419007 8413.5446709273 + 0.060390381783 16061.4304502161 + 0.120790350322 30163.4866392544 + 0.251400325485 57423.8619241727 + 0.501000313954 102212.6330296570 diff --git a/mytest/Vm_SrCl2_sol.out b/mytest/Vm_SrCl2_sol.out index ed0e75c6..3c7fd4ae 100644 --- a/mytest/Vm_SrCl2_sol.out +++ b/mytest/Vm_SrCl2_sol.out @@ -227,7 +227,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 8648 Density (g/cm³) = 1.00606 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.15653 + Viscosity (mPa s) = 1.15636 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -301,10 +301,10 @@ Reaction 1. pH = 7.088 Charge balance pe = -0.306 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 16171 + Specific Conductance (µS/cm, 15°C) = 16172 Density (g/cm³) = 1.01296 Volume (L) = 1.00286 - Viscosity (mPa s) = 1.17242 + Viscosity (mPa s) = 1.17217 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -378,10 +378,10 @@ Reaction 1. pH = 6.949 Charge balance pe = -0.543 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 63538 + Specific Conductance (µS/cm, 15°C) = 63551 Density (g/cm³) = 1.06685 Volume (L) = 1.01164 - Viscosity (mPa s) = 1.29532 + Viscosity (mPa s) = 1.29476 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -455,10 +455,10 @@ Reaction 1. pH = 6.811 Charge balance pe = 11.735 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 105654 + Specific Conductance (µS/cm, 15°C) = 105683 Density (g/cm³) = 1.13086 Volume (L) = 1.02446 - Viscosity (mPa s) = 1.46710 + Viscosity (mPa s) = 1.46630 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -532,10 +532,10 @@ Reaction 1. pH = 6.683 Charge balance pe = 12.099 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 134502 + Specific Conductance (µS/cm, 15°C) = 134544 Density (g/cm³) = 1.19019 Volume (L) = 1.03999 - Viscosity (mPa s) = 1.68138 + Viscosity (mPa s) = 1.68040 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -609,10 +609,10 @@ Reaction 1. pH = 6.561 Charge balance pe = 11.824 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 152137 + Specific Conductance (µS/cm, 15°C) = 152185 Density (g/cm³) = 1.24357 Volume (L) = 1.05909 - Viscosity (mPa s) = 1.95785 + Viscosity (mPa s) = 1.95672 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -686,10 +686,10 @@ Reaction 1. pH = 6.443 Charge balance pe = -0.713 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 160179 + Specific Conductance (µS/cm, 15°C) = 160226 Density (g/cm³) = 1.28966 Volume (L) = 1.08270 - Viscosity (mPa s) = 2.31490 + Viscosity (mPa s) = 2.31364 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.500e+00 Mass of water (kg) = 1.000e+00 @@ -3741,10 +3741,10 @@ Reaction 1. pH = 6.813 Charge balance pe = -0.036 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12920 + Specific Conductance (µS/cm, 35°C) = 12919 Density (g/cm³) = 1.00091 Volume (L) = 1.00701 - Viscosity (mPa s) = 0.73241 + Viscosity (mPa s) = 0.73253 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -3818,10 +3818,10 @@ Reaction 1. pH = 6.800 Charge balance pe = -0.095 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 24093 + Specific Conductance (µS/cm, 35°C) = 24091 Density (g/cm³) = 1.00772 Volume (L) = 1.00807 - Viscosity (mPa s) = 0.74349 + Viscosity (mPa s) = 0.74367 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -3895,10 +3895,10 @@ Reaction 1. pH = 6.740 Charge balance pe = 10.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 93541 + Specific Conductance (µS/cm, 35°C) = 93520 Density (g/cm³) = 1.06087 Volume (L) = 1.01734 - Viscosity (mPa s) = 0.82889 + Viscosity (mPa s) = 0.82929 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -3972,10 +3972,10 @@ Reaction 1. pH = 6.674 Charge balance pe = 10.338 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 153895 + Specific Conductance (µS/cm, 35°C) = 153848 Density (g/cm³) = 1.12380 Volume (L) = 1.03090 - Viscosity (mPa s) = 0.94674 + Viscosity (mPa s) = 0.94730 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -4049,10 +4049,10 @@ Reaction 1. pH = 6.598 Charge balance pe = 10.504 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 194224 + Specific Conductance (µS/cm, 35°C) = 194159 Density (g/cm³) = 1.18175 Volume (L) = 1.04742 - Viscosity (mPa s) = 1.09133 + Viscosity (mPa s) = 1.09202 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -4126,10 +4126,10 @@ Reaction 1. pH = 6.513 Charge balance pe = 10.493 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 218090 + Specific Conductance (µS/cm, 35°C) = 218017 Density (g/cm³) = 1.23327 Volume (L) = 1.06793 - Viscosity (mPa s) = 1.27516 + Viscosity (mPa s) = 1.27596 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -4203,10 +4203,10 @@ Reaction 1. pH = 6.419 Charge balance pe = -0.484 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 228146 + Specific Conductance (µS/cm, 35°C) = 228073 Density (g/cm³) = 1.27689 Volume (L) = 1.09353 - Viscosity (mPa s) = 1.50990 + Viscosity (mPa s) = 1.51079 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.500e+00 Mass of water (kg) = 1.000e+00 @@ -4383,10 +4383,10 @@ Reaction 1. pH = 6.673 Charge balance pe = 0.148 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 15162 + Specific Conductance (µS/cm, 45°C) = 15160 Density (g/cm³) = 0.99707 Volume (L) = 1.01089 - Viscosity (mPa s) = 0.60728 + Viscosity (mPa s) = 0.60751 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -4460,10 +4460,10 @@ Reaction 1. pH = 6.663 Charge balance pe = 0.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 28238 + Specific Conductance (µS/cm, 45°C) = 28232 Density (g/cm³) = 1.00386 Volume (L) = 1.01195 - Viscosity (mPa s) = 0.61688 + Viscosity (mPa s) = 0.61719 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -4537,10 +4537,10 @@ Reaction 1. pH = 6.619 Charge balance pe = 9.233 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 109073 + Specific Conductance (µS/cm, 45°C) = 109020 Density (g/cm³) = 1.05678 Volume (L) = 1.02127 - Viscosity (mPa s) = 0.69060 + Viscosity (mPa s) = 0.69130 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -4614,10 +4614,10 @@ Reaction 1. pH = 6.575 Charge balance pe = 9.674 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 178706 + Specific Conductance (µS/cm, 45°C) = 178592 Density (g/cm³) = 1.11946 Volume (L) = 1.03490 - Viscosity (mPa s) = 0.79179 + Viscosity (mPa s) = 0.79278 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -4691,10 +4691,10 @@ Reaction 1. pH = 6.525 Charge balance pe = 9.555 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 224862 + Specific Conductance (µS/cm, 45°C) = 224706 Density (g/cm³) = 1.17725 Volume (L) = 1.05142 - Viscosity (mPa s) = 0.91508 + Viscosity (mPa s) = 0.91629 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -4768,10 +4768,10 @@ Reaction 1. pH = 6.462 Charge balance pe = 9.765 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 251975 + Specific Conductance (µS/cm, 45°C) = 251798 Density (g/cm³) = 1.22878 Volume (L) = 1.07184 - Viscosity (mPa s) = 1.07085 + Viscosity (mPa s) = 1.07226 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -4845,10 +4845,10 @@ Reaction 1. pH = 6.387 Charge balance pe = 10.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 263259 + Specific Conductance (µS/cm, 45°C) = 263083 Density (g/cm³) = 1.27260 Volume (L) = 1.09722 - Viscosity (mPa s) = 1.26878 + Viscosity (mPa s) = 1.27035 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.500e+00 Mass of water (kg) = 1.000e+00 @@ -5025,10 +5025,10 @@ Reaction 1. pH = 6.545 Charge balance pe = -0.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 17443 + Specific Conductance (µS/cm, 55°C) = 17439 Density (g/cm³) = 0.99254 Volume (L) = 1.01551 - Viscosity (mPa s) = 0.51378 + Viscosity (mPa s) = 0.51408 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -5102,10 +5102,10 @@ Reaction 1. pH = 6.535 Charge balance pe = 0.018 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 32445 + Specific Conductance (µS/cm, 55°C) = 32434 Density (g/cm³) = 0.99931 Volume (L) = 1.01655 - Viscosity (mPa s) = 0.52222 + Viscosity (mPa s) = 0.52264 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -5179,10 +5179,10 @@ Reaction 1. pH = 6.500 Charge balance pe = 8.952 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 124736 + Specific Conductance (µS/cm, 55°C) = 124642 Density (g/cm³) = 1.05209 Volume (L) = 1.02583 - Viscosity (mPa s) = 0.58694 + Viscosity (mPa s) = 0.58788 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -5256,10 +5256,10 @@ Reaction 1. pH = 6.470 Charge balance pe = 8.931 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 203640 + Specific Conductance (µS/cm, 55°C) = 203438 Density (g/cm³) = 1.11463 Volume (L) = 1.03939 - Viscosity (mPa s) = 0.67535 + Viscosity (mPa s) = 0.67668 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -5333,10 +5333,10 @@ Reaction 1. pH = 6.437 Charge balance pe = 8.874 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 255631 + Specific Conductance (µS/cm, 55°C) = 255351 Density (g/cm³) = 1.17247 Volume (L) = 1.05571 - Viscosity (mPa s) = 0.78238 + Viscosity (mPa s) = 0.78401 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -5410,10 +5410,10 @@ Reaction 1. pH = 6.395 Charge balance pe = 8.555 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 286069 + Specific Conductance (µS/cm, 55°C) = 285755 Density (g/cm³) = 1.22435 Volume (L) = 1.07571 - Viscosity (mPa s) = 0.91685 + Viscosity (mPa s) = 0.91873 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -5487,10 +5487,10 @@ Reaction 1. pH = 6.339 Charge balance pe = -0.793 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 298756 + Specific Conductance (µS/cm, 55°C) = 298443 Density (g/cm³) = 1.26893 Volume (L) = 1.10039 - Viscosity (mPa s) = 1.08694 + Viscosity (mPa s) = 1.08904 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.500e+00 Mass of water (kg) = 1.000e+00 @@ -5667,10 +5667,10 @@ Reaction 1. pH = 6.338 Charge balance pe = 0.417 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 12631 + Specific Conductance (µS/cm, 74°C) = 12627 Density (g/cm³) = 0.97921 Volume (L) = 1.02568 - Viscosity (mPa s) = 0.38744 + Viscosity (mPa s) = 0.38775 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.241e-02 Mass of water (kg) = 1.000e+00 @@ -5744,10 +5744,10 @@ Reaction 1. pH = 6.322 Charge balance pe = 0.149 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 40617 + Specific Conductance (µS/cm, 74°C) = 40592 Density (g/cm³) = 0.98910 Volume (L) = 1.02711 - Viscosity (mPa s) = 0.39763 + Viscosity (mPa s) = 0.39821 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.013e-01 Mass of water (kg) = 1.000e+00 @@ -5821,10 +5821,10 @@ Reaction 1. pH = 6.310 Charge balance pe = 6.947 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 75054 + Specific Conductance (µS/cm, 74°C) = 74988 Density (g/cm³) = 1.00304 Volume (L) = 1.02931 - Viscosity (mPa s) = 0.41136 + Viscosity (mPa s) = 0.41219 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.138e-01 Mass of water (kg) = 1.000e+00 @@ -5898,10 +5898,10 @@ Reaction 1. pH = 6.284 Charge balance pe = 7.797 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 194128 + Specific Conductance (µS/cm, 74°C) = 193829 Density (g/cm³) = 1.06499 Volume (L) = 1.04065 - Viscosity (mPa s) = 0.47478 + Viscosity (mPa s) = 0.47629 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.049e+00 Mass of water (kg) = 1.000e+00 @@ -5975,10 +5975,10 @@ Reaction 1. pH = 6.273 Charge balance pe = 8.123 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 250661 + Specific Conductance (µS/cm, 74°C) = 250218 Density (g/cm³) = 1.10429 Volume (L) = 1.04925 - Viscosity (mPa s) = 0.52108 + Viscosity (mPa s) = 0.52291 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 1.000e+00 @@ -6155,10 +6155,10 @@ Reaction 1. pH = 6.093 Charge balance pe = 0.707 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 50582 + Specific Conductance (µS/cm, 99°C) = 50530 Density (g/cm³) = 0.97270 Volume (L) = 1.04433 - Viscosity (mPa s) = 0.29680 + Viscosity (mPa s) = 0.29753 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.994e-01 Mass of water (kg) = 1.000e+00 @@ -6232,10 +6232,10 @@ Reaction 1. pH = 6.081 Charge balance pe = 5.826 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 94140 + Specific Conductance (µS/cm, 99°C) = 94000 Density (g/cm³) = 0.98690 Volume (L) = 1.04633 - Viscosity (mPa s) = 0.30800 + Viscosity (mPa s) = 0.30905 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.174e-01 Mass of water (kg) = 1.000e+00 @@ -6309,10 +6309,10 @@ Reaction 1. pH = 6.063 Charge balance pe = 6.536 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 191873 + Specific Conductance (µS/cm, 99°C) = 191435 Density (g/cm³) = 1.02555 Volume (L) = 1.05258 - Viscosity (mPa s) = 0.33883 + Viscosity (mPa s) = 0.34048 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.504e+00 Mass of water (kg) = 1.000e+00 @@ -6386,10 +6386,10 @@ Reaction 1. pH = 6.049 Charge balance pe = 6.721 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 317541 + Specific Conductance (µS/cm, 99°C) = 316581 Density (g/cm³) = 1.09367 Volume (L) = 1.06588 - Viscosity (mPa s) = 0.40045 + Viscosity (mPa s) = 0.40283 Activity of water = 0.947 Ionic strength (mol/kgw) = 3.136e+00 Mass of water (kg) = 1.000e+00 @@ -6463,10 +6463,10 @@ Reaction 1. pH = 6.036 Charge balance pe = 7.186 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 431264 + Specific Conductance (µS/cm, 99°C) = 429839 Density (g/cm³) = 1.20298 Volume (L) = 1.09468 - Viscosity (mPa s) = 0.54336 + Viscosity (mPa s) = 0.54666 Activity of water = 0.898 Ionic strength (mol/kgw) = 5.997e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_SrCl2_sol_101.sel b/mytest/Vm_SrCl2_sol_101.sel index 21daaedc..1fa6bb50 100644 --- a/mytest/Vm_SrCl2_sol_101.sel +++ b/mytest/Vm_SrCl2_sol_101.sel @@ -1,83 +1,83 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000067373 0.0312920192 - 0.150000063105 8648.0320098057 - 0.300000052691 16171.1959596783 - 1.499999979335 63538.3305254033 - 2.999999893591 105654.4377900203 - 4.499999803454 134502.8515508605 - 5.999999703964 152137.8162089488 - 7.499999591370 160179.6507960778 + 0.000000067373 0.0312920198 + 0.150000063105 8648.6028718748 + 0.300000052691 16172.7129709743 + 1.499999979335 63551.5728904803 + 2.999999893591 105683.7096726647 + 4.499999803454 134544.1207646733 + 5.999999703964 152185.0012529716 + 7.499999591370 160226.9710820528 0.000000100644 0.0547821292 - 0.011220109310 937.5121360675 - 0.037800112724 2988.4072936922 - 0.065700113795 5018.0982193996 - 0.097500114041 7235.6905084509 - 0.150000113464 10740.6631144460 - 0.195600112461 13666.3269829173 - 0.298164109370 19946.9592756945 - 0.300000109308 20056.2028159514 - 0.387600106166 25158.3920161803 - 0.592500097932 36389.6543051770 - 0.600600097589 36816.3423131616 - 0.753900090931 44677.4877380225 - 0.810444088402 47481.2260000093 - 0.899400084355 51796.2096343655 - 0.985800080351 55881.2168264178 - 1.200600070110 65620.7505692319 - 1.378884061324 73291.6735660651 - 1.498800055276 78257.0293492122 - 1.500000055215 78305.9608198567 - 1.716627044015 86903.5936568849 - 1.800000039612 90091.8879006590 - 2.097000023523 100936.6697258973 - 2.339877009907 109241.3036094511 - 2.400000006474 111222.3056867674 - 2.698799989056 120644.6314422519 - 2.988599971611 129135.3779056748 - 2.999999970914 129456.7516242194 - 3.167018960610 134057.9371169672 - 3.489218940258 142379.3345173649 - 3.760994922624 148847.3122693787 - 4.499999872617 164003.5250893477 - 4.532057870382 164583.3252099875 - 5.183852823778 175035.1745063011 - 5.328401813143 177017.4178354641 - 5.999999762289 184710.2334775804 - 7.499999639442 193692.8008277539 - 0.000000144671 0.0897028169 - 0.150000176031 12920.3219823577 - 0.300000178341 24093.9457552535 - 1.500000149635 93541.9180403716 - 3.000000078615 153895.3865285307 - 4.499999980082 194224.5060896704 - 5.999999860370 218090.6523490539 - 7.499999724100 228146.0417013555 - 0.000000200960 0.1389183081 - 0.150000253624 15162.4482681103 - 0.300000262641 28238.3442235752 - 1.500000260885 109073.0145647554 - 3.000000211038 178706.0843868718 - 4.500000123858 224862.9092231847 - 6.000000003765 251975.2231648968 - 7.499999856977 263259.4627173673 - 0.000000270724 0.2051343431 - 0.150000348702 17443.5089643917 - 0.300000365046 32445.5110431534 - 1.500000390722 124736.7940403387 - 3.000000364550 203640.7244031955 - 4.500000296876 255631.0013261839 - 6.000000188392 286069.7194315847 - 7.500000041427 298756.4504472015 - 0.000000442914 0.3853734786 - 0.082410557546 12631.8626001141 - 0.301320617041 40617.8375694261 - 0.613770653513 75054.4763025855 - 2.049270711335 194128.2383663102 - 3.002790716965 250661.4983178444 - 0.000000747149 0.7388248064 - 0.299401069362 50582.7511569489 - 0.617401143548 94140.2783285186 - 1.503901244014 191873.2552745697 - 3.136201324517 317541.6635791283 - 5.996701334598 431264.3298766770 + 0.011220109310 937.5121502776 + 0.037800112724 2988.4073769453 + 0.065700113795 5018.0984039646 + 0.097500114041 7235.6908331275 + 0.150000113464 10740.6637135070 + 0.195600112461 13666.3278547109 + 0.298164109370 19946.9608510291 + 0.300000109308 20056.2044048467 + 0.387600106166 25158.3942852944 + 0.592500097932 36389.6583700478 + 0.600600097589 36816.3464537850 + 0.753900090931 44677.4933661549 + 0.810444088402 47481.2321993483 + 0.899400084355 51796.2167526881 + 0.985800080351 55881.2248578577 + 1.200600070110 65620.7609383149 + 1.378884061324 73291.6859260042 + 1.498800055276 78257.0430636085 + 1.500000055215 78305.9745478478 + 1.716627044015 86903.6098451700 + 1.800000039612 90091.9050359973 + 2.097000023523 100936.6902109894 + 2.339877009907 109241.3267802987 + 2.400000006474 111222.3295119428 + 2.698799989056 120644.6584416809 + 2.988599971611 129135.4078368556 + 2.999999970914 129456.7816673789 + 3.167018960610 134057.9687693028 + 3.489218940258 142379.3690964031 + 3.760994922624 148847.3491197510 + 4.499999872617 164003.5671129343 + 4.532057870382 164583.3674232561 + 5.183852823778 175035.2199336539 + 5.328401813143 177017.4638100072 + 5.999999762289 184710.2812280000 + 7.499999639442 193692.8484748278 + 0.000000144671 0.0897028141 + 0.150000176031 12919.3756878214 + 0.300000178341 24091.4400821694 + 1.500000149635 93520.4537788507 + 3.000000078615 153848.7968291175 + 4.499999980082 194159.7353119880 + 5.999999860370 218017.3656969846 + 7.499999724100 228073.1092527308 + 0.000000200960 0.1389182971 + 0.150000253624 15160.1131953519 + 0.300000262641 28232.1701928005 + 1.500000260885 109020.5018217512 + 3.000000211038 178592.8682432769 + 4.500000123858 224706.2533391278 + 6.000000003765 251798.4556148557 + 7.499999856977 263083.7197903759 + 0.000000270724 0.2051343124 + 0.150000348702 17439.2812187894 + 0.300000365046 32434.3465370191 + 1.500000390722 124642.3907682285 + 3.000000364550 203438.3163859484 + 4.500000296876 255351.9370887657 + 6.000000188392 285755.3258587457 + 7.500000041427 298443.7801411159 + 0.000000442914 0.3853733369 + 0.082410557546 12627.8319490344 + 0.301320617041 40592.8727038101 + 0.613770653513 74988.4687832120 + 2.049270711335 193829.2025374870 + 3.002790716965 250218.3561826348 + 0.000000747149 0.7388241598 + 0.299401069362 50530.6004110964 + 0.617401143548 94000.2375808935 + 1.503901244014 191435.5976585976 + 3.136201324517 316581.2631604353 + 5.996701334598 429839.7135893511 diff --git a/mytest/Vm_salt.out b/mytest/Vm_salt.out index 55db2aa1..b9e38388 100644 --- a/mytest/Vm_salt.out +++ b/mytest/Vm_salt.out @@ -5412,7 +5412,7 @@ Reaction 1. pH = -0.169 Charge balance pe = 5.928 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 579545 + Specific Conductance (µS/cm, 25°C) = 579546 Density (g/cm³) = 1.03345 Volume (L) = 1.04224 Viscosity (mPa s) = 1.00573 @@ -5930,7 +5930,7 @@ Reaction 1. pH = -0.287 Charge balance pe = 18.018 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 701434 + Specific Conductance (µS/cm, 25°C) = 701435 Density (g/cm³) = 1.04301 Volume (L) = 1.05539 Viscosity (mPa s) = 1.03648 @@ -6818,7 +6818,7 @@ Reaction 1. pH = -0.530 Charge balance pe = 18.520 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 945247 + Specific Conductance (µS/cm, 25°C) = 945248 Density (g/cm³) = 1.07040 Volume (L) = 1.09819 Viscosity (mPa s) = 1.13952 @@ -6892,7 +6892,7 @@ Reaction 1. pH = -0.539 Charge balance pe = 6.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 952444 + Specific Conductance (µS/cm, 25°C) = 952445 Density (g/cm³) = 1.07165 Volume (L) = 1.10028 Viscosity (mPa s) = 1.14476 @@ -7114,7 +7114,7 @@ Reaction 1. pH = -0.573 Charge balance pe = 6.227 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 978466 + Specific Conductance (µS/cm, 25°C) = 978467 Density (g/cm³) = 1.07669 Volume (L) = 1.10879 Viscosity (mPa s) = 1.16623 @@ -7410,7 +7410,7 @@ Reaction 1. pH = -0.606 Charge balance pe = 6.242 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1000407 + Specific Conductance (µS/cm, 25°C) = 1000408 Density (g/cm³) = 1.08181 Volume (L) = 1.11763 Viscosity (mPa s) = 1.18861 @@ -7484,7 +7484,7 @@ Reaction 1. pH = -0.626 Charge balance pe = 18.322 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1012269 + Specific Conductance (µS/cm, 25°C) = 1012270 Density (g/cm³) = 1.08510 Volume (L) = 1.12340 Viscosity (mPa s) = 1.20323 @@ -7558,7 +7558,7 @@ Reaction 1. pH = -0.629 Charge balance pe = 5.880 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1013927 + Specific Conductance (µS/cm, 25°C) = 1013928 Density (g/cm³) = 1.08560 Volume (L) = 1.12428 Viscosity (mPa s) = 1.20547 @@ -8298,7 +8298,7 @@ Reaction 1. pH = -0.733 Charge balance pe = 6.392 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1051519 + Specific Conductance (µS/cm, 25°C) = 1051520 Density (g/cm³) = 1.10473 Volume (L) = 1.15960 Viscosity (mPa s) = 1.29607 @@ -8446,7 +8446,7 @@ Reaction 1. pH = -0.769 Charge balance pe = 18.679 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1053231 + Specific Conductance (µS/cm, 25°C) = 1053232 Density (g/cm³) = 1.11217 Volume (L) = 1.17423 Viscosity (mPa s) = 1.33472 @@ -13465,7 +13465,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 21350 Density (g/cm³) = 1.00569 Volume (L) = 1.00670 - Viscosity (mPa s) = 0.90723 + Viscosity (mPa s) = 0.90722 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.126e-01 Mass of water (kg) = 1.000e+00 @@ -21473,7 +21473,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 85644 Density (g/cm³) = 1.03676 Volume (L) = 1.02197 - Viscosity (mPa s) = 0.97495 + Viscosity (mPa s) = 0.97494 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -26321,7 +26321,7 @@ Reaction 1. pH = 6.950 Charge balance pe = -0.556 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 191257 + Specific Conductance (µS/cm, 25°C) = 191258 Density (g/cm³) = 1.10723 Volume (L) = 1.06413 Viscosity (mPa s) = 1.21067 @@ -27091,7 +27091,7 @@ Reaction 1. pH = 6.950 Charge balance pe = 10.546 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 210855 + Specific Conductance (µS/cm, 25°C) = 210856 Density (g/cm³) = 1.12659 Volume (L) = 1.07751 Viscosity (mPa s) = 1.30119 @@ -27941,7 +27941,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -28018,7 +28018,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -28092,7 +28092,7 @@ Reaction 1. pH = 6.953 Charge balance pe = -0.710 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 232171 + Specific Conductance (µS/cm, 25°C) = 232172 Density (g/cm³) = 1.15436 Volume (L) = 1.09815 Viscosity (mPa s) = 1.45534 @@ -28169,7 +28169,7 @@ Reaction 1. pH = 6.953 Charge balance pe = 11.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 233208 + Specific Conductance (µS/cm, 25°C) = 233209 Density (g/cm³) = 1.15603 Volume (L) = 1.09944 Viscosity (mPa s) = 1.46562 @@ -42139,7 +42139,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 334983 Density (g/cm³) = 1.15031 Volume (L) = 1.12526 - Viscosity (mPa s) = 0.93659 + Viscosity (mPa s) = 0.93658 Activity of water = 0.866 Ionic strength (mol/kgw) = 3.949e+00 Mass of water (kg) = 1.000e+00 @@ -47063,7 +47063,7 @@ Reaction 1. pH = 6.075 Charge balance pe = 11.570 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 74687 + Specific Conductance (µS/cm, 25°C) = 74688 Density (g/cm³) = 1.03791 Volume (L) = 1.01301 Viscosity (mPa s) = 1.11272 @@ -47843,7 +47843,7 @@ Reaction 1. pH = 5.840 Charge balance pe = 11.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 115556 + Specific Conductance (µS/cm, 25°C) = 115557 Density (g/cm³) = 1.07052 Volume (L) = 1.02294 Viscosity (mPa s) = 1.30954 @@ -49250,7 +49250,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 127535 Density (g/cm³) = 1.25467 Volume (L) = 1.11478 - Viscosity (mPa s) = 5.33423 + Viscosity (mPa s) = 5.33422 Activity of water = 0.786 Ionic strength (mol/kgw) = 1.256e+01 Mass of water (kg) = 1.000e+00 @@ -51854,7 +51854,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 24482 Density (g/cm³) = 1.00874 Volume (L) = 1.00565 - Viscosity (mPa s) = 0.93235 + Viscosity (mPa s) = 0.93234 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.903e-01 Mass of water (kg) = 1.000e+00 @@ -53570,7 +53570,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 56149 Density (g/cm³) = 1.02690 Volume (L) = 1.01023 - Viscosity (mPa s) = 0.99298 + Viscosity (mPa s) = 0.99297 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 1.000e+00 @@ -56846,7 +56846,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 166030 Density (g/cm³) = 1.11675 Volume (L) = 1.03857 - Viscosity (mPa s) = 1.34851 + Viscosity (mPa s) = 1.34850 Activity of water = 0.927 Ionic strength (mol/kgw) = 4.320e+00 Mass of water (kg) = 1.000e+00 @@ -57311,10 +57311,10 @@ Reaction 1. pH = 6.615 Charge balance pe = 11.761 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 172209 + Specific Conductance (µS/cm, 25°C) = 172210 Density (g/cm³) = 1.12443 Volume (L) = 1.04140 - Viscosity (mPa s) = 1.38788 + Viscosity (mPa s) = 1.38787 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.622e+00 Mass of water (kg) = 1.000e+00 @@ -57701,7 +57701,7 @@ Reaction 1. pH = 6.594 Charge balance pe = 10.935 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 183587 + Specific Conductance (µS/cm, 25°C) = 183588 Density (g/cm³) = 1.14071 Volume (L) = 1.04765 Viscosity (mPa s) = 1.47914 @@ -58013,10 +58013,10 @@ Reaction 1. pH = 6.581 Charge balance pe = 10.531 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 189793 + Specific Conductance (µS/cm, 25°C) = 189794 Density (g/cm³) = 1.15144 Volume (L) = 1.05194 - Viscosity (mPa s) = 1.54610 + Viscosity (mPa s) = 1.54609 Activity of water = 0.903 Ionic strength (mol/kgw) = 5.710e+00 Mass of water (kg) = 1.000e+00 @@ -58328,7 +58328,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 193268 Density (g/cm³) = 1.15842 Volume (L) = 1.05481 - Viscosity (mPa s) = 1.59293 + Viscosity (mPa s) = 1.59292 Activity of water = 0.898 Ionic strength (mol/kgw) = 5.998e+00 Mass of water (kg) = 1.000e+00 @@ -58484,7 +58484,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 193486 Density (g/cm³) = 1.15889 Volume (L) = 1.05501 - Viscosity (mPa s) = 1.59618 + Viscosity (mPa s) = 1.59617 Activity of water = 0.898 Ionic strength (mol/kgw) = 6.018e+00 Mass of water (kg) = 1.000e+00 @@ -58637,7 +58637,7 @@ Reaction 1. pH = 6.566 Charge balance pe = 11.650 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 196192 + Specific Conductance (µS/cm, 25°C) = 196193 Density (g/cm³) = 1.16514 Volume (L) = 1.05763 Viscosity (mPa s) = 1.64068 @@ -59261,7 +59261,7 @@ Reaction 1. pH = 6.536 Charge balance pe = 11.703 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 204067 + Specific Conductance (µS/cm, 25°C) = 204068 Density (g/cm³) = 1.19361 Volume (L) = 1.07025 Viscosity (mPa s) = 1.87810 @@ -59420,7 +59420,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 204141 Density (g/cm³) = 1.19411 Volume (L) = 1.07048 - Viscosity (mPa s) = 1.88284 + Viscosity (mPa s) = 1.88283 Activity of water = 0.872 Ionic strength (mol/kgw) = 7.522e+00 Mass of water (kg) = 1.000e+00 @@ -59888,7 +59888,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 204984 Density (g/cm³) = 1.22095 Volume (L) = 1.08348 - Viscosity (mPa s) = 2.17353 + Viscosity (mPa s) = 2.17352 Activity of water = 0.852 Ionic strength (mol/kgw) = 8.727e+00 Mass of water (kg) = 1.000e+00 @@ -60977,7 +60977,7 @@ Reaction 1. pH = 6.466 Charge balance pe = 11.445 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 191977 + Specific Conductance (µS/cm, 25°C) = 191978 Density (g/cm³) = 1.27160 Volume (L) = 1.11128 Viscosity (mPa s) = 2.97944 @@ -62228,7 +62228,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 154673 Density (g/cm³) = 1.34079 Volume (L) = 1.15806 - Viscosity (mPa s) = 5.01203 + Viscosity (mPa s) = 5.01202 Activity of water = 0.746 Ionic strength (mol/kgw) = 1.494e+01 Mass of water (kg) = 1.000e+00 @@ -62462,7 +62462,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 151219 Density (g/cm³) = 1.34632 Volume (L) = 1.16236 - Viscosity (mPa s) = 5.24626 + Viscosity (mPa s) = 5.24625 Activity of water = 0.740 Ionic strength (mol/kgw) = 1.527e+01 Mass of water (kg) = 1.000e+00 @@ -62852,7 +62852,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 135033 Density (g/cm³) = 1.37189 Volume (L) = 1.18349 - Viscosity (mPa s) = 6.52422 + Viscosity (mPa s) = 6.52421 Activity of water = 0.713 Ionic strength (mol/kgw) = 1.686e+01 Mass of water (kg) = 1.000e+00 @@ -63242,7 +63242,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 124060 Density (g/cm³) = 1.38921 Volume (L) = 1.19919 - Viscosity (mPa s) = 7.61254 + Viscosity (mPa s) = 7.61253 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.800e+01 Mass of water (kg) = 1.000e+00 @@ -63872,7 +63872,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 102205 Density (g/cm³) = 1.42477 Volume (L) = 1.23566 - Viscosity (mPa s) = 10.62632 + Viscosity (mPa s) = 10.62631 Activity of water = 0.651 Ionic strength (mol/kgw) = 2.056e+01 Mass of water (kg) = 1.000e+00 @@ -64028,7 +64028,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 91591 Density (g/cm³) = 1.44295 Volume (L) = 1.25705 - Viscosity (mPa s) = 12.72096 + Viscosity (mPa s) = 12.72095 Activity of water = 0.626 Ionic strength (mol/kgw) = 2.200e+01 Mass of water (kg) = 1.000e+00 @@ -64184,7 +64184,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 90205 Density (g/cm³) = 1.44539 Volume (L) = 1.26008 - Viscosity (mPa s) = 13.03777 + Viscosity (mPa s) = 13.03776 Activity of water = 0.623 Ionic strength (mol/kgw) = 2.220e+01 Mass of water (kg) = 1.000e+00 @@ -69483,7 +69483,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 119223 Density (g/cm³) = 1.14161 Volume (L) = 1.02767 - Viscosity (mPa s) = 1.08465 + Viscosity (mPa s) = 1.08464 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.495e+00 Mass of water (kg) = 1.000e+00 @@ -69791,7 +69791,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 146313 Density (g/cm³) = 1.20136 Volume (L) = 1.04040 - Viscosity (mPa s) = 1.18818 + Viscosity (mPa s) = 1.18817 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -70176,7 +70176,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 161502 Density (g/cm³) = 1.24860 Volume (L) = 1.05157 - Viscosity (mPa s) = 1.28143 + Viscosity (mPa s) = 1.28142 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.509e+00 Mass of water (kg) = 1.000e+00 @@ -70327,7 +70327,7 @@ Reaction 1. pH = 6.711 Charge balance pe = -0.614 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 166143 + Specific Conductance (µS/cm, 25°C) = 166144 Density (g/cm³) = 1.26678 Volume (L) = 1.05614 Viscosity (mPa s) = 1.32017 @@ -73772,7 +73772,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 28799 Density (g/cm³) = 1.02192 Volume (L) = 1.00628 - Viscosity (mPa s) = 0.96971 + Viscosity (mPa s) = 0.96970 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.888e-01 Mass of water (kg) = 1.000e+00 @@ -74209,7 +74209,7 @@ Reaction 1. pH = 7.224 Charge balance pe = -1.340 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 35804 + Specific Conductance (µS/cm, 25°C) = 35805 Density (g/cm³) = 1.02948 Volume (L) = 1.00756 Viscosity (mPa s) = 0.99529 diff --git a/mytest/Vm_salt_101.sel b/mytest/Vm_salt_101.sel index 4c7a37da..05ba5c5e 100644 --- a/mytest/Vm_salt_101.sel +++ b/mytest/Vm_salt_101.sel @@ -1,1063 +1,1063 @@ Mu SC 0.000000100644 0.0547821292 0.000000100644 0.0547765031 - 0.003342159035 1392.5164063793 - 0.003506033148 1460.3544012661 - 0.005794247332 2405.1738036825 - 0.008134008787 3367.5530515777 - 0.010021819205 4141.8683567115 - 0.010869655489 4489.0723279705 - 0.019816550919 8136.1286559085 - 0.020213552394 8297.3402911246 - 0.020612302529 8459.2145785943 - 0.028966784746 11840.5664935716 - 0.029790290381 12172.8822825664 - 0.039274009117 15988.3733315563 - 0.039627607832 16130.2400002568 - 0.049931293735 20252.5478670542 - 0.056928124921 23039.5966905895 - 0.061020820354 24665.4469905031 - 0.074225614889 29889.8430707086 - 0.078405824626 31537.1216740459 - 0.078640501704 31629.5074782148 - 0.089101533895 35737.8975462055 - 0.097103466347 38867.7204361162 - 0.098186451056 39290.4711178132 - 0.113435775685 45222.1601290547 - 0.121233819996 48240.4769691230 - 0.122820757207 48853.4906837151 - 0.134874605317 53496.2953583677 - 0.144612539696 57229.8578904620 - 0.145033866452 57391.0512705178 - 0.148259787374 58624.2965014313 - 0.192378462764 75324.7082639108 - 0.195143363019 76361.1356337059 - 0.210564212554 82119.9003882026 - 0.214535442182 83596.9635126265 - 0.222595160573 86587.2421478730 - 0.247456645108 95748.6411771647 - 0.249325668629 96433.5731985469 - 0.293144802435 112341.2796460029 - 0.304328379484 116355.4628756955 - 0.329361225941 125274.0373137579 - 0.359844075799 136011.4356716169 - 0.362364539661 136893.2765176284 - 0.362277470612 136862.8285804221 - 0.362360794754 136891.9669395210 - 0.382127182380 143776.3452353634 - 0.473756120866 174979.1696795149 - 0.535699705033 195434.4047188596 - 0.565915202448 205232.7488697185 - 0.576344009404 208587.9352105500 - 0.581162120540 210133.4567729501 - 0.601288297573 216558.3880911664 - 0.600334594972 216255.0581549512 - 0.658575203657 234577.6709650957 - 0.659763133331 234947.2005658066 - 0.749626395650 262432.4343245007 - 0.755228596930 264116.0060310064 - 0.842868878439 290017.4466392943 - 0.848638565174 291694.5780783081 - 0.850297307500 292176.1148124999 - 0.914812459369 310691.9255258802 - 0.914992124765 310742.9188078128 - 0.965565831760 324974.4687737630 - 1.091507352184 359398.2967026595 - 1.137939873569 371742.6152978922 - 1.208015335815 390037.3123528124 - 1.409020957497 440417.8506758378 - 1.540382649241 471782.7731897383 - 1.769821976575 523848.2841379089 - 1.872717396485 546134.3993723115 - 1.880373333523 547767.1069193704 - 2.013728656975 575650.2401123001 - 2.032766695058 579545.9415418649 - 2.113269669364 595787.5218925916 - 2.145233710775 602133.1193795439 - 2.183510384954 609655.2755755734 - 2.315435621021 634946.3413023767 - 2.378586187854 646707.3178320356 - 2.441528228617 658208.7460240837 - 2.689708967098 701434.9935758368 - 2.886901782360 733400.4536623484 - 2.945435761037 742489.7668502892 - 2.992668930215 749692.4867104833 - 3.125692191800 769351.2416666867 - 3.283965969850 791555.8278346088 - 3.802879762310 855725.3332219031 - 4.174966532835 894196.2021574539 - 4.174633685877 894164.3907398545 - 4.477089628034 921272.1154886251 - 4.597739260404 931124.7140900247 - 4.783010483456 945256.5711701202 - 4.782891496549 945247.8700777824 - 4.883591615641 952444.8662341917 - 5.091268401830 966268.4140042362 - 5.091236929458 966266.4194113971 - 5.293200840995 978466.9973497393 - 5.402674459211 984597.0014475294 - 5.402400001268 984582.0434256669 - 5.716479439620 1000409.1084446673 - 5.716453140664 1000407.8878784985 - 5.991473599094 1012269.8064863271 - 6.033493887486 1013927.9310148369 - 6.353842512347 1025300.5477189586 - 6.615294914892 1033004.4774433471 - 6.704225965136 1035318.2343445726 - 6.724985275276 1035836.5250352259 - 6.827300952055 1038272.1275820428 - 6.955973048818 1041059.2260370047 - 7.033888519084 1042600.4432522437 - 7.366746700570 1047980.6557942616 - 7.610888771479 1050732.3138638099 - 7.703329216001 1051519.9164910200 - 8.044110965717 1053259.3771554963 - 8.388163501512 1053231.7838910581 - 8.444158665320 1053064.2690869423 - 8.737440576494 1051469.2498507299 - 9.090597056778 1048012.7246045653 - 9.293367149781 1045308.2275025868 - 9.446737220899 1042929.6992952193 - 9.809250597875 1036224.2467490562 + 0.003342159035 1392.5164162028 + 0.003506033148 1460.3544118184 + 0.005794247332 2405.1738260387 + 0.008134008787 3367.5530886830 + 0.010021819205 4141.8684073854 + 0.010869655489 4489.0723851759 + 0.019816550919 8136.1287960477 + 0.020213552394 8297.3404354701 + 0.020612302529 8459.2147272054 + 0.028966784746 11840.5667403068 + 0.029790290381 12172.8825398182 + 0.039274009117 15988.3737196671 + 0.039627607832 16130.2403935744 + 0.049931293735 20252.5484215149 + 0.056928124921 23039.5973641488 + 0.061020820354 24665.4477370786 + 0.074225614889 29889.8440684716 + 0.078405824626 31537.1227559897 + 0.078640501704 31629.5085649478 + 0.089101533895 35737.8988530097 + 0.097103466347 38867.7219195726 + 0.098186451056 39290.4726257069 + 0.113435775685 45222.1619937565 + 0.121233819996 48240.4790250200 + 0.122820757207 48853.4927792108 + 0.134874605317 53496.2977619586 + 0.144612539696 57229.8605520144 + 0.145033866452 57391.0539434072 + 0.148259787374 58624.2992615956 + 0.192378462764 75324.7122955739 + 0.195143363019 76361.1397495347 + 0.210564212554 82119.9049823102 + 0.214535442182 83596.9682322613 + 0.222595160573 86587.2471251315 + 0.247456645108 95748.6469721374 + 0.249325668629 96433.5790563378 + 0.293144802435 112341.2870259628 + 0.304328379484 116355.4706583273 + 0.329361225941 125274.0460167451 + 0.359844075799 136011.4455283010 + 0.362364539661 136893.2864712246 + 0.362277470612 136862.8385306667 + 0.362360794754 136891.9768929730 + 0.382127182380 143776.3559564280 + 0.473756120866 174979.1841153697 + 0.535699705033 195434.4217882458 + 0.565915202448 205232.7672533973 + 0.576344009404 208587.9540519342 + 0.581162120540 210133.4758264709 + 0.601288297573 216558.4080352908 + 0.600334594972 216255.0780567142 + 0.658575203657 234577.6934807402 + 0.659763133331 234947.2231353058 + 0.749626395650 262432.4610223282 + 0.755228596930 264116.0329894460 + 0.842868878439 290017.4777165236 + 0.848638565174 291694.6094292062 + 0.850297307500 292176.1462421283 + 0.914812459369 310691.9600346598 + 0.914992124765 310742.9533252110 + 0.965565831760 324974.5057257804 + 1.091507352184 359398.3397805862 + 1.137939873569 371742.6606524469 + 1.208015335815 390037.3611573216 + 1.409020957497 440417.9094387735 + 1.540382649241 471782.8384832726 + 1.769821976575 523848.3608175538 + 1.872717396485 546134.4811301515 + 1.880373333523 547767.1890540151 + 2.013728656975 575650.3287819247 + 2.032766695058 579546.0311395166 + 2.113269669364 595787.6153987360 + 2.145233710775 602133.2144299981 + 2.183510384954 609655.3724692125 + 2.315435621021 634946.4444927956 + 2.378586187854 646707.4240028611 + 2.441528228617 658208.8551416117 + 2.689708967098 701435.1140521320 + 2.886901782360 733400.5828286706 + 2.945435761037 742489.8985331057 + 2.992668930215 749692.6204018886 + 3.125692191800 769351.3809056241 + 3.283965969850 791555.9734560192 + 3.802879762310 855725.4980101667 + 4.174966532835 894196.3789878723 + 4.174633685877 894164.5675601307 + 4.477089628034 921272.3010708902 + 4.597739260404 931124.9029192716 + 4.783010483456 945256.7647197283 + 4.782891496549 945248.0636244596 + 4.883591615641 952445.0622152360 + 5.091268401830 966268.6147236718 + 5.091236929458 966266.6201301427 + 5.293200840995 978467.2023257879 + 5.402674459211 984597.2085922575 + 5.402400001268 984582.2505650774 + 5.716479439620 1000409.3212893355 + 5.716453140664 1000408.1007227201 + 5.991473599094 1012270.0237272988 + 6.033493887486 1013928.1488804361 + 6.353842512347 1025300.7699518829 + 6.615294914892 1033004.7027416651 + 6.704225965136 1035318.4605868969 + 6.724985275276 1035836.7514908289 + 6.827300952055 1038272.3550500388 + 6.955973048818 1041059.4546876343 + 7.033888519084 1042600.6725705948 + 7.366746700570 1047980.8875626414 + 7.610888771479 1050732.5470245159 + 7.703329216001 1051520.1500916549 + 8.044110965717 1053259.6119737795 + 8.388163501512 1053232.0193118635 + 8.444158665320 1053064.5045479152 + 8.737440576494 1051469.4852650242 + 9.090597056778 1048012.9594083959 + 9.293367149781 1045308.4616940832 + 9.446737220899 1042929.9329018199 + 9.809250597875 1036224.4785752923 0.000000100644 0.0547821292 - 0.004107107471 494.2358535653 - 0.009920110755 1168.5695539593 - 0.010110110839 1190.2975158399 - 0.010290110917 1210.8664440045 - 0.041200118738 4595.9432434706 - 0.050020120105 5525.4520724291 - 0.050030120106 5526.4991336554 - 0.052243120420 5757.8565421103 - 0.052500120456 5784.6790038396 - 0.057600121140 6315.0648970008 - 0.058200121217 6377.2333453024 - 0.061770121665 6746.1760471383 - 0.063200121838 6893.5099753098 - 0.066620122242 7244.8675586370 - 0.076990123371 8302.0526304872 - 0.079400123616 8546.0820508051 - 0.080040123680 8610.7860735186 - 0.093300124921 9942.3641684843 - 0.094850125057 10096.9456686163 - 0.098600125377 10470.0548488859 - 0.099450125448 10554.4563498335 - 0.099700125469 10579.2685252473 - 0.099890125485 10598.1222049875 - 0.099900125486 10599.1144185306 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100200125511 10628.8768593877 - 0.100390125526 10647.7224407849 - 0.100390125526 10647.7224407849 - 0.100900125569 10698.2927864576 - 0.103490125780 10954.7727152670 - 0.110940126364 11689.4568514363 - 0.112400126474 11832.9167136837 - 0.119760127014 12553.6214710350 - 0.120759127085 12651.1320996327 - 0.141670128467 14676.0559920167 - 0.143500128579 14851.8642205112 - 0.148600128886 15340.6931453901 - 0.154000129201 15856.5051162248 - 0.155400129281 15989.9427013146 - 0.162253129664 16641.4268843375 - 0.164800129803 16882.8545716146 - 0.165534129842 16952.3600127654 - 0.173500130263 17704.7207641273 - 0.176900130437 18024.7587876473 - 0.178420130514 18167.6294965114 - 0.197490131432 19949.6732690837 - 0.198100131461 20006.3665413966 - 0.198490131478 20042.6032565896 - 0.200000131547 20182.8324934305 - 0.200000131547 20182.8324934305 - 0.200090131552 20191.1869279645 - 0.200090131552 20191.1869279645 - 0.201288131606 20302.3552975832 - 0.201720131625 20342.4252194038 - 0.212622132106 21350.6086761387 - 0.218700132365 21910.2074273176 - 0.230000132829 22946.0299149980 - 0.236310133079 23521.9230549501 - 0.249900133598 24756.3029945149 - 0.250930133636 24849.5341398532 - 0.255400133800 25253.6200876818 - 0.258360133908 25520.7419413503 - 0.262370134052 25882.0402913429 - 0.280763134687 27530.8793791481 - 0.288000134926 28175.9696925486 - 0.299180135285 29168.5746149370 - 0.299720135302 29216.3981286224 - 0.299720135302 29216.3981286224 - 0.299900135308 29232.3368676006 - 0.300000135311 29241.1911974487 - 0.300260135319 29264.2107001912 - 0.300481135326 29283.7752854265 - 0.304200135443 29612.7354322335 - 0.309342135601 30066.7198464941 - 0.320000135923 31004.6263517539 - 0.329360136197 31824.9374020774 - 0.339500136487 32710.1203729456 - 0.347819136718 33433.6761325992 - 0.349500136764 33579.5955818084 - 0.351610136822 33762.6185331606 - 0.355200136919 34073.6716151263 - 0.360790137069 34557.1509437591 - 0.391400137854 37186.3984845392 - 0.399660138057 37890.7383898118 - 0.399660138057 37890.7383898118 - 0.400000138065 37919.6845939451 - 0.400090138067 37927.3462182541 - 0.400090138067 37927.3462182541 - 0.404043138163 38263.6119919863 - 0.405700138202 38404.4214125963 - 0.407040138234 38518.2302903574 - 0.420860138559 39688.7611102324 - 0.421200138567 39717.4848739319 - 0.436430138914 41000.5599446944 - 0.447600139162 41937.1928212216 - 0.447800139166 41953.9298860897 - 0.470800139658 43870.9144103482 - 0.497100140196 46044.4343770526 - 0.499460140243 46238.5254231026 - 0.499460140243 46238.5254231026 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.501200140278 46381.5276126800 - 0.501800140290 46430.8192929895 - 0.501900140291 46439.0336054434 - 0.503000140313 46529.3728130644 - 0.505997140372 46775.3367462663 - 0.506771140387 46838.8187754609 - 0.528653140809 48626.7715097634 - 0.561400141412 51278.4959641205 - 0.568740141543 51868.9877925193 - 0.599710142079 54345.1730078662 - 0.599710142079 54345.1730078662 - 0.600000142084 54368.2440359870 - 0.650400142908 58345.8843396820 - 0.652000142933 58471.1312280168 - 0.683549143421 60928.0929679268 - 0.688900143501 61342.4433955777 - 0.699170143655 62135.7836787605 - 0.699170143655 62135.7836787605 - 0.700000143667 62199.7901223303 - 0.702300143701 62377.0732206447 - 0.704580143735 62552.6913700839 - 0.706900143769 62731.2645147300 - 0.719800143958 63721.8839404244 - 0.724400144024 64074.1847565168 - 0.724670144028 64094.8483042050 - 0.799570145064 69762.1499236701 - 0.799570145064 69762.1499236701 - 0.800000145070 69794.3177306934 - 0.800000145070 69794.3177306934 - 0.853820145765 73788.0277868882 - 0.863600145887 74506.8933564132 - 0.874100146018 75276.3582278522 - 0.900000146333 77164.1501463445 - 0.901250146348 77254.8936834582 - 0.901250146348 77254.8936834582 - 0.920800146581 78669.7621612683 - 0.963647147078 81742.2343972796 - 0.980700147271 82954.3072757609 - 0.986500147336 83365.1667251930 - 0.994720147427 83946.2528189946 - 0.995580147437 84006.9664742582 - 0.999200147477 84262.3601304440 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000100147487 84325.8135539470 - 1.000100147487 84325.8135539470 - 1.001200147499 84403.3449150051 - 1.003400147523 84558.3323252045 - 1.006900147562 84804.6964541718 - 1.018857147692 85644.4348952266 - 1.021000147715 85794.6255091918 - 1.188800149422 97265.6507915396 - 1.200000149529 98011.3149783687 - 1.200000149529 98011.3149783687 - 1.261020150094 102030.8434388794 - 1.317400150596 105680.7910743081 - 1.384650151170 109955.2715345230 - 1.392300151234 110436.1101424731 - 1.400000151298 110918.9835075863 - 1.413800151411 111781.6173080594 - 1.474580151899 115538.7939196269 - 1.499860152097 117081.4049561398 - 1.501790152112 117198.6932652035 - 1.508800152166 117624.1248397486 - 1.572480152647 121447.7713885845 - 1.585400152742 122214.5742532759 - 1.600000152849 123077.4634874565 - 1.665400153315 126895.8489827062 - 1.672800153366 127323.0977403004 - 1.782430154103 133539.6859490955 - 1.800000154216 134516.4675258683 - 1.899500154836 139947.6537263651 - 1.938400155068 142025.0409968737 - 1.950000155136 142639.5631537853 - 1.954600155163 142882.6246287235 - 1.961000155201 143220.2043158139 - 1.965000155224 143430.8416453941 - 1.993000155385 144897.7824161277 - 1.994000155390 144949.9302288092 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.001000155430 145314.4968399155 - 2.003380155444 145438.2630013381 - 2.064300155782 148574.1834640247 - 2.088900155915 149823.0866981023 - 2.251740156746 157841.4050708492 - 2.315600157049 160869.6731906143 - 2.366600157282 163241.8769372391 - 2.397100157418 164641.1019933344 - 2.426460157546 165974.3735425323 - 2.473330157745 168075.2190341945 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.513930157913 169867.8165565401 - 2.718600158692 178526.9645270727 - 2.762450158845 180301.7062493201 - 2.811600159011 182257.8576155797 - 2.898600159291 185635.6738797332 - 2.929600159386 186813.3822174564 - 2.940500159419 187224.2758804049 - 2.951430159452 187634.6332250304 - 2.983550159547 188830.9230286989 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.023000159661 190280.6628491410 - 3.023400159662 190295.2525496280 - 3.049929159737 191257.9783557594 - 3.093920159857 192833.2205169384 - 3.224900160191 197369.1686310098 - 3.257900160270 198476.1037362410 - 3.432100160651 204085.7845961128 - 3.486500160758 205758.6457561340 - 3.487100160759 205776.8904458890 - 3.500000160784 206168.0697481750 - 3.534500160849 207204.1277415784 - 3.539741160859 207360.2347113662 - 3.660200161068 210855.9920467763 - 3.673600161089 211234.0572891854 - 3.681300161102 211450.3354822842 - 3.944700161469 218432.4795448716 - 3.987300161519 219487.5825840810 - 4.000000161533 219798.2395871696 - 4.000000161533 219798.2395871696 - 4.050567161588 221017.5875808860 - 4.217900161745 224855.9534521323 - 4.339700161836 227465.2303252149 - 4.447300161902 229645.1594890350 - 4.500000161929 230671.0310870819 - 4.500000161929 230671.0310870819 - 4.579735161964 232171.9901899381 - 4.636800161985 233208.9844240859 - 4.928800162038 238047.3894648687 - 4.930300162038 238070.2861868507 - 4.991000162038 238980.5830841756 - 5.000000162038 239112.8694555192 - 5.000000162038 239112.8694555192 - 5.024728162036 239472.7966723462 - 5.116000162028 240756.9180159842 - 5.243240162003 242433.1321955610 - 5.259300161998 242635.4748402033 - 5.346000161972 243692.8767317098 - 5.385900161958 244159.9543140715 - 5.495200161913 245377.7524526062 - 5.542600161890 245878.3036249750 - 5.800000161737 248316.7745560079 - 5.802300161736 248336.4975792200 - 5.822670161721 248509.6218973001 - 5.834500161713 248608.8882077402 - 5.951800161625 249543.1465163145 - 6.000000161586 249901.1716617419 - 6.021600161568 250056.8164055390 - 6.100000161500 250597.1731533318 + 0.004107107471 494.2358573424 + 0.009920110755 1168.5695678298 + 0.010110110839 1190.2975301026 + 0.010290110917 1210.8664586420 + 0.041200118738 4595.9433543306 + 0.050020120105 5525.4522191734 + 0.050030120106 5526.4992804421 + 0.052243120420 5757.8566983581 + 0.052500120456 5784.6791611975 + 0.057600121140 6315.0650768588 + 0.058200121217 6377.2335278651 + 0.061770121665 6746.1762460374 + 0.063200121838 6893.5101808670 + 0.066620122242 7244.8677803752 + 0.076990123371 8302.0529034037 + 0.079400123616 8546.0823360489 + 0.080040123680 8610.7863620624 + 0.093300124921 9942.3645277882 + 0.094850125057 10096.9460364772 + 0.098600125377 10470.0552376855 + 0.099450125448 10554.4567434250 + 0.099700125469 10579.2689202514 + 0.099890125485 10598.1226010662 + 0.099900125486 10599.1148146658 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100200125511 10628.8772572213 + 0.100390125526 10647.7228396952 + 0.100390125526 10647.7228396952 + 0.100900125569 10698.2931882621 + 0.103490125780 10954.7731318611 + 0.110940126364 11689.4573114050 + 0.112400126474 11832.9171822940 + 0.119760127014 12553.6219838901 + 0.120759127085 12651.1326185793 + 0.141670128467 14676.0566429313 + 0.143500128579 14851.8648833629 + 0.148600128886 15340.6938418228 + 0.154000129201 15856.5058487071 + 0.155400129281 15989.9434432243 + 0.162253129664 16641.4276728660 + 0.164800129803 16882.8553776661 + 0.165534129842 16952.3608238861 + 0.173500130263 17704.7216308140 + 0.176900130437 18024.7596783516 + 0.178420130514 18167.6303980102 + 0.197490131432 19949.6743089144 + 0.198100131461 20006.3675857384 + 0.198490131478 20042.6043038183 + 0.200000131547 20182.8335518564 + 0.200000131547 20182.8335518564 + 0.200090131552 20191.1879870588 + 0.200090131552 20191.1879870588 + 0.201288131606 20302.3563655851 + 0.201720131625 20342.4262906226 + 0.212622132106 21350.6098293795 + 0.218700132365 21910.2086269715 + 0.230000132829 22946.0312021987 + 0.236310133079 23521.9243917284 + 0.249900133598 24756.3044396891 + 0.250930133636 24849.5355933309 + 0.255400133800 25253.6215773351 + 0.258360133908 25520.7434550832 + 0.262370134052 25882.0418378532 + 0.280763134687 27530.8810782382 + 0.288000134926 28175.9714526479 + 0.299180135285 29168.5764703250 + 0.299720135302 29216.3999886442 + 0.299720135302 29216.3999886442 + 0.299900135308 29232.3387291676 + 0.300000135311 29241.1930598743 + 0.300260135319 29264.2125648496 + 0.300481135326 29283.7771519834 + 0.304200135443 29612.7373308080 + 0.309342135601 30066.7217895563 + 0.320000135923 31004.6283878204 + 0.329360136197 31824.9395206818 + 0.339500136487 32710.1225818466 + 0.347819136718 33433.6784162455 + 0.349500136764 33579.5978806297 + 0.351610136822 33762.6208510632 + 0.355200136919 34073.6739655794 + 0.360790137069 34557.1533451078 + 0.391400137854 37186.4011689752 + 0.399660138057 37890.7411518567 + 0.399660138057 37890.7411518567 + 0.400000138065 37919.6873591953 + 0.400090138067 37927.3489843529 + 0.400090138067 37927.3489843529 + 0.404043138163 38263.6147954146 + 0.405700138202 38404.4242317056 + 0.407040138234 38518.2331221622 + 0.420860138559 39688.7640737064 + 0.421200138567 39717.4878406618 + 0.436430138914 41000.5630580722 + 0.447600139162 41937.1960431226 + 0.447800139166 41953.9331099412 + 0.470800139658 43870.9178601524 + 0.497100140196 46044.4380890741 + 0.499460140243 46238.5291588452 + 0.499460140243 46238.5291588452 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.501200140278 46381.5313659313 + 0.501800140290 46430.8230522822 + 0.501900140291 46439.0373657432 + 0.503000140313 46529.3765844456 + 0.505997140372 46775.3405478731 + 0.506771140387 46838.8225848815 + 0.528653140809 48626.7755414007 + 0.561400141412 51278.5003327981 + 0.568740141543 51868.9922374384 + 0.599710142079 54345.1777771009 + 0.599710142079 54345.1777771009 + 0.600000142084 54368.2488082779 + 0.650400142908 58345.8896481599 + 0.652000142933 58471.1365536725 + 0.683549143421 60928.0986340983 + 0.688900143501 61342.4491198311 + 0.699170143655 62135.7895147416 + 0.699170143655 62135.7895147416 + 0.700000143667 62199.7959673553 + 0.702300143701 62377.0790907421 + 0.704580143735 62552.6972650515 + 0.706900143769 62731.2704350203 + 0.719800143958 63721.8900018083 + 0.724400144024 64074.1908683299 + 0.724670144028 64094.8544189800 + 0.799570145064 69762.1568674134 + 0.799570145064 69762.1568674134 + 0.800000145070 69794.3246792344 + 0.800000145070 69794.3246792344 + 0.853820145765 73788.0353388894 + 0.863600145887 74506.9010186531 + 0.874100146018 75276.3660086251 + 0.900000146333 77164.1582202370 + 0.901250146348 77254.9017715224 + 0.901250146348 77254.9017715224 + 0.920800146581 78669.7704712570 + 0.963647147078 81742.2431952895 + 0.980700147271 82954.3162685392 + 0.986500147336 83365.1757842758 + 0.994720147427 83946.2619720956 + 0.995580147437 84006.9756371988 + 0.999200147477 84262.3693348091 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000100147487 84325.8227686126 + 1.000100147487 84325.8227686126 + 1.001200147499 84403.3541422610 + 1.003400147523 84558.3415776439 + 1.006900147562 84804.7057466833 + 1.018857147692 85644.4443247018 + 1.021000147715 85794.6349632245 + 1.188800149422 97265.6621733539 + 1.200000149529 98011.3264888832 + 1.200000149529 98011.3264888832 + 1.261020150094 102030.8556497941 + 1.317400150596 105680.8039305650 + 1.384650151170 109955.2851572327 + 1.392300151234 110436.1238520939 + 1.400000151298 110918.9973046230 + 1.413800151411 111781.6312616004 + 1.474580151899 115538.8085597524 + 1.499860152097 117081.4198804089 + 1.501790152112 117198.7082111286 + 1.508800152166 117624.1398642859 + 1.572480152647 121447.7871238348 + 1.585400152742 122214.5901319307 + 1.600000152849 123077.4795278237 + 1.665400153315 126895.8657428168 + 1.672800153366 127323.1145813512 + 1.782430154103 133539.7039764063 + 1.800000154216 134516.4857409392 + 1.899500154836 139947.6729914858 + 1.938400155068 142025.0606661158 + 1.950000155136 142639.5829428126 + 1.954600155163 142882.6444651586 + 1.961000155201 143220.2242181190 + 1.965000155224 143430.8615888155 + 1.993000155385 144897.8026462213 + 1.994000155390 144949.9504691039 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.001000155430 145314.5171515455 + 2.003380155444 145438.2833371931 + 2.064300155782 148574.2044148925 + 2.088900155915 149823.1078945059 + 2.251740156746 157841.4278500433 + 2.315600157049 160869.6965696091 + 2.366600157282 163241.9007864970 + 2.397100157418 164641.1261200593 + 2.426460157546 165974.3979336612 + 2.473330157745 168075.2438418930 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.513930157913 169867.8417195440 + 2.718600158692 178526.9914014943 + 2.762450158845 180301.7334728570 + 2.811600159011 182257.8852229873 + 2.898600159291 185635.7021472638 + 2.929600159386 186813.4107142067 + 2.940500159419 187224.3044570021 + 2.951430159452 187634.6618813022 + 2.983550159547 188830.9519168393 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.023000159661 190280.6920174240 + 3.023400159662 190295.2817207254 + 3.049929159737 191258.0077123337 + 3.093920159857 192833.2501759789 + 3.224900160191 197369.1991530474 + 3.257900160270 198476.1344668630 + 3.432100160651 204085.8163692634 + 3.486500160758 205758.6778348404 + 3.487100160759 205776.9225279129 + 3.500000160784 206168.1019012466 + 3.534500160849 207204.1600820636 + 3.539741160859 207360.2670799918 + 3.660200161068 210856.0250383575 + 3.673600161089 211234.0903472616 + 3.681300161102 211450.3685783180 + 3.944700161469 218432.5138303227 + 3.987300161519 219487.6170423742 + 4.000000161533 219798.2740959610 + 4.000000161533 219798.2740959610 + 4.050567161588 221017.6222860875 + 4.217900161745 224855.9887551154 + 4.339700161836 227465.2660142613 + 4.447300161902 229645.1954858805 + 4.500000161929 230671.0672235818 + 4.500000161929 230671.0672235818 + 4.579735161964 232172.0265241683 + 4.636800161985 233209.0208899798 + 4.928800162038 238047.4264813153 + 4.930300162038 238070.3232056129 + 4.991000162038 238980.6201924084 + 5.000000162038 239112.9065763208 + 5.000000162038 239112.9065763208 + 5.024728162036 239472.8338267643 + 5.116000162028 240756.9552830090 + 5.243240162003 242433.1695902851 + 5.259300161998 242635.5122486886 + 5.346000161972 243692.9142056172 + 5.385900161958 244159.9918131469 + 5.495200161913 245377.7900051500 + 5.542600161890 245878.3411938351 + 5.800000161737 248316.8121447770 + 5.802300161736 248336.5351676656 + 5.822670161721 248509.6594825078 + 5.834500161713 248608.9257907619 + 5.951800161625 249543.1840657547 + 6.000000161586 249901.2091912730 + 6.021600161568 250056.8539250249 + 6.100000161500 250597.2106306439 0.000000100644 0.0547821292 - 0.040000118536 5385.5431008462 - 0.040110118555 5399.7446026344 - 0.040111118555 5399.8736978553 - 0.042251118912 5675.7417486301 - 0.046420119571 6210.9895622873 - 0.050000120102 6668.4508949459 - 0.050155120124 6688.2139818506 - 0.051030120249 6799.7142264718 - 0.055810120905 7406.9163488884 - 0.057500121127 7620.8531745592 - 0.059000121319 7810.4251300617 - 0.059830121424 7915.1975777840 - 0.060040121450 7941.6924269250 - 0.075900123258 9927.6612212968 - 0.079740123650 10404.3877682641 - 0.087000124351 11301.7396491081 - 0.087690124415 11386.7663482867 - 0.090000124627 11671.1048908975 - 0.095500125113 12346.1940094526 - 0.096350125186 12450.2926035730 - 0.098490125368 12712.1064450778 - 0.099740125472 12864.8586952058 - 0.099900125486 12884.4016881776 - 0.099900125486 12884.4016881776 - 0.100000125494 12896.6149921786 - 0.100400125527 12945.4600189515 - 0.100448125531 12951.3205430317 - 0.101582125625 13089.7208715994 - 0.118200126902 15106.4390467118 - 0.124600127353 15877.7558495003 - 0.133100127923 16897.8825347952 - 0.134000127982 17005.6201698104 - 0.145800128719 18413.5108898623 - 0.150040128971 18917.3496955588 - 0.159700129523 20061.4014344609 - 0.160000129540 20096.8476542595 - 0.161565129626 20281.6790458576 - 0.163100129710 20462.8381489699 - 0.182566130721 22749.5118173598 - 0.199100131506 24677.1126513518 - 0.201445131613 24949.4743987930 - 0.220820132454 27190.5334765501 - 0.250000133602 30536.4599918726 - 0.250000133602 30536.4599918726 - 0.255500133804 31163.4244843619 - 0.267895134247 32572.2948744770 - 0.274100134461 33275.5113544116 - 0.274290134468 33297.0227700059 - 0.303040135406 36537.8580876912 - 0.318240135870 38240.3241210244 - 0.319700135914 38403.4669116040 - 0.329740136208 39523.5707167915 - 0.364118137158 43336.1443073615 - 0.400000138065 47279.9358168431 - 0.400370138074 47320.4216661903 - 0.404300138169 47750.2246109685 - 0.412334138360 48627.6036869641 - 0.438650138964 51489.9599377364 - 0.443200139065 51983.0969742738 - 0.447460139158 52444.3412727724 - 0.454980139322 53257.4747706667 - 0.494400140142 57497.8782108254 - 0.500000140254 58097.3339780457 - 0.500000140254 58097.3339780457 - 0.500000140254 58097.3339780457 - 0.503100140315 58428.8679990002 - 0.503890140331 58513.3207927244 - 0.504100140335 58535.7678881457 - 0.507930140410 58944.9850253426 - 0.518410140614 60063.0353037027 - 0.518843140622 60109.1766967538 - 0.533100140893 61626.1126513395 - 0.592300141953 67878.0563934030 - 0.596800142030 68350.2788809833 - 0.614880142333 70243.3884193971 - 0.649742142898 73875.1350423978 - 0.700000143667 79068.9241219406 - 0.704470143734 79528.5265758508 - 0.706900143769 79778.2194474532 - 0.723500144011 81480.9768560779 - 0.725030144033 81637.6587236636 - 0.748500144367 84035.7077648646 - 0.800400145075 89302.9504479589 - 0.824770145394 91759.6033733705 - 0.893560146255 98638.1886782422 - 0.903210146372 99596.6346400910 - 0.928010146666 102052.5681301990 - 0.947700146895 103995.1083215663 - 0.991000147386 108244.2842087165 - 0.997300147456 108859.9528154451 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.000000147486 109123.6120066431 - 1.004910147540 109602.7759820413 - 1.016000147661 110683.5961189845 - 1.018000147683 110878.3011421678 - 1.019582147700 111032.2667874443 - 1.021575147722 111226.1745199393 - 1.024090147749 111470.7779752917 - 1.049015148016 113889.3989878405 - 1.217300149691 129961.0209574010 - 1.296800150415 137400.6150000906 - 1.358400150949 143099.1548529163 - 1.375273151092 144650.1005939368 - 1.377650151112 144868.2491108127 - 1.383660151162 145419.4385591340 - 1.413900151412 148184.6351659658 - 1.469000151855 153188.1652943314 - 1.500000152098 155983.5164153621 - 1.500654152103 156042.3373367473 - 1.521092152260 157877.3669457981 - 1.546910152456 160186.6992778002 - 1.703200153576 173959.6554975004 - 1.721800153702 175575.3252978887 - 1.775800154060 180237.9463332996 - 1.843810154494 186051.1825262854 - 2.000000155425 199154.3856724088 - 2.000000155425 199154.3856724088 - 2.000000155425 199154.3856724088 - 2.011393155489 200096.7761477529 - 2.047600155691 203079.6575310970 - 2.083023155884 205980.2682833275 - 2.091000155926 206631.0559220172 - 2.106000156007 207852.4077697743 - 2.106650156010 207905.2620855640 - 2.284600156903 222155.5057802300 - 2.350000157207 227283.2830016329 - 2.366920157283 228600.3914851944 - 2.374500157317 229189.1750433576 - 2.424000157535 233014.8692504634 - 2.496800157843 238580.7932937667 - 2.500000157856 238823.7993366301 - 2.604000158269 246646.1198817872 - 2.725170158715 255576.2164047737 - 2.767704158863 258664.2904131483 - 2.797700158965 260827.5585540483 - 2.880830159235 266760.2091610410 - 2.893580159275 267662.0115246067 - 3.000000159595 275105.2135183248 - 3.000000159595 275105.2135183248 - 3.000000159595 275105.2135183248 - 3.001300159599 275195.2141806608 - 3.012000159630 275935.1439773074 - 3.013678159634 276051.0452407132 - 3.355400160490 298887.5420560483 - 3.410020160605 302397.4087548922 - 3.412300160610 302543.0864230865 - 3.421610160629 303137.2477239476 - 3.493400160772 307681.5811586363 - 3.500000160784 308096.0577972806 - 3.532700160846 310141.3995854141 - 3.534700160849 310266.0549161145 - 3.548500160875 311124.7892148899 - 3.590115160949 313699.7152707619 - 3.918000161437 333224.4508234918 - 3.930330161452 333932.4895506394 - 3.931770161454 334015.0574855581 - 3.948700161474 334983.8808205615 - 3.956000161483 335400.5339833130 - 3.957850161485 335506.0170813572 - 3.961800161490 335731.1006380793 - 4.000000161533 337897.9285262976 - 4.000000161533 337897.9285262976 - 4.033833161570 339802.0459883646 - 4.153000161688 346397.0933411033 - 4.272000161788 352810.5915164200 - 4.400040161875 359520.9308686481 - 4.400580161875 359548.8163237356 - 4.500000161929 364623.8404416511 - 4.500000161929 364623.8404416511 - 4.554690161954 367365.7567879112 - 4.591192161968 369176.2487687430 - 4.603000161973 369758.5820386879 - 4.693400162002 374162.9389909157 - 4.818100162028 380083.0972116992 + 0.040000118536 5385.5431704676 + 0.040110118555 5399.7446725353 + 0.040111118555 5399.8737677588 + 0.042251118912 5675.7418240399 + 0.046420119571 6210.9896487855 + 0.050000120102 6668.4509913311 + 0.050155120124 6688.2140786713 + 0.051030120249 6799.7143257619 + 0.055810120905 7406.9164619999 + 0.057500121127 7620.8532926878 + 0.059000121319 7810.4252526988 + 0.059830121424 7915.1977029380 + 0.060040121450 7941.6925527183 + 0.075900123258 9927.6613981196 + 0.079740123650 10404.3879582134 + 0.087000124351 11301.7398646407 + 0.087690124415 11386.7665663015 + 0.090000124627 11671.1051172848 + 0.095500125113 12346.1942561552 + 0.096350125186 12450.2928534623 + 0.098490125368 12712.1067030446 + 0.099740125472 12864.8589579268 + 0.099900125486 12884.4019515090 + 0.099900125486 12884.4019515090 + 0.100000125494 12896.6152558917 + 0.100400125527 12945.4602841932 + 0.100448125531 12951.3208084570 + 0.101582125625 13089.7211413738 + 0.118200126902 15106.4393826035 + 0.124600127353 15877.7562119963 + 0.133100127923 16897.8829335560 + 0.134000127982 17005.6205724718 + 0.145800128719 18413.5113447056 + 0.150040128971 18917.3501696141 + 0.159700129523 20061.4019531679 + 0.160000129540 20096.8481743725 + 0.161565129626 20281.6795733235 + 0.163100129710 20462.8386836778 + 0.182566130721 22749.5124464236 + 0.199100131506 24677.1133640723 + 0.201445131613 24949.4751236291 + 0.220820132454 27190.5343037827 + 0.250000133602 30536.4609806895 + 0.250000133602 30536.4609806895 + 0.255500133804 31163.4255045811 + 0.267895134247 32572.2959665237 + 0.274100134461 33275.5124829559 + 0.274290134468 33297.0238996734 + 0.303040135406 36537.8593910549 + 0.318240135870 38240.3255191320 + 0.319700135914 38403.4683189148 + 0.329740136208 39523.5721878687 + 0.364118137158 43336.1460029359 + 0.400000138065 47279.9377564157 + 0.400370138074 47320.4236083283 + 0.404300138169 47750.2265804164 + 0.412334138360 48627.6057125848 + 0.438650138964 51489.9621505245 + 0.443200139065 51983.0992199052 + 0.447460139158 52444.3435492804 + 0.454980139322 53257.4771019763 + 0.494400140142 57497.8808354406 + 0.500000140254 58097.3366451294 + 0.500000140254 58097.3366451294 + 0.500000140254 58097.3366451294 + 0.503100140315 58428.8706896770 + 0.503890140331 58513.3234894232 + 0.504100140335 58535.7705864459 + 0.507930140410 58944.9877528973 + 0.518410140614 60063.0381117650 + 0.518843140622 60109.1795081567 + 0.533100140893 61626.1155733669 + 0.592300141953 67878.0597874227 + 0.596800142030 68350.2823116862 + 0.614880142333 70243.3919985918 + 0.649742142898 73875.1389128042 + 0.700000143667 79068.9284230315 + 0.704470143734 79528.5309158467 + 0.706900143769 79778.2238086389 + 0.723500144011 81480.9813627673 + 0.725030144033 81637.6632438292 + 0.748500144367 84035.7124931132 + 0.800400145075 89302.9556451529 + 0.824770145394 91759.6087947902 + 0.893560146255 98638.1947457536 + 0.903210146372 99596.6407997343 + 0.928010146666 102052.5745282433 + 0.947700146895 103995.1149105249 + 0.991000147386 108244.2912224439 + 0.997300147456 108859.9598915260 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.000000147486 109123.6191094889 + 1.004910147540 109602.7831336239 + 1.016000147661 110683.6033809502 + 1.018000147683 110878.3084240847 + 1.019582147700 111032.2740851522 + 1.021575147722 111226.1818375526 + 1.024090147749 111470.7853180432 + 1.049015148016 113889.4065808629 + 1.217300149691 129961.0302906022 + 1.296800150415 137400.6251830085 + 1.358400150949 143099.1657050592 + 1.375273151092 144650.1116309387 + 1.377650151112 144868.2601739086 + 1.383660151162 145419.4496882625 + 1.413900151412 148184.6466285554 + 1.469000151855 153188.1773695185 + 1.500000152098 155983.5288379084 + 1.500654152103 156042.3497666419 + 1.521092152260 157877.3796057458 + 1.546910152456 160186.7122294748 + 1.703200153576 173959.6702394191 + 1.721800153702 175575.3402553815 + 1.775800154060 180237.9619193486 + 1.843810154494 186051.1989092474 + 2.000000155425 199154.4039044173 + 2.000000155425 199154.4039044173 + 2.000000155425 199154.4039044173 + 2.011393155489 200096.7945155142 + 2.047600155691 203079.6763309568 + 2.083023155884 205980.2875068591 + 2.091000155926 206631.0752410747 + 2.106000156007 207852.4272685706 + 2.106650156010 207905.2815921521 + 2.284600156903 222155.5274281666 + 2.350000157207 227283.3054395033 + 2.366920157283 228600.4141275873 + 2.374500157317 229189.1977773906 + 2.424000157535 233014.8925831227 + 2.496800157843 238580.8175071024 + 2.500000157856 238823.8235886762 + 2.604000158269 246646.1453913715 + 2.725170158715 255576.2433766043 + 2.767704158863 258664.3178970718 + 2.797700158965 260827.5863986394 + 2.880830159235 266760.2380027979 + 2.893580159275 267662.0405189596 + 3.000000159595 275105.2437822206 + 3.000000159595 275105.2437822206 + 3.000000159595 275105.2437822206 + 3.001300159599 275195.2444600158 + 3.012000159630 275935.1743838558 + 3.013678159634 276051.0756672007 + 3.355400160490 298887.5764903663 + 3.410020160605 302397.4438184583 + 3.412300160610 302543.1215128418 + 3.421610160629 303137.2829205767 + 3.493400160772 307681.6171757583 + 3.500000160784 308096.0938895056 + 3.532700160846 310141.4360488974 + 3.534700160849 310266.0914022589 + 3.548500160875 311124.8258572498 + 3.590115160949 313699.7523826390 + 3.918000161437 333224.4915456134 + 3.930330161452 333932.5304052117 + 3.931770161454 334015.0983555827 + 3.948700161474 334983.9218719953 + 3.956000161483 335400.5751128194 + 3.957850161485 335506.0582306344 + 3.961800161490 335731.1418295511 + 4.000000161533 337897.9701244567 + 4.000000161533 337897.9701244567 + 4.033833161570 339802.0879446187 + 4.153000161688 346397.1365425215 + 4.272000161788 352810.6359353318 + 4.400040161875 359520.9765673976 + 4.400580161875 359548.8620278150 + 4.500000161929 364623.8871170854 + 4.500000161929 364623.8871170854 + 4.554690161954 367365.8039891558 + 4.591192161968 369176.2963175132 + 4.603000161973 369758.6296992883 + 4.693400162002 374162.9874980079 + 4.818100162028 380083.1468579830 0.000000100644 0.0547765031 - 0.014069995048 1077.7826130508 - 0.029339938071 2159.2091902248 - 0.029669937077 2181.9932363240 - 0.029669937077 2181.9932363240 - 0.059159867477 4149.9108294489 - 0.093599810485 6328.1912767564 - 0.098339803721 6620.5465883934 - 0.099359802291 6683.2537514698 - 0.120278774688 7954.4724100608 - 0.145529744821 9455.4740903059 - 0.149999739843 9717.7925064268 - 0.151139738587 9784.5393415046 - 0.151139738587 9784.5393415046 - 0.196859691825 12414.5807213358 - 0.198299690449 12496.0453615507 - 0.236699655446 14641.1678480273 - 0.270869626536 16509.6119595154 - 0.273599624301 16657.3841853070 - 0.299099603892 18027.5580302413 - 0.299099603892 18027.5580302413 - 0.299999603186 18075.5920924691 - 0.391919535235 22875.4609771149 - 0.394829533196 23024.2191171412 - 0.410399522387 23817.0585813287 - 0.482150474432 27406.6989834705 - 0.584999409808 32385.2816095499 - 0.585749409351 32420.9189809322 - 0.591899405609 32712.7963814218 - 0.596789402642 32944.4323870583 - 0.596789402642 32944.4323870583 - 0.699299341977 37713.5637730138 - 0.755399309806 40257.0278069454 - 0.789899290323 41799.1151716601 - 0.803009282959 42380.8207192226 - 0.848339257729 44374.3858378034 - 0.893699232751 46342.3349970892 - 1.022879162869 51806.1110737378 - 1.124549108714 55967.6028139088 - 1.446298939872 68402.3819916947 - 1.467898928482 69199.6374363288 - 1.484608919820 69813.3111680033 - 1.484608919820 69813.3111680033 - 1.499998911717 70376.1368637360 - 1.574278872547 73061.0370401044 - 1.619998848633 74687.9868358808 - 1.655788829556 75948.1731416132 - 1.902118698022 84312.3552806576 - 2.145928564980 92083.1122574303 - 2.296048482614 96628.5741030969 - 2.392738423954 99462.8382227881 - 2.912398112394 113494.1604252941 - 2.972908070176 115000.5232991102 - 2.972908070176 115000.5232991102 - 2.975098067981 115054.5558707474 - 2.995528055496 115556.9818938217 - 2.999998052585 115666.5181520444 - 3.269997871446 122024.2544533562 - 4.425926965612 143737.4797123612 - 4.425926965612 143737.4797123612 - 4.496996901793 144792.8534428498 - 4.889996529377 150068.4469779375 - 5.807995515621 158843.8152915068 - 5.999995275023 160083.2681235357 - 6.539994538430 162540.6335399605 - 6.785994171366 163182.2009574558 - 6.974993874971 163483.3421419265 - 8.249991504730 161659.4231047628 - 8.855990114908 158825.0756236752 - 9.236989139186 156534.9248987218 - 9.929987136969 151562.3032983027 - 10.334985815866 148271.8365615956 - 12.221977840203 130833.5036477576 - 12.560976025800 127535.6138805624 - 14.135965615777 112383.3968296124 - 14.999958228456 104449.8401952253 - 15.083957435364 103699.0092366317 + 0.014069995048 1077.7826536952 + 0.029339938071 2159.2093072393 + 0.029669937077 2181.9933552253 + 0.029669937077 2181.9933552253 + 0.059159867477 4149.9111464097 + 0.093599810485 6328.1918801796 + 0.098339803721 6620.5472348510 + 0.099359802291 6683.2544072893 + 0.120278774688 7954.4732652840 + 0.145529744821 9455.4752031126 + 0.149999739843 9717.7936665571 + 0.151139738587 9784.5405137821 + 0.151139738587 9784.5405137821 + 0.196859691825 12414.5824046522 + 0.198299690449 12496.0470616591 + 0.236699655446 14641.1700095955 + 0.270869626536 16509.6145516134 + 0.273599624301 16657.3868125283 + 0.299099603892 18027.5609903104 + 0.299099603892 18027.5609903104 + 0.299999603186 18075.5950644374 + 0.391919535235 22875.4652114662 + 0.394829533196 23024.2233928120 + 0.410399522387 23817.0630793141 + 0.482150474432 27406.7045301766 + 0.584999409808 32385.2887154028 + 0.585749409351 32420.9260983504 + 0.591899405609 32712.8035937683 + 0.596789402642 32944.4396750012 + 0.596789402642 32944.4396750012 + 0.699299341977 37713.5726663656 + 0.755399309806 40257.0375923066 + 0.789899290323 41799.1255090972 + 0.803009282959 42380.8312670363 + 0.848339257729 44374.3971151245 + 0.893699232751 46342.3470070135 + 1.022879162869 51806.1251777362 + 1.124549108714 55967.6185666533 + 1.446298939872 68402.4028996630 + 1.467898928482 69199.6586847085 + 1.484608919820 69813.3326791076 + 1.484608919820 69813.3326791076 + 1.499998911717 70376.1586163184 + 1.574278872547 73061.0599512070 + 1.619998848633 74688.0104539843 + 1.655788829556 75948.1973097394 + 1.902118698022 84312.3831444439 + 2.145928564980 92083.1436050175 + 2.296048482614 96628.6075001021 + 2.392738423954 99462.8728988293 + 2.912398112394 113494.2013880545 + 2.972908070176 115000.5649266120 + 2.972908070176 115000.5649266120 + 2.975098067981 115054.5975220366 + 2.995528055496 115557.0237661012 + 2.999998052585 115666.5600724547 + 3.269997871446 122024.2991323360 + 4.425926965612 143737.5327996930 + 4.425926965612 143737.5327996930 + 4.496996901793 144792.9068660852 + 4.889996529377 150068.5018887643 + 5.807995515621 158843.8713661630 + 5.999995275023 160083.3240659177 + 6.539994538430 162540.6885010435 + 6.785994171366 163182.2552027453 + 6.974993874971 163483.3957360793 + 8.249991504730 161659.4705475765 + 8.855990114908 158825.1194537198 + 9.236989139186 156534.9663557990 + 9.929987136969 151562.3403888494 + 10.334985815866 148271.8711346515 + 12.221977840203 130833.5276426502 + 12.560976025800 127535.6362435907 + 14.135965615777 112383.4127754761 + 14.999958228456 104449.8533818150 + 15.083957435364 103699.0221808706 0.000000100644 0.0547765031 - 0.037680100830 2883.5111459740 - 0.060900096781 4511.6143249327 - 0.066000095899 4860.9190768786 - 0.067050095718 4932.5176624244 - 0.071700094919 5248.3572521287 - 0.098610090408 7041.1649333552 - 0.100200090148 7145.4391791669 - 0.111000088398 7849.4156205536 - 0.135000084620 9389.4840584642 - 0.140700083744 9750.7996475349 - 0.150000082331 10336.9611486436 - 0.150030082326 10338.8454744084 - 0.151500082105 10431.1272178082 - 0.177000078340 12017.0540685761 - 0.178200078166 12091.0277283620 - 0.199050075193 13367.6112683656 - 0.200100075045 13431.4796520407 - 0.205500074290 13759.3353977128 - 0.217200072671 14466.2738010434 - 0.244800068946 16116.4810283738 - 0.249600068311 16401.1087512974 - 0.251100068114 16489.9169625967 - 0.287490063419 18625.1902675309 - 0.292500062788 18916.4001538942 - 0.299700061886 19333.7888600230 - 0.300000061849 19351.1518125612 - 0.303000061475 19524.6582508603 - 0.362400054311 22916.3837951828 - 0.390300051086 24482.7078801695 - 0.391950050898 24574.8379072301 - 0.395100050539 24750.5701842338 - 0.421800047542 26232.2379487954 - 0.430500046580 26712.0570618660 - 0.431700046448 26778.1268375686 - 0.499800039166 30484.8691149141 - 0.535500035504 32396.2220072225 - 0.556200033427 33495.0174440628 - 0.567300032326 34081.4438568069 - 0.584400030647 34981.1287991290 - 0.588690030229 35206.1384647530 - 0.606900028470 36158.1661165001 - 0.613800027809 36517.6113886118 - 0.754500014989 43700.6672899396 - 0.760500014468 44001.0514191122 - 0.788700012044 45406.6652294434 - 0.789750011955 45458.8064951118 - 0.789900011942 45466.2541001820 - 0.877800004653 49782.6669850166 - 0.983999996321 54875.3814654324 - 1.000199995092 55640.9506909774 - 1.010999994278 56149.7104583971 - 1.011599994233 56177.9370662960 - 1.046399991644 57808.3238603658 - 1.079699989209 59356.1367947864 - 1.180799982060 63983.5756223169 - 1.202099980598 64945.0351265804 - 1.217999979516 65659.7488561951 - 1.249199977415 67054.8306909358 - 1.446899964762 75674.3885673796 - 1.460699963918 76262.2302097924 - 1.497899961665 77838.0949003729 - 1.499999961539 77926.6763232570 - 1.505699961197 78166.9084241928 - 1.507799961072 78255.3402635203 - 1.588499956316 81623.4081582791 - 1.662599952075 84664.8489343628 - 1.720199948858 86995.8270245650 - 1.752899947060 88306.3871497759 - 1.782599945445 89488.7824544052 - 1.812899943814 90687.3406610245 - 1.841699942279 91819.3809056251 - 1.999499934120 97899.6434531907 - 2.007299933727 98194.8910481773 - 2.008799933652 98251.6128397570 - 2.146199926881 103370.5996309205 - 2.326199918400 109851.1851326934 - 2.366999916533 111285.2413900373 - 2.558399908028 117844.0211036907 - 2.601899906148 119296.3597323336 - 2.724599900946 123317.6726437706 - 2.867699895052 127868.8120029110 - 2.978699890599 131297.5422646196 - 2.996699889886 131845.2726410533 - 2.999999889756 131945.4403477627 - 3.014999889164 132399.7746157954 - 3.057599887493 133681.3984860267 - 3.273899879210 139992.2051165171 - 3.473399871849 145525.3896635653 - 3.482099871533 145760.4801708861 - 3.567299868469 148035.5356559160 - 3.824699859462 154611.3281892390 - 3.967799854607 158075.9282750429 - 4.319999843083 166030.5952722328 - 4.426199839718 168271.4461214129 - 4.500299837400 169792.1659990350 - 4.561799835493 171027.7148468414 - 4.568099835299 171152.9251594749 - 4.570199835234 171194.6060582415 - 4.621799833648 172209.9818002390 - 4.998899822380 179122.7894963008 - 5.047499820968 179949.4114288811 - 5.129999818590 181319.4092496375 - 5.267099814693 183504.2207483107 - 5.272499814540 183587.9392639594 - 5.303399813672 184063.6059215807 - 5.345399812497 184700.9097339628 - 5.636399804521 188827.0549887968 - 5.710199802543 189793.9468881910 - 5.822099799578 191199.4508977360 - 5.845199798971 191480.5639293835 - 5.936999796576 192567.3799949025 - 5.998499794986 193268.5125840241 - 5.999999794947 193285.3443416876 - 6.017999794484 193486.3305591421 - 6.062699793338 193977.5084891634 - 6.278699787888 196192.9964468397 - 6.318899786889 196576.7292876440 - 6.350099786118 196868.4307792576 - 6.634499779212 199284.0765885360 - 6.678299778169 199617.6832805085 - 6.880199773430 201025.7590036149 - 7.231799765443 202982.3472498718 - 7.233599765403 202990.7861172206 - 7.499999759568 204067.9666252918 - 7.501199759542 204072.0582233311 - 7.521899759096 204141.5726923972 - 7.765499753930 204811.6285962028 - 7.796699753279 204878.0746138468 - 7.913999750852 205089.4349067947 - 8.360999741902 205358.5502769876 - 8.517299738881 205261.5741879694 - 8.727299734907 204984.2174755251 - 8.874899732172 204692.2301095597 - 8.999999729890 204384.3850671909 - 9.050999728969 204243.4096667845 - 9.110399727904 204068.1345250816 - 9.431399722272 202922.2025094881 - 9.680399718046 201815.0457010060 - 9.685499717961 201790.4819842141 - 9.999599712807 200139.6490562899 - 10.063499711781 199771.8471970821 - 10.332899707542 198110.3802480842 - 10.673699702370 195770.6897910144 - 10.782299700766 194973.8972171008 - 10.871099699469 194305.1875763964 - 11.166299695258 191977.9738567190 - 11.576699689649 188504.0532524856 - 11.727899687653 187162.6587671360 - 11.770499687097 186779.2981128329 - 11.871299685793 185863.1446187762 - 11.898299685447 185615.6489512715 - 11.999999684153 184675.7723972423 - 11.999999684153 184675.7723972423 - 12.174899681965 183032.6562850885 - 12.641099676366 178509.3451188590 - 13.921799662636 165382.0131530108 - 14.092799660977 163587.4192323888 - 14.287499659138 161539.6929245722 - 14.518199657023 159110.5212737169 - 14.574899656515 158513.4396197986 - 14.791499654610 156233.8017384965 - 14.939999653339 154673.1301114701 - 15.001199652824 154030.7180375709 - 15.196199651214 151987.6854015960 - 15.269699650619 151219.4086010935 - 16.079699644516 142845.3969225379 - 16.104899644339 142588.2141179566 - 16.559699641275 137989.1410847451 - 16.649399640699 137092.2252474799 - 16.856699639406 135033.2145240170 - 17.129099637781 132358.2717005961 - 17.606699635138 127757.9501536591 - 17.766599634310 126244.5662546182 - 17.993999633182 124116.3552173630 - 17.999999633153 124060.5894486037 - 18.451799631082 119919.8636912710 - 18.754199629819 117214.0109905394 - 18.857399629411 116302.8314675362 - 19.237199628003 113003.7199377073 - 19.393199627469 111673.5003234708 - 19.975199625696 106839.2666550310 - 20.000399625627 106634.5323104854 - 20.557499624264 102205.3417587062 - 21.229799623028 97105.0826184975 - 21.998999622147 91591.2179429143 - 22.024199622127 91416.2620867252 - 22.199999622009 90205.6130519350 - 22.376699621918 89006.0579751825 - 23.634899622099 80950.2458037847 + 0.037680100830 2883.5113125055 + 0.060900096781 4511.6146547607 + 0.066000095899 4860.9194464994 + 0.067050095718 4932.5180403938 + 0.071700094919 5248.3576676877 + 0.098610090408 7041.1655843668 + 0.100200090148 7145.4398449617 + 0.111000088398 7849.4163890910 + 0.135000084620 9389.4850687497 + 0.140700083744 9750.8007177419 + 0.150000082331 10336.9623185354 + 0.150030082326 10338.8466446255 + 0.151500082105 10431.1284039945 + 0.177000078340 12017.0555404259 + 0.178200078166 12091.0292140399 + 0.199050075193 13367.6129994460 + 0.200100075045 13431.4813957282 + 0.205500074290 13759.3372065991 + 0.217200072671 14466.2757532254 + 0.244800068946 16116.4833289803 + 0.249600068311 16401.1111139091 + 0.251100068114 16489.9193446672 + 0.287490063419 18625.1931330832 + 0.292500062788 18916.4030876452 + 0.299700061886 19333.7918924408 + 0.300000061849 19351.1548491067 + 0.303000061475 19524.6613287549 + 0.362400054311 22916.3877171255 + 0.390300051086 24482.7122137764 + 0.391950050898 24574.8422654618 + 0.395100050539 24750.5745895604 + 0.421800047542 26232.2427576035 + 0.430500046580 26712.0620037480 + 0.431700046448 26778.1317978653 + 0.499800039166 30484.8751424112 + 0.535500035504 32396.2286100554 + 0.556200033427 33495.0243849796 + 0.567300032326 34081.4509802948 + 0.584400030647 34981.1362055517 + 0.588690030229 35206.1459424679 + 0.606900028470 36158.1738981728 + 0.613800027809 36517.6192860105 + 0.754500014989 43700.6776048220 + 0.760500014468 44001.0618392262 + 0.788700012044 45406.6761461476 + 0.789750011955 45458.8174303678 + 0.789900011942 45466.2650380887 + 0.877800004653 49782.6794901434 + 0.983999996321 54875.3958949504 + 1.000199995092 55640.9654164211 + 1.010999994278 56149.7253814232 + 1.011599994233 56177.9520003057 + 1.046399991644 57808.3394325750 + 1.079699989209 59356.1529796260 + 1.180799982060 63983.5936762389 + 1.202099980598 64945.0535756220 + 1.217999979516 65659.7676004106 + 1.249199977415 67054.8500148295 + 1.446899964762 75674.4115697626 + 1.460699963918 76262.2534687517 + 1.497899961665 77838.1188505203 + 1.499999961539 77926.7003124006 + 1.505699961197 78166.9325191698 + 1.507799961072 78255.3643974835 + 1.588499956316 81623.4337880170 + 1.662599952075 84664.8759323625 + 1.720199948858 86995.8550818453 + 1.752899947060 88306.4158064936 + 1.782599945445 89488.8116542499 + 1.812899943814 90687.3704135983 + 1.841699942279 91819.4111822142 + 1.999499934120 97899.6765748452 + 2.007299933727 98194.9243092160 + 2.008799933652 98251.6461275859 + 2.146199926881 103370.6353520831 + 2.326199918400 109851.2239736974 + 2.366999916533 111285.2809264947 + 2.558399908028 117844.0638398186 + 2.601899906148 119296.4031805078 + 2.724599900946 123317.7180684780 + 2.867699895052 127868.8596707451 + 2.978699890599 131297.5916243569 + 2.996699889886 131845.3222710845 + 2.999999889756 131945.4900272230 + 3.014999889164 132399.8245194449 + 3.057599887493 133681.4490219800 + 3.273899879210 139992.2587603497 + 3.473399871849 145525.4460165792 + 3.482099871533 145760.5366385127 + 3.567299868469 148035.5932300925 + 3.824699859462 154611.3889285171 + 3.967799854607 158075.9906558899 + 4.319999843083 166030.6613251452 + 4.426199839718 168271.5131774009 + 4.500299837400 169792.2337260763 + 4.561799835493 171027.7831127883 + 4.568099835299 171152.9934797014 + 4.570199835234 171194.6743965232 + 4.621799833648 172210.0505761535 + 4.998899822380 179122.8611199094 + 5.047499820968 179949.4833746943 + 5.129999818590 181319.4817190776 + 5.267099814693 183504.2940232330 + 5.272499814540 183588.0125689600 + 5.303399813672 184063.6793963028 + 5.345399812497 184700.9834328506 + 5.636399804521 188827.1300361148 + 5.710199802543 189794.0222212332 + 5.822099799578 191199.5266212484 + 5.845199798971 191480.6397271332 + 5.936999796576 192567.4560663189 + 5.998499794986 193268.5888198311 + 5.999999794947 193285.4205813154 + 6.017999794484 193486.4068439219 + 6.062699793338 193977.5848805116 + 6.278699787888 196193.0732429368 + 6.318899786889 196576.8061392181 + 6.350099786118 196868.5076696608 + 6.634499779212 199284.1536660774 + 6.678299778169 199617.7603607521 + 6.880199773430 201025.8360093831 + 7.231799765443 202982.4238000713 + 7.233599765403 202990.8626640706 + 7.499999759568 204068.0425684400 + 7.501199759542 204072.1341632875 + 7.521899759096 204141.6485766432 + 7.765499753930 204811.7037353634 + 7.796699753279 204878.1496460453 + 7.913999750852 205089.5095144664 + 8.360999741902 205358.6229657981 + 8.517299738881 205261.6461037623 + 8.727299734907 204984.2882790960 + 8.874899732172 204692.3000850148 + 8.999999729890 204384.4543132655 + 9.050999728969 204243.4786087012 + 9.110399727904 204068.2031079983 + 9.431399722272 202922.2690715905 + 9.680399718046 201815.1106142125 + 9.685499717961 201790.5468630070 + 9.999599712807 200139.7117734337 + 10.063499711781 199771.9094654688 + 10.332899707542 198110.4405981196 + 10.673699702370 195770.7476689578 + 10.782299700766 194973.9543003880 + 10.871099699469 194305.2440083751 + 11.166299695258 191978.0281187957 + 11.576699689649 188504.1045053493 + 11.727899687653 187162.7089191569 + 11.770499687097 186779.3479558041 + 11.871299685793 185863.1937326888 + 11.898299685447 185615.6978704654 + 11.999999684153 184675.8205853175 + 11.999999684153 184675.8205853175 + 12.174899681965 183032.7032252228 + 12.641099676366 178509.3888020164 + 13.921799662636 165382.0485696175 + 14.092799660977 163587.4536327564 + 14.287499659138 161539.7261946663 + 14.518199657023 159110.5532419038 + 14.574899656515 158513.4712742486 + 14.791499654610 156233.8322171647 + 14.939999653339 154673.1598048497 + 15.001199652824 154030.7474122395 + 15.196199651214 151987.7137798778 + 15.269699650619 151219.4366113400 + 16.079699644516 142845.4211451456 + 16.104899644339 142588.2382304644 + 16.559699641275 137989.1632876798 + 16.649399640699 137092.2470908049 + 16.856699639406 135033.2355571578 + 17.129099637781 132358.2917124998 + 17.606699635138 127757.9684893463 + 17.766599634310 126244.5840603674 + 17.993999633182 124116.3722954057 + 17.999999633153 124060.6065078504 + 18.451799631082 119919.8793929430 + 18.754199629819 117214.0258448147 + 18.857399629411 116302.8460433624 + 19.237199628003 113003.7335338755 + 19.393199627469 111673.5135370800 + 19.975199625696 106839.2785369851 + 20.000399625627 106634.5441380363 + 20.557499624264 102205.3524479469 + 21.229799623028 97105.0920860850 + 21.998999622147 91591.2261928597 + 22.024199622127 91416.2702997381 + 22.199999622009 90205.6210122034 + 22.376699621918 89006.0656898483 + 23.634899622099 80950.2519901589 0.000000100644 0.0547821292 - 0.011220109310 937.5121360675 - 0.037800112724 2988.4072936922 - 0.065700113795 5018.0982193996 - 0.097500114041 7235.6905084509 - 0.150000113464 10740.6631144460 - 0.195600112461 13666.3269829173 - 0.298164109370 19946.9592756945 - 0.300000109308 20056.2028159514 - 0.387600106166 25158.3920161803 - 0.592500097932 36389.6543051770 - 0.600600097589 36816.3423131616 - 0.753900090931 44677.4877380225 - 0.810444088402 47481.2260000093 - 0.899400084355 51796.2096343655 - 0.985800080351 55881.2168264178 - 1.200600070110 65620.7505692319 - 1.378884061324 73291.6735660651 - 1.498800055276 78257.0293492122 - 1.500000055215 78305.9608198567 - 1.716627044015 86903.5936568849 - 1.800000039612 90091.8879006590 - 2.097000023523 100936.6697258973 - 2.339877009907 109241.3036094511 - 2.400000006474 111222.3056867674 - 2.698799989056 120644.6314422519 - 2.988599971611 129135.3779056748 - 2.999999970914 129456.7516242194 - 3.167018960610 134057.9371169672 - 3.489218940258 142379.3345173649 - 3.760994922624 148847.3122693787 - 4.499999872617 164003.5250893477 - 4.532057870382 164583.3252099875 - 5.183852823778 175035.1745063011 - 5.328401813143 177017.4178354641 - 5.999999762289 184710.2334775804 - 7.499999639442 193692.8008277539 + 0.011220109310 937.5121502776 + 0.037800112724 2988.4073769453 + 0.065700113795 5018.0984039646 + 0.097500114041 7235.6908331275 + 0.150000113464 10740.6637135070 + 0.195600112461 13666.3278547109 + 0.298164109370 19946.9608510291 + 0.300000109308 20056.2044048467 + 0.387600106166 25158.3942852944 + 0.592500097932 36389.6583700478 + 0.600600097589 36816.3464537850 + 0.753900090931 44677.4933661549 + 0.810444088402 47481.2321993483 + 0.899400084355 51796.2167526881 + 0.985800080351 55881.2248578577 + 1.200600070110 65620.7609383149 + 1.378884061324 73291.6859260042 + 1.498800055276 78257.0430636085 + 1.500000055215 78305.9745478478 + 1.716627044015 86903.6098451700 + 1.800000039612 90091.9050359973 + 2.097000023523 100936.6902109894 + 2.339877009907 109241.3267802987 + 2.400000006474 111222.3295119428 + 2.698799989056 120644.6584416809 + 2.988599971611 129135.4078368556 + 2.999999970914 129456.7816673789 + 3.167018960610 134057.9687693028 + 3.489218940258 142379.3690964031 + 3.760994922624 148847.3491197510 + 4.499999872617 164003.5671129343 + 4.532057870382 164583.3674232561 + 5.183852823778 175035.2199336539 + 5.328401813143 177017.4638100072 + 5.999999762289 184710.2812280000 + 7.499999639442 193692.8484748278 0.000000100644 0.0547821292 - 0.011640110158 986.6344408244 - 0.027900113514 2280.9774548781 - 0.046860115655 3733.3542470116 - 0.082080117896 6334.2094233005 - 0.088500118176 6798.2037644245 - 0.116370119121 8783.9962977070 - 0.150000119853 11127.9561684753 - 0.150300119858 11148.6397269125 - 0.217800120547 15715.3933605463 - 0.236430120618 16948.3236942634 - 0.299400120603 21039.1899244053 - 0.300000120601 21077.6347879234 - 0.448200119568 30298.0446746295 - 0.470700119328 31653.2031227170 - 0.500001118991 33401.4740101686 - 0.600000117657 39232.7112903293 - 0.709410115930 45384.8268542812 - 0.901200112367 55631.9001063001 - 0.948420111399 58054.7933788402 - 0.999999110304 60657.7792262716 - 1.160640106653 68481.4850957585 - 1.219200105236 71229.9350531083 - 1.500000097823 83677.8989785847 - 1.512000097484 84183.8298485716 - 1.763400089968 94317.9090707669 - 2.100000078686 106574.7987959156 - 2.363100068906 115194.0962527389 - 2.495100063685 119223.4542801914 - 2.499999063488 119369.3571958664 - 2.976300042905 132386.2791898425 - 3.000000041811 132976.6845036307 - 3.600000012033 146313.5313360659 - 3.672900008147 147738.1580019070 - 3.761400003354 149415.2193816983 - 4.499999960257 161376.8177926473 - 4.499999960257 161376.8177926473 - 4.508999959699 161502.1369783409 - 4.757399944006 164787.2364614716 - 4.867799936851 166143.9332358398 + 0.011640110158 986.6345022757 + 0.027900113514 2280.9776742256 + 0.046860115655 3733.3547113713 + 0.082080117896 6334.2104627443 + 0.088500118176 6798.2049221577 + 0.116370119121 8783.9980087414 + 0.150000119853 11127.9586216201 + 0.150300119858 11148.6421870019 + 0.217800120547 15715.3975066204 + 0.236430120618 16948.3283437470 + 0.299400120603 21039.1963748864 + 0.300000120601 21077.6412562297 + 0.448200119568 30298.0558455684 + 0.470700119328 31653.2150503745 + 0.500001118991 33401.4869364975 + 0.600000117657 39232.7277186354 + 0.709410115930 45384.8472353937 + 0.901200112367 55631.9275730785 + 0.948420111399 58054.8226007552 + 0.999999110304 60657.8103639437 + 1.160640106653 68481.5221606202 + 1.219200105236 71229.9742536064 + 1.500000097823 83677.9481231649 + 1.512000097484 84183.8794049139 + 1.763400089968 94317.9669547549 + 2.100000078686 106574.8668318563 + 2.363100068906 115194.1713585548 + 2.495100063685 119223.5326394468 + 2.499999063488 119369.4356720895 + 2.976300042905 132386.3677668116 + 3.000000041811 132976.7735188589 + 3.600000012033 146313.6295546119 + 3.672900008147 147738.2571048796 + 3.761400003354 149415.3194951294 + 4.499999960257 161376.9238919300 + 4.499999960257 161376.9238919300 + 4.508999959699 161502.2431262275 + 4.757399944006 164787.3437484624 + 4.867799936851 166144.0409100520 0.000000100644 0.0547821292 - 0.057327297217 4462.3657450305 - 0.063423934239 4927.1863685390 - 0.075049597386 5811.1951992454 - 0.079988167673 6185.8601086535 - 0.081888682814 6329.9134145779 - 0.087397252358 6747.0528409736 - 0.095413197954 7353.0535680523 - 0.102739192224 7905.8855091716 - 0.117487494042 9016.0155532496 - 0.117566538349 9021.9555098733 - 0.117608136978 9025.0814878063 - 0.117608136978 9025.0814878063 - 0.118647290337 9103.1605919587 - 0.129017203646 9881.3553980539 - 0.137261901641 10498.8203759515 - 0.142623337395 10899.7650275567 - 0.147861095385 11291.0173573608 - 0.161112961083 12278.9634188221 - 0.167824799994 12778.2784642135 - 0.171760005420 13070.6988835008 - 0.194103840149 14726.3781292058 - 0.212722700096 16099.9364767734 - 0.213288022351 16141.5541137505 - 0.215462630158 16301.5953332558 - 0.215518475977 16305.7043201103 - 0.215518475977 16305.7043201103 - 0.215872100508 16331.7219125012 - 0.238660697587 18004.0598551871 - 0.255475827136 19232.5274246099 - 0.271373315388 20389.5769327691 - 0.281608678947 21132.2424082546 - 0.286750365103 21504.6346709404 - 0.305206865893 22837.5654942175 - 0.323085092516 24122.9828844497 - 0.336132803860 25057.4615015197 - 0.356171932100 26486.5959470721 - 0.382578975529 28358.4230029397 - 0.388834803796 28799.9191148845 - 0.392768550823 29077.1528126095 - 0.394705935339 29213.5817817928 - 0.447373711333 32894.1957200533 - 0.455538271044 33459.8041730919 - 0.489604052957 35804.9991051649 - 0.550667680909 39947.6685395789 - 0.590055887907 42576.8511977993 - 0.597881981741 43095.1370397231 - 0.636332045124 45621.3730893893 - 0.701440431730 49821.2371185256 - 0.797594220132 55838.7206176095 - 0.837717836012 58282.6398063826 - 0.838562829715 58333.6760030646 - 0.840598312372 58456.5427549086 - 0.844776493208 58708.4223295860 - 0.930225119523 63762.6727080600 - 1.040210717322 69991.3201348383 - 1.105656302260 73546.9483841760 - 1.108112598697 73678.1880517837 - 1.131819556860 74936.5979034068 - 1.170874413132 76977.0196591977 - 1.415227092240 88813.4876252728 - 1.482359828950 91784.0492650663 - 1.494770531001 92319.9638457255 - 1.695836413239 100430.6372785370 - 1.720886602960 101366.3390608092 - 1.721948366499 101405.6368136746 - 2.059055656571 112424.7483725977 - 2.294020410884 118459.0882294048 - 2.501009222357 122734.7846594190 + 0.057327297217 4462.3658422513 + 0.063423934239 4927.1864808261 + 0.075049597386 5811.1953419185 + 0.079988167673 6185.8602648463 + 0.081888682814 6329.9135760656 + 0.087397252358 6747.0530180874 + 0.095413197954 7353.0537686174 + 0.102739192224 7905.8857318704 + 0.117487494042 9016.0158223994 + 0.117566538349 9021.9557792785 + 0.117608136978 9025.0817573460 + 0.117608136978 9025.0817573460 + 0.118647290337 9103.1608648632 + 0.129017203646 9881.3557051542 + 0.137261901641 10498.8207110096 + 0.142623337395 10899.7653811446 + 0.147861095385 11291.0177293075 + 0.161112961083 12278.9638383004 + 0.167824799994 12778.2789083315 + 0.171760005420 13070.6993422350 + 0.194103840149 14726.3786731751 + 0.212722700096 16099.9370944739 + 0.213288022351 16141.5547337255 + 0.215462630158 16301.5959619995 + 0.215518475977 16305.7049490796 + 0.215518475977 16305.7049490796 + 0.215872100508 16331.7225428994 + 0.238660697587 18004.0605792744 + 0.255475827136 19232.5282197315 + 0.271373315388 20389.5777964056 + 0.281608678947 21132.2433166535 + 0.286750365103 21504.6356020079 + 0.305206865893 22837.5665076045 + 0.323085092516 24122.9839788949 + 0.336132803860 25057.4626558720 + 0.356171932100 26486.5971945541 + 0.382578975529 28358.4243749978 + 0.388834803796 28799.9205167316 + 0.392768550823 29077.1542332386 + 0.394705935339 29213.5832116859 + 0.447373711333 32894.1974048532 + 0.455538271044 33459.8058978578 + 0.489604052957 35805.0009976634 + 0.550667680909 39947.6707353843 + 0.590055887907 42576.8535899734 + 0.597881981741 43095.1394709068 + 0.636332045124 45621.3757119306 + 0.701440431730 49821.2400627607 + 0.797594220132 55838.7240270926 + 0.837717836012 58282.6434051395 + 0.838562829715 58333.6796057713 + 0.840598312372 58456.5463671236 + 0.844776493208 58708.4259612899 + 0.930225119523 63762.6767292450 + 1.040210717322 69991.3246281608 + 1.105656302260 73546.9531406935 + 1.108112598697 73678.1928179042 + 1.131819556860 74936.6027611564 + 1.170874413132 76977.0246636656 + 1.415227092240 88813.4934211301 + 1.482359828950 91784.0552386536 + 1.494770531001 92319.9698502671 + 1.695836413239 100430.6437024379 + 1.720886602960 101366.3455262734 + 1.721948366499 101405.6432808492 + 2.059055656571 112424.7551822859 + 2.294020410884 118459.0950655007 + 2.501009222357 122734.7914002981 0.000000100644 0.0547821292 - 0.015090095377 1674.6504501691 - 0.030170093223 3244.7814134813 - 0.050000091420 5221.4850933189 - 0.051760091287 5393.1254159384 - 0.060390090679 6227.0088032361 - 0.072090089957 7338.7102614966 - 0.096720088712 9618.0232975568 - 0.100000088568 9916.0051092690 - 0.100000088568 9916.0051092690 - 0.101110088520 10016.5723931011 - 0.120790087027 11777.8086127666 - 0.200330085344 18546.0796857578 - 0.206560085225 19056.1634922537 - 0.251400084431 22654.8453076408 - 0.298820083715 26335.0506365062 - 0.303000083658 26653.7981032110 - 0.335760083236 29122.3074615803 - 0.400890082531 33884.9137232271 - 0.467690081961 38589.2022975507 - 0.498380081741 40694.6365065025 - 0.500000081730 40804.8450047170 - 0.500000081730 40804.8450047170 - 0.501000081723 40872.8291916177 - 0.580000081259 46137.1921106058 - 0.598960081166 47370.6763068923 - 0.689770080801 53129.2316582351 - 0.699740080768 53747.0499788484 - 0.798940080507 59748.8384087590 - 0.892000080355 65152.7987429453 - 0.896970080350 65435.5697785278 - 0.940650080307 67896.2249885499 - 1.000000080272 71170.8079050783 - 1.000000080272 71170.8079050783 - 1.000040080272 71172.9887688563 - 1.010890080268 71763.2704068511 - 1.196330080316 81474.2096844264 - 1.473320080694 94763.9536727841 - 1.500000080745 95973.4468564382 - 1.796220081450 108641.2603637519 - 2.000000082051 116601.3618709444 - 2.000000082051 116601.3618709444 - 2.083250082318 119689.1607342682 - 2.127960082466 121309.7397669287 - 2.461760083654 132618.1689169129 - 2.500000083798 133828.6925358649 - 2.799120084971 142737.2427210927 - 3.000000085796 148192.6619115770 - 3.000000085796 148192.6619115770 - 3.112680086269 151078.6817228156 - 3.144300086403 151866.8435023289 - 3.485890087876 159803.5331730496 - 3.500000087938 160109.4867290216 - 3.800280089264 166234.8306236083 - 3.959000089972 169188.3272373298 - 4.000000090155 169920.8611325125 - 4.125750090719 172092.1879817403 - 4.285190091437 174686.8463420206 - 4.500000092404 177915.8850097707 - 4.510460092451 178065.5939095840 - 4.919240094289 183401.6997008790 - 5.000000094650 184342.8909000132 - 5.261120095814 187149.0420341453 - 5.583710097237 190147.4653243418 - 5.991320099003 193264.8922062991 - 6.000000099041 193323.7099744276 - 6.206880099921 194637.8454029481 - 6.451960100948 195986.4907947662 - 6.793770102348 197519.2864133092 - 7.185660103902 198824.4791904874 - 7.519930105180 199595.3095835235 - 7.619040105550 199768.1958970394 - 7.916770106634 200145.5319743142 - 8.304690107984 200342.1944935053 - 8.791290109570 200170.9142416624 - 9.224000110871 199678.0049624352 - 9.259790110974 199624.2786264031 - 9.969660112854 198197.9557590845 - 10.628140114310 196346.8570356613 - 10.755340114558 195939.8037251357 - 11.267610115441 194160.6834707737 + 0.015090095377 1674.6504602204 + 0.030170093223 3244.7814409909 + 0.050000091420 5221.4851503028 + 0.051760091287 5393.1254758238 + 0.060390090679 6227.0088779343 + 0.072090089957 7338.7103577084 + 0.096720088712 9618.0234437200 + 0.100000088568 9916.0052625108 + 0.100000088568 9916.0052625108 + 0.101110088520 10016.5725487595 + 0.120790087027 11777.8088129459 + 0.200330085344 18546.0800926742 + 0.206560085225 19056.1639168807 + 0.251400084431 22654.8458651167 + 0.298820083715 26335.0513435675 + 0.303000083658 26653.7988238571 + 0.335760083236 29122.3082907324 + 0.400890082531 33884.9147777346 + 0.467690081961 38589.2035944342 + 0.498380081741 40694.6379179713 + 0.500000081730 40804.8464222854 + 0.500000081730 40804.8464222854 + 0.501000081723 40872.8306129537 + 0.580000081259 46137.1938350680 + 0.598960081166 47370.6781055595 + 0.689770080801 53129.2338186785 + 0.699740080768 53747.0521795706 + 0.798940080507 59748.8410149475 + 0.892000080355 65152.8017353309 + 0.896970080350 65435.5727916505 + 0.940650080307 67896.2281842790 + 1.000000080272 71170.8113496725 + 1.000000080272 71170.8113496725 + 1.000040080272 71172.9922136184 + 1.010890080268 71763.2738971688 + 1.196330080316 81474.2139529364 + 1.473320080694 94763.9590846215 + 1.500000080745 95973.4523762280 + 1.796220081450 108641.2670457262 + 2.000000082051 116601.3693061461 + 2.000000082051 116601.3693061461 + 2.083250082318 119689.1684647802 + 2.127960082466 121309.7476529075 + 2.461760083654 132618.1778907943 + 2.500000083798 133828.7016258993 + 2.799120084971 142737.2526576365 + 3.000000085796 148192.6723543288 + 3.000000085796 148192.6723543288 + 3.112680086269 151078.6924276559 + 3.144300086403 151866.8542779124 + 3.485890087876 159803.5446358493 + 3.500000087938 160109.4982172275 + 3.800280089264 166234.8425984519 + 3.959000089972 169188.3394290235 + 4.000000090155 169920.8733758538 + 4.125750090719 172092.2003726040 + 4.285190091437 174686.8588970063 + 4.500000092404 177915.8977472413 + 4.510460092451 178065.6066548518 + 4.919240094289 183401.7126769746 + 5.000000094650 184342.9039056315 + 5.261120095814 187149.0551021504 + 5.583710097237 190147.4784055582 + 5.991320099003 193264.9052165668 + 6.000000099041 193323.7229822350 + 6.206880099921 194637.8583415274 + 6.451960100948 195986.5036269889 + 6.793770102348 197519.2990588685 + 7.185660103902 198824.4915763844 + 7.519930105180 199595.3217170515 + 7.619040105550 199768.2079512162 + 7.916770106634 200145.5437797276 + 8.304690107984 200342.2059558461 + 8.791290109570 200170.9252526106 + 9.224000110871 199678.0155603887 + 9.259790110974 199624.2891899207 + 9.969660112854 198197.9656375821 + 10.628140114310 196346.8662860360 + 10.755340114558 195939.8128560069 + 11.267610115441 194160.6921285097 diff --git a/mytest/Vm_salt_65.out b/mytest/Vm_salt_65.out index 4a8a39af..447827e9 100644 --- a/mytest/Vm_salt_65.out +++ b/mytest/Vm_salt_65.out @@ -230,10 +230,10 @@ Reaction 1. pH = 0.077 Charge balance pe = 5.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 519688 + Specific Conductance (µS/cm, 65°C) = 519255 Density (g/cm³) = 1.00175 Volume (L) = 1.04204 - Viscosity (mPa s) = 0.48293 + Viscosity (mPa s) = 0.48312 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.155e+00 Mass of water (kg) = 1.000e+00 @@ -304,10 +304,10 @@ Reaction 1. pH = -0.012 Charge balance pe = 5.228 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 607303 + Specific Conductance (µS/cm, 65°C) = 606754 Density (g/cm³) = 1.00633 Volume (L) = 1.04748 - Viscosity (mPa s) = 0.49375 + Viscosity (mPa s) = 0.49397 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.428e+00 Mass of water (kg) = 1.000e+00 @@ -378,10 +378,10 @@ Reaction 1. pH = -0.049 Charge balance pe = 14.991 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 646453 + Specific Conductance (µS/cm, 65°C) = 645850 Density (g/cm³) = 1.00846 Volume (L) = 1.05012 - Viscosity (mPa s) = 0.49875 + Viscosity (mPa s) = 0.49898 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.561e+00 Mass of water (kg) = 1.000e+00 @@ -452,10 +452,10 @@ Reaction 1. pH = -0.107 Charge balance pe = 5.825 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 710287 + Specific Conductance (µS/cm, 65°C) = 709591 Density (g/cm³) = 1.01208 Volume (L) = 1.05475 - Viscosity (mPa s) = 0.50717 + Viscosity (mPa s) = 0.50742 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.791e+00 Mass of water (kg) = 1.000e+00 @@ -526,10 +526,10 @@ Reaction 1. pH = -0.160 Charge balance pe = 15.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 772418 + Specific Conductance (µS/cm, 65°C) = 771627 Density (g/cm³) = 1.01579 Volume (L) = 1.05968 - Viscosity (mPa s) = 0.51576 + Viscosity (mPa s) = 0.51602 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.036e+00 Mass of water (kg) = 1.000e+00 @@ -600,10 +600,10 @@ Reaction 1. pH = -0.164 Charge balance pe = 5.651 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 777036 + Specific Conductance (µS/cm, 65°C) = 776238 Density (g/cm³) = 1.01608 Volume (L) = 1.06006 - Viscosity (mPa s) = 0.51641 + Viscosity (mPa s) = 0.51668 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.055e+00 Mass of water (kg) = 1.000e+00 @@ -674,10 +674,10 @@ Reaction 1. pH = -0.180 Charge balance pe = 15.165 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 796211 + Specific Conductance (µS/cm, 65°C) = 795383 Density (g/cm³) = 1.01727 Volume (L) = 1.06169 - Viscosity (mPa s) = 0.51918 + Viscosity (mPa s) = 0.51944 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.135e+00 Mass of water (kg) = 1.000e+00 @@ -748,10 +748,10 @@ Reaction 1. pH = -0.194 Charge balance pe = 15.160 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 812483 + Specific Conductance (µS/cm, 65°C) = 811628 Density (g/cm³) = 1.01830 Volume (L) = 1.06312 - Viscosity (mPa s) = 0.52156 + Viscosity (mPa s) = 0.52184 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.205e+00 Mass of water (kg) = 1.000e+00 @@ -822,10 +822,10 @@ Reaction 1. pH = -0.218 Charge balance pe = 15.054 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 841921 + Specific Conductance (µS/cm, 65°C) = 841019 Density (g/cm³) = 1.02022 Volume (L) = 1.06580 - Viscosity (mPa s) = 0.52601 + Viscosity (mPa s) = 0.52629 Activity of water = 0.920 Ionic strength (mol/kgw) = 2.337e+00 Mass of water (kg) = 1.000e+00 @@ -896,10 +896,10 @@ Reaction 1. pH = -0.230 Charge balance pe = 15.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 855508 + Specific Conductance (µS/cm, 65°C) = 854584 Density (g/cm³) = 1.02112 Volume (L) = 1.06708 - Viscosity (mPa s) = 0.52812 + Viscosity (mPa s) = 0.52840 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.400e+00 Mass of water (kg) = 1.000e+00 @@ -970,10 +970,10 @@ Reaction 1. pH = -0.281 Charge balance pe = 15.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 917887 + Specific Conductance (µS/cm, 65°C) = 916857 Density (g/cm³) = 1.02550 Volume (L) = 1.07341 - Viscosity (mPa s) = 0.53839 + Viscosity (mPa s) = 0.53869 Activity of water = 0.907 Ionic strength (mol/kgw) = 2.710e+00 Mass of water (kg) = 1.000e+00 @@ -1044,10 +1044,10 @@ Reaction 1. pH = -0.310 Charge balance pe = 5.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 953683 + Specific Conductance (µS/cm, 65°C) = 952591 Density (g/cm³) = 1.02820 Volume (L) = 1.07744 - Viscosity (mPa s) = 0.54485 + Viscosity (mPa s) = 0.54516 Activity of water = 0.900 Ionic strength (mol/kgw) = 2.906e+00 Mass of water (kg) = 1.000e+00 @@ -1227,10 +1227,10 @@ Reaction 1. pH = 6.435 Charge balance pe = 0.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 19513 + Specific Conductance (µS/cm, 65°C) = 19508 Density (g/cm³) = 0.98446 Volume (L) = 1.02172 - Viscosity (mPa s) = 0.43829 + Viscosity (mPa s) = 0.43843 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -1305,10 +1305,10 @@ Reaction 1. pH = 6.428 Charge balance pe = 0.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 39748 + Specific Conductance (µS/cm, 65°C) = 39735 Density (g/cm³) = 0.98897 Volume (L) = 1.02396 - Viscosity (mPa s) = 0.44397 + Viscosity (mPa s) = 0.44418 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.167e-01 Mass of water (kg) = 1.000e+00 @@ -1383,10 +1383,10 @@ Reaction 1. pH = 6.426 Charge balance pe = 0.575 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 46269 + Specific Conductance (µS/cm, 65°C) = 46252 Density (g/cm³) = 0.99049 Volume (L) = 1.02472 - Viscosity (mPa s) = 0.44589 + Viscosity (mPa s) = 0.44611 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.562e-01 Mass of water (kg) = 1.000e+00 @@ -1461,10 +1461,10 @@ Reaction 1. pH = 6.422 Charge balance pe = 0.174 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 61162 + Specific Conductance (µS/cm, 65°C) = 61136 Density (g/cm³) = 0.99403 Volume (L) = 1.02655 - Viscosity (mPa s) = 0.45042 + Viscosity (mPa s) = 0.45068 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.494e-01 Mass of water (kg) = 1.000e+00 @@ -1539,10 +1539,10 @@ Reaction 1. pH = 6.418 Charge balance pe = 0.068 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 86795 + Specific Conductance (µS/cm, 65°C) = 86751 Density (g/cm³) = 1.00040 Volume (L) = 1.02992 - Viscosity (mPa s) = 0.45876 + Viscosity (mPa s) = 0.45908 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.190e-01 Mass of water (kg) = 1.000e+00 @@ -1617,10 +1617,10 @@ Reaction 1. pH = 6.417 Charge balance pe = 0.120 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 88040 + Specific Conductance (µS/cm, 65°C) = 87996 Density (g/cm³) = 1.00072 Volume (L) = 1.03009 - Viscosity (mPa s) = 0.45919 + Viscosity (mPa s) = 0.45950 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.275e-01 Mass of water (kg) = 1.000e+00 @@ -1695,10 +1695,10 @@ Reaction 1. pH = 6.415 Charge balance pe = 8.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 102123 + Specific Conductance (µS/cm, 65°C) = 102067 Density (g/cm³) = 1.00436 Volume (L) = 1.03207 - Viscosity (mPa s) = 0.46410 + Viscosity (mPa s) = 0.46445 Activity of water = 0.979 Ionic strength (mol/kgw) = 6.258e-01 Mass of water (kg) = 1.000e+00 @@ -1773,10 +1773,10 @@ Reaction 1. pH = 6.412 Charge balance pe = 0.270 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 123131 + Specific Conductance (µS/cm, 65°C) = 123057 Density (g/cm³) = 1.00998 Volume (L) = 1.03520 - Viscosity (mPa s) = 0.47189 + Viscosity (mPa s) = 0.47227 Activity of water = 0.974 Ionic strength (mol/kgw) = 7.790e-01 Mass of water (kg) = 1.000e+00 @@ -1851,10 +1851,10 @@ Reaction 1. pH = 6.411 Charge balance pe = 0.400 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 135795 + Specific Conductance (µS/cm, 65°C) = 135709 Density (g/cm³) = 1.01348 Volume (L) = 1.03717 - Viscosity (mPa s) = 0.47686 + Viscosity (mPa s) = 0.47727 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.753e-01 Mass of water (kg) = 1.000e+00 @@ -1929,10 +1929,10 @@ Reaction 1. pH = 6.409 Charge balance pe = -0.074 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 151635 + Specific Conductance (µS/cm, 65°C) = 151535 Density (g/cm³) = 1.01797 Volume (L) = 1.03976 - Viscosity (mPa s) = 0.48341 + Viscosity (mPa s) = 0.48385 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -2007,10 +2007,10 @@ Reaction 1. pH = 6.407 Charge balance pe = 2.024 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 164330 + Specific Conductance (µS/cm, 65°C) = 164217 Density (g/cm³) = 1.02168 Volume (L) = 1.04192 - Viscosity (mPa s) = 0.48895 + Viscosity (mPa s) = 0.48941 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.104e+00 Mass of water (kg) = 1.000e+00 @@ -2085,10 +2085,10 @@ Reaction 1. pH = 6.406 Charge balance pe = -0.312 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 178718 + Specific Conductance (µS/cm, 65°C) = 178591 Density (g/cm³) = 1.02599 Volume (L) = 1.04447 - Viscosity (mPa s) = 0.49556 + Viscosity (mPa s) = 0.49604 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.225e+00 Mass of water (kg) = 1.000e+00 @@ -2163,10 +2163,10 @@ Reaction 1. pH = 6.403 Charge balance pe = -0.358 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 215170 + Specific Conductance (µS/cm, 65°C) = 215003 Density (g/cm³) = 1.03754 Volume (L) = 1.05149 - Viscosity (mPa s) = 0.51411 + Viscosity (mPa s) = 0.51466 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.556e+00 Mass of water (kg) = 1.000e+00 @@ -2241,10 +2241,10 @@ Reaction 1. pH = 6.402 Charge balance pe = 7.922 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 220649 + Specific Conductance (µS/cm, 65°C) = 220476 Density (g/cm³) = 1.03936 Volume (L) = 1.05262 - Viscosity (mPa s) = 0.51716 + Viscosity (mPa s) = 0.51772 Activity of water = 0.945 Ionic strength (mol/kgw) = 1.609e+00 Mass of water (kg) = 1.000e+00 @@ -2319,10 +2319,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 0.048 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 258450 + Specific Conductance (µS/cm, 65°C) = 258234 Density (g/cm³) = 1.05263 Volume (L) = 1.06105 - Viscosity (mPa s) = 0.54042 + Viscosity (mPa s) = 0.54104 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -2397,10 +2397,10 @@ Reaction 1. pH = 6.398 Charge balance pe = -0.628 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 278794 + Specific Conductance (µS/cm, 65°C) = 278554 Density (g/cm³) = 1.06037 Volume (L) = 1.06612 - Viscosity (mPa s) = 0.55487 + Viscosity (mPa s) = 0.55553 Activity of water = 0.924 Ionic strength (mol/kgw) = 2.233e+00 Mass of water (kg) = 1.000e+00 @@ -2475,10 +2475,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.247 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 300351 + Specific Conductance (µS/cm, 65°C) = 300085 Density (g/cm³) = 1.06913 Volume (L) = 1.07200 - Viscosity (mPa s) = 0.57207 + Viscosity (mPa s) = 0.57277 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -2553,10 +2553,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.505 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 303945 + Specific Conductance (µS/cm, 65°C) = 303675 Density (g/cm³) = 1.07066 Volume (L) = 1.07303 - Viscosity (mPa s) = 0.57516 + Viscosity (mPa s) = 0.57586 Activity of water = 0.913 Ionic strength (mol/kgw) = 2.547e+00 Mass of water (kg) = 1.000e+00 @@ -2631,10 +2631,10 @@ Reaction 1. pH = 6.396 Charge balance pe = -0.121 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 338067 + Specific Conductance (µS/cm, 65°C) = 337757 Density (g/cm³) = 1.08627 Volume (L) = 1.08390 - Viscosity (mPa s) = 0.60840 + Viscosity (mPa s) = 0.60917 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.036e+00 Mass of water (kg) = 1.000e+00 @@ -2709,10 +2709,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 8.542 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 389549 + Specific Conductance (µS/cm, 65°C) = 389183 Density (g/cm³) = 1.11548 Volume (L) = 1.10548 - Viscosity (mPa s) = 0.67941 + Viscosity (mPa s) = 0.68029 Activity of water = 0.864 Ionic strength (mol/kgw) = 3.989e+00 Mass of water (kg) = 1.000e+00 @@ -2787,10 +2787,10 @@ Reaction 1. pH = 6.398 Charge balance pe = -0.264 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 401278 + Specific Conductance (µS/cm, 65°C) = 400900 Density (g/cm³) = 1.12368 Volume (L) = 1.11184 - Viscosity (mPa s) = 0.70163 + Viscosity (mPa s) = 0.70254 Activity of water = 0.855 Ionic strength (mol/kgw) = 4.267e+00 Mass of water (kg) = 1.000e+00 @@ -2865,10 +2865,10 @@ Reaction 1. pH = 6.399 Charge balance pe = -0.406 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 412470 + Specific Conductance (µS/cm, 65°C) = 412082 Density (g/cm³) = 1.13239 Volume (L) = 1.11873 - Viscosity (mPa s) = 0.72635 + Viscosity (mPa s) = 0.72729 Activity of water = 0.845 Ionic strength (mol/kgw) = 4.566e+00 Mass of water (kg) = 1.000e+00 @@ -2943,10 +2943,10 @@ Reaction 1. pH = 6.404 Charge balance pe = -0.157 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 440238 + Specific Conductance (µS/cm, 65°C) = 439831 Density (g/cm³) = 1.16025 Volume (L) = 1.14182 - Viscosity (mPa s) = 0.81424 + Viscosity (mPa s) = 0.81527 Activity of water = 0.811 Ionic strength (mol/kgw) = 5.557e+00 Mass of water (kg) = 1.000e+00 @@ -3021,10 +3021,10 @@ Reaction 1. pH = 6.405 Charge balance pe = 8.326 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 443504 + Specific Conductance (µS/cm, 65°C) = 443096 Density (g/cm³) = 1.16456 Volume (L) = 1.14553 - Viscosity (mPa s) = 0.82912 + Viscosity (mPa s) = 0.83017 Activity of water = 0.806 Ionic strength (mol/kgw) = 5.716e+00 Mass of water (kg) = 1.000e+00 @@ -3099,10 +3099,10 @@ Reaction 1. pH = 6.406 Charge balance pe = 8.291 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 447192 + Specific Conductance (µS/cm, 65°C) = 446782 Density (g/cm³) = 1.16991 Volume (L) = 1.15020 - Viscosity (mPa s) = 0.84807 + Viscosity (mPa s) = 0.84913 Activity of water = 0.799 Ionic strength (mol/kgw) = 5.914e+00 Mass of water (kg) = 1.000e+00 @@ -3284,10 +3284,10 @@ Reaction 1. pH = 6.442 Charge balance pe = 0.323 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 9644 + Specific Conductance (µS/cm, 65°C) = 9643 Density (g/cm³) = 0.98239 Volume (L) = 1.02097 - Viscosity (mPa s) = 0.43424 + Viscosity (mPa s) = 0.43432 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -3361,10 +3361,10 @@ Reaction 1. pH = 6.436 Charge balance pe = 0.292 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 20796 + Specific Conductance (µS/cm, 65°C) = 20793 Density (g/cm³) = 0.98466 Volume (L) = 1.02239 - Viscosity (mPa s) = 0.43550 + Viscosity (mPa s) = 0.43562 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.000e-02 Mass of water (kg) = 1.000e+00 @@ -3438,10 +3438,10 @@ Reaction 1. pH = 6.435 Charge balance pe = 0.343 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 22957 + Specific Conductance (µS/cm, 65°C) = 22954 Density (g/cm³) = 0.98511 Volume (L) = 1.02268 - Viscosity (mPa s) = 0.43575 + Viscosity (mPa s) = 0.43586 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 1.000e+00 @@ -3515,10 +3515,10 @@ Reaction 1. pH = 6.431 Charge balance pe = 0.293 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 35640 + Specific Conductance (µS/cm, 65°C) = 35634 Density (g/cm³) = 0.98781 Volume (L) = 1.02441 - Viscosity (mPa s) = 0.43717 + Viscosity (mPa s) = 0.43732 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.600e-01 Mass of water (kg) = 1.000e+00 @@ -3592,10 +3592,10 @@ Reaction 1. pH = 6.426 Charge balance pe = 0.490 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 53900 + Specific Conductance (µS/cm, 65°C) = 53889 Density (g/cm³) = 0.99182 Volume (L) = 1.02704 - Viscosity (mPa s) = 0.43924 + Viscosity (mPa s) = 0.43943 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.500e-01 Mass of water (kg) = 1.000e+00 @@ -3669,10 +3669,10 @@ Reaction 1. pH = 6.421 Charge balance pe = 0.178 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 82924 + Specific Conductance (µS/cm, 65°C) = 82903 Density (g/cm³) = 0.99841 Volume (L) = 1.03146 - Viscosity (mPa s) = 0.44265 + Viscosity (mPa s) = 0.44289 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -3746,10 +3746,10 @@ Reaction 1. pH = 6.420 Charge balance pe = 0.379 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 85737 + Specific Conductance (µS/cm, 65°C) = 85715 Density (g/cm³) = 0.99906 Volume (L) = 1.03190 - Viscosity (mPa s) = 0.44298 + Viscosity (mPa s) = 0.44323 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.149e-01 Mass of water (kg) = 1.000e+00 @@ -3823,10 +3823,10 @@ Reaction 1. pH = 6.414 Charge balance pe = 8.112 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 137240 + Specific Conductance (µS/cm, 65°C) = 137194 Density (g/cm³) = 1.01128 Volume (L) = 1.04045 - Viscosity (mPa s) = 0.44942 + Viscosity (mPa s) = 0.44974 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.000e-01 Mass of water (kg) = 1.000e+00 @@ -3900,10 +3900,10 @@ Reaction 1. pH = 6.412 Charge balance pe = 0.142 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 153012 + Specific Conductance (µS/cm, 65°C) = 152958 Density (g/cm³) = 1.01513 Volume (L) = 1.04323 - Viscosity (mPa s) = 0.45150 + Viscosity (mPa s) = 0.45184 Activity of water = 0.973 Ionic strength (mol/kgw) = 7.915e-01 Mass of water (kg) = 1.000e+00 @@ -3977,10 +3977,10 @@ Reaction 1. pH = 6.409 Charge balance pe = 8.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 187721 + Specific Conductance (µS/cm, 65°C) = 187647 Density (g/cm³) = 1.02377 Volume (L) = 1.04960 - Viscosity (mPa s) = 0.45627 + Viscosity (mPa s) = 0.45665 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -4054,10 +4054,10 @@ Reaction 1. pH = 6.406 Charge balance pe = 0.422 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 221251 + Specific Conductance (µS/cm, 65°C) = 221156 Density (g/cm³) = 1.03235 Volume (L) = 1.05611 - Viscosity (mPa s) = 0.46114 + Viscosity (mPa s) = 0.46156 Activity of water = 0.959 Ionic strength (mol/kgw) = 1.211e+00 Mass of water (kg) = 1.000e+00 @@ -4131,10 +4131,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 0.573 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 341565 + Specific Conductance (µS/cm, 65°C) = 341383 Density (g/cm³) = 1.06507 Volume (L) = 1.08266 - Viscosity (mPa s) = 0.48126 + Viscosity (mPa s) = 0.48180 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.054e+00 Mass of water (kg) = 1.000e+00 @@ -4208,10 +4208,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 6.838 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 396706 + Specific Conductance (µS/cm, 65°C) = 396479 Density (g/cm³) = 1.08124 Volume (L) = 1.09684 - Viscosity (mPa s) = 0.49221 + Viscosity (mPa s) = 0.49281 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.494e+00 Mass of water (kg) = 1.000e+00 @@ -4285,10 +4285,10 @@ Reaction 1. pH = 6.397 Charge balance pe = -0.243 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 498109 + Specific Conductance (µS/cm, 65°C) = 497792 Density (g/cm³) = 1.11350 Volume (L) = 1.12740 - Viscosity (mPa s) = 0.51637 + Viscosity (mPa s) = 0.51707 Activity of water = 0.884 Ionic strength (mol/kgw) = 3.425e+00 Mass of water (kg) = 1.000e+00 @@ -4362,10 +4362,10 @@ Reaction 1. pH = 6.397 Charge balance pe = 8.301 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 541790 + Specific Conductance (µS/cm, 65°C) = 541432 Density (g/cm³) = 1.12867 Volume (L) = 1.14292 - Viscosity (mPa s) = 0.52895 + Viscosity (mPa s) = 0.52969 Activity of water = 0.868 Ionic strength (mol/kgw) = 3.890e+00 Mass of water (kg) = 1.000e+00 @@ -4439,10 +4439,10 @@ Reaction 1. pH = 6.399 Charge balance pe = 8.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 585093 + Specific Conductance (µS/cm, 65°C) = 584694 Density (g/cm³) = 1.14472 Volume (L) = 1.16021 - Viscosity (mPa s) = 0.54319 + Viscosity (mPa s) = 0.54398 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.401e+00 Mass of water (kg) = 1.000e+00 @@ -4624,10 +4624,10 @@ Reaction 1. pH = 5.951 Charge balance pe = 0.812 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 12341 + Specific Conductance (µS/cm, 65°C) = 12333 Density (g/cm³) = 0.98312 Volume (L) = 1.02034 - Viscosity (mPa s) = 0.44118 + Viscosity (mPa s) = 0.44148 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.834e-02 Mass of water (kg) = 1.000e+00 @@ -4702,10 +4702,10 @@ Reaction 1. pH = 5.848 Charge balance pe = 0.802 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 23089 + Specific Conductance (µS/cm, 65°C) = 23070 Density (g/cm³) = 0.98570 Volume (L) = 1.02084 - Viscosity (mPa s) = 0.44817 + Viscosity (mPa s) = 0.44860 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.969e-01 Mass of water (kg) = 1.000e+00 @@ -4780,10 +4780,10 @@ Reaction 1. pH = 5.736 Charge balance pe = 8.793 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 42480 + Specific Conductance (µS/cm, 65°C) = 42432 Density (g/cm³) = 0.99074 Volume (L) = 1.02191 - Viscosity (mPa s) = 0.46147 + Viscosity (mPa s) = 0.46208 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.919e-01 Mass of water (kg) = 1.000e+00 @@ -4858,10 +4858,10 @@ Reaction 1. pH = 5.594 Charge balance pe = 8.969 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 78638 + Specific Conductance (µS/cm, 65°C) = 78520 Density (g/cm³) = 1.00115 Volume (L) = 1.02431 - Viscosity (mPa s) = 0.48876 + Viscosity (mPa s) = 0.48962 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.030e-01 Mass of water (kg) = 1.000e+00 @@ -4936,10 +4936,10 @@ Reaction 1. pH = 5.484 Charge balance pe = 9.244 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 113109 + Specific Conductance (µS/cm, 65°C) = 112910 Density (g/cm³) = 1.01225 Volume (L) = 1.02711 - Viscosity (mPa s) = 0.51819 + Viscosity (mPa s) = 0.51927 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.251e+00 Mass of water (kg) = 1.000e+00 @@ -5014,10 +5014,10 @@ Reaction 1. pH = 5.417 Charge balance pe = 7.887 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 135521 + Specific Conductance (µS/cm, 65°C) = 135265 Density (g/cm³) = 1.02015 Volume (L) = 1.02923 - Viscosity (mPa s) = 0.53953 + Viscosity (mPa s) = 0.54074 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -5092,10 +5092,10 @@ Reaction 1. pH = 5.286 Charge balance pe = 1.249 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 179257 + Specific Conductance (µS/cm, 65°C) = 178883 Density (g/cm³) = 1.03741 Volume (L) = 1.03418 - Viscosity (mPa s) = 0.58811 + Viscosity (mPa s) = 0.58957 Activity of water = 0.961 Ionic strength (mol/kgw) = 2.296e+00 Mass of water (kg) = 1.000e+00 @@ -5170,10 +5170,10 @@ Reaction 1. pH = 5.251 Charge balance pe = 1.559 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 190656 + Specific Conductance (µS/cm, 65°C) = 190251 Density (g/cm³) = 1.04241 Volume (L) = 1.03570 - Viscosity (mPa s) = 0.60281 + Viscosity (mPa s) = 0.60433 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.508e+00 Mass of water (kg) = 1.000e+00 @@ -5248,10 +5248,10 @@ Reaction 1. pH = 5.174 Charge balance pe = 0.864 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 214507 + Specific Conductance (µS/cm, 65°C) = 214038 Density (g/cm³) = 1.05372 Volume (L) = 1.03925 - Viscosity (mPa s) = 0.63751 + Viscosity (mPa s) = 0.63917 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.996e+00 Mass of water (kg) = 1.000e+00 @@ -5326,10 +5326,10 @@ Reaction 1. pH = 5.059 Charge balance pe = 8.350 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 246775 + Specific Conductance (µS/cm, 65°C) = 246223 Density (g/cm³) = 1.07161 Volume (L) = 1.04522 - Viscosity (mPa s) = 0.69746 + Viscosity (mPa s) = 0.69934 Activity of water = 0.936 Ionic strength (mol/kgw) = 3.783e+00 Mass of water (kg) = 1.000e+00 @@ -5404,10 +5404,10 @@ Reaction 1. pH = 4.699 Charge balance pe = 1.391 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 306246 + Specific Conductance (µS/cm, 65°C) = 305608 Density (g/cm³) = 1.13063 Volume (L) = 1.06792 - Viscosity (mPa s) = 0.97289 + Viscosity (mPa s) = 0.97535 Activity of water = 0.889 Ionic strength (mol/kgw) = 6.535e+00 Mass of water (kg) = 1.000e+00 @@ -5482,10 +5482,10 @@ Reaction 1. pH = 4.535 Charge balance pe = 10.127 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 310025 + Specific Conductance (µS/cm, 65°C) = 309436 Density (g/cm³) = 1.15785 Volume (L) = 1.08002 - Viscosity (mPa s) = 1.16868 + Viscosity (mPa s) = 1.17139 Activity of water = 0.866 Ionic strength (mol/kgw) = 7.892e+00 Mass of water (kg) = 1.000e+00 @@ -5560,10 +5560,10 @@ Reaction 1. pH = 4.367 Charge balance pe = 10.644 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 300746 + Specific Conductance (µS/cm, 65°C) = 300245 Density (g/cm³) = 1.18541 Volume (L) = 1.09342 - Viscosity (mPa s) = 1.43979 + Viscosity (mPa s) = 1.44274 Activity of water = 0.841 Ionic strength (mol/kgw) = 9.331e+00 Mass of water (kg) = 1.000e+00 @@ -5638,10 +5638,10 @@ Reaction 1. pH = 4.193 Charge balance pe = 10.701 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 280953 + Specific Conductance (µS/cm, 65°C) = 280555 Density (g/cm³) = 1.21341 Volume (L) = 1.10831 - Viscosity (mPa s) = 1.82110 + Viscosity (mPa s) = 1.82428 Activity of water = 0.815 Ionic strength (mol/kgw) = 1.086e+01 Mass of water (kg) = 1.000e+00 @@ -5716,10 +5716,10 @@ Reaction 1. pH = 4.034 Charge balance pe = 1.246 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 257797 + Specific Conductance (µS/cm, 65°C) = 257488 Density (g/cm³) = 1.23812 Volume (L) = 1.12263 - Viscosity (mPa s) = 2.27943 + Viscosity (mPa s) = 2.28281 Activity of water = 0.791 Ionic strength (mol/kgw) = 1.229e+01 Mass of water (kg) = 1.000e+00 @@ -5794,10 +5794,10 @@ Reaction 1. pH = 3.866 Charge balance pe = 11.019 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 231093 + Specific Conductance (µS/cm, 65°C) = 230865 Density (g/cm³) = 1.26356 Volume (L) = 1.13865 - Viscosity (mPa s) = 2.91270 + Viscosity (mPa s) = 2.91628 Activity of water = 0.765 Ionic strength (mol/kgw) = 1.382e+01 Mass of water (kg) = 1.000e+00 @@ -5980,10 +5980,10 @@ Reaction 1. pH = 6.320 Charge balance pe = 0.370 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21215 + Specific Conductance (µS/cm, 75°C) = 21196 Density (g/cm³) = 0.97930 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.38638 + Viscosity (mPa s) = 0.38678 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.491e-01 Mass of water (kg) = 1.000e+00 @@ -6058,10 +6058,10 @@ Reaction 1. pH = 6.320 Charge balance pe = 0.454 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21234 + Specific Conductance (µS/cm, 75°C) = 21215 Density (g/cm³) = 0.97930 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.38639 + Viscosity (mPa s) = 0.38679 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.493e-01 Mass of water (kg) = 1.000e+00 @@ -6136,10 +6136,10 @@ Reaction 1. pH = 6.319 Charge balance pe = 0.456 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21747 + Specific Conductance (µS/cm, 75°C) = 21727 Density (g/cm³) = 0.97942 Volume (L) = 1.02680 - Viscosity (mPa s) = 0.38660 + Viscosity (mPa s) = 0.38700 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.532e-01 Mass of water (kg) = 1.000e+00 @@ -6214,10 +6214,10 @@ Reaction 1. pH = 6.309 Charge balance pe = 0.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 39814 + Specific Conductance (µS/cm, 75°C) = 39764 Density (g/cm³) = 0.98377 Volume (L) = 1.02780 - Viscosity (mPa s) = 0.39409 + Viscosity (mPa s) = 0.39465 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.005e-01 Mass of water (kg) = 1.000e+00 @@ -6292,10 +6292,10 @@ Reaction 1. pH = 6.309 Charge balance pe = 0.407 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 40256 + Specific Conductance (µS/cm, 75°C) = 40206 Density (g/cm³) = 0.98388 Volume (L) = 1.02782 - Viscosity (mPa s) = 0.39428 + Viscosity (mPa s) = 0.39485 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.042e-01 Mass of water (kg) = 1.000e+00 @@ -6370,10 +6370,10 @@ Reaction 1. pH = 6.296 Charge balance pe = 0.333 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 74043 + Specific Conductance (µS/cm, 75°C) = 73917 Density (g/cm³) = 0.99270 Volume (L) = 1.03001 - Viscosity (mPa s) = 0.40917 + Viscosity (mPa s) = 0.40997 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.081e-01 Mass of water (kg) = 1.000e+00 @@ -6448,10 +6448,10 @@ Reaction 1. pH = 6.290 Charge balance pe = 6.521 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 95378 + Specific Conductance (µS/cm, 75°C) = 95194 Density (g/cm³) = 0.99867 Volume (L) = 1.03159 - Viscosity (mPa s) = 0.41920 + Viscosity (mPa s) = 0.42013 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.166e-01 Mass of water (kg) = 1.000e+00 @@ -6526,10 +6526,10 @@ Reaction 1. pH = 6.275 Charge balance pe = 7.513 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 156262 + Specific Conductance (µS/cm, 75°C) = 155888 Density (g/cm³) = 1.01734 Volume (L) = 1.03690 - Viscosity (mPa s) = 0.45101 + Viscosity (mPa s) = 0.45227 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.483e+00 Mass of water (kg) = 1.000e+00 @@ -6604,10 +6604,10 @@ Reaction 1. pH = 6.274 Charge balance pe = 7.579 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 163774 + Specific Conductance (µS/cm, 75°C) = 163375 Density (g/cm³) = 1.01983 Volume (L) = 1.03765 - Viscosity (mPa s) = 0.45532 + Viscosity (mPa s) = 0.45662 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -6682,10 +6682,10 @@ Reaction 1. pH = 6.257 Charge balance pe = 7.464 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 261073 + Specific Conductance (µS/cm, 75°C) = 260319 Density (g/cm³) = 1.05673 Volume (L) = 1.04971 - Viscosity (mPa s) = 0.52254 + Viscosity (mPa s) = 0.52431 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.954e+00 Mass of water (kg) = 1.000e+00 @@ -6760,10 +6760,10 @@ Reaction 1. pH = 6.257 Charge balance pe = 7.975 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 268072 + Specific Conductance (µS/cm, 75°C) = 267293 Density (g/cm³) = 1.05981 Volume (L) = 1.05080 - Viscosity (mPa s) = 0.52851 + Viscosity (mPa s) = 0.53032 Activity of water = 0.948 Ionic strength (mol/kgw) = 3.072e+00 Mass of water (kg) = 1.000e+00 @@ -6838,10 +6838,10 @@ Reaction 1. pH = 6.239 Charge balance pe = 8.474 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 421919 + Specific Conductance (µS/cm, 75°C) = 420800 Density (g/cm³) = 1.21039 Volume (L) = 1.11932 - Viscosity (mPa s) = 1.00094 + Viscosity (mPa s) = 1.00414 Activity of water = 0.837 Ionic strength (mol/kgw) = 9.591e+00 Mass of water (kg) = 1.000e+00 @@ -6916,10 +6916,10 @@ Reaction 1. pH = 6.245 Charge balance pe = -1.197 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 351384 + Specific Conductance (µS/cm, 75°C) = 350764 Density (g/cm³) = 1.31140 Volume (L) = 1.18655 - Viscosity (mPa s) = 1.85767 + Viscosity (mPa s) = 1.86168 Activity of water = 0.744 Ionic strength (mol/kgw) = 1.503e+01 Mass of water (kg) = 1.000e+00 @@ -6994,10 +6994,10 @@ Reaction 1. pH = 6.255 Charge balance pe = 8.956 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 272570 + Specific Conductance (µS/cm, 75°C) = 272243 Density (g/cm³) = 1.37695 Volume (L) = 1.24407 - Viscosity (mPa s) = 3.05415 + Viscosity (mPa s) = 3.05868 Activity of water = 0.672 Ionic strength (mol/kgw) = 1.927e+01 Mass of water (kg) = 1.000e+00 @@ -7179,10 +7179,10 @@ Reaction 1. pH = 6.287 Charge balance pe = 0.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 4829 + Specific Conductance (µS/cm, 80°C) = 4825 Density (g/cm³) = 0.97345 Volume (L) = 1.02926 - Viscosity (mPa s) = 0.35591 + Viscosity (mPa s) = 0.35609 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.790e-02 Mass of water (kg) = 1.000e+00 @@ -7256,10 +7256,10 @@ Reaction 1. pH = 6.278 Charge balance pe = 0.433 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 14262 + Specific Conductance (µS/cm, 80°C) = 14239 Density (g/cm³) = 0.97705 Volume (L) = 1.02978 - Viscosity (mPa s) = 0.35861 + Viscosity (mPa s) = 0.35894 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.850e-02 Mass of water (kg) = 1.000e+00 @@ -7333,10 +7333,10 @@ Reaction 1. pH = 6.272 Charge balance pe = 0.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 23259 + Specific Conductance (µS/cm, 80°C) = 23211 Density (g/cm³) = 0.98069 Volume (L) = 1.03033 - Viscosity (mPa s) = 0.36115 + Viscosity (mPa s) = 0.36157 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -7410,10 +7410,10 @@ Reaction 1. pH = 6.267 Charge balance pe = 0.240 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 32671 + Specific Conductance (µS/cm, 80°C) = 32591 Density (g/cm³) = 0.98467 Volume (L) = 1.03094 - Viscosity (mPa s) = 0.36384 + Viscosity (mPa s) = 0.36435 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.181e-01 Mass of water (kg) = 1.000e+00 @@ -7487,10 +7487,10 @@ Reaction 1. pH = 6.263 Charge balance pe = 0.198 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 43547 + Specific Conductance (µS/cm, 80°C) = 43424 Density (g/cm³) = 0.98946 Volume (L) = 1.03170 - Viscosity (mPa s) = 0.36705 + Viscosity (mPa s) = 0.36765 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -7564,10 +7564,10 @@ Reaction 1. pH = 6.256 Charge balance pe = 6.987 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 62109 + Specific Conductance (µS/cm, 80°C) = 61900 Density (g/cm³) = 0.99807 Volume (L) = 1.03310 - Viscosity (mPa s) = 0.37282 + Viscosity (mPa s) = 0.37356 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.482e-01 Mass of water (kg) = 1.000e+00 @@ -7641,10 +7641,10 @@ Reaction 1. pH = 6.255 Charge balance pe = 7.478 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 68299 + Specific Conductance (µS/cm, 80°C) = 68058 Density (g/cm³) = 1.00107 Volume (L) = 1.03360 - Viscosity (mPa s) = 0.37485 + Viscosity (mPa s) = 0.37562 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.000e-01 Mass of water (kg) = 1.000e+00 @@ -7718,10 +7718,10 @@ Reaction 1. pH = 6.251 Charge balance pe = 7.413 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 79851 + Specific Conductance (µS/cm, 80°C) = 79548 Density (g/cm³) = 1.00683 Volume (L) = 1.03458 - Viscosity (mPa s) = 0.37876 + Viscosity (mPa s) = 0.37961 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -7795,10 +7795,10 @@ Reaction 1. pH = 6.244 Charge balance pe = -0.028 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 111800 + Specific Conductance (µS/cm, 80°C) = 111308 Density (g/cm³) = 1.02405 Volume (L) = 1.03760 - Viscosity (mPa s) = 0.39070 + Viscosity (mPa s) = 0.39174 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.012e-01 Mass of water (kg) = 1.000e+00 @@ -7872,10 +7872,10 @@ Reaction 1. pH = 6.242 Charge balance pe = 0.052 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 121436 + Specific Conductance (µS/cm, 80°C) = 120883 Density (g/cm³) = 1.02966 Volume (L) = 1.03861 - Viscosity (mPa s) = 0.39468 + Viscosity (mPa s) = 0.39578 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -7949,10 +7949,10 @@ Reaction 1. pH = 6.238 Charge balance pe = 7.148 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 141472 + Specific Conductance (µS/cm, 80°C) = 140789 Density (g/cm³) = 1.04202 Volume (L) = 1.04089 - Viscosity (mPa s) = 0.40363 + Viscosity (mPa s) = 0.40484 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.219e+00 Mass of water (kg) = 1.000e+00 @@ -8026,10 +8026,10 @@ Reaction 1. pH = 6.231 Charge balance pe = 0.275 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 184178 + Specific Conductance (µS/cm, 80°C) = 183209 Density (g/cm³) = 1.07229 Volume (L) = 1.04673 - Viscosity (mPa s) = 0.42661 + Viscosity (mPa s) = 0.42806 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.763e+00 Mass of water (kg) = 1.000e+00 @@ -8103,10 +8103,10 @@ Reaction 1. pH = 6.225 Charge balance pe = 7.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 221656 + Specific Conductance (µS/cm, 80°C) = 220445 Density (g/cm³) = 1.10500 Volume (L) = 1.05343 - Viscosity (mPa s) = 0.45318 + Viscosity (mPa s) = 0.45486 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.363e+00 Mass of water (kg) = 1.000e+00 @@ -8180,10 +8180,10 @@ Reaction 1. pH = 6.224 Charge balance pe = 7.519 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 229037 + Specific Conductance (µS/cm, 80°C) = 227780 Density (g/cm³) = 1.11237 Volume (L) = 1.05499 - Viscosity (mPa s) = 0.45943 + Viscosity (mPa s) = 0.46116 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.500e+00 Mass of water (kg) = 1.000e+00 @@ -8257,10 +8257,10 @@ Reaction 1. pH = 6.220 Charge balance pe = 7.540 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 251841 + Specific Conductance (µS/cm, 80°C) = 250455 Density (g/cm³) = 1.13776 Volume (L) = 1.06050 - Viscosity (mPa s) = 0.48170 + Viscosity (mPa s) = 0.48359 Activity of water = 0.949 Ionic strength (mol/kgw) = 2.976e+00 Mass of water (kg) = 1.000e+00 @@ -8334,10 +8334,10 @@ Reaction 1. pH = 6.212 Charge balance pe = -0.046 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 301985 + Specific Conductance (µS/cm, 80°C) = 300408 Density (g/cm³) = 1.21631 Volume (L) = 1.07897 - Viscosity (mPa s) = 0.55824 + Viscosity (mPa s) = 0.56056 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -8411,10 +8411,10 @@ Reaction 1. pH = 6.210 Charge balance pe = 7.472 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 307907 + Specific Conductance (µS/cm, 80°C) = 306322 Density (g/cm³) = 1.22919 Volume (L) = 1.08221 - Viscosity (mPa s) = 0.57194 + Viscosity (mPa s) = 0.57433 Activity of water = 0.919 Ionic strength (mol/kgw) = 4.757e+00 Mass of water (kg) = 1.000e+00 @@ -8597,10 +8597,10 @@ Reaction 1. pH = 6.664 Charge balance pe = 7.600 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 20124 + Specific Conductance (µS/cm, 75°C) = 20120 Density (g/cm³) = 0.98098 Volume (L) = 1.02663 - Viscosity (mPa s) = 0.38719 + Viscosity (mPa s) = 0.38746 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.137e-01 Mass of water (kg) = 1.000e+00 @@ -8685,10 +8685,10 @@ Reaction 1. pH = 6.670 Charge balance pe = 7.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 21642 + Specific Conductance (µS/cm, 75°C) = 21637 Density (g/cm³) = 0.98152 Volume (L) = 1.02670 - Viscosity (mPa s) = 0.38797 + Viscosity (mPa s) = 0.38825 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.225e-01 Mass of water (kg) = 1.000e+00 @@ -8773,10 +8773,10 @@ Reaction 1. pH = 6.708 Charge balance pe = 7.543 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 34848 + Specific Conductance (µS/cm, 75°C) = 34839 Density (g/cm³) = 0.98648 Volume (L) = 1.02745 - Viscosity (mPa s) = 0.39517 + Viscosity (mPa s) = 0.39552 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.998e-01 Mass of water (kg) = 1.000e+00 @@ -8861,10 +8861,10 @@ Reaction 1. pH = 6.710 Charge balance pe = -0.975 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 36226 + Specific Conductance (µS/cm, 75°C) = 36216 Density (g/cm³) = 0.98702 Volume (L) = 1.02754 - Viscosity (mPa s) = 0.39597 + Viscosity (mPa s) = 0.39633 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.079e-01 Mass of water (kg) = 1.000e+00 @@ -8949,10 +8949,10 @@ Reaction 1. pH = 6.714 Charge balance pe = 7.469 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 38153 + Specific Conductance (µS/cm, 75°C) = 38143 Density (g/cm³) = 0.98779 Volume (L) = 1.02766 - Viscosity (mPa s) = 0.39710 + Viscosity (mPa s) = 0.39746 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.193e-01 Mass of water (kg) = 1.000e+00 @@ -9037,10 +9037,10 @@ Reaction 1. pH = 6.732 Charge balance pe = 7.469 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 50655 + Specific Conductance (µS/cm, 75°C) = 50639 Density (g/cm³) = 0.99297 Volume (L) = 1.02853 - Viscosity (mPa s) = 0.40482 + Viscosity (mPa s) = 0.40524 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.944e-01 Mass of water (kg) = 1.000e+00 @@ -9125,10 +9125,10 @@ Reaction 1. pH = 6.744 Charge balance pe = 7.519 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 62656 + Specific Conductance (µS/cm, 75°C) = 62634 Density (g/cm³) = 0.99826 Volume (L) = 1.02949 - Viscosity (mPa s) = 0.41291 + Viscosity (mPa s) = 0.41336 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.681e-01 Mass of water (kg) = 1.000e+00 @@ -9213,10 +9213,10 @@ Reaction 1. pH = 6.746 Charge balance pe = -0.956 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 64949 + Specific Conductance (µS/cm, 75°C) = 64926 Density (g/cm³) = 0.99931 Volume (L) = 1.02968 - Viscosity (mPa s) = 0.41453 + Viscosity (mPa s) = 0.41499 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.823e-01 Mass of water (kg) = 1.000e+00 @@ -9301,10 +9301,10 @@ Reaction 1. pH = 6.747 Charge balance pe = -1.021 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 66391 + Specific Conductance (µS/cm, 75°C) = 66368 Density (g/cm³) = 0.99997 Volume (L) = 1.02981 - Viscosity (mPa s) = 0.41556 + Viscosity (mPa s) = 0.41603 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.913e-01 Mass of water (kg) = 1.000e+00 @@ -9389,10 +9389,10 @@ Reaction 1. pH = 6.751 Charge balance pe = 7.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 72953 + Specific Conductance (µS/cm, 75°C) = 72927 Density (g/cm³) = 1.00303 Volume (L) = 1.03040 - Viscosity (mPa s) = 0.42038 + Viscosity (mPa s) = 0.42087 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.326e-01 Mass of water (kg) = 1.000e+00 @@ -9477,10 +9477,10 @@ Reaction 1. pH = 6.759 Charge balance pe = 7.517 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 91332 + Specific Conductance (µS/cm, 75°C) = 91296 Density (g/cm³) = 1.01208 Volume (L) = 1.03224 - Viscosity (mPa s) = 0.43505 + Viscosity (mPa s) = 0.43559 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.515e-01 Mass of water (kg) = 1.000e+00 @@ -9565,10 +9565,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 7.526 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 107843 + Specific Conductance (µS/cm, 75°C) = 107798 Density (g/cm³) = 1.02081 Volume (L) = 1.03415 - Viscosity (mPa s) = 0.44980 + Viscosity (mPa s) = 0.45039 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.628e-01 Mass of water (kg) = 1.000e+00 @@ -9653,10 +9653,10 @@ Reaction 1. pH = 6.762 Charge balance pe = 7.458 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 107999 + Specific Conductance (µS/cm, 75°C) = 107954 Density (g/cm³) = 1.02089 Volume (L) = 1.03417 - Viscosity (mPa s) = 0.44995 + Viscosity (mPa s) = 0.45054 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.639e-01 Mass of water (kg) = 1.000e+00 @@ -9741,10 +9741,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.194 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 123694 + Specific Conductance (µS/cm, 75°C) = 123641 Density (g/cm³) = 1.02975 Volume (L) = 1.03623 - Viscosity (mPa s) = 0.46557 + Viscosity (mPa s) = 0.46620 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.744e-01 Mass of water (kg) = 1.000e+00 @@ -9829,10 +9829,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 127834 + Specific Conductance (µS/cm, 75°C) = 127778 Density (g/cm³) = 1.03218 Volume (L) = 1.03681 - Viscosity (mPa s) = 0.46997 + Viscosity (mPa s) = 0.47061 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.044e-01 Mass of water (kg) = 1.000e+00 @@ -9917,10 +9917,10 @@ Reaction 1. pH = 6.763 Charge balance pe = -1.173 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 128498 + Specific Conductance (µS/cm, 75°C) = 128442 Density (g/cm³) = 1.03258 Volume (L) = 1.03691 - Viscosity (mPa s) = 0.47069 + Viscosity (mPa s) = 0.47133 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.093e-01 Mass of water (kg) = 1.000e+00 @@ -10005,10 +10005,10 @@ Reaction 1. pH = 6.760 Charge balance pe = 7.526 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 145551 + Specific Conductance (µS/cm, 75°C) = 145485 Density (g/cm³) = 1.04308 Volume (L) = 1.03954 - Viscosity (mPa s) = 0.49031 + Viscosity (mPa s) = 0.49100 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.374e-01 Mass of water (kg) = 1.000e+00 @@ -10093,10 +10093,10 @@ Reaction 1. pH = 6.755 Charge balance pe = -0.752 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 165892 + Specific Conductance (µS/cm, 75°C) = 165815 Density (g/cm³) = 1.05668 Volume (L) = 1.04315 - Viscosity (mPa s) = 0.51719 + Viscosity (mPa s) = 0.51793 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.101e+00 Mass of water (kg) = 1.000e+00 @@ -10181,10 +10181,10 @@ Reaction 1. pH = 6.751 Charge balance pe = -1.033 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 178136 + Specific Conductance (µS/cm, 75°C) = 178052 Density (g/cm³) = 1.06550 Volume (L) = 1.04562 - Viscosity (mPa s) = 0.53558 + Viscosity (mPa s) = 0.53635 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.206e+00 Mass of water (kg) = 1.000e+00 @@ -10269,10 +10269,10 @@ Reaction 1. pH = 6.739 Charge balance pe = -1.051 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 203910 + Specific Conductance (µS/cm, 75°C) = 203813 Density (g/cm³) = 1.08601 Volume (L) = 1.05172 - Viscosity (mPa s) = 0.58149 + Viscosity (mPa s) = 0.58232 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.448e+00 Mass of water (kg) = 1.000e+00 @@ -10357,10 +10357,10 @@ Reaction 1. pH = 6.738 Charge balance pe = -1.088 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 204621 + Specific Conductance (µS/cm, 75°C) = 204523 Density (g/cm³) = 1.08662 Volume (L) = 1.05191 - Viscosity (mPa s) = 0.58292 + Viscosity (mPa s) = 0.58376 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.455e+00 Mass of water (kg) = 1.000e+00 @@ -10445,10 +10445,10 @@ Reaction 1. pH = 6.726 Charge balance pe = -1.182 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 223790 + Specific Conductance (µS/cm, 75°C) = 223684 Density (g/cm³) = 1.10413 Volume (L) = 1.05752 - Viscosity (mPa s) = 0.62617 + Viscosity (mPa s) = 0.62705 Activity of water = 0.956 Ionic strength (mol/kgw) = 1.660e+00 Mass of water (kg) = 1.000e+00 @@ -10533,10 +10533,10 @@ Reaction 1. pH = 6.723 Charge balance pe = -1.083 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 226926 + Specific Conductance (µS/cm, 75°C) = 226819 Density (g/cm³) = 1.10722 Volume (L) = 1.05855 - Viscosity (mPa s) = 0.63422 + Viscosity (mPa s) = 0.63511 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.696e+00 Mass of water (kg) = 1.000e+00 @@ -10621,10 +10621,10 @@ Reaction 1. pH = 6.707 Charge balance pe = 7.522 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 246040 + Specific Conductance (µS/cm, 75°C) = 245926 Density (g/cm³) = 1.12784 Volume (L) = 1.06567 - Viscosity (mPa s) = 0.69150 + Viscosity (mPa s) = 0.69245 Activity of water = 0.947 Ionic strength (mol/kgw) = 1.938e+00 Mass of water (kg) = 1.000e+00 @@ -10709,10 +10709,10 @@ Reaction 1. pH = 6.700 Charge balance pe = 7.821 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 253093 + Specific Conductance (µS/cm, 75°C) = 252977 Density (g/cm³) = 1.13641 Volume (L) = 1.06878 - Viscosity (mPa s) = 0.71731 + Viscosity (mPa s) = 0.71828 Activity of water = 0.944 Ionic strength (mol/kgw) = 2.039e+00 Mass of water (kg) = 1.000e+00 @@ -10797,10 +10797,10 @@ Reaction 1. pH = 6.690 Charge balance pe = -1.260 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 262095 + Specific Conductance (µS/cm, 75°C) = 261977 Density (g/cm³) = 1.14838 Volume (L) = 1.07326 - Viscosity (mPa s) = 0.75553 + Viscosity (mPa s) = 0.75653 Activity of water = 0.940 Ionic strength (mol/kgw) = 2.181e+00 Mass of water (kg) = 1.000e+00 @@ -10885,10 +10885,10 @@ Reaction 1. pH = 6.673 Charge balance pe = -0.823 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 274518 + Specific Conductance (µS/cm, 75°C) = 274399 Density (g/cm³) = 1.16752 Volume (L) = 1.08076 - Viscosity (mPa s) = 0.82258 + Viscosity (mPa s) = 0.82362 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.408e+00 Mass of water (kg) = 1.000e+00 @@ -10973,10 +10973,10 @@ Reaction 1. pH = 6.655 Charge balance pe = 7.688 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 285138 + Specific Conductance (µS/cm, 75°C) = 285020 Density (g/cm³) = 1.18779 Volume (L) = 1.08918 - Viscosity (mPa s) = 0.90270 + Viscosity (mPa s) = 0.90380 Activity of water = 0.925 Ionic strength (mol/kgw) = 2.652e+00 Mass of water (kg) = 1.000e+00 @@ -11174,7 +11174,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 3192 Density (g/cm³) = 0.98134 Volume (L) = 1.02032 - Viscosity (mPa s) = 0.43377 + Viscosity (mPa s) = 0.43382 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.509e-02 Mass of water (kg) = 1.000e+00 @@ -11255,7 +11255,7 @@ Reaction 1. Specific Conductance (µS/cm, 65°C) = 6171 Density (g/cm³) = 0.98213 Volume (L) = 1.02081 - Viscosity (mPa s) = 0.43443 + Viscosity (mPa s) = 0.43451 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.017e-02 Mass of water (kg) = 1.000e+00 @@ -11333,10 +11333,10 @@ Reaction 1. pH = 6.687 Charge balance pe = 10.369 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 11807 + Specific Conductance (µS/cm, 65°C) = 11806 Density (g/cm³) = 0.98371 Volume (L) = 1.02178 - Viscosity (mPa s) = 0.43570 + Viscosity (mPa s) = 0.43581 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.039e-02 Mass of water (kg) = 1.000e+00 @@ -11414,10 +11414,10 @@ Reaction 1. pH = 6.735 Charge balance pe = 10.353 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 22236 + Specific Conductance (µS/cm, 65°C) = 22233 Density (g/cm³) = 0.98683 Volume (L) = 1.02375 - Viscosity (mPa s) = 0.43820 + Viscosity (mPa s) = 0.43835 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.208e-01 Mass of water (kg) = 1.000e+00 @@ -11495,10 +11495,10 @@ Reaction 1. pH = 6.784 Charge balance pe = 10.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 42492 + Specific Conductance (µS/cm, 65°C) = 42486 Density (g/cm³) = 0.99350 Volume (L) = 1.02805 - Viscosity (mPa s) = 0.44364 + Viscosity (mPa s) = 0.44387 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.514e-01 Mass of water (kg) = 1.000e+00 @@ -11576,10 +11576,10 @@ Reaction 1. pH = 6.826 Charge balance pe = 10.328 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 75983 + Specific Conductance (µS/cm, 65°C) = 75968 Density (g/cm³) = 1.00598 Volume (L) = 1.03639 - Viscosity (mPa s) = 0.45448 + Viscosity (mPa s) = 0.45480 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.010e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_salt_65_101.sel b/mytest/Vm_salt_65_101.sel index 8ef2c4c5..3a807338 100644 --- a/mytest/Vm_salt_65_101.sel +++ b/mytest/Vm_salt_65_101.sel @@ -1,144 +1,144 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000354775 0.2906196947 - 1.154593258199 519688.9172335894 - 1.428485498028 607303.3916541495 - 1.560813842698 646453.4203630189 - 1.791352860566 710287.3764674539 - 2.035690686481 772418.4449109505 - 2.054733926208 777036.9198803569 - 2.135217703866 796211.9944363403 - 2.205390097242 812483.4695984320 - 2.337069175836 841921.9162339376 - 2.400052677127 855508.7105227754 - 2.709976795998 917887.4764132319 - 2.906166778908 953683.1369595657 - 0.000000354775 0.2906196947 - 0.100000451422 19513.2634463778 - 0.216680479090 39748.3959721948 - 0.256170485518 46269.5761971884 - 0.349370497801 61162.6079209969 - 0.518980514180 86795.4264066388 - 0.527510514873 88040.8340162271 - 0.625830522241 102123.0962793813 - 0.779010531969 123131.5724004874 - 0.875250537290 135795.0326555312 - 1.000000543511 151635.6439794888 - 1.103670548210 164330.2405290414 - 1.225410553279 178718.5941389596 - 1.556330564855 215170.4898863538 - 1.609170566540 220649.2173157646 - 2.000000577822 258450.9003759035 - 2.232540583342 278794.3841070997 - 2.500000588913 300351.1934115614 - 2.547010589815 303945.3249262843 - 3.035630598000 338067.3997362888 - 3.989210609037 389549.8429079261 - 4.266790611311 401278.1215051785 - 4.565810613384 412470.5457318811 - 5.557430617962 440238.5483605151 - 5.715770618417 443504.8788902134 - 5.913880618896 447192.3318101284 - 0.000000354775 0.2906266063 - 0.040000423762 9644.0205979806 - 0.090000447935 20796.2634794141 - 0.099980451411 22957.7649167881 - 0.160000467818 35640.5543741417 - 0.250000484566 53900.6536529949 - 0.400000503301 82924.8785205043 - 0.414940504809 85737.6824193676 - 0.700000527165 137240.1456959747 - 0.791540532681 153012.4584544559 - 1.000000543500 187721.7673509017 - 1.210810552682 221251.2037886376 - 2.053600579142 341565.3876404556 - 2.494080588665 396706.9384901532 - 3.425060603174 498109.8628711273 - 3.889560608115 541790.1033498412 - 4.400920612272 585093.6924148453 - 0.000000354775 0.2906196947 - 0.098338900826 12341.2232698825 - 0.196858399110 23089.5302466465 - 0.391917696699 42480.5196147629 - 0.803006557816 78638.8473876298 - 1.250755457654 113109.6897973657 - 1.574274675301 135521.4333701809 - 2.296042844005 179257.4747508661 - 2.508412265054 190656.0155259956 - 2.995520849013 214507.5787728612 - 3.782928236545 246775.8395146978 - 6.535084347683 306246.9019436477 - 7.892423513917 310025.0651923141 - 9.330817755529 300746.5663215662 - 10.864724329677 280953.3307262626 - 12.285944306515 257797.3910137923 - 13.823369509693 231093.4736766761 - 0.000000453436 0.3969680115 - 0.149100590141 21215.1080567374 - 0.149250590183 21234.4339440460 - 0.153240591284 21747.6860130141 - 0.300450620010 39814.3776482789 - 0.304200620544 40256.6060852154 - 0.608130649919 74043.6890173734 - 0.816600661882 95378.0968341528 - 1.483470684327 156262.3221606132 - 1.573800686358 163774.9543638560 - 2.953560703728 261073.0974366670 - 3.072000704437 268072.4395491340 - 9.591000696538 421919.7061254556 - 15.030000683156 351384.5487324478 - 19.273200674988 272570.7945204542 - 0.000000508194 0.4582106561 - 0.027900597132 4829.4566735059 - 0.088500646707 14262.3541634227 - 0.150300674567 23259.2676564515 - 0.218100695896 32671.3699820581 - 0.300000715194 43547.3754545484 - 0.448200740749 62109.6816957077 - 0.500001747947 68299.2515614478 - 0.600000760170 79851.1159616434 - 0.901200788469 111800.6561654199 - 0.999999795929 121436.3742829687 - 1.219200810354 141472.9029465138 - 1.763400837503 184178.7449122000 - 2.363100858036 221656.8175347614 - 2.499999861681 229037.7491037962 - 2.976300871810 251841.3307798337 - 4.500000880909 301985.6309380182 - 4.757400879061 307907.9722101706 - 0.000000453436 0.3969732245 - 0.113724911184 20124.2879110884 - 0.122504288751 21642.2353108467 - 0.199759087599 34848.8775194979 - 0.207911106221 36226.6815123545 - 0.219344161469 38153.8927958616 - 0.294409454197 50655.5810243894 - 0.368054248483 62656.0473413940 - 0.382318063416 64949.0162160463 - 0.391323876774 66391.4053175537 - 0.432628410104 72953.3241574854 - 0.551485564253 91332.4542540235 - 0.662795051423 107843.0106131856 - 0.663870988303 107999.2141127822 - 0.774404514723 123694.5599008147 - 0.804415742793 127834.7524643317 - 0.809263083676 128498.5721790127 - 0.937413581612 145551.6730944522 - 1.100758443471 165892.8365508262 - 1.205714367686 178136.2070459571 - 1.447619116951 203910.6442118218 - 1.454769752969 204621.1600855576 - 1.660130898819 223790.1663179193 - 1.696356128742 226926.5258828834 - 1.938314490728 246040.9486216545 - 2.039234475808 253093.3391649635 - 2.180641708604 262095.0987371656 - 2.408444030500 274518.5193503642 - 2.652475086161 285138.5118961631 - 0.000000354775 0.2906266063 - 0.015090281713 3192.5782481085 - 0.030170263922 6171.9169752897 - 0.060390246138 11807.5325416611 - 0.120790229405 22236.1978524082 - 0.251400214428 42492.7678195470 - 0.501000205016 75983.8122293879 + 0.000000354775 0.2906196223 + 1.154593258199 519255.6542920702 + 1.428485498028 606754.6452925876 + 1.560813842698 645850.0657248767 + 1.791352860566 709591.1436234079 + 2.035690686481 771627.3565230683 + 2.054733926208 776238.6081217866 + 2.135217703866 795383.4402129246 + 2.205390097242 811628.9348978077 + 2.337069175836 841019.6421506662 + 2.400052677127 854584.0857515580 + 2.709976795998 916857.6909890437 + 2.906166778908 952591.1378276161 + 0.000000354775 0.2906196223 + 0.100000451422 19508.7672981152 + 0.216680479090 39735.0857087590 + 0.256170485518 46252.8013233584 + 0.349370497801 61136.9713893071 + 0.518980514180 86751.8887017430 + 0.527510514873 87996.3510817529 + 0.625830522241 102067.4883088235 + 0.779010531969 123057.9989031117 + 0.875250537290 135709.9215630754 + 1.000000543511 151535.4308684692 + 1.103670548210 164217.4360264516 + 1.225410553279 178591.0436129380 + 1.556330564855 215003.6632812490 + 1.609170566540 220476.2861097834 + 2.000000577822 258234.7846902200 + 2.232540583342 278554.4846162272 + 2.500000588913 300085.9144790295 + 2.547010589815 303675.8122064486 + 3.035630598000 337757.9990752464 + 3.989210609037 389183.8220480264 + 4.266790611311 400900.5193099674 + 4.565810613384 412082.6940336590 + 5.557430617962 439831.0933989645 + 5.715770618417 443096.0585190427 + 5.913880618896 446782.3890750491 + 0.000000354775 0.2906265338 + 0.040000423762 9643.2217647249 + 0.090000447935 20793.6873380932 + 0.099980451411 22954.7691856792 + 0.160000467818 35634.6904866910 + 0.250000484566 53889.6212685137 + 0.400000503301 82903.5761742595 + 0.414940504809 85715.2673307436 + 0.700000527165 137194.2292544623 + 0.791540532681 152958.2809964963 + 1.000000543500 187647.8763558928 + 1.210810552682 221156.4456706681 + 2.053600579142 341383.4474340342 + 2.494080588665 396479.7319600153 + 3.425060603174 497792.8225054493 + 3.889560608115 541432.3581252687 + 4.400920612272 584694.8021340446 + 0.000000354775 0.2906196223 + 0.098338900826 12333.9278033916 + 0.196858399110 23070.5870006276 + 0.391917696699 42432.9809032138 + 0.803006557816 78520.6616742523 + 1.250755457654 112910.5483053333 + 1.574274675301 135265.0628520465 + 2.296042844005 178883.6964177121 + 2.508412265054 190251.1489748536 + 2.995520849013 214038.1750973926 + 3.782928236545 246223.3143102020 + 6.535084347683 305608.0147684987 + 7.892423513917 309436.3141283485 + 9.330817755529 300245.0877049916 + 10.864724329677 280555.7906468844 + 12.285944306515 257488.9649491480 + 13.823369509693 230865.0977013915 + 0.000000453436 0.3969678596 + 0.149100590141 21196.0146568843 + 0.149250590183 21215.3140145133 + 0.153240591284 21727.8569662129 + 0.300450620010 39764.6880715360 + 0.304200620544 40206.0798272053 + 0.608130649919 73917.6929057946 + 0.816600661882 95194.9957309641 + 1.483470684327 155888.8315880110 + 1.573800686358 163375.8567212032 + 2.953560703728 260319.9177012414 + 3.072000704437 267293.0708678694 + 9.591000696538 420800.3864078795 + 15.030000683156 350764.9802975222 + 19.273200674988 272243.1807981596 + 0.000000508194 0.4582104436 + 0.027900597132 4825.0962634548 + 0.088500646707 14239.6527345484 + 0.150300674567 23211.5029251030 + 0.218100695896 32591.4618775841 + 0.300000715194 43424.2089375158 + 0.448200740749 61900.5043154133 + 0.500001747947 68058.5360756988 + 0.600000760170 79548.3131376359 + 0.901200788469 111308.6561471741 + 0.999999795929 120883.4655159202 + 1.219200810354 140789.4979049150 + 1.763400837503 183209.5893769657 + 2.363100858036 220445.0316104023 + 2.499999861681 227780.9974069085 + 2.976300871810 250455.5559177755 + 4.500000880909 300408.8866692793 + 4.757400879061 306322.7305826555 + 0.000000453436 0.3969730726 + 0.113724911184 20120.1169379987 + 0.122504288751 21637.6014189636 + 0.199759087599 34839.6694468250 + 0.207911106221 36216.9467259932 + 0.219344161469 38143.4074242169 + 0.294409454197 50639.8734652335 + 0.368054248483 62634.8395739889 + 0.382318063416 64926.7116877183 + 0.391323876774 66368.4040592333 + 0.432628410104 72927.0910146233 + 0.551485564253 91296.7120223169 + 0.662795051423 107798.3046425713 + 0.663870988303 107954.4219707095 + 0.774404514723 123641.0227973744 + 0.804415742793 127778.8887745313 + 0.809263083676 128442.3350300964 + 0.937413581612 145485.8362862733 + 1.100758443471 165815.6882229186 + 1.205714367686 178052.4330139875 + 1.447619116951 203813.7310668106 + 1.454769752969 204523.9056161966 + 1.660130898819 223684.2831856136 + 1.696356128742 226819.3555040062 + 1.938314490728 245926.9447247600 + 2.039234475808 252977.3622346503 + 2.180641708604 261977.1767202769 + 2.408444030500 274399.3296693120 + 2.652475086161 285020.2244699204 + 0.000000354775 0.2906265338 + 0.015090281713 3192.4618401401 + 0.030170263922 6171.5993800255 + 0.060390246138 11806.6741472964 + 0.120790229405 22233.9137187764 + 0.251400214428 42486.4825452518 + 0.501000205016 75968.0769269417 diff --git a/mytest/Vm_salt_fig.out b/mytest/Vm_salt_fig.out index 6d718f22..e0dda7b4 100644 --- a/mytest/Vm_salt_fig.out +++ b/mytest/Vm_salt_fig.out @@ -3075,7 +3075,7 @@ Reaction 1. pH = 0.554 Charge balance pe = 17.185 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 136024 + Specific Conductance (µS/cm, 25°C) = 136025 Density (g/cm³) = 1.00402 Volume (L) = 1.00966 Viscosity (mPa s) = 0.91122 @@ -5338,7 +5338,7 @@ Reaction 1. pH = -0.169 Charge balance pe = 5.738 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 579599 + Specific Conductance (µS/cm, 25°C) = 579600 Density (g/cm³) = 1.03349 Volume (L) = 1.04220 Viscosity (mPa s) = 1.00572 @@ -5411,7 +5411,7 @@ Reaction 1. pH = -0.185 Charge balance pe = 18.079 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 595842 + Specific Conductance (µS/cm, 25°C) = 595843 Density (g/cm³) = 1.03471 Volume (L) = 1.04380 Viscosity (mPa s) = 1.00955 @@ -5557,7 +5557,7 @@ Reaction 1. pH = -0.199 Charge balance pe = 18.087 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 609711 + Specific Conductance (µS/cm, 25°C) = 609712 Density (g/cm³) = 1.03576 Volume (L) = 1.04520 Viscosity (mPa s) = 1.01286 @@ -5922,7 +5922,7 @@ Reaction 1. pH = -0.317 Charge balance pe = 5.081 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 733467 + Specific Conductance (µS/cm, 25°C) = 733468 Density (g/cm³) = 1.04579 Volume (L) = 1.05932 Viscosity (mPa s) = 1.04566 @@ -6144,7 +6144,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 769421 Density (g/cm³) = 1.04904 Volume (L) = 1.06416 - Viscosity (mPa s) = 1.05690 + Viscosity (mPa s) = 1.05689 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.126e+00 Mass of water (kg) = 1.000e+00 @@ -6871,7 +6871,7 @@ Reaction 1. pH = -0.557 Charge balance pe = 6.090 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 966354 + Specific Conductance (µS/cm, 25°C) = 966355 Density (g/cm³) = 1.07426 Volume (L) = 1.10455 Viscosity (mPa s) = 1.15560 @@ -6944,7 +6944,7 @@ Reaction 1. pH = -0.557 Charge balance pe = 18.462 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 966352 + Specific Conductance (µS/cm, 25°C) = 966353 Density (g/cm³) = 1.07426 Volume (L) = 1.10455 Viscosity (mPa s) = 1.15560 @@ -7236,7 +7236,7 @@ Reaction 1. pH = -0.606 Charge balance pe = 18.608 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1000497 + Specific Conductance (µS/cm, 25°C) = 1000498 Density (g/cm³) = 1.08186 Volume (L) = 1.11759 Viscosity (mPa s) = 1.18859 @@ -7528,7 +7528,7 @@ Reaction 1. pH = -0.651 Charge balance pe = 6.138 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1025390 + Specific Conductance (µS/cm, 25°C) = 1025391 Density (g/cm³) = 1.08942 Volume (L) = 1.13097 Viscosity (mPa s) = 1.22258 @@ -7966,7 +7966,7 @@ Reaction 1. pH = -0.694 Charge balance pe = 6.489 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1042691 + Specific Conductance (µS/cm, 25°C) = 1042692 Density (g/cm³) = 1.09727 Volume (L) = 1.14534 Viscosity (mPa s) = 1.25927 @@ -8404,7 +8404,7 @@ Reaction 1. pH = -0.772 Charge balance pe = 6.122 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1053155 + Specific Conductance (µS/cm, 25°C) = 1053156 Density (g/cm³) = 1.11282 Volume (L) = 1.17538 Viscosity (mPa s) = 1.33792 @@ -8623,7 +8623,7 @@ Reaction 1. pH = -0.813 Charge balance pe = 18.843 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1045398 + Specific Conductance (µS/cm, 25°C) = 1045399 Density (g/cm³) = 1.12171 Volume (L) = 1.19363 Viscosity (mPa s) = 1.38796 @@ -8769,7 +8769,7 @@ Reaction 1. pH = -0.836 Charge balance pe = 18.979 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1036313 + Specific Conductance (µS/cm, 25°C) = 1036314 Density (g/cm³) = 1.12694 Volume (L) = 1.20477 Viscosity (mPa s) = 1.41966 @@ -13339,7 +13339,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 21350 Density (g/cm³) = 1.00569 Volume (L) = 1.00670 - Viscosity (mPa s) = 0.90723 + Viscosity (mPa s) = 0.90722 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.126e-01 Mass of water (kg) = 1.000e+00 @@ -21347,7 +21347,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 85644 Density (g/cm³) = 1.03676 Volume (L) = 1.02197 - Viscosity (mPa s) = 0.97495 + Viscosity (mPa s) = 0.97494 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.019e+00 Mass of water (kg) = 1.000e+00 @@ -26195,7 +26195,7 @@ Reaction 1. pH = 6.950 Charge balance pe = -0.556 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 191257 + Specific Conductance (µS/cm, 25°C) = 191258 Density (g/cm³) = 1.10723 Volume (L) = 1.06413 Viscosity (mPa s) = 1.21067 @@ -26965,7 +26965,7 @@ Reaction 1. pH = 6.950 Charge balance pe = 10.546 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 210855 + Specific Conductance (µS/cm, 25°C) = 210856 Density (g/cm³) = 1.12659 Volume (L) = 1.07751 Viscosity (mPa s) = 1.30119 @@ -27815,7 +27815,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -27892,7 +27892,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 230671 Density (g/cm³) = 1.15201 Volume (L) = 1.09633 - Viscosity (mPa s) = 1.44113 + Viscosity (mPa s) = 1.44112 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -27966,7 +27966,7 @@ Reaction 1. pH = 6.953 Charge balance pe = -0.710 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 232171 + Specific Conductance (µS/cm, 25°C) = 232172 Density (g/cm³) = 1.15436 Volume (L) = 1.09815 Viscosity (mPa s) = 1.45534 @@ -28043,7 +28043,7 @@ Reaction 1. pH = 6.953 Charge balance pe = 11.159 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 233208 + Specific Conductance (µS/cm, 25°C) = 233209 Density (g/cm³) = 1.15603 Volume (L) = 1.09944 Viscosity (mPa s) = 1.46562 @@ -32076,7 +32076,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 30487 Density (g/cm³) = 1.01203 Volume (L) = 1.00639 - Viscosity (mPa s) = 0.94316 + Viscosity (mPa s) = 0.94315 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.998e-01 Mass of water (kg) = 1.000e+00 @@ -32230,7 +32230,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 33498 Density (g/cm³) = 1.01369 Volume (L) = 1.00680 - Viscosity (mPa s) = 0.94870 + Viscosity (mPa s) = 0.94869 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.562e-01 Mass of water (kg) = 1.000e+00 @@ -35310,7 +35310,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 127877 Density (g/cm³) = 1.07867 Volume (L) = 1.02542 - Viscosity (mPa s) = 1.17950 + Viscosity (mPa s) = 1.17949 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.868e+00 Mass of water (kg) = 1.000e+00 @@ -36157,7 +36157,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 158085 Density (g/cm³) = 1.10772 Volume (L) = 1.03527 - Viscosity (mPa s) = 1.30463 + Viscosity (mPa s) = 1.30462 Activity of water = 0.933 Ionic strength (mol/kgw) = 3.968e+00 Mass of water (kg) = 1.000e+00 @@ -36770,10 +36770,10 @@ Reaction 1. pH = 6.603 Charge balance pe = 10.747 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 179132 + Specific Conductance (µS/cm, 25°C) = 179133 Density (g/cm³) = 1.13394 Volume (L) = 1.04497 - Viscosity (mPa s) = 1.43962 + Viscosity (mPa s) = 1.43961 Activity of water = 0.915 Ionic strength (mol/kgw) = 4.999e+00 Mass of water (kg) = 1.000e+00 @@ -38159,7 +38159,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 196878 Density (g/cm³) = 1.16687 Volume (L) = 1.05832 - Viscosity (mPa s) = 1.65320 + Viscosity (mPa s) = 1.65319 Activity of water = 0.892 Ionic strength (mol/kgw) = 6.350e+00 Mass of water (kg) = 1.000e+00 @@ -38390,7 +38390,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 201035 Density (g/cm³) = 1.17935 Volume (L) = 1.06375 - Viscosity (mPa s) = 1.75129 + Viscosity (mPa s) = 1.75128 Activity of water = 0.883 Ionic strength (mol/kgw) = 6.880e+00 Mass of water (kg) = 1.000e+00 @@ -38926,7 +38926,7 @@ Reaction 1. pH = 6.530 Charge balance pe = 11.028 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 204886 + Specific Conductance (µS/cm, 25°C) = 204887 Density (g/cm³) = 1.20036 Volume (L) = 1.07337 Viscosity (mPa s) = 1.94380 @@ -39314,7 +39314,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 204700 Density (g/cm³) = 1.22418 Volume (L) = 1.08508 - Viscosity (mPa s) = 2.21345 + Viscosity (mPa s) = 2.21344 Activity of water = 0.849 Ionic strength (mol/kgw) = 8.875e+00 Mass of water (kg) = 1.000e+00 @@ -40161,7 +40161,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 194979 Density (g/cm³) = 1.26397 Volume (L) = 1.10675 - Viscosity (mPa s) = 2.83015 + Viscosity (mPa s) = 2.83014 Activity of water = 0.817 Ionic strength (mol/kgw) = 1.078e+01 Mass of water (kg) = 1.000e+00 @@ -40235,7 +40235,7 @@ Reaction 1. pH = 6.470 Charge balance pe = 11.306 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 194310 + Specific Conductance (µS/cm, 25°C) = 194311 Density (g/cm³) = 1.26575 Volume (L) = 1.10779 Viscosity (mPa s) = 2.86385 @@ -40700,7 +40700,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 185620 Density (g/cm³) = 1.28590 Volume (L) = 1.11998 - Viscosity (mPa s) = 3.29021 + Viscosity (mPa s) = 3.29020 Activity of water = 0.798 Ionic strength (mol/kgw) = 1.190e+01 Mass of water (kg) = 1.000e+00 @@ -41088,7 +41088,7 @@ Reaction 1. pH = 6.424 Charge balance pe = -1.084 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 165384 + Specific Conductance (µS/cm, 25°C) = 165385 Density (g/cm³) = 1.32320 Volume (L) = 1.14498 Viscosity (mPa s) = 4.35104 @@ -42015,7 +42015,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 137990 Density (g/cm³) = 1.36725 Volume (L) = 1.17947 - Viscosity (mPa s) = 6.26515 + Viscosity (mPa s) = 6.26514 Activity of water = 0.718 Ionic strength (mol/kgw) = 1.656e+01 Mass of water (kg) = 1.000e+00 @@ -44793,7 +44793,7 @@ Reaction 1. pH = -0.222 Charge balance pe = 5.684 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 633958 + Specific Conductance (µS/cm, 25°C) = 633959 Density (g/cm³) = 1.03762 Volume (L) = 1.04773 Viscosity (mPa s) = 1.01879 @@ -45077,7 +45077,7 @@ Reaction 1. pH = -0.579 Charge balance pe = 5.709 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 982788 + Specific Conductance (µS/cm, 25°C) = 982789 Density (g/cm³) = 1.07765 Volume (L) = 1.11031 Viscosity (mPa s) = 1.17017 @@ -45435,7 +45435,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 1022672 Density (g/cm³) = 1.13267 Volume (L) = 1.21733 - Viscosity (mPa s) = 1.45662 + Viscosity (mPa s) = 1.45661 Activity of water = 0.647 Ionic strength (mol/kgw) = 1.039e+01 Mass of water (kg) = 1.000e+00 @@ -48404,7 +48404,7 @@ Reaction 1. pH = 6.727 Charge balance pe = 11.243 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 100557 + Specific Conductance (µS/cm, 25°C) = 100558 Density (g/cm³) = 1.05688 Volume (L) = 1.01864 Viscosity (mPa s) = 1.09696 @@ -54904,7 +54904,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 62738 Density (g/cm³) = 1.04008 Volume (L) = 1.01376 - Viscosity (mPa s) = 0.90385 + Viscosity (mPa s) = 0.90384 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.470e+00 Mass of water (kg) = 1.000e+00 @@ -55279,7 +55279,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 101584 Density (g/cm³) = 1.09566 Volume (L) = 1.02816 - Viscosity (mPa s) = 0.91111 + Viscosity (mPa s) = 0.91110 Activity of water = 0.942 Ionic strength (mol/kgw) = 3.420e+00 Mass of water (kg) = 1.000e+00 @@ -55729,7 +55729,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 132814 Density (g/cm³) = 1.22642 Volume (L) = 1.05429 - Viscosity (mPa s) = 0.92211 + Viscosity (mPa s) = 0.92210 Activity of water = 0.865 Ionic strength (mol/kgw) = 7.920e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Vm_salt_fig_101.sel b/mytest/Vm_salt_fig_101.sel index cc665cf1..d385ebb3 100644 --- a/mytest/Vm_salt_fig_101.sel +++ b/mytest/Vm_salt_fig_101.sel @@ -1,650 +1,650 @@ Mu SC 0.000000100644 0.0547821292 0.000000100644 0.0547821292 - 0.003342159016 1392.6599521565 - 0.003506033126 1460.5049454312 - 0.005794247259 2405.4218145905 - 0.008134008627 3367.9003212761 - 0.010021818944 4142.2954627510 - 0.010869655174 4489.5352232915 - 0.019816549674 8136.9670885373 - 0.020213551092 8298.1953062486 - 0.020612301168 8460.0862399766 - 0.028966781827 11841.7855563637 - 0.029790287274 12174.1354488393 - 0.039274003400 15990.0175680825 - 0.039627602002 16131.8987598470 - 0.049931284098 20254.6281000278 - 0.056928112144 23041.9612922854 - 0.061020805535 24667.9772672030 - 0.074225592453 29892.9046670516 - 0.078405799458 31540.3504891766 - 0.078640476378 31632.7456456198 - 0.089101501046 35741.5520275156 - 0.097103427115 38871.6914386548 - 0.098186410919 39294.4848324059 - 0.113435721786 45226.7721177995 - 0.121233758342 48245.3927055264 - 0.122820693916 48858.4680112149 - 0.134874528967 53501.7391825757 - 0.144612452003 57235.6753080959 - 0.145033778252 57396.8848196897 - 0.148259695255 58630.2534547135 - 0.192378309887 75332.3285454874 - 0.195143205914 76368.8587464653 - 0.210564031020 82128.1936413995 - 0.214535254130 83605.4027658595 - 0.222594959011 86595.9771212517 - 0.247456399649 95758.2778106731 - 0.249325419738 96443.2771256779 - 0.293144468261 112352.5407505184 - 0.304328022127 116367.1143708119 - 0.329360814896 125286.5571156269 - 0.359843596352 136024.9941962823 - 0.362364054412 136906.9202000177 - 0.362276985564 136876.4693339040 - 0.362360309516 136905.6104950223 - 0.382126650926 143790.6525294814 - 0.473755361593 174996.4628314916 - 0.535698782345 195453.6364532955 - 0.565914197890 205252.9032220535 - 0.576342976722 208608.4058862243 - 0.581161074723 210154.0726672366 - 0.601287196919 216579.6070193135 - 0.600333496704 216276.2484938598 - 0.658573945412 234600.5735027542 - 0.659761871313 234970.1377853998 - 0.749624885130 262457.9217145848 - 0.755227070924 264141.6489424512 - 0.842867113742 290045.4733276784 - 0.848636784964 291722.7585332376 - 0.850295521147 292204.3391107653 - 0.914810503890 310721.8434939409 - 0.914990168921 310772.8414272693 - 0.965563745210 325005.6884670103 - 1.091504959465 359432.6362756259 - 1.137937373459 371778.0687770519 - 1.208012682509 390074.4127912960 - 1.409017925332 440459.4662225849 - 1.540379416753 471827.1879134950 - 1.769818491024 523897.3317988577 - 1.872713838251 546185.4274617186 - 1.880369770412 547818.2799015800 - 2.013725030961 575703.8862928450 - 2.032763061960 579599.9328306891 - 2.113266018605 595842.9517638336 - 2.145230056232 602189.1093850678 - 2.183506727571 609711.9324347016 - 2.315431971541 635005.2316577756 - 2.378582554373 646767.2459247140 - 2.441524613921 658269.6865439899 - 2.689705483010 701499.7267580880 - 2.886898434169 733467.9674027690 - 2.945432460951 742558.0674132116 - 2.992665669937 749761.4091254977 - 3.125689049665 769421.8535119931 - 3.283962989016 791628.3347677648 - 3.802877304028 855803.1852207151 - 4.174964449308 894277.1421255664 - 4.174631618033 894245.3309236658 - 4.477087841266 921355.1638828501 - 4.597737568435 931208.5117263658 - 4.783008946775 945341.4284754939 - 4.782889973806 945332.7277169327 - 4.883590158255 952530.2514641027 - 5.091267142911 966354.8101872418 - 5.091235630707 966352.8134099096 - 5.293199681177 978554.2594433012 - 5.402673370148 984684.6939288455 - 5.402398893438 984669.7339581844 - 5.716478519632 1000497.8844726700 - 5.716452235129 1000496.6644869819 - 5.991472833846 1012359.3707127323 - 6.033493140974 1014017.6029403207 - 6.353841900396 1025390.9447304987 - 6.615294381803 1033095.3440132322 - 6.704225458825 1035409.2378455217 - 6.724984792622 1035927.5588602234 - 6.827300514230 1038363.3019243458 - 6.955972621973 1041150.5547300077 - 7.033888119527 1042691.8548750844 - 7.366746384709 1048072.3314789807 - 7.610888503725 1050824.0924570826 - 7.703328964620 1051611.7147825919 - 8.044110766962 1053351.1584321891 - 8.388163345270 1053323.4094357768 - 8.444158512473 1053155.8565566165 - 8.737440454618 1051560.5807544061 - 9.090596962123 1048103.6227349207 - 9.293367068059 1045398.8188910191 - 9.446737147766 1043020.0316635096 - 9.809250541865 1036313.8764073607 + 0.003342159016 1392.6599619809 + 0.003506033126 1460.5049559843 + 0.005794247259 2405.4218369484 + 0.008134008627 3367.9003583844 + 0.010021818944 4142.2955134289 + 0.010869655174 4489.5352805015 + 0.019816549674 8136.9672286877 + 0.020213551092 8298.1954506056 + 0.020612301168 8460.0863885996 + 0.028966781827 11841.7858031186 + 0.029790287274 12174.1357061117 + 0.039274003400 15990.0179562242 + 0.039627602002 16131.8991531960 + 0.049931284098 20254.6286545326 + 0.056928112144 23041.9619658982 + 0.061020805535 24667.9780138378 + 0.074225592453 29892.9056648937 + 0.078405799458 31540.3515712061 + 0.078640476378 31632.7467324389 + 0.089101501046 35741.5533344232 + 0.097103427115 38871.6929222283 + 0.098186410919 39294.4863404186 + 0.113435721786 45226.7739826483 + 0.121233758342 48245.3947615853 + 0.122820693916 48858.4701068755 + 0.134874528967 53501.7415863555 + 0.144612452003 57235.6779698572 + 0.145033778252 57396.8874927888 + 0.148259695255 58630.2562150943 + 0.192378309887 75332.3325774649 + 0.195143205914 76368.8628626149 + 0.210564031020 82128.1982358644 + 0.214535254130 83605.4074858612 + 0.222594959011 86595.9820988968 + 0.247456399649 95758.2836060944 + 0.249325419738 96443.2829839223 + 0.293144468261 112352.5481310464 + 0.304328022127 116367.1221540419 + 0.329360814896 125286.5658192813 + 0.359843596352 136025.0040537192 + 0.362364054412 136906.9301543739 + 0.362276985564 136876.4792849084 + 0.362360309516 136905.6204492344 + 0.382126650926 143790.6632513627 + 0.473755361593 174996.4772684352 + 0.535698782345 195453.6535239612 + 0.565914197890 205252.9216071061 + 0.576342976722 208608.4247290152 + 0.581161074723 210154.0917221793 + 0.601287196919 216579.6269649235 + 0.600333496704 216276.2683971054 + 0.658573945412 234600.5960200671 + 0.659761871313 234970.1603565713 + 0.749624885130 262457.9484143755 + 0.755227070924 264141.6759028722 + 0.842867113742 290045.5044071766 + 0.848636784964 291722.7898864237 + 0.850295521147 292204.3705426871 + 0.914810503890 310721.8780052274 + 0.914990168921 310772.8759471748 + 0.965563745210 325005.7254217029 + 1.091504959465 359432.6793566478 + 1.137937373459 371778.1141348569 + 1.208012682509 390074.4615992905 + 1.409017925332 440459.5249896813 + 1.540379416753 471827.2532116316 + 1.769818491024 523897.4084838744 + 1.872713838251 546185.5092252736 + 1.880369770412 547818.3620419656 + 2.013725030961 575703.9749686531 + 2.032763061960 579600.0224345877 + 2.113266018605 595843.0452764898 + 2.145230056232 602189.2044421380 + 2.183506727571 609712.0293350822 + 2.315431971541 635005.3348553628 + 2.378582554373 646767.3521029103 + 2.441524613921 658269.7956690884 + 2.689705483010 701499.8472427245 + 2.886898434169 733468.0965780189 + 2.945432460951 742558.1991051255 + 2.992665669937 749761.5428261355 + 3.125689049665 769421.9927605342 + 3.283962989016 791628.4803992047 + 3.802877304028 855803.3500202617 + 4.174964449308 894277.3189680339 + 4.174631618033 894245.5077559904 + 4.477087841266 921355.3494777076 + 4.597737568435 931208.7005684038 + 4.783008946775 945341.6220381780 + 4.782889973806 945332.9212766865 + 4.883590158255 952530.4474583691 + 5.091267142911 966355.0109201812 + 5.091235630707 966353.0141421586 + 5.293199681177 978554.4644331038 + 5.402673370148 984684.9010874544 + 5.402398893438 984669.9411114749 + 5.716478519632 1000498.0973315493 + 5.716452235129 1000496.8773454146 + 5.991472833846 1012359.5879681684 + 6.033493140974 1014017.8208204198 + 6.353841900396 1025391.1669781738 + 6.615294381803 1033095.5693264781 + 6.704225458825 1035409.4641028285 + 6.724984792622 1035927.7853308214 + 6.827300514230 1038363.5294073952 + 6.955972621973 1041150.7833957594 + 7.033888119527 1042692.0842085970 + 7.366746384709 1048072.5632626665 + 7.610888503725 1050824.3256331773 + 7.703328964620 1051611.9483986420 + 8.044110766962 1053351.3932659619 + 8.388163345270 1053323.6448721099 + 8.444158512473 1053156.0920331189 + 8.737440454618 1051560.8161842281 + 9.090596962123 1048103.8575542425 + 9.293367068059 1045399.0530979689 + 9.446737147766 1043020.2652855273 + 9.809250541865 1036314.1082489013 0.000000100644 0.0547821292 - 0.004107107471 494.2358535653 - 0.009920110755 1168.5695539593 - 0.010110110839 1190.2975158399 - 0.010290110917 1210.8664440045 - 0.041200118738 4595.9432434706 - 0.050020120105 5525.4520724291 - 0.050030120106 5526.4991336554 - 0.052243120420 5757.8565421103 - 0.052500120456 5784.6790038396 - 0.057600121140 6315.0648970008 - 0.058200121217 6377.2333453024 - 0.061770121665 6746.1760471383 - 0.063200121838 6893.5099753098 - 0.066620122242 7244.8675586370 - 0.076990123371 8302.0526304872 - 0.079400123616 8546.0820508051 - 0.080040123680 8610.7860735186 - 0.093300124921 9942.3641684843 - 0.094850125057 10096.9456686163 - 0.098600125377 10470.0548488859 - 0.099450125448 10554.4563498335 - 0.099700125469 10579.2685252473 - 0.099890125485 10598.1222049875 - 0.099900125486 10599.1144185306 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100000125494 10609.0360846840 - 0.100200125511 10628.8768593877 - 0.100390125526 10647.7224407849 - 0.100390125526 10647.7224407849 - 0.100900125569 10698.2927864576 - 0.103490125780 10954.7727152670 - 0.110940126364 11689.4568514363 - 0.112400126474 11832.9167136837 - 0.119760127014 12553.6214710350 - 0.120759127085 12651.1320996327 - 0.141670128467 14676.0559920167 - 0.143500128579 14851.8642205112 - 0.148600128886 15340.6931453901 - 0.154000129201 15856.5051162248 - 0.155400129281 15989.9427013146 - 0.162253129664 16641.4268843375 - 0.164800129803 16882.8545716146 - 0.165534129842 16952.3600127654 - 0.173500130263 17704.7207641273 - 0.176900130437 18024.7587876473 - 0.178420130514 18167.6294965114 - 0.197490131432 19949.6732690837 - 0.198100131461 20006.3665413966 - 0.198490131478 20042.6032565896 - 0.200000131547 20182.8324934305 - 0.200000131547 20182.8324934305 - 0.200090131552 20191.1869279645 - 0.200090131552 20191.1869279645 - 0.201288131606 20302.3552975832 - 0.201720131625 20342.4252194038 - 0.212622132106 21350.6086761387 - 0.218700132365 21910.2074273176 - 0.230000132829 22946.0299149980 - 0.236310133079 23521.9230549501 - 0.249900133598 24756.3029945149 - 0.250930133636 24849.5341398532 - 0.255400133800 25253.6200876818 - 0.258360133908 25520.7419413503 - 0.262370134052 25882.0402913429 - 0.280763134687 27530.8793791481 - 0.288000134926 28175.9696925486 - 0.299180135285 29168.5746149370 - 0.299720135302 29216.3981286224 - 0.299720135302 29216.3981286224 - 0.299900135308 29232.3368676006 - 0.300000135311 29241.1911974487 - 0.300260135319 29264.2107001912 - 0.300481135326 29283.7752854265 - 0.304200135443 29612.7354322335 - 0.309342135601 30066.7198464941 - 0.320000135923 31004.6263517539 - 0.329360136197 31824.9374020774 - 0.339500136487 32710.1203729456 - 0.347819136718 33433.6761325992 - 0.349500136764 33579.5955818084 - 0.351610136822 33762.6185331606 - 0.355200136919 34073.6716151263 - 0.360790137069 34557.1509437591 - 0.391400137854 37186.3984845392 - 0.399660138057 37890.7383898118 - 0.399660138057 37890.7383898118 - 0.400000138065 37919.6845939451 - 0.400090138067 37927.3462182541 - 0.400090138067 37927.3462182541 - 0.404043138163 38263.6119919863 - 0.405700138202 38404.4214125963 - 0.407040138234 38518.2302903574 - 0.420860138559 39688.7611102324 - 0.421200138567 39717.4848739319 - 0.436430138914 41000.5599446944 - 0.447600139162 41937.1928212216 - 0.447800139166 41953.9298860897 - 0.470800139658 43870.9144103482 - 0.497100140196 46044.4343770526 - 0.499460140243 46238.5254231026 - 0.499460140243 46238.5254231026 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.500000140254 46282.9143815658 - 0.501200140278 46381.5276126800 - 0.501800140290 46430.8192929895 - 0.501900140291 46439.0336054434 - 0.503000140313 46529.3728130644 - 0.505997140372 46775.3367462663 - 0.506771140387 46838.8187754609 - 0.528653140809 48626.7715097634 - 0.561400141412 51278.4959641205 - 0.568740141543 51868.9877925193 - 0.599710142079 54345.1730078662 - 0.599710142079 54345.1730078662 - 0.600000142084 54368.2440359870 - 0.650400142908 58345.8843396820 - 0.652000142933 58471.1312280168 - 0.683549143421 60928.0929679268 - 0.688900143501 61342.4433955777 - 0.699170143655 62135.7836787605 - 0.699170143655 62135.7836787605 - 0.700000143667 62199.7901223303 - 0.702300143701 62377.0732206447 - 0.704580143735 62552.6913700839 - 0.706900143769 62731.2645147300 - 0.719800143958 63721.8839404244 - 0.724400144024 64074.1847565168 - 0.724670144028 64094.8483042050 - 0.799570145064 69762.1499236701 - 0.799570145064 69762.1499236701 - 0.800000145070 69794.3177306934 - 0.800000145070 69794.3177306934 - 0.853820145765 73788.0277868882 - 0.863600145887 74506.8933564132 - 0.874100146018 75276.3582278522 - 0.900000146333 77164.1501463445 - 0.901250146348 77254.8936834582 - 0.901250146348 77254.8936834582 - 0.920800146581 78669.7621612683 - 0.963647147078 81742.2343972796 - 0.980700147271 82954.3072757609 - 0.986500147336 83365.1667251930 - 0.994720147427 83946.2528189946 - 0.995580147437 84006.9664742582 - 0.999200147477 84262.3601304440 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000000147486 84318.7640056531 - 1.000100147487 84325.8135539470 - 1.000100147487 84325.8135539470 - 1.001200147499 84403.3449150051 - 1.003400147523 84558.3323252045 - 1.006900147562 84804.6964541718 - 1.018857147692 85644.4348952266 - 1.021000147715 85794.6255091918 - 1.188800149422 97265.6507915396 - 1.200000149529 98011.3149783687 - 1.200000149529 98011.3149783687 - 1.261020150094 102030.8434388794 - 1.317400150596 105680.7910743081 - 1.384650151170 109955.2715345230 - 1.392300151234 110436.1101424731 - 1.400000151298 110918.9835075863 - 1.413800151411 111781.6173080594 - 1.474580151899 115538.7939196269 - 1.499860152097 117081.4049561398 - 1.501790152112 117198.6932652035 - 1.508800152166 117624.1248397486 - 1.572480152647 121447.7713885845 - 1.585400152742 122214.5742532759 - 1.600000152849 123077.4634874565 - 1.665400153315 126895.8489827062 - 1.672800153366 127323.0977403004 - 1.782430154103 133539.6859490955 - 1.800000154216 134516.4675258683 - 1.899500154836 139947.6537263651 - 1.938400155068 142025.0409968737 - 1.950000155136 142639.5631537853 - 1.954600155163 142882.6246287235 - 1.961000155201 143220.2043158139 - 1.965000155224 143430.8416453941 - 1.993000155385 144897.7824161277 - 1.994000155390 144949.9302288092 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.000000155425 145262.4660265713 - 2.001000155430 145314.4968399155 - 2.003380155444 145438.2630013381 - 2.064300155782 148574.1834640247 - 2.088900155915 149823.0866981023 - 2.251740156746 157841.4050708492 - 2.315600157049 160869.6731906143 - 2.366600157282 163241.8769372391 - 2.397100157418 164641.1019933344 - 2.426460157546 165974.3735425323 - 2.473330157745 168075.2190341945 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.500000157856 169255.6035261244 - 2.513930157913 169867.8165565401 - 2.718600158692 178526.9645270727 - 2.762450158845 180301.7062493201 - 2.811600159011 182257.8576155797 - 2.898600159291 185635.6738797332 - 2.929600159386 186813.3822174564 - 2.940500159419 187224.2758804049 - 2.951430159452 187634.6332250304 - 2.983550159547 188830.9230286989 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.000000159595 189438.0511538605 - 3.023000159661 190280.6628491410 - 3.023400159662 190295.2525496280 - 3.049929159737 191257.9783557594 - 3.093920159857 192833.2205169384 - 3.224900160191 197369.1686310098 - 3.257900160270 198476.1037362410 - 3.432100160651 204085.7845961128 - 3.486500160758 205758.6457561340 - 3.487100160759 205776.8904458890 - 3.500000160784 206168.0697481750 - 3.534500160849 207204.1277415784 - 3.539741160859 207360.2347113662 - 3.660200161068 210855.9920467763 - 3.673600161089 211234.0572891854 - 3.681300161102 211450.3354822842 - 3.944700161469 218432.4795448716 - 3.987300161519 219487.5825840810 - 4.000000161533 219798.2395871696 - 4.000000161533 219798.2395871696 - 4.050567161588 221017.5875808860 - 4.217900161745 224855.9534521323 - 4.339700161836 227465.2303252149 - 4.447300161902 229645.1594890350 - 4.500000161929 230671.0310870819 - 4.500000161929 230671.0310870819 - 4.579735161964 232171.9901899381 - 4.636800161985 233208.9844240859 - 4.928800162038 238047.3894648687 - 4.930300162038 238070.2861868507 - 4.991000162038 238980.5830841756 - 5.000000162038 239112.8694555192 - 5.000000162038 239112.8694555192 - 5.024728162036 239472.7966723462 - 5.116000162028 240756.9180159842 - 5.243240162003 242433.1321955610 - 5.259300161998 242635.4748402033 - 5.346000161972 243692.8767317098 - 5.385900161958 244159.9543140715 - 5.495200161913 245377.7524526062 - 5.542600161890 245878.3036249750 - 5.800000161737 248316.7745560079 - 5.802300161736 248336.4975792200 - 5.822670161721 248509.6218973001 - 5.834500161713 248608.8882077402 - 5.951800161625 249543.1465163145 - 6.000000161586 249901.1716617419 - 6.021600161568 250056.8164055390 - 6.100000161500 250597.1731533318 + 0.004107107471 494.2358573424 + 0.009920110755 1168.5695678298 + 0.010110110839 1190.2975301026 + 0.010290110917 1210.8664586420 + 0.041200118738 4595.9433543306 + 0.050020120105 5525.4522191734 + 0.050030120106 5526.4992804421 + 0.052243120420 5757.8566983581 + 0.052500120456 5784.6791611975 + 0.057600121140 6315.0650768588 + 0.058200121217 6377.2335278651 + 0.061770121665 6746.1762460374 + 0.063200121838 6893.5101808670 + 0.066620122242 7244.8677803752 + 0.076990123371 8302.0529034037 + 0.079400123616 8546.0823360489 + 0.080040123680 8610.7863620624 + 0.093300124921 9942.3645277882 + 0.094850125057 10096.9460364772 + 0.098600125377 10470.0552376855 + 0.099450125448 10554.4567434250 + 0.099700125469 10579.2689202514 + 0.099890125485 10598.1226010662 + 0.099900125486 10599.1148146658 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100000125494 10609.0364813852 + 0.100200125511 10628.8772572213 + 0.100390125526 10647.7228396952 + 0.100390125526 10647.7228396952 + 0.100900125569 10698.2931882621 + 0.103490125780 10954.7731318611 + 0.110940126364 11689.4573114050 + 0.112400126474 11832.9171822940 + 0.119760127014 12553.6219838901 + 0.120759127085 12651.1326185793 + 0.141670128467 14676.0566429313 + 0.143500128579 14851.8648833629 + 0.148600128886 15340.6938418228 + 0.154000129201 15856.5058487071 + 0.155400129281 15989.9434432243 + 0.162253129664 16641.4276728660 + 0.164800129803 16882.8553776661 + 0.165534129842 16952.3608238861 + 0.173500130263 17704.7216308140 + 0.176900130437 18024.7596783516 + 0.178420130514 18167.6303980102 + 0.197490131432 19949.6743089144 + 0.198100131461 20006.3675857384 + 0.198490131478 20042.6043038183 + 0.200000131547 20182.8335518564 + 0.200000131547 20182.8335518564 + 0.200090131552 20191.1879870588 + 0.200090131552 20191.1879870588 + 0.201288131606 20302.3563655851 + 0.201720131625 20342.4262906226 + 0.212622132106 21350.6098293795 + 0.218700132365 21910.2086269715 + 0.230000132829 22946.0312021987 + 0.236310133079 23521.9243917284 + 0.249900133598 24756.3044396891 + 0.250930133636 24849.5355933309 + 0.255400133800 25253.6215773351 + 0.258360133908 25520.7434550832 + 0.262370134052 25882.0418378532 + 0.280763134687 27530.8810782382 + 0.288000134926 28175.9714526479 + 0.299180135285 29168.5764703250 + 0.299720135302 29216.3999886442 + 0.299720135302 29216.3999886442 + 0.299900135308 29232.3387291676 + 0.300000135311 29241.1930598743 + 0.300260135319 29264.2125648496 + 0.300481135326 29283.7771519834 + 0.304200135443 29612.7373308080 + 0.309342135601 30066.7217895563 + 0.320000135923 31004.6283878204 + 0.329360136197 31824.9395206818 + 0.339500136487 32710.1225818466 + 0.347819136718 33433.6784162455 + 0.349500136764 33579.5978806297 + 0.351610136822 33762.6208510632 + 0.355200136919 34073.6739655794 + 0.360790137069 34557.1533451078 + 0.391400137854 37186.4011689752 + 0.399660138057 37890.7411518567 + 0.399660138057 37890.7411518567 + 0.400000138065 37919.6873591953 + 0.400090138067 37927.3489843529 + 0.400090138067 37927.3489843529 + 0.404043138163 38263.6147954146 + 0.405700138202 38404.4242317056 + 0.407040138234 38518.2331221622 + 0.420860138559 39688.7640737064 + 0.421200138567 39717.4878406618 + 0.436430138914 41000.5630580722 + 0.447600139162 41937.1960431226 + 0.447800139166 41953.9331099412 + 0.470800139658 43870.9178601524 + 0.497100140196 46044.4380890741 + 0.499460140243 46238.5291588452 + 0.499460140243 46238.5291588452 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.500000140254 46282.9181227403 + 0.501200140278 46381.5313659313 + 0.501800140290 46430.8230522822 + 0.501900140291 46439.0373657432 + 0.503000140313 46529.3765844456 + 0.505997140372 46775.3405478731 + 0.506771140387 46838.8225848815 + 0.528653140809 48626.7755414007 + 0.561400141412 51278.5003327981 + 0.568740141543 51868.9922374384 + 0.599710142079 54345.1777771009 + 0.599710142079 54345.1777771009 + 0.600000142084 54368.2488082779 + 0.650400142908 58345.8896481599 + 0.652000142933 58471.1365536725 + 0.683549143421 60928.0986340983 + 0.688900143501 61342.4491198311 + 0.699170143655 62135.7895147416 + 0.699170143655 62135.7895147416 + 0.700000143667 62199.7959673553 + 0.702300143701 62377.0790907421 + 0.704580143735 62552.6972650515 + 0.706900143769 62731.2704350203 + 0.719800143958 63721.8900018083 + 0.724400144024 64074.1908683299 + 0.724670144028 64094.8544189800 + 0.799570145064 69762.1568674134 + 0.799570145064 69762.1568674134 + 0.800000145070 69794.3246792344 + 0.800000145070 69794.3246792344 + 0.853820145765 73788.0353388894 + 0.863600145887 74506.9010186531 + 0.874100146018 75276.3660086251 + 0.900000146333 77164.1582202370 + 0.901250146348 77254.9017715224 + 0.901250146348 77254.9017715224 + 0.920800146581 78669.7704712570 + 0.963647147078 81742.2431952895 + 0.980700147271 82954.3162685392 + 0.986500147336 83365.1757842758 + 0.994720147427 83946.2619720956 + 0.995580147437 84006.9756371988 + 0.999200147477 84262.3693348091 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000000147486 84318.7732191742 + 1.000100147487 84325.8227686126 + 1.000100147487 84325.8227686126 + 1.001200147499 84403.3541422610 + 1.003400147523 84558.3415776439 + 1.006900147562 84804.7057466833 + 1.018857147692 85644.4443247018 + 1.021000147715 85794.6349632245 + 1.188800149422 97265.6621733539 + 1.200000149529 98011.3264888832 + 1.200000149529 98011.3264888832 + 1.261020150094 102030.8556497941 + 1.317400150596 105680.8039305650 + 1.384650151170 109955.2851572327 + 1.392300151234 110436.1238520939 + 1.400000151298 110918.9973046230 + 1.413800151411 111781.6312616004 + 1.474580151899 115538.8085597524 + 1.499860152097 117081.4198804089 + 1.501790152112 117198.7082111286 + 1.508800152166 117624.1398642859 + 1.572480152647 121447.7871238348 + 1.585400152742 122214.5901319307 + 1.600000152849 123077.4795278237 + 1.665400153315 126895.8657428168 + 1.672800153366 127323.1145813512 + 1.782430154103 133539.7039764063 + 1.800000154216 134516.4857409392 + 1.899500154836 139947.6729914858 + 1.938400155068 142025.0606661158 + 1.950000155136 142639.5829428126 + 1.954600155163 142882.6444651586 + 1.961000155201 143220.2242181190 + 1.965000155224 143430.8615888155 + 1.993000155385 144897.8026462213 + 1.994000155390 144949.9504691039 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.000000155425 145262.4863280182 + 2.001000155430 145314.5171515455 + 2.003380155444 145438.2833371931 + 2.064300155782 148574.2044148925 + 2.088900155915 149823.1078945059 + 2.251740156746 157841.4278500433 + 2.315600157049 160869.6965696091 + 2.366600157282 163241.9007864970 + 2.397100157418 164641.1261200593 + 2.426460157546 165974.3979336612 + 2.473330157745 168075.2438418930 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.500000157856 169255.6285678042 + 2.513930157913 169867.8417195440 + 2.718600158692 178526.9914014943 + 2.762450158845 180301.7334728570 + 2.811600159011 182257.8852229873 + 2.898600159291 185635.7021472638 + 2.929600159386 186813.4107142067 + 2.940500159419 187224.3044570021 + 2.951430159452 187634.6618813022 + 2.983550159547 188830.9519168393 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.000000159595 189438.0801594375 + 3.023000159661 190280.6920174240 + 3.023400159662 190295.2817207254 + 3.049929159737 191258.0077123337 + 3.093920159857 192833.2501759789 + 3.224900160191 197369.1991530474 + 3.257900160270 198476.1344668630 + 3.432100160651 204085.8163692634 + 3.486500160758 205758.6778348404 + 3.487100160759 205776.9225279129 + 3.500000160784 206168.1019012466 + 3.534500160849 207204.1600820636 + 3.539741160859 207360.2670799918 + 3.660200161068 210856.0250383575 + 3.673600161089 211234.0903472616 + 3.681300161102 211450.3685783180 + 3.944700161469 218432.5138303227 + 3.987300161519 219487.6170423742 + 4.000000161533 219798.2740959610 + 4.000000161533 219798.2740959610 + 4.050567161588 221017.6222860875 + 4.217900161745 224855.9887551154 + 4.339700161836 227465.2660142613 + 4.447300161902 229645.1954858805 + 4.500000161929 230671.0672235818 + 4.500000161929 230671.0672235818 + 4.579735161964 232172.0265241683 + 4.636800161985 233209.0208899798 + 4.928800162038 238047.4264813153 + 4.930300162038 238070.3232056129 + 4.991000162038 238980.6201924084 + 5.000000162038 239112.9065763208 + 5.000000162038 239112.9065763208 + 5.024728162036 239472.8338267643 + 5.116000162028 240756.9552830090 + 5.243240162003 242433.1695902851 + 5.259300161998 242635.5122486886 + 5.346000161972 243692.9142056172 + 5.385900161958 244159.9918131469 + 5.495200161913 245377.7900051500 + 5.542600161890 245878.3411938351 + 5.800000161737 248316.8121447770 + 5.802300161736 248336.5351676656 + 5.822670161721 248509.6594825078 + 5.834500161713 248608.9257907619 + 5.951800161625 249543.1840657547 + 6.000000161586 249901.2091912730 + 6.021600161568 250056.8539250249 + 6.100000161500 250597.2106306439 0.000000100644 0.0547821292 - 0.002739104433 234.0345602588 - 0.005514104923 461.9003607498 - 0.009609104906 788.8791358609 - 0.018615103928 1483.0541232976 - 0.037680100829 2883.8069266484 - 0.067050095716 4933.0180497950 - 0.098610090406 7041.8711480372 - 0.100200090145 7146.1554557570 - 0.135000084617 9390.4144009642 - 0.150000082328 10337.9805266431 - 0.150030082323 10339.8650305993 - 0.151500082102 10432.1554031565 - 0.178200078162 12092.2099791468 - 0.199050075189 13368.9105402602 - 0.200100075041 13432.7847495888 - 0.205500074286 13760.6703378618 - 0.217200072667 14467.6728250368 - 0.244800068942 16118.0283083289 - 0.251100068109 16491.4975045785 - 0.287490063414 18626.9594169641 - 0.292500062783 18918.1948027015 - 0.299700061881 19335.6199680505 - 0.300000061844 19352.9844645974 - 0.303000061470 19526.5059965934 - 0.391950050891 24577.1182805365 - 0.395100050533 24752.8653523735 - 0.421800047535 26234.6572941625 - 0.430500046573 26714.5163673383 - 0.431700046441 26780.5916528681 - 0.499800039159 30487.6387705040 - 0.535500035497 32399.1463338427 - 0.556200033419 33498.0299318078 - 0.567300032318 34084.5031714994 - 0.584400030639 34984.2596639553 - 0.588690030221 35209.2871640145 - 0.613800027801 36520.8636144283 - 0.754500014979 43704.4739520089 - 0.760500014458 44004.8807649847 - 0.789750011945 45462.7457306408 - 0.789900011933 45470.1939027645 - 0.877800004643 49786.9269956936 - 0.983999996310 54880.0103738233 - 1.000199995081 55645.6342797569 - 1.010999994267 56154.4301745149 - 1.046399991633 57813.1609217803 - 1.079699989198 59361.0824317819 - 1.180799982048 63988.8406303194 - 1.202099980585 64950.3655439138 - 1.249199977403 67060.3034000006 - 1.446899964748 75680.4263182381 - 1.460699963904 76268.3055026276 - 1.497899961651 77844.2703166432 - 1.499999961525 77932.8573373708 - 1.505699961183 78173.1046325017 - 1.507799961057 78261.5420101064 - 1.588499956301 81629.8203713296 - 1.662599952060 84671.4475927949 - 1.720199948842 87002.5663549000 - 1.752899947045 88313.2046790991 - 1.782599945429 89495.6699616138 - 1.812899943798 90694.2986120088 - 1.841699942263 91826.4047984345 - 1.999499934103 97907.0138264853 - 2.007299933710 98202.2778795536 - 2.008799933635 98259.0028604266 - 2.146199926863 103378.2695997288 - 2.326199918382 109859.1943657013 - 2.366999916515 111293.3233953670 - 2.558399908008 117852.4247836977 - 2.601899906129 119304.8321063772 - 2.724599900926 123326.3302574856 - 2.867699895031 127877.6701716580 - 2.978699890578 131306.5447497703 - 2.996699889865 131854.2977912780 - 2.999999889734 131954.4696017674 - 3.014999889142 132408.8224188397 - 3.057599887471 133690.4980401126 - 3.273899879187 140001.5467240358 - 3.473399871825 145534.9249400574 - 3.482099871510 145770.0232683601 - 3.567299868445 148045.1526552977 - 3.824699859437 154621.1394733315 - 3.967799854581 158085.8294968141 - 4.319999843055 166040.6656413046 - 4.426199839691 168281.5536657158 - 4.500299837372 169802.2959086657 - 4.561799835465 171037.8606802541 - 4.568099835270 171163.0728901810 - 4.570199835206 171204.7546228845 - 4.621799833619 172220.1418810427 - 4.998899822350 179132.9953920488 - 5.047499820937 179959.6181973234 - 5.129999818559 181329.6149406644 - 5.267099814661 183514.4178763547 - 5.272499814509 183598.1358916136 - 5.303399813640 184073.7993830509 - 5.345399812465 184711.0982232204 - 5.636399804488 188837.1885550586 - 5.710199802510 189804.0610491609 - 5.822099799544 191209.5315978887 - 5.845199798937 191490.6371287081 - 5.936999796541 192577.4214225247 - 5.998499794951 193278.5308914104 - 5.999999794912 193295.3621831300 - 6.017999794449 193496.3413909682 - 6.062699793303 193987.5014490860 - 6.278699787852 196202.8933161920 - 6.318899786853 196586.6065632062 - 6.350099786081 196878.2924870482 - 6.634499779174 199293.7825090404 - 6.678299778131 199627.3630399573 - 6.880199773392 201035.3114651091 - 7.231799765402 202991.6522745412 - 7.233599765362 203000.0903994355 - 7.499999759526 204077.0654462539 - 7.501199759500 204081.1555213316 - 7.521899759054 204150.6525791940 - 7.765499753887 204820.5075469729 - 7.796699753236 204886.9269445365 - 7.913999750809 205098.1856921088 - 8.360999741857 205366.8948817894 - 8.517299738835 205269.7706367018 - 8.727299734860 204992.2107349431 - 8.874899732124 204700.0780841178 - 8.999999729842 204392.1085186687 - 9.050999728921 204251.0812386186 - 9.110399727855 204075.7472256088 - 9.431399722221 202929.4888810748 - 9.680399717994 201822.0759629608 - 9.685499717909 201797.5069664364 - 9.999599712753 200146.3488284613 - 10.063499711728 199778.4806963387 - 10.332899707487 198116.7342829745 - 10.673699702314 195776.6915946522 - 10.782299700709 194979.7873660435 - 10.871099699412 194310.9864307915 - 11.166299695200 191983.4725768234 - 11.576699689589 188509.1413032030 - 11.727899687592 187167.5980697313 - 11.770499687036 186784.1956617276 - 11.871299685732 185867.9440895826 - 11.898299685385 185620.4222589948 - 11.999999684091 184680.4476159332 - 11.999999684091 184680.4476159332 - 12.174899681902 183037.1645458660 - 12.641099676301 178513.4200437282 - 13.921799662565 165384.9955607086 - 14.092799660906 163590.2674257388 - 14.287499659066 161542.3917435134 - 14.518199656951 159113.0478658595 - 14.574899656442 158515.9246748570 - 14.791499654536 156236.1309909447 - 14.939999653265 154675.3546064986 - 15.001199652749 154032.9012590271 - 15.196199651138 151989.7357136226 - 15.269699650544 151221.4103604266 - 16.079699644437 142846.8925740054 - 16.104899644259 142589.6947856017 - 16.559699641194 137990.3651339372 - 16.649399640618 137093.4006812086 - 16.856699639324 135034.2807094516 - 17.129099637698 132359.1997401129 - 17.606699635053 127758.6513863083 - 17.766599634225 126245.1952963915 - 17.993999633096 124116.8853208257 - 17.999999633067 124061.1169009334 - 18.451799630995 119920.2063608917 - 18.754199629731 117214.2380220307 - 18.857399629322 116303.0205141542 - 19.237199627913 113003.7753567870 - 19.393199627378 111673.5034853664 - 19.975199625603 106839.0886400732 - 20.000399625534 106634.3469034202 - 20.557499624170 102205.0019323806 - 21.229799622931 97104.5788451067 - 21.998999622048 91590.5529108584 - 22.024199622029 91415.5920729778 - 22.376699621818 89005.3233580679 - 23.634899621996 80949.3182071490 - 0.000001010044 0.4288236427 - 0.001999751161 835.7649178668 - 0.003996195098 1663.2822617372 - 0.005990495295 2486.2796707851 - 0.007982761630 3305.7791209899 - 0.009973079965 4122.3240086584 - 0.029781408911 12170.5532168161 - 0.049442399865 20059.5087450277 - 0.068980012894 27821.1417685145 - 0.088411004595 35470.9319844147 - 0.278940504652 107227.0048166831 - 0.466204569000 172468.1689505187 - 0.652963167433 232852.8202964936 - 0.840628655800 289393.8240158590 - 1.317886830152 417987.8823134725 - 1.808424014987 532334.8505725552 - 2.309871699149 633958.9432112369 - 2.818090285474 722549.6758264460 - 3.329335101602 797760.5971829658 - 4.351731375434 910548.0547532070 - 5.368183890289 982788.8632425081 - 6.378328552609 1026171.0350737892 - 7.384025473651 1048299.6804200414 - 8.387041003050 1053326.3095886388 - 9.388572052006 1043955.2462675723 - 10.389325371225 1022672.1261263337 + 0.002739104433 234.0345639392 + 0.005514104923 461.9003710415 + 0.009609104906 788.8791590280 + 0.018615103928 1483.0541837564 + 0.037680100829 2883.8070931932 + 0.067050095716 4933.0184277943 + 0.098610090406 7041.8717990995 + 0.100200090145 7146.1561216035 + 0.135000084617 9390.4154113274 + 0.150000082328 10337.9816966243 + 0.150030082323 10339.8662009057 + 0.151500082102 10432.1565894334 + 0.178200078162 12092.2114649371 + 0.199050075189 13368.9122714707 + 0.200100075041 13432.7864934073 + 0.205500074286 13760.6721468839 + 0.217200072667 14467.6747773647 + 0.244800068942 16118.0306091059 + 0.251100068109 16491.4998868252 + 0.287490063414 18626.9622827262 + 0.292500062783 18918.1977366671 + 0.299700061881 19335.6230006896 + 0.300000061844 19352.9875013644 + 0.303000061470 19526.5090747124 + 0.391950050891 24577.1226390788 + 0.395100050533 24752.8697580138 + 0.421800047535 26234.6621033108 + 0.430500046573 26714.5213095691 + 0.431700046441 26780.5966135149 + 0.499800039159 30487.6447984200 + 0.535500035497 32399.1529371310 + 0.556200033419 33498.0368732013 + 0.567300032318 34084.5102954754 + 0.584400030639 34984.2670708837 + 0.588690030221 35209.2946422395 + 0.613800027801 36520.8715123630 + 0.754500014979 43704.4842675729 + 0.760500014458 44004.8911857864 + 0.789750011945 45462.7566666148 + 0.789900011933 45470.2048413892 + 0.877800004643 49786.9395016289 + 0.983999996310 54880.0248042577 + 1.000199995081 55645.6490061333 + 1.010999994267 56154.4450984847 + 1.046399991633 57813.1764949687 + 1.079699989198 59361.0986176338 + 1.180799982048 63988.8586853529 + 1.202099980585 64950.3839940876 + 1.249199977403 67060.3227250718 + 1.446899964748 75680.4493219827 + 1.460699963904 76268.3287629610 + 1.497899961651 77844.2942681980 + 1.499999961525 77932.8813279237 + 1.505699961183 78173.1287288931 + 1.507799961057 78261.5661454859 + 1.588499956301 81629.8460025544 + 1.662599952060 84671.4745923449 + 1.720199948842 87002.5944137788 + 1.752899947045 88313.2333374421 + 1.782599945429 89495.6991631079 + 1.812899943798 90694.3283662564 + 1.841699942263 91826.4350767201 + 1.999499934103 97907.0469499570 + 2.007299933710 98202.3111424151 + 2.008799933635 98259.0361500796 + 2.146199926863 103378.3053228135 + 2.326199918382 109859.2332087465 + 2.366999916515 111293.3629338911 + 2.558399908008 117852.4675220047 + 2.601899906129 119304.8755567545 + 2.724599900926 123326.3756844600 + 2.867699895031 127877.7178418275 + 2.978699890578 131306.5941118913 + 2.996699889865 131854.3474237004 + 2.999999889734 131954.5192836203 + 3.014999889142 132408.8723248880 + 3.057599887471 133690.5485784816 + 3.273899879187 140001.6003703618 + 3.473399871825 145534.9812956234 + 3.482099871510 145770.0797385411 + 3.567299868445 148045.2102320499 + 3.824699859437 154621.2002152358 + 3.967799854581 158085.8918803074 + 4.319999843055 166040.7316968887 + 4.426199839691 168281.6207243768 + 4.500299837372 169802.3636383792 + 4.561799835465 171037.9289488715 + 4.568099835270 171163.1412130780 + 4.570199835206 171204.8229638367 + 4.621799833619 172220.2106596253 + 4.998899822350 179133.0670182912 + 5.047499820937 179959.6901457638 + 5.129999818559 181329.6874127192 + 5.267099814661 183514.4911538680 + 5.272499814509 183598.2091992043 + 5.303399813640 184073.8728603572 + 5.345399812465 184711.1719246842 + 5.636399804488 188837.2636048870 + 5.710199802510 189804.1363846947 + 5.822099799544 191209.6073238624 + 5.845199798937 191490.7129289126 + 5.936999796541 192577.4974963695 + 5.998499794951 193278.6071296273 + 5.999999794912 193295.4384251673 + 6.017999794449 193496.4176781522 + 6.062699793303 193987.5778428245 + 6.278699787852 196202.9701146092 + 6.318899786853 196586.6834170866 + 6.350099786081 196878.3693797470 + 6.634499779174 199293.8595887751 + 6.678299778131 199627.4401223779 + 6.880199773392 201035.3884729765 + 7.231799765402 202991.7288266976 + 7.233599765362 203000.1669482420 + 7.499999759526 204077.1413912473 + 7.501199759500 204081.2314631325 + 7.521899759054 204150.7284652752 + 7.765499753887 204820.5826878653 + 7.796699753236 204887.0019784533 + 7.913999750809 205098.2603014483 + 8.360999741857 205366.9675720748 + 8.517299738835 205269.8425539026 + 8.727299734860 204992.2815398329 + 8.874899732124 204700.1480608299 + 8.999999729842 204392.1777659484 + 9.050999728921 204251.1501817191 + 9.110399727855 204075.8158096853 + 9.431399722221 202929.5554442083 + 9.680399717994 201822.1408771021 + 9.685499717909 201797.5718461620 + 9.999599712753 200146.4115464215 + 10.063499711728 199778.5429655188 + 10.332899707487 198116.7946337093 + 10.673699702314 195776.7494731829 + 10.782299700709 194979.8444498838 + 10.871099699412 194311.0428632959 + 11.166299695200 191983.5268393393 + 11.576699689589 188509.1925563952 + 11.727899687592 187167.6482220428 + 11.770499687036 186784.2455049790 + 11.871299685732 185867.9932037514 + 11.898299685385 185620.4711784385 + 11.999999684091 184680.4958042348 + 11.999999684091 184680.4958042348 + 12.174899681902 183037.2114861880 + 12.641099676301 178513.4637269797 + 13.921799662565 165385.0309772181 + 14.092799660906 163590.3018259901 + 14.287499659066 161542.4250134712 + 14.518199656951 159113.0798338883 + 14.574899656442 158515.9563291438 + 14.791499654536 156236.1614694319 + 14.939999653265 154675.3842996857 + 15.001199652749 154032.9306334993 + 15.196199651138 151989.7640916947 + 15.269699650544 151221.4383704589 + 16.079699644437 142846.9167963592 + 16.104899644259 142589.7188978546 + 16.559699641194 137990.3873366029 + 16.649399640618 137093.4225242622 + 16.856699639324 135034.3017423165 + 17.129099637698 132359.2197517360 + 17.606699635053 127758.6697217099 + 17.766599634225 126245.2131018540 + 17.993999633096 124116.9023985810 + 17.999999633067 124061.1339598926 + 18.451799630995 119920.2220622768 + 18.754199629731 117214.2528760205 + 18.857399629322 116303.0350896957 + 19.237199627913 113003.7889526737 + 19.393199627378 111673.5166986958 + 19.975199625603 106839.1005217550 + 20.000399625534 106634.3587306992 + 20.557499624170 102205.0126213584 + 21.229799622931 97104.5883124432 + 21.998999622048 91590.5611605676 + 22.024199622029 91415.6002857549 + 22.376699621818 89005.3310725049 + 23.634899621996 80949.3243933194 + 0.000001010044 0.4288236428 + 0.001999751161 835.7649224250 + 0.003996195098 1663.2822745701 + 0.005990495295 2486.2796942839 + 0.007982761630 3305.7791570724 + 0.009973079965 4122.3240589688 + 0.029781408911 12170.5534739743 + 0.049442399865 20059.5092914916 + 0.068980012894 27821.1426638143 + 0.088411004595 35470.9332764076 + 0.278940504652 107227.0116937711 + 0.466204569000 172468.1830725870 + 0.652963167433 232852.8425597002 + 0.840628655800 289393.8549892515 + 1.317886830152 417987.9365568684 + 1.808424014987 532334.9291658353 + 2.309871699149 633959.0461452907 + 2.818090285474 722549.8020056016 + 3.329335101602 797760.7445991235 + 4.351731375434 910548.2368257049 + 5.368183890289 982789.0697281603 + 6.378328552609 1026171.2576272519 + 7.384025473651 1048299.9123133934 + 8.387041003050 1053326.5450240031 + 9.388572052006 1043955.4801235397 + 10.389325371225 1022672.3540453851 0.000001100730 0.1802865715 - 0.002001105536 243.7982376904 - 0.004001107390 481.7303003853 - 0.006001108747 716.2420525701 - 0.008001109850 948.1264334436 - 0.010001110791 1177.8345892182 - 0.030001116648 3396.1973660559 - 0.050001120102 5523.4626237480 - 0.070001122698 7590.8669509119 - 0.090001124701 9612.6307519497 - 0.290001135065 28353.9767972598 - 0.490001140128 45459.6647612392 - 0.690001144305 61427.6137454598 - 0.890001147000 76437.0636569422 - 1.390001152003 110291.7225971963 - 1.890001155676 139436.4724688962 - 2.390001158284 164316.7202675135 - 2.890001160162 185306.5962383069 - 3.390001161462 202765.6512011855 - 3.890001170575 217047.9510752505 - 4.390001173885 228498.7060661910 - 4.890001175181 237448.3477499339 - 5.390001175601 244207.2721030131 - 5.890001175559 249062.1851582030 - 6.390001175225 252274.1197716819 - 6.890001174683 254077.8720496529 - 0.000003100811 0.3102380795 - 0.006003104952 501.4527269052 - 0.012003104729 976.2758627508 - 0.018003104018 1436.7202349072 - 0.024003103124 1886.7352025698 - 0.030003102145 2328.4818344791 - 0.090003091833 6474.3504968989 - 0.150003082333 10338.1689833652 - 0.210003073706 14033.3213280488 - 0.270003065693 17605.2832250870 - 0.870003005321 49407.8150993848 - 1.470002963384 76663.6184418146 - 2.070002931298 100557.9922936818 - 2.670002903938 121550.5782223586 - 3.420002874485 144080.6689337552 - 4.170002848608 162751.6277307898 - 4.920002825376 177760.0112286829 - 5.670002813446 189281.3844989563 - 6.420002797323 197512.4910119021 - 7.170002780967 202692.3685840163 - 7.920002765410 205107.3787940719 - 8.670002750920 205084.2843752404 - 9.420002737537 202975.7434549917 + 0.002001105536 243.7982389913 + 0.004001107390 481.7303040191 + 0.006001108747 716.2420591851 + 0.008001109850 948.1264435525 + 0.010001110791 1177.8346032554 + 0.030001116648 3396.1974360300 + 0.050001120102 5523.4627704120 + 0.070001122698 7590.8671889942 + 0.090001124701 9612.6310932351 + 0.290001135065 28353.9785743220 + 0.490001140128 45459.6684020934 + 0.690001144305 61427.6194816751 + 0.890001147000 76437.0716175530 + 1.390001152003 110291.7362807048 + 1.890001155676 139436.4916347747 + 2.390001158284 164316.7443299105 + 2.890001160162 185306.6244416961 + 3.390001161462 202765.6827313652 + 3.890001170575 217047.9851309062 + 4.390001173885 228498.7419029523 + 4.890001175181 237448.3847047172 + 5.390001175601 244207.3096045018 + 5.890001175559 249062.2227280050 + 6.390001175225 252274.1570196099 + 6.890001174683 254077.9086656620 + 0.000003100811 0.3102380797 + 0.006003104952 501.4527385606 + 0.012003104729 976.2758947692 + 0.018003104018 1436.7202925156 + 0.024003103124 1886.7352897941 + 0.030003102145 2328.4819546668 + 0.090003091833 6474.3510695371 + 0.150003082333 10338.1701533788 + 0.210003073706 14033.3231919005 + 0.270003065693 17605.2858558263 + 0.870003005321 49407.8274652510 + 1.470002963384 76663.6418750748 + 2.070002931298 100558.0266724260 + 2.670002903938 121550.6227757325 + 3.420002874485 144080.7245793392 + 4.170002848608 162751.6922870688 + 4.920002825376 177760.0823101276 + 5.670002813446 189281.4596816682 + 6.420002797323 197512.5679782681 + 7.170002780967 202692.4452450667 + 7.920002765410 205107.4533807492 + 8.670002750920 205084.3554915765 + 9.420002737537 202975.8100920274 0.000001009935 0.4310074448 0.001999751285 823.1444157864 0.003996196022 1623.8504528913 diff --git a/mytest/Yang_mix.out b/mytest/Yang_mix.out index e9aaf847..6a2fcff2 100644 --- a/mytest/Yang_mix.out +++ b/mytest/Yang_mix.out @@ -1497,7 +1497,7 @@ Initial solution 20. Specific Conductance (µS/cm, 25°C) = 41714 Density (g/cm³) = 1.02676 Volume (L) = 1.01055 - Viscosity (mPa s) = 0.95173 + Viscosity (mPa s) = 0.95172 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.894e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/Yang_mix_101.sel b/mytest/Yang_mix_101.sel index 69b0f155..8ea9e528 100644 --- a/mytest/Yang_mix_101.sel +++ b/mytest/Yang_mix_101.sel @@ -1,37 +1,37 @@ Mu SC Viscosity - 0.169020339353 16495.6377454102 0.9039171199 - 0.168471053818 16229.5691423069 0.9048776605 - 0.169016012718 16004.1363412902 0.9063155613 - 0.187827106480 17390.3915318201 0.9080777869 - 0.185639119965 16482.3522667892 0.9120563211 - 0.203208299690 17555.8388504160 0.9155798082 - 0.314839643858 29975.5616040935 0.9156561462 - 0.313548256413 29455.0088062610 0.9176341695 - 0.312435971506 28964.6699578683 0.9196510463 - 0.347901719965 31546.7464531219 0.9238076689 - 0.452755463540 42291.0637959388 0.9273511927 - 0.450125208113 41502.1139646218 0.9302628956 - 0.342670259459 29726.4100517263 0.9318240638 - 0.447551518021 40696.1776986994 0.9331280248 - 0.374455592457 31710.7689454140 0.9387934925 - 0.498611182133 44445.2048561834 0.9396238465 - 0.585033049374 53756.4083053557 0.9391260371 - 0.581107921165 52680.3019932172 0.9429878396 - 0.577152373860 51613.1452533262 0.9467485766 - 0.489387821606 41714.5103131795 0.9517251265 - 0.643388712695 56482.3780336577 0.9557807397 - 0.712695897908 64550.8918809983 0.9509484818 - 0.706941652149 63153.8162183514 0.9556827954 - 0.534816039586 44562.6886166324 0.9626197795 - 0.701767149468 61775.1919631711 0.9605210678 - 0.837599056339 74822.1260256248 0.9631569322 - 0.830206846114 73118.1131020358 0.9688094263 - 0.784026295666 67844.2804126944 0.9724021106 - 0.629995753578 52835.3246309021 0.9721154562 - 0.822608485822 71380.6145478223 0.9743684327 - 0.688868696508 56511.4667671681 0.9873455320 - 0.920534673640 78631.6037753217 0.9892267965 - 0.765258058479 63190.5654367156 0.9929994050 - 0.838167104014 67750.0212966858 1.0130935432 - 0.896422486768 72950.2210123511 1.0141900990 - 0.983904210897 78393.5481868727 1.0399718382 + 0.169020339353 16495.6381982862 0.9039170475 + 0.168471053818 16229.5696055288 0.9048775876 + 0.169016012718 16004.1368242125 0.9063154869 + 0.187827106480 17390.3919805675 0.9080777024 + 0.185639119965 16482.3527655280 0.9120562344 + 0.203208299690 17555.8393406480 0.9155797096 + 0.314839643858 29975.5627359218 0.9156560493 + 0.313548256413 29455.0099633179 0.9176340719 + 0.312435971506 28964.6711429141 0.9196509479 + 0.347901719965 31546.7475666443 0.9238075569 + 0.452755463540 42291.0657043344 0.9273510779 + 0.450125208113 41502.1159170160 0.9302627801 + 0.342670259459 29726.4112650287 0.9318239491 + 0.447551518021 40696.1796872654 0.9331279084 + 0.374455592457 31710.7701185291 0.9387933631 + 0.498611182133 44445.2067216142 0.9396237144 + 0.585033049374 53756.4110482664 0.9391259077 + 0.581107921165 52680.3047856987 0.9429877095 + 0.577152373860 51613.1480944375 0.9467484456 + 0.489387821606 41714.5123180197 0.9517249917 + 0.643388712695 56482.3806957546 0.9557805913 + 0.712695897908 64550.8954856401 0.9509483400 + 0.706941652149 63153.8198777845 0.9556826529 + 0.534816039586 44562.6905414597 0.9626196278 + 0.701767149468 61775.1956781273 0.9605209245 + 0.837599056339 74822.1305024698 0.9631567793 + 0.830206846114 73118.1176369084 0.9688092727 + 0.784026295666 67844.2838782306 0.9724019481 + 0.629995753578 52835.3274599076 0.9721153053 + 0.822608485822 71380.6191419054 0.9743682785 + 0.688868696508 56511.4694560193 0.9873453623 + 0.920534673640 78631.6080452433 0.9892266219 + 0.765258058479 63190.5690914204 0.9929992402 + 0.838167104014 67750.0247409293 1.0130933581 + 0.896422486768 72950.2254782793 1.0141899222 + 0.983904210897 78393.5523587705 1.0399716395 diff --git a/mytest/Zhang_mix.out b/mytest/Zhang_mix.out index 26de2d35..28934599 100644 --- a/mytest/Zhang_mix.out +++ b/mytest/Zhang_mix.out @@ -1512,7 +1512,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 35801 Density (g/cm³) = 1.01498 Volume (L) = 1.00711 - Viscosity (mPa s) = 0.95299 + Viscosity (mPa s) = 0.95298 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -1941,7 +1941,7 @@ Reaction 1. pH = 6.512 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 112443 + Specific Conductance (µS/cm, 25°C) = 112444 Density (g/cm³) = 1.06597 Volume (L) = 1.02141 Viscosity (mPa s) = 1.13048 @@ -2589,7 +2589,7 @@ Reaction 1. pH = 4.046 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 126873 + Specific Conductance (µS/cm, 25°C) = 126874 Density (g/cm³) = 1.38476 Volume (L) = 1.19502 Viscosity (mPa s) = 7.31240 @@ -2880,7 +2880,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 67426 Density (g/cm³) = 1.48788 Volume (L) = 1.32106 - Viscosity (mPa s) = 20.51834 + Viscosity (mPa s) = 20.51833 Activity of water = 0.144 Ionic strength (mol/kgw) = 2.610e+01 Mass of water (kg) = 1.000e+00 @@ -5744,7 +5744,7 @@ Reaction 1. pH = 0.627 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 228581 + Specific Conductance (µS/cm, 25°C) = 228582 Density (g/cm³) = 1.25324 Volume (L) = 1.12279 Viscosity (mPa s) = 2.33635 @@ -8379,7 +8379,7 @@ Reaction 1. pH = 6.422 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 199039 + Specific Conductance (µS/cm, 25°C) = 199040 Density (g/cm³) = 1.12010 Volume (L) = 1.05842 Viscosity (mPa s) = 1.19288 @@ -8613,7 +8613,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 254327 Density (g/cm³) = 1.18242 Volume (L) = 1.09679 - Viscosity (mPa s) = 1.44603 + Viscosity (mPa s) = 1.44602 Activity of water = 0.838 Ionic strength (mol/kgw) = 6.400e+00 Mass of water (kg) = 1.000e+00 @@ -11017,7 +11017,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 51162 Density (g/cm³) = 1.01971 Volume (L) = 1.01360 - Viscosity (mPa s) = 0.91878 + Viscosity (mPa s) = 0.91877 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.020e-01 Mass of water (kg) = 1.000e+00 @@ -17464,7 +17464,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 208901 Density (g/cm³) = 1.25254 Volume (L) = 1.11086 - Viscosity (mPa s) = 2.51333 + Viscosity (mPa s) = 2.51332 Activity of water = 0.694 Ionic strength (mol/kgw) = 1.000e+01 Mass of water (kg) = 1.000e+00 @@ -26113,7 +26113,7 @@ Reaction 1. pH = 6.504 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 237603 + Specific Conductance (µS/cm, 25°C) = 237604 Density (g/cm³) = 1.16365 Volume (L) = 1.10546 Viscosity (mPa s) = 1.51410 diff --git a/mytest/Zhang_mix_101.sel b/mytest/Zhang_mix_101.sel index b09c5747..e75e0f70 100644 --- a/mytest/Zhang_mix_101.sel +++ b/mytest/Zhang_mix_101.sel @@ -1,348 +1,348 @@ Mu SC Viscosity 0.000000100645 0.0546913895 0.8900243330 - 0.003000107509 255.7554191370 0.8909187136 - 0.006000110469 501.2112445996 0.8914477176 - 0.009000112732 740.8076491562 0.8919165263 - 0.012000114630 976.0437176700 0.8923541769 - 0.015000116292 1207.7566573855 0.8927719164 - 0.018000117785 1436.4945055387 0.8931755124 - 0.021000119149 1662.6486024960 0.8935683914 - 0.024000120412 1886.5144498812 0.8939527859 - 0.027000121590 2108.3241021163 0.8943302463 - 0.030000122698 2328.2651776495 0.8947019019 - 0.060000131288 4450.1546766188 0.8982230525 - 0.090000137604 6474.1567297156 0.9015539329 - 0.120000142790 8431.5158189881 0.9047863983 - 0.150000147274 10337.9872756450 0.9079560597 - 0.180000151274 12203.0827036106 0.9110812086 - 0.210000154913 14033.1480922606 0.9141727356 - 0.240000158271 15832.7024697337 0.9172377593 - 0.270000161403 17605.1166404704 0.9202812450 - 0.300000164347 19352.9943707745 0.9233068270 - 0.600000187564 35801.2240171664 0.9529851563 - 0.900000204766 50862.4171292251 0.9821906361 - 1.200000218809 64855.7891776126 1.0113021529 - 1.500000230789 77932.8750678099 1.0405303446 - 1.800000241278 90184.9597063904 1.0700388486 - 2.100000250629 101673.8094569315 1.0999745142 - 2.400000259080 112443.9886418549 1.1304780682 - 2.700000266805 122528.9421799144 1.1616886333 - 3.000000273937 131954.4875944188 1.1937458592 - 5.100000313896 180836.2838761983 1.4540141063 - 7.200000347504 202840.0203803444 1.8149871491 - 9.300000383249 203438.4285323402 2.3343269449 - 11.400000426443 190036.5680716237 3.0747843027 - 13.500000481821 169784.7217358478 4.1034571081 - 15.600000554749 147783.8705708816 5.4912383893 - 17.700000652194 126873.9942591509 7.3124018587 - 19.800000783833 108273.1480195082 9.6442803504 - 21.900000963611 92281.4470739258 12.5670087783 - 24.000001212106 78765.1396667481 16.1633135401 - 26.100001560267 67426.1360658975 20.5183364638 - 0.000999004838 92.7018359565 0.8904070457 - 0.001998002207 183.1971240753 0.8906123779 - 0.002997001315 272.3659630165 0.8907884576 - 0.003996000864 360.5148490151 0.8909493956 - 0.004995000591 447.8185827257 0.8911006574 - 0.005994000408 534.3936029031 0.8912450460 - 0.006993000276 620.3243555902 0.8913842264 - 0.007992000178 705.6755145394 0.8915192838 - 0.008991000101 790.4985368218 0.8916509716 - 0.009990000039 874.8355379640 0.8917798385 - 0.019979999734 1697.3095689469 0.8929735510 - 0.029969999672 2492.1687644992 0.8940747969 - 0.039959999657 3267.3583558052 0.8951281956 - 0.049949999664 4027.1467240213 0.8961510305 - 0.059939999680 4774.2402269035 0.8971521659 - 0.069929999703 5510.5187865513 0.8981368680 - 0.079919999730 6237.3675412493 0.8991085684 - 0.089909999760 6955.8503929994 0.9000696510 - 0.099899999791 7666.8102791103 0.9010218520 - 0.199799999628 14471.0653302642 0.9102459952 - 0.299699999432 20894.0383152933 0.9191831847 - 0.399599999243 27053.1393693319 0.9279763035 - 0.499499999056 33003.3094139156 0.9366820353 - 0.599399998870 38776.2521906255 0.9453306313 - 0.699299998686 44392.5625726329 0.9539411231 - 0.799199998502 49866.7069026033 0.9625268794 - 0.899099998319 55209.4310353782 0.9710980801 - 0.998999998136 60429.0592053962 0.9796629688 - 1.997999996307 106905.0304369191 1.0662399167 - 2.996999994497 144679.7212090329 1.1577359335 - 3.995999992709 174929.0398247371 1.2585306563 - 4.994999990886 198233.2058612708 1.3732116003 - 5.993999989064 215025.1728675907 1.5066758386 - 6.992999987242 225784.1979954780 1.6641212758 - 7.991999985422 231118.6453611735 1.8510234269 - 8.990999983603 231772.6181314159 2.0731122443 - 9.989999981784 228581.9613973518 2.3363516128 - 10.988999979967 222406.8270623924 2.6469216927 - 11.987999978152 214065.0107279334 3.0112037665 - 0.000800104039 80.6581659691 0.8902996645 - 0.001600105485 159.6599961785 0.8904440434 - 0.002400106595 237.6806352057 0.8905668016 - 0.003200107531 314.9422781728 0.8906783694 - 0.004000108353 391.5718897209 0.8907827867 - 0.004800109095 467.6542474730 0.8908821251 - 0.005600109776 543.2509811629 0.8909776152 - 0.006400110408 618.4093974785 0.8910700590 - 0.007200110999 693.1672165865 0.8911600133 - 0.008000111557 767.5553744025 0.8912478836 - 0.016000115964 1495.4135734686 0.8920564519 - 0.024000119274 2201.8583989025 0.8927967556 - 0.032000121993 2892.8595548108 0.8935017663 - 0.040000124336 3571.6632228118 0.8941842544 - 0.048000126413 4240.3478969896 0.8948507690 - 0.056000128291 4900.3694924412 0.8955052001 - 0.064000130011 5552.8086466350 0.8961500822 - 0.072000131605 6198.5008487415 0.8967871759 - 0.080000133093 6838.1120084747 0.8974177628 - 0.160000144127 12986.5310158078 0.9035063909 - 0.240000151871 18826.1185385338 0.9093874957 - 0.320000158008 24454.2000745681 0.9151656953 - 0.400000163142 29917.0637384337 0.9208818988 - 0.480000167575 35241.5757855223 0.9265574531 - 0.560000171479 40445.1740146420 0.9322053810 - 0.640000174966 45540.0412019404 0.9378344869 - 0.720000178112 50535.1506137464 0.9434511855 - 0.800000180973 55437.3816529594 0.9490604290 - 1.600000199858 100194.5993265355 1.0054144504 - 2.400000209211 138518.2972259781 1.0636810090 - 3.200000213829 171317.3952906380 1.1255917854 - 4.000000215784 199039.9644159700 1.1928811216 - 4.800000216227 221966.4512370736 1.2673902880 - 5.600000215879 240320.0304876824 1.3510798165 - 6.400000215220 254327.1772647006 1.4460254840 - 7.200000214486 264252.8819923006 1.5544109089 - 8.000000213999 270417.0095434412 1.6785198834 - 8.800000213948 273195.1270709750 1.8207292722 - 0.000602010009 69.6368074049 0.8902004083 - 0.001204004864 138.1843543750 0.8902870825 - 0.001806003109 206.0671326647 0.8903589812 - 0.002408002221 273.4309543190 0.8904232327 - 0.003010001684 340.3598455818 0.8904825980 - 0.003612001324 406.9101597687 0.8905384930 - 0.004214001065 473.1229998778 0.8905917588 - 0.004816000870 539.0300068423 0.8906429436 - 0.005418000717 604.6564752608 0.8906924279 - 0.006020000594 670.0232004512 0.8907404889 - 0.012040000023 1312.3174276500 0.8911732239 - 0.018059999839 1939.1989982249 0.8915594109 - 0.024079999750 2554.7866960897 0.8919215834 - 0.030099999700 3161.3518441355 0.8922684677 - 0.036119999670 3760.3654817383 0.8926045381 - 0.042139999653 4352.8682158751 0.8929324516 - 0.048159999643 4939.6391758391 0.8932539391 - 0.054179999638 5521.2854726546 0.8935702025 - 0.060199999638 6098.2944492612 0.8938821165 - 0.120399999484 11677.8410260476 0.8968579372 - 0.180599999348 17018.4119101486 0.8997007366 - 0.240799999225 22195.7413560698 0.9024813499 - 0.300999999107 27246.7514780984 0.9052271472 - 0.361199998991 32193.1764244654 0.9079521596 - 0.421399998877 37049.2253122275 0.9106647406 - 0.481599998764 41824.8466439873 0.9133703635 - 0.541799998652 46527.3548029625 0.9160728660 - 0.601999998540 51162.3297049729 0.9187750814 - 1.203999997431 94465.0940386363 0.9461135554 - 1.805999996334 133220.3590812638 0.9745716706 - 2.407999995243 168068.7708848375 1.0046428312 - 3.009999994157 199318.9365481250 1.0367475346 - 3.611999993073 227167.8071374604 1.0713149062 - 4.213999991991 251763.6135804920 1.1087992328 - 4.815999990909 273232.6756680608 1.1496835694 - 5.417999989824 291694.1142321090 1.1944797425 - 6.019999988736 307269.1549183829 1.2437272213 - 6.621999987642 320087.2303125365 1.2979916564 - 0.000500103193 73.5759100358 0.8901182549 - 0.001000104230 146.2885127527 0.8901535277 - 0.001500105012 218.4973462101 0.8901790873 - 0.002000105663 290.3104350350 0.8901996215 - 0.002500106230 361.7898971159 0.8902169459 - 0.003000106737 432.9774484633 0.8902319918 - 0.003500107199 503.9035767031 0.8902453122 - 0.004000107625 574.5918015030 0.8902572675 - 0.004500108021 645.0609656560 0.8902681080 - 0.005000108393 715.3265931047 0.8902780160 - 0.010000111287 1408.9746612162 0.8903457938 - 0.015000113387 2090.2295298033 0.8903832792 - 0.020000115075 2762.2437235566 0.8904052784 - 0.025000116501 3426.7798034192 0.8904175215 - 0.030000117741 4084.9922471618 0.8904229445 - 0.035000118841 4737.7056888511 0.8904232894 - 0.040000119832 5385.5428656873 0.8904196903 - 0.045000120733 6028.9927727697 0.8904129338 - 0.050000121560 6668.4506922918 0.8904035919 - 0.100000127254 12896.6146652368 0.8902305220 - 0.150000130605 18912.6008689824 0.8899953839 - 0.200000132811 24781.6724665602 0.8897436521 - 0.250000134322 30536.4588933108 0.8894925395 - 0.300000135362 36196.4747710383 0.8892506487 - 0.350000136062 41774.6076684577 0.8890229449 - 0.400000136504 47279.9336055479 0.8888125621 - 0.450000136745 52719.1414149173 0.8886216025 - 0.500000136823 58097.3309151442 0.8884515395 - 0.940000133585 103236.2194940294 0.8879635086 - 1.380000127191 145083.8248087307 0.8894037189 - 1.820000119716 184023.4484328377 0.8928086445 - 2.260000111910 220211.5105931255 0.8981702177 - 2.700000104126 253737.3940247950 0.9054709790 - 3.140000096548 284670.1118860480 0.9146917784 - 3.580000089272 313075.8455819713 0.9258139429 - 4.020000082348 339025.1980930856 0.9388199071 - 4.460000075794 362596.0445083748 0.9536933428 - 4.900000069611 383874.2401722327 0.9704191184 + 0.003000107509 255.7554233460 0.8909186968 + 0.006000110469 501.2112562470 0.8914476939 + 0.009000112732 740.8076702160 0.8919164972 + 0.012000114630 976.0437496776 0.8923541434 + 0.015000116292 1207.7567016269 0.8927718788 + 0.018000117785 1436.4945631341 0.8931754713 + 0.021000119149 1662.6486744449 0.8935683470 + 0.024000120412 1886.5145370909 0.8939527384 + 0.027000121590 2108.3242054203 0.8943301960 + 0.030000122698 2328.2652978213 0.8947018488 + 0.060000131288 4450.1549995856 0.8982229774 + 0.090000137604 6474.1573023293 0.9015538410 + 0.120000142790 8431.5166761690 0.9047862922 + 0.150000147274 10337.9884456293 0.9079559411 + 0.180000151274 12203.0842102101 0.9110810786 + 0.210000154913 14033.1499560795 0.9141725952 + 0.240000158271 15832.7047089113 0.9172376092 + 0.270000161403 17605.1192711742 0.9202810858 + 0.300000164347 19352.9974075462 0.9233066592 + 0.600000187564 35801.2316839420 0.9529849189 + 0.900000204766 50862.4300349765 0.9821903454 + 1.200000218809 64855.8075888203 1.0113018173 + 1.500000230789 77932.8990583698 1.0405299693 + 1.800000241278 90184.9892254877 1.0700384375 + 2.100000250629 101673.8443664916 1.0999740702 + 2.400000259080 112444.0287395609 1.1304775935 + 2.700000266805 122528.9872144590 1.1616881298 + 3.000000273937 131954.5372762740 1.1937453285 + 5.100000313896 180836.3561612379 1.4540134143 + 7.200000347504 202840.0969900270 1.8149863269 + 9.300000383249 203438.4959383370 2.3343260104 + 11.400000426443 190036.6206176911 3.0747832682 + 13.500000481821 169784.7597511954 4.1034559823 + 15.600000554749 147783.8969774530 5.4912371791 + 17.700000652194 126874.0122834909 7.3124005696 + 19.800000783833 108273.1602867174 9.6442789869 + 21.900000963611 92281.4554704693 12.5670073443 + 24.000001212106 78765.1454738050 16.1633120390 + 26.100001560267 67426.1401331506 20.5183348984 + 0.000999004838 92.7018366777 0.8904070376 + 0.001998002207 183.1971260892 0.8906123664 + 0.002997001315 272.3659666811 0.8907884435 + 0.003996000864 360.5148546133 0.8909493793 + 0.004995000591 447.8185904967 0.8911006392 + 0.005994000408 534.3936130572 0.8912450260 + 0.006993000276 620.3243683165 0.8913842048 + 0.007992000178 705.6755300107 0.8915192607 + 0.008991000101 790.4985551977 0.8916509471 + 0.009990000039 874.8355593935 0.8917798127 + 0.019979999734 1697.3096275863 0.8929735146 + 0.029969999672 2492.1688697215 0.8940747522 + 0.039959999657 3267.3585147934 0.8951281440 + 0.049949999664 4027.1469427254 0.8961509728 + 0.059939999680 4774.2405104584 0.8971521027 + 0.069929999703 5510.5191395032 0.8981367997 + 0.079919999730 6237.3679676944 0.8991084954 + 0.089909999760 6955.8508966761 0.9000695736 + 0.099899999791 7666.8108634637 0.9010217704 + 0.199799999628 14471.0668699219 0.9102458798 + 0.299699999432 20894.0410058359 0.9191830435 + 0.399599999243 27053.1433467919 0.9279761403 + 0.499499999056 33003.3147801246 0.9366818530 + 0.599399998870 38776.2590243280 0.9453304315 + 0.699299998686 44392.5709356061 0.9539409073 + 0.799199998502 49866.7168434799 0.9625266487 + 0.899099998319 55209.4425922386 0.9710978354 + 0.998999998136 60429.0724076270 0.9796627109 + 1.997999996307 106905.0604985671 1.0662395519 + 2.996999994497 144679.7667419405 1.1577354867 + 3.995999992709 174929.0978908328 1.2585301404 + 4.994999990886 198233.2728294492 1.3732110236 + 5.993999989064 215025.2449035838 1.5066752068 + 6.992999987242 225784.2714573951 1.6641205933 + 7.991999985422 231118.7171191250 1.8510226973 + 8.990999983603 231772.6857756708 2.0731114705 + 9.989999981784 228582.0233128153 2.3363507971 + 10.988999979967 222406.8823813276 2.6469208372 + 11.987999978152 214065.0591998915 3.0112028730 + 0.000800104039 80.6581663995 0.8902996585 + 0.001600105485 159.6599973819 0.8904440349 + 0.002400106595 237.6806373980 0.8905667911 + 0.003200107531 314.9422815252 0.8906783573 + 0.004000108353 391.5718943787 0.8907827732 + 0.004800109095 467.6542535640 0.8908821103 + 0.005600109776 543.2509888023 0.8909775993 + 0.006400110408 618.4094067717 0.8910700420 + 0.007200110999 693.1672276312 0.8911599952 + 0.008000111557 767.5553872898 0.8912478646 + 0.016000115964 1495.4136088827 0.8920564250 + 0.024000119274 2201.8584626357 0.8927967225 + 0.032000121993 2892.8596513311 0.8935017281 + 0.040000124336 3571.6633558394 0.8941842118 + 0.048000126413 4240.3480697495 0.8948507223 + 0.056000128291 4900.3697078005 0.8955051496 + 0.064000130011 5552.8089071868 0.8961500283 + 0.072000131605 6198.5011568614 0.8967871187 + 0.080000133093 6838.1123663597 0.8974177025 + 0.160000144127 12986.5319673181 0.9035063057 + 0.240000151871 18826.1202131046 0.9093873913 + 0.320000158008 24454.2025658181 0.9151655748 + 0.400000163142 29917.0671195277 0.9208817640 + 0.480000167575 35241.5801158373 0.9265573054 + 0.560000171479 40445.1793433995 0.9322052215 + 0.640000174966 45540.0475704547 0.9378343164 + 0.720000178112 50535.1580569375 0.9434510046 + 0.800000180973 55437.3902004320 0.9490602384 + 1.600000199858 100194.6197825753 1.0054141808 + 2.400000209211 138518.3297513275 1.0636806789 + 3.200000213829 171317.4389241578 1.1255914042 + 4.000000215784 199040.0175870318 1.1928806953 + 4.800000216227 221966.5120157562 1.2673898211 + 5.600000215879 240320.0967572184 1.3510793122 + 6.400000215220 254327.2468680831 1.4460249448 + 7.200000214486 264252.9528641303 1.5544103371 + 8.000000213999 270417.0798224304 1.6785192806 + 8.800000213948 273195.1951842566 1.8207286400 + 0.000602010009 69.6368076310 0.8902004042 + 0.001204004864 138.1843550088 0.8902870767 + 0.001806003109 206.0671338216 0.8903589741 + 0.002408002221 273.4309560908 0.8904232245 + 0.003010001684 340.3598480466 0.8904825888 + 0.003612001324 406.9101629956 0.8905384829 + 0.004214001065 473.1230039291 0.8905917479 + 0.004816000870 539.0300117752 0.8906429319 + 0.005418000717 604.6564811284 0.8906924155 + 0.006020000594 670.0232073030 0.8907404759 + 0.012040000023 1312.3174465910 0.8911732055 + 0.018059999839 1939.1990324529 0.8915593883 + 0.024079999750 2554.7867480943 0.8919215573 + 0.030099999700 3161.3519160047 0.8922684386 + 0.036119999670 3760.3655752927 0.8926045062 + 0.042139999653 4352.8683327418 0.8929324171 + 0.048159999643 4939.6393174970 0.8932539023 + 0.054179999638 5521.2856404644 0.8935701634 + 0.060199999638 6098.2946444869 0.8938820753 + 0.120399999484 11677.8415514387 0.8968578789 + 0.180599999348 17018.4128430751 0.8997006652 + 0.240799999225 22195.7427545356 0.9024812675 + 0.300999999107 27246.7533891166 0.9052270551 + 0.361199998991 32193.1788876751 0.9079520586 + 0.421399998877 37049.2283618490 0.9106646316 + 0.481599998764 41824.8503100219 0.9133702469 + 0.541799998652 46527.3591119924 0.9160727424 + 0.601999998540 51162.3346807276 0.9187749511 + 1.203999997431 94465.1065694246 0.9461133711 + 1.805999996334 133220.3799718588 0.9745714449 + 2.407999995243 168068.8002471843 1.0046425706 + 3.009999994157 199318.9740747678 1.0367472433 + 3.611999993073 227167.8522359380 1.0713145870 + 4.213999991991 251763.6654568687 1.1087988881 + 4.815999990909 273232.7333876476 1.1496832008 + 5.417999989824 291694.1767689225 1.1944793516 + 6.019999988736 307269.2211984269 1.2437268092 + 6.621999987642 320087.2992528786 1.2979912242 + 0.000500103193 73.5759101424 0.8901182521 + 0.001000104230 146.2885130521 0.8901535239 + 0.001500105012 218.4973467576 0.8901790826 + 0.002000105663 290.3104358748 0.8901996161 + 0.002500106230 361.7898982858 0.8902169399 + 0.003000106737 432.9774499970 0.8902319852 + 0.003500107199 503.9035786309 0.8902453050 + 0.004000107625 574.5918038529 0.8902572598 + 0.004500108021 645.0609684539 0.8902680999 + 0.005000108393 715.3265963752 0.8902780074 + 0.010000111287 1408.9746703246 0.8903457817 + 0.015000113387 2090.2295463514 0.8903832643 + 0.020000115075 2762.2437488070 0.8904052613 + 0.025000116501 3426.7798384412 0.8904175024 + 0.030000117741 4084.9922928953 0.8904229235 + 0.035000118841 4737.7057461421 0.8904232667 + 0.040000119832 5385.5429353096 0.8904196661 + 0.045000120733 6028.9928554396 0.8904129081 + 0.050000121560 6668.4507886780 0.8904035648 + 0.100000127254 12896.6149289514 0.8902304836 + 0.150000130605 18912.6013428572 0.8899953369 + 0.200000132811 24781.6731839255 0.8897435979 + 0.250000134322 30536.4598821301 0.8894924789 + 0.300000135362 36196.4760556932 0.8892505823 + 0.350000136062 41774.6092707094 0.8890228732 + 0.400000136504 47279.9355451233 0.8888124855 + 0.450000136745 52719.1437098962 0.8886215212 + 0.500000136823 58097.3335822309 0.8884514538 + 0.940000133585 103236.2260081617 0.8879633911 + 1.380000127191 145083.8358976385 0.8894035765 + 1.820000119716 184023.4645361716 0.8928084810 + 2.260000111910 220211.5319442415 0.8981700355 + 2.700000104126 253737.4206932535 0.9054707799 + 3.140000096548 284670.1438069787 0.9146915636 + 3.580000089272 313075.8825799391 0.9258137136 + 4.020000082348 339025.2399031619 0.9388196641 + 4.460000075794 362596.0907953770 0.9536930869 + 4.900000069611 383874.2905484047 0.9704188501 0.000000100645 0.0546913895 0.8900243330 - 0.001000104498 91.1874013401 0.8904217921 - 0.002000106156 180.1469053033 0.8906380563 - 0.003000107434 267.7889529264 0.8908244267 - 0.004000108513 354.4179695985 0.8909953248 - 0.005000109463 440.2073872179 0.8911563361 - 0.006000110321 525.2727028407 0.8913103248 - 0.007000111109 609.6976730602 0.8914589926 - 0.008000111841 693.5464429113 0.8916034480 - 0.009000112527 776.8700493606 0.8917444610 - 0.010000113174 859.7102652966 0.8918825923 - 0.020000118289 1667.3142711255 0.8931669173 - 0.030000122156 2447.4000694053 0.8943568307 - 0.040000125343 3207.8532048759 0.8954979264 - 0.050000128101 3952.9118940171 0.8966078668 - 0.060000130555 4685.2644948237 0.8976957112 - 0.070000132783 5406.7791752244 0.8987668424 - 0.080000134832 6118.8329482988 0.8998247685 - 0.090000136737 6822.4838772691 0.9008719268 - 0.100000138523 7518.5705865244 0.9019100927 - 0.200000151975 14171.3742931565 0.9119922127 - 0.300000161727 20437.5091827324 0.9217905615 - 0.400000169665 26434.3835931559 0.9314519197 - 0.500000176463 32217.1468477237 0.9410348569 - 0.600000182453 37817.7408306101 0.9505708522 - 0.700000187831 43256.9904062880 0.9600798628 - 0.800000192720 48549.5752561734 0.9695760141 - 0.900000197207 53706.4372820591 0.9790701356 - 1.000000201355 58736.0810841511 0.9885710470 - 2.000000231063 103117.8747087031 1.0853269874 - 3.000000249016 138531.6197315567 1.1887223256 - 4.000000261095 166275.0296629942 1.3033779415 - 5.000000269846 187064.1360104683 1.4340562193 - 6.000000276792 201475.4022249903 1.5857909580 - 7.000000282874 210119.1384141777 1.7638928161 - 8.000000288743 213701.0894804916 1.9739342110 - 9.000000294874 213015.7927255986 2.2217311284 - 10.000000301642 208901.2297162056 2.5133258246 - 11.000000309363 202180.5071062509 2.8549713113 - 12.000000318322 193609.8842474139 3.2531176764 - 0.000800104041 77.8680796578 0.8903253048 - 0.001600105488 154.1036469187 0.8904896853 - 0.002400106600 229.3714387193 0.8906315173 - 0.003200107537 303.8900765221 0.8907616790 - 0.004000108361 377.7844923836 0.8908843836 - 0.004800109105 451.1381127485 0.8910017919 - 0.005600109788 524.0115893796 0.8911151873 - 0.006400110421 596.4514815066 0.8912254061 - 0.007200111014 668.4949158480 0.8913330291 - 0.008000111574 740.1723436682 0.8914384794 - 0.016000115998 1441.0575351909 0.8924198747 - 0.024000119324 2120.6562765307 0.8933301536 - 0.032000122060 2784.8503226299 0.8942037123 - 0.040000124419 3436.8401235425 0.8950538755 - 0.048000126513 4078.6761767291 0.8958874785 - 0.056000128407 4711.7956690493 0.8967085826 - 0.064000130144 5337.2659854873 0.8975198346 - 0.072000131753 5955.9128679092 0.8983230738 - 0.080000133256 6568.3948540342 0.8991196399 - 0.160000144456 12440.0881243127 0.9068654313 - 0.240000152360 17992.1239849686 0.9144081429 - 0.320000158648 23321.6218234216 0.9218581607 - 0.400000163927 28475.1077117287 0.9292591543 - 0.480000168497 33479.7909910230 0.9366342393 - 0.560000172532 38353.4725549333 0.9439977491 - 0.640000176142 43108.6916560739 0.9513595430 - 0.720000179405 47754.7628092933 0.9587269299 - 0.800000182376 52298.8892610969 0.9661056461 - 1.600000202023 93037.2029719933 1.0413185910 - 2.400000211573 126705.3076525415 1.1208648097 - 3.200000215887 154411.3827803617 1.2067874660 - 4.000000217090 176798.0339269307 1.3010406931 - 4.800000216384 194346.8563109550 1.4056306227 - 5.600000214353 207482.9307092800 1.5226462704 - 6.400000211589 216621.5166333841 1.6542665009 - 7.200000208431 222187.4400561814 1.8027596260 - 8.000000205116 224618.3325603398 1.9704804187 - 8.800000201818 224358.1227162302 2.1598662548 - 0.000602103532 64.4410943337 0.8902380672 - 0.001204104744 127.7810119032 0.8903544761 - 0.001806105671 190.4707802141 0.8904548022 - 0.002408106450 252.6532940279 0.8905468048 - 0.003010107132 314.4104792094 0.8906334892 - 0.003612107747 375.7972056789 0.8907163966 - 0.004214108310 436.8534737264 0.8907964427 - 0.004816108833 497.6100685550 0.8908742238 - 0.005418109321 558.0915983686 0.8909501544 - 0.006020109781 618.3182936139 0.8910245362 - 0.012040113412 1209.4033132225 0.8917162645 - 0.018060116120 1785.2819628555 0.8923573756 - 0.024080118338 2349.9646911574 0.8929724078 - 0.030100120244 2905.6648083380 0.8935708680 - 0.036120121928 3453.8168775563 0.8941576333 - 0.042140123444 3995.4364648433 0.8947356018 - 0.048160124829 4531.2845143969 0.8953066626 - 0.054180126107 5061.9544025040 0.8958721283 - 0.060200127295 5587.9227942098 0.8964329552 - 0.120400136015 10652.2427506541 0.9018911356 - 0.180600141930 15467.0204682275 0.9072168180 - 0.240800146466 20107.1120943055 0.9124886962 - 0.301000150146 24609.3059268840 0.9177377429 - 0.361200153231 28995.4369716466 0.9229801905 - 0.421400155872 33279.9047251405 0.9282259506 - 0.481600158163 37472.8838979116 0.9334817010 - 0.541800160172 41581.9281410716 0.9387522656 - 0.602000161944 45612.8593042037 0.9440413171 - 1.264200172231 85702.6320545380 1.0040297740 - 1.926400173809 119411.8277090632 1.0683990438 - 2.588600171178 147753.8029874847 1.1381616213 - 3.250800166166 171330.9573049807 1.2141435932 - 3.913000159778 190618.2136125689 1.2971300328 - 4.575200152641 206036.7596472639 1.3879040174 - 5.237400145175 217979.3940035492 1.4872615822 - 5.899600137277 226819.5309736765 1.5960183342 - 6.561800129381 232913.5253758248 1.7150124618 - 7.224000121606 236600.0891268336 1.8451059794 - 0.000500103197 61.8694160451 0.8901788831 - 0.001000104238 122.9171040230 0.8902627155 - 0.001500105024 183.4859446748 0.8903348479 - 0.002000105679 243.6780671462 0.8904009262 - 0.002500106250 303.5522054238 0.8904631370 - 0.003000106761 363.1478071860 0.8905226018 - 0.003500107227 422.4937053041 0.8905799870 - 0.004000107657 481.6121452067 0.8906357266 - 0.004500108058 540.5209506749 0.8906901221 - 0.005000108435 599.2348076327 0.8907433930 - 0.010000111370 1177.7200752621 0.8912383404 - 0.015000113512 1744.2451022613 0.8916967196 - 0.020000115241 2301.7965583206 0.8921363933 - 0.025000116709 2852.0459092489 0.8925642844 - 0.030000117990 3396.0889714261 0.8929839454 - 0.035000119132 3934.7091672383 0.8933974882 - 0.040000120164 4468.4986164292 0.8938062900 - 0.045000121106 4997.9226575136 0.8942113080 - 0.050000121973 5523.3577538315 0.8946132400 - 0.100000128070 10609.0358452331 0.8985395674 - 0.150000131802 15474.5947682610 0.9023995816 - 0.200000134368 20182.8318356909 0.9062510615 - 0.250000136217 24765.3555872635 0.9101168221 - 0.300000137576 29241.1899215174 0.9140088216 - 0.350000138575 33622.9779768934 0.9179343357 - 0.400000139298 37919.6825840052 0.9218982287 - 0.450000139801 42137.9563560637 0.9259039730 - 0.500000140126 46282.9115693063 0.9299541701 - 1.050000137267 87817.7797386643 0.9778288127 - 1.600000129192 123077.4524331442 1.0323820146 - 2.150000119262 152882.0771602698 1.0940168409 - 2.700000108703 177765.6808644204 1.1629479666 - 3.250000098132 198212.3991721974 1.2393211855 - 3.800000087901 214695.9301290081 1.3232471674 - 4.350000078231 227678.9245808559 1.4148153817 - 4.900000068883 237603.9855881769 1.5141011172 - 5.450000060137 244885.0030011282 1.6211694999 - 6.000000052006 249901.1873133951 1.7360780055 + 0.001000104498 91.1874020775 0.8904217837 + 0.002000106156 180.1469073617 0.8906380445 + 0.003000107434 267.7889566713 0.8908244123 + 0.004000108513 354.4179753185 0.8909953081 + 0.005000109463 440.2073951572 0.8911563174 + 0.006000110321 525.2727132137 0.8913103044 + 0.007000111109 609.6976860600 0.8914589705 + 0.008000111841 693.5464587141 0.8916034244 + 0.009000112527 776.8700681291 0.8917444360 + 0.010000113174 859.7102871826 0.8918825659 + 0.020000118289 1667.3143309860 0.8931668801 + 0.030000122156 2447.4001767792 0.8943567850 + 0.040000125343 3207.8533670624 0.8954978737 + 0.050000128101 3952.9121170544 0.8966078079 + 0.060000130555 4685.2647839163 0.8976956467 + 0.070000132783 5406.7795349747 0.8987667727 + 0.080000134832 6118.8333828489 0.8998246939 + 0.090000136737 6822.4843903949 0.9008718477 + 0.100000138523 7518.5711817018 0.9019100094 + 0.200000151975 14171.3758581277 0.9119920949 + 0.300000161727 20437.5119126878 0.9217904171 + 0.400000169665 26434.3876223517 0.9314517530 + 0.500000176463 32217.1522754349 0.9410346706 + 0.600000182453 37817.7477325164 0.9505706481 + 0.700000187831 43256.9988407470 0.9600796423 + 0.800000192720 48549.5852681423 0.9695757783 + 0.900000197207 53706.4489057542 0.9790698856 + 1.000000201355 58736.0943449566 0.9885707834 + 2.000000231063 103117.9045161345 1.0853266147 + 3.000000249016 138531.6643068891 1.1887218691 + 4.000000261095 166275.0857902048 1.3033774144 + 5.000000269846 187064.1999492530 1.4340556300 + 6.000000276792 201475.4702156489 1.5857903124 + 7.000000282874 210119.2070448026 1.7638921189 + 8.000000288743 213701.1559448018 1.9739334656 + 9.000000294874 213015.8549575454 2.2217303377 + 10.000000301642 208901.2864020890 2.5133249912 + 11.000000309363 202180.5576003259 2.8549704373 + 12.000000318322 193609.9284317418 3.2531167634 + 0.000800104041 77.8680801235 0.8903252985 + 0.001600105488 154.1036482211 0.8904896764 + 0.002400106600 229.3714410921 0.8906315064 + 0.003200107537 303.8900801504 0.8907616664 + 0.004000108361 377.7844974244 0.8908843696 + 0.004800109105 451.1381193402 0.8910017765 + 0.005600109788 524.0115976467 0.8911151706 + 0.006400110421 596.4514915631 0.8912253883 + 0.007200111014 668.4949277994 0.8913330103 + 0.008000111574 740.1723576130 0.8914384595 + 0.016000115998 1441.0575734977 0.8924198466 + 0.024000119324 2120.6563454453 0.8933301192 + 0.032000122060 2784.8504269600 0.8942036725 + 0.040000124419 3436.8402672827 0.8950538311 + 0.048000126513 4078.6763633351 0.8958874298 + 0.056000128407 4711.7959015867 0.8967085300 + 0.064000130144 5337.2662667232 0.8975197784 + 0.072000131753 5955.9132003730 0.8983230142 + 0.080000133256 6568.3952400605 0.8991195770 + 0.160000144456 12440.0891471438 0.9068653423 + 0.240000152360 17992.1257790914 0.9144080340 + 0.320000158648 23321.6244838618 0.9218580350 + 0.400000163927 28475.1113109064 0.9292590137 + 0.480000168497 33479.7955861041 0.9366340853 + 0.560000172532 38353.4781918530 0.9439975828 + 0.640000176142 43108.6983720376 0.9513593652 + 0.720000179405 47754.7706344661 0.9587267413 + 0.800000182376 52298.8982198131 0.9661054473 + 1.600000202023 93037.2237806866 1.0413183098 + 2.400000211573 126705.3397801956 1.1208644654 + 3.200000215887 154411.4246423007 1.2067870684 + 4.000000217090 176798.0834959814 1.3010402486 + 4.800000216384 194346.9114169574 1.4056301357 + 5.600000214353 207482.9892254832 1.5226457444 + 6.400000211589 216621.5766045150 1.6542659386 + 7.200000208431 222187.4997846234 1.8027590296 + 8.000000205116 224618.3906558116 1.9704797901 + 8.800000201818 224358.1781127694 2.1598655955 + 0.000602103532 64.4410945981 0.8902380627 + 0.001204104744 127.7810126440 0.8903544697 + 0.001806105671 190.4707815658 0.8904547944 + 0.002408106450 252.6532960976 0.8905467958 + 0.003010107132 314.4104820879 0.8906334792 + 0.003612107747 375.7972094468 0.8907163857 + 0.004214108310 436.8534784562 0.8907964308 + 0.004816108833 497.6100743132 0.8908742111 + 0.005418109321 558.0916052169 0.8909501409 + 0.006020109781 618.3183016100 0.8910245220 + 0.012040113412 1209.4033353029 0.8917162444 + 0.018060116120 1785.2820027213 0.8923573510 + 0.024080118338 2349.9647516790 0.8929723794 + 0.030100120244 2905.6648919138 0.8935708363 + 0.036120121928 3453.8169862705 0.8941575985 + 0.042140123444 3995.4366005524 0.8947355643 + 0.048160124829 4531.2846787826 0.8953066225 + 0.054180126107 5061.9545971085 0.8958720858 + 0.060200127295 5587.9230204610 0.8964329103 + 0.120400136015 10652.2433558990 0.9018910721 + 0.180600141930 15467.0215370380 0.9072167403 + 0.240800146466 20107.1136880616 0.9124886065 + 0.301000150146 24609.3080937108 0.9177376426 + 0.361200153231 28995.4397507321 0.9229800806 + 0.421400155872 33279.9081490856 0.9282258319 + 0.481600158163 37472.8879941810 0.9334815742 + 0.541800160172 41581.9329329682 0.9387521311 + 0.602000161944 45612.8648115619 0.9440411753 + 1.264200172231 85702.6461041481 1.0040295685 + 1.926400173809 119411.8503591415 1.0683987902 + 2.588600171178 147753.8334171917 1.1381613272 + 3.250800166166 171330.9942993192 1.2141432637 + 3.913000159778 190618.2558029959 1.2971296713 + 4.575200152641 206036.8056531049 1.3879036264 + 5.237400145175 217979.4425192974 1.4872611639 + 5.899600137277 226819.5808216546 1.5960178902 + 6.561800129381 232913.5755347360 1.7150119936 + 7.224000121606 236600.1387429903 1.8451054882 + 0.000500103197 61.8694162104 0.8901788798 + 0.001000104238 122.9171044870 0.8902627108 + 0.001500105024 183.4859455229 0.8903348423 + 0.002000105679 243.6780684464 0.8904009196 + 0.002500106250 303.5522072344 0.8904631297 + 0.003000106761 363.1478095586 0.8905225938 + 0.003500107227 422.4937082854 0.8905799784 + 0.004000107657 481.6121488394 0.8906357173 + 0.004500108058 540.5209549990 0.8906901123 + 0.005000108435 599.2348126854 0.8907433827 + 0.010000111370 1177.7200892978 0.8912383258 + 0.015000113512 1744.2451277079 0.8916967017 + 0.020000115241 2301.7965970781 0.8921363727 + 0.025000116709 2852.0459629154 0.8925642613 + 0.030000117990 3396.0890413977 0.8929839201 + 0.035000119132 3934.7092547644 0.8933974609 + 0.040000120164 4468.4987226459 0.8938062608 + 0.045000121106 4997.9227834667 0.8942112771 + 0.050000121973 5523.3579004924 0.8946132074 + 0.100000128070 10609.0362419360 0.8985395212 + 0.150000131802 15474.5954739939 0.9023995250 + 0.200000134368 20182.8328941192 0.9062509962 + 0.250000136217 24765.3570332460 0.9101167492 + 0.300000137576 29241.1917839458 0.9140087417 + 0.350000138575 33622.9802802360 0.9179342494 + 0.400000139298 37919.6853492584 0.9218981364 + 0.450000139801 42137.9596013893 0.9259038751 + 0.500000140126 46282.9153104839 0.9299540669 + 1.050000137267 87817.7895252929 0.9778286632 + 1.600000129192 123077.4684735121 1.0323818300 + 2.150000119262 152882.0989593378 1.0940166270 + 2.700000108703 177765.7075888703 1.1629477268 + 3.250000098132 198212.4298532070 1.2393209224 + 3.800000087901 214695.9637870771 1.3232468829 + 4.350000078231 227678.9603007006 1.4148150773 + 4.900000068883 237604.0225591797 1.5141007942 + 5.450000060137 244885.0405342756 1.6211691592 + 6.000000052006 249901.2248429295 1.7360776480 diff --git a/mytest/a_e_t2_101.sel b/mytest/a_e_t2_101.sel index 405de13a..d5c4e667 100644 --- a/mytest/a_e_t2_101.sel +++ b/mytest/a_e_t2_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100661 0.0546997340 - 0.036150763779 2729.4280295000 + 0.036150763779 2729.4281026903 diff --git a/mytest/advect_ranges_101.sel b/mytest/advect_ranges_101.sel index bdc2b49c..48394184 100644 --- a/mytest/advect_ranges_101.sel +++ b/mytest/advect_ranges_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.000550103287 53.6425928802 - 0.001250104580 120.7065307265 - 0.001250104580 120.7065307359 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 - 0.000550103287 53.6425928802 + 0.000550103287 53.6425929659 + 0.001250104580 120.7065310169 + 0.001250104580 120.7065310262 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 + 0.000550103287 53.6425929659 diff --git a/mytest/aj1_101.sel b/mytest/aj1_101.sel index 935f28a0..f3800614 100644 --- a/mytest/aj1_101.sel +++ b/mytest/aj1_101.sel @@ -1,2 +1,2 @@ Mu SC - 1.363681228153 45489.3247742926 + 1.363681228153 45489.3273839444 diff --git a/mytest/alkalinity_101.sel b/mytest/alkalinity_101.sel index 7450c4af..b403fe64 100644 --- a/mytest/alkalinity_101.sel +++ b/mytest/alkalinity_101.sel @@ -1,8 +1,8 @@ Mu SC - 0.000996786034 91.3063947604 - 0.001008692095 92.5117491861 - 0.000989285358 90.5885355080 - 0.001004359075 91.9497676736 - 0.001004359075 91.9497676736 - 0.001004359075 91.9497676736 - 0.001008692095 92.5117491861 + 0.000996786034 91.3063949972 + 0.001008692095 92.5117494278 + 0.000989285358 90.5885357404 + 0.001004359075 91.9497679113 + 0.001004359075 91.9497679113 + 0.001004359075 91.9497679113 + 0.001008692095 92.5117494278 diff --git a/mytest/andsurfcomplex4_101.sel b/mytest/andsurfcomplex4_101.sel index a351b5ab..a879b0c4 100644 --- a/mytest/andsurfcomplex4_101.sel +++ b/mytest/andsurfcomplex4_101.sel @@ -1,3039 +1,3039 @@ Mu SC - 0.002000196645 315.2058504740 - 0.002516782063 368.2365374381 - 0.002964566491 402.0338978328 - 0.003756141381 468.5901142426 - 0.004732403679 549.9783337923 - 0.005783113482 636.4121031536 - 0.006841640682 722.4834781790 - 0.007876921355 805.8239561892 - 0.008878260860 885.7169283845 - 0.009844169604 962.1616339453 - 0.010776692271 1035.4147499126 - 0.011678945118 1105.7977124129 - 0.012554135844 1173.6234217034 - 0.013405212034 1239.1722121151 - 0.014234764980 1302.6871459419 - 0.015045032228 1364.3763535114 - 0.015837934200 1424.4174963406 - 0.016615118773 1482.9624498680 - 0.017378003784 1540.1415372401 - 0.018127814665 1596.0671254337 - 0.018865615230 1650.8366231720 - 0.019725808033 1714.3709641084 - 0.020682584966 1784.6397604565 - 0.021713685663 1859.9036726444 - 0.022800805046 1938.7434346232 - 0.023929351619 2020.0374624478 - 0.025087920975 2102.9174588878 - 0.026267704742 2186.7197325965 - 0.027461944477 2270.9408120521 - 0.028665471111 2355.2004053915 - 0.029874336267 2439.2119433500 - 0.031085523201 2522.7598123939 - 0.032296726655 2605.6820229542 - 0.033506184451 2687.8571194038 - 0.034712549983 2769.1943403269 - 0.035976242090 2853.7201701660 - 0.037744225780 2970.8053141602 - 0.039906790832 3112.1405675647 - 0.042826007611 3299.5821923286 - 0.046266168326 3515.4094669347 - 0.050040683690 3745.6897353517 - 0.054016228512 3980.5478257316 - 0.058101907968 4213.3185951213 - 0.062721084508 4465.4645077288 - 0.067664400391 4721.6419472238 - 0.072784067387 4971.1984324983 - 0.077815838884 5199.9231496147 - 0.082745740346 5407.1953063674 - 0.087695590507 5597.6360656324 - 0.093085506144 5783.7819837295 - 0.098323674973 5942.3650854074 - 0.103407461899 6074.1708451120 - 0.108669661628 6186.5852474818 - 0.114895925154 6286.5543484313 - 0.121698782577 6352.8792009702 - 0.130916514973 6367.5358805348 - 0.142075123505 6263.1799549840 - 0.154318519556 5986.7761959082 - 0.166717566707 5526.2089519449 - 0.178436773988 4914.1077323208 - 0.188763624917 4212.0685357444 - 0.197061599615 3488.0631026417 - 0.005000201821 774.6885724697 - 0.005541991699 828.7628182724 - 0.005976574962 860.2005708313 - 0.006766400240 925.4403139578 - 0.007753613801 1006.4703725324 - 0.008824001180 1093.0840955172 - 0.009905922347 1179.5247195846 - 0.010964770989 1263.2066978992 - 0.011988206834 1343.3223629029 - 0.012974233952 1419.8492040096 - 0.013924897000 1493.0506037942 - 0.014843494021 1563.2636979874 - 0.015733457593 1630.8183413425 - 0.016597950651 1696.0104095587 - 0.017439753704 1759.0964033848 - 0.018261264880 1820.2958099489 - 0.019064539039 1879.7958079503 - 0.019851336202 1937.7562324005 - 0.020623167892 1994.3140689424 - 0.021381338079 2049.5872736599 - 0.022126976835 2103.6779554854 - 0.022995861690 2166.3789116636 - 0.023961789433 2235.6729325521 - 0.025002197191 2309.8361141446 - 0.026098564828 2387.4654358718 - 0.027236157711 2467.4551657044 - 0.028403482539 2548.9516611244 - 0.029591680700 2631.3042654309 - 0.030793969775 2714.0207878108 - 0.032005174783 2796.7304987391 - 0.033221351428 2879.1548348622 - 0.034439494650 2961.0848154996 - 0.035657314505 3042.3639065151 - 0.036873066096 3122.8751226887 - 0.038085420825 3202.5313530633 - 0.039355100161 3285.2749086751 - 0.041131007500 3399.8321296264 - 0.043302612977 3538.0241904540 - 0.046233025799 3721.1393737875 - 0.049685090253 3931.7514902753 - 0.053471292388 4156.1695194985 - 0.057457817490 4384.6964431150 - 0.061553579776 4610.7936542197 - 0.066182876902 4855.1866633067 - 0.071135748399 5102.8192785023 - 0.076264116173 5343.2502823122 - 0.081303415361 5562.7276706955 - 0.086239833417 5760.6680120470 - 0.091195473233 5941.4659460085 - 0.096590932610 6116.7988245755 - 0.101833813085 6264.5610165281 - 0.106921603718 6385.5726221353 - 0.112187415779 6486.5153748716 - 0.118417324921 6572.5283409344 - 0.125223468327 6623.1487367888 - 0.134444642507 6615.8179515241 - 0.145606022965 6483.8792365001 - 0.157851005008 6176.2374068524 - 0.170250303342 5683.3131596072 - 0.181968621912 5040.1952712445 - 0.192293785500 4310.3541162496 - 0.200589693397 3562.8186306180 - 0.010000207342 1521.6948667329 - 0.010571857788 1576.6615279811 - 0.010991253790 1605.0431447920 - 0.011777277696 1667.7871903616 - 0.012776286870 1747.5407377635 - 0.013871115213 1833.8922992869 - 0.014984358379 1920.6389827934 - 0.016076345379 2004.8077747335 - 0.017131919286 2085.3763853433 - 0.018147936936 2162.2321064619 - 0.019126155516 2235.6111625308 - 0.020069954256 2305.8507212119 - 0.020982978873 2373.2910141340 - 0.021868634707 2438.2414133580 - 0.022729933196 2500.9721122043 - 0.023569478185 2561.7153966753 - 0.024389502544 2620.6700111060 - 0.025191918400 2678.0060939304 - 0.025978367109 2733.8697383451 - 0.026750262672 2788.3869440456 - 0.027508829589 2841.6669060787 - 0.028392115568 2903.3446252482 - 0.029373276258 2971.4092743839 - 0.030429250665 3044.1491763456 - 0.031541158248 3120.1775919891 - 0.032694019088 3198.4071593776 - 0.033876182837 3278.0030428182 - 0.035078697633 3358.3326657752 - 0.036294732908 3438.9204759832 - 0.037519094421 3519.4106193019 - 0.038747839028 3599.5375442856 - 0.039977974943 3679.1034841858 - 0.041207232937 3757.9614694992 - 0.042433892965 3836.0026150747 - 0.043656653239 3913.1466379257 - 0.044936758849 3993.2101750016 - 0.046726501349 4103.9404110947 - 0.048913942686 4237.3374060874 - 0.051864042076 4413.7964012755 - 0.055337128680 4616.3139861004 - 0.059144063222 4831.5579971089 - 0.063150165434 5050.1053630052 - 0.067263958941 5265.6155188509 - 0.071911456958 5497.6407003215 - 0.076881601648 5731.5714985258 - 0.082025778650 5957.3025438053 - 0.087078832326 6161.8260461490 - 0.092027227049 6344.6271993354 - 0.096993573549 6509.7384229601 - 0.102399359017 6667.4373163625 - 0.107651089297 6797.5138033739 - 0.112746467693 6900.8506083917 - 0.118019198183 6982.9785268962 - 0.124256186183 7046.0655463707 - 0.131068835327 7070.8478534052 - 0.140297018790 7027.2821937584 - 0.151464474350 6849.8122156448 - 0.163713522923 6490.5233837990 - 0.176114549023 5944.0315001167 - 0.187832515299 5249.5110153871 - 0.198155790805 4473.5578010489 - 0.206448865010 3686.9704291732 - 0.020000214644 2971.8883655511 - 0.020615191862 3027.8790541818 - 0.021013219448 3051.9532890039 - 0.021790403407 3110.2954018334 - 0.022802057767 3186.9273172296 - 0.023929481358 3271.6473852226 - 0.025088532236 3357.8947283609 - 0.026231882389 3442.1599087023 - 0.027339277709 3523.0305382684 - 0.028405048078 3600.1812596908 - 0.029429976478 3673.7488914804 - 0.030417234876 3744.0301549723 - 0.031370596679 3811.3530356393 - 0.032293720483 3876.0275558046 - 0.033189901555 3938.3302062002 - 0.034062017756 3998.5018517730 - 0.034912550983 4056.7505566792 - 0.035743633498 4113.2558144658 - 0.036557098727 4168.1727939769 - 0.037354527542 4221.6361507529 - 0.038137289201 4273.7632576044 - 0.039047690475 4333.9568679741 - 0.040057719406 4400.2012925521 - 0.041143391679 4470.7901872472 - 0.042285143741 4544.3508903301 - 0.043467517820 4619.8164401533 - 0.044678545999 4696.3761820577 - 0.045909077492 4773.4233070668 - 0.047152166653 4850.5079680669 - 0.048402563013 4927.2988210606 - 0.049656306262 5003.5529614495 - 0.050910413260 5079.0930777591 - 0.052162639851 5153.7903739825 - 0.053411301057 5227.5519195431 - 0.054655135772 5300.3113191727 - 0.055956443577 5375.6656001902 - 0.057774453142 5479.6210335418 - 0.059994435860 5604.4574248604 - 0.062985269290 5768.9217990803 - 0.066502201187 5956.7097572571 - 0.070352737387 6155.1059401767 - 0.074400345141 6355.1744124187 - 0.078552689787 6550.9393819472 - 0.083239428242 6759.7440949738 - 0.088247113243 6967.7861474965 - 0.093425969171 7165.5847428073 - 0.098509468652 7341.5516067474 - 0.103484614089 7495.3186712492 - 0.108475098241 7630.2334063318 - 0.113904401516 7753.8701482453 - 0.119176515389 7849.6773598458 - 0.124289581700 7918.6733646327 - 0.129578654430 7964.1570051266 - 0.135832647679 7982.4862475748 - 0.142661276388 7956.7049379253 - 0.151907280068 7842.0498447982 - 0.163091123260 7575.0075588504 - 0.175352702341 7113.8594402128 - 0.187761239510 6461.4869153102 - 0.199482067655 5665.1860714189 - 0.209804497226 4797.8024228340 - 0.218094125735 3933.7021133335 - 0.030000219885 4382.4056595836 - 0.030648749903 4439.0268487426 - 0.031030786149 4459.9847003063 - 0.031798835012 4514.6992638066 - 0.032816463007 4588.3049583502 - 0.033965310933 4670.9561472853 - 0.035157533921 4756.0356589129 - 0.036340237786 4839.7228214681 - 0.037488824261 4920.3119918571 - 0.038595156776 4997.2894658595 - 0.039658878045 5070.6890590504 - 0.040682749367 5140.7553728608 - 0.041670488989 5207.7914117781 - 0.042625857915 5272.0960896705 - 0.043552314036 5333.9417944810 - 0.044452912309 5393.5688360609 - 0.045330305768 5451.1865489413 - 0.046186784050 5506.9766467832 - 0.047024320979 5561.0970558971 - 0.047844622023 5613.6854842706 - 0.048649165978 5664.8625329278 - 0.049584104800 5723.8373728652 - 0.050620403913 5788.5872784214 - 0.051733258805 5857.4049989463 - 0.052902489110 5928.9230297845 - 0.054112196187 6002.0847595089 - 0.055350110807 6076.0938125171 - 0.056606885642 6150.3602411324 - 0.057875454300 6224.4524117623 - 0.059150498971 6298.0575351860 - 0.060428028829 6370.9508428280 - 0.061705055116 6442.9722186570 - 0.062979344519 6514.0088018642 - 0.064249233468 6583.9821752864 - 0.065513488753 6652.8389891398 - 0.066835427389 6723.9801726545 - 0.068681078080 6821.8401653902 - 0.070933076643 6938.9245929509 - 0.073964283925 7092.4502387277 - 0.077525051652 7266.7064336792 - 0.081419580528 7449.5190963927 - 0.085509451142 7632.3912061437 - 0.089701404616 7809.6825285308 - 0.094428821026 7996.6520061653 - 0.099475803664 8180.2315106383 - 0.104691312496 8351.5159054321 - 0.109807300435 8500.2643281250 - 0.114811259773 8626.2566992530 - 0.119827985758 8732.1895417610 - 0.125283113599 8823.0315729240 - 0.130577850414 8885.7478299539 - 0.135710763847 8921.4977656245 - 0.141018370826 8931.4202981485 - 0.147291959712 8906.2123624078 - 0.154139319203 8831.1250743850 - 0.163406758716 8646.9641680331 - 0.174611283890 8292.0930730389 - 0.186889662894 7730.7793445231 - 0.199309904569 6974.0337946150 - 0.211037315406 6077.1973490258 - 0.221362026959 5119.3568607738 - 0.229650643564 4178.4743750973 - 0.040000224080 5763.7674703634 - 0.040677013544 5820.8154087363 - 0.041045972529 5839.2990972183 - 0.041805064622 5890.9180405636 - 0.042825353133 5961.7246557656 - 0.043989461062 6042.2269334430 - 0.045207371246 6125.8683034473 - 0.046421942551 6208.6428464064 - 0.047604834088 6288.6230647020 - 0.048745583969 6365.1355609239 - 0.049842654067 6438.1192123410 - 0.050898305740 6507.7665333316 - 0.051916111343 6574.3528778874 - 0.052899855308 6638.1627009407 - 0.053853092661 6699.4609388643 - 0.054779001913 6758.4841877477 - 0.055680363543 6815.4401015344 - 0.056559588351 6870.5098621088 - 0.057418761105 6923.8515516097 - 0.058259686888 6975.6034795714 - 0.059083933106 7025.8871634418 - 0.060041136731 7083.7311050248 - 0.061101355569 7147.1090556966 - 0.062239051461 7214.3133096472 - 0.063433487061 7283.9793420944 - 0.064668360884 7355.0568713263 - 0.065931124099 7426.7587829404 - 0.067212243054 7498.5067005007 - 0.068504533136 7569.8821676765 - 0.069802606771 7640.5864887113 - 0.071102437206 7710.4092948295 - 0.072401022969 7779.2046811789 - 0.073696133680 7846.8734393316 - 0.074986119014 7913.3499930392 - 0.076269765591 7978.5928699866 - 0.077611354611 8045.8206357556 - 0.079483427821 8137.9992317834 - 0.081766167830 8247.8295505831 - 0.084836357166 8391.0742597560 - 0.088439727942 8552.5557452193 - 0.092377313082 8720.5976170190 - 0.096508841627 8887.1138346545 - 0.100740112734 9046.7822279252 - 0.105508193388 9212.8642683698 - 0.110594759799 9372.9803626463 - 0.115847470582 9518.7680618171 - 0.120996680982 9641.2796347295 - 0.126030317919 9740.4397649015 - 0.131074266542 9818.3162897904 - 0.136556384946 9877.3463089382 - 0.141874951605 9907.9001644100 - 0.147028934465 9911.2791880630 - 0.152356420010 9886.5202676696 - 0.158651144149 9818.7746168074 - 0.165518987693 9695.4278060129 - 0.174810252261 9443.0983437984 - 0.186038289965 9001.8901020508 - 0.198336627141 8341.8933318112 - 0.210771633378 7482.1087041344 - 0.222508441244 6485.8526492665 - 0.232837829805 5438.4366194708 - 0.241127290717 4421.4383273897 - 0.050000227621 7121.7396548459 - 0.050701783328 7179.0828406696 - 0.051059576896 7195.5025398783 - 0.051810022207 7244.4060832726 - 0.052831034033 7312.6267851428 - 0.054006474714 7391.0000744509 - 0.055245051766 7473.0825873271 - 0.056486290745 7554.7603010404 - 0.057698587592 7633.9349390873 - 0.058869302346 7709.7972147582 - 0.059995716077 7782.1999241584 - 0.061079543653 7851.2858303871 - 0.062124157488 7917.3024482853 - 0.063133316202 7980.5187129836 - 0.064110630254 8041.1908115338 - 0.065059367172 8099.5503130661 - 0.065982406411 8155.8019235057 - 0.066882256393 8210.1250756450 - 0.067761093217 8262.6768296049 - 0.068620805115 8313.5949474274 - 0.069463034178 8363.0007368862 - 0.070440602820 8419.7471508080 - 0.071522751527 8481.8084742559 - 0.072683278221 8547.4785889370 - 0.073900938523 8615.3960465549 - 0.075159061538 8684.5154037685 - 0.076444839600 8754.0562129799 - 0.077748564339 8823.4484603632 - 0.079062938152 8892.2834611243 - 0.080382504680 8960.2733216606 - 0.081703199455 9027.2190983947 - 0.083022004803 9092.9865473741 - 0.084336688803 9157.4880218756 - 0.085645609394 9220.6691414998 - 0.086947567857 9282.4990685579 - 0.088307755034 9346.0232865453 - 0.090204902883 9432.8119403417 - 0.092516914566 9535.7401797425 - 0.095624377923 9669.1708115310 - 0.099268689949 9818.4168521039 - 0.103247876817 9972.2696416931 - 0.107419879733 10123.0358161219 - 0.111689559883 10265.7001955685 - 0.116497595854 10411.5932126977 - 0.121623286847 10548.9925962536 - 0.126912991589 10670.0559156960 - 0.132095436439 10767.0871604809 - 0.137158932979 10840.1518244957 - 0.142230424117 10890.7052818782 - 0.147740011706 10918.7119158463 - 0.153082979189 10917.8577101596 - 0.158258667541 10889.5846044303 - 0.163606736256 10830.8718097977 - 0.169923549201 10721.4287827076 - 0.176812958546 10550.7088939972 - 0.186129601885 10231.3573646394 - 0.197383115740 9705.1094565123 - 0.209703619381 8947.7331343494 - 0.222155636632 7986.0980026185 - 0.233903965059 6891.4270839476 - 0.244239873147 5755.2359336383 - 0.252531640527 4662.7315710789 - 0.060000230703 8460.0361504489 - 0.060724006001 8517.5808729485 - 0.061072013598 8532.2247965056 - 0.061814156359 8578.7004178241 - 0.062834654982 8644.5201808393 - 0.064018714053 8720.8183156015 - 0.065274335965 8801.2894488831 - 0.066538383594 8881.7622376380 - 0.067776381522 8960.0056794311 - 0.068973651443 9035.0940809328 - 0.070126310688 9106.8022989851 - 0.071235501761 9175.2261611059 - 0.072304361576 9240.5859382471 - 0.073336589033 9303.1347881521 - 0.074335820731 9363.1196003482 - 0.075305388692 9420.7662994258 - 0.076248251256 9476.2760113399 - 0.077166997333 9529.8258203053 - 0.078063880394 9581.5711720676 - 0.078940859983 9631.6486953718 - 0.079799642830 9680.1789017829 - 0.080795986698 9735.8414941272 - 0.081898387146 9796.6148782369 - 0.083080034924 9860.7967885146 - 0.084319220099 9927.0297396476 - 0.085598930932 9994.2727847954 - 0.086906119441 10061.7508398767 - 0.088230913667 10128.9002979041 - 0.089565908915 10195.3199339785 - 0.090905582345 10260.7302397779 - 0.092245831689 10324.9413641017 - 0.093583621434 10387.8286016074 - 0.094916715516 10449.3140266009 - 0.096243476986 10509.3529228389 - 0.097562718342 10567.9238607166 - 0.098940488594 10627.9061524941 - 0.100861391175 10709.5303259634 - 0.103201205821 10805.8297084451 - 0.106344188310 10929.8090813444 - 0.110027667624 11067.2384420211 - 0.114046824404 11207.3531948470 - 0.118257886020 11342.8389480269 - 0.122564795470 11468.9801392495 - 0.127411736698 11595.2291096445 - 0.132575709122 11710.4989334719 - 0.137901789737 11807.4509018511 - 0.143117072301 11879.6084220710 - 0.148210209457 11927.1743359402 - 0.153309166827 11951.0043352805 - 0.158846277207 11948.6387023971 - 0.164213813171 11917.0050756730 - 0.169411460908 11857.6839405923 - 0.174780457281 11765.6343368327 - 0.181119851544 11615.2106505343 - 0.188031459425 11397.8813868627 - 0.197374453689 11012.5046337274 - 0.208654753798 10402.3573560381 - 0.220998976121 9548.7595485927 - 0.233469663134 8486.3409411761 - 0.245231097666 7294.1643798026 - 0.255574948201 6069.9281760156 - 0.263870162647 4902.4773384725 - 0.070000233442 9781.2711572103 - 0.070744255538 9838.9466975968 - 0.071083531832 9852.0302178691 - 0.071817716345 9896.3048722269 - 0.072836868975 9959.8832576599 - 0.074027568538 10034.1719757081 - 0.075297493480 10113.0146521358 - 0.076581355523 10192.2176564387 - 0.077842135022 10269.4465860673 - 0.079063244947 10343.6755397453 - 0.080239664109 10414.6087151316 - 0.081371948403 10482.2978415714 - 0.082462974478 10546.9368295518 - 0.083516356660 10608.7631435350 - 0.084535735799 10668.0141582035 - 0.085524489997 10724.9098346795 - 0.086485640870 10779.6473952396 - 0.087421845324 10832.4012399930 - 0.088335423362 10883.3248785919 - 0.089228396815 10932.5534865370 - 0.090102529394 10980.2064558772 - 0.091116302799 11034.7914440005 - 0.092237527036 11094.2939507632 - 0.093438832679 11157.0176514716 - 0.094698079051 11221.6101364566 - 0.095997937962 11287.0351446977 - 0.097325137347 11352.5223647842 - 0.098669651817 11417.5134157321 - 0.100023975394 11481.6129635985 - 0.101382521538 11544.5481159082 - 0.102741150899 11606.1363008980 - 0.104096809472 11666.2606143176 - 0.105447255530 11724.8512698963 - 0.106790855162 11781.8718361984 - 0.108126429711 11837.3091335044 - 0.109520839080 11893.8818102772 - 0.111464257403 11970.5269860800 - 0.113830479048 12060.4231552558 - 0.117007284665 12175.2513973704 - 0.120728178556 12301.2100012433 - 0.124785648363 12427.9579162579 - 0.129034284223 12548.5481740041 - 0.133377136827 12658.5592674015 - 0.138261780271 12765.6096036817 - 0.143462998563 12859.2308926163 - 0.148824615265 12932.5761004867 - 0.154072106172 12980.3622725625 - 0.159194429094 13002.9269248443 - 0.164320532813 13000.5367902514 - 0.169884952072 12968.3493465339 - 0.175276964181 12906.4715057952 - 0.180496575032 12816.6200168927 - 0.185886586731 12691.7656690503 - 0.192248760790 12500.9833634078 - 0.199182881004 12237.7119251896 - 0.208552785512 11787.1875982393 - 0.219860709333 11094.1537280301 - 0.232229717429 10145.3722326330 - 0.244720261214 8983.1340263560 - 0.256496003665 7694.2799982444 - 0.266848887947 6382.6676577980 - 0.275148443527 5140.7858249556 - 0.080000235915 11087.3930499834 - 0.080762912611 11145.1439998425 - 0.081094296306 11156.8351545136 - 0.081820853996 11199.0939402666 - 0.082838079984 11260.5697211761 - 0.084033924294 11332.9180959503 - 0.085316004659 11410.1353122504 - 0.086617282605 11488.0303492664 - 0.087898471958 11564.1885945986 - 0.089141196560 11637.4976071835 - 0.090339326030 11707.5974328289 - 0.091492822633 11774.4984323077 - 0.092604284913 11838.3691502085 - 0.093677223644 11899.4316087514 - 0.094715266863 11957.9136195679 - 0.095721824215 12014.0290237689 - 0.096699968444 12067.9709526952 - 0.097652414301 12119.9109323593 - 0.098581539827 12170.0003502369 - 0.099489421976 12218.3727447108 - 0.100377875359 12265.1462024558 - 0.101407924480 12318.6571316721 - 0.102546743486 12376.9005419697 - 0.103766442379 12438.1878594531 - 0.105044479327 12501.1728631456 - 0.106363230680 12564.8244009938 - 0.107709214505 12628.3767413188 - 0.109072261104 12691.2760350387 - 0.110444768676 12753.1317781347 - 0.111821089856 12813.6764014559 - 0.113197049305 12872.7332116431 - 0.114569574429 12930.1916978912 - 0.115936416941 12985.9888761211 - 0.117295944578 13040.0953851649 - 0.118646985831 13092.5052336170 - 0.120057168492 13145.7810142903 - 0.122021958643 13217.6060587647 - 0.124413287262 13301.2931977173 - 0.127622318455 13407.2293360232 - 0.131378951325 13522.0156508059 - 0.135473122560 13635.7158719599 - 0.139757857497 13741.7398552982 - 0.144135345983 13835.9554002209 - 0.149056433724 13924.1848753733 - 0.154293775340 13996.5651036381 - 0.159689975137 14046.7314922148 - 0.164968916440 14070.5736461272 - 0.170119829945 14068.5619358929 - 0.175272611639 14040.3835464603 - 0.180863957242 13978.8489855736 - 0.186280183950 13887.1908997810 - 0.191521595561 13767.2600639637 - 0.196932536093 13610.0667564993 - 0.203317481937 13379.4731676511 - 0.210274206517 13070.8498259043 - 0.219671284550 12555.9592018129 - 0.231007322592 11780.9467963455 - 0.243401820373 10737.9190237305 - 0.255913065282 9476.7381202365 - 0.267704001718 8091.9645530188 - 0.278066754387 6693.5917556228 - 0.286371320739 5377.7551556055 - 0.090000238172 12379.9135873754 - 0.090780245904 12437.6953688838 - 0.091104423303 12448.1295303296 - 0.091823668032 12488.5272290437 - 0.092838553398 12548.0224004447 - 0.094038379758 12618.4992025815 - 0.095330889892 12694.1059779367 - 0.096647615830 12770.6723445797 - 0.097947243655 12845.7221546116 - 0.099209718371 12918.0681150051 - 0.100427831793 12987.2919599362 - 0.101600950312 13053.3652677349 - 0.102731381286 13116.4322494255 - 0.103822517037 13176.6998256432 - 0.104877959075 13234.3862933774 - 0.105901136801 13289.6993077476 - 0.106895164170 13342.8278048985 - 0.107862805491 13393.9403243332 - 0.108806489886 13443.1860202672 - 0.109728343574 13490.6966849136 - 0.110630227076 13536.5889899715 - 0.111675550595 13589.0287773506 - 0.112830894727 13646.0225171930 - 0.114067882782 13705.8909144516 - 0.115363597250 13767.2949616148 - 0.116700137263 13829.2091241808 - 0.118063823505 13890.8722775926 - 0.119444350144 13951.7347186515 - 0.120834024584 14011.4100614528 - 0.122227141436 14069.6351181483 - 0.123619490634 14126.2379947995 - 0.125007981195 14181.1134412077 - 0.126390357773 14234.2041569055 - 0.127764988797 14285.4867978352 - 0.129130708660 14334.9616077256 - 0.130555873990 14385.0391180449 - 0.132540986288 14452.1838073669 - 0.134956221287 14529.8336891542 - 0.138195990243 14627.1078001422 - 0.141986784669 14730.9872880668 - 0.146116120069 14831.9230295476 - 0.150435528480 14923.6714874766 - 0.154846367540 15002.3852772272 - 0.159802639823 15072.1239452302 - 0.165074955073 15123.6178474559 - 0.170504734432 15150.9774578334 - 0.175814300969 15151.2473283497 - 0.180993130841 15125.0296092694 - 0.186172033137 15071.4404290607 - 0.191789816084 14980.9750843212 - 0.197229886745 14859.9452092961 - 0.202492824275 14710.3335697403 - 0.207924489064 14521.2144309228 - 0.214332055230 14251.2969723647 - 0.221311318237 13897.8496645244 - 0.230735608203 13319.2946968158 - 0.242100003563 12463.1251699570 - 0.254520420130 11326.7039741320 - 0.267052879822 9967.3813519663 - 0.278859721639 8487.3872358970 - 0.289232969297 7002.8230227209 - 0.297543114373 5613.4744391136 - 0.100000240251 13660.0414756459 - 0.100795033466 13717.8287743033 - 0.101111281700 13726.9777750424 - 0.101823082733 13765.6060783897 - 0.102835472387 13823.2350645423 - 0.104038688057 13891.9258360846 - 0.105340595379 13965.9664386085 - 0.106671491505 14041.2162473172 - 0.107988212648 14115.1510935177 - 0.109269120493 14186.5185932094 - 0.110505965873 14254.8477330446 - 0.111697528129 14320.0742198328 - 0.112845821359 14382.3194230772 - 0.113954113847 14441.7759324274 - 0.115025974322 14498.6529363052 - 0.116064846015 14553.1521236423 - 0.117073878795 14605.4583577028 - 0.118055881874 14655.7372605180 - 0.119013331408 14704.1357904209 - 0.119948399350 14750.7840093792 - 0.120862989058 14795.7971730765 - 0.121922768481 14847.1717110505 - 0.123093758176 14902.9269787706 - 0.124347122082 14961.3941392024 - 0.125659587973 15021.2422535238 - 0.127012993108 15081.4519023864 - 0.128393471581 15141.2667104125 - 0.129790588728 15200.1409369669 - 0.131196565876 15257.6918561731 - 0.132605642457 15313.6599915920 - 0.134013575197 15367.8774343414 - 0.135417255324 15420.2433007990 - 0.136814420390 15470.7050575829 - 0.138203439047 15519.2444852206 - 0.139583150842 15565.8672287480 - 0.141022607320 15612.8353656140 - 0.143027119873 15675.4262205961 - 0.145465199767 15747.1950338854 - 0.148734382067 15836.0171094680 - 0.152557921270 15929.2324489053 - 0.156721026394 16017.6621612347 - 0.161073800003 16095.3991518355 - 0.165516797630 16158.8763118170 - 0.170507071067 16210.4200233479 - 0.175813262067 16241.3436921908 - 0.181275645987 16246.2266926272 - 0.186615020172 16223.2535345938 - 0.191821085721 16173.1576915643 - 0.197025527174 16094.4921520038 - 0.202669222218 15975.4655210440 - 0.208132718676 15825.4271251478 - 0.213416855887 15646.4899500835 - 0.218868979271 15425.8141598883 - 0.225298936651 15117.0095924569 - 0.232300577040 14719.2128800303 - 0.241751979603 14077.6267876336 - 0.253144810105 13141.0446671073 - 0.265591384506 11912.0066869745 - 0.278145568680 10455.2797372972 - 0.289968653262 8880.7029864813 - 0.300352874781 7310.4727425438 - 0.308669039116 5848.0225889859 - 0.150000248764 19904.3818872012 - 0.150864969198 19961.7549227197 - 0.151155521110 19966.4976386487 - 0.151836476160 19997.9930057298 - 0.152833258839 20047.5459223876 - 0.154042560572 20108.1028776658 - 0.155374668702 20174.6333814616 - 0.156756689845 20243.2721281582 - 0.158138730238 20311.4167571872 - 0.159492558324 20377.6038704962 - 0.160805172347 20441.1605959228 - 0.162072450721 20501.8722065955 - 0.163294823605 20559.7579437442 - 0.164474786016 20614.9429966878 - 0.165615596831 20667.5918790941 - 0.166720641652 20717.8759184837 - 0.167793143196 20765.9586976651 - 0.168836046753 20811.9902663638 - 0.169851989936 20856.1057103519 - 0.170843311717 20898.4256677781 - 0.171812077705 20939.0576444479 - 0.172933587938 20985.1618862369 - 0.174171494862 21034.8377225075 - 0.175495012199 21086.4816266726 - 0.176879355895 21138.8129165857 - 0.178305242576 21190.8493225663 - 0.179758004289 21241.8614433048 - 0.181226649548 21291.3234024293 - 0.182703024888 21338.8679691728 - 0.184181126882 21384.2490058541 - 0.185656563422 21427.3114227636 - 0.187126143081 21467.9677346035 - 0.188587566823 21506.1800268811 - 0.190039198392 21541.9461999626 - 0.191479893906 21575.2895345422 - 0.192981734829 21607.7732934295 - 0.195071092216 21649.1259377166 - 0.197609329933 21693.4057356450 - 0.201007866850 21742.5811494453 - 0.204975966618 21785.5321407856 - 0.209288800008 21814.7061428749 - 0.213790182112 21825.7284150128 - 0.218377080483 21816.3579691675 - 0.223520248184 21780.6143224630 - 0.228979581049 21712.5865011002 - 0.234590167948 21609.1253666693 - 0.240065769268 21473.9428545775 - 0.245396961519 21308.4359827740 - 0.250719348190 21108.4472304572 - 0.256483342359 20851.1042296912 - 0.262056195888 20560.4503417011 - 0.267439822861 20239.2303106228 - 0.272988471851 19865.3040264014 - 0.279524702829 19367.4514402244 - 0.286633290327 18753.7927813864 - 0.296215545611 17804.9647522119 - 0.307746906839 16475.6766716926 - 0.320322934500 14793.4090011988 - 0.332986233189 12859.0465208180 - 0.344893229721 10819.8250646262 - 0.355335478847 8828.0767088349 - 0.363684744205 7005.4594404501 - 0.200000255264 25938.2499448886 - 0.200919122913 25994.8515888721 - 0.201189381093 25996.3104637939 - 0.201844148402 26022.3177310008 - 0.202824417365 26065.3947570311 - 0.204032117731 26119.1127809180 - 0.205380322557 26178.9820142513 - 0.206795291542 26241.4589977605 - 0.208222991929 26303.9991598617 - 0.209630254370 26365.0496735510 - 0.211000066007 26423.8135587878 - 0.212325623345 26479.9686425619 - 0.213605761991 26533.4543639259 - 0.214842111944 26584.3398217292 - 0.216037512149 26632.7505098671 - 0.217195185862 26678.8303074975 - 0.218318336196 26722.7229361793 - 0.219409964815 26764.5636647435 - 0.220472803106 26804.4761748699 - 0.221509299468 26842.5720070277 - 0.222521632588 26878.9511776662 - 0.223692850306 26919.9689875388 - 0.224984712631 26963.8154211965 - 0.226364869495 27008.9619911564 - 0.227807321109 27054.1865366813 - 0.229291880690 27098.5503663232 - 0.230803232114 27141.3553687460 - 0.232329932619 27182.0975593017 - 0.233863523817 27220.4248876316 - 0.235397803508 27256.1019786656 - 0.236928256515 27288.9819325776 - 0.238451621652 27318.9842912959 - 0.239965567255 27346.0780254338 - 0.241468450013 27370.2684676082 - 0.242959136354 27391.5872968709 - 0.244512193636 27410.9573916885 - 0.246671337359 27433.0688440814 - 0.249292157243 27452.3957857710 - 0.252797688581 27465.4438344752 - 0.256885838833 27462.3191032302 - 0.261323579267 27436.7829502989 - 0.265949537555 27385.7546210935 - 0.270657671886 27308.1773722017 - 0.275930344628 27190.2270160644 - 0.281520148176 27028.5433311424 - 0.287257763252 26822.1374750599 - 0.292850831641 26580.0283315624 - 0.298290549501 26304.3055719707 - 0.303715818523 25988.2553402246 - 0.309585372182 25598.3927789300 - 0.315254766429 25172.8274441859 - 0.320726738523 24714.9215840745 - 0.326361583264 24193.5894979558 - 0.332993379936 23513.6518645420 - 0.340198837282 22691.7610667254 - 0.349900690275 21445.9907091530 - 0.361560289296 19736.2672522421 - 0.374257919783 17613.7793798592 - 0.387025493149 15214.2775259296 - 0.399014235431 12721.4811923121 - 0.409514209795 10317.4051066996 - 0.417897313515 8141.8743843929 - 0.250000260538 31803.7076296146 - 0.250963750179 31859.3505071172 - 0.251217844647 31858.2998897239 - 0.251850251224 31879.9300973989 - 0.252814436988 31917.6663048644 - 0.254016890439 31965.5628705250 - 0.255373393754 32019.5615722280 - 0.256810480331 32076.4272512128 - 0.258271563892 32133.7304108474 - 0.259719733989 32189.8974506000 - 0.261134597034 32244.0583318429 - 0.262506911829 32295.8148540981 - 0.263833969145 32345.0445321340 - 0.265116502978 32391.7703003672 - 0.266356874803 32436.0841754912 - 0.267558083754 32478.1057143701 - 0.268723256353 32517.9606906999 - 0.269855400212 32555.7707607801 - 0.270957297012 32591.6490255384 - 0.272031467330 32625.6985493341 - 0.273080170995 32658.0123744423 - 0.274292922653 32694.1790518982 - 0.275629906672 32732.4804722600 - 0.277057467164 32771.4648720919 - 0.278548586949 32809.9705896945 - 0.280082322039 32847.1045725902 - 0.281642812428 32882.2018923047 - 0.283218236321 32914.7819240878 - 0.284799878952 32944.5086140746 - 0.286381370724 32971.1573431808 - 0.287958092510 32994.5884734517 - 0.289526723831 33014.7267010329 - 0.291084904813 33031.5451084869 - 0.292630985332 33045.0528876811 - 0.294163839517 33055.2858828017 - 0.295760133007 33062.5730320863 - 0.297978248504 33066.9580786766 - 0.300668945654 33063.2818482922 - 0.304265169453 33042.9592455494 - 0.308455306826 32997.1149098003 - 0.312999434159 32920.5898212962 - 0.317731794636 32811.3906332799 - 0.322543781156 32669.4984525597 - 0.327927737924 32473.6020210313 - 0.333630041633 32222.6691517552 - 0.339477580280 31917.7530636600 - 0.345172662861 31572.9923859100 - 0.350706956771 31191.2013643175 - 0.356222188937 30763.2433262351 - 0.362184371772 30245.3957818286 - 0.367938783416 29689.3514869829 - 0.373488824514 29099.0908565836 - 0.379200139795 28434.8662179178 - 0.385916957110 27578.2107083745 - 0.393209005141 26553.9713500423 - 0.403018328394 25019.2137395553 - 0.414793940198 22938.5599745194 - 0.427602449493 20385.9741925805 - 0.440465903483 17531.1034071342 - 0.452530420048 14593.4289912795 - 0.463084274406 11784.2780114747 - 0.471498820405 9261.5779189613 - 0.250000260538 31803.7076296146 - 0.250963750179 31859.3505071172 - 0.251217844647 31858.2998897239 - 0.251850251224 31879.9300973989 - 0.252814436988 31917.6663048644 - 0.254016890439 31965.5628705250 - 0.255373393754 32019.5615722280 - 0.256810480331 32076.4272512128 - 0.258271563892 32133.7304108474 - 0.259719733989 32189.8974506000 - 0.261134597034 32244.0583318429 - 0.262506911829 32295.8148540981 - 0.263833969145 32345.0445321340 - 0.265116502978 32391.7703003672 - 0.266356874803 32436.0841754912 - 0.267558083754 32478.1057143701 - 0.268723256353 32517.9606906999 - 0.269855400212 32555.7707607801 - 0.270957297012 32591.6490255384 - 0.272031467330 32625.6985493341 - 0.273080170995 32658.0123744423 - 0.274292922653 32694.1790518982 - 0.275629906672 32732.4804722600 - 0.277057467164 32771.4648720919 - 0.278548586949 32809.9705896945 - 0.280082322039 32847.1045725902 - 0.281642812428 32882.2018923047 - 0.283218236321 32914.7819240878 - 0.284799878952 32944.5086140746 - 0.286381370724 32971.1573431808 - 0.287958092510 32994.5884734517 - 0.289526723831 33014.7267010329 - 0.291084904813 33031.5451084869 - 0.292630985332 33045.0528876811 - 0.294163839517 33055.2858828017 - 0.295760133007 33062.5730320863 - 0.297978248504 33066.9580786766 - 0.300668945654 33063.2818482922 - 0.304265169453 33042.9592455494 - 0.308455306826 32997.1149098003 - 0.312999434159 32920.5898212962 - 0.317731794636 32811.3906332799 - 0.322543781156 32669.4984525597 - 0.327927737924 32473.6020210313 - 0.333630041633 32222.6691517552 - 0.339477580280 31917.7530636600 - 0.345172662861 31572.9923859100 - 0.350706956771 31191.2013643175 - 0.356222188937 30763.2433262351 - 0.362184371772 30245.3957818286 - 0.367938783416 29689.3514869829 - 0.373488824514 29099.0908565836 - 0.379200139795 28434.8662179178 - 0.385916957110 27578.2107083745 - 0.393209005141 26553.9713500423 - 0.403018328394 25019.2137395553 - 0.414793940198 22938.5599745194 - 0.427602449493 20385.9741925805 - 0.440465903483 17531.1034071342 - 0.452530420048 14593.4289912795 - 0.463084274406 11784.2780114747 - 0.471498820405 9261.5779189613 - 0.300000264976 37526.1208605643 - 0.301001437585 37580.7063203952 - 0.301242193324 37577.6790346886 - 0.301855223394 37595.7351673302 - 0.302804221442 37628.9948204929 - 0.303999684614 37671.8992317877 - 0.305359880697 37720.7377432606 - 0.306812160181 37772.5518792814 - 0.308298394019 37825.0477627229 - 0.309778814372 37876.6700182811 - 0.311230176150 37926.5095963818 - 0.312641042039 37974.1154770567 - 0.314007236519 38019.3175597345 - 0.315328600120 38062.1011584763 - 0.316606989284 38102.5299351725 - 0.317845142517 38140.7022803528 - 0.319046072929 38176.7280219465 - 0.320212760498 38210.7165820159 - 0.321348007490 38242.7714579753 - 0.322454380839 38272.9879932977 - 0.323534199181 38301.4528745723 - 0.324782507382 38333.0296301824 - 0.326158143077 38366.0888924668 - 0.327626331315 38399.2534042705 - 0.329159181393 38431.4207211196 - 0.330735098456 38461.7429335127 - 0.332337754717 38489.5883620011 - 0.333955002344 38514.5001212676 - 0.335577906059 38536.1586069123 - 0.337199952311 38554.3502736229 - 0.338816432592 38568.9427637066 - 0.340423975411 38579.8655322709 - 0.342020196571 38587.0949003787 - 0.343603439953 38590.6425482179 - 0.345172586118 38590.5466355015 - 0.346806107526 38586.5811081778 - 0.349075028327 38574.4615898723 - 0.351825971595 38549.3626008874 - 0.355500467339 38497.9263721637 - 0.359778741080 38412.1525028698 - 0.364414949788 38287.7877818122 - 0.369239562016 38123.7573252109 - 0.374141751148 37920.9451183504 - 0.379622554295 37650.8509815221 - 0.385422971700 37314.5566878135 - 0.391366591171 36915.0314362433 - 0.397151040229 36471.3545920123 - 0.402768362522 35987.0889702275 - 0.408362738633 35450.7914890265 - 0.414406587955 34808.8230494207 - 0.420236118771 34126.0504833247 - 0.425855282595 33407.0802477628 - 0.431634425609 32603.7444947478 - 0.438426861865 31574.8567981899 - 0.445796098162 30353.1727073530 - 0.455701502440 28536.0477232630 - 0.467581221842 26092.3683892142 - 0.480489623233 23118.1046780598 - 0.493439734649 19815.9974180046 - 0.505572914816 16440.6895586549 - 0.516175486959 13232.5074083635 - 0.524617996393 10367.4263632169 - 0.350000268805 43122.3974665845 - 0.351033774240 43175.8757163131 - 0.351263254706 43171.2645716625 - 0.351859303176 43186.3599558091 - 0.352794139579 43215.8289036436 - 0.353981815071 43254.4301893580 - 0.355342835576 43298.7364903978 - 0.356805626088 43346.0312438950 - 0.358311180343 43394.1588980985 - 0.359817537708 43441.6037702298 - 0.361299043976 43487.4404204703 - 0.362742292274 43531.1820618399 - 0.364141731334 43572.6222775405 - 0.365496329256 43611.7159243525 - 0.366807427688 43648.5028446714 - 0.368077483181 43683.0631991564 - 0.369309371251 43715.4928419938 - 0.370506020847 43745.8903467716 - 0.371670233561 43774.3506314701 - 0.372804603854 43800.9621153820 - 0.373911492688 43825.8057798879 - 0.375190754080 43853.0630119883 - 0.376600053998 43881.1878447903 - 0.378103641410 43908.8733409319 - 0.379672862383 43935.0732821591 - 0.381285552803 43958.9829776361 - 0.382924975615 43980.0029293442 - 0.384578697773 43997.6995452709 - 0.386237591209 44011.7696177655 - 0.387895016646 44022.0108127954 - 0.389546187614 44028.2982111290 - 0.391187688230 44030.5660732122 - 0.392817113205 44028.7937975649 - 0.394432801325 44022.9951231271 - 0.396033638860 44013.2097965851 - 0.397699676662 43998.6903940717 - 0.400012986646 43971.0922467839 - 0.402816590169 43925.8974856766 - 0.406559542752 43845.2502037588 - 0.410914961629 43721.9198470609 - 0.415631844669 43552.4286952666 - 0.420537365724 43336.4855164724 - 0.425518755279 43075.7599269360 - 0.431084695469 42734.8248940951 - 0.436971481546 42316.6779458518 - 0.442999798041 41826.0761428997 - 0.448863134125 41286.8638674011 - 0.454553846576 40703.3660356397 - 0.460218270276 40061.9344958919 - 0.466334491162 39299.2988214396 - 0.472230678374 38493.1338216636 - 0.477911252571 37648.6824045771 - 0.483750725423 36709.5735369600 - 0.490610504921 35512.4002238358 - 0.498048572494 34097.5755170751 - 0.508039792732 32003.8816530428 - 0.520012635802 29204.0891856366 - 0.533010494929 25815.5026222067 - 0.546038374923 22073.2593055169 - 0.558232942813 18266.6337953624 - 0.568878720470 14664.6814483577 - 0.577345318975 11461.3793906919 - 0.400000272168 48604.5696099044 - 0.401061824578 48656.9196094573 - 0.401281607460 48651.0276154571 - 0.401862640787 48663.6481292380 - 0.402784346354 48689.8858646195 - 0.403963945832 48724.7650337966 - 0.405323949698 48765.0921120240 - 0.406793964617 48808.3596535344 - 0.408314554441 48852.5444223306 - 0.409842072585 48896.1812237326 - 0.411348825589 48938.3430025468 - 0.412819644379 48978.5196153439 - 0.414247696113 49016.4771480794 - 0.415631108082 49052.1459022976 - 0.416970708634 49085.5458150990 - 0.418268661016 49116.7414584846 - 0.419527687319 49145.8165521677 - 0.420750648948 49172.8601525895 - 0.421940331204 49197.9596032023 - 0.423099341920 49221.1971898991 - 0.424230071806 49242.6488359338 - 0.425536608119 49265.8564175720 - 0.426975584436 49289.3509632056 - 0.428510387540 49311.8906815676 - 0.430111688189 49332.4817008724 - 0.431756818116 49350.3598428720 - 0.433428677703 49364.9560564257 - 0.435114581308 49375.8590559465 - 0.436805230257 49382.7815771688 - 0.438493874159 49385.5323875340 - 0.440175657786 49383.9940797712 - 0.441847126233 49378.1058469524 - 0.443505855808 49367.8502461367 - 0.445150181018 49353.2430371236 - 0.446778993383 49334.3253482159 - 0.448473737454 49309.8579783849 - 0.450826241231 49267.6672712787 - 0.453676351799 49203.5198670282 - 0.457479781560 49095.3009100067 - 0.461903383511 48936.4679861999 - 0.466691608109 48724.2189745948 - 0.471668723049 48458.9393688743 - 0.476720242219 48142.9856112925 - 0.482361625863 47734.2413217756 - 0.488325006192 47237.4407399378 - 0.494428499754 46659.0043154421 - 0.500361912146 46027.3694270263 - 0.506117868467 45347.6269633144 - 0.511844608684 44604.0120651983 - 0.518025229690 43723.8814945629 - 0.523980832016 42797.3817521215 - 0.529716148205 41830.4009331411 - 0.535609429334 40758.5645017678 - 0.542529303841 39396.6994611041 - 0.550028825487 37792.6470368535 - 0.560096692011 35427.6480563492 - 0.572152735681 32278.0107883709 - 0.585230538537 28481.7661486950 - 0.598327648489 24305.8098963432 - 0.610576716222 20073.5756236865 - 0.621260286747 16082.5966988573 - 0.629747077766 12544.8130738108 - 0.450000275163 53981.6098002042 - 0.451086345397 54032.8280852557 - 0.451297678444 54025.8964625213 - 0.451865341389 54036.4369816894 - 0.452774902338 54059.9088743369 - 0.453946424597 54091.5614176926 - 0.455304213890 54128.3962083605 - 0.456779084246 54168.0857020106 - 0.458311473924 54208.7289279074 - 0.459856441183 54248.9154050177 - 0.461384563150 54287.7257937483 - 0.462879095955 54324.6354978286 - 0.464332018548 54359.3899080986 - 0.465740655010 54391.8995678501 - 0.467105329250 54422.1678284956 - 0.468427906721 54450.2459962931 - 0.469710946120 54476.2073250173 - 0.470957229650 54500.1325924648 - 0.472169514722 54522.1025199723 - 0.473350411714 54542.1940182532 - 0.474502331272 54560.4785759771 - 0.475833121075 54579.9000985821 - 0.477298496418 54599.0597466354 - 0.478861075314 54616.7752543872 - 0.480490925388 54632.1007892508 - 0.482164927686 54644.3095762990 - 0.483865658395 54652.8609046260 - 0.485580206077 54657.3644775169 - 0.487299119686 54657.5482444681 - 0.489015549735 54653.2317563428 - 0.490724579819 54644.3050631672 - 0.492422720452 54630.7123786376 - 0.494107531782 54612.4395535141 - 0.495777344750 54589.5044778332 - 0.497431055790 54561.9496919486 - 0.499151350175 54528.0706285764 - 0.501538740351 54472.0682296729 - 0.504430250106 54389.9719098442 - 0.508287522039 54255.6181838640 - 0.512771839228 54063.0857362060 - 0.517623609151 53810.1693675347 - 0.522664515131 53497.8461502452 - 0.527778543051 53129.0772966170 - 0.533487198872 52655.2760527133 - 0.539518906832 52082.7546212124 - 0.545689492581 51419.4792644163 - 0.551685470901 50698.3138289894 - 0.557499698624 49925.1112791946 - 0.563282114026 49082.0673395349 - 0.569520346086 48087.4059668039 - 0.575528995469 47043.4245615142 - 0.581313249154 45956.6685161803 - 0.587254636240 44754.9443793086 - 0.594228236315 43231.7367013935 - 0.601782690768 41442.1011666494 - 0.611919042309 38810.6982939999 - 0.624049360642 35317.0520221450 - 0.637198334276 31119.3519079964 - 0.650356909844 26515.6612229717 - 0.662653934297 21863.1224181392 - 0.673370223034 17487.5165045355 - 0.681873449146 13618.7074427663 - 0.500000277857 59260.4505243809 - 0.501107898681 59310.5445705122 - 0.501311794775 59302.7697746156 - 0.501867484086 59311.5572456798 - 0.502765823953 59332.6559090172 - 0.503929433598 59361.5080761570 - 0.505284229976 59395.2798909031 - 0.506762215578 59431.7983375614 - 0.508303910997 59469.2730901649 - 0.509863383327 59506.3485755459 - 0.511409740523 59542.1187102288 - 0.512924832116 59576.0507014158 - 0.514399539006 59607.8744222364 - 0.515830422799 59637.4845090590 - 0.517217316720 59664.8705050505 - 0.518561788783 59690.0724614285 - 0.519866228576 59713.1546516779 - 0.521133331029 59734.1907030854 - 0.522365817028 59753.2555974523 - 0.523566291130 59770.4215811312 - 0.524737176172 59785.7562965225 - 0.526089683678 59801.6456226863 - 0.527578706269 59816.7538839567 - 0.529166171574 59829.9525877221 - 0.530821604685 59840.3394779337 - 0.532521480884 59847.2218993831 - 0.534248084396 59850.0851889688 - 0.535988300498 59848.5585343605 - 0.537732541084 59842.3841933225 - 0.539473867662 59831.3920300044 - 0.541207309018 59815.4793805817 - 0.542929344814 59794.5954963439 - 0.544637520928 59768.7296384757 - 0.546330165345 59737.9019748104 - 0.548006179150 59702.1565839138 - 0.549749359159 59659.3473474364 - 0.552167996349 59590.2315344904 - 0.555096585607 59491.0803674750 - 0.559002081578 59331.8682989394 - 0.563540780460 59107.2376535630 - 0.568449470216 58815.5163935148 - 0.573547523478 58458.2047756353 - 0.578717557038 58038.8009547157 - 0.584486493077 57502.4518773525 - 0.590579437356 56856.9081721557 - 0.596810157180 56111.5732485823 - 0.602862218192 55303.5781257221 - 0.608728681292 54439.5280801753 - 0.614561002958 53499.6476180606 - 0.620850842708 52393.2498220492 - 0.626907059982 51234.4833469203 - 0.632735158975 50030.5560223800 - 0.638719632621 48701.6308742187 - 0.645741330383 47020.2509371530 - 0.653344928856 45048.4846388464 - 0.663542484695 42155.3245715939 - 0.675739042950 38323.2074598819 - 0.688951328931 33729.9453024125 - 0.702164189865 28704.2006826138 - 0.714503139899 23636.3955204280 - 0.725247318679 18880.3327136098 - 0.733763424334 14683.7648256615 - 0.550000280303 64446.6006391902 - 0.551126915971 64495.5847325712 - 0.551324214586 64487.1294908044 - 0.551869131556 64494.4384134035 - 0.552757106643 64513.4986179412 - 0.553913064188 64539.9195699166 - 0.555264371565 64571.0075094312 - 0.556744176795 64604.7221772403 - 0.558293224459 64639.3720183692 - 0.559864828615 64673.6541367860 - 0.561426847270 64706.6786126086 - 0.562959873722 64737.9087206405 - 0.564453776504 64767.0626952985 - 0.565904396817 64794.0223210423 - 0.567311094180 64818.7656299564 - 0.568675143012 64841.3231372807 - 0.569998761235 64861.7514388749 - 0.571284551141 64880.1180297397 - 0.572535190742 64896.4929515022 - 0.573753272273 64910.9444437901 - 0.574941224588 64923.5368493594 - 0.576313284705 64936.1360718397 - 0.577823604120 64947.4627382902 - 0.579433487031 64956.4364358178 - 0.581111967829 64962.1940329734 - 0.582835154457 64964.0736784270 - 0.584585066751 64961.5843978476 - 0.586348405960 64954.3732686060 - 0.588115460001 64942.1958492253 - 0.589879210001 64924.8917449793 - 0.591634635365 64902.3653160161 - 0.593378188087 64874.5707976297 - 0.595107401380 64841.5009356278 - 0.596820600797 64803.1783140836 - 0.598516691842 64759.6487033681 - 0.600280472073 64708.3460749138 - 0.602727233321 64626.7479621451 - 0.605689192790 64511.3470386243 - 0.609638083972 64328.4225434387 - 0.614225714043 64073.1295949395 - 0.619185615810 63744.2763120492 - 0.624335079353 63343.8303158259 - 0.629555493037 62875.7708680763 - 0.635378651096 62279.1697868465 - 0.641526671761 61563.0941685509 - 0.647811470030 60738.2857704334 - 0.653913955983 59845.9915677256 - 0.659827373568 58893.5554128751 - 0.665704541952 57859.2912129328 - 0.672040741069 56643.8102653065 - 0.678139665241 55372.8249358412 - 0.684007108729 54054.2098677618 - 0.690030219780 52600.6504832097 - 0.697095010835 50764.1320727025 - 0.704742589139 48613.5441201683 - 0.714994819472 45463.0889815360 - 0.727250379686 41297.8306834884 - 0.740518770883 36314.6881462046 - 0.753779436000 30872.3751818476 - 0.766154729917 25394.1688547452 - 0.776922309036 20261.6717097046 - 0.785447965764 15740.4878897262 - 0.600000282539 69544.5394961261 - 0.601143737506 69592.4320766006 - 0.601335146280 69583.4329133720 - 0.601870335300 69589.4962110207 - 0.602748736080 69606.8057207890 - 0.603897356104 69631.1168479917 - 0.605244872651 69659.8561694054 - 0.606725524083 69691.0976027154 - 0.608280374311 69723.2369265623 - 0.609862171934 69755.0202964851 - 0.611437710210 69785.5750498514 - 0.612986460359 69814.3633021274 - 0.614497359152 69841.0944984018 - 0.615965569606 69865.6399640126 - 0.617389996598 69887.9680999262 - 0.618771627317 69908.1013401169 - 0.620112507865 69926.0897388117 - 0.621415144603 69941.9955502033 - 0.622682168050 69955.8846071825 - 0.623916153138 69967.8217384551 - 0.625119529796 69977.8684892878 - 0.626509267780 69987.4067790597 - 0.628038848031 69995.2069146483 - 0.629669009364 70000.2310462481 - 0.631368340445 70001.6508292261 - 0.633112615240 69998.8319578002 - 0.634883613145 69991.3047979182 - 0.636667868091 69978.7326967635 - 0.638455555370 69960.8834567343 - 0.640239583195 69937.6057896467 - 0.642014886288 69908.8107520888 - 0.643777891725 69874.4574503032 - 0.645526121439 69834.5421425580 - 0.647257898989 69789.0899399406 - 0.648972134098 69738.1484531384 - 0.650754528770 69678.7515231352 - 0.653226699496 69585.2460153453 - 0.656218803221 69454.3263309988 - 0.660206886936 69248.7268096652 - 0.664838699821 68964.0693792169 - 0.669844832932 68599.5971103648 - 0.675040697784 68157.6990713688 - 0.680306572511 67642.7892277393 - 0.686178646267 66988.0441231223 - 0.692376337685 66203.7410050955 - 0.698709888799 65301.8709097308 - 0.704857814460 64327.6543704319 - 0.710813524094 63289.1574982676 - 0.716731064915 62162.8381341347 - 0.723108969407 60840.8034527611 - 0.729246284601 59460.0542660534 - 0.735149064367 58029.1341900842 - 0.741206842792 56453.4092441562 - 0.748310250966 54464.6772680621 - 0.755997175601 52138.4658879918 - 0.766298200951 48735.0400460537 - 0.778606216945 44241.8214218575 - 0.791924180072 38874.3377698353 - 0.805226569865 33020.8141834478 - 0.817633111563 27136.9650506664 - 0.828420008706 21631.9664022005 - 0.836952113662 16789.2328031314 - 0.650000284595 74557.9803653854 - 0.651158637356 74604.8022759167 - 0.651344761262 74595.3748557442 - 0.651871138771 74600.3917907711 - 0.652740693820 74616.1994949058 - 0.653882319224 74638.6817231675 - 0.655225879064 74665.3692712701 - 0.656706641452 74694.4344128201 - 0.658266052205 74724.3496003230 - 0.659856442832 74753.9056851370 - 0.661443698761 74782.2471257304 - 0.663006288706 74808.8365443832 - 0.664532292987 74833.3766365295 - 0.666016238043 74855.7301163633 - 0.667456594456 74875.8572766800 - 0.668854070365 74893.7736901752 - 0.670210541715 74909.5238457162 - 0.671528417278 74923.1655459675 - 0.672810276865 74934.7610625188 - 0.674058674282 74944.3723527972 - 0.675276036586 74952.0586213580 - 0.676681810011 74958.7516547874 - 0.678228866746 74963.2651352950 - 0.679877431158 74964.5985092126 - 0.681595685698 74961.9540597645 - 0.683359099693 74954.7218829337 - 0.685149233147 74942.4513971669 - 0.686952467358 74924.8206180512 - 0.688758874965 74901.6085226665 - 0.690561297814 74872.6722622434 - 0.692354630063 74837.9292189091 - 0.694135276265 74797.3432106807 - 0.695900748278 74750.9139939801 - 0.697649368041 74698.6692848601 - 0.699380049312 74640.6586633469 - 0.701179313930 74573.5339985916 - 0.703674508697 74468.6478560974 - 0.706693920707 74322.8773607403 - 0.710717500224 74095.5482595667 - 0.715389315880 73782.7071295607 - 0.720437292583 73383.9927291145 - 0.725675139697 72902.1771080811 - 0.730982131462 72342.0703389665 - 0.736898427901 71631.1231266118 - 0.743141001791 70780.7303167693 - 0.749518582765 69804.0524609479 - 0.755707519562 68750.1501754323 - 0.761701372560 67627.7941259894 - 0.767655296250 66411.6356274783 - 0.774070750811 64985.4655977161 - 0.780242594771 63497.3094283764 - 0.786177119046 61956.3796962293 - 0.792266000239 60260.8745638762 - 0.799403998096 58122.7637651665 - 0.807126090752 55624.0381541954 - 0.817470595506 51971.8598866561 - 0.829825120014 47155.7538072767 - 0.843186697247 41409.3724804695 - 0.856525452158 35149.9205040455 - 0.868958451712 28865.1248461703 - 0.879760765300 22991.5066253413 - 0.888296434097 17830.2466654900 - 0.700000286494 79490.0529348340 - 0.701171840247 79535.8262499961 - 0.701353202688 79526.0692986650 - 0.701871579357 79530.2114086785 - 0.702732960209 79544.7335857177 - 0.703867946082 79565.6332143455 - 0.705207479599 79590.5320536708 - 0.706687796641 79617.6872654401 - 0.708250764093 79645.6382395875 - 0.709848414097 79673.2158658116 - 0.711445857555 79699.5807757035 - 0.713020667240 79724.1969523717 - 0.714560137060 79746.7617505359 - 0.716058197373 79767.1306776120 - 0.717512905502 79785.2571394257 - 0.718924700035 79801.1508622272 - 0.720295289802 79814.8516038739 - 0.721626985610 79826.4134026174 - 0.722922314465 79835.8955447406 - 0.724183806182 79843.3575982289 - 0.725413881797 79848.8568392336 - 0.726834237487 79852.9066110190 - 0.728397191368 79854.3580329720 - 0.730062498504 79852.2428744213 - 0.731797970205 79845.7901061483 - 0.733578797217 79834.4112325817 - 0.735386338856 79817.6725300672 - 0.737206836833 79795.2651289389 - 0.739030269976 79766.9781253310 - 0.740849419575 79732.6764322750 - 0.742659142860 79692.2833607826 - 0.744455823981 79645.7672478873 - 0.746236965771 79593.1312986399 - 0.748000888878 79534.4058801080 - 0.749746510913 79469.6426459752 - 0.751561098510 79395.1282198446 - 0.754077201508 79279.3461957005 - 0.757121405587 79119.3382346882 - 0.761177199501 78871.1458148112 - 0.765885305438 78531.2012046052 - 0.770971225260 78099.5041920968 - 0.776247124039 77579.1771757000 - 0.781591363211 76975.3940029183 - 0.787547698257 76210.0394475584 - 0.793830883735 75295.5452316531 - 0.800248271741 74246.1702567174 - 0.806474255736 73114.6906400108 - 0.812502533341 71910.5632749946 - 0.818489259379 70606.6784971005 - 0.824938529002 69078.6902878832 - 0.831141425247 67485.3954254701 - 0.837104455340 65836.6735852014 - 0.843221220667 64023.7006996395 - 0.850390159468 61738.9685582761 - 0.858143639059 59070.7639263263 - 0.868526793165 55173.9671178904 - 0.880922409567 50039.9665581828 - 0.894322146930 43920.0676462672 - 0.907692160751 37259.9241115635 - 0.920147286044 30578.8507130944 - 0.930961498355 24340.4754018247 - 0.939498042898 18863.6944167636 - 0.750000288257 84343.4335565904 - 0.751183533222 84388.1807920198 - 0.751360591677 84378.1790545795 - 0.751871689709 84381.5947162993 - 0.752725515859 84395.0199663301 - 0.753854219275 84414.5534088478 - 0.755189725496 84437.8967857998 - 0.756669177112 84463.3806747759 - 0.758234884431 84489.6026262916 - 0.759838673780 84515.4288829434 - 0.761444995081 84540.0347891154 - 0.763030620167 84562.8859567901 - 0.764582121467 84583.6753231930 - 0.766092872336 84602.2522359434 - 0.767560538148 84618.5641829383 - 0.768985298345 84632.6158817930 - 0.770368698761 84644.4430676509 - 0.771712952878 84654.0966121758 - 0.773020533700 84661.6333178692 - 0.774293944940 84667.1107944856 - 0.775535599134 84670.5847591699 - 0.776969240467 84672.1796561815 - 0.778546681755 84670.7784967571 - 0.780227249129 84665.4407190472 - 0.781978414172 84655.4182832088 - 0.783775112399 84640.1412811643 - 0.785598519205 84619.1907663673 - 0.787434748407 84592.2694973415 - 0.789273692945 84559.1756651334 - 0.791108078742 84519.7812725292 - 0.792932729355 84474.0151506811 - 0.794744010410 84421.8499400526 - 0.796539416654 84363.2922168643 - 0.798317267713 84298.3750168291 - 0.800076484892 84227.1521462852 - 0.801905012517 84145.5604295873 - 0.804440131941 84019.3300826980 - 0.807506877716 83845.6500182236 - 0.811591950264 83577.3914202177 - 0.816333023163 83211.3361109368 - 0.821453392834 82747.8139490459 - 0.826763819286 82190.2696613668 - 0.832141836243 81544.2135485437 - 0.838134454608 80726.1155801934 - 0.844454409552 79749.3737306181 - 0.850907805186 78629.2821222700 - 0.857167265769 77422.2161078750 - 0.863226614260 76138.3005463221 - 0.869242909650 74748.7070774371 - 0.875722616295 73121.1245850166 - 0.881953416827 71424.8781839201 - 0.887942017683 69670.5111016336 - 0.894083745581 67742.3174438422 - 0.901280297223 65313.6533173575 - 0.909061732794 62478.9413302129 - 0.919479125563 58341.5903736610 - 0.931910878708 52894.6276200485 - 0.945343773694 46406.5502477055 - 0.958740403399 39350.9327382697 - 0.971213622546 32278.2448787438 - 0.982036413145 25678.9751178110 - 0.990571385165 19889.6788257144 - 0.800000289898 89120.4405554588 - 0.801193873959 89164.1841339448 - 0.801367031848 89154.0106584739 - 0.801871498677 89156.8286701010 - 0.802718342378 89169.3218699061 - 0.803841115938 89187.6795574328 - 0.805172642958 89209.6743038913 - 0.806650913905 89233.7003205864 - 0.808218692739 89258.4054719474 - 0.809827674365 89282.6868173360 - 0.811441744673 89305.7326535211 - 0.813036959297 89327.0100767105 - 0.814599229274 89346.2081611820 - 0.816121408411 89363.1708571518 - 0.817600791423 89377.8404952389 - 0.819037309629 89390.2174712029 - 0.820432350788 89400.3340951879 - 0.821788032503 89408.2385860445 - 0.823106773308 89413.9857034318 - 0.824391049350 89417.6314786193 - 0.825643262728 89419.2303987295 - 0.827089024305 89418.5454516464 - 0.828679685435 89414.4864000011 - 0.830374179680 89406.1360279034 - 0.832139667239 89392.7658412042 - 0.833950849486 89373.8218831947 - 0.835788733045 89348.8980299414 - 0.837639314398 89317.7072611990 - 0.839492407748 89280.0558824607 - 0.841340688335 89235.8223313301 - 0.843178948965 89184.9405486831 - 0.845003538432 89127.3872487756 - 0.846811944222 89063.1722803612 - 0.848602485189 88992.3313413066 - 0.850374086168 88914.9204458957 - 0.852215308756 88826.5409112423 - 0.854767741202 88690.2764854136 - 0.857855002028 88503.4470171194 - 0.861966708564 88215.8583580057 - 0.866737753519 87824.6083283361 - 0.871889423186 87330.3289614266 - 0.877231198361 86736.7629799703 - 0.882639859547 86049.7338839488 - 0.888665366486 85180.4397301379 - 0.895018618533 84143.1829886690 - 0.901504583783 82954.2368063128 - 0.907794284104 81673.4675517082 - 0.913881661061 80311.6501913706 - 0.919924590627 78838.2773459813 - 0.926431665533 77113.2379096583 - 0.932687506054 75316.1518887296 - 0.938699003048 73458.2212893394 - 0.944863029115 71416.9939909674 - 0.952084212147 68847.0260742390 - 0.959890408660 65848.7218521841 - 0.970338009439 61474.8220153924 - 0.982801341895 55719.7817674202 - 0.996262789110 48868.8393501453 - 1.009681747181 41422.9618921666 - 1.022169328020 33963.3337959309 - 1.032997697053 27007.0484712664 - 1.041528713624 20908.2548398042 - 0.850000291431 93823.1054753695 - 0.851202996859 93865.8673690630 - 0.851372612700 93855.5853050624 - 0.851871031984 93857.9177486446 - 0.852711422699 93869.6232732854 - 0.853828610484 93886.9729072603 - 0.855156241382 93907.8023784878 - 0.856633097815 93930.5611740351 - 0.858202398887 93953.9405184102 - 0.859815767180 93976.8639870015 - 0.861436607516 93998.5309267205 - 0.863040334998 94018.4094930937 - 0.864612254786 94036.1851773835 - 0.866144736891 94051.6970712514 - 0.867634726403 94064.8829384045 - 0.869081917935 94075.7394120607 - 0.870487546701 94084.2958790863 - 0.871853636506 94090.5983457784 - 0.873182551542 94094.6999123462 - 0.874476739450 94096.6553652211 - 0.875738590408 94096.5182526894 - 0.877195418104 94093.7155087481 - 0.878798152076 94087.1789139603 - 0.880505366292 94076.0106104056 - 0.882283935302 94059.4984652574 - 0.884108345517 94037.1020277680 - 0.885959448566 94008.4261753323 - 0.887823133200 93973.1927891933 - 0.889689141385 93931.2153606077 - 0.891550101929 93882.3781323184 - 0.893400779537 93826.6197506338 - 0.895237507695 93763.9207669513 - 0.897057767380 93694.2941885880 - 0.898859876877 93617.7783492872 - 0.900642764404 93534.4315054074 - 0.902495554083 93439.5327104063 - 0.905063756335 93293.6183378800 - 0.908169695879 93094.1238732084 - 0.912305639569 92787.8868847330 - 0.917103941414 92372.2900576250 - 0.922284054222 91848.2423151841 - 0.927654293200 91219.7630315292 - 0.933090753856 90492.9689669446 - 0.939146066419 89573.9215511527 - 0.945529456807 88477.7734888238 - 0.952044861640 87221.7270383512 - 0.958361855163 85869.0387663671 - 0.964474487467 84431.1166507440 - 0.970541372617 82875.8117202070 - 0.977073011937 81055.3719941271 - 0.983351268821 79159.4881424700 - 0.989383220942 77200.0150926361 - 0.995567105121 75047.8857652350 - 1.002810137135 72339.1853932648 - 1.010638211150 69180.1533391595 - 1.021112305866 64573.6577561447 - 1.033603011798 58515.3858835256 - 1.047088775262 51306.8762666655 - 1.060526095516 43475.9601897615 - 1.073024573685 35634.0879728901 - 1.083855650694 28324.6913697297 - 1.092380581736 21919.4414124883 - 0.900000292866 98453.2273284235 - 0.901211017587 98495.0288237186 - 0.901377412191 98484.6928625617 - 0.901870312743 98486.6374263091 - 0.902704741184 98497.6818086908 - 0.903816676290 98514.1710999674 - 0.905140518865 98533.9977230480 - 0.906615790592 98555.6592940431 - 0.908186160928 98577.8842498814 - 0.909803226968 98599.6186923702 - 0.911429983613 98620.0710761930 - 0.913041273075 98638.7100118256 - 0.914621845899 98655.2174880998 - 0.916163622293 98669.4281042389 - 0.917663218358 98681.2755100121 - 0.919120103624 98690.7530289536 - 0.920535366743 98697.8875438483 - 0.921910940308 98702.7232239317 - 0.923249134779 98705.3118416321 - 0.924552368786 98705.7072300588 - 0.925823019486 98703.9622548702 - 0.927289954497 98699.1912322205 - 0.928903717603 98690.3436293869 - 0.930622553239 98676.5372907614 - 0.932413073818 98657.0735193056 - 0.934249568320 98631.4231169273 - 0.936112745986 98599.2002771867 - 0.937988396620 98560.1345545081 - 0.939866195894 98514.0457541039 - 0.941738730065 98460.8233250706 - 0.943600738156 98400.4102267541 - 0.945448539734 98332.7906095380 - 0.947279609936 98257.9805149079 - 0.949092266669 98176.0208704313 - 0.950885441381 98086.9721903526 - 0.952748770856 97985.8035503890 - 0.955331337213 97830.5959552597 - 0.958454282590 97618.8862710171 - 0.962612279548 97294.6338371668 - 0.967435363688 96855.4773790140 - 0.972641314985 96302.5797083143 - 0.978037386558 95640.2179888559 - 0.983499050542 94874.7849849458 - 0.989581352600 93907.3337405752 - 0.995991996683 92753.8193397315 - 1.002533980212 91432.3288042911 - 1.008875569813 90009.4149331969 - 1.015010917712 88497.1024344877 - 1.021099304003 86861.6364178813 - 1.027652937179 84947.7776925692 - 1.033951217889 82955.0721336724 - 1.040001366219 80896.0207064016 - 1.046202865075 78635.0689275698 - 1.053465186048 75790.1546394013 - 1.061312480420 72473.2118646613 - 1.071809645739 67638.0263391164 - 1.084323884929 61281.3357556271 - 1.097829994861 53720.5472624417 - 1.111281996398 45509.8280533837 - 1.123788152906 37290.4368724420 - 1.134619291016 29631.8665046481 - 1.143136123047 22923.2298513729 - 0.950000294214 103012.4145696790 - 0.951218036533 103053.2761184456 - 0.951381498733 103042.9336642606 - 0.951869361845 103044.5755519322 - 0.952698283612 103055.0697041359 - 0.953805286732 103070.8287009019 - 0.955125465953 103089.7961960484 - 0.956599032836 103110.5118139188 - 0.958170097919 103131.7357942621 - 0.959790269772 103152.4331093053 - 0.961422194505 103171.8194156804 - 0.963040201981 103189.3630712683 - 0.964628535444 103204.7425036162 - 0.966178697548 103217.7880549322 - 0.967686995521 103228.4296047676 - 0.969152685517 103236.6575318836 - 0.970576715923 103242.4965638918 - 0.971960931102 103245.9893518786 - 0.973307588785 103247.1866260140 - 0.974619078449 103246.1415194055 - 0.975897763450 103242.9064391806 - 0.977373929368 103236.3046348239 - 0.978997767197 103225.2993218519 - 0.980727219378 103209.0207168704 - 0.982528657773 103186.7808877757 - 0.984376190046 103158.0598260939 - 0.986250394639 103122.4794926617 - 0.988136970488 103079.7759799301 - 0.990025532434 103029.7745950718 - 0.991908627752 102972.3694293906 - 0.993780971993 102907.5073789321 - 0.995638872078 102835.1759576781 - 0.997479797916 102755.3941105029 - 0.999302067197 102668.2053045022 - 1.001104614464 102573.6723121091 - 1.002977543505 102466.4656385900 - 1.005573187340 102302.2964615306 - 1.008711607244 102078.7898262028 - 1.012889658132 101737.1106758537 - 1.017735258593 101275.1271688913 - 1.022964662610 100694.2350427139 - 1.028384155706 99998.9524589855 - 1.033868643260 99195.9331638590 - 1.039975353214 98181.3434795665 - 1.046410602416 96971.8985908932 - 1.052976536994 95586.5307697218 - 1.059340244879 94095.0013262422 - 1.065495973784 92509.9364135444 - 1.071603602975 90796.0093190612 - 1.078176862550 88790.6423251216 - 1.084492947515 86703.0293259048 - 1.090559225123 84546.3099993723 - 1.096776268660 82178.5662030139 - 1.104055523020 79199.9066829836 - 1.111919539048 75727.8256724561 - 1.122436642133 70667.8119700442 - 1.134970808827 64017.4856111962 - 1.148493628038 56109.7010668330 - 1.161956888778 47524.4322517412 - 1.174467724490 38932.2804733915 - 1.185296455375 30928.5112660632 - 1.193803308733 23919.5906744788 - 1.000000295481 107502.1180354935 - 1.001224141485 107542.0591675730 - 1.001384932754 107531.7513013377 - 1.001868198277 107533.1648205344 - 1.002692037112 107543.2059081509 - 1.003794415811 107558.3489906099 - 1.005111068215 107576.5843163118 - 1.006582849642 107596.4882693290 - 1.008154299275 107616.8481474750 - 1.009777066147 107636.6444795967 - 1.011413500200 107655.0983058107 - 1.013037473203 107671.6769779458 - 1.014632764775 107686.0552113657 - 1.016190490552 107698.0592305677 - 1.017706668413 107707.6154031883 - 1.019180352808 107714.7114563675 - 1.020612358379 107719.3702521129 - 1.022004444548 107721.6331932102 - 1.023358817637 107721.5502122281 - 1.024677838129 107719.1739611836 - 1.025963855063 107714.5565834682 - 1.027448447285 107706.2500146175 - 1.029081483245 107693.2276598821 - 1.030820628749 107674.6290938080 - 1.032632035000 107649.7747263412 - 1.034489643224 107618.1518617776 - 1.036373911771 107579.3888137758 - 1.038270456175 107533.2271707715 - 1.040168835489 107479.4969910337 - 1.042061561294 107418.0964808755 - 1.043943327715 107348.9761157335 - 1.045810430189 107272.1265438013 - 1.047660333960 107187.5694794544 - 1.049491356646 107095.3508658155 - 1.051302435750 106995.5357209074 - 1.053184100096 106882.5065779933 - 1.055791638695 106709.6844080031 - 1.058944125407 106474.7702859319 - 1.063140392045 106116.2130264224 - 1.068006425138 105632.0857525231 - 1.073257087489 105023.9980157054 - 1.078697783796 104296.6939573487 - 1.084202904576 103457.0751196299 - 1.090331644472 102396.5367092575 - 1.096789060022 101132.5164719022 - 1.103376523886 99684.7566806062 - 1.109760064813 98126.1451379572 - 1.115934019988 96469.8950633141 - 1.122058807118 94679.1408325293 - 1.128649506283 92584.1102775910 - 1.134981348138 90403.4459798546 - 1.141061823138 88150.9184141521 - 1.147292510184 85678.3664143759 - 1.154586515953 82568.3828285365 - 1.162465038532 78943.8938303130 - 1.172999067979 73662.8714032987 - 1.185549830812 66723.6643240964 - 1.199085930827 58474.1622273060 - 1.212557291290 49519.6171158522 - 1.225070008931 40559.4983241758 - 1.235894013369 32214.5448853424 - 1.244389135632 24908.4788738996 - 1.500000304900 148824.2506382225 - 1.501248418566 148855.8554542577 - 1.501392896460 148847.2067645351 - 1.501848075553 148848.7735289564 - 1.502639106257 148857.5105754629 - 1.503709342388 148870.3316976323 - 1.504998784001 148885.5481677073 - 1.506452783148 148901.9366556028 - 1.508019251965 148918.3976114355 - 1.509650866637 148933.9510143553 - 1.511308730340 148947.8031078713 - 1.512964158773 148959.3788990925 - 1.514598082513 148968.3056772080 - 1.516199096547 148974.3695426204 - 1.517761251945 148977.4679348112 - 1.519282182581 148977.5701622392 - 1.520761729390 148974.6888754760 - 1.522201011103 148968.8610780036 - 1.523601828878 148960.1361644838 - 1.524966299394 148948.5686878762 - 1.526296636117 148934.2141541658 - 1.527832209526 148913.6654116701 - 1.529520912845 148885.8738177501 - 1.531318702738 148849.9667792103 - 1.533190359430 148805.2623496763 - 1.535108787228 148751.2537456767 - 1.537053696356 148687.5813994894 - 1.539010184248 148614.0032520965 - 1.540967465526 148530.3683383586 - 1.542917833755 148436.5952760220 - 1.544855854687 148332.6555734594 - 1.546777757661 148218.5610178758 - 1.548680984297 148094.3542737743 - 1.550563857011 147960.1019065976 - 1.552425336663 147815.8891966243 - 1.554358458641 147653.6620334463 - 1.557035822030 147407.3037604179 - 1.560270503805 147074.8206668462 - 1.564572560313 146570.9053663602 - 1.569556321536 145894.7509555877 - 1.574928319087 145049.3787194467 - 1.580488738666 144041.2331021244 - 1.586108968318 142879.2169965765 - 1.592358880842 141412.3211951699 - 1.598936141767 139663.8345197695 - 1.605637671002 137660.2836339704 - 1.612123885775 135502.2288327559 - 1.618389787418 133208.1409607794 - 1.624598627498 130727.3706541723 - 1.631271777650 127825.3206803713 - 1.637674991524 124805.5828793508 - 1.643816752530 121687.7764613020 - 1.650102784463 118267.3566072737 - 1.657451992515 113968.0237617045 - 1.665378411971 108961.0770613099 - 1.675957210487 101671.2301452308 - 1.688531813578 92098.3447162725 - 1.702055711629 80720.1902937414 - 1.715470917285 68366.0805923528 - 1.727882078174 55996.6952242177 - 1.738559446039 44468.9021362839 - 1.746861355170 34371.7799103148 - 2.000000310449 184223.1692560446 - 2.001231620858 184247.5062660051 - 2.001371629791 184241.2119332332 - 2.001819460978 184244.3754429920 - 2.002599498517 184253.7762416733 - 2.003655982685 184266.6573164772 - 2.004930931038 184281.5521459209 - 2.006371922220 184297.3240935114 - 2.007928683470 184312.8838983784 - 2.009554857989 184327.2210884723 - 2.011211608205 184339.4936368495 - 2.012869676439 184349.0769677408 - 2.014509151650 184355.5572492564 - 2.016117787039 184358.6913661487 - 2.017688923146 184358.3587854256 - 2.019219648532 184354.5196978623 - 2.020709409614 184347.1838842065 - 2.022159050868 184336.3895552098 - 2.023570188619 184322.1897952344 - 2.024944818569 184304.6442408472 - 2.026285077714 184283.8141678061 - 2.027832042941 184254.9543426736 - 2.029533115858 184216.9323532260 - 2.031343816518 184168.8090914654 - 2.033228570583 184109.8542853303 - 2.035160014334 184039.5291270534 - 2.037117667243 183957.4553189197 - 2.039086498448 183863.3822870044 - 2.041055641574 183757.1581019450 - 2.043017343409 183638.7058592013 - 2.044966146844 183508.0054053316 - 2.046898274590 183365.0795816067 - 2.048811172343 183209.9840153117 - 2.050703173406 183042.7995866434 - 2.052573253655 182863.6268671533 - 2.054514866729 182662.4804022610 - 2.057203259389 182357.6570203929 - 2.060450151639 181947.1659430229 - 2.064766590404 181326.3354483379 - 2.069764403883 180494.8039501655 - 2.075148447910 179456.4265914538 - 2.080717963597 178218.8536416707 - 2.086343890533 176792.5277733937 - 2.092595970821 174991.4622799513 - 2.099170699965 172843.4640871165 - 2.105864469920 170380.4705608203 - 2.112338083542 167725.8893117942 - 2.118586945421 164902.6427586088 - 2.124774077985 161848.7636992787 - 2.131418429295 158275.8918568367 - 2.137788572050 154558.3898436041 - 2.143893511850 150720.9456239328 - 2.150136593340 146512.2612547094 - 2.157428707682 141223.9983929330 - 2.165285063119 135067.6121948944 - 2.175756237487 126106.7373065002 - 2.188180908502 114338.7366047122 - 2.201514458354 100340.7681636711 - 2.214705659057 85117.2386280372 - 2.226867152485 69838.6061572819 - 2.237275647199 55559.5121536418 - 2.245291529522 43016.3865778122 - 2.500000313616 214330.3483846494 - 2.501193629621 214348.0868960151 - 2.501336043524 214343.7301478584 - 2.501788420120 214347.9580141232 - 2.502570166469 214357.3917247183 - 2.503624186399 214369.6168781957 - 2.504893399174 214383.3754876932 - 2.506326305851 214397.6100748306 - 2.507873332854 214411.2532285215 - 2.509488680990 214423.2948641060 - 2.511133960481 214432.8878525533 - 2.512780253070 214439.4031512080 - 2.514407884811 214442.4248280662 - 2.516004761076 214441.7099313512 - 2.517564311728 214437.1397093061 - 2.519083671978 214428.6771067368 - 2.520562307748 214416.3351444392 - 2.522001066633 214400.1554421614 - 2.523401558708 214380.1944727216 - 2.524765768448 214356.5151375605 - 2.526095819308 214329.1818046832 - 2.527630939977 214292.1394929572 - 2.529318908371 214244.2375553783 - 2.531115563060 214184.5241853092 - 2.532985584759 214112.2618955568 - 2.534901806364 214026.9094089555 - 2.536843895088 213928.0897521815 - 2.538796929196 213815.5565660848 - 2.540750121981 213689.1642787002 - 2.542695777887 213548.8439128670 - 2.544628481215 213394.5843955346 - 2.546544484170 213226.4185089316 - 2.548441253230 213044.4124834364 - 2.550317136119 212848.6583346656 - 2.552171118491 212639.2682210816 - 2.554095838092 212404.5935266607 - 2.556760528284 212049.5817107886 - 2.559978294979 211572.3859886640 - 2.564255131597 210851.9914057226 - 2.569205768067 209888.6775392455 - 2.574537307409 208687.1830598221 - 2.580050562691 207256.2757685457 - 2.585617527675 205607.7392768499 - 2.591801418926 203526.2737980554 - 2.598301230948 201043.5971687282 - 2.604915150037 198196.2488438381 - 2.611307914389 195126.7889453782 - 2.617475187713 191861.9048257936 - 2.623577956657 188330.2909249327 - 2.630127586002 184199.0415026776 - 2.636402762416 179901.7240620003 - 2.642412751793 175467.3969404471 - 2.648554631811 170606.2201881040 - 2.655723112836 164501.2364877335 - 2.663439597335 157397.9214774038 - 2.673712983999 147063.8672963597 - 2.685885148909 133494.9938922406 - 2.698923448323 117345.4358872114 - 2.711792051031 99752.9267666456 - 2.723617514883 82049.2635199375 - 2.733686448723 65446.8584113641 - 2.741363445328 50807.2399462360 - 3.500000315462 260751.7456898630 - 3.501089513951 260757.9658573671 - 3.501249377665 260755.1356155452 - 3.501730995342 260757.9820407052 - 3.502536583825 260763.1723946193 - 3.503603883599 260769.0903511546 - 3.504875875916 260774.9158472576 - 3.506300498634 260779.8348018997 - 3.507827579682 260782.9780591937 - 3.509411749837 260783.5313447673 - 3.511016223955 260780.8351316860 - 3.512614346235 260774.4222566680 - 3.514188752144 260764.0020015490 - 3.515729321426 260749.4193193907 - 3.517230994624 260730.6119686711 - 3.518691979501 260707.5759543105 - 3.520112462168 260680.3411719878 - 3.521493750517 260648.9555786526 - 3.522837732922 260613.4754537048 - 3.524146548904 260573.9596684603 - 3.525422395517 260530.4664711525 - 3.526894837688 260473.8420767311 - 3.528513862606 260403.1938051526 - 3.530237211548 260317.7907169659 - 3.532031096168 260217.0745799351 - 3.533869520212 260100.6446102550 - 3.535733012690 259968.2316973476 - 3.537607267319 259819.6715124589 - 3.539481925549 259654.8808468453 - 3.541349581946 259473.8384925410 - 3.543205011297 259276.5705078346 - 3.545044585402 259063.1391598094 - 3.546865840466 258833.6347404137 - 3.548667159186 258588.1695415835 - 3.550447538233 258326.8734161239 - 3.552295914891 258035.2854170183 - 3.554854977921 257596.1836599086 - 3.557945207772 257008.8618721616 - 3.562052370245 256126.7167817903 - 3.566806072380 254952.7935777654 - 3.571924504478 253494.4258700205 - 3.577215859152 251762.8058193677 - 3.582556772523 249772.0890423715 - 3.588486750277 247262.4343933544 - 3.594715971185 244272.2516489961 - 3.601050118228 240845.3210334064 - 3.607167746214 237152.9777691989 - 3.613064793874 233227.3372939496 - 3.618895188161 228983.0964541092 - 3.625146644735 224021.3588533331 - 3.631130149136 218864.2402103990 - 3.636855032130 213547.4629859531 - 3.642699488167 207724.6774850114 - 3.649512785547 200420.4679122523 - 3.656836745248 191932.5511639219 - 3.666570326108 179600.1776284059 - 3.678074981442 163422.1385405616 - 3.690359194937 144158.8256252827 - 3.702431762430 123120.1560545017 - 3.713456070706 101843.5173647891 - 3.722743095472 81751.2320988681 - 3.729668855672 63887.2977538932 - 4.000000314854 278017.7009385017 - 4.001032370321 278019.0598683035 - 4.001205324258 278015.8676117197 - 4.001707486758 278016.3891968459 - 4.002530303386 278017.5333900843 - 4.003608735347 278018.1136675538 - 4.004885182749 278017.5425555687 - 4.006306451623 278015.1851205860 - 4.007821559907 278010.3569167096 - 4.009385397041 278002.4327028165 - 4.010962447522 277990.9247221048 - 4.012527816062 277975.5037000739 - 4.014065884064 277955.9776208783 - 4.015567984646 277932.2551062549 - 4.017030145601 277904.3106841440 - 4.018451332119 277872.1584362039 - 4.019832230523 277835.8342328832 - 4.021174463338 277795.3846235627 - 4.022480105758 277750.8602500927 - 4.023751398723 277702.3121305551 - 4.024990584930 277649.7896887633 - 4.026420704727 277582.4549630033 - 4.027993262421 277499.6521816028 - 4.029667301717 277400.8511585541 - 4.031410078535 277285.6546298403 - 4.033196392115 277153.7860719819 - 4.035007354266 277005.0698800299 - 4.036829072525 276839.4109197638 - 4.038651474112 276656.7766438280 - 4.040467345301 276457.1826962952 - 4.042271584930 276240.6818459717 - 4.044060640926 276007.3556930874 - 4.045832092060 275757.3085333424 - 4.047584340359 275490.6628365674 - 4.049316385921 275207.5559072950 - 4.051114740125 274892.3665577773 - 4.053604777997 274418.9103230180 - 4.056611952711 273787.3763858016 - 4.060609108601 272841.5673567770 - 4.065235833736 271586.4741229613 - 4.070217716217 270031.0316681713 - 4.075367832920 268187.6905153120 - 4.080565861142 266071.6319810905 - 4.086336537669 263406.9977781482 - 4.092397378547 260234.9654441618 - 4.098558920057 256601.9886712418 - 4.104508255847 252689.4954796178 - 4.110241392401 248531.3078499778 - 4.115907920811 244037.0647980044 - 4.121981500432 238784.7504665997 - 4.127792484819 233327.5002058530 - 4.133350097072 227703.3370582369 - 4.139021436534 221546.3051534427 - 4.145629762729 213826.2813326709 - 4.152729374379 204859.6591347318 - 4.162157855199 191838.7600098356 - 4.173290426298 174764.6063885107 - 4.185160617594 154432.0375654332 - 4.196802917901 132202.2314225422 - 4.207400893739 109671.6833572137 - 4.216278352002 88325.9706889271 - 4.222816936500 69270.6950475227 - 4.500000313541 291909.2840393874 - 4.500975084540 291906.4312305141 - 4.501163290940 291902.3012816404 - 4.501688227682 291899.7380413958 - 4.502529809479 291896.0215569250 - 4.503620411675 291890.3909458089 - 4.504901471018 291882.5009027540 - 4.506318259828 291871.9344816331 - 4.507818926131 291858.2394252059 - 4.509358889767 291841.0180351028 - 4.510904309105 291819.9775480530 - 4.512432408793 291794.9355050140 - 4.513929561991 291765.7983225368 - 4.515388695725 291732.5335471815 - 4.516806993324 291695.1462891551 - 4.518184203437 291653.6626000961 - 4.519521516405 291608.1188977896 - 4.520820862581 291558.5557142354 - 4.522084492780 291505.0142078504 - 4.523314736889 291447.5343469749 - 4.524513870984 291386.1540640944 - 4.525897806464 291308.4008035949 - 4.527419711265 291213.8862411487 - 4.529040050730 291102.3063210405 - 4.530727216467 290973.4447621296 - 4.532456870384 290827.1645080908 - 4.534210754891 290663.3946810247 - 4.535975424459 290482.1174027812 - 4.537741114418 290283.3564053585 - 4.539500817352 290067.1679369662 - 4.541249565283 289833.6338108140 - 4.542983887560 289582.8562149950 - 4.544701408159 289314.9538778267 - 4.546400549247 289030.0592383750 - 4.548080313920 288728.3163460902 - 4.549824591089 288393.1241674087 - 4.552240061782 287890.8244150747 - 4.555157596911 287222.5892493770 - 4.559036172755 286224.6296589109 - 4.563526244854 284904.0108377367 - 4.568361449573 283271.3041924959 - 4.573360171634 281340.1585875605 - 4.578405384317 279126.6407690901 - 4.584006114432 276342.6040384833 - 4.589887828311 273031.5426950406 - 4.595866305291 269241.9662935700 - 4.601637704152 265162.8481403113 - 4.607198068320 260829.1296025720 - 4.612692400974 256146.4998715111 - 4.618579665756 250675.4465644778 - 4.624210541178 244992.3810035794 - 4.629594079736 239136.9889515685 - 4.635085833880 232728.5328343142 - 4.641482264475 224695.7235740887 - 4.648350844666 215368.9962764879 - 4.657466587054 201830.0889066076 - 4.668219902077 184081.2222100827 - 4.679670738755 162941.1668236358 - 4.690879901269 139805.1060578609 - 4.701051124341 116307.7379878188 - 4.709520552405 93977.3600701014 - 4.715674710282 73965.3783920229 - 5.000000311664 302831.6060109159 - 5.000919011919 302825.2002145776 - 5.001124257288 302819.7130933296 - 5.001673297792 302813.5886476006 - 5.002534194122 302804.5794304825 - 5.003636997278 302792.3318768330 - 5.004921786630 302776.7535621932 - 5.006332029639 302757.6798838313 - 5.007815146817 302734.9232029981 - 5.009327508635 302708.3293568458 - 5.010837382942 302677.8003481935 - 5.012324411273 302643.2894067353 - 5.013777102843 302604.7869151005 - 5.015190019011 302562.3057317616 - 5.016561485662 302515.8704894546 - 5.017892001274 302465.5108913826 - 5.019183222701 302411.2579042340 - 5.020437353805 302353.1418126870 - 5.021656792046 302291.1913404626 - 5.022843932677 302225.4333540818 - 5.024001066254 302155.8928661186 - 5.025336625081 302068.6035964271 - 5.026805524870 301963.4479670810 - 5.028369717109 301840.3505744340 - 5.029998776158 301699.2780402680 - 5.031669259934 301540.2342429617 - 5.033363564638 301363.2541398550 - 5.035068707593 301168.3979091112 - 5.036775243012 300955.7460841568 - 5.038476376947 300725.3957823810 - 5.040167279216 300477.4578879828 - 5.041844563412 300212.0549828397 - 5.043505900276 299929.3198304902 - 5.045149732789 299629.3942546936 - 5.046775067101 299312.4282930254 - 5.048463063203 298961.0300777018 - 5.050800961536 298435.5873069377 - 5.053625300072 297738.2540761695 - 5.057380691486 296699.5375308227 - 5.061728960181 295328.5351813509 - 5.066412161831 293637.3734138057 - 5.071254231734 291640.7766646043 - 5.076141585935 289355.5354411382 - 5.081567093970 286484.5957789324 - 5.087264520052 283073.2837548120 - 5.093055097868 279171.5750567767 - 5.098644306030 274973.7038814890 - 5.104028198777 270515.2275641519 - 5.109347080232 265698.8785119332 - 5.115044994063 260072.6013199053 - 5.120493313922 254229.2005808196 - 5.125700869496 248209.4529145159 - 5.131011534940 241622.0362386827 - 5.137194899669 233366.1969844365 - 5.143831903102 223782.1463344291 - 5.152635349430 209872.0112335925 - 5.163011711431 191637.4404358823 - 5.174047708020 169911.6846633126 - 5.184830395365 146109.8211202950 - 5.194582939587 121888.4280704741 - 5.202652810226 98802.4582072652 - 5.208430237812 78036.2194531831 - 5.500000309330 311157.7398842814 - 5.500865007826 311148.4220643527 - 5.501088769306 311141.3062344867 - 5.501662519723 311131.4042710139 - 5.502542532088 311117.0085962333 - 5.503656771526 311098.1463771541 - 5.504943566405 311074.9894895689 - 5.506344463448 311047.6513835271 - 5.507806492969 311016.2224804584 - 5.509287502980 310980.7859994055 - 5.510758292784 310941.4169078834 - 5.512201133106 310898.1794220104 - 5.513606714913 310851.1249612219 - 5.514971191610 310800.2941649119 - 5.516293958933 310745.7188997651 - 5.517576191765 310687.4244439797 - 5.518819950713 310625.4312791637 - 5.520027663383 310559.7564792733 - 5.521201835836 310490.4147281256 - 5.522344900087 310417.4190528247 - 5.523459139800 310340.7813494399 - 5.524745344458 310245.2453777883 - 5.526160216149 310130.9475783909 - 5.527667218007 309998.0269799723 - 5.529237123183 309846.6217845097 - 5.530847395600 309676.8681979956 - 5.532481091644 309488.9006713085 - 5.534125695759 309282.8528519430 - 5.535772084030 309058.8587792808 - 5.537413678139 308817.0540592735 - 5.539045787298 308557.5768934320 - 5.540665110520 308280.5689188426 - 5.542269366166 307986.1758584313 - 5.543857018626 307674.5479997677 - 5.545427077491 307345.8405269987 - 5.547057932853 306982.0600988316 - 5.549317099622 306439.1350695742 - 5.552046892290 305720.1344608488 - 5.555677397318 304651.6037078138 - 5.559882032924 303244.5041751232 - 5.564411443233 301512.3507337019 - 5.569095225749 299470.7772210806 - 5.573823307258 297137.1254350063 - 5.579072316499 294208.4487311331 - 5.584584468795 290731.4121606912 - 5.590186540231 286756.9116642057 - 5.595593369774 282482.4327303597 - 5.600800994746 277943.7304258598 - 5.605945014943 273041.4651608242 - 5.611454655769 267315.3562046717 - 5.616721896301 261368.5854022985 - 5.621755299944 255242.5241450616 - 5.626887142446 248538.8907369199 - 5.632860721849 240137.5129983149 - 5.639270322895 230384.5606266654 - 5.647768133117 216228.8618530428 - 5.657777060239 197669.3795983588 - 5.668410408253 175545.4007953215 - 5.678780531802 151280.2269403598 - 5.688128923331 126539.4907925215 - 5.695812797838 102892.2982168542 - 5.701224499752 81545.4756344832 - 6.000000306624 317227.4397306949 - 6.000813620598 317215.8103596283 - 6.001057099415 317206.9242546235 - 6.001655567624 317193.2476945744 - 6.002553912801 317173.6462650574 - 6.003678171292 317148.4984414588 - 6.004964558611 317118.2508231033 - 6.006352766428 317083.3081663287 - 6.007789947990 317044.0320262755 - 6.009236009845 317000.7157685679 - 6.010664646015 316953.5724271592 - 6.012060868075 316902.7438792452 - 6.013417503586 316848.3175076970 - 6.014732191289 316790.3444925181 - 6.016005283787 316728.8531397253 - 6.017238535622 316663.8580738988 - 6.018434335723 316595.3660716313 - 6.019595279298 316523.3796665099 - 6.020723940203 316447.8993160423 - 6.021822757890 316368.9246849697 - 6.022893988137 316286.4553925340 - 6.024130751935 316184.1831311968 - 6.025491542943 316062.4689003465 - 6.026941333663 315921.6413424292 - 6.028452090465 315761.9905393049 - 6.030002177305 315583.7700279834 - 6.031575305779 315387.2026608600 - 6.033159423910 315172.4875058045 - 6.034745727437 314939.8063353578 - 6.036327852510 314689.3291266770 - 6.037901247315 314421.2184607357 - 6.039462696356 314135.6329180716 - 6.041009965982 313832.7296380305 - 6.042541542515 313512.6662125016 - 6.044056439578 313175.6020636182 - 6.045630284581 312803.1241359206 - 6.047810923330 312248.1173981141 - 6.050446455687 311514.4565391882 - 6.053952530030 310426.2961992067 - 6.058014183093 308996.2134812706 - 6.062390669068 307238.8937864688 - 6.066917262278 305170.6913884048 - 6.071487406630 302809.3270269152 - 6.076561690524 299848.6024588090 - 6.081890783627 296336.0460709263 - 6.087306995586 292322.9840096374 - 6.092534398137 288008.4176569107 - 6.097568990649 283427.9610364670 - 6.102541736407 278480.9835797408 - 6.107867392219 272702.6999459128 - 6.112958106192 266701.4935369700 - 6.117822126366 260518.9116663957 - 6.122780511838 253752.8150571300 - 6.128550959198 245272.1869618535 - 6.134741055690 235425.8146876880 - 6.142944810532 221131.5120568967 - 6.152601541638 202383.4071087132 - 6.162850394301 180019.3872643379 - 6.172827659470 155461.2563344092 - 6.181791213025 130373.5355816342 - 6.189106349799 106329.7340998510 - 6.194165449998 84550.8963894465 - 6.500000303607 321347.0485063590 - 6.500765169260 321333.6525888467 - 6.501029305535 321322.9628675567 - 6.501651997775 321305.6873066189 - 6.502567421552 321281.2673891541 - 6.503699731900 321250.4045195273 - 6.504982744474 321213.8267861600 - 6.506354562189 321172.2281439991 - 6.507763115049 321126.2146590767 - 6.509170944699 321076.2475216903 - 6.510554907210 321022.6352884804 - 6.511902760853 320965.5628999608 - 6.513209347623 320905.1311792693 - 6.514473639515 320841.3874721876 - 6.515696809862 320774.3487247038 - 6.516881085956 320704.0152089946 - 6.518029106271 320630.3787901303 - 6.519143577469 320553.4276970690 - 6.520227101859 320473.1491857407 - 6.521282099016 320389.5309774381 - 6.522310777975 320302.5619947219 - 6.523498668021 320195.1297756148 - 6.524806035241 320067.7838682292 - 6.526199339605 319921.0122855834 - 6.527651720264 319755.2329998287 - 6.529142424432 319570.7985925978 - 6.530655806365 319368.0067557353 - 6.532180268934 319147.1121052724 - 6.533707321874 318908.3370504142 - 6.535230812418 318651.8808802691 - 6.536746325947 318377.9269662276 - 6.538250731759 318086.6482909098 - 6.539741844183 317778.2116069216 - 6.541218171904 317452.7805212363 - 6.542678733246 317110.5177569549 - 6.544196436038 316732.7585614485 - 6.546299769234 316170.6411151824 - 6.548842554437 315428.7147266304 - 6.552226282623 314330.1278856562 - 6.556147487916 312888.7861950858 - 6.560373946754 311120.3052521250 - 6.564746553334 309041.5656244060 - 6.569162228680 306670.5037150158 - 6.574065937666 303699.9441954386 - 6.579216696791 300177.8395760329 - 6.584452261641 296155.5190190502 - 6.589505684504 291832.0272896775 - 6.594372892643 287242.5693990304 - 6.599180347198 282285.9047146045 - 6.604328891161 276495.9135454135 - 6.609250094356 270481.7945959966 - 6.613951866507 264284.9242433718 - 6.618744470381 257501.9408991845 - 6.624321356487 248998.2378444733 - 6.630302854861 239122.3725230005 - 6.638228086585 224779.9454728950 - 6.647552522797 205958.2709467377 - 6.657439771634 183487.4101225028 - 6.667048227926 158779.5496654182 - 6.675650071573 133489.9552280620 - 6.682616320863 109188.8970194245 - 6.687337032281 87105.0032126988 - 7.000000300330 323790.4119864518 - 7.000719826282 323775.7306943689 - 7.001005303691 323763.2900066400 - 7.001651304315 323742.7179739893 - 7.002582162198 323714.0099117374 - 7.003720088247 323678.1647800882 - 7.004996333692 323636.1922202194 - 7.006347884233 323589.0565539586 - 7.007724190071 323537.5653132494 - 7.009090942916 323482.2966144811 - 7.010428308465 323423.6109750935 - 7.011726698088 323361.7071258215 - 7.012982787489 323296.6799080076 - 7.014196702851 323228.5630991029 - 7.015370293167 323157.3585831769 - 7.016506151231 323083.0507573854 - 7.017607089388 323005.6171310010 - 7.018675873669 322925.0330961800 - 7.019715099497 322841.2745920759 - 7.020727142815 322754.3194187498 - 7.021714150066 322664.1478090283 - 7.022854211447 322553.0832299845 - 7.024109328837 322421.8258970450 - 7.025447414157 322270.9914245928 - 7.026842748851 322101.1004708054 - 7.028275439468 321912.5854194937 - 7.029730465406 321705.8044935838 - 7.031196672267 321481.0574087396 - 7.032665875852 321238.5996766513 - 7.034132129605 320978.6545153123 - 7.035591153375 320701.4222676390 - 7.037039899977 320407.0876249897 - 7.038476231405 320095.8250630886 - 7.039898678987 319767.8028822579 - 7.041306266394 319423.1861830545 - 7.042769252011 319043.2088192676 - 7.044797274771 318478.4140721395 - 7.047249762231 317733.8887320167 - 7.050514479828 316632.9692679556 - 7.054299231270 315190.5945097995 - 7.058380148193 313423.0696571491 - 7.062603627987 311347.6155652789 - 7.066869992516 308982.2363481875 - 7.071609178451 306020.7057903763 - 7.076588350743 302511.0104045763 - 7.081650562306 298504.1202740997 - 7.086537482508 294197.8955726379 - 7.091244930997 289626.9248285450 - 7.095895045371 284689.9439214935 - 7.100875464727 278922.1691671039 - 7.105636221408 272929.9493720477 - 7.110184837210 266754.2090432980 - 7.114821366193 259992.5801380781 - 7.120216548532 251512.9651061370 - 7.126002836809 241661.3069507367 - 7.133668348898 227346.7908426507 - 7.142684094704 208548.2324874634 - 7.152236485103 186082.4154845571 - 7.161503732600 161345.1423260378 - 7.169769685859 135975.8484110893 - 7.176408584565 111535.5185697355 - 7.180805316684 89255.0448074513 - 7.500000296829 324800.5312750896 - 7.500677679663 324784.9789659822 - 7.500984925390 324770.9050961497 - 7.501652965282 324747.4246533816 - 7.502597281026 324715.0466895428 - 7.503737989670 324675.0455007585 - 7.505003780881 324628.7028717271 - 7.506331185151 324577.2185445747 - 7.507671943267 324521.5473031479 - 7.508995302367 324462.3316511196 - 7.510284757619 324399.9455180741 - 7.511533196317 324334.5776404797 - 7.512738908849 324266.3050276554 - 7.513902985759 324195.1431164899 - 7.515027808590 324121.0760501681 - 7.516116234796 324044.0733291222 - 7.517171182005 323964.1008086543 - 7.518195429895 323881.1229087093 - 7.519191536923 323795.1066188655 - 7.520161815839 323706.0221201828 - 7.521108337968 323613.8431141876 - 7.522201962800 323500.5494659871 - 7.523406379095 323366.9555230435 - 7.524690905994 323213.7738761848 - 7.526030930145 323041.6035553068 - 7.527407388908 322850.9381493143 - 7.528805866125 322642.1825464063 - 7.530215635836 322415.6714036055 - 7.531628810481 322171.6859851521 - 7.533039643821 321910.4681701422 - 7.534443986750 321632.2315281320 - 7.535838873856 321337.1698181359 - 7.537222214169 321025.4633926094 - 7.538592561743 320697.2839675985 - 7.539948946124 320352.7981477045 - 7.541359067082 319973.2689916139 - 7.543314371219 319409.6405596799 - 7.545679738763 318667.4048394010 - 7.548829763392 317571.0946209699 - 7.552483212036 316136.4002368884 - 7.556424341315 314380.0909276400 - 7.560504895498 312319.5585217933 - 7.564628491072 309972.7458659594 - 7.569210769164 307035.9804366395 - 7.574026777485 303556.9479578207 - 7.578924666071 299585.9609649923 - 7.583654264009 295318.6886958830 - 7.588211240379 290788.9463761088 - 7.592713625677 285895.9451213339 - 7.597536703822 280178.4602422413 - 7.602147799980 274236.9718586468 - 7.606554002829 268111.7285085039 - 7.611045848695 261403.2019286240 - 7.616273121495 252986.8888717390 - 7.621879684667 243204.1604553483 - 7.629306980396 228980.9968078171 - 7.638040747407 210286.3751495874 - 7.647288165544 187919.2766500540 - 7.656244392762 163253.5164932100 - 7.664202266185 137907.3512976187 - 7.670536101307 113427.6614455498 - 7.674622634003 91043.3043733898 - 8.000000293136 324591.6970089356 - 8.000638659444 324575.6234478501 - 8.000967843092 324560.0806602284 - 8.001656359096 324534.1299996637 - 8.002611868938 324498.7427617764 - 8.003752201574 324455.4482646420 - 8.005003690757 324405.7796791807 - 8.006303228252 324351.1237162522 - 8.007605576130 324292.5233960222 - 8.008883800057 324230.6374313840 - 8.010124623898 324165.8227875596 - 8.011323171759 324098.2424227530 - 8.012479110838 324027.9489467365 - 8.013594308432 323954.9375896144 - 8.014671545057 323879.1764908156 - 8.015713852473 323800.6230553546 - 8.016724194165 323719.2323665493 - 8.017705325059 323634.9608009598 - 8.018659742195 323547.7699051584 - 8.019589679836 323457.6240951708 - 8.020497124877 323364.4926412572 - 8.021545955205 323250.2059560855 - 8.022701489220 323115.6593158470 - 8.023934402545 322961.6344510049 - 8.025221145802 322788.7866358778 - 8.026543455790 322597.6537042712 - 8.027887498135 322388.6745283487 - 8.029242959633 322162.2093849680 - 8.030602238941 321918.5585223108 - 8.031959783505 321657.9776126420 - 8.033311571286 321380.6899814176 - 8.034654716484 321086.8960035096 - 8.035987174199 320776.7801953651 - 8.037307521042 320450.5165096145 - 8.038614792747 320108.2722592411 - 8.039974237507 319731.4501831888 - 8.041859887279 319172.2340059918 - 8.044141894711 318436.4003510905 - 8.047182336972 317350.5121193384 - 8.050710579258 315930.7563841949 - 8.054518725587 314194.1650859084 - 8.058463675700 312158.1533815070 - 8.062452206337 309840.4944342353 - 8.066886521507 306941.3832529992 - 8.071549223732 303507.9269393756 - 8.076293309939 299589.5417222165 - 8.080876235572 295378.8959334524 - 8.085293463043 290908.9164461863 - 8.089659165525 286079.7079260644 - 8.094337234729 280435.4326577747 - 8.098810942524 274568.2521950084 - 8.103086895749 268517.5639308226 - 8.107446879678 261888.2016503531 - 8.112521761798 253567.4552641772 - 8.117965784817 243890.5580278168 - 8.125178623916 229811.2578878327 - 8.133659622810 211287.7118956548 - 8.142634267020 189097.4315576915 - 8.151311666353 164587.6383261823 - 8.158990330982 139351.0607389563 - 8.165041498013 114916.5922796734 - 8.168830183563 92507.5625243398 - 8.500000289275 323351.8833186734 - 8.500602777585 323335.5764712879 - 8.500953811520 323318.7594589599 - 8.501660997724 323290.7980137296 - 8.502625186467 323253.0685545006 - 8.503761735144 323207.3349521690 - 8.504995049331 323155.3491044703 - 8.506263297855 323098.6270961842 - 8.507524893471 323038.2426765015 - 8.508756827132 322974.8312219530 - 8.509948848788 322908.7118703743 - 8.511098041813 322840.0133440850 - 8.512205210108 322768.7620545264 - 8.513272821693 322694.9343469340 - 8.514303936603 322618.4849414463 - 8.515301683028 322539.3616345411 - 8.516269020722 322457.5125023862 - 8.517208648842 322372.8892121849 - 8.518122983989 322285.4483187619 - 8.519014170618 322195.1515601830 - 8.519884104775 322101.9650724603 - 8.520889961400 321987.7359723936 - 8.521998625913 321853.4110787864 - 8.523182076019 321699.8170723964 - 8.524417782636 321527.6462128283 - 8.525688248989 321337.4657814989 - 8.526980198659 321129.7375370144 - 8.528283714644 320904.8391906414 - 8.529591470695 320663.0840091094 - 8.530898100744 320404.7371520208 - 8.532199705354 320130.0286208914 - 8.533493475750 319839.1632256816 - 8.534777411783 319532.3281225158 - 8.536050112117 319209.6984540367 - 8.537310618712 318871.4415415249 - 8.538621848283 318499.1908707397 - 8.540441294543 317947.0591160685 - 8.542644182721 317221.0023938957 - 8.545580816243 316150.2883335729 - 8.548990748790 314751.3799823202 - 8.552673617658 313041.3993502358 - 8.556491251718 311037.6611207551 - 8.560353435859 308757.6805192683 - 8.564649897502 305906.5765766865 - 8.569170411984 302530.6547954566 - 8.573772535429 298678.2499583468 - 8.578220735421 294538.3910706052 - 8.582510205500 290143.0351355484 - 8.586751534264 285393.5264772879 - 8.591298283788 279840.8971789264 - 8.595648169604 274067.0345946125 - 8.599807263903 268110.3503882074 - 8.604049476960 261581.2796973191 - 8.608988808084 253382.3460437676 - 8.614288990310 243841.4054904672 - 8.621312966438 229949.0340550762 - 8.629572363268 211651.9214024043 - 8.638308198971 189703.2140140549 - 8.646740140007 165419.8077991940 - 8.654168838087 140365.3652543141 - 8.659958949121 116047.6507224683 - 8.663459912507 93681.6009651960 - 9.000000285266 321245.2437819595 - 9.000569921993 321228.9364519923 - 9.000942464666 321211.0569339871 - 9.001666315811 321181.5428117271 - 9.002636449741 321142.1173387376 - 9.003765640518 321094.7560547563 - 9.004977013719 321041.3860304387 - 9.006210961783 320983.5913529492 - 9.007430027955 320922.4258305949 - 9.008615082984 320858.4727861835 - 9.009758624215 320792.0018501541 - 9.010859400356 320723.1050875843 - 9.011919122401 320651.7843614719 - 9.012940700535 320578.0002229465 - 9.013927371171 320501.6973427219 - 9.014882293985 320422.8170976815 - 9.015808384983 320341.3034136291 - 9.016708263424 320257.1052272486 - 9.017584251358 320170.1772576676 - 9.018438395579 320080.4799763534 - 9.019272497351 319987.9792231345 - 9.020237328736 319874.6722504218 - 9.021301276366 319741.5344334135 - 9.022437563604 319589.4171623020 - 9.023624636726 319419.0327659259 - 9.024845731502 319230.9669897748 - 9.026088104984 319025.6944238616 - 9.027342219243 318803.6032852952 - 9.028601011481 318565.0147909957 - 9.029859294414 318310.1999161241 - 9.031113286276 318039.3927030640 - 9.032360252288 317752.8005262709 - 9.033598235309 317450.6118726667 - 9.034825855177 317133.0021778202 - 9.036042159745 316800.1381755543 - 9.037307865320 316433.9572074094 - 9.039064888284 315891.0527564636 - 9.041193311995 315177.4720967430 - 9.044032487150 314125.7205885222 - 9.047331710265 312752.3528763019 - 9.050897803820 311074.4384080517 - 9.054597277298 309109.0909596324 - 9.058342744591 306873.4988388450 - 9.062512512078 304078.5371982481 - 9.066903096345 300769.5373468496 - 9.071376281865 296993.6147329109 - 9.075702867770 292935.6674922800 - 9.079877702383 288626.6282882440 - 9.084008084402 283969.3628192708 - 9.088438393745 278522.9577889892 - 9.092679146148 272857.4943209083 - 9.096735822330 267010.2975235033 - 9.100875361130 260598.4015364050 - 9.105697195445 252542.3404249843 - 9.110873392895 243161.6500114784 - 9.117735512619 229491.1406670221 - 9.125805871401 211465.6886633194 - 9.134337898332 189811.8655861880 - 9.142558196837 165813.2677252789 - 9.149765735606 141001.6342046112 - 9.155314832235 116861.0482972883 - 9.158535174249 94595.6885900851 - 9.500000281127 318414.5801814048 - 9.500540000320 318398.4560962989 - 9.500933463399 318379.7319443542 - 9.501671810767 318349.1051075302 - 9.502644971461 318308.5892211788 - 9.503763155008 318260.3442881947 - 9.504949050673 318206.4205951557 - 9.506146178450 318148.4106334182 - 9.507321512928 318087.3080672791 - 9.508459625798 318023.6265572360 - 9.509555434973 317957.5822973059 - 9.510609062564 317889.2326550819 - 9.511622916180 317818.5587344004 - 9.512600210071 317745.5092506006 - 9.513544270604 317670.0223962219 - 9.514458236346 317592.0361907443 - 9.515344948298 317511.4929908129 - 9.516206927792 317428.3411717914 - 9.517046392419 317342.5354459101 - 9.517865286387 317254.0365689690 - 9.518665314262 317162.8108038420 - 9.519591160981 317051.1148390110 - 9.520612646953 316919.9326129825 - 9.521704183898 316770.1238682479 - 9.522845148007 316602.4094565102 - 9.524019473356 316417.3805632143 - 9.525214925612 316215.5183657203 - 9.526422328380 315997.2150653924 - 9.527634870220 315762.7972856575 - 9.528847534444 315512.5380113833 - 9.530056651533 315246.6731444951 - 9.531259557183 314965.4110714318 - 9.532454335047 314668.9405225106 - 9.533639624790 314357.4364822486 - 9.534814479403 314031.0646064347 - 9.536037555446 313672.1231150328 - 9.537736228383 313140.1156524753 - 9.539795213745 312441.1089469617 - 9.542543802631 311411.2557195012 - 9.545740558066 310067.0534765542 - 9.549199110740 308425.4052875740 - 9.552790374653 306503.1456668703 - 9.556429593271 304317.0841365530 - 9.560484790594 301584.4914128923 - 9.564758742583 298349.5966822436 - 9.569117093012 294658.1983617753 - 9.573336221091 290690.6967585307 - 9.577410546336 286476.9666786967 - 9.581444388433 281921.6209727307 - 9.585774161696 276592.7297145805 - 9.589921415642 271047.3954454879 - 9.593890979801 265321.7841007625 - 9.597943787220 259040.3174800753 - 9.602667066881 251143.7537415072 - 9.607740000209 241942.6099357243 - 9.614468225894 228521.9203442026 - 9.622382897264 210804.6591238098 - 9.630746519184 189489.2064599553 - 9.638788530119 165823.5550561713 - 9.645802420804 141305.2300328424 - 9.651128143395 117392.5653516592 - 9.654071130874 95277.0188339093 - 10.000000276870 314983.7109881233 - 10.000512815205 314967.9123683156 - 10.000926374690 314948.5590481391 - 10.001676915186 314917.2294627335 - 10.002650037333 314876.1746517333 - 10.003753584697 314827.7064164611 - 10.004910802118 314773.9415428868 - 10.006069129910 314716.4279821824 - 10.007200087434 314656.0712052433 - 10.008291663619 314593.3075412199 - 10.009340848233 314528.3016175846 - 10.010348860592 314461.0808127279 - 10.011318618517 314391.6102960085 - 10.012253523430 314319.8310918453 - 10.013156921133 314245.6782869474 - 10.014031887684 314169.0892514213 - 10.014881165478 314090.0069545321 - 10.015707165057 314008.3809853176 - 10.016511993145 313924.1675103774 - 10.017297488784 313837.3287874632 - 10.018065259522 313747.8325287823 - 10.018954230724 313638.2781181897 - 10.019935588608 313509.6429190180 - 10.020984875813 313362.7822577101 - 10.022082352980 313198.4144983859 - 10.023212618153 313017.1297799599 - 10.024363920531 312819.4091506805 - 10.025527427365 312605.6460008337 - 10.026696566014 312376.1658023875 - 10.027866481689 312131.2426831752 - 10.029033611142 311871.1126557699 - 10.030195356466 311595.9829142892 - 10.031349839341 311306.0434012106 - 10.032495717388 311001.4671636893 - 10.033632047466 310682.4183888159 - 10.034815575809 310331.5991648458 - 10.036460243450 309811.7461476353 - 10.038455162233 309128.8892885903 - 10.041120524658 308123.1327974488 - 10.044223655381 306810.8012285185 - 10.047584587593 305208.5437749978 - 10.051078336438 303332.8570621737 - 10.054622555636 301200.1347032829 - 10.058576196060 298534.5192553375 - 10.062747764613 295379.0480109810 - 10.067006349234 291778.1383288055 - 10.071133100706 287907.4294388868 - 10.075121910917 283795.7214252745 - 10.079074445534 279349.5512596705 - 10.083320427113 274146.6836089181 - 10.087390565631 268730.3725797537 - 10.091288979602 263135.5750672963 - 10.095271598516 256994.7116356070 - 10.099915865966 249270.4958420450 - 10.104906767786 240263.9332768985 - 10.111529500236 227115.0564514820 - 10.119321941589 209735.0607847425 - 10.127552000935 188793.0333167154 - 10.135447897504 165499.6249585665 - 10.142293466962 141316.3579498316 - 10.147410222193 117674.1446747671 - 10.150074518798 95750.0897229178 - 10.000000276870 314983.7109881235 - 10.000512815205 314967.9123683153 - 10.000926374690 314948.5590481387 - 10.001676915186 314917.2294627333 - 10.002650037333 314876.1746517330 - 10.003753584697 314827.7064164610 - 10.004910802118 314773.9415428870 - 10.006069129910 314716.4279821821 - 10.007200087434 314656.0712052432 - 10.008291663619 314593.3075412196 - 10.009340848233 314528.3016175841 - 10.010348860592 314461.0808127272 - 10.011318618517 314391.6102960081 - 10.012253523430 314319.8310918448 - 10.013156921133 314245.6782869470 - 10.014031887684 314169.0892514210 - 10.014881165478 314090.0069545316 - 10.015707165057 314008.3809853174 - 10.016511993145 313924.1675103771 - 10.017297488784 313837.3287874631 - 10.018065259522 313747.8325287821 - 10.018954230724 313638.2781181895 - 10.019935588608 313509.6429190179 - 10.020984875813 313362.7822577101 - 10.022082352980 313198.4144983860 - 10.023212618153 313017.1297799595 - 10.024363920531 312819.4091506801 - 10.025527427365 312605.6460008335 - 10.026696566014 312376.1658023872 - 10.027866481689 312131.2426831748 - 10.029033611142 311871.1126557697 - 10.030195356466 311595.9829142886 - 10.031349839341 311306.0434012101 - 10.032495717388 311001.4671636892 - 10.033632047466 310682.4183888158 - 10.034815575809 310331.5991648454 - 10.036460243450 309811.7461476349 - 10.038455162233 309128.8892885901 - 10.041120524658 308123.1327974487 - 10.044223655294 306810.8012257491 - 10.047584587603 305208.5437713441 - 10.051078337420 303332.8570126170 - 10.054622555644 301200.1346998040 - 10.058576195781 298534.5192649291 - 10.062747764755 295379.0480162072 - 10.067006349235 291778.1383292940 - 10.071133100648 287907.4294487583 - 10.075121911064 283795.7214244445 - 10.079074445621 279349.5512623258 - 10.083320427261 274146.6836082200 - 10.087390565826 268730.3725802856 - 10.091288979743 263135.5750954811 - 10.095271598703 256994.7116383745 - 10.099915866114 249270.4958449247 - 10.104906741990 240263.9345235824 - 10.111529500382 227115.0564536885 - 10.119321941732 209735.0607865228 - 10.127552001064 188793.0333333434 - 10.135447897649 165499.6249704068 - 10.142293467105 141316.3579590908 - 10.147410222329 117674.1446914061 - 10.150074518942 95750.0897353304 + 0.002000196645 315.2026782459 + 0.002516782063 368.2320202068 + 0.002964566491 402.0279840289 + 0.003756141381 468.5815974886 + 0.004732403679 549.9662788733 + 0.005783113482 636.3958710774 + 0.006841640682 722.4626959499 + 0.007876921355 805.7984304890 + 0.008878260860 885.6865695857 + 0.009844169604 962.1264086998 + 0.010776692271 1035.3746549447 + 0.011678945118 1105.7527604906 + 0.012554135844 1173.5736341058 + 0.013405212034 1239.1176145297 + 0.014234764980 1302.6277661965 + 0.015045032228 1364.3122203099 + 0.015837934200 1424.3486385607 + 0.016615118773 1482.8888961772 + 0.017378003784 1540.0633158966 + 0.018127814665 1595.9842641964 + 0.018865615230 1650.7491492711 + 0.019725808033 1714.2780576042 + 0.020682584966 1784.5407475553 + 0.021713685663 1859.7980104333 + 0.022800805046 1938.6306923926 + 0.023929351619 2019.9173030805 + 0.025087920975 2102.7896220961 + 0.026267704742 2186.5840206587 + 0.027461944477 2270.7970780716 + 0.028665471111 2355.0485438120 + 0.029874336267 2439.0518823731 + 0.031085523201 2522.5915079382 + 0.032296726655 2605.5054538445 + 0.033506184451 2687.6722835310 + 0.034712549983 2769.0012515691 + 0.035976242090 2853.5184355952 + 0.037744225780 2970.5914956544 + 0.039906790832 3111.9120123514 + 0.042826007611 3299.3338760064 + 0.046266168326 3515.1381522507 + 0.050040683690 3745.3936788274 + 0.054016228512 3980.2264198603 + 0.058101907968 4212.9720590022 + 0.062721084508 4465.0908817131 + 0.067664400391 4721.2411145382 + 0.072784067387 4970.7716146161 + 0.077815838884 5199.4731949961 + 0.082745740346 5406.7251906089 + 0.087695590507 5597.1483759967 + 0.093085506144 5783.2783735017 + 0.098323674973 5941.8493644506 + 0.103407461899 6073.6466529470 + 0.108669661628 6186.0557794850 + 0.114895925154 6286.0233024893 + 0.121698782577 6352.3522439158 + 0.130916514973 6367.0240413892 + 0.142075123505 6262.7005503970 + 0.154318519556 5986.3485345728 + 0.166717566707 5525.8481106087 + 0.178436773988 4913.8202034351 + 0.188763624917 4211.8516634874 + 0.197061599615 3487.9075806315 + 0.005000201821 774.6762502877 + 0.005541991699 828.7484068905 + 0.005976574962 860.1842175525 + 0.006766400240 925.4204378539 + 0.007753613801 1006.4458933572 + 0.008824001180 1093.0543655509 + 0.009905922347 1179.4894241320 + 0.010964770989 1263.1657246894 + 0.011988206834 1343.2757037472 + 0.012974233952 1419.7968991735 + 0.013924897000 1492.9927141050 + 0.014843494021 1563.2002914842 + 0.015733457593 1630.7494870365 + 0.016597950651 1695.9361746146 + 0.017439753704 1759.0168519529 + 0.018261264880 1820.2110027942 + 0.019064539039 1879.7058024629 + 0.019851336202 1937.6610827808 + 0.020623167892 1994.2138264577 + 0.021381338079 2049.4819869222 + 0.022126976835 2103.5676707222 + 0.022995861690 2166.2627599497 + 0.023961789433 2235.5502092786 + 0.025002197191 2309.7062602889 + 0.026098564828 2387.3280158048 + 0.027236157711 2467.3098455067 + 0.028403482539 2548.7981893607 + 0.029591680700 2631.1424570162 + 0.030793969775 2713.8505108990 + 0.032005174783 2796.5516642641 + 0.033221351428 2878.9673882695 + 0.034439494650 2960.8887302356 + 0.035657314505 3042.1591788995 + 0.036873066096 3122.6617678642 + 0.038085420825 3202.3094017819 + 0.039355100161 3285.0439680997 + 0.041131007500 3399.5886515695 + 0.043302612977 3537.7654617024 + 0.046233025799 3720.8602572184 + 0.049685090253 3931.4487295274 + 0.053471292388 4155.8414161460 + 0.057457817490 4384.3424719350 + 0.061553579776 4610.4141348374 + 0.066182876902 4854.7797141786 + 0.071135748399 5102.3849066238 + 0.076264116173 5342.7898540794 + 0.081303415361 5562.2441797149 + 0.086239833417 5760.1645643691 + 0.091195473233 5940.9452552382 + 0.096590932610 6116.2627098865 + 0.101833813085 6264.0134035954 + 0.106921603718 6385.0172485572 + 0.112187415779 6485.9555749386 + 0.118417324921 6571.9681085111 + 0.125223468327 6622.5940052046 + 0.134444642507 6615.2804890352 + 0.145606022965 6483.3771196133 + 0.157851005008 6175.7905152284 + 0.170250303342 5682.9367988028 + 0.181968621912 5039.8957901527 + 0.192293785500 4310.1284275617 + 0.200589693397 3562.6568472761 + 0.010000207342 1521.6606568080 + 0.010571857788 1576.6243516879 + 0.010991253790 1605.0034563400 + 0.011777277696 1667.7429200774 + 0.012776286870 1747.4905387877 + 0.013871115213 1833.8354301262 + 0.014984358379 1920.5751476167 + 0.016076345379 2004.7369363868 + 0.017131919286 2085.2986287318 + 0.018147936936 2162.1475642283 + 0.019126155516 2235.5199802125 + 0.020069954256 2305.7530422887 + 0.020982978873 2373.1869742312 + 0.021868634707 2438.1311384884 + 0.022729933196 2500.8557187293 + 0.023569478185 2561.5929919458 + 0.024389502544 2620.5416943275 + 0.025191918400 2677.8719570513 + 0.025978367109 2733.7298668907 + 0.026750262672 2788.2414178679 + 0.027508829589 2841.5158000182 + 0.028392115568 2903.1869964998 + 0.029373276258 2971.2443721031 + 0.030429250665 3043.9764177194 + 0.031541158248 3119.9965347130 + 0.032694019088 3198.2174752789 + 0.033876182837 3277.8044948451 + 0.035078697633 3358.1250889772 + 0.036294732908 3438.7037622856 + 0.037519094421 3519.1847055334 + 0.038747839028 3599.3024028573 + 0.039977974943 3678.8591158594 + 0.041207232937 3757.7078977773 + 0.042433892965 3835.7398818356 + 0.043656653239 3912.8748000119 + 0.044936758849 3992.9288408398 + 0.046726501349 4103.6458719419 + 0.048913942686 4237.0268627250 + 0.051864042076 4413.4645564447 + 0.055337128680 4615.9575633148 + 0.059144063222 4831.1753734127 + 0.063150165434 5049.6961438238 + 0.067263958941 5265.1801816268 + 0.071911456958 5497.1774949515 + 0.076881601648 5731.0806312603 + 0.082025778650 5956.7856113964 + 0.087078832326 6161.2862685440 + 0.092027227049 6344.0678863880 + 0.096993573549 6509.1624887601 + 0.102399359017 6666.8468522564 + 0.107651089297 6796.9129167845 + 0.112746467693 6900.2431908594 + 0.118019198183 6982.3681385162 + 0.124256186183 7045.4566730654 + 0.131068835327 7070.2468669975 + 0.140297018790 7026.7020932318 + 0.151464474350 6849.2723340275 + 0.163713522923 6490.0445386428 + 0.176114549023 5943.6293660078 + 0.187832515299 5249.1916941404 + 0.198155790805 4473.3174830933 + 0.206448865010 3686.7982600122 + 0.020000214644 2971.7939787992 + 0.020615191862 3027.7804152697 + 0.021013219448 3051.8514501918 + 0.021790403407 3110.1875859694 + 0.022802057767 3186.8117060522 + 0.023929481358 3271.5229939618 + 0.025088532236 3357.7611995277 + 0.026231882389 3442.0172591186 + 0.027339277709 3522.8789607293 + 0.028405048078 3600.0210107681 + 0.029429976478 3673.5802387556 + 0.030417234876 3743.8533552255 + 0.031370596679 3811.1683272874 + 0.032293720483 3875.8351574508 + 0.033189901555 3938.1303176123 + 0.034062017756 3998.2946556825 + 0.034912550983 4056.5362207273 + 0.035743633498 4113.0344930315 + 0.036557098727 4167.9446298032 + 0.037354527542 4221.4012763554 + 0.038137289201 4273.5217964822 + 0.039047690475 4333.7077489703 + 0.040057719406 4399.9436847520 + 0.041143391679 4470.5234673161 + 0.042285143741 4544.0746058627 + 0.043467517820 4619.5302751277 + 0.044678545999 4696.0799271355 + 0.045909077492 4773.1168354031 + 0.047152166653 4850.1912162409 + 0.048402563013 4926.9717743345 + 0.049656306262 5003.2156425013 + 0.050910413260 5078.7455381145 + 0.052162639851 5153.4326875109 + 0.053411301057 5227.1841775138 + 0.054655135772 5299.9336264848 + 0.055956443577 5375.2775720648 + 0.057774453142 5479.2187034275 + 0.059994435860 5604.0378647144 + 0.062985269290 5768.4794728955 + 0.066502201187 5956.2413889396 + 0.070352737387 6154.6100681024 + 0.074400345141 6354.6508943340 + 0.078552689787 6550.3889906276 + 0.083239428242 6759.1653573990 + 0.088247113243 6967.1796572765 + 0.093425969171 7164.9525316039 + 0.098509468652 7340.8973049572 + 0.103484614089 7494.6459580642 + 0.108475098241 7629.5455688591 + 0.113904401516 7753.1698143034 + 0.119176515389 7848.9689656615 + 0.124289581700 7917.9610794879 + 0.129578654430 7963.4448243631 + 0.135832647679 7981.7796441880 + 0.142661276388 7956.0111459988 + 0.151907280068 7841.3843347360 + 0.163091123260 7574.3921534113 + 0.175352702341 7113.3167867762 + 0.187761239510 6461.0333785284 + 0.199482067655 5664.8272216201 + 0.209804497226 4797.5329835211 + 0.218094125735 3933.5092854245 + 0.030000219885 4382.2353669158 + 0.030648749903 4438.8512918217 + 0.031030786149 4459.8055119126 + 0.031798835012 4514.5131468806 + 0.032816463007 4588.1097002576 + 0.033965310933 4670.7505201059 + 0.035157533921 4755.8191998606 + 0.036340237786 4839.4955463225 + 0.037488824261 4920.0741512780 + 0.038595156776 4997.0413991053 + 0.039658878045 5070.4311223869 + 0.040682749367 5140.4879091319 + 0.041670488989 5207.5147395653 + 0.042625857915 5271.8105010386 + 0.043552314036 5333.6475561889 + 0.044452912309 5393.2661919687 + 0.045330305768 5450.8757226433 + 0.046186784050 5506.6578440891 + 0.047024320979 5560.7704670280 + 0.047844622023 5613.3512857555 + 0.048649165978 5664.5208892233 + 0.049584104800 5723.4871031125 + 0.050620403913 5788.2274835690 + 0.051733258805 5857.0350218852 + 0.052902489110 5928.5424110469 + 0.054112196187 6001.6931957686 + 0.055350110807 6075.6911211048 + 0.056606885642 6149.9463312954 + 0.057875454300 6224.0272621545 + 0.059150498971 6297.6211766041 + 0.060428028829 6370.5033451404 + 0.061705055116 6442.5136809806 + 0.062979344519 6513.5393452101 + 0.064249233468 6583.5019370607 + 0.065513488753 6652.3481190296 + 0.066835427389 6723.4782975827 + 0.068681078080 6821.3231238459 + 0.070933076643 6938.3893724572 + 0.073964283925 7091.8911485811 + 0.077525051652 7266.1202439744 + 0.081419580528 7448.9045236078 + 0.085509451142 7631.7483577797 + 0.089701404616 7809.0124583743 + 0.094428821026 7995.9535410694 + 0.099475803664 8179.5056277554 + 0.104691312496 8350.7650517707 + 0.109807300435 8499.4925052302 + 0.114811259773 8625.4679191168 + 0.119827985758 8731.3874386745 + 0.125283113599 8822.2193092690 + 0.130577850414 8884.9301352156 + 0.135710763847 8920.6790551723 + 0.141018370826 8930.6049878678 + 0.147291959712 8905.4069243942 + 0.154139319203 8830.3375944367 + 0.163406758716 8646.2126182313 + 0.174611283890 8291.4017525975 + 0.186889662894 7730.1726833798 + 0.199309904569 6973.5287861768 + 0.211037315406 6076.7989770729 + 0.221362026959 5119.0583413570 + 0.229650643564 4178.2609393752 + 0.040000224080 5763.5091085719 + 0.040677013544 5820.5509180452 + 0.041045972529 5839.0306725750 + 0.041805064622 5890.6419736888 + 0.042825353133 5961.4383956200 + 0.043989461062 6041.9290239221 + 0.045207371246 6125.5581622171 + 0.046421942551 6208.3204617605 + 0.047604834088 6288.2887182119 + 0.048745583969 6364.7896512009 + 0.049842654067 6437.7621650139 + 0.050898305740 6507.3987613214 + 0.051916111343 6573.9747665282 + 0.052899855308 6637.7746043105 + 0.053853092661 6699.0631807855 + 0.054779001913 6758.0770644839 + 0.055680363543 6815.0238848868 + 0.056559588351 6870.0848023853 + 0.057418761105 6923.4178802739 + 0.058259686888 6975.1614115358 + 0.059083933106 7025.4368990258 + 0.060041136731 7083.2713675967 + 0.061101355569 7146.6388871486 + 0.062239051461 7213.8320243550 + 0.063433487061 7283.4864759995 + 0.064668360884 7354.5521343737 + 0.065931124099 7426.2420184983 + 0.067212243054 7497.9778525615 + 0.068504533136 7569.3412552339 + 0.069802606771 7640.0335861747 + 0.071102437206 7709.8445172649 + 0.072401022969 7778.6281732877 + 0.073696133680 7846.2853672706 + 0.074986119014 7912.7505383720 + 0.076269765591 7977.9822252217 + 0.077611354611 8045.1984437060 + 0.079483427821 8137.3611840262 + 0.081766167830 8247.1725851369 + 0.084836357166 8390.3925975244 + 0.088439727942 8551.8462410239 + 0.092377313082 8719.8591823422 + 0.096508841627 8886.3468287207 + 0.100740112734 9045.9879780200 + 0.105508193388 9212.0419238306 + 0.110594759799 9372.1312858494 + 0.115847470582 9517.8951039180 + 0.120996680982 9640.3871402978 + 0.126030317919 9739.5320521421 + 0.131074266542 9817.3973222280 + 0.136556384946 9876.4197866679 + 0.141874951605 9906.9710831424 + 0.147028934465 9910.3521847746 + 0.152356420010 9885.6001692325 + 0.158651144149 9817.8689120342 + 0.165518987693 9694.5454285253 + 0.174810252261 9442.2598083120 + 0.186038289965 9001.1221863393 + 0.198336627141 8341.2222133882 + 0.210771633378 7481.5519515865 + 0.222508441244 6485.4146045928 + 0.232837829805 5438.1089453724 + 0.241127290717 4421.2042521825 + 0.050000227621 7121.3830903019 + 0.050701783328 7178.7193802384 + 0.051059576896 7195.1349225511 + 0.051810022207 7244.0302629798 + 0.052831034033 7312.2399147688 + 0.054006474714 7390.6004862516 + 0.055245051766 7472.6695751130 + 0.056486290745 7554.3338104932 + 0.057698587592 7633.4952654174 + 0.058869302346 7709.3448003119 + 0.059995716077 7781.7352507572 + 0.061079543653 7850.8093700514 + 0.062124157488 7916.8146438618 + 0.063133316202 7980.0199726619 + 0.064110630254 8040.6815093309 + 0.065059367172 8099.0307915925 + 0.065982406411 8155.2724973658 + 0.066882256393 8209.5860347805 + 0.067761093217 8262.1284423129 + 0.068620805115 8313.0374629890 + 0.069463034178 8362.4343878163 + 0.070440602820 8419.1705757427 + 0.071522751527 8481.2206633458 + 0.072683278221 8546.8788323696 + 0.073900938523 8614.7838777887 + 0.075159061538 8683.8905465896 + 0.076444839600 8753.4185363724 + 0.077748564339 8822.7979420573 + 0.079062938152 8891.6201591393 + 0.080382504680 8959.5973525768 + 0.081703199455 9026.5306210101 + 0.083022004803 9092.2857505388 + 0.084336688803 9156.7751155061 + 0.085645609394 9219.9443499819 + 0.086947567857 9281.7626259282 + 0.088307755034 9345.2748551222 + 0.090204902883 9432.0471034387 + 0.092516914566 9534.9558546232 + 0.095624377923 9668.3611854520 + 0.099268689949 9817.5788980708 + 0.103247876817 9971.4024826426 + 0.107419879733 10122.1400672894 + 0.111689559883 10264.7774540134 + 0.116497595854 10410.6429717414 + 0.121623286847 10548.0166077158 + 0.126912991589 10669.0574280866 + 0.132095436439 10766.0708397707 + 0.137158932979 10839.1222744208 + 0.142230424117 10889.6667818137 + 0.147740011706 10917.6687090724 + 0.153082979189 10916.8150370421 + 0.158258667541 10888.5473038359 + 0.163606736256 10829.8451136638 + 0.169923549201 10720.4212156538 + 0.176812958546 10549.7302381696 + 0.186129601885 10230.4307232692 + 0.197383115740 9704.2640971584 + 0.209703619381 8946.9969576602 + 0.222155636632 7985.4891058304 + 0.233903965059 6890.9491146487 + 0.244239873147 5754.8789538221 + 0.252531640527 4662.4767692750 + 0.060000230703 8459.5726028441 + 0.060724006001 8517.1097341989 + 0.061072013598 8531.7493321999 + 0.061814156359 8578.2162979375 + 0.062834654982 8644.0242956578 + 0.064018714053 8720.3088014660 + 0.065274335965 8800.7654758376 + 0.066538383594 8881.2236994462 + 0.067776381522 8959.4528728787 + 0.068973651443 9034.5274806892 + 0.070126310688 9106.2224332606 + 0.071235501761 9174.6335527887 + 0.072304361576 9239.9810807524 + 0.073336589033 9302.5181378398 + 0.074335820731 9362.4915762657 + 0.075305388692 9420.1272859739 + 0.076248251256 9475.6263618583 + 0.077166997333 9529.1658606970 + 0.078063880394 9580.9012041236 + 0.078940859983 9630.9689996867 + 0.079799642830 9679.4897402608 + 0.080795986698 9735.1414297623 + 0.081898387146 9795.9028555354 + 0.083080034924 9860.0720771425 + 0.084319220099 9926.2918724128 + 0.085598930932 9993.5214998641 + 0.086906119441 10060.9860315386 + 0.088230913667 10128.1219768079 + 0.089565908915 10194.5281960841 + 0.090905582345 10259.9252426480 + 0.092245831689 10324.1233090740 + 0.093583621434 10386.9977205381 + 0.094916715516 10448.4705720954 + 0.096243476986 10508.4971611080 + 0.097562718342 10567.0560663928 + 0.098940488594 10627.0260105249 + 0.100861391175 10708.6333434226 + 0.103201205821 10804.9128060916 + 0.106344188310 10928.8664591615 + 0.110027667624 11066.2672207442 + 0.114046824404 11206.3527247018 + 0.118257886020 11341.8101059591 + 0.122564795470 11467.9247908159 + 0.127411736698 11594.1471126701 + 0.132575709122 11709.3924348749 + 0.137901789737 11806.3235434911 + 0.143117072301 11878.4651740415 + 0.148210209457 11926.0200707621 + 0.153309166827 11949.8436377772 + 0.158846277207 11947.4763656890 + 0.164213813171 11915.8465669411 + 0.169411460908 11856.5342841761 + 0.174780457281 11764.4991658518 + 0.181119851544 11614.0995455888 + 0.188031459425 11396.8049817771 + 0.197374453689 11011.4886683012 + 0.208654753798 10401.4336047576 + 0.220998976121 9547.9576183489 + 0.233469663134 8485.6794175557 + 0.245231097666 7293.6461667074 + 0.255574948201 6069.5416876191 + 0.263870162647 4902.2016848181 + 0.070000233442 9780.6928303829 + 0.070744255538 9838.3601404571 + 0.071083531832 9851.4392059567 + 0.071817716345 9895.7048330898 + 0.072836868975 9959.2708463511 + 0.074027568538 10033.5451470650 + 0.075297493480 10112.3724547222 + 0.076581355523 10191.5599262309 + 0.077842135022 10268.7736125846 + 0.079063244947 10342.9878212005 + 0.080239664109 10413.9068184273 + 0.081371948403 10481.5823339481 + 0.082462974478 10546.2082494816 + 0.083516356660 10608.0219908311 + 0.084535735799 10667.2608928457 + 0.085524489997 10724.1448792470 + 0.086485640870 10778.8711385789 + 0.087421845324 10831.6140410552 + 0.088335423362 10882.5270700080 + 0.089228396815 10931.7453777821 + 0.090102529394 10979.3883360027 + 0.091116302799 11033.9618080460 + 0.092237527036 11093.4517027979 + 0.093438832679 11156.1620438139 + 0.094698079051 11220.7407028830 + 0.095997937962 11286.1516382588 + 0.097325137347 11351.6247048345 + 0.098669651817 11416.6016451415 + 0.100023975394 11480.6872153270 + 0.101382521538 11543.6085874657 + 0.102741150899 11605.1832351267 + 0.104096809472 11665.2942850992 + 0.105447255530 11723.8719716247 + 0.106790855162 11780.8798760954 + 0.108126429711 11836.3048260644 + 0.109520839080 11892.8648657768 + 0.111464257403 11969.4928624420 + 0.113830479048 12059.3687975217 + 0.117007284665 12174.1710581952 + 0.120728178556 12300.1009754420 + 0.124785648363 12426.8197964708 + 0.129034284223 12547.3821054681 + 0.133377136827 12657.3673846374 + 0.138261780271 12764.3921486208 + 0.143462998563 12857.9904138975 + 0.148824615265 12931.3166312920 + 0.154072106172 12979.0890729983 + 0.159194429094 13001.6451223421 + 0.164320532813 12999.2512667920 + 0.169884952072 12967.0654523655 + 0.175276964181 12905.1949197942 + 0.180496575032 12815.3559348799 + 0.185886586731 12690.5201228992 + 0.192248760790 12499.7670100774 + 0.199182881004 12236.5362550466 + 0.208552785512 11786.0810363883 + 0.219860709333 11093.1505768769 + 0.232229717429 10144.5037940592 + 0.244720261214 8982.4193392397 + 0.256496003665 7693.7211767114 + 0.266848887947 6382.2514221651 + 0.275148443527 5140.4891674561 + 0.080000235915 11086.6929044431 + 0.080762912611 11144.4350305615 + 0.081094296306 11156.1216311397 + 0.081820853996 11198.3710810845 + 0.082838079984 11259.8339689226 + 0.084033924294 11332.1672370350 + 0.085316004659 11409.3682771993 + 0.086617282605 11487.2469126045 + 0.087898471958 11563.3890319086 + 0.089141196560 11636.6824332418 + 0.090339326030 11706.7672469765 + 0.091492822633 11773.6538407928 + 0.092604284913 11837.5107320232 + 0.093677223644 11898.5599032764 + 0.094715266863 11957.0291243406 + 0.095721824215 12013.1321965740 + 0.096699968444 12067.0622152330 + 0.097652414301 12118.9906742336 + 0.098581539827 12169.0689327367 + 0.099489421976 12217.4305041888 + 0.100377875359 12264.1934532617 + 0.101407924480 12317.6923075231 + 0.102546743486 12375.9225110276 + 0.103766442379 12437.1958594801 + 0.105044479327 12500.1664303360 + 0.106363230680 12563.8033037561 + 0.107709214505 12627.3409238813 + 0.109072261104 12690.2255718855 + 0.110444768676 12752.0668383907 + 0.111821089856 12812.5972216490 + 0.113197049305 12871.6400751871 + 0.114569574429 12929.0849198122 + 0.115936416941 12984.8687918005 + 0.117295944578 13038.9623421251 + 0.118646985831 13091.3595855914 + 0.120057168492 13144.6224992221 + 0.122021958643 13216.4301087026 + 0.124413287262 13300.0968000185 + 0.127622318455 13406.0068308431 + 0.131378951325 13520.7645306865 + 0.135473122560 13634.4359863140 + 0.139757857497 13740.4326247689 + 0.144135345983 13834.6232300255 + 0.149056433724 13922.8284103272 + 0.154293775340 13995.1873014073 + 0.159689975137 14045.3367767668 + 0.164968916440 14069.1675559337 + 0.170119829945 14067.1498416245 + 0.175272611639 14038.9706205444 + 0.180863957242 13977.4411430458 + 0.186280183950 13885.7940181742 + 0.191521595561 13765.8794984513 + 0.196932536093 13608.7089363212 + 0.203317481937 13378.1498463944 + 0.210274206517 13069.5733564781 + 0.219671284550 12554.7607432945 + 0.231007322592 11779.8632025987 + 0.243401820373 10736.9832846519 + 0.255913065282 9475.9696972157 + 0.267704001718 8091.3647273595 + 0.278066754387 6693.1455090754 + 0.286371320739 5377.4373232976 + 0.090000238172 12379.0851885803 + 0.090780245904 12436.8575913525 + 0.091104423303 12447.2871227397 + 0.091823668032 12487.6752275749 + 0.092838553398 12547.1570550642 + 0.094038379758 12617.6181431142 + 0.095330889892 12693.2080209176 + 0.096647615830 12769.7572009128 + 0.097947243655 12844.7900808229 + 0.099209718371 12917.1196367628 + 0.100427831793 12986.3277038157 + 0.101600950312 13052.3858744987 + 0.102731381286 13115.4383347538 + 0.103822517037 13175.6919651980 + 0.104877959075 13233.3650194008 + 0.105901136801 13288.6651107181 + 0.106895164170 13341.7811371301 + 0.107862805491 13392.8816040618 + 0.108806489886 13442.1156355991 + 0.109728343574 13489.6149973890 + 0.110630227076 13535.4963376770 + 0.111675550595 13587.9235384920 + 0.112830894727 13644.9035280188 + 0.114067882782 13704.7574006538 + 0.115363597250 13766.1464631167 + 0.116700137263 13828.0454251955 + 0.118063823505 13889.6933470707 + 0.119444350144 13950.5406621569 + 0.120834024584 14010.2010835240 + 0.122227141436 14068.4114934846 + 0.123619490634 14125.0000465298 + 0.125007981195 14179.8615246900 + 0.126390357773 14232.9386477716 + 0.127764988797 14284.2080832595 + 0.129130708660 14333.6700801220 + 0.130555873990 14383.7345450526 + 0.132540986288 14450.8616154162 + 0.134956221287 14528.4909237119 + 0.138195990243 14625.7389195194 + 0.141986784669 14729.5900038508 + 0.146116120069 14830.4974614903 + 0.150435528480 14922.2193390251 + 0.154846367540 15000.9092269592 + 0.159802639823 15070.6250588662 + 0.165074955073 15122.0994994903 + 0.170504734432 15149.4444636537 + 0.175814300969 15149.7054951182 + 0.180993130841 15123.4845409922 + 0.186172033137 15069.8975831705 + 0.191789816084 14979.4409484957 + 0.197229886745 14858.4258483492 + 0.202492824275 14708.8344875411 + 0.207924489064 14519.7424534715 + 0.214332055230 14249.8649698783 + 0.221311318237 13896.4708592345 + 0.230735608203 13318.0030300044 + 0.242100003563 12461.9600720904 + 0.254520420130 11325.7001194934 + 0.267052879822 9966.5585973937 + 0.278859721639 8486.7459892061 + 0.289232969297 7002.3464840193 + 0.297543114373 5613.1352474035 + 0.100000240251 13659.0788869370 + 0.100795033466 13716.8563154057 + 0.101111281700 13726.0006433286 + 0.101823082733 13764.6191399003 + 0.102835472387 13822.2343866516 + 0.104038688057 13890.9089005596 + 0.105340595379 13964.9319517403 + 0.106671491505 14040.1638555081 + 0.107988212648 14114.0810308990 + 0.109269120493 14185.4313923695 + 0.110505965873 14253.7440440368 + 0.111697528129 14318.9547146271 + 0.112845821359 14381.1847511818 + 0.113954113847 14440.6267033020 + 0.115025974322 14497.4897147158 + 0.116064846015 14551.9754308223 + 0.117073878795 14604.2686748348 + 0.118055881874 14654.5350328828 + 0.119013331408 14702.9214314851 + 0.119948399350 14749.5579045238 + 0.120862989058 14794.5596828724 + 0.121922768481 14845.9211632620 + 0.123093758176 14901.6621812654 + 0.124347122082 14960.1143078450 + 0.125659587973 15019.9469331919 + 0.127012993108 15080.1408935643 + 0.128393471581 15139.9400067045 + 0.129790588728 15198.7986745958 + 0.131196565876 15256.3342744630 + 0.132605642457 15312.2874026871 + 0.134013575197 15366.4902003392 + 0.135417255324 15418.8418166753 + 0.136814420390 15469.2897385704 + 0.138203439047 15517.8157575771 + 0.139583150842 15564.4255230851 + 0.141022607320 15611.3804810407 + 0.143027119873 15673.9535955581 + 0.145465199767 15745.7017858041 + 0.148734382067 15834.4978418172 + 0.152557921270 15927.6851115713 + 0.156721026394 16016.0871571406 + 0.161073800003 16093.7984748586 + 0.165516797630 16157.2529173731 + 0.170507071067 16208.7754154470 + 0.175813262067 16239.6816704567 + 0.181275645987 16244.5524656082 + 0.186615020172 16221.5731702593 + 0.191821085721 16171.4770189834 + 0.197025527174 16092.8169093249 + 0.202669222218 15973.8027767009 + 0.208132718676 15823.7831213320 + 0.213416855887 15644.8703300206 + 0.218868979271 15424.2261464508 + 0.225298936651 15115.4671923809 + 0.232300577040 14717.7301923933 + 0.241751979603 14076.2405839873 + 0.253144810105 13139.7969813074 + 0.265591384506 11910.9338770330 + 0.278145568680 10454.4020310228 + 0.289968653262 8880.0198807433 + 0.300352874781 7309.9656133158 + 0.308669039116 5847.6618402528 + 0.150000248764 19902.6721180310 + 0.150864969198 19960.0330190242 + 0.151155521110 19964.7709428303 + 0.151836476160 19996.2558377049 + 0.152833258839 20045.7936684237 + 0.154042560572 20106.3324231129 + 0.155374668702 20172.8429506934 + 0.156756689845 20241.4610471075 + 0.158138730238 20309.5851099232 + 0.159492558324 20375.7521722889 + 0.160805172347 20439.2895627098 + 0.162072450721 20499.9826203556 + 0.163294823605 20557.8505833478 + 0.164474786016 20613.0186063747 + 0.165615596831 20665.6511566255 + 0.166720641652 20715.9195129372 + 0.167793143196 20763.9872115846 + 0.168836046753 20810.0042596530 + 0.169851989936 20854.1057046198 + 0.170843311717 20896.4121505516 + 0.171812077705 20937.0310730086 + 0.172933587938 20983.1203977655 + 0.174171494862 21032.7800258296 + 0.175495012199 21084.4069156770 + 0.176879355895 21136.7207756863 + 0.178305242576 21188.7396390400 + 0.179758004289 21239.7343327736 + 0.181226649548 21289.1791486492 + 0.182703024888 21336.7069768490 + 0.184181126882 21382.0717643607 + 0.185656563422 21425.1184785917 + 0.187126143081 21465.7596706274 + 0.188587566823 21503.9574468824 + 0.190039198392 21539.7097171806 + 0.191479893906 21573.0397632992 + 0.192981734829 21605.5102099883 + 0.195071092216 21646.8452488862 + 0.197609329933 21691.1050815554 + 0.201007866850 21740.2561798921 + 0.204975966618 21783.1822306642 + 0.209288800008 21812.3332756222 + 0.213790182112 21823.3361454708 + 0.218377080483 21813.9506990860 + 0.223520248184 21778.1959839605 + 0.228979581049 21710.1631473428 + 0.234590167948 21606.7042173279 + 0.240065769268 21471.5312015355 + 0.245396961519 21306.0406906409 + 0.250719348190 21106.0753997253 + 0.256483342359 20848.7659525700 + 0.262056195888 20558.1526309100 + 0.267439822861 20236.9793948446 + 0.272988471851 19863.1091259957 + 0.279524702829 19365.3325244204 + 0.286633290327 18751.7684524909 + 0.296215545611 17803.0866109387 + 0.307746906839 16474.0001811358 + 0.320322934500 14791.9789791503 + 0.332986233189 12857.8847630684 + 0.344893229721 10818.9260120680 + 0.355335478847 8827.4120393640 + 0.363684744205 7004.9878331663 + 0.200000255264 25935.6892140136 + 0.200919122913 25992.2769353617 + 0.201189381093 25993.7310794721 + 0.201844148402 26019.7276301750 + 0.202824417365 26062.7888566142 + 0.204032117731 26116.4875282896 + 0.205380322557 26176.3352496383 + 0.206795291542 26238.7897560766 + 0.208222991929 26301.3073545849 + 0.209630254370 26362.3357586654 + 0.211000066007 26421.0782666344 + 0.212325623345 26477.2128182247 + 0.213605761991 26530.6788737901 + 0.214842111944 26581.5455081519 + 0.216037512149 26629.9381715034 + 0.217195185862 26676.0006929522 + 0.218318336196 26719.8767441562 + 0.219409964815 26761.7015471068 + 0.220472803106 26801.5987407972 + 0.221509299468 26839.6798273511 + 0.222521632588 26876.0447889901 + 0.223692850306 26917.0464108602 + 0.224984712631 26960.8753188732 + 0.226364869495 27006.0035692681 + 0.227807321109 27051.2094386325 + 0.229291880690 27095.5545743623 + 0.230803232114 27138.3411203845 + 0.232329932619 27179.0652798493 + 0.233863523817 27217.3751373311 + 0.235397803508 27253.0354119913 + 0.236928256515 27285.8992672285 + 0.238451621652 27315.8862847380 + 0.239965567255 27342.9654572554 + 0.241468450013 27367.1421263297 + 0.242959136354 27388.4479701685 + 0.244512193636 27407.8052548837 + 0.246671337359 27429.9001175346 + 0.249292157243 27449.2088228593 + 0.252797688581 27462.2357098374 + 0.256885838833 27459.0909001093 + 0.261323579267 27433.5384477871 + 0.265949537555 27382.4990970193 + 0.270657671886 27304.9167893122 + 0.275930344628 27186.9680768250 + 0.281520148176 27025.2945584774 + 0.287257763252 26818.9082117351 + 0.292850831641 26576.8270347247 + 0.298290549501 26301.1400609995 + 0.303715818523 25985.1340563858 + 0.309585372182 25595.3290373932 + 0.315254766429 25169.8288982008 + 0.320726738523 24711.9949188970 + 0.326361583264 24190.7459767970 + 0.332993379936 23510.9178527618 + 0.340198837282 22689.1598812092 + 0.349900690275 21443.5898348981 + 0.361560289296 19734.1362802883 + 0.374257919783 17611.9717549507 + 0.387025493149 15212.8162695664 + 0.399014235431 12720.3549885809 + 0.409514209795 10316.5750715593 + 0.417897313515 8141.2866167971 + 0.250000260538 31800.2136281566 + 0.250963750179 31855.8411029977 + 0.251217844647 31854.7858899349 + 0.251850251224 31876.4053525403 + 0.252814436988 31914.1254008839 + 0.254016890439 31962.0019261327 + 0.255373393754 32015.9781221345 + 0.256810480331 32072.8200775940 + 0.258271563892 32130.0992589569 + 0.259719733989 32186.2426942318 + 0.261134597034 32240.3806924898 + 0.262506911829 32292.1152115870 + 0.263833969145 32341.3238138944 + 0.265116502978 32388.0294231467 + 0.266356874803 32432.3240178257 + 0.267558083754 32474.3271057809 + 0.268723256353 32514.1644094621 + 0.269855400212 32551.9575358250 + 0.270957297012 32587.8195401222 + 0.272031467330 32621.8534452753 + 0.273080170995 32654.1522563317 + 0.274292922653 32690.3018757902 + 0.275629906672 32728.5848906841 + 0.277057467164 32767.5501276138 + 0.278548586949 32806.0363990777 + 0.280082322039 32843.1510197261 + 0.281642812428 32878.2293374738 + 0.283218236321 32910.7909308104 + 0.284799878952 32940.4998918361 + 0.286381370724 32967.1317033305 + 0.287958092510 32990.5467955600 + 0.289526723831 33010.6699073612 + 0.291084904813 33027.4741446857 + 0.292630985332 33040.9687082517 + 0.294163839517 33051.1894402080 + 0.295760133007 33058.4647139708 + 0.297978248504 33062.8347828714 + 0.300668945654 33059.1427661911 + 0.304265169453 33038.8031262583 + 0.308455306826 32992.9447329156 + 0.312999434159 32916.4113131085 + 0.317731794636 32807.2109230442 + 0.322543781156 32665.3251713756 + 0.327927737924 32469.4449206394 + 0.333630041633 32218.5394280997 + 0.339477580280 31913.6623154344 + 0.345172662861 31568.9502376316 + 0.350706956771 31187.2165675511 + 0.356222188937 30759.3256804522 + 0.362184371772 30241.5620167464 + 0.367938783416 29685.6098227803 + 0.373488824514 29095.4483564415 + 0.379200139795 28431.3362495462 + 0.385916957110 27574.8264243681 + 0.393209005141 26550.7609938548 + 0.403018328394 25016.2616317134 + 0.414793940198 22935.9505137431 + 0.427602449493 20383.7696853399 + 0.440465903483 17529.3278794705 + 0.452530420048 14592.0648026239 + 0.463084274406 11783.2749669708 + 0.471498820405 9260.8687669131 + 0.250000260538 31800.2136281566 + 0.250963750179 31855.8411029977 + 0.251217844647 31854.7858899349 + 0.251850251224 31876.4053525403 + 0.252814436988 31914.1254008839 + 0.254016890439 31962.0019261327 + 0.255373393754 32015.9781221345 + 0.256810480331 32072.8200775940 + 0.258271563892 32130.0992589569 + 0.259719733989 32186.2426942318 + 0.261134597034 32240.3806924898 + 0.262506911829 32292.1152115870 + 0.263833969145 32341.3238138944 + 0.265116502978 32388.0294231467 + 0.266356874803 32432.3240178257 + 0.267558083754 32474.3271057809 + 0.268723256353 32514.1644094621 + 0.269855400212 32551.9575358250 + 0.270957297012 32587.8195401222 + 0.272031467330 32621.8534452753 + 0.273080170995 32654.1522563317 + 0.274292922653 32690.3018757902 + 0.275629906672 32728.5848906841 + 0.277057467164 32767.5501276138 + 0.278548586949 32806.0363990777 + 0.280082322039 32843.1510197261 + 0.281642812428 32878.2293374738 + 0.283218236321 32910.7909308104 + 0.284799878952 32940.4998918361 + 0.286381370724 32967.1317033305 + 0.287958092510 32990.5467955600 + 0.289526723831 33010.6699073612 + 0.291084904813 33027.4741446857 + 0.292630985332 33040.9687082517 + 0.294163839517 33051.1894402080 + 0.295760133007 33058.4647139708 + 0.297978248504 33062.8347828714 + 0.300668945654 33059.1427661911 + 0.304265169453 33038.8031262583 + 0.308455306826 32992.9447329156 + 0.312999434159 32916.4113131085 + 0.317731794636 32807.2109230442 + 0.322543781156 32665.3251713756 + 0.327927737924 32469.4449206394 + 0.333630041633 32218.5394280997 + 0.339477580280 31913.6623154344 + 0.345172662861 31568.9502376316 + 0.350706956771 31187.2165675511 + 0.356222188937 30759.3256804522 + 0.362184371772 30241.5620167464 + 0.367938783416 29685.6098227803 + 0.373488824514 29095.4483564415 + 0.379200139795 28431.3362495462 + 0.385916957110 27574.8264243681 + 0.393209005141 26550.7609938548 + 0.403018328394 25016.2616317134 + 0.414793940198 22935.9505137431 + 0.427602449493 20383.7696853399 + 0.440465903483 17529.3278794705 + 0.452530420048 14592.0648026239 + 0.463084274406 11783.2749669708 + 0.471498820405 9260.8687669131 + 0.300000264976 37521.6258153675 + 0.301001437585 37576.1946243188 + 0.301242193324 37573.1629089081 + 0.301855223394 37591.2083845675 + 0.302804221442 37624.4517289427 + 0.303999684614 37667.3356987481 + 0.305359880697 37716.1510590376 + 0.306812160181 37767.9406101709 + 0.308298394019 37820.4114972717 + 0.309778814372 37872.0090439704 + 0.311230176150 37921.8246090614 + 0.312641042039 37969.4073737819 + 0.314007236519 38014.5873116726 + 0.315328600120 38057.3497407913 + 0.316606989284 38097.7582919126 + 0.317845142517 38135.9113091233 + 0.319046072929 38171.9185691208 + 0.320212760498 38205.8894432762 + 0.321348007490 38237.9273813195 + 0.322454380839 38268.1276830174 + 0.323534199181 38296.5769954252 + 0.324782507382 38328.1361103128 + 0.326158143077 38361.1764013107 + 0.327626331315 38394.3212389009 + 0.329159181393 38426.4686826564 + 0.330735098456 38456.7712130073 + 0.332337754717 38484.5974438490 + 0.333955002344 38509.4907054428 + 0.335577906059 38531.1315481430 + 0.337199952311 38549.3065345810 + 0.338816432592 38563.8833792863 + 0.340423975411 38574.7915824388 + 0.342020196571 38582.0074895814 + 0.343603439953 38585.5427897922 + 0.345172586118 38585.4356399084 + 0.346806107526 38581.4594842051 + 0.349075028327 38569.3270297021 + 0.351825971595 38544.2152210445 + 0.355500467339 38492.7667705898 + 0.359778741080 38406.9856850525 + 0.364414949788 38282.6215285019 + 0.369239562016 38118.6007153195 + 0.374141751148 37915.8075427810 + 0.379622554295 37645.7454672756 + 0.385422971700 37309.4972858741 + 0.391366591171 36910.0321368870 + 0.397151040229 36466.4262222517 + 0.402768362522 35982.2412253377 + 0.408362738633 35446.0355665444 + 0.414406587955 34804.1792748939 + 0.420236118771 34121.5276065457 + 0.425855282595 33402.6856638781 + 0.431634425609 32599.4937462831 + 0.438426861865 31570.7901776163 + 0.445796098162 30349.3235912015 + 0.455701502440 28532.5181276382 + 0.467581221842 26089.2581672692 + 0.480489623233 23115.4852653407 + 0.493439734649 19813.8937028020 + 0.505572914816 16439.0771047736 + 0.516175486959 13231.3240534599 + 0.524617996393 10366.5908087011 + 0.350000268805 43116.8443629617 + 0.351033774240 43170.3048969463 + 0.351263254706 43165.6894965460 + 0.351859303176 43180.7743732079 + 0.352794139579 43210.2269889962 + 0.353981815071 43248.8076145561 + 0.355342835576 43293.0903485988 + 0.356805626088 43340.3599179926 + 0.358311180343 43388.4618345886 + 0.359817537708 43435.8811708240 + 0.361299043976 43481.6929479014 + 0.362742292274 43525.4106196140 + 0.364141731334 43566.8278691069 + 0.365496329256 43605.8995723360 + 0.366807427688 43642.6655485904 + 0.368077483181 43677.2059156411 + 0.369309371251 43709.6164773745 + 0.370506020847 43739.9957561463 + 0.371670233561 43768.4386209382 + 0.372804603854 43795.0334456584 + 0.373911492688 43819.8611703490 + 0.375190754080 43847.1003903260 + 0.376600053998 43875.2059173394 + 0.378103641410 43902.8714729464 + 0.379672862383 43929.0513676874 + 0.381285552803 43952.9413194685 + 0.382924975615 43973.9421375085 + 0.384578697773 43991.6204554049 + 0.386237591209 44005.6732273445 + 0.387895016646 44015.8982320941 + 0.389546187614 44022.1706258092 + 0.391187688230 44024.4247158709 + 0.392817113205 44022.6399261128 + 0.394432801325 44016.8300043642 + 0.396033638860 44007.0346937375 + 0.397699676662 43992.5061433770 + 0.400012986646 43964.8974213237 + 0.402816590169 43919.6931905478 + 0.406559542752 43839.0390123224 + 0.410914961629 43715.7088827143 + 0.415631844669 43546.2278699867 + 0.420537365724 43330.3059330510 + 0.425518755279 43069.6128109518 + 0.431084695469 42728.7267301463 + 0.436971481546 42310.6457985031 + 0.442999798041 41820.1265234568 + 0.448863134125 41281.0088577073 + 0.454553846576 40697.6163062000 + 0.460218270276 40056.3026947730 + 0.466334491162 39293.8090393389 + 0.472230678374 38487.7953251341 + 0.477911252571 37643.5028973125 + 0.483750725423 36704.5708100963 + 0.490610504921 35507.6220289195 + 0.498048572494 34093.0605609717 + 0.508039792732 31999.7504257124 + 0.520012635802 29200.4576037887 + 0.533010494929 25812.4515332406 + 0.546038374923 22070.8143738499 + 0.558232942813 18264.7633957133 + 0.568878720470 14663.3108721375 + 0.577345318975 11460.4126627933 + 0.400000272168 48597.9098596522 + 0.401061824578 48650.2412285222 + 0.401281607460 48644.3451477491 + 0.401862640787 48656.9553318693 + 0.402784346354 48683.1767865197 + 0.403963945832 48718.0351927440 + 0.405323949698 48758.3384405875 + 0.406793964617 48801.5803787717 + 0.408314554441 48845.7388637514 + 0.409842072585 48889.3495012668 + 0.411348825589 48931.4857427734 + 0.412819644379 48971.6377218071 + 0.414247696113 49009.5716489782 + 0.415631108082 49045.2178601883 + 0.416970708634 49078.5962779109 + 0.418268661016 49109.7714354278 + 0.419527687319 49138.8270036988 + 0.420750648948 49165.8519879557 + 0.421940331204 49190.9336818321 + 0.423099341920 49214.1543245846 + 0.424230071806 49235.5897966897 + 0.425536608119 49258.7791522570 + 0.426975584436 49282.2542301900 + 0.428510387540 49304.7739247826 + 0.430111688189 49325.3449140404 + 0.431756818116 49343.2034443248 + 0.433428677703 49357.7807833570 + 0.435114581308 49368.6658794654 + 0.436805230257 49375.5716360083 + 0.438493874159 49378.3069371256 + 0.440175657786 49376.7544534170 + 0.441847126233 49370.8534262940 + 0.443505855808 49360.5864386934 + 0.445150181018 49345.9692591906 + 0.446778993383 49327.0430118385 + 0.448473737454 49302.5681519836 + 0.450826241231 49260.3694743165 + 0.453676351799 49196.2162406230 + 0.457479781560 49087.9960971573 + 0.461903383511 48929.1712951400 + 0.466691608109 48716.9425041580 + 0.471668723049 48451.6963016837 + 0.476720242219 48135.7890677803 + 0.482361625863 47727.1113908043 + 0.488325006192 47230.3976354555 + 0.494428499754 46652.0671885984 + 0.500361912146 46020.5516745854 + 0.506117868467 45340.9402736329 + 0.511844608684 44597.4705955528 + 0.518025229690 43717.5132573978 + 0.523980832016 42791.1965341279 + 0.529716148205 41824.4067392227 + 0.535609429334 40752.7814460878 + 0.542529303841 39391.1830425520 + 0.550028825487 37787.4414789706 + 0.560096692011 35422.8930266332 + 0.572152735681 32273.8388363859 + 0.585230538537 28478.2678218126 + 0.598327648489 24303.0115931376 + 0.610576716222 20071.4381999214 + 0.621260286747 16081.0323898167 + 0.629747077766 12543.7106591633 + 0.450000275163 53973.8016778034 + 0.451086345397 54025.0005427943 + 0.451297678444 54018.0649897129 + 0.451865341389 54028.5953647323 + 0.452774902338 54052.0510689243 + 0.453946424597 54083.6828182813 + 0.455304213890 54120.4936152661 + 0.456779084246 54160.1572094112 + 0.458311473924 54200.7737425563 + 0.459856441183 54240.9335707015 + 0.461384563150 54279.7179005588 + 0.462879095955 54316.6024458209 + 0.464332018548 54351.3327453874 + 0.465740655010 54383.8193918028 + 0.467105329250 54414.0657305156 + 0.468427906721 54442.1230335957 + 0.469710946120 54468.0645080165 + 0.470957229650 54491.9708807770 + 0.472169514722 54513.9228229258 + 0.473350411714 54533.9971975959 + 0.474502331272 54552.2654495056 + 0.475833121075 54571.6686498722 + 0.477298496418 54590.8087976055 + 0.478861075314 54608.5043357376 + 0.480490925388 54623.8099997045 + 0.482164927686 54635.9994528797 + 0.483865658395 54644.5323131593 + 0.485580206077 54649.0185247562 + 0.487299119686 54649.1862095928 + 0.489015549735 54644.8550383891 + 0.490724579819 54635.9151409778 + 0.492422720452 54622.3107804124 + 0.494107531782 54604.0278336409 + 0.495777344750 54581.0841992235 + 0.497431055790 54553.5224125476 + 0.499151350175 54519.6376526542 + 0.501538740351 54463.6300731472 + 0.504430250106 54381.5317858894 + 0.508287522039 54247.1828762847 + 0.512771839228 54054.6667875697 + 0.517623609151 53801.7811042892 + 0.522664515131 53489.5038770800 + 0.527778543051 53120.7960767455 + 0.533487198872 52647.0796969894 + 0.539518906832 52074.6666078241 + 0.545689492581 51411.5214907644 + 0.551685470901 50690.5010688426 + 0.557499698624 49917.4562866920 + 0.563282114026 49074.5858418797 + 0.569520346086 48080.1300405032 + 0.575528995469 47036.3645293724 + 0.581313249154 45949.8326874008 + 0.587254636240 44748.3552640120 + 0.594228236315 43225.4578052543 + 0.601782690768 41436.1824040660 + 0.611919042309 38805.2991444544 + 0.624049360642 35312.3221967646 + 0.637198334276 31115.3919417464 + 0.650356909844 26512.4982401999 + 0.662653934297 21860.7094822373 + 0.673370223034 17485.7523463901 + 0.681873449146 13617.4650848525 + 0.500000277857 59251.4580544139 + 0.501107898681 59301.5319982010 + 0.501311794775 59293.7534114363 + 0.501867484086 59302.5309184250 + 0.502765823953 59323.6135041880 + 0.503929433598 59352.4448880210 + 0.505284229976 59386.1926095204 + 0.506762215578 59422.6849431432 + 0.508303910997 59460.1326895812 + 0.509863383327 59497.1811427078 + 0.511409740523 59532.9248000282 + 0.512924832116 59566.8312088088 + 0.514399539006 59598.6304122983 + 0.515830422799 59628.2171105673 + 0.517217316720 59655.5808494809 + 0.518561788783 59680.7616507919 + 0.519866228576 59703.8237433933 + 0.521133331029 59724.8407044494 + 0.522365817028 59743.8874652497 + 0.523566291130 59761.0362238418 + 0.524737176172 59776.3545776931 + 0.526089683678 59792.2255733133 + 0.527578706269 59807.3143982471 + 0.529166171574 59820.4932893763 + 0.530821604685 59830.8605748748 + 0.532521480884 59837.7240499238 + 0.534248084396 59840.5693889173 + 0.535988300498 59839.0260265018 + 0.537732541084 59832.8363969263 + 0.539473867662 59821.8304867849 + 0.541207309018 59805.9057135633 + 0.542929344814 59785.0113786059 + 0.544637520928 59759.1367693706 + 0.546330165345 59728.3020618200 + 0.548006179150 59692.5513287680 + 0.549749359159 59649.7382931415 + 0.552167996349 59580.6202318118 + 0.555096585607 59481.4711291831 + 0.559002081578 59322.2701037400 + 0.563540780460 59097.6643153169 + 0.568449470216 58805.9844963810 + 0.573547523478 58448.7317782812 + 0.578717557038 58029.4039011200 + 0.584486493077 57493.1583945384 + 0.590579437356 56847.7450988165 + 0.596810157180 56102.5653220256 + 0.602862218192 55294.7415572365 + 0.608728681292 54430.8767391251 + 0.614561002958 53491.1988614046 + 0.620850842708 52385.0399196439 + 0.626907059982 51226.5231794670 + 0.632735158975 50022.8542147792 + 0.638719632621 48694.2124024645 + 0.645741330383 47013.1875459719 + 0.653344928856 45041.8320947405 + 0.663542484695 42149.2627353998 + 0.675739042950 38317.9036920911 + 0.688951328931 33725.5104073868 + 0.702164189865 28700.6625304776 + 0.714503139899 23633.6991580029 + 0.725247318679 18878.3629763440 + 0.733763424334 14682.3785198967 + 0.550000280303 64436.3927685864 + 0.551126915971 64485.3561700212 + 0.551324214586 64476.8972574942 + 0.551869131556 64484.1963822987 + 0.552757106643 64503.2406237105 + 0.553913064188 64529.6408240966 + 0.555264371565 64560.7046089257 + 0.556744176795 64594.3930037750 + 0.558293224459 64629.0155902890 + 0.559864828615 64663.2703644451 + 0.561426847270 64696.2680179154 + 0.562959873722 64727.4721931094 + 0.564453776504 64756.6013153227 + 0.565904396817 64783.5372466418 + 0.567311094180 64808.2580303979 + 0.568675143012 64830.7941571644 + 0.569998761235 64851.2021805715 + 0.571284551141 64869.5495463441 + 0.572535190742 64885.9062455442 + 0.573753272273 64900.3404689234 + 0.574941224588 64912.9165134594 + 0.576313284705 64925.4974620616 + 0.577823604120 64936.8048277187 + 0.579433487031 64945.7589459211 + 0.581111967829 64951.4972841646 + 0.582835154457 64953.3584524304 + 0.584585066751 64950.8518216643 + 0.586348405960 64943.6247215505 + 0.588115460001 64931.4328905998 + 0.589879210001 64914.1160586836 + 0.591634635365 64891.5786684254 + 0.593378188087 64863.7750056125 + 0.595107401380 64830.6978422185 + 0.596820600797 64792.3697699175 + 0.598516691842 64748.8365524622 + 0.600280472073 64697.5321012930 + 0.602727233321 64615.9347807365 + 0.605689192790 64500.5400828066 + 0.609638083972 64317.6330278753 + 0.614225714043 64062.3736324284 + 0.619185615810 63733.5727666886 + 0.624335079353 63333.1988244389 + 0.629555493037 62865.2304853331 + 0.635378651096 62268.7520309359 + 0.641526671761 61552.8293187033 + 0.647811470030 60728.2014850606 + 0.653913955983 59836.1055525482 + 0.659827373568 58883.8827009367 + 0.665704541952 57849.8508480500 + 0.672040741069 56634.6428260065 + 0.678139665241 55363.9418872066 + 0.684007108729 54045.6201665312 + 0.690030219780 52592.3816370174 + 0.697095010835 50756.2642718273 + 0.704742589139 48606.1391309190 + 0.714994819472 45456.3475540512 + 0.727250379686 41291.9382742180 + 0.740518770883 36309.7661020715 + 0.753779436000 30868.4521610219 + 0.766154729917 25391.1817081213 + 0.776922309036 20259.4910392251 + 0.785447965764 15738.9538770983 + 0.600000282539 69533.0894563172 + 0.601143737506 69580.9608364187 + 0.601335146280 69571.9581020127 + 0.601870335300 69578.0117491516 + 0.602748736080 69595.3054037069 + 0.603897356104 69619.5958177131 + 0.605244872651 69648.3109429826 + 0.606725524083 69679.5259760120 + 0.608280374311 69711.6378392660 + 0.609862171934 69743.3936014443 + 0.611437710210 69773.9212386939 + 0.612986460359 69802.6832594067 + 0.614497359152 69829.3893190966 + 0.615965569606 69853.9108341041 + 0.617389996598 69876.2162250063 + 0.618771627317 69896.3279059081 + 0.620112507865 69914.2958912470 + 0.621415144603 69930.1823868953 + 0.622682168050 69944.0531752357 + 0.623916153138 69955.9730356334 + 0.625119529796 69966.0034668264 + 0.626509267780 69975.5235867068 + 0.628038848031 69983.3046092687 + 0.629669009364 69988.3094506812 + 0.631368340445 69989.7103789244 + 0.633112615240 69986.8735596130 + 0.634883613145 69979.3297110945 + 0.636667868091 69966.7424376852 + 0.638455555370 69948.8797248635 + 0.640239583195 69925.5904108692 + 0.642014886288 69896.7856356701 + 0.643777891725 69862.4245562327 + 0.645526121439 69822.5034567231 + 0.647257898989 69777.0474551813 + 0.648972134098 69726.1041547274 + 0.650754528770 69666.7074379068 + 0.653226699496 69573.2058445230 + 0.656218803221 69442.2966444451 + 0.660206886936 69236.7210888595 + 0.664838699821 68952.1060564110 + 0.669844832932 68587.6973459562 + 0.675040697784 68145.8846984489 + 0.680306572511 67631.0813351590 + 0.686178646267 66976.4781795093 + 0.692376337685 66192.3507961292 + 0.698709888799 65290.6870845056 + 0.704857814460 64316.6961812240 + 0.710813524094 63278.4411876693 + 0.716731064915 62152.3844859400 + 0.723108969407 60830.6574560471 + 0.729246284601 59450.2279988202 + 0.735149064367 58019.6369599709 + 0.741206842792 56444.2711512327 + 0.748310250966 54455.9871301457 + 0.755997175601 52130.2916049823 + 0.766298200951 48727.6037069600 + 0.778606216945 44235.3269845739 + 0.791924180072 38868.9173852969 + 0.805226569865 33016.4973592539 + 0.817633111563 27133.6803023285 + 0.828420008706 21629.5698097917 + 0.836952113662 16787.5475634704 + 0.650000284595 74545.2651666591 + 0.651158637356 74592.0654402115 + 0.651344761262 74582.6345276022 + 0.651871138771 74587.6419373415 + 0.652740693820 74603.4338809594 + 0.653882319224 74625.8954312141 + 0.655225879064 74652.5587488723 + 0.656706641452 74681.5973802516 + 0.658266052205 74711.4849271062 + 0.659856442832 74741.0131722360 + 0.661443698761 74769.3272373997 + 0.663006288706 74795.8901612128 + 0.664532292987 74820.4048679769 + 0.666016238043 74842.7341757185 + 0.667456594456 74862.8384049867 + 0.668854070365 74880.7331133519 + 0.670210541715 74896.4627523580 + 0.671528417278 74910.0850773652 + 0.672810276865 74921.6623095824 + 0.674058674282 74931.2563567010 + 0.675276036586 74938.9263760617 + 0.676681810011 74945.6013772686 + 0.678228866746 74950.0959697729 + 0.679877431158 74951.4103825711 + 0.681595685698 74948.7475244360 + 0.683359099693 74941.4979722494 + 0.685149233147 74929.2115035187 + 0.686952467358 74911.5663954149 + 0.688758874965 74888.3418108943 + 0.690561297814 74859.3950291953 + 0.692354630063 74824.6435165303 + 0.694135276265 74784.0511417084 + 0.695900748278 74737.6176866491 + 0.697649368041 74685.3708736050 + 0.699380049312 74627.3602740085 + 0.701179313930 74560.2379021914 + 0.703674508697 74455.3588565459 + 0.706693920707 74309.6031761428 + 0.710717500224 74082.3046609539 + 0.715389315880 73769.5148835516 + 0.720437292583 73370.8753041860 + 0.725675139697 72889.1585470290 + 0.730982131462 72329.1737830381 + 0.736898427901 71618.3880412129 + 0.743141001791 70768.1940477201 + 0.749518582765 69791.7487068711 + 0.755707519562 68738.0997819410 + 0.761701372560 67616.0145875331 + 0.767655296250 66400.1495161959 + 0.774070750811 64974.3224021187 + 0.780242594771 63486.5218682865 + 0.786177119046 61945.9574506401 + 0.792266000239 60250.8503805280 + 0.799403998096 58113.2352480471 + 0.807126090752 55615.0794564565 + 0.817470595506 51963.7148301258 + 0.829825120014 47148.6452158836 + 0.843186697247 41403.4435567702 + 0.856525452158 35145.2016811374 + 0.868958451712 28861.5362024367 + 0.879760765300 22988.8894774098 + 0.888296434097 17828.4069108112 + 0.700000286494 79476.0529559845 + 0.701171840247 79521.8042616608 + 0.701353202688 79512.0438760361 + 0.701871579357 79516.1765623327 + 0.702732960209 79530.6830560785 + 0.703867946082 79551.5620320135 + 0.705207479599 79576.4366048016 + 0.706687796641 79603.5652030730 + 0.708250764093 79631.4883703467 + 0.709848414097 79659.0379439027 + 0.711445857555 79685.3752409414 + 0.713020667240 79709.9646826875 + 0.714560137060 79732.5038701779 + 0.716058197373 79752.8484269682 + 0.717512905502 79770.9517945410 + 0.718924700035 79786.8236886802 + 0.720295289802 79800.5038323771 + 0.721626985610 79812.0462176214 + 0.722922314465 79821.5100804820 + 0.724183806182 79828.9549388574 + 0.725413881797 79834.4380210399 + 0.726834237487 79838.4699214455 + 0.728397191368 79839.9027061203 + 0.730062498504 79837.7689431467 + 0.731797970205 79831.2982413011 + 0.733578797217 79819.9025950212 + 0.735386338856 79803.1486460610 + 0.737206836833 79780.7277905367 + 0.739030269976 79752.4293130460 + 0.740849419575 79718.1182560377 + 0.742659142860 79677.7180151662 + 0.744455823981 79631.1969781988 + 0.746236965771 79578.5583751770 + 0.748000888878 79519.8325785275 + 0.749746510913 79455.0712322432 + 0.751561098510 79380.5612101900 + 0.754077201508 79264.7895084813 + 0.757121405587 79104.8007446696 + 0.761177199501 78856.6455987464 + 0.765885305438 78516.7613738869 + 0.770971225260 78085.1505314134 + 0.776247124039 77564.9359472230 + 0.781591363211 76961.2904141699 + 0.787547698257 76196.1169962665 + 0.793830883735 75281.8448668963 + 0.800248271741 74232.7287758140 + 0.806474255736 73101.5305231129 + 0.812502533341 71897.7033066061 + 0.818489259379 70594.1430808962 + 0.824938529002 69066.5334882299 + 0.831141425247 67473.6306320916 + 0.837104455340 65825.3108690914 + 0.843221220667 64012.7755054928 + 0.850390159468 61728.5874126670 + 0.858143639059 59061.0073410727 + 0.868526793165 55165.1009885593 + 0.880922409567 50032.2328988105 + 0.894322146930 43913.6209429933 + 0.907692160751 37254.7958117322 + 0.920147286044 30574.9523893133 + 0.930961498355 24337.6334099974 + 0.939498042898 18861.6970848185 + 0.750000288257 84328.1322052793 + 0.751183533222 84372.8571163607 + 0.751360591677 84362.8519827948 + 0.751871689709 84366.2582981641 + 0.752725515859 84379.6679221368 + 0.753854219275 84399.1807230658 + 0.755189725496 84422.4997894983 + 0.756669177112 84447.9569605673 + 0.758234884431 84474.1509441054 + 0.759838673780 84499.9489448470 + 0.761444995081 84524.5270133376 + 0.763030620167 84547.3512200699 + 0.764582121467 84568.1147651526 + 0.766092872336 84586.6671241586 + 0.767560538148 84602.9558283011 + 0.768985298345 84616.9855892817 + 0.770368698761 84628.7921098021 + 0.771712952878 84638.4262163089 + 0.773020533700 84645.9446612753 + 0.774293944940 84651.4050040414 + 0.775535599134 84654.8629132740 + 0.776969240467 84656.4401148910 + 0.778546681755 84655.0205857617 + 0.780227249129 84649.6645785028 + 0.781978414172 84639.6247034050 + 0.783775112399 84624.3315512620 + 0.785598519205 84603.3665470833 + 0.787434748407 84576.4327192058 + 0.789273692945 84543.3284495862 + 0.791108078742 84503.9258717156 + 0.792932729355 84458.1539018384 + 0.794744010410 84405.9852309982 + 0.796539416654 84347.4264598150 + 0.798317267713 84282.5106284468 + 0.800076484892 84211.2915323832 + 0.801905012517 84129.7063523081 + 0.804440131941 84003.4895828595 + 0.807506877716 83829.8331329268 + 0.811591950264 83561.6185427488 + 0.816333023163 83195.6327041533 + 0.821453392834 82732.2081189915 + 0.826763819286 82174.7898961580 + 0.832141836243 81528.8871322345 + 0.838134454608 80710.9900693111 + 0.844454409552 79734.4937115270 + 0.850907805186 78614.6875312779 + 0.857167265769 77407.9310953887 + 0.863226614260 76124.3452206950 + 0.869242909650 74735.1077117507 + 0.875722616295 73107.9398840413 + 0.881953416827 71412.1222336394 + 0.887942017683 69658.1943850082 + 0.894083745581 67730.4781456156 + 0.901280297223 65302.4070019882 + 0.909061732794 62468.3749593655 + 0.919479125563 58331.9922070079 + 0.931910878708 52886.2591457523 + 0.945343773694 46399.5774503910 + 0.958740403399 39345.3881777457 + 0.971213622546 32274.0315844260 + 0.982036413145 25675.9043294574 + 0.990571385165 19887.5210737479 + 0.800000289898 89103.8239823431 + 0.801193873959 89147.5449738071 + 0.801367031848 89137.3681212787 + 0.801871498677 89140.1768398963 + 0.802718342378 89152.6544496405 + 0.803841115938 89170.9914898575 + 0.805172642958 89192.9618699561 + 0.806650913905 89216.9610580424 + 0.808218692739 89241.6380793300 + 0.809827674365 89265.8909687108 + 0.811441744673 89288.9087482428 + 0.813036959297 89310.1589918594 + 0.814599229274 89329.3310525000 + 0.816121408411 89346.2690196904 + 0.817600791423 89360.9152747821 + 0.819037309629 89373.2702120561 + 0.820432350788 89383.3661115904 + 0.821788032503 89391.2511480485 + 0.823106773308 89396.9800312504 + 0.824391049350 89400.6087417340 + 0.825643262728 89402.1917175378 + 0.827089024305 89401.4892601374 + 0.828679685435 89397.4121165173 + 0.830374179680 89389.0439007522 + 0.832139667239 89375.6567807907 + 0.833950849486 89356.6973075161 + 0.835788733045 89331.7597345801 + 0.837639314398 89300.5573154810 + 0.839492407748 89262.8965489803 + 0.841340688335 89218.6560045914 + 0.843178948965 89167.7697086567 + 0.845003538432 89110.2144257877 + 0.846811944222 89046.0000284810 + 0.848602485189 88975.1622180754 + 0.850374086168 88897.7569967954 + 0.852215308756 88809.3861447550 + 0.854767741202 88673.1385697908 + 0.857855002028 88486.3371552093 + 0.861966708564 88198.7992660214 + 0.866737753519 87807.6278241798 + 0.871889423186 87313.4574751089 + 0.877231198361 86720.0312295037 + 0.882639859547 86033.1712370831 + 0.888665366486 85164.0978210344 + 0.895018618533 84127.1100669661 + 0.901504583783 82938.4759797225 + 0.907794284104 81658.0446712673 + 0.913881661061 80296.5867186195 + 0.919924590627 78823.6014558951 + 0.926431665533 77099.0130007761 + 0.932687506054 75302.3927673390 + 0.938699003048 73444.9388689581 + 0.944863029115 71404.2292331877 + 0.952084212147 68834.9036763186 + 0.959890408660 65837.3353033903 + 0.970338009439 61464.4821812852 + 0.982801341895 55710.7698550142 + 0.996262789110 48861.3330391693 + 1.009681747181 41416.9949604326 + 1.022169328020 33958.8007206607 + 1.032997697053 27003.7452601085 + 1.041528713624 20905.9340386216 + 0.850000291431 93805.1623299754 + 0.851202996859 93847.9014215037 + 0.851372612700 93837.6159814559 + 0.851871031984 93839.9391620385 + 0.852711422699 93851.6291110504 + 0.853828610484 93868.9580738294 + 0.855156241382 93889.7631086281 + 0.856633097815 93912.4949552182 + 0.858202398887 93935.8460023162 + 0.859815767180 93958.7408133899 + 0.861436607516 93980.3794786144 + 0.863040334998 94000.2306494485 + 0.864612254786 94017.9801108946 + 0.866144736891 94033.4671048540 + 0.867634726403 94046.6294529455 + 0.869081917935 94057.4637912204 + 0.870487546701 94065.9994787948 + 0.871853636506 94072.2824787834 + 0.873182551542 94076.3658417377 + 0.874476739450 94078.3043030413 + 0.875738590408 94078.1513612959 + 0.877195418104 94075.3312967515 + 0.878798152076 94068.7768929266 + 0.880505366292 94057.5911372650 + 0.882283935302 94041.0625709207 + 0.884108345517 94018.6512593921 + 0.885959448566 93989.9624636302 + 0.887823133200 93954.7183424998 + 0.889689141385 93912.7325828315 + 0.891550101929 93863.8895604333 + 0.893400779537 93808.1280074032 + 0.895237507695 93745.4285252195 + 0.897057767380 93675.8041442365 + 0.898859876877 93599.2932006495 + 0.900642764404 93515.9539375036 + 0.902495554083 93421.0659782320 + 0.905063756335 93275.1717396308 + 0.908169695879 93075.7097790109 + 0.912305639569 92769.5303364609 + 0.917103941414 92354.0212291470 + 0.922284054222 91830.0939608924 + 0.927654293200 91201.7681010056 + 0.933090753856 90475.1589161164 + 0.939146066419 89556.3521040664 + 0.945529456807 88460.4965774052 + 0.952044861640 87204.7889669927 + 0.958361855163 85852.4671120433 + 0.964474487467 84414.9342531002 + 0.970541372617 82860.0486833575 + 0.977073011937 81040.0964532078 + 0.983351268821 79144.7156454041 + 0.989383220942 77185.7570002024 + 0.995567105121 75034.1858464039 + 1.002810137135 72326.1775541723 + 1.010638211150 69167.9376602420 + 1.021112305866 64562.5679048998 + 1.033603011798 58505.7229919651 + 1.047088775262 51298.8298870293 + 1.060526095516 43469.5654287187 + 1.073024573685 35629.2307724909 + 1.083855650694 28321.1524271024 + 1.092380581736 21916.9551406091 + 0.900000292866 98433.9485480286 + 0.901211017587 98475.7270695347 + 0.901377412191 98465.3877164298 + 0.901870312743 98467.3230249131 + 0.902704741184 98478.3518248801 + 0.903816676290 98494.8204025178 + 0.905140518865 98514.6225037046 + 0.906615790592 98536.2569938065 + 0.908186160928 98558.4534774898 + 0.909803226968 98580.1590565804 + 0.911429983613 98600.5829460582 + 0.913041273075 98619.1942696713 + 0.914621845899 98635.6753244419 + 0.916163622293 98649.8608703680 + 0.917663218358 98661.6846220799 + 0.919120103624 98671.1399101314 + 0.920535366743 98678.2535918062 + 0.921910940308 98683.0697941299 + 0.923249134779 98685.6402400392 + 0.924552368786 98686.0187112748 + 0.925823019486 98684.2580232085 + 0.927289954497 98679.4698711417 + 0.928903717603 98670.6047438772 + 0.930622553239 98656.7813465463 + 0.932413073818 98637.3016679553 + 0.934249568320 98611.6370348950 + 0.936112745986 98579.4020304363 + 0.937988396620 98540.3264904830 + 0.939866195894 98494.2304181037 + 0.941738730065 98441.0033965873 + 0.943600738156 98380.5884713608 + 0.945448539734 98312.9698425798 + 0.947279609936 98238.1635740253 + 0.949092266669 98156.2105946608 + 0.950885441381 98067.1714041286 + 0.952748770856 97966.0157551645 + 0.955331337213 97810.8315796958 + 0.958454282590 97599.1588524815 + 0.962612279548 97274.9707428772 + 0.967435363688 96835.9111374258 + 0.972641314985 96283.1453966597 + 0.978037386558 95620.9507879308 + 0.983499050542 94855.7184409577 + 0.989581352600 93888.5276740067 + 0.995991996683 92735.3293776503 + 1.002533980212 91414.2044666226 + 1.008875569813 89991.6855433812 + 1.015010917712 88479.7922309425 + 1.021099304003 86844.7774560275 + 1.027652937179 84931.4428771104 + 1.033951217889 82939.2777724049 + 1.040001366219 80880.7786221144 + 1.046202865075 78620.4257208118 + 1.053465186048 75776.2534832016 + 1.061312480420 72460.1594808462 + 1.071809645739 67626.1793493762 + 1.084323884929 61271.0153853391 + 1.097829994861 53711.9550942203 + 1.111281996398 45503.0006369078 + 1.123788152906 37285.2516553804 + 1.134619291016 29628.0888305150 + 1.143136123047 22920.5758893870 + 0.950000294214 102991.7931947129 + 0.951218036533 103032.6316381025 + 0.951381498733 103022.2857603661 + 0.951869361845 103023.9183795410 + 0.952698283612 103034.3969221638 + 0.953805286732 103050.1351446027 + 0.955125465953 103069.0780167349 + 0.956599032836 103089.7664093299 + 0.958170097919 103110.9617335985 + 0.959790269772 103131.6299732831 + 0.961422194505 103150.9875615691 + 0.963040201981 103168.5033861940 + 0.964628535444 103183.8561967791 + 0.966178697548 103196.8765064717 + 0.967686995521 103207.4942664118 + 0.969152685517 103215.6998664388 + 0.970576715923 103221.5180108423 + 0.971960931102 103224.9913094333 + 0.973307588785 103226.1704430372 + 0.974619078449 103225.1084930626 + 0.975897763450 103221.8578157455 + 0.977373929368 103215.2390725091 + 0.978997767197 103204.2165189855 + 0.980727219378 103187.9212479136 + 0.982528657773 103165.6660249162 + 0.984376190046 103136.9313750535 + 0.986250394639 103101.3396546359 + 0.988136970488 103058.6272414533 + 0.990025532434 103008.6196428125 + 0.991908627752 102951.2110853249 + 0.993780971993 102886.3485513921 + 0.995638872078 102814.0196044367 + 0.997479797916 102734.2432108621 + 0.999302067197 102647.0628380774 + 1.001104614464 102552.5412425977 + 1.002977543505 102445.3497136369 + 1.005573187340 102281.2072391831 + 1.008711607244 102057.7420097212 + 1.012889658132 101716.1339549326 + 1.017735258593 101254.2564231694 + 1.022964662610 100673.5076689454 + 1.028384155706 99978.4058669764 + 1.033868643260 99175.6029900536 + 1.039975353214 98161.2936424419 + 1.046410602416 96952.1884200325 + 1.052976536994 95567.2130136389 + 1.059340244879 94076.1070709281 + 1.065495973784 92491.4913127643 + 1.071603602975 90778.0473968845 + 1.078176862550 88773.2412796008 + 1.084492947515 86686.2062399224 + 1.090559225123 84530.0771699023 + 1.096776268660 82162.9730804054 + 1.104055523020 79185.1057480760 + 1.111919539048 75713.9303259532 + 1.122436642133 70655.2018981724 + 1.134970808827 64006.5022647384 + 1.148493628038 56100.5581960562 + 1.161956888778 47517.1679654461 + 1.174467724490 38926.7637873183 + 1.185296455375 30924.4921603567 + 1.193803308733 23916.7669994988 + 1.000000295481 107480.1490465471 + 1.001224141485 107520.0669786499 + 1.001384932754 107509.7556427953 + 1.001868198277 107511.1598607677 + 1.002692037112 107521.1852924467 + 1.003794415811 107536.3075224772 + 1.005111068215 107554.5181088095 + 1.006582849642 107574.3946796891 + 1.008154299275 107594.7257083568 + 1.009777066147 107614.4927463491 + 1.011413500200 107632.9176259401 + 1.013037473203 107649.4682447330 + 1.014632764775 107663.8196535294 + 1.016190490552 107675.7982575820 + 1.017706668413 107685.3305026275 + 1.019180352808 107692.4041308159 + 1.020612358379 107697.0419829388 + 1.022004444548 107699.2854214003 + 1.023358817637 107699.1843295497 + 1.024677838129 107696.7913073634 + 1.025963855063 107692.1584467313 + 1.027448447285 107683.8351276156 + 1.029081483245 107670.7958140116 + 1.030820628749 107652.1809720297 + 1.032632035000 107627.3117212584 + 1.034489643224 107595.6759082070 + 1.036373911771 107556.9022479922 + 1.038270456175 107510.7326182631 + 1.040168835489 107456.9972797065 + 1.042061561294 107395.5945750583 + 1.043943327715 107326.4750663789 + 1.045810430189 107249.6294509597 + 1.047660333960 107165.0794639229 + 1.049491356646 107072.8710476034 + 1.051302435750 106973.0692027704 + 1.053184100096 106860.0573533102 + 1.055791638695 106687.2651618496 + 1.058944125407 106452.3968850134 + 1.063140392045 106093.9174779016 + 1.068006425138 105609.9052820214 + 1.073257087489 105001.9723345375 + 1.078697783796 104274.8627004093 + 1.084202904576 103435.4760115859 + 1.090331644472 102375.2377637074 + 1.096789060022 101111.5807234211 + 1.103376523886 99664.2401141047 + 1.109760064813 98106.0806139236 + 1.115934019988 96450.3096636054 + 1.122058807118 94660.0705626177 + 1.128649506283 92565.6376441038 + 1.134981348138 90385.5888527742 + 1.141061823138 88133.6895744931 + 1.147292510184 85661.8181744160 + 1.154586515953 82552.6770018541 + 1.162465038532 78929.1505210773 + 1.172999067979 73649.4934340040 + 1.185549830812 66712.0134670100 + 1.199085930827 58464.4645172325 + 1.212557291290 49511.9123370028 + 1.225070008931 40553.6471425454 + 1.235894013369 32210.2819393610 + 1.244389135632 24905.4836541092 + 1.500000304900 148788.8683309308 + 1.501248418566 148820.4505628000 + 1.501392896460 148811.7974088168 + 1.501848075553 148813.3538281466 + 1.502639106257 148822.0740621423 + 1.503709342388 148834.8729412665 + 1.504998784001 148850.0629930261 + 1.506452783148 148866.4221276351 + 1.508019251965 148882.8520202340 + 1.509650866637 148898.3737737728 + 1.511308730340 148912.1945544956 + 1.512964158773 148923.7400457470 + 1.514598082513 148932.6379814891 + 1.516199096547 148938.6747234252 + 1.517761251945 148941.7478426188 + 1.519282182581 148941.8266946236 + 1.520761729390 148938.9239255813 + 1.522201011103 148933.0765051376 + 1.523601828878 148924.3337787600 + 1.524966299394 148912.7502434338 + 1.526296636117 148898.3813474411 + 1.527832209526 148877.8177013711 + 1.529520912845 148850.0119024343 + 1.531318702738 148814.0923992921 + 1.533190359430 148769.3780715864 + 1.535108787228 148715.3627631457 + 1.537053696356 148651.6873666444 + 1.539010184248 148578.1101506439 + 1.540967465526 148494.4803752010 + 1.542917833755 148400.7168057227 + 1.544855854687 148296.7910400113 + 1.546777757661 148182.7149110537 + 1.548680984297 148058.5310963385 + 1.550563857011 147924.3061495176 + 1.552425336663 147780.1253202248 + 1.554358458641 147617.9364296848 + 1.557035822030 147371.6401154436 + 1.560270503805 147039.2462004529 + 1.564572560313 146535.4746954215 + 1.569556321536 145859.5241820721 + 1.574928319087 145014.4181200794 + 1.580488738666 144006.6000182052 + 1.586108968318 142844.9695606644 + 1.592358880842 141378.5674851930 + 1.598936141767 139630.6739434252 + 1.605637671002 137627.8040928269 + 1.612123885775 135470.4808750699 + 1.618389787418 133177.1659705242 + 1.624598627498 130697.2243439614 + 1.631271777650 127796.1329997018 + 1.637674991524 124777.3796063753 + 1.643816752530 121660.5752362861 + 1.650102784463 118241.2379362858 + 1.657451992515 113943.2412654695 + 1.665378411971 108937.8168944796 + 1.675957210487 101650.1231779616 + 1.688531813578 92079.9543870286 + 1.702055711629 80704.8674745755 + 1.715470917285 68353.8875729541 + 1.727882078174 55987.4167918719 + 1.738559446039 44462.1262998632 + 1.746861355170 34367.0067112744 + 2.000000310449 184175.2395689931 + 2.001231620858 184199.5565038488 + 2.001371629791 184193.2564185988 + 2.001819460978 184196.4082325283 + 2.002599498517 184205.7909336524 + 2.003655982685 184218.6484710106 + 2.004930931038 184233.5155174308 + 2.006371922220 184249.2566723446 + 2.007928683470 184264.7839399255 + 2.009554857989 184279.0880408674 + 2.011211608205 184291.3279516578 + 2.012869676439 184300.8798492980 + 2.014509151650 184307.3304090164 + 2.016117787039 184310.4368218739 + 2.017688923146 184310.0787156420 + 2.019219648532 184306.2163449785 + 2.020709409614 184298.8594941672 + 2.022159050868 184288.0463422124 + 2.023570188619 184273.8299226633 + 2.024944818569 184256.2698122793 + 2.026285077714 184235.4272240546 + 2.027832042941 184206.5551227994 + 2.029533115858 184168.5224651014 + 2.031343816518 184120.3912917279 + 2.033228570583 184061.4322393283 + 2.035160014334 183991.1071877724 + 2.037117667243 183909.0383413260 + 2.039086498448 183814.9754803835 + 2.041055641574 183708.7669161764 + 2.043017343409 183590.3358987332 + 2.044966146844 183459.6623646608 + 2.046898274590 183316.7691969872 + 2.048811172343 183161.7120285201 + 2.050703173406 182994.5717176367 + 2.052573253655 182815.4487932767 + 2.054514866729 182614.3607302954 + 2.057203259389 182309.6298367865 + 2.060450151639 181899.2690809901 + 2.064766590404 181278.6446399617 + 2.069764403883 180447.4004403665 + 2.075148447910 179409.3933607652 + 2.080717963597 178172.2718587226 + 2.086343890533 176746.4741707470 + 2.092595970821 174946.0817450613 + 2.099170699965 172798.8893713426 + 2.105864469920 170336.8187826552 + 2.112338083542 167683.2270914392 + 2.118586945421 164861.0244009840 + 2.124774077985 161808.2627429850 + 2.131418429295 158236.6814337731 + 2.137788572050 154520.5023711299 + 2.143893511850 150684.4024969607 + 2.150136593340 146477.1679924423 + 2.157428707682 141190.6914241637 + 2.165285063119 135036.3366521317 + 2.175756237487 126078.3299811500 + 2.188180908502 114313.9435637829 + 2.201514458354 100320.0567964367 + 2.214705659057 85100.7001551484 + 2.226867152485 69825.9682198899 + 2.237275647199 55550.2401373028 + 2.245291529522 43009.8232937163 + 2.500000313616 214271.3781631895 + 2.501193629621 214289.1001538947 + 2.501336043524 214284.7366985961 + 2.501788420120 214288.9521561117 + 2.502570166469 214298.3674645248 + 2.503624186399 214310.5690961193 + 2.504893399174 214324.3001719661 + 2.506326305851 214338.5044166825 + 2.507873332854 214352.1156825970 + 2.509488680990 214364.1250887843 + 2.511133960481 214373.6865227756 + 2.512780253070 214380.1717054292 + 2.514407884811 214383.1652189742 + 2.516004761076 214382.4244217486 + 2.517564311728 214377.8307240795 + 2.519083671978 214369.3471343054 + 2.520562307748 214356.9866753778 + 2.522001066633 214340.7909333335 + 2.523401558708 214320.8163279200 + 2.524765768448 214297.1256984008 + 2.526095819308 214269.7833476404 + 2.527630939977 214232.7332069634 + 2.529318908371 214184.8260271003 + 2.531115563060 214125.1111729770 + 2.532985584759 214052.8520824157 + 2.534901806364 213967.5081762709 + 2.536843895088 213868.7029886098 + 2.538796929196 213756.1905160281 + 2.540750121981 213629.8254254717 + 2.542695777887 213489.5388902602 + 2.544628481215 213335.3199214439 + 2.546544484170 213167.2013356051 + 2.548441253230 212985.2493600853 + 2.550317136119 212789.5559791820 + 2.552171118491 212580.2332984631 + 2.554095838092 212345.6365998021 + 2.556760528284 211990.7466315237 + 2.559978294979 211513.7202752621 + 2.564255131597 210793.5900093461 + 2.569205768067 209830.6404286184 + 2.574537307409 208629.6111887087 + 2.580050562691 207199.2672934223 + 2.585617527675 205551.3867335145 + 2.591801418926 203470.7540277261 + 2.598301230948 200989.0715716776 + 2.604915150037 198142.8594244535 + 2.611307914389 195074.6156013436 + 2.617475187713 191811.0123791070 + 2.623577956657 188280.7676622991 + 2.630127586002 184151.0971676269 + 2.636402762416 179855.3956887621 + 2.642412751793 175422.7079802894 + 2.648554631811 170563.2963889391 + 2.655723112836 164460.4835291930 + 2.663439597335 157359.6326244589 + 2.673712983999 147029.0509843744 + 2.685885148909 133464.5469627411 + 2.698923448323 117319.9230376336 + 2.711792051031 99732.4684760786 + 2.723617514883 82033.5496535406 + 2.733686448723 65435.2628227235 + 2.741363445328 50798.9815861893 + 3.500000315462 260676.1305451767 + 3.501089513951 260682.3423142965 + 3.501249377665 260679.5053307694 + 3.501730995342 260682.3410217379 + 3.502536583825 260687.5165335164 + 3.503603883599 260693.4161277303 + 3.504875875916 260699.2205929870 + 3.506300498634 260704.1168644502 + 3.507827579682 260707.2368749387 + 3.509411749837 260707.7673694196 + 3.511016223955 260705.0496539399 + 3.512614346235 260698.6171661705 + 3.514188752144 260688.1795740321 + 3.515729321426 260673.5820493701 + 3.517230994624 260654.7624532288 + 3.518691979501 260631.7168187147 + 3.520112462168 260604.4750252030 + 3.521493750517 260573.0849885799 + 3.522837732922 260537.6029347737 + 3.524146548904 260498.0876766497 + 3.525422395517 260454.5974033123 + 3.526894837688 260397.9794997161 + 3.528513862606 260327.3424302921 + 3.530237211548 260241.9562108057 + 3.532031096168 260141.2633590042 + 3.533869520212 260024.8636524589 + 3.535733012690 259892.4883835534 + 3.537607267319 259743.9735002492 + 3.539481925549 259579.2359729228 + 3.541349581946 259398.2546984924 + 3.543205011297 259201.0557840252 + 3.545044585402 258987.7015029672 + 3.546865840466 258758.2821213938 + 3.548667159186 258512.9098806540 + 3.550447538233 258251.7145638026 + 3.552295914891 257960.2409069404 + 3.554854977921 257521.3142752300 + 3.557945207772 256934.2309566848 + 3.562052370245 256052.4505058799 + 3.566806072380 254879.0204575146 + 3.571924504478 253421.2729208363 + 3.577215859152 251690.3949802089 + 3.582556772523 249700.5344689564 + 3.588486750277 247191.9592729376 + 3.594715971185 244203.0578842057 + 3.601050118228 240777.5851207295 + 3.607167746214 237086.7966952029 + 3.613064793874 233162.7890858162 + 3.618895188161 228920.2889362103 + 3.625146644735 223960.5531209217 + 3.631130149136 218805.4773063674 + 3.636855032130 213490.7665899515 + 3.642699488167 207670.1995504885 + 3.649512785547 200368.7093829567 + 3.656836745248 191883.8684553196 + 3.666570326108 179555.8129132953 + 3.678074981442 163383.1882980368 + 3.690359194937 144125.9825462354 + 3.702431762430 123093.5871958979 + 3.713456070706 101822.8823090600 + 3.722743095472 81735.8083255827 + 3.729668855672 63876.1593298268 + 4.000000314854 277936.4771694632 + 4.001032370321 277937.8315551241 + 4.001205324258 277934.6334482224 + 4.001707486758 277935.1465265949 + 4.002530303386 277936.2794047508 + 4.003608735347 277936.8459587726 + 4.004885182749 277936.2594041539 + 4.006306451623 277933.8856687257 + 4.007821559907 277929.0412253986 + 4.009385397041 277921.1016727569 + 4.010962447522 277909.5799189779 + 4.012527816062 277894.1471522094 + 4.014065884064 277874.6116413505 + 4.015567984646 277850.8821599540 + 4.017030145601 277822.9332986501 + 4.018451332119 277790.7791466172 + 4.019832230523 277754.4555499951 + 4.021174463338 277714.0090169641 + 4.022480105758 277669.4901403819 + 4.023751398723 277620.9498868663 + 4.024990584930 277568.4376292757 + 4.026420704727 277501.1179094031 + 4.027993262421 277418.3358694882 + 4.029667301717 277319.5620833868 + 4.031410078535 277204.3998805335 + 4.033196392115 277072.5731781410 + 4.035007354266 276923.9066835718 + 4.036829072525 276758.3054724009 + 4.038651474112 276575.7371275471 + 4.040467345301 276376.2173625735 + 4.042271584930 276159.7989695400 + 4.044060640926 275926.5635366850 + 4.045832092060 275676.6153206605 + 4.047584340359 275410.0767312535 + 4.049316385921 275127.0849964449 + 4.051114740125 274812.0253614826 + 4.053604777997 274338.7662986525 + 4.056611952711 273707.4986885739 + 4.060609108601 272762.0935316745 + 4.065235833736 271507.5422023583 + 4.070217716217 269952.7766765535 + 4.075367832920 268110.2412495533 + 4.080565861142 265995.1085592325 + 4.086336537669 263331.6376570376 + 4.092397378547 260160.9824724704 + 4.098558920057 256529.5691987920 + 4.104508255847 252618.7407470872 + 4.110241392401 248462.2990685911 + 4.115907920811 243969.9151150202 + 4.121981500432 238719.7363517106 + 4.127792484819 233264.6630152133 + 4.133350097072 227642.6996311574 + 4.139021436534 221488.0266272899 + 4.145629762729 213770.8907763608 + 4.152729374379 204807.5305498846 + 4.162157855199 191791.2036377902 + 4.173290426298 174722.7746538840 + 4.185160617594 154396.6585804842 + 4.196802917901 132173.4886201639 + 4.207400893739 109649.2370380941 + 4.216278352002 88309.0840171025 + 4.222816936500 69258.4126729458 + 4.500000313541 291824.0896464256 + 4.500975084540 291821.2357233154 + 4.501163290940 291817.1012584147 + 4.501688227682 291814.5323393334 + 4.502529809479 291810.8087471448 + 4.503620411675 291805.1697987053 + 4.504901471018 291797.2706980688 + 4.506318259828 291786.6951702352 + 4.507818926131 291772.9916653305 + 4.509358889767 291755.7631109557 + 4.510904309105 291734.7172199817 + 4.512432408793 291709.6718496091 + 4.513929561991 291680.5336000697 + 4.515388695725 291647.2701071677 + 4.516806993324 291609.8865096458 + 4.518184203437 291568.4088516207 + 4.519521516405 291522.8735235332 + 4.520820862581 291473.3210202387 + 4.522084492780 291419.7924591124 + 4.523314736889 291362.3277668824 + 4.524513870984 291300.9648356280 + 4.525897806464 291223.2349155858 + 4.527419711265 291128.7503405651 + 4.529040050730 291017.2075985174 + 4.530727216467 290888.3908288858 + 4.532456870384 290742.1632830469 + 4.534210754891 290578.4542957951 + 4.535975424459 290397.2461255398 + 4.537741114418 290198.5625814492 + 4.539500817352 289982.4599431499 + 4.541249565283 289749.0200201088 + 4.542983887560 289498.3449695304 + 4.544701408159 289230.5534676814 + 4.546400549247 288945.7778848601 + 4.548080313920 288644.1621883389 + 4.549824591089 288309.1123925656 + 4.552240061782 287807.0277174707 + 4.555157596911 287139.0810959472 + 4.559036172755 286141.5559774828 + 4.563526244854 284821.5161170366 + 4.568361449573 283189.5284251337 + 4.573360171634 281259.2344915935 + 4.578405384317 279046.6916617158 + 4.584006114432 276263.8762698196 + 4.589887828311 272954.2571916302 + 4.595866305291 269166.3150267509 + 4.601637704152 265088.9343318006 + 4.607198068320 260757.0358955956 + 4.612692400974 256076.3423524575 + 4.618579665756 250607.5111827085 + 4.624210541178 244926.7088487984 + 4.629594079736 239073.6019039962 + 4.635085833880 232667.5941961693 + 4.641482264475 224637.7797408161 + 4.648350844666 215314.4316133414 + 4.657466587054 201780.2551933299 + 4.668219902077 184037.3051180663 + 4.679670738755 162903.9157896909 + 4.690879901269 139774.7174082311 + 4.701051124341 116283.8798943522 + 4.709520552405 93959.2973760424 + 4.715674710282 73952.1476843160 + 5.000000311664 302743.8905209676 + 5.000919011919 302737.4865176910 + 5.001124257288 302731.9965046426 + 5.001673297792 302725.8695310468 + 5.002534194122 302716.8577109884 + 5.003636997278 302704.6074766782 + 5.004921786630 302689.0267192597 + 5.006332029639 302669.9512892433 + 5.007815146817 302647.1940185224 + 5.009327508635 302620.6011447560 + 5.010837382942 302590.0749601790 + 5.012324411273 302555.5688757148 + 5.013777102843 302517.0733707716 + 5.015190019011 302474.6013436341 + 5.016561485662 302428.1774319960 + 5.017892001274 302377.8313243705 + 5.019183222701 302323.5939626666 + 5.020437353805 302265.4956023514 + 5.021656792046 302203.5649366947 + 5.022843932677 302137.8288022355 + 5.024001066254 302068.3121828781 + 5.025336625081 301981.0537780662 + 5.026805524870 301875.9364144862 + 5.028369717109 301752.8850182190 + 5.029998776158 301611.8664607736 + 5.031669259934 301452.8847969149 + 5.033363564638 301275.9750984304 + 5.035068707593 301081.1976079533 + 5.036775243012 300868.6328839880 + 5.038476376947 300638.3780382246 + 5.040167279216 300390.5439250831 + 5.041844563412 300125.2530776609 + 5.043505900276 299842.6381955210 + 5.045149732789 299542.8410260982 + 5.046775067101 299226.0115204294 + 5.048463063203 298874.7653238173 + 5.050800961536 298349.5510115087 + 5.053625300072 297652.5225542315 + 5.057380691486 296614.2621909986 + 5.061728960181 295243.8641718908 + 5.066412161831 293553.4490349012 + 5.071254231734 291557.7330608120 + 5.076141585935 289273.4968267074 + 5.081567093970 286403.8127037100 + 5.087264520052 282993.9800673696 + 5.093055097868 279093.9447990507 + 5.098644306030 274897.8504622156 + 5.104028198777 270441.2337040850 + 5.109347080232 265626.8613068507 + 5.115044994063 260002.8511836047 + 5.120493313922 254161.7580337566 + 5.125700869496 248144.3389780479 + 5.131011534940 241559.4159705905 + 5.137194899669 233306.6250492163 + 5.143831903102 223726.0116597879 + 5.152635349430 209820.6851643978 + 5.163011711431 191592.1237674492 + 5.174047708020 169873.1374601618 + 5.184830395365 146078.2501831081 + 5.194582939587 121863.5148061185 + 5.202652810226 98783.4810464260 + 5.208430237812 78022.2232104522 + 5.500000309330 311068.7498222587 + 5.500865007826 311059.4361500976 + 5.501088769306 311052.3191987001 + 5.501662519723 311042.4179340302 + 5.502542532088 311028.0241308767 + 5.503656771526 311009.1647583821 + 5.504943566405 310986.0118037376 + 5.506344463448 310958.6789353087 + 5.507806492969 310927.2568017888 + 5.509287502980 310891.8288065136 + 5.510758292784 310852.4700415077 + 5.512201133106 310809.2447932342 + 5.513606714913 310762.2045129609 + 5.514971191610 310711.3898472171 + 5.516293958933 310656.8326557564 + 5.517576191765 310598.5582025347 + 5.518819950713 310536.5869516165 + 5.520027663383 310470.9359583478 + 5.521201835836 310401.6198880453 + 5.522344900087 310328.6517499915 + 5.523459139800 310252.0434233419 + 5.524745344458 310156.5446307375 + 5.526160216149 310042.2919852841 + 5.527667218007 309909.4246498571 + 5.529237123183 309758.0809200692 + 5.530847395600 309588.3970583787 + 5.532481091644 309400.5075404302 + 5.534125695759 309194.5460124534 + 5.535772084030 308970.6464915193 + 5.537413678139 308728.9445442758 + 5.539045787298 308469.5783190903 + 5.540665110520 308192.6893884712 + 5.542269366166 307898.4234011513 + 5.543857018626 307586.9305622752 + 5.545427077491 307258.3659663912 + 5.547057932853 306894.7440982346 + 5.549317099622 306352.0563684883 + 5.552046892290 305633.3708674838 + 5.555677397318 304565.3094383164 + 5.559882032924 303158.8285871859 + 5.564411443233 301427.4361975878 + 5.569095225749 299386.7572708502 + 5.573823307258 297054.1233398547 + 5.579072316499 294126.7153003583 + 5.584584468795 290651.1707505963 + 5.590186540231 286678.3555172964 + 5.595593369774 282405.6640811377 + 5.600800994746 277868.8310629025 + 5.605945014943 272968.5516704147 + 5.611454655769 267244.7193230846 + 5.616721896301 261300.2649527168 + 5.621755299944 255176.5404965676 + 5.626887142446 248475.4088016287 + 5.632860721849 240077.0882815539 + 5.639270322895 230327.5820181166 + 5.647768133117 216176.7024282207 + 5.657777060239 197623.2410289313 + 5.668410408253 175506.0457980480 + 5.678780531802 151247.8712127245 + 5.688128923331 126513.8329628890 + 5.695812797838 102872.6389417404 + 5.701224499752 81530.8800015695 + 6.000000306624 317138.2208911313 + 6.000813620598 317126.5974880405 + 6.001057099415 317117.7120557734 + 6.001655567624 317104.0392988820 + 6.002553912801 317084.4439340173 + 6.003678171292 317059.3040543341 + 6.004964558611 317029.0661601645 + 6.006352766428 316994.1349869079 + 6.007789947990 316954.8720853716 + 6.009236009845 316911.5708168210 + 6.010664646015 316864.4442081314 + 6.012060868075 316813.6341271484 + 6.013417503586 316759.2279472323 + 6.014732191289 316701.2768390690 + 6.016005283787 316639.8091000023 + 6.017238535622 316574.8393466284 + 6.018434335723 316506.3743481731 + 6.019595279298 316434.4166313489 + 6.020723940203 316358.9666471564 + 6.021822757890 316280.0240540879 + 6.022893988137 316197.5884653017 + 6.024130751935 316095.3582999882 + 6.025491542943 315973.6945308433 + 6.026941333663 315832.9257666097 + 6.028452090465 315673.3420488476 + 6.030002177305 315495.1968681329 + 6.031575305779 315298.7130246867 + 6.033159423910 315084.0895287625 + 6.034745727437 314851.5080900587 + 6.036327852510 314601.1386178243 + 6.037901247315 314333.1436201892 + 6.039462696356 314047.6816000291 + 6.041009965982 313744.9096143261 + 6.042541542515 313424.9851680282 + 6.044056439578 313088.0675918816 + 6.045630284581 312715.7518254442 + 6.047810923330 312160.9869641814 + 6.050446455687 311427.6460858492 + 6.053952530030 310339.9603973715 + 6.058014183093 308910.5008327216 + 6.062390669068 307153.9449159136 + 6.066917262278 305086.6376143675 + 6.071487406630 302726.2892520666 + 6.076561690524 299766.8285579086 + 6.081890783627 296255.7561968490 + 6.087306995586 292244.3683610013 + 6.092534398137 287931.5762957581 + 6.097568990649 283352.9740889735 + 6.102541736407 278407.9659545526 + 6.107867392219 272631.9393707806 + 6.112958106192 266633.0291059968 + 6.117822126366 260452.7633303864 + 6.122780511838 253689.1460947582 + 6.128550959198 245211.5477488200 + 6.134741055690 235368.5904629318 + 6.142944810532 221079.0634051551 + 6.152601541638 202336.9254924404 + 6.162850394301 179979.6321297575 + 6.172827659470 155428.4512523479 + 6.181791213025 130347.3992856083 + 6.189106349799 106309.5955565450 + 6.194165449998 84535.8495987086 + 6.500000303607 321258.4584627404 + 6.500765169260 321245.0698466966 + 6.501029305535 321234.3825210016 + 6.501651997775 321217.1136015881 + 6.502567421552 321192.7034873508 + 6.503699731900 321161.8530282780 + 6.504982744474 321125.2900028280 + 6.506354562189 321083.7081151748 + 6.507763115049 321037.7132234847 + 6.509170944699 320987.7663645814 + 6.510554907210 320934.1759953331 + 6.511902760853 320877.1269986561 + 6.513209347623 320816.7201677310 + 6.514473639515 320753.0028358305 + 6.515696809862 320685.9919457808 + 6.516881085956 320615.6877714627 + 6.518029106271 320542.0821818400 + 6.519143577469 320465.1634104499 + 6.520227101859 320384.9187176778 + 6.521282099016 320301.3358287339 + 6.522310777975 320214.4036693668 + 6.523498668021 320107.0170460231 + 6.524806035241 319979.7253183395 + 6.526199339605 319833.0163293960 + 6.527651720264 319667.3079023266 + 6.529142424432 319482.9524887853 + 6.530655806365 319280.2476659802 + 6.532180268934 319059.4479466262 + 6.533707321874 318820.7756443105 + 6.535230812418 318564.4299572474 + 6.536746325947 318290.5941683463 + 6.538250731759 317999.4411724248 + 6.539741844183 317691.1376336993 + 6.541218171904 317365.8470692637 + 6.542678733246 317023.7321102252 + 6.544196436038 316646.1360392051 + 6.546299769234 316084.2612535369 + 6.548842554437 315342.6549111331 + 6.552226282623 314244.5412557129 + 6.556147487916 312803.8187184428 + 6.560373946754 311036.0943855704 + 6.564746553334 308958.2392505095 + 6.569162228680 306588.1793124843 + 6.574065937666 303618.8642024605 + 6.579216696791 300098.2188598911 + 6.584452261641 296077.5430348933 + 6.589505684504 291755.7932190760 + 6.594372892643 287168.1551921551 + 6.599180347198 282213.4227232595 + 6.604328891161 276425.6458785829 + 6.609250094356 270413.7796288853 + 6.613951866507 264219.1817215979 + 6.618744470381 257438.6313118410 + 6.624321356487 248937.9017383556 + 6.630302854861 239065.3886751930 + 6.638228086585 224727.6508368623 + 6.647552522797 205911.8382270609 + 6.657439771634 183447.5910706409 + 6.667048227926 158746.5750028726 + 6.675650071573 133463.5657690711 + 6.682616320863 109168.4541494378 + 6.687337032281 87089.6358184942 + 7.000000300330 323703.1381926584 + 7.000719826282 323688.4651122376 + 7.001005303691 323676.0284027575 + 7.001651304315 323655.4654913367 + 7.002582162198 323626.7704137840 + 7.003720088247 323590.9414159273 + 7.004996333692 323548.9876244503 + 7.006347884233 323501.8729033587 + 7.007724190071 323450.4044133971 + 7.009090942916 323395.1600134259 + 7.010428308465 323336.5000667442 + 7.011726698088 323274.6232245031 + 7.012982787489 323209.6242948999 + 7.014196702851 323141.5370486206 + 7.015370293167 323070.3633757436 + 7.016506151231 322996.0876861944 + 7.017607089388 322918.6875039298 + 7.018675873669 322838.1382358044 + 7.019715099497 322754.4158346503 + 7.020727142815 322667.4981127340 + 7.021714150066 322577.3653134684 + 7.022854211447 322466.3485067099 + 7.024109328837 322335.1475951888 + 7.025447414157 322184.3779187337 + 7.026842748851 322014.5599029855 + 7.028275439468 321826.1257375752 + 7.029730465406 321619.4334828075 + 7.031196672267 321394.7827159877 + 7.032665875852 321152.4288281698 + 7.034132129605 320892.5949290732 + 7.035591153375 320615.4812615264 + 7.037039899977 320321.2724218325 + 7.038476231405 320010.1427933638 + 7.039898678987 319682.2605850983 + 7.041306266394 319337.7908060422 + 7.042769252011 318957.9752757359 + 7.044797274771 318393.4207549657 + 7.047249762231 317649.2114830542 + 7.050514479828 316548.7580842788 + 7.054299231270 315106.9915123439 + 7.058380148193 313340.2080622732 + 7.062603627987 311265.6189281350 + 7.066869992516 308901.2179694372 + 7.071609178451 305940.9007825844 + 7.076588350743 302432.6268079531 + 7.081650562306 298427.3375585180 + 7.086537482508 294122.8075557602 + 7.091244930997 289553.6069339516 + 7.095895045371 284618.5052973825 + 7.100875464727 278852.8843148320 + 7.105636221408 272862.8559670572 + 7.110184837210 266689.3267932751 + 7.114821366193 259930.0658532581 + 7.120216548532 251453.3458887175 + 7.126002836809 241604.9529549763 + 7.133668348898 227295.0068380241 + 7.142684094704 208502.1658941919 + 7.152236485103 186042.8070164940 + 7.161503732600 161312.2292498978 + 7.169769685859 135949.3948355581 + 7.176408584565 111514.9208863623 + 7.180805316684 89239.4707121250 + 7.500000296829 324715.1115806433 + 7.500677679663 324699.5680390192 + 7.500984925390 324685.4995450079 + 7.501652965282 324662.0302952781 + 7.502597281026 324629.6678953919 + 7.503737989670 324589.6857789751 + 7.505003780881 324543.3650261823 + 7.506331185151 324491.9047485022 + 7.507671943267 324436.2592422662 + 7.508995302367 324377.0706939928 + 7.510284757619 324314.7128575818 + 7.511533196317 324249.3743885271 + 7.512738908849 324181.1322704969 + 7.513902985759 324110.0019439422 + 7.515027808590 324035.9675694752 + 7.516116234796 323958.9986706850 + 7.517171182005 323879.0611262782 + 7.518195429895 323796.1193793109 + 7.519191536923 323710.1404401847 + 7.520161815839 323621.0945084117 + 7.521108337968 323528.9553015758 + 7.522201962800 323415.7104398921 + 7.523406379095 323282.1738685693 + 7.524690905994 323129.0578284177 + 7.526030930145 322956.9610565108 + 7.527407388908 322766.3769012233 + 7.528805866125 322557.7100535272 + 7.530215635836 322331.2950069028 + 7.531628810481 322087.4128871189 + 7.533039643821 321826.3054528047 + 7.534443986750 321548.1861655416 + 7.535838873856 321253.2486846835 + 7.537222214169 320941.6732682397 + 7.538592561743 320613.6315407509 + 7.539948946124 320269.2900166078 + 7.541359067082 319889.9195613166 + 7.543314371219 319326.5263089486 + 7.545679738763 318584.5994226689 + 7.548829763392 317488.7436402627 + 7.552483212036 316054.6409824389 + 7.556424341315 314299.0516033522 + 7.560504895498 312239.3577370533 + 7.564628491072 309893.4922352493 + 7.569210769164 306957.9003827086 + 7.574026777485 303480.2416037154 + 7.578924666071 299510.8009282862 + 7.583654264009 295245.1651169580 + 7.588211240379 290717.1319218050 + 7.592713625677 285825.9452740152 + 7.597536703822 280110.5404305853 + 7.602147799980 274171.1690684888 + 7.606554002829 268048.0625224186 + 7.611045848695 261341.8252034389 + 7.616273121495 252928.3123606759 + 7.621879684667 243148.7440563327 + 7.629306980396 228930.0067035538 + 7.638040747407 210240.9285635244 + 7.647288165544 187880.1006977260 + 7.656244392762 163220.8543811410 + 7.664202266185 137880.9910064235 + 7.670536101307 113407.0357892283 + 7.674622634003 91027.6222135827 + 8.000000293136 324508.5405061960 + 8.000638659444 324492.4759810733 + 8.000967843092 324476.9397569700 + 8.001656359096 324451.0019384658 + 8.002611868938 324415.6322402929 + 8.003752201574 324372.3589821844 + 8.005003690757 324322.7144632378 + 8.006303228252 324268.0846333302 + 8.007605576130 324209.5119570250 + 8.008883800057 324147.6548094501 + 8.010124623898 324082.8699836288 + 8.011323171759 324015.3203688451 + 8.012479110838 323945.0585626322 + 8.013594308432 323872.0798108471 + 8.014671545057 323796.3522807079 + 8.015713852473 323717.8334087203 + 8.016724194165 323636.4783092990 + 8.017705325059 323552.2433881518 + 8.018659742195 323465.0902171034 + 8.019589679836 323374.9832351900 + 8.020497124877 323281.8917324037 + 8.021545955205 323167.6538768162 + 8.022701489220 323033.1644829704 + 8.023934402545 322879.2048812102 + 8.025221145802 322706.4300129752 + 8.026543455790 322515.3774407514 + 8.027887498135 322306.4858165514 + 8.029242959633 322080.1152371317 + 8.030602238941 321836.5658006565 + 8.031959783505 321576.0930512761 + 8.033311571286 321298.9202018370 + 8.034654716484 321005.2475252503 + 8.035987174199 320695.2594430328 + 8.037307521042 320369.1298172514 + 8.038614792747 320027.0258727513 + 8.039974237507 319650.3579267046 + 8.041859887279 319091.3698554471 + 8.044141894711 318355.8352948810 + 8.047182336972 317270.3864361875 + 8.050710579258 315851.2018351395 + 8.054518725587 314115.3043413581 + 8.058463675700 312080.0997081419 + 8.062452206337 309763.3514472884 + 8.066886521507 306865.3677587911 + 8.071549223732 303433.2304220052 + 8.076293309939 299516.3293807049 + 8.080876235572 295307.2540445797 + 8.085293463043 290838.9147780549 + 8.089659165525 286011.4479783627 + 8.094337234729 280369.1697552117 + 8.098810942524 274504.0226278137 + 8.103086895749 268455.3876160941 + 8.107446879678 261828.2261909087 + 8.112521761798 253510.1735179853 + 8.117965784817 243836.3184298224 + 8.125178623916 229761.2834039210 + 8.133659622810 211243.0859322050 + 8.142634267020 189058.8656455236 + 8.151311666353 164555.3809492841 + 8.158990330982 139324.9237984199 + 8.165041498013 114896.0455321124 + 8.168830183563 92491.8571667939 + 8.500000289275 323271.2902440365 + 8.500602777585 323254.9924759715 + 8.500953811520 323238.1829961077 + 8.501660997724 323210.2356296442 + 8.502625186467 323172.5251122602 + 8.503761735144 323126.8141944417 + 8.504995049331 323074.8537651783 + 8.506263297855 323018.1590645228 + 8.507524893471 322957.8032624868 + 8.508756827132 322894.4214078830 + 8.509948848788 322828.3324864865 + 8.511098041813 322759.6651709360 + 8.512205210108 322688.4458757572 + 8.513272821693 322614.6509734382 + 8.514303936603 322538.2352204404 + 8.515301683028 322459.1464511317 + 8.516269020722 322377.3327776721 + 8.517208648842 322292.7458999297 + 8.518122983989 322205.3424016561 + 8.519014170618 322115.0840461691 + 8.519884104775 322021.9369916862 + 8.520889961400 321907.7559886848 + 8.521998625913 321773.4873602971 + 8.523182076019 321619.9573581307 + 8.524417782636 321447.8578856786 + 8.525688248989 321257.7559352141 + 8.526980198659 321050.1130320205 + 8.528283714644 320825.3066979159 + 8.529591470695 320583.6500433368 + 8.530898100744 320325.4080959305 + 8.532199705354 320050.8107426909 + 8.533493475750 319760.0626912368 + 8.534777411783 319453.3510036075 + 8.536050112117 319130.8507337168 + 8.537310618712 318792.7291173514 + 8.538621848283 318420.6269383526 + 8.540441294543 317868.7147230564 + 8.542644182721 317142.9455281825 + 8.545580816243 316072.6533047822 + 8.548990748790 314674.2925640671 + 8.552673617658 312964.9763630785 + 8.556491251718 310962.0102675295 + 8.560353435859 308682.9002548465 + 8.564649897502 305832.8735208269 + 8.569170411984 302458.2113662348 + 8.573772535429 298607.2236075844 + 8.578220735421 294468.8641191822 + 8.582510205500 290075.0743753282 + 8.586751534264 285327.2292225056 + 8.591298283788 279776.5079730491 + 8.595648169604 274004.5890091822 + 8.599807263903 268049.8684884430 + 8.604049476960 261522.9038737317 + 8.608988808084 253326.5497330101 + 8.614288990310 243788.5248091572 + 8.621312966438 229900.2455707723 + 8.629572363268 211608.2721235855 + 8.638308198971 189665.3983361027 + 8.646740140007 165388.0787418510 + 8.654168838087 140339.5582597097 + 8.659958949121 116027.2723261394 + 8.663459912507 93665.9449764887 + 9.000000285266 321167.4237459246 + 9.000569921993 321151.1253676480 + 9.000942464666 321133.2541353934 + 9.001666315811 321103.7549441143 + 9.002636449741 321064.3492916783 + 9.003765640518 321017.0114916746 + 9.004977013719 320963.6675053586 + 9.006210961783 320905.9005378339 + 9.007430027955 320844.7638318015 + 9.008615082984 320780.8404136346 + 9.009758624215 320714.3997909058 + 9.010859400356 320645.5340005373 + 9.011919122401 320574.2449230956 + 9.012940700535 320500.4931464080 + 9.013927371171 320424.2233836629 + 9.014882293985 320345.3770537024 + 9.015808384983 320263.8981210823 + 9.016708263424 320179.7355570873 + 9.017584251358 320092.8441111799 + 9.018438395579 320003.1842811471 + 9.019272497351 319910.7219295095 + 9.020237328736 319797.4617294835 + 9.021301276366 319664.3785458829 + 9.022437563604 319512.3233275321 + 9.023624636726 319342.0080378114 + 9.024845731502 319154.0181247914 + 9.026088104984 318948.8279402152 + 9.027342219243 318726.8255081982 + 9.028601011481 318488.3318873339 + 9.029859294414 318233.6179200558 + 9.031113286276 317962.9175345025 + 9.032360252288 317676.4380039432 + 9.033598235309 317374.3677231094 + 9.034825855177 317056.8820413667 + 9.036042159745 316724.1476101106 + 9.037307865320 316358.1087530997 + 9.039064888284 315815.4142475422 + 9.041193311995 315102.1083079574 + 9.044032487150 314050.7594524844 + 9.047331710265 312677.9139179263 + 9.050897803820 311000.6324449169 + 9.054597277298 309036.0200466625 + 9.058342744591 306801.2562256943 + 9.062512512078 304007.3190324226 + 9.066903096345 300699.5167850216 + 9.071376281865 296924.9413358908 + 9.075702867770 292868.4196021049 + 9.079877702383 288560.8696903858 + 9.084008084402 283905.1865291847 + 9.088438393745 278460.5971764608 + 9.092679146148 272796.9842015671 + 9.096735822330 266951.6580875775 + 9.100875361130 260541.7697193540 + 9.105697195445 252488.1694232868 + 9.110873392895 243110.2630521964 + 9.117735512619 229443.6659149462 + 9.125805871401 211423.1349880049 + 9.134337898332 189774.9090383640 + 9.142558196837 165782.1650449387 + 9.149765735606 140976.2436575006 + 9.155314832235 116840.9125186275 + 9.158535174249 94580.1436121679 + 9.500000281127 318339.6683938504 + 9.500540000320 318323.5530078554 + 9.500933463399 318304.8376908659 + 9.501671810767 318274.2262912829 + 9.502644971461 318233.7306427210 + 9.503763155008 318185.5094357756 + 9.504949050673 318131.6117867086 + 9.506146178450 318073.6293097848 + 9.507321512928 318012.5551450468 + 9.508459625798 317948.9027001173 + 9.509555434973 317882.8880783427 + 9.510609062564 317814.5686396092 + 9.511622916180 317743.9255173671 + 9.512600210071 317670.9074704438 + 9.513544270604 317595.4527375450 + 9.514458236346 317517.4993820274 + 9.515344948298 317436.9898002066 + 9.516206927792 317353.8724024137 + 9.517046392419 317268.1019312857 + 9.517865286387 317179.6391688664 + 9.518665314262 317088.4504005827 + 9.519591160981 316976.7994552256 + 9.520612646953 316845.6697618315 + 9.521704183898 316695.9206222094 + 9.522845148007 316528.2725227200 + 9.524019473356 316343.3163527878 + 9.525214925612 316141.5330518102 + 9.526422328380 315923.3146295765 + 9.527634870220 315688.9875515433 + 9.528847534444 315438.8246718873 + 9.530056651533 315173.0617802574 + 9.531259557183 314891.9071642388 + 9.532454335047 314595.5494646463 + 9.533639624790 314284.1635828238 + 9.534814479403 313957.9150954895 + 9.536037555446 313599.1088665913 + 9.537736228383 313067.3011194761 + 9.539795213745 312368.5555780375 + 9.542543802631 311339.0848569080 + 9.545740558066 309995.3782926641 + 9.549199110740 308354.3305712663 + 9.552790374653 306432.7678457433 + 9.556429593271 304247.4912975751 + 9.560484790594 301515.8691679448 + 9.564758742583 298282.1089100874 + 9.569117093012 294591.9867301357 + 9.573336221091 290625.8356585474 + 9.577410546336 286413.5168945172 + 9.581444388433 281859.6711774967 + 9.585774161696 276532.5019384272 + 9.589921415642 270988.9237011716 + 9.593890979801 265265.0886534523 + 9.597943787220 258985.5296628483 + 9.602667066881 251091.3060985471 + 9.607740000209 241892.8124662270 + 9.614468225894 228475.8517537648 + 9.622382897264 210763.2890823957 + 9.630746519184 189453.1917441713 + 9.638788530119 165793.1552531155 + 9.645802420804 141280.3252583947 + 9.651128143395 117372.7332796990 + 9.654071130874 95261.6368391561 + 10.000000276870 314911.7823863074 + 10.000512815205 314895.9921255218 + 10.000926374690 314876.6480025751 + 10.001676915186 314845.3340587736 + 10.002650037333 314804.2995085004 + 10.003753584697 314755.8547776082 + 10.004910802118 314702.1154611649 + 10.006069129910 314644.6286734345 + 10.007200087434 314584.2994203856 + 10.008291663619 314521.5638266254 + 10.009340848233 314456.5864598915 + 10.010348860592 314389.3947082667 + 10.011318618517 314319.9537796343 + 10.012253523430 314248.2047459744 + 10.013156921133 314174.0827416201 + 10.014031887684 314097.5251806570 + 10.014881165478 314018.4750714611 + 10.015707165057 313936.8820371911 + 10.016511993145 313852.7022739170 + 10.017297488784 313765.8980647132 + 10.018065259522 313676.4371434813 + 10.018954230724 313566.9257086475 + 10.019935588608 313438.3406262319 + 10.020984875813 313291.5367921853 + 10.022082352980 313127.2322134784 + 10.023212618153 312946.0167394974 + 10.024363920531 312748.3711857248 + 10.025527427365 312534.6887546895 + 10.026696566014 312305.2947649975 + 10.027866481689 312060.4632167315 + 10.029033611142 311800.4300134070 + 10.030195356466 311525.4022539951 + 10.031349839341 311235.5697937326 + 10.032495717388 310931.1056004532 + 10.033632047466 310612.1737857050 + 10.034815575809 310261.4827320219 + 10.036460243450 309741.8188832767 + 10.038455162233 309059.2092817855 + 10.041120524658 308053.8147415419 + 10.044223655381 306741.9519622092 + 10.047584587593 305140.2621298541 + 10.051078336438 303265.2339372181 + 10.054622555636 301133.2531296333 + 10.058576196060 298468.5544157948 + 10.062747764613 295314.1546252950 + 10.067006349234 291714.4502763296 + 10.071133100706 287845.0172251515 + 10.075121910917 283734.6428645371 + 10.079074445534 279289.8906937682 + 10.083320427113 274088.6517396954 + 10.087390565631 268674.0025650632 + 10.091288979602 263080.8871794199 + 10.095271598516 256941.8315360850 + 10.099915865966 249219.8353345232 + 10.104906767786 240215.7889839192 + 10.111529500236 227070.4573198773 + 10.119321941589 209694.9367759593 + 10.127552000935 188758.0212378595 + 10.135447897504 165469.9863418926 + 10.142293466962 141291.9936007719 + 10.147410222193 117654.6659697748 + 10.150074518798 95734.9141430506 + 10.000000276870 314911.7823863076 + 10.000512815205 314895.9921255215 + 10.000926374690 314876.6480025747 + 10.001676915186 314845.3340587734 + 10.002650037333 314804.2995085001 + 10.003753584697 314755.8547776083 + 10.004910802118 314702.1154611650 + 10.006069129910 314644.6286734342 + 10.007200087434 314584.2994203854 + 10.008291663619 314521.5638266252 + 10.009340848233 314456.5864598911 + 10.010348860592 314389.3947082661 + 10.011318618517 314319.9537796340 + 10.012253523430 314248.2047459740 + 10.013156921133 314174.0827416198 + 10.014031887684 314097.5251806567 + 10.014881165478 314018.4750714606 + 10.015707165057 313936.8820371908 + 10.016511993145 313852.7022739168 + 10.017297488784 313765.8980647131 + 10.018065259522 313676.4371434811 + 10.018954230724 313566.9257086474 + 10.019935588608 313438.3406262317 + 10.020984875813 313291.5367921853 + 10.022082352980 313127.2322134784 + 10.023212618153 312946.0167394971 + 10.024363920531 312748.3711857244 + 10.025527427365 312534.6887546894 + 10.026696566014 312305.2947649972 + 10.027866481689 312060.4632167311 + 10.029033611142 311800.4300134067 + 10.030195356466 311525.4022539945 + 10.031349839341 311235.5697937322 + 10.032495717388 310931.1056004530 + 10.033632047466 310612.1737857049 + 10.034815575809 310261.4827320214 + 10.036460243450 309741.8188832762 + 10.038455162233 309059.2092817852 + 10.041120524658 308053.8147415418 + 10.044223655294 306741.9519594406 + 10.047584587603 305140.2621262015 + 10.051078337420 303265.2338876810 + 10.054622555644 301133.2531261555 + 10.058576195781 298468.5544253813 + 10.062747764755 295314.1546305182 + 10.067006349235 291714.4502768162 + 10.071133100648 287845.0172350177 + 10.075121911064 283734.6428637058 + 10.079074445621 279289.8906964209 + 10.083320427261 274088.6517389960 + 10.087390565826 268674.0025655935 + 10.091288979743 263080.8872075949 + 10.095271598703 256941.8315388504 + 10.099915866114 249219.8353374007 + 10.104906741990 240215.7902301623 + 10.111529500382 227070.4573220819 + 10.119321941732 209694.9367777381 + 10.127552001064 188758.0212544825 + 10.135447897649 165469.9863537295 + 10.142293467105 141291.9936100286 + 10.147410222329 117654.6659864099 + 10.150074518942 95734.9141554604 diff --git a/mytest/anh_P_NaCl.out b/mytest/anh_P_NaCl.out index e056f48c..74902f2e 100644 --- a/mytest/anh_P_NaCl.out +++ b/mytest/anh_P_NaCl.out @@ -148,10 +148,10 @@ Anhydrite 0.00 -5.37 -5.37 1.000e+01 9.995e+00 -5.267e-03 pH = 6.933 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3371 + Specific Conductance (µS/cm, 100°C) = 3370 Density (g/cm³) = 0.95906 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28317 + Viscosity (mPa s) = 0.28338 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.107e-02 Mass of water (kg) = 1.000e+00 @@ -233,10 +233,10 @@ Anhydrite 0.00 -5.37 -5.37 9.995e+00 9.987e+00 -7.383e-03 pH = 6.829 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 59571 + Specific Conductance (µS/cm, 100°C) = 59541 Density (g/cm³) = 0.96790 Volume (L) = 1.04702 - Viscosity (mPa s) = 0.28419 + Viscosity (mPa s) = 0.28452 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.506e-01 Mass of water (kg) = 1.000e+00 @@ -327,10 +327,10 @@ Anhydrite 0.00 -5.37 -5.37 9.987e+00 9.984e+00 -3.814e-03 pH = 6.795 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 108256 + Specific Conductance (µS/cm, 100°C) = 108182 Density (g/cm³) = 0.97602 Volume (L) = 1.05081 - Viscosity (mPa s) = 0.28501 + Viscosity (mPa s) = 0.28546 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.659e-01 Mass of water (kg) = 1.000e+00 @@ -421,10 +421,10 @@ Anhydrite 0.00 -5.37 -5.37 9.984e+00 9.981e+00 -2.814e-03 pH = 6.774 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 154210 + Specific Conductance (µS/cm, 100°C) = 154084 Density (g/cm³) = 0.98385 Volume (L) = 1.05472 - Viscosity (mPa s) = 0.28564 + Viscosity (mPa s) = 0.28617 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.771e-01 Mass of water (kg) = 1.000e+00 @@ -515,10 +515,10 @@ Anhydrite 0.00 -5.37 -5.37 9.981e+00 9.978e+00 -2.231e-03 pH = 6.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 198332 + Specific Conductance (µS/cm, 100°C) = 198148 Density (g/cm³) = 0.99148 Volume (L) = 1.05871 - Viscosity (mPa s) = 0.28615 + Viscosity (mPa s) = 0.28676 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.860e-01 Mass of water (kg) = 1.000e+00 @@ -609,10 +609,10 @@ Anhydrite 0.00 -5.37 -5.37 9.978e+00 9.977e+00 -1.820e-03 pH = 6.747 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 241015 + Specific Conductance (µS/cm, 100°C) = 240767 Density (g/cm³) = 0.99892 Volume (L) = 1.06276 - Viscosity (mPa s) = 0.28659 + Viscosity (mPa s) = 0.28726 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.093e+00 Mass of water (kg) = 1.000e+00 @@ -703,10 +703,10 @@ Anhydrite 0.00 -5.37 -5.37 9.977e+00 9.973e+00 -3.268e-03 pH = 6.725 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 342657 + Specific Conductance (µS/cm, 100°C) = 342231 Density (g/cm³) = 1.01691 Volume (L) = 1.07314 - Viscosity (mPa s) = 0.28746 + Viscosity (mPa s) = 0.28827 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.606e+00 Mass of water (kg) = 1.000e+00 @@ -797,10 +797,10 @@ Anhydrite 0.00 -5.37 -5.37 9.973e+00 9.971e+00 -1.954e-03 pH = 6.710 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 438288 + Specific Conductance (µS/cm, 100°C) = 437662 Density (g/cm³) = 1.03414 Volume (L) = 1.08377 - Viscosity (mPa s) = 0.28813 + Viscosity (mPa s) = 0.28905 Activity of water = 0.931 Ionic strength (mol/kgw) = 2.114e+00 Mass of water (kg) = 1.000e+00 @@ -891,10 +891,10 @@ Anhydrite 0.00 -5.37 -5.37 9.971e+00 9.970e+00 -1.027e-03 pH = 6.697 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 528771 + Specific Conductance (µS/cm, 100°C) = 527932 Density (g/cm³) = 1.05072 Volume (L) = 1.09462 - Viscosity (mPa s) = 0.28864 + Viscosity (mPa s) = 0.28966 Activity of water = 0.912 Ionic strength (mol/kgw) = 2.618e+00 Mass of water (kg) = 1.000e+00 @@ -985,10 +985,10 @@ Anhydrite 0.00 -5.37 -5.37 9.970e+00 9.970e+00 -3.602e-04 pH = 6.686 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 614641 + Specific Conductance (µS/cm, 100°C) = 613577 Density (g/cm³) = 1.06672 Volume (L) = 1.10564 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.29017 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.120e+00 Mass of water (kg) = 1.000e+00 @@ -1079,10 +1079,10 @@ Anhydrite 0.00 -5.37 -5.37 9.970e+00 9.970e+00 1.127e-04 pH = 6.674 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 696276 + Specific Conductance (µS/cm, 100°C) = 694977 Density (g/cm³) = 1.08221 Volume (L) = 1.11680 - Viscosity (mPa s) = 0.28940 + Viscosity (mPa s) = 0.29059 Activity of water = 0.873 Ionic strength (mol/kgw) = 3.619e+00 Mass of water (kg) = 1.000e+00 @@ -1173,10 +1173,10 @@ Anhydrite 0.00 -5.37 -5.37 9.970e+00 9.971e+00 4.374e-04 pH = 6.662 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 773969 + Specific Conductance (µS/cm, 100°C) = 772429 Density (g/cm³) = 1.09722 Volume (L) = 1.12810 - Viscosity (mPa s) = 0.28968 + Viscosity (mPa s) = 0.29096 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.118e+00 Mass of water (kg) = 1.000e+00 @@ -1267,10 +1267,10 @@ Anhydrite 0.00 -5.37 -5.37 9.971e+00 9.971e+00 6.485e-04 pH = 6.649 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 847961 + Specific Conductance (µS/cm, 100°C) = 846174 Density (g/cm³) = 1.11180 Volume (L) = 1.13950 - Viscosity (mPa s) = 0.28994 + Viscosity (mPa s) = 0.29128 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.615e+00 Mass of water (kg) = 1.000e+00 @@ -1361,10 +1361,10 @@ Anhydrite 0.00 -5.37 -5.37 9.971e+00 9.972e+00 7.732e-04 pH = 6.634 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 918455 + Specific Conductance (µS/cm, 100°C) = 916417 Density (g/cm³) = 1.12598 Volume (L) = 1.15102 - Viscosity (mPa s) = 0.29016 + Viscosity (mPa s) = 0.29158 Activity of water = 0.811 Ionic strength (mol/kgw) = 5.112e+00 Mass of water (kg) = 1.000e+00 @@ -1455,10 +1455,10 @@ Anhydrite 0.00 -5.37 -5.37 9.972e+00 9.973e+00 8.329e-04 pH = 6.617 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 985631 + Specific Conductance (µS/cm, 100°C) = 983340 Density (g/cm³) = 1.13978 Volume (L) = 1.16262 - Viscosity (mPa s) = 0.29037 + Viscosity (mPa s) = 0.29185 Activity of water = 0.790 Ionic strength (mol/kgw) = 5.609e+00 Mass of water (kg) = 1.000e+00 @@ -1549,10 +1549,10 @@ Anhydrite 0.00 -5.37 -5.37 9.973e+00 9.974e+00 8.444e-04 pH = 6.598 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1049649 + Specific Conductance (µS/cm, 100°C) = 1047103 Density (g/cm³) = 1.15322 Volume (L) = 1.17431 - Viscosity (mPa s) = 0.29057 + Viscosity (mPa s) = 0.29212 Activity of water = 0.769 Ionic strength (mol/kgw) = 6.105e+00 Mass of water (kg) = 1.000e+00 @@ -1660,10 +1660,10 @@ Anhydrite 0.00 -5.03 -5.03 1.000e+01 9.990e+00 -9.850e-03 pH = 6.739 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 5921 + Specific Conductance (µS/cm, 100°C) = 5918 Density (g/cm³) = 0.98165 Volume (L) = 1.02006 - Viscosity (mPa s) = 0.29730 + Viscosity (mPa s) = 0.29761 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.940e-02 Mass of water (kg) = 1.000e+00 @@ -1747,10 +1747,10 @@ Anhydrite 0.00 -5.04 -5.04 9.990e+00 9.981e+00 -9.011e-03 pH = 6.661 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 62069 + Specific Conductance (µS/cm, 100°C) = 62035 Density (g/cm³) = 0.99048 Volume (L) = 1.02400 - Viscosity (mPa s) = 0.29830 + Viscosity (mPa s) = 0.29867 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.754e-01 Mass of water (kg) = 1.000e+00 @@ -1843,10 +1843,10 @@ Anhydrite 0.00 -5.05 -5.05 9.981e+00 9.977e+00 -4.621e-03 pH = 6.633 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 110199 + Specific Conductance (µS/cm, 100°C) = 110122 Density (g/cm³) = 0.99850 Volume (L) = 1.02812 - Viscosity (mPa s) = 0.29921 + Viscosity (mPa s) = 0.29970 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.939e-01 Mass of water (kg) = 1.000e+00 @@ -1939,10 +1939,10 @@ Anhydrite 0.00 -5.05 -5.05 9.977e+00 9.973e+00 -3.308e-03 pH = 6.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 155417 + Specific Conductance (µS/cm, 100°C) = 155288 Density (g/cm³) = 1.00619 Volume (L) = 1.03232 - Viscosity (mPa s) = 0.29990 + Viscosity (mPa s) = 0.30047 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.072e-01 Mass of water (kg) = 1.000e+00 @@ -2035,10 +2035,10 @@ Anhydrite 0.00 -5.06 -5.06 9.973e+00 9.971e+00 -2.545e-03 pH = 6.605 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 198689 + Specific Conductance (µS/cm, 100°C) = 198504 Density (g/cm³) = 1.01366 Volume (L) = 1.03659 - Viscosity (mPa s) = 0.30046 + Viscosity (mPa s) = 0.30111 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.173e-01 Mass of water (kg) = 1.000e+00 @@ -2131,10 +2131,10 @@ Anhydrite 0.00 -5.06 -5.06 9.971e+00 9.969e+00 -2.012e-03 pH = 6.596 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 240449 + Specific Conductance (µS/cm, 100°C) = 240201 Density (g/cm³) = 1.02094 Volume (L) = 1.04091 - Viscosity (mPa s) = 0.30093 + Viscosity (mPa s) = 0.30164 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.125e+00 Mass of water (kg) = 1.000e+00 @@ -2227,10 +2227,10 @@ Anhydrite 0.00 -5.07 -5.07 9.969e+00 9.965e+00 -3.395e-03 pH = 6.581 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 339531 + Specific Conductance (µS/cm, 100°C) = 339112 Density (g/cm³) = 1.03849 Volume (L) = 1.05191 - Viscosity (mPa s) = 0.30185 + Viscosity (mPa s) = 0.30269 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.639e+00 Mass of water (kg) = 1.000e+00 @@ -2323,10 +2323,10 @@ Anhydrite 0.00 -5.08 -5.08 9.965e+00 9.963e+00 -1.766e-03 pH = 6.571 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 432349 + Specific Conductance (µS/cm, 100°C) = 431741 Density (g/cm³) = 1.05526 Volume (L) = 1.06311 - Viscosity (mPa s) = 0.30251 + Viscosity (mPa s) = 0.30347 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.146e+00 Mass of water (kg) = 1.000e+00 @@ -2419,10 +2419,10 @@ Anhydrite 0.00 -5.08 -5.08 9.963e+00 9.963e+00 -6.600e-04 pH = 6.563 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 519870 + Specific Conductance (µS/cm, 100°C) = 519059 Density (g/cm³) = 1.07138 Volume (L) = 1.07447 - Viscosity (mPa s) = 0.30300 + Viscosity (mPa s) = 0.30406 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.649e+00 Mass of water (kg) = 1.000e+00 @@ -2515,10 +2515,10 @@ Anhydrite 0.00 -5.09 -5.09 9.963e+00 9.963e+00 1.039e-04 pH = 6.557 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 602688 + Specific Conductance (µS/cm, 100°C) = 601664 Density (g/cm³) = 1.08694 Volume (L) = 1.08596 - Viscosity (mPa s) = 0.30337 + Viscosity (mPa s) = 0.30453 Activity of water = 0.891 Ionic strength (mol/kgw) = 3.148e+00 Mass of water (kg) = 1.000e+00 @@ -2611,10 +2611,10 @@ Anhydrite 0.00 -5.09 -5.09 9.963e+00 9.964e+00 6.215e-04 pH = 6.550 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 681224 + Specific Conductance (µS/cm, 100°C) = 679980 Density (g/cm³) = 1.10200 Volume (L) = 1.09757 - Viscosity (mPa s) = 0.30367 + Viscosity (mPa s) = 0.30491 Activity of water = 0.871 Ionic strength (mol/kgw) = 3.646e+00 Mass of water (kg) = 1.000e+00 @@ -2707,10 +2707,10 @@ Anhydrite 0.00 -5.10 -5.10 9.964e+00 9.965e+00 9.568e-04 pH = 6.543 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 755803 + Specific Conductance (µS/cm, 100°C) = 754332 Density (g/cm³) = 1.11660 Volume (L) = 1.10927 - Viscosity (mPa s) = 0.30391 + Viscosity (mPa s) = 0.30523 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.142e+00 Mass of water (kg) = 1.000e+00 @@ -2803,10 +2803,10 @@ Anhydrite 0.00 -5.10 -5.10 9.965e+00 9.966e+00 1.157e-03 pH = 6.535 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 826686 + Specific Conductance (µS/cm, 100°C) = 824983 Density (g/cm³) = 1.13078 Volume (L) = 1.12105 - Viscosity (mPa s) = 0.30412 + Viscosity (mPa s) = 0.30551 Activity of water = 0.830 Ionic strength (mol/kgw) = 4.637e+00 Mass of water (kg) = 1.000e+00 @@ -2899,10 +2899,10 @@ Anhydrite 0.00 -5.11 -5.11 9.966e+00 9.967e+00 1.257e-03 pH = 6.525 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 894094 + Specific Conductance (µS/cm, 100°C) = 892156 Density (g/cm³) = 1.14459 Volume (L) = 1.13291 - Viscosity (mPa s) = 0.30430 + Viscosity (mPa s) = 0.30577 Activity of water = 0.809 Ionic strength (mol/kgw) = 5.132e+00 Mass of water (kg) = 1.000e+00 @@ -2995,10 +2995,10 @@ Anhydrite 0.00 -5.11 -5.11 9.967e+00 9.968e+00 1.284e-03 pH = 6.513 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 958221 + Specific Conductance (µS/cm, 100°C) = 956045 Density (g/cm³) = 1.15803 Volume (L) = 1.14484 - Viscosity (mPa s) = 0.30447 + Viscosity (mPa s) = 0.30600 Activity of water = 0.788 Ionic strength (mol/kgw) = 5.627e+00 Mass of water (kg) = 1.000e+00 @@ -3091,10 +3091,10 @@ Anhydrite 0.00 -5.12 -5.12 9.968e+00 9.969e+00 1.260e-03 pH = 6.498 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1019236 + Specific Conductance (µS/cm, 100°C) = 1016822 Density (g/cm³) = 1.17115 Volume (L) = 1.15683 - Viscosity (mPa s) = 0.30464 + Viscosity (mPa s) = 0.30623 Activity of water = 0.767 Ionic strength (mol/kgw) = 6.122e+00 Mass of water (kg) = 1.000e+00 @@ -3203,10 +3203,10 @@ Anhydrite 0.00 -4.71 -4.71 1.000e+01 9.982e+00 -1.768e-02 pH = 6.533 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 9951 + Specific Conductance (µS/cm, 100°C) = 9946 Density (g/cm³) = 1.00217 Volume (L) = 1.00023 - Viscosity (mPa s) = 0.31158 + Viscosity (mPa s) = 0.31199 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.073e-02 Mass of water (kg) = 1.000e+00 @@ -3290,10 +3290,10 @@ Anhydrite 0.00 -4.73 -4.73 9.982e+00 9.972e+00 -1.057e-02 pH = 6.479 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 66022 + Specific Conductance (µS/cm, 100°C) = 65983 Density (g/cm³) = 1.01103 Volume (L) = 1.00446 - Viscosity (mPa s) = 0.31252 + Viscosity (mPa s) = 0.31295 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.130e-01 Mass of water (kg) = 1.000e+00 @@ -3386,10 +3386,10 @@ Anhydrite 0.00 -4.74 -4.74 9.972e+00 9.966e+00 -5.426e-03 pH = 6.457 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 113417 + Specific Conductance (µS/cm, 100°C) = 113334 Density (g/cm³) = 1.01899 Volume (L) = 1.00881 - Viscosity (mPa s) = 0.31352 + Viscosity (mPa s) = 0.31406 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.347e-01 Mass of water (kg) = 1.000e+00 @@ -3482,10 +3482,10 @@ Anhydrite 0.00 -4.75 -4.75 9.966e+00 9.963e+00 -3.785e-03 pH = 6.444 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 157470 + Specific Conductance (µS/cm, 100°C) = 157337 Density (g/cm³) = 1.02658 Volume (L) = 1.01323 - Viscosity (mPa s) = 0.31427 + Viscosity (mPa s) = 0.31489 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.498e-01 Mass of water (kg) = 1.000e+00 @@ -3578,10 +3578,10 @@ Anhydrite 0.00 -4.75 -4.75 9.963e+00 9.960e+00 -2.828e-03 pH = 6.436 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 199253 + Specific Conductance (µS/cm, 100°C) = 199064 Density (g/cm³) = 1.03393 Volume (L) = 1.01771 - Viscosity (mPa s) = 0.31487 + Viscosity (mPa s) = 0.31556 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.612e-01 Mass of water (kg) = 1.000e+00 @@ -3674,10 +3674,10 @@ Anhydrite 0.00 -4.76 -4.76 9.960e+00 9.958e+00 -2.160e-03 pH = 6.429 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 239735 + Specific Conductance (µS/cm, 100°C) = 239488 Density (g/cm³) = 1.04109 Volume (L) = 1.02222 - Viscosity (mPa s) = 0.31537 + Viscosity (mPa s) = 0.31612 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.170e+00 Mass of water (kg) = 1.000e+00 @@ -3770,10 +3770,10 @@ Anhydrite 0.00 -4.77 -4.77 9.958e+00 9.954e+00 -3.378e-03 pH = 6.419 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 335757 + Specific Conductance (µS/cm, 100°C) = 335346 Density (g/cm³) = 1.05828 Volume (L) = 1.03367 - Viscosity (mPa s) = 0.31629 + Viscosity (mPa s) = 0.31718 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.683e+00 Mass of water (kg) = 1.000e+00 @@ -3866,10 +3866,10 @@ Anhydrite 0.00 -4.78 -4.78 9.954e+00 9.953e+00 -1.406e-03 pH = 6.414 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 425399 + Specific Conductance (µS/cm, 100°C) = 424808 Density (g/cm³) = 1.07467 Volume (L) = 1.04527 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31793 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.189e+00 Mass of water (kg) = 1.000e+00 @@ -3962,10 +3962,10 @@ Anhydrite 0.00 -4.79 -4.79 9.953e+00 9.953e+00 -1.125e-04 pH = 6.411 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 509689 + Specific Conductance (µS/cm, 100°C) = 508907 Density (g/cm³) = 1.09041 Volume (L) = 1.05700 - Viscosity (mPa s) = 0.31737 + Viscosity (mPa s) = 0.31848 Activity of water = 0.910 Ionic strength (mol/kgw) = 2.689e+00 Mass of water (kg) = 1.000e+00 @@ -4058,10 +4058,10 @@ Anhydrite 0.00 -4.80 -4.80 9.953e+00 9.953e+00 7.465e-04 pH = 6.408 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 589266 + Specific Conductance (µS/cm, 100°C) = 588284 Density (g/cm³) = 1.10559 Volume (L) = 1.06882 - Viscosity (mPa s) = 0.31768 + Viscosity (mPa s) = 0.31889 Activity of water = 0.890 Ionic strength (mol/kgw) = 3.186e+00 Mass of water (kg) = 1.000e+00 @@ -4154,10 +4154,10 @@ Anhydrite 0.00 -4.81 -4.81 9.953e+00 9.955e+00 1.301e-03 pH = 6.406 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 664578 + Specific Conductance (µS/cm, 100°C) = 663388 Density (g/cm³) = 1.12028 Volume (L) = 1.08073 - Viscosity (mPa s) = 0.31791 + Viscosity (mPa s) = 0.31920 Activity of water = 0.870 Ionic strength (mol/kgw) = 3.681e+00 Mass of water (kg) = 1.000e+00 @@ -4250,10 +4250,10 @@ Anhydrite 0.00 -4.82 -4.82 9.955e+00 9.956e+00 1.635e-03 pH = 6.402 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 735964 + Specific Conductance (µS/cm, 100°C) = 734562 Density (g/cm³) = 1.13453 Volume (L) = 1.09271 - Viscosity (mPa s) = 0.31809 + Viscosity (mPa s) = 0.31946 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.175e+00 Mass of water (kg) = 1.000e+00 @@ -4346,10 +4346,10 @@ Anhydrite 0.00 -4.83 -4.83 9.956e+00 9.958e+00 1.810e-03 pH = 6.398 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 803701 + Specific Conductance (µS/cm, 100°C) = 802082 Density (g/cm³) = 1.14840 Volume (L) = 1.10475 - Viscosity (mPa s) = 0.31823 + Viscosity (mPa s) = 0.31967 Activity of water = 0.829 Ionic strength (mol/kgw) = 4.667e+00 Mass of water (kg) = 1.000e+00 @@ -4442,10 +4442,10 @@ Anhydrite 0.00 -4.84 -4.84 9.958e+00 9.960e+00 1.872e-03 pH = 6.392 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 868023 + Specific Conductance (µS/cm, 100°C) = 866185 Density (g/cm³) = 1.16190 Volume (L) = 1.11684 - Viscosity (mPa s) = 0.31835 + Viscosity (mPa s) = 0.31987 Activity of water = 0.808 Ionic strength (mol/kgw) = 5.160e+00 Mass of water (kg) = 1.000e+00 @@ -4538,10 +4538,10 @@ Anhydrite 0.00 -4.84 -4.84 9.960e+00 9.962e+00 1.853e-03 pH = 6.385 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 929121 + Specific Conductance (µS/cm, 100°C) = 927061 Density (g/cm³) = 1.17507 Volume (L) = 1.12898 - Viscosity (mPa s) = 0.31846 + Viscosity (mPa s) = 0.32005 Activity of water = 0.787 Ionic strength (mol/kgw) = 5.653e+00 Mass of water (kg) = 1.000e+00 @@ -4634,10 +4634,10 @@ Anhydrite 0.00 -4.85 -4.85 9.962e+00 9.964e+00 1.780e-03 pH = 6.375 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 987171 + Specific Conductance (µS/cm, 100°C) = 984889 Density (g/cm³) = 1.18792 Volume (L) = 1.14116 - Viscosity (mPa s) = 0.31858 + Viscosity (mPa s) = 0.32023 Activity of water = 0.766 Ionic strength (mol/kgw) = 6.145e+00 Mass of water (kg) = 1.000e+00 @@ -4756,10 +4756,10 @@ Anhydrite 0.00 -6.22 -6.22 1.000e+01 9.999e+00 -1.407e-03 pH = 6.433 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1379 + Specific Conductance (µS/cm, 150°C) = 1378 Density (g/cm³) = 0.91721 Volume (L) = 1.09047 - Viscosity (mPa s) = 0.18296 + Viscosity (mPa s) = 0.18311 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.628e-03 Mass of water (kg) = 1.000e+00 @@ -4843,10 +4843,10 @@ Anhydrite 0.00 -6.22 -6.22 9.999e+00 9.994e+00 -4.289e-03 pH = 6.331 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 75749 + Specific Conductance (µS/cm, 150°C) = 75679 Density (g/cm³) = 0.92622 Volume (L) = 1.09311 - Viscosity (mPa s) = 0.18396 + Viscosity (mPa s) = 0.18436 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.228e-01 Mass of water (kg) = 1.000e+00 @@ -4939,10 +4939,10 @@ Anhydrite 0.00 -6.22 -6.22 9.994e+00 9.992e+00 -2.321e-03 pH = 6.299 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 141127 + Specific Conductance (µS/cm, 150°C) = 140946 Density (g/cm³) = 0.93462 Volume (L) = 1.09613 - Viscosity (mPa s) = 0.18448 + Viscosity (mPa s) = 0.18504 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.321e-01 Mass of water (kg) = 1.000e+00 @@ -5035,10 +5035,10 @@ Anhydrite 0.00 -6.22 -6.22 9.992e+00 9.990e+00 -1.806e-03 pH = 6.278 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 203350 + Specific Conductance (µS/cm, 150°C) = 203032 Density (g/cm³) = 0.94274 Volume (L) = 1.09935 - Viscosity (mPa s) = 0.18488 + Viscosity (mPa s) = 0.18556 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.393e-01 Mass of water (kg) = 1.000e+00 @@ -5131,10 +5131,10 @@ Anhydrite 0.00 -6.22 -6.22 9.990e+00 9.989e+00 -1.507e-03 pH = 6.263 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 263472 + Specific Conductance (µS/cm, 150°C) = 262998 Density (g/cm³) = 0.95064 Volume (L) = 1.10273 - Viscosity (mPa s) = 0.18522 + Viscosity (mPa s) = 0.18599 Activity of water = 0.974 Ionic strength (mol/kgw) = 8.453e-01 Mass of water (kg) = 1.000e+00 @@ -5227,10 +5227,10 @@ Anhydrite 0.00 -6.22 -6.22 9.989e+00 9.987e+00 -1.295e-03 pH = 6.250 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 321935 + Specific Conductance (µS/cm, 150°C) = 321289 Density (g/cm³) = 0.95836 Volume (L) = 1.10622 - Viscosity (mPa s) = 0.18551 + Viscosity (mPa s) = 0.18638 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.050e+00 Mass of water (kg) = 1.000e+00 @@ -5323,10 +5323,10 @@ Anhydrite 0.00 -6.22 -6.22 9.987e+00 9.985e+00 -2.558e-03 pH = 6.226 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 462150 + Specific Conductance (µS/cm, 150°C) = 461017 Density (g/cm³) = 0.97699 Volume (L) = 1.11539 - Viscosity (mPa s) = 0.18613 + Viscosity (mPa s) = 0.18718 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.561e+00 Mass of water (kg) = 1.000e+00 @@ -5419,10 +5419,10 @@ Anhydrite 0.00 -6.22 -6.22 9.985e+00 9.983e+00 -1.830e-03 pH = 6.205 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 595104 + Specific Conductance (µS/cm, 150°C) = 593422 Density (g/cm³) = 0.99480 Volume (L) = 1.12506 - Viscosity (mPa s) = 0.18662 + Viscosity (mPa s) = 0.18783 Activity of water = 0.934 Ionic strength (mol/kgw) = 2.068e+00 Mass of water (kg) = 1.000e+00 @@ -5515,10 +5515,10 @@ Anhydrite 0.00 -6.22 -6.22 9.983e+00 9.982e+00 -1.285e-03 pH = 6.187 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 721614 + Specific Conductance (µS/cm, 150°C) = 719336 Density (g/cm³) = 1.01187 Volume (L) = 1.13512 - Viscosity (mPa s) = 0.18704 + Viscosity (mPa s) = 0.18839 Activity of water = 0.916 Ionic strength (mol/kgw) = 2.573e+00 Mass of water (kg) = 1.000e+00 @@ -5611,10 +5611,10 @@ Anhydrite 0.00 -6.22 -6.22 9.982e+00 9.981e+00 -8.697e-04 pH = 6.169 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 842165 + Specific Conductance (µS/cm, 150°C) = 839257 Density (g/cm³) = 1.02830 Volume (L) = 1.14552 - Viscosity (mPa s) = 0.18740 + Viscosity (mPa s) = 0.18888 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.077e+00 Mass of water (kg) = 1.000e+00 @@ -5707,10 +5707,10 @@ Anhydrite 0.00 -6.22 -6.22 9.981e+00 9.980e+00 -5.578e-04 pH = 6.150 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 957106 + Specific Conductance (µS/cm, 150°C) = 953539 Density (g/cm³) = 1.04413 Volume (L) = 1.15621 - Viscosity (mPa s) = 0.18772 + Viscosity (mPa s) = 0.18931 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.579e+00 Mass of water (kg) = 1.000e+00 @@ -5803,10 +5803,10 @@ Anhydrite 0.00 -6.22 -6.22 9.980e+00 9.980e+00 -3.312e-04 pH = 6.130 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1066712 + Specific Conductance (µS/cm, 150°C) = 1062464 Density (g/cm³) = 1.05940 Volume (L) = 1.16717 - Viscosity (mPa s) = 0.18801 + Viscosity (mPa s) = 0.18970 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.080e+00 Mass of water (kg) = 1.000e+00 @@ -5899,10 +5899,10 @@ Anhydrite 0.00 -6.22 -6.22 9.980e+00 9.980e+00 -1.749e-04 pH = 6.107 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1171218 + Specific Conductance (µS/cm, 150°C) = 1166274 Density (g/cm³) = 1.07416 Volume (L) = 1.17836 - Viscosity (mPa s) = 0.18827 + Viscosity (mPa s) = 0.19006 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.581e+00 Mass of water (kg) = 1.000e+00 @@ -5995,10 +5995,10 @@ Anhydrite 0.00 -6.22 -6.22 9.980e+00 9.980e+00 -7.574e-05 pH = 6.082 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1270834 + Specific Conductance (µS/cm, 150°C) = 1265182 Density (g/cm³) = 1.08843 Volume (L) = 1.18977 - Viscosity (mPa s) = 0.18851 + Viscosity (mPa s) = 0.19039 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.081e+00 Mass of water (kg) = 1.000e+00 @@ -6091,10 +6091,10 @@ Anhydrite 0.00 -6.22 -6.22 9.980e+00 9.980e+00 -2.302e-05 pH = 6.055 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1365752 + Specific Conductance (µS/cm, 150°C) = 1359385 Density (g/cm³) = 1.10225 Volume (L) = 1.20137 - Viscosity (mPa s) = 0.18874 + Viscosity (mPa s) = 0.19071 Activity of water = 0.802 Ionic strength (mol/kgw) = 5.581e+00 Mass of water (kg) = 1.000e+00 @@ -6187,10 +6187,10 @@ Anhydrite 0.00 -6.22 -6.22 9.980e+00 9.980e+00 -7.918e-06 pH = 6.024 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1456151 + Specific Conductance (µS/cm, 150°C) = 1449065 Density (g/cm³) = 1.11563 Volume (L) = 1.21315 - Viscosity (mPa s) = 0.18896 + Viscosity (mPa s) = 0.19102 Activity of water = 0.783 Ionic strength (mol/kgw) = 6.081e+00 Mass of water (kg) = 1.000e+00 @@ -6301,10 +6301,10 @@ Anhydrite 0.00 -5.84 -5.84 1.000e+01 9.997e+00 -2.653e-03 pH = 6.263 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 2470 + Specific Conductance (µS/cm, 150°C) = 2469 Density (g/cm³) = 0.94312 Volume (L) = 1.06069 - Viscosity (mPa s) = 0.19528 + Viscosity (mPa s) = 0.19549 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.061e-02 Mass of water (kg) = 1.000e+00 @@ -6389,10 +6389,10 @@ Anhydrite 0.00 -5.86 -5.86 9.997e+00 9.992e+00 -5.689e-03 pH = 6.184 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 76487 + Specific Conductance (µS/cm, 150°C) = 76415 Density (g/cm³) = 0.95196 Volume (L) = 1.06394 - Viscosity (mPa s) = 0.19637 + Viscosity (mPa s) = 0.19681 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.334e-01 Mass of water (kg) = 1.000e+00 @@ -6486,10 +6486,10 @@ Anhydrite 0.00 -5.87 -5.87 9.992e+00 9.989e+00 -2.928e-03 pH = 6.158 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 140667 + Specific Conductance (µS/cm, 150°C) = 140487 Density (g/cm³) = 0.96012 Volume (L) = 1.06749 - Viscosity (mPa s) = 0.19696 + Viscosity (mPa s) = 0.19756 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.451e-01 Mass of water (kg) = 1.000e+00 @@ -6583,10 +6583,10 @@ Anhydrite 0.00 -5.88 -5.88 9.989e+00 9.987e+00 -2.210e-03 pH = 6.141 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 201431 + Specific Conductance (µS/cm, 150°C) = 201119 Density (g/cm³) = 0.96799 Volume (L) = 1.07119 - Viscosity (mPa s) = 0.19740 + Viscosity (mPa s) = 0.19813 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.539e-01 Mass of water (kg) = 1.000e+00 @@ -6680,10 +6680,10 @@ Anhydrite 0.00 -5.89 -5.89 9.987e+00 9.985e+00 -1.799e-03 pH = 6.129 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 259925 + Specific Conductance (µS/cm, 150°C) = 259464 Density (g/cm³) = 0.97566 Volume (L) = 1.07500 - Viscosity (mPa s) = 0.19778 + Viscosity (mPa s) = 0.19860 Activity of water = 0.974 Ionic strength (mol/kgw) = 8.611e-01 Mass of water (kg) = 1.000e+00 @@ -6777,10 +6777,10 @@ Anhydrite 0.00 -5.89 -5.89 9.985e+00 9.983e+00 -1.510e-03 pH = 6.119 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 316640 + Specific Conductance (µS/cm, 150°C) = 316015 Density (g/cm³) = 0.98315 Volume (L) = 1.07891 - Viscosity (mPa s) = 0.19810 + Viscosity (mPa s) = 0.19902 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.067e+00 Mass of water (kg) = 1.000e+00 @@ -6874,10 +6874,10 @@ Anhydrite 0.00 -5.90 -5.90 9.983e+00 9.980e+00 -2.873e-03 pH = 6.099 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 452104 + Specific Conductance (µS/cm, 150°C) = 451019 Density (g/cm³) = 1.00123 Volume (L) = 1.08900 - Viscosity (mPa s) = 0.19877 + Viscosity (mPa s) = 0.19988 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.579e+00 Mass of water (kg) = 1.000e+00 @@ -6971,10 +6971,10 @@ Anhydrite 0.00 -5.91 -5.91 9.980e+00 9.978e+00 -1.932e-03 pH = 6.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 579938 + Specific Conductance (µS/cm, 150°C) = 578338 Density (g/cm³) = 1.01853 Volume (L) = 1.09945 - Viscosity (mPa s) = 0.19930 + Viscosity (mPa s) = 0.20057 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.086e+00 Mass of water (kg) = 1.000e+00 @@ -7068,10 +7068,10 @@ Anhydrite 0.00 -5.92 -5.92 9.978e+00 9.977e+00 -1.251e-03 pH = 6.069 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 701129 + Specific Conductance (µS/cm, 150°C) = 698972 Density (g/cm³) = 1.03516 Volume (L) = 1.11018 - Viscosity (mPa s) = 0.19973 + Viscosity (mPa s) = 0.20115 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.591e+00 Mass of water (kg) = 1.000e+00 @@ -7165,10 +7165,10 @@ Anhydrite -0.00 -5.93 -5.93 9.977e+00 9.976e+00 -7.484e-04 pH = 6.055 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 816278 + Specific Conductance (µS/cm, 150°C) = 813533 Density (g/cm³) = 1.05119 Volume (L) = 1.12115 - Viscosity (mPa s) = 0.20010 + Viscosity (mPa s) = 0.20165 Activity of water = 0.896 Ionic strength (mol/kgw) = 3.094e+00 Mass of water (kg) = 1.000e+00 @@ -7262,10 +7262,10 @@ Anhydrite -0.00 -5.93 -5.93 9.976e+00 9.976e+00 -3.833e-04 pH = 6.040 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 925820 + Specific Conductance (µS/cm, 150°C) = 922463 Density (g/cm³) = 1.06667 Volume (L) = 1.13232 - Viscosity (mPa s) = 0.20042 + Viscosity (mPa s) = 0.20208 Activity of water = 0.877 Ionic strength (mol/kgw) = 3.596e+00 Mass of water (kg) = 1.000e+00 @@ -7359,10 +7359,10 @@ Anhydrite -0.00 -5.94 -5.94 9.976e+00 9.976e+00 -1.276e-04 pH = 6.023 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1030099 + Specific Conductance (µS/cm, 150°C) = 1026111 Density (g/cm³) = 1.08165 Volume (L) = 1.14367 - Viscosity (mPa s) = 0.20070 + Viscosity (mPa s) = 0.20248 Activity of water = 0.858 Ionic strength (mol/kgw) = 4.096e+00 Mass of water (kg) = 1.000e+00 @@ -7456,10 +7456,10 @@ Anhydrite -0.00 -5.95 -5.95 9.976e+00 9.976e+00 4.128e-05 pH = 6.005 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1129403 + Specific Conductance (µS/cm, 150°C) = 1124769 Density (g/cm³) = 1.09616 Volume (L) = 1.15518 - Viscosity (mPa s) = 0.20096 + Viscosity (mPa s) = 0.20284 Activity of water = 0.839 Ionic strength (mol/kgw) = 4.596e+00 Mass of water (kg) = 1.000e+00 @@ -7553,10 +7553,10 @@ Anhydrite -0.00 -5.95 -5.95 9.976e+00 9.976e+00 1.415e-04 pH = 5.984 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1223982 + Specific Conductance (µS/cm, 150°C) = 1218694 Density (g/cm³) = 1.11025 Volume (L) = 1.16683 - Viscosity (mPa s) = 0.20120 + Viscosity (mPa s) = 0.20318 Activity of water = 0.819 Ionic strength (mol/kgw) = 5.096e+00 Mass of water (kg) = 1.000e+00 @@ -7650,10 +7650,10 @@ Anhydrite 0.00 -5.96 -5.96 9.976e+00 9.976e+00 1.877e-04 pH = 5.960 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1314062 + Specific Conductance (µS/cm, 150°C) = 1308112 Density (g/cm³) = 1.12393 Volume (L) = 1.17861 - Viscosity (mPa s) = 0.20142 + Viscosity (mPa s) = 0.20349 Activity of water = 0.800 Ionic strength (mol/kgw) = 5.595e+00 Mass of water (kg) = 1.000e+00 @@ -7747,10 +7747,10 @@ Anhydrite -0.00 -5.96 -5.96 9.976e+00 9.976e+00 1.914e-04 pH = 5.934 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1399850 + Specific Conductance (µS/cm, 150°C) = 1393233 Density (g/cm³) = 1.13722 Volume (L) = 1.19050 - Viscosity (mPa s) = 0.20164 + Viscosity (mPa s) = 0.20380 Activity of water = 0.781 Ionic strength (mol/kgw) = 6.094e+00 Mass of water (kg) = 1.000e+00 @@ -7861,10 +7861,10 @@ Anhydrite 0.00 -5.50 -5.50 1.000e+01 9.995e+00 -4.937e-03 pH = 6.090 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 4330 + Specific Conductance (µS/cm, 150°C) = 4328 Density (g/cm³) = 0.96563 Volume (L) = 1.03629 - Viscosity (mPa s) = 0.20704 + Viscosity (mPa s) = 0.20733 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.975e-02 Mass of water (kg) = 1.000e+00 @@ -7949,10 +7949,10 @@ Anhydrite 0.00 -5.53 -5.53 9.995e+00 9.988e+00 -7.258e-03 pH = 6.031 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 78006 + Specific Conductance (µS/cm, 150°C) = 77931 Density (g/cm³) = 0.97442 Volume (L) = 1.03996 - Viscosity (mPa s) = 0.20825 + Viscosity (mPa s) = 0.20874 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.488e-01 Mass of water (kg) = 1.000e+00 @@ -8046,10 +8046,10 @@ Anhydrite 0.00 -5.54 -5.54 9.988e+00 9.984e+00 -3.670e-03 pH = 6.009 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 140404 + Specific Conductance (µS/cm, 150°C) = 140223 Density (g/cm³) = 0.98244 Volume (L) = 1.04387 - Viscosity (mPa s) = 0.20891 + Viscosity (mPa s) = 0.20956 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.635e-01 Mass of water (kg) = 1.000e+00 @@ -8143,10 +8143,10 @@ Anhydrite 0.00 -5.55 -5.55 9.984e+00 9.981e+00 -2.710e-03 pH = 5.995 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 199590 + Specific Conductance (µS/cm, 150°C) = 199282 Density (g/cm³) = 0.99017 Volume (L) = 1.04790 - Viscosity (mPa s) = 0.20941 + Viscosity (mPa s) = 0.21019 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.743e-01 Mass of water (kg) = 1.000e+00 @@ -8240,10 +8240,10 @@ Anhydrite 0.00 -5.56 -5.56 9.981e+00 9.979e+00 -2.163e-03 pH = 5.984 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 256387 + Specific Conductance (µS/cm, 150°C) = 255936 Density (g/cm³) = 0.99768 Volume (L) = 1.05202 - Viscosity (mPa s) = 0.20983 + Viscosity (mPa s) = 0.21071 Activity of water = 0.974 Ionic strength (mol/kgw) = 8.830e-01 Mass of water (kg) = 1.000e+00 @@ -8337,10 +8337,10 @@ Anhydrite 0.00 -5.57 -5.57 9.979e+00 9.977e+00 -1.782e-03 pH = 5.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 311312 + Specific Conductance (µS/cm, 150°C) = 310704 Density (g/cm³) = 1.00502 Volume (L) = 1.05621 - Viscosity (mPa s) = 0.21018 + Viscosity (mPa s) = 0.21116 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.090e+00 Mass of water (kg) = 1.000e+00 @@ -8434,10 +8434,10 @@ Anhydrite 0.00 -5.58 -5.58 9.977e+00 9.974e+00 -3.281e-03 pH = 5.959 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 442036 + Specific Conductance (µS/cm, 150°C) = 440993 Density (g/cm³) = 1.02273 Volume (L) = 1.06692 - Viscosity (mPa s) = 0.21091 + Viscosity (mPa s) = 0.21208 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.603e+00 Mass of water (kg) = 1.000e+00 @@ -8531,10 +8531,10 @@ Anhydrite 0.00 -5.59 -5.59 9.974e+00 9.972e+00 -2.082e-03 pH = 5.946 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 564914 + Specific Conductance (µS/cm, 150°C) = 563387 Density (g/cm³) = 1.03968 Volume (L) = 1.07791 - Viscosity (mPa s) = 0.21147 + Viscosity (mPa s) = 0.21281 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.112e+00 Mass of water (kg) = 1.000e+00 @@ -8628,10 +8628,10 @@ Anhydrite 0.00 -5.60 -5.60 9.972e+00 9.971e+00 -1.236e-03 pH = 5.935 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 681051 + Specific Conductance (µS/cm, 150°C) = 679002 Density (g/cm³) = 1.05599 Volume (L) = 1.08909 - Viscosity (mPa s) = 0.21192 + Viscosity (mPa s) = 0.21341 Activity of water = 0.913 Ionic strength (mol/kgw) = 2.616e+00 Mass of water (kg) = 1.000e+00 @@ -8725,10 +8725,10 @@ Anhydrite -0.00 -5.61 -5.61 9.971e+00 9.970e+00 -6.285e-04 pH = 5.923 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 791131 + Specific Conductance (µS/cm, 150°C) = 788534 Density (g/cm³) = 1.07172 Volume (L) = 1.10045 - Viscosity (mPa s) = 0.21229 + Viscosity (mPa s) = 0.21392 Activity of water = 0.895 Ionic strength (mol/kgw) = 3.119e+00 Mass of water (kg) = 1.000e+00 @@ -8822,10 +8822,10 @@ Anhydrite -0.00 -5.62 -5.62 9.970e+00 9.970e+00 -1.995e-04 pH = 5.910 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 895652 + Specific Conductance (µS/cm, 150°C) = 892484 Density (g/cm³) = 1.08695 Volume (L) = 1.11194 - Viscosity (mPa s) = 0.21261 + Viscosity (mPa s) = 0.21436 Activity of water = 0.876 Ionic strength (mol/kgw) = 3.620e+00 Mass of water (kg) = 1.000e+00 @@ -8919,10 +8919,10 @@ Anhydrite -0.00 -5.63 -5.63 9.970e+00 9.970e+00 9.121e-05 pH = 5.896 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 995001 + Specific Conductance (µS/cm, 150°C) = 991247 Density (g/cm³) = 1.10171 Volume (L) = 1.12356 - Viscosity (mPa s) = 0.21289 + Viscosity (mPa s) = 0.21475 Activity of water = 0.856 Ionic strength (mol/kgw) = 4.119e+00 Mass of water (kg) = 1.000e+00 @@ -9016,10 +9016,10 @@ Anhydrite -0.00 -5.64 -5.64 9.970e+00 9.970e+00 2.746e-04 pH = 5.880 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1089503 + Specific Conductance (µS/cm, 150°C) = 1085150 Density (g/cm³) = 1.11605 Volume (L) = 1.13528 - Viscosity (mPa s) = 0.21314 + Viscosity (mPa s) = 0.21511 Activity of water = 0.837 Ionic strength (mol/kgw) = 4.618e+00 Mass of water (kg) = 1.000e+00 @@ -9113,10 +9113,10 @@ Anhydrite -0.00 -5.65 -5.65 9.970e+00 9.971e+00 3.749e-04 pH = 5.862 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1179435 + Specific Conductance (µS/cm, 150°C) = 1174474 Density (g/cm³) = 1.12999 Volume (L) = 1.14708 - Viscosity (mPa s) = 0.21337 + Viscosity (mPa s) = 0.21544 Activity of water = 0.817 Ionic strength (mol/kgw) = 5.117e+00 Mass of water (kg) = 1.000e+00 @@ -9210,10 +9210,10 @@ Anhydrite -0.00 -5.65 -5.65 9.971e+00 9.971e+00 4.114e-04 pH = 5.841 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1265042 + Specific Conductance (µS/cm, 150°C) = 1259467 Density (g/cm³) = 1.14356 Volume (L) = 1.15897 - Viscosity (mPa s) = 0.21359 + Viscosity (mPa s) = 0.21576 Activity of water = 0.798 Ionic strength (mol/kgw) = 5.615e+00 Mass of water (kg) = 1.000e+00 @@ -9307,10 +9307,10 @@ Anhydrite -0.00 -5.66 -5.66 9.971e+00 9.972e+00 3.987e-04 pH = 5.818 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1346544 + Specific Conductance (µS/cm, 150°C) = 1340352 Density (g/cm³) = 1.15679 Volume (L) = 1.17093 - Viscosity (mPa s) = 0.21381 + Viscosity (mPa s) = 0.21606 Activity of water = 0.779 Ionic strength (mol/kgw) = 6.114e+00 Mass of water (kg) = 1.000e+00 @@ -9433,7 +9433,7 @@ Anhydrite 0.00 -7.11 -7.11 1.000e+01 1.000e+01 -3.990e-04 Specific Conductance (µS/cm, 200°C) = 497 Density (g/cm³) = 0.86473 Volume (L) = 1.15649 - Viscosity (mPa s) = 0.13509 + Viscosity (mPa s) = 0.13519 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.597e-03 Mass of water (kg) = 1.000e+00 @@ -9517,10 +9517,10 @@ Anhydrite 0.00 -7.12 -7.12 1.000e+01 9.997e+00 -2.418e-03 pH = 6.163 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 85727 + Specific Conductance (µS/cm, 200°C) = 85600 Density (g/cm³) = 0.87480 Volume (L) = 1.15692 - Viscosity (mPa s) = 0.13556 + Viscosity (mPa s) = 0.13606 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.113e-01 Mass of water (kg) = 1.000e+00 @@ -9613,10 +9613,10 @@ Anhydrite 0.00 -7.12 -7.12 9.997e+00 9.996e+00 -1.554e-03 pH = 6.135 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 162287 + Specific Conductance (µS/cm, 200°C) = 161946 Density (g/cm³) = 0.88418 Volume (L) = 1.15810 - Viscosity (mPa s) = 0.13598 + Viscosity (mPa s) = 0.13667 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.175e-01 Mass of water (kg) = 1.000e+00 @@ -9709,10 +9709,10 @@ Anhydrite 0.00 -7.12 -7.12 9.996e+00 9.994e+00 -1.319e-03 pH = 6.117 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 236007 + Specific Conductance (µS/cm, 200°C) = 235399 Density (g/cm³) = 0.89319 Volume (L) = 1.15971 - Viscosity (mPa s) = 0.13630 + Viscosity (mPa s) = 0.13714 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.228e-01 Mass of water (kg) = 1.000e+00 @@ -9805,10 +9805,10 @@ Anhydrite 0.00 -7.12 -7.12 9.994e+00 9.993e+00 -1.176e-03 pH = 6.102 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 307873 + Specific Conductance (µS/cm, 200°C) = 306956 Density (g/cm³) = 0.90192 Volume (L) = 1.16162 - Viscosity (mPa s) = 0.13658 + Viscosity (mPa s) = 0.13755 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.275e-01 Mass of water (kg) = 1.000e+00 @@ -9901,10 +9901,10 @@ Anhydrite 0.00 -7.12 -7.12 9.993e+00 9.992e+00 -1.071e-03 pH = 6.090 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 378259 + Specific Conductance (µS/cm, 200°C) = 376998 Density (g/cm³) = 0.91040 Volume (L) = 1.16380 - Viscosity (mPa s) = 0.13682 + Viscosity (mPa s) = 0.13790 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.032e+00 Mass of water (kg) = 1.000e+00 @@ -9997,10 +9997,10 @@ Anhydrite 0.00 -7.12 -7.12 9.992e+00 9.990e+00 -2.315e-03 pH = 6.066 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 548711 + Specific Conductance (µS/cm, 200°C) = 546467 Density (g/cm³) = 0.93068 Volume (L) = 1.17018 - Viscosity (mPa s) = 0.13735 + Viscosity (mPa s) = 0.13867 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.541e+00 Mass of water (kg) = 1.000e+00 @@ -10093,10 +10093,10 @@ Anhydrite 0.00 -7.12 -7.12 9.990e+00 9.988e+00 -1.889e-03 pH = 6.045 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 711987 + Specific Conductance (µS/cm, 200°C) = 708620 Density (g/cm³) = 0.94981 Volume (L) = 1.17765 - Viscosity (mPa s) = 0.13779 + Viscosity (mPa s) = 0.13930 Activity of water = 0.938 Ionic strength (mol/kgw) = 2.049e+00 Mass of water (kg) = 1.000e+00 @@ -10189,10 +10189,10 @@ Anhydrite 0.00 -7.12 -7.12 9.988e+00 9.986e+00 -1.532e-03 pH = 6.024 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 868390 + Specific Conductance (µS/cm, 200°C) = 863798 Density (g/cm³) = 0.96791 Volume (L) = 1.18603 - Viscosity (mPa s) = 0.13817 + Viscosity (mPa s) = 0.13986 Activity of water = 0.921 Ionic strength (mol/kgw) = 2.555e+00 Mass of water (kg) = 1.000e+00 @@ -10285,10 +10285,10 @@ Anhydrite 0.00 -7.12 -7.12 9.986e+00 9.985e+00 -1.235e-03 pH = 6.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1018022 + Specific Conductance (µS/cm, 200°C) = 1012124 Density (g/cm³) = 0.98508 Volume (L) = 1.19518 - Viscosity (mPa s) = 0.13851 + Viscosity (mPa s) = 0.14036 Activity of water = 0.904 Ionic strength (mol/kgw) = 3.060e+00 Mass of water (kg) = 1.000e+00 @@ -10381,10 +10381,10 @@ Anhydrite 0.00 -7.12 -7.12 9.985e+00 9.984e+00 -9.970e-04 pH = 5.980 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1160932 + Specific Conductance (µS/cm, 200°C) = 1153669 Density (g/cm³) = 1.00139 Volume (L) = 1.20504 - Viscosity (mPa s) = 0.13881 + Viscosity (mPa s) = 0.14081 Activity of water = 0.887 Ionic strength (mol/kgw) = 3.564e+00 Mass of water (kg) = 1.000e+00 @@ -10477,10 +10477,10 @@ Anhydrite 0.00 -7.12 -7.12 9.984e+00 9.983e+00 -8.146e-04 pH = 5.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1297169 + Specific Conductance (µS/cm, 200°C) = 1288497 Density (g/cm³) = 1.01689 Volume (L) = 1.21552 - Viscosity (mPa s) = 0.13909 + Viscosity (mPa s) = 0.14123 Activity of water = 0.870 Ionic strength (mol/kgw) = 4.067e+00 Mass of water (kg) = 1.000e+00 @@ -10573,10 +10573,10 @@ Anhydrite 0.00 -7.12 -7.12 9.983e+00 9.983e+00 -6.840e-04 pH = 5.927 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1426796 + Specific Conductance (µS/cm, 200°C) = 1416683 Density (g/cm³) = 1.03163 Volume (L) = 1.22657 - Viscosity (mPa s) = 0.13935 + Viscosity (mPa s) = 0.14162 Activity of water = 0.853 Ionic strength (mol/kgw) = 4.570e+00 Mass of water (kg) = 1.000e+00 @@ -10669,10 +10669,10 @@ Anhydrite 0.00 -7.12 -7.12 9.983e+00 9.982e+00 -6.005e-04 pH = 5.896 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1549889 + Specific Conductance (µS/cm, 200°C) = 1538316 Density (g/cm³) = 1.04564 Volume (L) = 1.23815 - Viscosity (mPa s) = 0.13960 + Viscosity (mPa s) = 0.14198 Activity of water = 0.836 Ionic strength (mol/kgw) = 5.072e+00 Mass of water (kg) = 1.000e+00 @@ -10765,10 +10765,10 @@ Anhydrite 0.00 -7.12 -7.12 9.982e+00 9.981e+00 -5.592e-04 pH = 5.861 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1666546 + Specific Conductance (µS/cm, 200°C) = 1653502 Density (g/cm³) = 1.05897 Volume (L) = 1.25023 - Viscosity (mPa s) = 0.13984 + Viscosity (mPa s) = 0.14233 Activity of water = 0.819 Ionic strength (mol/kgw) = 5.574e+00 Mass of water (kg) = 1.000e+00 @@ -10861,10 +10861,10 @@ Anhydrite 0.00 -7.12 -7.12 9.981e+00 9.981e+00 -5.562e-04 pH = 5.823 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1776877 + Specific Conductance (µS/cm, 200°C) = 1762360 Density (g/cm³) = 1.07165 Volume (L) = 1.26278 - Viscosity (mPa s) = 0.14006 + Viscosity (mPa s) = 0.14267 Activity of water = 0.802 Ionic strength (mol/kgw) = 6.076e+00 Mass of water (kg) = 1.000e+00 @@ -10975,10 +10975,10 @@ Anhydrite 0.00 -6.65 -6.65 1.000e+01 9.999e+00 -7.737e-04 pH = 6.078 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 930 + Specific Conductance (µS/cm, 200°C) = 929 Density (g/cm³) = 0.89689 Volume (L) = 1.11508 - Viscosity (mPa s) = 0.14596 + Viscosity (mPa s) = 0.14610 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.094e-03 Mass of water (kg) = 1.000e+00 @@ -11063,10 +11063,10 @@ Anhydrite 0.00 -6.70 -6.70 9.999e+00 9.996e+00 -3.393e-03 pH = 6.018 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 85753 + Specific Conductance (µS/cm, 200°C) = 85627 Density (g/cm³) = 0.90629 Volume (L) = 1.11693 - Viscosity (mPa s) = 0.14705 + Viscosity (mPa s) = 0.14758 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.167e-01 Mass of water (kg) = 1.000e+00 @@ -11160,10 +11160,10 @@ Anhydrite 0.00 -6.72 -6.72 9.996e+00 9.994e+00 -2.009e-03 pH = 5.996 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 160815 + Specific Conductance (µS/cm, 200°C) = 160485 Density (g/cm³) = 0.91505 Volume (L) = 1.11931 - Viscosity (mPa s) = 0.14751 + Viscosity (mPa s) = 0.14824 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.247e-01 Mass of water (kg) = 1.000e+00 @@ -11257,10 +11257,10 @@ Anhydrite 0.00 -6.73 -6.73 9.994e+00 9.992e+00 -1.647e-03 pH = 5.981 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 232585 + Specific Conductance (µS/cm, 200°C) = 232001 Density (g/cm³) = 0.92349 Volume (L) = 1.12197 - Viscosity (mPa s) = 0.14787 + Viscosity (mPa s) = 0.14876 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.313e-01 Mass of water (kg) = 1.000e+00 @@ -11354,10 +11354,10 @@ Anhydrite 0.00 -6.74 -6.74 9.992e+00 9.991e+00 -1.434e-03 pH = 5.970 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 302180 + Specific Conductance (µS/cm, 200°C) = 301306 Density (g/cm³) = 0.93169 Volume (L) = 1.12485 - Viscosity (mPa s) = 0.14817 + Viscosity (mPa s) = 0.14920 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.370e-01 Mass of water (kg) = 1.000e+00 @@ -11451,10 +11451,10 @@ Anhydrite 0.00 -6.75 -6.75 9.991e+00 9.989e+00 -1.279e-03 pH = 5.961 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 370048 + Specific Conductance (µS/cm, 200°C) = 368852 Density (g/cm³) = 0.93968 Volume (L) = 1.12791 - Viscosity (mPa s) = 0.14844 + Viscosity (mPa s) = 0.14959 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.042e+00 Mass of water (kg) = 1.000e+00 @@ -11548,10 +11548,10 @@ Anhydrite 0.00 -6.77 -6.77 9.989e+00 9.987e+00 -2.679e-03 pH = 5.943 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 533429 + Specific Conductance (µS/cm, 200°C) = 531319 Density (g/cm³) = 0.95889 Volume (L) = 1.13617 - Viscosity (mPa s) = 0.14902 + Viscosity (mPa s) = 0.15041 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.553e+00 Mass of water (kg) = 1.000e+00 @@ -11645,10 +11645,10 @@ Anhydrite 0.00 -6.79 -6.79 9.987e+00 9.985e+00 -2.090e-03 pH = 5.927 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 688926 + Specific Conductance (µS/cm, 200°C) = 685780 Density (g/cm³) = 0.97714 Volume (L) = 1.14515 - Viscosity (mPa s) = 0.14949 + Viscosity (mPa s) = 0.15110 Activity of water = 0.936 Ionic strength (mol/kgw) = 2.061e+00 Mass of water (kg) = 1.000e+00 @@ -11742,10 +11742,10 @@ Anhydrite 0.00 -6.80 -6.80 9.985e+00 9.983e+00 -1.619e-03 pH = 5.912 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 837215 + Specific Conductance (µS/cm, 200°C) = 832943 Density (g/cm³) = 0.99454 Volume (L) = 1.15471 - Viscosity (mPa s) = 0.14990 + Viscosity (mPa s) = 0.15169 Activity of water = 0.919 Ionic strength (mol/kgw) = 2.568e+00 Mass of water (kg) = 1.000e+00 @@ -11839,10 +11839,10 @@ Anhydrite 0.00 -6.81 -6.81 9.983e+00 9.982e+00 -1.240e-03 pH = 5.895 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 978680 + Specific Conductance (µS/cm, 200°C) = 973213 Density (g/cm³) = 1.01118 Volume (L) = 1.16478 - Viscosity (mPa s) = 0.15026 + Viscosity (mPa s) = 0.15222 Activity of water = 0.902 Ionic strength (mol/kgw) = 3.073e+00 Mass of water (kg) = 1.000e+00 @@ -11936,10 +11936,10 @@ Anhydrite 0.00 -6.83 -6.83 9.982e+00 9.981e+00 -9.443e-04 pH = 5.877 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1113593 + Specific Conductance (µS/cm, 200°C) = 1106878 Density (g/cm³) = 1.02711 Volume (L) = 1.17529 - Viscosity (mPa s) = 0.15058 + Viscosity (mPa s) = 0.15269 Activity of water = 0.885 Ionic strength (mol/kgw) = 3.576e+00 Mass of water (kg) = 1.000e+00 @@ -12033,10 +12033,10 @@ Anhydrite 0.00 -6.84 -6.84 9.981e+00 9.980e+00 -7.239e-04 pH = 5.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1242180 + Specific Conductance (µS/cm, 200°C) = 1234179 Density (g/cm³) = 1.04239 Volume (L) = 1.18618 - Viscosity (mPa s) = 0.15087 + Viscosity (mPa s) = 0.15312 Activity of water = 0.867 Ionic strength (mol/kgw) = 4.079e+00 Mass of water (kg) = 1.000e+00 @@ -12130,10 +12130,10 @@ Anhydrite 0.00 -6.84 -6.84 9.980e+00 9.980e+00 -5.700e-04 pH = 5.833 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1364643 + Specific Conductance (µS/cm, 200°C) = 1355327 Density (g/cm³) = 1.05707 Volume (L) = 1.19744 - Viscosity (mPa s) = 0.15114 + Viscosity (mPa s) = 0.15353 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.582e+00 Mass of water (kg) = 1.000e+00 @@ -12227,10 +12227,10 @@ Anhydrite 0.00 -6.85 -6.85 9.980e+00 9.979e+00 -4.740e-04 pH = 5.806 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1481171 + Specific Conductance (µS/cm, 200°C) = 1470521 Density (g/cm³) = 1.07116 Volume (L) = 1.20902 - Viscosity (mPa s) = 0.15139 + Viscosity (mPa s) = 0.15391 Activity of water = 0.832 Ionic strength (mol/kgw) = 5.084e+00 Mass of water (kg) = 1.000e+00 @@ -12324,10 +12324,10 @@ Anhydrite 0.00 -6.86 -6.86 9.979e+00 9.979e+00 -4.280e-04 pH = 5.776 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1591949 + Specific Conductance (µS/cm, 200°C) = 1579951 Density (g/cm³) = 1.08472 Volume (L) = 1.22090 - Viscosity (mPa s) = 0.15163 + Viscosity (mPa s) = 0.15427 Activity of water = 0.815 Ionic strength (mol/kgw) = 5.585e+00 Mass of water (kg) = 1.000e+00 @@ -12421,10 +12421,10 @@ Anhydrite 0.00 -6.87 -6.87 9.979e+00 9.978e+00 -4.256e-04 pH = 5.743 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1697152 + Specific Conductance (µS/cm, 200°C) = 1683803 Density (g/cm³) = 1.09776 Volume (L) = 1.23307 - Viscosity (mPa s) = 0.15186 + Viscosity (mPa s) = 0.15461 Activity of water = 0.797 Ionic strength (mol/kgw) = 6.087e+00 Mass of water (kg) = 1.000e+00 @@ -12535,10 +12535,10 @@ Anhydrite 0.00 -6.29 -6.29 1.000e+01 9.999e+00 -1.368e-03 pH = 5.923 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1577 + Specific Conductance (µS/cm, 200°C) = 1576 Density (g/cm³) = 0.92385 Volume (L) = 1.08263 - Viscosity (mPa s) = 0.15669 + Viscosity (mPa s) = 0.15688 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.471e-03 Mass of water (kg) = 1.000e+00 @@ -12623,10 +12623,10 @@ Anhydrite 0.00 -6.35 -6.35 9.999e+00 9.994e+00 -4.539e-03 pH = 5.876 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 85693 + Specific Conductance (µS/cm, 200°C) = 85568 Density (g/cm³) = 0.93289 Volume (L) = 1.08533 - Viscosity (mPa s) = 0.15777 + Viscosity (mPa s) = 0.15834 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.236e-01 Mass of water (kg) = 1.000e+00 @@ -12720,10 +12720,10 @@ Anhydrite 0.00 -6.37 -6.37 9.994e+00 9.992e+00 -2.562e-03 pH = 5.857 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 159151 + Specific Conductance (µS/cm, 200°C) = 158829 Density (g/cm³) = 0.94128 Volume (L) = 1.08844 - Viscosity (mPa s) = 0.15829 + Viscosity (mPa s) = 0.15908 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.339e-01 Mass of water (kg) = 1.000e+00 @@ -12817,10 +12817,10 @@ Anhydrite 0.00 -6.39 -6.39 9.992e+00 9.989e+00 -2.062e-03 pH = 5.844 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 229004 + Specific Conductance (µS/cm, 200°C) = 228440 Density (g/cm³) = 0.94939 Volume (L) = 1.09175 - Viscosity (mPa s) = 0.15869 + Viscosity (mPa s) = 0.15964 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.421e-01 Mass of water (kg) = 1.000e+00 @@ -12914,10 +12914,10 @@ Anhydrite 0.00 -6.40 -6.40 9.989e+00 9.988e+00 -1.772e-03 pH = 5.835 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 296473 + Specific Conductance (µS/cm, 200°C) = 295634 Density (g/cm³) = 0.95728 Volume (L) = 1.09522 - Viscosity (mPa s) = 0.15903 + Viscosity (mPa s) = 0.16012 Activity of water = 0.974 Ionic strength (mol/kgw) = 8.492e-01 Mass of water (kg) = 1.000e+00 @@ -13011,10 +13011,10 @@ Anhydrite 0.00 -6.41 -6.41 9.988e+00 9.986e+00 -1.564e-03 pH = 5.828 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 362057 + Specific Conductance (µS/cm, 200°C) = 360914 Density (g/cm³) = 0.96498 Volume (L) = 1.09881 - Viscosity (mPa s) = 0.15933 + Viscosity (mPa s) = 0.16055 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.055e+00 Mass of water (kg) = 1.000e+00 @@ -13108,10 +13108,10 @@ Anhydrite 0.00 -6.43 -6.43 9.986e+00 9.983e+00 -3.225e-03 pH = 5.813 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 519243 + Specific Conductance (µS/cm, 200°C) = 517243 Density (g/cm³) = 0.98356 Volume (L) = 1.10821 - Viscosity (mPa s) = 0.15997 + Viscosity (mPa s) = 0.16144 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.568e+00 Mass of water (kg) = 1.000e+00 @@ -13205,10 +13205,10 @@ Anhydrite 0.00 -6.45 -6.45 9.983e+00 9.980e+00 -2.461e-03 pH = 5.800 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 668116 + Specific Conductance (µS/cm, 200°C) = 665151 Density (g/cm³) = 1.00129 Volume (L) = 1.11811 - Viscosity (mPa s) = 0.16049 + Viscosity (mPa s) = 0.16218 Activity of water = 0.935 Ionic strength (mol/kgw) = 2.078e+00 Mass of water (kg) = 1.000e+00 @@ -13302,10 +13302,10 @@ Anhydrite 0.00 -6.47 -6.47 9.980e+00 9.979e+00 -1.861e-03 pH = 5.787 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 809599 + Specific Conductance (µS/cm, 200°C) = 805589 Density (g/cm³) = 1.01828 Volume (L) = 1.12840 - Viscosity (mPa s) = 0.16093 + Viscosity (mPa s) = 0.16282 Activity of water = 0.918 Ionic strength (mol/kgw) = 2.586e+00 Mass of water (kg) = 1.000e+00 @@ -13399,10 +13399,10 @@ Anhydrite 0.00 -6.48 -6.48 9.979e+00 9.977e+00 -1.388e-03 pH = 5.773 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 944258 + Specific Conductance (µS/cm, 200°C) = 939143 Density (g/cm³) = 1.03461 Volume (L) = 1.13902 - Viscosity (mPa s) = 0.16131 + Viscosity (mPa s) = 0.16338 Activity of water = 0.900 Ionic strength (mol/kgw) = 3.091e+00 Mass of water (kg) = 1.000e+00 @@ -13496,10 +13496,10 @@ Anhydrite 0.00 -6.50 -6.50 9.977e+00 9.976e+00 -1.025e-03 pH = 5.757 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1072486 + Specific Conductance (µS/cm, 200°C) = 1066220 Density (g/cm³) = 1.05033 Volume (L) = 1.14992 - Viscosity (mPa s) = 0.16165 + Viscosity (mPa s) = 0.16388 Activity of water = 0.883 Ionic strength (mol/kgw) = 3.595e+00 Mass of water (kg) = 1.000e+00 @@ -13593,10 +13593,10 @@ Anhydrite 0.00 -6.51 -6.51 9.976e+00 9.975e+00 -7.589e-04 pH = 5.739 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1194623 + Specific Conductance (µS/cm, 200°C) = 1187170 Density (g/cm³) = 1.06549 Volume (L) = 1.16108 - Viscosity (mPa s) = 0.16196 + Viscosity (mPa s) = 0.16434 Activity of water = 0.865 Ionic strength (mol/kgw) = 4.098e+00 Mass of water (kg) = 1.000e+00 @@ -13690,10 +13690,10 @@ Anhydrite 0.00 -6.52 -6.52 9.975e+00 9.975e+00 -5.770e-04 pH = 5.718 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1310958 + Specific Conductance (µS/cm, 200°C) = 1302292 Density (g/cm³) = 1.08014 Volume (L) = 1.17246 - Viscosity (mPa s) = 0.16224 + Viscosity (mPa s) = 0.16476 Activity of water = 0.847 Ionic strength (mol/kgw) = 4.601e+00 Mass of water (kg) = 1.000e+00 @@ -13787,10 +13787,10 @@ Anhydrite 0.00 -6.53 -6.53 9.975e+00 9.974e+00 -4.670e-04 pH = 5.694 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1421747 + Specific Conductance (µS/cm, 200°C) = 1411851 Density (g/cm³) = 1.09431 Volume (L) = 1.18404 - Viscosity (mPa s) = 0.16251 + Viscosity (mPa s) = 0.16516 Activity of water = 0.829 Ionic strength (mol/kgw) = 5.103e+00 Mass of water (kg) = 1.000e+00 @@ -13884,10 +13884,10 @@ Anhydrite 0.00 -6.54 -6.54 9.974e+00 9.974e+00 -4.185e-04 pH = 5.666 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1527226 + Specific Conductance (µS/cm, 200°C) = 1516088 Density (g/cm³) = 1.10802 Volume (L) = 1.19581 - Viscosity (mPa s) = 0.16276 + Viscosity (mPa s) = 0.16553 Activity of water = 0.811 Ionic strength (mol/kgw) = 5.604e+00 Mass of water (kg) = 1.000e+00 @@ -13981,10 +13981,10 @@ Anhydrite 0.00 -6.55 -6.55 9.974e+00 9.974e+00 -4.230e-04 pH = 5.636 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1627613 + Specific Conductance (µS/cm, 200°C) = 1615226 Density (g/cm³) = 1.12131 Volume (L) = 1.20775 - Viscosity (mPa s) = 0.16301 + Viscosity (mPa s) = 0.16590 Activity of water = 0.794 Ionic strength (mol/kgw) = 6.106e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/anh_P_NaCl_101.sel b/mytest/anh_P_NaCl_101.sel index dcbe0ba1..9c84dfa7 100644 --- a/mytest/anh_P_NaCl_101.sel +++ b/mytest/anh_P_NaCl_101.sel @@ -1,146 +1,146 @@ Mu SC - 0.000002945351 2.4460046923 - 0.021069013835 3371.2451449068 - 0.250599287338 59571.7791981723 - 0.465856338796 108256.2922892307 - 0.677111181804 154210.1146138171 - 0.886036779078 198332.9647261387 - 1.093316463291 241015.9071475632 - 1.606389000579 342657.9650910025 - 2.114203816224 438288.0367891092 - 2.618311224260 528771.5022179300 - 3.119752173390 614641.3372555575 - 3.619301364343 696276.4111100482 - 4.117551697025 773969.8222290525 - 4.614957643076 847961.3752576226 - 5.111864824009 918455.3386852227 - 5.608533090603 985631.0699042315 - 6.105155325748 1049649.7379759457 - 0.039403558626 5921.4680283237 - 0.275445808464 62069.1001453974 - 0.493929326149 110199.6862494971 - 0.707160577209 155417.0630811840 - 0.917342408744 198689.4260433025 - 1.125388614172 240449.0047177400 - 1.638969906525 339531.3855463160 - 2.146033277607 432349.6722989609 - 2.648673213935 519870.1388368648 - 3.148257773122 602688.1421769878 - 3.645771808775 681224.9079351424 - 4.141944697361 755803.7256420485 - 4.637318024437 826686.6817945736 - 5.132290735718 894094.9754552627 - 5.627152822675 958221.1584927373 - 6.122111547343 1019236.9061308436 - 0.070730850649 9951.9962693513 - 0.313007248981 66022.8253556316 - 0.534710873347 113417.9354139113 - 0.749849771027 157470.3135045035 - 0.961160733336 199253.1012813800 - 1.169799211922 239735.7143366231 - 1.683312710590 335757.9409991397 - 2.188937945962 425399.1743116481 - 2.689388135733 509689.9344668996 - 3.186402173125 589266.8177690392 - 3.681200098838 664578.0648338833 - 4.174661439092 735964.9939447601 - 4.667421605172 803701.9217618275 - 5.159935290144 868023.5664177875 - 5.652522429546 929121.4958288217 - 6.145402919581 987171.3511598040 - 0.005628333857 1379.1711690258 - 0.222782295975 75749.7430407932 - 0.432065121677 141127.8503546468 - 0.639290071109 203350.1668427354 - 0.845319589711 263472.8254526816 - 1.050498011999 321935.9257616315 - 1.560728813852 462150.8892803171 - 2.068050613106 595104.3123547259 - 2.573192373189 721614.0403797020 - 3.076671352741 842165.8888601249 - 3.578902433781 957106.6151788027 - 4.080227302433 1066712.3248175492 - 4.580926742189 1171218.3331360826 - 5.081229688894 1270834.2173313119 - 5.581321766145 1365752.1833469085 - 6.081353424670 1456151.9982948843 - 0.010613093002 2470.6312737272 - 0.233370343725 76487.0667406872 - 0.445084253029 140667.9727987762 - 0.653925574907 201431.0186710905 - 0.861121871198 259925.7837744581 - 1.067162880053 316640.5845204063 - 1.578653871279 452104.4617189944 - 2.086381783513 579938.8709240940 - 2.591385739950 701129.3022203749 - 3.094379232939 816278.5104682156 - 3.595912656619 925820.7724892033 - 4.096423072818 1030099.6372383875 - 4.596257964488 1129403.1835318843 - 5.095692024326 1223982.5966230647 - 5.594941342014 1314062.9840026249 - 6.094175874498 1399850.0770092490 - 0.019751189636 4330.8421053108 - 0.248784370342 78006.7923243758 - 0.463465669925 140404.2712737048 - 0.674304948824 199590.8394779261 - 0.882957244911 256387.3624927527 - 1.090086121284 311312.1018483393 - 1.603210480017 442036.1158765696 - 2.111537063349 564914.6303206920 - 2.616481659548 681051.0641781322 - 3.118995662274 791131.6612311720 - 3.619793692609 895652.0397908260 - 4.119428860283 995001.7081264001 - 4.618330620021 1089503.5650027115 - 5.116830971504 1179435.2762403802 - 5.615185457264 1265042.0696846745 - 6.113590715060 1346544.8555643123 - 0.001596527495 497.6254274208 - 0.211266811691 85727.9895270484 - 0.417484624625 162287.4899084247 - 0.622758927495 236007.4676273660 - 0.827464551631 307873.4516662993 - 1.031747984350 378259.3266792855 - 1.541010213062 548711.9891550046 - 2.048564641297 711987.2792411410 - 2.554692193633 868390.8009981051 - 3.059633405023 1018022.1286836887 - 3.563621581222 1160932.2689033083 - 4.066880072193 1297169.9265230885 - 4.569616196631 1426796.3870500501 - 5.072018116865 1549889.9077797700 - 5.574255020990 1666546.1732929163 - 6.076479762825 1776877.1159272112 - 0.003094362071 930.1305919695 - 0.216664001824 85753.7812492311 - 0.424700398705 160815.5014999918 - 0.631288844813 232585.2306005004 - 0.837024461560 302180.4275898022 - 1.042138895429 370048.5593961300 - 1.552855723870 533429.7718164419 - 2.061217792040 688926.0631830255 - 2.567692686156 837215.5085727919 - 3.072651996319 978680.0981558627 - 3.576429311246 1113593.0719500491 - 4.079325178937 1242180.0358156413 - 4.581605366857 1364643.1286805922 - 5.083501268857 1481171.9757026506 - 5.585213195876 1591949.1124635015 - 6.086915694346 1697152.7403507028 - 0.005470716878 1577.2200154876 - 0.223623400347 85693.4815474258 - 0.433871406183 159151.8458964000 - 0.642118151620 229004.4354762677 - 0.849206196602 296473.2594583992 - 1.055460598697 362057.3719900127 - 1.568361149345 519243.4255776365 - 2.078204976192 668116.8753014837 - 2.585648918323 809599.2606151694 - 3.091199967746 944258.2662532493 - 3.595299469354 1072486.9560689195 - 4.098335195921 1194623.9126671415 - 4.600643233590 1310958.2741609162 - 5.102511433963 1421747.4457042296 - 5.604185611469 1527226.3668781032 - 6.105877621012 1627613.0534637391 + 0.000002945351 2.4460034640 + 0.021069013835 3370.1417086417 + 0.250599287338 59541.3675349992 + 0.465856338796 108182.5148930618 + 0.677111181804 154084.3684255772 + 0.886036779078 198148.6699858330 + 1.093316463291 240767.6899650529 + 1.606389000579 342231.4161629683 + 2.114203816224 437662.8714506736 + 2.618311224260 527932.5878356406 + 3.119752173390 613577.0565581674 + 3.619301364343 694977.7461088615 + 4.117551697025 772429.7854125696 + 4.614957643076 846174.6286850655 + 5.111864824009 916417.9223778192 + 5.608533090603 983340.1974736378 + 6.105155325748 1047103.6358291688 + 0.039403558626 5918.8496412884 + 0.275445808464 62035.5082959196 + 0.493929326149 110122.6391522865 + 0.707160577209 155288.8497196058 + 0.917342408744 198504.1404517001 + 1.125388614172 240201.8295919947 + 1.638969906525 339112.9314969657 + 2.146033277607 431741.8876342239 + 2.648673213935 519059.6180782488 + 3.148257773122 601664.6352519786 + 3.645771808775 679980.4944666822 + 4.141944697361 754332.3080707121 + 4.637318024437 824983.6485820429 + 5.132290735718 892156.9614279495 + 5.627152822675 956045.8638474238 + 6.122111547343 1016822.9528982734 + 0.070730850649 9946.1836755473 + 0.313007248981 65983.7072931901 + 0.534710873347 113334.9272833717 + 0.749849771027 157337.1019021485 + 0.961160733336 199064.9758153662 + 1.169799211922 239488.0796937139 + 1.683312710590 335346.5282232226 + 2.188937945962 424808.1477939792 + 2.689388135733 508907.5433288399 + 3.186402173125 588284.0826874718 + 3.681200098838 663388.0595282097 + 4.174661439092 734562.4098155133 + 4.667421605172 802082.7808784094 + 5.159935290144 866185.0172468987 + 5.652522429546 927061.6577038404 + 6.145402919581 984889.1892511459 + 0.005628333857 1378.7033407509 + 0.222782295975 75679.4307585101 + 0.432065121677 140946.2981880100 + 0.639290071109 203032.0830174641 + 0.845319589711 262998.6705845305 + 1.050498011999 321289.5884453677 + 1.560728813852 461017.9304410868 + 2.068050613106 593422.5933116194 + 2.573192373189 719336.8890899151 + 3.076671352741 839257.4705077695 + 3.578902433781 953539.2609650934 + 4.080227302433 1062464.8177628336 + 4.580926742189 1166274.7260769489 + 5.081229688894 1265182.9716453331 + 5.581321766145 1359385.5128428459 + 6.081353424670 1449065.3513852023 + 0.010613093002 2469.5028329851 + 0.233370343725 76415.1491779630 + 0.445084253029 140487.6048858357 + 0.653925574907 201119.1581996163 + 0.861121871198 259464.6973614460 + 1.067162880053 316015.7130007192 + 1.578653871279 451019.6817437364 + 2.086381783513 578338.7721433266 + 2.591385739950 698972.5731752638 + 3.094379232939 813533.5970836321 + 3.595912656619 922463.3932176093 + 4.096423072818 1026111.2065640892 + 4.596257964488 1124769.7375332811 + 5.095692024326 1218694.0180225633 + 5.594941342014 1308112.4165939458 + 6.094175874498 1393233.4663540309 + 0.019751189636 4328.1900661833 + 0.248784370342 77931.0486393310 + 0.463465669925 140223.1025772051 + 0.674304948824 199282.7301372097 + 0.882957244911 255936.3048892125 + 1.090086121284 310704.9894625798 + 1.603210480017 440993.6668007352 + 2.111537063349 563387.4889975945 + 2.616481659548 679002.6596222552 + 3.118995662274 788534.1816712167 + 3.619793692609 892484.1483908945 + 4.119428860283 991247.1112309606 + 4.618330620021 1085150.0477692464 + 5.116830971504 1174474.0139948167 + 5.615185457264 1259467.1111189832 + 6.113590715060 1340352.7190926089 + 0.001596527495 497.4750012666 + 0.211266811691 85600.3230303601 + 0.417484624625 161946.4967865097 + 0.622758927495 235399.6010127207 + 0.827464551631 306956.6872674375 + 1.031747984350 376998.5985944513 + 1.541010213062 546467.5977907605 + 2.048564641297 708620.9686142016 + 2.554692193633 863798.4205280609 + 3.059633405023 1012124.3896094288 + 3.563621581222 1153669.2563337686 + 4.066880072193 1288497.4568304447 + 4.569616196631 1416683.4071491940 + 5.072018116865 1538316.5352677610 + 5.574255020990 1653502.1562743941 + 6.076479762825 1762360.5833313433 + 0.003094362071 929.7479493246 + 0.216664001824 85627.7661693035 + 0.424700398705 160485.0606908271 + 0.631288844813 232001.8054904094 + 0.837024461560 301306.2542767355 + 1.042138895429 368852.3688120560 + 1.552855723870 531319.1956422639 + 2.061217792040 685780.0699615396 + 2.567692686156 832943.5534222472 + 3.072651996319 973213.2846517453 + 3.576429311246 1106878.9706630711 + 4.079325178937 1234179.3145238496 + 4.581605366857 1355327.2051114722 + 5.083501268857 1470521.2948468965 + 5.585213195876 1579951.8281173129 + 6.086915694346 1683803.6721681172 + 0.005470716878 1576.3788390752 + 0.223623400347 85568.0398396245 + 0.433871406183 158829.5110268223 + 0.642118151620 228440.8666954723 + 0.849206196602 295634.1766456264 + 1.055460598697 360914.5497201643 + 1.568361149345 517243.2870494207 + 2.078204976192 665151.8620059134 + 2.585648918323 805589.4934891112 + 3.091199967746 939143.1461089551 + 3.595299469354 1066220.2823518477 + 4.098335195921 1187170.7574266070 + 4.600643233590 1302292.8456925603 + 5.102511433963 1411851.5526361116 + 5.604185611469 1516088.2668976220 + 6.105877621012 1615226.5611489865 diff --git a/mytest/anhy_K2SO4.out b/mytest/anhy_K2SO4.out index dc305eaf..92e660c3 100644 --- a/mytest/anhy_K2SO4.out +++ b/mytest/anhy_K2SO4.out @@ -123,10 +123,10 @@ Syngenite Element not present. 0.000e+00 0 0.000e+00 pH = 6.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3371 + Specific Conductance (µS/cm, 100°C) = 3369 Density (g/cm³) = 0.95906 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28294 + Viscosity (mPa s) = 0.28315 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.107e-02 Mass of water (kg) = 1.000e+00 @@ -243,10 +243,10 @@ Syngenite -8.01 -15.59 -7.58 0.000e+00 0 0.000e+00 pH = 6.308 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3416 + Specific Conductance (µS/cm, 100°C) = 3415 Density (g/cm³) = 0.95907 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28294 + Viscosity (mPa s) = 0.28315 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.121e-02 Mass of water (kg) = 1.000e+00 @@ -337,10 +337,10 @@ Syngenite -4.61 -12.19 -7.58 0.000e+00 0 0.000e+00 pH = 6.375 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 5489 + Specific Conductance (µS/cm, 100°C) = 5488 Density (g/cm³) = 0.95948 Volume (L) = 1.04358 - Viscosity (mPa s) = 0.28297 + Viscosity (mPa s) = 0.28318 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.914e-02 Mass of water (kg) = 1.000e+00 @@ -431,10 +431,10 @@ Syngenite -3.91 -11.49 -7.58 0.000e+00 0 0.000e+00 pH = 6.426 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 7861 + Specific Conductance (µS/cm, 100°C) = 7859 Density (g/cm³) = 0.95997 Volume (L) = 1.04372 - Viscosity (mPa s) = 0.28316 + Viscosity (mPa s) = 0.28340 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.963e-02 Mass of water (kg) = 1.000e+00 @@ -525,10 +525,10 @@ Syngenite -3.49 -11.07 -7.58 0.000e+00 0 0.000e+00 pH = 6.465 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 10304 + Specific Conductance (µS/cm, 100°C) = 10302 Density (g/cm³) = 0.96049 Volume (L) = 1.04386 - Viscosity (mPa s) = 0.28340 + Viscosity (mPa s) = 0.28366 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.105e-02 Mass of water (kg) = 1.000e+00 @@ -619,10 +619,10 @@ Syngenite -3.20 -10.78 -7.58 0.000e+00 0 0.000e+00 pH = 6.494 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 12745 + Specific Conductance (µS/cm, 100°C) = 12743 Density (g/cm³) = 0.96102 Volume (L) = 1.04400 - Viscosity (mPa s) = 0.28363 + Viscosity (mPa s) = 0.28392 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.284e-02 Mass of water (kg) = 1.000e+00 @@ -713,10 +713,10 @@ Syngenite -2.97 -10.55 -7.58 0.000e+00 0 0.000e+00 pH = 6.519 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 15163 + Specific Conductance (µS/cm, 100°C) = 15160 Density (g/cm³) = 0.96156 Volume (L) = 1.04414 - Viscosity (mPa s) = 0.28387 + Viscosity (mPa s) = 0.28418 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.480e-02 Mass of water (kg) = 1.000e+00 @@ -807,10 +807,10 @@ Syngenite -1.88 -9.46 -7.58 0.000e+00 0 0.000e+00 pH = 6.641 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 37946 + Specific Conductance (µS/cm, 100°C) = 37938 Density (g/cm³) = 0.96693 Volume (L) = 1.04559 - Viscosity (mPa s) = 0.28614 + Viscosity (mPa s) = 0.28663 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.961e-01 Mass of water (kg) = 1.000e+00 @@ -901,10 +901,10 @@ Syngenite -1.40 -8.98 -7.58 0.000e+00 0 0.000e+00 pH = 6.697 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 59070 + Specific Conductance (µS/cm, 100°C) = 59056 Density (g/cm³) = 0.97225 Volume (L) = 1.04710 - Viscosity (mPa s) = 0.28831 + Viscosity (mPa s) = 0.28893 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.177e-01 Mass of water (kg) = 1.000e+00 @@ -995,10 +995,10 @@ Syngenite -1.10 -8.68 -7.58 0.000e+00 0 0.000e+00 pH = 6.733 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 79203 + Specific Conductance (µS/cm, 100°C) = 79181 Density (g/cm³) = 0.97750 Volume (L) = 1.04865 - Viscosity (mPa s) = 0.29045 + Viscosity (mPa s) = 0.29118 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.392e-01 Mass of water (kg) = 1.000e+00 @@ -1089,10 +1089,10 @@ Syngenite -0.91 -8.49 -7.58 0.000e+00 0 0.000e+00 pH = 6.757 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 95536 + Specific Conductance (µS/cm, 100°C) = 95507 Density (g/cm³) = 0.98187 Volume (L) = 1.04986 - Viscosity (mPa s) = 0.29225 + Viscosity (mPa s) = 0.29305 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.410e-01 Mass of water (kg) = 9.999e-01 @@ -1183,10 +1183,10 @@ Syngenite -0.84 -8.42 -7.58 0.000e+00 0 0.000e+00 pH = 6.768 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 103846 + Specific Conductance (µS/cm, 100°C) = 103815 Density (g/cm³) = 0.98411 Volume (L) = 1.05014 - Viscosity (mPa s) = 0.29317 + Viscosity (mPa s) = 0.29401 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.935e-01 Mass of water (kg) = 9.995e-01 @@ -1277,10 +1277,10 @@ Syngenite -0.56 -8.14 -7.58 0.000e+00 0 0.000e+00 pH = 6.817 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 149597 + Specific Conductance (µS/cm, 100°C) = 149544 Density (g/cm³) = 0.99678 Volume (L) = 1.05427 - Viscosity (mPa s) = 0.29853 + Viscosity (mPa s) = 0.29955 Activity of water = 0.989 Ionic strength (mol/kgw) = 8.934e-01 Mass of water (kg) = 9.995e-01 @@ -1371,10 +1371,10 @@ Syngenite -0.36 -7.94 -7.58 0.000e+00 0 0.000e+00 pH = 6.854 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 193099 + Specific Conductance (µS/cm, 100°C) = 193023 Density (g/cm³) = 1.00920 Volume (L) = 1.05857 - Viscosity (mPa s) = 0.30406 + Viscosity (mPa s) = 0.30525 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.194e+00 Mass of water (kg) = 9.995e-01 @@ -1465,10 +1465,10 @@ Syngenite -0.21 -7.79 -7.58 0.000e+00 0 0.000e+00 pH = 6.885 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 234774 + Specific Conductance (µS/cm, 100°C) = 234673 Density (g/cm³) = 1.02140 Volume (L) = 1.06301 - Viscosity (mPa s) = 0.30978 + Viscosity (mPa s) = 0.31110 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.495e+00 Mass of water (kg) = 9.995e-01 @@ -1559,10 +1559,10 @@ Syngenite -0.09 -7.67 -7.58 0.000e+00 0 0.000e+00 pH = 6.913 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 274858 + Specific Conductance (µS/cm, 100°C) = 274733 Density (g/cm³) = 1.03337 Volume (L) = 1.06759 - Viscosity (mPa s) = 0.31567 + Viscosity (mPa s) = 0.31712 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.795e+00 Mass of water (kg) = 9.995e-01 @@ -1653,10 +1653,10 @@ Syngenite 0.00 -7.58 -7.58 0.000e+00 1.151e-02 1.151e-02 pH = 6.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 310047 + Specific Conductance (µS/cm, 100°C) = 309898 Density (g/cm³) = 1.04406 Volume (L) = 1.07167 - Viscosity (mPa s) = 0.32118 + Viscosity (mPa s) = 0.32274 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.069e+00 Mass of water (kg) = 9.993e-01 @@ -1747,10 +1747,10 @@ Syngenite 0.00 -7.58 -7.58 1.151e-02 1.381e-01 1.266e-01 pH = 6.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 310047 + Specific Conductance (µS/cm, 100°C) = 309898 Density (g/cm³) = 1.04406 Volume (L) = 1.06972 - Viscosity (mPa s) = 0.32118 + Viscosity (mPa s) = 0.32274 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.069e+00 Mass of water (kg) = 9.975e-01 @@ -1841,10 +1841,10 @@ Syngenite 0.00 -7.58 -7.58 1.381e-01 1.454e-01 7.383e-03 pH = 6.959 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 345102 + Specific Conductance (µS/cm, 100°C) = 344931 Density (g/cm³) = 1.05483 Volume (L) = 1.07409 - Viscosity (mPa s) = 0.32691 + Viscosity (mPa s) = 0.32857 Activity of water = 0.973 Ionic strength (mol/kgw) = 2.348e+00 Mass of water (kg) = 9.974e-01 @@ -1935,10 +1935,10 @@ Syngenite -0.00 -7.58 -7.58 1.454e-01 1.461e-01 6.547e-04 pH = 6.983 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 381012 + Specific Conductance (µS/cm, 100°C) = 380816 Density (g/cm³) = 1.06605 Volume (L) = 1.07894 - Viscosity (mPa s) = 0.33315 + Viscosity (mPa s) = 0.33491 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.645e+00 Mass of water (kg) = 9.974e-01 @@ -2029,10 +2029,10 @@ Syngenite 0.00 -7.58 -7.58 1.461e-01 1.466e-01 5.055e-04 pH = 7.006 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 415837 + Specific Conductance (µS/cm, 100°C) = 415616 Density (g/cm³) = 1.07710 Volume (L) = 1.08389 - Viscosity (mPa s) = 0.33959 + Viscosity (mPa s) = 0.34145 Activity of water = 0.966 Ionic strength (mol/kgw) = 2.942e+00 Mass of water (kg) = 9.974e-01 @@ -2123,10 +2123,10 @@ Syngenite 0.00 -7.58 -7.58 1.466e-01 1.470e-01 4.031e-04 pH = 7.028 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 449592 + Specific Conductance (µS/cm, 100°C) = 449347 Density (g/cm³) = 1.08798 Volume (L) = 1.08895 - Viscosity (mPa s) = 0.34622 + Viscosity (mPa s) = 0.34817 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.240e+00 Mass of water (kg) = 9.974e-01 @@ -2217,10 +2217,10 @@ Syngenite 0.00 -7.58 -7.58 1.470e-01 1.473e-01 3.298e-04 pH = 7.050 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 482297 + Specific Conductance (µS/cm, 100°C) = 482029 Density (g/cm³) = 1.09867 Volume (L) = 1.09411 - Viscosity (mPa s) = 0.35303 + Viscosity (mPa s) = 0.35506 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.538e+00 Mass of water (kg) = 9.973e-01 @@ -2311,10 +2311,10 @@ Syngenite 0.00 -7.58 -7.58 1.473e-01 1.476e-01 2.754e-04 pH = 7.072 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 513977 + Specific Conductance (µS/cm, 100°C) = 513685 Density (g/cm³) = 1.10919 Volume (L) = 1.09937 - Viscosity (mPa s) = 0.36002 + Viscosity (mPa s) = 0.36214 Activity of water = 0.956 Ionic strength (mol/kgw) = 3.837e+00 Mass of water (kg) = 9.973e-01 @@ -2405,10 +2405,10 @@ Syngenite 0.00 -7.58 -7.58 1.476e-01 1.478e-01 1.452e-04 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2499,10 +2499,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2593,10 +2593,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2687,10 +2687,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2781,10 +2781,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2875,10 +2875,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -2969,10 +2969,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -3063,10 +3063,10 @@ Syngenite 0.00 -7.58 -7.58 1.478e-01 1.478e-01 0.000e+00 pH = 7.085 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 532583 + Specific Conductance (µS/cm, 100°C) = 532278 Density (g/cm³) = 1.11544 Volume (L) = 1.10258 - Viscosity (mPa s) = 0.36432 + Viscosity (mPa s) = 0.36649 Activity of water = 0.954 Ionic strength (mol/kgw) = 4.017e+00 Mass of water (kg) = 9.973e-01 @@ -3176,10 +3176,10 @@ Syngenite -8.69 -16.81 -8.11 0.000e+00 0 0.000e+00 pH = 6.100 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1440 + Specific Conductance (µS/cm, 150°C) = 1439 Density (g/cm³) = 0.91722 Volume (L) = 1.09047 - Viscosity (mPa s) = 0.18294 + Viscosity (mPa s) = 0.18308 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.758e-03 Mass of water (kg) = 1.000e+00 @@ -3275,7 +3275,7 @@ Syngenite -5.06 -13.17 -8.11 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 150°C) = 4766 Density (g/cm³) = 0.91770 Volume (L) = 1.09057 - Viscosity (mPa s) = 0.18303 + Viscosity (mPa s) = 0.18322 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.550e-02 Mass of water (kg) = 1.000e+00 @@ -3368,10 +3368,10 @@ Syngenite -4.32 -12.44 -8.11 0.000e+00 0 0.000e+00 pH = 6.379 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 8344 + Specific Conductance (µS/cm, 150°C) = 8343 Density (g/cm³) = 0.91826 Volume (L) = 1.09067 - Viscosity (mPa s) = 0.18316 + Viscosity (mPa s) = 0.18340 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.733e-02 Mass of water (kg) = 1.000e+00 @@ -3464,10 +3464,10 @@ Syngenite -3.90 -12.02 -8.11 0.000e+00 0 0.000e+00 pH = 6.430 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 11825 + Specific Conductance (µS/cm, 150°C) = 11823 Density (g/cm³) = 0.91882 Volume (L) = 1.09077 - Viscosity (mPa s) = 0.18327 + Viscosity (mPa s) = 0.18356 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.939e-02 Mass of water (kg) = 1.000e+00 @@ -3560,10 +3560,10 @@ Syngenite -3.61 -11.72 -8.11 0.000e+00 0 0.000e+00 pH = 6.465 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 15210 + Specific Conductance (µS/cm, 150°C) = 15207 Density (g/cm³) = 0.91938 Volume (L) = 1.09086 - Viscosity (mPa s) = 0.18337 + Viscosity (mPa s) = 0.18370 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.151e-02 Mass of water (kg) = 1.000e+00 @@ -3656,10 +3656,10 @@ Syngenite -3.39 -11.50 -8.11 0.000e+00 0 0.000e+00 pH = 6.492 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 18516 + Specific Conductance (µS/cm, 150°C) = 18512 Density (g/cm³) = 0.91994 Volume (L) = 1.09096 - Viscosity (mPa s) = 0.18346 + Viscosity (mPa s) = 0.18383 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.364e-02 Mass of water (kg) = 1.000e+00 @@ -3752,10 +3752,10 @@ Syngenite -2.34 -10.46 -8.12 0.000e+00 0 0.000e+00 pH = 6.613 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 48991 + Specific Conductance (µS/cm, 150°C) = 48975 Density (g/cm³) = 0.92544 Volume (L) = 1.09205 - Viscosity (mPa s) = 0.18433 + Viscosity (mPa s) = 0.18495 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.848e-01 Mass of water (kg) = 1.000e+00 @@ -3848,10 +3848,10 @@ Syngenite -1.89 -10.01 -8.12 0.000e+00 0 0.000e+00 pH = 6.664 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 76982 + Specific Conductance (µS/cm, 150°C) = 76951 Density (g/cm³) = 0.93084 Volume (L) = 1.09324 - Viscosity (mPa s) = 0.18524 + Viscosity (mPa s) = 0.18604 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.058e-01 Mass of water (kg) = 1.000e+00 @@ -3944,10 +3944,10 @@ Syngenite -1.60 -9.72 -8.12 0.000e+00 0 0.000e+00 pH = 6.697 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 103616 + Specific Conductance (µS/cm, 150°C) = 103567 Density (g/cm³) = 0.93616 Volume (L) = 1.09451 - Viscosity (mPa s) = 0.18622 + Viscosity (mPa s) = 0.18717 Activity of water = 0.995 Ionic strength (mol/kgw) = 4.266e-01 Mass of water (kg) = 1.000e+00 @@ -4040,10 +4040,10 @@ Syngenite -1.40 -9.51 -8.12 0.000e+00 0 0.000e+00 pH = 6.721 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 129310 + Specific Conductance (µS/cm, 150°C) = 129241 Density (g/cm³) = 0.94140 Volume (L) = 1.09584 - Viscosity (mPa s) = 0.18729 + Viscosity (mPa s) = 0.18836 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.475e-01 Mass of water (kg) = 1.000e+00 @@ -4136,10 +4136,10 @@ Syngenite -1.23 -9.35 -8.12 0.000e+00 0 0.000e+00 pH = 6.741 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 154274 + Specific Conductance (µS/cm, 150°C) = 154184 Density (g/cm³) = 0.94659 Volume (L) = 1.09723 - Viscosity (mPa s) = 0.18844 + Viscosity (mPa s) = 0.18962 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.683e-01 Mass of water (kg) = 1.000e+00 @@ -4232,10 +4232,10 @@ Syngenite -0.93 -9.05 -8.12 0.000e+00 0 0.000e+00 pH = 6.780 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 214218 + Specific Conductance (µS/cm, 150°C) = 214070 Density (g/cm³) = 0.95931 Volume (L) = 1.10092 - Viscosity (mPa s) = 0.19160 + Viscosity (mPa s) = 0.19302 Activity of water = 0.989 Ionic strength (mol/kgw) = 9.704e-01 Mass of water (kg) = 1.000e+00 @@ -4328,10 +4328,10 @@ Syngenite -0.72 -8.84 -8.12 0.000e+00 0 0.000e+00 pH = 6.811 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 271360 + Specific Conductance (µS/cm, 150°C) = 271150 Density (g/cm³) = 0.97172 Volume (L) = 1.10487 - Viscosity (mPa s) = 0.19514 + Viscosity (mPa s) = 0.19677 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.272e+00 Mass of water (kg) = 1.000e+00 @@ -4424,10 +4424,10 @@ Syngenite -0.56 -8.68 -8.12 0.000e+00 0 0.000e+00 pH = 6.838 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 326188 + Specific Conductance (µS/cm, 150°C) = 325912 Density (g/cm³) = 0.98383 Volume (L) = 1.10905 - Viscosity (mPa s) = 0.19900 + Viscosity (mPa s) = 0.20081 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.574e+00 Mass of water (kg) = 1.000e+00 @@ -4520,10 +4520,10 @@ Syngenite -0.47 -8.59 -8.12 0.000e+00 0 0.000e+00 pH = 6.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 363874 + Specific Conductance (µS/cm, 150°C) = 363551 Density (g/cm³) = 0.99226 Volume (L) = 1.11156 - Viscosity (mPa s) = 0.20192 + Viscosity (mPa s) = 0.20385 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.789e+00 Mass of water (kg) = 9.995e-01 @@ -4616,10 +4616,10 @@ Syngenite -0.37 -8.49 -8.12 0.000e+00 0 0.000e+00 pH = 6.880 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 415262 + Specific Conductance (µS/cm, 150°C) = 414873 Density (g/cm³) = 1.00389 Volume (L) = 1.11609 - Viscosity (mPa s) = 0.20624 + Viscosity (mPa s) = 0.20833 Activity of water = 0.977 Ionic strength (mol/kgw) = 2.090e+00 Mass of water (kg) = 9.995e-01 @@ -4712,10 +4712,10 @@ Syngenite -0.29 -8.41 -8.12 0.000e+00 0 0.000e+00 pH = 6.903 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 464856 + Specific Conductance (µS/cm, 150°C) = 464401 Density (g/cm³) = 1.01526 Volume (L) = 1.12080 - Viscosity (mPa s) = 0.21081 + Viscosity (mPa s) = 0.21304 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.392e+00 Mass of water (kg) = 9.995e-01 @@ -4808,10 +4808,10 @@ Syngenite -0.22 -8.33 -8.12 0.000e+00 0 0.000e+00 pH = 6.926 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 512748 + Specific Conductance (µS/cm, 150°C) = 512228 Density (g/cm³) = 1.02638 Volume (L) = 1.12568 - Viscosity (mPa s) = 0.21560 + Viscosity (mPa s) = 0.21797 Activity of water = 0.971 Ionic strength (mol/kgw) = 2.693e+00 Mass of water (kg) = 9.995e-01 @@ -4904,10 +4904,10 @@ Syngenite -0.15 -8.27 -8.12 0.000e+00 0 0.000e+00 pH = 6.947 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 559009 + Specific Conductance (µS/cm, 150°C) = 558426 Density (g/cm³) = 1.03726 Volume (L) = 1.13072 - Viscosity (mPa s) = 0.22060 + Viscosity (mPa s) = 0.22310 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.994e+00 Mass of water (kg) = 9.995e-01 @@ -5000,10 +5000,10 @@ Syngenite -0.09 -8.21 -8.12 0.000e+00 0 0.000e+00 pH = 6.969 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 603697 + Specific Conductance (µS/cm, 150°C) = 603053 Density (g/cm³) = 1.04790 Volume (L) = 1.13591 - Viscosity (mPa s) = 0.22580 + Viscosity (mPa s) = 0.22842 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.296e+00 Mass of water (kg) = 9.995e-01 @@ -5096,10 +5096,10 @@ Syngenite -0.04 -8.16 -8.12 0.000e+00 0 0.000e+00 pH = 6.990 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 646863 + Specific Conductance (µS/cm, 150°C) = 646160 Density (g/cm³) = 1.05831 Volume (L) = 1.14125 - Viscosity (mPa s) = 0.23119 + Viscosity (mPa s) = 0.23393 Activity of water = 0.961 Ionic strength (mol/kgw) = 3.597e+00 Mass of water (kg) = 9.995e-01 @@ -5192,10 +5192,10 @@ Syngenite 0.00 -8.12 -8.12 0.000e+00 2.510e-02 2.510e-02 pH = 7.007 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 680486 + Specific Conductance (µS/cm, 150°C) = 679738 Density (g/cm³) = 1.06651 Volume (L) = 1.14523 - Viscosity (mPa s) = 0.23566 + Viscosity (mPa s) = 0.23848 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.839e+00 Mass of water (kg) = 9.991e-01 @@ -5288,10 +5288,10 @@ Syngenite 0.00 -8.12 -8.12 2.510e-02 1.444e-01 1.193e-01 pH = 7.009 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 683260 + Specific Conductance (µS/cm, 150°C) = 682508 Density (g/cm³) = 1.06719 Volume (L) = 1.14364 - Viscosity (mPa s) = 0.23604 + Viscosity (mPa s) = 0.23887 Activity of water = 0.959 Ionic strength (mol/kgw) = 3.860e+00 Mass of water (kg) = 9.974e-01 @@ -5384,10 +5384,10 @@ Syngenite 0.00 -8.12 -8.12 1.444e-01 1.447e-01 3.399e-04 pH = 7.030 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 723442 + Specific Conductance (µS/cm, 150°C) = 722639 Density (g/cm³) = 1.07709 Volume (L) = 1.14920 - Viscosity (mPa s) = 0.24169 + Viscosity (mPa s) = 0.24463 Activity of water = 0.955 Ionic strength (mol/kgw) = 4.158e+00 Mass of water (kg) = 9.974e-01 @@ -5480,10 +5480,10 @@ Syngenite 0.00 -8.12 -8.12 1.447e-01 1.450e-01 2.896e-04 pH = 7.051 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 762272 + Specific Conductance (µS/cm, 150°C) = 761419 Density (g/cm³) = 1.08678 Volume (L) = 1.15489 - Viscosity (mPa s) = 0.24751 + Viscosity (mPa s) = 0.25056 Activity of water = 0.952 Ionic strength (mol/kgw) = 4.457e+00 Mass of water (kg) = 9.974e-01 @@ -5576,10 +5576,10 @@ Syngenite 0.00 -8.12 -8.12 1.450e-01 1.453e-01 2.479e-04 pH = 7.072 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 799773 + Specific Conductance (µS/cm, 150°C) = 798873 Density (g/cm³) = 1.09627 Volume (L) = 1.16072 - Viscosity (mPa s) = 0.25351 + Viscosity (mPa s) = 0.25665 Activity of water = 0.949 Ionic strength (mol/kgw) = 4.756e+00 Mass of water (kg) = 9.974e-01 @@ -5672,10 +5672,10 @@ Syngenite 0.00 -8.12 -8.12 1.453e-01 1.455e-01 2.127e-04 pH = 7.092 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 835970 + Specific Conductance (µS/cm, 150°C) = 835025 Density (g/cm³) = 1.10556 Volume (L) = 1.16667 - Viscosity (mPa s) = 0.25966 + Viscosity (mPa s) = 0.26290 Activity of water = 0.946 Ionic strength (mol/kgw) = 5.055e+00 Mass of water (kg) = 9.974e-01 @@ -5768,10 +5768,10 @@ Syngenite 0.00 -8.12 -8.12 1.455e-01 1.455e-01 5.538e-05 pH = 7.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 846145 + Specific Conductance (µS/cm, 150°C) = 845188 Density (g/cm³) = 1.10819 Volume (L) = 1.16840 - Viscosity (mPa s) = 0.26146 + Viscosity (mPa s) = 0.26473 Activity of water = 0.945 Ionic strength (mol/kgw) = 5.141e+00 Mass of water (kg) = 9.974e-01 @@ -5864,10 +5864,10 @@ Syngenite -0.00 -8.12 -8.12 1.455e-01 1.455e-01 1.865e-14 pH = 7.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 846145 + Specific Conductance (µS/cm, 150°C) = 845188 Density (g/cm³) = 1.10819 Volume (L) = 1.16840 - Viscosity (mPa s) = 0.26146 + Viscosity (mPa s) = 0.26473 Activity of water = 0.945 Ionic strength (mol/kgw) = 5.141e+00 Mass of water (kg) = 9.974e-01 @@ -5960,10 +5960,10 @@ Syngenite -0.00 -8.12 -8.12 1.455e-01 1.455e-01 0.000e+00 pH = 7.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 846145 + Specific Conductance (µS/cm, 150°C) = 845188 Density (g/cm³) = 1.10819 Volume (L) = 1.16840 - Viscosity (mPa s) = 0.26146 + Viscosity (mPa s) = 0.26473 Activity of water = 0.945 Ionic strength (mol/kgw) = 5.141e+00 Mass of water (kg) = 9.974e-01 @@ -6056,10 +6056,10 @@ Syngenite -0.00 -8.12 -8.12 1.455e-01 1.455e-01 0.000e+00 pH = 7.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 846145 + Specific Conductance (µS/cm, 150°C) = 845188 Density (g/cm³) = 1.10819 Volume (L) = 1.16840 - Viscosity (mPa s) = 0.26146 + Viscosity (mPa s) = 0.26473 Activity of water = 0.945 Ionic strength (mol/kgw) = 5.141e+00 Mass of water (kg) = 9.974e-01 @@ -6173,7 +6173,7 @@ Syngenite -9.56 -18.08 -8.52 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 200°C) = 570 Density (g/cm³) = 0.86474 Volume (L) = 1.15649 - Viscosity (mPa s) = 0.13506 + Viscosity (mPa s) = 0.13515 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.727e-03 Mass of water (kg) = 1.000e+00 @@ -6266,10 +6266,10 @@ Syngenite -5.63 -14.15 -8.52 0.000e+00 0 0.000e+00 pH = 6.435 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 4871 + Specific Conductance (µS/cm, 200°C) = 4870 Density (g/cm³) = 0.86533 Volume (L) = 1.15648 - Viscosity (mPa s) = 0.13735 + Viscosity (mPa s) = 0.13756 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.284e-02 Mass of water (kg) = 1.000e+00 @@ -6362,10 +6362,10 @@ Syngenite -4.91 -13.43 -8.52 0.000e+00 0 0.000e+00 pH = 6.529 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 9055 + Specific Conductance (µS/cm, 200°C) = 9053 Density (g/cm³) = 0.86594 Volume (L) = 1.15647 - Viscosity (mPa s) = 0.14062 + Viscosity (mPa s) = 0.14090 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.486e-02 Mass of water (kg) = 1.000e+00 @@ -6458,10 +6458,10 @@ Syngenite -4.50 -13.02 -8.52 0.000e+00 0 0.000e+00 pH = 6.579 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 13026 + Specific Conductance (µS/cm, 200°C) = 13023 Density (g/cm³) = 0.86654 Volume (L) = 1.15647 - Viscosity (mPa s) = 0.14492 + Viscosity (mPa s) = 0.14527 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.692e-02 Mass of water (kg) = 1.000e+00 @@ -6554,10 +6554,10 @@ Syngenite -4.22 -12.74 -8.52 0.000e+00 0 0.000e+00 pH = 6.613 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 16830 + Specific Conductance (µS/cm, 200°C) = 16826 Density (g/cm³) = 0.86715 Volume (L) = 1.15647 - Viscosity (mPa s) = 0.15067 + Viscosity (mPa s) = 0.15108 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.899e-02 Mass of water (kg) = 1.000e+00 @@ -6650,10 +6650,10 @@ Syngenite -4.01 -12.53 -8.52 0.000e+00 0 0.000e+00 pH = 6.637 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 20485 + Specific Conductance (µS/cm, 200°C) = 20480 Density (g/cm³) = 0.86775 Volume (L) = 1.15648 - Viscosity (mPa s) = 0.15864 + Viscosity (mPa s) = 0.15909 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.106e-02 Mass of water (kg) = 1.000e+00 @@ -6746,10 +6746,10 @@ Syngenite -3.03 -11.55 -8.52 0.000e+00 0 0.000e+00 pH = 6.741 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 63700 + Specific Conductance (µS/cm, 200°C) = 63534 Density (g/cm³) = 0.87359 Volume (L) = 1.15674 - Viscosity (mPa s) = 0.03282 + Viscosity (mPa s) = 0.03360 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.817e-01 Mass of water (kg) = 1.000e+00 @@ -6842,10 +6842,10 @@ Syngenite -2.61 -11.13 -8.52 0.000e+00 0 0.000e+00 pH = 6.782 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 91483 + Specific Conductance (µS/cm, 200°C) = 91377 Density (g/cm³) = 0.87926 Volume (L) = 1.15724 - Viscosity (mPa s) = 0.08032 + Viscosity (mPa s) = 0.08132 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.022e-01 Mass of water (kg) = 1.000e+00 @@ -6938,10 +6938,10 @@ Syngenite -2.35 -10.87 -8.52 0.000e+00 0 0.000e+00 pH = 6.807 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 122176 + Specific Conductance (µS/cm, 200°C) = 122028 Density (g/cm³) = 0.88478 Volume (L) = 1.15791 - Viscosity (mPa s) = 0.08879 + Viscosity (mPa s) = 0.08997 Activity of water = 0.995 Ionic strength (mol/kgw) = 4.228e-01 Mass of water (kg) = 1.000e+00 @@ -7034,10 +7034,10 @@ Syngenite -2.16 -10.68 -8.52 0.000e+00 0 0.000e+00 pH = 6.826 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 152111 + Specific Conductance (µS/cm, 200°C) = 151911 Density (g/cm³) = 0.89019 Volume (L) = 1.15873 - Viscosity (mPa s) = 0.09256 + Viscosity (mPa s) = 0.09389 Activity of water = 0.994 Ionic strength (mol/kgw) = 5.433e-01 Mass of water (kg) = 1.000e+00 @@ -7130,10 +7130,10 @@ Syngenite -2.01 -10.53 -8.53 0.000e+00 0 0.000e+00 pH = 6.841 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 181313 + Specific Conductance (µS/cm, 200°C) = 181056 Density (g/cm³) = 0.89549 Volume (L) = 1.15968 - Viscosity (mPa s) = 0.09495 + Viscosity (mPa s) = 0.09643 Activity of water = 0.993 Ionic strength (mol/kgw) = 6.639e-01 Mass of water (kg) = 1.000e+00 @@ -7226,10 +7226,10 @@ Syngenite -1.74 -10.26 -8.53 0.000e+00 0 0.000e+00 pH = 6.871 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 251616 + Specific Conductance (µS/cm, 200°C) = 251206 Density (g/cm³) = 0.90834 Volume (L) = 1.16251 - Viscosity (mPa s) = 0.09925 + Viscosity (mPa s) = 0.10103 Activity of water = 0.990 Ionic strength (mol/kgw) = 9.655e-01 Mass of water (kg) = 1.000e+00 @@ -7322,10 +7322,10 @@ Syngenite -1.54 -10.07 -8.53 0.000e+00 0 0.000e+00 pH = 6.896 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 318660 + Specific Conductance (µS/cm, 200°C) = 318087 Density (g/cm³) = 0.92068 Volume (L) = 1.16593 - Viscosity (mPa s) = 0.10306 + Viscosity (mPa s) = 0.10511 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.267e+00 Mass of water (kg) = 1.000e+00 @@ -7418,10 +7418,10 @@ Syngenite -1.40 -9.92 -8.53 0.000e+00 0 0.000e+00 pH = 6.918 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 382860 + Specific Conductance (µS/cm, 200°C) = 382122 Density (g/cm³) = 0.93254 Volume (L) = 1.16984 - Viscosity (mPa s) = 0.10699 + Viscosity (mPa s) = 0.10926 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.569e+00 Mass of water (kg) = 1.000e+00 @@ -7514,10 +7514,10 @@ Syngenite -1.27 -9.80 -8.53 0.000e+00 0 0.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 444441 + Specific Conductance (µS/cm, 200°C) = 443542 Density (g/cm³) = 0.94397 Volume (L) = 1.17421 - Viscosity (mPa s) = 0.11114 + Viscosity (mPa s) = 0.11362 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.871e+00 Mass of water (kg) = 1.000e+00 @@ -7610,10 +7610,10 @@ Syngenite -1.21 -9.74 -8.53 0.000e+00 0 0.000e+00 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 486587 + Specific Conductance (µS/cm, 200°C) = 485577 Density (g/cm³) = 0.95182 Volume (L) = 1.17694 - Viscosity (mPa s) = 0.11422 + Viscosity (mPa s) = 0.11684 Activity of water = 0.979 Ionic strength (mol/kgw) = 2.085e+00 Mass of water (kg) = 9.995e-01 @@ -7706,10 +7706,10 @@ Syngenite -1.13 -9.66 -8.53 0.000e+00 0 0.000e+00 pH = 6.974 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 543962 + Specific Conductance (µS/cm, 200°C) = 542804 Density (g/cm³) = 0.96255 Volume (L) = 1.18200 - Viscosity (mPa s) = 0.11877 + Viscosity (mPa s) = 0.12157 Activity of water = 0.976 Ionic strength (mol/kgw) = 2.387e+00 Mass of water (kg) = 9.995e-01 @@ -7802,10 +7802,10 @@ Syngenite -1.06 -9.60 -8.53 0.000e+00 0 0.000e+00 pH = 6.995 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 599005 + Specific Conductance (µS/cm, 200°C) = 597708 Density (g/cm³) = 0.97288 Volume (L) = 1.18742 - Viscosity (mPa s) = 0.12353 + Viscosity (mPa s) = 0.12651 Activity of water = 0.973 Ionic strength (mol/kgw) = 2.689e+00 Mass of water (kg) = 9.995e-01 @@ -7898,10 +7898,10 @@ Syngenite -1.01 -9.54 -8.53 0.000e+00 0 0.000e+00 pH = 7.015 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 651784 + Specific Conductance (µS/cm, 200°C) = 650358 Density (g/cm³) = 0.98284 Volume (L) = 1.19319 - Viscosity (mPa s) = 0.12850 + Viscosity (mPa s) = 0.13163 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.991e+00 Mass of water (kg) = 9.995e-01 @@ -7994,10 +7994,10 @@ Syngenite -0.95 -9.48 -8.53 0.000e+00 0 0.000e+00 pH = 7.035 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 702360 + Specific Conductance (µS/cm, 200°C) = 700814 Density (g/cm³) = 0.99244 Volume (L) = 1.19928 - Viscosity (mPa s) = 0.13364 + Viscosity (mPa s) = 0.13693 Activity of water = 0.967 Ionic strength (mol/kgw) = 3.293e+00 Mass of water (kg) = 9.995e-01 @@ -8090,10 +8090,10 @@ Syngenite -0.90 -9.44 -8.53 0.000e+00 0 0.000e+00 pH = 7.055 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 750787 + Specific Conductance (µS/cm, 200°C) = 749132 Density (g/cm³) = 1.00168 Volume (L) = 1.20569 - Viscosity (mPa s) = 0.13896 + Viscosity (mPa s) = 0.14240 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.595e+00 Mass of water (kg) = 9.995e-01 @@ -8186,10 +8186,10 @@ Syngenite -0.86 -9.39 -8.53 0.000e+00 0 0.000e+00 pH = 7.075 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 797116 + Specific Conductance (µS/cm, 200°C) = 795361 Density (g/cm³) = 1.01057 Volume (L) = 1.21240 - Viscosity (mPa s) = 0.14443 + Viscosity (mPa s) = 0.14802 Activity of water = 0.962 Ionic strength (mol/kgw) = 3.897e+00 Mass of water (kg) = 9.995e-01 @@ -8282,10 +8282,10 @@ Syngenite -0.82 -9.35 -8.54 0.000e+00 0 0.000e+00 pH = 7.095 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 841397 + Specific Conductance (µS/cm, 200°C) = 839553 Density (g/cm³) = 1.01913 Volume (L) = 1.21939 - Viscosity (mPa s) = 0.15006 + Viscosity (mPa s) = 0.15378 Activity of water = 0.959 Ionic strength (mol/kgw) = 4.199e+00 Mass of water (kg) = 9.995e-01 @@ -8378,10 +8378,10 @@ Syngenite -0.78 -9.31 -8.54 0.000e+00 0 0.000e+00 pH = 7.115 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 883680 + Specific Conductance (µS/cm, 200°C) = 881754 Density (g/cm³) = 1.02736 Volume (L) = 1.22666 - Viscosity (mPa s) = 0.15582 + Viscosity (mPa s) = 0.15967 Activity of water = 0.956 Ionic strength (mol/kgw) = 4.502e+00 Mass of water (kg) = 9.995e-01 @@ -8474,10 +8474,10 @@ Syngenite -0.74 -9.28 -8.54 0.000e+00 0 0.000e+00 pH = 7.134 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 924011 + Specific Conductance (µS/cm, 200°C) = 922013 Density (g/cm³) = 1.03527 Volume (L) = 1.23421 - Viscosity (mPa s) = 0.16171 + Viscosity (mPa s) = 0.16569 Activity of water = 0.953 Ionic strength (mol/kgw) = 4.804e+00 Mass of water (kg) = 9.995e-01 @@ -8570,10 +8570,10 @@ Syngenite -0.71 -9.25 -8.54 0.000e+00 0 0.000e+00 pH = 7.154 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 962438 + Specific Conductance (µS/cm, 200°C) = 960376 Density (g/cm³) = 1.04287 Volume (L) = 1.24201 - Viscosity (mPa s) = 0.16773 + Viscosity (mPa s) = 0.17183 Activity of water = 0.950 Ionic strength (mol/kgw) = 5.106e+00 Mass of water (kg) = 9.995e-01 @@ -8666,10 +8666,10 @@ Syngenite -0.68 -9.22 -8.54 0.000e+00 0 0.000e+00 pH = 7.174 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 999008 + Specific Conductance (µS/cm, 200°C) = 996889 Density (g/cm³) = 1.05016 Volume (L) = 1.25007 - Viscosity (mPa s) = 0.17387 + Viscosity (mPa s) = 0.17809 Activity of water = 0.948 Ionic strength (mol/kgw) = 5.409e+00 Mass of water (kg) = 9.995e-01 @@ -8762,10 +8762,10 @@ Syngenite -0.65 -9.19 -8.54 0.000e+00 0 0.000e+00 pH = 7.193 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1033769 + Specific Conductance (µS/cm, 200°C) = 1031600 Density (g/cm³) = 1.05715 Volume (L) = 1.25838 - Viscosity (mPa s) = 0.18012 + Viscosity (mPa s) = 0.18446 Activity of water = 0.945 Ionic strength (mol/kgw) = 5.712e+00 Mass of water (kg) = 9.995e-01 @@ -8858,10 +8858,10 @@ Syngenite -0.63 -9.17 -8.54 0.000e+00 0 0.000e+00 pH = 7.212 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1066766 + Specific Conductance (µS/cm, 200°C) = 1064554 Density (g/cm³) = 1.06385 Volume (L) = 1.26693 - Viscosity (mPa s) = 0.18648 + Viscosity (mPa s) = 0.19093 Activity of water = 0.943 Ionic strength (mol/kgw) = 6.014e+00 Mass of water (kg) = 9.995e-01 @@ -8954,10 +8954,10 @@ Syngenite -0.62 -9.16 -8.54 0.000e+00 0 0.000e+00 pH = 7.221 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1080407 + Specific Conductance (µS/cm, 200°C) = 1078179 Density (g/cm³) = 1.06664 Volume (L) = 1.27067 - Viscosity (mPa s) = 0.18925 + Viscosity (mPa s) = 0.19375 Activity of water = 0.942 Ionic strength (mol/kgw) = 6.144e+00 Mass of water (kg) = 9.995e-01 @@ -9050,10 +9050,10 @@ Syngenite -0.62 -9.16 -8.54 0.000e+00 0 0.000e+00 pH = 7.221 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1080407 + Specific Conductance (µS/cm, 200°C) = 1078179 Density (g/cm³) = 1.06664 Volume (L) = 1.27067 - Viscosity (mPa s) = 0.18925 + Viscosity (mPa s) = 0.19375 Activity of water = 0.942 Ionic strength (mol/kgw) = 6.144e+00 Mass of water (kg) = 9.995e-01 diff --git a/mytest/anhy_K2SO4_101.sel b/mytest/anhy_K2SO4_101.sel index 44796da8..9ce7d2c0 100644 --- a/mytest/anhy_K2SO4_101.sel +++ b/mytest/anhy_K2SO4_101.sel @@ -1,96 +1,96 @@ Mu SC - 0.000000760968 0.7572688296 - 0.021066197926 3371.1046627663 - 0.021206496464 3416.1434895026 - 0.029137408162 5489.9595709788 - 0.039626574359 7861.5582803681 - 0.051045770080 10304.6803143659 - 0.062835760039 12745.6768207402 - 0.074795353205 15163.4364471200 - 0.196112185064 37946.8136335717 - 0.317670353710 59070.9723874245 - 0.439163306830 79203.2879960481 - 0.541026223755 95536.3954881329 - 0.593495931049 103846.9764654679 - 0.893371156002 149597.2595617567 - 1.193863478483 193099.8620467101 - 1.494588331217 234774.1814631820 - 1.795407229117 274858.9846114751 - 2.068888115254 310047.5835720701 - 2.068888115254 310047.5835721121 - 2.348304931882 345102.7695225587 - 2.644529262521 381012.8724068298 - 2.941799859135 415837.5560050185 - 3.239788331634 449592.2656686852 - 3.538290963978 482297.8602274160 - 3.837175211308 513977.0293363172 - 4.017457778090 532583.9307505466 - 4.017457778090 532583.9307505516 - 4.017457778090 532583.9307505516 - 4.017457778090 532583.9307505515 - 4.017457778090 532583.9307505515 - 4.017457778090 532583.9307505514 - 4.017457778090 532583.9307505514 - 4.017457778090 532583.9307505514 - 0.005758081175 1440.0921291970 - 0.015500917379 4766.9318142836 - 0.027331165892 8344.6386395582 - 0.039392746505 11825.4592831586 - 0.051507099133 15210.9148337340 - 0.063635253838 18516.4167538396 - 0.184799274189 48991.6223946421 - 0.305758751839 76982.6284150210 - 0.426642254884 103616.5834725558 - 0.547491327617 129310.0211895538 - 0.668322213934 154274.6423692337 - 0.970364562766 214218.4240829666 - 1.272394744469 271360.9874594334 - 1.574433555191 326188.5025782923 - 1.788853306303 363874.4013837451 - 2.090280507595 415262.8431528230 - 2.391692178277 464856.6202950806 - 2.693087486186 512748.1548936128 - 2.994467315619 559009.0342043403 - 3.295833680043 603697.6286091506 - 3.597189392141 646863.5880609024 - 3.839415082869 680486.5130567923 - 3.859632583706 683260.3282903468 - 4.158053022151 723442.8134929675 - 4.456826009285 762272.5170526216 - 4.755891116898 799773.4514849498 - 5.055203037220 835970.4181444572 - 5.141345352040 846145.0933128488 - 5.141345356183 846145.0932268307 - 5.141345356183 846145.0932268261 - 5.141345356183 846145.0932268261 - 0.001726501249 570.4794214207 - 0.012837595102 4871.3938594273 - 0.024864162001 9055.1223035417 - 0.036924438833 13026.3749988933 - 0.048990550076 16830.5783594578 - 0.061057056457 20485.8407072835 - 0.181657692927 63700.9913698622 - 0.302206819497 91483.4052136869 - 0.422755915205 122176.6341528273 - 0.543319337126 152111.3524676722 - 0.663901842026 181313.3278861996 - 0.965450799890 251616.2562548626 - 1.267135322521 318660.6210976414 - 1.568953281982 382860.7367430929 - 1.870900926380 444441.6084125472 - 2.084995028611 486587.8318775467 - 2.386902204176 543962.8699589943 - 2.688848274597 599005.7179070398 - 2.990834787367 651784.9387032475 - 3.292864950524 702360.4578205036 - 3.594943569179 750787.0372908243 - 3.897076980358 797116.2944168771 - 4.199273000850 841397.9153190209 - 4.501540896916 883680.4015438001 - 4.803891380988 924011.5341024681 - 5.106336638458 962438.6597994431 - 5.408890386608 999008.8619449686 - 5.711567967371 1033769.0537114847 - 6.014386478360 1066766.0188522814 - 6.144484700352 1080407.4736343767 - 6.144484700352 1080407.4736343632 + 0.000000760968 0.7572678746 + 0.021066197926 3369.9991754989 + 0.021206496464 3415.0380610536 + 0.029137408162 5488.6668218924 + 0.039626574359 7859.9316675264 + 0.051045770080 10302.6660599778 + 0.062835760039 12743.2428851450 + 0.074795353205 15160.5588278367 + 0.196112185064 37938.6303518666 + 0.317670353710 59056.3604515018 + 0.439163306830 79181.4261333077 + 0.541026223755 95507.9476358049 + 0.593495931049 103815.1418004859 + 0.893371156002 149544.4228354697 + 1.193863478483 193023.9309175459 + 1.494588331217 234673.8264356723 + 1.795407229117 274733.4049098823 + 2.068888115254 309898.7118276486 + 2.068888115254 309898.7118276906 + 2.348304931882 344931.0197330106 + 2.644529262521 380816.7083215178 + 2.941799859135 415616.9853307563 + 3.239788331634 449347.5256216249 + 3.538290963978 482029.3638944710 + 3.837175211308 513685.3270569254 + 4.017457778090 532278.5543331865 + 4.017457778090 532278.5543331916 + 4.017457778090 532278.5543331915 + 4.017457778090 532278.5543331915 + 4.017457778090 532278.5543331915 + 4.017457778090 532278.5543331914 + 4.017457778090 532278.5543331914 + 4.017457778090 532278.5543331912 + 0.005758081175 1439.6250900430 + 0.015500917379 4766.0618775909 + 0.027331165892 8343.1227038813 + 0.039392746505 11823.1774321971 + 0.051507099133 15207.7780081147 + 0.063635253838 18512.3516392313 + 0.184799274189 48975.5350081460 + 0.305758751839 76951.1242770115 + 0.426642254884 103567.2807422371 + 0.547491327617 129241.0700663793 + 0.668322213934 154184.5506240108 + 0.970364562766 214070.5770660202 + 1.272394744469 271150.5781077515 + 1.574433555191 325912.7111388147 + 1.788853306303 363551.5104735929 + 2.090280507595 414873.8144958087 + 2.391692178277 464401.8212905055 + 2.693087486186 512228.6375125399 + 2.994467315619 558426.3790182699 + 3.295833680043 603053.8211392888 + 3.597189392141 646160.9193384580 + 3.839415082869 679738.3468915049 + 3.859632583706 682508.5610491610 + 4.158053022151 722639.1530487610 + 4.456826009285 761419.3638563410 + 4.755891116898 798873.3262687201 + 5.055203037220 835025.9161487450 + 5.141345352040 845188.3124133274 + 5.141345356183 845188.3123274923 + 5.141345356183 845188.3123274879 + 5.141345356183 845188.3123274879 + 0.001726501249 570.3296193551 + 0.012837595102 4870.6480259650 + 0.024864162001 9053.4316271860 + 0.036924438833 13023.6057691587 + 0.048990550076 16826.7006693335 + 0.061057056457 20480.9215523393 + 0.181657692927 63534.3255992954 + 0.302206819497 91377.9278905694 + 0.422755915205 122028.2372240264 + 0.543319337126 151911.3564161230 + 0.663901842026 181056.8815886888 + 0.965450799890 251206.0002622177 + 1.267135322521 318087.4827630080 + 1.568953281982 382122.9261553077 + 1.870900926380 443542.0597502986 + 2.084995028611 485577.9552320977 + 2.386902204176 542804.8752195693 + 2.688848274597 597708.6378126470 + 2.990834787367 650358.5163890978 + 3.292864950524 700814.7219343163 + 3.594943569179 749132.0076082409 + 3.897076980358 795361.7816423546 + 4.199273000850 839553.3887471282 + 4.501540896916 881754.9054183182 + 4.803891380988 922013.6387244033 + 5.106336638458 960376.4372459077 + 5.408890386608 996889.8790453544 + 5.711567967371 1031600.3769576825 + 6.014386478360 1064554.2273933748 + 6.144484700352 1078179.0680399160 + 6.144484700352 1078179.0680399025 diff --git a/mytest/anhy_Na2SO4.out b/mytest/anhy_Na2SO4.out index 3f86a15f..3dbe8a7f 100644 --- a/mytest/anhy_Na2SO4.out +++ b/mytest/anhy_Na2SO4.out @@ -165,10 +165,10 @@ Glauberite Element not present. 0.000e+00 0 0.000e+00 pH = 6.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3371 + Specific Conductance (µS/cm, 100°C) = 3370 Density (g/cm³) = 0.95906 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28294 + Viscosity (mPa s) = 0.28315 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.107e-02 Mass of water (kg) = 1.000e+00 @@ -283,10 +283,10 @@ Thenardite -9.49 -10.21 -0.72 0.000e+00 0 0.000e+00 pH = 6.308 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3413 + Specific Conductance (µS/cm, 100°C) = 3411 Density (g/cm³) = 0.95907 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28293 + Viscosity (mPa s) = 0.28314 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.121e-02 Mass of water (kg) = 1.000e+00 @@ -376,10 +376,10 @@ Thenardite -4.44 -5.16 -0.72 0.000e+00 0 0.000e+00 pH = 6.515 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 14008 + Specific Conductance (µS/cm, 100°C) = 14006 Density (g/cm³) = 0.96129 Volume (L) = 1.04375 - Viscosity (mPa s) = 0.28320 + Viscosity (mPa s) = 0.28352 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.455e-02 Mass of water (kg) = 1.000e+00 @@ -469,10 +469,10 @@ Thenardite -2.27 -2.99 -0.72 0.000e+00 0 0.000e+00 pH = 6.742 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 92569 + Specific Conductance (µS/cm, 100°C) = 92563 Density (g/cm³) = 0.98158 Volume (L) = 1.04692 - Viscosity (mPa s) = 0.28561 + Viscosity (mPa s) = 0.28651 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.890e-01 Mass of water (kg) = 1.000e+00 @@ -562,10 +562,10 @@ Thenardite -1.72 -2.44 -0.72 0.000e+00 0 0.000e+00 pH = 6.796 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 161313 + Specific Conductance (µS/cm, 100°C) = 161304 Density (g/cm³) = 1.00118 Volume (L) = 1.05067 - Viscosity (mPa s) = 0.28706 + Viscosity (mPa s) = 0.28829 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.103e+00 Mass of water (kg) = 1.000e+00 @@ -655,10 +655,10 @@ Thenardite -1.40 -2.12 -0.72 0.000e+00 0 0.000e+00 pH = 6.829 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 225659 + Specific Conductance (µS/cm, 100°C) = 225647 Density (g/cm³) = 1.02025 Volume (L) = 1.05481 - Viscosity (mPa s) = 0.28821 + Viscosity (mPa s) = 0.28970 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.616e+00 Mass of water (kg) = 1.000e+00 @@ -748,10 +748,10 @@ Thenardite -1.17 -1.89 -0.72 0.000e+00 0 0.000e+00 pH = 6.853 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 286918 + Specific Conductance (µS/cm, 100°C) = 286903 Density (g/cm³) = 1.03885 Volume (L) = 1.05927 - Viscosity (mPa s) = 0.28920 + Viscosity (mPa s) = 0.29091 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.129e+00 Mass of water (kg) = 1.000e+00 @@ -841,10 +841,10 @@ Thenardite -0.99 -1.72 -0.72 0.000e+00 0 0.000e+00 pH = 6.872 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 345663 + Specific Conductance (µS/cm, 100°C) = 345646 Density (g/cm³) = 1.05701 Volume (L) = 1.06399 - Viscosity (mPa s) = 0.29008 + Viscosity (mPa s) = 0.29199 Activity of water = 0.969 Ionic strength (mol/kgw) = 2.642e+00 Mass of water (kg) = 1.000e+00 @@ -934,10 +934,10 @@ Thenardite -0.85 -1.57 -0.72 0.000e+00 0 0.000e+00 pH = 6.888 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 402210 + Specific Conductance (µS/cm, 100°C) = 402190 Density (g/cm³) = 1.07476 Volume (L) = 1.06896 - Viscosity (mPa s) = 0.29089 + Viscosity (mPa s) = 0.29297 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.154e+00 Mass of water (kg) = 1.000e+00 @@ -1027,10 +1027,10 @@ Thenardite -0.72 -1.45 -0.72 0.000e+00 0 0.000e+00 pH = 6.902 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 456754 + Specific Conductance (µS/cm, 100°C) = 456731 Density (g/cm³) = 1.09212 Volume (L) = 1.07415 - Viscosity (mPa s) = 0.29165 + Viscosity (mPa s) = 0.29389 Activity of water = 0.958 Ionic strength (mol/kgw) = 3.666e+00 Mass of water (kg) = 1.000e+00 @@ -1120,10 +1120,10 @@ Thenardite -0.62 -1.34 -0.72 0.000e+00 0 0.000e+00 pH = 6.914 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 509428 + Specific Conductance (µS/cm, 100°C) = 509404 Density (g/cm³) = 1.10908 Volume (L) = 1.07955 - Viscosity (mPa s) = 0.29236 + Viscosity (mPa s) = 0.29475 Activity of water = 0.953 Ionic strength (mol/kgw) = 4.178e+00 Mass of water (kg) = 1.000e+00 @@ -1213,10 +1213,10 @@ Thenardite -0.57 -1.30 -0.72 0.000e+00 0 0.000e+00 pH = 6.919 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 533663 + Specific Conductance (µS/cm, 100°C) = 533638 Density (g/cm³) = 1.11696 Volume (L) = 1.08217 - Viscosity (mPa s) = 0.29268 + Viscosity (mPa s) = 0.29514 Activity of water = 0.950 Ionic strength (mol/kgw) = 4.419e+00 Mass of water (kg) = 1.000e+00 @@ -1306,10 +1306,10 @@ Thenardite -0.51 -1.23 -0.72 0.000e+00 0 0.000e+00 pH = 6.927 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 568265 + Specific Conductance (µS/cm, 100°C) = 568242 Density (g/cm³) = 1.12828 Volume (L) = 1.08607 - Viscosity (mPa s) = 0.29294 + Viscosity (mPa s) = 0.29550 Activity of water = 0.946 Ionic strength (mol/kgw) = 4.770e+00 Mass of water (kg) = 1.000e+00 @@ -1399,10 +1399,10 @@ Thenardite -0.42 -1.15 -0.72 0.000e+00 0 0.000e+00 pH = 6.936 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 616345 + Specific Conductance (µS/cm, 100°C) = 616325 Density (g/cm³) = 1.14417 Volume (L) = 1.09180 - Viscosity (mPa s) = 0.29333 + Viscosity (mPa s) = 0.29601 Activity of water = 0.941 Ionic strength (mol/kgw) = 5.272e+00 Mass of water (kg) = 1.000e+00 @@ -1492,10 +1492,10 @@ Thenardite -0.35 -1.07 -0.72 0.000e+00 0 0.000e+00 pH = 6.943 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 663004 + Specific Conductance (µS/cm, 100°C) = 662986 Density (g/cm³) = 1.15977 Volume (L) = 1.09771 - Viscosity (mPa s) = 0.29372 + Viscosity (mPa s) = 0.29653 Activity of water = 0.936 Ionic strength (mol/kgw) = 5.775e+00 Mass of water (kg) = 1.000e+00 @@ -1585,10 +1585,10 @@ Thenardite -0.28 -1.00 -0.72 0.000e+00 0 0.000e+00 pH = 6.949 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 708237 + Specific Conductance (µS/cm, 100°C) = 708220 Density (g/cm³) = 1.17506 Volume (L) = 1.10380 - Viscosity (mPa s) = 0.29412 + Viscosity (mPa s) = 0.29705 Activity of water = 0.930 Ionic strength (mol/kgw) = 6.280e+00 Mass of water (kg) = 1.000e+00 @@ -1678,10 +1678,10 @@ Thenardite -0.21 -0.94 -0.72 0.000e+00 0 0.000e+00 pH = 6.953 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 752049 + Specific Conductance (µS/cm, 100°C) = 752034 Density (g/cm³) = 1.19006 Volume (L) = 1.11004 - Viscosity (mPa s) = 0.29451 + Viscosity (mPa s) = 0.29756 Activity of water = 0.925 Ionic strength (mol/kgw) = 6.785e+00 Mass of water (kg) = 1.000e+00 @@ -1771,10 +1771,10 @@ Thenardite -0.15 -0.88 -0.72 0.000e+00 0 0.000e+00 pH = 6.956 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 794453 + Specific Conductance (µS/cm, 100°C) = 794440 Density (g/cm³) = 1.20474 Volume (L) = 1.11644 - Viscosity (mPa s) = 0.29491 + Viscosity (mPa s) = 0.29806 Activity of water = 0.920 Ionic strength (mol/kgw) = 7.292e+00 Mass of water (kg) = 1.000e+00 @@ -1864,10 +1864,10 @@ Thenardite -0.10 -0.83 -0.72 0.000e+00 0 0.000e+00 pH = 6.957 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 835466 + Specific Conductance (µS/cm, 100°C) = 835453 Density (g/cm³) = 1.21912 Volume (L) = 1.12299 - Viscosity (mPa s) = 0.29530 + Viscosity (mPa s) = 0.29856 Activity of water = 0.915 Ionic strength (mol/kgw) = 7.799e+00 Mass of water (kg) = 1.000e+00 @@ -1957,10 +1957,10 @@ Thenardite -0.05 -0.78 -0.72 0.000e+00 0 0.000e+00 pH = 6.957 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 875107 + Specific Conductance (µS/cm, 100°C) = 875095 Density (g/cm³) = 1.23319 Volume (L) = 1.12969 - Viscosity (mPa s) = 0.29568 + Viscosity (mPa s) = 0.29905 Activity of water = 0.910 Ionic strength (mol/kgw) = 8.307e+00 Mass of water (kg) = 1.000e+00 @@ -2050,10 +2050,10 @@ Thenardite -0.01 -0.73 -0.72 0.000e+00 0 0.000e+00 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 913396 + Specific Conductance (µS/cm, 100°C) = 913385 Density (g/cm³) = 1.24696 Volume (L) = 1.13652 - Viscosity (mPa s) = 0.29607 + Viscosity (mPa s) = 0.29954 Activity of water = 0.905 Ionic strength (mol/kgw) = 8.815e+00 Mass of water (kg) = 1.000e+00 @@ -2143,10 +2143,10 @@ Thenardite 0.00 -0.72 -0.72 0.000e+00 1.375e-01 1.375e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2236,10 +2236,10 @@ Thenardite 0.00 -0.72 -0.72 1.375e-01 3.075e-01 1.700e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2329,10 +2329,10 @@ Thenardite 0.00 -0.72 -0.72 3.075e-01 4.775e-01 1.700e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2422,10 +2422,10 @@ Thenardite 0.00 -0.72 -0.72 4.775e-01 6.475e-01 1.700e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2515,10 +2515,10 @@ Thenardite 0.00 -0.72 -0.72 6.475e-01 8.175e-01 1.700e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2608,10 +2608,10 @@ Thenardite 0.00 -0.72 -0.72 8.175e-01 9.875e-01 1.700e-01 pH = 6.955 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 920558 + Specific Conductance (µS/cm, 100°C) = 920547 Density (g/cm³) = 1.24955 Volume (L) = 1.13785 - Viscosity (mPa s) = 0.29614 + Viscosity (mPa s) = 0.29963 Activity of water = 0.904 Ionic strength (mol/kgw) = 8.913e+00 Mass of water (kg) = 1.000e+00 @@ -2720,10 +2720,10 @@ Thenardite -9.42 -10.58 -1.17 0.000e+00 0 0.000e+00 pH = 6.100 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1437 + Specific Conductance (µS/cm, 150°C) = 1436 Density (g/cm³) = 0.91722 Volume (L) = 1.09047 - Viscosity (mPa s) = 0.18294 + Viscosity (mPa s) = 0.18308 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.758e-03 Mass of water (kg) = 1.000e+00 @@ -2815,10 +2815,10 @@ Thenardite -4.10 -5.27 -1.17 0.000e+00 0 0.000e+00 pH = 6.490 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 17444 + Specific Conductance (µS/cm, 150°C) = 17443 Density (g/cm³) = 0.91967 Volume (L) = 1.09058 - Viscosity (mPa s) = 0.18352 + Viscosity (mPa s) = 0.18391 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.357e-02 Mass of water (kg) = 1.000e+00 @@ -2910,10 +2910,10 @@ Thenardite -2.03 -3.20 -1.17 0.000e+00 0 0.000e+00 pH = 6.709 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 126669 + Specific Conductance (µS/cm, 150°C) = 126663 Density (g/cm³) = 0.94029 Volume (L) = 1.09246 - Viscosity (mPa s) = 0.18539 + Viscosity (mPa s) = 0.18654 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.770e-01 Mass of water (kg) = 1.000e+00 @@ -3005,10 +3005,10 @@ Thenardite -1.52 -2.69 -1.17 0.000e+00 0 0.000e+00 pH = 6.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 222474 + Specific Conductance (µS/cm, 150°C) = 222464 Density (g/cm³) = 0.95997 Volume (L) = 1.09531 - Viscosity (mPa s) = 0.18646 + Viscosity (mPa s) = 0.18804 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.090e+00 Mass of water (kg) = 1.000e+00 @@ -3100,10 +3100,10 @@ Thenardite -1.23 -2.40 -1.17 0.000e+00 0 0.000e+00 pH = 6.788 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 312565 + Specific Conductance (µS/cm, 150°C) = 312549 Density (g/cm³) = 0.97896 Volume (L) = 1.09882 - Viscosity (mPa s) = 0.18731 + Viscosity (mPa s) = 0.18923 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.602e+00 Mass of water (kg) = 1.000e+00 @@ -3195,10 +3195,10 @@ Thenardite -1.02 -2.19 -1.17 0.000e+00 0 0.000e+00 pH = 6.810 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 398608 + Specific Conductance (µS/cm, 150°C) = 398587 Density (g/cm³) = 0.99735 Volume (L) = 1.10285 - Viscosity (mPa s) = 0.18804 + Viscosity (mPa s) = 0.19024 Activity of water = 0.977 Ionic strength (mol/kgw) = 2.115e+00 Mass of water (kg) = 1.000e+00 @@ -3290,10 +3290,10 @@ Thenardite -0.86 -2.03 -1.17 0.000e+00 0 0.000e+00 pH = 6.829 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 481285 + Specific Conductance (µS/cm, 150°C) = 481259 Density (g/cm³) = 1.01519 Volume (L) = 1.10733 - Viscosity (mPa s) = 0.18870 + Viscosity (mPa s) = 0.19115 Activity of water = 0.972 Ionic strength (mol/kgw) = 2.627e+00 Mass of water (kg) = 1.000e+00 @@ -3385,10 +3385,10 @@ Thenardite -0.73 -1.90 -1.17 0.000e+00 0 0.000e+00 pH = 6.845 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 560943 + Specific Conductance (µS/cm, 150°C) = 560913 Density (g/cm³) = 1.03250 Volume (L) = 1.11222 - Viscosity (mPa s) = 0.18930 + Viscosity (mPa s) = 0.19198 Activity of water = 0.967 Ionic strength (mol/kgw) = 3.139e+00 Mass of water (kg) = 1.000e+00 @@ -3480,10 +3480,10 @@ Thenardite -0.62 -1.79 -1.17 0.000e+00 0 0.000e+00 pH = 6.859 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 637784 + Specific Conductance (µS/cm, 150°C) = 637748 Density (g/cm³) = 1.04932 Volume (L) = 1.11748 - Viscosity (mPa s) = 0.18986 + Viscosity (mPa s) = 0.19275 Activity of water = 0.962 Ionic strength (mol/kgw) = 3.651e+00 Mass of water (kg) = 1.000e+00 @@ -3575,10 +3575,10 @@ Thenardite -0.58 -1.75 -1.17 0.000e+00 0 0.000e+00 pH = 6.865 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 674487 + Specific Conductance (µS/cm, 150°C) = 674450 Density (g/cm³) = 1.05739 Volume (L) = 1.12018 - Viscosity (mPa s) = 0.19012 + Viscosity (mPa s) = 0.19311 Activity of water = 0.960 Ionic strength (mol/kgw) = 3.902e+00 Mass of water (kg) = 1.000e+00 @@ -3670,10 +3670,10 @@ Thenardite -0.52 -1.69 -1.17 0.000e+00 0 0.000e+00 pH = 6.872 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 722257 + Specific Conductance (µS/cm, 150°C) = 722222 Density (g/cm³) = 1.06792 Volume (L) = 1.12392 - Viscosity (mPa s) = 0.19040 + Viscosity (mPa s) = 0.19351 Activity of water = 0.956 Ionic strength (mol/kgw) = 4.235e+00 Mass of water (kg) = 1.000e+00 @@ -3765,10 +3765,10 @@ Thenardite -0.43 -1.60 -1.17 0.000e+00 0 0.000e+00 pH = 6.883 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 792764 + Specific Conductance (µS/cm, 150°C) = 792731 Density (g/cm³) = 1.08356 Volume (L) = 1.12985 - Viscosity (mPa s) = 0.19081 + Viscosity (mPa s) = 0.19411 Activity of water = 0.952 Ionic strength (mol/kgw) = 4.741e+00 Mass of water (kg) = 1.000e+00 @@ -3860,10 +3860,10 @@ Thenardite -0.36 -1.53 -1.17 0.000e+00 0 0.000e+00 pH = 6.891 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 860876 + Specific Conductance (µS/cm, 150°C) = 860846 Density (g/cm³) = 1.09878 Volume (L) = 1.13608 - Viscosity (mPa s) = 0.19121 + Viscosity (mPa s) = 0.19468 Activity of water = 0.947 Ionic strength (mol/kgw) = 5.249e+00 Mass of water (kg) = 1.000e+00 @@ -3955,10 +3955,10 @@ Thenardite -0.30 -1.46 -1.17 0.000e+00 0 0.000e+00 pH = 6.897 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 926614 + Specific Conductance (µS/cm, 150°C) = 926585 Density (g/cm³) = 1.11356 Volume (L) = 1.14259 - Viscosity (mPa s) = 0.19159 + Viscosity (mPa s) = 0.19522 Activity of water = 0.942 Ionic strength (mol/kgw) = 5.756e+00 Mass of water (kg) = 1.000e+00 @@ -4050,10 +4050,10 @@ Thenardite -0.24 -1.41 -1.17 0.000e+00 0 0.000e+00 pH = 6.902 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 989999 + Specific Conductance (µS/cm, 150°C) = 989971 Density (g/cm³) = 1.12793 Volume (L) = 1.14938 - Viscosity (mPa s) = 0.19196 + Viscosity (mPa s) = 0.19574 Activity of water = 0.938 Ionic strength (mol/kgw) = 6.264e+00 Mass of water (kg) = 1.000e+00 @@ -4145,10 +4145,10 @@ Thenardite -0.18 -1.35 -1.17 0.000e+00 0 0.000e+00 pH = 6.904 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1051056 + Specific Conductance (µS/cm, 150°C) = 1051029 Density (g/cm³) = 1.14189 Volume (L) = 1.15644 - Viscosity (mPa s) = 0.19231 + Viscosity (mPa s) = 0.19625 Activity of water = 0.933 Ionic strength (mol/kgw) = 6.773e+00 Mass of water (kg) = 1.000e+00 @@ -4240,10 +4240,10 @@ Thenardite -0.14 -1.31 -1.17 0.000e+00 0 0.000e+00 pH = 6.905 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1109812 + Specific Conductance (µS/cm, 150°C) = 1109786 Density (g/cm³) = 1.15543 Volume (L) = 1.16374 - Viscosity (mPa s) = 0.19266 + Viscosity (mPa s) = 0.19674 Activity of water = 0.929 Ionic strength (mol/kgw) = 7.282e+00 Mass of water (kg) = 1.000e+00 @@ -4335,10 +4335,10 @@ Thenardite -0.09 -1.26 -1.17 0.000e+00 0 0.000e+00 pH = 6.904 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1166296 + Specific Conductance (µS/cm, 150°C) = 1166271 Density (g/cm³) = 1.16857 Volume (L) = 1.17129 - Viscosity (mPa s) = 0.19299 + Viscosity (mPa s) = 0.19722 Activity of water = 0.925 Ionic strength (mol/kgw) = 7.791e+00 Mass of water (kg) = 1.000e+00 @@ -4430,10 +4430,10 @@ Thenardite -0.05 -1.22 -1.17 0.000e+00 0 0.000e+00 pH = 6.900 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1220539 + Specific Conductance (µS/cm, 150°C) = 1220515 Density (g/cm³) = 1.18132 Volume (L) = 1.17907 - Viscosity (mPa s) = 0.19332 + Viscosity (mPa s) = 0.19768 Activity of water = 0.921 Ionic strength (mol/kgw) = 8.301e+00 Mass of water (kg) = 1.000e+00 @@ -4525,10 +4525,10 @@ Thenardite -0.02 -1.19 -1.17 0.000e+00 0 0.000e+00 pH = 6.895 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1272575 + Specific Conductance (µS/cm, 150°C) = 1272551 Density (g/cm³) = 1.19367 Volume (L) = 1.18709 - Viscosity (mPa s) = 0.19365 + Viscosity (mPa s) = 0.19814 Activity of water = 0.917 Ionic strength (mol/kgw) = 8.810e+00 Mass of water (kg) = 1.000e+00 @@ -4620,10 +4620,10 @@ Thenardite 0.00 -1.17 -1.17 0.000e+00 4.749e-02 4.749e-02 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -4715,10 +4715,10 @@ Thenardite 0.00 -1.17 -1.17 4.749e-02 2.175e-01 1.700e-01 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -4810,10 +4810,10 @@ Thenardite 0.00 -1.17 -1.17 2.175e-01 3.875e-01 1.700e-01 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -4905,10 +4905,10 @@ Thenardite 0.00 -1.17 -1.17 3.875e-01 5.575e-01 1.700e-01 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -5000,10 +5000,10 @@ Thenardite 0.00 -1.17 -1.17 5.575e-01 7.275e-01 1.700e-01 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -5095,10 +5095,10 @@ Thenardite 0.00 -1.17 -1.17 7.275e-01 8.975e-01 1.700e-01 pH = 6.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1308727 + Specific Conductance (µS/cm, 150°C) = 1308702 Density (g/cm³) = 1.20234 Volume (L) = 1.19300 - Viscosity (mPa s) = 0.19388 + Viscosity (mPa s) = 0.19846 Activity of water = 0.915 Ionic strength (mol/kgw) = 9.178e+00 Mass of water (kg) = 1.000e+00 @@ -5211,7 +5211,7 @@ Thenardite -9.17 -10.96 -1.80 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 200°C) = 568 Density (g/cm³) = 0.86474 Volume (L) = 1.15649 - Viscosity (mPa s) = 0.13502 + Viscosity (mPa s) = 0.13511 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.727e-03 Mass of water (kg) = 1.000e+00 @@ -5306,7 +5306,7 @@ Thenardite -3.60 -5.40 -1.80 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 200°C) = 20101 Density (g/cm³) = 0.86747 Volume (L) = 1.15610 - Viscosity (mPa s) = 0.13575 + Viscosity (mPa s) = 0.13621 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.104e-02 Mass of water (kg) = 1.000e+00 @@ -5398,10 +5398,10 @@ Thenardite -1.69 -3.49 -1.80 0.000e+00 0 0.000e+00 pH = 6.817 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 149049 + Specific Conductance (µS/cm, 200°C) = 149044 Density (g/cm³) = 0.88912 Volume (L) = 1.15519 - Viscosity (mPa s) = 0.13671 + Viscosity (mPa s) = 0.13811 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.732e-01 Mass of water (kg) = 1.000e+00 @@ -5493,10 +5493,10 @@ Thenardite -1.24 -3.04 -1.80 0.000e+00 0 0.000e+00 pH = 6.855 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 263183 + Specific Conductance (µS/cm, 200°C) = 263171 Density (g/cm³) = 0.90904 Volume (L) = 1.15652 - Viscosity (mPa s) = 0.13767 + Viscosity (mPa s) = 0.13961 Activity of water = 0.988 Ionic strength (mol/kgw) = 1.085e+00 Mass of water (kg) = 1.000e+00 @@ -5588,10 +5588,10 @@ Thenardite -0.99 -2.79 -1.80 0.000e+00 0 0.000e+00 pH = 6.878 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 371004 + Specific Conductance (µS/cm, 200°C) = 370985 Density (g/cm³) = 0.92774 Volume (L) = 1.15932 - Viscosity (mPa s) = 0.13842 + Viscosity (mPa s) = 0.14077 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.598e+00 Mass of water (kg) = 1.000e+00 @@ -5683,10 +5683,10 @@ Thenardite -0.81 -2.61 -1.80 0.000e+00 0 0.000e+00 pH = 6.897 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 474035 + Specific Conductance (µS/cm, 200°C) = 474007 Density (g/cm³) = 0.94537 Volume (L) = 1.16333 - Viscosity (mPa s) = 0.13905 + Viscosity (mPa s) = 0.14176 Activity of water = 0.979 Ionic strength (mol/kgw) = 2.110e+00 Mass of water (kg) = 1.000e+00 @@ -5778,10 +5778,10 @@ Thenardite -0.68 -2.48 -1.80 0.000e+00 0 0.000e+00 pH = 6.913 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 572762 + Specific Conductance (µS/cm, 200°C) = 572725 Density (g/cm³) = 0.96203 Volume (L) = 1.16838 - Viscosity (mPa s) = 0.13963 + Viscosity (mPa s) = 0.14264 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.623e+00 Mass of water (kg) = 1.000e+00 @@ -5873,10 +5873,10 @@ Thenardite -0.57 -2.37 -1.80 0.000e+00 0 0.000e+00 pH = 6.928 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 667353 + Specific Conductance (µS/cm, 200°C) = 667305 Density (g/cm³) = 0.97778 Volume (L) = 1.17435 - Viscosity (mPa s) = 0.14016 + Viscosity (mPa s) = 0.14345 Activity of water = 0.971 Ionic strength (mol/kgw) = 3.135e+00 Mass of water (kg) = 1.000e+00 @@ -5968,10 +5968,10 @@ Thenardite -0.48 -2.29 -1.80 0.000e+00 0 0.000e+00 pH = 6.939 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 751600 + Specific Conductance (µS/cm, 200°C) = 751542 Density (g/cm³) = 0.99164 Volume (L) = 1.18066 - Viscosity (mPa s) = 0.14062 + Viscosity (mPa s) = 0.14416 Activity of water = 0.967 Ionic strength (mol/kgw) = 3.612e+00 Mass of water (kg) = 1.000e+00 @@ -6063,10 +6063,10 @@ Thenardite -0.46 -2.27 -1.80 0.000e+00 0 0.000e+00 pH = 6.942 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 770384 + Specific Conductance (µS/cm, 200°C) = 770326 Density (g/cm³) = 0.99471 Volume (L) = 1.18220 - Viscosity (mPa s) = 0.14072 + Viscosity (mPa s) = 0.14431 Activity of water = 0.966 Ionic strength (mol/kgw) = 3.721e+00 Mass of water (kg) = 1.000e+00 @@ -6158,10 +6158,10 @@ Thenardite -0.39 -2.19 -1.81 0.000e+00 0 0.000e+00 pH = 6.953 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 855658 + Specific Conductance (µS/cm, 200°C) = 855600 Density (g/cm³) = 1.00855 Volume (L) = 1.18987 - Viscosity (mPa s) = 0.14117 + Viscosity (mPa s) = 0.14500 Activity of water = 0.962 Ionic strength (mol/kgw) = 4.230e+00 Mass of water (kg) = 1.000e+00 @@ -6253,10 +6253,10 @@ Thenardite -0.32 -2.13 -1.81 0.000e+00 0 0.000e+00 pH = 6.963 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 936919 + Specific Conductance (µS/cm, 200°C) = 936862 Density (g/cm³) = 1.02160 Volume (L) = 1.19826 - Viscosity (mPa s) = 0.14159 + Viscosity (mPa s) = 0.14564 Activity of water = 0.958 Ionic strength (mol/kgw) = 4.739e+00 Mass of water (kg) = 1.000e+00 @@ -6348,10 +6348,10 @@ Thenardite -0.26 -2.07 -1.81 0.000e+00 0 0.000e+00 pH = 6.970 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1014161 + Specific Conductance (µS/cm, 200°C) = 1014103 Density (g/cm³) = 1.03391 Volume (L) = 1.20734 - Viscosity (mPa s) = 0.14198 + Viscosity (mPa s) = 0.14624 Activity of water = 0.954 Ionic strength (mol/kgw) = 5.248e+00 Mass of water (kg) = 1.000e+00 @@ -6443,10 +6443,10 @@ Thenardite -0.21 -2.01 -1.81 0.000e+00 0 0.000e+00 pH = 6.975 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1087386 + Specific Conductance (µS/cm, 200°C) = 1087329 Density (g/cm³) = 1.04548 Volume (L) = 1.21705 - Viscosity (mPa s) = 0.14235 + Viscosity (mPa s) = 0.14682 Activity of water = 0.950 Ionic strength (mol/kgw) = 5.758e+00 Mass of water (kg) = 1.000e+00 @@ -6538,10 +6538,10 @@ Thenardite -0.16 -1.97 -1.81 0.000e+00 0 0.000e+00 pH = 6.979 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1156615 + Specific Conductance (µS/cm, 200°C) = 1156557 Density (g/cm³) = 1.05634 Volume (L) = 1.22739 - Viscosity (mPa s) = 0.14271 + Viscosity (mPa s) = 0.14736 Activity of water = 0.947 Ionic strength (mol/kgw) = 6.267e+00 Mass of water (kg) = 1.000e+00 @@ -6633,10 +6633,10 @@ Thenardite -0.12 -1.93 -1.81 0.000e+00 0 0.000e+00 pH = 6.980 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1221879 + Specific Conductance (µS/cm, 200°C) = 1221821 Density (g/cm³) = 1.06652 Volume (L) = 1.23832 - Viscosity (mPa s) = 0.14305 + Viscosity (mPa s) = 0.14789 Activity of water = 0.943 Ionic strength (mol/kgw) = 6.778e+00 Mass of water (kg) = 1.000e+00 @@ -6728,10 +6728,10 @@ Thenardite -0.09 -1.89 -1.81 0.000e+00 0 0.000e+00 pH = 6.979 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1283226 + Specific Conductance (µS/cm, 200°C) = 1283166 Density (g/cm³) = 1.07604 Volume (L) = 1.24982 - Viscosity (mPa s) = 0.14338 + Viscosity (mPa s) = 0.14840 Activity of water = 0.940 Ionic strength (mol/kgw) = 7.288e+00 Mass of water (kg) = 1.000e+00 @@ -6823,10 +6823,10 @@ Thenardite -0.06 -1.86 -1.81 0.000e+00 0 0.000e+00 pH = 6.975 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1340716 + Specific Conductance (µS/cm, 200°C) = 1340654 Density (g/cm³) = 1.08491 Volume (L) = 1.26188 - Viscosity (mPa s) = 0.14370 + Viscosity (mPa s) = 0.14889 Activity of water = 0.937 Ionic strength (mol/kgw) = 7.799e+00 Mass of water (kg) = 1.000e+00 @@ -6918,10 +6918,10 @@ Thenardite -0.03 -1.84 -1.81 0.000e+00 0 0.000e+00 pH = 6.969 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1394422 + Specific Conductance (µS/cm, 200°C) = 1394358 Density (g/cm³) = 1.09317 Volume (L) = 1.27448 - Viscosity (mPa s) = 0.14401 + Viscosity (mPa s) = 0.14937 Activity of water = 0.934 Ionic strength (mol/kgw) = 8.310e+00 Mass of water (kg) = 1.000e+00 @@ -7013,10 +7013,10 @@ Thenardite -0.01 -1.82 -1.81 0.000e+00 0 0.000e+00 pH = 6.961 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1444428 + Specific Conductance (µS/cm, 200°C) = 1444361 Density (g/cm³) = 1.10084 Volume (L) = 1.28759 - Viscosity (mPa s) = 0.14432 + Viscosity (mPa s) = 0.14985 Activity of water = 0.932 Ionic strength (mol/kgw) = 8.821e+00 Mass of water (kg) = 1.000e+00 @@ -7108,10 +7108,10 @@ Thenardite 0.00 -1.81 -1.81 0.000e+00 5.506e-02 5.506e-02 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 @@ -7203,10 +7203,10 @@ Thenardite 0.00 -1.81 -1.81 5.506e-02 2.251e-01 1.700e-01 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 @@ -7298,10 +7298,10 @@ Thenardite -0.00 -1.81 -1.81 2.251e-01 3.951e-01 1.700e-01 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 @@ -7393,10 +7393,10 @@ Thenardite 0.00 -1.81 -1.81 3.951e-01 5.651e-01 1.700e-01 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 @@ -7488,10 +7488,10 @@ Thenardite 0.00 -1.81 -1.81 5.651e-01 7.351e-01 1.700e-01 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 @@ -7583,10 +7583,10 @@ Thenardite 0.00 -1.81 -1.81 7.351e-01 9.051e-01 1.700e-01 pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1476189 + Specific Conductance (µS/cm, 200°C) = 1476119 Density (g/cm³) = 1.10569 Volume (L) = 1.29675 - Viscosity (mPa s) = 0.14453 + Viscosity (mPa s) = 0.15016 Activity of water = 0.931 Ionic strength (mol/kgw) = 9.167e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/anhy_Na2SO4_101.sel b/mytest/anhy_Na2SO4_101.sel index fa207db9..6f942cd1 100644 --- a/mytest/anhy_Na2SO4_101.sel +++ b/mytest/anhy_Na2SO4_101.sel @@ -1,81 +1,81 @@ Mu SC - 0.000000760968 0.7572688296 - 0.021067757026 3371.3322079498 - 0.021206291003 3413.0059939128 - 0.074545733512 14008.8347459796 - 0.588971979766 92569.5824047789 - 1.102789488078 161313.8301363128 - 1.616068441032 225659.8443575489 - 2.128955852800 286918.3003911200 - 2.641526850416 345663.6376408136 - 3.153834541645 402210.2868651666 - 3.665923625866 456754.1732889781 - 4.177834445827 509428.8517637134 - 4.419332598912 533663.5913976497 - 4.770025068619 568265.5066666913 - 5.271540759831 616345.8468157996 - 5.774918919269 663004.8438471887 - 6.279675624414 708237.4848080191 - 6.785480642289 752049.6849223110 - 7.292101312748 794453.8921732162 - 7.799369594149 835466.6703884526 - 8.307161824861 875107.3041713656 - 8.815385816207 913396.9556253380 - 8.912503261514 920558.7349567456 - 8.912503261517 920558.7349566994 - 8.912503261517 920558.7349566992 - 8.912503261517 920558.7349566998 - 8.912503261517 920558.7349566998 - 8.912503261517 920558.7349566994 - 0.005758175667 1437.2383059491 - 0.063568709640 17444.9155207776 - 0.577000201903 126669.5933000040 - 1.089688561114 222474.7328405767 - 1.602178868231 312565.2258636201 - 2.114527201554 398608.1113029235 - 2.626751899304 481285.0256902463 - 3.138866960195 560943.2975863188 - 3.650888497394 637784.0692872719 - 3.902025887056 674487.9685620409 - 4.235087829960 722257.5577788538 - 4.741446601699 792764.5605468136 - 5.248573679965 860876.8273961828 - 5.756290437088 926614.2144871873 - 6.264477370957 989999.1624310972 - 6.773051632555 1051056.2850070421 - 7.281954691793 1109812.3556692221 - 7.791145229523 1166296.3714643565 - 8.300594908292 1220539.5911073899 - 8.810285844057 1272575.5230738819 - 9.177741953138 1308727.0011793161 - 9.177741954316 1308727.0011541746 - 9.177741954316 1308727.0011541746 - 9.177741954316 1308727.0011541743 - 9.177741954316 1308727.0011541739 - 9.177741954316 1308727.0011541743 - 0.001726534594 568.5625157374 - 0.061042082511 20101.6878611428 - 0.573175760907 149049.2213278977 - 1.085353878177 263183.2324481496 - 1.597702066919 371004.3096619706 - 2.110176528243 474035.5692957067 - 2.622737684462 572762.4533966988 - 3.135359491317 667353.1216854169 - 3.611821183185 751600.1998041451 - 3.720759931125 770384.3285929274 - 4.229577780120 855658.0264495804 - 4.738668925660 936919.6075270898 - 5.248009520714 1014161.0870165259 - 5.757593608867 1087386.9015204692 - 6.267425705399 1156615.4770534346 - 6.777518166809 1221879.6884971403 - 7.287890907453 1283226.5828330074 - 7.798572451216 1340716.6303943298 - 8.309601965036 1394422.6895550101 - 8.821032170062 1444428.8058368755 - 9.167082378171 1476189.6015150391 - 9.167082378172 1476189.6015149881 - 9.167082378172 1476189.6015149874 - 9.167082378172 1476189.6015149876 - 9.167082378172 1476189.6015149872 - 9.167082378172 1476189.6015149876 + 0.000000760968 0.7572678746 + 0.021067757026 3370.2266057009 + 0.021206291003 3411.9016788115 + 0.074545733512 14006.9638568656 + 0.588971979766 92563.5343401773 + 1.102789488078 161304.5669926600 + 1.616068441032 225647.6207680286 + 2.128955852800 286903.2980844032 + 2.641526850416 345646.0221806685 + 3.153834541645 402190.2163003986 + 3.665923625866 456731.7968956701 + 4.177834445827 509404.3069157730 + 4.419332598912 533638.0669106278 + 4.770025068619 568242.2581958794 + 5.271540759831 616325.2894014304 + 5.774918919269 662986.4714720752 + 6.279675624414 708220.9023652198 + 6.785480642289 752034.5767303787 + 7.292101312748 794440.0011260537 + 7.799369594149 835453.7835190733 + 8.307161824861 875095.2422606853 + 8.815385816207 913385.5654615159 + 8.912503261514 920547.4574260898 + 8.912503261517 920547.4574260437 + 8.912503261517 920547.4574260435 + 8.912503261517 920547.4574260439 + 8.912503261517 920547.4574260439 + 8.912503261517 920547.4574260436 + 0.005758175667 1436.7734460879 + 0.063568709640 17443.7018156421 + 0.577000201903 126663.6227336314 + 1.089688561114 222464.1347421713 + 1.602178868231 312549.8112559835 + 2.114527201554 398587.7627393538 + 2.626751899304 481259.7013917799 + 3.138866960195 560913.0109416845 + 3.650888497394 637748.8661364550 + 3.902025887056 674450.3748530424 + 4.235087829960 722222.0185052638 + 4.741446601699 792731.6685945120 + 5.248573679965 860846.1179835312 + 5.756290437088 926585.3006956895 + 6.264477370957 989971.7101227607 + 6.773051632555 1051029.9971710530 + 7.281954691793 1109786.9616067654 + 7.791145229523 1166271.6184989556 + 8.300594908292 1220515.2375792281 + 8.810285844057 1272551.3318884610 + 9.177741953138 1308702.7792288240 + 9.177741954316 1308702.7792036827 + 9.177741954316 1308702.7792036827 + 9.177741954316 1308702.7792036827 + 9.177741954316 1308702.7792036822 + 9.177741954316 1308702.7792036827 + 0.001726534594 568.4156673562 + 0.061042082511 20101.1181678300 + 0.573175760907 149044.0785166774 + 1.085353878177 263171.9097238026 + 1.597702066919 370985.3600014005 + 2.110176528243 474007.8282923828 + 2.622737684462 572725.0154179260 + 3.135359491317 667305.2953846134 + 3.611821183185 751542.2409756059 + 3.720759931125 770326.4410704870 + 4.229577780120 855600.4440896010 + 4.738668925660 936862.2465228572 + 5.248009520714 1014103.7983416151 + 5.757593608867 1087329.4650245006 + 6.267425705399 1156557.6005378161 + 6.777518166809 1221821.0066528660 + 7.287890907453 1283166.6534381611 + 7.798572451216 1340654.9262459166 + 8.309601965036 1394358.5849347766 + 8.821032170062 1444361.5564031699 + 9.167082378171 1476119.7310460359 + 9.167082378172 1476119.7310459847 + 9.167082378172 1476119.7310459842 + 9.167082378172 1476119.7310459844 + 9.167082378172 1476119.7310459840 + 9.167082378172 1476119.7310459842 diff --git a/mytest/anhy_NaCl.out b/mytest/anhy_NaCl.out index 48facdd1..e795ca87 100644 --- a/mytest/anhy_NaCl.out +++ b/mytest/anhy_NaCl.out @@ -151,10 +151,10 @@ Halite Element not present. 0.000e+00 0 0.000e+00 pH = 6.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3371 + Specific Conductance (µS/cm, 100°C) = 3369 Density (g/cm³) = 0.95906 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28294 + Viscosity (mPa s) = 0.28315 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.107e-02 Mass of water (kg) = 1.000e+00 @@ -237,10 +237,10 @@ Halite -11.72 -10.14 1.58 0.000e+00 0 0.000e+00 pH = 6.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3375 + Specific Conductance (µS/cm, 100°C) = 3374 Density (g/cm³) = 0.95906 Volume (L) = 1.04343 - Viscosity (mPa s) = 0.28296 + Viscosity (mPa s) = 0.28317 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.108e-02 Mass of water (kg) = 1.000e+00 @@ -332,10 +332,10 @@ Halite -5.17 -3.59 1.58 0.000e+00 0 0.000e+00 pH = 6.305 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 10275 + Specific Conductance (µS/cm, 100°C) = 10273 Density (g/cm³) = 0.96006 Volume (L) = 1.04377 - Viscosity (mPa s) = 0.28297 + Viscosity (mPa s) = 0.28315 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.675e-02 Mass of water (kg) = 1.000e+00 @@ -427,10 +427,10 @@ Halite -4.60 -3.02 1.58 0.000e+00 0 0.000e+00 pH = 6.303 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 16416 + Specific Conductance (µS/cm, 100°C) = 16411 Density (g/cm³) = 0.96099 Volume (L) = 1.04412 - Viscosity (mPa s) = 0.28316 + Viscosity (mPa s) = 0.28336 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.084e-02 Mass of water (kg) = 1.000e+00 @@ -522,10 +522,10 @@ Halite -4.28 -2.69 1.58 0.000e+00 0 0.000e+00 pH = 6.300 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 22254 + Specific Conductance (µS/cm, 100°C) = 22246 Density (g/cm³) = 0.96190 Volume (L) = 1.04447 - Viscosity (mPa s) = 0.28333 + Viscosity (mPa s) = 0.28355 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.422e-02 Mass of water (kg) = 1.000e+00 @@ -617,10 +617,10 @@ Halite -4.04 -2.46 1.58 0.000e+00 0 0.000e+00 pH = 6.297 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 27898 + Specific Conductance (µS/cm, 100°C) = 27888 Density (g/cm³) = 0.96278 Volume (L) = 1.04483 - Viscosity (mPa s) = 0.28348 + Viscosity (mPa s) = 0.28372 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.172e-01 Mass of water (kg) = 1.000e+00 @@ -712,10 +712,10 @@ Halite -3.87 -2.28 1.58 0.000e+00 0 0.000e+00 pH = 6.294 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 33401 + Specific Conductance (µS/cm, 100°C) = 33388 Density (g/cm³) = 0.96366 Volume (L) = 1.04518 - Viscosity (mPa s) = 0.28362 + Viscosity (mPa s) = 0.28388 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.399e-01 Mass of water (kg) = 1.000e+00 @@ -807,10 +807,10 @@ Halite -3.31 -1.73 1.58 0.000e+00 0 0.000e+00 pH = 6.281 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 59573 + Specific Conductance (µS/cm, 100°C) = 59542 Density (g/cm³) = 0.96790 Volume (L) = 1.04702 - Viscosity (mPa s) = 0.28419 + Viscosity (mPa s) = 0.28452 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.506e-01 Mass of water (kg) = 1.000e+00 @@ -902,10 +902,10 @@ Halite -2.76 -1.18 1.58 0.000e+00 0 0.000e+00 pH = 6.259 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 108257 + Specific Conductance (µS/cm, 100°C) = 108183 Density (g/cm³) = 0.97602 Volume (L) = 1.05081 - Viscosity (mPa s) = 0.28501 + Viscosity (mPa s) = 0.28546 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.659e-01 Mass of water (kg) = 1.000e+00 @@ -997,10 +997,10 @@ Halite -2.43 -0.85 1.58 0.000e+00 0 0.000e+00 pH = 6.239 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 154211 + Specific Conductance (µS/cm, 100°C) = 154085 Density (g/cm³) = 0.98386 Volume (L) = 1.05472 - Viscosity (mPa s) = 0.28564 + Viscosity (mPa s) = 0.28617 Activity of water = 0.980 Ionic strength (mol/kgw) = 6.771e-01 Mass of water (kg) = 1.000e+00 @@ -1092,10 +1092,10 @@ Halite -2.19 -0.61 1.58 0.000e+00 0 0.000e+00 pH = 6.220 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 198334 + Specific Conductance (µS/cm, 100°C) = 198149 Density (g/cm³) = 0.99148 Volume (L) = 1.05871 - Viscosity (mPa s) = 0.28615 + Viscosity (mPa s) = 0.28675 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.860e-01 Mass of water (kg) = 1.000e+00 @@ -1187,10 +1187,10 @@ Halite -2.00 -0.42 1.58 0.000e+00 0 0.000e+00 pH = 6.203 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 241016 + Specific Conductance (µS/cm, 100°C) = 240768 Density (g/cm³) = 0.99892 Volume (L) = 1.06276 - Viscosity (mPa s) = 0.28659 + Viscosity (mPa s) = 0.28726 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.093e+00 Mass of water (kg) = 1.000e+00 @@ -1282,10 +1282,10 @@ Halite -1.65 -0.06 1.58 0.000e+00 0 0.000e+00 pH = 6.162 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 342658 + Specific Conductance (µS/cm, 100°C) = 342232 Density (g/cm³) = 1.01691 Volume (L) = 1.07314 - Viscosity (mPa s) = 0.28746 + Viscosity (mPa s) = 0.28827 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.606e+00 Mass of water (kg) = 1.000e+00 @@ -1377,10 +1377,10 @@ Halite -1.38 0.20 1.58 0.000e+00 0 0.000e+00 pH = 6.124 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 438288 + Specific Conductance (µS/cm, 100°C) = 437663 Density (g/cm³) = 1.03414 Volume (L) = 1.08378 - Viscosity (mPa s) = 0.28813 + Viscosity (mPa s) = 0.28905 Activity of water = 0.931 Ionic strength (mol/kgw) = 2.114e+00 Mass of water (kg) = 1.000e+00 @@ -1472,10 +1472,10 @@ Halite -1.16 0.42 1.58 0.000e+00 0 0.000e+00 pH = 6.086 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 528772 + Specific Conductance (µS/cm, 100°C) = 527933 Density (g/cm³) = 1.05072 Volume (L) = 1.09462 - Viscosity (mPa s) = 0.28864 + Viscosity (mPa s) = 0.28966 Activity of water = 0.912 Ionic strength (mol/kgw) = 2.618e+00 Mass of water (kg) = 1.000e+00 @@ -1567,10 +1567,10 @@ Halite -0.97 0.61 1.58 0.000e+00 0 0.000e+00 pH = 6.048 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 614642 + Specific Conductance (µS/cm, 100°C) = 613577 Density (g/cm³) = 1.06672 Volume (L) = 1.10564 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.29017 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.120e+00 Mass of water (kg) = 1.000e+00 @@ -1662,10 +1662,10 @@ Halite -0.80 0.78 1.58 0.000e+00 0 0.000e+00 pH = 6.010 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 696277 + Specific Conductance (µS/cm, 100°C) = 694978 Density (g/cm³) = 1.08221 Volume (L) = 1.11680 - Viscosity (mPa s) = 0.28940 + Viscosity (mPa s) = 0.29059 Activity of water = 0.873 Ionic strength (mol/kgw) = 3.619e+00 Mass of water (kg) = 1.000e+00 @@ -1757,10 +1757,10 @@ Halite -0.65 0.93 1.58 0.000e+00 0 0.000e+00 pH = 5.972 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 773970 + Specific Conductance (µS/cm, 100°C) = 772430 Density (g/cm³) = 1.09722 Volume (L) = 1.12810 - Viscosity (mPa s) = 0.28968 + Viscosity (mPa s) = 0.29096 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.118e+00 Mass of water (kg) = 1.000e+00 @@ -1852,10 +1852,10 @@ Halite -0.51 1.07 1.58 0.000e+00 0 0.000e+00 pH = 5.933 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 847962 + Specific Conductance (µS/cm, 100°C) = 846175 Density (g/cm³) = 1.11180 Volume (L) = 1.13951 - Viscosity (mPa s) = 0.28994 + Viscosity (mPa s) = 0.29128 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.615e+00 Mass of water (kg) = 1.000e+00 @@ -1947,10 +1947,10 @@ Halite -0.38 1.20 1.58 0.000e+00 0 0.000e+00 pH = 5.895 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 918455 + Specific Conductance (µS/cm, 100°C) = 916418 Density (g/cm³) = 1.12598 Volume (L) = 1.15102 - Viscosity (mPa s) = 0.29016 + Viscosity (mPa s) = 0.29158 Activity of water = 0.811 Ionic strength (mol/kgw) = 5.112e+00 Mass of water (kg) = 1.000e+00 @@ -2042,10 +2042,10 @@ Halite -0.26 1.32 1.58 0.000e+00 0 0.000e+00 pH = 5.856 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 985631 + Specific Conductance (µS/cm, 100°C) = 983340 Density (g/cm³) = 1.13978 Volume (L) = 1.16262 - Viscosity (mPa s) = 0.29037 + Viscosity (mPa s) = 0.29185 Activity of water = 0.790 Ionic strength (mol/kgw) = 5.609e+00 Mass of water (kg) = 1.000e+00 @@ -2137,10 +2137,10 @@ Halite -0.15 1.43 1.58 0.000e+00 0 0.000e+00 pH = 5.816 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1049650 + Specific Conductance (µS/cm, 100°C) = 1047104 Density (g/cm³) = 1.15322 Volume (L) = 1.17431 - Viscosity (mPa s) = 0.29057 + Viscosity (mPa s) = 0.29211 Activity of water = 0.769 Ionic strength (mol/kgw) = 6.105e+00 Mass of water (kg) = 1.000e+00 @@ -2232,10 +2232,10 @@ Halite -0.04 1.54 1.58 0.000e+00 0 0.000e+00 pH = 5.776 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1110659 + Specific Conductance (µS/cm, 100°C) = 1107857 Density (g/cm³) = 1.16632 Volume (L) = 1.18608 - Viscosity (mPa s) = 0.29077 + Viscosity (mPa s) = 0.29237 Activity of water = 0.748 Ionic strength (mol/kgw) = 6.602e+00 Mass of water (kg) = 1.000e+00 @@ -2327,10 +2327,10 @@ Halite 0.00 1.58 1.58 0.000e+00 2.822e-01 2.822e-01 pH = 5.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1136325 + Specific Conductance (µS/cm, 100°C) = 1133412 Density (g/cm³) = 1.17192 Volume (L) = 1.19123 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29248 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.818e+00 Mass of water (kg) = 1.000e+00 @@ -2422,10 +2422,10 @@ Halite 0.00 1.58 1.58 2.822e-01 7.822e-01 5.000e-01 pH = 5.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1136325 + Specific Conductance (µS/cm, 100°C) = 1133412 Density (g/cm³) = 1.17192 Volume (L) = 1.19123 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29248 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.818e+00 Mass of water (kg) = 1.000e+00 @@ -2517,10 +2517,10 @@ Halite 0.00 1.58 1.58 7.822e-01 1.282e+00 5.000e-01 pH = 5.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1136325 + Specific Conductance (µS/cm, 100°C) = 1133412 Density (g/cm³) = 1.17192 Volume (L) = 1.19123 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29248 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.818e+00 Mass of water (kg) = 1.000e+00 @@ -2612,10 +2612,10 @@ Halite 0.00 1.58 1.58 1.282e+00 1.782e+00 5.000e-01 pH = 5.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1136325 + Specific Conductance (µS/cm, 100°C) = 1133412 Density (g/cm³) = 1.17192 Volume (L) = 1.19123 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29248 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.818e+00 Mass of water (kg) = 1.000e+00 @@ -2707,10 +2707,10 @@ Halite 0.00 1.58 1.58 1.782e+00 2.282e+00 5.000e-01 pH = 5.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1136325 + Specific Conductance (µS/cm, 100°C) = 1133412 Density (g/cm³) = 1.17192 Volume (L) = 1.19123 - Viscosity (mPa s) = 0.29085 + Viscosity (mPa s) = 0.29248 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.818e+00 Mass of water (kg) = 1.000e+00 @@ -2825,7 +2825,7 @@ Halite Element not present. 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 150°C) = 1377 Density (g/cm³) = 0.91721 Volume (L) = 1.09047 - Viscosity (mPa s) = 0.18294 + Viscosity (mPa s) = 0.18309 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.627e-03 Mass of water (kg) = 1.000e+00 @@ -2911,10 +2911,10 @@ Halite -11.54 -10.10 1.44 0.000e+00 0 0.000e+00 pH = 6.093 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1383 + Specific Conductance (µS/cm, 150°C) = 1382 Density (g/cm³) = 0.91721 Volume (L) = 1.09047 - Viscosity (mPa s) = 0.18301 + Viscosity (mPa s) = 0.18315 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.640e-03 Mass of water (kg) = 1.000e+00 @@ -3009,10 +3009,10 @@ Halite -5.03 -3.59 1.44 0.000e+00 0 0.000e+00 pH = 6.094 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 10391 + Specific Conductance (µS/cm, 150°C) = 10387 Density (g/cm³) = 0.91820 Volume (L) = 1.09069 - Viscosity (mPa s) = 0.18314 + Viscosity (mPa s) = 0.18330 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.910e-02 Mass of water (kg) = 1.000e+00 @@ -3107,10 +3107,10 @@ Halite -4.47 -3.03 1.44 0.000e+00 0 0.000e+00 pH = 6.092 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 18451 + Specific Conductance (µS/cm, 150°C) = 18442 Density (g/cm³) = 0.91914 Volume (L) = 1.09094 - Viscosity (mPa s) = 0.18329 + Viscosity (mPa s) = 0.18349 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.140e-02 Mass of water (kg) = 1.000e+00 @@ -3205,10 +3205,10 @@ Halite -4.15 -2.71 1.44 0.000e+00 0 0.000e+00 pH = 6.090 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 26148 + Specific Conductance (µS/cm, 150°C) = 26133 Density (g/cm³) = 0.92006 Volume (L) = 1.09119 - Viscosity (mPa s) = 0.18340 + Viscosity (mPa s) = 0.18364 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.332e-02 Mass of water (kg) = 1.000e+00 @@ -3303,10 +3303,10 @@ Halite -3.93 -2.49 1.44 0.000e+00 0 0.000e+00 pH = 6.087 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 33611 + Specific Conductance (µS/cm, 150°C) = 33590 Density (g/cm³) = 0.92097 Volume (L) = 1.09145 - Viscosity (mPa s) = 0.18350 + Viscosity (mPa s) = 0.18378 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.500e-02 Mass of water (kg) = 1.000e+00 @@ -3401,10 +3401,10 @@ Halite -3.75 -2.31 1.44 0.000e+00 0 0.000e+00 pH = 6.084 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 40904 + Specific Conductance (µS/cm, 150°C) = 40876 Density (g/cm³) = 0.92186 Volume (L) = 1.09171 - Viscosity (mPa s) = 0.18359 + Viscosity (mPa s) = 0.18389 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.165e-01 Mass of water (kg) = 1.000e+00 @@ -3499,10 +3499,10 @@ Halite -3.22 -1.78 1.44 0.000e+00 0 0.000e+00 pH = 6.072 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 75751 + Specific Conductance (µS/cm, 150°C) = 75681 Density (g/cm³) = 0.92622 Volume (L) = 1.09311 - Viscosity (mPa s) = 0.18396 + Viscosity (mPa s) = 0.18436 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.228e-01 Mass of water (kg) = 1.000e+00 @@ -3597,10 +3597,10 @@ Halite -2.68 -1.24 1.44 0.000e+00 0 0.000e+00 pH = 6.050 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 141129 + Specific Conductance (µS/cm, 150°C) = 140948 Density (g/cm³) = 0.93462 Volume (L) = 1.09614 - Viscosity (mPa s) = 0.18447 + Viscosity (mPa s) = 0.18504 Activity of water = 0.987 Ionic strength (mol/kgw) = 4.321e-01 Mass of water (kg) = 1.000e+00 @@ -3695,10 +3695,10 @@ Halite -2.36 -0.92 1.44 0.000e+00 0 0.000e+00 pH = 6.031 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 203352 + Specific Conductance (µS/cm, 150°C) = 203034 Density (g/cm³) = 0.94273 Volume (L) = 1.09936 - Viscosity (mPa s) = 0.18488 + Viscosity (mPa s) = 0.18555 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.393e-01 Mass of water (kg) = 1.000e+00 @@ -3793,10 +3793,10 @@ Halite -2.13 -0.69 1.44 0.000e+00 0 0.000e+00 pH = 6.015 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 263475 + Specific Conductance (µS/cm, 150°C) = 263001 Density (g/cm³) = 0.95063 Volume (L) = 1.10273 - Viscosity (mPa s) = 0.18521 + Viscosity (mPa s) = 0.18599 Activity of water = 0.974 Ionic strength (mol/kgw) = 8.453e-01 Mass of water (kg) = 1.000e+00 @@ -3891,10 +3891,10 @@ Halite -1.95 -0.51 1.44 0.000e+00 0 0.000e+00 pH = 6.000 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 321939 + Specific Conductance (µS/cm, 150°C) = 321292 Density (g/cm³) = 0.95835 Volume (L) = 1.10623 - Viscosity (mPa s) = 0.18551 + Viscosity (mPa s) = 0.18637 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.050e+00 Mass of water (kg) = 1.000e+00 @@ -3989,10 +3989,10 @@ Halite -1.61 -0.17 1.44 0.000e+00 0 0.000e+00 pH = 5.965 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 462156 + Specific Conductance (µS/cm, 150°C) = 461023 Density (g/cm³) = 0.97698 Volume (L) = 1.11541 - Viscosity (mPa s) = 0.18612 + Viscosity (mPa s) = 0.18717 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.561e+00 Mass of water (kg) = 1.000e+00 @@ -4087,10 +4087,10 @@ Halite -1.36 0.09 1.44 0.000e+00 0 0.000e+00 pH = 5.932 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 595114 + Specific Conductance (µS/cm, 150°C) = 593433 Density (g/cm³) = 0.99478 Volume (L) = 1.12507 - Viscosity (mPa s) = 0.18662 + Viscosity (mPa s) = 0.18783 Activity of water = 0.934 Ionic strength (mol/kgw) = 2.068e+00 Mass of water (kg) = 1.000e+00 @@ -4185,10 +4185,10 @@ Halite -1.15 0.29 1.44 0.000e+00 0 0.000e+00 pH = 5.900 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 721631 + Specific Conductance (µS/cm, 150°C) = 719354 Density (g/cm³) = 1.01185 Volume (L) = 1.13514 - Viscosity (mPa s) = 0.18703 + Viscosity (mPa s) = 0.18838 Activity of water = 0.916 Ionic strength (mol/kgw) = 2.573e+00 Mass of water (kg) = 1.000e+00 @@ -4283,10 +4283,10 @@ Halite -0.97 0.47 1.44 0.000e+00 0 0.000e+00 pH = 5.867 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 842192 + Specific Conductance (µS/cm, 150°C) = 839283 Density (g/cm³) = 1.02828 Volume (L) = 1.14555 - Viscosity (mPa s) = 0.18739 + Viscosity (mPa s) = 0.18886 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.077e+00 Mass of water (kg) = 1.000e+00 @@ -4381,10 +4381,10 @@ Halite -0.81 0.63 1.44 0.000e+00 0 0.000e+00 pH = 5.834 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 957144 + Specific Conductance (µS/cm, 150°C) = 953576 Density (g/cm³) = 1.04410 Volume (L) = 1.15625 - Viscosity (mPa s) = 0.18770 + Viscosity (mPa s) = 0.18929 Activity of water = 0.879 Ionic strength (mol/kgw) = 3.579e+00 Mass of water (kg) = 1.000e+00 @@ -4479,10 +4479,10 @@ Halite -0.67 0.77 1.44 0.000e+00 0 0.000e+00 pH = 5.800 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1066763 + Specific Conductance (µS/cm, 150°C) = 1062515 Density (g/cm³) = 1.05937 Volume (L) = 1.16721 - Viscosity (mPa s) = 0.18799 + Viscosity (mPa s) = 0.18968 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.080e+00 Mass of water (kg) = 1.000e+00 @@ -4577,10 +4577,10 @@ Halite -0.55 0.89 1.44 0.000e+00 0 0.000e+00 pH = 5.765 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1171285 + Specific Conductance (µS/cm, 150°C) = 1166341 Density (g/cm³) = 1.07412 Volume (L) = 1.17840 - Viscosity (mPa s) = 0.18824 + Viscosity (mPa s) = 0.19004 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.581e+00 Mass of water (kg) = 1.000e+00 @@ -4675,10 +4675,10 @@ Halite -0.43 1.01 1.44 0.000e+00 0 0.000e+00 pH = 5.729 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1270919 + Specific Conductance (µS/cm, 150°C) = 1265267 Density (g/cm³) = 1.08839 Volume (L) = 1.18981 - Viscosity (mPa s) = 0.18848 + Viscosity (mPa s) = 0.19037 Activity of water = 0.821 Ionic strength (mol/kgw) = 5.081e+00 Mass of water (kg) = 1.000e+00 @@ -4773,10 +4773,10 @@ Halite -0.32 1.12 1.44 0.000e+00 0 0.000e+00 pH = 5.691 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1365856 + Specific Conductance (µS/cm, 150°C) = 1359488 Density (g/cm³) = 1.10220 Volume (L) = 1.20141 - Viscosity (mPa s) = 0.18871 + Viscosity (mPa s) = 0.19069 Activity of water = 0.802 Ionic strength (mol/kgw) = 5.581e+00 Mass of water (kg) = 1.000e+00 @@ -4871,10 +4871,10 @@ Halite -0.22 1.22 1.44 0.000e+00 0 0.000e+00 pH = 5.653 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1456277 + Specific Conductance (µS/cm, 150°C) = 1449189 Density (g/cm³) = 1.11558 Volume (L) = 1.21320 - Viscosity (mPa s) = 0.18893 + Viscosity (mPa s) = 0.19099 Activity of water = 0.783 Ionic strength (mol/kgw) = 6.081e+00 Mass of water (kg) = 1.000e+00 @@ -4969,10 +4969,10 @@ Halite -0.13 1.31 1.44 0.000e+00 0 0.000e+00 pH = 5.614 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1542351 + Specific Conductance (µS/cm, 150°C) = 1534541 Density (g/cm³) = 1.12854 Volume (L) = 1.22516 - Viscosity (mPa s) = 0.18914 + Viscosity (mPa s) = 0.19129 Activity of water = 0.765 Ionic strength (mol/kgw) = 6.581e+00 Mass of water (kg) = 1.000e+00 @@ -5067,10 +5067,10 @@ Halite -0.04 1.40 1.44 0.000e+00 0 0.000e+00 pH = 5.574 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1624240 + Specific Conductance (µS/cm, 150°C) = 1615709 Density (g/cm³) = 1.14112 Volume (L) = 1.23728 - Viscosity (mPa s) = 0.18935 + Viscosity (mPa s) = 0.19158 Activity of water = 0.746 Ionic strength (mol/kgw) = 7.082e+00 Mass of water (kg) = 1.000e+00 @@ -5165,10 +5165,10 @@ Halite -0.00 1.44 1.44 0.000e+00 2.618e-01 2.618e-01 pH = 5.554 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661819 + Specific Conductance (µS/cm, 150°C) = 1652946 Density (g/cm³) = 1.14697 Volume (L) = 1.24310 - Viscosity (mPa s) = 0.18945 + Viscosity (mPa s) = 0.19171 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.320e+00 Mass of water (kg) = 1.000e+00 @@ -5263,10 +5263,10 @@ Halite 0.00 1.44 1.44 2.618e-01 7.618e-01 5.000e-01 pH = 5.554 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661819 + Specific Conductance (µS/cm, 150°C) = 1652946 Density (g/cm³) = 1.14697 Volume (L) = 1.24310 - Viscosity (mPa s) = 0.18945 + Viscosity (mPa s) = 0.19171 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.320e+00 Mass of water (kg) = 1.000e+00 @@ -5361,10 +5361,10 @@ Halite 0.00 1.44 1.44 7.618e-01 1.262e+00 5.000e-01 pH = 5.554 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661819 + Specific Conductance (µS/cm, 150°C) = 1652946 Density (g/cm³) = 1.14697 Volume (L) = 1.24310 - Viscosity (mPa s) = 0.18945 + Viscosity (mPa s) = 0.19171 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.320e+00 Mass of water (kg) = 1.000e+00 @@ -5459,10 +5459,10 @@ Halite 0.00 1.44 1.44 1.262e+00 1.762e+00 5.000e-01 pH = 5.554 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1661819 + Specific Conductance (µS/cm, 150°C) = 1652946 Density (g/cm³) = 1.14697 Volume (L) = 1.24310 - Viscosity (mPa s) = 0.18945 + Viscosity (mPa s) = 0.19171 Activity of water = 0.738 Ionic strength (mol/kgw) = 7.320e+00 Mass of water (kg) = 1.000e+00 @@ -5578,7 +5578,7 @@ Halite Element not present. 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 200°C) = 496 Density (g/cm³) = 0.86473 Volume (L) = 1.15649 - Viscosity (mPa s) = 0.13506 + Viscosity (mPa s) = 0.13515 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.596e-03 Mass of water (kg) = 1.000e+00 @@ -5667,7 +5667,7 @@ Halite -11.26 -10.06 1.20 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 200°C) = 503 Density (g/cm³) = 0.86474 Volume (L) = 1.15649 - Viscosity (mPa s) = 0.13491 + Viscosity (mPa s) = 0.13501 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.607e-03 Mass of water (kg) = 1.000e+00 @@ -5762,10 +5762,10 @@ Halite -4.80 -3.60 1.20 0.000e+00 0 0.000e+00 pH = 6.043 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 10563 + Specific Conductance (µS/cm, 200°C) = 10558 Density (g/cm³) = 0.86582 Volume (L) = 1.15645 - Viscosity (mPa s) = 0.13492 + Viscosity (mPa s) = 0.13509 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.338e-02 Mass of water (kg) = 1.000e+00 @@ -5860,10 +5860,10 @@ Halite -4.26 -3.06 1.20 0.000e+00 0 0.000e+00 pH = 6.043 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 19708 + Specific Conductance (µS/cm, 200°C) = 19694 Density (g/cm³) = 0.86687 Volume (L) = 1.15645 - Viscosity (mPa s) = 0.13504 + Viscosity (mPa s) = 0.13527 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.458e-02 Mass of water (kg) = 1.000e+00 @@ -5958,10 +5958,10 @@ Halite -3.95 -2.75 1.20 0.000e+00 0 0.000e+00 pH = 6.042 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 28490 + Specific Conductance (µS/cm, 200°C) = 28466 Density (g/cm³) = 0.86789 Volume (L) = 1.15648 - Viscosity (mPa s) = 0.13513 + Viscosity (mPa s) = 0.13541 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.562e-02 Mass of water (kg) = 1.000e+00 @@ -6056,10 +6056,10 @@ Halite -3.73 -2.53 1.20 0.000e+00 0 0.000e+00 pH = 6.040 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 37039 + Specific Conductance (µS/cm, 200°C) = 37004 Density (g/cm³) = 0.86891 Volume (L) = 1.15651 - Viscosity (mPa s) = 0.13521 + Viscosity (mPa s) = 0.13553 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.657e-02 Mass of water (kg) = 1.000e+00 @@ -6154,10 +6154,10 @@ Halite -3.56 -2.36 1.20 0.000e+00 0 0.000e+00 pH = 6.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 45417 + Specific Conductance (µS/cm, 200°C) = 45369 Density (g/cm³) = 0.86991 Volume (L) = 1.15656 - Viscosity (mPa s) = 0.13528 + Viscosity (mPa s) = 0.13563 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.075e-01 Mass of water (kg) = 1.000e+00 @@ -6252,10 +6252,10 @@ Halite -3.04 -1.85 1.20 0.000e+00 0 0.000e+00 pH = 6.026 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 85730 + Specific Conductance (µS/cm, 200°C) = 85602 Density (g/cm³) = 0.87479 Volume (L) = 1.15693 - Viscosity (mPa s) = 0.13556 + Viscosity (mPa s) = 0.13605 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.113e-01 Mass of water (kg) = 1.000e+00 @@ -6350,10 +6350,10 @@ Halite -2.53 -1.34 1.20 0.000e+00 0 0.000e+00 pH = 6.006 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 162290 + Specific Conductance (µS/cm, 200°C) = 161949 Density (g/cm³) = 0.88417 Volume (L) = 1.15812 - Viscosity (mPa s) = 0.13597 + Viscosity (mPa s) = 0.13666 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.175e-01 Mass of water (kg) = 1.000e+00 @@ -6448,10 +6448,10 @@ Halite -2.23 -1.03 1.20 0.000e+00 0 0.000e+00 pH = 5.990 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 236011 + Specific Conductance (µS/cm, 200°C) = 235403 Density (g/cm³) = 0.89317 Volume (L) = 1.15973 - Viscosity (mPa s) = 0.13629 + Viscosity (mPa s) = 0.13713 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.228e-01 Mass of water (kg) = 1.000e+00 @@ -6546,10 +6546,10 @@ Halite -2.01 -0.82 1.20 0.000e+00 0 0.000e+00 pH = 5.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 307879 + Specific Conductance (µS/cm, 200°C) = 306962 Density (g/cm³) = 0.90189 Volume (L) = 1.16165 - Viscosity (mPa s) = 0.13657 + Viscosity (mPa s) = 0.13754 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.275e-01 Mass of water (kg) = 1.000e+00 @@ -6644,10 +6644,10 @@ Halite -1.84 -0.65 1.20 0.000e+00 0 0.000e+00 pH = 5.964 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 378269 + Specific Conductance (µS/cm, 200°C) = 377008 Density (g/cm³) = 0.91037 Volume (L) = 1.16384 - Viscosity (mPa s) = 0.13681 + Viscosity (mPa s) = 0.13789 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.032e+00 Mass of water (kg) = 1.000e+00 @@ -6742,10 +6742,10 @@ Halite -1.53 -0.33 1.20 0.000e+00 0 0.000e+00 pH = 5.935 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 548736 + Specific Conductance (µS/cm, 200°C) = 546492 Density (g/cm³) = 0.93063 Volume (L) = 1.17023 - Viscosity (mPa s) = 0.13733 + Viscosity (mPa s) = 0.13865 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.541e+00 Mass of water (kg) = 1.000e+00 @@ -6840,10 +6840,10 @@ Halite -1.29 -0.10 1.20 0.000e+00 0 0.000e+00 pH = 5.908 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 712036 + Specific Conductance (µS/cm, 200°C) = 708669 Density (g/cm³) = 0.94975 Volume (L) = 1.17772 - Viscosity (mPa s) = 0.13776 + Viscosity (mPa s) = 0.13928 Activity of water = 0.938 Ionic strength (mol/kgw) = 2.049e+00 Mass of water (kg) = 1.000e+00 @@ -6938,10 +6938,10 @@ Halite -1.10 0.09 1.19 0.000e+00 0 0.000e+00 pH = 5.882 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 868475 + Specific Conductance (µS/cm, 200°C) = 863882 Density (g/cm³) = 0.96784 Volume (L) = 1.18611 - Viscosity (mPa s) = 0.13814 + Viscosity (mPa s) = 0.13983 Activity of water = 0.921 Ionic strength (mol/kgw) = 2.555e+00 Mass of water (kg) = 1.000e+00 @@ -7036,10 +7036,10 @@ Halite -0.94 0.26 1.19 0.000e+00 0 0.000e+00 pH = 5.854 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1018152 + Specific Conductance (µS/cm, 200°C) = 1012253 Density (g/cm³) = 0.98500 Volume (L) = 1.19529 - Viscosity (mPa s) = 0.13847 + Viscosity (mPa s) = 0.14032 Activity of water = 0.904 Ionic strength (mol/kgw) = 3.060e+00 Mass of water (kg) = 1.000e+00 @@ -7134,10 +7134,10 @@ Halite -0.80 0.40 1.19 0.000e+00 0 0.000e+00 pH = 5.825 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1161118 + Specific Conductance (µS/cm, 200°C) = 1153853 Density (g/cm³) = 1.00129 Volume (L) = 1.20516 - Viscosity (mPa s) = 0.13877 + Viscosity (mPa s) = 0.14077 Activity of water = 0.887 Ionic strength (mol/kgw) = 3.564e+00 Mass of water (kg) = 1.000e+00 @@ -7232,10 +7232,10 @@ Halite -0.67 0.52 1.19 0.000e+00 0 0.000e+00 pH = 5.794 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1297420 + Specific Conductance (µS/cm, 200°C) = 1288745 Density (g/cm³) = 1.01677 Volume (L) = 1.21565 - Viscosity (mPa s) = 0.13904 + Viscosity (mPa s) = 0.14117 Activity of water = 0.870 Ionic strength (mol/kgw) = 4.067e+00 Mass of water (kg) = 1.000e+00 @@ -7330,10 +7330,10 @@ Halite -0.56 0.64 1.19 0.000e+00 0 0.000e+00 pH = 5.762 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1427118 + Specific Conductance (µS/cm, 200°C) = 1417001 Density (g/cm³) = 1.03149 Volume (L) = 1.22672 - Viscosity (mPa s) = 0.13929 + Viscosity (mPa s) = 0.14155 Activity of water = 0.853 Ionic strength (mol/kgw) = 4.569e+00 Mass of water (kg) = 1.000e+00 @@ -7428,10 +7428,10 @@ Halite -0.45 0.74 1.19 0.000e+00 0 0.000e+00 pH = 5.727 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1550288 + Specific Conductance (µS/cm, 200°C) = 1538709 Density (g/cm³) = 1.04549 Volume (L) = 1.23832 - Viscosity (mPa s) = 0.13953 + Viscosity (mPa s) = 0.14191 Activity of water = 0.836 Ionic strength (mol/kgw) = 5.072e+00 Mass of water (kg) = 1.000e+00 @@ -7526,10 +7526,10 @@ Halite -0.36 0.83 1.19 0.000e+00 0 0.000e+00 pH = 5.691 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1667023 + Specific Conductance (µS/cm, 200°C) = 1653972 Density (g/cm³) = 1.05880 Volume (L) = 1.25043 - Viscosity (mPa s) = 0.13976 + Viscosity (mPa s) = 0.14226 Activity of water = 0.819 Ionic strength (mol/kgw) = 5.574e+00 Mass of water (kg) = 1.000e+00 @@ -7624,10 +7624,10 @@ Halite -0.27 0.92 1.19 0.000e+00 0 0.000e+00 pH = 5.652 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1777432 + Specific Conductance (µS/cm, 200°C) = 1762907 Density (g/cm³) = 1.07146 Volume (L) = 1.26300 - Viscosity (mPa s) = 0.13998 + Viscosity (mPa s) = 0.14258 Activity of water = 0.802 Ionic strength (mol/kgw) = 6.076e+00 Mass of water (kg) = 1.000e+00 @@ -7722,10 +7722,10 @@ Halite -0.19 1.00 1.19 0.000e+00 0 0.000e+00 pH = 5.612 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1881641 + Specific Conductance (µS/cm, 200°C) = 1865647 Density (g/cm³) = 1.08349 Volume (L) = 1.27601 - Viscosity (mPa s) = 0.14019 + Viscosity (mPa s) = 0.14291 Activity of water = 0.785 Ionic strength (mol/kgw) = 6.579e+00 Mass of water (kg) = 1.000e+00 @@ -7820,10 +7820,10 @@ Halite -0.12 1.08 1.19 0.000e+00 0 0.000e+00 pH = 5.570 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1979784 + Specific Conductance (µS/cm, 200°C) = 1962334 Density (g/cm³) = 1.09493 Volume (L) = 1.28945 - Viscosity (mPa s) = 0.14041 + Viscosity (mPa s) = 0.14322 Activity of water = 0.769 Ionic strength (mol/kgw) = 7.081e+00 Mass of water (kg) = 1.000e+00 @@ -7918,10 +7918,10 @@ Halite -0.05 1.14 1.19 0.000e+00 0 0.000e+00 pH = 5.526 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2072007 + Specific Conductance (µS/cm, 200°C) = 2053117 Density (g/cm³) = 1.10580 Volume (L) = 1.30330 - Viscosity (mPa s) = 0.14062 + Viscosity (mPa s) = 0.14353 Activity of water = 0.753 Ionic strength (mol/kgw) = 7.584e+00 Mass of water (kg) = 1.000e+00 @@ -8016,10 +8016,10 @@ Halite -0.00 1.19 1.19 0.000e+00 1.114e-01 1.114e-01 pH = 5.490 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2139694 + Specific Conductance (µS/cm, 200°C) = 2119701 Density (g/cm³) = 1.11386 Volume (L) = 1.31433 - Viscosity (mPa s) = 0.14079 + Viscosity (mPa s) = 0.14377 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.975e+00 Mass of water (kg) = 1.000e+00 @@ -8114,10 +8114,10 @@ Halite -0.00 1.19 1.19 1.114e-01 6.114e-01 5.000e-01 pH = 5.490 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2139694 + Specific Conductance (µS/cm, 200°C) = 2119701 Density (g/cm³) = 1.11386 Volume (L) = 1.31433 - Viscosity (mPa s) = 0.14079 + Viscosity (mPa s) = 0.14377 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.975e+00 Mass of water (kg) = 1.000e+00 @@ -8212,10 +8212,10 @@ Halite -0.00 1.19 1.19 6.114e-01 1.111e+00 5.000e-01 pH = 5.490 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 2139694 + Specific Conductance (µS/cm, 200°C) = 2119701 Density (g/cm³) = 1.11386 Volume (L) = 1.31433 - Viscosity (mPa s) = 0.14079 + Viscosity (mPa s) = 0.14377 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.975e+00 Mass of water (kg) = 1.000e+00 @@ -8328,10 +8328,10 @@ Halite Element not present. 0.000e+00 0 0.000e+00 pH = 6.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 9957 + Specific Conductance (µS/cm, 100°C) = 9951 Density (g/cm³) = 1.00217 Volume (L) = 1.00023 - Viscosity (mPa s) = 0.31110 + Viscosity (mPa s) = 0.31151 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.073e-02 Mass of water (kg) = 1.000e+00 @@ -8417,10 +8417,10 @@ Halite -11.87 -10.19 1.68 0.000e+00 0 0.000e+00 pH = 6.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 9959 + Specific Conductance (µS/cm, 100°C) = 9953 Density (g/cm³) = 1.00217 Volume (L) = 1.00023 - Viscosity (mPa s) = 0.31125 + Viscosity (mPa s) = 0.31166 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.074e-02 Mass of water (kg) = 1.000e+00 @@ -8515,10 +8515,10 @@ Halite -5.30 -3.62 1.68 0.000e+00 0 0.000e+00 pH = 6.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 16954 + Specific Conductance (µS/cm, 100°C) = 16946 Density (g/cm³) = 1.00318 Volume (L) = 1.00065 - Viscosity (mPa s) = 0.31122 + Viscosity (mPa s) = 0.31157 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.806e-02 Mass of water (kg) = 1.000e+00 @@ -8613,10 +8613,10 @@ Halite -4.72 -3.04 1.67 0.000e+00 0 0.000e+00 pH = 6.083 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 23158 + Specific Conductance (µS/cm, 100°C) = 23148 Density (g/cm³) = 1.00413 Volume (L) = 1.00106 - Viscosity (mPa s) = 0.31136 + Viscosity (mPa s) = 0.31171 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.239e-01 Mass of water (kg) = 1.000e+00 @@ -8711,10 +8711,10 @@ Halite -4.38 -2.71 1.67 0.000e+00 0 0.000e+00 pH = 6.082 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 29023 + Specific Conductance (µS/cm, 100°C) = 29009 Density (g/cm³) = 1.00504 Volume (L) = 1.00148 - Viscosity (mPa s) = 0.31153 + Viscosity (mPa s) = 0.31188 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.488e-01 Mass of water (kg) = 1.000e+00 @@ -8809,10 +8809,10 @@ Halite -4.14 -2.47 1.67 0.000e+00 0 0.000e+00 pH = 6.080 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 34669 + Specific Conductance (µS/cm, 100°C) = 34652 Density (g/cm³) = 1.00594 Volume (L) = 1.00190 - Viscosity (mPa s) = 0.31169 + Viscosity (mPa s) = 0.31205 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.732e-01 Mass of water (kg) = 1.000e+00 @@ -8907,10 +8907,10 @@ Halite -3.96 -2.29 1.67 0.000e+00 0 0.000e+00 pH = 6.079 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 40154 + Specific Conductance (µS/cm, 100°C) = 40133 Density (g/cm³) = 1.00681 Volume (L) = 1.00232 - Viscosity (mPa s) = 0.31185 + Viscosity (mPa s) = 0.31222 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.972e-01 Mass of water (kg) = 1.000e+00 @@ -9005,10 +9005,10 @@ Halite -3.40 -1.73 1.67 0.000e+00 0 0.000e+00 pH = 6.070 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 66024 + Specific Conductance (µS/cm, 100°C) = 65985 Density (g/cm³) = 1.01103 Volume (L) = 1.00446 - Viscosity (mPa s) = 0.31252 + Viscosity (mPa s) = 0.31295 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.130e-01 Mass of water (kg) = 1.000e+00 @@ -9103,10 +9103,10 @@ Halite -2.83 -1.17 1.66 0.000e+00 0 0.000e+00 pH = 6.053 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 113419 + Specific Conductance (µS/cm, 100°C) = 113336 Density (g/cm³) = 1.01899 Volume (L) = 1.00881 - Viscosity (mPa s) = 0.31352 + Viscosity (mPa s) = 0.31406 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.347e-01 Mass of water (kg) = 1.000e+00 @@ -9201,10 +9201,10 @@ Halite -2.50 -0.83 1.66 0.000e+00 0 0.000e+00 pH = 6.037 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 157471 + Specific Conductance (µS/cm, 100°C) = 157338 Density (g/cm³) = 1.02658 Volume (L) = 1.01323 - Viscosity (mPa s) = 0.31427 + Viscosity (mPa s) = 0.31489 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.499e-01 Mass of water (kg) = 1.000e+00 @@ -9299,10 +9299,10 @@ Halite -2.25 -0.59 1.66 0.000e+00 0 0.000e+00 pH = 6.023 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 199254 + Specific Conductance (µS/cm, 100°C) = 199066 Density (g/cm³) = 1.03393 Volume (L) = 1.01771 - Viscosity (mPa s) = 0.31487 + Viscosity (mPa s) = 0.31556 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.612e-01 Mass of water (kg) = 1.000e+00 @@ -9397,10 +9397,10 @@ Halite -2.06 -0.40 1.66 0.000e+00 0 0.000e+00 pH = 6.009 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 239736 + Specific Conductance (µS/cm, 100°C) = 239489 Density (g/cm³) = 1.04109 Volume (L) = 1.02222 - Viscosity (mPa s) = 0.31537 + Viscosity (mPa s) = 0.31612 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.170e+00 Mass of water (kg) = 1.000e+00 @@ -9495,10 +9495,10 @@ Halite -1.70 -0.04 1.65 0.000e+00 0 0.000e+00 pH = 5.976 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 335758 + Specific Conductance (µS/cm, 100°C) = 335347 Density (g/cm³) = 1.05828 Volume (L) = 1.03367 - Viscosity (mPa s) = 0.31629 + Viscosity (mPa s) = 0.31718 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.683e+00 Mass of water (kg) = 1.000e+00 @@ -9593,10 +9593,10 @@ Halite -1.42 0.23 1.65 0.000e+00 0 0.000e+00 pH = 5.944 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 425400 + Specific Conductance (µS/cm, 100°C) = 424809 Density (g/cm³) = 1.07467 Volume (L) = 1.04527 - Viscosity (mPa s) = 0.31693 + Viscosity (mPa s) = 0.31793 Activity of water = 0.929 Ionic strength (mol/kgw) = 2.189e+00 Mass of water (kg) = 1.000e+00 @@ -9691,10 +9691,10 @@ Halite -1.20 0.45 1.65 0.000e+00 0 0.000e+00 pH = 5.912 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 509690 + Specific Conductance (µS/cm, 100°C) = 508908 Density (g/cm³) = 1.09041 Volume (L) = 1.05700 - Viscosity (mPa s) = 0.31737 + Viscosity (mPa s) = 0.31848 Activity of water = 0.910 Ionic strength (mol/kgw) = 2.689e+00 Mass of water (kg) = 1.000e+00 @@ -9789,10 +9789,10 @@ Halite -1.01 0.64 1.64 0.000e+00 0 0.000e+00 pH = 5.879 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 589267 + Specific Conductance (µS/cm, 100°C) = 588284 Density (g/cm³) = 1.10559 Volume (L) = 1.06882 - Viscosity (mPa s) = 0.31768 + Viscosity (mPa s) = 0.31889 Activity of water = 0.890 Ionic strength (mol/kgw) = 3.186e+00 Mass of water (kg) = 1.000e+00 @@ -9887,10 +9887,10 @@ Halite -0.84 0.80 1.64 0.000e+00 0 0.000e+00 pH = 5.847 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 664578 + Specific Conductance (µS/cm, 100°C) = 663388 Density (g/cm³) = 1.12028 Volume (L) = 1.08073 - Viscosity (mPa s) = 0.31791 + Viscosity (mPa s) = 0.31920 Activity of water = 0.870 Ionic strength (mol/kgw) = 3.681e+00 Mass of water (kg) = 1.000e+00 @@ -9985,10 +9985,10 @@ Halite -0.69 0.95 1.64 0.000e+00 0 0.000e+00 pH = 5.814 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 735965 + Specific Conductance (µS/cm, 100°C) = 734562 Density (g/cm³) = 1.13453 Volume (L) = 1.09271 - Viscosity (mPa s) = 0.31809 + Viscosity (mPa s) = 0.31946 Activity of water = 0.850 Ionic strength (mol/kgw) = 4.175e+00 Mass of water (kg) = 1.000e+00 @@ -10083,10 +10083,10 @@ Halite -0.55 1.09 1.64 0.000e+00 0 0.000e+00 pH = 5.781 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 803702 + Specific Conductance (µS/cm, 100°C) = 802083 Density (g/cm³) = 1.14840 Volume (L) = 1.10475 - Viscosity (mPa s) = 0.31823 + Viscosity (mPa s) = 0.31967 Activity of water = 0.829 Ionic strength (mol/kgw) = 4.667e+00 Mass of water (kg) = 1.000e+00 @@ -10181,10 +10181,10 @@ Halite -0.42 1.22 1.64 0.000e+00 0 0.000e+00 pH = 5.747 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 868024 + Specific Conductance (µS/cm, 100°C) = 866185 Density (g/cm³) = 1.16190 Volume (L) = 1.11684 - Viscosity (mPa s) = 0.31835 + Viscosity (mPa s) = 0.31987 Activity of water = 0.808 Ionic strength (mol/kgw) = 5.160e+00 Mass of water (kg) = 1.000e+00 @@ -10279,10 +10279,10 @@ Halite -0.29 1.34 1.64 0.000e+00 0 0.000e+00 pH = 5.712 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 929121 + Specific Conductance (µS/cm, 100°C) = 927062 Density (g/cm³) = 1.17507 Volume (L) = 1.12898 - Viscosity (mPa s) = 0.31846 + Viscosity (mPa s) = 0.32005 Activity of water = 0.787 Ionic strength (mol/kgw) = 5.653e+00 Mass of water (kg) = 1.000e+00 @@ -10377,10 +10377,10 @@ Halite -0.18 1.45 1.63 0.000e+00 0 0.000e+00 pH = 5.677 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 987171 + Specific Conductance (µS/cm, 100°C) = 984889 Density (g/cm³) = 1.18792 Volume (L) = 1.14116 - Viscosity (mPa s) = 0.31858 + Viscosity (mPa s) = 0.32023 Activity of water = 0.766 Ionic strength (mol/kgw) = 6.145e+00 Mass of water (kg) = 1.000e+00 @@ -10475,10 +10475,10 @@ Halite -0.07 1.56 1.63 0.000e+00 0 0.000e+00 pH = 5.642 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1042333 + Specific Conductance (µS/cm, 100°C) = 1039828 Density (g/cm³) = 1.20048 Volume (L) = 1.15337 - Viscosity (mPa s) = 0.31870 + Viscosity (mPa s) = 0.32041 Activity of water = 0.745 Ionic strength (mol/kgw) = 6.639e+00 Mass of water (kg) = 1.000e+00 @@ -10573,10 +10573,10 @@ Halite -0.00 1.63 1.63 0.000e+00 1.400e-01 1.400e-01 pH = 5.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1080341 + Specific Conductance (µS/cm, 100°C) = 1077676 Density (g/cm³) = 1.20935 Volume (L) = 1.16218 - Viscosity (mPa s) = 0.31879 + Viscosity (mPa s) = 0.32054 Activity of water = 0.730 Ionic strength (mol/kgw) = 6.994e+00 Mass of water (kg) = 1.000e+00 @@ -10671,10 +10671,10 @@ Halite 0.00 1.63 1.63 1.400e-01 6.400e-01 5.000e-01 pH = 5.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1080341 + Specific Conductance (µS/cm, 100°C) = 1077676 Density (g/cm³) = 1.20935 Volume (L) = 1.16218 - Viscosity (mPa s) = 0.31879 + Viscosity (mPa s) = 0.32054 Activity of water = 0.730 Ionic strength (mol/kgw) = 6.994e+00 Mass of water (kg) = 1.000e+00 @@ -10769,10 +10769,10 @@ Halite 0.00 1.63 1.63 6.400e-01 1.140e+00 5.000e-01 pH = 5.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1080341 + Specific Conductance (µS/cm, 100°C) = 1077676 Density (g/cm³) = 1.20935 Volume (L) = 1.16218 - Viscosity (mPa s) = 0.31879 + Viscosity (mPa s) = 0.32054 Activity of water = 0.730 Ionic strength (mol/kgw) = 6.994e+00 Mass of water (kg) = 1.000e+00 @@ -10867,10 +10867,10 @@ Halite 0.00 1.63 1.63 1.140e+00 1.640e+00 5.000e-01 pH = 5.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1080341 + Specific Conductance (µS/cm, 100°C) = 1077676 Density (g/cm³) = 1.20935 Volume (L) = 1.16218 - Viscosity (mPa s) = 0.31879 + Viscosity (mPa s) = 0.32054 Activity of water = 0.730 Ionic strength (mol/kgw) = 6.994e+00 Mass of water (kg) = 1.000e+00 @@ -10965,10 +10965,10 @@ Halite 0.00 1.63 1.63 1.640e+00 2.140e+00 5.000e-01 pH = 5.616 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1080341 + Specific Conductance (µS/cm, 100°C) = 1077676 Density (g/cm³) = 1.20935 Volume (L) = 1.16218 - Viscosity (mPa s) = 0.31879 + Viscosity (mPa s) = 0.32054 Activity of water = 0.730 Ionic strength (mol/kgw) = 6.994e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/anhy_NaCl_101.sel b/mytest/anhy_NaCl_101.sel index 0c847e08..02e7e44e 100644 --- a/mytest/anhy_NaCl_101.sel +++ b/mytest/anhy_NaCl_101.sel @@ -1,114 +1,114 @@ Mu SC - 0.000000760968 0.7572688296 - 0.021066197926 3371.1046627663 - 0.021079915657 3375.1645718244 - 0.046754595869 10275.8614774853 - 0.070837678379 16416.3215236052 - 0.094223855814 22254.0411285358 - 0.117187225924 27898.6213268919 - 0.139856071100 33401.9061758452 - 0.250608060286 59573.0876366806 - 0.465864896634 108257.4908090442 - 0.677119619720 154211.2508260380 - 0.886045128671 198334.0533564683 - 1.093324739678 241016.9549715515 - 1.606397127556 342658.9258204903 - 2.114211822520 438288.9235620464 - 2.618319130511 528772.3251115397 - 3.119759996615 614642.1052426071 - 3.619309118946 696277.1324450705 - 4.117559395198 773970.5045252920 - 4.614965295100 847962.0254985993 - 5.111872438549 918455.9632271553 - 5.608540674995 985631.6744823310 - 6.105162886256 1049650.3277164877 - 6.601880384601 1110659.3007885427 - 6.818283375318 1136325.9311368139 - 6.818283375318 1136325.9311368137 - 6.818283375318 1136325.9311368139 - 6.818283375318 1136325.9311368137 - 6.818283375318 1136325.9311368139 - 0.005626864751 1377.9225907375 - 0.005639592041 1383.4319772953 - 0.029096139215 10391.3710866226 - 0.051404896763 18451.4137797744 - 0.073318172536 26148.1331444462 - 0.095001519863 33611.6295601825 - 0.116527397209 40904.3410180518 - 0.222791137218 75751.8220059209 - 0.432072701207 141129.8670767613 - 0.639296056408 203352.3374315014 - 0.845323667917 263475.3681019131 - 1.050499901060 321939.0808552271 - 1.560724200371 462156.7752980650 - 2.068038354669 595114.8730994652 - 2.573171709643 721631.4264933754 - 3.076641826781 842192.3622613230 - 3.578863812831 957144.4614086710 - 4.080179479481 1066763.7764681990 - 4.580869731585 1171285.5061100316 - 5.081163513300 1270919.0530315884 - 5.581246404092 1365856.4065328022 - 6.081268834113 1456277.0843435354 - 6.581353802843 1542351.1224593853 - 7.081603922784 1624240.8682682104 - 7.319961630355 1661819.9413704711 - 7.319961630377 1661819.9413701312 - 7.319961630377 1661819.9413701307 - 7.319961630377 1661819.9413701310 - 0.001595721023 496.4002785504 - 0.001607470236 503.2297944194 - 0.023376518161 10563.6458525748 - 0.044579454996 19708.2718924507 - 0.065621035664 28490.6380944725 - 0.086568307369 37039.4210408397 - 0.107450033937 45417.9561661772 - 0.211275413023 85730.4720497461 - 0.417490819223 162290.3338737139 - 0.622761761355 236011.5365529230 - 0.827463134583 307879.7989718301 - 1.031741480267 378269.1690919947 - 1.540987677480 548736.7259881221 - 2.048522023161 712036.7964818403 - 2.554626269146 868475.6704479645 - 3.059541681636 1018152.8834055484 - 3.563502140549 1161118.7564981736 - 4.066731385181 1297420.7528802147 - 4.569436932978 1427118.4627681721 - 5.071806960025 1550288.1041491439 - 5.574010491839 1667023.0890001794 - 6.076200049082 1777432.9508269492 - 6.578515912257 1881641.5066441030 - 7.081091469458 1979784.6078192799 - 7.584059436301 2072007.6254163298 - 7.975339961520 2139694.3427448897 - 7.975339961524 2139694.3427447602 - 7.975339961524 2139694.3427447611 - 0.070728066170 9957.6686853694 - 0.070742318517 9959.5795432352 - 0.098057873058 16954.7284539625 - 0.123877635924 23158.9854340754 - 0.148838027376 29023.3363620848 - 0.173220452316 34669.2447553238 - 0.197177793460 40154.2109940716 - 0.313016359384 66024.3077376120 - 0.534719635302 113419.2403693032 - 0.749858347777 157471.5140052617 - 0.961169179735 199254.2229319946 - 1.169807554634 239736.7987245458 - 1.683320854052 335758.9074747908 - 2.188945940075 425400.0430243666 - 2.689396013503 509690.7191864221 - 3.186409959412 589267.5296464673 - 3.681207813046 664578.7138423442 - 4.174669096515 735965.5891871288 - 4.667429217913 803702.4714828255 - 5.159942867829 868024.0781407722 - 5.652529979897 929121.9762258598 - 6.145410448884 987171.8063597751 - 6.638730721710 1042333.3988367610 - 6.994228791971 1080341.8488754781 - 6.994228791972 1080341.8488754770 - 6.994228791972 1080341.8488754770 - 6.994228791972 1080341.8488754770 - 6.994228791972 1080341.8488754770 + 0.000000760968 0.7572678746 + 0.021066197926 3369.9991754989 + 0.021079915657 3374.0587292543 + 0.046754595869 10273.0499444271 + 0.070837678379 16411.3039291660 + 0.094223855814 22246.5222625814 + 0.117187225924 27888.3616567222 + 0.139856071100 33388.6989920893 + 0.250608060286 59542.6733184125 + 0.465864896634 108183.7098893219 + 0.677119619720 154085.5004816054 + 0.886045128671 198149.7539583158 + 1.093324739678 240768.7327170764 + 1.606397127556 342232.3710330963 + 2.114211822520 437663.7517986498 + 2.618319130511 527933.4038702059 + 3.119759996615 613577.8173323933 + 3.619309118946 694978.4599252332 + 4.117559395198 772430.4599107213 + 4.614965295100 846175.2708601906 + 5.111872438549 916418.5385877501 + 5.608540674995 983340.7934484604 + 6.105162886256 1047104.2166857448 + 6.601880384601 1107857.0679666921 + 6.818283375318 1133412.0647869154 + 6.818283375318 1133412.0647869152 + 6.818283375318 1133412.0647869154 + 6.818283375318 1133412.0647869152 + 6.818283375318 1133412.0647869154 + 0.005626864751 1377.4538912275 + 0.005639592041 1382.9630760618 + 0.029096139215 10387.5584503778 + 0.051404896763 18442.8082944999 + 0.073318172536 26133.8206391546 + 0.095001519863 33590.8839410507 + 0.116527397209 40876.5448580342 + 0.222791137218 75681.5012122655 + 0.432072701207 140948.3032743981 + 0.639296056408 203034.2390333925 + 0.845323667917 263001.1952162719 + 1.050499901060 321292.7211260207 + 1.560724200371 461023.7766383979 + 2.068038354669 593433.0840650888 + 2.573171709643 719354.1584499016 + 3.076641826781 839283.7606906235 + 3.578863812831 953576.8354157151 + 4.080179479481 1062515.8852995224 + 4.580869731585 1166341.3778128829 + 5.081163513300 1265267.1238588458 + 5.581246404092 1359488.8654119880 + 6.081268834113 1449189.3555641449 + 6.581353802843 1534541.4463703709 + 7.081603922784 1615709.9552269913 + 7.319961630355 1652946.3893691802 + 7.319961630377 1652946.3893688414 + 7.319961630377 1652946.3893688410 + 7.319961630377 1652946.3893688412 + 0.001595721023 496.2485448679 + 0.001607470236 503.0773128344 + 0.023376518161 10558.2634136601 + 0.044579454996 19694.6417110711 + 0.065621035664 28466.8727366773 + 0.086568307369 37004.0315731072 + 0.107450033937 45369.6780028402 + 0.211275413023 85602.7869921401 + 0.417490819223 161949.3119732957 + 0.622761761355 235403.6263085978 + 0.827463134583 306962.9679753440 + 1.031741480267 377008.3405590761 + 1.540987677480 546492.0861635276 + 2.048522023161 708669.9725830732 + 2.554626269146 863882.3678987751 + 3.059541681636 1012253.6494986466 + 3.563502140549 1153853.5003700217 + 4.066731385181 1288745.1110798891 + 4.569436932978 1417001.2065063582 + 5.071806960025 1538709.1868105007 + 5.574010491839 1653972.1124430161 + 6.076200049082 1762907.9210588671 + 6.578515912257 1865647.8009821991 + 7.081091469458 1962334.1063765136 + 7.584059436301 2053117.9791754361 + 7.975339961520 2119701.6615664265 + 7.975339961524 2119701.6615662971 + 7.975339961524 2119701.6615662985 + 0.070728066170 9951.8371232715 + 0.070742318517 9953.7527884686 + 0.098057873058 16946.5915150901 + 0.123877635924 23148.0673017841 + 0.148838027376 29009.3960155406 + 0.173220452316 34652.1006086308 + 0.197177793460 40133.7093489615 + 0.313016359384 65985.1865255657 + 0.534719635302 113336.2282833243 + 0.749858347777 157338.2978673792 + 0.961169179735 199066.0924813569 + 1.169807554634 239489.1586813228 + 1.683320854052 335347.4885898064 + 2.188945940075 424809.0099192387 + 2.689396013503 508908.3211221364 + 3.186409959412 588284.7873877945 + 3.681207813046 663388.7011630465 + 4.174669096515 734562.9975191783 + 4.667429217913 802083.3229110552 + 5.159942867829 866185.5211359416 + 5.652529979897 927062.1301174457 + 6.145410448884 984889.6363089331 + 6.638730721710 1039828.6113271714 + 6.994228791971 1077676.9726258286 + 6.994228791972 1077676.9726258276 + 6.994228791972 1077676.9726258274 + 6.994228791972 1077676.9726258272 + 6.994228791972 1077676.9726258274 diff --git a/mytest/aquia.out b/mytest/aquia.out index 53194f34..6573c4bb 100644 --- a/mytest/aquia.out +++ b/mytest/aquia.out @@ -82,7 +82,7 @@ WARNING: USER_PUNCH: Headings count does not match number of calls to PUNCH. Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.299e-03 Mass of water (kg) = 1.000e+00 @@ -192,7 +192,7 @@ Initial solution 1. Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.299e-03 Mass of water (kg) = 1.000e+00 @@ -290,7 +290,7 @@ Calcite 0.00 -8.42 -8.42 1.000e+01 1.000e+01 2.030e-07 Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.298e-03 Mass of water (kg) = 1.000e+00 @@ -408,7 +408,7 @@ Initial solution 4. Specific Conductance (µS/cm, 15°C) = 9301 Density (g/cm³) = 1.00440 Volume (L) = 1.00286 - Viscosity (mPa s) = 1.16730 + Viscosity (mPa s) = 1.16721 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.303e-01 Mass of water (kg) = 1.000e+00 @@ -536,10 +536,10 @@ Calcite 0.00 -8.42 -8.42 1.000e+01 1.000e+01 1.303e-04 pH = 6.781 Charge balance pe = -1.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9288 + Specific Conductance (µS/cm, 15°C) = 9289 Density (g/cm³) = 1.00439 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.16708 + Viscosity (mPa s) = 1.16698 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.299e-01 Mass of water (kg) = 1.000e+00 @@ -739,10 +739,10 @@ Mixture 13. pH = 6.781 Charge balance pe = -1.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9288 + Specific Conductance (µS/cm, 15°C) = 9289 Density (g/cm³) = 1.00439 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.16708 + Viscosity (mPa s) = 1.16698 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.299e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/aquia2.out b/mytest/aquia2.out index c5713f84..b8e84246 100644 --- a/mytest/aquia2.out +++ b/mytest/aquia2.out @@ -82,7 +82,7 @@ Initial solution 0. Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.299e-03 Mass of water (kg) = 1.000e+00 @@ -192,7 +192,7 @@ Initial solution 1. Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.299e-03 Mass of water (kg) = 1.000e+00 @@ -290,7 +290,7 @@ Calcite 0.00 -8.42 -8.42 1.000e+01 1.000e+01 2.030e-07 Specific Conductance (µS/cm, 15°C) = 220 Density (g/cm³) = 0.99929 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14025 + Viscosity (mPa s) = 1.14022 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.298e-03 Mass of water (kg) = 1.000e+00 @@ -408,7 +408,7 @@ Initial solution 4. Specific Conductance (µS/cm, 15°C) = 9301 Density (g/cm³) = 1.00440 Volume (L) = 1.00286 - Viscosity (mPa s) = 1.16730 + Viscosity (mPa s) = 1.16721 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.303e-01 Mass of water (kg) = 1.000e+00 @@ -536,10 +536,10 @@ Calcite 0.00 -8.42 -8.42 1.000e+01 1.000e+01 1.303e-04 pH = 6.781 Charge balance pe = -1.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9288 + Specific Conductance (µS/cm, 15°C) = 9289 Density (g/cm³) = 1.00439 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.16708 + Viscosity (mPa s) = 1.16698 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.299e-01 Mass of water (kg) = 1.000e+00 @@ -739,10 +739,10 @@ Mixture 13. pH = 6.781 Charge balance pe = -1.314 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9288 + Specific Conductance (µS/cm, 15°C) = 9289 Density (g/cm³) = 1.00439 Volume (L) = 1.00287 - Viscosity (mPa s) = 1.16708 + Viscosity (mPa s) = 1.16698 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.299e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/aquia2_101.sel b/mytest/aquia2_101.sel index 97846375..b0969f0f 100644 --- a/mytest/aquia2_101.sel +++ b/mytest/aquia2_101.sel @@ -1,48 +1,48 @@ Mu SC - 0.004298990792 220.8299916751 - 0.004298990792 220.8299916751 - 0.004298402461 220.8013718847 - 0.130306809552 9301.0390611789 - 0.129948893330 9288.6186187207 - 0.129948893429 9288.6186183135 - 0.129948893428 9288.6186182979 - 0.004298402461 220.8013718848 - 0.004298402461 220.8013718848 - 0.004298402461 220.8013718848 - 0.129948893386 9288.6186226543 - 0.129948893354 9288.6186243506 - 0.129948893347 9288.6186243654 - 0.129948893345 9288.6186243371 - 0.129948893345 9288.6186243275 - 0.129948893345 9288.6186243250 - 0.129948893345 9288.6186243243 - 0.129948893345 9288.6186243242 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.004298402461 220.8013718856 - 0.004298402461 220.8013718856 - 0.004298402411 220.8013697651 - 0.004083262345 211.5360498708 - 0.003424562087 191.7779047398 - 0.002960883698 193.0718129509 - 0.003568524774 243.4928927264 - 0.004598034910 313.5589571112 - 0.005815661101 394.2735805057 - 0.007192068328 484.4769568506 - 0.008724802775 583.9769566564 - 0.010539931388 699.6217516340 - 0.013071237920 859.6163495775 - 0.016611266788 1084.8104115810 - 0.022127044921 1462.4475252655 - 0.032543839733 2257.7744996223 - 0.052732709211 3834.3711862302 - 0.083064946002 6081.3355451045 - 0.111824168621 8081.9661717849 - 0.126712962566 9076.3168043299 + 0.004298990792 220.8341966187 + 0.004298990792 220.8341966187 + 0.004298402461 220.8055759717 + 0.130306809552 9301.6030655450 + 0.129948893330 9289.1804623323 + 0.129948893429 9289.1804619251 + 0.129948893428 9289.1804619095 + 0.004298402461 220.8055759717 + 0.004298402461 220.8055759717 + 0.004298402461 220.8055759717 + 0.129948893386 9289.1804662653 + 0.129948893354 9289.1804679612 + 0.129948893347 9289.1804679759 + 0.129948893345 9289.1804679476 + 0.129948893345 9289.1804679380 + 0.129948893345 9289.1804679354 + 0.129948893345 9289.1804679348 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.004298402461 220.8055759726 + 0.004298402461 220.8055759726 + 0.004298402411 220.8055738518 + 0.004083261794 211.5395905658 + 0.003424561905 191.7802302654 + 0.002960882775 193.0732320581 + 0.003568524667 243.4946303980 + 0.004598034855 313.5614034515 + 0.005815661009 394.2769700518 + 0.007192068224 484.4815305585 + 0.008724802697 583.9829765328 + 0.010539931380 699.6296591434 + 0.013071238031 859.6271391968 + 0.016611267101 1084.8258612692 + 0.022127045495 1462.4731037175 + 0.032543840513 2257.8295105142 + 0.052732710045 3834.5044642469 + 0.083064946707 6081.6168079195 + 0.111824168690 8082.4129971931 + 0.126712961562 9076.8575258733 diff --git a/mytest/aquia_101.sel b/mytest/aquia_101.sel index c5cd73d2..c4a72c54 100644 --- a/mytest/aquia_101.sel +++ b/mytest/aquia_101.sel @@ -1,48 +1,48 @@ Mu - 0.004298990792 220.8299916751 - 0.004298990792 220.8299916751 - 0.004298402461 220.8013718847 - 0.130306809552 9301.0390611789 - 0.129948893330 9288.6186187207 - 0.129948893429 9288.6186183135 - 0.129948893428 9288.6186182979 - 0.004298402461 220.8013718848 - 0.004298402461 220.8013718848 - 0.004298402461 220.8013718848 - 0.129948893386 9288.6186226543 - 0.129948893354 9288.6186243506 - 0.129948893347 9288.6186243654 - 0.129948893345 9288.6186243371 - 0.129948893345 9288.6186243275 - 0.129948893345 9288.6186243250 - 0.129948893345 9288.6186243243 - 0.129948893345 9288.6186243242 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.129948893345 9288.6186243241 - 0.004297364646 220.7380634048 - 0.004291615187 220.3789013754 - 0.004275340443 219.3603171566 - 0.004248647677 217.7056212369 - 0.004197777134 215.0542938617 - 0.004122777457 212.4162222260 - 0.004019047491 209.9306063490 - 0.003880664398 206.7272654009 - 0.003704802637 201.9856600273 - 0.003502488918 195.7082896876 - 0.003329768968 189.8754178367 - 0.003141748678 182.6953716548 - 0.002841134338 170.9440456257 - 0.002503551249 159.5066722031 - 0.002387434039 160.3227075428 - 0.002539649117 174.1953547620 - 0.002850117821 196.3317343556 - 0.003320415359 228.3090040165 - 0.004111351552 281.0628868355 - 0.006047235823 408.0546382778 + 0.004298990792 220.8341966187 + 0.004298990792 220.8341966187 + 0.004298402461 220.8055759717 + 0.130306809552 9301.6030655450 + 0.129948893330 9289.1804623323 + 0.129948893429 9289.1804619251 + 0.129948893428 9289.1804619095 + 0.004298402461 220.8055759717 + 0.004298402461 220.8055759717 + 0.004298402461 220.8055759717 + 0.129948893386 9289.1804662653 + 0.129948893354 9289.1804679612 + 0.129948893347 9289.1804679759 + 0.129948893345 9289.1804679476 + 0.129948893345 9289.1804679380 + 0.129948893345 9289.1804679354 + 0.129948893345 9289.1804679348 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.129948893345 9289.1804679346 + 0.004297364646 220.7422635553 + 0.004291615187 220.3830796074 + 0.004275340444 219.3644334782 + 0.004248647677 217.7096366789 + 0.004197777136 215.0581276722 + 0.004122777459 212.4198222203 + 0.004019047494 209.9339387552 + 0.003880664404 206.7303021718 + 0.003704802647 201.9883794644 + 0.003502488935 195.7106932315 + 0.003329768990 189.8775794792 + 0.003141748708 182.6973015753 + 0.002841134379 170.9456355493 + 0.002503551287 159.5078929430 + 0.002387434052 160.3237587001 + 0.002539649117 174.1964565092 + 0.002850117820 196.3330085158 + 0.003320415363 228.3105687736 + 0.004111351557 281.0649875555 + 0.006047235855 408.0582547114 diff --git a/mytest/ball_101.sel b/mytest/ball_101.sel index 22d62cbe..76ee59f4 100644 --- a/mytest/ball_101.sel +++ b/mytest/ball_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000968066829 78.2008109839 - 0.000976355251 78.8474623552 + 0.000968066829 78.2008114023 + 0.000976355251 78.8474627753 diff --git a/mytest/basic_test.out b/mytest/basic_test.out index dc7ade90..1a23d94b 100644 --- a/mytest/basic_test.out +++ b/mytest/basic_test.out @@ -799,7 +799,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.98215 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.809e-04 V. diff --git a/mytest/basic_test_101.sel b/mytest/basic_test_101.sel index 0034a681..c6ff793d 100644 --- a/mytest/basic_test_101.sel +++ b/mytest/basic_test_101.sel @@ -1,4 +1,4 @@ Mu SC - 1.006616820822 84402.7500551818 - 1.006616820822 84402.7500551818 - 1.020100607723 83890.5705907480 + 1.006616820822 84402.7593332986 + 1.006616820822 84402.7593332986 + 1.020100607723 83890.5797455163 diff --git a/mytest/brown.out b/mytest/brown.out index 1c62e2da..87a02f2b 100644 --- a/mytest/brown.out +++ b/mytest/brown.out @@ -3743,7 +3743,7 @@ Mixture 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -4.03 -12.51 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.060e+00 1.060e+00 7.038e-06 +Fe(OH)3(a) 0.00 4.89 4.89 1.060e+00 1.060e+00 7.038e-06 Gypsum 0.00 -4.58 -4.58 7.880e-02 7.970e-02 8.996e-04 Pyrolusite -14.42 26.96 41.38 0.000e+00 0.000e+00 SiO2(a) 0.00 -2.71 -2.71 4.084e-04 4.583e-04 4.984e-05 @@ -4222,7 +4222,7 @@ Zn 3.464e-04 Dolomite(d) -8.34 -24.88 -16.54 CaMg(CO3)2 Epsomite -2.30 -4.44 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.89 2.85 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -3.17 17.05 20.22 Fe3(OH)8 FeS(ppt) -51.39 -55.31 -3.92 FeS Fluorite -4.82 -15.42 -10.60 CaF2 @@ -4971,9 +4971,9 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite 0.00 -8.48 -8.48 7.528e-02 7.551e-02 2.271e-04 -Fe(OH)3(a) -0.00 4.89 4.89 9.700e-01 9.700e-01 2.094e-09 +Fe(OH)3(a) 0.00 4.89 4.89 9.700e-01 9.700e-01 2.094e-09 Gypsum -0.17 -4.75 -4.58 0.000e+00 0.000e+00 -Pyrolusite 0.00 41.38 41.38 4.500e-02 4.500e-02 -3.035e-12 +Pyrolusite 0.00 41.38 41.38 4.500e-02 4.500e-02 -3.017e-12 SiO2(a) -0.00 -2.71 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -5450,7 +5450,7 @@ Zn 2.131e-04 Dolomite(d) -0.22 -16.76 -16.54 CaMg(CO3)2 Epsomite -2.41 -4.55 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.38 2.34 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -8.04 12.18 20.22 Fe3(OH)8 FeS(ppt) -98.80 -102.72 -3.92 FeS Fluorite -3.07 -13.66 -10.60 CaF2 @@ -6853,9 +6853,9 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite 0.00 -8.48 -8.48 7.692e-02 7.655e-02 -3.729e-04 -Fe(OH)3(a) 0.00 4.89 4.89 9.700e-01 9.700e-01 -1.365e-09 +Fe(OH)3(a) -0.00 4.89 4.89 9.700e-01 9.700e-01 -1.365e-09 Gypsum 0.00 -4.58 -4.58 2.757e-04 6.277e-04 3.520e-04 -Pyrolusite -0.00 41.38 41.38 4.500e-02 4.500e-02 2.758e-12 +Pyrolusite -0.00 41.38 41.38 4.500e-02 4.500e-02 2.777e-12 SiO2(a) -0.00 -2.72 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -6937,6 +6937,7 @@ Surf_w Total alkalinity (eq/kg) = 5.532e-02 Total CO2 (mol/kg) = 5.560e-02 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.030e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.44 Iterations = 3 @@ -7332,7 +7333,7 @@ Zn 1.022e-03 Dolomite(d) -0.38 -16.92 -16.54 CaMg(CO3)2 Epsomite -2.40 -4.54 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.43 2.39 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -8.20 12.02 20.22 Fe3(OH)8 FeS(ppt) -99.93 -103.84 -3.92 FeS Fluorite -3.46 -14.06 -10.60 CaF2 @@ -7591,6 +7592,7 @@ Surf_w Total alkalinity (eq/kg) = -1.311e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.863e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -8121,7 +8123,7 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -3.93 -12.41 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.061e+00 1.061e+00 7.333e-07 +Fe(OH)3(a) -0.00 4.89 4.89 1.061e+00 1.061e+00 7.335e-07 Gypsum 0.00 -4.58 -4.58 7.203e-02 7.203e-02 1.527e-07 Pyrolusite -14.53 26.85 41.38 0.000e+00 0.000e+00 SiO2(a) -0.00 -2.71 -2.71 0.000e+00 0.000e+00 @@ -8205,6 +8207,7 @@ Surf_w Total alkalinity (eq/kg) = 4.123e-04 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.737e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 3 @@ -8600,7 +8603,7 @@ Zn 3.454e-04 Dolomite(d) -8.13 -24.67 -16.54 CaMg(CO3)2 Epsomite -2.30 -4.44 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.87 2.83 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -3.06 17.16 20.22 Fe3(OH)8 FeS(ppt) -50.53 -54.44 -3.92 FeS Fluorite -4.82 -15.42 -10.60 CaF2 @@ -8819,6 +8822,7 @@ Surf_w Total alkalinity (eq/kg) = -1.682e-04 Total CO2 (mol/kg) = 4.146e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.898e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 3 @@ -10006,7 +10010,7 @@ Calcite -4.19 -12.67 -8.48 0.000e+00 0.000e+00 Fe(OH)3(a) 0.00 4.89 4.89 1.061e+00 1.061e+00 1.878e-04 Gypsum 0.00 -4.58 -4.58 7.206e-02 7.208e-02 1.888e-05 Pyrolusite -14.26 27.12 41.38 0.000e+00 0.000e+00 -SiO2(a) -0.00 -2.71 -2.71 9.599e-07 1.249e-06 2.893e-07 +SiO2(a) 0.00 -2.71 -2.71 9.600e-07 1.249e-06 2.893e-07 ------------------------------Surface composition------------------------------ @@ -10087,6 +10091,7 @@ Surf_w Total alkalinity (eq/kg) = 2.522e-04 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.832e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 4 @@ -10562,7 +10567,7 @@ Zn 3.455e-04 Siderite -1.07 -11.96 -10.89 FeCO3 Siderite(d)(3) -1.51 -11.96 -10.45 FeCO3 Silicagel 0.31 -2.71 -3.02 SiO2 - SiO2(a) -0.00 -2.71 -2.71 SiO2 + SiO2(a) 0.00 -2.71 -2.71 SiO2 Smithsonite -4.28 -14.28 -10.00 ZnCO3 Sphalerite -47.30 -58.92 -11.62 ZnS SrF2 -9.73 -18.27 -8.54 SrF2 @@ -10701,6 +10706,7 @@ Surf_w Total alkalinity (eq/kg) = 1.738e-05 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.675e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 3 @@ -11888,7 +11894,7 @@ Calcite -5.92 -14.40 -8.48 0.000e+00 0.000e+00 Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 1.836e-05 Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 -3.026e-07 Pyrolusite -12.51 28.87 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 2.389e-06 2.395e-06 5.313e-09 +SiO2(a) -0.00 -2.71 -2.71 2.389e-06 2.395e-06 5.313e-09 ------------------------------Surface composition------------------------------ @@ -12444,7 +12450,7 @@ Zn 3.452e-04 Siderite -2.79 -13.68 -10.89 FeCO3 Siderite(d)(3) -3.23 -13.68 -10.45 FeCO3 Silicagel 0.31 -2.71 -3.02 SiO2 - SiO2(a) 0.00 -2.71 -2.71 SiO2 + SiO2(a) -0.00 -2.71 -2.71 SiO2 Smithsonite -6.01 -16.01 -10.00 ZnCO3 Sphalerite -61.27 -72.89 -11.62 ZnS SrF2 -9.74 -18.28 -8.54 SrF2 @@ -12583,6 +12589,7 @@ Surf_w Total alkalinity (eq/kg) = 8.891e-05 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.147e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 3 @@ -13851,6 +13858,7 @@ Surf_w Total alkalinity (eq/kg) = -1.326e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.886e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -14465,6 +14473,7 @@ Surf_w Total alkalinity (eq/kg) = 1.314e-04 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.724e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 2 @@ -15038,7 +15047,7 @@ Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 Fe(OH)3(a) 0.00 4.89 4.89 1.040e+00 1.040e+00 -3.877e-04 Gypsum 0.00 -4.58 -4.58 1.314e-01 1.322e-01 8.738e-04 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) -0.00 -2.71 -2.71 3.377e-03 3.426e-03 4.944e-05 +SiO2(a) 0.00 -2.71 -2.71 3.377e-03 3.426e-03 4.944e-05 ------------------------------Surface composition------------------------------ @@ -15594,7 +15603,7 @@ Zn 3.451e-04 Siderite -2.88 -13.77 -10.89 FeCO3 Siderite(d)(3) -3.32 -13.77 -10.45 FeCO3 Silicagel 0.31 -2.71 -3.02 SiO2 - SiO2(a) -0.00 -2.71 -2.71 SiO2 + SiO2(a) 0.00 -2.71 -2.71 SiO2 Smithsonite -6.09 -16.09 -10.00 ZnCO3 Sphalerite -61.93 -73.55 -11.62 ZnS SrF2 -9.74 -18.28 -8.54 SrF2 @@ -15733,6 +15742,7 @@ Surf_w Total alkalinity (eq/kg) = -1.330e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.781e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -16347,6 +16357,7 @@ Surf_w Total alkalinity (eq/kg) = -1.065e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.505e-06 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -16917,7 +16928,7 @@ Mixture 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.036e+00 1.036e+00 -3.877e-04 +Fe(OH)3(a) 0.00 4.89 4.89 1.036e+00 1.036e+00 -3.877e-04 Gypsum 0.00 -4.58 -4.58 1.401e-01 1.410e-01 8.738e-04 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 SiO2(a) 0.00 -2.71 -2.71 3.871e-03 3.921e-03 4.944e-05 @@ -17396,7 +17407,7 @@ Zn 3.451e-04 Dolomite(d) -12.27 -28.81 -16.54 CaMg(CO3)2 Epsomite -2.30 -4.44 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 6.18 3.14 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -5.16 15.06 20.22 Fe3(OH)8 FeS(ppt) -67.31 -71.23 -3.92 FeS Fluorite -4.84 -15.44 -10.60 CaF2 @@ -17531,10 +17542,10 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 4.096e-11 -Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 1.784e-12 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 4.100e-11 +Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 1.782e-12 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 2.319e-14 +SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 2.318e-14 ------------------------------Surface composition------------------------------ @@ -17615,6 +17626,7 @@ Surf_w Total alkalinity (eq/kg) = -1.330e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.738e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -19413,10 +19425,10 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 2.147e-13 -Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 9.104e-15 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 2.298e-13 +Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 8.951e-15 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 1.181e-16 +SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 1.173e-16 ------------------------------Surface composition------------------------------ @@ -20027,7 +20039,7 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 1.035e-10 +Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 1.034e-10 Gypsum 0.00 -4.58 -4.58 7.134e-02 7.134e-02 4.507e-12 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 SiO2(a) 0.00 -2.71 -2.71 8.882e-07 8.882e-07 5.861e-14 @@ -20111,6 +20123,7 @@ Surf_w Total alkalinity (eq/kg) = -1.330e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.725e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -21295,10 +21308,10 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 8.216e-15 -Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 -3.192e-16 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 1.976e-14 +Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 -7.772e-16 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 -4.058e-18 +SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 -1.179e-17 ------------------------------Surface composition------------------------------ @@ -21909,10 +21922,10 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 3.439e-13 -Gypsum 0.00 -4.58 -4.58 7.134e-02 7.134e-02 1.425e-14 +Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 3.511e-13 +Gypsum 0.00 -4.58 -4.58 7.134e-02 7.134e-02 1.368e-14 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 8.882e-07 8.882e-07 1.872e-16 +SiO2(a) 0.00 -2.71 -2.71 8.882e-07 8.882e-07 1.775e-16 ------------------------------Surface composition------------------------------ @@ -23114,10 +23127,10 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.025e+00 1.025e+00 -4.441e-16 -Gypsum 0.00 -4.58 -4.58 1.646e-01 1.646e-01 2.776e-17 +Fe(OH)3(a) 0.00 4.89 4.89 1.025e+00 1.025e+00 1.732e-14 +Gypsum 0.00 -4.58 -4.58 1.646e-01 1.646e-01 -5.551e-16 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 5.256e-03 5.256e-03 4.337e-18 +SiO2(a) 0.00 -2.71 -2.71 5.256e-03 5.256e-03 -3.469e-18 ------------------------------Surface composition------------------------------ @@ -23593,7 +23606,7 @@ Zn 3.451e-04 Dolomite(d) -12.27 -28.81 -16.54 CaMg(CO3)2 Epsomite -2.30 -4.44 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 6.18 3.14 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -5.16 15.06 20.22 Fe3(OH)8 FeS(ppt) -67.31 -71.23 -3.92 FeS Fluorite -4.84 -15.44 -10.60 CaF2 @@ -23722,10 +23735,10 @@ Using pure phase assemblage 5. Pure-phase assemblage after simulation 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 6.217e-15 -Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 -1.943e-16 +Fe(OH)3(a) -0.00 4.89 4.89 1.063e+00 1.063e+00 7.994e-15 +Gypsum 0.00 -4.58 -4.58 7.217e-02 7.217e-02 -2.498e-16 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 2.415e-06 2.415e-06 -2.325e-18 +SiO2(a) -0.00 -2.71 -2.71 2.415e-06 2.415e-06 -3.585e-18 ------------------------------Surface composition------------------------------ @@ -23806,6 +23819,7 @@ Surf_w Total alkalinity (eq/kg) = -1.330e-03 Total CO2 (mol/kg) = 4.142e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.749e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (29 overall) @@ -24201,7 +24215,7 @@ Zn 3.451e-04 Dolomite(d) -12.27 -28.81 -16.54 CaMg(CO3)2 Epsomite -2.30 -4.44 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 6.18 3.14 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -5.16 15.06 20.22 Fe3(OH)8 FeS(ppt) -67.31 -71.23 -3.92 FeS Fluorite -4.84 -15.44 -10.60 CaF2 @@ -24281,7 +24295,7 @@ Zn 3.451e-04 Siderite -2.88 -13.77 -10.89 FeCO3 Siderite(d)(3) -3.32 -13.77 -10.45 FeCO3 Silicagel 0.31 -2.71 -3.02 SiO2 - SiO2(a) 0.00 -2.71 -2.71 SiO2 + SiO2(a) -0.00 -2.71 -2.71 SiO2 Smithsonite -6.09 -16.09 -10.00 ZnCO3 Sphalerite -61.93 -73.55 -11.62 ZnS SrF2 -9.74 -18.28 -8.54 SrF2 @@ -24330,10 +24344,10 @@ Using pure phase assemblage 10. Pure-phase assemblage after simulation 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -6.00 -14.48 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 1.554e-15 -Gypsum 0.00 -4.58 -4.58 7.134e-02 7.134e-02 -5.551e-17 +Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 -1.088e-14 +Gypsum 0.00 -4.58 -4.58 7.134e-02 7.134e-02 3.608e-16 Pyrolusite -12.43 28.95 41.38 0.000e+00 0.000e+00 -SiO2(a) 0.00 -2.71 -2.71 8.882e-07 8.882e-07 -1.629e-18 +SiO2(a) 0.00 -2.71 -2.71 8.882e-07 8.882e-07 4.834e-18 ------------------------------Surface composition------------------------------ @@ -25602,7 +25616,7 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -5.22 -13.70 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.063e+00 1.063e+00 -1.065e-05 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -1.065e-05 Gypsum 0.00 -4.58 -4.58 7.250e-02 7.249e-02 -7.523e-06 Pyrolusite 0.00 41.38 41.38 4.777e-06 4.768e-06 -8.601e-09 SiO2(a) -0.53 -3.24 -2.71 0.000e+00 0.000e+00 @@ -25686,6 +25700,7 @@ Surf_w Total alkalinity (eq/kg) = -2.347e-04 Total CO2 (mol/kg) = 2.590e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.089e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.69 Iterations = 5 @@ -26081,7 +26096,7 @@ Zn 1.062e-06 Dolomite(d) -12.45 -28.99 -16.54 CaMg(CO3)2 Epsomite -4.04 -6.18 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.74 2.70 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.12 7.11 20.22 Fe3(OH)8 FeS(ppt) -139.91 -143.82 -3.92 FeS Fluorite -3.67 -14.27 -10.60 CaF2 @@ -26300,6 +26315,7 @@ Surf_w Total alkalinity (eq/kg) = -5.932e-04 Total CO2 (mol/kg) = 3.145e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.814e-03 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 2.59 Iterations = 3 @@ -27568,6 +27584,7 @@ Surf_w Total alkalinity (eq/kg) = 5.699e-06 Total CO2 (mol/kg) = 2.586e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.289e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.52 Iterations = 3 @@ -28098,9 +28115,9 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -4.98 -13.46 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.052e+00 1.052e+00 -3.377e-06 +Fe(OH)3(a) -0.00 4.89 4.89 1.052e+00 1.052e+00 -3.377e-06 Gypsum 0.00 -4.58 -4.58 7.128e-02 7.128e-02 -1.281e-06 -Pyrolusite -0.00 41.38 41.38 1.045e-08 5.986e-09 -4.460e-09 +Pyrolusite 0.00 41.38 41.38 1.045e-08 5.986e-09 -4.460e-09 SiO2(a) -0.68 -3.39 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -28182,6 +28199,7 @@ Surf_w Total alkalinity (eq/kg) = -1.667e-04 Total CO2 (mol/kg) = 2.586e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.350e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.53 Iterations = 3 @@ -28577,7 +28595,7 @@ Zn 6.869e-08 Dolomite(d) -12.03 -28.57 -16.54 CaMg(CO3)2 Epsomite -4.08 -6.22 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.70 2.66 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.14 7.09 20.22 Fe3(OH)8 FeS(ppt) -140.31 -144.23 -3.92 FeS Fluorite -1.97 -12.57 -10.60 CaF2 @@ -28646,7 +28664,7 @@ Zn 6.869e-08 Prehnite -24.63 -36.33 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -226.07 -244.54 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite -0.00 41.38 41.38 MnO2 + Pyrolusite 0.00 41.38 41.38 MnO2 Pyrophyllite -3.01 -51.32 -48.31 Al2Si4O10(OH)2 Quartz 0.59 -3.39 -3.98 SiO2 Retgersite -7.23 -9.27 -2.04 NiSO4:6H2O @@ -28752,9 +28770,9 @@ Mixture 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -1.11 -9.59 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.027e+00 1.027e+00 3.045e-07 +Fe(OH)3(a) -0.00 4.89 4.89 1.027e+00 1.027e+00 3.045e-07 Gypsum -1.74 -6.33 -4.58 0.000e+00 0.000e+00 -Pyrolusite 0.00 41.38 41.38 1.375e-05 1.385e-05 1.000e-07 +Pyrolusite -0.00 41.38 41.38 1.375e-05 1.385e-05 1.000e-07 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -28836,6 +28854,7 @@ Surf_w Total alkalinity (eq/kg) = 1.762e-03 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.614e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.21 Iterations = 4 @@ -29231,7 +29250,7 @@ Zn 1.039e-08 Dolomite(d) -3.16 -19.70 -16.54 CaMg(CO3)2 Epsomite -4.71 -6.85 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 4.93 1.89 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -146.42 -150.33 -3.92 FeS Fluorite -2.22 -12.82 -10.60 CaF2 @@ -29300,7 +29319,7 @@ Zn 1.039e-08 Prehnite -3.33 -15.02 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -238.28 -256.76 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite 0.00 41.38 41.38 MnO2 + Pyrolusite -0.00 41.38 41.38 MnO2 Pyrophyllite 9.55 -38.76 -48.31 Al2Si4O10(OH)2 Quartz 0.58 -3.40 -3.98 SiO2 Retgersite -8.43 -10.47 -2.04 NiSO4:6H2O @@ -30064,6 +30083,7 @@ Surf_w Total alkalinity (eq/kg) = -7.282e-05 Total CO2 (mol/kg) = 2.586e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.691e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.61 Iterations = 3 @@ -31946,6 +31966,7 @@ Surf_w Total alkalinity (eq/kg) = -3.117e-05 Total CO2 (mol/kg) = 2.586e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.62 Iterations = 3 @@ -32516,9 +32537,9 @@ Mixture 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -0.74 -9.22 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.027e+00 1.027e+00 3.111e-07 +Fe(OH)3(a) 0.00 4.89 4.89 1.027e+00 1.027e+00 3.111e-07 Gypsum -1.82 -6.40 -4.58 0.000e+00 0.000e+00 -Pyrolusite -0.00 41.38 41.38 1.575e-05 1.585e-05 1.000e-07 +Pyrolusite 0.00 41.38 41.38 1.575e-05 1.585e-05 1.000e-07 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -32995,7 +33016,7 @@ Zn 8.356e-09 Dolomite(d) -2.42 -18.96 -16.54 CaMg(CO3)2 Epsomite -4.78 -6.92 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 4.85 1.81 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -147.08 -151.00 -3.92 FeS Fluorite -2.19 -12.79 -10.60 CaF2 @@ -33064,7 +33085,7 @@ Zn 8.356e-09 Prehnite -2.49 -14.18 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -239.61 -258.09 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite -0.00 41.38 41.38 MnO2 + Pyrolusite 0.00 41.38 41.38 MnO2 Pyrophyllite 9.21 -39.10 -48.31 Al2Si4O10(OH)2 Quartz 0.58 -3.40 -3.98 SiO2 Retgersite -8.61 -10.65 -2.04 NiSO4:6H2O @@ -33132,7 +33153,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta Calcite -3.29 -11.77 -8.48 0.000e+00 0.000e+00 Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -3.031e-07 Gypsum -1.53 -6.11 -4.58 0.000e+00 0.000e+00 -Pyrolusite -0.00 41.38 41.38 4.710e-06 4.710e-06 4.092e-11 +Pyrolusite 0.00 41.38 41.38 4.710e-06 4.710e-06 4.092e-11 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -33214,6 +33235,7 @@ Surf_w Total alkalinity (eq/kg) = 2.418e-04 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.894e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 1.21 Iterations = 3 @@ -33678,7 +33700,7 @@ Zn 1.137e-10 Prehnite -14.16 -25.85 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -232.60 -251.08 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite -0.00 41.38 41.38 MnO2 + Pyrolusite 0.00 41.38 41.38 MnO2 Pyrophyllite 3.99 -44.33 -48.31 Al2Si4O10(OH)2 Quartz 0.58 -3.40 -3.98 SiO2 Retgersite -9.30 -11.34 -2.04 NiSO4:6H2O @@ -33828,6 +33850,7 @@ Surf_w Total alkalinity (eq/kg) = -4.550e-07 Total CO2 (mol/kg) = 2.586e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.476e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.56 Iterations = 3 @@ -35096,6 +35119,7 @@ Surf_w Total alkalinity (eq/kg) = 5.482e-04 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.649e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.63 Iterations = 3 @@ -35626,7 +35650,7 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -3.85 -12.33 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.052e+00 1.052e+00 -1.671e-07 +Fe(OH)3(a) -0.00 4.89 4.89 1.052e+00 1.052e+00 -1.671e-07 Gypsum 0.00 -4.58 -4.58 7.129e-02 7.050e-02 -7.889e-04 Pyrolusite -0.02 41.36 41.38 0.000e+00 0.000e+00 SiO2(a) -0.68 -3.39 -2.71 0.000e+00 0.000e+00 @@ -36105,7 +36129,7 @@ Zn 6.492e-11 Dolomite(d) -9.77 -26.31 -16.54 CaMg(CO3)2 Epsomite -4.09 -6.23 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.52 2.48 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.14 7.09 20.22 Fe3(OH)8 FeS(ppt) -141.45 -145.37 -3.92 FeS Fluorite -1.73 -12.33 -10.60 CaF2 @@ -36894,7 +36918,7 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -1.99 -10.47 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.063e+00 1.063e+00 -4.185e-08 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -4.185e-08 Gypsum -1.61 -6.20 -4.58 0.000e+00 0.000e+00 Pyrolusite 0.00 41.38 41.38 4.710e-06 4.710e-06 8.186e-13 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 @@ -36978,6 +37002,7 @@ Surf_w Total alkalinity (eq/kg) = 9.223e-04 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.642e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.49 Iterations = 3 @@ -37373,7 +37398,7 @@ Zn 8.986e-12 Dolomite(d) -4.91 -21.45 -16.54 CaMg(CO3)2 Epsomite -4.57 -6.71 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.11 2.07 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -145.11 -149.02 -3.92 FeS Fluorite -2.39 -12.99 -10.60 CaF2 @@ -37592,6 +37617,7 @@ Surf_w Total alkalinity (eq/kg) = -3.010e-05 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.434e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 1.95 Iterations = 3 @@ -38162,7 +38188,7 @@ Mixture 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -0.54 -9.02 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.027e+00 1.027e+00 3.150e-07 +Fe(OH)3(a) 0.00 4.89 4.89 1.027e+00 1.027e+00 3.150e-07 Gypsum -1.85 -6.43 -4.58 0.000e+00 0.000e+00 Pyrolusite 0.00 41.38 41.38 1.875e-05 1.885e-05 1.000e-07 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 @@ -38641,7 +38667,7 @@ Zn 9.401e-09 Dolomite(d) -2.02 -18.56 -16.54 CaMg(CO3)2 Epsomite -4.81 -6.95 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 4.80 1.76 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -147.45 -151.37 -3.92 FeS Fluorite -2.18 -12.78 -10.60 CaF2 @@ -38776,7 +38802,7 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -1.62 -10.10 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.063e+00 1.063e+00 -2.715e-08 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -2.715e-08 Gypsum -1.66 -6.24 -4.58 0.000e+00 0.000e+00 Pyrolusite 0.00 41.38 41.38 4.710e-06 4.710e-06 -2.133e-14 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 @@ -39255,7 +39281,7 @@ Zn 4.609e-12 Dolomite(d) -4.18 -20.72 -16.54 CaMg(CO3)2 Epsomite -4.62 -6.76 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.04 2.00 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -145.62 -149.53 -3.92 FeS Fluorite -2.33 -12.93 -10.60 CaF2 @@ -39390,7 +39416,7 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -4.99 -13.47 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 -2.850e-06 +Fe(OH)3(a) -0.00 4.89 4.89 1.051e+00 1.051e+00 -2.850e-06 Gypsum -1.51 -6.09 -4.58 0.000e+00 0.000e+00 Pyrolusite -0.32 41.06 41.38 0.000e+00 0.000e+00 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 @@ -39474,6 +39500,7 @@ Surf_w Total alkalinity (eq/kg) = -5.036e-06 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.459e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.88 Iterations = 3 @@ -39869,7 +39896,7 @@ Zn 2.663e-12 Dolomite(d) -10.91 -27.45 -16.54 CaMg(CO3)2 Epsomite -4.46 -6.60 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.58 2.54 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -141.82 -145.74 -3.92 FeS Fluorite -2.49 -13.09 -10.60 CaF2 @@ -40658,9 +40685,9 @@ Mixture 5. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -1.37 -9.85 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) -0.00 4.89 4.89 1.063e+00 1.063e+00 -1.825e-08 +Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -1.825e-08 Gypsum -1.70 -6.28 -4.58 0.000e+00 0.000e+00 -Pyrolusite 0.00 41.38 41.38 4.710e-06 4.710e-06 -6.829e-14 +Pyrolusite -0.00 41.38 41.38 4.710e-06 4.710e-06 -6.829e-14 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -40742,6 +40769,7 @@ Surf_w Total alkalinity (eq/kg) = 1.506e-03 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.249e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.29 Iterations = 3 @@ -41137,7 +41165,7 @@ Zn 2.931e-12 Dolomite(d) -3.67 -20.21 -16.54 CaMg(CO3)2 Epsomite -4.66 -6.80 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 4.99 1.95 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -146.00 -149.92 -3.92 FeS Fluorite -2.27 -12.87 -10.60 CaF2 @@ -41206,7 +41234,7 @@ Zn 2.931e-12 Prehnite -4.16 -15.85 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -237.45 -255.93 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite 0.00 41.38 41.38 MnO2 + Pyrolusite -0.00 41.38 41.38 MnO2 Pyrophyllite 9.47 -38.85 -48.31 Al2Si4O10(OH)2 Quartz 0.58 -3.40 -3.98 SiO2 Retgersite -10.26 -12.30 -2.04 NiSO4:6H2O @@ -41356,6 +41384,7 @@ Surf_w Total alkalinity (eq/kg) = 2.281e-05 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.361e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.87 Iterations = 3 @@ -42542,7 +42571,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta Calcite -1.18 -9.66 -8.48 0.000e+00 0.000e+00 Fe(OH)3(a) 0.00 4.89 4.89 1.063e+00 1.063e+00 -1.268e-08 Gypsum -1.74 -6.32 -4.58 0.000e+00 0.000e+00 -Pyrolusite -0.00 41.38 41.38 4.710e-06 4.710e-06 -4.817e-14 +Pyrolusite 0.00 41.38 41.38 4.710e-06 4.710e-06 -4.817e-14 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -42624,6 +42653,7 @@ Surf_w Total alkalinity (eq/kg) = 1.695e-03 Total CO2 (mol/kg) = 2.588e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.822e-05 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.24 Iterations = 3 @@ -43088,7 +43118,7 @@ Zn 2.121e-12 Prehnite -3.53 -15.22 -11.70 Ca2Al2Si3O10(OH)2 Pyrite -238.06 -256.54 -18.48 FeS2 Pyrochroite -15.03 0.17 15.20 Mn(OH)2 - Pyrolusite -0.00 41.38 41.38 MnO2 + Pyrolusite 0.00 41.38 41.38 MnO2 Pyrophyllite 9.56 -38.75 -48.31 Al2Si4O10(OH)2 Quartz 0.58 -3.40 -3.98 SiO2 Retgersite -10.31 -12.35 -2.04 NiSO4:6H2O @@ -43154,7 +43184,7 @@ Mixture 10. Phase SI log IAP log K(T, P) Initial Final Delta Calcite -4.27 -12.75 -8.48 0.000e+00 0.000e+00 -Fe(OH)3(a) 0.00 4.89 4.89 1.051e+00 1.051e+00 -1.944e-06 +Fe(OH)3(a) -0.00 4.89 4.89 1.051e+00 1.051e+00 -1.944e-06 Gypsum -1.52 -6.10 -4.58 0.000e+00 0.000e+00 Pyrolusite -0.71 40.67 41.38 0.000e+00 0.000e+00 SiO2(a) -0.69 -3.40 -2.71 0.000e+00 0.000e+00 @@ -43633,7 +43663,7 @@ Zn 1.775e-13 Dolomite(d) -9.47 -26.01 -16.54 CaMg(CO3)2 Epsomite -4.47 -6.61 -2.14 MgSO4:7H2O Fe(OH)2.7Cl.3 5.47 2.43 -3.04 Fe(OH)2.7Cl0.3 - Fe(OH)3(a) 0.00 4.89 4.89 Fe(OH)3 + Fe(OH)3(a) -0.00 4.89 4.89 Fe(OH)3 Fe3(OH)8 -13.13 7.09 20.22 Fe3(OH)8 FeS(ppt) -142.55 -146.47 -3.92 FeS Fluorite -2.46 -13.06 -10.60 CaF2 diff --git a/mytest/brown_101.sel b/mytest/brown_101.sel index 373a645c..dfedca8f 100644 --- a/mytest/brown_101.sel +++ b/mytest/brown_101.sel @@ -33,8 +33,8 @@ 0.120539483305 0.0000000000 0.120539483305 0.0000000000 0.120539483305 0.0000000000 - 0.198940698421 0.0000000000 - 0.151888649242 0.0000000000 + 0.198940698424 0.0000000000 + 0.151888649241 0.0000000000 0.145816678194 0.0000000000 0.131532384853 0.0000000000 0.122866032523 0.0000000000 @@ -43,19 +43,19 @@ 0.120539483305 0.0000000000 0.120539483305 0.0000000000 0.120539483305 0.0000000000 - 0.198259984165 0.0000000000 - 0.158830692491 0.0000000000 - 0.151412350316 0.0000000000 + 0.198259984166 0.0000000000 + 0.158830692490 0.0000000000 + 0.151412350315 0.0000000000 0.143699763134 0.0000000000 0.132208008256 0.0000000000 0.123961184942 0.0000000000 - 0.121080339846 0.0000000000 + 0.121080339847 0.0000000000 0.120576361295 0.0000000000 0.120539483305 0.0000000000 0.120539483305 0.0000000000 0.207872384900 0.0000000000 - 0.188543367876 0.0000000000 - 0.152797243224 0.0000000000 + 0.188543367874 0.0000000000 + 0.152797243223 0.0000000000 0.149916198015 0.0000000000 0.142513726932 0.0000000000 0.132464874700 0.0000000000 @@ -64,31 +64,31 @@ 0.120658667866 0.0000000000 0.120546110394 0.0000000000 0.211470116156 0.0000000000 - 0.196090864844 0.0000000000 + 0.196090864846 0.0000000000 0.151669842535 0.0000000000 - 0.151854298568 0.0000000000 - 0.148715109278 0.0000000000 + 0.151854298567 0.0000000000 + 0.148715109277 0.0000000000 0.141601597219 0.0000000000 0.132588460835 0.0000000000 0.125455647535 0.0000000000 0.121900248891 0.0000000000 0.120802540917 0.0000000000 0.212225603002 0.0000000000 - 0.201636429180 0.0000000000 - 0.170052551658 0.0000000000 - 0.152666948328 0.0000000000 - 0.151020597928 0.0000000000 - 0.147642648119 0.0000000000 + 0.201636429179 0.0000000000 + 0.170052551654 0.0000000000 + 0.152666948327 0.0000000000 + 0.151020597927 0.0000000000 + 0.147642648118 0.0000000000 0.140873531384 0.0000000000 0.132637820196 0.0000000000 0.125953745659 0.0000000000 0.122495016898 0.0000000000 0.212637234923 0.0000000000 0.209910608527 0.0000000000 - 0.193066739286 0.0000000000 + 0.193066739288 0.0000000000 0.152592784194 0.0000000000 - 0.152267722594 0.0000000000 - 0.150490036019 0.0000000000 + 0.152267722593 0.0000000000 + 0.150490036018 0.0000000000 0.146704172063 0.0000000000 0.140260182050 0.0000000000 0.132646765577 0.0000000000 @@ -96,623 +96,623 @@ 0.212702099749 0.0000000000 0.211826178028 0.0000000000 0.197333098194 0.0000000000 - 0.159404983180 0.0000000000 - 0.152663434832 0.0000000000 + 0.159404983177 0.0000000000 + 0.152663434831 0.0000000000 0.151858090217 0.0000000000 0.149906534869 0.0000000000 0.145923765415 0.0000000000 - 0.139735528482 0.0000000000 + 0.139735528481 0.0000000000 0.133833722757 0.0000000000 0.212666822561 0.0000000000 0.212388596524 0.0000000000 0.205779121564 0.0000000000 - 0.179223021985 0.0000000000 - 0.152940661293 0.0000000000 - 0.152468335051 0.0000000000 - 0.151502644251 0.0000000000 + 0.179223021978 0.0000000000 + 0.152940661292 0.0000000000 + 0.152468335049 0.0000000000 + 0.151502644250 0.0000000000 0.149321685866 0.0000000000 - 0.145254667377 0.0000000000 + 0.145254667376 0.0000000000 0.140670035946 0.0000000000 0.212602873865 0.0000000000 0.212769864226 0.0000000000 0.211000470627 0.0000000000 - 0.194074738765 0.0000000000 + 0.194074738753 0.0000000000 0.152107585653 0.0000000000 - 0.152706750732 0.0000000000 - 0.152250516850 0.0000000000 - 0.151132976527 0.0000000000 - 0.148779525758 0.0000000000 - 0.145841216499 0.0000000000 + 0.152706750731 0.0000000000 + 0.152250516849 0.0000000000 + 0.151132976526 0.0000000000 + 0.148779525757 0.0000000000 + 0.145841216498 0.0000000000 0.212527366669 0.0000000000 0.212847439437 0.0000000000 0.212159841001 0.0000000000 - 0.201238116732 0.0000000000 - 0.164926970078 0.0000000000 + 0.201238116730 0.0000000000 + 0.164926970079 0.0000000000 0.152556349491 0.0000000000 - 0.152410479876 0.0000000000 - 0.152028311975 0.0000000000 - 0.150767690391 0.0000000000 + 0.152410479875 0.0000000000 + 0.152028311974 0.0000000000 + 0.150767690390 0.0000000000 0.149088926057 0.0000000000 0.212437984264 0.0000000000 0.212853142330 0.0000000000 0.212679868655 0.0000000000 - 0.209210459617 0.0000000000 - 0.186817207792 0.0000000000 - 0.153086047605 0.0000000000 + 0.209210459618 0.0000000000 + 0.186817207795 0.0000000000 + 0.153086047606 0.0000000000 0.152551942057 0.0000000000 - 0.152273318824 0.0000000000 - 0.151768440762 0.0000000000 + 0.152273318823 0.0000000000 + 0.151768440761 0.0000000000 0.150903283005 0.0000000000 0.212331367360 0.0000000000 0.212838518568 0.0000000000 0.212837912876 0.0000000000 0.211829491120 0.0000000000 - 0.195788011233 0.0000000000 - 0.159242627598 0.0000000000 - 0.152499195025 0.0000000000 - 0.152443582229 0.0000000000 + 0.195788011246 0.0000000000 + 0.159242627608 0.0000000000 + 0.152499195029 0.0000000000 + 0.152443582230 0.0000000000 0.152167002377 0.0000000000 - 0.151786034856 0.0000000000 + 0.151786034855 0.0000000000 0.212208309695 0.0000000000 0.212811873410 0.0000000000 0.212866210830 0.0000000000 0.212370105745 0.0000000000 0.205523862355 0.0000000000 - 0.173152859635 0.0000000000 - 0.153156708134 0.0000000000 - 0.152476992164 0.0000000000 - 0.152327398004 0.0000000000 + 0.173152859644 0.0000000000 + 0.153156708139 0.0000000000 + 0.152476992168 0.0000000000 + 0.152327398005 0.0000000000 0.152162173559 0.0000000000 0.212085966189 0.0000000000 0.212778045899 0.0000000000 0.212866480379 0.0000000000 0.212697219970 0.0000000000 0.211074432963 0.0000000000 - 0.192784910190 0.0000000000 - 0.153077415697 0.0000000000 - 0.152608929692 0.0000000000 - 0.152434802005 0.0000000000 - 0.152312936456 0.0000000000 + 0.192784910192 0.0000000000 + 0.153077415696 0.0000000000 + 0.152608929694 0.0000000000 + 0.152434802008 0.0000000000 + 0.152312936457 0.0000000000 0.211981662976 0.0000000000 0.212735548982 0.0000000000 0.212865838652 0.0000000000 0.212761299159 0.0000000000 0.212174359443 0.0000000000 - 0.200913439205 0.0000000000 - 0.165188849246 0.0000000000 - 0.152885908360 0.0000000000 - 0.152395062284 0.0000000000 - 0.152393130010 0.0000000000 + 0.200913439194 0.0000000000 + 0.165188849244 0.0000000000 + 0.152885908359 0.0000000000 + 0.152395062285 0.0000000000 + 0.152393130012 0.0000000000 0.211922723899 0.0000000000 0.212677937252 0.0000000000 - 0.212865110418 0.0000000000 - 0.212778527002 0.0000000000 - 0.212585191171 0.0000000000 - 0.208530110657 0.0000000000 - 0.182822492710 0.0000000000 - 0.153542997132 0.0000000000 + 0.212865110443 0.0000000000 + 0.212778527079 0.0000000000 + 0.212585191196 0.0000000000 + 0.208530110655 0.0000000000 + 0.182822492704 0.0000000000 + 0.153542997129 0.0000000000 0.152472851905 0.0000000000 - 0.152295378176 0.0000000000 + 0.152295378177 0.0000000000 0.211897602801 0.0000000000 0.212607563669 0.0000000000 - 0.212860185679 0.0000000000 - 0.212790257722 0.0000000000 - 0.212718576476 0.0000000000 - 0.211709844774 0.0000000000 - 0.193910189758 0.0000000000 - 0.159352857989 0.0000000000 - 0.152702855553 0.0000000000 + 0.212860185681 0.0000000000 + 0.212790257764 0.0000000000 + 0.212718576522 0.0000000000 + 0.211709844801 0.0000000000 + 0.193910189772 0.0000000000 + 0.159352857982 0.0000000000 + 0.152702855550 0.0000000000 0.152212951263 0.0000000000 0.211885851247 0.0000000000 0.212527877122 0.0000000000 - 0.212849307226 0.0000000000 - 0.212798174140 0.0000000000 - 0.212741862140 0.0000000000 - 0.212293459672 0.0000000000 - 0.205735992720 0.0000000000 - 0.173692048219 0.0000000000 - 0.153754275367 0.0000000000 - 0.152351165470 0.0000000000 + 0.212849307225 0.0000000000 + 0.212798174160 0.0000000000 + 0.212741862163 0.0000000000 + 0.212293459708 0.0000000000 + 0.205735992744 0.0000000000 + 0.173692048220 0.0000000000 + 0.153754275365 0.0000000000 + 0.152351165467 0.0000000000 0.211877550604 0.0000000000 0.212437566168 0.0000000000 0.212832724929 0.0000000000 - 0.212801732204 0.0000000000 - 0.212747517955 0.0000000000 - 0.212562141397 0.0000000000 - 0.210591544852 0.0000000000 - 0.188342427987 0.0000000000 - 0.154147183741 0.0000000000 + 0.212801732219 0.0000000000 + 0.212747517962 0.0000000000 + 0.212562141416 0.0000000000 + 0.210591544880 0.0000000000 + 0.188342428017 0.0000000000 + 0.154147183752 0.0000000000 0.152977910012 0.0000000000 0.211868561433 0.0000000000 0.212331924862 0.0000000000 - 0.212810175453 0.0000000000 - 0.212801517707 0.0000000000 - 0.212750626128 0.0000000000 - 0.212622800041 0.0000000000 - 0.212191612915 0.0000000000 - 0.200078622144 0.0000000000 - 0.165347230000 0.0000000000 - 0.153486040843 0.0000000000 + 0.212810175454 0.0000000000 + 0.212801517721 0.0000000000 + 0.212750626130 0.0000000000 + 0.212622800047 0.0000000000 + 0.212191612933 0.0000000000 + 0.200078622156 0.0000000000 + 0.165347230038 0.0000000000 + 0.153486040861 0.0000000000 0.211856385367 0.0000000000 0.212211780692 0.0000000000 - 0.212781300943 0.0000000000 - 0.212797913027 0.0000000000 - 0.212751007524 0.0000000000 + 0.212781300944 0.0000000000 + 0.212797913041 0.0000000000 + 0.212751007526 0.0000000000 0.212631082826 0.0000000000 - 0.212526135712 0.0000000000 - 0.208310007168 0.0000000000 - 0.180078085338 0.0000000000 - 0.154348072827 0.0000000000 + 0.212526135718 0.0000000000 + 0.208310007156 0.0000000000 + 0.180078085264 0.0000000000 + 0.154348072854 0.0000000000 0.211839160964 0.0000000000 0.212094589047 0.0000000000 0.212747437239 0.0000000000 - 0.212792572250 0.0000000000 - 0.212749050355 0.0000000000 + 0.212792572264 0.0000000000 + 0.212749050358 0.0000000000 0.212633517960 0.0000000000 - 0.212608147831 0.0000000000 - 0.211576785847 0.0000000000 - 0.193257252959 0.0000000000 - 0.159739108142 0.0000000000 + 0.212608147832 0.0000000000 + 0.211576785851 0.0000000000 + 0.193257253036 0.0000000000 + 0.159739108106 0.0000000000 0.211817659137 0.0000000000 0.211998879506 0.0000000000 0.212705658770 0.0000000000 - 0.212789833329 0.0000000000 - 0.212746986013 0.0000000000 + 0.212789833342 0.0000000000 + 0.212746986017 0.0000000000 0.212635201790 0.0000000000 - 0.212611473655 0.0000000000 - 0.212207175293 0.0000000000 - 0.205850977622 0.0000000000 - 0.187376012821 0.0000000000 + 0.212611473654 0.0000000000 + 0.212207175289 0.0000000000 + 0.205850977613 0.0000000000 + 0.187376012805 0.0000000000 0.211800186123 0.0000000000 0.211940420738 0.0000000000 - 0.212650197716 0.0000000000 - 0.212789334484 0.0000000000 - 0.212748339899 0.0000000000 - 0.212637610630 0.0000000000 + 0.212650197717 0.0000000000 + 0.212789334440 0.0000000000 + 0.212748339732 0.0000000000 + 0.212637610577 0.0000000000 0.212605304887 0.0000000000 - 0.212438119637 0.0000000000 - 0.210014427920 0.0000000000 - 0.196686698452 0.0000000000 + 0.212438119635 0.0000000000 + 0.210014427917 0.0000000000 + 0.196686698435 0.0000000000 0.211789756373 0.0000000000 0.211909161057 0.0000000000 - 0.212581800188 0.0000000000 - 0.212786138514 0.0000000000 - 0.212752656593 0.0000000000 - 0.212643017107 0.0000000000 - 0.212602201301 0.0000000000 - 0.212481416682 0.0000000000 - 0.211896198034 0.0000000000 - 0.210167511378 0.0000000000 + 0.212581800191 0.0000000000 + 0.212786138520 0.0000000000 + 0.212752656504 0.0000000000 + 0.212643017010 0.0000000000 + 0.212602201238 0.0000000000 + 0.212481416669 0.0000000000 + 0.211896198033 0.0000000000 + 0.210167511374 0.0000000000 0.211784285589 0.0000000000 0.211891326264 0.0000000000 - 0.212501965369 0.0000000000 - 0.212777468619 0.0000000000 - 0.212756545487 0.0000000000 - 0.212650772956 0.0000000000 - 0.212603026750 0.0000000000 - 0.212484314771 0.0000000000 - 0.212297612416 0.0000000000 - 0.211829017304 0.0000000000 + 0.212501965371 0.0000000000 + 0.212777468631 0.0000000000 + 0.212756545444 0.0000000000 + 0.212650772907 0.0000000000 + 0.212603026671 0.0000000000 + 0.212484314709 0.0000000000 + 0.212297612395 0.0000000000 + 0.211829017299 0.0000000000 0.211781473187 0.0000000000 0.211878859000 0.0000000000 - 0.212408841804 0.0000000000 - 0.212762612621 0.0000000000 - 0.212757783509 0.0000000000 - 0.212658288910 0.0000000000 - 0.212606518836 0.0000000000 - 0.212487502029 0.0000000000 - 0.212374147632 0.0000000000 - 0.212177701850 0.0000000000 + 0.212408841806 0.0000000000 + 0.212762612632 0.0000000000 + 0.212757783479 0.0000000000 + 0.212658288896 0.0000000000 + 0.212606518795 0.0000000000 + 0.212487501961 0.0000000000 + 0.212374147575 0.0000000000 + 0.212177701819 0.0000000000 0.211779918612 0.0000000000 0.211867050888 0.0000000000 - 0.212298250232 0.0000000000 - 0.212740968511 0.0000000000 - 0.212755678480 0.0000000000 - 0.212663687830 0.0000000000 - 0.212610395584 0.0000000000 - 0.212494188007 0.0000000000 - 0.212390725022 0.0000000000 - 0.212256083311 0.0000000000 + 0.212298250235 0.0000000000 + 0.212740968504 0.0000000000 + 0.212755678397 0.0000000000 + 0.212663687810 0.0000000000 + 0.212610395573 0.0000000000 + 0.212494187969 0.0000000000 + 0.212390724963 0.0000000000 + 0.212256083251 0.0000000000 0.211778856627 0.0000000000 0.211852693667 0.0000000000 - 0.212176459148 0.0000000000 - 0.212712630285 0.0000000000 - 0.212750360813 0.0000000000 - 0.212666274826 0.0000000000 - 0.212612898323 0.0000000000 - 0.212501655052 0.0000000000 - 0.212399440318 0.0000000000 - 0.212283674766 0.0000000000 + 0.212176459151 0.0000000000 + 0.212712630292 0.0000000000 + 0.212750360757 0.0000000000 + 0.212666274790 0.0000000000 + 0.212612898305 0.0000000000 + 0.212501655038 0.0000000000 + 0.212399440284 0.0000000000 + 0.212283674713 0.0000000000 0.211777780388 0.0000000000 - 0.211833507288 0.0000000000 - 0.212062138400 0.0000000000 - 0.212678436925 0.0000000000 - 0.212744470487 0.0000000000 - 0.212666535353 0.0000000000 - 0.212613261122 0.0000000000 - 0.212507759747 0.0000000000 - 0.212407411007 0.0000000000 - 0.212302085719 0.0000000000 + 0.211833507289 0.0000000000 + 0.212062138403 0.0000000000 + 0.212678436934 0.0000000000 + 0.212744470447 0.0000000000 + 0.212666535330 0.0000000000 + 0.212613261099 0.0000000000 + 0.212507759729 0.0000000000 + 0.212407410990 0.0000000000 + 0.212302085691 0.0000000000 0.211776389883 0.0000000000 0.211812589426 0.0000000000 - 0.211975972453 0.0000000000 - 0.212632858412 0.0000000000 - 0.212741873488 0.0000000000 - 0.212667407097 0.0000000000 - 0.212612150624 0.0000000000 - 0.212511634608 0.0000000000 - 0.212414194049 0.0000000000 - 0.212317291867 0.0000000000 + 0.211975972454 0.0000000000 + 0.212632858421 0.0000000000 + 0.212741873452 0.0000000000 + 0.212667407083 0.0000000000 + 0.212612150612 0.0000000000 + 0.212511634589 0.0000000000 + 0.212414194031 0.0000000000 + 0.212317291852 0.0000000000 0.211774933311 0.0000000000 - 0.211797492298 0.0000000000 - 0.211926655723 0.0000000000 - 0.212571062746 0.0000000000 - 0.212739981889 0.0000000000 - 0.212671781120 0.0000000000 - 0.212612288805 0.0000000000 - 0.212514088504 0.0000000000 - 0.212419162017 0.0000000000 - 0.212329411732 0.0000000000 + 0.211797492299 0.0000000000 + 0.211926655724 0.0000000000 + 0.212571062755 0.0000000000 + 0.212739981806 0.0000000000 + 0.212671780956 0.0000000000 + 0.212612288754 0.0000000000 + 0.212514088495 0.0000000000 + 0.212419162002 0.0000000000 + 0.212329411715 0.0000000000 0.211773800320 0.0000000000 0.211788724173 0.0000000000 - 0.211899931138 0.0000000000 - 0.212494190683 0.0000000000 - 0.212733663364 0.0000000000 - 0.212677769276 0.0000000000 - 0.212615607744 0.0000000000 - 0.212517523307 0.0000000000 - 0.212423148295 0.0000000000 - 0.212338568873 0.0000000000 + 0.211899931139 0.0000000000 + 0.212494190693 0.0000000000 + 0.212733663383 0.0000000000 + 0.212677769354 0.0000000000 + 0.212615607710 0.0000000000 + 0.212517523251 0.0000000000 + 0.212423148276 0.0000000000 + 0.212338568860 0.0000000000 0.211773067537 0.0000000000 0.211783929118 0.0000000000 - 0.211883112983 0.0000000000 - 0.212401767156 0.0000000000 - 0.212720663893 0.0000000000 - 0.212681862061 0.0000000000 - 0.212620542018 0.0000000000 - 0.212523285248 0.0000000000 - 0.212428120739 0.0000000000 - 0.212346225227 0.0000000000 + 0.211883112984 0.0000000000 + 0.212401767165 0.0000000000 + 0.212720663870 0.0000000000 + 0.212681862100 0.0000000000 + 0.212620542072 0.0000000000 + 0.212523285242 0.0000000000 + 0.212428120697 0.0000000000 + 0.212346225201 0.0000000000 0.211772634975 0.0000000000 0.211781238842 0.0000000000 - 0.211868976576 0.0000000000 - 0.212290726017 0.0000000000 - 0.212700165172 0.0000000000 - 0.212682314382 0.0000000000 - 0.212624388968 0.0000000000 - 0.212530097322 0.0000000000 - 0.212434980756 0.0000000000 - 0.212354452313 0.0000000000 + 0.211868976577 0.0000000000 + 0.212290726028 0.0000000000 + 0.212700165143 0.0000000000 + 0.212682314385 0.0000000000 + 0.212624389003 0.0000000000 + 0.212530097367 0.0000000000 + 0.212434980760 0.0000000000 + 0.212354452279 0.0000000000 0.211772386805 0.0000000000 0.211779536196 0.0000000000 - 0.211853218267 0.0000000000 - 0.212168930279 0.0000000000 - 0.212672450684 0.0000000000 - 0.212679088482 0.0000000000 - 0.212625627377 0.0000000000 - 0.212535795851 0.0000000000 - 0.212442622563 0.0000000000 - 0.212363898538 0.0000000000 + 0.211853218268 0.0000000000 + 0.212168930289 0.0000000000 + 0.212672450656 0.0000000000 + 0.212679088474 0.0000000000 + 0.212625627385 0.0000000000 + 0.212535795884 0.0000000000 + 0.212442622600 0.0000000000 + 0.212363898553 0.0000000000 0.211772238676 0.0000000000 0.211778095225 0.0000000000 - 0.211833064106 0.0000000000 - 0.212055098905 0.0000000000 - 0.212638038864 0.0000000000 - 0.212675141038 0.0000000000 - 0.212624542708 0.0000000000 - 0.212539072454 0.0000000000 - 0.212449226284 0.0000000000 - 0.212373382811 0.0000000000 + 0.211833064108 0.0000000000 + 0.212055098913 0.0000000000 + 0.212638038838 0.0000000000 + 0.212675141027 0.0000000000 + 0.212624542705 0.0000000000 + 0.212539072466 0.0000000000 + 0.212449226314 0.0000000000 + 0.212373382849 0.0000000000 0.211772133869 0.0000000000 0.211776512368 0.0000000000 - 0.211811919679 0.0000000000 - 0.211970545575 0.0000000000 - 0.212590538379 0.0000000000 - 0.212674173069 0.0000000000 - 0.212624232403 0.0000000000 - 0.212540481882 0.0000000000 - 0.212453689390 0.0000000000 - 0.212381272050 0.0000000000 + 0.211811919680 0.0000000000 + 0.211970545579 0.0000000000 + 0.212590538354 0.0000000000 + 0.212674173058 0.0000000000 + 0.212624232397 0.0000000000 + 0.212540481883 0.0000000000 + 0.212453689403 0.0000000000 + 0.212381272076 0.0000000000 0.211772037986 0.0000000000 0.211774991821 0.0000000000 - 0.211796994522 0.0000000000 - 0.211922391261 0.0000000000 - 0.212524958100 0.0000000000 - 0.212673060427 0.0000000000 - 0.212627395223 0.0000000000 - 0.212542847463 0.0000000000 - 0.212456726954 0.0000000000 - 0.212386840473 0.0000000000 + 0.211796994523 0.0000000000 + 0.211922391262 0.0000000000 + 0.212524958075 0.0000000000 + 0.212673060397 0.0000000000 + 0.212627395158 0.0000000000 + 0.212542847443 0.0000000000 + 0.212456726956 0.0000000000 + 0.212386840483 0.0000000000 0.211771947766 0.0000000000 0.211773852876 0.0000000000 - 0.211788391109 0.0000000000 - 0.211895768428 0.0000000000 - 0.212441815755 0.0000000000 - 0.212666515521 0.0000000000 - 0.212631810384 0.0000000000 - 0.212547956404 0.0000000000 - 0.212460722180 0.0000000000 - 0.212391247030 0.0000000000 + 0.211788391110 0.0000000000 + 0.211895768427 0.0000000000 + 0.212441815728 0.0000000000 + 0.212666515507 0.0000000000 + 0.212631810344 0.0000000000 + 0.212547956369 0.0000000000 + 0.212460722160 0.0000000000 + 0.212391247028 0.0000000000 0.211771874383 0.0000000000 0.211773118951 0.0000000000 0.211783676115 0.0000000000 - 0.211878037417 0.0000000000 - 0.212339628463 0.0000000000 - 0.212652156522 0.0000000000 - 0.212633904145 0.0000000000 - 0.212554033562 0.0000000000 - 0.212466838557 0.0000000000 - 0.212396786851 0.0000000000 + 0.211878037415 0.0000000000 + 0.212339628431 0.0000000000 + 0.212652156508 0.0000000000 + 0.212633904120 0.0000000000 + 0.212554033542 0.0000000000 + 0.212466838530 0.0000000000 + 0.212396786828 0.0000000000 0.211771822114 0.0000000000 0.211772676472 0.0000000000 0.211780977058 0.0000000000 - 0.211861870524 0.0000000000 - 0.212219789493 0.0000000000 - 0.212629320370 0.0000000000 - 0.212632079349 0.0000000000 - 0.212558358993 0.0000000000 - 0.212473600943 0.0000000000 - 0.212404099189 0.0000000000 + 0.211861870520 0.0000000000 + 0.212219789459 0.0000000000 + 0.212629320354 0.0000000000 + 0.212632079327 0.0000000000 + 0.212558358983 0.0000000000 + 0.212473600928 0.0000000000 + 0.212404099165 0.0000000000 0.211771788030 0.0000000000 0.211772412473 0.0000000000 0.211779142563 0.0000000000 - 0.211843036914 0.0000000000 - 0.212099836289 0.0000000000 - 0.212598988940 0.0000000000 - 0.212627488155 0.0000000000 - 0.212559740402 0.0000000000 - 0.212478813314 0.0000000000 - 0.212411520648 0.0000000000 + 0.211843036909 0.0000000000 + 0.212099836258 0.0000000000 + 0.212598988922 0.0000000000 + 0.212627488134 0.0000000000 + 0.212559740395 0.0000000000 + 0.212478813308 0.0000000000 + 0.212411520637 0.0000000000 0.211771766752 0.0000000000 0.211772245048 0.0000000000 0.211777437040 0.0000000000 - 0.211820703048 0.0000000000 - 0.211998907083 0.0000000000 - 0.212557285996 0.0000000000 - 0.212624595086 0.0000000000 - 0.212559836245 0.0000000000 - 0.212481596887 0.0000000000 - 0.212417080415 0.0000000000 + 0.211820703042 0.0000000000 + 0.211998907060 0.0000000000 + 0.212557285973 0.0000000000 + 0.212624595066 0.0000000000 + 0.212559836238 0.0000000000 + 0.212481596884 0.0000000000 + 0.212417080411 0.0000000000 0.211771753372 0.0000000000 0.211772118146 0.0000000000 - 0.211775727940 0.0000000000 - 0.211802459611 0.0000000000 - 0.211935716365 0.0000000000 - 0.212495767336 0.0000000000 - 0.212623179269 0.0000000000 - 0.212562393824 0.0000000000 - 0.212483747617 0.0000000000 - 0.212420402856 0.0000000000 + 0.211775727939 0.0000000000 + 0.211802459608 0.0000000000 + 0.211935716352 0.0000000000 + 0.212495767306 0.0000000000 + 0.212623179249 0.0000000000 + 0.212562393817 0.0000000000 + 0.212483747615 0.0000000000 + 0.212420402855 0.0000000000 0.211771744134 0.0000000000 0.211772007634 0.0000000000 0.211774346000 0.0000000000 - 0.211791300344 0.0000000000 - 0.211900841819 0.0000000000 - 0.212412545014 0.0000000000 - 0.212617346972 0.0000000000 - 0.212567125706 0.0000000000 - 0.212488030525 0.0000000000 + 0.211791300342 0.0000000000 + 0.211900841811 0.0000000000 + 0.212412544976 0.0000000000 + 0.212617346940 0.0000000000 + 0.212567125667 0.0000000000 + 0.212488030515 0.0000000000 0.212423666880 0.0000000000 0.211771736883 0.0000000000 0.211771917201 0.0000000000 0.211773416555 0.0000000000 - 0.211785116288 0.0000000000 - 0.211878704683 0.0000000000 - 0.212306994367 0.0000000000 - 0.212603076887 0.0000000000 - 0.212570220616 0.0000000000 - 0.212493947587 0.0000000000 - 0.212429076732 0.0000000000 + 0.211785116286 0.0000000000 + 0.211878704676 0.0000000000 + 0.212306994321 0.0000000000 + 0.212603076861 0.0000000000 + 0.212570220588 0.0000000000 + 0.212493947568 0.0000000000 + 0.212429076720 0.0000000000 0.211771731048 0.0000000000 0.211771851168 0.0000000000 0.211772846215 0.0000000000 - 0.211781618778 0.0000000000 - 0.211859676344 0.0000000000 - 0.212185929333 0.0000000000 - 0.212579494574 0.0000000000 - 0.212569311208 0.0000000000 - 0.212498662109 0.0000000000 - 0.212435576992 0.0000000000 + 0.211781618777 0.0000000000 + 0.211859676336 0.0000000000 + 0.212185929284 0.0000000000 + 0.212579494546 0.0000000000 + 0.212569311186 0.0000000000 + 0.212498662097 0.0000000000 + 0.212435576977 0.0000000000 0.211771726617 0.0000000000 0.211771806897 0.0000000000 - 0.211772504768 0.0000000000 - 0.211779300380 0.0000000000 - 0.211838391825 0.0000000000 - 0.212068637256 0.0000000000 - 0.212546945428 0.0000000000 - 0.212566087583 0.0000000000 - 0.212500629837 0.0000000000 - 0.212440512393 0.0000000000 + 0.211772504767 0.0000000000 + 0.211779300379 0.0000000000 + 0.211838391816 0.0000000000 + 0.212068637212 0.0000000000 + 0.212546945396 0.0000000000 + 0.212566087563 0.0000000000 + 0.212500629829 0.0000000000 + 0.212440512386 0.0000000000 0.211771723475 0.0000000000 0.211771778521 0.0000000000 0.211772289609 0.0000000000 0.211777282037 0.0000000000 - 0.211815714536 0.0000000000 - 0.211976380893 0.0000000000 - 0.212498521363 0.0000000000 - 0.212564592248 0.0000000000 - 0.212501936485 0.0000000000 - 0.212443053003 0.0000000000 + 0.211815714528 0.0000000000 + 0.211976380863 0.0000000000 + 0.212498521322 0.0000000000 + 0.212564592229 0.0000000000 + 0.212501936479 0.0000000000 + 0.212443053000 0.0000000000 0.211771721361 0.0000000000 0.211771760309 0.0000000000 - 0.211772132363 0.0000000000 + 0.211772132362 0.0000000000 0.211775477684 0.0000000000 - 0.211799059268 0.0000000000 - 0.211921514949 0.0000000000 - 0.212426189518 0.0000000000 - 0.212562253502 0.0000000000 - 0.212505673480 0.0000000000 - 0.212445803223 0.0000000000 + 0.211799059263 0.0000000000 + 0.211921514932 0.0000000000 + 0.212426189464 0.0000000000 + 0.212562253480 0.0000000000 + 0.212505673474 0.0000000000 + 0.212445803222 0.0000000000 0.211771719972 0.0000000000 0.211771747836 0.0000000000 0.211772006481 0.0000000000 - 0.211774137642 0.0000000000 - 0.211789278508 0.0000000000 - 0.211889935150 0.0000000000 - 0.212328524624 0.0000000000 - 0.212552775175 0.0000000000 - 0.212510069291 0.0000000000 - 0.212451022267 0.0000000000 + 0.211774137641 0.0000000000 + 0.211789278505 0.0000000000 + 0.211889935138 0.0000000000 + 0.212328524556 0.0000000000 + 0.212552775149 0.0000000000 + 0.212510069284 0.0000000000 + 0.212451022266 0.0000000000 0.211771719041 0.0000000000 0.211771738635 0.0000000000 - 0.211771911275 0.0000000000 + 0.211771911274 0.0000000000 0.211773273697 0.0000000000 - 0.211783842037 0.0000000000 - 0.211867176297 0.0000000000 - 0.212210408871 0.0000000000 - 0.212533066849 0.0000000000 - 0.212511369129 0.0000000000 - 0.212456493297 0.0000000000 + 0.211783842036 0.0000000000 + 0.211867176286 0.0000000000 + 0.212210408798 0.0000000000 + 0.212533066818 0.0000000000 + 0.212511369119 0.0000000000 + 0.212456493295 0.0000000000 0.211771718384 0.0000000000 0.211771731807 0.0000000000 0.211771845202 0.0000000000 0.211772751030 0.0000000000 - 0.211780580398 0.0000000000 - 0.211844962675 0.0000000000 - 0.212090973544 0.0000000000 - 0.212502967889 0.0000000000 - 0.212509242138 0.0000000000 - 0.212459259982 0.0000000000 + 0.211780580397 0.0000000000 + 0.211844962661 0.0000000000 + 0.212090973474 0.0000000000 + 0.212502967850 0.0000000000 + 0.212509242127 0.0000000000 + 0.212459259978 0.0000000000 0.211771717909 0.0000000000 0.211771726941 0.0000000000 0.211771802125 0.0000000000 0.211772433127 0.0000000000 - 0.211778129470 0.0000000000 - 0.211821020043 0.0000000000 - 0.211990392577 0.0000000000 - 0.212456372595 0.0000000000 - 0.212507479238 0.0000000000 - 0.212460361979 0.0000000000 + 0.211778129469 0.0000000000 + 0.211821020030 0.0000000000 + 0.211990392527 0.0000000000 + 0.212456372542 0.0000000000 + 0.212507479227 0.0000000000 + 0.212460361975 0.0000000000 0.211771717567 0.0000000000 0.211771723620 0.0000000000 0.211771774700 0.0000000000 0.211772220514 0.0000000000 - 0.211776047592 0.0000000000 - 0.211802279443 0.0000000000 - 0.211927012502 0.0000000000 - 0.212382895289 0.0000000000 - 0.212504759478 0.0000000000 - 0.212463679503 0.0000000000 + 0.211776047591 0.0000000000 + 0.211802279434 0.0000000000 + 0.211927012473 0.0000000000 + 0.212382895216 0.0000000000 + 0.212504759464 0.0000000000 + 0.212463679500 0.0000000000 0.211771717328 0.0000000000 0.211771721419 0.0000000000 0.211771756725 0.0000000000 0.211772062367 0.0000000000 - 0.211774489780 0.0000000000 - 0.211790932525 0.0000000000 - 0.211889961995 0.0000000000 - 0.212280712303 0.0000000000 - 0.212494358629 0.0000000000 - 0.212467716092 0.0000000000 + 0.211774489779 0.0000000000 + 0.211790932520 0.0000000000 + 0.211889961975 0.0000000000 + 0.212280712212 0.0000000000 + 0.212494358606 0.0000000000 + 0.212467716086 0.0000000000 0.211771717166 0.0000000000 0.211771719961 0.0000000000 0.211771744213 0.0000000000 0.211771946176 0.0000000000 - 0.211773475191 0.0000000000 - 0.211784551755 0.0000000000 - 0.211863421266 0.0000000000 - 0.212162164280 0.0000000000 - 0.212472549278 0.0000000000 - 0.212468130290 0.0000000000 + 0.211773475190 0.0000000000 + 0.211784551752 0.0000000000 + 0.211863421248 0.0000000000 + 0.212162164186 0.0000000000 + 0.212472549247 0.0000000000 + 0.212468130284 0.0000000000 0.211771717057 0.0000000000 0.211771718970 0.0000000000 0.211771735309 0.0000000000 0.211771866275 0.0000000000 - 0.211772857806 0.0000000000 - 0.211780679529 0.0000000000 - 0.211837942268 0.0000000000 - 0.212047290938 0.0000000000 - 0.212436758198 0.0000000000 - 0.212465988339 0.0000000000 + 0.211772857805 0.0000000000 + 0.211780679527 0.0000000000 + 0.211837942249 0.0000000000 + 0.212047290855 0.0000000000 + 0.212436758153 0.0000000000 + 0.212465988333 0.0000000000 0.211771716983 0.0000000000 0.211771718282 0.0000000000 0.211771729114 0.0000000000 - 0.211771814347 0.0000000000 + 0.211771814348 0.0000000000 0.211772480150 0.0000000000 - 0.211777842826 0.0000000000 - 0.211814089271 0.0000000000 - 0.211959580699 0.0000000000 - 0.212376311992 0.0000000000 - 0.212464219066 0.0000000000 + 0.211777842825 0.0000000000 + 0.211814089256 0.0000000000 + 0.211959580645 0.0000000000 + 0.212376311923 0.0000000000 + 0.212464219058 0.0000000000 0.211771716933 0.0000000000 0.211771717805 0.0000000000 0.211771724944 0.0000000000 0.211771781302 0.0000000000 0.211772230070 0.0000000000 - 0.211775673768 0.0000000000 - 0.211797696189 0.0000000000 - 0.211906518654 0.0000000000 - 0.212283922788 0.0000000000 - 0.212456907373 0.0000000000 + 0.211775673767 0.0000000000 + 0.211797696179 0.0000000000 + 0.211906518622 0.0000000000 + 0.212283922694 0.0000000000 + 0.212456907357 0.0000000000 0.211771716898 0.0000000000 0.211771717479 0.0000000000 0.211771722200 0.0000000000 0.211771759773 0.0000000000 0.211772054538 0.0000000000 - 0.211774193726 0.0000000000 - 0.211788161585 0.0000000000 - 0.211872364648 0.0000000000 - 0.212170386572 0.0000000000 - 0.212437344062 0.0000000000 + 0.211774193725 0.0000000000 + 0.211788161580 0.0000000000 + 0.211872364623 0.0000000000 + 0.212170386471 0.0000000000 + 0.212437344035 0.0000000000 0.211771716874 0.0000000000 0.211771717261 0.0000000000 0.211771720397 0.0000000000 0.211771745253 0.0000000000 0.211771934307 0.0000000000 - 0.211773273045 0.0000000000 - 0.211782606412 0.0000000000 - 0.211843674879 0.0000000000 - 0.212056282391 0.0000000000 - 0.212402642287 0.0000000000 + 0.211773273044 0.0000000000 + 0.211782606409 0.0000000000 + 0.211843674855 0.0000000000 + 0.212056282298 0.0000000000 + 0.212402642244 0.0000000000 0.211771716858 0.0000000000 0.211771717115 0.0000000000 0.211771719195 0.0000000000 0.211771735414 0.0000000000 0.211771855716 0.0000000000 0.211772715583 0.0000000000 - 0.211778917702 0.0000000000 - 0.211817842205 0.0000000000 - 0.211965066930 0.0000000000 - 0.212340565088 0.0000000000 + 0.211778917700 0.0000000000 + 0.211817842186 0.0000000000 + 0.211965066867 0.0000000000 + 0.212340565014 0.0000000000 0.211771716847 0.0000000000 0.211771717018 0.0000000000 0.211771718388 0.0000000000 0.211771728874 0.0000000000 0.211771805929 0.0000000000 0.211772364061 0.0000000000 - 0.211776287517 0.0000000000 - 0.211799849487 0.0000000000 - 0.211907652615 0.0000000000 - 0.212241732583 0.0000000000 + 0.211776287515 0.0000000000 + 0.211799849475 0.0000000000 + 0.211907652576 0.0000000000 + 0.212241732480 0.0000000000 0.211771716840 0.0000000000 0.211771716953 0.0000000000 0.211771717849 0.0000000000 0.211771724616 0.0000000000 0.211771774301 0.0000000000 0.211772131344 0.0000000000 - 0.211774539078 0.0000000000 - 0.211789222552 0.0000000000 - 0.211869622322 0.0000000000 - 0.212119819518 0.0000000000 + 0.211774539077 0.0000000000 + 0.211789222545 0.0000000000 + 0.211869622292 0.0000000000 + 0.212119819401 0.0000000000 0.211771716835 0.0000000000 0.211771716910 0.0000000000 0.211771717493 0.0000000000 0.211771721865 0.0000000000 0.211771753794 0.0000000000 0.211771978285 0.0000000000 - 0.211773460525 0.0000000000 - 0.211782932835 0.0000000000 - 0.211836876030 0.0000000000 - 0.211987620689 0.0000000000 + 0.211773460524 0.0000000000 + 0.211782932831 0.0000000000 + 0.211836876003 0.0000000000 + 0.211987620576 0.0000000000 0.211771716832 0.0000000000 0.211771716881 0.0000000000 0.211771717260 0.0000000000 0.211771720081 0.0000000000 0.211771740416 0.0000000000 0.211771880604 0.0000000000 - 0.211772808397 0.0000000000 - 0.211778769765 0.0000000000 - 0.211809557973 0.0000000000 - 0.211883758736 0.0000000000 + 0.211772808396 0.0000000000 + 0.211778769762 0.0000000000 + 0.211809557953 0.0000000000 + 0.211883758665 0.0000000000 0.211771716830 0.0000000000 0.211771716862 0.0000000000 0.211771717107 0.0000000000 @@ -720,9 +720,9 @@ 0.211771731787 0.0000000000 0.211771819597 0.0000000000 0.211772399701 0.0000000000 - 0.211775931150 0.0000000000 - 0.211792049396 0.0000000000 - 0.211826493635 0.0000000000 + 0.211775931148 0.0000000000 + 0.211792049384 0.0000000000 + 0.211826493600 0.0000000000 0.211771716828 0.0000000000 0.211771716849 0.0000000000 0.211771717008 0.0000000000 @@ -730,9 +730,9 @@ 0.211771726290 0.0000000000 0.211771781318 0.0000000000 0.211772135891 0.0000000000 - 0.211774135223 0.0000000000 - 0.211782374192 0.0000000000 - 0.211798619313 0.0000000000 + 0.211774135222 0.0000000000 + 0.211782374186 0.0000000000 + 0.211798619296 0.0000000000 0.211771716827 0.0000000000 0.211771716841 0.0000000000 0.211771716943 0.0000000000 @@ -740,9 +740,9 @@ 0.211771722802 0.0000000000 0.211771756976 0.0000000000 0.211771968189 0.0000000000 - 0.211773073903 0.0000000000 - 0.211777291869 0.0000000000 - 0.211785179416 0.0000000000 + 0.211773073902 0.0000000000 + 0.211777291866 0.0000000000 + 0.211785179408 0.0000000000 0.211771716827 0.0000000000 0.211771716836 0.0000000000 0.211771716901 0.0000000000 @@ -750,9 +750,9 @@ 0.211771720582 0.0000000000 0.211771741501 0.0000000000 0.211771864752 0.0000000000 - 0.211772470300 0.0000000000 - 0.211774649824 0.0000000000 - 0.211778579800 0.0000000000 + 0.211772470299 0.0000000000 + 0.211774649822 0.0000000000 + 0.211778579796 0.0000000000 0.211771716826 0.0000000000 0.211771716832 0.0000000000 0.211771716874 0.0000000000 @@ -761,25 +761,25 @@ 0.211771731791 0.0000000000 0.211771802737 0.0000000000 0.211772133492 0.0000000000 - 0.211773271655 0.0000000000 - 0.211775270856 0.0000000000 + 0.211773271654 0.0000000000 + 0.211775270854 0.0000000000 0.211771716826 0.0000000000 0.211771716830 0.0000000000 0.211771716857 0.0000000000 0.211771717043 0.0000000000 - 0.211771718275 0.0000000000 + 0.211771718274 0.0000000000 0.211771725795 0.0000000000 0.211771766285 0.0000000000 0.211771946921 0.0000000000 0.211772547320 0.0000000000 - 0.211773581242 0.0000000000 + 0.211773581241 0.0000000000 0.211771716826 0.0000000000 0.211771716828 0.0000000000 0.211771716845 0.0000000000 0.211771716962 0.0000000000 0.211771717713 0.0000000000 0.211771722150 0.0000000000 - 0.211771745137 0.0000000000 + 0.211771745136 0.0000000000 0.211771843995 0.0000000000 0.211772163574 0.0000000000 0.211772705358 0.0000000000 @@ -801,7 +801,7 @@ 0.211771718663 0.0000000000 0.211771726012 0.0000000000 0.211771755862 0.0000000000 - 0.211771848377 0.0000000000 + 0.211771848376 0.0000000000 0.211772001726 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 @@ -812,7 +812,7 @@ 0.211771722045 0.0000000000 0.211771738519 0.0000000000 0.211771788750 0.0000000000 - 0.211771871303 0.0000000000 + 0.211771871302 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716829 0.0000000000 @@ -841,9 +841,9 @@ 0.211771717034 0.0000000000 0.211771717780 0.0000000000 0.211771720593 0.0000000000 - 0.211771728864 0.0000000000 + 0.211771728863 0.0000000000 0.211771742199 0.0000000000 - 0.211771716825 0.0000000000 + 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716830 0.0000000000 @@ -853,7 +853,7 @@ 0.211771718936 0.0000000000 0.211771723503 0.0000000000 0.211771730832 0.0000000000 - 0.211771716826 0.0000000000 + 0.211771716825 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716828 0.0000000000 @@ -863,7 +863,7 @@ 0.211771718009 0.0000000000 0.211771720539 0.0000000000 0.211771724582 0.0000000000 - 0.211771716825 0.0000000000 + 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716827 0.0000000000 @@ -893,7 +893,7 @@ 0.211771717036 0.0000000000 0.211771717473 0.0000000000 0.211771718164 0.0000000000 - 0.211771716825 0.0000000000 + 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 @@ -949,7 +949,7 @@ 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 - 0.211771716828 0.0000000000 + 0.211771716827 0.0000000000 0.211771716832 0.0000000000 0.211771716846 0.0000000000 0.211771716868 0.0000000000 @@ -960,7 +960,7 @@ 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716827 0.0000000000 - 0.211771716830 0.0000000000 + 0.211771716829 0.0000000000 0.211771716837 0.0000000000 0.211771716849 0.0000000000 0.211771716825 0.0000000000 @@ -1094,7 +1094,7 @@ 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 - 0.075854075413 0.0000000000 + 0.075854075414 0.0000000000 0.178742189540 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 @@ -1105,7 +1105,7 @@ 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.048503799773 0.0000000000 - 0.090156716434 0.0000000000 + 0.090156716435 0.0000000000 0.165180126916 0.0000000000 0.205161658177 0.0000000000 0.211771716826 0.0000000000 @@ -1115,8 +1115,8 @@ 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.044088279357 0.0000000000 - 0.055544551126 0.0000000000 - 0.097017654930 0.0000000000 + 0.055544551127 0.0000000000 + 0.097017654931 0.0000000000 0.158428419066 0.0000000000 0.198498992552 0.0000000000 0.210441774077 0.0000000000 @@ -1126,20 +1126,20 @@ 0.211771716826 0.0000000000 0.043796557597 0.0000000000 0.045790516459 0.0000000000 - 0.061417072847 0.0000000000 - 0.101138268915 0.0000000000 + 0.061417072848 0.0000000000 + 0.101138268916 0.0000000000 0.154343245483 0.0000000000 0.192892999825 0.0000000000 - 0.208307449712 0.0000000000 + 0.208307449713 0.0000000000 0.211503838750 0.0000000000 0.211771716826 0.0000000000 0.211771716826 0.0000000000 0.043817722824 0.0000000000 0.043915497430 0.0000000000 0.048388979797 0.0000000000 - 0.066173014136 0.0000000000 - 0.103935331698 0.0000000000 - 0.151550448949 0.0000000000 + 0.066173014137 0.0000000000 + 0.103935331699 0.0000000000 + 0.151550448950 0.0000000000 0.188288423047 0.0000000000 0.205851383401 0.0000000000 0.210913833724 0.0000000000 @@ -1148,11 +1148,11 @@ 0.043632823726 0.0000000000 0.044596255188 0.0000000000 0.050984576997 0.0000000000 - 0.070115456031 0.0000000000 - 0.105983977994 0.0000000000 + 0.070115456032 0.0000000000 + 0.105983977995 0.0000000000 0.149483256531 0.0000000000 0.184476230833 0.0000000000 - 0.203339507663 0.0000000000 + 0.203339507662 0.0000000000 0.209893671085 0.0000000000 0.043990062181 0.0000000000 0.043586868167 0.0000000000 @@ -1170,8 +1170,8 @@ 0.044140037587 0.0000000000 0.046701107224 0.0000000000 0.055843197831 0.0000000000 - 0.076221649477 0.0000000000 - 0.108849584234 0.0000000000 + 0.076221649478 0.0000000000 + 0.108849584235 0.0000000000 0.146561166201 0.0000000000 0.174558132521 0.0000000000 0.044151654272 0.0000000000 @@ -1181,9 +1181,9 @@ 0.044530403408 0.0000000000 0.047968832313 0.0000000000 0.058059051733 0.0000000000 - 0.078636177966 0.0000000000 + 0.078636177967 0.0000000000 0.109906939342 0.0000000000 - 0.138971343808 0.0000000000 + 0.138971343809 0.0000000000 0.044221718347 0.0000000000 0.043673739186 0.0000000000 0.043564240179 0.0000000000 @@ -1191,9 +1191,9 @@ 0.043920763083 0.0000000000 0.044985253787 0.0000000000 0.049263062152 0.0000000000 - 0.060122231813 0.0000000000 - 0.080744300028 0.0000000000 - 0.103579781526 0.0000000000 + 0.060122231814 0.0000000000 + 0.080744300029 0.0000000000 + 0.103579781527 0.0000000000 0.044284795531 0.0000000000 0.043719209181 0.0000000000 0.043562492065 0.0000000000 @@ -1204,7 +1204,7 @@ 0.050559990192 0.0000000000 0.062039681447 0.0000000000 0.076551702984 0.0000000000 - 0.024853570088 0.0000000000 + 0.024853570083 0.0000000000 0.043765237952 0.0000000000 0.043568236496 0.0000000000 0.043579134911 0.0000000000 @@ -1214,7 +1214,7 @@ 0.046160665587 0.0000000000 0.051842914819 0.0000000000 0.059715881396 0.0000000000 - 0.015062410936 0.0000000000 + 0.015062410935 0.0000000000 0.043802195950 0.0000000000 0.043577844874 0.0000000000 0.043568166637 0.0000000000 @@ -1232,7 +1232,7 @@ 0.043648257375 0.0000000000 0.043755097539 0.0000000000 0.044044278111 0.0000000000 - 0.044896709927 0.0000000000 + 0.044896709926 0.0000000000 0.046399378904 0.0000000000 0.014783581329 0.0000000000 0.043872786135 0.0000000000 @@ -1264,8 +1264,8 @@ 0.043677050432 0.0000000000 0.043765506455 0.0000000000 0.043886534254 0.0000000000 - 0.009538001617 0.0000000000 - 0.022725612590 0.0000000000 + 0.009538001615 0.0000000000 + 0.022725612585 0.0000000000 0.043672879882 0.0000000000 0.043565931779 0.0000000000 0.043562596165 0.0000000000 @@ -1275,7 +1275,7 @@ 0.043704602312 0.0000000000 0.043771169611 0.0000000000 0.007237505877 0.0000000000 - 0.016722694754 0.0000000000 + 0.016722694753 0.0000000000 0.043688589495 0.0000000000 0.043570850336 0.0000000000 0.043560162483 0.0000000000 @@ -1325,8 +1325,8 @@ 0.043611888346 0.0000000000 0.043630160253 0.0000000000 0.006348380149 0.0000000000 - 0.009968119671 0.0000000000 - 0.023854891535 0.0000000000 + 0.009968119669 0.0000000000 + 0.023854891531 0.0000000000 0.043616994438 0.0000000000 0.043561735232 0.0000000000 0.043558885985 0.0000000000 @@ -1335,8 +1335,8 @@ 0.043603714439 0.0000000000 0.043620168577 0.0000000000 0.006280832185 0.0000000000 - 0.007398159347 0.0000000000 - 0.016987119317 0.0000000000 + 0.007398159346 0.0000000000 + 0.016987119316 0.0000000000 0.043622945740 0.0000000000 0.043563885846 0.0000000000 0.043558084713 0.0000000000 @@ -1386,8 +1386,8 @@ 0.043590019406 0.0000000000 0.006140770456 0.0000000000 0.006385537442 0.0000000000 - 0.010780355551 0.0000000000 - 0.026035461514 0.0000000000 + 0.010780355553 0.0000000000 + 0.026035461519 0.0000000000 0.043585589223 0.0000000000 0.043558573781 0.0000000000 0.043557471305 0.0000000000 @@ -1397,7 +1397,7 @@ 0.006134052345 0.0000000000 0.006339657066 0.0000000000 0.007508743463 0.0000000000 - 0.017403887530 0.0000000000 + 0.017403887531 0.0000000000 0.043586940713 0.0000000000 0.043559424769 0.0000000000 0.043557277074 0.0000000000 @@ -1408,7 +1408,7 @@ 0.006289418356 0.0000000000 0.006713313477 0.0000000000 0.015556153808 0.0000000000 - 0.043589235226 0.0000000000 + 0.043589235227 0.0000000000 0.043559661171 0.0000000000 0.043556009090 0.0000000000 0.043562396965 0.0000000000 @@ -1447,8 +1447,8 @@ 0.006105122207 0.0000000000 0.006219879951 0.0000000000 0.006409213009 0.0000000000 - 0.011230091823 0.0000000000 - 0.027181024258 0.0000000000 + 0.011230091811 0.0000000000 + 0.027181024226 0.0000000000 0.043569231027 0.0000000000 0.043556744808 0.0000000000 0.043556863317 0.0000000000 @@ -1457,8 +1457,8 @@ 0.006100857805 0.0000000000 0.006210105738 0.0000000000 0.006382667799 0.0000000000 - 0.007517895386 0.0000000000 - 0.017597962603 0.0000000000 + 0.007517895383 0.0000000000 + 0.017597962596 0.0000000000 0.043568355465 0.0000000000 0.043556991965 0.0000000000 0.043556956127 0.0000000000 @@ -1468,7 +1468,7 @@ 0.006200894533 0.0000000000 0.006354261093 0.0000000000 0.006684074244 0.0000000000 - 0.015569634547 0.0000000000 + 0.015569634546 0.0000000000 0.043568698801 0.0000000000 0.043556261537 0.0000000000 0.043555928844 0.0000000000 @@ -1499,7 +1499,7 @@ 0.006312354176 0.0000000000 0.006437820902 0.0000000000 0.015006582616 0.0000000000 - 0.043574592021 0.0000000000 + 0.043574592022 0.0000000000 0.043560288185 0.0000000000 0.043554749034 0.0000000000 0.043556675058 0.0000000000 @@ -1508,8 +1508,8 @@ 0.006169195076 0.0000000000 0.006300949509 0.0000000000 0.006431020389 0.0000000000 - 0.011732389503 0.0000000000 - 0.028431487652 0.0000000000 + 0.011732389490 0.0000000000 + 0.028431487617 0.0000000000 0.043561319803 0.0000000000 0.043555881692 0.0000000000 0.043556597132 0.0000000000 @@ -1518,8 +1518,8 @@ 0.006162376015 0.0000000000 0.006289903847 0.0000000000 0.006420344340 0.0000000000 - 0.007562420457 0.0000000000 - 0.017832280950 0.0000000000 + 0.007562420454 0.0000000000 + 0.017832280943 0.0000000000 0.043559478225 0.0000000000 0.043555923630 0.0000000000 0.043556874652 0.0000000000 @@ -1529,7 +1529,7 @@ 0.006279316852 0.0000000000 0.006412372718 0.0000000000 0.006672357582 0.0000000000 - 0.015595341526 0.0000000000 + 0.015595341525 0.0000000000 0.043558997443 0.0000000000 0.043554730459 0.0000000000 0.043556045607 0.0000000000 @@ -1569,8 +1569,8 @@ 0.006240818928 0.0000000000 0.006377759309 0.0000000000 0.006449703298 0.0000000000 - 0.012137267976 0.0000000000 - 0.029415195581 0.0000000000 + 0.012137267958 0.0000000000 + 0.029415195536 0.0000000000 0.043557734315 0.0000000000 0.043555568800 0.0000000000 0.043556226726 0.0000000000 @@ -1579,8 +1579,8 @@ 0.006231981816 0.0000000000 0.006367162065 0.0000000000 0.006448484742 0.0000000000 - 0.007613179913 0.0000000000 - 0.018027032654 0.0000000000 + 0.007613179909 0.0000000000 + 0.018027032644 0.0000000000 0.043555526258 0.0000000000 0.043555578875 0.0000000000 0.043556785463 0.0000000000 @@ -1590,8 +1590,8 @@ 0.006356657163 0.0000000000 0.006455819245 0.0000000000 0.006673016665 0.0000000000 - 0.015622129626 0.0000000000 - 0.043554751282 0.0000000000 + 0.015622129623 0.0000000000 + 0.043554751283 0.0000000000 0.043554193949 0.0000000000 0.043555989658 0.0000000000 0.006063447614 0.0000000000 @@ -1600,8 +1600,8 @@ 0.006346433704 0.0000000000 0.006457723517 0.0000000000 0.006499145018 0.0000000000 - 0.015156530514 0.0000000000 - 0.043555219186 0.0000000000 + 0.015156530513 0.0000000000 + 0.043555219187 0.0000000000 0.043553761652 0.0000000000 0.043554465632 0.0000000000 0.006061812685 0.0000000000 @@ -1617,7 +1617,7 @@ 0.006060270417 0.0000000000 0.006111572874 0.0000000000 0.006200134311 0.0000000000 - 0.006325974730 0.0000000000 + 0.006325974729 0.0000000000 0.006447917018 0.0000000000 0.006466473719 0.0000000000 0.015062521329 0.0000000000 @@ -1630,8 +1630,8 @@ 0.006315865466 0.0000000000 0.006440289337 0.0000000000 0.006464389481 0.0000000000 - 0.012451356893 0.0000000000 - 0.030169148676 0.0000000000 + 0.012451356871 0.0000000000 + 0.030169148621 0.0000000000 0.043556342208 0.0000000000 0.043555725867 0.0000000000 0.006057441010 0.0000000000 @@ -1640,8 +1640,8 @@ 0.006305934076 0.0000000000 0.006431991917 0.0000000000 0.006467685133 0.0000000000 - 0.007663727612 0.0000000000 - 0.018182471528 0.0000000000 + 0.007663727607 0.0000000000 + 0.018182471516 0.0000000000 0.043554035513 0.0000000000 0.043555674585 0.0000000000 0.006056143428 0.0000000000 @@ -1650,8 +1650,8 @@ 0.006296221711 0.0000000000 0.006423457054 0.0000000000 0.006484453643 0.0000000000 - 0.006681737672 0.0000000000 - 0.015648186103 0.0000000000 + 0.006681737671 0.0000000000 + 0.015648186100 0.0000000000 0.043553207356 0.0000000000 0.043553807727 0.0000000000 0.006054917573 0.0000000000 @@ -1669,14 +1669,14 @@ 0.006167528531 0.0000000000 0.006277554161 0.0000000000 0.006406009296 0.0000000000 - 0.006491607716 0.0000000000 + 0.006491607715 0.0000000000 0.006481693432 0.0000000000 0.015087547127 0.0000000000 0.043554958312 0.0000000000 0.043554121103 0.0000000000 0.006052663938 0.0000000000 0.006091889315 0.0000000000 - 0.006161852003 0.0000000000 + 0.006161852002 0.0000000000 0.006268620512 0.0000000000 0.006396816677 0.0000000000 0.006488090293 0.0000000000 @@ -1687,12 +1687,12 @@ 0.006051628328 0.0000000000 0.006089161324 0.0000000000 0.006156429841 0.0000000000 - 0.006259958700 0.0000000000 + 0.006259958699 0.0000000000 0.006387436940 0.0000000000 0.006483140053 0.0000000000 0.006477233250 0.0000000000 - 0.012830556016 0.0000000000 - 0.031090975520 0.0000000000 + 0.012830555993 0.0000000000 + 0.031090975464 0.0000000000 0.043556222714 0.0000000000 0.006050648739 0.0000000000 0.006086568243 0.0000000000 @@ -1701,8 +1701,8 @@ 0.006377953513 0.0000000000 0.006477519498 0.0000000000 0.006481849359 0.0000000000 - 0.007738608606 0.0000000000 - 0.018380261641 0.0000000000 + 0.007738608602 0.0000000000 + 0.018380261629 0.0000000000 0.043553505182 0.0000000000 0.006049721879 0.0000000000 0.006084102667 0.0000000000 @@ -1711,8 +1711,8 @@ 0.006368426049 0.0000000000 0.006471629712 0.0000000000 0.006504070431 0.0000000000 - 0.006698971435 0.0000000000 - 0.015686214913 0.0000000000 + 0.006698971434 0.0000000000 + 0.015686214911 0.0000000000 0.043552970566 0.0000000000 0.006048844668 0.0000000000 0.006081757661 0.0000000000 @@ -1721,9 +1721,9 @@ 0.006358902158 0.0000000000 0.006465695691 0.0000000000 0.006514441933 0.0000000000 - 0.006517809287 0.0000000000 - 0.015179362864 0.0000000000 - 0.043553898185 0.0000000000 + 0.006517809286 0.0000000000 + 0.015179362863 0.0000000000 + 0.043553898186 0.0000000000 0.006048014228 0.0000000000 0.006079526718 0.0000000000 0.006137060853 0.0000000000 @@ -1736,7 +1736,7 @@ 0.043555672339 0.0000000000 0.006047227864 0.0000000000 0.006077403734 0.0000000000 - 0.006132745891 0.0000000000 + 0.006132745890 0.0000000000 0.006220765224 0.0000000000 0.006340015846 0.0000000000 0.006452564739 0.0000000000 @@ -1752,8 +1752,8 @@ 0.006445454820 0.0000000000 0.006510908806 0.0000000000 0.006489203812 0.0000000000 - 0.012381763646 0.0000000000 - 0.027587540551 0.0000000000 + 0.012381763624 0.0000000000 + 0.027587540476 0.0000000000 0.006045777422 0.0000000000 0.006073459053 0.0000000000 0.006124680684 0.0000000000 @@ -1762,18 +1762,18 @@ 0.006438057001 0.0000000000 0.006506989204 0.0000000000 0.006496940382 0.0000000000 - 0.007644876579 0.0000000000 - 0.011020875914 0.0000000000 + 0.007644876575 0.0000000000 + 0.011020875896 0.0000000000 0.006045108759 0.0000000000 0.006071626900 0.0000000000 0.006120912659 0.0000000000 0.006200436840 0.0000000000 0.006312503742 0.0000000000 0.006430403686 0.0000000000 - 0.006502952534 0.0000000000 + 0.006502952533 0.0000000000 0.006521500146 0.0000000000 - 0.006713307144 0.0000000000 - 0.007320637647 0.0000000000 + 0.006713307143 0.0000000000 + 0.007320637643 0.0000000000 0.006044474978 0.0000000000 0.006069881745 0.0000000000 0.006117309851 0.0000000000 @@ -1837,7 +1837,7 @@ 0.006041303204 0.0000000000 0.006061003502 0.0000000000 0.006098748238 0.0000000000 - 0.006161224914 0.0000000000 + 0.006161224913 0.0000000000 0.006254630602 0.0000000000 0.006371961475 0.0000000000 0.006469203345 0.0000000000 @@ -1853,7 +1853,7 @@ 0.006463419112 0.0000000000 0.006518385651 0.0000000000 0.006552904711 0.0000000000 - 0.006576625887 0.0000000000 + 0.006576625886 0.0000000000 0.006040448889 0.0000000000 0.006058563892 0.0000000000 0.006093568741 0.0000000000 @@ -1926,7 +1926,7 @@ 0.006558874919 0.0000000000 0.006038064148 0.0000000000 0.006051615312 0.0000000000 - 0.006078574381 0.0000000000 + 0.006078574380 0.0000000000 0.006124409238 0.0000000000 0.006195627013 0.0000000000 0.006296021308 0.0000000000 @@ -1950,7 +1950,7 @@ 0.006117860912 0.0000000000 0.006184757341 0.0000000000 0.006280507128 0.0000000000 - 0.006393261284 0.0000000000 + 0.006393261266 0.0000000000 0.006478194141 0.0000000000 0.006523893247 0.0000000000 0.006551587361 0.0000000000 @@ -1959,10 +1959,10 @@ 0.006073389527 0.0000000000 0.006114774466 0.0000000000 0.006179600807 0.0000000000 - 0.006273007028 0.0000000000 - 0.006385330697 0.0000000000 - 0.006473319280 0.0000000000 - 0.006520848011 0.0000000000 + 0.006273007027 0.0000000000 + 0.006385330693 0.0000000000 + 0.006473319269 0.0000000000 + 0.006520848007 0.0000000000 0.006549166846 0.0000000000 0.006037035760 0.0000000000 0.006048542443 0.0000000000 @@ -1970,20 +1970,20 @@ 0.006111806335 0.0000000000 0.006174622775 0.0000000000 0.006265685487 0.0000000000 - 0.006377325409 0.0000000000 - 0.006468239380 0.0000000000 - 0.006517752193 0.0000000000 - 0.006546743601 0.0000000000 + 0.006377325407 0.0000000000 + 0.006468239375 0.0000000000 + 0.006517752185 0.0000000000 + 0.006546743596 0.0000000000 0.006036809093 0.0000000000 0.006047857755 0.0000000000 0.006070276780 0.0000000000 0.006108951659 0.0000000000 0.006169817897 0.0000000000 0.006258546078 0.0000000000 - 0.006369271756 0.0000000000 - 0.006462946307 0.0000000000 - 0.006514598180 0.0000000000 - 0.006544313563 0.0000000000 + 0.006369271755 0.0000000000 + 0.006462946304 0.0000000000 + 0.006514598174 0.0000000000 + 0.006544313556 0.0000000000 0.006036593350 0.0000000000 0.006047203374 0.0000000000 0.006068814670 0.0000000000 @@ -1991,9 +1991,9 @@ 0.006165180812 0.0000000000 0.006251591099 0.0000000000 0.006361195443 0.0000000000 - 0.006457434269 0.0000000000 - 0.006511377611 0.0000000000 - 0.006541872725 0.0000000000 + 0.006457434268 0.0000000000 + 0.006511377608 0.0000000000 + 0.006541872720 0.0000000000 0.006036387967 0.0000000000 0.006046577883 0.0000000000 0.006067411782 0.0000000000 @@ -2002,18 +2002,18 @@ 0.006244821735 0.0000000000 0.006353121063 0.0000000000 0.006451700178 0.0000000000 - 0.006508081317 0.0000000000 - 0.006539417099 0.0000000000 + 0.006508081316 0.0000000000 + 0.006539417096 0.0000000000 0.006036192411 0.0000000000 0.006045979936 0.0000000000 0.006066065563 0.0000000000 - 0.006101022808 0.0000000000 + 0.006101022807 0.0000000000 0.006156388678 0.0000000000 0.006238238206 0.0000000000 0.006345071725 0.0000000000 - 0.006445743919 0.0000000000 - 0.006504699336 0.0000000000 - 0.006536942678 0.0000000000 + 0.006445743918 0.0000000000 + 0.006504699335 0.0000000000 + 0.006536942677 0.0000000000 0.006036006177 0.0000000000 0.006045408254 0.0000000000 0.006064773578 0.0000000000 @@ -2023,7 +2023,7 @@ 0.006337068786 0.0000000000 0.006439568537 0.0000000000 0.006501220967 0.0000000000 - 0.006534445422 0.0000000000 + 0.006534445421 0.0000000000 0.006035828788 0.0000000000 0.006044861604 0.0000000000 0.006063533508 0.0000000000 @@ -2039,7 +2039,7 @@ 0.006062343132 0.0000000000 0.006093959046 0.0000000000 0.006144327002 0.0000000000 - 0.006219593089 0.0000000000 + 0.006219593088 0.0000000000 0.006321277836 0.0000000000 0.006426588834 0.0000000000 0.006493929299 0.0000000000 @@ -2050,8 +2050,8 @@ 0.006091778872 0.0000000000 0.006140586485 0.0000000000 0.006213740232 0.0000000000 - 0.006313522651 0.0000000000 - 0.006419806637 0.0000000000 + 0.006313522652 0.0000000000 + 0.006419806638 0.0000000000 0.006490092133 0.0000000000 0.006526775144 0.0000000000 0.006035345307 0.0000000000 @@ -2073,7 +2073,7 @@ 0.006298360027 0.0000000000 0.006405734230 0.0000000000 0.006481974778 0.0000000000 - 0.006521468963 0.0000000000 + 0.006521468964 0.0000000000 0.006035059574 0.0000000000 0.006042465565 0.0000000000 0.006058037923 0.0000000000 @@ -2091,6 +2091,6 @@ 0.006126896231 0.0000000000 0.006192062759 0.0000000000 0.006283729003 0.0000000000 - 0.006391113118 0.0000000000 + 0.006391113119 0.0000000000 0.006473190205 0.0000000000 0.006515962791 0.0000000000 diff --git a/mytest/calc_SC.out b/mytest/calc_SC.out index 5d4909a3..1f151520 100644 --- a/mytest/calc_SC.out +++ b/mytest/calc_SC.out @@ -74,7 +74,7 @@ Initial solution 1. Specific Conductance (µS/cm, 99°C) = 1248 Density (g/cm³) = 0.95933 Volume (L) = 1.04268 - Viscosity (mPa s) = 0.28533 + Viscosity (mPa s) = 0.28544 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.618e-03 Mass of water (kg) = 1.000e+00 @@ -135,7 +135,7 @@ Using temperature 1. Temperatures (C) : 99 / 25 Viscosities (mPa.s): 2.8477e-01 / 8.8862e-01 -Ratio of calc.d SC.s: 2.8519e+00 +Ratio of calc.d SC.s: 2.8514e+00 Ratio of Dw.s : 3.1205e+00 -----------------------------Solution composition------------------------------ @@ -245,7 +245,7 @@ Initial solution 2. Specific Conductance (µS/cm, 99°C) = 1411 Density (g/cm³) = 0.95925 Volume (L) = 1.04279 - Viscosity (mPa s) = 0.28479 + Viscosity (mPa s) = 0.28482 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.001e-03 Mass of water (kg) = 1.000e+00 @@ -300,7 +300,7 @@ Using temperature 1. Temperatures (C) : 99 / 25 Viscosities (mPa.s): 2.8477e-01 / 8.8862e-01 -Ratio of calc.d SC.s: 2.4572e+00 +Ratio of calc.d SC.s: 2.4571e+00 Ratio of Dw.s : 3.1205e+00 -----------------------------Solution composition------------------------------ diff --git a/mytest/calc_SC_101.sel b/mytest/calc_SC_101.sel index c71cc64d..05d1a55a 100644 --- a/mytest/calc_SC_101.sel +++ b/mytest/calc_SC_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.006617927856 1248.7721303176 - 0.006927383618 437.8688683482 - 0.004000805624 1411.8937548877 - 0.004000107336 574.5919320498 + 0.006617927856 1248.5572368506 + 0.006927383618 437.8688752309 + 0.004000805624 1411.8104957087 + 0.004000107336 574.5919343994 diff --git a/mytest/calc_density_101.sel b/mytest/calc_density_101.sel index 77a05ff4..5642a54d 100644 --- a/mytest/calc_density_101.sel +++ b/mytest/calc_density_101.sel @@ -1,7 +1,7 @@ Mu SC - 1.022036207129 85867.2030368442 - 1.022036206362 85867.2029831123 - 1.022036206885 85867.2030197544 - 1.022036206510 85867.2029934470 - 1.062070515119 88654.7940973436 - 0.655161860724 51814.9875255996 + 1.022036207129 85867.2125027508 + 1.022036206362 85867.2124490189 + 1.022036206885 85867.2124856610 + 1.022036206510 85867.2124593536 + 1.062070515119 88654.8040225292 + 0.655161860724 51814.9928358840 diff --git a/mytest/calc_values_101.sel b/mytest/calc_values_101.sel index 40a57d77..2684c686 100644 --- a/mytest/calc_values_101.sel +++ b/mytest/calc_values_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.002998534362 194.3091193894 + 0.002998534362 194.3091220681 diff --git a/mytest/calcite_rate_101.sel b/mytest/calcite_rate_101.sel index 3b5ddc2c..0b23bd5d 100644 --- a/mytest/calcite_rate_101.sel +++ b/mytest/calcite_rate_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000782429217 67.4506403803 - 0.001730974047 129.0757220497 - 0.001730730575 129.0592519719 + 0.000782429217 67.4506403806 + 0.001730974047 129.0757227799 + 0.001730730575 129.0592527019 diff --git a/mytest/cc_1barCO2.out b/mytest/cc_1barCO2.out index ae676e59..fd721c1f 100644 --- a/mytest/cc_1barCO2.out +++ b/mytest/cc_1barCO2.out @@ -125,10 +125,10 @@ Calcite 0.00 -8.24 -8.24 1.000e+01 9.985e+00 -1.465e-02 pH = 6.086 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1193 + Specific Conductance (µS/cm, 0°C) = 1194 Density (g/cm³) = 1.00268 Volume (L) = 1.00275 - Viscosity (mPa s) = 1.86256 + Viscosity (mPa s) = 1.86211 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.397e-02 Mass of water (kg) = 9.997e-01 @@ -198,10 +198,10 @@ Calcite 0.00 -8.30 -8.30 1.000e+01 9.988e+00 -1.210e-02 pH = 6.052 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 1390 + Specific Conductance (µS/cm, 10°C) = 1391 Density (g/cm³) = 1.00186 Volume (L) = 1.00219 - Viscosity (mPa s) = 1.34323 + Viscosity (mPa s) = 1.34304 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.631e-02 Mass of water (kg) = 9.998e-01 @@ -274,7 +274,7 @@ Calcite 0.00 -8.36 -8.36 1.000e+01 9.990e+00 -9.976e-03 Specific Conductance (µS/cm, 20°C) = 1524 Density (g/cm³) = 0.99989 Volume (L) = 1.00324 - Viscosity (mPa s) = 1.02311 + Viscosity (mPa s) = 1.02306 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.994e-02 Mass of water (kg) = 9.998e-01 @@ -347,7 +347,7 @@ Calcite 0.00 -8.45 -8.45 1.000e+01 9.992e+00 -8.218e-03 Specific Conductance (µS/cm, 30°C) = 1600 Density (g/cm³) = 0.99698 Volume (L) = 1.00551 - Viscosity (mPa s) = 0.81043 + Viscosity (mPa s) = 0.81046 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.466e-02 Mass of water (kg) = 9.999e-01 @@ -420,7 +420,7 @@ Calcite 0.00 -8.55 -8.55 1.000e+01 9.993e+00 -6.769e-03 Specific Conductance (µS/cm, 40°C) = 1625 Density (g/cm³) = 0.99329 Volume (L) = 1.00877 - Viscosity (mPa s) = 0.66123 + Viscosity (mPa s) = 0.66131 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.031e-02 Mass of water (kg) = 9.999e-01 @@ -490,10 +490,10 @@ Calcite 0.00 -8.67 -8.67 1.000e+01 9.994e+00 -5.577e-03 pH = 5.992 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 1610 + Specific Conductance (µS/cm, 50°C) = 1609 Density (g/cm³) = 0.98891 Volume (L) = 1.01288 - Viscosity (mPa s) = 0.55221 + Viscosity (mPa s) = 0.55231 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.674e-02 Mass of water (kg) = 9.999e-01 @@ -566,7 +566,7 @@ Calcite 0.00 -8.80 -8.80 1.000e+01 9.995e+00 -4.598e-03 Specific Conductance (µS/cm, 60°C) = 1562 Density (g/cm³) = 0.98391 Volume (L) = 1.01775 - Viscosity (mPa s) = 0.46997 + Viscosity (mPa s) = 0.47008 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.380e-02 Mass of water (kg) = 9.999e-01 @@ -636,10 +636,10 @@ Calcite 0.00 -8.94 -8.94 1.000e+01 9.996e+00 -3.793e-03 pH = 5.988 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 1490 + Specific Conductance (µS/cm, 70°C) = 1489 Density (g/cm³) = 0.97835 Volume (L) = 1.02332 - Viscosity (mPa s) = 0.40634 + Viscosity (mPa s) = 0.40646 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.138e-02 Mass of water (kg) = 9.999e-01 @@ -709,10 +709,10 @@ Calcite 0.00 -9.09 -9.09 1.000e+01 9.997e+00 -3.132e-03 pH = 5.989 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 1401 + Specific Conductance (µS/cm, 80°C) = 1400 Density (g/cm³) = 0.97228 Volume (L) = 1.02954 - Viscosity (mPa s) = 0.35608 + Viscosity (mPa s) = 0.35620 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.399e-03 Mass of water (kg) = 9.999e-01 @@ -782,10 +782,10 @@ Calcite 0.00 -9.25 -9.25 1.000e+01 9.997e+00 -2.589e-03 pH = 5.993 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 1301 + Specific Conductance (µS/cm, 90°C) = 1300 Density (g/cm³) = 0.96571 Volume (L) = 1.03640 - Viscosity (mPa s) = 0.31568 + Viscosity (mPa s) = 0.31580 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.768e-03 Mass of water (kg) = 1.000e+00 @@ -855,10 +855,10 @@ Calcite 0.00 -9.42 -9.42 1.000e+01 9.998e+00 -2.141e-03 pH = 5.997 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1195 + Specific Conductance (µS/cm, 100°C) = 1194 Density (g/cm³) = 0.95869 Volume (L) = 1.04389 - Viscosity (mPa s) = 0.28272 + Viscosity (mPa s) = 0.28284 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.426e-03 Mass of water (kg) = 1.000e+00 @@ -928,10 +928,10 @@ Calcite 0.00 -9.59 -9.59 1.000e+01 9.998e+00 -1.773e-03 pH = 6.003 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 1087 + Specific Conductance (µS/cm, 110°C) = 1086 Density (g/cm³) = 0.95123 Volume (L) = 1.05198 - Viscosity (mPa s) = 0.25548 + Viscosity (mPa s) = 0.25560 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.321e-03 Mass of water (kg) = 1.000e+00 @@ -1002,10 +1002,10 @@ Calcite 0.00 -9.78 -9.78 1.000e+01 9.999e+00 -1.470e-03 pH = 6.010 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 981 + Specific Conductance (µS/cm, 120°C) = 980 Density (g/cm³) = 0.94335 Volume (L) = 1.06071 - Viscosity (mPa s) = 0.23271 + Viscosity (mPa s) = 0.23282 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.411e-03 Mass of water (kg) = 1.000e+00 @@ -1079,7 +1079,7 @@ Calcite -0.00 -9.97 -9.97 1.000e+01 9.999e+00 -1.220e-03 Specific Conductance (µS/cm, 130°C) = 878 Density (g/cm³) = 0.93504 Volume (L) = 1.07008 - Viscosity (mPa s) = 0.21347 + Viscosity (mPa s) = 0.21358 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.660e-03 Mass of water (kg) = 1.000e+00 @@ -1153,7 +1153,7 @@ Calcite 0.00 -10.17 -10.17 1.000e+01 9.999e+00 -1.013e-03 Specific Conductance (µS/cm, 140°C) = 781 Density (g/cm³) = 0.92630 Volume (L) = 1.08012 - Viscosity (mPa s) = 0.19706 + Viscosity (mPa s) = 0.19716 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.040e-03 Mass of water (kg) = 1.000e+00 @@ -1224,10 +1224,10 @@ Calcite 0.00 -10.37 -10.37 1.000e+01 9.999e+00 -8.424e-04 pH = 6.036 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 691 + Specific Conductance (µS/cm, 150°C) = 690 Density (g/cm³) = 0.91715 Volume (L) = 1.09087 - Viscosity (mPa s) = 0.18294 + Viscosity (mPa s) = 0.18303 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.528e-03 Mass of water (kg) = 1.000e+00 @@ -1301,7 +1301,7 @@ Calcite 0.00 -10.58 -10.58 1.000e+01 9.999e+00 -7.013e-04 Specific Conductance (µS/cm, 160°C) = 607 Density (g/cm³) = 0.90756 Volume (L) = 1.10236 - Viscosity (mPa s) = 0.17068 + Viscosity (mPa s) = 0.17077 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.105e-03 Mass of water (kg) = 1.000e+00 @@ -1372,10 +1372,10 @@ Calcite 0.00 -10.79 -10.79 1.000e+01 9.999e+00 -5.846e-04 pH = 6.056 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 532 + Specific Conductance (µS/cm, 170°C) = 531 Density (g/cm³) = 0.89754 Volume (L) = 1.11465 - Viscosity (mPa s) = 0.15995 + Viscosity (mPa s) = 0.16003 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 @@ -1446,10 +1446,10 @@ Calcite 0.00 -11.01 -11.01 1.000e+01 1.000e+01 -4.879e-04 pH = 6.067 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 464 + Specific Conductance (µS/cm, 180°C) = 463 Density (g/cm³) = 0.88706 Volume (L) = 1.12780 - Viscosity (mPa s) = 0.15045 + Viscosity (mPa s) = 0.15053 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.465e-03 Mass of water (kg) = 1.000e+00 @@ -1523,7 +1523,7 @@ Calcite 0.00 -11.23 -11.23 1.000e+01 1.000e+01 -4.079e-04 Specific Conductance (µS/cm, 190°C) = 404 Density (g/cm³) = 0.87612 Volume (L) = 1.14188 - Viscosity (mPa s) = 0.14162 + Viscosity (mPa s) = 0.14170 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.225e-03 Mass of water (kg) = 1.000e+00 @@ -1597,7 +1597,7 @@ Calcite 0.00 -11.45 -11.45 1.000e+01 1.000e+01 -3.416e-04 Specific Conductance (µS/cm, 200°C) = 347 Density (g/cm³) = 0.86468 Volume (L) = 1.15698 - Viscosity (mPa s) = 0.13506 + Viscosity (mPa s) = 0.13513 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.026e-03 Mass of water (kg) = 1.000e+00 @@ -1668,10 +1668,10 @@ Calcite -0.00 -11.68 -11.68 1.000e+01 1.000e+01 -2.867e-04 pH = 6.101 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 210°C) = 301 + Specific Conductance (µS/cm, 210°C) = 300 Density (g/cm³) = 0.85272 Volume (L) = 1.17321 - Viscosity (mPa s) = 0.12814 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12821 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 8.609e-04 Mass of water (kg) = 1.000e+00 @@ -1745,7 +1745,7 @@ Calcite 0.00 -11.91 -11.91 1.000e+01 1.000e+01 -2.412e-04 Specific Conductance (µS/cm, 220°C) = 259 Density (g/cm³) = 0.84021 Volume (L) = 1.19070 - Viscosity (mPa s) = 0.12199 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12206 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 7.244e-04 Mass of water (kg) = 1.000e+00 @@ -1819,7 +1819,7 @@ Calcite 0.00 -12.13 -12.13 1.000e+01 1.000e+01 -2.035e-04 Specific Conductance (µS/cm, 230°C) = 223 Density (g/cm³) = 0.82709 Volume (L) = 1.20960 - Viscosity (mPa s) = 0.11638 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11645 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 6.113e-04 Mass of water (kg) = 1.000e+00 @@ -1893,7 +1893,7 @@ Calcite -0.00 -12.36 -12.36 1.000e+01 1.000e+01 -1.723e-04 Specific Conductance (µS/cm, 240°C) = 192 Density (g/cm³) = 0.81331 Volume (L) = 1.23011 - Viscosity (mPa s) = 0.11123 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11129 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 5.178e-04 Mass of water (kg) = 1.000e+00 @@ -1967,7 +1967,7 @@ Calcite 0.00 -12.58 -12.58 1.000e+01 1.000e+01 -1.467e-04 Specific Conductance (µS/cm, 250°C) = 166 Density (g/cm³) = 0.79880 Volume (L) = 1.25246 - Viscosity (mPa s) = 0.10644 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10650 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 4.407e-04 Mass of water (kg) = 1.000e+00 @@ -2041,7 +2041,7 @@ Calcite 0.00 -12.80 -12.80 1.000e+01 1.000e+01 -1.256e-04 Specific Conductance (µS/cm, 260°C) = 143 Density (g/cm³) = 0.78349 Volume (L) = 1.27697 - Viscosity (mPa s) = 0.10196 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10202 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.775e-04 Mass of water (kg) = 1.000e+00 @@ -2115,7 +2115,7 @@ Calcite 0.00 -13.01 -13.01 1.000e+01 1.000e+01 -1.085e-04 Specific Conductance (µS/cm, 270°C) = 124 Density (g/cm³) = 0.76726 Volume (L) = 1.30400 - Viscosity (mPa s) = 0.09773 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09778 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.261e-04 Mass of water (kg) = 1.000e+00 @@ -2189,7 +2189,7 @@ Calcite -0.00 -13.20 -13.20 1.000e+01 1.000e+01 -9.480e-05 Specific Conductance (µS/cm, 280°C) = 109 Density (g/cm³) = 0.74999 Volume (L) = 1.33405 - Viscosity (mPa s) = 0.09369 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.09374 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 2.851e-04 Mass of water (kg) = 1.000e+00 @@ -2263,7 +2263,7 @@ Calcite 0.00 -13.37 -13.37 1.000e+01 1.000e+01 -8.434e-05 Specific Conductance (µS/cm, 290°C) = 96 Density (g/cm³) = 0.73150 Volume (L) = 1.36778 - Viscosity (mPa s) = 0.08979 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08984 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 2.537e-04 Mass of water (kg) = 1.000e+00 @@ -2337,7 +2337,7 @@ Calcite -0.00 -13.49 -13.49 1.000e+01 1.000e+01 -7.709e-05 Specific Conductance (µS/cm, 300°C) = 87 Density (g/cm³) = 0.71159 Volume (L) = 1.40607 - Viscosity (mPa s) = 0.08598 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.08603 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 2.319e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/cc_1barCO2_101.sel b/mytest/cc_1barCO2_101.sel index 3b05ec7c..9a081d21 100644 --- a/mytest/cc_1barCO2_101.sel +++ b/mytest/cc_1barCO2_101.sel @@ -1,33 +1,33 @@ Mu SC 0.000000100645 0.0546913895 - 0.043967760110 1193.8891614375 - 0.036312615109 1390.9514116463 - 0.029936096514 1524.7040177420 - 0.024660632801 1600.3026042758 - 0.020312604326 1625.8552102943 - 0.016736253960 1610.3314581301 - 0.013797406863 1562.5139614479 - 0.011383002304 1490.4808632139 - 0.009399001130 1401.3657131526 - 0.007767805264 1301.2684910732 - 0.006425695341 1195.2541476255 - 0.005321205986 1087.5441441677 - 0.004410976733 981.2019040640 - 0.003660200733 878.6237836294 - 0.003040419337 781.5171577774 - 0.002528366957 691.0158846974 - 0.002105007165 607.7883785941 - 0.001754747502 532.1443628192 - 0.001464801906 464.1769837793 - 0.001224674145 404.9111923112 - 0.001025739948 347.8136559857 - 0.000860909445 301.0291667630 - 0.000724354966 259.7670774800 - 0.000611292263 223.8752611746 - 0.000517805991 192.8845179099 - 0.000440713077 166.3185439185 - 0.000377460916 143.7416527828 - 0.000326062350 124.7840098414 - 0.000285078931 109.1686612018 - 0.000253685870 96.7562139097 - 0.000231911074 87.6390870586 + 0.043967760110 1194.2470795755 + 0.036312615109 1391.1905857420 + 0.029936096514 1524.7872009299 + 0.024660632801 1600.2201045345 + 0.020312604326 1625.6170348661 + 0.016736253960 1609.9598076777 + 0.013797406863 1562.0371498967 + 0.011383002304 1489.9288496530 + 0.009399001130 1400.7670864683 + 0.007767805264 1300.6486365261 + 0.006425695341 1194.6343126649 + 0.005321205986 1086.9410400134 + 0.004410976733 980.6280379691 + 0.003660200733 878.0877794201 + 0.003040419337 781.0243056317 + 0.002528366957 690.5687360324 + 0.002105007165 607.3873264096 + 0.001754747502 531.7881607993 + 0.001464801906 463.8631263453 + 0.001224674145 404.6348718178 + 0.001025739948 347.5773511671 + 0.000860909445 300.8244050173 + 0.000724354966 259.5907176235 + 0.000611292263 223.7238002293 + 0.000517805991 192.7545750992 + 0.000440713077 166.2069471237 + 0.000377460916 143.6454550048 + 0.000326062350 124.7004644585 + 0.000285078931 109.0951540754 + 0.000253685870 96.6901261437 + 0.000231911074 87.5775171847 diff --git a/mytest/cc_Ellis.out b/mytest/cc_Ellis.out index 95cae8d7..2b40f886 100644 --- a/mytest/cc_Ellis.out +++ b/mytest/cc_Ellis.out @@ -139,10 +139,10 @@ Calcite 0.00 -9.77 -9.77 1.000e+01 9.994e+00 -6.238e-03 pH = 5.428 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 60651 + Specific Conductance (µS/cm, 120°C) = 60583 Density (g/cm³) = 0.95294 Volume (L) = 1.06734 - Viscosity (mPa s) = 0.24112 + Viscosity (mPa s) = 0.24147 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.187e-01 Mass of water (kg) = 9.999e-01 @@ -225,10 +225,10 @@ Calcite -0.00 -10.09 -10.09 1.000e+01 9.995e+00 -4.938e-03 pH = 5.452 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 137°C) = 65786 + Specific Conductance (µS/cm, 137°C) = 65695 Density (g/cm³) = 0.93876 Volume (L) = 1.08298 - Viscosity (mPa s) = 0.20932 + Viscosity (mPa s) = 0.20970 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.148e-01 Mass of water (kg) = 9.999e-01 @@ -311,10 +311,10 @@ Calcite 0.00 -10.43 -10.43 1.000e+01 9.996e+00 -3.936e-03 pH = 5.478 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 153°C) = 70246 + Specific Conductance (µS/cm, 153°C) = 70128 Density (g/cm³) = 0.92345 Volume (L) = 1.10065 - Viscosity (mPa s) = 0.18458 + Viscosity (mPa s) = 0.18499 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.118e-01 Mass of water (kg) = 9.999e-01 @@ -397,10 +397,10 @@ Calcite 0.00 -10.79 -10.79 1.000e+01 9.997e+00 -3.159e-03 pH = 5.508 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 74080 + Specific Conductance (µS/cm, 170°C) = 73931 Density (g/cm³) = 0.90695 Volume (L) = 1.12053 - Viscosity (mPa s) = 0.16462 + Viscosity (mPa s) = 0.16506 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.095e-01 Mass of water (kg) = 9.999e-01 @@ -483,10 +483,10 @@ Calcite 0.00 -11.16 -11.16 1.000e+01 9.997e+00 -2.556e-03 pH = 5.540 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 187°C) = 77723 + Specific Conductance (µS/cm, 187°C) = 77535 Density (g/cm³) = 0.88917 Volume (L) = 1.14294 - Viscosity (mPa s) = 0.14701 + Viscosity (mPa s) = 0.14749 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.077e-01 Mass of water (kg) = 1.000e+00 @@ -569,10 +569,10 @@ Calcite 0.00 -11.53 -11.53 1.000e+01 9.998e+00 -2.091e-03 pH = 5.575 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 203°C) = 63840 + Specific Conductance (µS/cm, 203°C) = 63707 Density (g/cm³) = 0.87031 Volume (L) = 1.16782 - Viscosity (mPa s) = 0.18177 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.18229 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 2.063e-01 Mass of water (kg) = 1.000e+00 @@ -655,10 +655,10 @@ Calcite -0.00 -11.91 -11.91 1.000e+01 9.998e+00 -1.733e-03 pH = 5.614 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 78228 + Specific Conductance (µS/cm, 220°C) = 77984 Density (g/cm³) = 0.85003 Volume (L) = 1.19589 - Viscosity (mPa s) = 0.13016 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13071 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 2.052e-01 Mass of water (kg) = 1.000e+00 @@ -741,10 +741,10 @@ Calcite 0.00 -12.30 -12.30 1.000e+01 9.999e+00 -1.459e-03 pH = 5.655 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 237°C) = 79431 + Specific Conductance (µS/cm, 237°C) = 79142 Density (g/cm³) = 0.82813 Volume (L) = 1.22786 - Viscosity (mPa s) = 0.11933 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11992 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 2.044e-01 Mass of water (kg) = 1.000e+00 @@ -827,10 +827,10 @@ Calcite 0.00 -12.68 -12.68 1.000e+01 9.999e+00 -1.257e-03 pH = 5.701 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 253°C) = 79530 + Specific Conductance (µS/cm, 253°C) = 79196 Density (g/cm³) = 0.80431 Volume (L) = 1.26467 - Viscosity (mPa s) = 0.11062 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11125 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 2.038e-01 Mass of water (kg) = 1.000e+00 @@ -913,10 +913,10 @@ Calcite -0.00 -13.04 -13.04 1.000e+01 9.999e+00 -1.120e-03 pH = 5.750 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 270°C) = 78836 + Specific Conductance (µS/cm, 270°C) = 78457 Density (g/cm³) = 0.77817 Volume (L) = 1.30765 - Viscosity (mPa s) = 0.10298 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10365 (solute contributions limited to 200 °C) Activity of water = 0.992 Ionic strength (mol/kgw) = 2.034e-01 Mass of water (kg) = 1.000e+00 @@ -1079,10 +1079,10 @@ Calcite 0.00 -9.77 -9.77 1.000e+01 9.992e+00 -7.728e-03 pH = 5.431 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 133760 + Specific Conductance (µS/cm, 120°C) = 133546 Density (g/cm³) = 0.96463 Volume (L) = 1.07257 - Viscosity (mPa s) = 0.25064 + Viscosity (mPa s) = 0.25118 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.233e-01 Mass of water (kg) = 9.999e-01 @@ -1165,10 +1165,10 @@ Calcite -0.00 -10.09 -10.09 1.000e+01 9.994e+00 -6.222e-03 pH = 5.457 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 137°C) = 145856 + Specific Conductance (µS/cm, 137°C) = 145564 Density (g/cm³) = 0.95067 Volume (L) = 1.08783 - Viscosity (mPa s) = 0.21780 + Viscosity (mPa s) = 0.21838 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.187e-01 Mass of water (kg) = 9.999e-01 @@ -1251,10 +1251,10 @@ Calcite 0.00 -10.43 -10.43 1.000e+01 9.995e+00 -5.051e-03 pH = 5.487 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 153°C) = 156501 + Specific Conductance (µS/cm, 153°C) = 156118 Density (g/cm³) = 0.93567 Volume (L) = 1.10497 - Viscosity (mPa s) = 0.19224 + Viscosity (mPa s) = 0.19287 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.152e-01 Mass of water (kg) = 9.999e-01 @@ -1337,10 +1337,10 @@ Calcite -0.00 -10.79 -10.79 1.000e+01 9.996e+00 -4.137e-03 pH = 5.519 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 165765 + Specific Conductance (µS/cm, 170°C) = 165275 Density (g/cm³) = 0.91957 Volume (L) = 1.12416 - Viscosity (mPa s) = 0.17167 + Viscosity (mPa s) = 0.17236 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.125e-01 Mass of water (kg) = 9.999e-01 @@ -1423,10 +1423,10 @@ Calcite 0.00 -11.16 -11.16 1.000e+01 9.997e+00 -3.423e-03 pH = 5.555 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 187°C) = 174222 + Specific Conductance (µS/cm, 187°C) = 173604 Density (g/cm³) = 0.90233 Volume (L) = 1.14562 - Viscosity (mPa s) = 0.15404 + Viscosity (mPa s) = 0.15478 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.103e-01 Mass of water (kg) = 9.999e-01 @@ -1509,10 +1509,10 @@ Calcite 0.00 -11.53 -11.53 1.000e+01 9.997e+00 -2.872e-03 pH = 5.596 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 203°C) = 192075 + Specific Conductance (µS/cm, 203°C) = 191200 Density (g/cm³) = 0.88415 Volume (L) = 1.16926 - Viscosity (mPa s) = 0.12886 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12967 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.086e-01 Mass of water (kg) = 9.999e-01 @@ -1595,10 +1595,10 @@ Calcite 0.00 -11.91 -11.91 1.000e+01 9.998e+00 -2.449e-03 pH = 5.640 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 175822 + Specific Conductance (µS/cm, 220°C) = 175020 Density (g/cm³) = 0.86479 Volume (L) = 1.19562 - Viscosity (mPa s) = 0.13808 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13894 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.074e-01 Mass of water (kg) = 1.000e+00 @@ -1681,10 +1681,10 @@ Calcite -0.00 -12.30 -12.30 1.000e+01 9.998e+00 -2.133e-03 pH = 5.688 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 237°C) = 181130 + Specific Conductance (µS/cm, 237°C) = 180153 Density (g/cm³) = 0.84412 Volume (L) = 1.22521 - Viscosity (mPa s) = 0.12526 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12619 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.064e-01 Mass of water (kg) = 1.000e+00 @@ -1767,10 +1767,10 @@ Calcite 0.00 -12.68 -12.68 1.000e+01 9.998e+00 -1.910e-03 pH = 5.742 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 253°C) = 183050 + Specific Conductance (µS/cm, 253°C) = 181906 Density (g/cm³) = 0.82198 Volume (L) = 1.25862 - Viscosity (mPa s) = 0.11593 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11693 (solute contributions limited to 200 °C) Activity of water = 0.983 Ionic strength (mol/kgw) = 5.058e-01 Mass of water (kg) = 1.000e+00 @@ -1853,10 +1853,10 @@ Calcite 0.00 -13.06 -13.06 1.000e+01 9.998e+00 -1.781e-03 pH = 5.802 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 270°C) = 183362 + Specific Conductance (µS/cm, 270°C) = 182045 Density (g/cm³) = 0.79820 Volume (L) = 1.29659 - Viscosity (mPa s) = 0.10790 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.10896 (solute contributions limited to 200 °C) Activity of water = 0.984 Ionic strength (mol/kgw) = 5.054e-01 Mass of water (kg) = 1.000e+00 @@ -2019,10 +2019,10 @@ Calcite 0.00 -9.77 -9.77 1.000e+01 9.991e+00 -8.999e-03 pH = 5.409 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 238344 + Specific Conductance (µS/cm, 120°C) = 237851 Density (g/cm³) = 0.98324 Volume (L) = 1.08184 - Viscosity (mPa s) = 0.26645 + Viscosity (mPa s) = 0.26720 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.027e+00 Mass of water (kg) = 9.998e-01 @@ -2105,10 +2105,10 @@ Calcite 0.00 -10.09 -10.09 1.000e+01 9.993e+00 -7.346e-03 pH = 5.437 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 137°C) = 260636 + Specific Conductance (µS/cm, 137°C) = 259959 Density (g/cm³) = 0.96959 Volume (L) = 1.09658 - Viscosity (mPa s) = 0.23185 + Viscosity (mPa s) = 0.23267 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.022e+00 Mass of water (kg) = 9.999e-01 @@ -2191,10 +2191,10 @@ Calcite 0.00 -10.43 -10.43 1.000e+01 9.994e+00 -6.054e-03 pH = 5.469 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 153°C) = 280508 + Specific Conductance (µS/cm, 153°C) = 279613 Density (g/cm³) = 0.95501 Volume (L) = 1.11302 - Viscosity (mPa s) = 0.20491 + Viscosity (mPa s) = 0.20581 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.018e+00 Mass of water (kg) = 9.999e-01 @@ -2277,10 +2277,10 @@ Calcite 0.00 -10.79 -10.79 1.000e+01 9.995e+00 -5.044e-03 pH = 5.505 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 298008 + Specific Conductance (µS/cm, 170°C) = 296858 Density (g/cm³) = 0.93947 Volume (L) = 1.13126 - Viscosity (mPa s) = 0.18331 + Viscosity (mPa s) = 0.18428 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.015e+00 Mass of water (kg) = 9.999e-01 @@ -2363,10 +2363,10 @@ Calcite 0.00 -11.16 -11.16 1.000e+01 9.996e+00 -4.256e-03 pH = 5.545 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 187°C) = 313688 + Specific Conductance (µS/cm, 187°C) = 312240 Density (g/cm³) = 0.92296 Volume (L) = 1.15146 - Viscosity (mPa s) = 0.16520 + Viscosity (mPa s) = 0.16625 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.013e+00 Mass of water (kg) = 9.999e-01 @@ -2449,10 +2449,10 @@ Calcite 0.00 -11.53 -11.53 1.000e+01 9.996e+00 -3.650e-03 pH = 5.589 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 203°C) = 331480 + Specific Conductance (µS/cm, 203°C) = 329633 Density (g/cm³) = 0.90573 Volume (L) = 1.17343 - Viscosity (mPa s) = 0.14744 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14857 (solute contributions limited to 200 °C) Activity of water = 0.968 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 9.999e-01 @@ -2535,10 +2535,10 @@ Calcite 0.00 -11.92 -11.92 1.000e+01 9.997e+00 -3.193e-03 pH = 5.639 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 220°C) = 310139 + Specific Conductance (µS/cm, 220°C) = 308368 Density (g/cm³) = 0.88765 Volume (L) = 1.19749 - Viscosity (mPa s) = 0.15472 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15594 (solute contributions limited to 200 °C) Activity of water = 0.968 Ionic strength (mol/kgw) = 1.010e+00 Mass of water (kg) = 9.999e-01 @@ -2621,10 +2621,10 @@ Calcite 0.00 -12.31 -12.31 1.000e+01 9.997e+00 -2.863e-03 pH = 5.694 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 237°C) = 332188 + Specific Conductance (µS/cm, 237°C) = 329844 Density (g/cm³) = 0.86870 Volume (L) = 1.22388 - Viscosity (mPa s) = 0.13443 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13574 (solute contributions limited to 200 °C) Activity of water = 0.969 Ionic strength (mol/kgw) = 1.009e+00 Mass of water (kg) = 9.999e-01 @@ -2707,10 +2707,10 @@ Calcite -0.00 -12.69 -12.69 1.000e+01 9.997e+00 -2.655e-03 pH = 5.755 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 253°C) = 339587 + Specific Conductance (µS/cm, 253°C) = 336803 Density (g/cm³) = 0.84895 Volume (L) = 1.25272 - Viscosity (mPa s) = 0.12405 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12545 (solute contributions limited to 200 °C) Activity of water = 0.970 Ionic strength (mol/kgw) = 1.008e+00 Mass of water (kg) = 1.000e+00 @@ -2793,10 +2793,10 @@ Calcite 0.00 -13.08 -13.08 1.000e+01 9.997e+00 -2.580e-03 pH = 5.825 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 270°C) = 344495 + Specific Conductance (µS/cm, 270°C) = 341244 Density (g/cm³) = 0.82854 Volume (L) = 1.28401 - Viscosity (mPa s) = 0.11539 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11690 (solute contributions limited to 200 °C) Activity of water = 0.970 Ionic strength (mol/kgw) = 1.008e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/cc_Ellis_101.sel b/mytest/cc_Ellis_101.sel index 5ab38aa2..e2415506 100644 --- a/mytest/cc_Ellis_101.sel +++ b/mytest/cc_Ellis_101.sel @@ -1,34 +1,34 @@ Mu SC - 0.200000134780 20205.1527245969 - 0.218745524077 60651.5843412284 - 0.214840350869 65786.7708731922 - 0.211827313822 70246.4569787947 - 0.209493739270 74080.6415301814 - 0.207681272553 77723.2419354071 - 0.206284919235 63840.6953218051 - 0.205208336861 78228.7688251784 - 0.204387654599 79431.0140575615 - 0.203780798204 79530.1951650286 - 0.203367445925 78836.9892393150 - 0.500000140312 46331.6266895478 - 0.523262399073 133760.7044077728 - 0.518731536602 145856.5650796765 - 0.515205087497 156501.9451439806 - 0.512453965104 165765.2759737285 - 0.510305833341 174222.1352129899 - 0.508647639873 192075.7248385021 - 0.507375398820 175822.9615793470 - 0.506422621743 181130.4265374935 - 0.505752508525 183050.1632585820 - 0.505363392791 183362.2371267382 - 1.000000137672 84401.6594939352 - 1.027170603356 238344.1608640343 - 1.022179793363 260636.6923557464 - 1.018280630566 280508.3296308154 - 1.015231566799 298008.0546337360 - 1.012851077084 313688.9244914858 - 1.011022689687 331480.0400044898 - 1.009642114590 310139.0584672634 - 1.008647378777 332188.3622633734 - 1.008018119813 339587.4798781739 - 1.007791148164 344495.1115184308 + 0.200000134780 20205.1537839218 + 0.218745524077 60583.5759428816 + 0.214840350869 65695.6129421251 + 0.211827313822 70128.3519836644 + 0.209493739270 73931.3413705347 + 0.207681272553 77535.7341032748 + 0.206284919235 63707.7885149250 + 0.205208336861 77984.9753317245 + 0.204387654599 79142.2131103757 + 0.203780798204 79196.7339017554 + 0.203367445925 78457.6961808031 + 0.500000140312 46331.6304336943 + 0.523262399073 133546.9433544874 + 0.518731536602 145564.9411721931 + 0.515205087497 156118.6475779156 + 0.512453965104 165275.2535503082 + 0.510305833341 173604.6506706413 + 0.508647639873 191200.9014992034 + 0.507375398820 175020.6133949284 + 0.506422621743 180153.0396001050 + 0.505752508525 181906.7976226149 + 0.505363392791 182045.6634846523 + 1.000000137672 84401.6687141306 + 1.027170603356 237851.5864396018 + 1.022179793363 259959.9347186834 + 1.018280630566 279613.4401697884 + 1.015231566799 296858.6736104105 + 1.012851077084 312240.9145522087 + 1.011022689687 329633.6961948710 + 1.009642114590 308368.0373484218 + 1.008647378777 329844.2748633036 + 1.008018119813 336803.2643974466 + 1.007791148164 341244.8679279087 diff --git a/mytest/cc_Malin.out b/mytest/cc_Malin.out index 069d4ce9..26212fb9 100644 --- a/mytest/cc_Malin.out +++ b/mytest/cc_Malin.out @@ -66,10 +66,10 @@ Initial solution 1. pH = 5.440 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 200°C) = 705638 + Specific Conductance (µS/cm, 200°C) = 700813 Density (g/cm³) = 1.01334 Volume (L) = 1.15986 - Viscosity (mPa s) = 0.21433 + Viscosity (mPa s) = 0.21636 Activity of water = 0.902 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -153,10 +153,10 @@ Calcite 0.00 -11.07 -11.07 1.000e+01 9.999e+00 -6.688e-04 pH = 7.624 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 705892 + Specific Conductance (µS/cm, 200°C) = 701064 Density (g/cm³) = 1.01340 Volume (L) = 1.15986 - Viscosity (mPa s) = 0.21437 + Viscosity (mPa s) = 0.21640 Activity of water = 0.902 Ionic strength (mol/kgw) = 3.002e+00 Mass of water (kg) = 1.000e+00 @@ -252,10 +252,10 @@ Calcite 0.00 -11.07 -11.07 9.999e+00 9.994e+00 -5.566e-03 pH = 5.351 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 702690 + Specific Conductance (µS/cm, 200°C) = 697855 Density (g/cm³) = 1.01367 Volume (L) = 1.16314 - Viscosity (mPa s) = 0.21483 + Viscosity (mPa s) = 0.21687 Activity of water = 0.900 Ionic strength (mol/kgw) = 3.019e+00 Mass of water (kg) = 9.999e-01 @@ -351,10 +351,10 @@ Calcite 0.00 -11.07 -11.07 9.994e+00 9.992e+00 -1.604e-03 pH = 5.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 698588 + Specific Conductance (µS/cm, 200°C) = 693776 Density (g/cm³) = 1.01351 Volume (L) = 1.16651 - Viscosity (mPa s) = 0.21509 + Viscosity (mPa s) = 0.21713 Activity of water = 0.899 Ionic strength (mol/kgw) = 3.024e+00 Mass of water (kg) = 9.999e-01 @@ -450,10 +450,10 @@ Calcite 0.00 -11.07 -11.07 9.992e+00 9.991e+00 -1.057e-03 pH = 5.019 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 694383 + Specific Conductance (µS/cm, 200°C) = 689599 Density (g/cm³) = 1.01330 Volume (L) = 1.16990 - Viscosity (mPa s) = 0.21532 + Viscosity (mPa s) = 0.21736 Activity of water = 0.897 Ionic strength (mol/kgw) = 3.027e+00 Mass of water (kg) = 9.998e-01 @@ -549,10 +549,10 @@ Calcite 0.00 -11.07 -11.07 9.991e+00 9.990e+00 -7.926e-04 pH = 4.933 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 690151 + Specific Conductance (µS/cm, 200°C) = 685395 Density (g/cm³) = 1.01307 Volume (L) = 1.17329 - Viscosity (mPa s) = 0.21553 + Viscosity (mPa s) = 0.21758 Activity of water = 0.895 Ionic strength (mol/kgw) = 3.030e+00 Mass of water (kg) = 9.998e-01 @@ -648,10 +648,10 @@ Calcite 0.00 -11.07 -11.07 9.990e+00 9.990e+00 -6.304e-04 pH = 4.867 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 685918 + Specific Conductance (µS/cm, 200°C) = 681191 Density (g/cm³) = 1.01282 Volume (L) = 1.17668 - Viscosity (mPa s) = 0.21573 + Viscosity (mPa s) = 0.21778 Activity of water = 0.894 Ionic strength (mol/kgw) = 3.032e+00 Mass of water (kg) = 9.998e-01 @@ -747,10 +747,10 @@ Calcite 0.00 -11.07 -11.07 9.990e+00 9.989e+00 -5.184e-04 pH = 4.813 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 681697 + Specific Conductance (µS/cm, 200°C) = 677001 Density (g/cm³) = 1.01256 Volume (L) = 1.18008 - Viscosity (mPa s) = 0.21593 + Viscosity (mPa s) = 0.21798 Activity of water = 0.892 Ionic strength (mol/kgw) = 3.033e+00 Mass of water (kg) = 9.998e-01 @@ -846,10 +846,10 @@ Calcite 0.00 -11.07 -11.07 9.989e+00 9.989e+00 -4.354e-04 pH = 4.767 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 677497 + Specific Conductance (µS/cm, 200°C) = 672830 Density (g/cm³) = 1.01229 Volume (L) = 1.18348 - Viscosity (mPa s) = 0.21612 + Viscosity (mPa s) = 0.21817 Activity of water = 0.890 Ionic strength (mol/kgw) = 3.034e+00 Mass of water (kg) = 9.998e-01 @@ -945,10 +945,10 @@ Calcite 0.00 -11.07 -11.07 9.989e+00 9.988e+00 -3.708e-04 pH = 4.728 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 673320 + Specific Conductance (µS/cm, 200°C) = 668684 Density (g/cm³) = 1.01202 Volume (L) = 1.18688 - Viscosity (mPa s) = 0.21631 + Viscosity (mPa s) = 0.21836 Activity of water = 0.889 Ionic strength (mol/kgw) = 3.036e+00 Mass of water (kg) = 9.998e-01 @@ -1044,10 +1044,10 @@ Calcite 0.00 -11.07 -11.07 9.988e+00 9.988e+00 -3.189e-04 pH = 4.694 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 669171 + Specific Conductance (µS/cm, 200°C) = 664566 Density (g/cm³) = 1.01174 Volume (L) = 1.19028 - Viscosity (mPa s) = 0.21649 + Viscosity (mPa s) = 0.21854 Activity of water = 0.887 Ionic strength (mol/kgw) = 3.037e+00 Mass of water (kg) = 9.998e-01 @@ -1143,10 +1143,10 @@ Calcite 0.00 -11.07 -11.07 9.988e+00 9.988e+00 -2.760e-04 pH = 4.663 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 665051 + Specific Conductance (µS/cm, 200°C) = 660476 Density (g/cm³) = 1.01146 Volume (L) = 1.19368 - Viscosity (mPa s) = 0.21667 + Viscosity (mPa s) = 0.21872 Activity of water = 0.886 Ionic strength (mol/kgw) = 3.037e+00 Mass of water (kg) = 9.998e-01 diff --git a/mytest/cc_Malin_101.sel b/mytest/cc_Malin_101.sel index bdb0bffc..bef658e3 100644 --- a/mytest/cc_Malin_101.sel +++ b/mytest/cc_Malin_101.sel @@ -1,13 +1,13 @@ Mu SC - 3.000004443553 705638.1525059066 - 3.002049280943 705892.2341056215 - 3.019050845544 702690.6711064682 - 3.023955109536 698588.4122439760 - 3.027186740825 694383.8013223483 - 3.029610712879 690151.4667166461 - 3.031539075525 685918.4145194991 - 3.033125209472 681697.7921018364 - 3.034457598636 677497.0103753860 - 3.035592667689 673320.6181893216 - 3.036568973340 669171.5572034207 - 3.037414234286 665051.7895875621 + 3.000004443553 700813.9845101711 + 3.002049280943 701064.4271184235 + 3.019050845544 697855.8988864587 + 3.023955109536 693776.8448721959 + 3.027186740825 689599.2078223281 + 3.029610712879 685395.4877640191 + 3.031539075525 681191.9169422541 + 3.033125209472 677001.2614445853 + 3.034457598636 672830.7129174378 + 3.035592667689 668684.6816307957 + 3.036568973340 664566.0159461092 + 3.037414234286 660476.6123520249 diff --git a/mytest/cc_P0_101.sel b/mytest/cc_P0_101.sel index 87397685..b343efc1 100644 --- a/mytest/cc_P0_101.sel +++ b/mytest/cc_P0_101.sel @@ -1,42 +1,42 @@ Mu SC 0.000000100644 0.0547821292 - 0.040224201785 1114.6389863768 - 0.032882110076 1351.2961491999 - 0.026517550880 1501.7264453721 - 0.021146502437 1568.1908005874 - 0.016706565369 1561.8710267237 - 0.013095731694 1498.0837250486 - 0.010197508211 1393.1140096735 - 0.007896117493 1262.2033631309 - 0.006084846603 1118.3984199438 - 0.004670289223 972.1063941998 - 0.003572579069 830.9163754745 - 0.002725173328 699.8695384130 - 0.002074054509 581.9531045150 - 0.001575782239 478.5152937239 - 0.001195815251 389.7328442549 - 0.000906942438 315.1392754029 - 0.000687894714 256.9072930379 - 0.000522160399 197.8895716807 - 0.000396999424 157.7845939043 - 0.000302638094 124.7553253594 - 0.040223913400 1113.1806758614 - 0.032881525476 1348.5637857180 - 0.026516528595 1497.2561284452 - 0.021144891671 1561.5894623237 - 0.016704219954 1552.8781409355 - 0.013092523026 1486.6091200537 - 0.010193335959 1379.2477681497 - 0.007890917364 1246.2001102336 - 0.006078594982 1100.6427156778 - 0.004663017226 953.0832235452 - 0.003564367063 811.1540576141 - 0.002716135124 679.8817302593 - 0.002064338656 562.2136703716 - 0.001565563868 459.4330140636 - 0.001185286494 371.6353228616 - 0.000896302043 298.2600584542 - 0.000677337642 241.2414534009 - 0.000511868173 184.0464923992 - 0.000387131923 145.4045658210 - 0.000293327384 113.8517614185 + 0.040224201785 1114.7888878515 + 0.032882110076 1351.3856300766 + 0.026517550880 1501.7357044612 + 0.021146502437 1568.1201700307 + 0.016706565369 1561.7343671673 + 0.013095731694 1497.9014908875 + 0.010197508211 1392.9076795343 + 0.007896117493 1261.9917969032 + 0.006084846603 1118.1960361564 + 0.004670289223 971.9227119796 + 0.003572579069 830.7565031672 + 0.002725173328 699.7351116469 + 0.002074054509 581.8432913693 + 0.001575782239 478.4277316501 + 0.001195815251 389.6643758824 + 0.000906942438 315.0863761520 + 0.000687894714 256.8641691803 + 0.000522160399 197.8619130401 + 0.000396999424 157.7635927532 + 0.000302638094 124.7398289953 + 0.040223913400 1113.3311772531 + 0.032881525476 1348.6538253140 + 0.026516528595 1497.2654735347 + 0.021144891671 1561.5178932975 + 0.016704219954 1552.7389667036 + 0.013092523026 1486.4223669149 + 0.010193335959 1379.0347016960 + 0.007890917364 1245.9796320077 + 0.006078594982 1100.4295265720 + 0.004663017226 952.8873185504 + 0.003564367063 810.9811298821 + 0.002716135124 679.7340164401 + 0.002064338656 562.0908888919 + 0.001565563868 459.3332506077 + 0.001185286494 371.5557377039 + 0.000896302043 298.1973000488 + 0.000677337642 241.1896050973 + 0.000511868173 184.0118862310 + 0.000387131923 145.3777749508 + 0.000293327384 113.8315687032 diff --git a/mytest/cc_P2.out b/mytest/cc_P2.out index ec1b8742..f19659a3 100644 --- a/mytest/cc_P2.out +++ b/mytest/cc_P2.out @@ -170,7 +170,7 @@ Calcite 0.00 -9.61 -9.61 1.000e+01 1.000e+01 -1.384e-04 Specific Conductance (µS/cm, 100°C) = 119 Density (g/cm³) = 0.95836 Volume (L) = 1.04284 - Viscosity (mPa s) = 0.28181 + Viscosity (mPa s) = 0.28183 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.068e-04 Mass of water (kg) = 9.994e-01 @@ -282,7 +282,7 @@ Calcite -0.00 -9.61 -9.61 1.000e+01 9.998e+00 -1.733e-03 Specific Conductance (µS/cm, 100°C) = 1071 Density (g/cm³) = 0.95866 Volume (L) = 1.04331 - Viscosity (mPa s) = 0.28745 + Viscosity (mPa s) = 0.28756 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.610e-03 Mass of water (kg) = 9.994e-01 @@ -394,7 +394,7 @@ Calcite -0.00 -9.61 -9.61 9.998e+00 9.998e+00 -5.440e-04 Specific Conductance (µS/cm, 100°C) = 1364 Density (g/cm³) = 0.95892 Volume (L) = 1.04365 - Viscosity (mPa s) = 0.28977 + Viscosity (mPa s) = 0.28990 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.244e-03 Mass of water (kg) = 9.994e-01 @@ -506,7 +506,7 @@ Calcite -0.00 -9.61 -9.61 9.998e+00 9.997e+00 -3.877e-04 Specific Conductance (µS/cm, 100°C) = 1569 Density (g/cm³) = 0.95910 Volume (L) = 1.04404 - Viscosity (mPa s) = 0.29141 + Viscosity (mPa s) = 0.29155 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.409e-03 Mass of water (kg) = 9.993e-01 @@ -615,10 +615,10 @@ Calcite -0.00 -9.61 -9.61 9.997e+00 9.997e+00 -3.116e-04 pH = 5.503 Charge balance pe = 0.212 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1732 + Specific Conductance (µS/cm, 100°C) = 1731 Density (g/cm³) = 0.95927 Volume (L) = 1.04443 - Viscosity (mPa s) = 0.29274 + Viscosity (mPa s) = 0.29287 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.345e-03 Mass of water (kg) = 9.993e-01 @@ -727,10 +727,10 @@ Calcite -0.00 -9.61 -9.61 9.997e+00 9.996e+00 -4.970e-04 pH = 5.392 Charge balance pe = 0.553 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 1986 + Specific Conductance (µS/cm, 100°C) = 1985 Density (g/cm³) = 0.95959 Volume (L) = 1.04520 - Viscosity (mPa s) = 0.29485 + Viscosity (mPa s) = 0.29500 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.084e-02 Mass of water (kg) = 9.993e-01 @@ -839,10 +839,10 @@ Calcite -0.00 -9.60 -9.60 9.996e+00 9.996e+00 -3.977e-04 pH = 5.313 Charge balance pe = 7.545 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 2186 + Specific Conductance (µS/cm, 100°C) = 2185 Density (g/cm³) = 0.95990 Volume (L) = 1.04595 - Viscosity (mPa s) = 0.29656 + Viscosity (mPa s) = 0.29672 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.203e-02 Mass of water (kg) = 9.993e-01 @@ -951,10 +951,10 @@ Calcite -0.00 -9.60 -9.60 9.996e+00 9.996e+00 -3.363e-04 pH = 5.254 Charge balance pe = 7.416 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 2352 + Specific Conductance (µS/cm, 100°C) = 2351 Density (g/cm³) = 0.96019 Volume (L) = 1.04668 - Viscosity (mPa s) = 0.29801 + Viscosity (mPa s) = 0.29818 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.304e-02 Mass of water (kg) = 9.993e-01 @@ -1063,10 +1063,10 @@ Calcite 0.00 -9.60 -9.60 9.996e+00 9.995e+00 -2.936e-04 pH = 5.206 Charge balance pe = 0.420 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 2495 + Specific Conductance (µS/cm, 100°C) = 2494 Density (g/cm³) = 0.96048 Volume (L) = 1.04741 - Viscosity (mPa s) = 0.29929 + Viscosity (mPa s) = 0.29946 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.393e-02 Mass of water (kg) = 9.993e-01 @@ -1175,10 +1175,10 @@ Calcite 0.00 -9.60 -9.60 9.995e+00 9.995e+00 -2.619e-04 pH = 5.165 Charge balance pe = 7.677 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 2621 + Specific Conductance (µS/cm, 100°C) = 2620 Density (g/cm³) = 0.96075 Volume (L) = 1.04811 - Viscosity (mPa s) = 0.30044 + Viscosity (mPa s) = 0.30061 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.471e-02 Mass of water (kg) = 9.992e-01 @@ -1287,10 +1287,10 @@ Calcite -0.00 -9.59 -9.59 9.995e+00 9.994e+00 -6.543e-04 pH = 5.075 Charge balance pe = 7.878 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 2928 + Specific Conductance (µS/cm, 100°C) = 2927 Density (g/cm³) = 0.96155 Volume (L) = 1.05014 - Viscosity (mPa s) = 0.30334 + Viscosity (mPa s) = 0.30353 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.668e-02 Mass of water (kg) = 9.992e-01 @@ -1399,10 +1399,10 @@ Calcite -0.00 -9.59 -9.59 9.994e+00 9.994e+00 -5.238e-04 pH = 5.011 Charge balance pe = 7.972 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3166 + Specific Conductance (µS/cm, 100°C) = 3165 Density (g/cm³) = 0.96229 Volume (L) = 1.05204 - Viscosity (mPa s) = 0.30571 + Viscosity (mPa s) = 0.30590 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.826e-02 Mass of water (kg) = 9.991e-01 @@ -1511,10 +1511,10 @@ Calcite -0.00 -9.58 -9.58 9.994e+00 9.993e+00 -4.383e-04 pH = 4.962 Charge balance pe = 7.937 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3361 + Specific Conductance (µS/cm, 100°C) = 3359 Density (g/cm³) = 0.96300 Volume (L) = 1.05380 - Viscosity (mPa s) = 0.30772 + Viscosity (mPa s) = 0.30792 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.957e-02 Mass of water (kg) = 9.991e-01 @@ -1623,10 +1623,10 @@ Calcite -0.00 -9.58 -9.58 9.993e+00 9.993e+00 -3.769e-04 pH = 4.923 Charge balance pe = 8.011 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3524 + Specific Conductance (µS/cm, 100°C) = 3523 Density (g/cm³) = 0.96367 Volume (L) = 1.05545 - Viscosity (mPa s) = 0.30948 + Viscosity (mPa s) = 0.30968 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.071e-02 Mass of water (kg) = 9.990e-01 @@ -1735,10 +1735,10 @@ Calcite -0.00 -9.57 -9.57 9.993e+00 9.993e+00 -3.301e-04 pH = 4.891 Charge balance pe = 8.054 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3664 + Specific Conductance (µS/cm, 100°C) = 3662 Density (g/cm³) = 0.96430 Volume (L) = 1.05698 - Viscosity (mPa s) = 0.31104 + Viscosity (mPa s) = 0.31125 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.170e-02 Mass of water (kg) = 9.990e-01 @@ -1847,10 +1847,10 @@ Calcite -0.00 -9.57 -9.57 9.993e+00 9.992e+00 -2.930e-04 pH = 4.864 Charge balance pe = 0.586 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3785 + Specific Conductance (µS/cm, 100°C) = 3784 Density (g/cm³) = 0.96491 Volume (L) = 1.05840 - Viscosity (mPa s) = 0.31244 + Viscosity (mPa s) = 0.31265 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.258e-02 Mass of water (kg) = 9.989e-01 @@ -1959,10 +1959,10 @@ Calcite -0.00 -9.56 -9.56 9.992e+00 9.992e+00 -2.627e-04 pH = 4.841 Charge balance pe = 0.467 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3893 + Specific Conductance (µS/cm, 100°C) = 3891 Density (g/cm³) = 0.96548 Volume (L) = 1.05971 - Viscosity (mPa s) = 0.31371 + Viscosity (mPa s) = 0.31393 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.337e-02 Mass of water (kg) = 9.989e-01 @@ -2071,10 +2071,10 @@ Calcite -0.00 -9.56 -9.56 9.992e+00 9.992e+00 -2.375e-04 pH = 4.822 Charge balance pe = 0.491 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3988 + Specific Conductance (µS/cm, 100°C) = 3987 Density (g/cm³) = 0.96603 Volume (L) = 1.06092 - Viscosity (mPa s) = 0.31487 + Viscosity (mPa s) = 0.31510 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.409e-02 Mass of water (kg) = 9.988e-01 diff --git a/mytest/cc_P2_101.sel b/mytest/cc_P2_101.sel index 8403a21e..ef3030e0 100644 --- a/mytest/cc_P2_101.sel +++ b/mytest/cc_P2_101.sel @@ -1,20 +1,20 @@ Mu SC - 0.000000760967 0.7555719569 - 0.000406849242 119.8759048386 - 0.005609814328 1071.9219366940 - 0.007243860193 1364.9666068224 - 0.008408577884 1569.7867795642 - 0.009344591006 1732.0033496277 - 0.010837717378 1986.3934328966 - 0.012032770424 2186.0927957940 - 0.013043398780 2352.2181980068 - 0.013925945488 2495.1857206059 - 0.014713063817 2621.0090208321 - 0.016680151238 2928.3220466792 - 0.018255086675 3166.7996896839 - 0.019573365560 3361.0799864515 - 0.020707208977 3524.2181295116 - 0.021700549960 3664.1038369177 - 0.022582532584 3785.9296593711 - 0.023373720721 3893.3242794921 - 0.024089313510 3988.9390472092 + 0.000000760967 0.7555712755 + 0.000406849242 119.8717820687 + 0.005609814328 1071.7044688108 + 0.007243860193 1364.6565818840 + 0.008408577884 1569.4066127574 + 0.009344591006 1731.5647970377 + 0.010837717378 1985.8587502076 + 0.012032770424 2185.4790839953 + 0.013043398780 2351.5365554304 + 0.013925945488 2494.4441315899 + 0.014713063817 2620.2136001792 + 0.016680151238 2927.3912160981 + 0.018255086675 3165.7602406098 + 0.019573365560 3359.9499608437 + 0.020707208977 3523.0107010875 + 0.021700549960 3662.8291213434 + 0.022582532584 3784.5956941382 + 0.023373720721 3891.9376096099 + 0.024089313510 3987.5051010136 diff --git a/mytest/cc_P3.out b/mytest/cc_P3.out index 957016f8..be8fd6ad 100644 --- a/mytest/cc_P3.out +++ b/mytest/cc_P3.out @@ -158,7 +158,7 @@ Calcite -0.00 -8.38 -8.38 1.000e+01 9.969e+00 -3.097e-02 Specific Conductance (µS/cm, 1°C) = 2280 Density (g/cm³) = 1.01171 Volume (L) = 1.02223 - Viscosity (mPa s) = 2.05158 + Viscosity (mPa s) = 2.05097 Activity of water = 0.987 Ionic strength (mol/kgw) = 9.296e-02 Mass of water (kg) = 9.994e-01 @@ -257,7 +257,7 @@ Calcite -0.00 -8.39 -8.39 1.000e+01 9.972e+00 -2.815e-02 Specific Conductance (µS/cm, 7°C) = 2575 Density (g/cm³) = 1.00973 Volume (L) = 1.01823 - Viscosity (mPa s) = 1.66273 + Viscosity (mPa s) = 1.66236 Activity of water = 0.989 Ionic strength (mol/kgw) = 8.447e-02 Mass of water (kg) = 9.995e-01 @@ -353,10 +353,10 @@ Calcite -0.00 -8.40 -8.40 1.000e+01 9.975e+00 -2.548e-02 pH = 5.399 Charge balance pe = 0.187 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 2822 + Specific Conductance (µS/cm, 12°C) = 2823 Density (g/cm³) = 1.00774 Volume (L) = 1.01568 - Viscosity (mPa s) = 1.38392 + Viscosity (mPa s) = 1.38370 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.646e-02 Mass of water (kg) = 9.995e-01 @@ -455,7 +455,7 @@ Calcite -0.00 -8.43 -8.43 1.000e+01 9.977e+00 -2.298e-02 Specific Conductance (µS/cm, 18°C) = 3022 Density (g/cm³) = 1.00566 Volume (L) = 1.01425 - Viscosity (mPa s) = 1.17545 + Viscosity (mPa s) = 1.17536 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.897e-02 Mass of water (kg) = 9.996e-01 @@ -554,7 +554,7 @@ Calcite -0.00 -8.46 -8.46 1.000e+01 9.979e+00 -2.067e-02 Specific Conductance (µS/cm, 24°C) = 3173 Density (g/cm³) = 1.00346 Volume (L) = 1.01368 - Viscosity (mPa s) = 1.01440 + Viscosity (mPa s) = 1.01439 Activity of water = 0.993 Ionic strength (mol/kgw) = 6.202e-02 Mass of water (kg) = 9.996e-01 @@ -653,7 +653,7 @@ Calcite -0.00 -8.51 -8.51 1.000e+01 9.981e+00 -1.853e-02 Specific Conductance (µS/cm, 30°C) = 3277 Density (g/cm³) = 1.00111 Volume (L) = 1.01382 - Viscosity (mPa s) = 0.88672 + Viscosity (mPa s) = 0.88676 Activity of water = 0.994 Ionic strength (mol/kgw) = 5.561e-02 Mass of water (kg) = 9.997e-01 @@ -749,10 +749,10 @@ Calcite -0.00 -8.56 -8.56 1.000e+01 9.983e+00 -1.658e-02 pH = 5.358 Charge balance pe = 0.180 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 3339 + Specific Conductance (µS/cm, 35°C) = 3338 Density (g/cm³) = 0.99861 Volume (L) = 1.01454 - Viscosity (mPa s) = 0.78336 + Viscosity (mPa s) = 0.78345 Activity of water = 0.995 Ionic strength (mol/kgw) = 4.973e-02 Mass of water (kg) = 9.997e-01 @@ -851,7 +851,7 @@ Calcite -0.00 -8.62 -8.62 1.000e+01 9.985e+00 -1.479e-02 Specific Conductance (µS/cm, 41°C) = 3360 Density (g/cm³) = 0.99596 Volume (L) = 1.01575 - Viscosity (mPa s) = 0.69828 + Viscosity (mPa s) = 0.69840 Activity of water = 0.996 Ionic strength (mol/kgw) = 4.436e-02 Mass of water (kg) = 9.997e-01 @@ -950,7 +950,7 @@ Calcite -0.00 -8.69 -8.69 1.000e+01 9.987e+00 -1.316e-02 Specific Conductance (µS/cm, 47°C) = 3346 Density (g/cm³) = 0.99314 Volume (L) = 1.01738 - Viscosity (mPa s) = 0.62725 + Viscosity (mPa s) = 0.62740 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.949e-02 Mass of water (kg) = 9.998e-01 @@ -1049,7 +1049,7 @@ Calcite -0.00 -8.76 -8.76 1.000e+01 9.988e+00 -1.170e-02 Specific Conductance (µS/cm, 53°C) = 3300 Density (g/cm³) = 0.99017 Volume (L) = 1.01939 - Viscosity (mPa s) = 0.56726 + Viscosity (mPa s) = 0.56742 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.508e-02 Mass of water (kg) = 9.998e-01 @@ -1145,10 +1145,10 @@ Calcite -0.00 -8.84 -8.84 1.000e+01 9.990e+00 -1.037e-02 pH = 5.331 Charge balance pe = 0.176 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 3228 + Specific Conductance (µS/cm, 58°C) = 3227 Density (g/cm³) = 0.98705 Volume (L) = 1.02173 - Viscosity (mPa s) = 0.51609 + Viscosity (mPa s) = 0.51625 Activity of water = 0.997 Ionic strength (mol/kgw) = 3.111e-02 Mass of water (kg) = 9.998e-01 @@ -1247,7 +1247,7 @@ Calcite -0.00 -8.93 -8.93 1.000e+01 9.991e+00 -9.181e-03 Specific Conductance (µS/cm, 64°C) = 3132 Density (g/cm³) = 0.98377 Volume (L) = 1.02438 - Viscosity (mPa s) = 0.47205 + Viscosity (mPa s) = 0.47222 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.754e-02 Mass of water (kg) = 9.998e-01 @@ -1343,10 +1343,10 @@ Calcite -0.00 -9.03 -9.03 1.000e+01 9.992e+00 -8.114e-03 pH = 5.319 Charge balance pe = 0.160 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 3018 + Specific Conductance (µS/cm, 70°C) = 3017 Density (g/cm³) = 0.98035 Volume (L) = 1.02731 - Viscosity (mPa s) = 0.43387 + Viscosity (mPa s) = 0.43404 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.434e-02 Mass of water (kg) = 9.998e-01 @@ -1442,10 +1442,10 @@ Calcite -0.00 -9.12 -9.12 1.000e+01 9.993e+00 -7.161e-03 pH = 5.313 Charge balance pe = 0.143 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 76°C) = 2889 + Specific Conductance (µS/cm, 76°C) = 2888 Density (g/cm³) = 0.97678 Volume (L) = 1.03051 - Viscosity (mPa s) = 0.40053 + Viscosity (mPa s) = 0.40071 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.148e-02 Mass of water (kg) = 9.998e-01 @@ -1541,10 +1541,10 @@ Calcite -0.00 -9.23 -9.23 1.000e+01 9.994e+00 -6.312e-03 pH = 5.308 Charge balance pe = 0.149 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 2749 + Specific Conductance (µS/cm, 81°C) = 2748 Density (g/cm³) = 0.97307 Volume (L) = 1.03396 - Viscosity (mPa s) = 0.37126 + Viscosity (mPa s) = 0.37144 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.893e-02 Mass of water (kg) = 9.999e-01 @@ -1640,10 +1640,10 @@ Calcite -0.00 -9.34 -9.34 1.000e+01 9.994e+00 -5.556e-03 pH = 5.302 Charge balance pe = 0.138 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 87°C) = 2601 + Specific Conductance (µS/cm, 87°C) = 2600 Density (g/cm³) = 0.96922 Volume (L) = 1.03766 - Viscosity (mPa s) = 0.34542 + Viscosity (mPa s) = 0.34559 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.666e-02 Mass of water (kg) = 9.999e-01 @@ -1742,7 +1742,7 @@ Calcite -0.00 -9.45 -9.45 1.000e+01 9.995e+00 -4.885e-03 Specific Conductance (µS/cm, 93°C) = 2448 Density (g/cm³) = 0.96523 Volume (L) = 1.04158 - Viscosity (mPa s) = 0.32249 + Viscosity (mPa s) = 0.32265 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.465e-02 Mass of water (kg) = 9.999e-01 @@ -1838,10 +1838,10 @@ Calcite -0.00 -9.57 -9.57 1.000e+01 9.996e+00 -4.291e-03 pH = 5.290 Charge balance pe = 0.137 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 2294 + Specific Conductance (µS/cm, 99°C) = 2293 Density (g/cm³) = 0.96110 Volume (L) = 1.04574 - Viscosity (mPa s) = 0.30204 + Viscosity (mPa s) = 0.30221 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.287e-02 Mass of water (kg) = 9.999e-01 @@ -1937,10 +1937,10 @@ Calcite -0.00 -9.70 -9.70 1.000e+01 9.996e+00 -3.765e-03 pH = 5.284 Charge balance pe = 0.142 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 2139 + Specific Conductance (µS/cm, 104°C) = 2138 Density (g/cm³) = 0.95683 Volume (L) = 1.05012 - Viscosity (mPa s) = 0.28374 + Viscosity (mPa s) = 0.28390 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.129e-02 Mass of water (kg) = 9.999e-01 @@ -2036,10 +2036,10 @@ Calcite -0.00 -9.82 -9.82 1.000e+01 9.997e+00 -3.301e-03 pH = 5.278 Charge balance pe = 0.135 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 1986 + Specific Conductance (µS/cm, 110°C) = 1985 Density (g/cm³) = 0.95243 Volume (L) = 1.05473 - Viscosity (mPa s) = 0.26730 + Viscosity (mPa s) = 0.26745 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.901e-03 Mass of water (kg) = 9.999e-01 @@ -2141,7 +2141,7 @@ Calcite -0.00 -8.38 -8.38 1.000e+01 9.961e+00 -3.934e-02 Specific Conductance (µS/cm, 1°C) = 2622 Density (g/cm³) = 1.01881 Volume (L) = 1.04201 - Viscosity (mPa s) = 2.25015 + Viscosity (mPa s) = 2.24945 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.181e-01 Mass of water (kg) = 9.993e-01 @@ -2222,10 +2222,10 @@ Calcite 0.00 -8.39 -8.39 1.000e+01 9.964e+00 -3.585e-02 pH = 5.239 Charge balance pe = 0.289 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 7°C) = 3014 + Specific Conductance (µS/cm, 7°C) = 3015 Density (g/cm³) = 1.01555 Volume (L) = 1.03466 - Viscosity (mPa s) = 1.78968 + Viscosity (mPa s) = 1.78925 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.076e-01 Mass of water (kg) = 9.994e-01 @@ -2306,10 +2306,10 @@ Calcite -0.00 -8.40 -8.40 1.000e+01 9.967e+00 -3.252e-02 pH = 5.223 Charge balance pe = 0.874 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 12°C) = 3350 + Specific Conductance (µS/cm, 12°C) = 3351 Density (g/cm³) = 1.01258 Volume (L) = 1.02955 - Viscosity (mPa s) = 1.47004 + Viscosity (mPa s) = 1.46980 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.762e-02 Mass of water (kg) = 9.994e-01 @@ -2393,7 +2393,7 @@ Calcite 0.00 -8.43 -8.43 1.000e+01 9.971e+00 -2.940e-02 Specific Conductance (µS/cm, 18°C) = 3625 Density (g/cm³) = 1.00975 Volume (L) = 1.02612 - Viscosity (mPa s) = 1.23701 + Viscosity (mPa s) = 1.23690 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.823e-02 Mass of water (kg) = 9.995e-01 @@ -2477,7 +2477,7 @@ Calcite 0.00 -8.46 -8.46 1.000e+01 9.974e+00 -2.648e-02 Specific Conductance (µS/cm, 24°C) = 3838 Density (g/cm³) = 1.00696 Volume (L) = 1.02400 - Viscosity (mPa s) = 1.06038 + Viscosity (mPa s) = 1.06037 Activity of water = 0.988 Ionic strength (mol/kgw) = 7.947e-02 Mass of water (kg) = 9.995e-01 @@ -2561,7 +2561,7 @@ Calcite 0.00 -8.51 -8.51 1.000e+01 9.976e+00 -2.378e-02 Specific Conductance (µS/cm, 30°C) = 3990 Density (g/cm³) = 1.00413 Volume (L) = 1.02290 - Viscosity (mPa s) = 0.92234 + Viscosity (mPa s) = 0.92239 Activity of water = 0.990 Ionic strength (mol/kgw) = 7.135e-02 Mass of water (kg) = 9.996e-01 @@ -2645,7 +2645,7 @@ Calcite -0.00 -8.56 -8.56 1.000e+01 9.979e+00 -2.129e-02 Specific Conductance (µS/cm, 35°C) = 4086 Density (g/cm³) = 1.00125 Volume (L) = 1.02262 - Viscosity (mPa s) = 0.81177 + Viscosity (mPa s) = 0.81187 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.388e-02 Mass of water (kg) = 9.996e-01 @@ -2729,7 +2729,7 @@ Calcite -0.00 -8.62 -8.62 1.000e+01 9.981e+00 -1.901e-02 Specific Conductance (µS/cm, 41°C) = 4130 Density (g/cm³) = 0.99827 Volume (L) = 1.02303 - Viscosity (mPa s) = 0.72145 + Viscosity (mPa s) = 0.72159 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.704e-02 Mass of water (kg) = 9.997e-01 @@ -2810,10 +2810,10 @@ Calcite -0.00 -8.69 -8.69 1.000e+01 9.983e+00 -1.694e-02 pH = 5.161 Charge balance pe = 0.355 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 4128 + Specific Conductance (µS/cm, 47°C) = 4127 Density (g/cm³) = 0.99519 Volume (L) = 1.02400 - Viscosity (mPa s) = 0.64650 + Viscosity (mPa s) = 0.64666 Activity of water = 0.993 Ionic strength (mol/kgw) = 5.081e-02 Mass of water (kg) = 9.997e-01 @@ -2894,10 +2894,10 @@ Calcite -0.00 -8.76 -8.76 1.000e+01 9.985e+00 -1.505e-02 pH = 5.154 Charge balance pe = 11.876 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 4084 + Specific Conductance (µS/cm, 53°C) = 4083 Density (g/cm³) = 0.99199 Volume (L) = 1.02547 - Viscosity (mPa s) = 0.58346 + Viscosity (mPa s) = 0.58364 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.517e-02 Mass of water (kg) = 9.997e-01 @@ -2978,10 +2978,10 @@ Calcite -0.00 -8.84 -8.84 1.000e+01 9.987e+00 -1.336e-02 pH = 5.147 Charge balance pe = 0.339 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 4004 + Specific Conductance (µS/cm, 58°C) = 4003 Density (g/cm³) = 0.98867 Volume (L) = 1.02736 - Viscosity (mPa s) = 0.52986 + Viscosity (mPa s) = 0.53005 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.007e-02 Mass of water (kg) = 9.998e-01 @@ -3062,10 +3062,10 @@ Calcite 0.00 -8.93 -8.93 1.000e+01 9.988e+00 -1.183e-02 pH = 5.140 Charge balance pe = 0.341 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 3894 + Specific Conductance (µS/cm, 64°C) = 3893 Density (g/cm³) = 0.98523 Volume (L) = 1.02964 - Viscosity (mPa s) = 0.48385 + Viscosity (mPa s) = 0.48405 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.548e-02 Mass of water (kg) = 9.998e-01 @@ -3146,10 +3146,10 @@ Calcite 0.00 -9.03 -9.03 1.000e+01 9.990e+00 -1.045e-02 pH = 5.133 Charge balance pe = 0.344 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 3759 + Specific Conductance (µS/cm, 70°C) = 3758 Density (g/cm³) = 0.98166 Volume (L) = 1.03227 - Viscosity (mPa s) = 0.44404 + Viscosity (mPa s) = 0.44424 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.136e-02 Mass of water (kg) = 9.998e-01 @@ -3230,10 +3230,10 @@ Calcite 0.00 -9.12 -9.12 1.000e+01 9.991e+00 -9.227e-03 pH = 5.127 Charge balance pe = 0.331 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 76°C) = 3604 + Specific Conductance (µS/cm, 76°C) = 3603 Density (g/cm³) = 0.97796 Volume (L) = 1.03522 - Viscosity (mPa s) = 0.40935 + Viscosity (mPa s) = 0.40955 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.768e-02 Mass of water (kg) = 9.998e-01 @@ -3314,10 +3314,10 @@ Calcite -0.00 -9.23 -9.23 1.000e+01 9.992e+00 -8.132e-03 pH = 5.120 Charge balance pe = 0.337 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 3434 + Specific Conductance (µS/cm, 81°C) = 3433 Density (g/cm³) = 0.97413 Volume (L) = 1.03846 - Viscosity (mPa s) = 0.37893 + Viscosity (mPa s) = 0.37912 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.439e-02 Mass of water (kg) = 9.999e-01 @@ -3398,10 +3398,10 @@ Calcite 0.00 -9.34 -9.34 1.000e+01 9.993e+00 -7.157e-03 pH = 5.114 Charge balance pe = 0.335 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 87°C) = 3254 + Specific Conductance (µS/cm, 87°C) = 3253 Density (g/cm³) = 0.97017 Volume (L) = 1.04199 - Viscosity (mPa s) = 0.35210 + Viscosity (mPa s) = 0.35229 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.147e-02 Mass of water (kg) = 9.999e-01 @@ -3482,10 +3482,10 @@ Calcite 0.00 -9.45 -9.45 1.000e+01 9.994e+00 -6.291e-03 pH = 5.107 Charge balance pe = 0.334 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 3066 + Specific Conductance (µS/cm, 93°C) = 3065 Density (g/cm³) = 0.96609 Volume (L) = 1.04579 - Viscosity (mPa s) = 0.32832 + Viscosity (mPa s) = 0.32850 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.887e-02 Mass of water (kg) = 9.999e-01 @@ -3566,10 +3566,10 @@ Calcite 0.00 -9.57 -9.57 1.000e+01 9.994e+00 -5.524e-03 pH = 5.100 Charge balance pe = 0.327 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 2875 + Specific Conductance (µS/cm, 99°C) = 2874 Density (g/cm³) = 0.96187 Volume (L) = 1.04985 - Viscosity (mPa s) = 0.30713 + Viscosity (mPa s) = 0.30732 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.657e-02 Mass of water (kg) = 9.999e-01 @@ -3650,10 +3650,10 @@ Calcite 0.00 -9.70 -9.70 1.000e+01 9.995e+00 -4.845e-03 pH = 5.094 Charge balance pe = 0.329 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 2683 + Specific Conductance (µS/cm, 104°C) = 2682 Density (g/cm³) = 0.95752 Volume (L) = 1.05416 - Viscosity (mPa s) = 0.28819 + Viscosity (mPa s) = 0.28837 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.454e-02 Mass of water (kg) = 9.999e-01 @@ -3734,10 +3734,10 @@ Calcite 0.00 -9.83 -9.83 1.000e+01 9.996e+00 -4.246e-03 pH = 5.087 Charge balance pe = 0.335 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 2493 + Specific Conductance (µS/cm, 110°C) = 2492 Density (g/cm³) = 0.95304 Volume (L) = 1.05873 - Viscosity (mPa s) = 0.27118 + Viscosity (mPa s) = 0.27135 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.274e-02 Mass of water (kg) = 9.999e-01 @@ -3839,7 +3839,7 @@ Calcite 0.00 -8.38 -8.38 1.000e+01 9.952e+00 -4.786e-02 Specific Conductance (µS/cm, 1°C) = 2823 Density (g/cm³) = 1.02838 Volume (L) = 1.07140 - Viscosity (mPa s) = 2.52431 + Viscosity (mPa s) = 2.52354 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.437e-01 Mass of water (kg) = 9.991e-01 @@ -3923,7 +3923,7 @@ Calcite 0.00 -8.39 -8.39 1.000e+01 9.956e+00 -4.390e-02 Specific Conductance (µS/cm, 7°C) = 3321 Density (g/cm³) = 1.02363 Volume (L) = 1.05979 - Viscosity (mPa s) = 1.96521 + Viscosity (mPa s) = 1.96473 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.318e-01 Mass of water (kg) = 9.992e-01 @@ -4007,7 +4007,7 @@ Calcite -0.00 -8.40 -8.40 1.000e+01 9.960e+00 -4.005e-02 Specific Conductance (µS/cm, 12°C) = 3762 Density (g/cm³) = 1.01949 Volume (L) = 1.05129 - Viscosity (mPa s) = 1.58828 + Viscosity (mPa s) = 1.58802 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.202e-01 Mass of water (kg) = 9.993e-01 @@ -4091,7 +4091,7 @@ Calcite -0.00 -8.43 -8.43 1.000e+01 9.964e+00 -3.638e-02 Specific Conductance (µS/cm, 18°C) = 4133 Density (g/cm³) = 1.01572 Volume (L) = 1.04517 - Viscosity (mPa s) = 1.32049 + Viscosity (mPa s) = 1.32036 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.092e-01 Mass of water (kg) = 9.993e-01 @@ -4175,7 +4175,7 @@ Calcite -0.00 -8.46 -8.46 1.000e+01 9.967e+00 -3.290e-02 Specific Conductance (µS/cm, 24°C) = 4430 Density (g/cm³) = 1.01215 Volume (L) = 1.04086 - Viscosity (mPa s) = 1.12183 + Viscosity (mPa s) = 1.12181 Activity of water = 0.980 Ionic strength (mol/kgw) = 9.876e-02 Mass of water (kg) = 9.994e-01 @@ -4259,7 +4259,7 @@ Calcite 0.00 -8.51 -8.51 1.000e+01 9.970e+00 -2.965e-02 Specific Conductance (µS/cm, 30°C) = 4654 Density (g/cm³) = 1.00870 Volume (L) = 1.03799 - Viscosity (mPa s) = 0.96921 + Viscosity (mPa s) = 0.96927 Activity of water = 0.982 Ionic strength (mol/kgw) = 8.899e-02 Mass of water (kg) = 9.995e-01 @@ -4340,10 +4340,10 @@ Calcite 0.00 -8.56 -8.56 1.000e+01 9.973e+00 -2.663e-02 pH = 5.018 Charge balance pe = 0.526 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 4807 + Specific Conductance (µS/cm, 35°C) = 4806 Density (g/cm³) = 1.00529 Volume (L) = 1.03627 - Viscosity (mPa s) = 0.84862 + Viscosity (mPa s) = 0.84874 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.993e-02 Mass of water (kg) = 9.995e-01 @@ -4427,7 +4427,7 @@ Calcite 0.00 -8.62 -8.62 1.000e+01 9.976e+00 -2.385e-02 Specific Conductance (µS/cm, 41°C) = 4893 Density (g/cm³) = 1.00187 Volume (L) = 1.03548 - Viscosity (mPa s) = 0.75115 + Viscosity (mPa s) = 0.75130 Activity of water = 0.986 Ionic strength (mol/kgw) = 7.157e-02 Mass of water (kg) = 9.996e-01 @@ -4508,10 +4508,10 @@ Calcite -0.00 -8.69 -8.69 1.000e+01 9.979e+00 -2.130e-02 pH = 4.997 Charge balance pe = 0.509 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 4920 + Specific Conductance (µS/cm, 47°C) = 4919 Density (g/cm³) = 0.99842 Volume (L) = 1.03547 - Viscosity (mPa s) = 0.67090 + Viscosity (mPa s) = 0.67108 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.391e-02 Mass of water (kg) = 9.996e-01 @@ -4592,10 +4592,10 @@ Calcite 0.00 -8.76 -8.76 1.000e+01 9.981e+00 -1.897e-02 pH = 4.988 Charge balance pe = 0.363 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 4893 + Specific Conductance (µS/cm, 53°C) = 4892 Density (g/cm³) = 0.99490 Volume (L) = 1.03612 - Viscosity (mPa s) = 0.60382 + Viscosity (mPa s) = 0.60402 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.692e-02 Mass of water (kg) = 9.997e-01 @@ -4676,10 +4676,10 @@ Calcite 0.00 -8.84 -8.84 1.000e+01 9.983e+00 -1.686e-02 pH = 4.979 Charge balance pe = 0.496 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 4819 + Specific Conductance (µS/cm, 58°C) = 4818 Density (g/cm³) = 0.99131 Volume (L) = 1.03733 - Viscosity (mPa s) = 0.54706 + Viscosity (mPa s) = 0.54727 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.059e-02 Mass of water (kg) = 9.997e-01 @@ -4760,10 +4760,10 @@ Calcite 0.00 -8.93 -8.93 1.000e+01 9.985e+00 -1.495e-02 pH = 4.970 Charge balance pe = 0.520 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 4704 + Specific Conductance (µS/cm, 64°C) = 4703 Density (g/cm³) = 0.98762 Volume (L) = 1.03904 - Viscosity (mPa s) = 0.49853 + Viscosity (mPa s) = 0.49874 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.486e-02 Mass of water (kg) = 9.997e-01 @@ -4844,10 +4844,10 @@ Calcite -0.00 -9.03 -9.03 1.000e+01 9.987e+00 -1.323e-02 pH = 4.962 Charge balance pe = 0.515 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 4557 + Specific Conductance (µS/cm, 70°C) = 4556 Density (g/cm³) = 0.98384 Volume (L) = 1.04119 - Viscosity (mPa s) = 0.45665 + Viscosity (mPa s) = 0.45687 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.971e-02 Mass of water (kg) = 9.998e-01 @@ -4928,10 +4928,10 @@ Calcite 0.00 -9.12 -9.12 1.000e+01 9.988e+00 -1.169e-02 pH = 4.954 Charge balance pe = 0.502 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 76°C) = 4383 + Specific Conductance (µS/cm, 76°C) = 4381 Density (g/cm³) = 0.97996 Volume (L) = 1.04374 - Viscosity (mPa s) = 0.42024 + Viscosity (mPa s) = 0.42046 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.508e-02 Mass of water (kg) = 9.998e-01 @@ -5012,10 +5012,10 @@ Calcite 0.00 -9.23 -9.23 1.000e+01 9.990e+00 -1.031e-02 pH = 4.947 Charge balance pe = 0.510 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 4187 + Specific Conductance (µS/cm, 81°C) = 4186 Density (g/cm³) = 0.97597 Volume (L) = 1.04665 - Viscosity (mPa s) = 0.38838 + Viscosity (mPa s) = 0.38860 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.095e-02 Mass of water (kg) = 9.998e-01 @@ -5096,10 +5096,10 @@ Calcite -0.00 -9.34 -9.34 1.000e+01 9.991e+00 -9.085e-03 pH = 4.939 Charge balance pe = 0.510 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 87°C) = 3976 + Specific Conductance (µS/cm, 87°C) = 3975 Density (g/cm³) = 0.97186 Volume (L) = 1.04991 - Viscosity (mPa s) = 0.36032 + Viscosity (mPa s) = 0.36054 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.726e-02 Mass of water (kg) = 9.998e-01 @@ -5180,10 +5180,10 @@ Calcite -0.00 -9.45 -9.45 1.000e+01 9.992e+00 -7.991e-03 pH = 4.931 Charge balance pe = 0.509 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 3755 + Specific Conductance (µS/cm, 93°C) = 3753 Density (g/cm³) = 0.96764 Volume (L) = 1.05349 - Viscosity (mPa s) = 0.33549 + Viscosity (mPa s) = 0.33570 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.398e-02 Mass of water (kg) = 9.999e-01 @@ -5264,10 +5264,10 @@ Calcite -0.00 -9.57 -9.57 1.000e+01 9.993e+00 -7.020e-03 pH = 4.923 Charge balance pe = 0.506 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 3527 + Specific Conductance (µS/cm, 99°C) = 3526 Density (g/cm³) = 0.96329 Volume (L) = 1.05738 - Viscosity (mPa s) = 0.31340 + Viscosity (mPa s) = 0.31361 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.106e-02 Mass of water (kg) = 9.999e-01 @@ -5348,10 +5348,10 @@ Calcite -0.00 -9.70 -9.70 1.000e+01 9.994e+00 -6.159e-03 pH = 4.916 Charge balance pe = 0.509 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 3297 + Specific Conductance (µS/cm, 104°C) = 3296 Density (g/cm³) = 0.95883 Volume (L) = 1.06156 - Viscosity (mPa s) = 0.29367 + Viscosity (mPa s) = 0.29387 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.848e-02 Mass of water (kg) = 9.999e-01 @@ -5432,10 +5432,10 @@ Calcite 0.00 -9.83 -9.83 1.000e+01 9.995e+00 -5.399e-03 pH = 4.908 Charge balance pe = 0.513 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 110°C) = 3068 + Specific Conductance (µS/cm, 110°C) = 3067 Density (g/cm³) = 0.95424 Volume (L) = 1.06604 - Viscosity (mPa s) = 0.27597 + Viscosity (mPa s) = 0.27616 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.620e-02 Mass of water (kg) = 9.999e-01 @@ -5538,7 +5538,7 @@ Calcite 0.00 -9.94 -9.94 1.000e+01 9.997e+00 -3.130e-03 Specific Conductance (µS/cm, 115°C) = 1964 Density (g/cm³) = 0.94852 Volume (L) = 1.05985 - Viscosity (mPa s) = 0.25502 + Viscosity (mPa s) = 0.25517 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.391e-03 Mass of water (kg) = 9.999e-01 @@ -5622,7 +5622,7 @@ Calcite -0.00 -10.08 -10.08 1.000e+01 9.997e+00 -2.736e-03 Specific Conductance (µS/cm, 121°C) = 1809 Density (g/cm³) = 0.94379 Volume (L) = 1.06496 - Viscosity (mPa s) = 0.24119 + Viscosity (mPa s) = 0.24133 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.209e-03 Mass of water (kg) = 1.000e+00 @@ -5706,7 +5706,7 @@ Calcite -0.00 -10.22 -10.22 1.000e+01 9.998e+00 -2.389e-03 Specific Conductance (µS/cm, 127°C) = 1660 Density (g/cm³) = 0.93892 Volume (L) = 1.07032 - Viscosity (mPa s) = 0.22863 + Viscosity (mPa s) = 0.22877 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.171e-03 Mass of water (kg) = 1.000e+00 @@ -5790,7 +5790,7 @@ Calcite -0.00 -10.36 -10.36 1.000e+01 9.998e+00 -2.085e-03 Specific Conductance (µS/cm, 132°C) = 1518 Density (g/cm³) = 0.93391 Volume (L) = 1.07592 - Viscosity (mPa s) = 0.21720 + Viscosity (mPa s) = 0.21734 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.259e-03 Mass of water (kg) = 1.000e+00 @@ -5874,7 +5874,7 @@ Calcite -0.00 -10.51 -10.51 1.000e+01 9.998e+00 -1.819e-03 Specific Conductance (µS/cm, 138°C) = 1384 Density (g/cm³) = 0.92876 Volume (L) = 1.08177 - Viscosity (mPa s) = 0.20676 + Viscosity (mPa s) = 0.20688 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.460e-03 Mass of water (kg) = 1.000e+00 @@ -5955,10 +5955,10 @@ Calcite 0.00 -10.66 -10.66 1.000e+01 9.998e+00 -1.585e-03 pH = 5.189 Charge balance pe = 0.186 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 144°C) = 1258 + Specific Conductance (µS/cm, 144°C) = 1257 Density (g/cm³) = 0.92347 Volume (L) = 1.08788 - Viscosity (mPa s) = 0.19717 + Viscosity (mPa s) = 0.19730 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.760e-03 Mass of water (kg) = 1.000e+00 @@ -6039,10 +6039,10 @@ Calcite -0.00 -10.82 -10.82 1.000e+01 9.999e+00 -1.381e-03 pH = 5.181 Charge balance pe = 0.189 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1140 + Specific Conductance (µS/cm, 150°C) = 1139 Density (g/cm³) = 0.91802 Volume (L) = 1.09426 - Viscosity (mPa s) = 0.18834 + Viscosity (mPa s) = 0.18846 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.148e-03 Mass of water (kg) = 1.000e+00 @@ -6123,10 +6123,10 @@ Calcite -0.00 -10.97 -10.97 1.000e+01 9.999e+00 -1.202e-03 pH = 5.174 Charge balance pe = 0.094 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 156°C) = 1030 + Specific Conductance (µS/cm, 156°C) = 1029 Density (g/cm³) = 0.91242 Volume (L) = 1.10092 - Viscosity (mPa s) = 0.18016 + Viscosity (mPa s) = 0.18028 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.613e-03 Mass of water (kg) = 1.000e+00 @@ -6210,7 +6210,7 @@ Calcite -0.00 -11.13 -11.13 1.000e+01 9.999e+00 -1.046e-03 Specific Conductance (µS/cm, 161°C) = 928 Density (g/cm³) = 0.90667 Volume (L) = 1.10787 - Viscosity (mPa s) = 0.17254 + Viscosity (mPa s) = 0.17264 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.145e-03 Mass of water (kg) = 1.000e+00 @@ -6294,7 +6294,7 @@ Calcite -0.00 -11.30 -11.30 1.000e+01 9.999e+00 -9.097e-04 Specific Conductance (µS/cm, 167°C) = 835 Density (g/cm³) = 0.90076 Volume (L) = 1.11512 - Viscosity (mPa s) = 0.16534 + Viscosity (mPa s) = 0.16544 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.736e-03 Mass of water (kg) = 1.000e+00 @@ -6378,7 +6378,7 @@ Calcite -0.00 -11.46 -11.46 1.000e+01 9.999e+00 -7.908e-04 Specific Conductance (µS/cm, 173°C) = 750 Density (g/cm³) = 0.89469 Volume (L) = 1.12269 - Viscosity (mPa s) = 0.15842 + Viscosity (mPa s) = 0.15851 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.380e-03 Mass of water (kg) = 1.000e+00 @@ -6462,7 +6462,7 @@ Calcite -0.00 -11.63 -11.63 1.000e+01 9.999e+00 -6.872e-04 Specific Conductance (µS/cm, 179°C) = 673 Density (g/cm³) = 0.88844 Volume (L) = 1.13060 - Viscosity (mPa s) = 0.15144 + Viscosity (mPa s) = 0.15153 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.069e-03 Mass of water (kg) = 1.000e+00 @@ -6546,7 +6546,7 @@ Calcite -0.00 -11.80 -11.80 1.000e+01 9.999e+00 -5.973e-04 Specific Conductance (µS/cm, 184°C) = 607 Density (g/cm³) = 0.88209 Volume (L) = 1.13876 - Viscosity (mPa s) = 0.14344 + Viscosity (mPa s) = 0.14353 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 @@ -6630,7 +6630,7 @@ Calcite -0.00 -11.97 -11.97 1.000e+01 9.999e+00 -5.191e-04 Specific Conductance (µS/cm, 190°C) = 569 Density (g/cm³) = 0.87559 Volume (L) = 1.14725 - Viscosity (mPa s) = 0.12632 + Viscosity (mPa s) = 0.12640 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.565e-03 Mass of water (kg) = 1.000e+00 @@ -6714,7 +6714,7 @@ Calcite -0.00 -12.15 -12.15 1.000e+01 1.000e+01 -4.511e-04 Specific Conductance (µS/cm, 196°C) = 436 Density (g/cm³) = 0.86892 Volume (L) = 1.15611 - Viscosity (mPa s) = 0.16241 + Viscosity (mPa s) = 0.16249 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.361e-03 Mass of water (kg) = 1.000e+00 @@ -6798,7 +6798,7 @@ Calcite -0.00 -12.32 -12.32 1.000e+01 1.000e+01 -3.920e-04 Specific Conductance (µS/cm, 202°C) = 407 Density (g/cm³) = 0.86206 Volume (L) = 1.16538 - Viscosity (mPa s) = 0.14259 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14267 (solute contributions limited to 200 °C) Activity of water = 0.998 Ionic strength (mol/kgw) = 1.184e-03 Mass of water (kg) = 1.000e+00 @@ -6882,7 +6882,7 @@ Calcite 0.00 -12.50 -12.50 1.000e+01 1.000e+01 -3.406e-04 Specific Conductance (µS/cm, 208°C) = 365 Density (g/cm³) = 0.85501 Volume (L) = 1.17506 - Viscosity (mPa s) = 0.13528 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13536 (solute contributions limited to 200 °C) Activity of water = 0.998 Ionic strength (mol/kgw) = 1.030e-03 Mass of water (kg) = 1.000e+00 @@ -6966,7 +6966,7 @@ Calcite 0.00 -12.67 -12.67 1.000e+01 1.000e+01 -2.960e-04 Specific Conductance (µS/cm, 213°C) = 325 Density (g/cm³) = 0.84776 Volume (L) = 1.18521 - Viscosity (mPa s) = 0.13002 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13009 (solute contributions limited to 200 °C) Activity of water = 0.998 Ionic strength (mol/kgw) = 8.965e-04 Mass of water (kg) = 1.000e+00 @@ -7050,7 +7050,7 @@ Calcite 0.00 -12.85 -12.85 1.000e+01 1.000e+01 -2.572e-04 Specific Conductance (µS/cm, 219°C) = 288 Density (g/cm³) = 0.84029 Volume (L) = 1.19584 - Viscosity (mPa s) = 0.12559 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12565 (solute contributions limited to 200 °C) Activity of water = 0.998 Ionic strength (mol/kgw) = 7.804e-04 Mass of water (kg) = 1.000e+00 @@ -7134,7 +7134,7 @@ Calcite 0.00 -13.03 -13.03 1.000e+01 1.000e+01 -2.236e-04 Specific Conductance (µS/cm, 225°C) = 255 Density (g/cm³) = 0.83261 Volume (L) = 1.20700 - Viscosity (mPa s) = 0.12163 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12169 (solute contributions limited to 200 °C) Activity of water = 0.998 Ionic strength (mol/kgw) = 6.797e-04 Mass of water (kg) = 1.000e+00 @@ -7233,10 +7233,10 @@ Calcite -0.00 -9.94 -9.94 1.000e+01 9.994e+00 -5.559e-03 pH = 4.793 Charge balance pe = 0.590 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 115°C) = 3233 + Specific Conductance (µS/cm, 115°C) = 3232 Density (g/cm³) = 0.95125 Volume (L) = 1.07785 - Viscosity (mPa s) = 0.26509 + Viscosity (mPa s) = 0.26530 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.669e-02 Mass of water (kg) = 9.999e-01 @@ -7317,10 +7317,10 @@ Calcite 0.00 -10.08 -10.08 1.000e+01 9.995e+00 -4.861e-03 pH = 4.784 Charge balance pe = 0.617 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 121°C) = 2987 + Specific Conductance (µS/cm, 121°C) = 2985 Density (g/cm³) = 0.94629 Volume (L) = 1.08294 - Viscosity (mPa s) = 0.24996 + Viscosity (mPa s) = 0.25015 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.460e-02 Mass of water (kg) = 9.999e-01 @@ -7401,10 +7401,10 @@ Calcite 0.00 -10.22 -10.22 1.000e+01 9.996e+00 -4.246e-03 pH = 4.775 Charge balance pe = 0.618 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 2748 + Specific Conductance (µS/cm, 127°C) = 2747 Density (g/cm³) = 0.94119 Volume (L) = 1.08835 - Viscosity (mPa s) = 0.23625 + Viscosity (mPa s) = 0.23643 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.275e-02 Mass of water (kg) = 9.999e-01 @@ -7485,10 +7485,10 @@ Calcite 0.00 -10.36 -10.36 1.000e+01 9.996e+00 -3.705e-03 pH = 4.766 Charge balance pe = 0.618 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 132°C) = 2519 + Specific Conductance (µS/cm, 132°C) = 2518 Density (g/cm³) = 0.93594 Volume (L) = 1.09409 - Viscosity (mPa s) = 0.22377 + Viscosity (mPa s) = 0.22395 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.113e-02 Mass of water (kg) = 9.999e-01 @@ -7569,10 +7569,10 @@ Calcite -0.00 -10.51 -10.51 1.000e+01 9.997e+00 -3.231e-03 pH = 4.757 Charge balance pe = 0.477 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 138°C) = 2301 + Specific Conductance (µS/cm, 138°C) = 2300 Density (g/cm³) = 0.93055 Volume (L) = 1.10016 - Viscosity (mPa s) = 0.21238 + Viscosity (mPa s) = 0.21255 Activity of water = 0.991 Ionic strength (mol/kgw) = 9.711e-03 Mass of water (kg) = 9.999e-01 @@ -7656,7 +7656,7 @@ Calcite -0.00 -10.66 -10.66 1.000e+01 9.997e+00 -2.815e-03 Specific Conductance (µS/cm, 144°C) = 2094 Density (g/cm³) = 0.92501 Volume (L) = 1.10658 - Viscosity (mPa s) = 0.20191 + Viscosity (mPa s) = 0.20208 Activity of water = 0.991 Ionic strength (mol/kgw) = 8.464e-03 Mass of water (kg) = 9.999e-01 @@ -7737,10 +7737,10 @@ Calcite -0.00 -10.82 -10.82 1.000e+01 9.998e+00 -2.451e-03 pH = 4.739 Charge balance pe = 0.636 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 1901 + Specific Conductance (µS/cm, 150°C) = 1900 Density (g/cm³) = 0.91932 Volume (L) = 1.11334 - Viscosity (mPa s) = 0.19225 + Viscosity (mPa s) = 0.19241 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.373e-03 Mass of water (kg) = 1.000e+00 @@ -7821,10 +7821,10 @@ Calcite 0.00 -10.97 -10.97 1.000e+01 9.998e+00 -2.133e-03 pH = 4.729 Charge balance pe = 0.614 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 156°C) = 1721 + Specific Conductance (µS/cm, 156°C) = 1720 Density (g/cm³) = 0.91345 Volume (L) = 1.12047 - Viscosity (mPa s) = 0.18325 + Viscosity (mPa s) = 0.18340 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.419e-03 Mass of water (kg) = 1.000e+00 @@ -7908,7 +7908,7 @@ Calcite -0.00 -11.13 -11.13 1.000e+01 9.998e+00 -1.855e-03 Specific Conductance (µS/cm, 161°C) = 1554 Density (g/cm³) = 0.90741 Volume (L) = 1.12799 - Viscosity (mPa s) = 0.17478 + Viscosity (mPa s) = 0.17493 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.585e-03 Mass of water (kg) = 1.000e+00 @@ -7989,10 +7989,10 @@ Calcite -0.00 -11.30 -11.30 1.000e+01 9.998e+00 -1.612e-03 pH = 4.710 Charge balance pe = 5.273 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 167°C) = 1401 + Specific Conductance (µS/cm, 167°C) = 1400 Density (g/cm³) = 0.90119 Volume (L) = 1.13591 - Viscosity (mPa s) = 0.16666 + Viscosity (mPa s) = 0.16679 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.857e-03 Mass of water (kg) = 1.000e+00 @@ -8076,7 +8076,7 @@ Calcite -0.00 -11.46 -11.46 1.000e+01 9.999e+00 -1.400e-03 Specific Conductance (µS/cm, 173°C) = 1262 Density (g/cm³) = 0.89478 Volume (L) = 1.14427 - Viscosity (mPa s) = 0.15858 + Viscosity (mPa s) = 0.15871 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.222e-03 Mass of water (kg) = 1.000e+00 @@ -8157,10 +8157,10 @@ Calcite 0.00 -11.63 -11.63 1.000e+01 9.999e+00 -1.215e-03 pH = 4.691 Charge balance pe = 5.013 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 179°C) = 1139 + Specific Conductance (µS/cm, 179°C) = 1138 Density (g/cm³) = 0.88816 Volume (L) = 1.15309 - Viscosity (mPa s) = 0.14991 + Viscosity (mPa s) = 0.15003 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.668e-03 Mass of water (kg) = 1.000e+00 @@ -8244,7 +8244,7 @@ Calcite -0.00 -11.80 -11.80 1.000e+01 9.999e+00 -1.055e-03 Specific Conductance (µS/cm, 184°C) = 1039 Density (g/cm³) = 0.88139 Volume (L) = 1.16227 - Viscosity (mPa s) = 0.13859 + Viscosity (mPa s) = 0.13870 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.188e-03 Mass of water (kg) = 1.000e+00 @@ -8325,10 +8325,10 @@ Calcite -0.00 -11.97 -11.97 1.000e+01 9.999e+00 -9.161e-04 pH = 4.673 Charge balance pe = 5.604 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 190°C) = 1045 + Specific Conductance (µS/cm, 190°C) = 1044 Density (g/cm³) = 0.87443 Volume (L) = 1.17190 - Viscosity (mPa s) = 0.10857 + Viscosity (mPa s) = 0.10868 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.771e-03 Mass of water (kg) = 1.000e+00 @@ -8412,7 +8412,7 @@ Calcite -0.00 -12.15 -12.15 1.000e+01 9.999e+00 -7.951e-04 Specific Conductance (µS/cm, 196°C) = 668 Density (g/cm³) = 0.86724 Volume (L) = 1.18207 - Viscosity (mPa s) = 0.19803 + Viscosity (mPa s) = 0.19813 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.409e-03 Mass of water (kg) = 1.000e+00 @@ -8496,7 +8496,7 @@ Calcite 0.00 -12.32 -12.32 1.000e+01 9.999e+00 -6.899e-04 Specific Conductance (µS/cm, 202°C) = 655 Density (g/cm³) = 0.85980 Volume (L) = 1.19282 - Viscosity (mPa s) = 0.15397 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.15407 (solute contributions limited to 200 °C) Activity of water = 0.991 Ionic strength (mol/kgw) = 2.094e-03 Mass of water (kg) = 1.000e+00 @@ -8580,7 +8580,7 @@ Calcite -0.00 -12.50 -12.50 1.000e+01 9.999e+00 -5.985e-04 Specific Conductance (µS/cm, 208°C) = 593 Density (g/cm³) = 0.85209 Volume (L) = 1.20420 - Viscosity (mPa s) = 0.14230 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.14240 (solute contributions limited to 200 °C) Activity of water = 0.991 Ionic strength (mol/kgw) = 1.820e-03 Mass of water (kg) = 1.000e+00 @@ -8664,7 +8664,7 @@ Calcite 0.00 -12.67 -12.67 1.000e+01 9.999e+00 -5.192e-04 Specific Conductance (µS/cm, 213°C) = 530 Density (g/cm³) = 0.84410 Volume (L) = 1.21627 - Viscosity (mPa s) = 0.13516 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.13525 (solute contributions limited to 200 °C) Activity of water = 0.990 Ionic strength (mol/kgw) = 1.583e-03 Mass of water (kg) = 1.000e+00 @@ -8748,7 +8748,7 @@ Calcite -0.00 -12.85 -12.85 1.000e+01 1.000e+01 -4.504e-04 Specific Conductance (µS/cm, 219°C) = 471 Density (g/cm³) = 0.83579 Volume (L) = 1.22909 - Viscosity (mPa s) = 0.12966 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12974 (solute contributions limited to 200 °C) Activity of water = 0.990 Ionic strength (mol/kgw) = 1.377e-03 Mass of water (kg) = 1.000e+00 @@ -8832,7 +8832,7 @@ Calcite 0.00 -13.03 -13.03 1.000e+01 1.000e+01 -3.907e-04 Specific Conductance (µS/cm, 225°C) = 417 Density (g/cm³) = 0.82714 Volume (L) = 1.24276 - Viscosity (mPa s) = 0.12501 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12509 (solute contributions limited to 200 °C) Activity of water = 0.990 Ionic strength (mol/kgw) = 1.198e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/cc_P3_101.sel b/mytest/cc_P3_101.sel index ee5a5e64..6fd1c80b 100644 --- a/mytest/cc_P3_101.sel +++ b/mytest/cc_P3_101.sel @@ -1,102 +1,102 @@ Mu SC 0.000000101049 0.0550543524 - 0.092958322893 2280.5083767408 - 0.084467891207 2575.0126694352 - 0.076459580853 2822.8339745477 - 0.068970732669 3022.0570527887 - 0.062019282594 3173.0727811805 - 0.055608120587 3277.7917149670 - 0.049728678785 3339.1426406395 - 0.044363883966 3360.7314015133 - 0.039490575249 3346.5909999945 - 0.035081469073 3300.9878341490 - 0.031106736432 3228.2662865543 - 0.027535251461 3132.7231188355 - 0.024335562916 3018.5072555255 - 0.021476632870 2889.5420024230 - 0.018928382266 2749.4673897407 - 0.016662079456 2601.6008001829 - 0.014650600720 2448.9133946501 - 0.012868589317 2294.0201901710 - 0.011292535234 2139.1815474177 - 0.009900793687 1986.3137316188 - 0.118101070156 2622.0910806433 - 0.107603435267 3014.8595608195 - 0.097623667363 3350.9271677074 - 0.088232014453 3625.5853375741 - 0.079468890753 3838.2239856592 - 0.071351786900 3990.7967537905 - 0.063880715802 4086.8594565043 - 0.057042576423 4130.9657837438 - 0.050814675718 4128.2686435936 - 0.045167571758 4084.2389948030 - 0.040067358467 4004.4553846140 - 0.035477481821 3894.4404577963 - 0.031360168460 3759.5328916877 - 0.027677525617 3604.7883885892 - 0.024392372071 3434.9061762966 - 0.021468844474 3254.1780012306 - 0.018872823000 3066.4569882889 - 0.016572210220 2875.1437511493 - 0.014537094452 2683.1868310626 - 0.012739822489 2493.0949491417 - 0.143698541153 2823.1061960718 - 0.131793270446 3321.5421996301 - 0.120240329662 3762.1658872580 - 0.109195702978 4133.4962979709 - 0.098759946285 4430.9537494170 - 0.088993430498 4654.5611443792 - 0.079926514382 4807.2814373838 - 0.071567010759 4893.9107854611 - 0.063905919762 4920.3532747677 - 0.056921939707 4893.1338614391 - 0.050585047650 4819.0566784308 - 0.044859346020 4704.9548929577 - 0.039705313708 4557.5025247486 - 0.035081568790 4383.0721811410 - 0.030946227914 4187.6296127913 - 0.027257935391 3976.6593321316 - 0.023976618663 3755.1168573617 - 0.021064024362 3527.4038315526 - 0.018484076271 3297.3623956331 - 0.016203092515 3068.2853868872 - 0.009390603243 1964.9253651037 - 0.008208854484 1809.8089300403 - 0.007170504367 1660.8228694117 - 0.006259193984 1518.8347045877 - 0.005460220977 1384.4657424973 - 0.004760416318 1258.1242288254 - 0.004148019786 1140.0386421509 - 0.003612557417 1030.2917047140 - 0.003144723243 928.8576203448 - 0.002736266914 835.6506325159 - 0.002379888213 750.6125437005 - 0.002069139023 673.9580635949 - 0.001799611694 607.6840994971 - 0.001565295674 569.9405022707 - 0.001361450297 436.9636555679 - 0.001184215810 407.4493928540 - 0.001030206784 365.3883397200 - 0.000896457222 325.2543799055 - 0.000780371489 288.6043237186 - 0.000679680581 255.6033095494 - 0.016690881459 3233.7030308684 - 0.014596312656 2987.1113148303 - 0.012752757524 2748.3129214526 - 0.011132588755 2519.1528987807 - 0.009710697153 2301.0301833350 - 0.008464380397 2094.9557020488 - 0.007373205403 1901.6143841652 - 0.006418854785 1721.4342814155 - 0.005584965612 1554.6731514769 - 0.004856966449 1401.5541891123 - 0.004221917170 1262.5590050088 - 0.003668354771 1139.3492541831 - 0.003188267288 1039.8895106829 - 0.002771238690 1045.5980792325 - 0.002408641921 668.4389549889 - 0.002093571611 655.3224880331 - 0.001819967317 593.9695541045 - 0.001582517702 530.6572630294 - 0.001376574195 471.3173382625 - 0.001198073597 417.2170708775 + 0.092958322893 2280.8724062925 + 0.084467891207 2575.3267547457 + 0.076459580853 2823.0679088546 + 0.068970732669 3022.1903607729 + 0.062019282594 3173.0940880700 + 0.055608120587 3277.6974438097 + 0.049728678785 3338.9355164037 + 0.044363883966 3360.4189765942 + 0.039490575249 3346.1842949507 + 0.035081469073 3300.5001348045 + 0.031106736432 3227.7121144886 + 0.027535251461 3132.1173793117 + 0.024335562916 3017.8645583921 + 0.021476632870 2888.8761453329 + 0.018928382266 2748.7909885428 + 0.016662079456 2600.9250483217 + 0.014650600720 2448.2479319458 + 0.012868589317 2293.3730610643 + 0.011292535234 2138.5592294999 + 0.009900793687 1985.7212167856 + 0.118101070156 2622.4973507023 + 0.107603435267 3015.2276502131 + 0.097623667363 3351.2112042333 + 0.088232014453 3625.7514520063 + 0.079468890753 3838.2510561583 + 0.071351786900 3990.6751896676 + 0.063880715802 4086.5892305655 + 0.057042576423 4130.5543184387 + 0.050814675718 4127.7288172162 + 0.045167571758 4083.5873721442 + 0.040067358467 4003.7107054050 + 0.035477481821 3893.6223857355 + 0.031360168460 3758.6610128558 + 0.027677525617 3603.8814406790 + 0.024392372071 3433.9814857232 + 0.021468844474 3253.2511023679 + 0.018872823000 3065.5413979787 + 0.016572210220 2874.2508714120 + 0.014537094452 2682.3259541537 + 0.012739822489 2492.2733407850 + 0.143698541153 2823.5063467091 + 0.131793270446 3321.9275069696 + 0.120240329662 3762.4776429611 + 0.109195702978 4133.6854397846 + 0.098759946285 4430.9854665592 + 0.088993430498 4654.4154624053 + 0.079926514382 4806.9516745061 + 0.071567010759 4893.4011529440 + 0.063905919762 4919.6763116463 + 0.056921939707 4892.3080284131 + 0.050585047650 4818.1042434130 + 0.044859346020 4703.9001488585 + 0.039705313708 4556.3703383199 + 0.035081568790 4381.8868529444 + 0.030946227914 4186.4140196345 + 0.027257935391 3975.4343193597 + 0.023976618663 3753.9008464631 + 0.021064024362 3526.2126086225 + 0.018484076271 3296.2090471239 + 0.016203092515 3067.1803510794 + 0.009390603243 1964.3132565242 + 0.008208854484 1809.2356754890 + 0.007170504367 1660.2901272809 + 0.006259193984 1518.3430850129 + 0.005460220977 1384.0149787826 + 0.004760416318 1257.7133387967 + 0.004148019786 1139.6660738534 + 0.003612557417 1029.9554609417 + 0.003144723243 928.5553541147 + 0.002736266914 835.3796962543 + 0.002379888213 750.3699410931 + 0.002069139023 673.7401041313 + 0.001799611694 607.4844816927 + 0.001565295674 569.7279024875 + 0.001361450297 436.8604536773 + 0.001184215810 407.3390128906 + 0.001030206784 365.2878280738 + 0.000896457222 325.1653072171 + 0.000780371489 288.5262085091 + 0.000679680581 255.5351860696 + 0.016690881459 3232.4505468576 + 0.014596312656 2985.9284916841 + 0.012752757524 2747.2049941414 + 0.011132588755 2518.1228001725 + 0.009710697153 2300.0788447521 + 0.008464380397 2094.0823473852 + 0.007373205403 1900.8167980077 + 0.006418854785 1720.7090273223 + 0.005584965612 1554.0157003616 + 0.004856966449 1400.9588652896 + 0.004221917170 1262.0184726002 + 0.003668354771 1138.8524379396 + 0.003188267288 1039.4111584654 + 0.002771238690 1044.9459084657 + 0.002408641921 668.2874299827 + 0.002093571611 655.1140589017 + 0.001819967317 593.7694430412 + 0.001582517702 530.4758823562 + 0.001376574195 471.1563632290 + 0.001198073597 417.0757442571 diff --git a/mytest/cc_P_101.sel b/mytest/cc_P_101.sel index 69cab601..d5516efe 100644 --- a/mytest/cc_P_101.sel +++ b/mytest/cc_P_101.sel @@ -1,22 +1,22 @@ Mu SC 0.000000100661 0.0546997340 - 0.000385530171 36.1571055692 - 0.000405517107 37.9590113098 - 0.000426053901 39.8048635823 - 0.000447141993 41.6941512056 - 0.000468782750 43.6263628825 - 0.000490977477 45.6009872481 - 0.000513727430 47.6175153961 - 0.000537033830 49.6754440562 - 0.000560897880 51.7742789542 - 0.000585320762 53.9135375992 - 0.000610303673 56.0927523578 - 0.000635847823 58.3114724871 - 0.000661954455 60.5692657972 - 0.000688624857 62.8657196581 - 0.000715860371 65.2004412876 - 0.000743662415 67.5730572457 - 0.000772032486 69.9832121775 - 0.000800972180 72.4305663616 - 0.000830483214 74.9147938118 - 0.000860567421 77.4355766522 + 0.000385530171 36.1571056915 + 0.000405517107 37.9590114427 + 0.000426053901 39.8048637263 + 0.000447141993 41.6941513614 + 0.000468782750 43.6263630507 + 0.000490977477 45.6009874294 + 0.000513727430 47.6175155912 + 0.000537033830 49.6754442659 + 0.000560897880 51.7742791791 + 0.000585320762 53.9135378400 + 0.000610303673 56.0927526154 + 0.000635847823 58.3114727622 + 0.000661954455 60.5692660907 + 0.000688624857 62.8657199706 + 0.000715860371 65.2004416201 + 0.000743662415 67.5730575990 + 0.000772032486 69.9832125524 + 0.000800972180 72.4305667590 + 0.000830483214 74.9147942326 + 0.000860567421 77.4355770973 diff --git a/mytest/cd_ddl.out b/mytest/cd_ddl.out index 17561483..efb5e57b 100644 --- a/mytest/cd_ddl.out +++ b/mytest/cd_ddl.out @@ -139,7 +139,7 @@ Su 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 1.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89033 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.175e-02 V. @@ -200,7 +200,7 @@ Suc 1.000e+00 m^2 for 1.000e+00 g Water in diffuse layer: 1.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89033 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.175e-02 V. diff --git a/mytest/cd_ddl_101.sel b/mytest/cd_ddl_101.sel index a719dc77..55e4e4cc 100644 --- a/mytest/cd_ddl_101.sel +++ b/mytest/cd_ddl_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.001300104415 149.8467013573 - 0.001300104417 149.8467013546 - 0.001300104417 149.8467013609 + 0.001300104415 149.8467021026 + 0.001300104417 149.8467020999 + 0.001300104417 149.8467021061 diff --git a/mytest/cell_operations.dmp b/mytest/cell_operations.dmp index 1fa9bbf0..0b7ce904 100644 --- a/mytest/cell_operations.dmp +++ b/mytest/cell_operations.dmp @@ -6,7 +6,8 @@ SOLUTION_RAW 100 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -245,7 +246,8 @@ SOLUTION_RAW 1 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -272,7 +274,8 @@ SOLUTION_RAW 2 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 diff --git a/mytest/cell_operations_101.sel b/mytest/cell_operations_101.sel index 75691fdc..477cb0a7 100644 --- a/mytest/cell_operations_101.sel +++ b/mytest/cell_operations_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087775 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092414 diff --git a/mytest/co2_VP.out b/mytest/co2_VP.out index b66c90c9..22616a51 100644 --- a/mytest/co2_VP.out +++ b/mytest/co2_VP.out @@ -2393,7 +2393,7 @@ CO2(g) 1.24 1.742e+01 0.927 9.267e-01 7.120e-01 -2.147e-01 Specific Conductance (µS/cm, 50°C) = 202 Density (g/cm³) = 0.99145 Volume (L) = 1.02259 - Viscosity (mPa s) = 0.55446 + Viscosity (mPa s) = 0.55447 Activity of water = 0.995 Ionic strength (mol/kgw) = 4.110e-04 Mass of water (kg) = 1.000e+00 @@ -2579,7 +2579,7 @@ CO2(g) 1.48 3.009e+01 0.875 1.008e+00 1.315e+00 3.067e-01 Specific Conductance (µS/cm, 50°C) = 250 Density (g/cm³) = 0.99366 Volume (L) = 1.02903 - Viscosity (mPa s) = 0.55917 + Viscosity (mPa s) = 0.55918 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.246e-04 Mass of water (kg) = 1.000e+00 @@ -3044,7 +3044,7 @@ CO2(g) 1.76 5.707e+01 0.771 2.635e+00 2.985e+00 3.500e-01 Specific Conductance (µS/cm, 50°C) = 307 Density (g/cm³) = 0.99757 Volume (L) = 1.03957 - Viscosity (mPa s) = 0.56706 + Viscosity (mPa s) = 0.56707 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.758e-04 Mass of water (kg) = 1.000e+00 @@ -3137,7 +3137,7 @@ CO2(g) 1.79 6.156e+01 0.754 2.985e+00 3.342e+00 3.565e-01 Specific Conductance (µS/cm, 50°C) = 313 Density (g/cm³) = 0.99811 Volume (L) = 1.04092 - Viscosity (mPa s) = 0.56811 + Viscosity (mPa s) = 0.56812 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.937e-04 Mass of water (kg) = 1.000e+00 @@ -3881,7 +3881,7 @@ CO2(g) 2.21 1.621e+02 0.454 1.382e+01 1.577e+01 1.954e+00 Specific Conductance (µS/cm, 50°C) = 370 Density (g/cm³) = 1.00540 Volume (L) = 1.04963 - Viscosity (mPa s) = 0.57846 + Viscosity (mPa s) = 0.57847 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.603e-04 Mass of water (kg) = 1.000e+00 @@ -3974,7 +3974,7 @@ CO2(g) 2.32 2.076e+02 0.393 1.577e+01 1.771e+01 1.942e+00 Specific Conductance (µS/cm, 50°C) = 384 Density (g/cm³) = 1.00778 Volume (L) = 1.04968 - Viscosity (mPa s) = 0.58079 + Viscosity (mPa s) = 0.58080 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.987e-04 Mass of water (kg) = 1.000e+00 @@ -4067,7 +4067,7 @@ CO2(g) 2.45 2.787e+02 0.338 1.771e+01 1.964e+01 1.928e+00 Specific Conductance (µS/cm, 50°C) = 404 Density (g/cm³) = 1.01130 Volume (L) = 1.04913 - Viscosity (mPa s) = 0.58406 + Viscosity (mPa s) = 0.58407 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.535e-04 Mass of water (kg) = 1.000e+00 @@ -4367,7 +4367,7 @@ CO2(g) 2.90 8.029e+02 0.277 2.346e+01 2.535e+01 1.891e+00 Specific Conductance (µS/cm, 50°C) = 541 Density (g/cm³) = 1.03419 Volume (L) = 1.03842 - Viscosity (mPa s) = 0.60464 + Viscosity (mPa s) = 0.60465 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.313e-03 Mass of water (kg) = 1.000e+00 @@ -4634,7 +4634,7 @@ CO2(g) 1.36 2.292e+01 0.940 9.267e-01 7.976e-01 -1.291e-01 Specific Conductance (µS/cm, 100°C) = 205 Density (g/cm³) = 0.96089 Volume (L) = 1.05120 - Viscosity (mPa s) = 0.28376 + Viscosity (mPa s) = 0.28377 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.965e-04 Mass of water (kg) = 1.000e+00 @@ -4727,7 +4727,7 @@ CO2(g) 1.50 3.138e+01 0.919 7.976e-01 1.120e+00 3.219e-01 Specific Conductance (µS/cm, 100°C) = 236 Density (g/cm³) = 0.96179 Volume (L) = 1.05378 - Viscosity (mPa s) = 0.28442 + Viscosity (mPa s) = 0.28443 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.432e-04 Mass of water (kg) = 1.000e+00 @@ -4820,7 +4820,7 @@ CO2(g) 1.60 3.960e+01 0.899 1.120e+00 1.447e+00 3.278e-01 Specific Conductance (µS/cm, 100°C) = 260 Density (g/cm³) = 0.96265 Volume (L) = 1.05615 - Viscosity (mPa s) = 0.28503 + Viscosity (mPa s) = 0.28504 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.812e-04 Mass of water (kg) = 1.000e+00 @@ -5006,7 +5006,7 @@ CO2(g) 1.74 5.527e+01 0.862 1.781e+00 2.119e+00 3.386e-01 Specific Conductance (µS/cm, 100°C) = 296 Density (g/cm³) = 0.96421 Volume (L) = 1.06028 - Viscosity (mPa s) = 0.28612 + Viscosity (mPa s) = 0.28613 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.407e-04 Mass of water (kg) = 1.000e+00 @@ -5099,7 +5099,7 @@ CO2(g) 1.80 6.275e+01 0.845 2.119e+00 2.463e+00 3.436e-01 Specific Conductance (µS/cm, 100°C) = 311 Density (g/cm³) = 0.96492 Volume (L) = 1.06207 - Viscosity (mPa s) = 0.28661 + Viscosity (mPa s) = 0.28662 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.647e-04 Mass of water (kg) = 1.000e+00 @@ -5378,7 +5378,7 @@ CO2(g) 1.92 8.385e+01 0.799 3.163e+00 3.519e+00 3.560e-01 Specific Conductance (µS/cm, 100°C) = 344 Density (g/cm³) = 0.96683 Volume (L) = 1.06651 - Viscosity (mPa s) = 0.28790 + Viscosity (mPa s) = 0.28791 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.214e-04 Mass of water (kg) = 1.000e+00 @@ -5471,7 +5471,7 @@ CO2(g) 1.96 9.048e+01 0.785 3.519e+00 3.879e+00 3.595e-01 Specific Conductance (µS/cm, 100°C) = 352 Density (g/cm³) = 0.96740 Volume (L) = 1.06772 - Viscosity (mPa s) = 0.28828 + Viscosity (mPa s) = 0.28829 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.366e-04 Mass of water (kg) = 1.000e+00 @@ -5564,7 +5564,7 @@ CO2(g) 1.99 9.694e+01 0.772 3.879e+00 4.241e+00 3.626e-01 Specific Conductance (µS/cm, 100°C) = 360 Density (g/cm³) = 0.96794 Volume (L) = 1.06883 - Viscosity (mPa s) = 0.28864 + Viscosity (mPa s) = 0.28865 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.505e-04 Mass of water (kg) = 1.000e+00 @@ -5657,7 +5657,7 @@ CO2(g) 2.10 1.273e+02 0.714 4.241e+00 6.090e+00 1.849e+00 Specific Conductance (µS/cm, 100°C) = 389 Density (g/cm³) = 0.97031 Volume (L) = 1.07306 - Viscosity (mPa s) = 0.29020 + Viscosity (mPa s) = 0.29021 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.049e-04 Mass of water (kg) = 1.000e+00 @@ -5750,7 +5750,7 @@ CO2(g) 2.19 1.563e+02 0.666 6.090e+00 7.978e+00 1.888e+00 Specific Conductance (µS/cm, 100°C) = 411 Density (g/cm³) = 0.97237 Volume (L) = 1.07587 - Viscosity (mPa s) = 0.29154 + Viscosity (mPa s) = 0.29155 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.454e-04 Mass of water (kg) = 1.000e+00 @@ -5843,7 +5843,7 @@ CO2(g) 2.27 1.872e+02 0.622 7.978e+00 9.884e+00 1.906e+00 Specific Conductance (µS/cm, 100°C) = 429 Density (g/cm³) = 0.97439 Volume (L) = 1.07788 - Viscosity (mPa s) = 0.29284 + Viscosity (mPa s) = 0.29285 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.805e-04 Mass of water (kg) = 1.000e+00 @@ -5936,7 +5936,7 @@ CO2(g) 2.35 2.233e+02 0.582 9.884e+00 1.180e+01 1.912e+00 Specific Conductance (µS/cm, 100°C) = 447 Density (g/cm³) = 0.97660 Volume (L) = 1.07941 - Viscosity (mPa s) = 0.29426 + Viscosity (mPa s) = 0.29427 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.154e-04 Mass of water (kg) = 1.000e+00 @@ -6029,7 +6029,7 @@ CO2(g) 2.43 2.687e+02 0.543 1.180e+01 1.371e+01 1.910e+00 Specific Conductance (µS/cm, 100°C) = 466 Density (g/cm³) = 0.97923 Volume (L) = 1.08054 - Viscosity (mPa s) = 0.29595 + Viscosity (mPa s) = 0.29596 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.538e-04 Mass of water (kg) = 1.000e+00 @@ -6122,7 +6122,7 @@ CO2(g) 2.52 3.284e+02 0.507 1.371e+01 1.561e+01 1.904e+00 Specific Conductance (µS/cm, 100°C) = 489 Density (g/cm³) = 0.98251 Volume (L) = 1.08124 - Viscosity (mPa s) = 0.29807 + Viscosity (mPa s) = 0.29808 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.989e-04 Mass of water (kg) = 1.000e+00 @@ -6215,7 +6215,7 @@ CO2(g) 2.61 4.087e+02 0.478 1.561e+01 1.750e+01 1.894e+00 Specific Conductance (µS/cm, 100°C) = 518 Density (g/cm³) = 0.98672 Volume (L) = 1.08134 - Viscosity (mPa s) = 0.30081 + Viscosity (mPa s) = 0.30082 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.544e-04 Mass of water (kg) = 1.000e+00 @@ -6315,7 +6315,7 @@ CO2(g) 2.71 5.183e+02 0.457 1.750e+01 1.939e+01 1.883e+00 Specific Conductance (µS/cm, 100°C) = 553 Density (g/cm³) = 0.99219 Volume (L) = 1.08058 - Viscosity (mPa s) = 0.30443 + Viscosity (mPa s) = 0.30444 Activity of water = 0.975 Ionic strength (mol/kgw) = 9.247e-04 Mass of water (kg) = 1.000e+00 @@ -6415,7 +6415,7 @@ CO2(g) 2.83 6.695e+02 0.451 1.939e+01 2.126e+01 1.870e+00 Specific Conductance (µS/cm, 100°C) = 599 Density (g/cm³) = 0.99935 Volume (L) = 1.07858 - Viscosity (mPa s) = 0.30927 + Viscosity (mPa s) = 0.30929 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.016e-03 Mass of water (kg) = 1.000e+00 @@ -6515,7 +6515,7 @@ CO2(g) 2.94 8.808e+02 0.467 2.126e+01 2.311e+01 1.856e+00 Specific Conductance (µS/cm, 100°C) = 659 Density (g/cm³) = 1.00876 Volume (L) = 1.07481 - Viscosity (mPa s) = 0.31587 + Viscosity (mPa s) = 0.31589 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.137e-03 Mass of water (kg) = 1.000e+00 @@ -6594,7 +6594,7 @@ Initial solution 1. Specific Conductance (µS/cm, 150°C) = 12 Density (g/cm³) = 0.91701 Volume (L) = 1.09050 - Viscosity (mPa s) = 0.18261 + Viscosity (mPa s) = 0.18262 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-05 Mass of water (kg) = 1.000e+00 @@ -6773,7 +6773,7 @@ CO2(g) 1.56 3.673e+01 0.940 8.051e-01 1.125e+00 3.204e-01 Specific Conductance (µS/cm, 150°C) = 180 Density (g/cm³) = 0.91971 Volume (L) = 1.10172 - Viscosity (mPa s) = 0.18434 + Viscosity (mPa s) = 0.18435 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.282e-04 Mass of water (kg) = 1.000e+00 @@ -6866,7 +6866,7 @@ CO2(g) 1.67 4.654e+01 0.925 1.125e+00 1.450e+00 3.241e-01 Specific Conductance (µS/cm, 150°C) = 200 Density (g/cm³) = 0.92049 Volume (L) = 1.10441 - Viscosity (mPa s) = 0.18475 + Viscosity (mPa s) = 0.18476 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.550e-04 Mass of water (kg) = 1.000e+00 @@ -6956,7 +6956,7 @@ CO2(g) 1.75 5.616e+01 0.911 1.450e+00 1.777e+00 3.277e-01 pH = 3.586 Charge balance pe = 7.416 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 217 + Specific Conductance (µS/cm, 150°C) = 216 Density (g/cm³) = 0.92126 Volume (L) = 1.10695 Viscosity (mPa s) = 0.18515 @@ -7052,7 +7052,7 @@ CO2(g) 1.82 6.563e+01 0.898 1.777e+00 2.108e+00 3.312e-01 Specific Conductance (µS/cm, 150°C) = 231 Density (g/cm³) = 0.92200 Volume (L) = 1.10934 - Viscosity (mPa s) = 0.18552 + Viscosity (mPa s) = 0.18553 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.984e-04 Mass of water (kg) = 1.000e+00 @@ -7145,7 +7145,7 @@ CO2(g) 1.87 7.494e+01 0.885 2.108e+00 2.443e+00 3.345e-01 Specific Conductance (µS/cm, 150°C) = 244 Density (g/cm³) = 0.92273 Volume (L) = 1.11159 - Viscosity (mPa s) = 0.18588 + Viscosity (mPa s) = 0.18589 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.167e-04 Mass of water (kg) = 1.000e+00 @@ -7238,7 +7238,7 @@ CO2(g) 1.92 8.412e+01 0.872 2.443e+00 2.781e+00 3.377e-01 Specific Conductance (µS/cm, 150°C) = 255 Density (g/cm³) = 0.92345 Volume (L) = 1.11370 - Viscosity (mPa s) = 0.18623 + Viscosity (mPa s) = 0.18624 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.332e-04 Mass of water (kg) = 1.000e+00 @@ -7331,7 +7331,7 @@ CO2(g) 1.97 9.317e+01 0.860 2.781e+00 3.121e+00 3.406e-01 Specific Conductance (µS/cm, 150°C) = 265 Density (g/cm³) = 0.92415 Volume (L) = 1.11568 - Viscosity (mPa s) = 0.18657 + Viscosity (mPa s) = 0.18658 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.484e-04 Mass of water (kg) = 1.000e+00 @@ -7517,7 +7517,7 @@ CO2(g) 2.05 1.110e+02 0.838 3.465e+00 3.811e+00 3.460e-01 Specific Conductance (µS/cm, 150°C) = 283 Density (g/cm³) = 0.92551 Volume (L) = 1.11930 - Viscosity (mPa s) = 0.18723 + Viscosity (mPa s) = 0.18724 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.753e-04 Mass of water (kg) = 1.000e+00 @@ -7610,7 +7610,7 @@ CO2(g) 2.08 1.198e+02 0.827 3.811e+00 4.159e+00 3.484e-01 Specific Conductance (µS/cm, 150°C) = 291 Density (g/cm³) = 0.92617 Volume (L) = 1.12095 - Viscosity (mPa s) = 0.18754 + Viscosity (mPa s) = 0.18755 Activity of water = 0.986 Ionic strength (mol/kgw) = 3.874e-04 Mass of water (kg) = 1.000e+00 @@ -7703,7 +7703,7 @@ CO2(g) 2.21 1.634e+02 0.780 4.159e+00 5.930e+00 1.771e+00 Specific Conductance (µS/cm, 150°C) = 323 Density (g/cm³) = 0.92938 Volume (L) = 1.12791 - Viscosity (mPa s) = 0.18906 + Viscosity (mPa s) = 0.18907 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.392e-04 Mass of water (kg) = 1.000e+00 @@ -7796,7 +7796,7 @@ CO2(g) 2.32 2.082e+02 0.740 5.930e+00 7.736e+00 1.806e+00 Specific Conductance (µS/cm, 150°C) = 349 Density (g/cm³) = 0.93257 Volume (L) = 1.13323 - Viscosity (mPa s) = 0.19055 + Viscosity (mPa s) = 0.19056 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.824e-04 Mass of water (kg) = 1.000e+00 @@ -7889,7 +7889,7 @@ CO2(g) 2.41 2.569e+02 0.706 7.736e+00 9.560e+00 1.824e+00 Specific Conductance (µS/cm, 150°C) = 371 Density (g/cm³) = 0.93591 Volume (L) = 1.13745 - Viscosity (mPa s) = 0.19211 + Viscosity (mPa s) = 0.19212 Activity of water = 0.978 Ionic strength (mol/kgw) = 5.223e-04 Mass of water (kg) = 1.000e+00 @@ -7982,7 +7982,7 @@ CO2(g) 2.50 3.128e+02 0.676 9.560e+00 1.139e+01 1.832e+00 Specific Conductance (µS/cm, 150°C) = 394 Density (g/cm³) = 0.93961 Volume (L) = 1.14084 - Viscosity (mPa s) = 0.19385 + Viscosity (mPa s) = 0.19386 Activity of water = 0.976 Ionic strength (mol/kgw) = 5.623e-04 Mass of water (kg) = 1.000e+00 @@ -8075,7 +8075,7 @@ CO2(g) 2.58 3.794e+02 0.651 1.139e+01 1.322e+01 1.832e+00 Specific Conductance (µS/cm, 150°C) = 417 Density (g/cm³) = 0.94388 Volume (L) = 1.14352 - Viscosity (mPa s) = 0.19587 + Viscosity (mPa s) = 0.19588 Activity of water = 0.973 Ionic strength (mol/kgw) = 6.052e-04 Mass of water (kg) = 1.000e+00 @@ -8165,10 +8165,10 @@ CO2(g) 2.66 4.614e+02 0.633 1.322e+01 1.505e+01 1.826e+00 pH = 3.208 Charge balance pe = 7.778 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 443 + Specific Conductance (µS/cm, 150°C) = 442 Density (g/cm³) = 0.94896 Volume (L) = 1.14548 - Viscosity (mPa s) = 0.19829 + Viscosity (mPa s) = 0.19831 Activity of water = 0.971 Ionic strength (mol/kgw) = 6.533e-04 Mass of water (kg) = 1.000e+00 @@ -8261,7 +8261,7 @@ CO2(g) 2.75 5.643e+02 0.623 1.505e+01 1.687e+01 1.816e+00 Specific Conductance (µS/cm, 150°C) = 472 Density (g/cm³) = 0.95510 Volume (L) = 1.14660 - Viscosity (mPa s) = 0.20128 + Viscosity (mPa s) = 0.20129 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.092e-04 Mass of water (kg) = 1.000e+00 @@ -8361,7 +8361,7 @@ CO2(g) 2.84 6.958e+02 0.625 1.687e+01 1.867e+01 1.802e+00 Specific Conductance (µS/cm, 150°C) = 506 Density (g/cm³) = 0.96261 Volume (L) = 1.14671 - Viscosity (mPa s) = 0.20500 + Viscosity (mPa s) = 0.20502 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.759e-04 Mass of water (kg) = 1.000e+00 @@ -8461,7 +8461,7 @@ CO2(g) 2.94 8.660e+02 0.645 1.867e+01 2.045e+01 1.785e+00 Specific Conductance (µS/cm, 150°C) = 546 Density (g/cm³) = 0.97186 Volume (L) = 1.14555 - Viscosity (mPa s) = 0.20971 + Viscosity (mPa s) = 0.20973 Activity of water = 0.963 Ionic strength (mol/kgw) = 8.570e-04 Mass of water (kg) = 1.000e+00 @@ -8561,7 +8561,7 @@ CO2(g) 3.04 1.089e+03 0.693 2.045e+01 2.222e+01 1.763e+00 Specific Conductance (µS/cm, 150°C) = 594 Density (g/cm³) = 0.98325 Volume (L) = 1.14288 - Viscosity (mPa s) = 0.21574 + Viscosity (mPa s) = 0.21576 Activity of water = 0.960 Ionic strength (mol/kgw) = 9.571e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/co2_VP_101.sel b/mytest/co2_VP_101.sel index 471eebd8..20b9420b 100644 --- a/mytest/co2_VP_101.sel +++ b/mytest/co2_VP_101.sel @@ -1,93 +1,93 @@ Mu SC 0.000000100661 0.0546997340 - 0.000443781132 156.5788584362 - 0.000513339838 175.4433048438 - 0.000569261443 189.1108761032 - 0.000615270889 199.3329968902 - 0.000653529136 207.1330230508 - 0.000685457693 213.1671906027 - 0.000712081606 217.8809801334 - 0.000734193782 221.5882960088 - 0.000752440585 224.5161446879 - 0.000767368567 226.8319187904 - 0.000779450630 228.6610557665 - 0.000810046954 233.1954320712 - 0.000814341569 233.8482377902 - 0.000813874550 233.7961374741 - 0.000812752643 233.6705228870 - 0.000811741950 233.5568094981 - 0.000817736617 234.8750464619 - 0.000839361094 239.7655818640 - 0.000876891522 248.6535360630 - 0.000936816682 263.4244878810 - 0.001029874879 287.1848651963 - 0.001175198404 325.4688302909 - 0.001410278350 389.1298677717 - 0.000000323907 0.1969703722 - 0.000410954508 202.3074997217 - 0.000474103996 229.7160076651 - 0.000524639406 250.6439491117 - 0.000566178595 267.1412664109 - 0.000600844975 280.4102058028 - 0.000630041325 291.2320258655 - 0.000654771681 300.1489894870 - 0.000675796645 307.5549814078 - 0.000693716286 313.7457188818 - 0.000709017878 318.9488418562 - 0.000722105187 323.3430635137 - 0.000764583158 337.3350777374 - 0.000786174164 344.4036510642 - 0.000800556505 349.1902327828 - 0.000814910451 354.0826576740 - 0.000833663150 360.6316687565 - 0.000860344699 370.1624371414 - 0.000898684631 384.1384497619 - 0.000953529934 404.4926344312 - 0.001031998150 434.0692419029 - 0.001145393641 477.3667926291 - 0.001312965005 541.9682702380 - 0.001570321763 641.6124801382 - 0.000002945354 2.4664461839 - 0.000296535423 205.8169148071 - 0.000343176046 236.2204426824 - 0.000381207070 260.3846359897 - 0.000413220179 280.2556878492 - 0.000440722039 296.9677330322 - 0.000464692413 311.2558963519 - 0.000485817839 323.6309345404 - 0.000504605632 334.4653960396 - 0.000521445713 344.0409139355 - 0.000536646854 352.5762783573 - 0.000550459308 360.2451549172 - 0.000604884751 389.7249995941 - 0.000645357842 411.0244605001 - 0.000680484228 429.2329110739 - 0.000715394231 447.1873543413 - 0.000753783565 466.8445054515 - 0.000798945367 489.8963859650 - 0.000854446364 518.1298944714 - 0.000924736889 553.7161069758 - 0.001015894120 599.5249245333 - 0.001136732723 659.5465358839 - 0.000011900817 12.0128833726 - 0.000196070850 155.5154732890 - 0.000228168254 180.0717244807 - 0.000254955148 200.1123597508 - 0.000278065559 217.0041004257 - 0.000298440522 231.5740446904 - 0.000316685772 244.3558923589 - 0.000333221241 255.7192350586 - 0.000348354016 265.9331341206 - 0.000362317889 275.2008727519 - 0.000375296547 283.6805032924 - 0.000387437982 291.4977412596 - 0.000439237608 323.6614877992 - 0.000482414171 349.1749543177 - 0.000522303366 371.9207929262 - 0.000562343603 394.1459759421 - 0.000605196032 417.4147381417 - 0.000653298023 443.0207606504 - 0.000709212161 472.1957326738 - 0.000775902838 506.2235278063 - 0.000857001997 546.4938678640 - 0.000957102634 594.4991841588 + 0.000443781132 156.5788589453 + 0.000513339838 175.4433054490 + 0.000569261443 189.1108767817 + 0.000615270889 199.3329976256 + 0.000653529136 207.1330238308 + 0.000685457693 213.1671914178 + 0.000712081606 217.8809809764 + 0.000734193782 221.5882968740 + 0.000752440585 224.5161455708 + 0.000767368567 226.8319196874 + 0.000779450630 228.6610566746 + 0.000810046954 233.1954330070 + 0.000814341569 233.8482387301 + 0.000813874550 233.7961384135 + 0.000812752643 233.6705238257 + 0.000811741950 233.5568104361 + 0.000817736617 234.8750474075 + 0.000839361094 239.7655828381 + 0.000876891522 248.6535370891 + 0.000936816682 263.4244889949 + 0.001029874879 287.1848664550 + 0.001175198404 325.4688317929 + 0.001410278350 389.1298697047 + 0.000000323907 0.1969703628 + 0.000410954508 202.3051597839 + 0.000474103996 229.7131701575 + 0.000524639406 250.6407089344 + 0.000566178595 267.1376952090 + 0.000600844975 280.4063597592 + 0.000630041325 291.2279500495 + 0.000654771681 300.1447205911 + 0.000675796645 307.5505496081 + 0.000693716286 313.7411491735 + 0.000709017878 318.9441550485 + 0.000722105187 323.3382769919 + 0.000764583158 337.3299691959 + 0.000786174164 344.3983778876 + 0.000800556505 349.1848478889 + 0.000814910451 354.0771586378 + 0.000833663150 360.6260168092 + 0.000860344699 370.1565617809 + 0.000898684631 384.1322439494 + 0.000953529934 404.4859401944 + 0.001031998150 434.0618216515 + 0.001145393641 477.3582740569 + 0.001312965005 541.9580355547 + 0.001570321763 641.5994233242 + 0.000002945354 2.4664460074 + 0.000296535423 205.8089692890 + 0.000343176046 236.2106504154 + 0.000381207070 260.3732802361 + 0.000413220179 280.2429845817 + 0.000440722039 296.9538540372 + 0.000464692413 311.2409817910 + 0.000485817839 323.6151006812 + 0.000504605632 334.4487404244 + 0.000521445713 344.0235190450 + 0.000536646854 352.5582143227 + 0.000550459308 360.2264815925 + 0.000604884751 389.7039153368 + 0.000645357842 411.0015711328 + 0.000680484228 429.2084416176 + 0.000715394231 447.1612972733 + 0.000753783565 466.8166791818 + 0.000798945367 489.8664454200 + 0.000854446364 518.0973076029 + 0.000924736889 553.6800970930 + 0.001015894120 599.4843675141 + 0.001136732723 659.4997873062 + 0.000011900817 12.0128824240 + 0.000196070850 155.5055509079 + 0.000228168254 180.0592942831 + 0.000254955148 200.0977385390 + 0.000278065559 216.9875331630 + 0.000298440522 231.5557270283 + 0.000316685772 244.3359848684 + 0.000333221241 255.6978719050 + 0.000348354016 265.9104288000 + 0.000362317889 275.1769221140 + 0.000375296547 283.6553904859 + 0.000387437982 291.4715379632 + 0.000439237608 323.6306094687 + 0.000482414171 349.1401636303 + 0.000522303366 371.8823772415 + 0.000562343603 394.1039071165 + 0.000605196032 417.3687387504 + 0.000653298023 442.9703207328 + 0.000709212161 472.1400948382 + 0.000775902838 506.1616485943 + 0.000857001997 546.4243601186 + 0.000957102634 594.4202457633 diff --git a/mytest/co2_pressure_bug_101.sel b/mytest/co2_pressure_bug_101.sel index 997f4776..fb1bf38d 100644 --- a/mytest/co2_pressure_bug_101.sel +++ b/mytest/co2_pressure_bug_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.000000168960 0.1104744780 - 0.000001158253 0.5483332757 - 0.000368270484 162.4167296581 - 0.000516067866 215.7912904296 - 0.000623518023 248.3590688910 - 0.000706005406 269.5948680094 - 0.000766080798 283.1703686590 - 0.000801500242 290.6769782838 - 0.000816185533 293.8507092234 - 0.000825783788 296.0963370730 - 0.000843270917 300.5029618351 - 0.000875102484 308.9914493898 + 0.000000168960 0.1104744704 + 0.000001158253 0.5483330172 + 0.000368270484 162.4153616847 + 0.000516067866 215.7891688791 + 0.000623518023 248.3564196701 + 0.000706005406 269.5918428592 + 0.000766080798 283.1670884416 + 0.000801500242 290.6735527969 + 0.000816185533 293.8472223918 + 0.000825783788 296.0928077036 + 0.000843270917 300.4993503254 + 0.000875102484 308.9876806033 diff --git a/mytest/co2_t30.out b/mytest/co2_t30.out index 2bc00e23..910c269d 100644 --- a/mytest/co2_t30.out +++ b/mytest/co2_t30.out @@ -342,7 +342,7 @@ H2O(g) -1.36 4.371e-02 0.961 1.761e-03 1.799e-03 3.759e-05 Specific Conductance (µS/cm, 30°C) = 99 Density (g/cm³) = 0.99697 Volume (L) = 1.00851 - Viscosity (mPa s) = 0.80437 + Viscosity (mPa s) = 0.80438 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.457e-04 Mass of water (kg) = 1.000e+00 @@ -1376,7 +1376,7 @@ H2O(g) -1.00 9.957e-02 0.433 6.025e-03 7.704e-03 1.679e-03 Specific Conductance (µS/cm, 30°C) = 257 Density (g/cm³) = 1.00994 Volume (L) = 1.04529 - Viscosity (mPa s) = 0.86569 + Viscosity (mPa s) = 0.86570 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.959e-04 Mass of water (kg) = 9.998e-01 @@ -1470,7 +1470,7 @@ H2O(g) -0.95 1.112e-01 0.388 7.704e-03 9.759e-03 2.055e-03 Specific Conductance (µS/cm, 30°C) = 258 Density (g/cm³) = 1.01033 Volume (L) = 1.04605 - Viscosity (mPa s) = 0.86714 + Viscosity (mPa s) = 0.86715 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.055e-04 Mass of water (kg) = 9.998e-01 @@ -2031,7 +2031,7 @@ H2O(g) -0.73 1.865e-01 0.232 2.668e-02 3.158e-02 4.899e-03 pH = 3.104 Charge balance pe = 2.078 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 260 + Specific Conductance (µS/cm, 30°C) = 259 Density (g/cm³) = 1.01057 Volume (L) = 1.04606 Viscosity (mPa s) = 0.86794 diff --git a/mytest/co2_t30_101.sel b/mytest/co2_t30_101.sel index 9f532e16..bff6f2b4 100644 --- a/mytest/co2_t30_101.sel +++ b/mytest/co2_t30_101.sel @@ -1,26 +1,26 @@ Mu SC - 0.000000121213 0.0706339985 - 0.000142641727 58.9478976752 - 0.000201285546 82.3910399115 - 0.000245734888 99.6790990553 - 0.000282707385 113.6822816883 - 0.000314821115 125.5334180110 - 0.000369328974 144.9125967182 - 0.000414979835 160.3621227808 - 0.000454420929 173.0911025769 - 0.000489142729 183.7967187570 - 0.000616624228 218.8543977210 - 0.000696310376 237.3157278272 - 0.000746782595 247.7234138922 - 0.000777826222 253.7155811574 - 0.000795899833 257.1145194577 - 0.000805538539 258.9301289388 - 0.000809928317 259.7723638586 - 0.000811283424 260.0392992088 - 0.000811308553 260.0445084269 - 0.000811221725 260.0290217021 - 0.000811104311 260.0087518211 - 0.000811050899 260.0001241670 - 0.000813160593 260.4910207145 - 0.000817085191 261.4291181638 - 0.000823220640 262.9331689841 + 0.000000121213 0.0706339976 + 0.000142641727 58.9478252209 + 0.000201285546 82.3909200491 + 0.000245734888 99.6789393980 + 0.000282707385 113.6820870630 + 0.000314821115 125.5331919899 + 0.000369328974 144.9123159751 + 0.000414979835 160.3617955297 + 0.000454420929 173.0907351510 + 0.000489142729 183.7963162712 + 0.000616624228 218.8538724482 + 0.000696310376 237.3151330307 + 0.000746782595 247.7227784607 + 0.000777826222 253.7149219094 + 0.000795899833 257.1138466013 + 0.000805538539 258.9294488052 + 0.000809928317 259.7716803572 + 0.000811283424 260.0386146445 + 0.000811308553 260.0438238420 + 0.000811221725 260.0283371800 + 0.000811104311 260.0080673816 + 0.000811050899 259.9994397631 + 0.000813160593 260.4903344051 + 0.000817085191 261.4284282236 + 0.000823220640 262.9324732336 diff --git a/mytest/co2_tc.out b/mytest/co2_tc.out index 16b8878b..616d3f2c 100644 --- a/mytest/co2_tc.out +++ b/mytest/co2_tc.out @@ -345,7 +345,7 @@ CO2(g) 1.82 -0.03 -1.84 1.000e+01 2.725e+00 -7.275e+00 Specific Conductance (µS/cm, 64°C) = 401 Density (g/cm³) = 1.00595 Volume (L) = 1.03832 - Viscosity (mPa s) = 0.44321 + Viscosity (mPa s) = 0.44322 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.264e-04 Mass of water (kg) = 9.993e-01 @@ -433,7 +433,7 @@ CO2(g) 1.85 -0.09 -1.95 1.000e+01 4.116e+00 -5.884e+00 Specific Conductance (µS/cm, 83°C) = 398 Density (g/cm³) = 0.99260 Volume (L) = 1.04611 - Viscosity (mPa s) = 0.34302 + Viscosity (mPa s) = 0.34303 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.310e-04 Mass of water (kg) = 9.990e-01 @@ -521,7 +521,7 @@ CO2(g) 1.88 -0.14 -2.02 1.000e+01 4.865e+00 -5.135e+00 Specific Conductance (µS/cm, 103°C) = 376 Density (g/cm³) = 0.97344 Volume (L) = 1.06262 - Viscosity (mPa s) = 0.27384 + Viscosity (mPa s) = 0.27385 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.391e-04 Mass of water (kg) = 9.984e-01 @@ -609,7 +609,7 @@ CO2(g) 1.90 -0.16 -2.06 1.000e+01 5.344e+00 -4.656e+00 Specific Conductance (µS/cm, 122°C) = 343 Density (g/cm³) = 0.95761 Volume (L) = 1.07739 - Viscosity (mPa s) = 0.22753 + Viscosity (mPa s) = 0.22754 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.560e-04 Mass of water (kg) = 9.974e-01 @@ -697,7 +697,7 @@ CO2(g) 1.92 -0.18 -2.09 1.000e+01 5.672e+00 -4.328e+00 Specific Conductance (µS/cm, 142°C) = 305 Density (g/cm³) = 0.94060 Volume (L) = 1.09487 - Viscosity (mPa s) = 0.19382 + Viscosity (mPa s) = 0.19383 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.832e-04 Mass of water (kg) = 9.961e-01 @@ -785,7 +785,7 @@ CO2(g) 1.93 -0.17 -2.10 1.000e+01 5.900e+00 -4.100e+00 Specific Conductance (µS/cm, 161°C) = 267 Density (g/cm³) = 0.92231 Volume (L) = 1.11498 - Viscosity (mPa s) = 0.16818 + Viscosity (mPa s) = 0.16819 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.209e-04 Mass of water (kg) = 9.941e-01 @@ -873,7 +873,7 @@ CO2(g) 1.94 -0.16 -2.10 1.000e+01 6.057e+00 -3.943e+00 Specific Conductance (µS/cm, 181°C) = 233 Density (g/cm³) = 0.90264 Volume (L) = 1.13779 - Viscosity (mPa s) = 0.14684 + Viscosity (mPa s) = 0.14685 Activity of water = 0.987 Ionic strength (mol/kgw) = 2.683e-04 Mass of water (kg) = 9.914e-01 @@ -961,7 +961,7 @@ CO2(g) 1.95 -0.13 -2.08 1.000e+01 6.157e+00 -3.843e+00 Specific Conductance (µS/cm, 200°C) = 131 Density (g/cm³) = 0.88144 Volume (L) = 1.16355 - Viscosity (mPa s) = 0.17280 + Viscosity (mPa s) = 0.17281 Activity of water = 0.986 Ionic strength (mol/kgw) = 2.244e-04 Mass of water (kg) = 9.878e-01 diff --git a/mytest/co2_tc_101.sel b/mytest/co2_tc_101.sel index b0227d47..87c11ed2 100644 --- a/mytest/co2_tc_101.sel +++ b/mytest/co2_tc_101.sel @@ -1,12 +1,12 @@ Mu SC 0.000000100644 0.0547821292 - 0.000813049388 293.8003961993 - 0.000799047092 369.2936343944 - 0.000726366423 401.2094569469 - 0.000630969671 398.3256015104 - 0.000539115625 376.3265269205 - 0.000455983212 343.4783533614 - 0.000383248337 305.5251979455 - 0.000320909696 267.1322655151 - 0.000268260875 233.7868565910 - 0.000224351631 131.6136480619 + 0.000813049388 293.8003975427 + 0.000799047092 369.2890820550 + 0.000726366423 401.1989370890 + 0.000630969671 398.3094139810 + 0.000539115625 376.3057555320 + 0.000455983212 343.4544599902 + 0.000383248337 305.4996610327 + 0.000320909696 267.1062461120 + 0.000268260875 233.7605163055 + 0.000224351631 131.6037831764 diff --git a/mytest/colt1_101.sel b/mytest/colt1_101.sel index dba4c2cc..fff6d44a 100644 --- a/mytest/colt1_101.sel +++ b/mytest/colt1_101.sel @@ -1,31 +1,31 @@ Mu SC - 0.001800104024 155.2535883375 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9198900851 - 0.001200104502 146.1458268817 - 0.001200104499 147.0237771984 - 0.001200104494 148.5061866605 - 0.001200104490 150.1581985891 - 0.001200104487 151.9641825708 - 0.001200104486 154.6028286181 - 0.001200104742 158.8662150764 - 0.001200143215 164.2041091799 - 0.001201958221 168.8440846209 - 0.001301434281 167.4194456132 - 0.001605491232 159.0094129955 - 0.001731506358 156.5027701007 - 0.001775159592 155.7055876428 - 0.001790798966 155.4236333595 - 0.001796570068 155.3188942042 - 0.001798744461 155.2789784332 - 0.001799576007 155.2635379045 - 0.001799897501 155.2575082954 - 0.001800022814 155.2551386552 - 0.001800071959 155.2542031626 - 0.001800091324 155.2538327020 + 0.001800104024 155.2535903180 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9198902973 + 0.001200104502 146.1458271079 + 0.001200104499 147.0237774784 + 0.001200104494 148.5061870271 + 0.001200104490 150.1581990379 + 0.001200104487 151.9641830722 + 0.001200104486 154.6028291366 + 0.001200104742 158.8662155799 + 0.001200143215 164.2041096502 + 0.001201958221 168.8440850614 + 0.001301434281 167.4194461924 + 0.001605491232 159.0094142230 + 0.001731506358 156.5027717621 + 0.001775159592 155.7055894982 + 0.001790798966 155.4236352920 + 0.001796570068 155.3188961662 + 0.001798744461 155.2789804066 + 0.001799576007 155.2635398823 + 0.001799897501 155.2575102748 + 0.001800022814 155.2551406352 + 0.001800071959 155.2542051429 + 0.001800091324 155.2538346824 diff --git a/mytest/colt2.prn b/mytest/colt2.prn index 4447ebc6..070f4e15 100644 --- a/mytest/colt2.prn +++ b/mytest/colt2.prn @@ -24,23 +24,23 @@ 18.5 0.000000000000e+00 0.000000000000e+00 2.400000000000e-02 0.000000000000e+00 19.5 2.400000000000e+01 2.400000000000e-02 0.000000000000e+00 2.400000000000e-02 0 2.400000000000e+01 2.400000000000e-02 0.000000000000e+00 2.400000000000e-02 - 0.5 1.686181418415e+01 1.686181417825e-02 7.138185813358e-03 2.011377529319e-02 - 1.5 6.421492325960e+00 6.421492322361e-03 1.757850766419e-02 1.294968671940e-02 - 2.5 1.759908541854e+00 1.759908541130e-03 2.224009144900e-02 7.342808261286e-03 - 3.5 3.571924631562e-01 3.571924630780e-04 2.364280753160e-02 3.623408283676e-03 - 4.5 5.490209781371e-02 5.490209780930e-05 2.394509789986e-02 1.538555967128e-03 - 5.5 6.484238380348e-03 6.484238380220e-06 2.399351576077e-02 5.556625533105e-04 - 6.5 5.926340095484e-04 5.926340095767e-07 2.399940736573e-02 1.684990632467e-04 - 7.5 4.190926756604e-05 4.190926757871e-08 2.399995809067e-02 4.224784404200e-05 - 8.5 2.276345750780e-06 2.276345752571e-09 2.399999772364e-02 8.664946370886e-06 - 9.5 1.396593677778e-07 1.396593678722e-10 2.399999986033e-02 2.055609847092e-06 - 10.5 1.138869021831e-06 1.138869022560e-09 2.399999886112e-02 4.374443607422e-06 - 11.5 2.090811414205e-05 2.090811414828e-08 2.399997909185e-02 2.044715368546e-05 - 12.5 2.951795282278e-04 2.951795282434e-07 2.399970482035e-02 7.995922685932e-05 - 13.5 3.221164570742e-03 3.221164570741e-06 2.399677883504e-02 2.567109777338e-04 - 14.5 2.715473190226e-02 2.715473190153e-05 2.397284526706e-02 6.850286499837e-04 - 15.5 1.753541123879e-01 1.753541123719e-04 2.382464588536e-02 1.533872870595e-03 - 16.5 8.525032220200e-01 8.525032218799e-04 2.314749677416e-02 2.902126148036e-03 - 17.5 3.032149931402e+00 3.032149930750e-03 2.096785006409e-02 4.663139220088e-03 - 18.5 7.550952821146e+00 7.550952819911e-03 1.644904717616e-02 6.385483516912e-03 - 19.5 1.235834674495e+01 1.235834674477e-02 1.164165325488e-02 7.468268986451e-03 + 0.5 1.686181418171e+01 1.686181417825e-02 7.138185813358e-03 2.011377529319e-02 + 1.5 6.421492325340e+00 6.421492322361e-03 1.757850766419e-02 1.294968671940e-02 + 2.5 1.759908542190e+00 1.759908541130e-03 2.224009144900e-02 7.342808261286e-03 + 3.5 3.571924633149e-01 3.571924630780e-04 2.364280753160e-02 3.623408283676e-03 + 4.5 5.490209784602e-02 5.490209780930e-05 2.394509789986e-02 1.538555967128e-03 + 5.5 6.484238384543e-03 6.484238380220e-06 2.399351576077e-02 5.556625533105e-04 + 6.5 5.926340099388e-04 5.926340095767e-07 2.399940736573e-02 1.684990632467e-04 + 7.5 4.190926759329e-05 4.190926757871e-08 2.399995809067e-02 4.224784404200e-05 + 8.5 2.276345752225e-06 2.276345752571e-09 2.399999772364e-02 8.664946370886e-06 + 9.5 1.396593678491e-07 1.396593678722e-10 2.399999986033e-02 2.055609847092e-06 + 10.5 1.138869022165e-06 1.138869022560e-09 2.399999886112e-02 4.374443607422e-06 + 11.5 2.090811414807e-05 2.090811414828e-08 2.399997909185e-02 2.044715368546e-05 + 12.5 2.951795283095e-04 2.951795282434e-07 2.399970482035e-02 7.995922685932e-05 + 13.5 3.221164571556e-03 3.221164570740e-06 2.399677883504e-02 2.567109777338e-04 + 14.5 2.715473190776e-02 2.715473190153e-05 2.397284526706e-02 6.850286499837e-04 + 15.5 1.753541124074e-01 1.753541123719e-04 2.382464588536e-02 1.533872870595e-03 + 16.5 8.525032219987e-01 8.525032218799e-04 2.314749677416e-02 2.902126148036e-03 + 17.5 3.032149930886e+00 3.032149930750e-03 2.096785006409e-02 4.663139220088e-03 + 18.5 7.550952819370e+00 7.550952819911e-03 1.644904717616e-02 6.385483516912e-03 + 19.5 1.235834674267e+01 1.235834674477e-02 1.164165325488e-02 7.468268986451e-03 diff --git a/mytest/colt2_101.sel b/mytest/colt2_101.sel index d0c72c84..d70353bb 100644 --- a/mytest/colt2_101.sel +++ b/mytest/colt2_101.sel @@ -1,46 +1,46 @@ Mu SC - 0.024000110928 2687.0338265021 - 0.024000110928 2687.0338265021 - 0.024000110928 2687.0338265021 - 0.024000110928 2687.0338265021 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000063085 1677.3319466233 - 0.024000110928 2687.0338265021 - 0.024000110928 2687.0338265021 - 0.024000083838 2422.4277912258 - 0.024000057843 1993.1817101233 - 0.024000054897 1780.7336136796 - 0.024000057984 1707.4611584243 - 0.024000060741 1686.1805451545 - 0.024000062215 1679.9859884108 - 0.024000062819 1678.0811327039 - 0.024000063018 1677.5154747395 - 0.024000063072 1677.3693322854 - 0.024000063082 1677.3407995343 - 0.024000063078 1677.3508201422 - 0.024000063053 1677.4207965254 - 0.024000062959 1677.6880352563 - 0.024000062682 1678.5672454479 - 0.024000062036 1681.3807187485 - 0.024000060898 1691.0491354415 - 0.024000059710 1724.4363452941 - 0.024000060440 1820.0351579533 - 0.024000066725 2006.0106462926 - 0.024000077151 2193.3692690667 + 0.024000110928 2687.0400242709 + 0.024000110928 2687.0400242709 + 0.024000110928 2687.0400242709 + 0.024000110928 2687.0400242709 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000063085 1677.3420270034 + 0.024000110928 2687.0400242709 + 0.024000110928 2687.0400242709 + 0.024000083838 2422.4608079786 + 0.024000057843 1993.2154277413 + 0.024000054897 1780.7565374004 + 0.024000057984 1707.4772691380 + 0.024000060741 1686.1931313841 + 0.024000062215 1679.9969670515 + 0.024000062819 1678.0914848332 + 0.024000063018 1677.5256232074 + 0.024000063072 1677.3794266273 + 0.024000063082 1677.3508832264 + 0.024000063078 1677.3609075709 + 0.024000063053 1677.4309098606 + 0.024000062959 1677.6982446238 + 0.024000062682 1678.5777412012 + 0.024000062036 1681.3919182047 + 0.024000060898 1691.0617906997 + 0.024000059710 1724.4516237389 + 0.024000060440 1820.0545634891 + 0.024000066725 2006.0344921633 + 0.024000077151 2193.3939524000 diff --git a/mytest/colt3_101.sel b/mytest/colt3_101.sel index 9e4692c1..21f3ee1b 100644 --- a/mytest/colt3_101.sel +++ b/mytest/colt3_101.sel @@ -1,298 +1,298 @@ Mu SC - 0.001500285623 191.5494546095 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001395679965 189.1171935137 - 0.001069994956 150.7810924939 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001088986182 153.2974707415 - 0.001015872515 143.5541981853 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001457052163 193.0283344305 - 0.001338384305 185.2445935196 - 0.001100848099 155.4188183521 - 0.001009944927 142.7406503562 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001171614033 163.9102507050 - 0.001088273817 153.6028122738 - 0.001022798798 144.5856821364 - 0.001002391768 141.6536042602 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001471369697 192.4329245692 - 0.001420850110 192.7845657758 - 0.001299824080 181.9290092312 - 0.001114457138 157.6151493704 - 0.001020593777 144.3011358902 - 0.001001564532 141.5337563672 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001238906766 172.1320332571 - 0.001162934518 163.5471087750 - 0.001084988743 153.3819662886 - 0.001027549540 145.3041386594 - 0.001004782349 142.0051842433 - 0.001000510437 141.3792191109 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001478052785 191.8884003297 - 0.001446881234 193.2243801396 - 0.001387627494 191.4210460320 - 0.001271888878 179.1409598786 - 0.001119591442 158.5373267540 - 0.001029639173 145.6370829104 - 0.001003935873 141.8827547869 - 0.001000394991 141.3622654070 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001292593120 178.3628552041 - 0.001226678269 171.6233855710 - 0.001152928706 162.6890499573 - 0.001082401754 153.1592846647 - 0.001030556065 145.7645075168 - 0.001007049604 142.3397684767 - 0.001001042784 141.4576698018 - 0.001000247885 141.3405962426 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001500285623 191.5494546095 - 0.001482723155 191.6573848561 - 0.001459304415 192.6887408656 - 0.001422496943 193.3710153239 - 0.001358494563 189.4700855774 - 0.001249985046 176.7105296169 - 0.001120456880 158.7873611110 - 0.001036614654 146.6722341314 - 0.001006772029 142.3008460502 - 0.001000849462 141.4292709893 - 0.001000231773 141.3382219966 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001335275781 183.0530897268 - 0.001278900966 177.8847774817 - 0.001213444605 170.6281814368 - 0.001144382367 161.8239328144 - 0.001079816104 152.8788941035 - 0.001032508623 146.0658169222 - 0.001009028382 142.6323069618 - 0.001001712502 141.5564414121 - 0.001000349910 141.3556442484 - 0.001000211243 141.3351941700 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001482723155 191.6573848561 - 0.001459304415 192.6887408656 - 0.001422496943 193.3710153237 - 0.001358494564 189.4700855768 - 0.001249985046 176.7105296169 - 0.001120456880 158.7873611110 - 0.001036614654 146.6722341314 - 0.001006772029 142.3008460502 - 0.001000849463 141.4292709877 - 0.001000231773 141.3382219993 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001000205301 141.3343175114 - 0.001004000079 141.4211768092 - 0.001009202750 141.4717617480 - 0.001016774434 141.3940561107 - 0.001027003029 141.2043431542 - 0.001040288007 141.2940157602 - 0.001057188283 142.4258587696 - 0.001079045163 145.4217136465 - 0.001108544746 150.7754997776 - 0.001148082302 158.3513281664 - 0.001194065064 166.9289712461 - 0.001232558980 173.9867048384 - 0.001246443110 176.8890342751 - 0.001229281317 174.8026004253 - 0.001188320939 168.9619958144 - 0.001136831642 161.4479852014 - 0.001087291595 154.1695713498 - 0.001048246537 148.4189749859 - 0.001022812680 144.6691998853 - 0.001009173118 142.6573670344 - 0.001003449015 141.8128990873 + 0.001500285623 191.5494551856 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001395679965 189.1171938932 + 0.001069994956 150.7810925985 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001088986182 153.2974708582 + 0.001015872515 143.5541982570 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001457052163 193.0283349002 + 0.001338384305 185.2445938231 + 0.001100848099 155.4188184736 + 0.001009944927 142.7406504245 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001171614033 163.9102508787 + 0.001088273817 153.6028123880 + 0.001022798798 144.5856822117 + 0.001002391768 141.6536043245 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001471369697 192.4329250742 + 0.001420850110 192.7845661747 + 0.001299824080 181.9290094919 + 0.001114457138 157.6151494986 + 0.001020593777 144.3011359642 + 0.001001564532 141.5337564310 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001238906766 172.1320334834 + 0.001162934518 163.5471089382 + 0.001084988743 153.3819663996 + 0.001027549540 145.3041387372 + 0.001004782349 142.0051843088 + 0.001000510437 141.3792191742 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001478052785 191.8884008538 + 0.001446881234 193.2243805868 + 0.001387627494 191.4210463784 + 0.001271888878 179.1409601122 + 0.001119591442 158.5373268842 + 0.001029639173 145.6370829892 + 0.001003935873 141.8827548521 + 0.001000394991 141.3622654703 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001292593120 178.3628554771 + 0.001226678269 171.6233857812 + 0.001152928706 162.6890501110 + 0.001082401754 153.1592847735 + 0.001030556065 145.7645075961 + 0.001007049604 142.3397685435 + 0.001001042784 141.4576698654 + 0.001000247885 141.3405963058 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001500285623 191.5494551856 + 0.001482723155 191.6573853924 + 0.001459304415 192.6887413429 + 0.001422496943 193.3710157212 + 0.001358494563 189.4700858856 + 0.001249985046 176.7105298314 + 0.001120456880 158.7873612411 + 0.001036614654 146.6722342139 + 0.001006772029 142.3008461168 + 0.001000849462 141.4292710528 + 0.001000231773 141.3382220598 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001335275781 183.0530900408 + 0.001278900966 177.8847777350 + 0.001213444605 170.6281816329 + 0.001144382367 161.8239329609 + 0.001079816104 152.8788942104 + 0.001032508623 146.0658170025 + 0.001009028382 142.6323070295 + 0.001001712502 141.5564414761 + 0.001000349910 141.3556443116 + 0.001000211243 141.3351942332 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001482723155 191.6573853924 + 0.001459304415 192.6887413429 + 0.001422496943 193.3710157210 + 0.001358494564 189.4700858850 + 0.001249985046 176.7105298314 + 0.001120456880 158.7873612411 + 0.001036614654 146.6722342139 + 0.001006772029 142.3008461168 + 0.001000849463 141.4292710512 + 0.001000231773 141.3382220625 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001000205301 141.3343175745 + 0.001004000079 141.4211768764 + 0.001009202750 141.4717618213 + 0.001016774434 141.3940561936 + 0.001027003029 141.2043432509 + 0.001040288007 141.2940158739 + 0.001057188283 142.4258589002 + 0.001079045163 145.4217137915 + 0.001108544746 150.7754999349 + 0.001148082302 158.3513283380 + 0.001194065064 166.9289714353 + 0.001232558980 173.9867050430 + 0.001246443110 176.8890344830 + 0.001229281317 174.8026006198 + 0.001188320939 168.9619959831 + 0.001136831642 161.4479853395 + 0.001087291595 154.1695714598 + 0.001048246537 148.4189750745 + 0.001022812680 144.6691999603 + 0.001009173118 142.6573671022 + 0.001003449015 141.8128991522 diff --git a/mytest/colt3_mi_101.sel b/mytest/colt3_mi_101.sel index 2b12b803..bbe7916a 100644 --- a/mytest/colt3_mi_101.sel +++ b/mytest/colt3_mi_101.sel @@ -1,107 +1,107 @@ Mu SC - 0.001500213609 191.5403778056 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001482651999 191.6484031992 - 0.001459234548 192.6798854732 - 0.001422429148 193.3622597392 - 0.001358430156 189.4614833808 - 0.001249925875 176.7023859107 - 0.001120403583 158.7799229486 - 0.001036565059 146.6652944708 - 0.001006723736 142.2940897532 - 0.001000801426 141.4225515603 - 0.001000183765 141.3315064347 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001482651999 191.6484031992 - 0.001459234548 192.6798854732 - 0.001422429148 193.3622597391 - 0.001358430156 189.4614833802 - 0.001249925875 176.7023859107 - 0.001120403583 158.7799229486 - 0.001036565059 146.6652944708 - 0.001006723736 142.2940897532 - 0.001000801428 141.4225515587 - 0.001000183765 141.3315064374 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001000157293 141.3276021158 - 0.001012167077 141.4811024741 - 0.001027669474 140.7962254564 - 0.001052594210 140.7105831962 - 0.001100025007 145.4779894762 - 0.001186334109 158.9818404751 - 0.001286913931 176.6537835334 - 0.001333154582 186.4947603753 - 0.001313518825 185.7280801226 - 0.001255199499 178.2628688164 - 0.001179934378 167.6384171012 - 0.001105834104 156.8670508085 - 0.001049956668 148.6654121433 - 0.001018464238 144.0273616287 - 0.001005312480 142.0880944913 - 0.001001251561 141.4890470542 - 0.001000328814 141.3529087308 - 0.001000176515 141.3304381452 - 0.001000158749 141.3278169349 - 0.001000157360 141.3276119682 - 0.001000157295 141.3276023225 - 0.001003951918 141.4144518597 - 0.001009154334 141.4650063504 - 0.001016725609 141.3872458465 - 0.001026953607 141.1974749745 - 0.001040237772 141.2871227462 - 0.001057136994 142.4189778300 - 0.001078992550 145.4148168759 - 0.001108490502 150.7684620648 - 0.001148026160 158.3439831556 - 0.001194007039 166.9212252011 - 0.001232499697 173.9786223810 - 0.001246383787 176.8808208221 - 0.001229223262 174.7944923781 - 0.001188265019 168.9541575243 - 0.001136778105 161.4404759165 - 0.001087240183 154.1623646071 - 0.001048196708 148.4119960062 - 0.001022763836 144.6623634393 - 0.001009124786 142.6506045834 - 0.001003400892 141.8061669495 + 0.001500213609 191.5403783816 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001482651999 191.6484037355 + 0.001459234548 192.6798859505 + 0.001422429148 193.3622601365 + 0.001358430156 189.4614836889 + 0.001249925875 176.7023861251 + 0.001120403583 158.7799230787 + 0.001036565059 146.6652945533 + 0.001006723736 142.2940898198 + 0.001000801426 141.4225516238 + 0.001000183765 141.3315064979 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001482651999 191.6484037355 + 0.001459234548 192.6798859505 + 0.001422429148 193.3622601363 + 0.001358430156 189.4614836884 + 0.001249925875 176.7023861251 + 0.001120403583 158.7799230787 + 0.001036565059 146.6652945533 + 0.001006723736 142.2940898198 + 0.001000801428 141.4225516222 + 0.001000183765 141.3315065006 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001000157293 141.3276021789 + 0.001012167077 141.4811025509 + 0.001027669474 140.7962255560 + 0.001052594210 140.7105833296 + 0.001100025007 145.4779896512 + 0.001186334109 158.9818407014 + 0.001286913931 176.6537838087 + 0.001333154582 186.4947606607 + 0.001313518825 185.7280803801 + 0.001255199499 178.2628690292 + 0.001179934378 167.6384172655 + 0.001105834104 156.8670509291 + 0.001049956668 148.6654122329 + 0.001018464238 144.0273617015 + 0.001005312480 142.0880945571 + 0.001001251561 141.4890471180 + 0.001000328814 141.3529087941 + 0.001000176515 141.3304382084 + 0.001000158749 141.3278169981 + 0.001000157360 141.3276120313 + 0.001000157295 141.3276023857 + 0.001003951918 141.4144519269 + 0.001009154334 141.4650064237 + 0.001016725609 141.3872459294 + 0.001026953607 141.1974750712 + 0.001040237772 141.2871228598 + 0.001057136994 142.4189779606 + 0.001078992550 145.4148170208 + 0.001108490502 150.7684622221 + 0.001148026160 158.3439833271 + 0.001194007039 166.9212253903 + 0.001232499697 173.9786225856 + 0.001246383787 176.8808210299 + 0.001229223262 174.7944925726 + 0.001188265019 168.9541576930 + 0.001136778105 161.4404760546 + 0.001087240183 154.1623647171 + 0.001048196708 148.4119960948 + 0.001022763836 144.6623635144 + 0.001009124786 142.6506046512 + 0.001003400892 141.8061670143 diff --git a/mytest/colt4.out b/mytest/colt4.out index b0270979..032296dd 100644 --- a/mytest/colt4.out +++ b/mytest/colt4.out @@ -72,7 +72,7 @@ Initial solution 1. Solution with calcite and FeS2 Specific Conductance (µS/cm, 20°C) = 1233 Density (g/cm³) = 0.99870 Volume (L) = 1.00189 - Viscosity (mPa s) = 1.00615 + Viscosity (mPa s) = 1.00612 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.819e-02 Mass of water (kg) = 1.000e+00 @@ -241,7 +241,7 @@ Pyrite 0.00 -18.62 -18.62 5.000e-02 5.000e-02 8.520e-07 Specific Conductance (µS/cm, 20°C) = 1240 Density (g/cm³) = 0.99871 Volume (L) = 1.00189 - Viscosity (mPa s) = 1.00624 + Viscosity (mPa s) = 1.00621 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.833e-02 Mass of water (kg) = 1.000e+00 @@ -509,7 +509,7 @@ Z 1.813e-03 mol [0.1 (mol Z)/(mol Goethite)] Specific Conductance (µS/cm, 20°C) = 2842 Density (g/cm³) = 1.00046 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.01732 + Viscosity (mPa s) = 1.01726 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.060e-02 Mass of water (kg) = 1.000e+00 @@ -711,7 +711,7 @@ Z 1.190e-03 mol [0.1 (mol Z)/(mol Goethite)] Specific Conductance (µS/cm, 20°C) = 4788 Density (g/cm³) = 1.00306 Volume (L) = 1.00216 - Viscosity (mPa s) = 1.02659 + Viscosity (mPa s) = 1.02652 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.171e-02 Mass of water (kg) = 1.000e+00 @@ -907,10 +907,10 @@ Z 4.506e-18 mol [0.1 (mol Z)/(mol Goethite)] pH = 6.120 Charge balance pe = -1.190 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 7681 + Specific Conductance (µS/cm, 20°C) = 7682 Density (g/cm³) = 1.00735 Volume (L) = 1.00269 - Viscosity (mPa s) = 1.03663 + Viscosity (mPa s) = 1.03653 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.558e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/colt4_101.sel b/mytest/colt4_101.sel index d1caf0af..850b3548 100644 --- a/mytest/colt4_101.sel +++ b/mytest/colt4_101.sel @@ -1,7 +1,7 @@ Mu SC - 0.018186548893 1233.2718301115 - 0.018326353893 1240.4877910119 - 0.018326353893 1240.4877910119 - 0.050597979934 2842.7770239262 - 0.091708305759 4788.4393941413 - 0.155840726789 7681.8656499303 + 0.018186548893 1233.3038736372 + 0.018326353893 1240.5201031982 + 0.018326353893 1240.5201031982 + 0.050597979934 2842.8523604522 + 0.091708305759 4788.5658324507 + 0.155840726789 7682.0657257552 diff --git a/mytest/colt5_101.sel b/mytest/colt5_101.sel index 549f3519..a7f7b565 100644 --- a/mytest/colt5_101.sel +++ b/mytest/colt5_101.sel @@ -1,14 +1,14 @@ Mu SC - 0.000012355300 4.8297795769 - 0.000012355300 4.8297795769 - 0.000012355300 4.8297795769 - 0.001103059211 73.7863471195 - 0.001104939432 73.9033359920 - 0.001103272574 73.7996852207 - 0.001107257119 74.0507952466 - 0.001103516878 73.8153880976 - 0.001109600142 74.2001944450 - 0.001103742124 73.8296347968 - 0.001111921538 74.3479477776 - 0.001103979866 73.8448365961 - 0.001114260839 74.4970724923 + 0.000012355300 4.8297795796 + 0.000012355300 4.8297795796 + 0.000012355300 4.8297795796 + 0.001103059211 73.7863477356 + 0.001104939432 73.9033366097 + 0.001103272574 73.7996858371 + 0.001107257119 74.0507958661 + 0.001103516878 73.8153887142 + 0.001109600142 74.2001950664 + 0.001103742124 73.8296354135 + 0.001111921538 74.3479484010 + 0.001103979866 73.8448372130 + 0.001114260839 74.4970731176 diff --git a/mytest/comments_101.sel b/mytest/comments_101.sel index 73c77e16..79d38912 100644 --- a/mytest/comments_101.sel +++ b/mytest/comments_101.sel @@ -1,6 +1,6 @@ Mu SC 0.000050410055 34.9719763831 - 0.000005013586 3.4829438106 + 0.000005013586 3.4829438113 0.000000505482 0.3498138892 0.000040007135 27.7610288383 0.000000505482 0.3498138892 diff --git a/mytest/connect_graph_101.sel b/mytest/connect_graph_101.sel index 5e350970..c544047f 100644 --- a/mytest/connect_graph_101.sel +++ b/mytest/connect_graph_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 - 0.024000115309 2742.5219040802 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 + 0.024000115309 2742.5219546468 diff --git a/mytest/convert_units_101.sel b/mytest/convert_units_101.sel index bc49bf39..978a1510 100644 --- a/mytest/convert_units_101.sel +++ b/mytest/convert_units_101.sel @@ -1,2 +1,2 @@ Mu SC - 1.034529556313 346914.9251999556 + 1.034529556313 346914.9682166146 diff --git a/mytest/cumulativetime_101.sel b/mytest/cumulativetime_101.sel index 04040293..5706e2f0 100644 --- a/mytest/cumulativetime_101.sel +++ b/mytest/cumulativetime_101.sel @@ -1,14 +1,14 @@ Mu SC 0.000000100645 0.0546904668 - 0.000429773177 80.8222934253 - 0.000429610111 80.9164724698 - 0.000429588273 80.9291364038 - 0.000429773198 80.8222812612 - 0.000429792556 80.8111457508 - 0.000429811508 80.8002526951 - 0.000429773219 80.8222690729 - 0.000429610120 80.9164671599 - 0.000429588274 80.9291358404 - 0.000429773240 80.8222569425 - 0.000429792772 80.8110213238 - 0.000429811716 80.8001330348 + 0.000429773177 80.8222938746 + 0.000429610111 80.9164729174 + 0.000429588273 80.9291368511 + 0.000429773198 80.8222817105 + 0.000429792556 80.8111462003 + 0.000429811508 80.8002531448 + 0.000429773219 80.8222695222 + 0.000429610120 80.9164676076 + 0.000429588274 80.9291362878 + 0.000429773240 80.8222573918 + 0.000429792772 80.8110217733 + 0.000429811716 80.8001334845 diff --git a/mytest/d1.prn b/mytest/d1.prn index 560cae8e..f485b3e2 100644 --- a/mytest/d1.prn +++ b/mytest/d1.prn @@ -11,13 +11,13 @@ 8.5000e-09 3.0000e-01 9.0196e-02 3.9020e-01 1.0000e+00 0.0000e+00 1.0000e+00 7.0000e+00 9.5000e-09 3.0000e-01 9.0196e-02 3.9020e-01 1.0000e+00 0.0000e+00 1.0000e+00 7.0000e+00 0.0000e+00 1.0000e+00 0.0000e+00 1.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 7.0000e+00 - 5.0000e-10 1.9893e-01 1.9127e-01 3.9020e-01 1.8477e-01 0.0000e+00 1.8548e-01 6.1514e+00 - 1.5000e-09 2.6664e-01 1.2355e-01 3.9020e-01 5.0377e-01 0.0000e+00 5.0484e-01 5.9768e+00 - 2.5000e-09 2.8578e-01 1.0442e-01 3.9020e-01 7.2864e-01 0.0000e+00 7.2958e-01 6.0360e+00 - 3.5000e-09 2.9409e-01 9.6108e-02 3.9020e-01 8.7201e-01 0.0000e+00 8.7270e-01 6.1630e+00 - 4.5000e-09 2.9774e-01 9.2457e-02 3.9020e-01 9.4794e-01 0.0000e+00 9.4841e-01 6.3199e+00 - 5.5000e-09 2.9922e-01 9.0971e-02 3.9020e-01 9.8160e-01 0.0000e+00 9.8190e-01 6.4851e+00 - 6.5000e-09 2.9976e-01 9.0432e-02 3.9020e-01 9.9430e-01 0.0000e+00 9.9449e-01 6.6406e+00 - 7.5000e-09 2.9994e-01 9.0259e-02 3.9020e-01 9.9843e-01 0.0000e+00 9.9854e-01 6.7693e+00 - 8.5000e-09 2.9999e-01 9.0211e-02 3.9020e-01 9.9961e-01 0.0000e+00 9.9967e-01 6.8583e+00 - 9.5000e-09 3.0000e-01 9.0199e-02 3.9020e-01 9.9989e-01 0.0000e+00 9.9994e-01 6.9027e+00 + 5.0000e-10 1.9914e-01 1.9105e-01 3.9020e-01 1.8533e-01 0.0000e+00 1.8597e-01 6.1869e+00 + 1.5000e-09 2.6690e-01 1.2330e-01 3.9020e-01 5.0619e-01 0.0000e+00 5.0714e-01 6.0273e+00 + 2.5000e-09 2.8603e-01 1.0416e-01 3.9020e-01 7.3264e-01 0.0000e+00 7.3345e-01 6.0985e+00 + 3.5000e-09 2.9427e-01 9.5923e-02 3.9020e-01 8.7575e-01 0.0000e+00 8.7633e-01 6.2352e+00 + 4.5000e-09 2.9785e-01 9.2350e-02 3.9020e-01 9.5038e-01 0.0000e+00 9.5076e-01 6.3982e+00 + 5.5000e-09 2.9928e-01 9.0921e-02 3.9020e-01 9.8283e-01 0.0000e+00 9.8307e-01 6.5641e+00 + 6.5000e-09 2.9978e-01 9.0412e-02 3.9020e-01 9.9480e-01 0.0000e+00 9.9494e-01 6.7127e+00 + 7.5000e-09 2.9994e-01 9.0252e-02 3.9020e-01 9.9861e-01 0.0000e+00 9.9869e-01 6.8278e+00 + 8.5000e-09 2.9999e-01 9.0209e-02 3.9020e-01 9.9966e-01 0.0000e+00 9.9971e-01 6.9017e+00 + 9.5000e-09 3.0000e-01 9.0199e-02 3.9020e-01 9.9991e-01 0.0000e+00 9.9994e-01 6.9365e+00 diff --git a/mytest/ddl_flux.out b/mytest/ddl_flux.out index 6f5f1bb2..2c6e55ba 100644 --- a/mytest/ddl_flux.out +++ b/mytest/ddl_flux.out @@ -1121,7 +1121,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.581e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -1138,13 +1138,13 @@ Su Element Moles Cl 4.9520e-03 - Cl_tr 4.2437e-08 + Cl_tr 4.2397e-08 H 6.1817e-07 - Hto 4.3025e-07 + Hto 4.2808e-07 Na 5.0486e-01 - Na_tr 4.3607e-06 - O 6.4880e-09 - Sr_tr 4.4311e-05 + Na_tr 4.3223e-06 + O 6.4921e-09 + Sr_tr 4.3902e-05 Su 5.000e-01 moles @@ -1158,22 +1158,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 8.570e-07 4.285e-07 - Hto 8.605e-07 4.302e-07 + Cl_tr 8.562e-07 4.281e-07 + Hto 8.562e-07 4.281e-07 Na 1.000e-01 5.000e-02 - Na_tr 8.637e-07 4.319e-07 - Sr_tr 8.693e-07 4.346e-07 + Na_tr 8.561e-07 4.281e-07 + Sr_tr 8.612e-07 4.306e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.527 Adjusted to redox equilibrium + pe = 11.701 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.839e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.036e-09 + Electrical balance (eq) = 1.848e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1189,20 +1189,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 8.570e-07 - Cl_tr- 8.570e-07 8.570e-07 -6.067 -6.067 -0.000 (0) +Cl_tr 8.562e-07 + Cl_tr- 8.562e-07 8.562e-07 -6.067 -6.067 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.214 -40.204 0.010 (0) -Hto 8.605e-07 - Hto 8.605e-07 8.605e-07 -6.065 -6.065 0.000 (0) + H2 0.000e+00 0.000e+00 -40.562 -40.552 0.010 (0) +Hto 8.562e-07 + Hto 8.562e-07 8.562e-07 -6.067 -6.067 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 8.637e-07 - Na_tr+ 8.637e-07 8.637e-07 -6.064 -6.064 -0.000 (0) -O(0) 2.067e-12 - O2 1.033e-12 1.057e-12 -11.986 -11.976 0.010 (0) -Sr_tr 8.693e-07 - Sr_tr+2 8.693e-07 8.692e-07 -6.061 -6.061 -0.000 (0) +Na_tr 8.561e-07 + Na_tr+ 8.561e-07 8.561e-07 -6.067 -6.067 -0.000 (0) +O(0) 1.030e-11 + O2 5.150e-12 5.270e-12 -11.288 -11.278 0.010 (0) +Sr_tr 8.612e-07 + Sr_tr+2 8.612e-07 8.612e-07 -6.065 -6.065 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -1211,11 +1211,11 @@ Sr_tr 8.693e-07 A_cl 6.83 -7.17 -14.00 NaCl_tr A_hto 8.93 -6.07 -15.00 Hto A_na 6.82 -7.18 -14.00 Na_trCl - A_sr 5.71 -8.29 -14.00 Sr_trCl2 - H2(g) -37.05 -40.20 -3.15 H2 + A_sr 5.70 -8.30 -14.00 Sr_trCl2 + H2(g) -37.40 -40.55 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -9.08 -11.98 -2.89 O2 + O2(g) -8.39 -11.28 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1251,13 +1251,13 @@ Su Element Moles Cl 4.9518e-03 - Cl_tr 2.9133e-08 + Cl_tr 2.9028e-08 H 6.1821e-07 - Hto 2.9878e-07 - Na 5.0488e-01 - Na_tr 3.0601e-06 - O 6.4888e-09 - Sr_tr 3.1644e-05 + Hto 2.9310e-07 + Na 5.0489e-01 + Na_tr 2.9594e-06 + O 6.5022e-09 + Sr_tr 3.0563e-05 Su 5.000e-01 moles @@ -1271,22 +1271,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 5.883e-07 2.942e-07 - Hto 5.976e-07 2.988e-07 + Cl_tr 5.862e-07 2.931e-07 + Hto 5.862e-07 2.931e-07 Na 1.000e-01 5.000e-02 - Na_tr 6.061e-07 3.031e-07 - Sr_tr 6.207e-07 3.103e-07 + Na_tr 5.862e-07 2.931e-07 + Sr_tr 5.995e-07 2.998e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.611 Adjusted to redox equilibrium + pe = 11.822 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.836e-09 + Total alkalinity (eq/kg) = 9.835e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.062e-09 + Electrical balance (eq) = 9.900e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1302,33 +1302,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.883e-07 - Cl_tr- 5.883e-07 5.883e-07 -6.230 -6.230 -0.000 (0) +Cl_tr 5.862e-07 + Cl_tr- 5.862e-07 5.862e-07 -6.232 -6.232 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.382 -40.372 0.010 (0) -Hto 5.976e-07 - Hto 5.976e-07 5.976e-07 -6.224 -6.224 0.000 (0) + H2 0.000e+00 0.000e+00 -40.804 -40.794 0.010 (0) +Hto 5.862e-07 + Hto 5.862e-07 5.862e-07 -6.232 -6.232 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.061e-07 - Na_tr+ 6.061e-07 6.061e-07 -6.217 -6.217 -0.000 (0) -O(0) 4.496e-12 - O2 2.248e-12 2.300e-12 -11.648 -11.638 0.010 (0) -Sr_tr 6.207e-07 - Sr_tr+2 6.207e-07 6.207e-07 -6.207 -6.207 -0.000 (0) +Na_tr 5.862e-07 + Na_tr+ 5.862e-07 5.862e-07 -6.232 -6.232 -0.000 (0) +O(0) 3.136e-11 + O2 1.568e-11 1.604e-11 -10.805 -10.795 0.010 (0) +Sr_tr 5.995e-07 + Sr_tr+2 5.995e-07 5.995e-07 -6.222 -6.222 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.66 -7.34 -14.00 NaCl_tr - A_hto 8.78 -6.22 -15.00 Hto - A_na 6.67 -7.33 -14.00 Na_trCl - A_sr 5.56 -8.44 -14.00 Sr_trCl2 - H2(g) -37.22 -40.37 -3.15 H2 + A_hto 8.77 -6.23 -15.00 Hto + A_na 6.65 -7.35 -14.00 Na_trCl + A_sr 5.54 -8.46 -14.00 Sr_trCl2 + H2(g) -37.64 -40.79 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.75 -11.64 -2.89 O2 + O2(g) -7.90 -10.79 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1347,7 +1347,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.582e-11 Surface + diffuse layer charge, eq + 1.581e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -1363,14 +1363,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9515e-03 - Cl_tr 1.8092e-08 - H 6.1823e-07 - Hto 1.8848e-07 + Cl 4.9516e-03 + Cl_tr 1.7960e-08 + H 6.1824e-07 + Hto 1.8135e-07 Na 5.0491e-01 - Na_tr 1.9580e-06 - O 6.4891e-09 - Sr_tr 2.0725e-05 + Na_tr 1.8311e-06 + O 6.5141e-09 + Sr_tr 1.9349e-05 Su 5.000e-01 moles @@ -1384,22 +1384,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 3.654e-07 1.827e-07 - Hto 3.770e-07 1.885e-07 + Cl_tr 3.627e-07 1.814e-07 + Hto 3.627e-07 1.814e-07 Na 1.000e-01 5.000e-02 - Na_tr 3.878e-07 1.939e-07 - Sr_tr 4.065e-07 2.032e-07 + Na_tr 3.627e-07 1.813e-07 + Sr_tr 3.795e-07 1.897e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.636 Adjusted to redox equilibrium + pe = 11.884 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.836e-09 + Total alkalinity (eq/kg) = 9.834e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.380e-10 + Electrical balance (eq) = 8.110e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1415,33 +1415,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.654e-07 - Cl_tr- 3.654e-07 3.654e-07 -6.437 -6.437 -0.000 (0) +Cl_tr 3.627e-07 + Cl_tr- 3.627e-07 3.627e-07 -6.440 -6.440 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.433 -40.423 0.010 (0) -Hto 3.770e-07 - Hto 3.770e-07 3.770e-07 -6.424 -6.424 0.000 (0) + H2 0.000e+00 0.000e+00 -40.929 -40.919 0.010 (0) +Hto 3.627e-07 + Hto 3.627e-07 3.627e-07 -6.440 -6.440 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 3.878e-07 - Na_tr+ 3.878e-07 3.878e-07 -6.411 -6.411 -0.000 (0) -O(0) 5.675e-12 - O2 2.838e-12 2.904e-12 -11.547 -11.537 0.010 (0) -Sr_tr 4.065e-07 - Sr_tr+2 4.065e-07 4.065e-07 -6.391 -6.391 -0.000 (0) +Na_tr 3.627e-07 + Na_tr+ 3.627e-07 3.627e-07 -6.440 -6.440 -0.000 (0) +O(0) 5.561e-11 + O2 2.781e-11 2.845e-11 -10.556 -10.546 0.010 (0) +Sr_tr 3.795e-07 + Sr_tr+2 3.795e-07 3.795e-07 -6.421 -6.421 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 6.46 -7.54 -14.00 NaCl_tr - A_hto 8.58 -6.42 -15.00 Hto - A_na 6.47 -7.53 -14.00 Na_trCl - A_sr 5.38 -8.62 -14.00 Sr_trCl2 - H2(g) -37.27 -40.42 -3.15 H2 + A_cl 6.45 -7.55 -14.00 NaCl_tr + A_hto 8.56 -6.44 -15.00 Hto + A_na 6.44 -7.56 -14.00 Na_trCl + A_sr 5.35 -8.65 -14.00 Sr_trCl2 + H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.64 -11.54 -2.89 O2 + O2(g) -7.65 -10.55 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1460,7 +1460,7 @@ Mixture 4. Diffuse Double Layer Surface-Complexation Model Su - 1.583e-11 Surface + diffuse layer charge, eq + 1.581e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -1476,14 +1476,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9512e-03 - Cl_tr 9.9044e-09 + Cl 4.9513e-03 + Cl_tr 9.7901e-09 H 6.1826e-07 - Hto 1.0509e-07 + Hto 9.8856e-08 Na 5.0493e-01 - Na_tr 1.1097e-06 - O 6.4890e-09 - Sr_tr 1.2061e-05 + Na_tr 9.9816e-07 + O 6.5264e-09 + Sr_tr 1.0834e-05 Su 5.000e-01 moles @@ -1497,22 +1497,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 2.000e-07 1.000e-07 - Hto 2.102e-07 1.051e-07 + Cl_tr 1.977e-07 9.887e-08 + Hto 1.977e-07 9.886e-08 Na 1.000e-01 5.000e-02 - Na_tr 2.198e-07 1.099e-07 - Sr_tr 2.365e-07 1.183e-07 + Na_tr 1.977e-07 9.884e-08 + Sr_tr 2.125e-07 1.062e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.641 Adjusted to redox equilibrium + pe = 11.925 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.840e-09 + Total alkalinity (eq/kg) = 9.837e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.759e-10 + Electrical balance (eq) = 7.655e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1528,33 +1528,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 2.000e-07 - Cl_tr- 2.000e-07 2.000e-07 -6.699 -6.699 -0.000 (0) +Cl_tr 1.977e-07 + Cl_tr- 1.977e-07 1.977e-07 -6.704 -6.704 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.442 -40.432 0.010 (0) -Hto 2.102e-07 - Hto 2.102e-07 2.102e-07 -6.677 -6.677 0.000 (0) + H2 0.000e+00 0.000e+00 -41.010 -41.000 0.010 (0) +Hto 1.977e-07 + Hto 1.977e-07 1.977e-07 -6.704 -6.704 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 2.198e-07 - Na_tr+ 2.198e-07 2.198e-07 -6.658 -6.658 -0.000 (0) -O(0) 5.911e-12 - O2 2.955e-12 3.024e-12 -11.529 -11.519 0.010 (0) -Sr_tr 2.365e-07 - Sr_tr+2 2.365e-07 2.365e-07 -6.626 -6.626 -0.000 (0) +Na_tr 1.977e-07 + Na_tr+ 1.977e-07 1.977e-07 -6.704 -6.704 -0.000 (0) +O(0) 8.077e-11 + O2 4.039e-11 4.133e-11 -10.394 -10.384 0.010 (0) +Sr_tr 2.125e-07 + Sr_tr+2 2.125e-07 2.125e-07 -6.673 -6.673 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.19 -7.81 -14.00 NaCl_tr - A_hto 8.32 -6.68 -15.00 Hto - A_na 6.23 -7.77 -14.00 Na_trCl - A_sr 5.14 -8.86 -14.00 Sr_trCl2 - H2(g) -37.28 -40.43 -3.15 H2 + A_hto 8.30 -6.70 -15.00 Hto + A_na 6.18 -7.82 -14.00 Na_trCl + A_sr 5.09 -8.91 -14.00 Sr_trCl2 + H2(g) -37.85 -41.00 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.63 -11.52 -2.89 O2 + O2(g) -7.49 -10.38 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1573,7 +1573,7 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - 1.586e-11 Surface + diffuse layer charge, eq + 1.582e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -1589,14 +1589,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9506e-03 - Cl_tr 4.2301e-09 + Cl 4.9508e-03 + Cl_tr 4.1651e-09 H 6.1827e-07 - Hto 4.5625e-08 + Hto 4.2058e-08 Na 5.0494e-01 - Na_tr 4.8871e-07 - O 6.4886e-09 - Sr_tr 5.4336e-06 + Na_tr 4.2467e-07 + O 6.5364e-09 + Sr_tr 4.7218e-06 Su 5.000e-01 moles @@ -1610,22 +1610,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 8.544e-08 4.272e-08 - Hto 9.125e-08 4.562e-08 - Na 9.999e-02 5.000e-02 - Na_tr 9.678e-08 4.839e-08 - Sr_tr 1.065e-07 5.327e-08 + Cl_tr 8.413e-08 4.206e-08 + Hto 8.412e-08 4.206e-08 + Na 1.000e-01 5.000e-02 + Na_tr 8.410e-08 4.205e-08 + Sr_tr 9.259e-08 4.630e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.634 Adjusted to redox equilibrium + pe = 11.949 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.849e-09 + Total alkalinity (eq/kg) = 9.844e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.573e-10 + Electrical balance (eq) = 3.034e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1641,33 +1641,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 8.544e-08 - Cl_tr- 8.544e-08 8.544e-08 -7.068 -7.068 -0.000 (0) +Cl_tr 8.413e-08 + Cl_tr- 8.413e-08 8.413e-08 -7.075 -7.075 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.429 -40.419 0.010 (0) -Hto 9.125e-08 - Hto 9.125e-08 9.125e-08 -7.040 -7.040 0.000 (0) -Na 9.999e-02 - Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.678e-08 - Na_tr+ 9.678e-08 9.678e-08 -7.014 -7.014 -0.000 (0) -O(0) 5.563e-12 - O2 2.781e-12 2.846e-12 -11.556 -11.546 0.010 (0) -Sr_tr 1.065e-07 - Sr_tr+2 1.065e-07 1.065e-07 -6.972 -6.972 -0.000 (0) + H2 0.000e+00 0.000e+00 -41.059 -41.049 0.010 (0) +Hto 8.412e-08 + Hto 8.412e-08 8.412e-08 -7.075 -7.075 0.000 (0) +Na 1.000e-01 + Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) +Na_tr 8.410e-08 + Na_tr+ 8.410e-08 8.410e-08 -7.075 -7.075 -0.000 (0) +O(0) 1.012e-10 + O2 5.061e-11 5.179e-11 -10.296 -10.286 0.010 (0) +Sr_tr 9.259e-08 + Sr_tr+2 9.259e-08 9.259e-08 -7.033 -7.033 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 5.83 -8.17 -14.00 NaCl_tr - A_hto 7.96 -7.04 -15.00 Hto - A_na 5.87 -8.13 -14.00 Na_trCl - A_sr 4.79 -9.21 -14.00 Sr_trCl2 - H2(g) -37.27 -40.42 -3.15 H2 + A_cl 5.82 -8.18 -14.00 NaCl_tr + A_hto 7.92 -7.08 -15.00 Hto + A_na 5.81 -8.19 -14.00 Na_trCl + A_sr 4.73 -9.27 -14.00 Sr_trCl2 + H2(g) -37.90 -41.05 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.65 -11.55 -2.89 O2 + O2(g) -7.39 -10.29 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1687,22 +1687,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 0.000e+00 5.500e-08 5.500e-08 -A_hto 0.00 -15.00 -15.00 0.000e+00 1.159e-07 1.159e-07 -A_na -0.00 -14.00 -14.00 0.000e+00 7.367e-07 7.367e-07 -A_sr 0.00 -14.00 -14.00 0.000e+00 8.786e-06 8.786e-06 +A_cl 0.00 -14.00 -14.00 0.000e+00 5.317e-08 5.317e-08 +A_hto 0.00 -15.00 -15.00 0.000e+00 9.675e-08 9.675e-08 +A_na 0.00 -14.00 -14.00 0.000e+00 5.368e-07 5.368e-07 +A_sr 0.00 -14.00 -14.00 0.000e+00 6.266e-06 6.266e-06 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.250e-10 Surface + diffuse layer charge, eq + 1.131e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.766e+12 exp(-F*psi/RT) + 6.765e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -1713,14 +1713,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9497e-03 + Cl 4.9501e-03 Cl_tr 6.3260e-15 - H 6.1829e-07 + H 6.1828e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6090e-13 - O 6.4881e-09 - Sr_tr 8.7358e-11 + Na_tr 6.6085e-13 + O 6.5417e-09 + Sr_tr 8.7345e-11 Su 5.000e-01 moles @@ -1733,23 +1733,23 @@ Su Elements Molality Moles - Cl 9.999e-02 4.999e-02 + Cl 9.999e-02 5.000e-02 Cl_tr 1.278e-13 6.389e-14 Hto 1.000e-15 5.000e-16 - Na 9.999e-02 4.999e-02 + Na 9.999e-02 5.000e-02 Na_tr 1.309e-13 6.543e-14 Sr_tr 1.713e-12 8.563e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.625 Adjusted to redox equilibrium + pe = 11.960 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.866e-09 + Total alkalinity (eq/kg) = 9.858e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.982e-10 + Electrical balance (eq) = 5.711e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -1760,25 +1760,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 - Cl- 9.999e-02 7.641e-02 -1.000 -1.117 -0.117 (0) + Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.410 -40.400 0.010 (0) + H2 0.000e+00 0.000e+00 -41.081 -41.071 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 9.999e-02 - Na+ 9.999e-02 7.825e-02 -1.000 -1.106 -0.106 (0) + Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.309e-13 Na_tr+ 1.309e-13 1.309e-13 -12.883 -12.883 -0.000 (0) -O(0) 5.114e-12 - O2 2.557e-12 2.617e-12 -11.592 -11.582 0.010 (0) +O(0) 1.121e-10 + O2 5.607e-11 5.738e-11 -10.251 -10.241 0.010 (0) Sr_tr 1.713e-12 - Sr_tr+2 1.713e-12 1.713e-12 -11.766 -11.766 -0.000 (0) + Sr_tr+2 1.713e-12 1.712e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -1786,12 +1786,12 @@ Sr_tr 1.713e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto - A_na -0.00 -14.00 -14.00 Na_trCl + A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.25 -40.40 -3.15 H2 + H2(g) -37.92 -41.07 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.69 -11.58 -2.89 O2 + O2(g) -7.35 -10.24 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1881,7 +1881,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.579e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -1897,14 +1897,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9518e-03 - Cl_tr 4.4305e-08 + Cl 4.9519e-03 + Cl_tr 4.4285e-08 H 6.1817e-07 - Hto 4.4825e-07 + Hto 4.4715e-07 Na 5.0486e-01 - Na_tr 4.5338e-06 - O 6.4884e-09 - Sr_tr 4.5851e-05 + Na_tr 4.5148e-06 + O 6.4932e-09 + Sr_tr 4.5655e-05 Su 5.000e-01 moles @@ -1918,22 +1918,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 8.947e-07 4.474e-07 - Hto 8.965e-07 4.482e-07 + Cl_tr 8.943e-07 4.472e-07 + Hto 8.943e-07 4.471e-07 Na 1.000e-01 5.000e-02 - Na_tr 8.980e-07 4.490e-07 - Sr_tr 8.994e-07 4.497e-07 + Na_tr 8.943e-07 4.471e-07 + Sr_tr 8.956e-07 4.478e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.563 Adjusted to redox equilibrium + pe = 11.722 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.843e-09 + Total alkalinity (eq/kg) = 9.842e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.320e-09 + Electrical balance (eq) = 2.132e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -1949,20 +1949,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 8.947e-07 - Cl_tr- 8.947e-07 8.947e-07 -6.048 -6.048 -0.000 (0) +Cl_tr 8.943e-07 + Cl_tr- 8.943e-07 8.943e-07 -6.049 -6.049 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.287 -40.277 0.010 (0) -Hto 8.965e-07 - Hto 8.965e-07 8.965e-07 -6.047 -6.047 0.000 (0) + H2 0.000e+00 0.000e+00 -40.604 -40.594 0.010 (0) +Hto 8.943e-07 + Hto 8.943e-07 8.943e-07 -6.049 -6.049 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 8.980e-07 - Na_tr+ 8.980e-07 8.980e-07 -6.047 -6.047 -0.000 (0) -O(0) 2.892e-12 - O2 1.446e-12 1.480e-12 -11.840 -11.830 0.010 (0) -Sr_tr 8.994e-07 - Sr_tr+2 8.994e-07 8.994e-07 -6.046 -6.046 -0.000 (0) +Na_tr 8.943e-07 + Na_tr+ 8.943e-07 8.943e-07 -6.049 -6.049 -0.000 (0) +O(0) 1.247e-11 + O2 6.235e-12 6.380e-12 -11.205 -11.195 0.010 (0) +Sr_tr 8.956e-07 + Sr_tr+2 8.956e-07 8.956e-07 -6.048 -6.048 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -1970,12 +1970,12 @@ Sr_tr 8.994e-07 A_cl 6.85 -7.15 -14.00 NaCl_tr A_hto 8.95 -6.05 -15.00 Hto - A_na 6.84 -7.16 -14.00 Na_trCl + A_na 6.83 -7.17 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.13 -40.28 -3.15 H2 + H2(g) -37.44 -40.59 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.94 -11.83 -2.89 O2 + O2(g) -8.30 -11.20 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1994,7 +1994,7 @@ Mixture 2. Diffuse Double Layer Surface-Complexation Model Su - 1.581e-11 Surface + diffuse layer charge, eq + 1.580e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -2010,14 +2010,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9513e-03 - Cl_tr 3.4103e-08 + Cl 4.9514e-03 + Cl_tr 3.4047e-08 H 6.1820e-07 - Hto 3.4674e-07 + Hto 3.4379e-07 Na 5.0488e-01 - Na_tr 3.5223e-06 - O 6.4900e-09 - Sr_tr 3.5760e-05 + Na_tr 3.4713e-06 + O 6.5042e-09 + Sr_tr 3.5235e-05 Su 5.000e-01 moles @@ -2031,22 +2031,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 6.887e-07 3.444e-07 - Hto 6.935e-07 3.467e-07 - Na 9.999e-02 5.000e-02 - Na_tr 6.976e-07 3.488e-07 - Sr_tr 7.014e-07 3.507e-07 + Cl_tr 6.876e-07 3.438e-07 + Hto 6.876e-07 3.438e-07 + Na 1.000e-01 5.000e-02 + Na_tr 6.875e-07 3.438e-07 + Sr_tr 6.911e-07 3.455e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.658 Adjusted to redox equilibrium + pe = 11.834 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.848e-09 + Total alkalinity (eq/kg) = 9.844e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.346e-09 + Electrical balance (eq) = 1.275e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2062,20 +2062,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 6.887e-07 - Cl_tr- 6.887e-07 6.887e-07 -6.162 -6.162 -0.000 (0) +Cl_tr 6.876e-07 + Cl_tr- 6.876e-07 6.876e-07 -6.163 -6.163 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.476 -40.466 0.010 (0) -Hto 6.935e-07 - Hto 6.935e-07 6.935e-07 -6.159 -6.159 0.000 (0) -Na 9.999e-02 - Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.976e-07 - Na_tr+ 6.976e-07 6.976e-07 -6.156 -6.156 -0.000 (0) -O(0) 6.925e-12 - O2 3.463e-12 3.543e-12 -11.461 -11.451 0.010 (0) -Sr_tr 7.014e-07 - Sr_tr+2 7.014e-07 7.014e-07 -6.154 -6.154 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.829 -40.819 0.010 (0) +Hto 6.876e-07 + Hto 6.876e-07 6.876e-07 -6.163 -6.163 0.000 (0) +Na 1.000e-01 + Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) +Na_tr 6.875e-07 + Na_tr+ 6.875e-07 6.875e-07 -6.163 -6.163 -0.000 (0) +O(0) 3.516e-11 + O2 1.758e-11 1.799e-11 -10.755 -10.745 0.010 (0) +Sr_tr 6.911e-07 + Sr_tr+2 6.911e-07 6.911e-07 -6.160 -6.160 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -2083,12 +2083,12 @@ Sr_tr 7.014e-07 A_cl 6.73 -7.27 -14.00 NaCl_tr A_hto 8.84 -6.16 -15.00 Hto - A_na 6.73 -7.27 -14.00 Na_trCl + A_na 6.72 -7.28 -14.00 Na_trCl A_sr 5.61 -8.39 -14.00 Sr_trCl2 - H2(g) -37.32 -40.47 -3.15 H2 + H2(g) -37.67 -40.82 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.56 -11.45 -2.89 O2 + O2(g) -7.85 -10.75 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2107,7 +2107,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.582e-11 Surface + diffuse layer charge, eq + 1.581e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -2123,14 +2123,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9506e-03 - Cl_tr 2.4508e-08 + Cl 4.9508e-03 + Cl_tr 2.4435e-08 H 6.1823e-07 - Hto 2.5061e-07 + Hto 2.4674e-07 Na 5.0490e-01 - Na_tr 2.5581e-06 - O 6.4910e-09 - Sr_tr 2.6085e-05 + Na_tr 2.4914e-06 + O 6.5137e-09 + Sr_tr 2.5398e-05 Su 5.000e-01 moles @@ -2144,22 +2144,22 @@ Su Elements Molality Moles Cl 9.999e-02 5.000e-02 - Cl_tr 4.950e-07 2.475e-07 - Hto 5.012e-07 2.506e-07 - Na 9.999e-02 4.999e-02 - Na_tr 5.066e-07 2.533e-07 - Sr_tr 5.115e-07 2.558e-07 + Cl_tr 4.935e-07 2.468e-07 + Hto 4.935e-07 2.467e-07 + Na 9.999e-02 5.000e-02 + Na_tr 4.934e-07 2.467e-07 + Sr_tr 4.981e-07 2.490e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.693 Adjusted to redox equilibrium + pe = 11.883 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.857e-09 + Total alkalinity (eq/kg) = 9.851e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.123e-09 + Electrical balance (eq) = 1.096e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2171,37 +2171,37 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 4.950e-07 - Cl_tr- 4.950e-07 4.950e-07 -6.305 -6.305 -0.000 (0) +Cl_tr 4.935e-07 + Cl_tr- 4.935e-07 4.935e-07 -6.307 -6.307 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.547 -40.537 0.010 (0) -Hto 5.012e-07 - Hto 5.012e-07 5.012e-07 -6.300 -6.300 0.000 (0) + H2 0.000e+00 0.000e+00 -40.926 -40.916 0.010 (0) +Hto 4.935e-07 + Hto 4.935e-07 4.935e-07 -6.307 -6.307 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 5.066e-07 - Na_tr+ 5.066e-07 5.066e-07 -6.295 -6.295 -0.000 (0) -O(0) 9.591e-12 - O2 4.796e-12 4.907e-12 -11.319 -11.309 0.010 (0) -Sr_tr 5.115e-07 - Sr_tr+2 5.115e-07 5.115e-07 -6.291 -6.291 -0.000 (0) +Na_tr 4.934e-07 + Na_tr+ 4.934e-07 4.934e-07 -6.307 -6.307 -0.000 (0) +O(0) 5.499e-11 + O2 2.749e-11 2.813e-11 -10.561 -10.551 0.010 (0) +Sr_tr 4.981e-07 + Sr_tr+2 4.981e-07 4.981e-07 -6.303 -6.303 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.59 -7.41 -14.00 NaCl_tr - A_hto 8.70 -6.30 -15.00 Hto - A_na 6.59 -7.41 -14.00 Na_trCl - A_sr 5.48 -8.52 -14.00 Sr_trCl2 - H2(g) -37.39 -40.54 -3.15 H2 + A_hto 8.69 -6.31 -15.00 Hto + A_na 6.58 -7.42 -14.00 Na_trCl + A_sr 5.46 -8.54 -14.00 Sr_trCl2 + H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.42 -11.31 -2.89 O2 + O2(g) -7.66 -10.55 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2220,7 +2220,7 @@ Mixture 4. Diffuse Double Layer Surface-Complexation Model Su - 1.583e-11 Surface + diffuse layer charge, eq + 1.582e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -2236,14 +2236,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9496e-03 - Cl_tr 1.5707e-08 + Cl 4.9501e-03 + Cl_tr 1.5640e-08 H 6.1826e-07 - Hto 1.6149e-07 - Na 5.0491e-01 - Na_tr 1.6561e-06 - O 6.4914e-09 - Sr_tr 1.6957e-05 + Hto 1.5795e-07 + Na 5.0492e-01 + Na_tr 1.5948e-06 + O 6.5214e-09 + Sr_tr 1.6326e-05 Su 5.000e-01 moles @@ -2256,23 +2256,23 @@ Su Elements Molality Moles - Cl 9.998e-02 4.999e-02 - Cl_tr 3.173e-07 1.586e-07 - Hto 3.230e-07 1.615e-07 - Na 9.998e-02 4.999e-02 - Na_tr 3.279e-07 1.640e-07 - Sr_tr 3.325e-07 1.662e-07 + Cl 9.999e-02 4.999e-02 + Cl_tr 3.159e-07 1.580e-07 + Hto 3.159e-07 1.579e-07 + Na 9.999e-02 4.999e-02 + Na_tr 3.158e-07 1.579e-07 + Sr_tr 3.201e-07 1.600e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.710 Adjusted to redox equilibrium + pe = 11.911 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.998e-02 + Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.872e-09 + Total alkalinity (eq/kg) = 9.863e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.061e-09 + Electrical balance (eq) = 1.050e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2286,35 +2286,35 @@ Su OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.998e-02 - Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.173e-07 - Cl_tr- 3.173e-07 3.173e-07 -6.499 -6.499 -0.000 (0) +Cl 9.999e-02 + Cl- 9.999e-02 7.641e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 3.159e-07 + Cl_tr- 3.159e-07 3.159e-07 -6.500 -6.500 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.581 -40.571 0.010 (0) -Hto 3.230e-07 - Hto 3.230e-07 3.230e-07 -6.491 -6.491 0.000 (0) -Na 9.998e-02 - Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.279e-07 - Na_tr+ 3.279e-07 3.279e-07 -6.484 -6.484 -0.000 (0) -O(0) 1.121e-11 - O2 5.605e-12 5.736e-12 -11.251 -11.241 0.010 (0) -Sr_tr 3.325e-07 - Sr_tr+2 3.325e-07 3.324e-07 -6.478 -6.478 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.982 -40.972 0.010 (0) +Hto 3.159e-07 + Hto 3.159e-07 3.159e-07 -6.500 -6.500 0.000 (0) +Na 9.999e-02 + Na+ 9.999e-02 7.825e-02 -1.000 -1.106 -0.106 (0) +Na_tr 3.158e-07 + Na_tr+ 3.158e-07 3.158e-07 -6.501 -6.501 -0.000 (0) +O(0) 7.113e-11 + O2 3.557e-11 3.640e-11 -10.449 -10.439 0.010 (0) +Sr_tr 3.201e-07 + Sr_tr+2 3.201e-07 3.201e-07 -6.495 -6.495 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.39 -7.61 -14.00 NaCl_tr - A_hto 8.51 -6.49 -15.00 Hto - A_na 6.40 -7.60 -14.00 Na_trCl - A_sr 5.29 -8.71 -14.00 Sr_trCl2 - H2(g) -37.42 -40.57 -3.15 H2 + A_hto 8.50 -6.50 -15.00 Hto + A_na 6.38 -7.62 -14.00 Na_trCl + A_sr 5.27 -8.73 -14.00 Sr_trCl2 + H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.35 -11.24 -2.89 O2 + O2(g) -7.55 -10.44 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2333,30 +2333,30 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - 1.584e-11 Surface + diffuse layer charge, eq + 1.582e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.767e+12 exp(-F*psi/RT) + 6.766e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.942e-02 V. + Donnan Layer potential, psi_DL = -5.941e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9484e-03 - Cl_tr 7.6364e-09 + Cl 4.9490e-03 + Cl_tr 7.5968e-09 H 6.1828e-07 - Hto 7.8830e-08 + Hto 7.6723e-08 Na 5.0493e-01 - Na_tr 8.1110e-07 - O 6.4915e-09 - Sr_tr 8.3296e-06 + Na_tr 7.7471e-07 + O 6.5269e-09 + Sr_tr 7.9545e-06 Su 5.000e-01 moles @@ -2369,23 +2369,23 @@ Su Elements Molality Moles - Cl 9.997e-02 4.999e-02 - Cl_tr 1.543e-07 7.714e-08 - Hto 1.577e-07 7.883e-08 - Na 9.997e-02 4.999e-02 - Na_tr 1.606e-07 8.030e-08 - Sr_tr 1.633e-07 8.163e-08 + Cl 9.998e-02 4.999e-02 + Cl_tr 1.535e-07 7.673e-08 + Hto 1.534e-07 7.672e-08 + Na 9.998e-02 4.999e-02 + Na_tr 1.534e-07 7.670e-08 + Sr_tr 1.559e-07 7.796e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.719 Adjusted to redox equilibrium + pe = 11.927 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.997e-02 + Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.895e-09 + Total alkalinity (eq/kg) = 9.882e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.043e-09 + Electrical balance (eq) = 3.319e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2396,38 +2396,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.997e-02 - Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.543e-07 - Cl_tr- 1.543e-07 1.543e-07 -6.812 -6.812 -0.000 (0) +Cl 9.998e-02 + Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.535e-07 + Cl_tr- 1.535e-07 1.535e-07 -6.814 -6.814 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.597 -40.587 0.010 (0) -Hto 1.577e-07 - Hto 1.577e-07 1.577e-07 -6.802 -6.802 0.000 (0) -Na 9.997e-02 - Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.606e-07 - Na_tr+ 1.606e-07 1.606e-07 -6.794 -6.794 -0.000 (0) -O(0) 1.210e-11 - O2 6.050e-12 6.191e-12 -11.218 -11.208 0.010 (0) -Sr_tr 1.633e-07 - Sr_tr+2 1.633e-07 1.633e-07 -6.787 -6.787 -0.000 (0) + H2 0.000e+00 0.000e+00 -41.015 -41.005 0.010 (0) +Hto 1.534e-07 + Hto 1.534e-07 1.534e-07 -6.814 -6.814 0.000 (0) +Na 9.998e-02 + Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.534e-07 + Na_tr+ 1.534e-07 1.534e-07 -6.814 -6.814 -0.000 (0) +O(0) 8.265e-11 + O2 4.133e-11 4.229e-11 -10.384 -10.374 0.010 (0) +Sr_tr 1.559e-07 + Sr_tr+2 1.559e-07 1.559e-07 -6.807 -6.807 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.08 -7.92 -14.00 NaCl_tr - A_hto 8.20 -6.80 -15.00 Hto - A_na 6.09 -7.91 -14.00 Na_trCl - A_sr 4.98 -9.02 -14.00 Sr_trCl2 - H2(g) -37.44 -40.59 -3.15 H2 + A_hto 8.19 -6.81 -15.00 Hto + A_na 6.07 -7.93 -14.00 Na_trCl + A_sr 4.96 -9.04 -14.00 Sr_trCl2 + H2(g) -37.85 -41.00 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.32 -11.21 -2.89 O2 + O2(g) -7.48 -10.37 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2447,22 +2447,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 5.500e-08 3.194e-07 2.644e-07 -A_hto 0.00 -15.00 -15.00 1.159e-07 6.407e-07 5.248e-07 -A_na -0.00 -14.00 -14.00 7.367e-07 3.893e-06 3.156e-06 -A_sr 0.00 -14.00 -14.00 8.786e-06 3.961e-05 3.082e-05 +A_cl 0.00 -14.00 -14.00 5.317e-08 3.123e-07 2.591e-07 +A_hto 0.00 -15.00 -15.00 9.675e-08 5.682e-07 4.715e-07 +A_na -0.00 -14.00 -14.00 5.368e-07 3.153e-06 2.616e-06 +A_sr 0.00 -14.00 -14.00 6.266e-06 3.157e-05 2.530e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.755e-10 Surface + diffuse layer charge, eq + 1.677e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.768e+12 exp(-F*psi/RT) + 6.767e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -2473,14 +2473,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9468e-03 + Cl 4.9476e-03 Cl_tr 6.3259e-15 H 6.1830e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6128e-13 - O 6.4913e-09 - Sr_tr 8.7458e-11 + Na_tr 6.6117e-13 + O 6.5295e-09 + Sr_tr 8.7429e-11 Su 5.000e-01 moles @@ -2493,23 +2493,23 @@ Su Elements Molality Moles - Cl 9.996e-02 4.998e-02 + Cl 9.997e-02 4.998e-02 Cl_tr 1.278e-13 6.391e-14 Hto 1.000e-15 5.000e-16 - Na 9.996e-02 4.998e-02 + Na 9.997e-02 4.998e-02 Na_tr 1.309e-13 6.545e-14 - Sr_tr 1.714e-12 8.568e-13 + Sr_tr 1.713e-12 8.567e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.721 Adjusted to redox equilibrium + pe = 11.935 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.996e-02 + Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.928e-09 + Total alkalinity (eq/kg) = 9.909e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.607e-09 + Electrical balance (eq) = 3.206e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -2521,24 +2521,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.996e-02 - Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl 9.997e-02 + Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 Cl_tr- 1.278e-13 1.278e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.603 -40.593 0.010 (0) + H2 0.000e+00 0.000e+00 -41.030 -41.020 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.996e-02 - Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na 9.997e-02 + Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.309e-13 Na_tr+ 1.309e-13 1.309e-13 -12.883 -12.883 -0.000 (0) -O(0) 1.243e-11 - O2 6.217e-12 6.361e-12 -11.206 -11.196 0.010 (0) -Sr_tr 1.714e-12 - Sr_tr+2 1.714e-12 1.714e-12 -11.766 -11.766 -0.000 (0) +O(0) 8.863e-11 + O2 4.431e-11 4.535e-11 -10.353 -10.343 0.010 (0) +Sr_tr 1.713e-12 + Sr_tr+2 1.713e-12 1.713e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -2548,10 +2548,10 @@ Sr_tr 1.714e-12 A_hto 0.00 -15.00 -15.00 Hto A_na -0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.44 -40.59 -3.15 H2 + H2(g) -37.87 -41.02 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.30 -11.20 -2.89 O2 + O2(g) -7.45 -10.34 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2641,7 +2641,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.579e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -2657,14 +2657,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9516e-03 - Cl_tr 4.4816e-08 + Cl 4.9517e-03 + Cl_tr 4.4808e-08 H 6.1817e-07 - Hto 4.5289e-07 + Hto 4.5244e-07 Na 5.0485e-01 - Na_tr 4.5758e-06 - O 6.4887e-09 - Sr_tr 4.6221e-05 + Na_tr 4.5682e-06 + O 6.4926e-09 + Sr_tr 4.6145e-05 Su 5.000e-01 moles @@ -2678,22 +2678,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 9.051e-07 4.525e-07 - Hto 9.058e-07 4.529e-07 + Cl_tr 9.049e-07 4.524e-07 + Hto 9.049e-07 4.524e-07 Na 1.000e-01 5.000e-02 - Na_tr 9.063e-07 4.532e-07 - Sr_tr 9.067e-07 4.533e-07 + Na_tr 9.048e-07 4.524e-07 + Sr_tr 9.052e-07 4.526e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.586 Adjusted to redox equilibrium + pe = 11.711 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.848e-09 + Total alkalinity (eq/kg) = 9.846e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.605e-09 + Electrical balance (eq) = 2.416e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2709,20 +2709,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.051e-07 - Cl_tr- 9.051e-07 9.051e-07 -6.043 -6.043 -0.000 (0) +Cl_tr 9.049e-07 + Cl_tr- 9.049e-07 9.049e-07 -6.043 -6.043 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.332 -40.322 0.010 (0) -Hto 9.058e-07 - Hto 9.058e-07 9.058e-07 -6.043 -6.043 0.000 (0) + H2 0.000e+00 0.000e+00 -40.582 -40.572 0.010 (0) +Hto 9.049e-07 + Hto 9.049e-07 9.049e-07 -6.043 -6.043 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.063e-07 - Na_tr+ 9.063e-07 9.063e-07 -6.043 -6.043 -0.000 (0) -O(0) 3.572e-12 - O2 1.786e-12 1.827e-12 -11.748 -11.738 0.010 (0) -Sr_tr 9.067e-07 - Sr_tr+2 9.067e-07 9.066e-07 -6.043 -6.043 -0.000 (0) +Na_tr 9.048e-07 + Na_tr+ 9.048e-07 9.048e-07 -6.043 -6.043 -0.000 (0) +O(0) 1.127e-11 + O2 5.633e-12 5.764e-12 -11.249 -11.239 0.010 (0) +Sr_tr 9.052e-07 + Sr_tr+2 9.052e-07 9.052e-07 -6.043 -6.043 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -2732,10 +2732,10 @@ Sr_tr 9.067e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.17 -40.32 -3.15 H2 + H2(g) -37.42 -40.57 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.85 -11.74 -2.89 O2 + O2(g) -8.35 -11.24 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2770,14 +2770,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9505e-03 - Cl_tr 3.5474e-08 + Cl 4.9508e-03 + Cl_tr 3.5450e-08 H 6.1820e-07 - Hto 3.5919e-07 + Hto 3.5798e-07 Na 5.0487e-01 - Na_tr 3.6349e-06 - O 6.4909e-09 - Sr_tr 3.6754e-05 + Na_tr 3.6145e-06 + O 6.5022e-09 + Sr_tr 3.6549e-05 Su 5.000e-01 moles @@ -2790,23 +2790,23 @@ Su Elements Molality Moles - Cl 9.999e-02 4.999e-02 - Cl_tr 7.165e-07 3.582e-07 - Hto 7.184e-07 3.592e-07 + Cl 9.999e-02 5.000e-02 + Cl_tr 7.160e-07 3.580e-07 + Hto 7.160e-07 3.580e-07 Na 9.999e-02 4.999e-02 - Na_tr 7.199e-07 3.599e-07 - Sr_tr 7.208e-07 3.604e-07 + Na_tr 7.159e-07 3.579e-07 + Sr_tr 7.168e-07 3.584e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.686 Adjusted to redox equilibrium + pe = 11.822 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.864e-09 + Total alkalinity (eq/kg) = 9.858e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.631e-09 + Electrical balance (eq) = 1.559e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2817,38 +2817,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 - Cl- 9.999e-02 7.641e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 7.165e-07 - Cl_tr- 7.165e-07 7.165e-07 -6.145 -6.145 -0.000 (0) + Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 7.160e-07 + Cl_tr- 7.160e-07 7.160e-07 -6.145 -6.145 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.531 -40.521 0.010 (0) -Hto 7.184e-07 - Hto 7.184e-07 7.184e-07 -6.144 -6.144 0.000 (0) + H2 0.000e+00 0.000e+00 -40.804 -40.794 0.010 (0) +Hto 7.160e-07 + Hto 7.160e-07 7.160e-07 -6.145 -6.145 0.000 (0) Na 9.999e-02 - Na+ 9.999e-02 7.825e-02 -1.000 -1.106 -0.106 (0) -Na_tr 7.199e-07 - Na_tr+ 7.199e-07 7.199e-07 -6.143 -6.143 -0.000 (0) -O(0) 8.919e-12 - O2 4.460e-12 4.563e-12 -11.351 -11.341 0.010 (0) -Sr_tr 7.208e-07 - Sr_tr+2 7.208e-07 7.208e-07 -6.142 -6.142 -0.000 (0) + Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) +Na_tr 7.159e-07 + Na_tr+ 7.159e-07 7.159e-07 -6.145 -6.145 -0.000 (0) +O(0) 3.139e-11 + O2 1.570e-11 1.606e-11 -10.804 -10.794 0.010 (0) +Sr_tr 7.168e-07 + Sr_tr+2 7.168e-07 7.168e-07 -6.145 -6.145 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.75 -7.25 -14.00 NaCl_tr - A_hto 8.86 -6.14 -15.00 Hto + A_hto 8.85 -6.15 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.62 -8.38 -14.00 Sr_trCl2 - H2(g) -37.37 -40.52 -3.15 H2 + H2(g) -37.64 -40.79 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.45 -11.34 -2.89 O2 + O2(g) -7.90 -10.79 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2867,7 +2867,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.581e-11 Surface + diffuse layer charge, eq + 1.580e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -2883,14 +2883,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9493e-03 - Cl_tr 2.6302e-08 + Cl 4.9498e-03 + Cl_tr 2.6272e-08 H 6.1824e-07 - Hto 2.6691e-07 + Hto 2.6532e-07 Na 5.0489e-01 - Na_tr 2.7056e-06 - O 6.4924e-09 - Sr_tr 2.7387e-05 + Na_tr 2.6790e-06 + O 6.5103e-09 + Sr_tr 2.7119e-05 Su 5.000e-01 moles @@ -2904,22 +2904,22 @@ Su Elements Molality Moles Cl 9.998e-02 4.999e-02 - Cl_tr 5.313e-07 2.657e-07 - Hto 5.338e-07 2.669e-07 + Cl_tr 5.307e-07 2.653e-07 + Hto 5.306e-07 2.653e-07 Na 9.998e-02 4.999e-02 - Na_tr 5.358e-07 2.679e-07 - Sr_tr 5.369e-07 2.685e-07 + Na_tr 5.305e-07 2.653e-07 + Sr_tr 5.317e-07 2.659e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.725 Adjusted to redox equilibrium + pe = 11.869 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.883e-09 + Total alkalinity (eq/kg) = 9.873e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.407e-09 + Electrical balance (eq) = 1.380e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -2931,37 +2931,37 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.998e-02 Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.313e-07 - Cl_tr- 5.313e-07 5.313e-07 -6.275 -6.275 -0.000 (0) +Cl_tr 5.307e-07 + Cl_tr- 5.307e-07 5.307e-07 -6.275 -6.275 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.609 -40.599 0.010 (0) -Hto 5.338e-07 - Hto 5.338e-07 5.338e-07 -6.273 -6.273 0.000 (0) + H2 0.000e+00 0.000e+00 -40.899 -40.889 0.010 (0) +Hto 5.306e-07 + Hto 5.306e-07 5.306e-07 -6.275 -6.275 0.000 (0) Na 9.998e-02 Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) -Na_tr 5.358e-07 - Na_tr+ 5.358e-07 5.358e-07 -6.271 -6.271 -0.000 (0) -O(0) 1.278e-11 - O2 6.389e-12 6.537e-12 -11.195 -11.185 0.010 (0) -Sr_tr 5.369e-07 - Sr_tr+2 5.369e-07 5.369e-07 -6.270 -6.270 -0.000 (0) +Na_tr 5.305e-07 + Na_tr+ 5.305e-07 5.305e-07 -6.275 -6.275 -0.000 (0) +O(0) 4.849e-11 + O2 2.424e-11 2.481e-11 -10.615 -10.605 0.010 (0) +Sr_tr 5.317e-07 + Sr_tr+2 5.317e-07 5.317e-07 -6.274 -6.274 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.62 -7.38 -14.00 NaCl_tr - A_hto 8.73 -6.27 -15.00 Hto + A_hto 8.72 -6.28 -15.00 Hto A_na 6.61 -7.39 -14.00 Na_trCl - A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.45 -40.60 -3.15 H2 + A_sr 5.49 -8.51 -14.00 Sr_trCl2 + H2(g) -37.74 -40.89 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.29 -11.18 -2.89 O2 + O2(g) -7.71 -10.61 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2992,18 +2992,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.942e-02 V. + Donnan Layer potential, psi_DL = -5.941e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9479e-03 - Cl_tr 1.7356e-08 - H 6.1827e-07 - Hto 1.7647e-07 + Cl 4.9486e-03 + Cl_tr 1.7328e-08 + H 6.1826e-07 + Hto 1.7501e-07 Na 5.0491e-01 - Na_tr 1.7916e-06 - O 6.4933e-09 - Sr_tr 1.8153e-05 + Na_tr 1.7671e-06 + O 6.5166e-09 + Sr_tr 1.7906e-05 Su 5.000e-01 moles @@ -3016,23 +3016,23 @@ Su Elements Molality Moles - Cl 9.997e-02 4.998e-02 - Cl_tr 3.506e-07 1.753e-07 - Hto 3.529e-07 1.765e-07 - Na 9.996e-02 4.998e-02 - Na_tr 3.547e-07 1.774e-07 - Sr_tr 3.558e-07 1.779e-07 + Cl 9.997e-02 4.999e-02 + Cl_tr 3.501e-07 1.750e-07 + Hto 3.500e-07 1.750e-07 + Na 9.997e-02 4.999e-02 + Na_tr 3.499e-07 1.749e-07 + Sr_tr 3.510e-07 1.755e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.745 Adjusted to redox equilibrium + pe = 11.896 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.908e-09 + Total alkalinity (eq/kg) = 9.894e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.346e-09 + Electrical balance (eq) = 1.335e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3043,38 +3043,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.997e-02 Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.506e-07 - Cl_tr- 3.506e-07 3.506e-07 -6.455 -6.455 -0.000 (0) +Cl_tr 3.501e-07 + Cl_tr- 3.501e-07 3.501e-07 -6.456 -6.456 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.650 -40.640 0.010 (0) -Hto 3.529e-07 - Hto 3.529e-07 3.529e-07 -6.452 -6.452 0.000 (0) -Na 9.996e-02 - Na+ 9.996e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.547e-07 - Na_tr+ 3.547e-07 3.547e-07 -6.450 -6.450 -0.000 (0) -O(0) 1.539e-11 - O2 7.697e-12 7.876e-12 -11.114 -11.104 0.010 (0) -Sr_tr 3.558e-07 - Sr_tr+2 3.558e-07 3.558e-07 -6.449 -6.449 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.952 -40.942 0.010 (0) +Hto 3.500e-07 + Hto 3.500e-07 3.500e-07 -6.456 -6.456 0.000 (0) +Na 9.997e-02 + Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) +Na_tr 3.499e-07 + Na_tr+ 3.499e-07 3.499e-07 -6.456 -6.456 -0.000 (0) +O(0) 6.195e-11 + O2 3.098e-11 3.170e-11 -10.509 -10.499 0.010 (0) +Sr_tr 3.510e-07 + Sr_tr+2 3.510e-07 3.510e-07 -6.455 -6.455 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.44 -7.56 -14.00 NaCl_tr - A_hto 8.55 -6.45 -15.00 Hto + A_hto 8.54 -6.46 -15.00 Hto A_na 6.43 -7.57 -14.00 Na_trCl - A_sr 5.32 -8.68 -14.00 Sr_trCl2 - H2(g) -37.49 -40.64 -3.15 H2 + A_sr 5.31 -8.69 -14.00 Sr_trCl2 + H2(g) -37.79 -40.94 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.21 -11.10 -2.89 O2 + O2(g) -7.61 -10.50 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3109,14 +3109,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9463e-03 - Cl_tr 8.6160e-09 + Cl 4.9471e-03 + Cl_tr 8.5995e-09 H 6.1829e-07 - Hto 8.7730e-08 + Hto 8.6862e-08 Na 5.0493e-01 - Na_tr 8.9165e-07 - O 6.4936e-09 - Sr_tr 9.0406e-06 + Na_tr 8.7710e-07 + O 6.5209e-09 + Sr_tr 8.8939e-06 Su 5.000e-01 moles @@ -3129,23 +3129,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.998e-02 - Cl_tr 1.741e-07 8.705e-08 - Hto 1.755e-07 8.773e-08 - Na 9.995e-02 4.998e-02 - Na_tr 1.765e-07 8.825e-08 - Sr_tr 1.771e-07 8.856e-08 + Cl 9.996e-02 4.998e-02 + Cl_tr 1.738e-07 8.688e-08 + Hto 1.737e-07 8.686e-08 + Na 9.996e-02 4.998e-02 + Na_tr 1.736e-07 8.682e-08 + Sr_tr 1.743e-07 8.714e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.755 Adjusted to redox equilibrium + pe = 11.911 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.939e-09 + Total alkalinity (eq/kg) = 9.921e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.327e-09 + Electrical balance (eq) = 3.604e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3156,25 +3156,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.741e-07 - Cl_tr- 1.741e-07 1.741e-07 -6.759 -6.759 -0.000 (0) +Cl 9.996e-02 + Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.738e-07 + Cl_tr- 1.738e-07 1.738e-07 -6.760 -6.760 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.671 -40.661 0.010 (0) -Hto 1.755e-07 - Hto 1.755e-07 1.755e-07 -6.756 -6.756 0.000 (0) -Na 9.995e-02 - Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.765e-07 - Na_tr+ 1.765e-07 1.765e-07 -6.753 -6.753 -0.000 (0) -O(0) 1.697e-11 - O2 8.486e-12 8.684e-12 -11.071 -11.061 0.010 (0) -Sr_tr 1.771e-07 - Sr_tr+2 1.771e-07 1.771e-07 -6.752 -6.752 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.982 -40.972 0.010 (0) +Hto 1.737e-07 + Hto 1.737e-07 1.737e-07 -6.760 -6.760 0.000 (0) +Na 9.996e-02 + Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.736e-07 + Na_tr+ 1.736e-07 1.736e-07 -6.760 -6.760 -0.000 (0) +O(0) 7.122e-11 + O2 3.561e-11 3.644e-11 -10.448 -10.438 0.010 (0) +Sr_tr 1.743e-07 + Sr_tr+2 1.743e-07 1.743e-07 -6.759 -6.759 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -3182,12 +3182,12 @@ Sr_tr 1.771e-07 A_cl 6.13 -7.87 -14.00 NaCl_tr A_hto 8.24 -6.76 -15.00 Hto - A_na 6.13 -7.87 -14.00 Na_trCl + A_na 6.12 -7.88 -14.00 Na_trCl A_sr 5.01 -8.99 -14.00 Sr_trCl2 - H2(g) -37.51 -40.66 -3.15 H2 + H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.17 -11.06 -2.89 O2 + O2(g) -7.55 -10.44 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3207,17 +3207,17 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 3.194e-07 6.707e-07 3.514e-07 -A_hto 0.00 -15.00 -15.00 6.407e-07 1.321e-06 6.808e-07 -A_na 0.00 -14.00 -14.00 3.893e-06 7.897e-06 4.005e-06 -A_sr 0.00 -14.00 -14.00 3.961e-05 7.744e-05 3.784e-05 +A_cl 0.00 -14.00 -14.00 3.123e-07 6.586e-07 3.463e-07 +A_hto 0.00 -15.00 -15.00 5.682e-07 1.198e-06 6.301e-07 +A_na -0.00 -14.00 -14.00 3.153e-06 6.649e-06 3.496e-06 +A_sr 0.00 -14.00 -14.00 3.157e-05 6.430e-05 3.274e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.853e-10 Surface + diffuse layer charge, eq + 1.791e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -3229,18 +3229,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.943e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -5.942e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9444e-03 - Cl_tr 6.3258e-15 - H 6.1832e-07 + Cl 4.9454e-03 + Cl_tr 6.3259e-15 + H 6.1831e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6158e-13 - O 6.4936e-09 - Sr_tr 8.7539e-11 + Na_tr 6.6145e-13 + O 6.5228e-09 + Sr_tr 8.7503e-11 Su 5.000e-01 moles @@ -3253,23 +3253,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.997e-02 - Cl_tr 1.279e-13 6.393e-14 + Cl 9.994e-02 4.997e-02 + Cl_tr 1.278e-13 6.392e-14 Hto 1.000e-15 5.000e-16 - Na 9.993e-02 4.997e-02 - Na_tr 1.309e-13 6.547e-14 - Sr_tr 1.714e-12 8.572e-13 + Na 9.994e-02 4.997e-02 + Na_tr 1.309e-13 6.546e-14 + Sr_tr 1.714e-12 8.570e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.760 Adjusted to redox equilibrium + pe = 11.918 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.993e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.978e-09 + Total alkalinity (eq/kg) = 9.955e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.870e-09 + Electrical balance (eq) = 6.344e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -3280,23 +3280,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.993e-02 - Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.279e-13 - Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) +Cl 9.994e-02 + Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.278e-13 + Cl_tr- 1.278e-13 1.278e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.680 -40.670 0.010 (0) + H2 0.000e+00 0.000e+00 -40.996 -40.986 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) +Na 9.994e-02 + Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.309e-13 Na_tr+ 1.309e-13 1.309e-13 -12.883 -12.883 -0.000 (0) -O(0) 1.769e-11 - O2 8.844e-12 9.050e-12 -11.053 -11.043 0.010 (0) +O(0) 7.589e-11 + O2 3.795e-11 3.883e-11 -10.421 -10.411 0.010 (0) Sr_tr 1.714e-12 Sr_tr+2 1.714e-12 1.714e-12 -11.766 -11.766 -0.000 (0) @@ -3306,12 +3306,12 @@ Sr_tr 1.714e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto - A_na 0.00 -14.00 -14.00 Na_trCl + A_na -0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.52 -40.67 -3.15 H2 + H2(g) -37.84 -40.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.15 -11.04 -2.89 O2 + O2(g) -7.52 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3417,14 +3417,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9514e-03 - Cl_tr 4.4960e-08 + Cl 4.9515e-03 + Cl_tr 4.4957e-08 H 6.1817e-07 - Hto 4.5411e-07 + Hto 4.5394e-07 Na 5.0485e-01 - Na_tr 4.5862e-06 - O 6.4889e-09 - Sr_tr 4.6312e-05 + Na_tr 4.5835e-06 + O 6.4919e-09 + Sr_tr 4.6285e-05 Su 5.000e-01 moles @@ -3438,22 +3438,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.000e-02 - Cl_tr 9.080e-07 4.540e-07 - Hto 9.082e-07 4.541e-07 + Cl_tr 9.079e-07 4.540e-07 + Hto 9.079e-07 4.539e-07 Na 9.999e-02 5.000e-02 - Na_tr 9.084e-07 4.542e-07 - Sr_tr 9.084e-07 4.542e-07 + Na_tr 9.078e-07 4.539e-07 + Sr_tr 9.079e-07 4.539e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.601 Adjusted to redox equilibrium + pe = 11.699 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.852e-09 + Total alkalinity (eq/kg) = 9.850e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.889e-09 + Electrical balance (eq) = 2.701e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3469,20 +3469,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.080e-07 - Cl_tr- 9.080e-07 9.080e-07 -6.042 -6.042 -0.000 (0) +Cl_tr 9.079e-07 + Cl_tr- 9.079e-07 9.079e-07 -6.042 -6.042 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.361 -40.351 0.010 (0) -Hto 9.082e-07 - Hto 9.082e-07 9.082e-07 -6.042 -6.042 0.000 (0) + H2 0.000e+00 0.000e+00 -40.558 -40.548 0.010 (0) +Hto 9.079e-07 + Hto 9.079e-07 9.079e-07 -6.042 -6.042 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.084e-07 - Na_tr+ 9.084e-07 9.084e-07 -6.042 -6.042 -0.000 (0) -O(0) 4.083e-12 - O2 2.042e-12 2.089e-12 -11.690 -11.680 0.010 (0) -Sr_tr 9.084e-07 - Sr_tr+2 9.084e-07 9.084e-07 -6.042 -6.042 -0.000 (0) +Na_tr 9.078e-07 + Na_tr+ 9.078e-07 9.078e-07 -6.042 -6.042 -0.000 (0) +O(0) 1.008e-11 + O2 5.039e-12 5.156e-12 -11.298 -11.288 0.010 (0) +Sr_tr 9.079e-07 + Sr_tr+2 9.079e-07 9.079e-07 -6.042 -6.042 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -3492,10 +3492,10 @@ Sr_tr 9.084e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.20 -40.35 -3.15 H2 + H2(g) -37.40 -40.55 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.79 -11.68 -2.89 O2 + O2(g) -8.40 -11.29 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3530,14 +3530,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9499e-03 - Cl_tr 3.5858e-08 + Cl 4.9502e-03 + Cl_tr 3.5850e-08 H 6.1821e-07 - Hto 3.6247e-07 + Hto 3.6202e-07 Na 5.0487e-01 - Na_tr 3.6627e-06 - O 6.4916e-09 - Sr_tr 3.6996e-05 + Na_tr 3.6554e-06 + O 6.5004e-09 + Sr_tr 3.6924e-05 Su 5.000e-01 moles @@ -3550,23 +3550,23 @@ Su Elements Molality Moles - Cl 9.998e-02 4.999e-02 - Cl_tr 7.243e-07 3.621e-07 - Hto 7.249e-07 3.625e-07 + Cl 9.999e-02 4.999e-02 + Cl_tr 7.241e-07 3.620e-07 + Hto 7.240e-07 3.620e-07 Na 9.998e-02 4.999e-02 - Na_tr 7.253e-07 3.627e-07 - Sr_tr 7.254e-07 3.627e-07 + Na_tr 7.239e-07 3.620e-07 + Sr_tr 7.241e-07 3.620e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.703 Adjusted to redox equilibrium + pe = 11.809 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.998e-02 + Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.876e-09 + Total alkalinity (eq/kg) = 9.869e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.915e-09 + Electrical balance (eq) = 1.843e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3580,22 +3580,22 @@ Su OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.998e-02 - Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 7.243e-07 - Cl_tr- 7.243e-07 7.243e-07 -6.140 -6.140 -0.000 (0) +Cl 9.999e-02 + Cl- 9.999e-02 7.641e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 7.241e-07 + Cl_tr- 7.241e-07 7.241e-07 -6.140 -6.140 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.565 -40.555 0.010 (0) -Hto 7.249e-07 - Hto 7.249e-07 7.249e-07 -6.140 -6.140 0.000 (0) + H2 0.000e+00 0.000e+00 -40.779 -40.769 0.010 (0) +Hto 7.240e-07 + Hto 7.240e-07 7.240e-07 -6.140 -6.140 0.000 (0) Na 9.998e-02 Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) -Na_tr 7.253e-07 - Na_tr+ 7.253e-07 7.253e-07 -6.139 -6.139 -0.000 (0) -O(0) 1.045e-11 - O2 5.223e-12 5.344e-12 -11.282 -11.272 0.010 (0) -Sr_tr 7.254e-07 - Sr_tr+2 7.254e-07 7.254e-07 -6.139 -6.139 -0.000 (0) +Na_tr 7.239e-07 + Na_tr+ 7.239e-07 7.239e-07 -6.140 -6.140 -0.000 (0) +O(0) 2.793e-11 + O2 1.397e-11 1.429e-11 -10.855 -10.845 0.010 (0) +Sr_tr 7.241e-07 + Sr_tr+2 7.241e-07 7.240e-07 -6.140 -6.140 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -3605,10 +3605,10 @@ Sr_tr 7.254e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.41 -40.56 -3.15 H2 + H2(g) -37.62 -40.77 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.38 -11.27 -2.89 O2 + O2(g) -7.95 -10.84 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3627,7 +3627,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.579e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -3643,14 +3643,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9484e-03 - Cl_tr 2.6806e-08 + Cl 4.9489e-03 + Cl_tr 2.6795e-08 H 6.1824e-07 - Hto 2.7120e-07 + Hto 2.7061e-07 Na 5.0489e-01 - Na_tr 2.7420e-06 - O 6.4935e-09 - Sr_tr 2.7704e-05 + Na_tr 2.7325e-06 + O 6.5074e-09 + Sr_tr 2.7610e-05 Su 5.000e-01 moles @@ -3663,23 +3663,23 @@ Su Elements Molality Moles - Cl 9.997e-02 4.998e-02 - Cl_tr 5.415e-07 2.708e-07 - Hto 5.424e-07 2.712e-07 - Na 9.997e-02 4.998e-02 - Na_tr 5.429e-07 2.715e-07 - Sr_tr 5.430e-07 2.715e-07 + Cl 9.997e-02 4.999e-02 + Cl_tr 5.413e-07 2.706e-07 + Hto 5.412e-07 2.706e-07 + Na 9.997e-02 4.999e-02 + Na_tr 5.411e-07 2.705e-07 + Sr_tr 5.412e-07 2.706e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.743 Adjusted to redox equilibrium + pe = 11.856 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.903e-09 + Total alkalinity (eq/kg) = 9.892e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.692e-09 + Electrical balance (eq) = 1.664e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3691,24 +3691,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.997e-02 Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.415e-07 - Cl_tr- 5.415e-07 5.415e-07 -6.266 -6.266 -0.000 (0) +Cl_tr 5.413e-07 + Cl_tr- 5.413e-07 5.413e-07 -6.267 -6.267 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.647 -40.637 0.010 (0) -Hto 5.424e-07 - Hto 5.424e-07 5.424e-07 -6.266 -6.266 0.000 (0) + H2 0.000e+00 0.000e+00 -40.872 -40.862 0.010 (0) +Hto 5.412e-07 + Hto 5.412e-07 5.412e-07 -6.267 -6.267 0.000 (0) Na 9.997e-02 Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 5.429e-07 - Na_tr+ 5.429e-07 5.429e-07 -6.265 -6.265 -0.000 (0) -O(0) 1.520e-11 - O2 7.599e-12 7.776e-12 -11.119 -11.109 0.010 (0) -Sr_tr 5.430e-07 - Sr_tr+2 5.430e-07 5.430e-07 -6.265 -6.265 -0.000 (0) +Na_tr 5.411e-07 + Na_tr+ 5.411e-07 5.411e-07 -6.267 -6.267 -0.000 (0) +O(0) 4.294e-11 + O2 2.147e-11 2.197e-11 -10.668 -10.658 0.010 (0) +Sr_tr 5.412e-07 + Sr_tr+2 5.412e-07 5.412e-07 -6.267 -6.267 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -3718,10 +3718,10 @@ Sr_tr 5.430e-07 A_hto 8.73 -6.27 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.49 -40.64 -3.15 H2 + H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.22 -11.11 -2.89 O2 + O2(g) -7.77 -10.66 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3740,12 +3740,12 @@ Mixture 4. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.579e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.768e+12 exp(-F*psi/RT) + 6.767e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -3756,14 +3756,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9467e-03 - Cl_tr 1.7819e-08 + Cl 4.9474e-03 + Cl_tr 1.7809e-08 H 6.1827e-07 - Hto 1.8041e-07 + Hto 1.7988e-07 Na 5.0491e-01 - Na_tr 1.8250e-06 - O 6.4947e-09 - Sr_tr 1.8444e-05 + Na_tr 1.8163e-06 + O 6.5128e-09 + Sr_tr 1.8358e-05 Su 5.000e-01 moles @@ -3776,23 +3776,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.998e-02 - Cl_tr 3.600e-07 1.800e-07 - Hto 3.608e-07 1.804e-07 - Na 9.995e-02 4.998e-02 - Na_tr 3.613e-07 1.806e-07 - Sr_tr 3.614e-07 1.807e-07 + Cl 9.996e-02 4.998e-02 + Cl_tr 3.598e-07 1.799e-07 + Hto 3.598e-07 1.799e-07 + Na 9.996e-02 4.998e-02 + Na_tr 3.596e-07 1.798e-07 + Sr_tr 3.598e-07 1.799e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.765 Adjusted to redox equilibrium + pe = 11.882 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.935e-09 + Total alkalinity (eq/kg) = 9.919e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.630e-09 + Electrical balance (eq) = 1.619e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3803,25 +3803,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.600e-07 - Cl_tr- 3.600e-07 3.600e-07 -6.444 -6.444 -0.000 (0) +Cl 9.996e-02 + Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 3.598e-07 + Cl_tr- 3.598e-07 3.598e-07 -6.444 -6.444 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.690 -40.680 0.010 (0) -Hto 3.608e-07 - Hto 3.608e-07 3.608e-07 -6.443 -6.443 0.000 (0) -Na 9.995e-02 - Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.613e-07 - Na_tr+ 3.613e-07 3.613e-07 -6.442 -6.442 -0.000 (0) -O(0) 1.855e-11 - O2 9.275e-12 9.491e-12 -11.033 -11.023 0.010 (0) -Sr_tr 3.614e-07 - Sr_tr+2 3.614e-07 3.614e-07 -6.442 -6.442 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.925 -40.915 0.010 (0) +Hto 3.598e-07 + Hto 3.598e-07 3.598e-07 -6.444 -6.444 0.000 (0) +Na 9.996e-02 + Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na_tr 3.596e-07 + Na_tr+ 3.596e-07 3.596e-07 -6.444 -6.444 -0.000 (0) +O(0) 5.463e-11 + O2 2.732e-11 2.795e-11 -10.564 -10.554 0.010 (0) +Sr_tr 3.598e-07 + Sr_tr+2 3.598e-07 3.597e-07 -6.444 -6.444 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -3831,10 +3831,10 @@ Sr_tr 3.614e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.32 -8.68 -14.00 Sr_trCl2 - H2(g) -37.53 -40.68 -3.15 H2 + H2(g) -37.76 -40.91 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.13 -11.02 -2.89 O2 + O2(g) -7.66 -10.55 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3853,7 +3853,7 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - 1.580e-11 Surface + diffuse layer charge, eq + 1.579e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -3866,17 +3866,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.942e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9448e-03 - Cl_tr 8.8911e-09 + Cl 4.9457e-03 + Cl_tr 8.8852e-09 H 6.1830e-07 - Hto 9.0072e-08 - Na 5.0492e-01 - Na_tr 9.1151e-07 - O 6.4953e-09 - Sr_tr 9.2137e-06 + Hto 8.9755e-08 + Na 5.0493e-01 + Na_tr 9.0633e-07 + O 6.5163e-09 + Sr_tr 9.1622e-06 Su 5.000e-01 moles @@ -3889,23 +3889,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.997e-02 - Cl_tr 1.797e-07 8.985e-08 - Hto 1.801e-07 9.007e-08 - Na 9.993e-02 4.997e-02 - Na_tr 1.804e-07 9.020e-08 - Sr_tr 1.805e-07 9.023e-08 + Cl 9.994e-02 4.997e-02 + Cl_tr 1.796e-07 8.978e-08 + Hto 1.795e-07 8.975e-08 + Na 9.994e-02 4.997e-02 + Na_tr 1.794e-07 8.970e-08 + Sr_tr 1.795e-07 8.974e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.777 Adjusted to redox equilibrium + pe = 11.897 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.971e-09 + Total alkalinity (eq/kg) = 9.950e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.612e-09 + Electrical balance (eq) = 3.888e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -3916,38 +3916,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.993e-02 - Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.797e-07 - Cl_tr- 1.797e-07 1.797e-07 -6.745 -6.745 -0.000 (0) +Cl 9.994e-02 + Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.796e-07 + Cl_tr- 1.796e-07 1.796e-07 -6.746 -6.746 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.714 -40.704 0.010 (0) -Hto 1.801e-07 - Hto 1.801e-07 1.801e-07 -6.744 -6.744 0.000 (0) -Na 9.993e-02 - Na+ 9.993e-02 7.822e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.804e-07 - Na_tr+ 1.804e-07 1.804e-07 -6.744 -6.744 -0.000 (0) -O(0) 2.066e-11 - O2 1.033e-11 1.057e-11 -10.986 -10.976 0.010 (0) -Sr_tr 1.805e-07 - Sr_tr+2 1.805e-07 1.805e-07 -6.744 -6.744 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.954 -40.944 0.010 (0) +Hto 1.795e-07 + Hto 1.795e-07 1.795e-07 -6.746 -6.746 0.000 (0) +Na 9.994e-02 + Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.794e-07 + Na_tr+ 1.794e-07 1.794e-07 -6.746 -6.746 -0.000 (0) +O(0) 6.263e-11 + O2 3.132e-11 3.205e-11 -10.504 -10.494 0.010 (0) +Sr_tr 1.795e-07 + Sr_tr+2 1.795e-07 1.795e-07 -6.746 -6.746 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.15 -7.85 -14.00 NaCl_tr - A_hto 8.26 -6.74 -15.00 Hto + A_hto 8.25 -6.75 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.55 -40.70 -3.15 H2 + H2(g) -37.79 -40.94 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.08 -10.98 -2.89 O2 + O2(g) -7.60 -10.49 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3967,22 +3967,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 6.707e-07 1.047e-06 3.760e-07 -A_hto 0.00 -15.00 -15.00 1.321e-06 2.044e-06 7.221e-07 -A_na 0.00 -14.00 -14.00 7.897e-06 1.211e-05 4.215e-06 -A_sr 0.00 -14.00 -14.00 7.744e-05 1.170e-04 3.955e-05 +A_cl 0.00 -14.00 -14.00 6.586e-07 1.030e-06 3.714e-07 +A_hto 0.00 -15.00 -15.00 1.198e-06 1.874e-06 6.757e-07 +A_na 0.00 -14.00 -14.00 6.649e-06 1.040e-05 3.749e-06 +A_sr 0.00 -14.00 -14.00 6.430e-05 9.917e-05 3.487e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.876e-10 Surface + diffuse layer charge, eq + 1.820e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.771e+12 exp(-F*psi/RT) + 6.770e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -3993,14 +3993,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9427e-03 + Cl 4.9438e-03 Cl_tr 6.3258e-15 - H 6.1833e-07 + H 6.1832e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6179e-13 - O 6.4953e-09 - Sr_tr 8.7595e-11 + Na_tr 6.6165e-13 + O 6.5179e-09 + Sr_tr 8.7557e-11 Su 5.000e-01 moles @@ -4013,23 +4013,23 @@ Su Elements Molality Moles - Cl 9.992e-02 4.996e-02 - Cl_tr 1.279e-13 6.394e-14 + Cl 9.993e-02 4.996e-02 + Cl_tr 1.279e-13 6.393e-14 Hto 1.000e-15 5.000e-16 - Na 9.992e-02 4.996e-02 - Na_tr 1.310e-13 6.548e-14 - Sr_tr 1.715e-12 8.574e-13 + Na 9.993e-02 4.996e-02 + Na_tr 1.309e-13 6.547e-14 + Sr_tr 1.715e-12 8.573e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.781 Adjusted to redox equilibrium + pe = 11.904 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.992e-02 + Ionic strength (mol/kgw) = 9.993e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.001e-08 + Total alkalinity (eq/kg) = 9.988e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.023e-08 + Electrical balance (eq) = 9.598e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -4040,25 +4040,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.992e-02 - Cl- 9.992e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.993e-02 + Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.724 -40.714 0.010 (0) + H2 0.000e+00 0.000e+00 -40.968 -40.958 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.992e-02 - Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.310e-13 - Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.164e-11 - O2 1.082e-11 1.107e-11 -10.966 -10.956 0.010 (0) +Na 9.993e-02 + Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.309e-13 + Na_tr+ 1.309e-13 1.309e-13 -12.883 -12.883 -0.000 (0) +O(0) 6.667e-11 + O2 3.333e-11 3.411e-11 -10.477 -10.467 0.010 (0) Sr_tr 1.715e-12 - Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) + Sr_tr+2 1.715e-12 1.714e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4068,10 +4068,10 @@ Sr_tr 1.715e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.81 -40.96 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.06 -10.96 -2.89 O2 + O2(g) -7.57 -10.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4177,14 +4177,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9512e-03 - Cl_tr 4.5000e-08 + Cl 4.9514e-03 + Cl_tr 4.4999e-08 H 6.1817e-07 - Hto 4.5443e-07 + Hto 4.5437e-07 Na 5.0485e-01 - Na_tr 4.5887e-06 - O 6.4891e-09 - Sr_tr 4.6334e-05 + Na_tr 4.5878e-06 + O 6.4915e-09 + Sr_tr 4.6325e-05 Su 5.000e-01 moles @@ -4197,23 +4197,23 @@ Su Elements Molality Moles - Cl 9.999e-02 5.000e-02 + Cl 1.000e-01 5.000e-02 Cl_tr 9.088e-07 4.544e-07 - Hto 9.089e-07 4.544e-07 + Hto 9.087e-07 4.544e-07 Na 9.999e-02 5.000e-02 - Na_tr 9.089e-07 4.544e-07 - Sr_tr 9.088e-07 4.544e-07 + Na_tr 9.087e-07 4.543e-07 + Sr_tr 9.086e-07 4.543e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.611 Adjusted to redox equilibrium + pe = 11.688 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.855e-09 + Total alkalinity (eq/kg) = 9.853e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.173e-09 + Electrical balance (eq) = 2.985e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4225,24 +4225,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.999e-02 - Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) +Cl 1.000e-01 + Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.088e-07 Cl_tr- 9.088e-07 9.088e-07 -6.042 -6.042 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.382 -40.372 0.010 (0) -Hto 9.089e-07 - Hto 9.089e-07 9.089e-07 -6.042 -6.042 0.000 (0) + H2 0.000e+00 0.000e+00 -40.537 -40.527 0.010 (0) +Hto 9.087e-07 + Hto 9.087e-07 9.087e-07 -6.042 -6.042 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.089e-07 - Na_tr+ 9.089e-07 9.089e-07 -6.042 -6.042 -0.000 (0) -O(0) 4.483e-12 - O2 2.241e-12 2.294e-12 -11.649 -11.639 0.010 (0) -Sr_tr 9.088e-07 - Sr_tr+2 9.088e-07 9.088e-07 -6.042 -6.042 -0.000 (0) +Na_tr 9.087e-07 + Na_tr+ 9.087e-07 9.087e-07 -6.042 -6.042 -0.000 (0) +O(0) 9.153e-12 + O2 4.577e-12 4.683e-12 -11.339 -11.329 0.010 (0) +Sr_tr 9.086e-07 + Sr_tr+2 9.086e-07 9.086e-07 -6.042 -6.042 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4252,10 +4252,10 @@ Sr_tr 9.088e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.22 -40.37 -3.15 H2 + H2(g) -37.38 -40.53 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.75 -11.64 -2.89 O2 + O2(g) -8.44 -11.33 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4290,14 +4290,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9495e-03 - Cl_tr 3.5966e-08 + Cl 4.9498e-03 + Cl_tr 3.5963e-08 H 6.1821e-07 - Hto 3.6333e-07 + Hto 3.6318e-07 Na 5.0487e-01 - Na_tr 3.6695e-06 - O 6.4921e-09 - Sr_tr 3.7055e-05 + Na_tr 3.6671e-06 + O 6.4989e-09 + Sr_tr 3.7031e-05 Su 5.000e-01 moles @@ -4311,22 +4311,22 @@ Su Elements Molality Moles Cl 9.998e-02 4.999e-02 - Cl_tr 7.265e-07 3.632e-07 - Hto 7.267e-07 3.633e-07 + Cl_tr 7.264e-07 3.632e-07 + Hto 7.264e-07 3.632e-07 Na 9.998e-02 4.999e-02 - Na_tr 7.267e-07 3.633e-07 - Sr_tr 7.265e-07 3.633e-07 + Na_tr 7.262e-07 3.631e-07 + Sr_tr 7.261e-07 3.631e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.714 Adjusted to redox equilibrium + pe = 11.798 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.885e-09 + Total alkalinity (eq/kg) = 9.878e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.199e-09 + Electrical balance (eq) = 2.127e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4337,25 +4337,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.998e-02 Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 7.265e-07 - Cl_tr- 7.265e-07 7.265e-07 -6.139 -6.139 -0.000 (0) +Cl_tr 7.264e-07 + Cl_tr- 7.264e-07 7.264e-07 -6.139 -6.139 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.588 -40.578 0.010 (0) -Hto 7.267e-07 - Hto 7.267e-07 7.267e-07 -6.139 -6.139 0.000 (0) + H2 0.000e+00 0.000e+00 -40.757 -40.747 0.010 (0) +Hto 7.264e-07 + Hto 7.264e-07 7.264e-07 -6.139 -6.139 0.000 (0) Na 9.998e-02 Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) -Na_tr 7.267e-07 - Na_tr+ 7.267e-07 7.266e-07 -6.139 -6.139 -0.000 (0) -O(0) 1.160e-11 - O2 5.802e-12 5.937e-12 -11.236 -11.226 0.010 (0) -Sr_tr 7.265e-07 - Sr_tr+2 7.265e-07 7.265e-07 -6.139 -6.139 -0.000 (0) +Na_tr 7.262e-07 + Na_tr+ 7.262e-07 7.262e-07 -6.139 -6.139 -0.000 (0) +O(0) 2.522e-11 + O2 1.261e-11 1.290e-11 -10.899 -10.889 0.010 (0) +Sr_tr 7.261e-07 + Sr_tr+2 7.261e-07 7.261e-07 -6.139 -6.139 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4365,10 +4365,10 @@ Sr_tr 7.265e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.43 -40.58 -3.15 H2 + H2(g) -37.60 -40.75 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.33 -11.23 -2.89 O2 + O2(g) -8.00 -10.89 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4399,18 +4399,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.942e-02 V. + Donnan Layer potential, psi_DL = -5.941e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9477e-03 - Cl_tr 2.6947e-08 + Cl 4.9482e-03 + Cl_tr 2.6944e-08 H 6.1824e-07 - Hto 2.7232e-07 + Hto 2.7212e-07 Na 5.0489e-01 - Na_tr 2.7510e-06 - O 6.4943e-09 - Sr_tr 2.7782e-05 + Na_tr 2.7478e-06 + O 6.5051e-09 + Sr_tr 2.7750e-05 Su 5.000e-01 moles @@ -4423,23 +4423,23 @@ Su Elements Molality Moles - Cl 9.996e-02 4.998e-02 - Cl_tr 5.444e-07 2.722e-07 - Hto 5.446e-07 2.723e-07 - Na 9.996e-02 4.998e-02 - Na_tr 5.446e-07 2.723e-07 - Sr_tr 5.445e-07 2.722e-07 + Cl 9.997e-02 4.998e-02 + Cl_tr 5.443e-07 2.722e-07 + Hto 5.442e-07 2.721e-07 + Na 9.997e-02 4.998e-02 + Na_tr 5.440e-07 2.720e-07 + Sr_tr 5.439e-07 2.720e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.756 Adjusted to redox equilibrium + pe = 11.845 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.996e-02 + Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.918e-09 + Total alkalinity (eq/kg) = 9.906e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.976e-09 + Electrical balance (eq) = 1.949e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4450,25 +4450,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.996e-02 - Cl- 9.996e-02 7.640e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.444e-07 - Cl_tr- 5.444e-07 5.444e-07 -6.264 -6.264 -0.000 (0) +Cl 9.997e-02 + Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 5.443e-07 + Cl_tr- 5.443e-07 5.443e-07 -6.264 -6.264 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.672 -40.662 0.010 (0) -Hto 5.446e-07 - Hto 5.446e-07 5.446e-07 -6.264 -6.264 0.000 (0) -Na 9.996e-02 - Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) -Na_tr 5.446e-07 - Na_tr+ 5.446e-07 5.446e-07 -6.264 -6.264 -0.000 (0) -O(0) 1.706e-11 - O2 8.529e-12 8.727e-12 -11.069 -11.059 0.010 (0) -Sr_tr 5.445e-07 - Sr_tr+2 5.445e-07 5.445e-07 -6.264 -6.264 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.849 -40.839 0.010 (0) +Hto 5.442e-07 + Hto 5.442e-07 5.442e-07 -6.264 -6.264 0.000 (0) +Na 9.997e-02 + Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) +Na_tr 5.440e-07 + Na_tr+ 5.440e-07 5.440e-07 -6.264 -6.264 -0.000 (0) +O(0) 3.862e-11 + O2 1.931e-11 1.976e-11 -10.714 -10.704 0.010 (0) +Sr_tr 5.439e-07 + Sr_tr+2 5.439e-07 5.439e-07 -6.264 -6.264 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4478,10 +4478,10 @@ Sr_tr 5.445e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.51 -40.66 -3.15 H2 + H2(g) -37.69 -40.84 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.17 -11.06 -2.89 O2 + O2(g) -7.81 -10.70 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4505,7 +4505,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.769e+12 exp(-F*psi/RT) + 6.768e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -4516,14 +4516,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9458e-03 - Cl_tr 1.7949e-08 + Cl 4.9465e-03 + Cl_tr 1.7945e-08 H 6.1828e-07 - Hto 1.8145e-07 + Hto 1.8126e-07 Na 5.0491e-01 - Na_tr 1.8333e-06 - O 6.4957e-09 - Sr_tr 1.8516e-05 + Na_tr 1.8304e-06 + O 6.5098e-09 + Sr_tr 1.8487e-05 Su 5.000e-01 moles @@ -4536,23 +4536,23 @@ Su Elements Molality Moles - Cl 9.994e-02 4.997e-02 - Cl_tr 3.627e-07 1.814e-07 - Hto 3.629e-07 1.814e-07 - Na 9.994e-02 4.997e-02 - Na_tr 3.629e-07 1.814e-07 - Sr_tr 3.627e-07 1.814e-07 + Cl 9.995e-02 4.998e-02 + Cl_tr 3.626e-07 1.813e-07 + Hto 3.625e-07 1.813e-07 + Na 9.995e-02 4.998e-02 + Na_tr 3.623e-07 1.812e-07 + Sr_tr 3.622e-07 1.811e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.778 Adjusted to redox equilibrium + pe = 11.870 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.994e-02 + Ionic strength (mol/kgw) = 9.995e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.954e-09 + Total alkalinity (eq/kg) = 9.936e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.914e-09 + Electrical balance (eq) = 1.903e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4563,25 +4563,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.981e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.994e-02 - Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.627e-07 - Cl_tr- 3.627e-07 3.627e-07 -6.440 -6.440 -0.000 (0) +Cl 9.995e-02 + Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 3.626e-07 + Cl_tr- 3.626e-07 3.626e-07 -6.441 -6.441 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.717 -40.707 0.010 (0) -Hto 3.629e-07 - Hto 3.629e-07 3.629e-07 -6.440 -6.440 0.000 (0) -Na 9.994e-02 - Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.629e-07 - Na_tr+ 3.629e-07 3.629e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.096e-11 - O2 1.048e-11 1.072e-11 -10.980 -10.970 0.010 (0) -Sr_tr 3.627e-07 - Sr_tr+2 3.627e-07 3.627e-07 -6.440 -6.440 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.901 -40.891 0.010 (0) +Hto 3.625e-07 + Hto 3.625e-07 3.625e-07 -6.441 -6.441 0.000 (0) +Na 9.995e-02 + Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na_tr 3.623e-07 + Na_tr+ 3.623e-07 3.623e-07 -6.441 -6.441 -0.000 (0) +O(0) 4.899e-11 + O2 2.449e-11 2.506e-11 -10.611 -10.601 0.010 (0) +Sr_tr 3.622e-07 + Sr_tr+2 3.622e-07 3.622e-07 -6.441 -6.441 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4591,10 +4591,10 @@ Sr_tr 3.627e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.74 -40.89 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.08 -10.97 -2.89 O2 + O2(g) -7.71 -10.60 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4618,25 +4618,25 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.770e+12 exp(-F*psi/RT) + 6.769e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.943e-02 V. + Donnan Layer potential, psi_DL = -5.942e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9437e-03 - Cl_tr 8.9683e-09 + Cl 4.9447e-03 + Cl_tr 8.9664e-09 H 6.1830e-07 - Hto 9.0689e-08 + Hto 9.0580e-08 Na 5.0492e-01 - Na_tr 9.1642e-07 - O 6.4965e-09 - Sr_tr 9.2561e-06 + Na_tr 9.1468e-07 + O 6.5129e-09 + Sr_tr 9.2390e-06 Su 5.000e-01 moles @@ -4649,23 +4649,23 @@ Su Elements Molality Moles - Cl 9.992e-02 4.996e-02 - Cl_tr 1.813e-07 9.064e-08 - Hto 1.814e-07 9.069e-08 - Na 9.992e-02 4.996e-02 - Na_tr 1.814e-07 9.068e-08 - Sr_tr 1.813e-07 9.063e-08 + Cl 9.993e-02 4.997e-02 + Cl_tr 1.812e-07 9.061e-08 + Hto 1.812e-07 9.058e-08 + Na 9.993e-02 4.997e-02 + Na_tr 1.810e-07 9.052e-08 + Sr_tr 1.810e-07 9.048e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.790 Adjusted to redox equilibrium + pe = 11.885 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.992e-02 + Ionic strength (mol/kgw) = 9.993e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.994e-09 + Total alkalinity (eq/kg) = 9.971e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.896e-09 + Electrical balance (eq) = 4.172e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4676,25 +4676,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.992e-02 - Cl- 9.992e-02 7.637e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.813e-07 - Cl_tr- 1.813e-07 1.813e-07 -6.742 -6.742 -0.000 (0) +Cl 9.993e-02 + Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.812e-07 + Cl_tr- 1.812e-07 1.812e-07 -6.742 -6.742 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.741 -40.731 0.010 (0) -Hto 1.814e-07 - Hto 1.814e-07 1.814e-07 -6.741 -6.741 0.000 (0) -Na 9.992e-02 - Na+ 9.992e-02 7.821e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.814e-07 - Na_tr+ 1.814e-07 1.814e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.346e-11 - O2 1.173e-11 1.200e-11 -10.931 -10.921 0.010 (0) -Sr_tr 1.813e-07 - Sr_tr+2 1.813e-07 1.813e-07 -6.742 -6.742 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.930 -40.920 0.010 (0) +Hto 1.812e-07 + Hto 1.812e-07 1.812e-07 -6.742 -6.742 0.000 (0) +Na 9.993e-02 + Na+ 9.993e-02 7.822e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.810e-07 + Na_tr+ 1.810e-07 1.810e-07 -6.742 -6.742 -0.000 (0) +O(0) 5.607e-11 + O2 2.803e-11 2.869e-11 -10.552 -10.542 0.010 (0) +Sr_tr 1.810e-07 + Sr_tr+2 1.810e-07 1.809e-07 -6.742 -6.742 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -4704,10 +4704,10 @@ Sr_tr 1.813e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.58 -40.73 -3.15 H2 + H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.03 -10.92 -2.89 O2 + O2(g) -7.65 -10.54 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4727,17 +4727,17 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.047e-06 1.430e-06 3.830e-07 -A_hto 0.00 -15.00 -15.00 2.044e-06 2.776e-06 7.330e-07 -A_na 0.00 -14.00 -14.00 1.211e-05 1.638e-05 4.267e-06 -A_sr -0.00 -14.00 -14.00 1.170e-04 1.570e-04 3.997e-05 +A_cl 0.00 -14.00 -14.00 1.030e-06 1.409e-06 3.786e-07 +A_hto 0.00 -15.00 -15.00 1.874e-06 2.563e-06 6.888e-07 +A_na 0.00 -14.00 -14.00 1.040e-05 1.422e-05 3.822e-06 +A_sr 0.00 -14.00 -14.00 9.917e-05 1.347e-04 3.548e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.881e-10 Surface + diffuse layer charge, eq + 1.828e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -4753,14 +4753,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9416e-03 - Cl_tr 6.3257e-15 + Cl 4.9427e-03 + Cl_tr 6.3258e-15 H 6.1833e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6194e-13 - O 6.4966e-09 - Sr_tr 8.7633e-11 + Na_tr 6.6179e-13 + O 6.5142e-09 + Sr_tr 8.7594e-11 Su 5.000e-01 moles @@ -4773,23 +4773,23 @@ Su Elements Molality Moles - Cl 9.990e-02 4.995e-02 + Cl 9.992e-02 4.996e-02 Cl_tr 1.279e-13 6.394e-14 Hto 1.000e-15 5.000e-16 - Na 9.990e-02 4.995e-02 + Na 9.992e-02 4.996e-02 Na_tr 1.310e-13 6.548e-14 - Sr_tr 1.715e-12 8.576e-13 + Sr_tr 1.715e-12 8.574e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.796 Adjusted to redox equilibrium + pe = 11.891 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.990e-02 + Ionic strength (mol/kgw) = 9.992e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.004e-08 + Total alkalinity (eq/kg) = 1.001e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.361e-08 + Electrical balance (eq) = 1.288e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -4800,23 +4800,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.990e-02 - Cl- 9.990e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.992e-02 + Cl- 9.992e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.752 -40.742 0.010 (0) + H2 0.000e+00 0.000e+00 -40.944 -40.934 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.990e-02 - Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) +Na 9.992e-02 + Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.464e-11 - O2 1.232e-11 1.261e-11 -10.909 -10.899 0.010 (0) +O(0) 5.960e-11 + O2 2.980e-11 3.049e-11 -10.526 -10.516 0.010 (0) Sr_tr 1.715e-12 Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) @@ -4827,11 +4827,11 @@ Sr_tr 1.715e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl - A_sr -0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.59 -40.74 -3.15 H2 + A_sr 0.00 -14.00 -14.00 Sr_trCl2 + H2(g) -37.78 -40.93 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.01 -10.90 -2.89 O2 + O2(g) -7.62 -10.52 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4937,14 +4937,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9511e-03 + Cl 4.9513e-03 Cl_tr 4.5011e-08 H 6.1817e-07 - Hto 4.5452e-07 + Hto 4.5450e-07 Na 5.0485e-01 - Na_tr 4.5894e-06 - O 6.4892e-09 - Sr_tr 4.6339e-05 + Na_tr 4.5891e-06 + O 6.4911e-09 + Sr_tr 4.6336e-05 Su 5.000e-01 moles @@ -4961,19 +4961,19 @@ Su Cl_tr 9.090e-07 4.545e-07 Hto 9.090e-07 4.545e-07 Na 9.999e-02 5.000e-02 - Na_tr 9.090e-07 4.545e-07 + Na_tr 9.089e-07 4.545e-07 Sr_tr 9.089e-07 4.544e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.618 Adjusted to redox equilibrium + pe = 11.679 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.999e-02 + Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.857e-09 + Total alkalinity (eq/kg) = 9.855e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.458e-09 + Electrical balance (eq) = 3.269e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -4992,17 +4992,17 @@ Cl 9.999e-02 Cl_tr 9.090e-07 Cl_tr- 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.395 -40.385 0.010 (0) + H2 0.000e+00 0.000e+00 -40.519 -40.509 0.010 (0) Hto 9.090e-07 Hto 9.090e-07 9.090e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.090e-07 - Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 4.776e-12 - O2 2.388e-12 2.444e-12 -11.622 -11.612 0.010 (0) +Na_tr 9.089e-07 + Na_tr+ 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) +O(0) 8.427e-12 + O2 4.213e-12 4.312e-12 -11.375 -11.365 0.010 (0) Sr_tr 9.089e-07 - Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) + Sr_tr+2 9.089e-07 9.088e-07 -6.042 -6.042 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -5012,10 +5012,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.24 -40.39 -3.15 H2 + H2(g) -37.36 -40.51 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.72 -11.61 -2.89 O2 + O2(g) -8.47 -11.37 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5050,14 +5050,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9492e-03 - Cl_tr 3.5996e-08 + Cl 4.9495e-03 + Cl_tr 3.5995e-08 H 6.1821e-07 - Hto 3.6356e-07 + Hto 3.6351e-07 Na 5.0487e-01 - Na_tr 3.6712e-06 - O 6.4925e-09 - Sr_tr 3.7070e-05 + Na_tr 3.6704e-06 + O 6.4979e-09 + Sr_tr 3.7062e-05 Su 5.000e-01 moles @@ -5070,23 +5070,23 @@ Su Elements Molality Moles - Cl 9.997e-02 4.999e-02 - Cl_tr 7.271e-07 3.636e-07 - Hto 7.271e-07 3.636e-07 - Na 9.997e-02 4.999e-02 - Na_tr 7.270e-07 3.635e-07 - Sr_tr 7.268e-07 3.634e-07 + Cl 9.998e-02 4.999e-02 + Cl_tr 7.271e-07 3.635e-07 + Hto 7.270e-07 3.635e-07 + Na 9.998e-02 4.999e-02 + Na_tr 7.268e-07 3.634e-07 + Sr_tr 7.267e-07 3.633e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.722 Adjusted to redox equilibrium + pe = 11.789 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.892e-09 + Total alkalinity (eq/kg) = 9.884e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.484e-09 + Electrical balance (eq) = 2.412e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5100,22 +5100,22 @@ Su OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.997e-02 - Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) +Cl 9.998e-02 + Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) Cl_tr 7.271e-07 Cl_tr- 7.271e-07 7.271e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.604 -40.594 0.010 (0) -Hto 7.271e-07 - Hto 7.271e-07 7.271e-07 -6.138 -6.138 0.000 (0) -Na 9.997e-02 - Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 7.270e-07 - Na_tr+ 7.270e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.247e-11 - O2 6.237e-12 6.383e-12 -11.205 -11.195 0.010 (0) -Sr_tr 7.268e-07 - Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.738 -40.728 0.010 (0) +Hto 7.270e-07 + Hto 7.270e-07 7.270e-07 -6.138 -6.138 0.000 (0) +Na 9.998e-02 + Na+ 9.998e-02 7.825e-02 -1.000 -1.107 -0.106 (0) +Na_tr 7.268e-07 + Na_tr+ 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) +O(0) 2.312e-11 + O2 1.156e-11 1.183e-11 -10.937 -10.927 0.010 (0) +Sr_tr 7.267e-07 + Sr_tr+2 7.267e-07 7.267e-07 -6.139 -6.139 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -5125,10 +5125,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.44 -40.59 -3.15 H2 + H2(g) -37.58 -40.73 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.30 -11.20 -2.89 O2 + O2(g) -8.03 -10.93 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5152,7 +5152,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.768e+12 exp(-F*psi/RT) + 6.767e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -5163,14 +5163,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9472e-03 - Cl_tr 2.6987e-08 + Cl 4.9477e-03 + Cl_tr 2.6986e-08 H 6.1825e-07 - Hto 2.7262e-07 + Hto 2.7256e-07 Na 5.0489e-01 - Na_tr 2.7532e-06 - O 6.4949e-09 - Sr_tr 2.7801e-05 + Na_tr 2.7522e-06 + O 6.5034e-09 + Sr_tr 2.7791e-05 Su 5.000e-01 moles @@ -5184,22 +5184,22 @@ Su Elements Molality Moles Cl 9.996e-02 4.998e-02 - Cl_tr 5.453e-07 2.726e-07 - Hto 5.452e-07 2.726e-07 + Cl_tr 5.452e-07 2.726e-07 + Hto 5.451e-07 2.726e-07 Na 9.996e-02 4.998e-02 - Na_tr 5.451e-07 2.725e-07 - Sr_tr 5.448e-07 2.724e-07 + Na_tr 5.449e-07 2.724e-07 + Sr_tr 5.447e-07 2.723e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.764 Adjusted to redox equilibrium + pe = 11.835 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.928e-09 + Total alkalinity (eq/kg) = 9.915e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.260e-09 + Electrical balance (eq) = 2.233e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5211,24 +5211,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.996e-02 - Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.453e-07 - Cl_tr- 5.453e-07 5.453e-07 -6.263 -6.263 -0.000 (0) + Cl- 9.996e-02 7.640e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 5.452e-07 + Cl_tr- 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.689 -40.679 0.010 (0) -Hto 5.452e-07 - Hto 5.452e-07 5.452e-07 -6.263 -6.263 0.000 (0) + H2 0.000e+00 0.000e+00 -40.830 -40.820 0.010 (0) +Hto 5.451e-07 + Hto 5.451e-07 5.451e-07 -6.264 -6.264 0.000 (0) Na 9.996e-02 Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) -Na_tr 5.451e-07 - Na_tr+ 5.451e-07 5.451e-07 -6.264 -6.264 -0.000 (0) -O(0) 1.843e-11 - O2 9.217e-12 9.431e-12 -11.035 -11.025 0.010 (0) -Sr_tr 5.448e-07 - Sr_tr+2 5.448e-07 5.448e-07 -6.264 -6.264 -0.000 (0) +Na_tr 5.449e-07 + Na_tr+ 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) +O(0) 3.529e-11 + O2 1.764e-11 1.805e-11 -10.753 -10.743 0.010 (0) +Sr_tr 5.447e-07 + Sr_tr+2 5.447e-07 5.447e-07 -6.264 -6.264 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -5238,10 +5238,10 @@ Sr_tr 5.448e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.53 -40.68 -3.15 H2 + H2(g) -37.67 -40.82 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.13 -11.03 -2.89 O2 + O2(g) -7.85 -10.74 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5265,7 +5265,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.769e+12 exp(-F*psi/RT) + 6.768e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -5276,14 +5276,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9452e-03 - Cl_tr 1.7985e-08 + Cl 4.9459e-03 + Cl_tr 1.7984e-08 H 6.1828e-07 - Hto 1.8172e-07 + Hto 1.8166e-07 Na 5.0491e-01 - Na_tr 1.8353e-06 - O 6.4966e-09 - Sr_tr 1.8533e-05 + Na_tr 1.8344e-06 + O 6.5076e-09 + Sr_tr 1.8524e-05 Su 5.000e-01 moles @@ -5297,22 +5297,22 @@ Su Elements Molality Moles Cl 9.994e-02 4.997e-02 - Cl_tr 3.635e-07 1.817e-07 - Hto 3.634e-07 1.817e-07 + Cl_tr 3.634e-07 1.817e-07 + Hto 3.633e-07 1.817e-07 Na 9.994e-02 4.997e-02 - Na_tr 3.633e-07 1.816e-07 - Sr_tr 3.630e-07 1.815e-07 + Na_tr 3.631e-07 1.816e-07 + Sr_tr 3.629e-07 1.815e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.787 Adjusted to redox equilibrium + pe = 11.860 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.994e-02 + Ionic strength (mol/kgw) = 9.995e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.967e-09 + Total alkalinity (eq/kg) = 9.949e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.199e-09 + Electrical balance (eq) = 2.187e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5323,25 +5323,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.994e-02 Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.635e-07 - Cl_tr- 3.635e-07 3.635e-07 -6.440 -6.440 -0.000 (0) +Cl_tr 3.634e-07 + Cl_tr- 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.735 -40.725 0.010 (0) -Hto 3.634e-07 - Hto 3.634e-07 3.634e-07 -6.440 -6.440 0.000 (0) + H2 0.000e+00 0.000e+00 -40.881 -40.871 0.010 (0) +Hto 3.633e-07 + Hto 3.633e-07 3.633e-07 -6.440 -6.440 0.000 (0) Na 9.994e-02 Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.633e-07 - Na_tr+ 3.633e-07 3.633e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.277e-11 - O2 1.139e-11 1.165e-11 -10.944 -10.934 0.010 (0) -Sr_tr 3.630e-07 - Sr_tr+2 3.630e-07 3.630e-07 -6.440 -6.440 -0.000 (0) +Na_tr 3.631e-07 + Na_tr+ 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) +O(0) 4.467e-11 + O2 2.234e-11 2.286e-11 -10.651 -10.641 0.010 (0) +Sr_tr 3.629e-07 + Sr_tr+2 3.629e-07 3.629e-07 -6.440 -6.440 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -5351,10 +5351,10 @@ Sr_tr 3.630e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.57 -40.72 -3.15 H2 + H2(g) -37.72 -40.87 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.04 -10.93 -2.89 O2 + O2(g) -7.75 -10.64 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5373,7 +5373,7 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - 1.577e-11 Surface + diffuse layer charge, eq + 1.578e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -5389,14 +5389,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9430e-03 - Cl_tr 8.9899e-09 + Cl 4.9440e-03 + Cl_tr 8.9895e-09 H 6.1831e-07 - Hto 9.0851e-08 + Hto 9.0815e-08 Na 5.0492e-01 - Na_tr 9.1763e-07 - O 6.4974e-09 - Sr_tr 9.2665e-06 + Na_tr 9.1707e-07 + O 6.5103e-09 + Sr_tr 9.2610e-06 Su 5.000e-01 moles @@ -5409,23 +5409,23 @@ Su Elements Molality Moles - Cl 9.992e-02 4.996e-02 - Cl_tr 1.817e-07 9.086e-08 - Hto 1.817e-07 9.085e-08 - Na 9.992e-02 4.996e-02 - Na_tr 1.816e-07 9.079e-08 - Sr_tr 1.814e-07 9.072e-08 + Cl 9.993e-02 4.996e-02 + Cl_tr 1.817e-07 9.085e-08 + Hto 1.816e-07 9.082e-08 + Na 9.993e-02 4.996e-02 + Na_tr 1.815e-07 9.075e-08 + Sr_tr 1.814e-07 9.068e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.800 Adjusted to redox equilibrium + pe = 11.875 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.992e-02 + Ionic strength (mol/kgw) = 9.993e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.001e-08 + Total alkalinity (eq/kg) = 9.986e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.180e-09 + Electrical balance (eq) = 4.456e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5436,23 +5436,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.983e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.992e-02 - Cl- 9.992e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.993e-02 + Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.817e-07 Cl_tr- 1.817e-07 1.817e-07 -6.741 -6.741 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.760 -40.750 0.010 (0) -Hto 1.817e-07 - Hto 1.817e-07 1.817e-07 -6.741 -6.741 0.000 (0) -Na 9.992e-02 - Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.816e-07 - Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.556e-11 - O2 1.278e-11 1.308e-11 -10.894 -10.884 0.010 (0) + H2 0.000e+00 0.000e+00 -40.910 -40.900 0.010 (0) +Hto 1.816e-07 + Hto 1.816e-07 1.816e-07 -6.741 -6.741 0.000 (0) +Na 9.993e-02 + Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.815e-07 + Na_tr+ 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) +O(0) 5.102e-11 + O2 2.551e-11 2.610e-11 -10.593 -10.583 0.010 (0) Sr_tr 1.814e-07 Sr_tr+2 1.814e-07 1.814e-07 -6.741 -6.741 -0.000 (0) @@ -5464,10 +5464,10 @@ Sr_tr 1.814e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.60 -40.75 -3.15 H2 + H2(g) -37.75 -40.90 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.99 -10.88 -2.89 O2 + O2(g) -7.69 -10.58 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5487,40 +5487,40 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.430e-06 1.815e-06 3.850e-07 -A_hto 0.00 -15.00 -15.00 2.776e-06 3.512e-06 7.358e-07 -A_na 0.00 -14.00 -14.00 1.638e-05 2.066e-05 4.279e-06 -A_sr 0.00 -14.00 -14.00 1.570e-04 1.970e-04 4.007e-05 +A_cl 0.00 -14.00 -14.00 1.409e-06 1.789e-06 3.807e-07 +A_hto 0.00 -15.00 -15.00 2.563e-06 3.255e-06 6.925e-07 +A_na 0.00 -14.00 -14.00 1.422e-05 1.806e-05 3.842e-06 +A_sr 0.00 -14.00 -14.00 1.347e-04 1.703e-04 3.566e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.882e-10 Surface + diffuse layer charge, eq + 1.829e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.772e+12 exp(-F*psi/RT) + 6.771e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.944e-02 V. + Donnan Layer potential, psi_DL = -5.943e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9408e-03 + Cl 4.9420e-03 Cl_tr 6.3257e-15 - H 6.1833e-07 + H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6204e-13 - O 6.4976e-09 - Sr_tr 8.7659e-11 + Na_tr 6.6188e-13 + O 6.5114e-09 + Sr_tr 8.7619e-11 Su 5.000e-01 moles @@ -5533,23 +5533,23 @@ Su Elements Molality Moles - Cl 9.990e-02 4.995e-02 - Cl_tr 1.279e-13 6.395e-14 + Cl 9.991e-02 4.995e-02 + Cl_tr 1.279e-13 6.394e-14 Hto 1.000e-15 5.000e-16 - Na 9.990e-02 4.995e-02 - Na_tr 1.310e-13 6.549e-14 - Sr_tr 1.715e-12 8.577e-13 + Na 9.991e-02 4.995e-02 + Na_tr 1.310e-13 6.548e-14 + Sr_tr 1.715e-12 8.575e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.805 Adjusted to redox equilibrium + pe = 11.881 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.990e-02 + Ionic strength (mol/kgw) = 9.991e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.005e-08 + Total alkalinity (eq/kg) = 1.003e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.700e-08 + Electrical balance (eq) = 1.617e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -5560,23 +5560,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.986e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.990e-02 - Cl- 9.990e-02 7.635e-02 -1.000 -1.117 -0.117 (0) +Cl 9.991e-02 + Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.771 -40.761 0.010 (0) + H2 0.000e+00 0.000e+00 -40.923 -40.913 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.990e-02 - Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) +Na 9.991e-02 + Na+ 9.991e-02 7.820e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.689e-11 - O2 1.345e-11 1.376e-11 -10.871 -10.861 0.010 (0) +O(0) 5.417e-11 + O2 2.709e-11 2.772e-11 -10.567 -10.557 0.010 (0) Sr_tr 1.715e-12 Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) @@ -5588,10 +5588,10 @@ Sr_tr 1.715e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.61 -40.76 -3.15 H2 + H2(g) -37.76 -40.91 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.97 -10.86 -2.89 O2 + O2(g) -7.66 -10.56 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5697,14 +5697,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9511e-03 + Cl 4.9512e-03 Cl_tr 4.5014e-08 H 6.1817e-07 - Hto 4.5454e-07 + Hto 4.5453e-07 Na 5.0485e-01 - Na_tr 4.5895e-06 - O 6.4894e-09 - Sr_tr 4.6341e-05 + Na_tr 4.5894e-06 + O 6.4908e-09 + Sr_tr 4.6340e-05 Su 5.000e-01 moles @@ -5727,13 +5727,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.623 Adjusted to redox equilibrium + pe = 11.672 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.999e-02 + Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.859e-09 + Total alkalinity (eq/kg) = 9.856e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.742e-09 + Electrical balance (eq) = 3.553e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5744,23 +5744,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.091e-07 Cl_tr- 9.091e-07 9.091e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.406 -40.396 0.010 (0) + H2 0.000e+00 0.000e+00 -40.505 -40.495 0.010 (0) Hto 9.091e-07 Hto 9.091e-07 9.091e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.090e-07 Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 5.017e-12 - O2 2.508e-12 2.567e-12 -11.601 -11.591 0.010 (0) +O(0) 7.894e-12 + O2 3.947e-12 4.039e-12 -11.404 -11.394 0.010 (0) Sr_tr 9.089e-07 Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) @@ -5772,10 +5772,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.25 -40.40 -3.15 H2 + H2(g) -37.34 -40.49 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.70 -11.59 -2.89 O2 + O2(g) -8.50 -11.39 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5799,7 +5799,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.767e+12 exp(-F*psi/RT) + 6.766e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -5810,14 +5810,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9490e-03 + Cl 4.9493e-03 Cl_tr 3.6004e-08 H 6.1821e-07 - Hto 3.6362e-07 + Hto 3.6360e-07 Na 5.0487e-01 - Na_tr 3.6716e-06 - O 6.4928e-09 - Sr_tr 3.7073e-05 + Na_tr 3.6714e-06 + O 6.4970e-09 + Sr_tr 3.7071e-05 Su 5.000e-01 moles @@ -5830,8 +5830,8 @@ Su Elements Molality Moles - Cl 9.997e-02 4.999e-02 - Cl_tr 7.273e-07 3.637e-07 + Cl 9.998e-02 4.999e-02 + Cl_tr 7.273e-07 3.636e-07 Hto 7.272e-07 3.636e-07 Na 9.997e-02 4.999e-02 Na_tr 7.270e-07 3.635e-07 @@ -5840,13 +5840,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.728 Adjusted to redox equilibrium + pe = 11.781 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.997e-02 + Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.896e-09 + Total alkalinity (eq/kg) = 9.888e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.768e-09 + Electrical balance (eq) = 2.696e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5860,20 +5860,20 @@ Su OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.997e-02 - Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) +Cl 9.998e-02 + Cl- 9.998e-02 7.641e-02 -1.000 -1.117 -0.117 (0) Cl_tr 7.273e-07 Cl_tr- 7.273e-07 7.273e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.615 -40.605 0.010 (0) + H2 0.000e+00 0.000e+00 -40.722 -40.712 0.010 (0) Hto 7.272e-07 Hto 7.272e-07 7.272e-07 -6.138 -6.138 0.000 (0) Na 9.997e-02 - Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) + Na+ 9.997e-02 7.825e-02 -1.000 -1.107 -0.106 (0) Na_tr 7.270e-07 Na_tr+ 7.270e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.314e-11 - O2 6.570e-12 6.723e-12 -11.182 -11.172 0.010 (0) +O(0) 2.151e-11 + O2 1.076e-11 1.101e-11 -10.968 -10.958 0.010 (0) Sr_tr 7.268e-07 Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) @@ -5885,10 +5885,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.46 -40.61 -3.15 H2 + H2(g) -37.56 -40.71 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.28 -11.17 -2.89 O2 + O2(g) -8.07 -10.96 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5923,14 +5923,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9469e-03 + Cl 4.9474e-03 Cl_tr 2.6998e-08 H 6.1825e-07 - Hto 2.7270e-07 + Hto 2.7268e-07 Na 5.0489e-01 - Na_tr 2.7537e-06 - O 6.4954e-09 - Sr_tr 2.7806e-05 + Na_tr 2.7534e-06 + O 6.5021e-09 + Sr_tr 2.7802e-05 Su 5.000e-01 moles @@ -5943,23 +5943,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.998e-02 + Cl 9.996e-02 4.998e-02 Cl_tr 5.455e-07 2.727e-07 Hto 5.454e-07 2.727e-07 - Na 9.995e-02 4.998e-02 - Na_tr 5.452e-07 2.726e-07 + Na 9.996e-02 4.998e-02 + Na_tr 5.451e-07 2.726e-07 Sr_tr 5.449e-07 2.724e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.770 Adjusted to redox equilibrium + pe = 11.827 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.935e-09 + Total alkalinity (eq/kg) = 9.921e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.544e-09 + Electrical balance (eq) = 2.517e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -5970,23 +5970,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl 9.996e-02 + Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) Cl_tr 5.455e-07 Cl_tr- 5.455e-07 5.455e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.701 -40.691 0.010 (0) + H2 0.000e+00 0.000e+00 -40.813 -40.803 0.010 (0) Hto 5.454e-07 Hto 5.454e-07 5.454e-07 -6.263 -6.263 0.000 (0) -Na 9.995e-02 - Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) -Na_tr 5.452e-07 - Na_tr+ 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) -O(0) 1.947e-11 - O2 9.735e-12 9.962e-12 -11.012 -11.002 0.010 (0) +Na 9.996e-02 + Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na_tr 5.451e-07 + Na_tr+ 5.451e-07 5.451e-07 -6.264 -6.264 -0.000 (0) +O(0) 3.274e-11 + O2 1.637e-11 1.675e-11 -10.786 -10.776 0.010 (0) Sr_tr 5.449e-07 Sr_tr+2 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) @@ -5998,10 +5998,10 @@ Sr_tr 5.449e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.54 -40.69 -3.15 H2 + H2(g) -37.65 -40.80 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.11 -11.00 -2.89 O2 + O2(g) -7.88 -10.78 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6036,14 +6036,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9448e-03 + Cl 4.9455e-03 Cl_tr 1.7995e-08 H 6.1828e-07 - Hto 1.8179e-07 + Hto 1.8177e-07 Na 5.0491e-01 - Na_tr 1.8358e-06 - O 6.4972e-09 - Sr_tr 1.8538e-05 + Na_tr 1.8355e-06 + O 6.5058e-09 + Sr_tr 1.8535e-05 Su 5.000e-01 moles @@ -6056,23 +6056,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.997e-02 + Cl 9.994e-02 4.997e-02 Cl_tr 3.637e-07 1.818e-07 - Hto 3.636e-07 1.818e-07 - Na 9.993e-02 4.997e-02 - Na_tr 3.634e-07 1.817e-07 + Hto 3.635e-07 1.818e-07 + Na 9.994e-02 4.997e-02 + Na_tr 3.633e-07 1.817e-07 Sr_tr 3.631e-07 1.815e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.793 Adjusted to redox equilibrium + pe = 11.852 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.993e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.976e-09 + Total alkalinity (eq/kg) = 9.957e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.483e-09 + Electrical balance (eq) = 2.471e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6084,22 +6084,22 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.993e-02 - Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) +Cl 9.994e-02 + Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) Cl_tr 3.637e-07 Cl_tr- 3.637e-07 3.637e-07 -6.439 -6.439 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.747 -40.737 0.010 (0) -Hto 3.636e-07 - Hto 3.636e-07 3.636e-07 -6.439 -6.439 0.000 (0) -Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) -Na_tr 3.634e-07 - Na_tr+ 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.415e-11 - O2 1.207e-11 1.235e-11 -10.918 -10.908 0.010 (0) + H2 0.000e+00 0.000e+00 -40.864 -40.854 0.010 (0) +Hto 3.635e-07 + Hto 3.635e-07 3.635e-07 -6.439 -6.439 0.000 (0) +Na 9.994e-02 + Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) +Na_tr 3.633e-07 + Na_tr+ 3.633e-07 3.633e-07 -6.440 -6.440 -0.000 (0) +O(0) 4.133e-11 + O2 2.066e-11 2.115e-11 -10.685 -10.675 0.010 (0) Sr_tr 3.631e-07 Sr_tr+2 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) @@ -6111,10 +6111,10 @@ Sr_tr 3.631e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.59 -40.74 -3.15 H2 + H2(g) -37.70 -40.85 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.02 -10.91 -2.89 O2 + O2(g) -7.78 -10.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6138,7 +6138,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.771e+12 exp(-F*psi/RT) + 6.770e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -6149,14 +6149,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9426e-03 - Cl_tr 8.9959e-09 + Cl 4.9435e-03 + Cl_tr 8.9960e-09 H 6.1831e-07 - Hto 9.0894e-08 + Hto 9.0882e-08 Na 5.0492e-01 - Na_tr 9.1794e-07 - O 6.4982e-09 - Sr_tr 9.2692e-06 + Na_tr 9.1776e-07 + O 6.5082e-09 + Sr_tr 9.2674e-06 Su 5.000e-01 moles @@ -6169,23 +6169,23 @@ Su Elements Molality Moles - Cl 9.991e-02 4.996e-02 + Cl 9.992e-02 4.996e-02 Cl_tr 1.818e-07 9.092e-08 - Hto 1.818e-07 9.089e-08 - Na 9.991e-02 4.996e-02 - Na_tr 1.816e-07 9.082e-08 + Hto 1.818e-07 9.088e-08 + Na 9.992e-02 4.996e-02 + Na_tr 1.816e-07 9.081e-08 Sr_tr 1.815e-07 9.073e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.806 Adjusted to redox equilibrium + pe = 11.866 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.991e-02 + Ionic strength (mol/kgw) = 9.992e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.002e-08 + Total alkalinity (eq/kg) = 9.996e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.464e-09 + Electrical balance (eq) = 4.740e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6196,23 +6196,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.991e-02 - Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.992e-02 + Cl- 9.992e-02 7.637e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.818e-07 Cl_tr- 1.818e-07 1.818e-07 -6.740 -6.740 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.773 -40.763 0.010 (0) + H2 0.000e+00 0.000e+00 -40.893 -40.883 0.010 (0) Hto 1.818e-07 Hto 1.818e-07 1.818e-07 -6.740 -6.740 0.000 (0) -Na 9.991e-02 - Na+ 9.991e-02 7.820e-02 -1.000 -1.107 -0.106 (0) +Na 9.992e-02 + Na+ 9.992e-02 7.821e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.816e-07 Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.716e-11 - O2 1.358e-11 1.390e-11 -10.867 -10.857 0.010 (0) +O(0) 4.712e-11 + O2 2.356e-11 2.411e-11 -10.628 -10.618 0.010 (0) Sr_tr 1.815e-07 Sr_tr+2 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) @@ -6224,10 +6224,10 @@ Sr_tr 1.815e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.61 -40.76 -3.15 H2 + H2(g) -37.73 -40.88 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.96 -10.86 -2.89 O2 + O2(g) -7.73 -10.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6247,40 +6247,40 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.815e-06 2.200e-06 3.855e-07 -A_hto 0.00 -15.00 -15.00 3.512e-06 4.249e-06 7.366e-07 -A_na 0.00 -14.00 -14.00 2.066e-05 2.494e-05 4.283e-06 -A_sr 0.00 -14.00 -14.00 1.970e-04 2.371e-04 4.009e-05 +A_cl 0.00 -14.00 -14.00 1.789e-06 2.170e-06 3.813e-07 +A_hto 0.00 -15.00 -15.00 3.255e-06 3.949e-06 6.935e-07 +A_na 0.00 -14.00 -14.00 1.806e-05 2.191e-05 3.848e-06 +A_sr 0.00 -14.00 -14.00 1.703e-04 2.060e-04 3.571e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.882e-10 Surface + diffuse layer charge, eq + 1.830e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.772e+12 exp(-F*psi/RT) + 6.771e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.944e-02 V. + Donnan Layer potential, psi_DL = -5.943e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9403e-03 + Cl 4.9415e-03 Cl_tr 6.3257e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6210e-13 - O 6.4984e-09 - Sr_tr 8.7676e-11 + Na_tr 6.6195e-13 + O 6.5092e-09 + Sr_tr 8.7636e-11 Su 5.000e-01 moles @@ -6293,23 +6293,23 @@ Su Elements Molality Moles - Cl 9.989e-02 4.995e-02 - Cl_tr 1.279e-13 6.395e-14 + Cl 9.990e-02 4.995e-02 + Cl_tr 1.279e-13 6.394e-14 Hto 1.000e-15 5.000e-16 - Na 9.989e-02 4.995e-02 - Na_tr 1.310e-13 6.549e-14 - Sr_tr 1.716e-12 8.578e-13 + Na 9.990e-02 4.995e-02 + Na_tr 1.310e-13 6.548e-14 + Sr_tr 1.715e-12 8.576e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.812 Adjusted to redox equilibrium + pe = 11.872 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.989e-02 + Ionic strength (mol/kgw) = 9.990e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.007e-08 + Total alkalinity (eq/kg) = 1.004e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.039e-08 + Electrical balance (eq) = 1.947e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -6320,25 +6320,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.986e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.989e-02 - Cl- 9.989e-02 7.635e-02 -1.000 -1.117 -0.117 (0) +Cl 9.990e-02 + Cl- 9.990e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.784 -40.774 0.010 (0) + H2 0.000e+00 0.000e+00 -40.905 -40.895 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.989e-02 - Na+ 9.989e-02 7.818e-02 -1.000 -1.107 -0.106 (0) +Na 9.990e-02 + Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.863e-11 - O2 1.431e-11 1.465e-11 -10.844 -10.834 0.010 (0) -Sr_tr 1.716e-12 - Sr_tr+2 1.716e-12 1.716e-12 -11.766 -11.766 -0.000 (0) +O(0) 5.000e-11 + O2 2.500e-11 2.558e-11 -10.602 -10.592 0.010 (0) +Sr_tr 1.715e-12 + Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -6348,10 +6348,10 @@ Sr_tr 1.716e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.62 -40.77 -3.15 H2 + H2(g) -37.75 -40.90 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.94 -10.83 -2.89 O2 + O2(g) -7.70 -10.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6457,13 +6457,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9510e-03 + Cl 4.9511e-03 Cl_tr 4.5015e-08 H 6.1817e-07 Hto 4.5454e-07 Na 5.0485e-01 - Na_tr 4.5896e-06 - O 6.4894e-09 + Na_tr 4.5895e-06 + O 6.4906e-09 Sr_tr 4.6341e-05 Su @@ -6487,13 +6487,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.626 Adjusted to redox equilibrium + pe = 11.666 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.860e-09 + Total alkalinity (eq/kg) = 9.857e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.026e-09 + Electrical balance (eq) = 3.838e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6504,23 +6504,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.091e-07 Cl_tr- 9.091e-07 9.091e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.413 -40.403 0.010 (0) + H2 0.000e+00 0.000e+00 -40.493 -40.483 0.010 (0) Hto 9.091e-07 Hto 9.091e-07 9.091e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.090e-07 Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 5.168e-12 - O2 2.584e-12 2.644e-12 -11.588 -11.578 0.010 (0) +O(0) 7.470e-12 + O2 3.735e-12 3.822e-12 -11.428 -11.418 0.010 (0) Sr_tr 9.089e-07 Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) @@ -6532,10 +6532,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.25 -40.40 -3.15 H2 + H2(g) -37.33 -40.48 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.69 -11.58 -2.89 O2 + O2(g) -8.53 -11.42 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6559,7 +6559,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.767e+12 exp(-F*psi/RT) + 6.766e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -6570,13 +6570,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9489e-03 + Cl 4.9492e-03 Cl_tr 3.6007e-08 H 6.1821e-07 Hto 3.6363e-07 Na 5.0487e-01 - Na_tr 3.6718e-06 - O 6.4930e-09 + Na_tr 3.6717e-06 + O 6.4964e-09 Sr_tr 3.7074e-05 Su @@ -6591,7 +6591,7 @@ Su Elements Molality Moles Cl 9.997e-02 4.999e-02 - Cl_tr 7.274e-07 3.637e-07 + Cl_tr 7.273e-07 3.637e-07 Hto 7.273e-07 3.636e-07 Na 9.997e-02 4.999e-02 Na_tr 7.271e-07 3.635e-07 @@ -6600,13 +6600,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.731 Adjusted to redox equilibrium + pe = 11.775 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.997e-02 + Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.899e-09 + Total alkalinity (eq/kg) = 9.891e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.052e-09 + Electrical balance (eq) = 2.980e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6622,18 +6622,18 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.997e-02 Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 7.274e-07 - Cl_tr- 7.274e-07 7.274e-07 -6.138 -6.138 -0.000 (0) +Cl_tr 7.273e-07 + Cl_tr- 7.273e-07 7.273e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.623 -40.613 0.010 (0) + H2 0.000e+00 0.000e+00 -40.709 -40.699 0.010 (0) Hto 7.273e-07 Hto 7.273e-07 7.273e-07 -6.138 -6.138 0.000 (0) Na 9.997e-02 Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) Na_tr 7.271e-07 - Na_tr+ 7.271e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.363e-11 - O2 6.814e-12 6.972e-12 -11.167 -11.157 0.010 (0) + Na_tr+ 7.271e-07 7.271e-07 -6.138 -6.138 -0.000 (0) +O(0) 2.027e-11 + O2 1.014e-11 1.037e-11 -10.994 -10.984 0.010 (0) Sr_tr 7.268e-07 Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) @@ -6645,10 +6645,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.46 -40.61 -3.15 H2 + H2(g) -37.55 -40.70 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.26 -11.16 -2.89 O2 + O2(g) -8.09 -10.98 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6683,14 +6683,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9467e-03 + Cl 4.9472e-03 Cl_tr 2.7001e-08 H 6.1825e-07 - Hto 2.7272e-07 + Hto 2.7271e-07 Na 5.0489e-01 - Na_tr 2.7539e-06 - O 6.4958e-09 - Sr_tr 2.7807e-05 + Na_tr 2.7538e-06 + O 6.5011e-09 + Sr_tr 2.7806e-05 Su 5.000e-01 moles @@ -6703,23 +6703,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.998e-02 - Cl_tr 5.456e-07 2.728e-07 + Cl 9.996e-02 4.998e-02 + Cl_tr 5.455e-07 2.728e-07 Hto 5.454e-07 2.727e-07 - Na 9.995e-02 4.997e-02 + Na 9.996e-02 4.998e-02 Na_tr 5.452e-07 2.726e-07 - Sr_tr 5.449e-07 2.724e-07 + Sr_tr 5.449e-07 2.725e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.775 Adjusted to redox equilibrium + pe = 11.820 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.939e-09 + Total alkalinity (eq/kg) = 9.926e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.828e-09 + Electrical balance (eq) = 2.801e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6730,23 +6730,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.456e-07 - Cl_tr- 5.456e-07 5.456e-07 -6.263 -6.263 -0.000 (0) +Cl 9.996e-02 + Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 5.455e-07 + Cl_tr- 5.455e-07 5.455e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.709 -40.699 0.010 (0) + H2 0.000e+00 0.000e+00 -40.800 -40.790 0.010 (0) Hto 5.454e-07 Hto 5.454e-07 5.454e-07 -6.263 -6.263 0.000 (0) -Na 9.995e-02 - Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) +Na 9.996e-02 + Na+ 9.996e-02 7.823e-02 -1.000 -1.107 -0.106 (0) Na_tr 5.452e-07 Na_tr+ 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) -O(0) 2.028e-11 - O2 1.014e-11 1.037e-11 -10.994 -10.984 0.010 (0) +O(0) 3.076e-11 + O2 1.538e-11 1.574e-11 -10.813 -10.803 0.010 (0) Sr_tr 5.449e-07 Sr_tr+2 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) @@ -6758,10 +6758,10 @@ Sr_tr 5.449e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.55 -40.70 -3.15 H2 + H2(g) -37.64 -40.79 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.09 -10.98 -2.89 O2 + O2(g) -7.91 -10.80 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6793,17 +6793,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.942e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9445e-03 + Cl 4.9452e-03 Cl_tr 1.7998e-08 H 6.1828e-07 Hto 1.8181e-07 - Na 5.0490e-01 - Na_tr 1.8360e-06 - O 6.4977e-09 - Sr_tr 1.8539e-05 + Na 5.0491e-01 + Na_tr 1.8359e-06 + O 6.5045e-09 + Sr_tr 1.8538e-05 Su 5.000e-01 moles @@ -6816,23 +6816,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.997e-02 + Cl 9.994e-02 4.997e-02 Cl_tr 3.637e-07 1.819e-07 Hto 3.636e-07 1.818e-07 - Na 9.993e-02 4.996e-02 + Na 9.994e-02 4.997e-02 Na_tr 3.634e-07 1.817e-07 - Sr_tr 3.631e-07 1.815e-07 + Sr_tr 3.631e-07 1.816e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.798 Adjusted to redox equilibrium + pe = 11.845 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.993e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.981e-09 + Total alkalinity (eq/kg) = 9.963e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.766e-09 + Electrical balance (eq) = 2.755e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6843,23 +6843,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.983e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.993e-02 - Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) +Cl 9.994e-02 + Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) Cl_tr 3.637e-07 Cl_tr- 3.637e-07 3.637e-07 -6.439 -6.439 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.756 -40.746 0.010 (0) + H2 0.000e+00 0.000e+00 -40.850 -40.840 0.010 (0) Hto 3.636e-07 Hto 3.636e-07 3.636e-07 -6.439 -6.439 0.000 (0) -Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) +Na 9.994e-02 + Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) Na_tr 3.634e-07 Na_tr+ 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.518e-11 - O2 1.259e-11 1.288e-11 -10.900 -10.890 0.010 (0) +O(0) 3.875e-11 + O2 1.937e-11 1.983e-11 -10.713 -10.703 0.010 (0) Sr_tr 3.631e-07 Sr_tr+2 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) @@ -6871,10 +6871,10 @@ Sr_tr 3.631e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.60 -40.75 -3.15 H2 + H2(g) -37.69 -40.84 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.00 -10.89 -2.89 O2 + O2(g) -7.81 -10.70 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6893,12 +6893,12 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - 1.576e-11 Surface + diffuse layer charge, eq + 1.577e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.771e+12 exp(-F*psi/RT) + 6.770e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -6909,14 +6909,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9422e-03 - Cl_tr 8.9975e-09 + Cl 4.9432e-03 + Cl_tr 8.9978e-09 H 6.1831e-07 - Hto 9.0905e-08 + Hto 9.0901e-08 Na 5.0492e-01 - Na_tr 9.1802e-07 - O 6.4987e-09 - Sr_tr 9.2699e-06 + Na_tr 9.1796e-07 + O 6.5067e-09 + Sr_tr 9.2693e-06 Su 5.000e-01 moles @@ -6929,23 +6929,23 @@ Su Elements Molality Moles - Cl 9.991e-02 4.995e-02 + Cl 9.992e-02 4.996e-02 Cl_tr 1.819e-07 9.094e-08 - Hto 1.818e-07 9.091e-08 - Na 9.991e-02 4.995e-02 - Na_tr 1.816e-07 9.082e-08 - Sr_tr 1.815e-07 9.073e-08 + Hto 1.818e-07 9.090e-08 + Na 9.992e-02 4.996e-02 + Na_tr 1.817e-07 9.083e-08 + Sr_tr 1.815e-07 9.075e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.811 Adjusted to redox equilibrium + pe = 11.859 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.991e-02 + Ionic strength (mol/kgw) = 9.992e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.003e-08 + Total alkalinity (eq/kg) = 1.000e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.748e-09 + Electrical balance (eq) = 5.024e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -6956,23 +6956,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.991e-02 - Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.992e-02 + Cl- 9.992e-02 7.637e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.819e-07 Cl_tr- 1.819e-07 1.819e-07 -6.740 -6.740 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.782 -40.772 0.010 (0) + H2 0.000e+00 0.000e+00 -40.878 -40.868 0.010 (0) Hto 1.818e-07 Hto 1.818e-07 1.818e-07 -6.740 -6.740 0.000 (0) -Na 9.991e-02 - Na+ 9.991e-02 7.820e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.816e-07 - Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.836e-11 - O2 1.418e-11 1.451e-11 -10.848 -10.838 0.010 (0) +Na 9.992e-02 + Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.817e-07 + Na_tr+ 1.817e-07 1.817e-07 -6.741 -6.741 -0.000 (0) +O(0) 4.414e-11 + O2 2.207e-11 2.258e-11 -10.656 -10.646 0.010 (0) Sr_tr 1.815e-07 Sr_tr+2 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) @@ -6984,10 +6984,10 @@ Sr_tr 1.815e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.62 -40.77 -3.15 H2 + H2(g) -37.72 -40.87 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.95 -10.84 -2.89 O2 + O2(g) -7.75 -10.65 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7007,17 +7007,17 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 2.200e-06 2.586e-06 3.857e-07 -A_hto 0.00 -15.00 -15.00 4.249e-06 4.986e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 2.494e-05 2.922e-05 4.283e-06 -A_sr 0.00 -14.00 -14.00 2.371e-04 2.772e-04 4.010e-05 +A_cl 0.00 -14.00 -14.00 2.170e-06 2.552e-06 3.814e-07 +A_hto 0.00 -15.00 -15.00 3.949e-06 4.643e-06 6.938e-07 +A_na 0.00 -14.00 -14.00 2.191e-05 2.576e-05 3.850e-06 +A_sr 0.00 -14.00 -14.00 2.060e-04 2.417e-04 3.572e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.881e-10 Surface + diffuse layer charge, eq + 1.829e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -7029,18 +7029,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.944e-02 V. + Donnan Layer potential, psi_DL = -5.943e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9400e-03 + Cl 4.9411e-03 Cl_tr 6.3257e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6214e-13 - O 6.4990e-09 - Sr_tr 8.7687e-11 + Na_tr 6.6199e-13 + O 6.5075e-09 + Sr_tr 8.7647e-11 Su 5.000e-01 moles @@ -7053,23 +7053,23 @@ Su Elements Molality Moles - Cl 9.989e-02 4.994e-02 + Cl 9.990e-02 4.995e-02 Cl_tr 1.279e-13 6.395e-14 Hto 1.000e-15 5.000e-16 - Na 9.989e-02 4.994e-02 + Na 9.990e-02 4.995e-02 Na_tr 1.310e-13 6.549e-14 - Sr_tr 1.716e-12 8.579e-13 + Sr_tr 1.715e-12 8.577e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.817 Adjusted to redox equilibrium + pe = 11.865 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.989e-02 + Ionic strength (mol/kgw) = 9.990e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.007e-08 + Total alkalinity (eq/kg) = 1.004e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.377e-08 + Electrical balance (eq) = 2.276e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -7080,25 +7080,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.986e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.989e-02 - Cl- 9.989e-02 7.634e-02 -1.000 -1.117 -0.117 (0) +Cl 9.990e-02 + Cl- 9.990e-02 7.635e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.794 -40.784 0.010 (0) + H2 0.000e+00 0.000e+00 -40.891 -40.881 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.989e-02 - Na+ 9.989e-02 7.818e-02 -1.000 -1.107 -0.106 (0) +Na 9.990e-02 + Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.992e-11 - O2 1.496e-11 1.531e-11 -10.825 -10.815 0.010 (0) -Sr_tr 1.716e-12 - Sr_tr+2 1.716e-12 1.716e-12 -11.766 -11.766 -0.000 (0) +O(0) 4.678e-11 + O2 2.339e-11 2.394e-11 -10.631 -10.621 0.010 (0) +Sr_tr 1.715e-12 + Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -7108,10 +7108,10 @@ Sr_tr 1.716e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.63 -40.78 -3.15 H2 + H2(g) -37.73 -40.88 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.92 -10.82 -2.89 O2 + O2(g) -7.73 -10.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7217,13 +7217,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9510e-03 + Cl 4.9511e-03 Cl_tr 4.5015e-08 H 6.1817e-07 Hto 4.5454e-07 Na 5.0485e-01 Na_tr 4.5896e-06 - O 6.4895e-09 + O 6.4904e-09 Sr_tr 4.6341e-05 Su @@ -7240,20 +7240,20 @@ Su Cl 9.999e-02 5.000e-02 Cl_tr 9.091e-07 4.546e-07 Hto 9.091e-07 4.545e-07 - Na 9.999e-02 4.999e-02 + Na 9.999e-02 5.000e-02 Na_tr 9.090e-07 4.545e-07 Sr_tr 9.089e-07 4.545e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.629 Adjusted to redox equilibrium + pe = 11.662 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.861e-09 + Total alkalinity (eq/kg) = 9.858e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.310e-09 + Electrical balance (eq) = 4.122e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -7264,23 +7264,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.091e-07 Cl_tr- 9.091e-07 9.091e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.418 -40.408 0.010 (0) + H2 0.000e+00 0.000e+00 -40.483 -40.473 0.010 (0) Hto 9.091e-07 Hto 9.091e-07 9.091e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.090e-07 Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 5.307e-12 - O2 2.653e-12 2.715e-12 -11.576 -11.566 0.010 (0) +O(0) 7.149e-12 + O2 3.575e-12 3.658e-12 -11.447 -11.437 0.010 (0) Sr_tr 9.089e-07 Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) @@ -7292,10 +7292,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.26 -40.41 -3.15 H2 + H2(g) -37.32 -40.47 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.67 -11.57 -2.89 O2 + O2(g) -8.54 -11.44 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7319,7 +7319,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.767e+12 exp(-F*psi/RT) + 6.766e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -7330,14 +7330,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9488e-03 - Cl_tr 3.6007e-08 + Cl 4.9491e-03 + Cl_tr 3.6008e-08 H 6.1821e-07 Hto 3.6363e-07 Na 5.0487e-01 Na_tr 3.6718e-06 - O 6.4932e-09 - Sr_tr 3.7075e-05 + O 6.4959e-09 + Sr_tr 3.7074e-05 Su 5.000e-01 moles @@ -7353,20 +7353,20 @@ Su Cl 9.997e-02 4.999e-02 Cl_tr 7.274e-07 3.637e-07 Hto 7.273e-07 3.636e-07 - Na 9.997e-02 4.998e-02 + Na 9.997e-02 4.999e-02 Na_tr 7.271e-07 3.635e-07 - Sr_tr 7.268e-07 3.634e-07 + Sr_tr 7.269e-07 3.634e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.734 Adjusted to redox equilibrium + pe = 11.769 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.997e-02 + Ionic strength (mol/kgw) = 9.998e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.901e-09 + Total alkalinity (eq/kg) = 9.892e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.336e-09 + Electrical balance (eq) = 3.264e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -7385,17 +7385,17 @@ Cl 9.997e-02 Cl_tr 7.274e-07 Cl_tr- 7.274e-07 7.274e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.629 -40.619 0.010 (0) + H2 0.000e+00 0.000e+00 -40.699 -40.689 0.010 (0) Hto 7.273e-07 Hto 7.273e-07 7.273e-07 -6.138 -6.138 0.000 (0) Na 9.997e-02 Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) Na_tr 7.271e-07 - Na_tr+ 7.271e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.400e-11 - O2 7.001e-12 7.164e-12 -11.155 -11.145 0.010 (0) -Sr_tr 7.268e-07 - Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) + Na_tr+ 7.271e-07 7.271e-07 -6.138 -6.138 -0.000 (0) +O(0) 1.934e-11 + O2 9.668e-12 9.893e-12 -11.015 -11.005 0.010 (0) +Sr_tr 7.269e-07 + Sr_tr+2 7.269e-07 7.268e-07 -6.139 -6.139 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -7405,10 +7405,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.47 -40.62 -3.15 H2 + H2(g) -37.54 -40.69 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.25 -11.14 -2.89 O2 + O2(g) -8.11 -11.00 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7443,13 +7443,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9466e-03 + Cl 4.9471e-03 Cl_tr 2.7002e-08 H 6.1825e-07 - Hto 2.7273e-07 + Hto 2.7272e-07 Na 5.0489e-01 Na_tr 2.7539e-06 - O 6.4961e-09 + O 6.5003e-09 Sr_tr 2.7807e-05 Su @@ -7463,23 +7463,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.997e-02 + Cl 9.996e-02 4.998e-02 Cl_tr 5.456e-07 2.728e-07 - Hto 5.455e-07 2.727e-07 - Na 9.995e-02 4.997e-02 + Hto 5.454e-07 2.727e-07 + Na 9.995e-02 4.998e-02 Na_tr 5.452e-07 2.726e-07 - Sr_tr 5.449e-07 2.724e-07 + Sr_tr 5.449e-07 2.725e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.778 Adjusted to redox equilibrium + pe = 11.814 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.942e-09 + Total alkalinity (eq/kg) = 9.929e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.112e-09 + Electrical balance (eq) = 3.085e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -7490,23 +7490,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.995e-02 - Cl- 9.995e-02 7.639e-02 -1.000 -1.117 -0.117 (0) +Cl 9.996e-02 + Cl- 9.996e-02 7.639e-02 -1.000 -1.117 -0.117 (0) Cl_tr 5.456e-07 Cl_tr- 5.456e-07 5.456e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.716 -40.706 0.010 (0) -Hto 5.455e-07 - Hto 5.455e-07 5.455e-07 -6.263 -6.263 0.000 (0) + H2 0.000e+00 0.000e+00 -40.789 -40.779 0.010 (0) +Hto 5.454e-07 + Hto 5.454e-07 5.454e-07 -6.263 -6.263 0.000 (0) Na 9.995e-02 Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) Na_tr 5.452e-07 Na_tr+ 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) -O(0) 2.086e-11 - O2 1.043e-11 1.067e-11 -10.982 -10.972 0.010 (0) +O(0) 2.924e-11 + O2 1.462e-11 1.496e-11 -10.835 -10.825 0.010 (0) Sr_tr 5.449e-07 Sr_tr+2 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) @@ -7518,10 +7518,10 @@ Sr_tr 5.449e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.63 -40.78 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.08 -10.97 -2.89 O2 + O2(g) -7.93 -10.83 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7545,24 +7545,24 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.770e+12 exp(-F*psi/RT) + 6.769e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.943e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -5.942e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9443e-03 - Cl_tr 1.7998e-08 + Cl 4.9451e-03 + Cl_tr 1.7999e-08 H 6.1828e-07 - Hto 1.8182e-07 - Na 5.0490e-01 + Hto 1.8181e-07 + Na 5.0491e-01 Na_tr 1.8360e-06 - O 6.4980e-09 + O 6.5035e-09 Sr_tr 1.8539e-05 Su @@ -7576,23 +7576,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.996e-02 - Cl_tr 3.638e-07 1.819e-07 + Cl 9.994e-02 4.997e-02 + Cl_tr 3.637e-07 1.819e-07 Hto 3.636e-07 1.818e-07 - Na 9.993e-02 4.996e-02 + Na 9.994e-02 4.997e-02 Na_tr 3.634e-07 1.817e-07 - Sr_tr 3.631e-07 1.815e-07 + Sr_tr 3.631e-07 1.816e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.801 Adjusted to redox equilibrium + pe = 11.839 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.993e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.985e-09 + Total alkalinity (eq/kg) = 9.967e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.050e-09 + Electrical balance (eq) = 3.039e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -7603,23 +7603,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.983e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.993e-02 - Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.638e-07 - Cl_tr- 3.638e-07 3.638e-07 -6.439 -6.439 -0.000 (0) +Cl 9.994e-02 + Cl- 9.994e-02 7.638e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 3.637e-07 + Cl_tr- 3.637e-07 3.637e-07 -6.439 -6.439 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.763 -40.753 0.010 (0) + H2 0.000e+00 0.000e+00 -40.839 -40.829 0.010 (0) Hto 3.636e-07 Hto 3.636e-07 3.636e-07 -6.439 -6.439 0.000 (0) -Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) +Na 9.994e-02 + Na+ 9.994e-02 7.822e-02 -1.000 -1.107 -0.106 (0) Na_tr 3.634e-07 Na_tr+ 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.594e-11 - O2 1.297e-11 1.327e-11 -10.887 -10.877 0.010 (0) +O(0) 3.677e-11 + O2 1.839e-11 1.882e-11 -10.735 -10.725 0.010 (0) Sr_tr 3.631e-07 Sr_tr+2 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) @@ -7631,10 +7631,10 @@ Sr_tr 3.631e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.60 -40.75 -3.15 H2 + H2(g) -37.68 -40.83 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.98 -10.88 -2.89 O2 + O2(g) -7.83 -10.73 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7658,7 +7658,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.771e+12 exp(-F*psi/RT) + 6.770e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -7669,14 +7669,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9420e-03 - Cl_tr 8.9980e-09 + Cl 4.9430e-03 + Cl_tr 8.9983e-09 H 6.1831e-07 - Hto 9.0908e-08 + Hto 9.0907e-08 Na 5.0492e-01 - Na_tr 9.1804e-07 - O 6.4992e-09 - Sr_tr 9.2701e-06 + Na_tr 9.1802e-07 + O 6.5055e-09 + Sr_tr 9.2699e-06 Su 5.000e-01 moles @@ -7689,23 +7689,23 @@ Su Elements Molality Moles - Cl 9.991e-02 4.995e-02 + Cl 9.992e-02 4.996e-02 Cl_tr 1.819e-07 9.095e-08 Hto 1.818e-07 9.091e-08 - Na 9.991e-02 4.995e-02 - Na_tr 1.816e-07 9.082e-08 - Sr_tr 1.815e-07 9.073e-08 + Na 9.992e-02 4.996e-02 + Na_tr 1.817e-07 9.083e-08 + Sr_tr 1.815e-07 9.075e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.814 Adjusted to redox equilibrium + pe = 11.853 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.991e-02 + Ionic strength (mol/kgw) = 9.992e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.003e-08 + Total alkalinity (eq/kg) = 1.001e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.031e-09 + Electrical balance (eq) = 5.308e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -7716,23 +7716,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.991e-02 - Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.992e-02 + Cl- 9.992e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.819e-07 Cl_tr- 1.819e-07 1.819e-07 -6.740 -6.740 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.789 -40.779 0.010 (0) + H2 0.000e+00 0.000e+00 -40.867 -40.857 0.010 (0) Hto 1.818e-07 Hto 1.818e-07 1.818e-07 -6.740 -6.740 0.000 (0) -Na 9.991e-02 - Na+ 9.991e-02 7.820e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.816e-07 - Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.928e-11 - O2 1.464e-11 1.498e-11 -10.834 -10.824 0.010 (0) +Na 9.992e-02 + Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.817e-07 + Na_tr+ 1.817e-07 1.817e-07 -6.741 -6.741 -0.000 (0) +O(0) 4.184e-11 + O2 2.092e-11 2.141e-11 -10.679 -10.669 0.010 (0) Sr_tr 1.815e-07 Sr_tr+2 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) @@ -7744,10 +7744,10 @@ Sr_tr 1.815e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.63 -40.78 -3.15 H2 + H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.93 -10.82 -2.89 O2 + O2(g) -7.78 -10.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7767,22 +7767,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 2.586e-06 2.972e-06 3.857e-07 -A_hto 0.00 -15.00 -15.00 4.986e-06 5.722e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 2.922e-05 3.351e-05 4.284e-06 -A_sr 0.00 -14.00 -14.00 2.772e-04 3.173e-04 4.010e-05 +A_cl 0.00 -14.00 -14.00 2.552e-06 2.933e-06 3.815e-07 +A_hto 0.00 -15.00 -15.00 4.643e-06 5.337e-06 6.939e-07 +A_na 0.00 -14.00 -14.00 2.576e-05 2.961e-05 3.851e-06 +A_sr 0.00 -14.00 -14.00 2.417e-04 2.775e-04 3.573e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.881e-10 Surface + diffuse layer charge, eq + 1.829e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.773e+12 exp(-F*psi/RT) + 6.772e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -7793,14 +7793,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9397e-03 + Cl 4.9409e-03 Cl_tr 6.3257e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6217e-13 - O 6.4995e-09 - Sr_tr 8.7695e-11 + Na_tr 6.6202e-13 + O 6.5063e-09 + Sr_tr 8.7655e-11 Su 5.000e-01 moles @@ -7813,23 +7813,23 @@ Su Elements Molality Moles - Cl 9.989e-02 4.994e-02 + Cl 9.990e-02 4.995e-02 Cl_tr 1.279e-13 6.395e-14 Hto 1.000e-15 5.000e-16 - Na 9.989e-02 4.994e-02 + Na 9.990e-02 4.995e-02 Na_tr 1.310e-13 6.549e-14 - Sr_tr 1.716e-12 8.579e-13 + Sr_tr 1.715e-12 8.577e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.820 Adjusted to redox equilibrium + pe = 11.859 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.989e-02 + Ionic strength (mol/kgw) = 9.990e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.008e-08 + Total alkalinity (eq/kg) = 1.005e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.716e-08 + Electrical balance (eq) = 2.605e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -7840,25 +7840,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.986e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.990e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) + H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.989e-02 - Cl- 9.989e-02 7.634e-02 -1.000 -1.117 -0.117 (0) +Cl 9.990e-02 + Cl- 9.990e-02 7.635e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.801 -40.791 0.010 (0) + H2 0.000e+00 0.000e+00 -40.879 -40.869 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.989e-02 - Na+ 9.989e-02 7.818e-02 -1.000 -1.107 -0.106 (0) +Na 9.990e-02 + Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 3.089e-11 - O2 1.544e-11 1.580e-11 -10.811 -10.801 0.010 (0) -Sr_tr 1.716e-12 - Sr_tr+2 1.716e-12 1.716e-12 -11.766 -11.766 -0.000 (0) +O(0) 4.434e-11 + O2 2.217e-11 2.268e-11 -10.654 -10.644 0.010 (0) +Sr_tr 1.715e-12 + Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -7868,10 +7868,10 @@ Sr_tr 1.716e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.64 -40.79 -3.15 H2 + H2(g) -37.72 -40.87 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.91 -10.80 -2.89 O2 + O2(g) -7.75 -10.64 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7977,13 +7977,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9510e-03 + Cl 4.9511e-03 Cl_tr 4.5015e-08 H 6.1817e-07 Hto 4.5455e-07 Na 5.0485e-01 Na_tr 4.5896e-06 - O 6.4895e-09 + O 6.4903e-09 Sr_tr 4.6341e-05 Su @@ -8000,20 +8000,20 @@ Su Cl 9.999e-02 5.000e-02 Cl_tr 9.091e-07 4.546e-07 Hto 9.091e-07 4.545e-07 - Na 9.999e-02 4.999e-02 + Na 9.999e-02 5.000e-02 Na_tr 9.090e-07 4.545e-07 Sr_tr 9.089e-07 4.545e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.631 Adjusted to redox equilibrium + pe = 11.657 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.861e-09 + Total alkalinity (eq/kg) = 9.858e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.594e-09 + Electrical balance (eq) = 4.406e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8024,23 +8024,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 Cl- 9.999e-02 7.642e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.091e-07 Cl_tr- 9.091e-07 9.091e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.422 -40.412 0.010 (0) + H2 0.000e+00 0.000e+00 -40.475 -40.465 0.010 (0) Hto 9.091e-07 Hto 9.091e-07 9.091e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.090e-07 Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 5.400e-12 - O2 2.700e-12 2.763e-12 -11.569 -11.559 0.010 (0) +O(0) 6.879e-12 + O2 3.440e-12 3.520e-12 -11.463 -11.453 0.010 (0) Sr_tr 9.089e-07 Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) @@ -8052,10 +8052,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.26 -40.41 -3.15 H2 + H2(g) -37.31 -40.46 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.67 -11.56 -2.89 O2 + O2(g) -8.56 -11.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8090,13 +8090,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9487e-03 - Cl_tr 3.6007e-08 + Cl 4.9491e-03 + Cl_tr 3.6008e-08 H 6.1821e-07 Hto 3.6364e-07 Na 5.0487e-01 Na_tr 3.6718e-06 - O 6.4933e-09 + O 6.4955e-09 Sr_tr 3.7075e-05 Su @@ -8113,20 +8113,20 @@ Su Cl 9.997e-02 4.999e-02 Cl_tr 7.274e-07 3.637e-07 Hto 7.273e-07 3.636e-07 - Na 9.997e-02 4.998e-02 - Na_tr 7.270e-07 3.635e-07 + Na 9.997e-02 4.999e-02 + Na_tr 7.271e-07 3.635e-07 Sr_tr 7.268e-07 3.634e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.737 Adjusted to redox equilibrium + pe = 11.765 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.902e-09 + Total alkalinity (eq/kg) = 9.894e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.620e-09 + Electrical balance (eq) = 3.548e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8145,15 +8145,15 @@ Cl 9.997e-02 Cl_tr 7.274e-07 Cl_tr- 7.274e-07 7.274e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.633 -40.623 0.010 (0) + H2 0.000e+00 0.000e+00 -40.690 -40.680 0.010 (0) Hto 7.273e-07 Hto 7.273e-07 7.273e-07 -6.138 -6.138 0.000 (0) Na 9.997e-02 - Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 7.270e-07 - Na_tr+ 7.270e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.428e-11 - O2 7.140e-12 7.306e-12 -11.146 -11.136 0.010 (0) + Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) +Na_tr 7.271e-07 + Na_tr+ 7.271e-07 7.271e-07 -6.138 -6.138 -0.000 (0) +O(0) 1.858e-11 + O2 9.289e-12 9.506e-12 -11.032 -11.022 0.010 (0) Sr_tr 7.268e-07 Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) @@ -8165,10 +8165,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.47 -40.62 -3.15 H2 + H2(g) -37.53 -40.68 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.24 -11.14 -2.89 O2 + O2(g) -8.13 -11.02 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8187,7 +8187,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.577e-11 Surface + diffuse layer charge, eq + 1.578e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -8203,14 +8203,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9465e-03 + Cl 4.9470e-03 Cl_tr 2.7002e-08 H 6.1825e-07 Hto 2.7273e-07 Na 5.0489e-01 Na_tr 2.7539e-06 - O 6.4963e-09 - Sr_tr 2.7808e-05 + O 6.4997e-09 + Sr_tr 2.7807e-05 Su 5.000e-01 moles @@ -8223,23 +8223,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.997e-02 + Cl 9.995e-02 4.998e-02 Cl_tr 5.456e-07 2.728e-07 Hto 5.455e-07 2.727e-07 - Na 9.995e-02 4.997e-02 + Na 9.995e-02 4.998e-02 Na_tr 5.452e-07 2.726e-07 - Sr_tr 5.449e-07 2.724e-07 + Sr_tr 5.449e-07 2.725e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.780 Adjusted to redox equilibrium + pe = 11.810 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.995e-02 + Ionic strength (mol/kgw) = 9.996e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.944e-09 + Total alkalinity (eq/kg) = 9.931e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.396e-09 + Electrical balance (eq) = 3.369e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8250,7 +8250,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.981e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.980e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.996e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.995e-02 @@ -8258,15 +8258,15 @@ Cl 9.995e-02 Cl_tr 5.456e-07 Cl_tr- 5.456e-07 5.456e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.721 -40.711 0.010 (0) + H2 0.000e+00 0.000e+00 -40.780 -40.770 0.010 (0) Hto 5.455e-07 Hto 5.455e-07 5.455e-07 -6.263 -6.263 0.000 (0) Na 9.995e-02 Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) Na_tr 5.452e-07 Na_tr+ 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) -O(0) 2.134e-11 - O2 1.067e-11 1.092e-11 -10.972 -10.962 0.010 (0) +O(0) 2.807e-11 + O2 1.403e-11 1.436e-11 -10.853 -10.843 0.010 (0) Sr_tr 5.449e-07 Sr_tr+2 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) @@ -8278,10 +8278,10 @@ Sr_tr 5.449e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.62 -40.77 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.07 -10.96 -2.89 O2 + O2(g) -7.95 -10.84 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8305,24 +8305,24 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.770e+12 exp(-F*psi/RT) + 6.769e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.943e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -5.942e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9442e-03 + Cl 4.9449e-03 Cl_tr 1.7999e-08 H 6.1828e-07 Hto 1.8182e-07 - Na 5.0490e-01 + Na 5.0491e-01 Na_tr 1.8360e-06 - O 6.4983e-09 + O 6.5027e-09 Sr_tr 1.8539e-05 Su @@ -8336,23 +8336,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.996e-02 + Cl 9.993e-02 4.997e-02 Cl_tr 3.638e-07 1.819e-07 Hto 3.636e-07 1.818e-07 - Na 9.993e-02 4.996e-02 + Na 9.993e-02 4.997e-02 Na_tr 3.634e-07 1.817e-07 - Sr_tr 3.631e-07 1.815e-07 + Sr_tr 3.631e-07 1.816e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.804 Adjusted to redox equilibrium + pe = 11.835 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.993e-02 + Ionic strength (mol/kgw) = 9.994e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.988e-09 + Total alkalinity (eq/kg) = 9.969e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.334e-09 + Electrical balance (eq) = 3.323e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8363,23 +8363,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.993e-02 - Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) + Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) Cl_tr 3.638e-07 Cl_tr- 3.638e-07 3.638e-07 -6.439 -6.439 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.768 -40.758 0.010 (0) + H2 0.000e+00 0.000e+00 -40.830 -40.820 0.010 (0) Hto 3.636e-07 Hto 3.636e-07 3.636e-07 -6.439 -6.439 0.000 (0) Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) + Na+ 9.993e-02 7.822e-02 -1.000 -1.107 -0.106 (0) Na_tr 3.634e-07 Na_tr+ 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.655e-11 - O2 1.327e-11 1.358e-11 -10.877 -10.867 0.010 (0) +O(0) 3.525e-11 + O2 1.763e-11 1.804e-11 -10.754 -10.744 0.010 (0) Sr_tr 3.631e-07 Sr_tr+2 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) @@ -8391,10 +8391,10 @@ Sr_tr 3.631e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.61 -40.76 -3.15 H2 + H2(g) -37.67 -40.82 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.97 -10.87 -2.89 O2 + O2(g) -7.85 -10.74 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8429,14 +8429,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9419e-03 - Cl_tr 8.9981e-09 + Cl 4.9429e-03 + Cl_tr 8.9984e-09 H 6.1831e-07 - Hto 9.0909e-08 + Hto 9.0908e-08 Na 5.0492e-01 - Na_tr 9.1805e-07 - O 6.4995e-09 - Sr_tr 9.2702e-06 + Na_tr 9.1804e-07 + O 6.5046e-09 + Sr_tr 9.2701e-06 Su 5.000e-01 moles @@ -8449,23 +8449,23 @@ Su Elements Molality Moles - Cl 9.991e-02 4.995e-02 + Cl 9.992e-02 4.996e-02 Cl_tr 1.819e-07 9.095e-08 Hto 1.818e-07 9.091e-08 - Na 9.991e-02 4.995e-02 - Na_tr 1.816e-07 9.082e-08 - Sr_tr 1.815e-07 9.073e-08 + Na 9.992e-02 4.996e-02 + Na_tr 1.817e-07 9.083e-08 + Sr_tr 1.815e-07 9.075e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.817 Adjusted to redox equilibrium + pe = 11.848 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.991e-02 + Ionic strength (mol/kgw) = 9.992e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.003e-08 + Total alkalinity (eq/kg) = 1.001e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.315e-09 + Electrical balance (eq) = 5.592e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8476,23 +8476,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.991e-02 - Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.992e-02 + Cl- 9.992e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.819e-07 Cl_tr- 1.819e-07 1.819e-07 -6.740 -6.740 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.794 -40.784 0.010 (0) + H2 0.000e+00 0.000e+00 -40.857 -40.847 0.010 (0) Hto 1.818e-07 Hto 1.818e-07 1.818e-07 -6.740 -6.740 0.000 (0) -Na 9.991e-02 - Na+ 9.991e-02 7.819e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.816e-07 - Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 2.997e-11 - O2 1.498e-11 1.533e-11 -10.824 -10.814 0.010 (0) +Na 9.992e-02 + Na+ 9.992e-02 7.820e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.817e-07 + Na_tr+ 1.817e-07 1.817e-07 -6.741 -6.741 -0.000 (0) +O(0) 4.004e-11 + O2 2.002e-11 2.048e-11 -10.699 -10.689 0.010 (0) Sr_tr 1.815e-07 Sr_tr+2 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) @@ -8504,10 +8504,10 @@ Sr_tr 1.815e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.63 -40.78 -3.15 H2 + H2(g) -37.70 -40.85 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.92 -10.81 -2.89 O2 + O2(g) -7.80 -10.69 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8527,22 +8527,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 2.972e-06 3.357e-06 3.858e-07 -A_hto 0.00 -15.00 -15.00 5.722e-06 6.459e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 3.351e-05 3.779e-05 4.284e-06 -A_sr 0.00 -14.00 -14.00 3.173e-04 3.574e-04 4.010e-05 +A_cl 0.00 -14.00 -14.00 2.933e-06 3.315e-06 3.815e-07 +A_hto 0.00 -15.00 -15.00 5.337e-06 6.031e-06 6.939e-07 +A_na 0.00 -14.00 -14.00 2.961e-05 3.346e-05 3.851e-06 +A_sr 0.00 -14.00 -14.00 2.775e-04 3.132e-04 3.573e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.881e-10 Surface + diffuse layer charge, eq + 1.829e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.773e+12 exp(-F*psi/RT) + 6.772e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -8553,14 +8553,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9396e-03 - Cl_tr 6.3256e-15 + Cl 4.9408e-03 + Cl_tr 6.3257e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6219e-13 - O 6.4998e-09 - Sr_tr 8.7700e-11 + Na_tr 6.6204e-13 + O 6.5053e-09 + Sr_tr 8.7660e-11 Su 5.000e-01 moles @@ -8573,23 +8573,23 @@ Su Elements Molality Moles - Cl 9.988e-02 4.994e-02 - Cl_tr 1.279e-13 6.396e-14 + Cl 9.990e-02 4.995e-02 + Cl_tr 1.279e-13 6.395e-14 Hto 1.000e-15 5.000e-16 - Na 9.988e-02 4.994e-02 - Na_tr 1.310e-13 6.550e-14 - Sr_tr 1.716e-12 8.579e-13 + Na 9.990e-02 4.995e-02 + Na_tr 1.310e-13 6.549e-14 + Sr_tr 1.715e-12 8.577e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.823 Adjusted to redox equilibrium + pe = 11.854 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.988e-02 + Ionic strength (mol/kgw) = 9.990e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.008e-08 + Total alkalinity (eq/kg) = 1.005e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.055e-08 + Electrical balance (eq) = 2.935e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -8600,25 +8600,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.987e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.990e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) + H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.988e-02 - Cl- 9.988e-02 7.634e-02 -1.001 -1.117 -0.117 (0) +Cl 9.990e-02 + Cl- 9.990e-02 7.635e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.806 -40.796 0.010 (0) + H2 0.000e+00 0.000e+00 -40.870 -40.860 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.988e-02 - Na+ 9.988e-02 7.818e-02 -1.001 -1.107 -0.106 (0) +Na 9.990e-02 + Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 3.162e-11 - O2 1.581e-11 1.618e-11 -10.801 -10.791 0.010 (0) -Sr_tr 1.716e-12 - Sr_tr+2 1.716e-12 1.716e-12 -11.766 -11.766 -0.000 (0) +O(0) 4.241e-11 + O2 2.121e-11 2.170e-11 -10.674 -10.664 0.010 (0) +Sr_tr 1.715e-12 + Sr_tr+2 1.715e-12 1.715e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -8628,10 +8628,10 @@ Sr_tr 1.716e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.65 -40.80 -3.15 H2 + H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.90 -10.79 -2.89 O2 + O2(g) -7.77 -10.66 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8737,13 +8737,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9510e-03 + Cl 4.9511e-03 Cl_tr 4.5015e-08 H 6.1817e-07 Hto 4.5455e-07 Na 5.0485e-01 Na_tr 4.5896e-06 - O 6.4896e-09 + O 6.4902e-09 Sr_tr 4.6341e-05 Su @@ -8760,20 +8760,20 @@ Su Cl 9.999e-02 5.000e-02 Cl_tr 9.091e-07 4.546e-07 Hto 9.091e-07 4.545e-07 - Na 9.999e-02 4.999e-02 + Na 9.999e-02 5.000e-02 Na_tr 9.090e-07 4.545e-07 Sr_tr 9.089e-07 4.545e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.632 Adjusted to redox equilibrium + pe = 11.655 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.999e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.861e-09 + Total alkalinity (eq/kg) = 9.858e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.879e-09 + Electrical balance (eq) = 4.690e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8784,7 +8784,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.978e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.977e-08 -6.883 -7.001 -0.118 (0) H+ 1.211e-07 9.999e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.999e-02 @@ -8792,15 +8792,15 @@ Cl 9.999e-02 Cl_tr 9.091e-07 Cl_tr- 9.091e-07 9.091e-07 -6.041 -6.041 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.425 -40.415 0.010 (0) + H2 0.000e+00 0.000e+00 -40.469 -40.459 0.010 (0) Hto 9.091e-07 Hto 9.091e-07 9.091e-07 -6.041 -6.041 0.000 (0) Na 9.999e-02 Na+ 9.999e-02 7.826e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.090e-07 Na_tr+ 9.090e-07 9.090e-07 -6.041 -6.041 -0.000 (0) -O(0) 5.467e-12 - O2 2.733e-12 2.797e-12 -11.563 -11.553 0.010 (0) +O(0) 6.710e-12 + O2 3.355e-12 3.433e-12 -11.474 -11.464 0.010 (0) Sr_tr 9.089e-07 Sr_tr+2 9.089e-07 9.089e-07 -6.041 -6.041 -0.000 (0) @@ -8812,10 +8812,10 @@ Sr_tr 9.089e-07 A_hto 8.96 -6.04 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.26 -40.41 -3.15 H2 + H2(g) -37.31 -40.46 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.66 -11.55 -2.89 O2 + O2(g) -8.57 -11.46 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8850,13 +8850,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9487e-03 - Cl_tr 3.6007e-08 + Cl 4.9490e-03 + Cl_tr 3.6008e-08 H 6.1821e-07 Hto 3.6364e-07 Na 5.0487e-01 Na_tr 3.6718e-06 - O 6.4935e-09 + O 6.4952e-09 Sr_tr 3.7075e-05 Su @@ -8870,23 +8870,23 @@ Su Elements Molality Moles - Cl 9.997e-02 4.998e-02 + Cl 9.997e-02 4.999e-02 Cl_tr 7.274e-07 3.637e-07 Hto 7.273e-07 3.636e-07 - Na 9.997e-02 4.998e-02 - Na_tr 7.270e-07 3.635e-07 + Na 9.997e-02 4.999e-02 + Na_tr 7.271e-07 3.635e-07 Sr_tr 7.268e-07 3.634e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.738 Adjusted to redox equilibrium + pe = 11.762 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.997e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.903e-09 + Total alkalinity (eq/kg) = 9.894e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.904e-09 + Electrical balance (eq) = 3.832e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -8898,22 +8898,22 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.310e-07 9.979e-08 -6.883 -7.001 -0.118 (0) - H+ 1.211e-07 9.997e-08 -6.917 -7.000 -0.083 0.00 + H+ 1.211e-07 9.998e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.997e-02 Cl- 9.997e-02 7.640e-02 -1.000 -1.117 -0.117 (0) Cl_tr 7.274e-07 Cl_tr- 7.274e-07 7.274e-07 -6.138 -6.138 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.637 -40.627 0.010 (0) + H2 0.000e+00 0.000e+00 -40.684 -40.674 0.010 (0) Hto 7.273e-07 Hto 7.273e-07 7.273e-07 -6.138 -6.138 0.000 (0) Na 9.997e-02 Na+ 9.997e-02 7.824e-02 -1.000 -1.107 -0.106 (0) -Na_tr 7.270e-07 - Na_tr+ 7.270e-07 7.270e-07 -6.138 -6.138 -0.000 (0) -O(0) 1.450e-11 - O2 7.249e-12 7.418e-12 -11.140 -11.130 0.010 (0) +Na_tr 7.271e-07 + Na_tr+ 7.271e-07 7.271e-07 -6.138 -6.138 -0.000 (0) +O(0) 1.802e-11 + O2 9.012e-12 9.222e-12 -11.045 -11.035 0.010 (0) Sr_tr 7.268e-07 Sr_tr+2 7.268e-07 7.268e-07 -6.139 -6.139 -0.000 (0) @@ -8925,10 +8925,10 @@ Sr_tr 7.268e-07 A_hto 8.86 -6.14 -15.00 Hto A_na 6.74 -7.26 -14.00 Na_trCl A_sr 5.63 -8.37 -14.00 Sr_trCl2 - H2(g) -37.48 -40.63 -3.15 H2 + H2(g) -37.52 -40.67 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.24 -11.13 -2.89 O2 + O2(g) -8.14 -11.04 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8947,7 +8947,7 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 1.577e-11 Surface + diffuse layer charge, eq + 1.578e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -8963,13 +8963,13 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9464e-03 + Cl 4.9469e-03 Cl_tr 2.7002e-08 H 6.1825e-07 Hto 2.7273e-07 Na 5.0489e-01 - Na_tr 2.7540e-06 - O 6.4964e-09 + Na_tr 2.7539e-06 + O 6.4992e-09 Sr_tr 2.7808e-05 Su @@ -8983,23 +8983,23 @@ Su Elements Molality Moles - Cl 9.995e-02 4.997e-02 + Cl 9.995e-02 4.998e-02 Cl_tr 5.456e-07 2.728e-07 Hto 5.455e-07 2.727e-07 - Na 9.995e-02 4.997e-02 + Na 9.995e-02 4.998e-02 Na_tr 5.452e-07 2.726e-07 - Sr_tr 5.449e-07 2.724e-07 + Sr_tr 5.449e-07 2.725e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.782 Adjusted to redox equilibrium + pe = 11.806 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.995e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.946e-09 + Total alkalinity (eq/kg) = 9.932e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.680e-09 + Electrical balance (eq) = 3.653e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -9018,15 +9018,15 @@ Cl 9.995e-02 Cl_tr 5.456e-07 Cl_tr- 5.456e-07 5.456e-07 -6.263 -6.263 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.724 -40.714 0.010 (0) + H2 0.000e+00 0.000e+00 -40.773 -40.763 0.010 (0) Hto 5.455e-07 Hto 5.455e-07 5.455e-07 -6.263 -6.263 0.000 (0) Na 9.995e-02 Na+ 9.995e-02 7.823e-02 -1.000 -1.107 -0.106 (0) Na_tr 5.452e-07 Na_tr+ 5.452e-07 5.452e-07 -6.263 -6.263 -0.000 (0) -O(0) 2.167e-11 - O2 1.083e-11 1.109e-11 -10.965 -10.955 0.010 (0) +O(0) 2.717e-11 + O2 1.359e-11 1.390e-11 -10.867 -10.857 0.010 (0) Sr_tr 5.449e-07 Sr_tr+2 5.449e-07 5.449e-07 -6.264 -6.264 -0.000 (0) @@ -9038,10 +9038,10 @@ Sr_tr 5.449e-07 A_hto 8.74 -6.26 -15.00 Hto A_na 6.62 -7.38 -14.00 Na_trCl A_sr 5.50 -8.50 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.61 -40.76 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.06 -10.96 -2.89 O2 + O2(g) -7.96 -10.86 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9065,24 +9065,24 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.770e+12 exp(-F*psi/RT) + 6.769e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.943e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -5.942e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9441e-03 + Cl 4.9449e-03 Cl_tr 1.7999e-08 H 6.1828e-07 Hto 1.8182e-07 - Na 5.0490e-01 + Na 5.0491e-01 Na_tr 1.8360e-06 - O 6.4985e-09 + O 6.5021e-09 Sr_tr 1.8539e-05 Su @@ -9096,23 +9096,23 @@ Su Elements Molality Moles - Cl 9.993e-02 4.996e-02 + Cl 9.993e-02 4.997e-02 Cl_tr 3.638e-07 1.819e-07 Hto 3.636e-07 1.818e-07 - Na 9.993e-02 4.996e-02 + Na 9.993e-02 4.997e-02 Na_tr 3.634e-07 1.817e-07 - Sr_tr 3.631e-07 1.815e-07 + Sr_tr 3.631e-07 1.816e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.806 Adjusted to redox equilibrium + pe = 11.831 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.993e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.990e-09 + Total alkalinity (eq/kg) = 9.971e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.618e-09 + Electrical balance (eq) = 3.607e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -9123,23 +9123,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.983e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.994e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.982e-08 -6.883 -7.001 -0.118 (0) + H+ 1.211e-07 9.995e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 9.993e-02 - Cl- 9.993e-02 7.637e-02 -1.000 -1.117 -0.117 (0) + Cl- 9.993e-02 7.638e-02 -1.000 -1.117 -0.117 (0) Cl_tr 3.638e-07 Cl_tr- 3.638e-07 3.638e-07 -6.439 -6.439 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.772 -40.762 0.010 (0) + H2 0.000e+00 0.000e+00 -40.822 -40.812 0.010 (0) Hto 3.636e-07 Hto 3.636e-07 3.636e-07 -6.439 -6.439 0.000 (0) Na 9.993e-02 - Na+ 9.993e-02 7.821e-02 -1.000 -1.107 -0.106 (0) + Na+ 9.993e-02 7.822e-02 -1.000 -1.107 -0.106 (0) Na_tr 3.634e-07 Na_tr+ 3.634e-07 3.634e-07 -6.440 -6.440 -0.000 (0) -O(0) 2.701e-11 - O2 1.350e-11 1.382e-11 -10.870 -10.860 0.010 (0) +O(0) 3.408e-11 + O2 1.704e-11 1.744e-11 -10.769 -10.759 0.010 (0) Sr_tr 3.631e-07 Sr_tr+2 3.631e-07 3.631e-07 -6.440 -6.440 -0.000 (0) @@ -9151,10 +9151,10 @@ Sr_tr 3.631e-07 A_hto 8.56 -6.44 -15.00 Hto A_na 6.44 -7.56 -14.00 Na_trCl A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.61 -40.76 -3.15 H2 + H2(g) -37.66 -40.81 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.97 -10.86 -2.89 O2 + O2(g) -7.87 -10.76 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9189,14 +9189,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9418e-03 - Cl_tr 8.9981e-09 + Cl 4.9428e-03 + Cl_tr 8.9985e-09 H 6.1831e-07 Hto 9.0909e-08 Na 5.0492e-01 - Na_tr 9.1805e-07 - O 6.4998e-09 - Sr_tr 9.2703e-06 + Na_tr 9.1804e-07 + O 6.5039e-09 + Sr_tr 9.2702e-06 Su 5.000e-01 moles @@ -9209,23 +9209,23 @@ Su Elements Molality Moles - Cl 9.990e-02 4.995e-02 + Cl 9.991e-02 4.996e-02 Cl_tr 1.819e-07 9.095e-08 Hto 1.818e-07 9.091e-08 - Na 9.990e-02 4.995e-02 - Na_tr 1.816e-07 9.082e-08 - Sr_tr 1.815e-07 9.073e-08 + Na 9.991e-02 4.996e-02 + Na_tr 1.817e-07 9.083e-08 + Sr_tr 1.815e-07 9.075e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.819 Adjusted to redox equilibrium + pe = 11.845 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 9.991e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.004e-08 + Total alkalinity (eq/kg) = 1.001e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.599e-09 + Electrical balance (eq) = 5.875e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -9236,23 +9236,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.985e-08 -6.882 -7.001 -0.118 (0) - H+ 1.211e-07 9.992e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.984e-08 -6.882 -7.001 -0.118 (0) + H+ 1.211e-07 9.993e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.990e-02 - Cl- 9.990e-02 7.636e-02 -1.000 -1.117 -0.117 (0) +Cl 9.991e-02 + Cl- 9.991e-02 7.636e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.819e-07 Cl_tr- 1.819e-07 1.819e-07 -6.740 -6.740 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.798 -40.788 0.010 (0) + H2 0.000e+00 0.000e+00 -40.850 -40.840 0.010 (0) Hto 1.818e-07 Hto 1.818e-07 1.818e-07 -6.740 -6.740 0.000 (0) -Na 9.990e-02 - Na+ 9.990e-02 7.819e-02 -1.000 -1.107 -0.106 (0) -Na_tr 1.816e-07 - Na_tr+ 1.816e-07 1.816e-07 -6.741 -6.741 -0.000 (0) -O(0) 3.049e-11 - O2 1.525e-11 1.560e-11 -10.817 -10.807 0.010 (0) +Na 9.991e-02 + Na+ 9.991e-02 7.820e-02 -1.000 -1.107 -0.106 (0) +Na_tr 1.817e-07 + Na_tr+ 1.817e-07 1.817e-07 -6.741 -6.741 -0.000 (0) +O(0) 3.867e-11 + O2 1.934e-11 1.979e-11 -10.714 -10.704 0.010 (0) Sr_tr 1.815e-07 Sr_tr+2 1.815e-07 1.815e-07 -6.741 -6.741 -0.000 (0) @@ -9264,10 +9264,10 @@ Sr_tr 1.815e-07 A_hto 8.26 -6.74 -15.00 Hto A_na 6.14 -7.86 -14.00 Na_trCl A_sr 5.02 -8.98 -14.00 Sr_trCl2 - H2(g) -37.64 -40.79 -3.15 H2 + H2(g) -37.69 -40.84 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.91 -10.81 -2.89 O2 + O2(g) -7.81 -10.70 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9287,22 +9287,22 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 3.357e-06 3.743e-06 3.858e-07 -A_hto 0.00 -15.00 -15.00 6.459e-06 7.196e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 3.779e-05 4.207e-05 4.284e-06 -A_sr 0.00 -14.00 -14.00 3.574e-04 3.975e-04 4.010e-05 +A_cl 0.00 -14.00 -14.00 3.315e-06 3.696e-06 3.815e-07 +A_hto 0.00 -15.00 -15.00 6.031e-06 6.724e-06 6.940e-07 +A_na 0.00 -14.00 -14.00 3.346e-05 3.731e-05 3.851e-06 +A_sr 0.00 -14.00 -14.00 3.132e-04 3.489e-04 3.573e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.881e-10 Surface + diffuse layer charge, eq + 1.829e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.773e+12 exp(-F*psi/RT) + 6.772e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -9313,14 +9313,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.011e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9395e-03 - Cl_tr 6.3256e-15 + Cl 4.9407e-03 + Cl_tr 6.3257e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0494e-01 - Na_tr 6.6220e-13 - O 6.5001e-09 - Sr_tr 8.7703e-11 + Na_tr 6.6205e-13 + O 6.5046e-09 + Sr_tr 8.7663e-11 Su 5.000e-01 moles @@ -9333,23 +9333,23 @@ Su Elements Molality Moles - Cl 9.988e-02 4.994e-02 - Cl_tr 1.279e-13 6.396e-14 + Cl 9.989e-02 4.995e-02 + Cl_tr 1.279e-13 6.395e-14 Hto 1.000e-15 5.000e-16 - Na 9.988e-02 4.994e-02 - Na_tr 1.310e-13 6.550e-14 - Sr_tr 1.716e-12 8.579e-13 + Na 9.989e-02 4.995e-02 + Na_tr 1.310e-13 6.549e-14 + Sr_tr 1.716e-12 8.578e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.824 Adjusted to redox equilibrium + pe = 11.851 Adjusted to redox equilibrium Activity of water = 0.997 - Ionic strength (mol/kgw) = 9.988e-02 + Ionic strength (mol/kgw) = 9.989e-02 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 1.008e-08 + Total alkalinity (eq/kg) = 1.005e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.393e-08 + Electrical balance (eq) = 3.264e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 5.550622e+01 @@ -9360,25 +9360,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.311e-07 9.987e-08 -6.882 -7.001 -0.118 (0) - H+ 1.210e-07 9.990e-08 -6.917 -7.000 -0.083 0.00 + OH- 1.311e-07 9.986e-08 -6.882 -7.001 -0.118 (0) + H+ 1.210e-07 9.991e-08 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 9.988e-02 - Cl- 9.988e-02 7.634e-02 -1.001 -1.117 -0.117 (0) +Cl 9.989e-02 + Cl- 9.989e-02 7.635e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.279e-13 Cl_tr- 1.279e-13 1.279e-13 -12.893 -12.893 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.810 -40.800 0.010 (0) + H2 0.000e+00 0.000e+00 -40.862 -40.852 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) -Na 9.988e-02 - Na+ 9.988e-02 7.818e-02 -1.001 -1.107 -0.106 (0) +Na 9.989e-02 + Na+ 9.989e-02 7.819e-02 -1.000 -1.107 -0.106 (0) Na_tr 1.310e-13 Na_tr+ 1.310e-13 1.310e-13 -12.883 -12.883 -0.000 (0) -O(0) 3.219e-11 - O2 1.609e-11 1.647e-11 -10.793 -10.783 0.010 (0) +O(0) 4.095e-11 + O2 2.047e-11 2.095e-11 -10.689 -10.679 0.010 (0) Sr_tr 1.716e-12 - Sr_tr+2 1.716e-12 1.716e-12 -11.766 -11.766 -0.000 (0) + Sr_tr+2 1.716e-12 1.715e-12 -11.766 -11.766 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -9388,10 +9388,10 @@ Sr_tr 1.716e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.65 -40.80 -3.15 H2 + H2(g) -37.70 -40.85 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.89 -10.78 -2.89 O2 + O2(g) -7.79 -10.68 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -10073,7 +10073,7 @@ Using pure phase assemblage 1. Diffuse Double Layer Surface-Complexation Model Su - 2.170e-10 Surface + diffuse layer charge, eq + 2.171e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.363e-01 psi, V @@ -10090,12 +10090,12 @@ Su Element Moles Cl 1.2200e-05 - Cl_tr 1.1092e-10 + Cl_tr 1.1093e-10 H 1.4205e-06 Hto 1.5152e-07 Na 4.9991e-01 Na_tr 4.5447e-06 - O 2.0398e-09 + O 2.0400e-09 Sr_tr 4.6339e-05 Su @@ -10119,13 +10119,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.883 Charge balance - pe = 10.643 Adjusted to redox equilibrium + pe = 10.662 Adjusted to redox equilibrium Activity of water = 1.000 Ionic strength (mol/kgw) = 4.940e-03 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 8.113e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.243e-11 + Electrical balance (eq) = -9.242e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (35 overall) Total H = 1.110124e+02 @@ -10136,23 +10136,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 8.253e-07 7.647e-07 -6.083 -6.117 -0.033 (0) + OH- 8.253e-07 7.646e-07 -6.083 -6.117 -0.033 (0) H+ 1.402e-08 1.309e-08 -7.853 -7.883 -0.030 0.00 H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000 18.07 Cl 4.939e-03 - Cl- 4.939e-03 4.576e-03 -2.306 -2.339 -0.033 (0) + Cl- 4.939e-03 4.577e-03 -2.306 -2.339 -0.033 (0) Cl_tr 4.490e-08 Cl_tr- 4.490e-08 4.490e-08 -7.348 -7.348 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.202 -40.202 0.000 (0) + H2 0.000e+00 0.000e+00 -40.241 -40.241 0.000 (0) Hto 3.030e-07 Hto 3.030e-07 3.030e-07 -6.519 -6.519 0.000 (0) Na 4.940e-03 Na+ 4.940e-03 4.584e-03 -2.306 -2.339 -0.032 (0) Na_tr 4.491e-08 Na_tr+ 4.491e-08 4.491e-08 -7.348 -7.348 -0.000 (0) -O(0) 2.110e-12 - O2 1.055e-12 1.056e-12 -11.977 -11.976 0.000 (0) +O(0) 2.526e-12 + O2 1.263e-12 1.264e-12 -11.899 -11.898 0.000 (0) Sr_tr 2.262e-09 Sr_tr+2 2.262e-09 2.262e-09 -8.645 -8.645 -0.000 (0) @@ -10164,10 +10164,10 @@ Sr_tr 2.262e-09 A_hto 8.48 -6.52 -15.00 Hto A_na 4.31 -9.69 -14.00 Na_trCl A_sr 0.68 -13.32 -14.00 Sr_trCl2 - H2(g) -37.05 -40.20 -3.15 H2 + H2(g) -37.09 -40.24 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.26 -4.68 1.58 NaCl - O2(g) -9.08 -11.98 -2.89 O2 + O2(g) -9.01 -11.90 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -10181,7 +10181,7 @@ Using pure phase assemblage 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -2.221e-08 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -2.220e-08 A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -2.273e-07 A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -2.289e-06 A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -2.306e-05 @@ -10191,7 +10191,7 @@ A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -2.306e-05 Diffuse Double Layer Surface-Complexation Model Su - -8.526e-13 Surface + diffuse layer charge, eq + -8.535e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -10207,14 +10207,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9592e-03 + Cl 4.9593e-03 Cl_tr 4.9539e-08 H 6.1817e-07 Hto 5.0000e-07 Na 5.0485e-01 - Na_tr 5.0434e-06 - O 6.4937e-09 - Sr_tr 5.0871e-05 + Na_tr 5.0433e-06 + O 6.4951e-09 + Sr_tr 5.0869e-05 Su 5.000e-01 moles @@ -10231,17 +10231,17 @@ Su Cl_tr 9.997e-07 4.998e-07 Hto 1.000e-06 5.000e-07 Na 1.001e-01 5.004e-02 - Na_tr 9.997e-07 4.999e-07 + Na_tr 9.997e-07 4.998e-07 Sr_tr 9.994e-07 4.997e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.719 Adjusted to redox equilibrium + pe = 11.741 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.670e-09 + Total alkalinity (eq/kg) = 9.668e-09 Temperature (°C) = 25.00 Electrical balance (eq) = 1.197e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -10262,15 +10262,15 @@ Cl 1.001e-01 Cl_tr 9.997e-07 Cl_tr- 9.997e-07 9.997e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.597 -40.587 0.010 (0) + H2 0.000e+00 0.000e+00 -40.641 -40.631 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.997e-07 Na_tr+ 9.997e-07 9.997e-07 -6.000 -6.000 -0.000 (0) -O(0) 1.205e-11 - O2 6.026e-12 6.167e-12 -11.220 -11.210 0.010 (0) +O(0) 1.480e-11 + O2 7.401e-12 7.574e-12 -11.131 -11.121 0.010 (0) Sr_tr 9.994e-07 Sr_tr+2 9.994e-07 9.994e-07 -6.000 -6.000 -0.000 (0) @@ -10282,10 +10282,10 @@ Sr_tr 9.994e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.44 -40.59 -3.15 H2 + H2(g) -37.48 -40.63 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.32 -11.21 -2.89 O2 + O2(g) -8.23 -11.12 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -10891,7 +10891,7 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.936e-09 Surface + diffuse layer charge, eq + 1.040e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.402e-01 psi, V @@ -10904,17 +10904,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.403e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 2.356e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 2.355e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 9.0058e-06 - Cl_tr 8.1883e-11 - H 3.0156e-06 - Hto 1.3991e-07 + Cl 9.0098e-06 + Cl_tr 8.1917e-11 + H 2.8386e-06 + Hto 1.4036e-07 Na 4.9990e-01 Na_tr 4.5446e-06 - O 1.0062e-09 - Sr_tr 5.0338e-05 + O 1.0354e-09 + Sr_tr 4.9868e-05 Su 5.000e-01 moles @@ -10927,25 +10927,25 @@ Su Elements Molality Moles - Cl 4.243e-03 4.243e-03 - Cl_tr 3.858e-08 3.858e-08 - Hto 2.798e-07 2.798e-07 - Na 4.244e-03 4.244e-03 - Na_tr 3.858e-08 3.858e-08 - Sr_tr 1.814e-09 1.814e-09 + Cl 4.244e-03 4.244e-03 + Cl_tr 3.859e-08 3.859e-08 + Hto 2.807e-07 2.807e-07 + Na 4.245e-03 4.245e-03 + Na_tr 3.859e-08 3.859e-08 + Sr_tr 1.798e-09 1.798e-09 ----------------------------Description of solution---------------------------- - pH = 7.620 Charge balance - pe = 11.337 Adjusted to redox equilibrium + pH = 7.646 Charge balance + pe = 11.227 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 4.244e-03 + Ionic strength (mol/kgw) = 4.245e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.222e-07 + Total alkalinity (eq/kg) = 4.515e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.759e-09 + Electrical balance (eq) = 3.754e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 (9 overall) + Iterations = 0 (10 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -10954,25 +10954,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 4.478e-07 4.170e-07 -6.349 -6.380 -0.031 (0) - H+ 2.559e-08 2.400e-08 -7.592 -7.620 -0.028 0.00 + OH- 4.756e-07 4.429e-07 -6.323 -6.354 -0.031 (0) + H+ 2.409e-08 2.260e-08 -7.618 -7.646 -0.028 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 4.243e-03 - Cl- 4.243e-03 3.952e-03 -2.372 -2.403 -0.031 (0) -Cl_tr 3.858e-08 - Cl_tr- 3.858e-08 3.858e-08 -7.414 -7.414 -0.000 (0) +Cl 4.244e-03 + Cl- 4.244e-03 3.953e-03 -2.372 -2.403 -0.031 (0) +Cl_tr 3.859e-08 + Cl_tr- 3.859e-08 3.859e-08 -7.414 -7.414 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.064 -41.064 0.000 (0) -Hto 2.798e-07 - Hto 2.798e-07 2.798e-07 -6.553 -6.553 0.000 (0) -Na 4.244e-03 - Na+ 4.244e-03 3.958e-03 -2.372 -2.403 -0.030 (0) -Na_tr 3.858e-08 - Na_tr+ 3.858e-08 3.858e-08 -7.414 -7.414 -0.000 (0) -O(0) 1.118e-10 - O2 5.589e-11 5.594e-11 -10.253 -10.252 0.000 (0) -Sr_tr 1.814e-09 - Sr_tr+2 1.814e-09 1.814e-09 -8.741 -8.741 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.896 -40.895 0.000 (0) +Hto 2.807e-07 + Hto 2.807e-07 2.807e-07 -6.552 -6.552 0.000 (0) +Na 4.245e-03 + Na+ 4.245e-03 3.959e-03 -2.372 -2.402 -0.030 (0) +Na_tr 3.859e-08 + Na_tr+ 3.859e-08 3.859e-08 -7.414 -7.414 -0.000 (0) +O(0) 5.143e-11 + O2 2.571e-11 2.574e-11 -10.590 -10.589 0.000 (0) +Sr_tr 1.798e-09 + Sr_tr+2 1.798e-09 1.798e-09 -8.745 -8.745 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -10982,10 +10982,10 @@ Sr_tr 1.814e-09 A_hto 8.45 -6.55 -15.00 Hto A_na 4.18 -9.82 -14.00 Na_trCl A_sr 0.45 -13.55 -14.00 Sr_trCl2 - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -37.75 -40.90 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.39 -4.81 1.58 NaCl - O2(g) -7.36 -10.25 -2.89 O2 + O2(g) -7.70 -10.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -10999,17 +10999,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -1.148e-06 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -2.144e-06 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -1.216e-05 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -1.149e-04 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -1.142e-06 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -2.079e-06 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -1.151e-05 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -1.081e-04 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.553e-13 Surface + diffuse layer charge, eq + -8.565e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -11025,14 +11025,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9648e-03 - Cl_tr 4.9541e-08 + Cl 4.9643e-03 + Cl_tr 4.9540e-08 H 6.1814e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0379e-06 - O 6.4924e-09 - Sr_tr 5.0761e-05 + Na_tr 5.0385e-06 + O 6.4928e-09 + Sr_tr 5.0772e-05 Su 5.000e-01 moles @@ -11045,23 +11045,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.984e-07 4.992e-07 + Sr_tr 9.985e-07 4.992e-07 ----------------------------Description of solution---------------------------- - pH = 6.999 Charge balance - pe = 11.672 Adjusted to redox equilibrium + pH = 7.000 Charge balance + pe = 11.682 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.551e-09 + Total alkalinity (eq/kg) = 9.563e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.293e-12 + Electrical balance (eq) = -4.288e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -11073,24 +11073,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) - H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 + H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.502 -40.492 0.010 (0) + H2 0.000e+00 0.000e+00 -40.523 -40.513 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 - Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) + Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 7.810e-12 - O2 3.905e-12 3.996e-12 -11.408 -11.398 0.010 (0) -Sr_tr 9.984e-07 - Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) +O(0) 8.603e-12 + O2 4.301e-12 4.402e-12 -11.366 -11.356 0.010 (0) +Sr_tr 9.985e-07 + Sr_tr+2 9.985e-07 9.985e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -11100,10 +11100,10 @@ Sr_tr 9.984e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.34 -40.49 -3.15 H2 + H2(g) -37.36 -40.51 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.51 -11.40 -2.89 O2 + O2(g) -8.46 -11.36 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11117,7 +11117,7 @@ Using pure phase assemblage 4. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.589e-11 Surface + diffuse layer charge, eq + 1.588e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -11133,14 +11133,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9631e-03 - Cl_tr 4.2087e-08 + Cl 4.9626e-03 + Cl_tr 4.2045e-08 H 6.1816e-07 - Hto 4.2665e-07 + Hto 4.2438e-07 Na 5.0487e-01 - Na_tr 4.3162e-06 - O 6.4925e-09 - Sr_tr 4.3624e-05 + Na_tr 4.2767e-06 + O 6.4928e-09 + Sr_tr 4.3202e-05 Su 5.000e-01 moles @@ -11154,22 +11154,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.006e-02 - Cl_tr 8.490e-07 4.245e-07 - Hto 8.533e-07 4.266e-07 - Na 1.001e-01 5.006e-02 - Na_tr 8.559e-07 4.279e-07 - Sr_tr 8.577e-07 4.288e-07 + Cl_tr 8.482e-07 4.241e-07 + Hto 8.488e-07 4.244e-07 + Na 1.001e-01 5.005e-02 + Na_tr 8.480e-07 4.240e-07 + Sr_tr 8.493e-07 4.246e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.684 Adjusted to redox equilibrium + pe = 11.693 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.587e-09 + Total alkalinity (eq/kg) = 9.598e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.071e-09 + Electrical balance (eq) = 1.055e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -11180,25 +11180,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.966e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.967e-08 -6.883 -7.001 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 8.490e-07 - Cl_tr- 8.490e-07 8.490e-07 -6.071 -6.071 -0.000 (0) + Cl- 1.001e-01 7.650e-02 -1.000 -1.116 -0.117 (0) +Cl_tr 8.482e-07 + Cl_tr- 8.482e-07 8.482e-07 -6.072 -6.072 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.527 -40.517 0.010 (0) -Hto 8.533e-07 - Hto 8.533e-07 8.533e-07 -6.069 -6.069 0.000 (0) + H2 0.000e+00 0.000e+00 -40.546 -40.536 0.010 (0) +Hto 8.488e-07 + Hto 8.488e-07 8.488e-07 -6.071 -6.071 0.000 (0) Na 1.001e-01 - Na+ 1.001e-01 7.835e-02 -1.000 -1.106 -0.106 (0) -Na_tr 8.559e-07 - Na_tr+ 8.559e-07 8.559e-07 -6.068 -6.068 -0.000 (0) -O(0) 8.739e-12 - O2 4.369e-12 4.471e-12 -11.360 -11.350 0.010 (0) -Sr_tr 8.577e-07 - Sr_tr+2 8.577e-07 8.577e-07 -6.067 -6.067 -0.000 (0) + Na+ 1.001e-01 7.834e-02 -1.000 -1.106 -0.106 (0) +Na_tr 8.480e-07 + Na_tr+ 8.480e-07 8.480e-07 -6.072 -6.072 -0.000 (0) +O(0) 9.533e-12 + O2 4.766e-12 4.878e-12 -11.322 -11.312 0.010 (0) +Sr_tr 8.493e-07 + Sr_tr+2 8.493e-07 8.493e-07 -6.071 -6.071 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -11206,12 +11206,12 @@ Sr_tr 8.577e-07 A_cl 6.82 -7.18 -14.00 NaCl_tr A_hto 8.93 -6.07 -15.00 Hto - A_na 6.82 -7.18 -14.00 Na_trCl + A_na 6.81 -7.19 -14.00 Na_trCl A_sr 5.70 -8.30 -14.00 Sr_trCl2 - H2(g) -37.37 -40.52 -3.15 H2 + H2(g) -37.39 -40.54 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.46 -11.35 -2.89 O2 + O2(g) -8.42 -11.31 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11225,7 +11225,7 @@ Using pure phase assemblage 5. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.588e-11 Surface + diffuse layer charge, eq + 1.587e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -11241,14 +11241,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9598e-03 - Cl_tr 2.8173e-08 + Cl 4.9594e-03 + Cl_tr 2.8065e-08 H 6.1820e-07 - Hto 2.8911e-07 + Hto 2.8330e-07 Na 5.0490e-01 - Na_tr 2.9576e-06 - O 6.4919e-09 - Sr_tr 3.0149e-05 + Na_tr 2.8553e-06 + O 6.4922e-09 + Sr_tr 2.9044e-05 Su 5.000e-01 moles @@ -11262,22 +11262,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.004e-02 - Cl_tr 5.685e-07 2.843e-07 - Hto 5.782e-07 2.891e-07 + Cl_tr 5.663e-07 2.832e-07 + Hto 5.666e-07 2.833e-07 Na 1.001e-01 5.004e-02 - Na_tr 5.863e-07 2.931e-07 - Sr_tr 5.923e-07 2.962e-07 + Na_tr 5.660e-07 2.830e-07 + Sr_tr 5.706e-07 2.853e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.685 Adjusted to redox equilibrium + pe = 11.693 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.655e-09 + Total alkalinity (eq/kg) = 9.663e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.252e-10 + Electrical balance (eq) = 8.895e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -11293,33 +11293,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.648e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 5.685e-07 - Cl_tr- 5.685e-07 5.685e-07 -6.245 -6.245 -0.000 (0) +Cl_tr 5.663e-07 + Cl_tr- 5.663e-07 5.663e-07 -6.247 -6.247 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.530 -40.520 0.010 (0) -Hto 5.782e-07 - Hto 5.782e-07 5.782e-07 -6.238 -6.238 0.000 (0) + H2 0.000e+00 0.000e+00 -40.546 -40.536 0.010 (0) +Hto 5.666e-07 + Hto 5.666e-07 5.666e-07 -6.247 -6.247 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) -Na_tr 5.863e-07 - Na_tr+ 5.863e-07 5.863e-07 -6.232 -6.232 -0.000 (0) -O(0) 8.860e-12 - O2 4.430e-12 4.533e-12 -11.354 -11.344 0.010 (0) -Sr_tr 5.923e-07 - Sr_tr+2 5.923e-07 5.923e-07 -6.227 -6.227 -0.000 (0) +Na_tr 5.660e-07 + Na_tr+ 5.660e-07 5.660e-07 -6.247 -6.247 -0.000 (0) +O(0) 9.538e-12 + O2 4.769e-12 4.880e-12 -11.322 -11.312 0.010 (0) +Sr_tr 5.706e-07 + Sr_tr+2 5.706e-07 5.706e-07 -6.244 -6.244 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.65 -7.35 -14.00 NaCl_tr - A_hto 8.76 -6.24 -15.00 Hto - A_na 6.65 -7.35 -14.00 Na_trCl - A_sr 5.54 -8.46 -14.00 Sr_trCl2 - H2(g) -37.37 -40.52 -3.15 H2 + A_hto 8.75 -6.25 -15.00 Hto + A_na 6.64 -7.36 -14.00 Na_trCl + A_sr 5.52 -8.48 -14.00 Sr_trCl2 + H2(g) -37.39 -40.54 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.45 -11.34 -2.89 O2 + O2(g) -8.42 -11.31 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11349,14 +11349,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9569e-03 - Cl_tr 1.6801e-08 + Cl 4.9567e-03 + Cl_tr 1.6672e-08 H 6.1823e-07 - Hto 1.7524e-07 + Hto 1.6832e-07 Na 5.0492e-01 - Na_tr 1.8192e-06 - O 6.4910e-09 - Sr_tr 1.8753e-05 + Na_tr 1.6966e-06 + O 6.4912e-09 + Sr_tr 1.7422e-05 Su 5.000e-01 moles @@ -11370,22 +11370,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.003e-02 - Cl_tr 3.391e-07 1.696e-07 - Hto 3.505e-07 1.752e-07 + Cl_tr 3.365e-07 1.683e-07 + Hto 3.366e-07 1.683e-07 Na 1.001e-01 5.003e-02 - Na_tr 3.605e-07 1.803e-07 - Sr_tr 3.682e-07 1.841e-07 + Na_tr 3.362e-07 1.681e-07 + Sr_tr 3.420e-07 1.710e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.678 Adjusted to redox equilibrium + pe = 11.685 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.715e-09 + Total alkalinity (eq/kg) = 9.719e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.072e-10 + Electrical balance (eq) = 7.941e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -11397,37 +11397,37 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.646e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 3.391e-07 - Cl_tr- 3.391e-07 3.391e-07 -6.470 -6.470 -0.000 (0) +Cl_tr 3.365e-07 + Cl_tr- 3.365e-07 3.365e-07 -6.473 -6.473 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.516 -40.506 0.010 (0) -Hto 3.505e-07 - Hto 3.505e-07 3.505e-07 -6.455 -6.455 0.000 (0) + H2 0.000e+00 0.000e+00 -40.529 -40.519 0.010 (0) +Hto 3.366e-07 + Hto 3.366e-07 3.366e-07 -6.473 -6.473 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) -Na_tr 3.605e-07 - Na_tr+ 3.605e-07 3.605e-07 -6.443 -6.443 -0.000 (0) -O(0) 8.317e-12 - O2 4.159e-12 4.255e-12 -11.381 -11.371 0.010 (0) -Sr_tr 3.682e-07 - Sr_tr+2 3.682e-07 3.682e-07 -6.434 -6.434 -0.000 (0) +Na_tr 3.362e-07 + Na_tr+ 3.362e-07 3.362e-07 -6.473 -6.473 -0.000 (0) +O(0) 8.832e-12 + O2 4.416e-12 4.519e-12 -11.355 -11.345 0.010 (0) +Sr_tr 3.420e-07 + Sr_tr+2 3.420e-07 3.420e-07 -6.466 -6.466 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.42 -7.58 -14.00 NaCl_tr - A_hto 8.54 -6.46 -15.00 Hto - A_na 6.44 -7.56 -14.00 Na_trCl - A_sr 5.33 -8.67 -14.00 Sr_trCl2 - H2(g) -37.36 -40.51 -3.15 H2 + A_hto 8.53 -6.47 -15.00 Hto + A_na 6.41 -7.59 -14.00 Na_trCl + A_sr 5.30 -8.70 -14.00 Sr_trCl2 + H2(g) -37.37 -40.52 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.48 -11.37 -2.89 O2 + O2(g) -8.45 -11.34 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11446,7 +11446,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.762e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -11457,14 +11457,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9545e-03 - Cl_tr 8.4716e-09 + Cl 4.9544e-03 + Cl_tr 8.3723e-09 H 6.1825e-07 - Hto 8.9927e-08 - Na 5.0493e-01 - Na_tr 9.4812e-07 - O 6.4900e-09 - Sr_tr 9.8891e-06 + Hto 8.4529e-08 + Na 5.0494e-01 + Na_tr 8.5210e-07 + O 6.4902e-09 + Sr_tr 8.8420e-06 Su 5.000e-01 moles @@ -11478,22 +11478,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.002e-02 - Cl_tr 1.710e-07 8.552e-08 - Hto 1.799e-07 8.993e-08 + Cl_tr 1.690e-07 8.452e-08 + Hto 1.691e-07 8.453e-08 Na 1.000e-01 5.002e-02 - Na_tr 1.878e-07 9.392e-08 - Sr_tr 1.941e-07 9.703e-08 + Na_tr 1.688e-07 8.440e-08 + Sr_tr 1.735e-07 8.676e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.664 Adjusted to redox equilibrium + pe = 11.669 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.765e-09 + Total alkalinity (eq/kg) = 9.766e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.762e-10 + Electrical balance (eq) = 7.716e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -11509,33 +11509,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.645e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.710e-07 - Cl_tr- 1.710e-07 1.710e-07 -6.767 -6.767 -0.000 (0) +Cl_tr 1.690e-07 + Cl_tr- 1.690e-07 1.690e-07 -6.772 -6.772 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.488 -40.478 0.010 (0) -Hto 1.799e-07 - Hto 1.799e-07 1.799e-07 -6.745 -6.745 0.000 (0) + H2 0.000e+00 0.000e+00 -40.499 -40.489 0.010 (0) +Hto 1.691e-07 + Hto 1.691e-07 1.691e-07 -6.772 -6.772 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) -Na_tr 1.878e-07 - Na_tr+ 1.878e-07 1.878e-07 -6.726 -6.726 -0.000 (0) -O(0) 7.296e-12 - O2 3.648e-12 3.733e-12 -11.438 -11.428 0.010 (0) -Sr_tr 1.941e-07 - Sr_tr+2 1.941e-07 1.941e-07 -6.712 -6.712 -0.000 (0) +Na_tr 1.688e-07 + Na_tr+ 1.688e-07 1.688e-07 -6.773 -6.773 -0.000 (0) +O(0) 7.676e-12 + O2 3.838e-12 3.927e-12 -11.416 -11.406 0.010 (0) +Sr_tr 1.735e-07 + Sr_tr+2 1.735e-07 1.735e-07 -6.761 -6.761 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 6.13 -7.87 -14.00 NaCl_tr - A_hto 8.25 -6.75 -15.00 Hto - A_na 6.16 -7.84 -14.00 Na_trCl - A_sr 5.05 -8.95 -14.00 Sr_trCl2 - H2(g) -37.33 -40.48 -3.15 H2 + A_cl 6.12 -7.88 -14.00 NaCl_tr + A_hto 8.23 -6.77 -15.00 Hto + A_na 6.11 -7.89 -14.00 Na_trCl + A_sr 5.01 -8.99 -14.00 Sr_trCl2 + H2(g) -37.34 -40.49 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.54 -11.43 -2.89 O2 + O2(g) -8.51 -11.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11566,13 +11566,13 @@ Su Element Moles Cl 4.9526e-03 - Cl_tr 2.5264e-09 + Cl_tr 2.4895e-09 H 6.1827e-07 - Hto 2.7150e-08 + Hto 2.5137e-08 Na 5.0495e-01 - Na_tr 2.8933e-07 - O 6.4891e-09 - Sr_tr 3.0422e-06 + Na_tr 2.5341e-07 + O 6.4892e-09 + Sr_tr 2.6494e-06 Su 5.000e-01 moles @@ -11586,22 +11586,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 5.102e-08 2.551e-08 - Hto 5.430e-08 2.715e-08 + Cl_tr 5.027e-08 2.514e-08 + Hto 5.027e-08 2.514e-08 Na 1.000e-01 5.001e-02 - Na_tr 5.731e-08 2.865e-08 - Sr_tr 5.968e-08 2.984e-08 + Na_tr 5.019e-08 2.510e-08 + Sr_tr 5.197e-08 2.599e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.646 Adjusted to redox equilibrium + pe = 11.648 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.806e-09 + Total alkalinity (eq/kg) = 9.803e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.557e-09 + Electrical balance (eq) = 1.729e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -11617,33 +11617,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 5.102e-08 - Cl_tr- 5.102e-08 5.102e-08 -7.292 -7.292 -0.000 (0) +Cl_tr 5.027e-08 + Cl_tr- 5.027e-08 5.027e-08 -7.299 -7.299 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.451 -40.441 0.010 (0) -Hto 5.430e-08 - Hto 5.430e-08 5.430e-08 -7.265 -7.265 0.000 (0) + H2 0.000e+00 0.000e+00 -40.456 -40.446 0.010 (0) +Hto 5.027e-08 + Hto 5.027e-08 5.027e-08 -7.299 -7.299 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) -Na_tr 5.731e-08 - Na_tr+ 5.731e-08 5.731e-08 -7.242 -7.242 -0.000 (0) -O(0) 6.177e-12 - O2 3.088e-12 3.160e-12 -11.510 -11.500 0.010 (0) -Sr_tr 5.968e-08 - Sr_tr+2 5.968e-08 5.968e-08 -7.224 -7.224 -0.000 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) +Na_tr 5.019e-08 + Na_tr+ 5.019e-08 5.019e-08 -7.299 -7.299 -0.000 (0) +O(0) 6.323e-12 + O2 3.162e-12 3.235e-12 -11.500 -11.490 0.010 (0) +Sr_tr 5.197e-08 + Sr_tr+2 5.197e-08 5.197e-08 -7.284 -7.284 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 5.60 -8.40 -14.00 NaCl_tr - A_hto 7.73 -7.27 -15.00 Hto - A_na 5.64 -8.36 -14.00 Na_trCl - A_sr 4.54 -9.46 -14.00 Sr_trCl2 - H2(g) -37.29 -40.44 -3.15 H2 + A_cl 5.59 -8.41 -14.00 NaCl_tr + A_hto 7.70 -7.30 -15.00 Hto + A_na 5.58 -8.42 -14.00 Na_trCl + A_sr 4.48 -9.52 -14.00 Sr_trCl2 + H2(g) -37.30 -40.45 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.61 -11.50 -2.89 O2 + O2(g) -8.60 -11.49 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11657,10 +11657,10 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 0.000e+00 6.091e-08 6.091e-08 -A_hto 0.00 -15.00 -15.00 0.000e+00 1.280e-07 1.280e-07 -A_na 0.00 -14.00 -14.00 0.000e+00 8.108e-07 8.108e-07 -A_sr 0.00 -14.00 -14.00 0.000e+00 8.516e-06 8.516e-06 +A_cl 0.00 -14.00 -14.00 0.000e+00 5.892e-08 5.892e-08 +A_hto 0.00 -15.00 -15.00 0.000e+00 1.072e-07 1.072e-07 +A_na 0.00 -14.00 -14.00 0.000e+00 5.939e-07 5.939e-07 +A_sr 0.00 -14.00 -14.00 0.000e+00 6.091e-06 6.091e-06 ------------------------------Surface composition------------------------------ @@ -11683,14 +11683,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9517e-03 + Cl 4.9519e-03 Cl_tr 6.3261e-15 H 6.1828e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6065e-13 - O 6.4887e-09 - Sr_tr 8.7292e-11 + Na_tr 6.6062e-13 + O 6.4888e-09 + Sr_tr 8.7285e-11 Su 5.000e-01 moles @@ -11713,13 +11713,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.639 Adjusted to redox equilibrium + pe = 11.641 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.823e-09 + Total alkalinity (eq/kg) = 9.819e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.505e-10 + Electrical balance (eq) = 8.047e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -11738,17 +11738,17 @@ Cl 1.000e-01 Cl_tr 1.278e-13 Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.438 -40.428 0.010 (0) + H2 0.000e+00 0.000e+00 -40.441 -40.431 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 5.810e-12 - O2 2.905e-12 2.973e-12 -11.537 -11.527 0.010 (0) +O(0) 5.892e-12 + O2 2.946e-12 3.015e-12 -11.531 -11.521 0.010 (0) Sr_tr 1.712e-12 - Sr_tr+2 1.712e-12 1.712e-12 -11.766 -11.766 -0.000 (0) + Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -11761,7 +11761,7 @@ Sr_tr 1.712e-12 H2(g) -37.28 -40.43 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.63 -11.53 -2.89 O2 + O2(g) -8.63 -11.52 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11825,12 +11825,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 7.709e-11 Surface + diffuse layer charge, eq + 7.515e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.441e-01 psi, V 3.285e+01 -F*psi/RT - 1.856e+14 exp(-F*psi/RT) + 1.855e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -11838,17 +11838,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.442e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 2.743e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 2.742e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 6.6455e-06 - Cl_tr 6.0422e-11 - H 5.1231e-06 - Hto 1.2920e-07 + Cl 6.6506e-06 + Cl_tr 6.0467e-11 + H 4.7061e-06 + Hto 1.3002e-07 Na 4.9989e-01 Na_tr 4.5445e-06 - O 6.0594e-10 - Sr_tr 5.4703e-05 + O 6.2737e-10 + Sr_tr 5.3686e-05 Su 5.000e-01 moles @@ -11861,23 +11861,23 @@ Su Elements Molality Moles - Cl 3.645e-03 3.645e-03 - Cl_tr 3.314e-08 3.314e-08 - Hto 2.584e-07 2.584e-07 - Na 3.645e-03 3.645e-03 - Na_tr 3.314e-08 3.314e-08 - Sr_tr 1.455e-09 1.455e-09 + Cl 3.647e-03 3.647e-03 + Cl_tr 3.315e-08 3.315e-08 + Hto 2.600e-07 2.600e-07 + Na 3.647e-03 3.647e-03 + Na_tr 3.315e-08 3.315e-08 + Sr_tr 1.429e-09 1.429e-09 ----------------------------Description of solution---------------------------- - pH = 7.454 Charge balance - pe = 11.494 Adjusted to redox equilibrium + pH = 7.490 Charge balance + pe = 11.374 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 3.645e-03 + Ionic strength (mol/kgw) = 3.647e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.667e-07 + Total alkalinity (eq/kg) = 2.966e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.665e-09 + Electrical balance (eq) = 6.706e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (11 overall) Total H = 1.110124e+02 @@ -11888,38 +11888,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 3.041e-07 2.846e-07 -6.517 -6.546 -0.029 (0) - H+ 3.736e-08 3.517e-08 -7.428 -7.454 -0.026 0.00 + OH- 3.309e-07 3.097e-07 -6.480 -6.509 -0.029 (0) + H+ 3.433e-08 3.232e-08 -7.464 -7.490 -0.026 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 3.645e-03 - Cl- 3.645e-03 3.412e-03 -2.438 -2.467 -0.029 (0) -Cl_tr 3.314e-08 - Cl_tr- 3.314e-08 3.314e-08 -7.480 -7.480 -0.000 (0) +Cl 3.647e-03 + Cl- 3.647e-03 3.413e-03 -2.438 -2.467 -0.029 (0) +Cl_tr 3.315e-08 + Cl_tr- 3.315e-08 3.315e-08 -7.479 -7.479 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.047 -41.046 0.000 (0) -Hto 2.584e-07 - Hto 2.584e-07 2.584e-07 -6.588 -6.588 0.000 (0) -Na 3.645e-03 - Na+ 3.645e-03 3.416e-03 -2.438 -2.467 -0.028 (0) -Na_tr 3.314e-08 - Na_tr+ 3.314e-08 3.314e-08 -7.480 -7.480 -0.000 (0) -O(0) 1.032e-10 - O2 5.158e-11 5.162e-11 -10.288 -10.287 0.000 (0) -Sr_tr 1.455e-09 - Sr_tr+2 1.455e-09 1.455e-09 -8.837 -8.837 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.879 -40.879 0.000 (0) +Hto 2.600e-07 + Hto 2.600e-07 2.600e-07 -6.585 -6.585 0.000 (0) +Na 3.647e-03 + Na+ 3.647e-03 3.417e-03 -2.438 -2.466 -0.028 (0) +Na_tr 3.315e-08 + Na_tr+ 3.315e-08 3.315e-08 -7.479 -7.479 -0.000 (0) +O(0) 4.772e-11 + O2 2.386e-11 2.388e-11 -10.622 -10.622 0.000 (0) +Sr_tr 1.429e-09 + Sr_tr+2 1.429e-09 1.429e-09 -8.845 -8.845 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 4.05 -9.95 -14.00 NaCl_tr - A_hto 8.41 -6.59 -15.00 Hto + A_hto 8.42 -6.58 -15.00 Hto A_na 4.05 -9.95 -14.00 Na_trCl - A_sr 0.23 -13.77 -14.00 Sr_trCl2 - H2(g) -37.90 -41.05 -3.15 H2 + A_sr 0.22 -13.78 -14.00 Sr_trCl2 + H2(g) -37.73 -40.88 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.52 -4.93 1.58 NaCl - O2(g) -7.39 -10.29 -2.89 O2 + O2(g) -7.73 -10.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -11933,17 +11933,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -4.933e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -9.236e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -5.255e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -4.848e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -4.903e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -8.927e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.943e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -4.536e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.564e-13 Surface + diffuse layer charge, eq + -8.555e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -11959,14 +11959,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9651e-03 - Cl_tr 4.9541e-08 + Cl 4.9645e-03 + Cl_tr 4.9540e-08 H 6.1815e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0377e-06 - O 6.4948e-09 - Sr_tr 5.0756e-05 + Na_tr 5.0382e-06 + O 6.4951e-09 + Sr_tr 5.0767e-05 Su 5.000e-01 moles @@ -11979,21 +11979,21 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.725 Adjusted to redox equilibrium + pe = 11.730 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.542e-09 + Total alkalinity (eq/kg) = 9.555e-09 Temperature (°C) = 25.00 Electrical balance (eq) = -1.970e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -12011,20 +12011,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.608 -40.598 0.010 (0) + H2 0.000e+00 0.000e+00 -40.618 -40.608 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 - Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) + Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 1.271e-11 - O2 6.355e-12 6.503e-12 -11.197 -11.187 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 1.333e-11 + O2 6.665e-12 6.820e-12 -11.176 -11.166 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -12034,10 +12034,10 @@ Sr_tr 9.983e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.45 -40.60 -3.15 H2 + H2(g) -37.46 -40.61 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.29 -11.19 -2.89 O2 + O2(g) -8.27 -11.17 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12056,25 +12056,25 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.937e-02 V. + Donnan Layer potential, psi_DL = -5.938e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9637e-03 - Cl_tr 4.3972e-08 - H 6.1816e-07 - Hto 4.4466e-07 + Cl 4.9632e-03 + Cl_tr 4.3952e-08 + H 6.1817e-07 + Hto 4.4363e-07 Na 5.0487e-01 - Na_tr 4.4876e-06 - O 6.4951e-09 - Sr_tr 4.5249e-05 + Na_tr 4.4703e-06 + O 6.4953e-09 + Sr_tr 4.5071e-05 Su 5.000e-01 moles @@ -12088,22 +12088,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.006e-02 - Cl_tr 8.869e-07 4.435e-07 - Hto 8.893e-07 4.447e-07 + Cl_tr 8.866e-07 4.433e-07 + Hto 8.873e-07 4.436e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.899e-07 4.450e-07 - Sr_tr 8.897e-07 4.449e-07 + Na_tr 8.865e-07 4.432e-07 + Sr_tr 8.862e-07 4.431e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.733 Adjusted to redox equilibrium + pe = 11.738 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.570e-09 + Total alkalinity (eq/kg) = 9.581e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.357e-09 + Electrical balance (eq) = 1.341e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -12118,21 +12118,21 @@ Su H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 8.869e-07 - Cl_tr- 8.869e-07 8.869e-07 -6.052 -6.052 -0.000 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 8.866e-07 + Cl_tr- 8.866e-07 8.866e-07 -6.052 -6.052 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.626 -40.616 0.010 (0) -Hto 8.893e-07 - Hto 8.893e-07 8.893e-07 -6.051 -6.051 0.000 (0) + H2 0.000e+00 0.000e+00 -40.635 -40.625 0.010 (0) +Hto 8.873e-07 + Hto 8.873e-07 8.873e-07 -6.052 -6.052 0.000 (0) Na 1.001e-01 - Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.899e-07 - Na_tr+ 8.899e-07 8.899e-07 -6.051 -6.051 -0.000 (0) -O(0) 1.380e-11 - O2 6.898e-12 7.059e-12 -11.161 -11.151 0.010 (0) -Sr_tr 8.897e-07 - Sr_tr+2 8.897e-07 8.897e-07 -6.051 -6.051 -0.000 (0) + Na+ 1.001e-01 7.835e-02 -1.000 -1.106 -0.106 (0) +Na_tr 8.865e-07 + Na_tr+ 8.865e-07 8.865e-07 -6.052 -6.052 -0.000 (0) +O(0) 1.442e-11 + O2 7.210e-12 7.378e-12 -11.142 -11.132 0.010 (0) +Sr_tr 8.862e-07 + Sr_tr+2 8.862e-07 8.861e-07 -6.052 -6.052 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -12141,11 +12141,11 @@ Sr_tr 8.897e-07 A_cl 6.84 -7.16 -14.00 NaCl_tr A_hto 8.95 -6.05 -15.00 Hto A_na 6.83 -7.17 -14.00 Na_trCl - A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.47 -40.62 -3.15 H2 + A_sr 5.71 -8.29 -14.00 Sr_trCl2 + H2(g) -37.48 -40.63 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.26 -11.15 -2.89 O2 + O2(g) -8.24 -11.13 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12175,14 +12175,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9610e-03 - Cl_tr 3.3071e-08 - H 6.1819e-07 - Hto 3.3603e-07 + Cl 4.9607e-03 + Cl_tr 3.3019e-08 + H 6.1820e-07 + Hto 3.3332e-07 Na 5.0489e-01 - Na_tr 3.4050e-06 - O 6.4949e-09 - Sr_tr 3.4399e-05 + Na_tr 3.3590e-06 + O 6.4951e-09 + Sr_tr 3.3915e-05 Su 5.000e-01 moles @@ -12196,22 +12196,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.005e-02 - Cl_tr 6.673e-07 3.336e-07 - Hto 6.721e-07 3.360e-07 + Cl_tr 6.662e-07 3.331e-07 + Hto 6.666e-07 3.333e-07 Na 1.001e-01 5.005e-02 - Na_tr 6.750e-07 3.375e-07 - Sr_tr 6.760e-07 3.380e-07 + Na_tr 6.659e-07 3.329e-07 + Sr_tr 6.664e-07 3.332e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.739 Adjusted to redox equilibrium + pe = 11.743 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.626e-09 + Total alkalinity (eq/kg) = 9.633e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.211e-09 + Electrical balance (eq) = 1.175e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -12227,33 +12227,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.649e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 6.673e-07 - Cl_tr- 6.673e-07 6.673e-07 -6.176 -6.176 -0.000 (0) +Cl_tr 6.662e-07 + Cl_tr- 6.662e-07 6.662e-07 -6.176 -6.176 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.637 -40.627 0.010 (0) -Hto 6.721e-07 - Hto 6.721e-07 6.721e-07 -6.173 -6.173 0.000 (0) + H2 0.000e+00 0.000e+00 -40.646 -40.636 0.010 (0) +Hto 6.666e-07 + Hto 6.666e-07 6.666e-07 -6.176 -6.176 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.750e-07 - Na_tr+ 6.750e-07 6.750e-07 -6.171 -6.171 -0.000 (0) -O(0) 1.455e-11 - O2 7.273e-12 7.443e-12 -11.138 -11.128 0.010 (0) -Sr_tr 6.760e-07 - Sr_tr+2 6.760e-07 6.760e-07 -6.170 -6.170 -0.000 (0) +Na_tr 6.659e-07 + Na_tr+ 6.659e-07 6.659e-07 -6.177 -6.177 -0.000 (0) +O(0) 1.513e-11 + O2 7.563e-12 7.740e-12 -11.121 -11.111 0.010 (0) +Sr_tr 6.664e-07 + Sr_tr+2 6.664e-07 6.664e-07 -6.176 -6.176 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.72 -7.28 -14.00 NaCl_tr - A_hto 8.83 -6.17 -15.00 Hto + A_hto 8.82 -6.18 -15.00 Hto A_na 6.71 -7.29 -14.00 Na_trCl - A_sr 5.60 -8.40 -14.00 Sr_trCl2 - H2(g) -37.48 -40.63 -3.15 H2 + A_sr 5.59 -8.41 -14.00 Sr_trCl2 + H2(g) -37.49 -40.64 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.24 -11.13 -2.89 O2 + O2(g) -8.22 -11.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12283,14 +12283,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9584e-03 - Cl_tr 2.2784e-08 + Cl 4.9582e-03 + Cl_tr 2.2721e-08 H 6.1822e-07 - Hto 2.3273e-07 + Hto 2.2938e-07 Na 5.0491e-01 - Na_tr 2.3688e-06 - O 6.4945e-09 - Sr_tr 2.3980e-05 + Na_tr 2.3117e-06 + O 6.4947e-09 + Sr_tr 2.3378e-05 Su 5.000e-01 moles @@ -12303,23 +12303,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.004e-02 - Cl_tr 4.598e-07 2.299e-07 - Hto 4.655e-07 2.327e-07 + Cl 1.001e-01 5.003e-02 + Cl_tr 4.586e-07 2.293e-07 + Hto 4.588e-07 2.294e-07 Na 1.001e-01 5.003e-02 - Na_tr 4.695e-07 2.347e-07 - Sr_tr 4.710e-07 2.355e-07 + Na_tr 4.582e-07 2.291e-07 + Sr_tr 4.591e-07 2.296e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.741 Adjusted to redox equilibrium + pe = 11.745 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.681e-09 + Total alkalinity (eq/kg) = 9.683e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.092e-09 + Electrical balance (eq) = 1.079e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -12335,33 +12335,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.647e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 4.598e-07 - Cl_tr- 4.598e-07 4.598e-07 -6.337 -6.337 -0.000 (0) +Cl_tr 4.586e-07 + Cl_tr- 4.586e-07 4.586e-07 -6.339 -6.339 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.641 -40.631 0.010 (0) -Hto 4.655e-07 - Hto 4.655e-07 4.655e-07 -6.332 -6.332 0.000 (0) + H2 0.000e+00 0.000e+00 -40.649 -40.639 0.010 (0) +Hto 4.588e-07 + Hto 4.588e-07 4.588e-07 -6.338 -6.338 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.831e-02 -1.000 -1.106 -0.106 (0) -Na_tr 4.695e-07 - Na_tr+ 4.695e-07 4.695e-07 -6.328 -6.328 -0.000 (0) -O(0) 1.481e-11 - O2 7.405e-12 7.578e-12 -11.130 -11.120 0.010 (0) -Sr_tr 4.710e-07 - Sr_tr+2 4.710e-07 4.710e-07 -6.327 -6.327 -0.000 (0) +Na_tr 4.582e-07 + Na_tr+ 4.582e-07 4.582e-07 -6.339 -6.339 -0.000 (0) +O(0) 1.533e-11 + O2 7.666e-12 7.845e-12 -11.115 -11.105 0.010 (0) +Sr_tr 4.591e-07 + Sr_tr+2 4.591e-07 4.591e-07 -6.338 -6.338 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.56 -7.44 -14.00 NaCl_tr - A_hto 8.67 -6.33 -15.00 Hto - A_na 6.56 -7.44 -14.00 Na_trCl - A_sr 5.44 -8.56 -14.00 Sr_trCl2 - H2(g) -37.48 -40.63 -3.15 H2 + A_hto 8.66 -6.34 -15.00 Hto + A_na 6.54 -7.46 -14.00 Na_trCl + A_sr 5.43 -8.57 -14.00 Sr_trCl2 + H2(g) -37.49 -40.64 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.23 -11.12 -2.89 O2 + O2(g) -8.21 -11.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12391,14 +12391,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9558e-03 - Cl_tr 1.3256e-08 + Cl 4.9559e-03 + Cl_tr 1.3204e-08 H 6.1825e-07 - Hto 1.3603e-07 + Hto 1.3332e-07 Na 5.0493e-01 - Na_tr 1.3899e-06 - O 6.4939e-09 - Sr_tr 1.4096e-05 + Na_tr 1.3437e-06 + O 6.4941e-09 + Sr_tr 1.3608e-05 Su 5.000e-01 moles @@ -12412,22 +12412,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.002e-02 - Cl_tr 2.676e-07 1.338e-07 - Hto 2.721e-07 1.360e-07 + Cl_tr 2.666e-07 1.333e-07 + Hto 2.666e-07 1.333e-07 Na 1.000e-01 5.002e-02 - Na_tr 2.754e-07 1.377e-07 - Sr_tr 2.767e-07 1.383e-07 + Na_tr 2.662e-07 1.331e-07 + Sr_tr 2.671e-07 1.336e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.740 Adjusted to redox equilibrium + pe = 11.744 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.733e-09 + Total alkalinity (eq/kg) = 9.731e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.061e-09 + Electrical balance (eq) = 1.057e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -12442,21 +12442,21 @@ Su H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.645e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 2.676e-07 - Cl_tr- 2.676e-07 2.676e-07 -6.573 -6.573 -0.000 (0) + Cl- 1.000e-01 7.646e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 2.666e-07 + Cl_tr- 2.666e-07 2.666e-07 -6.574 -6.574 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.640 -40.630 0.010 (0) -Hto 2.721e-07 - Hto 2.721e-07 2.721e-07 -6.565 -6.565 0.000 (0) + H2 0.000e+00 0.000e+00 -40.647 -40.637 0.010 (0) +Hto 2.666e-07 + Hto 2.666e-07 2.666e-07 -6.574 -6.574 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) -Na_tr 2.754e-07 - Na_tr+ 2.754e-07 2.754e-07 -6.560 -6.560 -0.000 (0) -O(0) 1.476e-11 - O2 7.379e-12 7.551e-12 -11.132 -11.122 0.010 (0) -Sr_tr 2.767e-07 - Sr_tr+2 2.767e-07 2.767e-07 -6.558 -6.558 -0.000 (0) +Na_tr 2.662e-07 + Na_tr+ 2.662e-07 2.662e-07 -6.575 -6.575 -0.000 (0) +O(0) 1.520e-11 + O2 7.602e-12 7.780e-12 -11.119 -11.109 0.010 (0) +Sr_tr 2.671e-07 + Sr_tr+2 2.671e-07 2.671e-07 -6.573 -6.573 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -12464,12 +12464,12 @@ Sr_tr 2.767e-07 A_cl 6.32 -7.68 -14.00 NaCl_tr A_hto 8.43 -6.57 -15.00 Hto - A_na 6.32 -7.68 -14.00 Na_trCl - A_sr 5.21 -8.79 -14.00 Sr_trCl2 - H2(g) -37.48 -40.63 -3.15 H2 + A_na 6.31 -7.69 -14.00 Na_trCl + A_sr 5.19 -8.81 -14.00 Sr_trCl2 + H2(g) -37.49 -40.64 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.23 -11.12 -2.89 O2 + O2(g) -8.22 -11.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12499,43 +12499,43 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9534e-03 - Cl_tr 4.3403e-09 - H 6.1827e-07 - Hto 4.4664e-08 + Cl 4.9537e-03 + Cl_tr 4.3206e-09 + H 6.1828e-07 + Hto 4.3630e-08 Na 5.0494e-01 - Na_tr 4.5742e-07 - O 6.4933e-09 - Sr_tr 4.6436e-06 + Na_tr 4.3975e-07 + O 6.4935e-09 + Sr_tr 4.4572e-06 Su 5.000e-01 moles Mole Log Species Moles Fraction Molality Molality - Su- 5.000e-01 1.000 1.000e+00 0.000 + Su- 5.000e-01 1.000 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 8.764e-08 4.382e-08 - Hto 8.933e-08 4.466e-08 + Cl_tr 8.724e-08 4.362e-08 + Hto 8.726e-08 4.363e-08 Na 1.000e-01 5.001e-02 - Na_tr 9.061e-08 4.530e-08 - Sr_tr 9.111e-08 4.555e-08 + Na_tr 8.711e-08 4.356e-08 + Sr_tr 8.745e-08 4.373e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.739 Adjusted to redox equilibrium + pe = 11.742 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.784e-09 + Total alkalinity (eq/kg) = 9.776e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.842e-09 + Electrical balance (eq) = 2.014e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -12551,33 +12551,33 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 8.764e-08 - Cl_tr- 8.764e-08 8.764e-08 -7.057 -7.057 -0.000 (0) +Cl_tr 8.724e-08 + Cl_tr- 8.724e-08 8.724e-08 -7.059 -7.059 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.638 -40.628 0.010 (0) -Hto 8.933e-08 - Hto 8.933e-08 8.933e-08 -7.049 -7.049 0.000 (0) + H2 0.000e+00 0.000e+00 -40.643 -40.633 0.010 (0) +Hto 8.726e-08 + Hto 8.726e-08 8.726e-08 -7.059 -7.059 0.000 (0) Na 1.000e-01 Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.061e-08 - Na_tr+ 9.061e-08 9.061e-08 -7.043 -7.043 -0.000 (0) -O(0) 1.456e-11 - O2 7.282e-12 7.451e-12 -11.138 -11.128 0.010 (0) -Sr_tr 9.111e-08 - Sr_tr+2 9.111e-08 9.111e-08 -7.040 -7.040 -0.000 (0) +Na_tr 8.711e-08 + Na_tr+ 8.711e-08 8.711e-08 -7.060 -7.060 -0.000 (0) +O(0) 1.496e-11 + O2 7.479e-12 7.653e-12 -11.126 -11.116 0.010 (0) +Sr_tr 8.745e-08 + Sr_tr+2 8.745e-08 8.745e-08 -7.058 -7.058 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 5.84 -8.16 -14.00 NaCl_tr - A_hto 7.95 -7.05 -15.00 Hto - A_na 5.84 -8.16 -14.00 Na_trCl - A_sr 4.73 -9.27 -14.00 Sr_trCl2 + A_cl 5.83 -8.17 -14.00 NaCl_tr + A_hto 7.94 -7.06 -15.00 Hto + A_na 5.82 -8.18 -14.00 Na_trCl + A_sr 4.71 -9.29 -14.00 Sr_trCl2 H2(g) -37.48 -40.63 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.24 -11.13 -2.89 O2 + O2(g) -8.22 -11.12 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12591,17 +12591,17 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 6.091e-08 3.396e-07 2.787e-07 -A_hto 0.00 -15.00 -15.00 1.280e-07 6.796e-07 5.515e-07 -A_na 0.00 -14.00 -14.00 8.108e-07 4.111e-06 3.300e-06 -A_sr 0.00 -14.00 -14.00 8.516e-06 3.993e-05 3.141e-05 +A_cl 0.00 -14.00 -14.00 5.892e-08 3.323e-07 2.733e-07 +A_hto 0.00 -15.00 -15.00 1.072e-07 6.046e-07 4.974e-07 +A_na 0.00 -14.00 -14.00 5.939e-07 3.349e-06 2.755e-06 +A_sr -0.00 -14.00 -14.00 6.091e-06 3.199e-05 2.590e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.381e-13 Surface + diffuse layer charge, eq + -8.369e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -12613,18 +12613,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9522e-03 + Cl 4.9527e-03 Cl_tr 6.3261e-15 H 6.1829e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6058e-13 - O 6.4930e-09 - Sr_tr 8.7275e-11 + Na_tr 6.6053e-13 + O 6.4933e-09 + Sr_tr 8.7260e-11 Su 5.000e-01 moles @@ -12647,13 +12647,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.738 Adjusted to redox equilibrium + pe = 11.741 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.809e-09 + Total alkalinity (eq/kg) = 9.798e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.919e-09 + Electrical balance (eq) = 3.580e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -12672,15 +12672,15 @@ Cl 1.000e-01 Cl_tr 1.278e-13 Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.636 -40.626 0.010 (0) + H2 0.000e+00 0.000e+00 -40.642 -40.632 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 1.445e-11 - O2 7.225e-12 7.394e-12 -11.141 -11.131 0.010 (0) +O(0) 1.485e-11 + O2 7.426e-12 7.599e-12 -11.129 -11.119 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -12691,11 +12691,11 @@ Sr_tr 1.712e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl - A_sr 0.00 -14.00 -14.00 Sr_trCl2 + A_sr -0.00 -14.00 -14.00 Sr_trCl2 H2(g) -37.48 -40.63 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.24 -11.13 -2.89 O2 + O2(g) -8.23 -11.12 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12759,12 +12759,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 8.292e-11 Surface + diffuse layer charge, eq + 7.977e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.480e-01 psi, V 3.301e+01 -F*psi/RT - 2.161e+14 exp(-F*psi/RT) + 2.160e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -12772,17 +12772,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.481e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 3.193e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 3.192e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9020e-06 - Cl_tr 4.4570e-11 - H 7.6562e-06 - Hto 1.1931e-07 - Na 4.9987e-01 - Na_tr 4.5443e-06 - O 4.1551e-10 - Sr_tr 5.9466e-05 + Cl 4.9071e-06 + Cl_tr 4.4616e-11 + H 6.9552e-06 + Hto 1.2044e-07 + Na 4.9988e-01 + Na_tr 4.5444e-06 + O 4.2707e-10 + Sr_tr 5.7815e-05 Su 5.000e-01 moles @@ -12795,23 +12795,23 @@ Su Elements Molality Moles - Cl 3.131e-03 3.131e-03 - Cl_tr 2.846e-08 2.846e-08 - Hto 2.386e-07 2.386e-07 - Na 3.131e-03 3.131e-03 - Na_tr 2.846e-08 2.846e-08 - Sr_tr 1.166e-09 1.166e-09 + Cl 3.132e-03 3.132e-03 + Cl_tr 2.848e-08 2.848e-08 + Hto 2.409e-07 2.409e-07 + Na 3.133e-03 3.133e-03 + Na_tr 2.848e-08 2.848e-08 + Sr_tr 1.135e-09 1.135e-09 ----------------------------Description of solution---------------------------- - pH = 7.344 Charge balance - pe = 11.596 Adjusted to redox equilibrium + pH = 7.385 Charge balance + pe = 11.471 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 3.131e-03 + Ionic strength (mol/kgw) = 3.133e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.870e-07 + Total alkalinity (eq/kg) = 2.149e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.127e-08 + Electrical balance (eq) = 9.258e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (11 overall) Total H = 1.110124e+02 @@ -12822,25 +12822,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 2.349e-07 2.209e-07 -6.629 -6.656 -0.027 (0) - H+ 4.795e-08 4.532e-08 -7.319 -7.344 -0.024 0.00 + OH- 2.585e-07 2.430e-07 -6.588 -6.614 -0.027 (0) + H+ 4.358e-08 4.119e-08 -7.361 -7.385 -0.024 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 3.131e-03 - Cl- 3.131e-03 2.944e-03 -2.504 -2.531 -0.027 (0) -Cl_tr 2.846e-08 - Cl_tr- 2.846e-08 2.846e-08 -7.546 -7.546 -0.000 (0) +Cl 3.132e-03 + Cl- 3.132e-03 2.945e-03 -2.504 -2.531 -0.027 (0) +Cl_tr 2.848e-08 + Cl_tr- 2.848e-08 2.848e-08 -7.545 -7.545 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.030 -41.029 0.000 (0) -Hto 2.386e-07 - Hto 2.386e-07 2.386e-07 -6.622 -6.622 0.000 (0) -Na 3.131e-03 - Na+ 3.131e-03 2.947e-03 -2.504 -2.531 -0.026 (0) -Na_tr 2.846e-08 - Na_tr+ 2.846e-08 2.846e-08 -7.546 -7.546 -0.000 (0) -O(0) 9.533e-11 - O2 4.766e-11 4.770e-11 -10.322 -10.321 0.000 (0) -Sr_tr 1.166e-09 - Sr_tr+2 1.166e-09 1.166e-09 -8.933 -8.933 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.863 -40.863 0.000 (0) +Hto 2.409e-07 + Hto 2.409e-07 2.409e-07 -6.618 -6.618 0.000 (0) +Na 3.133e-03 + Na+ 3.133e-03 2.948e-03 -2.504 -2.530 -0.026 (0) +Na_tr 2.848e-08 + Na_tr+ 2.848e-08 2.848e-08 -7.545 -7.546 -0.000 (0) +O(0) 4.427e-11 + O2 2.213e-11 2.215e-11 -10.655 -10.655 0.000 (0) +Sr_tr 1.135e-09 + Sr_tr+2 1.135e-09 1.135e-09 -8.945 -8.945 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -12849,11 +12849,11 @@ Sr_tr 1.166e-09 A_cl 3.92 -10.08 -14.00 NaCl_tr A_hto 8.38 -6.62 -15.00 Hto A_na 3.92 -10.08 -14.00 Na_trCl - A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.88 -41.03 -3.15 H2 + A_sr -0.01 -14.01 -14.00 Sr_trCl2 + H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.64 -5.06 1.58 NaCl - O2(g) -7.43 -10.32 -2.89 O2 + O2(g) -7.76 -10.65 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12867,17 +12867,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -4.121e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.798e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.485e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -4.174e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -4.086e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.438e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.119e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.804e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.561e-13 Surface + diffuse layer charge, eq + -8.555e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -12893,14 +12893,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9651e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1816e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.4976e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.4978e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -12913,23 +12913,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.766 Adjusted to redox equilibrium + pe = 11.768 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.537e-09 + Total alkalinity (eq/kg) = 9.550e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.511e-11 + Electrical balance (eq) = -3.510e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -12940,25 +12940,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.690 -40.680 0.010 (0) + H2 0.000e+00 0.000e+00 -40.696 -40.686 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 1.853e-11 - O2 9.267e-12 9.483e-12 -11.033 -11.023 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 1.903e-11 + O2 9.517e-12 9.739e-12 -11.021 -11.011 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -12968,10 +12968,10 @@ Sr_tr 9.983e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.53 -40.68 -3.15 H2 + H2(g) -37.54 -40.69 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.13 -11.02 -2.89 O2 + O2(g) -8.12 -11.01 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -12990,25 +12990,25 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.937e-02 V. + Donnan Layer potential, psi_DL = -5.938e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9638e-03 - Cl_tr 4.4431e-08 + Cl 4.9634e-03 + Cl_tr 4.4424e-08 H 6.1817e-07 - Hto 4.4877e-07 + Hto 4.4839e-07 Na 5.0487e-01 - Na_tr 4.5240e-06 - O 6.4979e-09 - Sr_tr 4.5590e-05 + Na_tr 4.5183e-06 + O 6.4981e-09 + Sr_tr 4.5534e-05 Su 5.000e-01 moles @@ -13022,22 +13022,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.006e-02 - Cl_tr 8.962e-07 4.481e-07 - Hto 8.975e-07 4.488e-07 + Cl_tr 8.961e-07 4.480e-07 + Hto 8.968e-07 4.484e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.972e-07 4.486e-07 - Sr_tr 8.965e-07 4.482e-07 + Na_tr 8.960e-07 4.480e-07 + Sr_tr 8.953e-07 4.476e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.772 Adjusted to redox equilibrium + pe = 11.775 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.563e-09 + Total alkalinity (eq/kg) = 9.573e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.643e-09 + Electrical balance (eq) = 1.626e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13048,25 +13048,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.966e-08 -6.883 -7.001 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 8.962e-07 - Cl_tr- 8.962e-07 8.962e-07 -6.048 -6.048 -0.000 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 8.961e-07 + Cl_tr- 8.961e-07 8.961e-07 -6.048 -6.048 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.703 -40.693 0.010 (0) -Hto 8.975e-07 - Hto 8.975e-07 8.975e-07 -6.047 -6.047 0.000 (0) + H2 0.000e+00 0.000e+00 -40.709 -40.699 0.010 (0) +Hto 8.968e-07 + Hto 8.968e-07 8.968e-07 -6.047 -6.047 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.972e-07 - Na_tr+ 8.972e-07 8.972e-07 -6.047 -6.047 -0.000 (0) -O(0) 1.968e-11 - O2 9.839e-12 1.007e-11 -11.007 -10.997 0.010 (0) -Sr_tr 8.965e-07 - Sr_tr+2 8.965e-07 8.964e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.960e-07 + Na_tr+ 8.960e-07 8.960e-07 -6.048 -6.048 -0.000 (0) +O(0) 2.023e-11 + O2 1.012e-11 1.035e-11 -10.995 -10.985 0.010 (0) +Sr_tr 8.953e-07 + Sr_tr+2 8.953e-07 8.953e-07 -6.048 -6.048 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -13076,10 +13076,10 @@ Sr_tr 8.965e-07 A_hto 8.95 -6.05 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.54 -40.69 -3.15 H2 + H2(g) -37.55 -40.70 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.10 -11.00 -2.89 O2 + O2(g) -8.09 -10.98 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13109,14 +13109,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 - Cl_tr 3.4273e-08 + Cl 4.9610e-03 + Cl_tr 3.4254e-08 H 6.1820e-07 - Hto 3.4677e-07 + Hto 3.4579e-07 Na 5.0489e-01 - Na_tr 3.5005e-06 - O 6.4979e-09 - Sr_tr 3.5292e-05 + Na_tr 3.4845e-06 + O 6.4982e-09 + Sr_tr 3.5130e-05 Su 5.000e-01 moles @@ -13130,22 +13130,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.005e-02 - Cl_tr 6.915e-07 3.458e-07 - Hto 6.935e-07 3.468e-07 + Cl_tr 6.911e-07 3.456e-07 + Hto 6.916e-07 3.458e-07 Na 1.001e-01 5.005e-02 - Na_tr 6.940e-07 3.470e-07 - Sr_tr 6.936e-07 3.468e-07 + Na_tr 6.908e-07 3.454e-07 + Sr_tr 6.904e-07 3.452e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.778 Adjusted to redox equilibrium + pe = 11.781 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.616e-09 + Total alkalinity (eq/kg) = 9.622e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.496e-09 + Electrical balance (eq) = 1.460e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13161,20 +13161,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.649e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 6.915e-07 - Cl_tr- 6.915e-07 6.915e-07 -6.160 -6.160 -0.000 (0) +Cl_tr 6.911e-07 + Cl_tr- 6.911e-07 6.911e-07 -6.160 -6.160 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.715 -40.705 0.010 (0) -Hto 6.935e-07 - Hto 6.935e-07 6.935e-07 -6.159 -6.159 0.000 (0) + H2 0.000e+00 0.000e+00 -40.721 -40.711 0.010 (0) +Hto 6.916e-07 + Hto 6.916e-07 6.916e-07 -6.160 -6.160 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.940e-07 - Na_tr+ 6.940e-07 6.940e-07 -6.159 -6.159 -0.000 (0) -O(0) 2.077e-11 - O2 1.039e-11 1.063e-11 -10.984 -10.974 0.010 (0) -Sr_tr 6.936e-07 - Sr_tr+2 6.936e-07 6.936e-07 -6.159 -6.159 -0.000 (0) +Na_tr 6.908e-07 + Na_tr+ 6.908e-07 6.908e-07 -6.161 -6.161 -0.000 (0) +O(0) 2.133e-11 + O2 1.067e-11 1.092e-11 -10.972 -10.962 0.010 (0) +Sr_tr 6.904e-07 + Sr_tr+2 6.904e-07 6.903e-07 -6.161 -6.161 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -13184,10 +13184,10 @@ Sr_tr 6.936e-07 A_hto 8.84 -6.16 -15.00 Hto A_na 6.72 -7.28 -14.00 Na_trCl A_sr 5.61 -8.39 -14.00 Sr_trCl2 - H2(g) -37.55 -40.70 -3.15 H2 + H2(g) -37.56 -40.71 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.08 -10.97 -2.89 O2 + O2(g) -8.07 -10.96 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13217,14 +13217,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9587e-03 - Cl_tr 2.4270e-08 + Cl 4.9586e-03 + Cl_tr 2.4247e-08 H 6.1823e-07 - Hto 2.4601e-07 + Hto 2.4480e-07 Na 5.0491e-01 - Na_tr 2.4868e-06 - O 6.4977e-09 - Sr_tr 2.5085e-05 + Na_tr 2.4669e-06 + O 6.4980e-09 + Sr_tr 2.4880e-05 Su 5.000e-01 moles @@ -13238,22 +13238,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.004e-02 - Cl_tr 4.898e-07 2.449e-07 - Hto 4.920e-07 2.460e-07 + Cl_tr 4.893e-07 2.447e-07 + Hto 4.896e-07 2.448e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.929e-07 2.464e-07 - Sr_tr 4.927e-07 2.464e-07 + Na_tr 4.889e-07 2.445e-07 + Sr_tr 4.887e-07 2.443e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.781 Adjusted to redox equilibrium + pe = 11.784 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.670e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.378e-09 + Electrical balance (eq) = 1.365e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13269,20 +13269,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.647e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 4.898e-07 - Cl_tr- 4.898e-07 4.898e-07 -6.310 -6.310 -0.000 (0) +Cl_tr 4.893e-07 + Cl_tr- 4.893e-07 4.893e-07 -6.310 -6.310 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.722 -40.712 0.010 (0) -Hto 4.920e-07 - Hto 4.920e-07 4.920e-07 -6.308 -6.308 0.000 (0) + H2 0.000e+00 0.000e+00 -40.727 -40.717 0.010 (0) +Hto 4.896e-07 + Hto 4.896e-07 4.896e-07 -6.310 -6.310 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) -Na_tr 4.929e-07 - Na_tr+ 4.929e-07 4.929e-07 -6.307 -6.307 -0.000 (0) -O(0) 2.148e-11 - O2 1.074e-11 1.099e-11 -10.969 -10.959 0.010 (0) -Sr_tr 4.927e-07 - Sr_tr+2 4.927e-07 4.927e-07 -6.307 -6.307 -0.000 (0) +Na_tr 4.889e-07 + Na_tr+ 4.889e-07 4.889e-07 -6.311 -6.311 -0.000 (0) +O(0) 2.202e-11 + O2 1.101e-11 1.127e-11 -10.958 -10.948 0.010 (0) +Sr_tr 4.887e-07 + Sr_tr+2 4.887e-07 4.887e-07 -6.311 -6.311 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -13290,12 +13290,12 @@ Sr_tr 4.927e-07 A_cl 6.58 -7.42 -14.00 NaCl_tr A_hto 8.69 -6.31 -15.00 Hto - A_na 6.58 -7.42 -14.00 Na_trCl + A_na 6.57 -7.43 -14.00 Na_trCl A_sr 5.46 -8.54 -14.00 Sr_trCl2 - H2(g) -37.56 -40.71 -3.15 H2 + H2(g) -37.57 -40.72 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.07 -10.96 -2.89 O2 + O2(g) -8.06 -10.95 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13321,18 +13321,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.940e-02 V. + Donnan Layer potential, psi_DL = -5.939e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9561e-03 - Cl_tr 1.4457e-08 + Cl 4.9563e-03 + Cl_tr 1.4438e-08 H 6.1826e-07 - Hto 1.4677e-07 + Hto 1.4579e-07 Na 5.0492e-01 - Na_tr 1.4854e-06 - O 6.4974e-09 - Sr_tr 1.4990e-05 + Na_tr 1.4693e-06 + O 6.4977e-09 + Sr_tr 1.4823e-05 Su 5.000e-01 moles @@ -13345,23 +13345,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.002e-02 - Cl_tr 2.919e-07 1.459e-07 - Hto 2.935e-07 1.468e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.943e-07 1.472e-07 - Sr_tr 2.943e-07 1.471e-07 + Cl 1.001e-01 5.003e-02 + Cl_tr 2.915e-07 1.457e-07 + Hto 2.916e-07 1.458e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.911e-07 1.456e-07 + Sr_tr 2.910e-07 1.455e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.783 Adjusted to redox equilibrium + pe = 11.786 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.723e-09 + Total alkalinity (eq/kg) = 9.718e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.347e-09 + Electrical balance (eq) = 1.342e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13373,37 +13373,37 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 + H+ 1.212e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 -Cl 1.000e-01 - Cl- 1.000e-01 7.646e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 2.919e-07 - Cl_tr- 2.919e-07 2.919e-07 -6.535 -6.535 -0.000 (0) +Cl 1.001e-01 + Cl- 1.001e-01 7.646e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 2.915e-07 + Cl_tr- 2.915e-07 2.915e-07 -6.535 -6.535 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.726 -40.716 0.010 (0) -Hto 2.935e-07 - Hto 2.935e-07 2.935e-07 -6.532 -6.532 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) -Na_tr 2.943e-07 - Na_tr+ 2.943e-07 2.943e-07 -6.531 -6.531 -0.000 (0) -O(0) 2.187e-11 - O2 1.093e-11 1.119e-11 -10.961 -10.951 0.010 (0) -Sr_tr 2.943e-07 - Sr_tr+2 2.943e-07 2.943e-07 -6.531 -6.531 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.731 -40.721 0.010 (0) +Hto 2.916e-07 + Hto 2.916e-07 2.916e-07 -6.535 -6.535 0.000 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na_tr 2.911e-07 + Na_tr+ 2.911e-07 2.911e-07 -6.536 -6.536 -0.000 (0) +O(0) 2.237e-11 + O2 1.119e-11 1.145e-11 -10.951 -10.941 0.010 (0) +Sr_tr 2.910e-07 + Sr_tr+2 2.910e-07 2.910e-07 -6.536 -6.536 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 6.36 -7.64 -14.00 NaCl_tr - A_hto 8.47 -6.53 -15.00 Hto + A_hto 8.46 -6.54 -15.00 Hto A_na 6.35 -7.65 -14.00 Na_trCl - A_sr 5.24 -8.76 -14.00 Sr_trCl2 + A_sr 5.23 -8.77 -14.00 Sr_trCl2 H2(g) -37.57 -40.72 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.06 -10.95 -2.89 O2 + O2(g) -8.05 -10.94 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13433,14 +13433,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.7991e-09 + Cl 4.9540e-03 + Cl_tr 4.7919e-09 H 6.1828e-07 - Hto 4.8767e-08 + Hto 4.8392e-08 Na 5.0494e-01 - Na_tr 4.9388e-07 - O 6.4970e-09 - Sr_tr 4.9853e-06 + Na_tr 4.8771e-07 + O 6.4973e-09 + Sr_tr 4.9214e-06 Su 5.000e-01 moles @@ -13453,23 +13453,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 - Cl_tr 9.691e-08 4.845e-08 - Hto 9.753e-08 4.877e-08 + Cl 1.000e-01 5.002e-02 + Cl_tr 9.676e-08 4.838e-08 + Hto 9.678e-08 4.839e-08 Na 1.000e-01 5.001e-02 - Na_tr 9.783e-08 4.892e-08 - Sr_tr 9.781e-08 4.891e-08 + Na_tr 9.662e-08 4.831e-08 + Sr_tr 9.657e-08 4.828e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.784 Adjusted to redox equilibrium + pe = 11.786 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.775e-09 + Total alkalinity (eq/kg) = 9.765e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.127e-09 + Electrical balance (eq) = 2.299e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13485,20 +13485,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.691e-08 - Cl_tr- 9.691e-08 9.691e-08 -7.014 -7.014 -0.000 (0) +Cl_tr 9.676e-08 + Cl_tr- 9.676e-08 9.676e-08 -7.014 -7.014 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.728 -40.718 0.010 (0) -Hto 9.753e-08 - Hto 9.753e-08 9.753e-08 -7.011 -7.011 0.000 (0) + H2 0.000e+00 0.000e+00 -40.732 -40.722 0.010 (0) +Hto 9.678e-08 + Hto 9.678e-08 9.678e-08 -7.014 -7.014 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.783e-08 - Na_tr+ 9.783e-08 9.783e-08 -7.010 -7.010 -0.000 (0) -O(0) 2.204e-11 - O2 1.102e-11 1.128e-11 -10.958 -10.948 0.010 (0) -Sr_tr 9.781e-08 - Sr_tr+2 9.781e-08 9.781e-08 -7.010 -7.010 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.662e-08 + Na_tr+ 9.662e-08 9.662e-08 -7.015 -7.015 -0.000 (0) +O(0) 2.253e-11 + O2 1.126e-11 1.153e-11 -10.948 -10.938 0.010 (0) +Sr_tr 9.657e-08 + Sr_tr+2 9.657e-08 9.657e-08 -7.015 -7.015 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -13507,11 +13507,11 @@ Sr_tr 9.781e-08 A_cl 5.88 -8.12 -14.00 NaCl_tr A_hto 7.99 -7.01 -15.00 Hto A_na 5.87 -8.13 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 + A_sr 4.75 -9.25 -14.00 Sr_trCl2 H2(g) -37.57 -40.72 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.06 -10.95 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -8.05 -10.94 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13525,40 +13525,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 3.396e-07 6.984e-07 3.588e-07 -A_hto 0.00 -15.00 -15.00 6.796e-07 1.373e-06 6.939e-07 -A_na 0.00 -14.00 -14.00 4.111e-06 8.176e-06 4.065e-06 -A_sr -0.00 -14.00 -14.00 3.993e-05 7.806e-05 3.813e-05 +A_cl 0.00 -14.00 -14.00 3.323e-07 6.861e-07 3.539e-07 +A_hto 0.00 -15.00 -15.00 6.046e-07 1.249e-06 6.441e-07 +A_na 0.00 -14.00 -14.00 3.349e-06 6.917e-06 3.567e-06 +A_sr 0.00 -14.00 -14.00 3.199e-05 6.513e-05 3.313e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.368e-13 Surface + diffuse layer charge, eq + -8.369e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9523e-03 + Cl 4.9529e-03 Cl_tr 6.3261e-15 H 6.1830e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6057e-13 - O 6.4967e-09 - Sr_tr 8.7271e-11 + Na_tr 6.6050e-13 + O 6.4970e-09 + Sr_tr 8.7252e-11 Su 5.000e-01 moles @@ -13575,19 +13575,19 @@ Su Cl_tr 1.278e-13 6.388e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.784 Adjusted to redox equilibrium + pe = 11.786 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.802e-09 + Total alkalinity (eq/kg) = 9.789e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.224e-09 + Electrical balance (eq) = 6.768e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -13602,19 +13602,19 @@ Su H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.728 -40.718 0.010 (0) + H2 0.000e+00 0.000e+00 -40.732 -40.722 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.205e-11 - O2 1.103e-11 1.128e-11 -10.958 -10.948 0.010 (0) +O(0) 2.250e-11 + O2 1.125e-11 1.151e-11 -10.949 -10.939 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -13625,11 +13625,11 @@ Sr_tr 1.712e-12 A_cl 0.00 -14.00 -14.00 NaCl_tr A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl - A_sr -0.00 -14.00 -14.00 Sr_trCl2 + A_sr 0.00 -14.00 -14.00 Sr_trCl2 H2(g) -37.57 -40.72 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -8.06 -10.95 -2.89 O2 + O2(g) -8.05 -10.94 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13693,30 +13693,30 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 8.987e-11 Surface + diffuse layer charge, eq + 8.528e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.519e-01 psi, V 3.316e+01 -F*psi/RT - 2.516e+14 exp(-F*psi/RT) + 2.514e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.521e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 3.719e+02 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.520e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 3.716e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 3.6148e-06 - Cl_tr 3.2867e-11 - H 1.0637e-05 - Hto 1.1017e-07 + Cl 3.6195e-06 + Cl_tr 3.2909e-11 + H 9.6038e-06 + Hto 1.1157e-07 Na 4.9986e-01 Na_tr 4.5442e-06 - O 3.0673e-10 - Sr_tr 6.4661e-05 + O 3.1150e-10 + Sr_tr 6.2279e-05 Su 5.000e-01 moles @@ -13729,23 +13729,23 @@ Su Elements Molality Moles - Cl 2.688e-03 2.688e-03 - Cl_tr 2.444e-08 2.444e-08 - Hto 2.203e-07 2.203e-07 - Na 2.688e-03 2.688e-03 - Na_tr 2.444e-08 2.444e-08 - Sr_tr 9.353e-10 9.353e-10 + Cl 2.690e-03 2.690e-03 + Cl_tr 2.446e-08 2.446e-08 + Hto 2.231e-07 2.231e-07 + Na 2.690e-03 2.690e-03 + Na_tr 2.446e-08 2.446e-08 + Sr_tr 9.020e-10 9.020e-10 ----------------------------Description of solution---------------------------- - pH = 7.265 Charge balance - pe = 11.666 Adjusted to redox equilibrium + pH = 7.310 Charge balance + pe = 11.539 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 2.689e-03 + Ionic strength (mol/kgw) = 2.690e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.382e-07 + Total alkalinity (eq/kg) = 1.646e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.361e-08 + Electrical balance (eq) = 1.152e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (11 overall) Total H = 1.110124e+02 @@ -13756,38 +13756,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.954e-07 1.845e-07 -6.709 -6.734 -0.025 (0) - H+ 5.721e-08 5.427e-08 -7.243 -7.265 -0.023 0.00 + OH- 2.163e-07 2.042e-07 -6.665 -6.690 -0.025 (0) + H+ 5.169e-08 4.903e-08 -7.287 -7.310 -0.023 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 2.688e-03 - Cl- 2.688e-03 2.538e-03 -2.571 -2.595 -0.025 (0) -Cl_tr 2.444e-08 - Cl_tr- 2.444e-08 2.444e-08 -7.612 -7.612 -0.000 (0) +Cl 2.690e-03 + Cl- 2.690e-03 2.540e-03 -2.570 -2.595 -0.025 (0) +Cl_tr 2.446e-08 + Cl_tr- 2.446e-08 2.446e-08 -7.612 -7.612 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.012 -41.012 0.000 (0) -Hto 2.203e-07 - Hto 2.203e-07 2.203e-07 -6.657 -6.657 0.000 (0) -Na 2.688e-03 - Na+ 2.688e-03 2.541e-03 -2.570 -2.595 -0.025 (0) -Na_tr 2.444e-08 - Na_tr+ 2.444e-08 2.444e-08 -7.612 -7.612 -0.000 (0) -O(0) 8.806e-11 - O2 4.403e-11 4.406e-11 -10.356 -10.356 0.000 (0) -Sr_tr 9.353e-10 - Sr_tr+2 9.353e-10 9.352e-10 -9.029 -9.029 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.847 -40.846 0.000 (0) +Hto 2.231e-07 + Hto 2.231e-07 2.231e-07 -6.651 -6.651 0.000 (0) +Na 2.690e-03 + Na+ 2.690e-03 2.542e-03 -2.570 -2.595 -0.025 (0) +Na_tr 2.446e-08 + Na_tr+ 2.446e-08 2.446e-08 -7.612 -7.612 -0.000 (0) +O(0) 4.106e-11 + O2 2.053e-11 2.054e-11 -10.688 -10.687 0.000 (0) +Sr_tr 9.020e-10 + Sr_tr+2 9.020e-10 9.020e-10 -9.045 -9.045 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.79 -10.21 -14.00 NaCl_tr - A_hto 8.34 -6.66 -15.00 Hto + A_hto 8.35 -6.65 -15.00 Hto A_na 3.79 -10.21 -14.00 Na_trCl - A_sr -0.22 -14.22 -14.00 Sr_trCl2 - H2(g) -37.86 -41.01 -3.15 H2 + A_sr -0.24 -14.24 -14.00 Sr_trCl2 + H2(g) -37.70 -40.85 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.77 -5.19 1.58 NaCl - O2(g) -7.46 -10.36 -2.89 O2 + O2(g) -7.79 -10.69 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13801,17 +13801,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.921e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.468e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.320e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -4.031e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.881e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.066e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.913e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.620e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.545e-13 Surface + diffuse layer charge, eq + -8.570e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -13827,14 +13827,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1817e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5007e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5008e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -13847,23 +13847,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.797 Adjusted to redox equilibrium + pe = 11.799 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.532e-09 + Total alkalinity (eq/kg) = 9.545e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.053e-11 + Electrical balance (eq) = -5.051e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -13874,25 +13874,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.753 -40.743 0.010 (0) + H2 0.000e+00 0.000e+00 -40.757 -40.747 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 2.479e-11 - O2 1.240e-11 1.269e-11 -10.907 -10.897 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 2.523e-11 + O2 1.261e-11 1.291e-11 -10.899 -10.889 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -13902,10 +13902,10 @@ Sr_tr 9.983e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.59 -40.74 -3.15 H2 + H2(g) -37.60 -40.75 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -8.00 -10.90 -2.89 O2 + O2(g) -8.00 -10.89 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -13924,25 +13924,25 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.937e-02 V. + Donnan Layer potential, psi_DL = -5.938e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 - Cl_tr 4.4546e-08 + Cl 4.9634e-03 + Cl_tr 4.4543e-08 H 6.1818e-07 - Hto 4.4972e-07 + Hto 4.4959e-07 Na 5.0487e-01 - Na_tr 4.5318e-06 - O 6.5010e-09 - Sr_tr 4.5662e-05 + Na_tr 4.5304e-06 + O 6.5012e-09 + Sr_tr 4.5651e-05 Su 5.000e-01 moles @@ -13957,21 +13957,21 @@ Su Cl 1.001e-01 5.006e-02 Cl_tr 8.985e-07 4.492e-07 - Hto 8.994e-07 4.497e-07 + Hto 8.992e-07 4.496e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.987e-07 4.494e-07 - Sr_tr 8.979e-07 4.489e-07 + Na_tr 8.984e-07 4.492e-07 + Sr_tr 8.976e-07 4.488e-07 ----------------------------Description of solution---------------------------- - pH = 6.999 Charge balance - pe = 11.802 Adjusted to redox equilibrium + pH = 7.000 Charge balance + pe = 11.804 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.558e-09 + Total alkalinity (eq/kg) = 9.568e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.929e-09 + Electrical balance (eq) = 1.912e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -13982,25 +13982,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) - H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 + OH- 1.309e-07 9.966e-08 -6.883 -7.001 -0.118 (0) + H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.985e-07 Cl_tr- 8.985e-07 8.985e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.764 -40.754 0.010 (0) -Hto 8.994e-07 - Hto 8.994e-07 8.994e-07 -6.046 -6.046 0.000 (0) + H2 0.000e+00 0.000e+00 -40.767 -40.757 0.010 (0) +Hto 8.992e-07 + Hto 8.992e-07 8.992e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.987e-07 - Na_tr+ 8.987e-07 8.987e-07 -6.046 -6.046 -0.000 (0) -O(0) 2.603e-11 - O2 1.301e-11 1.332e-11 -10.886 -10.876 0.010 (0) -Sr_tr 8.979e-07 - Sr_tr+2 8.979e-07 8.979e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.984e-07 + Na_tr+ 8.984e-07 8.984e-07 -6.047 -6.047 -0.000 (0) +O(0) 2.648e-11 + O2 1.324e-11 1.355e-11 -10.878 -10.868 0.010 (0) +Sr_tr 8.976e-07 + Sr_tr+2 8.976e-07 8.976e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14010,10 +14010,10 @@ Sr_tr 8.979e-07 A_hto 8.95 -6.05 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.60 -40.75 -3.15 H2 + H2(g) -37.61 -40.76 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.98 -10.88 -2.89 O2 + O2(g) -7.98 -10.87 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14043,14 +14043,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 - Cl_tr 3.4572e-08 + Cl 4.9611e-03 + Cl_tr 3.4566e-08 H 6.1821e-07 - Hto 3.4925e-07 + Hto 3.4894e-07 Na 5.0489e-01 - Na_tr 3.5209e-06 - O 6.5011e-09 - Sr_tr 3.5481e-05 + Na_tr 3.5162e-06 + O 6.5013e-09 + Sr_tr 3.5436e-05 Su 5.000e-01 moles @@ -14064,22 +14064,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.005e-02 - Cl_tr 6.975e-07 3.488e-07 - Hto 6.985e-07 3.493e-07 + Cl_tr 6.974e-07 3.487e-07 + Hto 6.979e-07 3.489e-07 Na 1.001e-01 5.005e-02 - Na_tr 6.981e-07 3.490e-07 - Sr_tr 6.973e-07 3.487e-07 + Na_tr 6.971e-07 3.485e-07 + Sr_tr 6.964e-07 3.482e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.807 Adjusted to redox equilibrium + pe = 11.809 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.611e-09 + Total alkalinity (eq/kg) = 9.616e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.782e-09 + Electrical balance (eq) = 1.746e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -14090,25 +14090,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.967e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.968e-08 -6.883 -7.001 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.649e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 6.975e-07 - Cl_tr- 6.975e-07 6.975e-07 -6.156 -6.156 -0.000 (0) +Cl_tr 6.974e-07 + Cl_tr- 6.974e-07 6.974e-07 -6.157 -6.157 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.774 -40.764 0.010 (0) -Hto 6.985e-07 - Hto 6.985e-07 6.985e-07 -6.156 -6.156 0.000 (0) + H2 0.000e+00 0.000e+00 -40.778 -40.768 0.010 (0) +Hto 6.979e-07 + Hto 6.979e-07 6.979e-07 -6.156 -6.156 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.981e-07 - Na_tr+ 6.981e-07 6.980e-07 -6.156 -6.156 -0.000 (0) -O(0) 2.726e-11 - O2 1.363e-11 1.395e-11 -10.866 -10.856 0.010 (0) -Sr_tr 6.973e-07 - Sr_tr+2 6.973e-07 6.973e-07 -6.157 -6.157 -0.000 (0) +Na_tr 6.971e-07 + Na_tr+ 6.971e-07 6.971e-07 -6.157 -6.157 -0.000 (0) +O(0) 2.778e-11 + O2 1.389e-11 1.421e-11 -10.857 -10.847 0.010 (0) +Sr_tr 6.964e-07 + Sr_tr+2 6.964e-07 6.964e-07 -6.157 -6.157 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14118,10 +14118,10 @@ Sr_tr 6.973e-07 A_hto 8.84 -6.16 -15.00 Hto A_na 6.73 -7.27 -14.00 Na_trCl A_sr 5.61 -8.39 -14.00 Sr_trCl2 - H2(g) -37.61 -40.76 -3.15 H2 + H2(g) -37.62 -40.77 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.96 -10.86 -2.89 O2 + O2(g) -7.95 -10.85 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14152,13 +14152,13 @@ Su Element Moles Cl 4.9587e-03 - Cl_tr 2.4639e-08 + Cl_tr 2.4632e-08 H 6.1824e-07 - Hto 2.4908e-07 + Hto 2.4869e-07 Na 5.0491e-01 - Na_tr 2.5121e-06 - O 6.5010e-09 - Sr_tr 2.5319e-05 + Na_tr 2.5061e-06 + O 6.5012e-09 + Sr_tr 2.5259e-05 Su 5.000e-01 moles @@ -14172,22 +14172,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.004e-02 - Cl_tr 4.973e-07 2.486e-07 - Hto 4.982e-07 2.491e-07 + Cl_tr 4.971e-07 2.486e-07 + Hto 4.974e-07 2.487e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.979e-07 2.490e-07 - Sr_tr 4.973e-07 2.487e-07 + Na_tr 4.967e-07 2.484e-07 + Sr_tr 4.961e-07 2.481e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.811 Adjusted to redox equilibrium + pe = 11.813 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.664e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.663e-09 + Electrical balance (eq) = 1.650e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -14203,20 +14203,20 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.647e-02 -1.000 -1.116 -0.117 (0) -Cl_tr 4.973e-07 - Cl_tr- 4.973e-07 4.972e-07 -6.303 -6.303 -0.000 (0) +Cl_tr 4.971e-07 + Cl_tr- 4.971e-07 4.971e-07 -6.304 -6.304 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.781 -40.771 0.010 (0) -Hto 4.982e-07 - Hto 4.982e-07 4.982e-07 -6.303 -6.303 0.000 (0) + H2 0.000e+00 0.000e+00 -40.785 -40.775 0.010 (0) +Hto 4.974e-07 + Hto 4.974e-07 4.974e-07 -6.303 -6.303 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) -Na_tr 4.979e-07 - Na_tr+ 4.979e-07 4.979e-07 -6.303 -6.303 -0.000 (0) -O(0) 2.815e-11 - O2 1.407e-11 1.440e-11 -10.852 -10.842 0.010 (0) -Sr_tr 4.973e-07 - Sr_tr+2 4.973e-07 4.973e-07 -6.303 -6.303 -0.000 (0) +Na_tr 4.967e-07 + Na_tr+ 4.967e-07 4.967e-07 -6.304 -6.304 -0.000 (0) +O(0) 2.870e-11 + O2 1.435e-11 1.469e-11 -10.843 -10.833 0.010 (0) +Sr_tr 4.961e-07 + Sr_tr+2 4.961e-07 4.961e-07 -6.304 -6.304 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14229,7 +14229,7 @@ Sr_tr 4.973e-07 H2(g) -37.62 -40.77 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.95 -10.84 -2.89 O2 + O2(g) -7.94 -10.83 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14243,7 +14243,7 @@ Using pure phase assemblage 7. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.585e-11 Surface + diffuse layer charge, eq + 1.586e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -14255,47 +14255,47 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.940e-02 V. + Donnan Layer potential, psi_DL = -5.939e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 - Cl_tr 1.4756e-08 + Cl 4.9564e-03 + Cl_tr 1.4750e-08 H 6.1827e-07 - Hto 1.4925e-07 + Hto 1.4894e-07 Na 5.0492e-01 - Na_tr 1.5059e-06 - O 6.5008e-09 - Sr_tr 1.5179e-05 + Na_tr 1.5010e-06 + O 6.5010e-09 + Sr_tr 1.5130e-05 Su 5.000e-01 moles Mole Log Species Moles Fraction Molality Molality - Su- 5.000e-01 1.000 1.000e+00 0.000 + Su- 5.000e-01 1.000 1.000e+00 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles Cl 1.001e-01 5.003e-02 - Cl_tr 2.979e-07 1.489e-07 - Hto 2.985e-07 1.493e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.984e-07 1.492e-07 - Sr_tr 2.980e-07 1.490e-07 + Cl_tr 2.977e-07 1.489e-07 + Hto 2.979e-07 1.489e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.974e-07 1.487e-07 + Sr_tr 2.970e-07 1.485e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.813 Adjusted to redox equilibrium + pe = 11.815 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.717e-09 + Total alkalinity (eq/kg) = 9.711e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.632e-09 + Electrical balance (eq) = 1.627e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -14306,25 +14306,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.971e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.646e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 2.979e-07 - Cl_tr- 2.979e-07 2.979e-07 -6.526 -6.526 -0.000 (0) +Cl_tr 2.977e-07 + Cl_tr- 2.977e-07 2.977e-07 -6.526 -6.526 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.785 -40.775 0.010 (0) -Hto 2.985e-07 - Hto 2.985e-07 2.985e-07 -6.525 -6.525 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) -Na_tr 2.984e-07 - Na_tr+ 2.984e-07 2.984e-07 -6.525 -6.525 -0.000 (0) -O(0) 2.877e-11 - O2 1.438e-11 1.472e-11 -10.842 -10.832 0.010 (0) -Sr_tr 2.980e-07 - Sr_tr+2 2.980e-07 2.980e-07 -6.526 -6.526 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.789 -40.779 0.010 (0) +Hto 2.979e-07 + Hto 2.979e-07 2.979e-07 -6.526 -6.526 0.000 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na_tr 2.974e-07 + Na_tr+ 2.974e-07 2.974e-07 -6.527 -6.527 -0.000 (0) +O(0) 2.928e-11 + O2 1.464e-11 1.498e-11 -10.834 -10.824 0.010 (0) +Sr_tr 2.970e-07 + Sr_tr+2 2.970e-07 2.970e-07 -6.527 -6.527 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14337,7 +14337,7 @@ Sr_tr 2.980e-07 H2(g) -37.63 -40.78 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.94 -10.83 -2.89 O2 + O2(g) -7.93 -10.82 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14367,14 +14367,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9131e-09 + Cl 4.9541e-03 + Cl_tr 4.9108e-09 H 6.1829e-07 - Hto 4.9715e-08 + Hto 4.9594e-08 Na 5.0494e-01 - Na_tr 5.0171e-07 - O 6.5004e-09 - Sr_tr 5.0575e-06 + Na_tr 4.9982e-07 + O 6.5007e-09 + Sr_tr 5.0385e-06 Su 5.000e-01 moles @@ -14387,23 +14387,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 - Cl_tr 9.921e-08 4.960e-08 - Hto 9.943e-08 4.972e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.939e-08 4.969e-08 - Sr_tr 9.923e-08 4.962e-08 + Cl 1.000e-01 5.002e-02 + Cl_tr 9.916e-08 4.958e-08 + Hto 9.919e-08 4.959e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.902e-08 4.951e-08 + Sr_tr 9.887e-08 4.943e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.814 Adjusted to redox equilibrium + pe = 11.816 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.770e-09 + Total alkalinity (eq/kg) = 9.759e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.412e-09 + Electrical balance (eq) = 2.585e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -14414,25 +14414,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.921e-08 - Cl_tr- 9.921e-08 9.921e-08 -7.003 -7.003 -0.000 (0) +Cl_tr 9.916e-08 + Cl_tr- 9.916e-08 9.916e-08 -7.004 -7.004 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.788 -40.778 0.010 (0) -Hto 9.943e-08 - Hto 9.943e-08 9.943e-08 -7.002 -7.002 0.000 (0) + H2 0.000e+00 0.000e+00 -40.792 -40.782 0.010 (0) +Hto 9.919e-08 + Hto 9.919e-08 9.919e-08 -7.004 -7.004 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.939e-08 - Na_tr+ 9.939e-08 9.939e-08 -7.003 -7.003 -0.000 (0) -O(0) 2.912e-11 - O2 1.456e-11 1.490e-11 -10.837 -10.827 0.010 (0) -Sr_tr 9.923e-08 - Sr_tr+2 9.923e-08 9.923e-08 -7.003 -7.003 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.902e-08 + Na_tr+ 9.902e-08 9.902e-08 -7.004 -7.004 -0.000 (0) +O(0) 2.963e-11 + O2 1.482e-11 1.516e-11 -10.829 -10.819 0.010 (0) +Sr_tr 9.887e-08 + Sr_tr+2 9.887e-08 9.887e-08 -7.005 -7.005 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14444,8 +14444,8 @@ Sr_tr 9.923e-08 A_sr 4.76 -9.24 -14.00 Sr_trCl2 H2(g) -37.63 -40.78 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.93 -10.83 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.93 -10.82 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14459,40 +14459,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 6.984e-07 1.077e-06 3.789e-07 -A_hto 0.00 -15.00 -15.00 1.373e-06 2.100e-06 7.269e-07 -A_na 0.00 -14.00 -14.00 8.176e-06 1.241e-05 4.230e-06 -A_sr 0.00 -14.00 -14.00 7.806e-05 1.176e-04 3.955e-05 +A_cl 0.00 -14.00 -14.00 6.861e-07 1.060e-06 3.743e-07 +A_hto 0.00 -15.00 -15.00 1.249e-06 1.930e-06 6.814e-07 +A_na 0.00 -14.00 -14.00 6.917e-06 1.069e-05 3.774e-06 +A_sr 0.00 -14.00 -14.00 6.513e-05 1.001e-04 3.497e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.374e-13 Surface + diffuse layer charge, eq + -8.362e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9529e-03 Cl_tr 6.3261e-15 H 6.1831e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6057e-13 - O 6.5002e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5005e-09 + Sr_tr 8.7251e-11 Su 5.000e-01 moles @@ -14509,19 +14509,19 @@ Su Cl_tr 1.278e-13 6.388e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.814 Adjusted to redox equilibrium + pe = 11.816 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.796e-09 + Total alkalinity (eq/kg) = 9.783e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.060e-08 + Electrical balance (eq) = 1.005e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -14532,23 +14532,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.975e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl_tr- 1.278e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.788 -40.778 0.010 (0) + H2 0.000e+00 0.000e+00 -40.792 -40.782 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 2.915e-11 - O2 1.457e-11 1.491e-11 -10.836 -10.826 0.010 (0) +O(0) 2.967e-11 + O2 1.484e-11 1.518e-11 -10.829 -10.819 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -14563,7 +14563,7 @@ Sr_tr 1.712e-12 H2(g) -37.63 -40.78 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.93 -10.83 -2.89 O2 + O2(g) -7.93 -10.82 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14627,30 +14627,30 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 9.809e-11 Surface + diffuse layer charge, eq + 9.177e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.558e-01 psi, V 3.331e+01 -F*psi/RT - 2.930e+14 exp(-F*psi/RT) + 2.928e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.560e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 4.331e+02 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.559e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 4.328e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 2.6649e-06 - Cl_tr 2.4230e-11 - H 1.4121e-05 - Hto 1.0174e-07 - Na 4.9984e-01 + Cl 2.6689e-06 + Cl_tr 2.4266e-11 + H 1.2701e-05 + Hto 1.0336e-07 + Na 4.9985e-01 Na_tr 4.5441e-06 - O 2.3706e-10 - Sr_tr 7.0327e-05 + O 2.3739e-10 + Sr_tr 6.7104e-05 Su 5.000e-01 moles @@ -14663,23 +14663,23 @@ Su Elements Molality Moles - Cl 2.308e-03 2.308e-03 - Cl_tr 2.099e-08 2.099e-08 - Hto 2.035e-07 2.035e-07 - Na 2.308e-03 2.308e-03 - Na_tr 2.098e-08 2.098e-08 - Sr_tr 7.499e-10 7.499e-10 + Cl 2.310e-03 2.310e-03 + Cl_tr 2.100e-08 2.100e-08 + Hto 2.067e-07 2.067e-07 + Na 2.310e-03 2.310e-03 + Na_tr 2.100e-08 2.100e-08 + Sr_tr 7.166e-10 7.166e-10 ----------------------------Description of solution---------------------------- - pH = 7.207 Charge balance - pe = 11.715 Adjusted to redox equilibrium + pH = 7.253 Charge balance + pe = 11.587 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 2.308e-03 + Ionic strength (mol/kgw) = 2.310e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.049e-07 + Total alkalinity (eq/kg) = 1.303e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.582e-08 + Electrical balance (eq) = 1.362e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (11 overall) Total H = 1.110124e+02 @@ -14690,38 +14690,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.701e-07 1.613e-07 -6.769 -6.792 -0.023 (0) - H+ 6.521e-08 6.207e-08 -7.186 -7.207 -0.021 0.00 + OH- 1.890e-07 1.792e-07 -6.724 -6.747 -0.023 (0) + H+ 5.870e-08 5.587e-08 -7.231 -7.253 -0.021 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 2.308e-03 - Cl- 2.308e-03 2.188e-03 -2.637 -2.660 -0.023 (0) -Cl_tr 2.099e-08 - Cl_tr- 2.099e-08 2.099e-08 -7.678 -7.678 -0.000 (0) +Cl 2.310e-03 + Cl- 2.310e-03 2.190e-03 -2.636 -2.660 -0.023 (0) +Cl_tr 2.100e-08 + Cl_tr- 2.100e-08 2.100e-08 -7.678 -7.678 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.995 -40.995 0.000 (0) -Hto 2.035e-07 - Hto 2.035e-07 2.035e-07 -6.691 -6.691 0.000 (0) -Na 2.308e-03 - Na+ 2.308e-03 2.190e-03 -2.637 -2.660 -0.023 (0) -Na_tr 2.098e-08 - Na_tr+ 2.098e-08 2.098e-08 -7.678 -7.678 -0.000 (0) -O(0) 8.128e-11 - O2 4.064e-11 4.066e-11 -10.391 -10.391 0.000 (0) -Sr_tr 7.499e-10 - Sr_tr+2 7.499e-10 7.499e-10 -9.125 -9.125 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.830 -40.830 0.000 (0) +Hto 2.067e-07 + Hto 2.067e-07 2.067e-07 -6.685 -6.685 0.000 (0) +Na 2.310e-03 + Na+ 2.310e-03 2.192e-03 -2.636 -2.659 -0.023 (0) +Na_tr 2.100e-08 + Na_tr+ 2.100e-08 2.100e-08 -7.678 -7.678 -0.000 (0) +O(0) 3.801e-11 + O2 1.901e-11 1.902e-11 -10.721 -10.721 0.000 (0) +Sr_tr 7.166e-10 + Sr_tr+2 7.166e-10 7.166e-10 -9.145 -9.145 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.66 -10.34 -14.00 NaCl_tr - A_hto 8.31 -6.69 -15.00 Hto + A_hto 8.32 -6.68 -15.00 Hto A_na 3.66 -10.34 -14.00 Na_trCl - A_sr -0.44 -14.44 -14.00 Sr_trCl2 - H2(g) -37.84 -40.99 -3.15 H2 + A_sr -0.46 -14.46 -14.00 Sr_trCl2 + H2(g) -37.68 -40.83 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -6.90 -5.32 1.58 NaCl - O2(g) -7.50 -10.39 -2.89 O2 + O2(g) -7.83 -10.72 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14735,17 +14735,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.871e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.391e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.285e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -4.001e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.830e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.971e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.861e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.574e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.555e-13 Surface + diffuse layer charge, eq + -8.576e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -14761,14 +14761,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1818e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5038e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5039e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -14781,23 +14781,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.822 Adjusted to redox equilibrium + pe = 11.824 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.528e-09 + Total alkalinity (eq/kg) = 9.541e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.593e-11 + Electrical balance (eq) = -6.592e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -14808,25 +14808,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.804 -40.794 0.010 (0) + H2 0.000e+00 0.000e+00 -40.806 -40.796 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 3.130e-11 - O2 1.565e-11 1.602e-11 -10.805 -10.795 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 3.166e-11 + O2 1.583e-11 1.620e-11 -10.800 -10.790 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -14836,10 +14836,10 @@ Sr_tr 9.983e-07 A_hto 9.00 -6.00 -15.00 Hto A_na 6.88 -7.12 -14.00 Na_trCl A_sr 5.77 -8.23 -14.00 Sr_trCl2 - H2(g) -37.64 -40.79 -3.15 H2 + H2(g) -37.65 -40.80 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.90 -10.80 -2.89 O2 + O2(g) -7.90 -10.79 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14853,30 +14853,30 @@ Using pure phase assemblage 4. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.588e-11 Surface + diffuse layer charge, eq + 1.587e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.937e-02 V. + Donnan Layer potential, psi_DL = -5.938e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 - Cl_tr 4.4574e-08 - H 6.1819e-07 - Hto 4.4993e-07 + Cl 4.9634e-03 + Cl_tr 4.4573e-08 + H 6.1820e-07 + Hto 4.4990e-07 Na 5.0487e-01 - Na_tr 4.5335e-06 - O 6.5041e-09 - Sr_tr 4.5677e-05 + Na_tr 4.5334e-06 + O 6.5043e-09 + Sr_tr 4.5681e-05 Su 5.000e-01 moles @@ -14891,21 +14891,21 @@ Su Cl 1.001e-01 5.006e-02 Cl_tr 8.991e-07 4.495e-07 - Hto 8.999e-07 4.499e-07 + Hto 8.998e-07 4.499e-07 Na 1.001e-01 5.006e-02 Na_tr 8.990e-07 4.495e-07 Sr_tr 8.982e-07 4.491e-07 ----------------------------Description of solution---------------------------- - pH = 6.999 Charge balance - pe = 11.827 Adjusted to redox equilibrium + pH = 7.000 Charge balance + pe = 11.828 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.554e-09 + Total alkalinity (eq/kg) = 9.564e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.214e-09 + Electrical balance (eq) = 2.198e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -14917,22 +14917,22 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) - H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 + H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.991e-07 Cl_tr- 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.812 -40.802 0.010 (0) -Hto 8.999e-07 - Hto 8.999e-07 8.999e-07 -6.046 -6.046 0.000 (0) + H2 0.000e+00 0.000e+00 -40.815 -40.805 0.010 (0) +Hto 8.998e-07 + Hto 8.998e-07 8.998e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) Na_tr 8.990e-07 Na_tr+ 8.990e-07 8.990e-07 -6.046 -6.046 -0.000 (0) -O(0) 3.252e-11 - O2 1.626e-11 1.664e-11 -10.789 -10.779 0.010 (0) +O(0) 3.296e-11 + O2 1.648e-11 1.686e-11 -10.783 -10.773 0.010 (0) Sr_tr 8.982e-07 Sr_tr+2 8.982e-07 8.982e-07 -6.047 -6.047 -0.000 (0) @@ -14947,7 +14947,7 @@ Sr_tr 8.982e-07 H2(g) -37.65 -40.80 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.89 -10.78 -2.89 O2 + O2(g) -7.88 -10.77 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -14977,14 +14977,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 - Cl_tr 3.4646e-08 + Cl 4.9611e-03 + Cl_tr 3.4644e-08 H 6.1822e-07 - Hto 3.4983e-07 + Hto 3.4973e-07 Na 5.0489e-01 - Na_tr 3.5253e-06 - O 6.5042e-09 - Sr_tr 3.5521e-05 + Na_tr 3.5242e-06 + O 6.5045e-09 + Sr_tr 3.5513e-05 Su 5.000e-01 moles @@ -14999,21 +14999,21 @@ Su Cl 1.001e-01 5.005e-02 Cl_tr 6.990e-07 3.495e-07 - Hto 6.997e-07 3.498e-07 + Hto 6.995e-07 3.497e-07 Na 1.001e-01 5.005e-02 - Na_tr 6.989e-07 3.495e-07 - Sr_tr 6.981e-07 3.490e-07 + Na_tr 6.987e-07 3.493e-07 + Sr_tr 6.979e-07 3.490e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.831 Adjusted to redox equilibrium + pe = 11.832 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.606e-09 + Total alkalinity (eq/kg) = 9.611e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.068e-09 + Electrical balance (eq) = 2.032e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15032,17 +15032,17 @@ Cl 1.001e-01 Cl_tr 6.990e-07 Cl_tr- 6.990e-07 6.990e-07 -6.156 -6.156 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.821 -40.811 0.010 (0) -Hto 6.997e-07 - Hto 6.997e-07 6.997e-07 -6.155 -6.155 0.000 (0) + H2 0.000e+00 0.000e+00 -40.824 -40.814 0.010 (0) +Hto 6.995e-07 + Hto 6.995e-07 6.995e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) -Na_tr 6.989e-07 - Na_tr+ 6.989e-07 6.989e-07 -6.156 -6.156 -0.000 (0) -O(0) 3.384e-11 - O2 1.692e-11 1.731e-11 -10.772 -10.762 0.010 (0) -Sr_tr 6.981e-07 - Sr_tr+2 6.981e-07 6.981e-07 -6.156 -6.156 -0.000 (0) +Na_tr 6.987e-07 + Na_tr+ 6.987e-07 6.987e-07 -6.156 -6.156 -0.000 (0) +O(0) 3.431e-11 + O2 1.716e-11 1.756e-11 -10.766 -10.756 0.010 (0) +Sr_tr 6.979e-07 + Sr_tr+2 6.979e-07 6.979e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15055,7 +15055,7 @@ Sr_tr 6.981e-07 H2(g) -37.66 -40.81 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.87 -10.76 -2.89 O2 + O2(g) -7.86 -10.76 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15086,13 +15086,13 @@ Su Element Moles Cl 4.9588e-03 - Cl_tr 2.4731e-08 + Cl_tr 2.4729e-08 H 6.1825e-07 - Hto 2.4979e-07 + Hto 2.4967e-07 Na 5.0490e-01 - Na_tr 2.5176e-06 - O 6.5042e-09 - Sr_tr 2.5368e-05 + Na_tr 2.5160e-06 + O 6.5045e-09 + Sr_tr 2.5354e-05 Su 5.000e-01 moles @@ -15107,21 +15107,21 @@ Su Cl 1.001e-01 5.004e-02 Cl_tr 4.991e-07 2.495e-07 - Hto 4.996e-07 2.498e-07 + Hto 4.993e-07 2.497e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.990e-07 2.495e-07 - Sr_tr 4.983e-07 2.491e-07 + Na_tr 4.987e-07 2.493e-07 + Sr_tr 4.980e-07 2.490e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.834 Adjusted to redox equilibrium + pe = 11.835 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.659e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.949e-09 + Electrical balance (eq) = 1.936e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15140,17 +15140,17 @@ Cl 1.001e-01 Cl_tr 4.991e-07 Cl_tr- 4.991e-07 4.991e-07 -6.302 -6.302 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.827 -40.817 0.010 (0) -Hto 4.996e-07 - Hto 4.996e-07 4.996e-07 -6.301 -6.301 0.000 (0) + H2 0.000e+00 0.000e+00 -40.830 -40.820 0.010 (0) +Hto 4.993e-07 + Hto 4.993e-07 4.993e-07 -6.302 -6.302 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) -Na_tr 4.990e-07 - Na_tr+ 4.990e-07 4.990e-07 -6.302 -6.302 -0.000 (0) -O(0) 3.484e-11 - O2 1.742e-11 1.783e-11 -10.759 -10.749 0.010 (0) -Sr_tr 4.983e-07 - Sr_tr+2 4.983e-07 4.983e-07 -6.303 -6.303 -0.000 (0) +Na_tr 4.987e-07 + Na_tr+ 4.987e-07 4.987e-07 -6.302 -6.302 -0.000 (0) +O(0) 3.536e-11 + O2 1.768e-11 1.809e-11 -10.752 -10.742 0.010 (0) +Sr_tr 4.980e-07 + Sr_tr+2 4.980e-07 4.980e-07 -6.303 -6.303 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15163,7 +15163,7 @@ Sr_tr 4.983e-07 H2(g) -37.67 -40.82 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.86 -10.75 -2.89 O2 + O2(g) -7.85 -10.74 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15189,18 +15189,18 @@ Su Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.940e-02 V. + Donnan Layer potential, psi_DL = -5.939e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 - Cl_tr 1.4830e-08 + Cl 4.9564e-03 + Cl_tr 1.4828e-08 H 6.1828e-07 - Hto 1.4983e-07 + Hto 1.4973e-07 Na 5.0492e-01 - Na_tr 1.5103e-06 - O 6.5040e-09 - Sr_tr 1.5219e-05 + Na_tr 1.5090e-06 + O 6.5043e-09 + Sr_tr 1.5207e-05 Su 5.000e-01 moles @@ -15214,22 +15214,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.003e-02 - Cl_tr 2.994e-07 1.497e-07 - Hto 2.997e-07 1.498e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.993e-07 1.496e-07 - Sr_tr 2.988e-07 1.494e-07 + Cl_tr 2.993e-07 1.497e-07 + Hto 2.995e-07 1.497e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.990e-07 1.495e-07 + Sr_tr 2.985e-07 1.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.836 Adjusted to redox equilibrium + pe = 11.838 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.712e-09 + Total alkalinity (eq/kg) = 9.706e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.917e-09 + Electrical balance (eq) = 1.913e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15240,25 +15240,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.971e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 Cl- 1.001e-01 7.646e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 2.994e-07 - Cl_tr- 2.994e-07 2.994e-07 -6.524 -6.524 -0.000 (0) +Cl_tr 2.993e-07 + Cl_tr- 2.993e-07 2.993e-07 -6.524 -6.524 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.831 -40.821 0.010 (0) -Hto 2.997e-07 - Hto 2.997e-07 2.997e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) -Na_tr 2.993e-07 - Na_tr+ 2.993e-07 2.993e-07 -6.524 -6.524 -0.000 (0) -O(0) 3.553e-11 - O2 1.777e-11 1.818e-11 -10.750 -10.740 0.010 (0) -Sr_tr 2.988e-07 - Sr_tr+2 2.988e-07 2.988e-07 -6.525 -6.525 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.835 -40.825 0.010 (0) +Hto 2.995e-07 + Hto 2.995e-07 2.995e-07 -6.524 -6.524 0.000 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na_tr 2.990e-07 + Na_tr+ 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) +O(0) 3.608e-11 + O2 1.804e-11 1.846e-11 -10.744 -10.734 0.010 (0) +Sr_tr 2.985e-07 + Sr_tr+2 2.985e-07 2.985e-07 -6.525 -6.525 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15271,7 +15271,7 @@ Sr_tr 2.988e-07 H2(g) -37.67 -40.82 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.85 -10.74 -2.89 O2 + O2(g) -7.84 -10.73 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15285,7 +15285,7 @@ Using pure phase assemblage 8. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.584e-11 Surface + diffuse layer charge, eq + 1.585e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -15301,14 +15301,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9413e-09 + Cl 4.9541e-03 + Cl_tr 4.9408e-09 H 6.1831e-07 - Hto 4.9934e-08 + Hto 4.9898e-08 Na 5.0494e-01 - Na_tr 5.0339e-07 - O 6.5037e-09 - Sr_tr 5.0728e-06 + Na_tr 5.0287e-07 + O 6.5040e-09 + Sr_tr 5.0680e-06 Su 5.000e-01 moles @@ -15321,23 +15321,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 - Cl_tr 9.978e-08 4.989e-08 - Hto 9.987e-08 4.993e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.972e-08 4.986e-08 - Sr_tr 9.953e-08 4.977e-08 + Cl 1.000e-01 5.002e-02 + Cl_tr 9.976e-08 4.988e-08 + Hto 9.980e-08 4.990e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.962e-08 4.981e-08 + Sr_tr 9.945e-08 4.972e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.837 Adjusted to redox equilibrium + pe = 11.839 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.765e-09 + Total alkalinity (eq/kg) = 9.754e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.698e-09 + Electrical balance (eq) = 2.870e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15348,25 +15348,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.978e-08 - Cl_tr- 9.978e-08 9.978e-08 -7.001 -7.001 -0.000 (0) +Cl_tr 9.976e-08 + Cl_tr- 9.976e-08 9.976e-08 -7.001 -7.001 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.834 -40.824 0.010 (0) -Hto 9.987e-08 - Hto 9.987e-08 9.987e-08 -7.001 -7.001 0.000 (0) + H2 0.000e+00 0.000e+00 -40.837 -40.827 0.010 (0) +Hto 9.980e-08 + Hto 9.980e-08 9.980e-08 -7.001 -7.001 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.972e-08 - Na_tr+ 9.972e-08 9.972e-08 -7.001 -7.001 -0.000 (0) -O(0) 3.595e-11 - O2 1.797e-11 1.839e-11 -10.745 -10.735 0.010 (0) -Sr_tr 9.953e-08 - Sr_tr+2 9.953e-08 9.953e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.962e-08 + Na_tr+ 9.962e-08 9.962e-08 -7.002 -7.002 -0.000 (0) +O(0) 3.650e-11 + O2 1.825e-11 1.868e-11 -10.739 -10.729 0.010 (0) +Sr_tr 9.945e-08 + Sr_tr+2 9.945e-08 9.945e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15376,10 +15376,10 @@ Sr_tr 9.953e-08 A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl A_sr 4.76 -9.24 -14.00 Sr_trCl2 - H2(g) -37.67 -40.82 -3.15 H2 + H2(g) -37.68 -40.83 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.84 -10.74 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.84 -10.73 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15393,40 +15393,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.077e-06 1.461e-06 3.838e-07 -A_hto 0.00 -15.00 -15.00 2.100e-06 2.835e-06 7.345e-07 -A_na 0.00 -14.00 -14.00 1.241e-05 1.667e-05 4.265e-06 -A_sr 0.00 -14.00 -14.00 1.176e-04 1.575e-04 3.985e-05 +A_cl 0.00 -14.00 -14.00 1.060e-06 1.440e-06 3.795e-07 +A_hto 0.00 -15.00 -15.00 1.930e-06 2.621e-06 6.908e-07 +A_na 0.00 -14.00 -14.00 1.069e-05 1.452e-05 3.826e-06 +A_sr 0.00 -14.00 -14.00 1.001e-04 1.355e-04 3.543e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.374e-13 Surface + diffuse layer charge, eq + -8.366e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1832e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5035e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5038e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -15443,19 +15443,19 @@ Su Cl_tr 1.278e-13 6.388e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.837 Adjusted to redox equilibrium + pe = 11.839 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.792e-09 + Total alkalinity (eq/kg) = 9.778e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.400e-08 + Electrical balance (eq) = 1.334e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -15466,23 +15466,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.975e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl_tr- 1.278e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.834 -40.824 0.010 (0) + H2 0.000e+00 0.000e+00 -40.837 -40.827 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 3.599e-11 - O2 1.800e-11 1.842e-11 -10.745 -10.735 0.010 (0) +O(0) 3.655e-11 + O2 1.827e-11 1.870e-11 -10.738 -10.728 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -15494,7 +15494,7 @@ Sr_tr 1.712e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.67 -40.82 -3.15 H2 + H2(g) -37.68 -40.83 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl O2(g) -7.84 -10.73 -2.89 O2 @@ -15561,12 +15561,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.078e-10 Surface + diffuse layer charge, eq + 9.935e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.597e-01 psi, V 3.346e+01 -F*psi/RT - 3.413e+14 exp(-F*psi/RT) + 3.411e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -15574,17 +15574,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.599e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 5.044e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 5.040e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 1.9642e-06 - Cl_tr 1.7859e-11 - H 1.8186e-05 - Hto 9.3949e-08 - Na 4.9983e-01 - Na_tr 4.5439e-06 - O 1.8894e-10 - Sr_tr 7.6505e-05 + Cl 1.9675e-06 + Cl_tr 1.7888e-11 + H 1.6315e-05 + Hto 9.5746e-08 + Na 4.9984e-01 + Na_tr 4.5440e-06 + O 1.8644e-10 + Sr_tr 7.2318e-05 Su 5.000e-01 moles @@ -15597,23 +15597,23 @@ Su Elements Molality Moles - Cl 1.982e-03 1.982e-03 - Cl_tr 1.802e-08 1.802e-08 - Hto 1.879e-07 1.879e-07 - Na 1.982e-03 1.982e-03 - Na_tr 1.802e-08 1.802e-08 - Sr_tr 6.013e-10 6.013e-10 + Cl 1.983e-03 1.983e-03 + Cl_tr 1.803e-08 1.803e-08 + Hto 1.915e-07 1.915e-07 + Na 1.983e-03 1.983e-03 + Na_tr 1.803e-08 1.803e-08 + Sr_tr 5.694e-10 5.694e-10 ----------------------------Description of solution---------------------------- - pH = 7.162 Charge balance - pe = 11.751 Adjusted to redox equilibrium + pH = 7.209 Charge balance + pe = 11.622 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.982e-03 + Ionic strength (mol/kgw) = 1.983e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.071e-08 + Total alkalinity (eq/kg) = 1.055e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.800e-08 + Electrical balance (eq) = 1.567e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (11 overall) Total H = 1.110124e+02 @@ -15624,38 +15624,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.528e-07 1.454e-07 -6.816 -6.837 -0.022 (0) - H+ 7.210e-08 6.885e-08 -7.142 -7.162 -0.020 0.00 + OH- 1.702e-07 1.619e-07 -6.769 -6.791 -0.022 (0) + H+ 6.474e-08 6.181e-08 -7.189 -7.209 -0.020 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 1.982e-03 - Cl- 1.982e-03 1.886e-03 -2.703 -2.725 -0.022 (0) -Cl_tr 1.802e-08 - Cl_tr- 1.802e-08 1.802e-08 -7.744 -7.744 -0.000 (0) +Cl 1.983e-03 + Cl- 1.983e-03 1.887e-03 -2.703 -2.724 -0.022 (0) +Cl_tr 1.803e-08 + Cl_tr- 1.803e-08 1.803e-08 -7.744 -7.744 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.977 -40.977 0.000 (0) -Hto 1.879e-07 - Hto 1.879e-07 1.879e-07 -6.726 -6.726 0.000 (0) -Na 1.982e-03 - Na+ 1.982e-03 1.887e-03 -2.703 -2.724 -0.021 (0) -Na_tr 1.802e-08 - Na_tr+ 1.802e-08 1.802e-08 -7.744 -7.744 -0.000 (0) -O(0) 7.494e-11 - O2 3.747e-11 3.749e-11 -10.426 -10.426 0.000 (0) -Sr_tr 6.013e-10 - Sr_tr+2 6.013e-10 6.013e-10 -9.221 -9.221 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.813 -40.813 0.000 (0) +Hto 1.915e-07 + Hto 1.915e-07 1.915e-07 -6.718 -6.718 0.000 (0) +Na 1.983e-03 + Na+ 1.983e-03 1.888e-03 -2.703 -2.724 -0.021 (0) +Na_tr 1.803e-08 + Na_tr+ 1.803e-08 1.803e-08 -7.744 -7.744 -0.000 (0) +O(0) 3.519e-11 + O2 1.759e-11 1.760e-11 -10.755 -10.754 0.000 (0) +Sr_tr 5.694e-10 + Sr_tr+2 5.694e-10 5.693e-10 -9.245 -9.245 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.53 -10.47 -14.00 NaCl_tr - A_hto 8.27 -6.73 -15.00 Hto + A_hto 8.28 -6.72 -15.00 Hto A_na 3.53 -10.47 -14.00 Na_trCl - A_sr -0.67 -14.67 -14.00 Sr_trCl2 - H2(g) -37.83 -40.98 -3.15 H2 + A_sr -0.69 -14.69 -14.00 Sr_trCl2 + H2(g) -37.66 -40.81 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.03 -5.45 1.58 NaCl - O2(g) -7.53 -10.43 -2.89 O2 + O2(g) -7.86 -10.75 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15669,17 +15669,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.859e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.374e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.277e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.995e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.817e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.948e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.848e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.562e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.565e-13 Surface + diffuse layer charge, eq + -8.553e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -15695,14 +15695,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1819e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5070e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5071e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -15715,23 +15715,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.843 Adjusted to redox equilibrium + pe = 11.844 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.523e-09 + Total alkalinity (eq/kg) = 9.536e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.134e-11 + Electrical balance (eq) = -8.133e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -15742,25 +15742,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.845 -40.835 0.010 (0) + H2 0.000e+00 0.000e+00 -40.847 -40.837 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 3.791e-11 - O2 1.896e-11 1.940e-11 -10.722 -10.712 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 3.824e-11 + O2 1.912e-11 1.957e-11 -10.718 -10.708 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15787,30 +15787,30 @@ Using pure phase assemblage 4. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.588e-11 Surface + diffuse layer charge, eq + 1.587e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.937e-02 V. + Donnan Layer potential, psi_DL = -5.938e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4581e-08 H 6.1821e-07 - Hto 4.4998e-07 + Hto 4.4997e-07 Na 5.0487e-01 - Na_tr 4.5339e-06 - O 6.5073e-09 - Sr_tr 4.5680e-05 + Na_tr 4.5342e-06 + O 6.5075e-09 + Sr_tr 4.5688e-05 Su 5.000e-01 moles @@ -15825,21 +15825,21 @@ Su Cl 1.001e-01 5.006e-02 Cl_tr 8.992e-07 4.496e-07 - Hto 9.000e-07 4.500e-07 + Hto 8.999e-07 4.500e-07 Na 1.001e-01 5.006e-02 Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.982e-07 4.491e-07 + Sr_tr 8.983e-07 4.492e-07 ----------------------------Description of solution---------------------------- - pH = 6.999 Charge balance - pe = 11.847 Adjusted to redox equilibrium + pH = 7.000 Charge balance + pe = 11.848 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.549e-09 + Total alkalinity (eq/kg) = 9.559e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.500e-09 + Electrical balance (eq) = 2.484e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15851,24 +15851,24 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) - H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 + H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.992e-07 Cl_tr- 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.852 -40.842 0.010 (0) -Hto 9.000e-07 - Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) + H2 0.000e+00 0.000e+00 -40.854 -40.844 0.010 (0) +Hto 8.999e-07 + Hto 8.999e-07 8.999e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) Na_tr 8.991e-07 Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 3.914e-11 - O2 1.957e-11 2.003e-11 -10.708 -10.698 0.010 (0) -Sr_tr 8.982e-07 - Sr_tr+2 8.982e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +O(0) 3.953e-11 + O2 1.976e-11 2.023e-11 -10.704 -10.694 0.010 (0) +Sr_tr 8.983e-07 + Sr_tr+2 8.983e-07 8.983e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -15881,7 +15881,7 @@ Sr_tr 8.982e-07 H2(g) -37.69 -40.84 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.81 -10.70 -2.89 O2 + O2(g) -7.80 -10.69 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -15911,14 +15911,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 + Cl 4.9611e-03 Cl_tr 3.4664e-08 H 6.1823e-07 - Hto 3.4996e-07 + Hto 3.4993e-07 Na 5.0489e-01 - Na_tr 3.5263e-06 - O 6.5075e-09 - Sr_tr 3.5530e-05 + Na_tr 3.5262e-06 + O 6.5077e-09 + Sr_tr 3.5533e-05 Su 5.000e-01 moles @@ -15933,21 +15933,21 @@ Su Cl 1.001e-01 5.005e-02 Cl_tr 6.994e-07 3.497e-07 - Hto 6.999e-07 3.500e-07 + Hto 6.999e-07 3.499e-07 Na 1.001e-01 5.005e-02 - Na_tr 6.991e-07 3.496e-07 + Na_tr 6.991e-07 3.495e-07 Sr_tr 6.983e-07 3.491e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.850 Adjusted to redox equilibrium + pe = 11.851 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.602e-09 + Total alkalinity (eq/kg) = 9.606e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.353e-09 + Electrical balance (eq) = 2.317e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -15966,17 +15966,17 @@ Cl 1.001e-01 Cl_tr 6.994e-07 Cl_tr- 6.994e-07 6.994e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.860 -40.850 0.010 (0) + H2 0.000e+00 0.000e+00 -40.862 -40.852 0.010 (0) Hto 6.999e-07 Hto 6.999e-07 6.999e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.991e-07 Na_tr+ 6.991e-07 6.991e-07 -6.155 -6.155 -0.000 (0) -O(0) 4.050e-11 - O2 2.025e-11 2.072e-11 -10.694 -10.684 0.010 (0) +O(0) 4.096e-11 + O2 2.048e-11 2.096e-11 -10.689 -10.679 0.010 (0) Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.982e-07 -6.156 -6.156 -0.000 (0) + Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -16022,10 +16022,10 @@ Su Cl 4.9588e-03 Cl_tr 2.4753e-08 H 6.1826e-07 - Hto 2.4995e-07 + Hto 2.4992e-07 Na 5.0490e-01 - Na_tr 2.5187e-06 - O 6.5074e-09 + Na_tr 2.5185e-06 + O 6.5077e-09 Sr_tr 2.5379e-05 Su @@ -16041,7 +16041,7 @@ Su Cl 1.001e-01 5.004e-02 Cl_tr 4.996e-07 2.498e-07 - Hto 4.999e-07 2.500e-07 + Hto 4.998e-07 2.499e-07 Na 1.001e-01 5.004e-02 Na_tr 4.992e-07 2.496e-07 Sr_tr 4.985e-07 2.492e-07 @@ -16049,13 +16049,13 @@ Su ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.853 Adjusted to redox equilibrium + pe = 11.854 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.654e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.234e-09 + Electrical balance (eq) = 2.221e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -16074,15 +16074,15 @@ Cl 1.001e-01 Cl_tr 4.996e-07 Cl_tr- 4.996e-07 4.996e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.865 -40.855 0.010 (0) -Hto 4.999e-07 - Hto 4.999e-07 4.999e-07 -6.301 -6.301 0.000 (0) + H2 0.000e+00 0.000e+00 -40.868 -40.858 0.010 (0) +Hto 4.998e-07 + Hto 4.998e-07 4.998e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.992e-07 Na_tr+ 4.992e-07 4.992e-07 -6.302 -6.302 -0.000 (0) -O(0) 4.154e-11 - O2 2.077e-11 2.125e-11 -10.683 -10.673 0.010 (0) +O(0) 4.206e-11 + O2 2.103e-11 2.152e-11 -10.677 -10.667 0.010 (0) Sr_tr 4.985e-07 Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) @@ -16097,7 +16097,7 @@ Sr_tr 4.985e-07 H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.78 -10.67 -2.89 O2 + O2(g) -7.77 -10.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16127,14 +16127,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 + Cl 4.9564e-03 Cl_tr 1.4848e-08 H 6.1829e-07 - Hto 1.4996e-07 + Hto 1.4993e-07 Na 5.0492e-01 - Na_tr 1.5112e-06 - O 6.5073e-09 - Sr_tr 1.5227e-05 + Na_tr 1.5110e-06 + O 6.5076e-09 + Sr_tr 1.5226e-05 Su 5.000e-01 moles @@ -16149,21 +16149,21 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.997e-07 1.499e-07 - Hto 2.999e-07 1.500e-07 - Na 1.000e-01 5.002e-02 + Hto 2.999e-07 1.499e-07 + Na 1.001e-01 5.003e-02 Na_tr 2.994e-07 1.497e-07 Sr_tr 2.989e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.855 Adjusted to redox equilibrium + pe = 11.856 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.707e-09 + Total alkalinity (eq/kg) = 9.701e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.203e-09 + Electrical balance (eq) = 2.198e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -16182,15 +16182,15 @@ Cl 1.001e-01 Cl_tr 2.997e-07 Cl_tr- 2.997e-07 2.997e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.869 -40.859 0.010 (0) + H2 0.000e+00 0.000e+00 -40.872 -40.862 0.010 (0) Hto 2.999e-07 Hto 2.999e-07 2.999e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.994e-07 Na_tr+ 2.994e-07 2.994e-07 -6.524 -6.524 -0.000 (0) -O(0) 4.227e-11 - O2 2.113e-11 2.163e-11 -10.675 -10.665 0.010 (0) +O(0) 4.281e-11 + O2 2.141e-11 2.191e-11 -10.669 -10.659 0.010 (0) Sr_tr 2.989e-07 Sr_tr+2 2.989e-07 2.989e-07 -6.524 -6.524 -0.000 (0) @@ -16205,7 +16205,7 @@ Sr_tr 2.989e-07 H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.77 -10.67 -2.89 O2 + O2(g) -7.77 -10.66 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16219,7 +16219,7 @@ Using pure phase assemblage 8. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.584e-11 Surface + diffuse layer charge, eq + 1.585e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -16235,14 +16235,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9484e-09 + Cl 4.9541e-03 + Cl_tr 4.9483e-09 H 6.1832e-07 - Hto 4.9985e-08 + Hto 4.9974e-08 Na 5.0494e-01 - Na_tr 5.0375e-07 - O 6.5070e-09 - Sr_tr 5.0761e-06 + Na_tr 5.0364e-07 + O 6.5073e-09 + Sr_tr 5.0755e-06 Su 5.000e-01 moles @@ -16255,23 +16255,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 - Cl_tr 9.992e-08 4.996e-08 - Hto 9.997e-08 4.998e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.979e-08 4.990e-08 - Sr_tr 9.960e-08 4.980e-08 + Cl 1.000e-01 5.002e-02 + Cl_tr 9.991e-08 4.996e-08 + Hto 9.995e-08 4.997e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.977e-08 4.989e-08 + Sr_tr 9.959e-08 4.980e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.856 Adjusted to redox equilibrium + pe = 11.857 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.761e-09 + Total alkalinity (eq/kg) = 9.749e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.983e-09 + Electrical balance (eq) = 3.155e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -16282,25 +16282,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 9.992e-08 - Cl_tr- 9.992e-08 9.992e-08 -7.000 -7.000 -0.000 (0) +Cl_tr 9.991e-08 + Cl_tr- 9.991e-08 9.991e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.871 -40.861 0.010 (0) -Hto 9.997e-08 - Hto 9.997e-08 9.997e-08 -7.000 -7.000 0.000 (0) + H2 0.000e+00 0.000e+00 -40.874 -40.864 0.010 (0) +Hto 9.995e-08 + Hto 9.995e-08 9.995e-08 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.979e-08 - Na_tr+ 9.979e-08 9.979e-08 -7.001 -7.001 -0.000 (0) -O(0) 4.271e-11 - O2 2.135e-11 2.185e-11 -10.671 -10.661 0.010 (0) -Sr_tr 9.960e-08 - Sr_tr+2 9.960e-08 9.959e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.977e-08 + Na_tr+ 9.977e-08 9.977e-08 -7.001 -7.001 -0.000 (0) +O(0) 4.328e-11 + O2 2.164e-11 2.214e-11 -10.665 -10.655 0.010 (0) +Sr_tr 9.959e-08 + Sr_tr+2 9.959e-08 9.959e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -16312,8 +16312,8 @@ Sr_tr 9.960e-08 A_sr 4.76 -9.24 -14.00 Sr_trCl2 H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.77 -10.66 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.76 -10.65 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16327,40 +16327,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.461e-06 1.846e-06 3.851e-07 -A_hto 0.00 -15.00 -15.00 2.835e-06 3.571e-06 7.363e-07 -A_na 0.00 -14.00 -14.00 1.667e-05 2.094e-05 4.273e-06 -A_sr 0.00 -14.00 -14.00 1.575e-04 1.974e-04 3.991e-05 +A_cl 0.00 -14.00 -14.00 1.440e-06 1.821e-06 3.808e-07 +A_hto 0.00 -15.00 -15.00 2.621e-06 3.314e-06 6.932e-07 +A_na 0.00 -14.00 -14.00 1.452e-05 1.835e-05 3.839e-06 +A_sr 0.00 -14.00 -14.00 1.355e-04 1.711e-04 3.555e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.364e-13 Surface + diffuse layer charge, eq + -8.355e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1833e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5067e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5071e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -16377,19 +16377,19 @@ Su Cl_tr 1.278e-13 6.388e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.856 Adjusted to redox equilibrium + pe = 11.857 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.787e-09 + Total alkalinity (eq/kg) = 9.773e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.740e-08 + Electrical balance (eq) = 1.665e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -16400,23 +16400,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.975e-08 -6.883 -7.001 -0.118 (0) + OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl_tr- 1.278e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.871 -40.861 0.010 (0) + H2 0.000e+00 0.000e+00 -40.874 -40.864 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 4.276e-11 - O2 2.138e-11 2.188e-11 -10.670 -10.660 0.010 (0) +O(0) 4.334e-11 + O2 2.167e-11 2.218e-11 -10.664 -10.654 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -16431,7 +16431,7 @@ Sr_tr 1.712e-12 H2(g) -37.71 -40.86 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.77 -10.66 -2.89 O2 + O2(g) -7.76 -10.65 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16495,12 +16495,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 2.130e-10 Surface + diffuse layer charge, eq + 1.746e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.636e-01 psi, V 3.362e+01 -F*psi/RT - 3.976e+14 exp(-F*psi/RT) + 3.973e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -16508,17 +16508,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.638e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 5.876e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 5.871e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 1.4474e-06 - Cl_tr 1.3160e-11 - H 2.2922e-05 - Hto 8.6756e-08 - Na 4.9981e-01 - Na_tr 4.5437e-06 - O 1.5388e-10 - Sr_tr 8.3241e-05 + Cl 1.4501e-06 + Cl_tr 1.3184e-11 + H 2.0525e-05 + Hto 8.8695e-08 + Na 4.9982e-01 + Na_tr 4.5438e-06 + O 1.4956e-10 + Sr_tr 7.7950e-05 Su 5.000e-01 moles @@ -16531,23 +16531,23 @@ Su Elements Molality Moles - Cl 1.701e-03 1.701e-03 - Cl_tr 1.547e-08 1.547e-08 - Hto 1.735e-07 1.735e-07 - Na 1.701e-03 1.701e-03 - Na_tr 1.546e-08 1.546e-08 - Sr_tr 4.821e-10 4.821e-10 + Cl 1.703e-03 1.703e-03 + Cl_tr 1.548e-08 1.548e-08 + Hto 1.774e-07 1.774e-07 + Na 1.703e-03 1.703e-03 + Na_tr 1.548e-08 1.548e-08 + Sr_tr 4.523e-10 4.523e-10 ----------------------------Description of solution---------------------------- - pH = 7.127 Charge balance - pe = 11.778 Adjusted to redox equilibrium + pH = 7.174 Charge balance + pe = 11.648 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.701e-03 + Ionic strength (mol/kgw) = 1.703e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.230e-08 + Total alkalinity (eq/kg) = 8.664e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.082e-08 + Electrical balance (eq) = 1.814e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) Total H = 1.110124e+02 @@ -16558,38 +16558,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.403e-07 1.340e-07 -6.853 -6.873 -0.020 (0) - H+ 7.802e-08 7.472e-08 -7.108 -7.127 -0.019 0.00 + OH- 1.566e-07 1.495e-07 -6.805 -6.825 -0.020 (0) + H+ 6.992e-08 6.697e-08 -7.155 -7.174 -0.019 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -Cl 1.701e-03 - Cl- 1.701e-03 1.624e-03 -2.769 -2.789 -0.020 (0) -Cl_tr 1.547e-08 - Cl_tr- 1.547e-08 1.547e-08 -7.811 -7.811 -0.000 (0) +Cl 1.703e-03 + Cl- 1.703e-03 1.626e-03 -2.769 -2.789 -0.020 (0) +Cl_tr 1.548e-08 + Cl_tr- 1.548e-08 1.548e-08 -7.810 -7.810 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.959 -40.959 0.000 (0) -Hto 1.735e-07 - Hto 1.735e-07 1.735e-07 -6.761 -6.761 0.000 (0) -Na 1.701e-03 - Na+ 1.701e-03 1.625e-03 -2.769 -2.789 -0.020 (0) -Na_tr 1.546e-08 - Na_tr+ 1.546e-08 1.546e-08 -7.811 -7.811 -0.000 (0) -O(0) 6.897e-11 - O2 3.448e-11 3.450e-11 -10.462 -10.462 0.000 (0) -Sr_tr 4.821e-10 - Sr_tr+2 4.821e-10 4.821e-10 -9.317 -9.317 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.795 -40.795 0.000 (0) +Hto 1.774e-07 + Hto 1.774e-07 1.774e-07 -6.751 -6.751 0.000 (0) +Na 1.703e-03 + Na+ 1.703e-03 1.627e-03 -2.769 -2.789 -0.020 (0) +Na_tr 1.548e-08 + Na_tr+ 1.548e-08 1.548e-08 -7.810 -7.810 -0.000 (0) +O(0) 3.245e-11 + O2 1.622e-11 1.623e-11 -10.790 -10.790 0.000 (0) +Sr_tr 4.523e-10 + Sr_tr+2 4.523e-10 4.523e-10 -9.345 -9.345 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.40 -10.60 -14.00 NaCl_tr - A_hto 8.24 -6.76 -15.00 Hto + A_hto 8.25 -6.75 -15.00 Hto A_na 3.40 -10.60 -14.00 Na_trCl - A_sr -0.90 -14.90 -14.00 Sr_trCl2 - H2(g) -37.81 -40.96 -3.15 H2 + A_sr -0.92 -14.92 -14.00 Sr_trCl2 + H2(g) -37.65 -40.80 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.16 -5.58 1.58 NaCl - O2(g) -7.57 -10.46 -2.89 O2 + O2(g) -7.90 -10.79 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16603,17 +16603,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.856e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.370e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.275e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.993e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.813e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.942e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.844e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.560e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.556e-13 Surface + diffuse layer charge, eq + -8.553e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -16629,14 +16629,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1820e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5102e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5103e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -16649,12 +16649,12 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- @@ -16663,9 +16663,9 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.519e-09 + Total alkalinity (eq/kg) = 9.532e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.676e-11 + Electrical balance (eq) = -9.674e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -16676,25 +16676,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.880 -40.870 0.010 (0) + H2 0.000e+00 0.000e+00 -40.882 -40.872 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 4.451e-11 - O2 2.226e-11 2.277e-11 -10.653 -10.643 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 4.485e-11 + O2 2.243e-11 2.295e-11 -10.649 -10.639 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -16726,7 +16726,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -16737,14 +16737,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4583e-08 H 6.1822e-07 - Hto 4.5000e-07 + Hto 4.4999e-07 Na 5.0487e-01 - Na_tr 4.5339e-06 - O 6.5105e-09 - Sr_tr 4.5681e-05 + Na_tr 4.5344e-06 + O 6.5107e-09 + Sr_tr 4.5690e-05 Su 5.000e-01 moles @@ -16758,22 +16758,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.006e-02 - Cl_tr 8.992e-07 4.496e-07 + Cl_tr 8.993e-07 4.496e-07 Hto 9.000e-07 4.500e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.983e-07 4.491e-07 + Na_tr 8.992e-07 4.496e-07 + Sr_tr 8.984e-07 4.492e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.864 Adjusted to redox equilibrium + pe = 11.865 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.545e-09 + Total alkalinity (eq/kg) = 9.555e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.786e-09 + Electrical balance (eq) = 2.769e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -16788,21 +16788,21 @@ Su H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 8.992e-07 - Cl_tr- 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 8.993e-07 + Cl_tr- 8.993e-07 8.993e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.886 -40.876 0.010 (0) + H2 0.000e+00 0.000e+00 -40.888 -40.878 0.010 (0) Hto 9.000e-07 Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.991e-07 - Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 4.577e-11 - O2 2.288e-11 2.342e-11 -10.640 -10.630 0.010 (0) -Sr_tr 8.983e-07 - Sr_tr+2 8.983e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.992e-07 + Na_tr+ 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) +O(0) 4.617e-11 + O2 2.309e-11 2.362e-11 -10.637 -10.627 0.010 (0) +Sr_tr 8.984e-07 + Sr_tr+2 8.984e-07 8.983e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -16815,7 +16815,7 @@ Sr_tr 8.983e-07 H2(g) -37.73 -40.88 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.74 -10.63 -2.89 O2 + O2(g) -7.73 -10.63 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16829,7 +16829,7 @@ Using pure phase assemblage 5. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.587e-11 Surface + diffuse layer charge, eq + 1.586e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -16845,14 +16845,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 + Cl 4.9611e-03 Cl_tr 3.4669e-08 - H 6.1824e-07 - Hto 3.4999e-07 + H 6.1825e-07 + Hto 3.4998e-07 Na 5.0489e-01 - Na_tr 3.5265e-06 - O 6.5107e-09 - Sr_tr 3.5531e-05 + Na_tr 3.5267e-06 + O 6.5109e-09 + Sr_tr 3.5538e-05 Su 5.000e-01 moles @@ -16870,18 +16870,18 @@ Su Hto 7.000e-07 3.500e-07 Na 1.001e-01 5.005e-02 Na_tr 6.992e-07 3.496e-07 - Sr_tr 6.983e-07 3.491e-07 + Sr_tr 6.984e-07 3.492e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.867 Adjusted to redox equilibrium + pe = 11.868 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.597e-09 + Total alkalinity (eq/kg) = 9.602e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.639e-09 + Electrical balance (eq) = 2.603e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -16900,17 +16900,17 @@ Cl 1.001e-01 Cl_tr 6.995e-07 Cl_tr- 6.995e-07 6.995e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.893 -40.883 0.010 (0) + H2 0.000e+00 0.000e+00 -40.895 -40.885 0.010 (0) Hto 7.000e-07 Hto 7.000e-07 7.000e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.992e-07 - Na_tr+ 6.992e-07 6.991e-07 -6.155 -6.155 -0.000 (0) -O(0) 4.713e-11 - O2 2.357e-11 2.412e-11 -10.628 -10.618 0.010 (0) -Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) + Na_tr+ 6.992e-07 6.992e-07 -6.155 -6.155 -0.000 (0) +O(0) 4.759e-11 + O2 2.379e-11 2.435e-11 -10.624 -10.614 0.010 (0) +Sr_tr 6.984e-07 + Sr_tr+2 6.984e-07 6.984e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -16923,7 +16923,7 @@ Sr_tr 6.983e-07 H2(g) -37.73 -40.88 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.73 -10.62 -2.89 O2 + O2(g) -7.72 -10.61 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -16956,11 +16956,11 @@ Su Cl 4.9588e-03 Cl_tr 2.4759e-08 H 6.1827e-07 - Hto 2.4999e-07 + Hto 2.4998e-07 Na 5.0490e-01 - Na_tr 2.5190e-06 - O 6.5107e-09 - Sr_tr 2.5381e-05 + Na_tr 2.5191e-06 + O 6.5109e-09 + Sr_tr 2.5385e-05 Su 5.000e-01 moles @@ -16978,18 +16978,18 @@ Su Hto 5.000e-07 2.500e-07 Na 1.001e-01 5.004e-02 Na_tr 4.993e-07 2.496e-07 - Sr_tr 4.985e-07 2.493e-07 + Sr_tr 4.986e-07 2.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.869 Adjusted to redox equilibrium + pe = 11.870 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.650e-09 + Total alkalinity (eq/kg) = 9.649e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.520e-09 + Electrical balance (eq) = 2.507e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17008,17 +17008,17 @@ Cl 1.001e-01 Cl_tr 4.997e-07 Cl_tr- 4.997e-07 4.997e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.898 -40.888 0.010 (0) + H2 0.000e+00 0.000e+00 -40.900 -40.890 0.010 (0) Hto 5.000e-07 Hto 5.000e-07 5.000e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.993e-07 Na_tr+ 4.993e-07 4.993e-07 -6.302 -6.302 -0.000 (0) -O(0) 4.822e-11 - O2 2.411e-11 2.467e-11 -10.618 -10.608 0.010 (0) -Sr_tr 4.985e-07 - Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) +O(0) 4.872e-11 + O2 2.436e-11 2.493e-11 -10.613 -10.603 0.010 (0) +Sr_tr 4.986e-07 + Sr_tr+2 4.986e-07 4.986e-07 -6.302 -6.302 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17031,7 +17031,7 @@ Sr_tr 4.985e-07 H2(g) -37.74 -40.89 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.72 -10.61 -2.89 O2 + O2(g) -7.71 -10.60 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17061,14 +17061,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 + Cl 4.9564e-03 Cl_tr 1.4853e-08 H 6.1830e-07 - Hto 1.4999e-07 + Hto 1.4998e-07 Na 5.0492e-01 - Na_tr 1.5114e-06 - O 6.5105e-09 - Sr_tr 1.5229e-05 + Na_tr 1.5115e-06 + O 6.5108e-09 + Sr_tr 1.5231e-05 Su 5.000e-01 moles @@ -17084,20 +17084,20 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.998e-07 1.499e-07 Hto 3.000e-07 1.500e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.995e-07 1.497e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.995e-07 1.498e-07 Sr_tr 2.990e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.871 Adjusted to redox equilibrium + pe = 11.872 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.703e-09 + Total alkalinity (eq/kg) = 9.697e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.488e-09 + Electrical balance (eq) = 2.483e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17116,15 +17116,15 @@ Cl 1.001e-01 Cl_tr 2.998e-07 Cl_tr- 2.998e-07 2.998e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.901 -40.891 0.010 (0) + H2 0.000e+00 0.000e+00 -40.903 -40.893 0.010 (0) Hto 3.000e-07 Hto 3.000e-07 3.000e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.995e-07 Na_tr+ 2.995e-07 2.995e-07 -6.524 -6.524 -0.000 (0) -O(0) 4.897e-11 - O2 2.448e-11 2.506e-11 -10.611 -10.601 0.010 (0) +O(0) 4.953e-11 + O2 2.477e-11 2.534e-11 -10.606 -10.596 0.010 (0) Sr_tr 2.990e-07 Sr_tr+2 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) @@ -17139,7 +17139,7 @@ Sr_tr 2.990e-07 H2(g) -37.74 -40.89 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.71 -10.60 -2.89 O2 + O2(g) -7.70 -10.60 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17153,7 +17153,7 @@ Using pure phase assemblage 8. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.584e-11 Surface + diffuse layer charge, eq + 1.585e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -17169,14 +17169,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9501e-09 + Cl 4.9541e-03 + Cl_tr 4.9503e-09 H 6.1833e-07 - Hto 4.9996e-08 + Hto 4.9993e-08 Na 5.0494e-01 - Na_tr 5.0383e-07 - O 6.5102e-09 - Sr_tr 5.0768e-06 + Na_tr 5.0384e-07 + O 6.5105e-09 + Sr_tr 5.0774e-06 Su 5.000e-01 moles @@ -17189,23 +17189,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 + Cl 1.000e-01 5.002e-02 Cl_tr 9.995e-08 4.998e-08 - Hto 9.999e-08 5.000e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.981e-08 4.990e-08 - Sr_tr 9.961e-08 4.980e-08 + Hto 9.999e-08 4.999e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.981e-08 4.991e-08 + Sr_tr 9.963e-08 4.982e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.872 Adjusted to redox equilibrium + pe = 11.873 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.756e-09 + Total alkalinity (eq/kg) = 9.745e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.268e-09 + Electrical balance (eq) = 3.440e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17224,17 +17224,17 @@ Cl 1.000e-01 Cl_tr 9.995e-08 Cl_tr- 9.995e-08 9.995e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.903 -40.893 0.010 (0) + H2 0.000e+00 0.000e+00 -40.905 -40.895 0.010 (0) Hto 9.999e-08 Hto 9.999e-08 9.999e-08 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) Na_tr 9.981e-08 Na_tr+ 9.981e-08 9.981e-08 -7.001 -7.001 -0.000 (0) -O(0) 4.943e-11 - O2 2.471e-11 2.529e-11 -10.607 -10.597 0.010 (0) -Sr_tr 9.961e-08 - Sr_tr+2 9.961e-08 9.961e-08 -7.002 -7.002 -0.000 (0) +O(0) 5.000e-11 + O2 2.500e-11 2.558e-11 -10.602 -10.592 0.010 (0) +Sr_tr 9.963e-08 + Sr_tr+2 9.963e-08 9.963e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17243,11 +17243,11 @@ Sr_tr 9.961e-08 A_cl 5.89 -8.11 -14.00 NaCl_tr A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 - H2(g) -37.74 -40.89 -3.15 H2 + A_sr 4.77 -9.23 -14.00 Sr_trCl2 + H2(g) -37.75 -40.90 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.70 -10.60 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.70 -10.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17261,40 +17261,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 1.846e-06 2.232e-06 3.854e-07 -A_hto 0.00 -15.00 -15.00 3.571e-06 4.308e-06 7.367e-07 -A_na 0.00 -14.00 -14.00 2.094e-05 2.522e-05 4.274e-06 -A_sr 0.00 -14.00 -14.00 1.974e-04 2.373e-04 3.993e-05 +A_cl 0.00 -14.00 -14.00 1.821e-06 2.202e-06 3.811e-07 +A_hto 0.00 -15.00 -15.00 3.314e-06 4.008e-06 6.938e-07 +A_na 0.00 -14.00 -14.00 1.835e-05 2.220e-05 3.842e-06 +A_sr 0.00 -14.00 -14.00 1.711e-04 2.066e-04 3.558e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.379e-13 Surface + diffuse layer charge, eq + -8.385e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1834e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5100e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5103e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -17308,22 +17308,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 1.278e-13 6.388e-14 + Cl_tr 1.277e-13 6.387e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.872 Adjusted to redox equilibrium + pe = 11.873 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.783e-09 + Total alkalinity (eq/kg) = 9.769e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.079e-08 + Electrical balance (eq) = 1.995e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -17338,19 +17338,19 @@ Su H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.277e-13 + Cl_tr- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.903 -40.893 0.010 (0) + H2 0.000e+00 0.000e+00 -40.906 -40.896 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 4.950e-11 - O2 2.475e-11 2.532e-11 -10.606 -10.596 0.010 (0) +O(0) 5.008e-11 + O2 2.504e-11 2.562e-11 -10.601 -10.591 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -17362,10 +17362,10 @@ Sr_tr 1.712e-12 A_hto 0.00 -15.00 -15.00 Hto A_na 0.00 -14.00 -14.00 Na_trCl A_sr 0.00 -14.00 -14.00 Sr_trCl2 - H2(g) -37.74 -40.89 -3.15 H2 + H2(g) -37.75 -40.90 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.70 -10.60 -2.89 O2 + O2(g) -7.70 -10.59 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17429,12 +17429,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 5.980e-10 Surface + diffuse layer charge, eq + 4.701e-10 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² - -8.676e-01 psi, V + -8.675e-01 psi, V 3.377e+01 -F*psi/RT - 4.633e+14 exp(-F*psi/RT) + 4.628e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -17442,17 +17442,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.677e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 6.846e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 6.839e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 1.0664e-06 - Cl_tr 9.6963e-12 - H 2.8438e-05 - Hto 8.0113e-08 - Na 4.9979e-01 - Na_tr 4.5435e-06 - O 1.2705e-10 - Sr_tr 9.0583e-05 + Cl 1.0685e-06 + Cl_tr 9.7152e-12 + H 2.5428e-05 + Hto 8.2163e-08 + Na 4.9980e-01 + Na_tr 4.5437e-06 + O 1.2168e-10 + Sr_tr 8.4033e-05 Su 5.000e-01 moles @@ -17465,23 +17465,23 @@ Su Elements Molality Moles - Cl 1.460e-03 1.460e-03 - Cl_tr 1.328e-08 1.328e-08 - Hto 1.602e-07 1.602e-07 - Na 1.460e-03 1.460e-03 - Na_tr 1.327e-08 1.327e-08 - Sr_tr 3.866e-10 3.866e-10 + Cl 1.462e-03 1.462e-03 + Cl_tr 1.329e-08 1.329e-08 + Hto 1.643e-07 1.643e-07 + Na 1.462e-03 1.462e-03 + Na_tr 1.329e-08 1.329e-08 + Sr_tr 3.593e-10 3.593e-10 ----------------------------Description of solution---------------------------- - pH = 7.098 Charge balance - pe = 11.796 Adjusted to redox equilibrium + pH = 7.146 Charge balance + pe = 11.666 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.460e-03 + Ionic strength (mol/kgw) = 1.462e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.787e-08 + Total alkalinity (eq/kg) = 7.195e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.851e-08 + Electrical balance (eq) = 2.438e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) Total H = 1.110124e+02 @@ -17492,38 +17492,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 1.254e-07 -6.883 -6.902 -0.019 (0) - H+ 8.308e-08 7.980e-08 -7.080 -7.098 -0.018 0.00 + OH- 1.463e-07 1.402e-07 -6.835 -6.853 -0.019 (0) + H+ 7.436e-08 7.142e-08 -7.129 -7.146 -0.018 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 1.460e-03 - Cl- 1.460e-03 1.399e-03 -2.836 -2.854 -0.019 (0) -Cl_tr 1.328e-08 - Cl_tr- 1.328e-08 1.328e-08 -7.877 -7.877 -0.000 (0) +Cl 1.462e-03 + Cl- 1.462e-03 1.400e-03 -2.835 -2.854 -0.019 (0) +Cl_tr 1.329e-08 + Cl_tr- 1.329e-08 1.329e-08 -7.877 -7.877 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.939 -40.939 0.000 (0) -Hto 1.602e-07 - Hto 1.602e-07 1.602e-07 -6.795 -6.795 0.000 (0) -Na 1.460e-03 - Na+ 1.460e-03 1.399e-03 -2.836 -2.854 -0.018 (0) -Na_tr 1.327e-08 - Na_tr+ 1.327e-08 1.327e-08 -7.877 -7.877 -0.000 (0) -O(0) 6.280e-11 - O2 3.140e-11 3.141e-11 -10.503 -10.503 0.000 (0) -Sr_tr 3.866e-10 - Sr_tr+2 3.866e-10 3.866e-10 -9.413 -9.413 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.774 -40.774 0.000 (0) +Hto 1.643e-07 + Hto 1.643e-07 1.643e-07 -6.784 -6.784 0.000 (0) +Na 1.462e-03 + Na+ 1.462e-03 1.401e-03 -2.835 -2.854 -0.018 (0) +Na_tr 1.329e-08 + Na_tr+ 1.329e-08 1.329e-08 -7.877 -7.877 -0.000 (0) +O(0) 2.942e-11 + O2 1.471e-11 1.472e-11 -10.832 -10.832 0.000 (0) +Sr_tr 3.593e-10 + Sr_tr+2 3.593e-10 3.593e-10 -9.444 -9.445 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.27 -10.73 -14.00 NaCl_tr - A_hto 8.20 -6.80 -15.00 Hto + A_hto 8.22 -6.78 -15.00 Hto A_na 3.27 -10.73 -14.00 Na_trCl - A_sr -1.12 -15.12 -14.00 Sr_trCl2 - H2(g) -37.79 -40.94 -3.15 H2 + A_sr -1.15 -15.15 -14.00 Sr_trCl2 + H2(g) -37.62 -40.77 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.29 -5.71 1.58 NaCl - O2(g) -7.61 -10.50 -2.89 O2 + O2(g) -7.94 -10.83 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17537,17 +17537,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.855e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.369e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.275e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.993e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.813e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.940e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.844e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.559e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.562e-13 Surface + diffuse layer charge, eq + -8.568e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -17563,14 +17563,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1821e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5134e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5135e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -17583,23 +17583,23 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.876 Adjusted to redox equilibrium + pe = 11.877 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.514e-09 + Total alkalinity (eq/kg) = 9.527e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.122e-10 + Electrical balance (eq) = -1.121e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -17610,25 +17610,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.963e-08 -6.883 -7.002 -0.118 (0) + OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.911 -40.901 0.010 (0) + H2 0.000e+00 0.000e+00 -40.912 -40.902 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 5.117e-11 - O2 2.559e-11 2.618e-11 -10.592 -10.582 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 5.154e-11 + O2 2.577e-11 2.637e-11 -10.589 -10.579 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17660,7 +17660,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -17671,14 +17671,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4583e-08 H 6.1823e-07 Hto 4.5000e-07 Na 5.0487e-01 - Na_tr 4.5339e-06 - O 6.5137e-09 - Sr_tr 4.5681e-05 + Na_tr 4.5344e-06 + O 6.5139e-09 + Sr_tr 4.5691e-05 Su 5.000e-01 moles @@ -17695,19 +17695,19 @@ Su Cl_tr 8.993e-07 4.496e-07 Hto 9.000e-07 4.500e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.983e-07 4.491e-07 + Na_tr 8.992e-07 4.496e-07 + Sr_tr 8.984e-07 4.492e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.878 Adjusted to redox equilibrium + pe = 11.879 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.540e-09 + Total alkalinity (eq/kg) = 9.550e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.072e-09 + Electrical balance (eq) = 3.055e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17722,21 +17722,21 @@ Su H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.993e-07 Cl_tr- 8.993e-07 8.993e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.916 -40.906 0.010 (0) + H2 0.000e+00 0.000e+00 -40.917 -40.907 0.010 (0) Hto 9.000e-07 Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.991e-07 - Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 5.242e-11 - O2 2.621e-11 2.682e-11 -10.581 -10.571 0.010 (0) -Sr_tr 8.983e-07 - Sr_tr+2 8.983e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.992e-07 + Na_tr+ 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) +O(0) 5.285e-11 + O2 2.642e-11 2.704e-11 -10.578 -10.568 0.010 (0) +Sr_tr 8.984e-07 + Sr_tr+2 8.984e-07 8.984e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17763,7 +17763,7 @@ Using pure phase assemblage 5. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.587e-11 Surface + diffuse layer charge, eq + 1.586e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -17779,14 +17779,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 - Cl_tr 3.4670e-08 + Cl 4.9611e-03 + Cl_tr 3.4671e-08 H 6.1826e-07 Hto 3.5000e-07 Na 5.0489e-01 - Na_tr 3.5265e-06 - O 6.5139e-09 - Sr_tr 3.5532e-05 + Na_tr 3.5269e-06 + O 6.5141e-09 + Sr_tr 3.5539e-05 Su 5.000e-01 moles @@ -17800,22 +17800,22 @@ Su Elements Molality Moles Cl 1.001e-01 5.005e-02 - Cl_tr 6.995e-07 3.497e-07 + Cl_tr 6.995e-07 3.498e-07 Hto 7.000e-07 3.500e-07 Na 1.001e-01 5.005e-02 Na_tr 6.992e-07 3.496e-07 - Sr_tr 6.983e-07 3.492e-07 + Sr_tr 6.984e-07 3.492e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.881 Adjusted to redox equilibrium + pe = 11.882 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.593e-09 + Total alkalinity (eq/kg) = 9.597e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.924e-09 + Electrical balance (eq) = 2.888e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17834,17 +17834,17 @@ Cl 1.001e-01 Cl_tr 6.995e-07 Cl_tr- 6.995e-07 6.995e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.921 -40.911 0.010 (0) + H2 0.000e+00 0.000e+00 -40.923 -40.913 0.010 (0) Hto 7.000e-07 Hto 7.000e-07 7.000e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.992e-07 Na_tr+ 6.992e-07 6.992e-07 -6.155 -6.155 -0.000 (0) -O(0) 5.380e-11 - O2 2.690e-11 2.753e-11 -10.570 -10.560 0.010 (0) -Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) +O(0) 5.429e-11 + O2 2.714e-11 2.778e-11 -10.566 -10.556 0.010 (0) +Sr_tr 6.984e-07 + Sr_tr+2 6.984e-07 6.984e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17857,7 +17857,7 @@ Sr_tr 6.983e-07 H2(g) -37.76 -40.91 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.67 -10.56 -2.89 O2 + O2(g) -7.66 -10.56 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17888,13 +17888,13 @@ Su Element Moles Cl 4.9588e-03 - Cl_tr 2.4760e-08 + Cl_tr 2.4761e-08 H 6.1828e-07 - Hto 2.5000e-07 + Hto 2.4999e-07 Na 5.0490e-01 - Na_tr 2.5190e-06 - O 6.5139e-09 - Sr_tr 2.5381e-05 + Na_tr 2.5193e-06 + O 6.5141e-09 + Sr_tr 2.5386e-05 Su 5.000e-01 moles @@ -17911,19 +17911,19 @@ Su Cl_tr 4.997e-07 2.499e-07 Hto 5.000e-07 2.500e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.993e-07 2.496e-07 - Sr_tr 4.985e-07 2.493e-07 + Na_tr 4.993e-07 2.497e-07 + Sr_tr 4.986e-07 2.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.883 Adjusted to redox equilibrium + pe = 11.884 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.645e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.805e-09 + Electrical balance (eq) = 2.792e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -17942,17 +17942,17 @@ Cl 1.001e-01 Cl_tr 4.997e-07 Cl_tr- 4.997e-07 4.997e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.926 -40.916 0.010 (0) + H2 0.000e+00 0.000e+00 -40.928 -40.918 0.010 (0) Hto 5.000e-07 Hto 5.000e-07 5.000e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.993e-07 Na_tr+ 4.993e-07 4.993e-07 -6.302 -6.302 -0.000 (0) -O(0) 5.488e-11 - O2 2.744e-11 2.808e-11 -10.562 -10.552 0.010 (0) -Sr_tr 4.985e-07 - Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) +O(0) 5.540e-11 + O2 2.770e-11 2.835e-11 -10.558 -10.548 0.010 (0) +Sr_tr 4.986e-07 + Sr_tr+2 4.986e-07 4.986e-07 -6.302 -6.302 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -17995,14 +17995,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 + Cl 4.9564e-03 Cl_tr 1.4854e-08 H 6.1831e-07 Hto 1.5000e-07 Na 5.0492e-01 - Na_tr 1.5115e-06 - O 6.5137e-09 - Sr_tr 1.5230e-05 + Na_tr 1.5116e-06 + O 6.5140e-09 + Sr_tr 1.5233e-05 Su 5.000e-01 moles @@ -18018,20 +18018,20 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.999e-07 1.499e-07 Hto 3.000e-07 1.500e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.995e-07 1.497e-07 - Sr_tr 2.990e-07 1.495e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.995e-07 1.498e-07 + Sr_tr 2.991e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.885 Adjusted to redox equilibrium + pe = 11.886 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.698e-09 + Total alkalinity (eq/kg) = 9.692e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.773e-09 + Electrical balance (eq) = 2.769e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18050,17 +18050,17 @@ Cl 1.001e-01 Cl_tr 2.999e-07 Cl_tr- 2.999e-07 2.999e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.929 -40.919 0.010 (0) + H2 0.000e+00 0.000e+00 -40.931 -40.921 0.010 (0) Hto 3.000e-07 Hto 3.000e-07 3.000e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.995e-07 Na_tr+ 2.995e-07 2.995e-07 -6.524 -6.524 -0.000 (0) -O(0) 5.565e-11 - O2 2.783e-11 2.848e-11 -10.556 -10.546 0.010 (0) -Sr_tr 2.990e-07 - Sr_tr+2 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) +O(0) 5.620e-11 + O2 2.810e-11 2.876e-11 -10.551 -10.541 0.010 (0) +Sr_tr 2.991e-07 + Sr_tr+2 2.991e-07 2.990e-07 -6.524 -6.524 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18073,7 +18073,7 @@ Sr_tr 2.990e-07 H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.65 -10.55 -2.89 O2 + O2(g) -7.65 -10.54 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18103,14 +18103,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9506e-09 + Cl 4.9541e-03 + Cl_tr 4.9507e-09 H 6.1834e-07 - Hto 4.9999e-08 + Hto 4.9998e-08 Na 5.0494e-01 - Na_tr 5.0385e-07 - O 6.5134e-09 - Sr_tr 5.0769e-06 + Na_tr 5.0389e-07 + O 6.5138e-09 + Sr_tr 5.0778e-06 Su 5.000e-01 moles @@ -18123,23 +18123,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 + Cl 1.000e-01 5.002e-02 Cl_tr 9.996e-08 4.998e-08 Hto 1.000e-07 5.000e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.981e-08 4.990e-08 - Sr_tr 9.961e-08 4.981e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.982e-08 4.991e-08 + Sr_tr 9.964e-08 4.982e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.885 Adjusted to redox equilibrium + pe = 11.887 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.751e-09 + Total alkalinity (eq/kg) = 9.740e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.553e-09 + Electrical balance (eq) = 3.726e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18158,17 +18158,17 @@ Cl 1.000e-01 Cl_tr 9.996e-08 Cl_tr- 9.996e-08 9.996e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.931 -40.921 0.010 (0) + H2 0.000e+00 0.000e+00 -40.933 -40.923 0.010 (0) Hto 1.000e-07 Hto 1.000e-07 1.000e-07 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.981e-08 - Na_tr+ 9.981e-08 9.981e-08 -7.001 -7.001 -0.000 (0) -O(0) 5.612e-11 - O2 2.806e-11 2.871e-11 -10.552 -10.542 0.010 (0) -Sr_tr 9.961e-08 - Sr_tr+2 9.961e-08 9.961e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.982e-08 + Na_tr+ 9.982e-08 9.982e-08 -7.001 -7.001 -0.000 (0) +O(0) 5.670e-11 + O2 2.835e-11 2.901e-11 -10.547 -10.537 0.010 (0) +Sr_tr 9.964e-08 + Sr_tr+2 9.964e-08 9.964e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18177,10 +18177,10 @@ Sr_tr 9.961e-08 A_cl 5.89 -8.11 -14.00 NaCl_tr A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 + A_sr 4.77 -9.23 -14.00 Sr_trCl2 H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl + Halite -3.80 -2.22 1.58 NaCl O2(g) -7.65 -10.54 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. @@ -18195,40 +18195,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 2.232e-06 2.617e-06 3.855e-07 -A_hto 0.00 -15.00 -15.00 4.308e-06 5.045e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 2.522e-05 2.949e-05 4.275e-06 -A_sr 0.00 -14.00 -14.00 2.373e-04 2.772e-04 3.993e-05 +A_cl 0.00 -14.00 -14.00 2.202e-06 2.583e-06 3.812e-07 +A_hto 0.00 -15.00 -15.00 4.008e-06 4.702e-06 6.939e-07 +A_na 0.00 -14.00 -14.00 2.220e-05 2.604e-05 3.843e-06 +A_sr 0.00 -14.00 -14.00 2.066e-04 2.422e-04 3.558e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.369e-13 Surface + diffuse layer charge, eq + -8.363e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1835e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5132e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5136e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -18242,22 +18242,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 1.278e-13 6.388e-14 + Cl_tr 1.277e-13 6.387e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.885 Adjusted to redox equilibrium + pe = 11.887 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.778e-09 + Total alkalinity (eq/kg) = 9.764e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.419e-08 + Electrical balance (eq) = 2.326e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -18272,19 +18272,19 @@ Su H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.277e-13 + Cl_tr- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.931 -40.921 0.010 (0) + H2 0.000e+00 0.000e+00 -40.933 -40.923 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 5.619e-11 - O2 2.809e-11 2.875e-11 -10.551 -10.541 0.010 (0) +O(0) 5.678e-11 + O2 2.839e-11 2.905e-11 -10.547 -10.537 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -18299,7 +18299,7 @@ Sr_tr 1.712e-12 H2(g) -37.77 -40.92 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.65 -10.54 -2.89 O2 + O2(g) -7.64 -10.54 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18363,30 +18363,30 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.723e-09 Surface + diffuse layer charge, eq + 1.293e-09 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.715e-01 psi, V 3.392e+01 -F*psi/RT - 5.397e+14 exp(-F*psi/RT) + 5.392e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.717e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 7.975e+02 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.716e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 7.967e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 7.8564e-07 - Cl_tr 7.1432e-12 - H 3.4862e-05 - Hto 7.3979e-08 - Na 4.9976e-01 - Na_tr 4.5433e-06 - O 1.0534e-10 - Sr_tr 9.8585e-05 + Cl 7.8727e-07 + Cl_tr 7.1579e-12 + H 3.1138e-05 + Hto 7.6112e-08 + Na 4.9978e-01 + Na_tr 4.5435e-06 + O 9.9585e-11 + Sr_tr 9.0603e-05 Su 5.000e-01 moles @@ -18399,23 +18399,23 @@ Su Elements Molality Moles - Cl 1.253e-03 1.253e-03 - Cl_tr 1.139e-08 1.139e-08 - Hto 1.480e-07 1.480e-07 - Na 1.253e-03 1.253e-03 - Na_tr 1.139e-08 1.139e-08 - Sr_tr 3.100e-10 3.100e-10 + Cl 1.254e-03 1.254e-03 + Cl_tr 1.141e-08 1.141e-08 + Hto 1.522e-07 1.522e-07 + Na 1.255e-03 1.255e-03 + Na_tr 1.141e-08 1.141e-08 + Sr_tr 2.855e-10 2.855e-10 ----------------------------Description of solution---------------------------- - pH = 7.075 Charge balance - pe = 11.806 Adjusted to redox equilibrium + pH = 7.123 Charge balance + pe = 11.673 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.253e-03 + Ionic strength (mol/kgw) = 1.255e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.632e-08 + Total alkalinity (eq/kg) = 6.024e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.013e-08 + Electrical balance (eq) = 4.126e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) Total H = 1.110124e+02 @@ -18426,38 +18426,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.237e-07 1.189e-07 -6.907 -6.925 -0.017 (0) - H+ 8.742e-08 8.419e-08 -7.058 -7.075 -0.016 0.00 + OH- 1.384e-07 1.330e-07 -6.859 -6.876 -0.017 (0) + H+ 7.816e-08 7.527e-08 -7.107 -7.123 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 1.253e-03 - Cl- 1.253e-03 1.204e-03 -2.902 -2.919 -0.017 (0) -Cl_tr 1.139e-08 - Cl_tr- 1.139e-08 1.139e-08 -7.943 -7.943 -0.000 (0) +Cl 1.254e-03 + Cl- 1.254e-03 1.205e-03 -2.902 -2.919 -0.017 (0) +Cl_tr 1.141e-08 + Cl_tr- 1.141e-08 1.141e-08 -7.943 -7.943 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.912 -40.912 0.000 (0) -Hto 1.480e-07 - Hto 1.480e-07 1.480e-07 -6.830 -6.830 0.000 (0) -Na 1.253e-03 - Na+ 1.253e-03 1.205e-03 -2.902 -2.919 -0.017 (0) -Na_tr 1.139e-08 - Na_tr+ 1.139e-08 1.139e-08 -7.943 -7.943 -0.000 (0) -O(0) 5.552e-11 - O2 2.776e-11 2.777e-11 -10.557 -10.556 0.000 (0) -Sr_tr 3.100e-10 - Sr_tr+2 3.100e-10 3.100e-10 -9.509 -9.509 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.743 -40.742 0.000 (0) +Hto 1.522e-07 + Hto 1.522e-07 1.522e-07 -6.818 -6.818 0.000 (0) +Na 1.255e-03 + Na+ 1.255e-03 1.206e-03 -2.901 -2.919 -0.017 (0) +Na_tr 1.141e-08 + Na_tr+ 1.141e-08 1.141e-08 -7.943 -7.943 -0.000 (0) +O(0) 2.545e-11 + O2 1.273e-11 1.273e-11 -10.895 -10.895 0.000 (0) +Sr_tr 2.855e-10 + Sr_tr+2 2.855e-10 2.855e-10 -9.544 -9.544 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.14 -10.86 -14.00 NaCl_tr - A_hto 8.17 -6.83 -15.00 Hto + A_hto 8.18 -6.82 -15.00 Hto A_na 3.14 -10.86 -14.00 Na_trCl - A_sr -1.35 -15.35 -14.00 Sr_trCl2 - H2(g) -37.76 -40.91 -3.15 H2 + A_sr -1.38 -15.38 -14.00 Sr_trCl2 + H2(g) -37.59 -40.74 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.42 -5.84 1.58 NaCl - O2(g) -7.66 -10.56 -2.89 O2 + O2(g) -8.00 -10.90 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18471,10 +18471,10 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.855e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.368e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.275e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.993e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.812e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.940e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.843e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.559e-05 ------------------------------Surface composition------------------------------ @@ -18497,14 +18497,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1822e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5166e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5167e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -18517,21 +18517,21 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.889 Adjusted to redox equilibrium + pe = 11.890 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.510e-09 + Total alkalinity (eq/kg) = 9.523e-09 Temperature (°C) = 25.00 Electrical balance (eq) = -1.276e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -18544,25 +18544,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.963e-08 -6.883 -7.002 -0.118 (0) + OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.937 -40.927 0.010 (0) + H2 0.000e+00 0.000e+00 -40.938 -40.928 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 5.785e-11 - O2 2.893e-11 2.960e-11 -10.539 -10.529 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 5.821e-11 + O2 2.911e-11 2.979e-11 -10.536 -10.526 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18575,7 +18575,7 @@ Sr_tr 9.983e-07 H2(g) -37.78 -40.93 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.64 -10.53 -2.89 O2 + O2(g) -7.63 -10.53 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18594,7 +18594,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -18605,14 +18605,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4583e-08 H 6.1824e-07 Hto 4.5000e-07 Na 5.0487e-01 - Na_tr 4.5339e-06 - O 6.5169e-09 - Sr_tr 4.5681e-05 + Na_tr 4.5344e-06 + O 6.5171e-09 + Sr_tr 4.5691e-05 Su 5.000e-01 moles @@ -18629,19 +18629,19 @@ Su Cl_tr 8.993e-07 4.496e-07 Hto 9.000e-07 4.500e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.983e-07 4.491e-07 + Na_tr 8.992e-07 4.496e-07 + Sr_tr 8.984e-07 4.492e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.891 Adjusted to redox equilibrium + pe = 11.892 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.535e-09 + Total alkalinity (eq/kg) = 9.546e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.357e-09 + Electrical balance (eq) = 3.341e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18652,25 +18652,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.993e-07 Cl_tr- 8.993e-07 8.993e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.942 -40.932 0.010 (0) + H2 0.000e+00 0.000e+00 -40.943 -40.933 0.010 (0) Hto 9.000e-07 Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.991e-07 - Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 5.910e-11 - O2 2.955e-11 3.024e-11 -10.529 -10.519 0.010 (0) -Sr_tr 8.983e-07 - Sr_tr+2 8.983e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.992e-07 + Na_tr+ 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) +O(0) 5.951e-11 + O2 2.976e-11 3.045e-11 -10.526 -10.516 0.010 (0) +Sr_tr 8.984e-07 + Sr_tr+2 8.984e-07 8.984e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18683,7 +18683,7 @@ Sr_tr 8.983e-07 H2(g) -37.78 -40.93 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.63 -10.52 -2.89 O2 + O2(g) -7.62 -10.52 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18713,14 +18713,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 - Cl_tr 3.4670e-08 + Cl 4.9611e-03 + Cl_tr 3.4671e-08 H 6.1827e-07 Hto 3.5000e-07 Na 5.0489e-01 - Na_tr 3.5265e-06 - O 6.5171e-09 - Sr_tr 3.5532e-05 + Na_tr 3.5269e-06 + O 6.5173e-09 + Sr_tr 3.5539e-05 Su 5.000e-01 moles @@ -18738,18 +18738,18 @@ Su Hto 7.000e-07 3.500e-07 Na 1.001e-01 5.005e-02 Na_tr 6.992e-07 3.496e-07 - Sr_tr 6.983e-07 3.492e-07 + Sr_tr 6.984e-07 3.492e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.894 Adjusted to redox equilibrium + pe = 11.895 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.588e-09 + Total alkalinity (eq/kg) = 9.593e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.210e-09 + Electrical balance (eq) = 3.174e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18760,7 +18760,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.966e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.967e-08 -6.883 -7.001 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 @@ -18768,17 +18768,17 @@ Cl 1.001e-01 Cl_tr 6.995e-07 Cl_tr- 6.995e-07 6.995e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.947 -40.937 0.010 (0) + H2 0.000e+00 0.000e+00 -40.949 -40.939 0.010 (0) Hto 7.000e-07 Hto 7.000e-07 7.000e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.992e-07 Na_tr+ 6.992e-07 6.992e-07 -6.155 -6.155 -0.000 (0) -O(0) 6.047e-11 - O2 3.024e-11 3.094e-11 -10.519 -10.509 0.010 (0) -Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) +O(0) 6.097e-11 + O2 3.049e-11 3.120e-11 -10.516 -10.506 0.010 (0) +Sr_tr 6.984e-07 + Sr_tr+2 6.984e-07 6.984e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18791,7 +18791,7 @@ Sr_tr 6.983e-07 H2(g) -37.79 -40.94 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.62 -10.51 -2.89 O2 + O2(g) -7.61 -10.51 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -18826,9 +18826,9 @@ Su H 6.1829e-07 Hto 2.5000e-07 Na 5.0490e-01 - Na_tr 2.5191e-06 - O 6.5171e-09 - Sr_tr 2.5381e-05 + Na_tr 2.5193e-06 + O 6.5174e-09 + Sr_tr 2.5387e-05 Su 5.000e-01 moles @@ -18845,19 +18845,19 @@ Su Cl_tr 4.997e-07 2.499e-07 Hto 5.000e-07 2.500e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.993e-07 2.496e-07 - Sr_tr 4.985e-07 2.493e-07 + Na_tr 4.993e-07 2.497e-07 + Sr_tr 4.986e-07 2.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.896 Adjusted to redox equilibrium + pe = 11.897 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.641e-09 + Total alkalinity (eq/kg) = 9.640e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.091e-09 + Electrical balance (eq) = 3.077e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18876,17 +18876,17 @@ Cl 1.001e-01 Cl_tr 4.997e-07 Cl_tr- 4.997e-07 4.997e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.951 -40.941 0.010 (0) + H2 0.000e+00 0.000e+00 -40.952 -40.942 0.010 (0) Hto 5.000e-07 Hto 5.000e-07 5.000e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.993e-07 Na_tr+ 4.993e-07 4.993e-07 -6.302 -6.302 -0.000 (0) -O(0) 6.155e-11 - O2 3.077e-11 3.149e-11 -10.512 -10.502 0.010 (0) -Sr_tr 4.985e-07 - Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) +O(0) 6.207e-11 + O2 3.104e-11 3.176e-11 -10.508 -10.498 0.010 (0) +Sr_tr 4.986e-07 + Sr_tr+2 4.986e-07 4.986e-07 -6.302 -6.302 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -18929,14 +18929,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 - Cl_tr 1.4854e-08 + Cl 4.9564e-03 + Cl_tr 1.4855e-08 H 6.1832e-07 Hto 1.5000e-07 Na 5.0492e-01 - Na_tr 1.5115e-06 - O 6.5170e-09 - Sr_tr 1.5230e-05 + Na_tr 1.5116e-06 + O 6.5173e-09 + Sr_tr 1.5233e-05 Su 5.000e-01 moles @@ -18952,20 +18952,20 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.999e-07 1.499e-07 Hto 3.000e-07 1.500e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.995e-07 1.497e-07 - Sr_tr 2.990e-07 1.495e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.995e-07 1.498e-07 + Sr_tr 2.991e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.897 Adjusted to redox equilibrium + pe = 11.898 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.694e-09 + Total alkalinity (eq/kg) = 9.688e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.059e-09 + Electrical balance (eq) = 3.054e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -18984,17 +18984,17 @@ Cl 1.001e-01 Cl_tr 2.999e-07 Cl_tr- 2.999e-07 2.999e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.953 -40.943 0.010 (0) + H2 0.000e+00 0.000e+00 -40.955 -40.945 0.010 (0) Hto 3.000e-07 Hto 3.000e-07 3.000e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.995e-07 Na_tr+ 2.995e-07 2.995e-07 -6.524 -6.524 -0.000 (0) -O(0) 6.232e-11 - O2 3.116e-11 3.189e-11 -10.506 -10.496 0.010 (0) -Sr_tr 2.990e-07 - Sr_tr+2 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) +O(0) 6.289e-11 + O2 3.145e-11 3.218e-11 -10.502 -10.492 0.010 (0) +Sr_tr 2.991e-07 + Sr_tr+2 2.991e-07 2.991e-07 -6.524 -6.524 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19004,10 +19004,10 @@ Sr_tr 2.990e-07 A_hto 8.48 -6.52 -15.00 Hto A_na 6.36 -7.64 -14.00 Na_trCl A_sr 5.24 -8.76 -14.00 Sr_trCl2 - H2(g) -37.79 -40.94 -3.15 H2 + H2(g) -37.80 -40.95 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.60 -10.50 -2.89 O2 + O2(g) -7.60 -10.49 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -19037,14 +19037,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9507e-09 + Cl 4.9541e-03 + Cl_tr 4.9509e-09 H 6.1835e-07 Hto 5.0000e-08 Na 5.0494e-01 - Na_tr 5.0385e-07 - O 6.5167e-09 - Sr_tr 5.0769e-06 + Na_tr 5.0390e-07 + O 6.5170e-09 + Sr_tr 5.0780e-06 Su 5.000e-01 moles @@ -19057,23 +19057,23 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 + Cl 1.000e-01 5.002e-02 Cl_tr 9.997e-08 4.998e-08 Hto 1.000e-07 5.000e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.981e-08 4.990e-08 - Sr_tr 9.961e-08 4.981e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.982e-08 4.991e-08 + Sr_tr 9.964e-08 4.982e-08 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.898 Adjusted to redox equilibrium + pe = 11.899 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.747e-09 + Total alkalinity (eq/kg) = 9.736e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.838e-09 + Electrical balance (eq) = 4.011e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -19084,25 +19084,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.973e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) Cl_tr 9.997e-08 - Cl_tr- 9.997e-08 9.997e-08 -7.000 -7.000 -0.000 (0) + Cl_tr- 9.997e-08 9.996e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.955 -40.945 0.010 (0) + H2 0.000e+00 0.000e+00 -40.957 -40.947 0.010 (0) Hto 1.000e-07 Hto 1.000e-07 1.000e-07 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.981e-08 - Na_tr+ 9.981e-08 9.981e-08 -7.001 -7.001 -0.000 (0) -O(0) 6.279e-11 - O2 3.140e-11 3.213e-11 -10.503 -10.493 0.010 (0) -Sr_tr 9.961e-08 - Sr_tr+2 9.961e-08 9.961e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.982e-08 + Na_tr+ 9.982e-08 9.982e-08 -7.001 -7.001 -0.000 (0) +O(0) 6.341e-11 + O2 3.171e-11 3.245e-11 -10.499 -10.489 0.010 (0) +Sr_tr 9.964e-08 + Sr_tr+2 9.964e-08 9.964e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19111,10 +19111,10 @@ Sr_tr 9.961e-08 A_cl 5.89 -8.11 -14.00 NaCl_tr A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 - H2(g) -37.79 -40.94 -3.15 H2 + A_sr 4.77 -9.23 -14.00 Sr_trCl2 + H2(g) -37.80 -40.95 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl + Halite -3.80 -2.22 1.58 NaCl O2(g) -7.60 -10.49 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. @@ -19129,40 +19129,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 2.617e-06 3.003e-06 3.855e-07 -A_hto 0.00 -15.00 -15.00 5.045e-06 5.782e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 2.949e-05 3.377e-05 4.275e-06 -A_sr 0.00 -14.00 -14.00 2.772e-04 3.172e-04 3.993e-05 +A_cl 0.00 -14.00 -14.00 2.583e-06 2.964e-06 3.812e-07 +A_hto 0.00 -15.00 -15.00 4.702e-06 5.396e-06 6.939e-07 +A_na 0.00 -14.00 -14.00 2.604e-05 2.988e-05 3.843e-06 +A_sr 0.00 -14.00 -14.00 2.422e-04 2.778e-04 3.558e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.357e-13 Surface + diffuse layer charge, eq + -8.375e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1836e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5164e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5168e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -19176,22 +19176,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 1.278e-13 6.388e-14 + Cl_tr 1.277e-13 6.387e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.898 Adjusted to redox equilibrium + pe = 11.899 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.774e-09 + Total alkalinity (eq/kg) = 9.760e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.759e-08 + Electrical balance (eq) = 2.656e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -19202,23 +19202,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.277e-13 + Cl_tr- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.955 -40.945 0.010 (0) + H2 0.000e+00 0.000e+00 -40.957 -40.947 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 6.287e-11 - O2 3.143e-11 3.217e-11 -10.503 -10.493 0.010 (0) +O(0) 6.347e-11 + O2 3.174e-11 3.248e-11 -10.498 -10.488 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -19297,12 +19297,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.467e-12 Surface + diffuse layer charge, eq + 9.487e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -8.754e-01 psi, V 3.407e+01 -F*psi/RT - 6.289e+14 exp(-F*psi/RT) + 6.282e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -19310,17 +19310,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.756e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 9.292e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 9.282e+02 (= c_DL / c_free if z is +1). Element Moles - Cl 5.7872e-07 - Cl_tr 5.2618e-12 - H 4.2340e-05 - Hto 6.8315e-08 - Na 4.9974e-01 - Na_tr 4.5431e-06 - O 8.7902e-11 - Sr_tr 1.0731e-04 + Cl 5.7997e-07 + Cl_tr 5.2731e-12 + H 3.7784e-05 + Hto 7.0507e-08 + Na 4.9976e-01 + Na_tr 4.5433e-06 + O 8.1578e-11 + Sr_tr 9.7697e-05 Su 5.000e-01 moles @@ -19333,23 +19333,23 @@ Su Elements Molality Moles - Cl 1.076e-03 1.076e-03 - Cl_tr 9.779e-09 9.779e-09 - Hto 1.366e-07 1.366e-07 - Na 1.076e-03 1.076e-03 - Na_tr 9.778e-09 9.778e-09 - Sr_tr 2.486e-10 2.486e-10 + Cl 1.077e-03 1.077e-03 + Cl_tr 9.789e-09 9.789e-09 + Hto 1.410e-07 1.410e-07 + Na 1.077e-03 1.077e-03 + Na_tr 9.789e-09 9.789e-09 + Sr_tr 2.268e-10 2.268e-10 ----------------------------Description of solution---------------------------- - pH = 7.056 Charge balance - pe = 11.811 Adjusted to redox equilibrium + pH = 7.105 Charge balance + pe = 11.670 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.076e-03 + Ionic strength (mol/kgw) = 1.077e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.694e-08 + Total alkalinity (eq/kg) = 5.076e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.251e-08 + Electrical balance (eq) = 6.962e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (16 overall) Total H = 1.110124e+02 @@ -19360,38 +19360,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.181e-07 1.138e-07 -6.928 -6.944 -0.016 (0) - H+ 9.113e-08 8.799e-08 -7.040 -7.056 -0.015 0.00 + OH- 1.322e-07 1.274e-07 -6.879 -6.895 -0.016 (0) + H+ 8.141e-08 7.860e-08 -7.089 -7.105 -0.015 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 1.076e-03 - Cl- 1.076e-03 1.036e-03 -2.968 -2.984 -0.016 (0) -Cl_tr 9.779e-09 - Cl_tr- 9.779e-09 9.779e-09 -8.010 -8.010 -0.000 (0) +Cl 1.077e-03 + Cl- 1.077e-03 1.037e-03 -2.968 -2.984 -0.016 (0) +Cl_tr 9.789e-09 + Cl_tr- 9.789e-09 9.789e-09 -8.009 -8.009 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.884 -40.883 0.000 (0) -Hto 1.366e-07 - Hto 1.366e-07 1.366e-07 -6.864 -6.864 0.000 (0) -Na 1.076e-03 - Na+ 1.076e-03 1.037e-03 -2.968 -2.984 -0.016 (0) -Na_tr 9.778e-09 - Na_tr+ 9.778e-09 9.778e-09 -8.010 -8.010 -0.000 (0) -O(0) 4.874e-11 - O2 2.437e-11 2.437e-11 -10.613 -10.613 0.000 (0) -Sr_tr 2.486e-10 - Sr_tr+2 2.486e-10 2.485e-10 -9.605 -9.605 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.698 -40.698 0.000 (0) +Hto 1.410e-07 + Hto 1.410e-07 1.410e-07 -6.851 -6.851 0.000 (0) +Na 1.077e-03 + Na+ 1.077e-03 1.038e-03 -2.968 -2.984 -0.016 (0) +Na_tr 9.789e-09 + Na_tr+ 9.789e-09 9.789e-09 -8.009 -8.009 -0.000 (0) +O(0) 2.076e-11 + O2 1.038e-11 1.038e-11 -10.984 -10.984 0.000 (0) +Sr_tr 2.268e-10 + Sr_tr+2 2.268e-10 2.268e-10 -9.644 -9.644 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) A_cl 3.01 -10.99 -14.00 NaCl_tr - A_hto 8.14 -6.86 -15.00 Hto + A_hto 8.15 -6.85 -15.00 Hto A_na 3.01 -10.99 -14.00 Na_trCl - A_sr -1.57 -15.57 -14.00 Sr_trCl2 - H2(g) -37.73 -40.88 -3.15 H2 + A_sr -1.61 -15.61 -14.00 Sr_trCl2 + H2(g) -37.55 -40.70 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.55 -5.97 1.58 NaCl - O2(g) -7.72 -10.61 -2.89 O2 + O2(g) -8.09 -10.98 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -19405,17 +19405,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.855e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.368e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.275e-06 -A_sr 5.77 -8.23 -14.00 1.000e+01 9.999e+00 -3.993e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.812e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.940e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.843e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 1.000e+01 -3.559e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.559e-13 Surface + diffuse layer charge, eq + -8.563e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -19431,14 +19431,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1823e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5198e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5199e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -19451,21 +19451,21 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.901 Adjusted to redox equilibrium + pe = 11.902 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.505e-09 + Total alkalinity (eq/kg) = 9.518e-09 Temperature (°C) = 25.00 Electrical balance (eq) = -1.430e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -19478,25 +19478,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.963e-08 -6.883 -7.002 -0.118 (0) + OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.961 -40.951 0.010 (0) + H2 0.000e+00 0.000e+00 -40.962 -40.952 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 6.451e-11 - O2 3.225e-11 3.301e-11 -10.491 -10.481 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 6.489e-11 + O2 3.245e-11 3.320e-11 -10.489 -10.479 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19528,7 +19528,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -19539,14 +19539,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4583e-08 H 6.1825e-07 Hto 4.5000e-07 Na 5.0487e-01 - Na_tr 4.5340e-06 - O 6.5202e-09 - Sr_tr 4.5681e-05 + Na_tr 4.5344e-06 + O 6.5203e-09 + Sr_tr 4.5691e-05 Su 5.000e-01 moles @@ -19563,19 +19563,19 @@ Su Cl_tr 8.993e-07 4.496e-07 Hto 9.000e-07 4.500e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.983e-07 4.491e-07 + Na_tr 8.992e-07 4.496e-07 + Sr_tr 8.984e-07 4.492e-07 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.903 Adjusted to redox equilibrium + pe = 11.904 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.531e-09 + Total alkalinity (eq/kg) = 9.541e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.643e-09 + Electrical balance (eq) = 3.626e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -19586,25 +19586,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.965e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.993e-07 Cl_tr- 8.993e-07 8.993e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.965 -40.955 0.010 (0) + H2 0.000e+00 0.000e+00 -40.966 -40.956 0.010 (0) Hto 9.000e-07 Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.991e-07 - Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 6.577e-11 - O2 3.289e-11 3.365e-11 -10.483 -10.473 0.010 (0) -Sr_tr 8.983e-07 - Sr_tr+2 8.983e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.992e-07 + Na_tr+ 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) +O(0) 6.617e-11 + O2 3.308e-11 3.386e-11 -10.480 -10.470 0.010 (0) +Sr_tr 8.984e-07 + Sr_tr+2 8.984e-07 8.984e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19614,7 +19614,7 @@ Sr_tr 8.983e-07 A_hto 8.95 -6.05 -15.00 Hto A_na 6.84 -7.16 -14.00 Na_trCl A_sr 5.72 -8.28 -14.00 Sr_trCl2 - H2(g) -37.80 -40.95 -3.15 H2 + H2(g) -37.81 -40.96 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl O2(g) -7.58 -10.47 -2.89 O2 @@ -19647,14 +19647,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 + Cl 4.9611e-03 Cl_tr 3.4671e-08 H 6.1828e-07 Hto 3.5000e-07 Na 5.0489e-01 - Na_tr 3.5265e-06 - O 6.5203e-09 - Sr_tr 3.5532e-05 + Na_tr 3.5269e-06 + O 6.5205e-09 + Sr_tr 3.5539e-05 Su 5.000e-01 moles @@ -19672,18 +19672,18 @@ Su Hto 7.000e-07 3.500e-07 Na 1.001e-01 5.005e-02 Na_tr 6.992e-07 3.496e-07 - Sr_tr 6.983e-07 3.492e-07 + Sr_tr 6.984e-07 3.492e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.905 Adjusted to redox equilibrium + pe = 11.906 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.583e-09 + Total alkalinity (eq/kg) = 9.588e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.495e-09 + Electrical balance (eq) = 3.459e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -19702,17 +19702,17 @@ Cl 1.001e-01 Cl_tr 6.995e-07 Cl_tr- 6.995e-07 6.995e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.969 -40.959 0.010 (0) + H2 0.000e+00 0.000e+00 -40.971 -40.961 0.010 (0) Hto 7.000e-07 Hto 7.000e-07 7.000e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.992e-07 Na_tr+ 6.992e-07 6.992e-07 -6.155 -6.155 -0.000 (0) -O(0) 6.715e-11 - O2 3.357e-11 3.436e-11 -10.474 -10.464 0.010 (0) -Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) +O(0) 6.764e-11 + O2 3.382e-11 3.461e-11 -10.471 -10.461 0.010 (0) +Sr_tr 6.984e-07 + Sr_tr+2 6.984e-07 6.984e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19739,7 +19739,7 @@ Using pure phase assemblage 6. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 1.585e-11 Surface + diffuse layer charge, eq + 1.586e-11 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -19760,9 +19760,9 @@ Su H 6.1831e-07 Hto 2.5000e-07 Na 5.0490e-01 - Na_tr 2.5191e-06 - O 6.5203e-09 - Sr_tr 2.5381e-05 + Na_tr 2.5193e-06 + O 6.5206e-09 + Sr_tr 2.5387e-05 Su 5.000e-01 moles @@ -19779,19 +19779,19 @@ Su Cl_tr 4.997e-07 2.499e-07 Hto 5.000e-07 2.500e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.993e-07 2.496e-07 - Sr_tr 4.985e-07 2.493e-07 + Na_tr 4.993e-07 2.497e-07 + Sr_tr 4.987e-07 2.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.907 Adjusted to redox equilibrium + pe = 11.908 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 9.636e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.376e-09 + Electrical balance (eq) = 3.363e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -19810,17 +19810,17 @@ Cl 1.001e-01 Cl_tr 4.997e-07 Cl_tr- 4.997e-07 4.997e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.973 -40.963 0.010 (0) + H2 0.000e+00 0.000e+00 -40.975 -40.965 0.010 (0) Hto 5.000e-07 Hto 5.000e-07 5.000e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.993e-07 Na_tr+ 4.993e-07 4.993e-07 -6.302 -6.302 -0.000 (0) -O(0) 6.822e-11 - O2 3.411e-11 3.491e-11 -10.467 -10.457 0.010 (0) -Sr_tr 4.985e-07 - Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) +O(0) 6.878e-11 + O2 3.439e-11 3.519e-11 -10.464 -10.454 0.010 (0) +Sr_tr 4.987e-07 + Sr_tr+2 4.987e-07 4.986e-07 -6.302 -6.302 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19833,7 +19833,7 @@ Sr_tr 4.985e-07 H2(g) -37.81 -40.96 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.56 -10.46 -2.89 O2 + O2(g) -7.56 -10.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -19863,14 +19863,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 - Cl_tr 1.4854e-08 + Cl 4.9564e-03 + Cl_tr 1.4855e-08 H 6.1833e-07 Hto 1.5000e-07 Na 5.0492e-01 - Na_tr 1.5115e-06 - O 6.5202e-09 - Sr_tr 1.5230e-05 + Na_tr 1.5117e-06 + O 6.5205e-09 + Sr_tr 1.5233e-05 Su 5.000e-01 moles @@ -19886,20 +19886,20 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.999e-07 1.499e-07 Hto 3.000e-07 1.500e-07 - Na 1.000e-01 5.002e-02 - Na_tr 2.995e-07 1.497e-07 - Sr_tr 2.990e-07 1.495e-07 + Na 1.001e-01 5.003e-02 + Na_tr 2.995e-07 1.498e-07 + Sr_tr 2.991e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.908 Adjusted to redox equilibrium + pe = 11.909 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.689e-09 + Total alkalinity (eq/kg) = 9.683e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.344e-09 + Electrical balance (eq) = 3.339e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -19910,7 +19910,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.971e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.970e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.001e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 @@ -19918,17 +19918,17 @@ Cl 1.001e-01 Cl_tr 2.999e-07 Cl_tr- 2.999e-07 2.999e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.975 -40.965 0.010 (0) + H2 0.000e+00 0.000e+00 -40.977 -40.967 0.010 (0) Hto 3.000e-07 Hto 3.000e-07 3.000e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.995e-07 Na_tr+ 2.995e-07 2.995e-07 -6.524 -6.524 -0.000 (0) -O(0) 6.902e-11 - O2 3.451e-11 3.531e-11 -10.462 -10.452 0.010 (0) -Sr_tr 2.990e-07 - Sr_tr+2 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) +O(0) 6.957e-11 + O2 3.479e-11 3.560e-11 -10.459 -10.449 0.010 (0) +Sr_tr 2.991e-07 + Sr_tr+2 2.991e-07 2.991e-07 -6.524 -6.524 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -19971,14 +19971,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9507e-09 + Cl 4.9541e-03 + Cl_tr 4.9509e-09 H 6.1836e-07 Hto 5.0000e-08 Na 5.0494e-01 - Na_tr 5.0385e-07 - O 6.5199e-09 - Sr_tr 5.0769e-06 + Na_tr 5.0390e-07 + O 6.5202e-09 + Sr_tr 5.0780e-06 Su 5.000e-01 moles @@ -19991,12 +19991,12 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 + Cl 1.000e-01 5.002e-02 Cl_tr 9.997e-08 4.998e-08 Hto 1.000e-07 5.000e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.981e-08 4.990e-08 - Sr_tr 9.961e-08 4.981e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.983e-08 4.991e-08 + Sr_tr 9.964e-08 4.982e-08 ----------------------------Description of solution---------------------------- @@ -20005,9 +20005,9 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.742e-09 + Total alkalinity (eq/kg) = 9.731e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.123e-09 + Electrical balance (eq) = 4.296e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20018,7 +20018,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 @@ -20026,17 +20026,17 @@ Cl 1.000e-01 Cl_tr 9.997e-08 Cl_tr- 9.997e-08 9.997e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.977 -40.967 0.010 (0) + H2 0.000e+00 0.000e+00 -40.979 -40.969 0.010 (0) Hto 1.000e-07 Hto 1.000e-07 1.000e-07 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.981e-08 - Na_tr+ 9.981e-08 9.981e-08 -7.001 -7.001 -0.000 (0) -O(0) 6.948e-11 - O2 3.474e-11 3.555e-11 -10.459 -10.449 0.010 (0) -Sr_tr 9.961e-08 - Sr_tr+2 9.961e-08 9.961e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.983e-08 + Na_tr+ 9.983e-08 9.982e-08 -7.001 -7.001 -0.000 (0) +O(0) 7.003e-11 + O2 3.502e-11 3.583e-11 -10.456 -10.446 0.010 (0) +Sr_tr 9.964e-08 + Sr_tr+2 9.964e-08 9.964e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20045,11 +20045,11 @@ Sr_tr 9.961e-08 A_cl 5.89 -8.11 -14.00 NaCl_tr A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 + A_sr 4.77 -9.23 -14.00 Sr_trCl2 H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.56 -10.45 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.55 -10.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20063,10 +20063,10 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 3.003e-06 3.388e-06 3.855e-07 -A_hto 0.00 -15.00 -15.00 5.782e-06 6.518e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 3.377e-05 3.804e-05 4.275e-06 -A_sr 0.00 -14.00 -14.00 3.172e-04 3.571e-04 3.993e-05 +A_cl 0.00 -14.00 -14.00 2.964e-06 3.346e-06 3.812e-07 +A_hto 0.00 -15.00 -15.00 5.396e-06 6.090e-06 6.940e-07 +A_na 0.00 -14.00 -14.00 2.988e-05 3.373e-05 3.843e-06 +A_sr 0.00 -14.00 -14.00 2.778e-04 3.134e-04 3.559e-05 ------------------------------Surface composition------------------------------ @@ -20078,25 +20078,25 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1837e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5197e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5200e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -20110,22 +20110,22 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 1.278e-13 6.388e-14 + Cl_tr 1.277e-13 6.387e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.909 Adjusted to redox equilibrium + pe = 11.910 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.769e-09 + Total alkalinity (eq/kg) = 9.755e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.099e-08 + Electrical balance (eq) = 2.990e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -20136,23 +20136,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.277e-13 + Cl_tr- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.977 -40.967 0.010 (0) + H2 0.000e+00 0.000e+00 -40.979 -40.969 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 6.955e-11 - O2 3.478e-11 3.559e-11 -10.459 -10.449 0.010 (0) +O(0) 7.010e-11 + O2 3.505e-11 3.587e-11 -10.455 -10.445 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -20167,7 +20167,7 @@ Sr_tr 1.712e-12 H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.56 -10.45 -2.89 O2 + O2(g) -7.55 -10.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20231,12 +20231,12 @@ Using pure phase assemblage 1. Pure-phase assemblage after simulation 11. Diffuse Double Layer Surface-Complexation Model Su - 4.471e-12 Surface + diffuse layer charge, eq + 2.641e-12 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² - -8.794e-01 psi, V + -8.793e-01 psi, V 3.423e+01 -F*psi/RT - 7.328e+14 exp(-F*psi/RT) + 7.319e+14 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -20244,17 +20244,17 @@ Su Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.795e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.083e+03 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 1.081e+03 (= c_DL / c_free if z is +1). Element Moles - Cl 4.2625e-07 - Cl_tr 3.8756e-12 - H 5.1047e-05 - Hto 6.3084e-08 - Na 4.9971e-01 - Na_tr 4.5429e-06 - O 7.3729e-11 - Sr_tr 1.1681e-04 + Cl 4.2721e-07 + Cl_tr 3.8842e-12 + H 4.5522e-05 + Hto 6.5314e-08 + Na 4.9974e-01 + Na_tr 4.5431e-06 + O 6.7515e-11 + Sr_tr 1.0536e-04 Su 5.000e-01 moles @@ -20267,23 +20267,23 @@ Su Elements Molality Moles - Cl 9.230e-04 9.230e-04 - Cl_tr 8.392e-09 8.392e-09 - Hto 1.262e-07 1.262e-07 - Na 9.231e-04 9.231e-04 - Na_tr 8.392e-09 8.392e-09 - Sr_tr 1.993e-10 1.993e-10 + Cl 9.240e-04 9.240e-04 + Cl_tr 8.401e-09 8.401e-09 + Hto 1.306e-07 1.306e-07 + Na 9.242e-04 9.242e-04 + Na_tr 8.402e-09 8.402e-09 + Sr_tr 1.802e-10 1.802e-10 ----------------------------Description of solution---------------------------- - pH = 7.040 Charge balance - pe = 11.812 Adjusted to redox equilibrium + pH = 7.089 Charge balance + pe = 11.666 Adjusted to redox equilibrium Activity of water = 1.000 - Ionic strength (mol/kgw) = 9.232e-04 + Ionic strength (mol/kgw) = 9.242e-04 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.924e-08 + Total alkalinity (eq/kg) = 4.300e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.198e-08 + Electrical balance (eq) = 8.612e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (16 overall) Total H = 1.110124e+02 @@ -20294,38 +20294,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.135e-07 1.097e-07 -6.945 -6.960 -0.015 (0) - H+ 9.430e-08 9.126e-08 -7.025 -7.040 -0.014 0.00 + OH- 1.272e-07 1.229e-07 -6.896 -6.911 -0.015 (0) + H+ 8.418e-08 8.147e-08 -7.075 -7.089 -0.014 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 9.230e-04 - Cl- 9.230e-04 8.917e-04 -3.035 -3.050 -0.015 (0) -Cl_tr 8.392e-09 - Cl_tr- 8.392e-09 8.392e-09 -8.076 -8.076 -0.000 (0) +Cl 9.240e-04 + Cl- 9.240e-04 8.927e-04 -3.034 -3.049 -0.015 (0) +Cl_tr 8.401e-09 + Cl_tr- 8.401e-09 8.401e-09 -8.076 -8.076 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.854 -40.854 0.000 (0) -Hto 1.262e-07 - Hto 1.262e-07 1.262e-07 -6.899 -6.899 0.000 (0) -Na 9.231e-04 - Na+ 9.231e-04 8.921e-04 -3.035 -3.050 -0.015 (0) -Na_tr 8.392e-09 - Na_tr+ 8.392e-09 8.392e-09 -8.076 -8.076 -0.000 (0) -O(0) 4.259e-11 - O2 2.129e-11 2.130e-11 -10.672 -10.672 0.000 (0) -Sr_tr 1.993e-10 - Sr_tr+2 1.993e-10 1.993e-10 -9.700 -9.701 -0.000 (0) + H2 0.000e+00 0.000e+00 -40.660 -40.660 0.000 (0) +Hto 1.306e-07 + Hto 1.306e-07 1.306e-07 -6.884 -6.884 0.000 (0) +Na 9.242e-04 + Na+ 9.242e-04 8.931e-04 -3.034 -3.049 -0.015 (0) +Na_tr 8.402e-09 + Na_tr+ 8.402e-09 8.402e-09 -8.076 -8.076 -0.000 (0) +O(0) 1.743e-11 + O2 8.715e-12 8.716e-12 -11.060 -11.060 0.000 (0) +Sr_tr 1.802e-10 + Sr_tr+2 1.802e-10 1.802e-10 -9.744 -9.744 -0.000 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - A_cl 2.87 -11.13 -14.00 NaCl_tr - A_hto 8.10 -6.90 -15.00 Hto - A_na 2.87 -11.13 -14.00 Na_trCl - A_sr -1.80 -15.80 -14.00 Sr_trCl2 - H2(g) -37.70 -40.85 -3.15 H2 + A_cl 2.88 -11.12 -14.00 NaCl_tr + A_hto 8.12 -6.88 -15.00 Hto + A_na 2.88 -11.12 -14.00 Na_trCl + A_sr -1.84 -15.84 -14.00 Sr_trCl2 + H2(g) -37.51 -40.66 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -7.68 -6.10 1.58 NaCl - O2(g) -7.78 -10.67 -2.89 O2 + O2(g) -8.17 -11.06 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20339,17 +20339,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.855e-07 -A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -7.368e-07 -A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -4.275e-06 -A_sr 5.77 -8.23 -14.00 9.999e+00 9.999e+00 -3.993e-05 +A_cl 6.89 -7.11 -14.00 1.000e+01 1.000e+01 -3.812e-07 +A_hto 9.00 -6.00 -15.00 1.000e+01 1.000e+01 -6.940e-07 +A_na 6.88 -7.12 -14.00 1.000e+01 1.000e+01 -3.843e-06 +A_sr 5.77 -8.23 -14.00 1.000e+01 9.999e+00 -3.559e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.552e-13 Surface + diffuse layer charge, eq + -8.555e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V @@ -20365,14 +20365,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.008e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9652e-03 - Cl_tr 4.9541e-08 + Cl 4.9646e-03 + Cl_tr 4.9540e-08 H 6.1824e-07 Hto 5.0000e-07 Na 5.0486e-01 - Na_tr 5.0376e-06 - O 6.5230e-09 - Sr_tr 5.0755e-05 + Na_tr 5.0382e-06 + O 6.5232e-09 + Sr_tr 5.0766e-05 Su 5.000e-01 moles @@ -20385,12 +20385,12 @@ Su Elements Molality Moles - Cl 1.001e-01 5.007e-02 - Cl_tr 9.991e-07 4.996e-07 + Cl 1.001e-01 5.006e-02 + Cl_tr 9.992e-07 4.996e-07 Hto 1.000e-06 5.000e-07 - Na 1.001e-01 5.007e-02 + Na 1.001e-01 5.006e-02 Na_tr 9.992e-07 4.996e-07 - Sr_tr 9.983e-07 4.992e-07 + Sr_tr 9.984e-07 4.992e-07 ----------------------------Description of solution---------------------------- @@ -20399,7 +20399,7 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.501e-09 + Total alkalinity (eq/kg) = 9.514e-09 Temperature (°C) = 25.00 Electrical balance (eq) = -1.584e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -20416,21 +20416,21 @@ Su H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.652e-02 -0.999 -1.116 -0.117 (0) -Cl_tr 9.991e-07 - Cl_tr- 9.991e-07 9.991e-07 -6.000 -6.000 -0.000 (0) + Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) +Cl_tr 9.992e-07 + Cl_tr- 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.982 -40.972 0.010 (0) + H2 0.000e+00 0.000e+00 -40.983 -40.973 0.010 (0) Hto 1.000e-06 Hto 1.000e-06 1.000e-06 -6.000 -6.000 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.836e-02 -0.999 -1.106 -0.106 (0) Na_tr 9.992e-07 Na_tr+ 9.992e-07 9.992e-07 -6.000 -6.000 -0.000 (0) -O(0) 7.120e-11 - O2 3.560e-11 3.643e-11 -10.449 -10.439 0.010 (0) -Sr_tr 9.983e-07 - Sr_tr+2 9.983e-07 9.983e-07 -6.001 -6.001 -0.000 (0) +O(0) 7.157e-11 + O2 3.578e-11 3.662e-11 -10.446 -10.436 0.010 (0) +Sr_tr 9.984e-07 + Sr_tr+2 9.984e-07 9.984e-07 -6.001 -6.001 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20443,7 +20443,7 @@ Sr_tr 9.983e-07 H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.55 -10.44 -2.89 O2 + O2(g) -7.54 -10.44 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20462,7 +20462,7 @@ Su -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.756e+12 exp(-F*psi/RT) + 6.757e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g @@ -20473,14 +20473,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9639e-03 + Cl 4.9634e-03 Cl_tr 4.4583e-08 H 6.1826e-07 Hto 4.5000e-07 Na 5.0487e-01 - Na_tr 4.5340e-06 - O 6.5234e-09 - Sr_tr 4.5681e-05 + Na_tr 4.5344e-06 + O 6.5235e-09 + Sr_tr 4.5691e-05 Su 5.000e-01 moles @@ -20497,8 +20497,8 @@ Su Cl_tr 8.993e-07 4.496e-07 Hto 9.000e-07 4.500e-07 Na 1.001e-01 5.006e-02 - Na_tr 8.991e-07 4.496e-07 - Sr_tr 8.983e-07 4.491e-07 + Na_tr 8.992e-07 4.496e-07 + Sr_tr 8.984e-07 4.492e-07 ----------------------------Description of solution---------------------------- @@ -20507,9 +20507,9 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.526e-09 + Total alkalinity (eq/kg) = 9.537e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.929e-09 + Electrical balance (eq) = 3.912e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20520,25 +20520,25 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.308e-07 9.964e-08 -6.883 -7.002 -0.118 (0) + OH- 1.309e-07 9.964e-08 -6.883 -7.002 -0.118 (0) H+ 1.213e-07 1.001e-07 -6.916 -6.999 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.001e-01 - Cl- 1.001e-01 7.651e-02 -0.999 -1.116 -0.117 (0) + Cl- 1.001e-01 7.650e-02 -0.999 -1.116 -0.117 (0) Cl_tr 8.993e-07 Cl_tr- 8.993e-07 8.993e-07 -6.046 -6.046 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.986 -40.976 0.010 (0) + H2 0.000e+00 0.000e+00 -40.987 -40.977 0.010 (0) Hto 9.000e-07 Hto 9.000e-07 9.000e-07 -6.046 -6.046 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.835e-02 -0.999 -1.106 -0.106 (0) -Na_tr 8.991e-07 - Na_tr+ 8.991e-07 8.991e-07 -6.046 -6.046 -0.000 (0) -O(0) 7.245e-11 - O2 3.623e-11 3.707e-11 -10.441 -10.431 0.010 (0) -Sr_tr 8.983e-07 - Sr_tr+2 8.983e-07 8.982e-07 -6.047 -6.047 -0.000 (0) +Na_tr 8.992e-07 + Na_tr+ 8.992e-07 8.992e-07 -6.046 -6.046 -0.000 (0) +O(0) 7.286e-11 + O2 3.643e-11 3.728e-11 -10.439 -10.429 0.010 (0) +Sr_tr 8.984e-07 + Sr_tr+2 8.984e-07 8.984e-07 -6.047 -6.047 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20581,14 +20581,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9613e-03 + Cl 4.9611e-03 Cl_tr 3.4671e-08 H 6.1829e-07 Hto 3.5000e-07 Na 5.0489e-01 - Na_tr 3.5265e-06 - O 6.5235e-09 - Sr_tr 3.5532e-05 + Na_tr 3.5269e-06 + O 6.5238e-09 + Sr_tr 3.5539e-05 Su 5.000e-01 moles @@ -20606,18 +20606,18 @@ Su Hto 7.000e-07 3.500e-07 Na 1.001e-01 5.005e-02 Na_tr 6.992e-07 3.496e-07 - Sr_tr 6.983e-07 3.492e-07 + Sr_tr 6.984e-07 3.492e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.915 Adjusted to redox equilibrium + pe = 11.916 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.579e-09 + Total alkalinity (eq/kg) = 9.584e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.781e-09 + Electrical balance (eq) = 3.745e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20636,17 +20636,17 @@ Cl 1.001e-01 Cl_tr 6.995e-07 Cl_tr- 6.995e-07 6.995e-07 -6.155 -6.155 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.990 -40.980 0.010 (0) + H2 0.000e+00 0.000e+00 -40.991 -40.981 0.010 (0) Hto 7.000e-07 Hto 7.000e-07 7.000e-07 -6.155 -6.155 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.833e-02 -1.000 -1.106 -0.106 (0) Na_tr 6.992e-07 Na_tr+ 6.992e-07 6.992e-07 -6.155 -6.155 -0.000 (0) -O(0) 7.382e-11 - O2 3.691e-11 3.777e-11 -10.433 -10.423 0.010 (0) -Sr_tr 6.983e-07 - Sr_tr+2 6.983e-07 6.983e-07 -6.156 -6.156 -0.000 (0) +O(0) 7.431e-11 + O2 3.715e-11 3.802e-11 -10.430 -10.420 0.010 (0) +Sr_tr 6.984e-07 + Sr_tr+2 6.984e-07 6.984e-07 -6.156 -6.156 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20694,9 +20694,9 @@ Su H 6.1832e-07 Hto 2.5000e-07 Na 5.0490e-01 - Na_tr 2.5191e-06 - O 6.5235e-09 - Sr_tr 2.5381e-05 + Na_tr 2.5193e-06 + O 6.5238e-09 + Sr_tr 2.5387e-05 Su 5.000e-01 moles @@ -20713,19 +20713,19 @@ Su Cl_tr 4.997e-07 2.499e-07 Hto 5.000e-07 2.500e-07 Na 1.001e-01 5.004e-02 - Na_tr 4.993e-07 2.496e-07 - Sr_tr 4.985e-07 2.493e-07 + Na_tr 4.993e-07 2.497e-07 + Sr_tr 4.987e-07 2.493e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.917 Adjusted to redox equilibrium + pe = 11.918 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.632e-09 + Total alkalinity (eq/kg) = 9.631e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.661e-09 + Electrical balance (eq) = 3.648e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20744,17 +20744,17 @@ Cl 1.001e-01 Cl_tr 4.997e-07 Cl_tr- 4.997e-07 4.997e-07 -6.301 -6.301 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.993 -40.983 0.010 (0) + H2 0.000e+00 0.000e+00 -40.995 -40.985 0.010 (0) Hto 5.000e-07 Hto 5.000e-07 5.000e-07 -6.301 -6.301 0.000 (0) Na 1.001e-01 Na+ 1.001e-01 7.832e-02 -1.000 -1.106 -0.106 (0) Na_tr 4.993e-07 Na_tr+ 4.993e-07 4.993e-07 -6.302 -6.302 -0.000 (0) -O(0) 7.491e-11 - O2 3.746e-11 3.833e-11 -10.426 -10.416 0.010 (0) -Sr_tr 4.985e-07 - Sr_tr+2 4.985e-07 4.985e-07 -6.302 -6.302 -0.000 (0) +O(0) 7.543e-11 + O2 3.772e-11 3.860e-11 -10.423 -10.413 0.010 (0) +Sr_tr 4.987e-07 + Sr_tr+2 4.987e-07 4.986e-07 -6.302 -6.302 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20767,7 +20767,7 @@ Sr_tr 4.985e-07 H2(g) -37.83 -40.98 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.80 -2.22 1.58 NaCl - O2(g) -7.52 -10.42 -2.89 O2 + O2(g) -7.52 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20797,14 +20797,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.009e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9562e-03 - Cl_tr 1.4854e-08 + Cl 4.9564e-03 + Cl_tr 1.4855e-08 H 6.1834e-07 Hto 1.5000e-07 Na 5.0492e-01 - Na_tr 1.5115e-06 - O 6.5234e-09 - Sr_tr 1.5230e-05 + Na_tr 1.5117e-06 + O 6.5237e-09 + Sr_tr 1.5233e-05 Su 5.000e-01 moles @@ -20820,20 +20820,20 @@ Su Cl 1.001e-01 5.003e-02 Cl_tr 2.999e-07 1.499e-07 Hto 3.000e-07 1.500e-07 - Na 1.000e-01 5.002e-02 + Na 1.001e-01 5.003e-02 Na_tr 2.995e-07 1.498e-07 - Sr_tr 2.990e-07 1.495e-07 + Sr_tr 2.991e-07 1.495e-07 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.918 Adjusted to redox equilibrium + pe = 11.919 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.001e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.685e-09 + Total alkalinity (eq/kg) = 9.679e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.629e-09 + Electrical balance (eq) = 3.625e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20852,17 +20852,17 @@ Cl 1.001e-01 Cl_tr 2.999e-07 Cl_tr- 2.999e-07 2.999e-07 -6.523 -6.523 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.996 -40.986 0.010 (0) + H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) Hto 3.000e-07 Hto 3.000e-07 3.000e-07 -6.523 -6.523 0.000 (0) -Na 1.000e-01 - Na+ 1.000e-01 7.830e-02 -1.000 -1.106 -0.106 (0) +Na 1.001e-01 + Na+ 1.001e-01 7.830e-02 -1.000 -1.106 -0.106 (0) Na_tr 2.995e-07 Na_tr+ 2.995e-07 2.995e-07 -6.524 -6.524 -0.000 (0) -O(0) 7.570e-11 - O2 3.785e-11 3.873e-11 -10.422 -10.412 0.010 (0) -Sr_tr 2.990e-07 - Sr_tr+2 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) +O(0) 7.625e-11 + O2 3.812e-11 3.901e-11 -10.419 -10.409 0.010 (0) +Sr_tr 2.991e-07 + Sr_tr+2 2.991e-07 2.991e-07 -6.524 -6.524 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20905,14 +20905,14 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9536e-03 - Cl_tr 4.9507e-09 + Cl 4.9541e-03 + Cl_tr 4.9509e-09 H 6.1837e-07 Hto 5.0000e-08 Na 5.0494e-01 - Na_tr 5.0385e-07 - O 6.5231e-09 - Sr_tr 5.0769e-06 + Na_tr 5.0390e-07 + O 6.5234e-09 + Sr_tr 5.0780e-06 Su 5.000e-01 moles @@ -20925,12 +20925,12 @@ Su Elements Molality Moles - Cl 1.000e-01 5.001e-02 + Cl 1.000e-01 5.002e-02 Cl_tr 9.997e-08 4.998e-08 Hto 1.000e-07 5.000e-08 - Na 1.000e-01 5.001e-02 - Na_tr 9.981e-08 4.990e-08 - Sr_tr 9.961e-08 4.981e-08 + Na 1.000e-01 5.002e-02 + Na_tr 9.983e-08 4.991e-08 + Sr_tr 9.964e-08 4.982e-08 ----------------------------Description of solution---------------------------- @@ -20939,9 +20939,9 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.738e-09 + Total alkalinity (eq/kg) = 9.727e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.408e-09 + Electrical balance (eq) = 4.581e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (10 overall) Total H = 5.550622e+01 @@ -20952,7 +20952,7 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.309e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + OH- 1.309e-07 9.972e-08 -6.883 -7.001 -0.118 (0) H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 @@ -20960,17 +20960,17 @@ Cl 1.000e-01 Cl_tr 9.997e-08 Cl_tr- 9.997e-08 9.997e-08 -7.000 -7.000 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) + H2 0.000e+00 0.000e+00 -40.998 -40.988 0.010 (0) Hto 1.000e-07 Hto 1.000e-07 1.000e-07 -7.000 -7.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) -Na_tr 9.981e-08 - Na_tr+ 9.981e-08 9.981e-08 -7.001 -7.001 -0.000 (0) -O(0) 7.618e-11 - O2 3.809e-11 3.898e-11 -10.419 -10.409 0.010 (0) -Sr_tr 9.961e-08 - Sr_tr+2 9.961e-08 9.961e-08 -7.002 -7.002 -0.000 (0) + Na+ 1.000e-01 7.829e-02 -1.000 -1.106 -0.106 (0) +Na_tr 9.983e-08 + Na_tr+ 9.983e-08 9.982e-08 -7.001 -7.001 -0.000 (0) +O(0) 7.673e-11 + O2 3.837e-11 3.926e-11 -10.416 -10.406 0.010 (0) +Sr_tr 9.964e-08 + Sr_tr+2 9.964e-08 9.964e-08 -7.002 -7.002 -0.000 (0) ------------------------------Saturation indices------------------------------- @@ -20979,11 +20979,11 @@ Sr_tr 9.961e-08 A_cl 5.89 -8.11 -14.00 NaCl_tr A_hto 8.00 -7.00 -15.00 Hto A_na 5.88 -8.12 -14.00 Na_trCl - A_sr 4.76 -9.24 -14.00 Sr_trCl2 + A_sr 4.77 -9.23 -14.00 Sr_trCl2 H2(g) -37.84 -40.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O - Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.52 -10.41 -2.89 O2 + Halite -3.80 -2.22 1.58 NaCl + O2(g) -7.51 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -20997,40 +20997,40 @@ Using pure phase assemblage 9. Pure-phase assemblage after simulation 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -A_cl 0.00 -14.00 -14.00 3.388e-06 3.773e-06 3.855e-07 -A_hto 0.00 -15.00 -15.00 6.518e-06 7.255e-06 7.368e-07 -A_na 0.00 -14.00 -14.00 3.804e-05 4.232e-05 4.275e-06 -A_sr 0.00 -14.00 -14.00 3.571e-04 3.970e-04 3.993e-05 +A_cl 0.00 -14.00 -14.00 3.346e-06 3.727e-06 3.812e-07 +A_hto 0.00 -15.00 -15.00 6.090e-06 6.784e-06 6.940e-07 +A_na 0.00 -14.00 -14.00 3.373e-05 3.757e-05 3.843e-06 +A_sr 0.00 -14.00 -14.00 3.134e-04 3.490e-04 3.559e-05 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - -8.362e-13 Surface + diffuse layer charge, eq + -8.363e-13 Surface + diffuse layer charge, eq -5.000e-01 Surface charge, eq -4.825e+04 sigma, C/m² -7.590e-01 psi, V 2.954e+01 -F*psi/RT - 6.764e+12 exp(-F*psi/RT) + 6.763e+12 exp(-F*psi/RT) 1.000e+00 specific area, m²/g 1.000e+00 m² for 1.000e+00 g Water in diffuse layer: 5.000e-01 kg, 100.0% of total DDL-water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -5.941e-02 V. + Donnan Layer potential, psi_DL = -5.940e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.010e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 4.9524e-03 + Cl 4.9530e-03 Cl_tr 6.3261e-15 H 6.1838e-07 Hto 5.0000e-16 Na 5.0495e-01 - Na_tr 6.6056e-13 - O 6.5229e-09 - Sr_tr 8.7270e-11 + Na_tr 6.6049e-13 + O 6.5232e-09 + Sr_tr 8.7250e-11 Su 5.000e-01 moles @@ -21044,11 +21044,11 @@ Su Elements Molality Moles Cl 1.000e-01 5.001e-02 - Cl_tr 1.278e-13 6.388e-14 + Cl_tr 1.277e-13 6.387e-14 Hto 1.000e-15 5.000e-16 Na 1.000e-01 5.001e-02 - Na_tr 1.308e-13 6.542e-14 - Sr_tr 1.712e-12 8.559e-13 + Na_tr 1.308e-13 6.541e-14 + Sr_tr 1.712e-12 8.558e-13 ----------------------------Description of solution---------------------------- @@ -21057,9 +21057,9 @@ Su Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 5.000e-01 - Total alkalinity (eq/kg) = 9.764e-09 + Total alkalinity (eq/kg) = 9.751e-09 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.439e-08 + Electrical balance (eq) = 3.321e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (11 overall) Total H = 5.550622e+01 @@ -21070,23 +21070,23 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.310e-07 9.974e-08 -6.883 -7.001 -0.118 (0) - H+ 1.212e-07 1.000e-07 -6.917 -7.000 -0.083 0.00 + OH- 1.310e-07 9.973e-08 -6.883 -7.001 -0.118 (0) + H+ 1.212e-07 1.000e-07 -6.916 -7.000 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 - Cl- 1.000e-01 7.643e-02 -1.000 -1.117 -0.117 (0) -Cl_tr 1.278e-13 - Cl_tr- 1.278e-13 1.278e-13 -12.894 -12.894 -0.000 (0) + Cl- 1.000e-01 7.644e-02 -1.000 -1.117 -0.117 (0) +Cl_tr 1.277e-13 + Cl_tr- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) + H2 0.000e+00 0.000e+00 -40.999 -40.989 0.010 (0) Hto 1.000e-15 Hto 1.000e-15 1.000e-15 -15.000 -15.000 0.000 (0) Na 1.000e-01 - Na+ 1.000e-01 7.827e-02 -1.000 -1.106 -0.106 (0) + Na+ 1.000e-01 7.828e-02 -1.000 -1.106 -0.106 (0) Na_tr 1.308e-13 Na_tr+ 1.308e-13 1.308e-13 -12.883 -12.883 -0.000 (0) -O(0) 7.625e-11 - O2 3.813e-11 3.901e-11 -10.419 -10.409 0.010 (0) +O(0) 7.680e-11 + O2 3.840e-11 3.930e-11 -10.416 -10.406 0.010 (0) Sr_tr 1.712e-12 Sr_tr+2 1.712e-12 1.712e-12 -11.767 -11.767 -0.000 (0) @@ -21101,7 +21101,7 @@ Sr_tr 1.712e-12 H2(g) -37.84 -40.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl - O2(g) -7.52 -10.41 -2.89 O2 + O2(g) -7.51 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/ddl_flux.prn b/mytest/ddl_flux.prn index e6cfa397..9f25fea1 100644 --- a/mytest/ddl_flux.prn +++ b/mytest/ddl_flux.prn @@ -2,28 +2,28 @@ analyt 6.9396e-07 3.5721e-05 3.8504e-06 3.8134e-07 - 5.7870e+04 1.1588e-07 8.7865e-06 7.3672e-07 5.5000e-08 7.9830e-07 - 1.1574e+05 5.2481e-07 3.0820e-05 3.1558e-06 2.6438e-07 3.6088e-06 - 1.7361e+05 6.8076e-07 3.7835e-05 4.0046e-06 3.5136e-07 6.8748e-06 - 2.3148e+05 7.2208e-07 3.9548e-05 4.2148e-06 3.7604e-07 1.0239e-05 - 2.8935e+05 7.3295e-07 3.9965e-05 4.2666e-06 3.8300e-07 1.3625e-05 - 3.4722e+05 7.3581e-07 4.0068e-05 4.2794e-06 3.8497e-07 1.7017e-05 - 4.0509e+05 7.3657e-07 4.0093e-05 4.2826e-06 3.8553e-07 2.0409e-05 - 4.6296e+05 7.3676e-07 4.0100e-05 4.2834e-06 3.8570e-07 2.3800e-05 - 5.2083e+05 7.3682e-07 4.0101e-05 4.2836e-06 3.8575e-07 2.7191e-05 - 5.7870e+05 7.3683e-07 4.0102e-05 4.2836e-06 3.8576e-07 3.0582e-05 - 6.3657e+05 7.3683e-07 4.0102e-05 4.2837e-06 3.8577e-07 3.3972e-05 + 5.7870e+04 9.6752e-08 6.2664e-06 5.3683e-07 5.3174e-08 5.7118e-07 + 1.1574e+05 4.7146e-07 2.5299e-05 2.6159e-06 2.5911e-07 3.2074e-06 + 1.7361e+05 6.3007e-07 3.2736e-05 3.4960e-06 3.4630e-07 6.3479e-06 + 2.3148e+05 6.7574e-07 3.4873e-05 3.7494e-06 3.7141e-07 9.6052e-06 + 2.8935e+05 6.8876e-07 3.5483e-05 3.8218e-06 3.7859e-07 1.2893e-05 + 3.4722e+05 6.9248e-07 3.5658e-05 3.8424e-06 3.8065e-07 1.6188e-05 + 4.0509e+05 6.9354e-07 3.5709e-05 3.8483e-06 3.8125e-07 1.9486e-05 + 4.6296e+05 6.9384e-07 3.5723e-05 3.8500e-06 3.8143e-07 2.2783e-05 + 5.2083e+05 6.9393e-07 3.5728e-05 3.8505e-06 3.8148e-07 2.6079e-05 + 5.7870e+05 6.9395e-07 3.5729e-05 3.8507e-06 3.8150e-07 2.9376e-05 + 6.3657e+05 6.9396e-07 3.5730e-05 3.8507e-06 3.8150e-07 3.2672e-05 analyt 6.9396e-07 3.5721e-05 3.8504e-06 3.8134e-07 - 5.7870e+04 1.2803e-07 8.5157e-06 8.1080e-07 6.0908e-08 9.5039e-07 - 1.1574e+05 5.5153e-07 3.1414e-05 3.3004e-06 2.7869e-07 3.9184e-06 - 1.7361e+05 6.9386e-07 3.8126e-05 4.0651e-06 3.5883e-07 7.2228e-06 - 2.3148e+05 7.2691e-07 3.9549e-05 4.2299e-06 3.7886e-07 1.0601e-05 - 2.8935e+05 7.3454e-07 3.9851e-05 4.2653e-06 3.8384e-07 1.3995e-05 - 3.4722e+05 7.3630e-07 3.9914e-05 4.2728e-06 3.8507e-07 1.7393e-05 - 4.0509e+05 7.3671e-07 3.9928e-05 4.2745e-06 3.8538e-07 2.0791e-05 - 4.6296e+05 7.3681e-07 3.9931e-05 4.2748e-06 3.8546e-07 2.4189e-05 - 5.2083e+05 7.3683e-07 3.9931e-05 4.2749e-06 3.8548e-07 2.7588e-05 - 5.7870e+05 7.3683e-07 3.9931e-05 4.2749e-06 3.8548e-07 3.0986e-05 - 6.3657e+05 7.3683e-07 3.9931e-05 4.2749e-06 3.8548e-07 3.4384e-05 + 5.7870e+04 1.0720e-07 6.0906e-06 5.9392e-07 5.8915e-08 8.0458e-07 + 1.1574e+05 4.9744e-07 2.5904e-05 2.7554e-06 2.7334e-07 3.5792e-06 + 1.7361e+05 6.4408e-07 3.3132e-05 3.5673e-06 3.5387e-07 6.7669e-06 + 2.3148e+05 6.8137e-07 3.4966e-05 3.7736e-06 3.7433e-07 1.0043e-05 + 2.8935e+05 6.9078e-07 3.5429e-05 3.8257e-06 3.7949e-07 1.3341e-05 + 3.4722e+05 6.9316e-07 3.5546e-05 3.8389e-06 3.8080e-07 1.6644e-05 + 4.0509e+05 6.9376e-07 3.5575e-05 3.8422e-06 3.8112e-07 1.9948e-05 + 4.6296e+05 6.9391e-07 3.5583e-05 3.8430e-06 3.8121e-07 2.3252e-05 + 5.2083e+05 6.9395e-07 3.5585e-05 3.8432e-06 3.8123e-07 2.6557e-05 + 5.7870e+05 6.9396e-07 3.5585e-05 3.8433e-06 3.8123e-07 2.9895e-05 + 6.3657e+05 6.9396e-07 3.5585e-05 3.8433e-06 3.8123e-07 3.3199e-05 diff --git a/mytest/ddl_flux_101.sel b/mytest/ddl_flux_101.sel index 836041b7..9c332462 100644 --- a/mytest/ddl_flux_101.sel +++ b/mytest/ddl_flux_101.sel @@ -4,17 +4,17 @@ 0.100000121159 0.0000000000 0.100000121552 0.0000000000 0.100000121552 0.0000000000 - 0.099987434795 0.0000000000 - 0.099957047749 0.0000000000 - 0.099932655839 0.0000000000 - 0.099915554513 0.0000000000 - 0.099903984014 0.0000000000 - 0.099896250484 0.0000000000 - 0.099891104170 0.0000000000 - 0.099887685016 0.0000000000 - 0.099885414704 0.0000000000 - 0.099883907549 0.0000000000 - 0.099882907098 0.0000000000 + 0.099991503621 0.0000000000 + 0.099965752282 0.0000000000 + 0.099943417006 0.0000000000 + 0.099927167030 0.0000000000 + 0.099915926627 0.0000000000 + 0.099908301233 0.0000000000 + 0.099903169489 0.0000000000 + 0.099899727532 0.0000000000 + 0.099897422240 0.0000000000 + 0.099895879181 0.0000000000 + 0.099894846595 0.0000000000 0.000000100107 0.0000000000 0.000000100091 0.0000000000 0.100000121159 0.0000000000 @@ -24,14 +24,14 @@ 0.100000121552 0.0000000000 0.100000121159 0.0000000000 0.100000121552 0.0000000000 - 0.100007577081 0.0000000000 - 0.100012674339 0.0000000000 - 0.100013895395 0.0000000000 - 0.100014193611 0.0000000000 - 0.100014269444 0.0000000000 - 0.100014289770 0.0000000000 - 0.100014295711 0.0000000000 - 0.100014297784 0.0000000000 - 0.100014298781 0.0000000000 - 0.100014299470 0.0000000000 - 0.100014300069 0.0000000000 + 0.100009685937 0.0000000000 + 0.100017340609 0.0000000000 + 0.100019484236 0.0000000000 + 0.100020081618 0.0000000000 + 0.100020250677 0.0000000000 + 0.100020299480 0.0000000000 + 0.100020314041 0.0000000000 + 0.100020318713 0.0000000000 + 0.100020320490 0.0000000000 + 0.100020321424 0.0000000000 + 0.100020322077 0.0000000000 diff --git a/mytest/ddl_set_101.sel b/mytest/ddl_set_101.sel index 3198258e..002cf049 100644 --- a/mytest/ddl_set_101.sel +++ b/mytest/ddl_set_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.001290976751 92.0995391992 - 0.001105691598 124.9203330532 + 0.001290976751 92.0995395940 + 0.001105691598 124.9203333301 diff --git a/mytest/ddlsurf.out b/mytest/ddlsurf.out index 7f9cd2e0..e1838a68 100644 --- a/mytest/ddlsurf.out +++ b/mytest/ddlsurf.out @@ -219,7 +219,7 @@ Bfa 3.000e+05 m² for 1.000e+04 g Water in diffuse layer: 2.527e-01 kg, 0.3% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -252,7 +252,7 @@ Hfo 6.000e+07 m² for 1.000e+05 g Water in diffuse layer: 5.054e+01 kg, 66.4% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -287,7 +287,7 @@ Hfw 3.000e+07 m² for 1.000e+06 g Water in diffuse layer: 2.527e+01 kg, 33.2% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -334,7 +334,7 @@ Bfa 3.000e+05 m² for 1.000e+04 g Water in diffuse layer: 2.527e-01 kg, 0.3% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -367,7 +367,7 @@ Hfo 6.000e+07 m² for 1.000e+05 g Water in diffuse layer: 5.054e+01 kg, 66.4% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -402,7 +402,7 @@ Hfw 3.000e+07 m² for 1.000e+06 g Water in diffuse layer: 2.527e+01 kg, 33.2% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -529,7 +529,7 @@ Bfa 3.000e+05 m² for 1.000e+04 g Water in diffuse layer: 2.527e-01 kg, 0.3% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -562,7 +562,7 @@ Hfo 6.000e+07 m² for 1.000e+05 g Water in diffuse layer: 5.054e+01 kg, 66.4% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -597,7 +597,7 @@ Hfw 3.000e+07 m² for 1.000e+06 g Water in diffuse layer: 2.527e+01 kg, 33.2% of total DDL-water. - viscosity: 0.89433 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.707e-09 m; of free pore: 1.944e-10 m. Total moles in diffuse layer (excluding water), Donnan calculation. diff --git a/mytest/ddlsurf_101.sel b/mytest/ddlsurf_101.sel index 9ee11c0b..94fab23f 100644 --- a/mytest/ddlsurf_101.sel +++ b/mytest/ddlsurf_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.040400006516 4039.4018627569 - 0.040400006516 4039.4018627569 - 0.040400006516 4039.4018627569 - 0.040400006512 0.6830660097 - 0.040400006512 0.6830660098 + 0.040400006516 4039.4019837097 + 0.040400006516 4039.4019837097 + 0.040400006516 4039.4019837097 + 0.040400006512 0.6830660302 + 0.040400006512 0.6830660303 diff --git a/mytest/de.out b/mytest/de.out index 9f48943d..68534592 100644 --- a/mytest/de.out +++ b/mytest/de.out @@ -66,7 +66,7 @@ Initial solution 1. Specific Conductance (µS/cm, 10°C) = 385 Density (g/cm³) = 1.00013 Volume (L) = 1.00044 - Viscosity (mPa s) = 1.31319 + Viscosity (mPa s) = 1.31309 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.175e-03 Mass of water (kg) = 1.000e+00 @@ -183,7 +183,7 @@ Goethite 3.00 2.56 -0.44 1.070e-02 1.070e-02 -1.695e-15 Specific Conductance (µS/cm, 10°C) = 385 Density (g/cm³) = 1.00013 Volume (L) = 1.00044 - Viscosity (mPa s) = 1.31319 + Viscosity (mPa s) = 1.31309 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.175e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/de_101.sel b/mytest/de_101.sel index d8422f3b..ce996c7e 100644 --- a/mytest/de_101.sel +++ b/mytest/de_101.sel @@ -1,134 +1,134 @@ Mu SC - 0.009175023891 385.8594425405 - 0.009175023891 385.8594425406 - 0.009175023891 385.8594425405 - 0.009175023891 385.8594425405 - 0.008940983584 377.3439726815 - 0.009175023891 385.8594425412 - 0.008008699233 339.3852191479 - 0.008759131148 369.9193668721 - 0.008919794796 376.4625957401 - 0.008937939741 377.2132417286 - 0.008940406766 377.3183786522 - 0.008940841422 377.3375288900 - 0.008940942161 377.3420764980 - 0.008940970457 377.3433692425 - 0.008940979257 377.3437731543 - 0.008940982136 377.3439054793 - 0.008940982136 377.3439054792 - 0.008940961438 377.3429563824 - 0.008940783270 377.3349424751 - 0.008939104198 377.2628355873 - 0.008922304641 376.5679022448 - 0.008805355739 371.8021761343 - 0.008355260757 353.5270694484 - 0.007505832572 318.9507986461 - 0.006924301665 295.1313377669 - 0.007187224244 305.7968537338 - 0.007836241865 332.2404087514 - 0.008420101394 356.0068960888 - 0.008799589518 371.4557469508 - 0.009007027384 379.9152893754 - 0.009108947297 384.0854627652 - 0.009156200075 386.0276759491 - 0.009177699596 386.9157759616 - 0.009187613241 387.3266013047 - 0.009192346418 387.5220123669 - 0.009194690320 387.6166891661 - 0.009195866640 387.6610906058 - 0.009196431425 387.6782746948 - 0.009196652897 387.6793760076 - 0.009196668122 387.6700714996 - 0.009196550138 387.6533775905 - 0.009196339096 387.6309570780 - 0.009196057598 387.6037669430 - 0.009195719033 387.5724085951 - 0.009195331653 387.5373002126 - 0.009194901174 387.4987824761 - 0.009194432068 387.4571689140 - 0.008940983584 377.3439726815 - 0.009194432068 387.4571689118 - 0.008804465865 371.7938494599 - 0.008925553309 376.7074390028 - 0.008938919748 377.2564474941 - 0.008940617914 377.3279141288 - 0.008940898445 377.3401350728 - 0.008940959375 377.3428668017 - 0.008940975959 377.3436221770 - 0.008940981069 377.3438564592 - 0.008940982743 377.3439334076 - 0.008940983309 377.3439594206 - 0.008940983309 377.3439594206 - 0.008940978980 377.3437606042 - 0.008940942687 377.3421106469 - 0.008940649497 377.3292359564 - 0.008937748950 377.2076690601 - 0.008911122441 376.1191629721 - 0.008764946730 370.1889019443 - 0.008350301167 353.3782696899 - 0.007800830473 331.0313809224 - 0.007627749948 323.9150105789 - 0.007974521905 337.9533635725 - 0.008449800817 357.2420061927 - 0.008804834463 371.6700018427 - 0.009008840403 379.9826342100 - 0.009110515008 384.1433983348 - 0.009157394442 386.0731043423 - 0.009178322860 386.9407335985 - 0.009187775469 387.3353372072 - 0.009192205609 387.5209480602 - 0.009194379594 387.6114886350 - 0.009195484794 387.6561994026 - 0.009196049197 387.6770943423 - 0.009196320759 387.6845179772 - 0.009196422364 387.6835584254 - 0.009196417163 387.6767833216 - 0.009196338214 387.6654952544 - 0.009196202850 387.6503470826 - 0.009196020270 387.6316680106 - 0.009195795290 387.6096278713 - 0.009195530637 387.5843350868 - 0.009195228051 387.5558838480 - 0.008940983584 377.3439726815 - 0.009195228051 387.5558838473 - 0.008869355382 374.4309241575 - 0.008932662863 376.9995131601 - 0.008939795960 377.2932203249 - 0.008940758928 377.3340350235 - 0.008940928153 377.3414633145 - 0.008940967390 377.3432314075 - 0.008940978442 377.3437359738 - 0.008940981890 377.3438941857 - 0.008940983023 377.3439462653 - 0.008940983405 377.3439638659 - 0.008940983405 377.3439638659 - 0.008940980534 377.3438319089 - 0.008940957715 377.3427899254 - 0.008940790013 377.3353450707 - 0.008939191599 377.2678112771 - 0.008924054174 376.6468528205 - 0.008831110023 372.8735645395 - 0.008519010502 360.2316216183 - 0.008009630718 339.5536042528 - 0.007753899283 329.0940864130 - 0.008022398268 339.9292313450 - 0.008463023546 357.7909283932 - 0.008807745396 371.7904813351 - 0.009009480125 380.0074039967 - 0.009110469201 384.1398329830 - 0.009157154715 386.0620978574 - 0.009177899630 386.9228778592 - 0.009187222670 387.3127598619 - 0.009191575837 387.4957312836 - 0.009193711682 387.5852156251 - 0.009194805344 387.6300127603 - 0.009195376512 387.6518403408 - 0.009195667851 387.6608547015 - 0.009195798849 387.6620214695 - 0.009195830576 387.6578292651 - 0.009195794638 387.6495195857 - 0.009195707324 387.6376942604 - 0.009195576844 387.6226290359 - 0.009195407362 387.6044482495 - 0.009195200886 387.5832091075 - 0.009194958540 387.5589559456 + 0.009175023891 385.8755294995 + 0.009175023891 385.8755294997 + 0.009175023891 385.8755294995 + 0.009175023891 385.8755294995 + 0.008940983584 377.3598593427 + 0.009175023891 385.8755295003 + 0.008008699233 339.3987551574 + 0.008759131148 369.9347871877 + 0.008919794796 376.4784284863 + 0.008937939741 377.2291207653 + 0.008940406766 377.3342638828 + 0.008940841422 377.3534151993 + 0.008940942161 377.3579630564 + 0.008940970457 377.3592558711 + 0.008940979257 377.3596598047 + 0.008940982136 377.3597921368 + 0.008940982136 377.3597921367 + 0.008940961438 377.3588429885 + 0.008940783270 377.3508286397 + 0.008939104198 377.2787175418 + 0.008922304640 376.5837413505 + 0.008805355738 371.8177149373 + 0.008355260756 353.5414645807 + 0.007505832576 318.9631090525 + 0.006924301679 295.1422846626 + 0.007187224274 305.8084205616 + 0.007836241903 332.2535316079 + 0.008420101414 356.0214624706 + 0.008799589526 371.4712729795 + 0.009007027386 379.9313464046 + 0.009108947297 384.1017819469 + 0.009156200075 386.0441166512 + 0.009177699596 386.9322715750 + 0.009187613241 387.3431216463 + 0.009192346418 387.5385436894 + 0.009194690320 387.6332248493 + 0.009195866640 387.6776271020 + 0.009196431425 387.6948098084 + 0.009196652897 387.6959081740 + 0.009196668122 387.6865994661 + 0.009196550137 387.6699002524 + 0.009196339096 387.6474734408 + 0.009196057598 387.6202760516 + 0.009195719033 387.5889095345 + 0.009195331652 387.5537921390 + 0.009194901174 387.5152645923 + 0.009194432068 387.4736405024 + 0.008940983584 377.3598593427 + 0.009194432068 387.4736405013 + 0.008804465854 371.8093834548 + 0.008925553308 376.7232859882 + 0.008938919748 377.2723289163 + 0.008940617914 377.3437998744 + 0.008940898445 377.3560215222 + 0.008940959375 377.3587534027 + 0.008940975959 377.3595088192 + 0.008940981069 377.3597431140 + 0.008940982743 377.3598200666 + 0.008940983309 377.3598460810 + 0.008940983309 377.3598460810 + 0.008940978980 377.3596472539 + 0.008940942687 377.3579972064 + 0.008940649497 377.3451217830 + 0.008937748950 377.2235475129 + 0.008911122439 376.1349728833 + 0.008764946721 370.2043351982 + 0.008350301144 353.3926483375 + 0.007800830445 331.0443993864 + 0.007627749927 323.9276139333 + 0.007974521889 337.9668170059 + 0.008449800810 357.2566443633 + 0.008804834460 371.6855408199 + 0.009008840403 379.9986962169 + 0.009110515009 384.1597220854 + 0.009157394442 386.0895487846 + 0.009178322860 386.9572317618 + 0.009187775469 387.3518594070 + 0.009192205609 387.5374811990 + 0.009194379594 387.6280266828 + 0.009195484794 387.6727393209 + 0.009196049197 387.6936343773 + 0.009196320759 387.7010569546 + 0.009196422364 387.7000954214 + 0.009196417163 387.6933175156 + 0.009196338214 387.6820258623 + 0.009196202850 387.6668733334 + 0.009196020270 387.6481891324 + 0.009195795289 387.6261430708 + 0.009195530637 387.6008435941 + 0.009195228051 387.5723848959 + 0.008940983584 377.3598593427 + 0.009195228051 387.5723848923 + 0.008869355384 374.4466254091 + 0.008932662864 377.0153784256 + 0.008939795960 377.3091039759 + 0.008940758928 377.3499211225 + 0.008940928153 377.3573498378 + 0.008940967390 377.3591180285 + 0.008940978442 377.3596226222 + 0.008940981890 377.3597808426 + 0.008940983023 377.3598329250 + 0.008940983405 377.3598505266 + 0.008940983405 377.3598505265 + 0.008940980534 377.3597185624 + 0.008940957715 377.3586765222 + 0.008940790013 377.3512312495 + 0.008939191599 377.2836934080 + 0.008924054174 376.6626960865 + 0.008831110024 372.8891681823 + 0.008519010505 360.2464268500 + 0.008009630724 339.5671345593 + 0.007753899293 329.1069938862 + 0.008022398278 339.9428018952 + 0.008463023552 357.8055997519 + 0.008807745398 371.8060278766 + 0.009009480126 380.0234677794 + 0.009110469201 384.1561567002 + 0.009157154715 386.0785417522 + 0.009177899630 386.9393750155 + 0.009187222670 387.3292807654 + 0.009191575837 387.5122630249 + 0.009193711682 387.6017523271 + 0.009194805344 387.6465514951 + 0.009195376513 387.6683794802 + 0.009195667851 387.6773931423 + 0.009195798849 387.6785583785 + 0.009195830576 387.6743639072 + 0.009195794638 387.6660512713 + 0.009195707324 387.6542222781 + 0.009195576844 387.6391526699 + 0.009195407362 387.6209667756 + 0.009195200886 387.5997217932 + 0.009194958540 387.5754620426 diff --git a/mytest/deb1.out b/mytest/deb1.out index 08a7ad2f..ce50c64a 100644 --- a/mytest/deb1.out +++ b/mytest/deb1.out @@ -181,7 +181,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -225,7 +225,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 6.062e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89005 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.180e-07 m; of free pore: 1.453e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -406,7 +406,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -500,7 +500,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -594,7 +594,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -688,7 +688,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -782,7 +782,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -876,7 +876,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -970,7 +970,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1064,7 +1064,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1158,7 +1158,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1252,7 +1252,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1399,88 +1399,88 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - -3.593e-12 Surface + diffuse layer charge, eq + -3.453e-12 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -1.284e-01 psi, V - 4.996e+00 -F*psi/RT - 1.479e+02 exp(-F*psi/RT) + -1.283e-01 psi, V + 4.994e+00 -F*psi/RT + 1.475e+02 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 1.913e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89011 mPa s for DDL water. - Radius of total pore: 7.804e-08 m; of free pore: 5.572e-08 m. + Water in diffuse layer: 1.911e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 7.804e-08 m; of free pore: 5.575e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -8.581e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 2.822e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -8.577e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 2.818e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 1.2570e-06 - H 3.8682e-06 - Na 9.9739e-04 - O 1.0198e-10 + Cl 1.2609e-06 + H 3.5555e-06 + Na 9.9771e-04 + O 1.1063e-10 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 5.027e-03 -2.299 + Su- 1.000e-03 1.000 5.022e-03 -2.299 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 1.855e-04 3.690e-05 - Na 1.848e-04 3.676e-05 + Cl 1.860e-04 3.704e-05 + Na 1.853e-04 3.691e-05 ----------------------------Description of solution---------------------------- - pH = 6.151 Charge balance - pe = 12.600 Adjusted to redox equilibrium + pH = 6.187 Charge balance + pe = 12.571 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 6 Density (g/cm³) = 0.99705 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89011 Activity of water = 1.000 - Ionic strength (mol/kgw) = 1.855e-04 - Mass of water (kg) = 1.989e-01 - Total alkalinity (eq/kg) = -7.021e-07 + Ionic strength (mol/kgw) = 1.860e-04 + Mass of water (kg) = 1.991e-01 + Total alkalinity (eq/kg) = -6.447e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.295e-10 + Electrical balance (eq) = 2.181e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) - Total H = 2.208376e+01 - Total O = 1.104188e+01 + Total H = 2.210741e+01 + Total O = 1.105370e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 7.166e-07 7.057e-07 -6.145 -6.151 -0.007 0.00 - OH- 1.457e-08 1.434e-08 -7.837 -7.843 -0.007 -4.13 - H2O 1.089e+02 1.000e+00 2.037 -0.000 0.000 18.07 -Cl 1.855e-04 - Cl- 1.855e-04 1.826e-04 -3.732 -3.739 -0.007 18.06 - HCl 4.438e-11 4.438e-11 -10.353 -10.353 0.000 (0) + H+ 6.604e-07 6.503e-07 -6.180 -6.187 -0.007 0.00 + OH- 1.581e-08 1.556e-08 -7.801 -7.808 -0.007 -4.13 + H2O 1.088e+02 1.000e+00 2.036 -0.000 0.000 18.07 +Cl 1.860e-04 + Cl- 1.860e-04 1.831e-04 -3.731 -3.737 -0.007 18.06 + HCl 4.101e-11 4.101e-11 -10.387 -10.387 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.654 -40.654 0.000 28.61 -Na 1.848e-04 - Na+ 1.848e-04 1.819e-04 -3.733 -3.740 -0.007 -1.50 -O(0) 1.691e-11 - O2 8.454e-12 8.454e-12 -11.073 -11.073 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.666 -40.666 0.000 28.61 +Na 1.853e-04 + Na+ 1.853e-04 1.824e-04 -3.732 -3.739 -0.007 -1.50 +O(0) 1.794e-11 + O2 8.968e-12 8.968e-12 -11.047 -11.047 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.55 -40.65 -3.10 H2 + H2(g) -37.57 -40.67 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -9.05 -7.48 1.57 NaCl - O2(g) -8.18 -11.07 -2.89 O2 + O2(g) -8.15 -11.05 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1499,88 +1499,88 @@ Mixture 2. Diffuse Double Layer Surface-Complexation Model Su - -8.733e-14 Surface + diffuse layer charge, eq + -9.497e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -1.032e-01 psi, V - 4.018e+00 -F*psi/RT - 5.558e+01 exp(-F*psi/RT) + -1.031e-01 psi, V + 4.013e+00 -F*psi/RT + 5.534e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 1.236e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. - Radius of total pore: 7.804e-08 m; of free pore: 6.451e-08 m. + Water in diffuse layer: 1.233e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 7.804e-08 m; of free pore: 6.454e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -7.138e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.609e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -7.132e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.605e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 3.8757e-06 - H 2.1501e-06 - Na 1.0017e-03 - O 7.9269e-11 + Cl 3.8950e-06 + H 1.9055e-06 + Na 1.0020e-03 + O 8.9016e-11 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 3.750e-03 -2.426 + Su- 1.000e-03 1.000 3.747e-03 -2.426 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 5.048e-04 1.346e-04 - Na 5.038e-04 1.343e-04 + Cl 5.071e-04 1.354e-04 + Na 5.062e-04 1.351e-04 ----------------------------Description of solution---------------------------- - pH = 5.977 Charge balance - pe = 12.837 Adjusted to redox equilibrium + pH = 6.027 Charge balance + pe = 12.797 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 29 Density (g/cm³) = 0.99706 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89018 Activity of water = 1.000 - Ionic strength (mol/kgw) = 5.048e-04 - Mass of water (kg) = 2.666e-01 - Total alkalinity (eq/kg) = -1.072e-06 + Ionic strength (mol/kgw) = 5.072e-04 + Mass of water (kg) = 2.669e-01 + Total alkalinity (eq/kg) = -9.517e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.544e-10 + Electrical balance (eq) = 1.748e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (16 overall) - Total H = 2.960056e+01 - Total O = 1.480028e+01 + Total H = 2.962879e+01 + Total O = 1.481439e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.081e-06 1.055e-06 -5.966 -5.977 -0.011 0.00 - OH- 9.846e-09 9.596e-09 -8.007 -8.018 -0.011 -4.12 - H2O 8.123e+01 1.000e+00 1.910 -0.000 0.000 18.07 -Cl 5.048e-04 - Cl- 5.048e-04 4.920e-04 -3.297 -3.308 -0.011 18.07 - HCl 1.787e-10 1.788e-10 -9.748 -9.748 0.000 (0) + H+ 9.626e-07 9.390e-07 -6.017 -6.027 -0.011 0.00 + OH- 1.106e-08 1.078e-08 -7.956 -7.967 -0.011 -4.12 + H2O 8.115e+01 1.000e+00 1.909 -0.000 0.000 18.07 +Cl 5.071e-04 + Cl- 5.071e-04 4.943e-04 -3.295 -3.306 -0.011 18.07 + HCl 1.598e-10 1.599e-10 -9.796 -9.796 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.777 -40.777 0.000 28.61 -Na 5.038e-04 - Na+ 5.038e-04 4.911e-04 -3.298 -3.309 -0.011 -1.49 -O(0) 2.981e-11 - O2 1.491e-11 1.491e-11 -10.827 -10.827 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.799 -40.799 0.000 28.61 +Na 5.062e-04 + Na+ 5.062e-04 4.934e-04 -3.296 -3.307 -0.011 -1.49 +O(0) 3.300e-11 + O2 1.650e-11 1.650e-11 -10.783 -10.782 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.68 -40.78 -3.10 H2 + H2(g) -37.70 -40.80 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -8.19 -6.62 1.57 NaCl - O2(g) -7.93 -10.83 -2.89 O2 + Halite -8.18 -6.61 1.57 NaCl + O2(g) -7.89 -10.78 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1599,88 +1599,88 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - -8.595e-14 Surface + diffuse layer charge, eq + -9.081e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -9.416e-02 psi, V - 3.665e+00 -F*psi/RT - 3.906e+01 exp(-F*psi/RT) + -9.403e-02 psi, V + 3.660e+00 -F*psi/RT + 3.887e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 1.044e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89022 mPa s for DDL water. - Radius of total pore: 7.804e-08 m; of free pore: 6.679e-08 m. + Water in diffuse layer: 1.042e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 7.804e-08 m; of free pore: 6.682e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -6.629e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.320e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -6.622e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.317e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 5.7704e-06 - H 1.3068e-06 - Na 1.0045e-03 - O 9.4101e-11 + Cl 5.8031e-06 + H 1.1259e-06 + Na 1.0047e-03 + O 1.0840e-10 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 3.499e-03 -2.456 + Su- 1.000e-03 1.000 3.496e-03 -2.456 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 7.296e-04 2.085e-04 - Na 7.286e-04 2.082e-04 + Cl 7.334e-04 2.098e-04 + Na 7.326e-04 2.096e-04 ----------------------------Description of solution---------------------------- - pH = 6.036 Charge balance - pe = 12.815 Adjusted to redox equilibrium + pH = 6.098 Charge balance + pe = 12.762 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 48 Density (g/cm³) = 0.99707 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89022 Activity of water = 1.000 - Ionic strength (mol/kgw) = 7.296e-04 - Mass of water (kg) = 2.858e-01 - Total alkalinity (eq/kg) = -9.368e-07 + Ionic strength (mol/kgw) = 7.335e-04 + Mass of water (kg) = 2.860e-01 + Total alkalinity (eq/kg) = -8.080e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.174e-10 + Electrical balance (eq) = 2.236e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) - Total H = 3.172492e+01 - Total O = 1.586246e+01 + Total H = 3.175317e+01 + Total O = 1.587659e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 9.479e-07 9.204e-07 -6.023 -6.036 -0.013 0.00 - OH- 1.134e-08 1.100e-08 -7.945 -7.959 -0.013 -4.11 - H2O 7.579e+01 1.000e+00 1.880 -0.000 0.000 18.07 -Cl 7.296e-04 - Cl- 7.296e-04 7.075e-04 -3.137 -3.150 -0.013 18.07 - HCl 2.242e-10 2.243e-10 -9.649 -9.649 0.000 (0) + H+ 8.209e-07 7.971e-07 -6.086 -6.098 -0.013 0.00 + OH- 1.310e-08 1.270e-08 -7.883 -7.896 -0.013 -4.11 + H2O 7.572e+01 1.000e+00 1.879 -0.000 0.000 18.07 +Cl 7.334e-04 + Cl- 7.334e-04 7.112e-04 -3.135 -3.148 -0.013 18.07 + HCl 1.952e-10 1.953e-10 -9.710 -9.709 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.853 -40.853 0.000 28.61 -Na 7.286e-04 - Na+ 7.286e-04 7.068e-04 -3.137 -3.151 -0.013 -1.48 -O(0) 4.226e-11 - O2 2.113e-11 2.113e-11 -10.675 -10.675 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.871 -40.871 0.000 28.61 +Na 7.326e-04 + Na+ 7.326e-04 7.106e-04 -3.135 -3.148 -0.013 -1.48 +O(0) 4.602e-11 + O2 2.301e-11 2.301e-11 -10.638 -10.638 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.75 -40.85 -3.10 H2 + H2(g) -37.77 -40.87 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.87 -6.30 1.57 NaCl - O2(g) -7.78 -10.68 -2.89 O2 + O2(g) -7.75 -10.64 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1699,88 +1699,88 @@ Mixture 4. Diffuse Double Layer Surface-Complexation Model Su - -5.952e-14 Surface + diffuse layer charge, eq + -6.012e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -8.981e-02 psi, V - 3.496e+00 -F*psi/RT - 3.298e+01 exp(-F*psi/RT) + -8.971e-02 psi, V + 3.492e+00 -F*psi/RT + 3.285e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 9.611e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89024 mPa s for DDL water. - Radius of total pore: 7.804e-08 m; of free pore: 6.775e-08 m. + Water in diffuse layer: 9.592e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 7.804e-08 m; of free pore: 6.777e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -6.385e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.201e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -6.380e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.198e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 6.9861e-06 - H 8.1858e-07 - Na 1.0062e-03 - O 1.2636e-10 + Cl 7.0170e-06 + H 6.9053e-07 + Na 1.0063e-03 + O 1.4862e-10 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 3.400e-03 -2.468 + Su- 1.000e-03 1.000 3.398e-03 -2.469 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 8.727e-04 2.567e-04 - Na 8.720e-04 2.564e-04 + Cl 8.763e-04 2.579e-04 + Na 8.757e-04 2.577e-04 ----------------------------Description of solution---------------------------- - pH = 6.163 Charge balance - pe = 12.697 Adjusted to redox equilibrium + pH = 6.235 Charge balance + pe = 12.629 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 61 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89024 Activity of water = 1.000 - Ionic strength (mol/kgw) = 8.727e-04 - Mass of water (kg) = 2.941e-01 - Total alkalinity (eq/kg) = -6.943e-07 + Ionic strength (mol/kgw) = 8.763e-04 + Mass of water (kg) = 2.943e-01 + Total alkalinity (eq/kg) = -5.830e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.154e-10 + Electrical balance (eq) = 2.158e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) - Total H = 3.264744e+01 - Total O = 1.632372e+01 + Total H = 3.266799e+01 + Total O = 1.633399e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 7.093e-07 6.870e-07 -6.149 -6.163 -0.014 0.00 - OH- 1.523e-08 1.473e-08 -7.817 -7.832 -0.015 -4.11 - H2O 7.365e+01 1.000e+00 1.867 -0.000 0.000 18.07 -Cl 8.727e-04 - Cl- 8.727e-04 8.440e-04 -3.059 -3.074 -0.015 18.07 - HCl 1.996e-10 1.997e-10 -9.700 -9.700 0.000 (0) + H+ 6.008e-07 5.819e-07 -6.221 -6.235 -0.014 0.00 + OH- 1.799e-08 1.739e-08 -7.745 -7.760 -0.015 -4.11 + H2O 7.360e+01 1.000e+00 1.867 -0.000 0.000 18.07 +Cl 8.763e-04 + Cl- 8.763e-04 8.474e-04 -3.057 -3.072 -0.015 18.07 + HCl 1.697e-10 1.699e-10 -9.770 -9.770 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.870 -40.870 0.000 28.61 -Na 8.720e-04 - Na+ 8.720e-04 8.435e-04 -3.059 -3.074 -0.014 -1.48 -O(0) 4.582e-11 - O2 2.291e-11 2.292e-11 -10.640 -10.640 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.879 -40.879 0.000 28.61 +Na 8.757e-04 + Na+ 8.757e-04 8.471e-04 -3.058 -3.072 -0.014 -1.48 +O(0) 4.773e-11 + O2 2.387e-11 2.387e-11 -10.622 -10.622 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.77 -40.87 -3.10 H2 + H2(g) -37.78 -40.88 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -7.72 -6.15 1.57 NaCl - O2(g) -7.75 -10.64 -2.89 O2 + Halite -7.71 -6.14 1.57 NaCl + O2(g) -7.73 -10.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1799,79 +1799,79 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - -2.431e-13 Surface + diffuse layer charge, eq + -2.427e-13 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -8.780e-02 psi, V - 3.418e+00 -F*psi/RT - 3.050e+01 exp(-F*psi/RT) + -8.774e-02 psi, V + 3.415e+00 -F*psi/RT + 3.043e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 9.246e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89025 mPa s for DDL water. - Radius of total pore: 7.804e-08 m; of free pore: 6.817e-08 m. + Water in diffuse layer: 9.235e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 7.804e-08 m; of free pore: 6.818e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -6.273e-02 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.149e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -6.269e-02 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.148e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 7.6310e-06 - H 5.2593e-07 - Na 1.0071e-03 - O 1.7967e-10 + Cl 7.6510e-06 + H 4.3818e-07 + Na 1.0072e-03 + O 2.1456e-10 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 3.359e-03 -2.474 + Su- 1.000e-03 1.000 3.357e-03 -2.474 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 9.484e-04 2.824e-04 - Na 9.479e-04 2.822e-04 + Cl 9.508e-04 2.832e-04 + Na 9.504e-04 2.831e-04 ----------------------------Description of solution---------------------------- - pH = 6.320 Charge balance - pe = 12.520 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 67 + pH = 6.398 Charge balance + pe = 12.443 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 68 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 - Viscosity (mPa s) = 0.89025 + Viscosity (mPa s) = 0.89026 Activity of water = 1.000 - Ionic strength (mol/kgw) = 9.484e-04 - Mass of water (kg) = 2.977e-01 - Total alkalinity (eq/kg) = -4.731e-07 + Ionic strength (mol/kgw) = 9.508e-04 + Mass of water (kg) = 2.978e-01 + Total alkalinity (eq/kg) = -3.872e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.151e-10 + Electrical balance (eq) = 2.153e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) - Total H = 3.305272e+01 - Total O = 1.652636e+01 + Total H = 3.306460e+01 + Total O = 1.653230e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 4.949e-07 4.787e-07 -6.306 -6.320 -0.014 0.00 - OH- 2.189e-08 2.114e-08 -7.660 -7.675 -0.015 -4.11 - H2O 7.274e+01 1.000e+00 1.862 -0.000 0.000 18.07 -Cl 9.484e-04 - Cl- 9.484e-04 9.159e-04 -3.023 -3.038 -0.015 18.07 - HCl 1.509e-10 1.510e-10 -9.821 -9.821 0.000 (0) + H+ 4.132e-07 3.998e-07 -6.384 -6.398 -0.014 0.00 + OH- 2.622e-08 2.532e-08 -7.581 -7.597 -0.015 -4.11 + H2O 7.272e+01 1.000e+00 1.862 -0.000 0.000 18.07 +Cl 9.508e-04 + Cl- 9.508e-04 9.182e-04 -3.022 -3.037 -0.015 18.07 + HCl 1.263e-10 1.264e-10 -9.899 -9.898 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.829 -40.829 0.000 28.61 -Na 9.479e-04 - Na+ 9.479e-04 9.157e-04 -3.023 -3.038 -0.015 -1.48 -O(0) 3.796e-11 - O2 1.898e-11 1.898e-11 -10.722 -10.722 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.833 -40.833 0.000 28.61 +Na 9.504e-04 + Na+ 9.504e-04 9.181e-04 -3.022 -3.037 -0.015 -1.48 +O(0) 3.857e-11 + O2 1.928e-11 1.929e-11 -10.715 -10.715 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1879,8 +1879,8 @@ O(0) 3.796e-11 H2(g) -37.73 -40.83 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -7.65 -6.08 1.57 NaCl - O2(g) -7.83 -10.72 -2.89 O2 + Halite -7.64 -6.07 1.57 NaCl + O2(g) -7.82 -10.71 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1899,79 +1899,79 @@ Mixture 6. Diffuse Double Layer Surface-Complexation Model Su - -6.359e-14 Surface + diffuse layer charge, eq + -6.243e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -8.697e-02 psi, V - 3.385e+00 -F*psi/RT - 2.952e+01 exp(-F*psi/RT) + -8.694e-02 psi, V + 3.384e+00 -F*psi/RT + 2.949e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 9.097e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + Water in diffuse layer: 9.092e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.834e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -6.226e-02 V. + Donnan Layer potential, psi_DL = -6.224e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.128e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 7.9166e-06 - H 3.4766e-07 + Cl 7.9265e-06 + H 2.8965e-07 Na 1.0076e-03 - O 2.6011e-10 + O 3.1163e-10 Su 1.000e-03 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e-03 1.000 3.342e-03 -2.476 + Su- 1.000e-03 1.000 3.341e-03 -2.476 -----------------------------Solution composition------------------------------ Elements Molality Moles - Cl 9.819e-04 2.938e-04 - Na 9.816e-04 2.937e-04 + Cl 9.831e-04 2.942e-04 + Na 9.828e-04 2.941e-04 ----------------------------Description of solution---------------------------- - pH = 6.485 Charge balance - pe = 12.279 Adjusted to redox equilibrium + pH = 6.564 Charge balance + pe = 12.199 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 71 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89026 Activity of water = 1.000 - Ionic strength (mol/kgw) = 9.819e-04 - Mass of water (kg) = 2.992e-01 - Total alkalinity (eq/kg) = -3.065e-07 + Ionic strength (mol/kgw) = 9.831e-04 + Mass of water (kg) = 2.993e-01 + Total alkalinity (eq/kg) = -2.439e-07 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.150e-10 + Electrical balance (eq) = 2.151e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) - Total H = 3.321764e+01 - Total O = 1.660882e+01 + Total H = 3.322326e+01 + Total O = 1.661163e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 3.384e-07 3.272e-07 -6.471 -6.485 -0.015 0.00 - OH- 3.205e-08 3.093e-08 -7.494 -7.510 -0.015 -4.11 - H2O 7.238e+01 1.000e+00 1.860 -0.000 0.000 18.07 -Cl 9.819e-04 - Cl- 9.819e-04 9.477e-04 -3.008 -3.023 -0.015 18.07 - HCl 1.067e-10 1.068e-10 -9.972 -9.971 0.000 (0) + H+ 2.822e-07 2.729e-07 -6.549 -6.564 -0.015 0.00 + OH- 3.844e-08 3.709e-08 -7.415 -7.431 -0.015 -4.11 + H2O 7.237e+01 1.000e+00 1.860 -0.000 0.000 18.07 +Cl 9.831e-04 + Cl- 9.831e-04 9.488e-04 -3.007 -3.023 -0.015 18.07 + HCl 8.910e-11 8.918e-11 -10.050 -10.050 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.678 -40.678 0.000 28.61 -Na 9.816e-04 - Na+ 9.816e-04 9.477e-04 -3.008 -3.023 -0.015 -1.48 -O(0) 1.893e-11 - O2 9.465e-12 9.467e-12 -11.024 -11.024 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.677 -40.677 0.000 28.61 +Na 9.828e-04 + Na+ 9.828e-04 9.489e-04 -3.008 -3.023 -0.015 -1.48 +O(0) 1.884e-11 + O2 9.422e-12 9.424e-12 -11.026 -11.026 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1980,7 +1980,7 @@ O(0) 1.893e-11 H2(g) -37.58 -40.68 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.62 -6.05 1.57 NaCl - O2(g) -8.13 -11.02 -2.89 O2 + O2(g) -8.13 -11.03 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1999,28 +1999,28 @@ Mixture 7. Diffuse Double Layer Surface-Complexation Model Su - -9.868e-14 Surface + diffuse layer charge, eq + -9.176e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -8.666e-02 psi, V + -8.665e-02 psi, V 3.373e+00 -F*psi/RT - 2.917e+01 exp(-F*psi/RT) + 2.916e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 9.043e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + Water in diffuse layer: 9.041e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.840e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -6.209e-02 V. + Donnan Layer potential, psi_DL = -6.208e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.121e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 8.0239e-06 - H 2.4024e-07 + Cl 8.0278e-06 + H 2.0352e-07 Na 1.0078e-03 - O 3.7077e-10 + O 4.3759e-10 Su 1.000e-03 moles @@ -2033,54 +2033,54 @@ Su Elements Molality Moles - Cl 9.945e-04 2.981e-04 - Na 9.943e-04 2.981e-04 + Cl 9.949e-04 2.983e-04 + Na 9.948e-04 2.982e-04 ----------------------------Description of solution---------------------------- - pH = 6.641 Charge balance - pe = 12.043 Adjusted to redox equilibrium + pH = 6.713 Charge balance + pe = 11.969 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 72 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89026 Activity of water = 1.000 - Ionic strength (mol/kgw) = 9.945e-04 + Ionic strength (mol/kgw) = 9.950e-04 Mass of water (kg) = 2.998e-01 - Total alkalinity (eq/kg) = -1.909e-07 + Total alkalinity (eq/kg) = -1.464e-07 Temperature (°C) = 25.00 Electrical balance (eq) = 2.148e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (15 overall) - Total H = 3.327756e+01 - Total O = 1.663878e+01 + Total H = 3.327977e+01 + Total O = 1.663988e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 2.367e-07 2.288e-07 -6.626 -6.641 -0.015 0.00 - OH- 4.585e-08 4.424e-08 -7.339 -7.354 -0.016 -4.11 + H+ 2.005e-07 1.938e-07 -6.698 -6.713 -0.015 0.00 + OH- 5.413e-08 5.223e-08 -7.267 -7.282 -0.016 -4.11 H2O 7.225e+01 1.000e+00 1.859 -0.000 0.000 18.07 -Cl 9.945e-04 - Cl- 9.945e-04 9.597e-04 -3.002 -3.018 -0.015 18.07 - HCl 7.556e-11 7.563e-11 -10.122 -10.121 0.000 (0) +Cl 9.949e-04 + Cl- 9.949e-04 9.601e-04 -3.002 -3.018 -0.015 18.07 + HCl 6.402e-11 6.409e-11 -10.194 -10.193 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.518 -40.518 0.000 28.61 -Na 9.943e-04 - Na+ 9.943e-04 9.598e-04 -3.002 -3.018 -0.015 -1.48 -O(0) 9.047e-12 - O2 4.524e-12 4.525e-12 -11.345 -11.344 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.513 -40.513 0.000 28.61 +Na 9.948e-04 + Na+ 9.948e-04 9.602e-04 -3.002 -3.018 -0.015 -1.48 +O(0) 8.850e-12 + O2 4.425e-12 4.426e-12 -11.354 -11.354 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.42 -40.52 -3.10 H2 + H2(g) -37.41 -40.51 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.61 -6.04 1.57 NaCl - O2(g) -8.45 -11.34 -2.89 O2 + O2(g) -8.46 -11.35 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2099,17 +2099,17 @@ Mixture 8. Diffuse Double Layer Surface-Complexation Model Su - -1.291e-13 Surface + diffuse layer charge, eq + -7.217e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² - -8.657e-02 psi, V + -8.656e-02 psi, V 3.369e+00 -F*psi/RT 2.906e+01 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g - Water in diffuse layer: 9.026e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + Water in diffuse layer: 9.025e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.842e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2117,10 +2117,10 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.118e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 8.0586e-06 - H 1.7816e-07 + Cl 8.0598e-06 + H 1.5581e-07 Na 1.0079e-03 - O 4.9813e-10 + O 5.6987e-10 Su 1.000e-03 moles @@ -2133,54 +2133,54 @@ Su Elements Molality Moles - Cl 9.985e-04 2.995e-04 - Na 9.984e-04 2.995e-04 + Cl 9.987e-04 2.996e-04 + Na 9.986e-04 2.995e-04 ----------------------------Description of solution---------------------------- - pH = 6.769 Charge balance - pe = 11.854 Adjusted to redox equilibrium + pH = 6.828 Charge balance + pe = 11.786 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 72 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 Viscosity (mPa s) = 0.89026 Activity of water = 1.000 - Ionic strength (mol/kgw) = 9.986e-04 + Ionic strength (mol/kgw) = 9.988e-04 Mass of water (kg) = 2.999e-01 - Total alkalinity (eq/kg) = -1.144e-07 + Total alkalinity (eq/kg) = -8.329e-08 Temperature (°C) = 25.00 Electrical balance (eq) = 2.150e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (16 overall) - Total H = 3.329672e+01 - Total O = 1.664836e+01 + Total H = 3.329744e+01 + Total O = 1.664872e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.760e-07 1.701e-07 -6.755 -6.769 -0.015 0.00 - OH- 6.167e-08 5.950e-08 -7.210 -7.226 -0.016 -4.11 + H+ 1.538e-07 1.487e-07 -6.813 -6.828 -0.015 0.00 + OH- 7.056e-08 6.808e-08 -7.151 -7.167 -0.016 -4.11 H2O 7.221e+01 1.000e+00 1.859 -0.000 0.000 18.07 -Cl 9.985e-04 - Cl- 9.985e-04 9.635e-04 -3.001 -3.016 -0.016 18.07 - HCl 5.641e-11 5.646e-11 -10.249 -10.248 0.000 (0) +Cl 9.987e-04 + Cl- 9.987e-04 9.636e-04 -3.001 -3.016 -0.016 18.07 + HCl 4.930e-11 4.935e-11 -10.307 -10.307 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.396 -40.396 0.000 28.61 -Na 9.984e-04 - Na+ 9.984e-04 9.637e-04 -3.001 -3.016 -0.015 -1.48 -O(0) 5.161e-12 - O2 2.581e-12 2.581e-12 -11.588 -11.588 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.378 -40.378 0.000 28.61 +Na 9.986e-04 + Na+ 9.986e-04 9.639e-04 -3.001 -3.016 -0.015 -1.48 +O(0) 4.757e-12 + O2 2.378e-12 2.379e-12 -11.624 -11.624 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.29 -40.40 -3.10 H2 + H2(g) -37.28 -40.38 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.60 -6.03 1.57 NaCl - O2(g) -8.70 -11.59 -2.89 O2 + O2(g) -8.73 -11.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2199,7 +2199,7 @@ Mixture 9. Diffuse Double Layer Surface-Complexation Model Su - -6.780e-14 Surface + diffuse layer charge, eq + -1.233e-13 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² -8.654e-02 psi, V @@ -2209,7 +2209,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.021e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2217,10 +2217,10 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.118e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 8.0682e-06 - H 1.4517e-07 + Cl 8.0685e-06 + H 1.3147e-07 Na 1.0079e-03 - O 6.1129e-10 + O 6.7551e-10 Su 1.000e-03 moles @@ -2234,12 +2234,12 @@ Su Elements Molality Moles Cl 9.997e-04 2.999e-04 - Na 9.996e-04 2.999e-04 + Na 9.997e-04 2.999e-04 ----------------------------Description of solution---------------------------- - pH = 6.858 Charge balance - pe = 11.723 Adjusted to redox equilibrium + pH = 6.902 Charge balance + pe = 11.668 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 72 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 @@ -2247,40 +2247,40 @@ Su Activity of water = 1.000 Ionic strength (mol/kgw) = 9.998e-04 Mass of water (kg) = 3.000e-01 - Total alkalinity (eq/kg) = -6.771e-08 + Total alkalinity (eq/kg) = -4.610e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.149e-10 + Electrical balance (eq) = 2.165e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (17 overall) - Total H = 3.330208e+01 - Total O = 1.665104e+01 + Total H = 3.330228e+01 + Total O = 1.665114e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.434e-07 1.386e-07 -6.844 -6.858 -0.015 0.00 - OH- 7.570e-08 7.304e-08 -7.121 -7.136 -0.016 -4.11 + H+ 1.297e-07 1.254e-07 -6.887 -6.902 -0.015 0.00 + OH- 8.366e-08 8.072e-08 -7.077 -7.093 -0.016 -4.11 H2O 7.220e+01 1.000e+00 1.859 -0.000 0.000 18.07 Cl 9.997e-04 Cl- 9.997e-04 9.646e-04 -3.000 -3.016 -0.016 18.07 - HCl 4.600e-11 4.605e-11 -10.337 -10.337 0.000 (0) + HCl 4.163e-11 4.167e-11 -10.381 -10.380 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.312 -40.312 0.000 28.61 -Na 9.996e-04 - Na+ 9.996e-04 9.648e-04 -3.000 -3.016 -0.015 -1.48 -O(0) 3.504e-12 - O2 1.752e-12 1.752e-12 -11.756 -11.756 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.289 -40.289 0.000 28.61 +Na 9.997e-04 + Na+ 9.997e-04 9.649e-04 -3.000 -3.016 -0.015 -1.48 +O(0) 3.159e-12 + O2 1.579e-12 1.580e-12 -11.801 -11.801 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.21 -40.31 -3.10 H2 + H2(g) -37.19 -40.29 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.60 -6.03 1.57 NaCl - O2(g) -8.86 -11.76 -2.89 O2 + O2(g) -8.91 -11.80 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2299,7 +2299,7 @@ Mixture 10. Diffuse Double Layer Surface-Complexation Model Su - -6.224e-14 Surface + diffuse layer charge, eq + -8.276e-14 Surface + diffuse layer charge, eq -1.000e-03 Surface charge, eq -9.649e-03 sigma, C/m² -8.653e-02 psi, V @@ -2309,7 +2309,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.020e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 7.804e-08 m; of free pore: 6.843e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2317,10 +2317,10 @@ Su Boltzmann factor, exp(-psi_DL * F / RT) = 1.118e+01 (= c_DL / c_free if z is +1). Element Moles - Cl 8.0704e-06 - H 1.3115e-07 - Na 1.0079e-03 - O 6.7706e-10 + Cl 8.0705e-06 + H 1.2143e-07 + Na 1.0080e-03 + O 7.3184e-10 Su 1.000e-03 moles @@ -2338,8 +2338,8 @@ Su ----------------------------Description of solution---------------------------- - pH = 6.903 Charge balance - pe = 11.665 Adjusted to redox equilibrium + pH = 6.937 Charge balance + pe = 11.617 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 72 Density (g/cm³) = 0.99708 Volume (L) = 0.39135 @@ -2347,40 +2347,40 @@ Su Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 3.000e-01 - Total alkalinity (eq/kg) = -4.561e-08 + Total alkalinity (eq/kg) = -2.912e-08 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.160e-10 + Electrical balance (eq) = 2.159e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (17 overall) - Total H = 3.330335e+01 - Total O = 1.665167e+01 + Total H = 3.330340e+01 + Total O = 1.665170e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.294e-07 1.251e-07 -6.888 -6.903 -0.015 0.00 - OH- 8.385e-08 8.090e-08 -7.076 -7.092 -0.016 -4.11 + H+ 1.197e-07 1.157e-07 -6.922 -6.937 -0.015 0.00 + OH- 9.065e-08 8.745e-08 -7.043 -7.058 -0.016 -4.11 H2O 7.220e+01 1.000e+00 1.859 -0.000 0.000 18.07 Cl 9.999e-04 Cl- 9.999e-04 9.648e-04 -3.000 -3.016 -0.016 18.07 - HCl 4.154e-11 4.158e-11 -10.382 -10.381 0.000 (0) + HCl 3.843e-11 3.847e-11 -10.415 -10.415 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.286 -40.286 0.000 28.61 + H2 0.000e+00 0.000e+00 -40.256 -40.256 0.000 28.61 Na 9.999e-04 Na+ 9.999e-04 9.651e-04 -3.000 -3.015 -0.015 -1.48 -O(0) 3.113e-12 - O2 1.556e-12 1.557e-12 -11.808 -11.808 0.000 30.40 +O(0) 2.712e-12 + O2 1.356e-12 1.356e-12 -11.868 -11.868 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.19 -40.29 -3.10 H2 + H2(g) -37.16 -40.26 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.60 -6.03 1.57 NaCl - O2(g) -8.92 -11.81 -2.89 O2 + O2(g) -8.98 -11.87 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/deb1_101.sel b/mytest/deb1_101.sel index 8e534c79..9a3aca6f 100644 --- a/mytest/deb1_101.sel +++ b/mytest/deb1_101.sel @@ -1,27 +1,27 @@ Mu SC 0.000000100661 0.0546997340 - 0.001000103455 122.9170047359 - 0.001000103459 122.9170047310 - 0.000017453800 0.4550861110 + 0.001000103455 122.9170051998 + 0.001000103459 122.9170051949 + 0.000017453800 0.4550861112 0.000000100645 0.0546913856 - 0.001000103776 72.6609470516 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 - 0.001000103776 72.6609470528 + 0.001000103776 72.6609473258 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 + 0.001000103776 72.6609473270 0.000000100645 0.0546913856 - 0.000185491012 6.0520552616 - 0.000504849894 29.2941020421 - 0.000729589810 48.3833426604 - 0.000872718803 61.1151371448 - 0.000948430810 67.9723208450 - 0.000981936639 71.0225362502 - 0.000994531694 72.1660978812 - 0.000998606631 72.5324475277 - 0.000999750761 72.6332929673 - 0.001000021189 72.6563832608 + 0.000185987851 6.0767374708 + 0.000507153267 29.4658071927 + 0.000733460555 48.7034605377 + 0.000876346038 61.4252978384 + 0.000950789431 68.1746113903 + 0.000983108013 71.1210139469 + 0.000994999300 72.2034702489 + 0.000998760913 72.5434280350 + 0.000999793308 72.6353942066 + 0.001000032178 72.6561804747 diff --git a/mytest/deb2.out b/mytest/deb2.out index bbca3a60..954a93f4 100644 --- a/mytest/deb2.out +++ b/mytest/deb2.out @@ -138,7 +138,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 5.633e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.075e-07 m; of free pore: 1.978e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -171,7 +171,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.389e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.075e-07 m; of free pore: 1.978e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -215,7 +215,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 5.633e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.075e-07 m; of free pore: 1.978e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -248,7 +248,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.389e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.075e-07 m; of free pore: 1.978e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -368,7 +368,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 5.531e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.131e-07 m; of free pore: 1.035e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -401,7 +401,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 9.218e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.131e-07 m; of free pore: 1.035e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -518,7 +518,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 5.379e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 6.578e-08 m; of free pore: 5.610e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -551,7 +551,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 8.964e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 6.578e-08 m; of free pore: 5.610e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -668,7 +668,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 5.187e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 4.185e-08 m; of free pore: 3.206e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -701,7 +701,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 8.645e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 4.185e-08 m; of free pore: 3.206e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -818,7 +818,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 4.986e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89025 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.957e-08 m; of free pore: 1.957e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -851,7 +851,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 8.310e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89025 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.957e-08 m; of free pore: 1.957e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -968,7 +968,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 4.805e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89024 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.310e-08 m; of free pore: 1.279e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1001,7 +1001,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 8.009e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89024 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.310e-08 m; of free pore: 1.279e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1118,7 +1118,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 4.657e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89023 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.956e-08 m; of free pore: 8.882e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1151,7 +1151,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 7.761e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89023 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.956e-08 m; of free pore: 8.882e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1268,7 +1268,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 4.210e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89021 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.754e-08 m; of free pore: 7.844e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1301,7 +1301,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 7.016e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89021 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.754e-08 m; of free pore: 7.844e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1418,7 +1418,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 3.789e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89019 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.579e-08 m; of free pore: 7.060e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1451,7 +1451,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 6.314e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89019 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.579e-08 m; of free pore: 7.060e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1568,7 +1568,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 3.410e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.421e-08 m; of free pore: 6.354e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1601,7 +1601,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 5.683e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.421e-08 m; of free pore: 6.354e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1718,7 +1718,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 3.069e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89016 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.279e-08 m; of free pore: 5.718e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1751,7 +1751,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 5.115e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89016 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.279e-08 m; of free pore: 5.718e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1868,7 +1868,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 2.762e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89015 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.151e-08 m; of free pore: 5.146e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1901,7 +1901,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 4.603e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89015 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.151e-08 m; of free pore: 5.146e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2018,7 +2018,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 2.486e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89014 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.036e-08 m; of free pore: 4.632e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2051,7 +2051,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 4.143e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89014 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 1.036e-08 m; of free pore: 4.632e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2168,7 +2168,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 2.237e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89014 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 9.321e-09 m; of free pore: 4.169e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2201,7 +2201,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 3.729e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89014 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 9.321e-09 m; of free pore: 4.169e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2327,7 +2327,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 2.013e-03 kg, 5.7% of total DDL-water. - viscosity: 0.89013 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 8.389e-09 m; of free pore: 3.752e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2360,7 +2360,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 3.356e-02 kg, 94.3% of total DDL-water. - viscosity: 0.89013 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 8.389e-09 m; of free pore: 3.752e-09 m. Total moles in diffuse layer (excluding water), Donnan calculation. diff --git a/mytest/deb2_101.sel b/mytest/deb2_101.sel index f6bfdf7a..3e881415 100644 --- a/mytest/deb2_101.sel +++ b/mytest/deb2_101.sel @@ -1,18 +1,18 @@ Mu SC - 0.001000103455 122.9170047359 - 0.001000103459 122.9170047310 - 0.001000103459 101.6738141032 - 0.000996664343 85.8233491800 - 0.000986817686 64.1900901437 - 0.000964057806 40.8316180431 - 0.000923696419 21.7963102864 - 0.000869156869 10.0479831306 - 0.000810763984 4.2485215673 - 0.000648663792 3.2029196403 - 0.000536668411 2.6542978161 - 0.000459060127 2.2733532130 - 0.000402571121 1.9956459386 - 0.000359892218 1.7855630070 - 0.000326718481 1.6221193063 - 0.000300341486 1.4920471516 - 0.000278989858 1.3866794504 + 0.001000103455 122.9170051998 + 0.001000103459 122.9170051949 + 0.001000103459 101.6738144869 + 0.000996664343 85.8233495034 + 0.000986817686 64.1900903844 + 0.000964057806 40.8316181944 + 0.000923696419 21.7963103655 + 0.000869156869 10.0479831659 + 0.000810763984 4.2485215818 + 0.000648663792 3.2029196500 + 0.000536668411 2.6542978235 + 0.000459060127 2.2733532188 + 0.000402571121 1.9956459433 + 0.000359892218 1.7855630111 + 0.000326718481 1.6221193098 + 0.000300341486 1.4920471547 + 0.000278989858 1.3866794532 diff --git a/mytest/debye1.out b/mytest/debye1.out index ea712314..590d100e 100644 --- a/mytest/debye1.out +++ b/mytest/debye1.out @@ -1069,7 +1069,7 @@ Mixture 1. ----------------------------Description of solution---------------------------- pH = 7.074 Charge balance - pe = 11.192 Adjusted to redox equilibrium + pe = 11.106 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 6956 Density (g/cm³) = 0.99968 Volume (L) = 1.00406 @@ -1080,7 +1080,7 @@ Mixture 1. Total alkalinity (eq/kg) = 9.285e-05 Total CO2 (mol/kg) = 1.064e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.489e-13 + Electrical balance (eq) = -2.760e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110125e+02 @@ -1095,7 +1095,7 @@ Mixture 1. H+ 9.987e-08 8.427e-08 -7.001 -7.074 -0.074 0.00 H2O 5.551e+01 9.978e-01 1.744 -0.001 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.602 -126.596 0.006 35.46 + CH4 0.000e+00 0.000e+00 -125.913 -125.906 0.006 35.46 C(4) 1.064e-04 HCO3- 8.942e-05 7.285e-05 -4.049 -4.138 -0.089 24.83 CO2 1.370e-05 1.383e-05 -4.863 -4.859 0.004 34.43 @@ -1112,13 +1112,13 @@ Ca 5.068e-05 Cl 6.374e-02 Cl- 6.374e-02 5.087e-02 -1.196 -1.294 -0.098 18.28 HCl 1.387e-09 1.477e-09 -8.858 -8.831 0.027 (0) -H(0) 4.096e-40 - H2 2.048e-40 2.079e-40 -39.689 -39.682 0.006 28.61 +H(0) 6.092e-40 + H2 3.046e-40 3.091e-40 -39.516 -39.510 0.006 28.61 Na 6.374e-02 Na+ 6.373e-02 5.168e-02 -1.196 -1.287 -0.091 -1.17 NaHCO3 3.184e-06 3.279e-06 -5.497 -5.484 0.013 31.73 -O(0) 1.893e-13 - O2 9.466e-14 9.607e-14 -13.024 -13.017 0.006 30.40 +O(0) 8.560e-14 + O2 4.280e-14 4.343e-14 -13.369 -13.362 0.006 30.40 ------------------------------Saturation indices------------------------------- @@ -1126,12 +1126,12 @@ O(0) 1.893e-13 Aragonite -3.71 -12.04 -8.34 CaCO3 Calcite -3.56 -12.04 -8.48 CaCO3 - CH4(g) -123.79 -126.60 -2.80 CH4 + CH4(g) -123.10 -125.91 -2.80 CH4 CO2(g) -3.39 -4.86 -1.47 CO2 - H2(g) -36.58 -39.68 -3.10 H2 + H2(g) -36.41 -39.51 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -4.15 -2.58 1.57 NaCl - O2(g) -10.13 -13.02 -2.89 O2 + O2(g) -10.47 -13.36 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1156,7 +1156,7 @@ Mixture 2. ----------------------------Description of solution---------------------------- pH = 7.006 Charge balance - pe = 11.341 Adjusted to redox equilibrium + pe = 11.303 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 2278 Density (g/cm³) = 0.99787 Volume (L) = 1.00330 @@ -1167,7 +1167,7 @@ Mixture 2. Total alkalinity (eq/kg) = 1.721e-04 Total CO2 (mol/kg) = 2.048e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.264e-13 + Electrical balance (eq) = -1.344e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110126e+02 @@ -1182,7 +1182,7 @@ Mixture 2. H+ 1.109e-07 9.864e-08 -6.955 -7.006 -0.051 0.00 H2O 5.551e+01 9.993e-01 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.865 -126.864 0.002 35.46 + CH4 0.000e+00 0.000e+00 -126.565 -126.563 0.002 35.46 C(4) 2.048e-04 HCO3- 1.696e-04 1.485e-04 -3.771 -3.828 -0.058 24.69 CO2 3.286e-05 3.296e-05 -4.483 -4.482 0.001 34.43 @@ -1199,13 +1199,13 @@ Ca 8.487e-05 Cl 1.966e-02 Cl- 1.966e-02 1.707e-02 -1.706 -1.768 -0.061 18.18 HCl 5.689e-10 5.801e-10 -9.245 -9.237 0.008 (0) -H(0) 2.857e-40 - H2 1.429e-40 1.435e-40 -39.845 -39.843 0.002 28.61 +H(0) 3.396e-40 + H2 1.698e-40 1.706e-40 -39.770 -39.768 0.002 28.61 Na 1.966e-02 Na+ 1.966e-02 1.717e-02 -1.706 -1.765 -0.059 -1.32 NaHCO3 2.200e-06 2.221e-06 -5.657 -5.654 0.004 31.73 -O(0) 4.024e-13 - O2 2.012e-13 2.021e-13 -12.696 -12.694 0.002 30.40 +O(0) 2.848e-13 + O2 1.424e-13 1.430e-13 -12.847 -12.845 0.002 30.40 ------------------------------Saturation indices------------------------------- @@ -1213,12 +1213,12 @@ O(0) 4.024e-13 Aragonite -3.12 -11.45 -8.34 CaCO3 Calcite -2.97 -11.45 -8.48 CaCO3 - CH4(g) -124.06 -126.86 -2.80 CH4 + CH4(g) -123.76 -126.56 -2.80 CH4 CO2(g) -3.01 -4.48 -1.47 CO2 - H2(g) -36.74 -39.84 -3.10 H2 + H2(g) -36.67 -39.77 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -5.10 -3.53 1.57 NaCl - O2(g) -9.80 -12.69 -2.89 O2 + O2(g) -9.95 -12.84 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1243,7 +1243,7 @@ Mixture 3. ----------------------------Description of solution---------------------------- pH = 6.976 Charge balance - pe = 11.391 Adjusted to redox equilibrium + pe = 11.370 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 546 Density (g/cm³) = 0.99724 Volume (L) = 1.00304 @@ -1254,7 +1254,7 @@ Mixture 3. Total alkalinity (eq/kg) = 1.866e-04 Total CO2 (mol/kg) = 2.276e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.504e-13 + Electrical balance (eq) = 3.314e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110126e+02 @@ -1269,7 +1269,7 @@ Mixture 3. OH- 1.031e-07 9.569e-08 -6.987 -7.019 -0.032 -4.07 H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.931 -126.930 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.764 -126.763 0.000 35.46 C(4) 2.276e-04 HCO3- 1.857e-04 1.729e-04 -3.731 -3.762 -0.031 24.61 CO2 4.108e-05 4.111e-05 -4.386 -4.386 0.000 34.43 @@ -1286,13 +1286,13 @@ Ca 1.024e-04 Cl 4.394e-03 Cl- 4.394e-03 4.080e-03 -2.357 -2.389 -0.032 18.11 HCl 1.480e-10 1.487e-10 -9.830 -9.828 0.002 (0) -H(0) 2.612e-40 - H2 1.306e-40 1.307e-40 -39.884 -39.884 0.000 28.61 +H(0) 2.875e-40 + H2 1.438e-40 1.439e-40 -39.842 -39.842 0.000 28.61 Na 4.376e-03 Na+ 4.375e-03 4.068e-03 -2.359 -2.391 -0.032 -1.42 NaHCO3 6.111e-07 6.125e-07 -6.214 -6.213 0.001 31.73 -O(0) 4.871e-13 - O2 2.436e-13 2.438e-13 -12.613 -12.613 0.000 30.40 +O(0) 4.020e-13 + O2 2.010e-13 2.012e-13 -12.697 -12.696 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1300,12 +1300,12 @@ O(0) 4.871e-13 Aragonite -2.89 -11.23 -8.34 CaCO3 Calcite -2.75 -11.23 -8.48 CaCO3 - CH4(g) -124.13 -126.93 -2.80 CH4 + CH4(g) -123.96 -126.76 -2.80 CH4 CO2(g) -2.92 -4.39 -1.47 CO2 - H2(g) -36.78 -39.88 -3.10 H2 + H2(g) -36.74 -39.84 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -6.35 -4.78 1.57 NaCl - O2(g) -9.72 -12.61 -2.89 O2 + O2(g) -9.80 -12.70 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1330,7 +1330,7 @@ Mixture 4. ----------------------------Description of solution---------------------------- pH = 6.973 Charge balance - pe = 11.388 Adjusted to redox equilibrium + pe = 11.385 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 113 Density (g/cm³) = 0.99709 Volume (L) = 1.00298 @@ -1341,7 +1341,7 @@ Mixture 4. Total alkalinity (eq/kg) = 1.889e-04 Total CO2 (mol/kg) = 2.323e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.071e-12 + Electrical balance (eq) = 1.076e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110126e+02 @@ -1356,7 +1356,7 @@ Mixture 4. OH- 9.876e-08 9.519e-08 -7.005 -7.021 -0.016 -4.11 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.865 -126.865 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.834 -126.834 0.000 35.46 C(4) 2.323e-04 HCO3- 1.886e-04 1.819e-04 -3.725 -3.740 -0.016 24.58 CO2 4.347e-05 4.348e-05 -4.362 -4.362 0.000 34.43 @@ -1373,13 +1373,13 @@ Ca 1.078e-04 Cl 7.621e-04 Cl- 7.621e-04 7.346e-04 -3.118 -3.134 -0.016 18.08 HCl 2.688e-11 2.691e-11 -10.571 -10.570 0.000 (0) -H(0) 2.677e-40 - H2 1.338e-40 1.339e-40 -39.873 -39.873 0.000 28.61 +H(0) 2.724e-40 + H2 1.362e-40 1.362e-40 -39.866 -39.866 0.000 28.61 Na 7.354e-04 Na+ 7.353e-04 7.090e-04 -3.134 -3.149 -0.016 -1.48 NaHCO3 1.123e-07 1.123e-07 -6.950 -6.950 0.000 31.73 -O(0) 4.650e-13 - O2 2.325e-13 2.326e-13 -12.634 -12.633 0.000 30.40 +O(0) 4.491e-13 + O2 2.245e-13 2.246e-13 -12.649 -12.649 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1387,12 +1387,12 @@ O(0) 4.650e-13 Aragonite -2.79 -11.13 -8.34 CaCO3 Calcite -2.65 -11.13 -8.48 CaCO3 - CH4(g) -124.06 -126.86 -2.80 CH4 + CH4(g) -124.03 -126.83 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.77 -39.87 -3.10 H2 + H2(g) -36.76 -39.87 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -7.85 -6.28 1.57 NaCl - O2(g) -9.74 -12.63 -2.89 O2 + O2(g) -9.76 -12.65 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1417,7 +1417,7 @@ Mixture 5. ----------------------------Description of solution---------------------------- pH = 6.980 Charge balance - pe = 11.389 Adjusted to redox equilibrium + pe = 11.387 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 33 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1428,7 +1428,7 @@ Mixture 5. Total alkalinity (eq/kg) = 1.914e-04 Total CO2 (mol/kg) = 2.352e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.412e-12 + Electrical balance (eq) = -1.417e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110126e+02 @@ -1443,7 +1443,7 @@ Mixture 5. OH- 9.891e-08 9.664e-08 -7.005 -7.015 -0.010 -4.12 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.919 -126.919 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.902 -126.902 0.000 35.46 C(4) 2.352e-04 HCO3- 1.911e-04 1.868e-04 -3.719 -3.729 -0.010 24.57 CO2 4.397e-05 4.398e-05 -4.357 -4.357 0.000 34.43 @@ -1460,13 +1460,13 @@ Ca 1.058e-04 Cl 1.120e-04 Cl- 1.120e-04 1.094e-04 -3.951 -3.961 -0.010 18.06 HCl 3.945e-12 3.947e-12 -11.404 -11.404 0.000 (0) -H(0) 2.587e-40 - H2 1.294e-40 1.294e-40 -39.888 -39.888 0.000 28.61 +H(0) 2.614e-40 + H2 1.307e-40 1.307e-40 -39.884 -39.884 0.000 28.61 Na 9.174e-05 Na+ 9.172e-05 8.963e-05 -4.038 -4.048 -0.010 -1.49 NaHCO3 1.458e-08 1.458e-08 -7.836 -7.836 0.000 31.73 -O(0) 4.981e-13 - O2 2.490e-13 2.491e-13 -12.604 -12.604 0.000 30.40 +O(0) 4.881e-13 + O2 2.440e-13 2.441e-13 -12.613 -12.612 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1474,12 +1474,12 @@ O(0) 4.981e-13 Aragonite -2.76 -11.09 -8.34 CaCO3 Calcite -2.61 -11.09 -8.48 CaCO3 - CH4(g) -124.12 -126.92 -2.80 CH4 + CH4(g) -124.10 -126.90 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.79 -39.89 -3.10 H2 + H2(g) -36.78 -39.88 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -9.58 -8.01 1.57 NaCl - O2(g) -9.71 -12.60 -2.89 O2 + O2(g) -9.72 -12.61 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1504,7 +1504,7 @@ Mixture 6. ----------------------------Description of solution---------------------------- pH = 6.993 Charge balance - pe = 11.373 Adjusted to redox equilibrium + pe = 11.377 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 21 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1515,7 +1515,7 @@ Mixture 6. Total alkalinity (eq/kg) = 1.970e-04 Total CO2 (mol/kg) = 2.410e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.513e-12 + Electrical balance (eq) = -1.511e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110126e+02 @@ -1530,7 +1530,7 @@ Mixture 6. OH- 1.017e-07 9.965e-08 -6.993 -7.002 -0.009 -4.12 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.896 -126.896 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.925 -126.925 0.000 35.46 C(4) 2.410e-04 HCO3- 1.967e-04 1.928e-04 -3.706 -3.715 -0.009 24.56 CO2 4.403e-05 4.403e-05 -4.356 -4.356 0.000 34.43 @@ -1547,13 +1547,13 @@ Ca 1.018e-04 Cl 1.480e-05 Cl- 1.480e-05 1.450e-05 -4.830 -4.839 -0.009 18.06 HCl 5.072e-13 5.073e-13 -12.295 -12.295 0.000 (0) -H(0) 2.622e-40 - H2 1.311e-40 1.311e-40 -39.882 -39.882 0.000 28.61 +H(0) 2.577e-40 + H2 1.289e-40 1.289e-40 -39.890 -39.890 0.000 28.61 Na 8.320e-06 Na+ 8.319e-06 8.152e-06 -5.080 -5.089 -0.009 -1.50 NaHCO3 1.369e-09 1.369e-09 -8.864 -8.864 0.000 31.73 -O(0) 4.851e-13 - O2 2.426e-13 2.426e-13 -12.615 -12.615 0.000 30.40 +O(0) 5.020e-13 + O2 2.510e-13 2.510e-13 -12.600 -12.600 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1561,12 +1561,12 @@ O(0) 4.851e-13 Aragonite -2.74 -11.08 -8.34 CaCO3 Calcite -2.60 -11.08 -8.48 CaCO3 - CH4(g) -124.09 -126.90 -2.80 CH4 + CH4(g) -124.12 -126.93 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.78 -39.88 -3.10 H2 + H2(g) -36.79 -39.89 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -11.50 -9.93 1.57 NaCl - O2(g) -9.72 -12.62 -2.89 O2 + O2(g) -9.71 -12.60 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1591,7 +1591,7 @@ Mixture 7. ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 11.367 Adjusted to redox equilibrium + pe = 11.369 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 20 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1602,7 +1602,7 @@ Mixture 7. Total alkalinity (eq/kg) = 1.995e-04 Total CO2 (mol/kg) = 2.434e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.481e-12 + Electrical balance (eq) = -1.482e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110126e+02 @@ -1617,7 +1617,7 @@ Mixture 7. H+ 1.022e-07 1.003e-07 -6.990 -6.999 -0.008 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.893 -126.893 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.905 -126.905 0.000 35.46 C(4) 2.434e-04 HCO3- 1.992e-04 1.953e-04 -3.701 -3.709 -0.009 24.56 CO2 4.402e-05 4.403e-05 -4.356 -4.356 0.000 34.43 @@ -1634,13 +1634,13 @@ Ca 1.003e-04 Cl 1.679e-06 Cl- 1.679e-06 1.646e-06 -5.775 -5.784 -0.009 18.06 HCl 5.683e-14 5.684e-14 -13.245 -13.245 0.000 (0) -H(0) 2.625e-40 - H2 1.313e-40 1.313e-40 -39.882 -39.882 0.000 28.61 +H(0) 2.608e-40 + H2 1.304e-40 1.304e-40 -39.885 -39.885 0.000 28.61 Na 5.837e-07 Na+ 5.836e-07 5.722e-07 -6.234 -6.242 -0.009 -1.50 NaHCO3 9.730e-11 9.731e-11 -10.012 -10.012 0.000 31.73 -O(0) 4.839e-13 - O2 2.419e-13 2.419e-13 -12.616 -12.616 0.000 30.40 +O(0) 4.904e-13 + O2 2.452e-13 2.452e-13 -12.610 -12.610 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1648,12 +1648,12 @@ O(0) 4.839e-13 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -124.09 -126.89 -2.80 CH4 + CH4(g) -124.10 -126.91 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 H2(g) -36.78 -39.88 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -13.60 -12.03 1.57 NaCl - O2(g) -9.72 -12.62 -2.89 O2 + O2(g) -9.72 -12.61 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1678,7 +1678,7 @@ Mixture 8. ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.363 Adjusted to redox equilibrium + pe = 11.360 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 20 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1689,7 +1689,7 @@ Mixture 8. Total alkalinity (eq/kg) = 1.999e-04 Total CO2 (mol/kg) = 2.438e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.465e-12 + Electrical balance (eq) = -1.464e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110126e+02 @@ -1704,7 +1704,7 @@ Mixture 8. H+ 1.020e-07 1.000e-07 -6.991 -7.000 -0.008 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.867 -126.867 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.843 -126.843 0.000 35.46 C(4) 2.438e-04 HCO3- 1.996e-04 1.957e-04 -3.700 -3.708 -0.009 24.56 CO2 4.402e-05 4.402e-05 -4.356 -4.356 0.000 34.43 @@ -1721,13 +1721,13 @@ Ca 1.000e-04 Cl 1.580e-07 Cl- 1.580e-07 1.549e-07 -6.801 -6.810 -0.009 18.06 HCl 5.337e-15 5.339e-15 -14.273 -14.273 0.000 (0) -H(0) 2.665e-40 - H2 1.333e-40 1.333e-40 -39.875 -39.875 0.000 28.61 +H(0) 2.703e-40 + H2 1.352e-40 1.352e-40 -39.869 -39.869 0.000 28.61 Na 3.339e-08 Na+ 3.338e-08 3.273e-08 -7.476 -7.485 -0.009 -1.50 NaHCO3 5.578e-12 5.579e-12 -11.253 -11.253 0.000 31.73 -O(0) 4.693e-13 - O2 2.347e-13 2.347e-13 -12.630 -12.630 0.000 30.40 +O(0) 4.563e-13 + O2 2.282e-13 2.282e-13 -12.642 -12.642 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1735,12 +1735,12 @@ O(0) 4.693e-13 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -124.07 -126.87 -2.80 CH4 + CH4(g) -124.04 -126.84 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.77 -39.88 -3.10 H2 + H2(g) -36.77 -39.87 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -15.86 -14.29 1.57 NaCl - O2(g) -9.74 -12.63 -2.89 O2 + O2(g) -9.75 -12.64 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1765,7 +1765,7 @@ Mixture 9. ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.366 Adjusted to redox equilibrium + pe = 11.363 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 20 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1776,7 +1776,7 @@ Mixture 9. Total alkalinity (eq/kg) = 2.000e-04 Total CO2 (mol/kg) = 2.439e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.429e-12 + Electrical balance (eq) = -1.430e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110126e+02 @@ -1791,7 +1791,7 @@ Mixture 9. H+ 1.020e-07 1.000e-07 -6.992 -7.000 -0.008 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.894 -126.894 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.867 -126.867 0.000 35.46 C(4) 2.439e-04 HCO3- 1.997e-04 1.958e-04 -3.700 -3.708 -0.009 24.56 CO2 4.402e-05 4.402e-05 -4.356 -4.356 0.000 34.43 @@ -1808,13 +1808,13 @@ Ca 1.000e-04 Cl 1.234e-08 Cl- 1.234e-08 1.209e-08 -7.909 -7.917 -0.009 18.06 HCl 4.165e-16 4.166e-16 -15.380 -15.380 0.000 (0) -H(0) 2.625e-40 - H2 1.312e-40 1.312e-40 -39.882 -39.882 0.000 28.61 +H(0) 2.666e-40 + H2 1.333e-40 1.333e-40 -39.875 -39.875 0.000 28.61 Na 1.584e-09 Na+ 1.584e-09 1.553e-09 -8.800 -8.809 -0.009 -1.50 NaHCO3 2.648e-13 2.648e-13 -12.577 -12.577 0.000 31.73 -O(0) 4.840e-13 - O2 2.420e-13 2.420e-13 -12.616 -12.616 0.000 30.40 +O(0) 4.692e-13 + O2 2.346e-13 2.346e-13 -12.630 -12.630 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1822,12 +1822,12 @@ O(0) 4.840e-13 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -124.09 -126.89 -2.80 CH4 + CH4(g) -124.06 -126.87 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.78 -39.88 -3.10 H2 + H2(g) -36.77 -39.88 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -18.30 -16.73 1.57 NaCl - O2(g) -9.72 -12.62 -2.89 O2 + O2(g) -9.74 -12.63 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1852,7 +1852,7 @@ Mixture 10. ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.373 Adjusted to redox equilibrium + pe = 11.372 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 20 Density (g/cm³) = 0.99706 Volume (L) = 1.00297 @@ -1878,7 +1878,7 @@ Mixture 10. H+ 1.020e-07 1.000e-07 -6.992 -7.000 -0.008 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.949 -126.949 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.938 -126.938 0.000 35.46 C(4) 2.439e-04 HCO3- 1.997e-04 1.958e-04 -3.700 -3.708 -0.009 24.56 CO2 4.402e-05 4.402e-05 -4.356 -4.356 0.000 34.43 @@ -1895,13 +1895,13 @@ Ca 1.000e-04 Cl 8.446e-10 Cl- 8.446e-10 8.279e-10 -9.073 -9.082 -0.009 18.06 HCl 2.851e-17 2.852e-17 -16.545 -16.545 0.000 (0) -H(0) 2.542e-40 - H2 1.271e-40 1.271e-40 -39.896 -39.896 0.000 28.61 +H(0) 2.559e-40 + H2 1.279e-40 1.279e-40 -39.893 -39.893 0.000 28.61 Na 6.484e-11 Na+ 6.483e-11 6.355e-11 -10.188 -10.197 -0.009 -1.50 NaHCO3 1.084e-14 1.084e-14 -13.965 -13.965 0.000 31.73 -O(0) 5.160e-13 - O2 2.580e-13 2.580e-13 -12.588 -12.588 0.000 30.40 +O(0) 5.093e-13 + O2 2.547e-13 2.547e-13 -12.594 -12.594 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1909,9 +1909,9 @@ O(0) 5.160e-13 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -124.15 -126.95 -2.80 CH4 + CH4(g) -124.14 -126.94 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -36.79 -39.90 -3.10 H2 + H2(g) -36.79 -39.89 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Halite -20.85 -19.28 1.57 NaCl O2(g) -9.70 -12.59 -2.89 O2 @@ -2090,7 +2090,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2134,7 +2134,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 3.503e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89858 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 8.995e-08 m; of free pore: 8.890e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2337,7 +2337,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2444,7 +2444,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2551,7 +2551,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2658,7 +2658,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2765,7 +2765,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2872,7 +2872,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2979,7 +2979,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3086,7 +3086,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3193,7 +3193,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3300,7 +3300,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3467,30 +3467,30 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 4.232e-09 Surface + diffuse layer charge, eq + 4.292e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -2.707e-01 psi, V - 1.054e+01 -F*psi/RT - 3.772e+04 exp(-F*psi/RT) + -2.713e-01 psi, V + 1.056e+01 -F*psi/RT + 3.851e+04 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 3.949e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89584 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 5.876e-08 m. + Water in diffuse layer: 3.990e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 5.875e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.332e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.786e+02 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.315e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 1.668e+02 (= c_DL / c_free if z is +1). Element Moles - C 7.1788e-07 - Ca 2.7474e-01 - Cl 1.4215e-05 - H 1.4346e-06 - Na 4.5052e-01 - O 1.6428e-06 + C 7.4830e-07 + Ca 2.9223e-01 + Cl 1.5043e-05 + H 1.4129e-06 + Na 4.1556e-01 + O 1.7198e-06 Su 1.000e+00 moles @@ -3503,77 +3503,77 @@ Su Elements Molality Moles - C 6.337e-05 6.083e-05 - Ca 2.182e-04 2.095e-04 - Cl 6.428e-02 6.171e-02 - Na 6.389e-02 6.133e-02 + C 6.299e-05 6.044e-05 + Ca 2.632e-04 2.525e-04 + Cl 6.291e-02 6.036e-02 + Na 6.243e-02 5.990e-02 ----------------------------Description of solution---------------------------- - pH = 6.833 Charge balance - pe = 12.595 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 6469 - Density (g/cm³) = 0.99970 - Volume (L) = 1.00333 - Viscosity (mPa s) = 0.89584 + pH = 6.821 Charge balance + pe = 12.611 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 6333 + Density (g/cm³) = 0.99964 + Volume (L) = 1.00331 + Viscosity (mPa s) = 0.89574 Activity of water = 0.998 - Ionic strength (mol/kgw) = 6.455e-02 - Mass of water (kg) = 9.599e-01 - Total alkalinity (eq/kg) = 5.034e-05 - Total CO2 (mol/kg) = 6.337e-05 + Ionic strength (mol/kgw) = 6.322e-02 + Mass of water (kg) = 9.595e-01 + Total alkalinity (eq/kg) = 4.972e-05 + Total CO2 (mol/kg) = 6.299e-05 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.348e-09 + Electrical balance (eq) = -7.015e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (9 overall) - Total H = 1.065641e+02 - Total O = 5.328221e+01 + Total H = 1.065188e+02 + Total O = 5.325954e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.741e-07 1.469e-07 -6.759 -6.833 -0.074 0.00 - OH- 8.664e-08 6.877e-08 -7.062 -7.163 -0.100 -3.83 - H2O 5.779e+01 9.978e-01 1.762 -0.001 0.000 18.07 + H+ 1.788e-07 1.509e-07 -6.748 -6.821 -0.074 0.00 + OH- 8.415e-08 6.692e-08 -7.075 -7.174 -0.099 -3.83 + H2O 5.781e+01 9.979e-01 1.762 -0.001 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.919 -135.913 0.006 35.46 -C(4) 6.337e-05 - HCO3- 4.862e-05 3.958e-05 -4.313 -4.403 -0.089 24.83 - CO2 1.297e-05 1.310e-05 -4.887 -4.883 0.004 34.43 - NaHCO3 1.732e-06 1.785e-06 -5.761 -5.748 0.013 31.73 - CO3-2 2.878e-08 1.264e-08 -7.541 -7.898 -0.357 -3.04 - CaHCO3+ 1.794e-08 1.471e-08 -7.746 -7.832 -0.086 122.77 - CaCO3 2.015e-09 2.046e-09 -8.696 -8.689 0.006 -14.60 - (CO2)2 3.102e-12 3.149e-12 -11.508 -11.502 0.006 68.87 -Ca 2.182e-04 - Ca+2 2.182e-04 9.634e-05 -3.661 -4.016 -0.355 -17.56 - CaHCO3+ 1.794e-08 1.471e-08 -7.746 -7.832 -0.086 122.77 - CaCO3 2.015e-09 2.046e-09 -8.696 -8.689 0.006 -14.60 - CaOH+ 1.347e-10 1.086e-10 -9.871 -9.964 -0.093 (0) -Cl 6.428e-02 - Cl- 6.428e-02 5.125e-02 -1.192 -1.290 -0.098 18.28 - HCl 2.434e-09 2.593e-09 -8.614 -8.586 0.027 (0) + CH4 0.000e+00 0.000e+00 -135.948 -135.942 0.006 35.46 +C(4) 6.299e-05 + HCO3- 4.806e-05 3.918e-05 -4.318 -4.407 -0.089 24.83 + CO2 1.320e-05 1.332e-05 -4.880 -4.875 0.004 34.43 + NaHCO3 1.679e-06 1.729e-06 -5.775 -5.762 0.013 31.73 + CO3-2 2.756e-08 1.218e-08 -7.560 -7.915 -0.355 -3.06 + CaHCO3+ 2.151e-08 1.766e-08 -7.667 -7.753 -0.086 122.77 + CaCO3 2.355e-09 2.390e-09 -8.628 -8.622 0.006 -14.60 + (CO2)2 3.212e-12 3.259e-12 -11.493 -11.487 0.006 68.87 +Ca 2.632e-04 + Ca+2 2.631e-04 1.168e-04 -3.580 -3.932 -0.353 -17.56 + CaHCO3+ 2.151e-08 1.766e-08 -7.667 -7.753 -0.086 122.77 + CaCO3 2.355e-09 2.390e-09 -8.628 -8.622 0.006 -14.60 + CaOH+ 1.587e-10 1.282e-10 -9.799 -9.892 -0.093 (0) +Cl 6.291e-02 + Cl- 6.291e-02 5.025e-02 -1.201 -1.299 -0.098 18.28 + HCl 2.456e-09 2.612e-09 -8.610 -8.583 0.027 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.012 -42.005 0.006 28.61 -Na 6.389e-02 - Na+ 6.389e-02 5.177e-02 -1.195 -1.286 -0.091 -1.17 - NaHCO3 1.732e-06 1.785e-06 -5.761 -5.748 0.013 31.73 -O(0) 8.387e-09 - O2 4.194e-09 4.256e-09 -8.377 -8.371 0.006 30.40 + H2 0.000e+00 0.000e+00 -42.021 -42.015 0.006 28.61 +Na 6.243e-02 + Na+ 6.243e-02 5.066e-02 -1.205 -1.295 -0.091 -1.17 + NaHCO3 1.679e-06 1.729e-06 -5.775 -5.762 0.013 31.73 +O(0) 8.753e-09 + O2 4.376e-09 4.441e-09 -8.359 -8.353 0.006 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - Aragonite -3.58 -11.91 -8.34 CaCO3 - Calcite -3.43 -11.91 -8.48 CaCO3 - CH4(g) -133.11 -135.91 -2.80 CH4 + Aragonite -3.51 -11.85 -8.34 CaCO3 + Calcite -3.37 -11.85 -8.48 CaCO3 + CH4(g) -133.14 -135.94 -2.80 CH4 CO2(g) -3.41 -4.88 -1.47 CO2 - H2(g) -38.90 -42.01 -3.10 H2 + H2(g) -38.91 -42.01 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -4.15 -2.58 1.57 NaCl - O2(g) -5.48 -8.37 -2.89 O2 + Halite -4.16 -2.59 1.57 NaCl + O2(g) -5.46 -8.35 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3592,113 +3592,113 @@ Mixture 2. Diffuse Double Layer Surface-Complexation Model Su - -6.671e-10 Surface + diffuse layer charge, eq + -1.561e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -2.978e-01 psi, V - 1.159e+01 -F*psi/RT - 1.082e+05 exp(-F*psi/RT) + -2.990e-01 psi, V + 1.164e+01 -F*psi/RT + 1.131e+05 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 6.640e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89250 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 5.793e-08 m. + Water in diffuse layer: 6.788e-02 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 5.788e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.210e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.110e+02 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.183e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 9.999e+01 (= c_DL / c_free if z is +1). Element Moles - C 3.0997e-06 - Ca 4.2272e-01 - Cl 1.3098e-05 - H 2.4894e-06 - Na 1.5456e-01 - O 7.0807e-06 + C 3.2777e-06 + Ca 4.3348e-01 + Cl 1.4118e-05 + H 2.5062e-06 + Na 1.3306e-01 + O 7.5303e-06 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.072e+00 0.030 + Su- 1.000e+00 1.000 1.073e+00 0.031 -----------------------------Solution composition------------------------------ Elements Molality Moles - C 1.236e-04 1.153e-04 - Ca 5.164e-04 4.818e-04 - Cl 2.191e-02 2.044e-02 - Na 2.096e-02 1.956e-02 + C 1.220e-04 1.136e-04 + Ca 6.389e-04 5.952e-04 + Cl 2.079e-02 1.937e-02 + Na 1.961e-02 1.826e-02 ----------------------------Description of solution---------------------------- - pH = 6.714 Charge balance - pe = 12.727 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 2203 - Density (g/cm³) = 0.99796 - Volume (L) = 1.00266 - Viscosity (mPa s) = 0.89250 + pH = 6.698 Charge balance + pe = 12.755 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 2091 + Density (g/cm³) = 0.99792 + Volume (L) = 1.00264 + Viscosity (mPa s) = 0.89243 Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.251e-02 - Mass of water (kg) = 9.330e-01 - Total alkalinity (eq/kg) = 9.000e-05 - Total CO2 (mol/kg) = 1.236e-04 + Ionic strength (mol/kgw) = 2.152e-02 + Mass of water (kg) = 9.315e-01 + Total alkalinity (eq/kg) = 8.788e-05 + Total CO2 (mol/kg) = 1.220e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.592e-08 + Electrical balance (eq) = -1.346e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (11 overall) - Total H = 1.035769e+02 - Total O = 5.178873e+01 + Total H = 1.034120e+02 + Total O = 5.170626e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 2.183e-07 1.932e-07 -6.661 -6.714 -0.053 0.00 - OH- 6.085e-08 5.236e-08 -7.216 -7.281 -0.065 -3.97 - H2O 5.946e+01 9.993e-01 1.774 -0.000 0.000 18.07 + H+ 2.258e-07 2.003e-07 -6.646 -6.698 -0.052 0.00 + OH- 5.853e-08 5.051e-08 -7.233 -7.297 -0.064 -3.98 + H2O 5.955e+01 9.993e-01 1.775 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.617 -135.615 0.002 35.46 -C(4) 1.236e-04 - HCO3- 8.876e-05 7.723e-05 -4.052 -4.112 -0.060 24.70 - CO2 3.345e-05 3.357e-05 -4.476 -4.474 0.001 34.43 - NaHCO3 1.210e-06 1.223e-06 -5.917 -5.913 0.005 31.73 - CaHCO3+ 1.010e-07 8.813e-08 -6.996 -7.055 -0.059 122.72 - CO3-2 3.271e-08 1.875e-08 -7.485 -7.727 -0.242 -3.47 - CaCO3 9.269e-09 9.317e-09 -8.033 -8.031 0.002 -14.60 - (CO2)2 2.058e-11 2.068e-11 -10.687 -10.684 0.002 68.87 -Ca 5.164e-04 - Ca+2 5.163e-04 2.958e-04 -3.287 -3.529 -0.242 -17.79 - CaHCO3+ 1.010e-07 8.813e-08 -6.996 -7.055 -0.059 122.72 - CaCO3 9.269e-09 9.317e-09 -8.033 -8.031 0.002 -14.60 - CaOH+ 2.937e-10 2.540e-10 -9.532 -9.595 -0.063 (0) -Cl 2.191e-02 - Cl- 2.191e-02 1.888e-02 -1.659 -1.724 -0.065 18.19 - HCl 1.229e-09 1.257e-09 -8.910 -8.901 0.010 (0) + CH4 0.000e+00 0.000e+00 -135.710 -135.708 0.002 35.46 +C(4) 1.220e-04 + HCO3- 8.673e-05 7.565e-05 -4.062 -4.121 -0.059 24.70 + CO2 3.397e-05 3.408e-05 -4.469 -4.467 0.001 34.43 + NaHCO3 1.112e-06 1.123e-06 -5.954 -5.950 0.004 31.73 + CaHCO3+ 1.233e-07 1.078e-07 -6.909 -6.967 -0.058 122.72 + CO3-2 3.061e-08 1.772e-08 -7.514 -7.752 -0.237 -3.48 + CaCO3 1.094e-08 1.100e-08 -7.961 -7.959 0.002 -14.60 + (CO2)2 2.122e-11 2.132e-11 -10.673 -10.671 0.002 68.87 +Ca 6.389e-04 + Ca+2 6.388e-04 3.696e-04 -3.195 -3.432 -0.238 -17.80 + CaHCO3+ 1.233e-07 1.078e-07 -6.909 -6.967 -0.058 122.72 + CaCO3 1.094e-08 1.100e-08 -7.961 -7.959 0.002 -14.60 + CaOH+ 3.530e-10 3.061e-10 -9.452 -9.514 -0.062 (0) +Cl 2.079e-02 + Cl- 2.079e-02 1.797e-02 -1.682 -1.745 -0.063 18.18 + HCl 1.214e-09 1.240e-09 -8.916 -8.907 0.009 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.035 -42.033 0.002 28.61 -Na 2.096e-02 - Na+ 2.096e-02 1.818e-02 -1.679 -1.740 -0.062 -1.31 - NaHCO3 1.210e-06 1.223e-06 -5.917 -5.913 0.005 31.73 -O(0) 9.640e-09 - O2 4.820e-09 4.845e-09 -8.317 -8.315 0.002 30.40 + H2 0.000e+00 0.000e+00 -42.060 -42.058 0.002 28.61 +Na 1.961e-02 + Na+ 1.960e-02 1.704e-02 -1.708 -1.768 -0.061 -1.31 + NaHCO3 1.112e-06 1.123e-06 -5.954 -5.950 0.004 31.73 +O(0) 1.081e-08 + O2 5.404e-09 5.431e-09 -8.267 -8.265 0.002 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - Aragonite -2.92 -11.26 -8.34 CaCO3 - Calcite -2.78 -11.26 -8.48 CaCO3 - CH4(g) -132.81 -135.61 -2.80 CH4 - CO2(g) -3.01 -4.47 -1.47 CO2 - H2(g) -38.93 -42.03 -3.10 H2 + Aragonite -2.85 -11.18 -8.34 CaCO3 + Calcite -2.70 -11.18 -8.48 CaCO3 + CH4(g) -132.91 -135.71 -2.80 CH4 + CO2(g) -3.00 -4.47 -1.47 CO2 + H2(g) -38.96 -42.06 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -5.03 -3.46 1.57 NaCl - O2(g) -5.42 -8.31 -2.89 O2 + Halite -5.08 -3.51 1.57 NaCl + O2(g) -5.37 -8.27 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3717,113 +3717,113 @@ Mixture 3. Diffuse Double Layer Surface-Complexation Model Su - 2.209e-09 Surface + diffuse layer charge, eq + -7.314e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -3.292e-01 psi, V - 1.281e+01 -F*psi/RT - 3.674e+05 exp(-F*psi/RT) + -3.296e-01 psi, V + 1.283e+01 -F*psi/RT + 3.732e+05 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 1.206e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89113 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 5.622e-08 m. + Water in diffuse layer: 1.215e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 5.619e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.113e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 7.615e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.084e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 6.809e+01 (= c_DL / c_free if z is +1). Element Moles - C 7.2243e-06 - Ca 4.7901e-01 - Cl 9.2490e-06 - H 4.0251e-06 - Na 4.1992e-02 - O 1.6426e-05 + C 7.5353e-06 + Ca 4.8367e-01 + Cl 9.9310e-06 + H 4.0811e-06 + Na 3.2664e-02 + O 1.7274e-05 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.138e+00 0.056 + Su- 1.000e+00 1.000 1.139e+00 0.057 -----------------------------Solution composition------------------------------ Elements Molality Moles - C 1.461e-04 1.284e-04 - Ca 6.851e-04 6.021e-04 - Cl 5.840e-03 5.133e-03 - Na 4.573e-03 4.018e-03 + C 1.453e-04 1.276e-04 + Ca 8.588e-04 7.539e-04 + Cl 5.564e-03 4.885e-03 + Na 3.948e-03 3.466e-03 ----------------------------Description of solution---------------------------- - pH = 6.685 Charge balance - pe = 12.796 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 556 - Density (g/cm³) = 0.99730 - Volume (L) = 1.00243 - Viscosity (mPa s) = 0.89113 + pH = 6.676 Charge balance + pe = 12.827 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 531 + Density (g/cm³) = 0.99729 + Volume (L) = 1.00242 + Viscosity (mPa s) = 0.89115 Activity of water = 1.000 - Ionic strength (mol/kgw) = 6.627e-03 - Mass of water (kg) = 8.788e-01 - Total alkalinity (eq/kg) = 1.024e-04 - Total CO2 (mol/kg) = 1.461e-04 + Ionic strength (mol/kgw) = 6.524e-03 + Mass of water (kg) = 8.779e-01 + Total alkalinity (eq/kg) = 1.013e-04 + Total CO2 (mol/kg) = 1.453e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.863e-08 + Electrical balance (eq) = 2.239e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 (12 overall) - Total H = 9.755967e+01 - Total O = 4.878014e+01 + Iterations = 0 (11 overall) + Total H = 9.745726e+01 + Total O = 4.872893e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 2.233e-07 2.068e-07 -6.651 -6.685 -0.033 0.00 - OH- 5.342e-08 4.894e-08 -7.272 -7.310 -0.038 -4.05 - H2O 6.312e+01 9.998e-01 1.800 -0.000 0.000 18.07 + H+ 2.275e-07 2.107e-07 -6.643 -6.676 -0.033 0.00 + OH- 5.239e-08 4.803e-08 -7.281 -7.318 -0.038 -4.06 + H2O 6.319e+01 9.998e-01 1.801 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.819 -135.818 0.001 35.46 -C(4) 1.461e-04 - HCO3- 1.019e-04 9.376e-05 -3.992 -4.028 -0.036 24.63 - CO2 4.355e-05 4.359e-05 -4.361 -4.361 0.000 34.43 - NaHCO3 3.419e-07 3.430e-07 -6.466 -6.465 0.001 31.73 - CaHCO3+ 1.924e-07 1.772e-07 -6.716 -6.751 -0.036 122.68 - CO3-2 2.970e-08 2.127e-08 -7.527 -7.672 -0.145 -3.74 - CaCO3 1.748e-08 1.751e-08 -7.757 -7.757 0.001 -14.60 - (CO2)2 3.483e-11 3.488e-11 -10.458 -10.457 0.001 68.87 -Ca 6.851e-04 - Ca+2 6.849e-04 4.900e-04 -3.164 -3.310 -0.145 -17.98 - CaHCO3+ 1.924e-07 1.772e-07 -6.716 -6.751 -0.036 122.68 - CaCO3 1.748e-08 1.751e-08 -7.757 -7.757 0.001 -14.60 - CaOH+ 4.286e-10 3.932e-10 -9.368 -9.405 -0.037 (0) -Cl 5.840e-03 - Cl- 5.840e-03 5.354e-03 -2.234 -2.271 -0.038 18.12 - HCl 3.789e-10 3.814e-10 -9.421 -9.419 0.003 (0) + CH4 0.000e+00 0.000e+00 -135.994 -135.993 0.001 35.46 +C(4) 1.453e-04 + HCO3- 1.008e-04 9.281e-05 -3.996 -4.032 -0.036 24.63 + CO2 4.393e-05 4.397e-05 -4.357 -4.357 0.000 34.43 + NaHCO3 2.924e-07 2.933e-07 -6.534 -6.533 0.001 31.73 + CaHCO3+ 2.392e-07 2.204e-07 -6.621 -6.657 -0.036 122.68 + CO3-2 2.879e-08 2.066e-08 -7.541 -7.685 -0.144 -3.74 + CaCO3 2.133e-08 2.137e-08 -7.671 -7.670 0.001 -14.60 + (CO2)2 3.543e-11 3.549e-11 -10.451 -10.450 0.001 68.87 +Ca 8.588e-04 + Ca+2 8.585e-04 6.157e-04 -3.066 -3.211 -0.144 -17.98 + CaHCO3+ 2.392e-07 2.204e-07 -6.621 -6.657 -0.036 122.68 + CaCO3 2.133e-08 2.137e-08 -7.671 -7.670 0.001 -14.60 + CaOH+ 5.282e-10 4.849e-10 -9.277 -9.314 -0.037 (0) +Cl 5.564e-03 + Cl- 5.564e-03 5.104e-03 -2.255 -2.292 -0.037 18.12 + HCl 3.681e-10 3.705e-10 -9.434 -9.431 0.003 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.113 -42.112 0.001 28.61 -Na 4.573e-03 - Na+ 4.572e-03 4.200e-03 -2.340 -2.377 -0.037 -1.41 - NaHCO3 3.419e-07 3.430e-07 -6.466 -6.465 0.001 31.73 -O(0) 1.394e-08 - O2 6.969e-09 6.980e-09 -8.157 -8.156 0.001 30.40 + H2 0.000e+00 0.000e+00 -42.157 -42.157 0.001 28.61 +Na 3.948e-03 + Na+ 3.948e-03 3.628e-03 -2.404 -2.440 -0.037 -1.41 + NaHCO3 2.924e-07 2.933e-07 -6.534 -6.533 0.001 31.73 +O(0) 1.713e-08 + O2 8.565e-09 8.578e-09 -8.067 -8.067 0.001 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - Aragonite -2.65 -10.98 -8.34 CaCO3 - Calcite -2.50 -10.98 -8.48 CaCO3 - CH4(g) -133.02 -135.82 -2.80 CH4 + Aragonite -2.56 -10.90 -8.34 CaCO3 + Calcite -2.42 -10.90 -8.48 CaCO3 + CH4(g) -133.19 -135.99 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -39.01 -42.11 -3.10 H2 + H2(g) -39.06 -42.16 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -6.22 -4.65 1.57 NaCl - O2(g) -5.26 -8.16 -2.89 O2 + Halite -6.30 -4.73 1.57 NaCl + O2(g) -5.17 -8.07 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3842,113 +3842,113 @@ Mixture 4. Diffuse Double Layer Surface-Complexation Model Su - 1.145e-10 Surface + diffuse layer charge, eq + 6.299e-11 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -3.582e-01 psi, V - 1.394e+01 -F*psi/RT - 1.136e+06 exp(-F*psi/RT) + -3.576e-01 psi, V + 1.392e+01 -F*psi/RT + 1.108e+06 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 2.069e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89071 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 5.339e-08 m. + Water in diffuse layer: 2.045e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 5.347e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.084e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 6.797e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.070e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 6.434e+01 (= c_DL / c_free if z is +1). Element Moles - C 1.2749e-05 - Ca 4.9588e-01 - Cl 4.5685e-06 - H 5.8059e-06 - Na 8.2446e-03 - O 2.8725e-05 + C 1.2846e-05 + Ca 4.9714e-01 + Cl 4.7239e-06 + H 5.8245e-06 + Na 5.7219e-03 + O 2.9103e-05 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.262e+00 0.101 + Su- 1.000e+00 1.000 1.258e+00 0.100 -----------------------------Solution composition------------------------------ Elements Molality Moles - C 1.693e-04 1.341e-04 - Ca 5.188e-04 4.111e-04 - Cl 1.501e-03 1.189e-03 - Na 5.862e-04 4.645e-04 + C 1.697e-04 1.349e-04 + Ca 5.875e-04 4.670e-04 + Cl 1.486e-03 1.181e-03 + Na 4.349e-04 3.457e-04 ----------------------------Description of solution---------------------------- pH = 6.756 Charge balance - pe = 12.749 Adjusted to redox equilibrium + pe = 12.767 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 127 Density (g/cm³) = 0.99712 Volume (L) = 1.00238 - Viscosity (mPa s) = 0.89071 + Viscosity (mPa s) = 0.89076 Activity of water = 1.000 - Ionic strength (mol/kgw) = 2.142e-03 - Mass of water (kg) = 7.925e-01 - Total alkalinity (eq/kg) = 1.231e-04 - Total CO2 (mol/kg) = 1.693e-04 + Ionic strength (mol/kgw) = 2.197e-03 + Mass of water (kg) = 7.949e-01 + Total alkalinity (eq/kg) = 1.235e-04 + Total CO2 (mol/kg) = 1.697e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.681e-08 + Electrical balance (eq) = 4.670e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) - Total H = 8.797433e+01 - Total O = 4.398748e+01 + Total H = 8.824530e+01 + Total O = 4.412297e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.840e-07 1.754e-07 -6.735 -6.756 -0.021 0.00 - OH- 6.077e-08 5.771e-08 -7.216 -7.239 -0.022 -4.09 - H2O 7.000e+01 1.000e+00 1.845 -0.000 0.000 18.07 + H+ 1.841e-07 1.755e-07 -6.735 -6.756 -0.021 0.00 + OH- 6.078e-08 5.768e-08 -7.216 -7.239 -0.023 -4.09 + H2O 6.979e+01 1.000e+00 1.844 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.986 -135.986 0.000 35.46 -C(4) 1.693e-04 - HCO3- 1.229e-04 1.169e-04 -3.911 -3.932 -0.022 24.59 - CO2 4.606e-05 4.608e-05 -4.337 -4.336 0.000 34.43 - CaHCO3+ 2.009e-07 1.911e-07 -6.697 -6.719 -0.022 122.65 - NaHCO3 5.664e-08 5.670e-08 -7.247 -7.246 0.000 31.73 - CO3-2 3.820e-08 3.125e-08 -7.418 -7.505 -0.087 -3.88 - CaCO3 2.225e-08 2.226e-08 -7.653 -7.652 0.000 -14.60 - (CO2)2 3.895e-11 3.897e-11 -10.409 -10.409 0.000 68.87 -Ca 5.188e-04 - Ca+2 5.186e-04 4.241e-04 -3.285 -3.373 -0.087 -18.09 - CaHCO3+ 2.009e-07 1.911e-07 -6.697 -6.719 -0.022 122.65 - CaCO3 2.225e-08 2.226e-08 -7.653 -7.652 0.000 -14.60 - CaOH+ 4.223e-10 4.013e-10 -9.374 -9.397 -0.022 (0) -Cl 1.501e-03 - Cl- 1.501e-03 1.425e-03 -2.824 -2.846 -0.022 18.09 - HCl 8.594e-11 8.612e-11 -10.066 -10.065 0.001 (0) + CH4 0.000e+00 0.000e+00 -136.130 -136.130 0.000 35.46 +C(4) 1.697e-04 + HCO3- 1.232e-04 1.171e-04 -3.909 -3.931 -0.022 24.59 + CO2 4.619e-05 4.620e-05 -4.335 -4.335 0.000 34.43 + CaHCO3+ 2.276e-07 2.164e-07 -6.643 -6.665 -0.022 122.65 + NaHCO3 4.209e-08 4.214e-08 -7.376 -7.375 0.000 31.73 + CO3-2 3.836e-08 3.130e-08 -7.416 -7.504 -0.088 -3.87 + CaCO3 2.518e-08 2.519e-08 -7.599 -7.599 0.000 -14.60 + (CO2)2 3.917e-11 3.919e-11 -10.407 -10.407 0.000 68.87 +Ca 5.875e-04 + Ca+2 5.872e-04 4.790e-04 -3.231 -3.320 -0.088 -18.09 + CaHCO3+ 2.276e-07 2.164e-07 -6.643 -6.665 -0.022 122.65 + CaCO3 2.518e-08 2.519e-08 -7.599 -7.599 0.000 -14.60 + CaOH+ 4.772e-10 4.531e-10 -9.321 -9.344 -0.022 (0) +Cl 1.486e-03 + Cl- 1.486e-03 1.411e-03 -2.828 -2.851 -0.023 18.09 + HCl 8.509e-11 8.528e-11 -10.070 -10.069 0.001 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.160 -42.160 0.000 28.61 -Na 5.862e-04 - Na+ 5.861e-04 5.571e-04 -3.232 -3.254 -0.022 -1.46 - NaHCO3 5.664e-08 5.670e-08 -7.247 -7.246 0.000 31.73 -O(0) 1.741e-08 - O2 8.703e-09 8.708e-09 -8.060 -8.060 0.000 30.40 + H2 0.000e+00 0.000e+00 -42.196 -42.196 0.000 28.61 +Na 4.349e-04 + Na+ 4.349e-04 4.131e-04 -3.362 -3.384 -0.022 -1.46 + NaHCO3 4.209e-08 4.214e-08 -7.376 -7.375 0.000 31.73 +O(0) 2.057e-08 + O2 1.029e-08 1.029e-08 -7.988 -7.988 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - Aragonite -2.54 -10.88 -8.34 CaCO3 - Calcite -2.40 -10.88 -8.48 CaCO3 - CH4(g) -133.18 -135.99 -2.80 CH4 + Aragonite -2.49 -10.82 -8.34 CaCO3 + Calcite -2.34 -10.82 -8.48 CaCO3 + CH4(g) -133.33 -136.13 -2.80 CH4 CO2(g) -2.87 -4.34 -1.47 CO2 - H2(g) -39.06 -42.16 -3.10 H2 + H2(g) -39.10 -42.20 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -7.67 -6.10 1.57 NaCl - O2(g) -5.17 -8.06 -2.89 O2 + Halite -7.80 -6.23 1.57 NaCl + O2(g) -5.10 -7.99 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3967,113 +3967,113 @@ Mixture 5. Diffuse Double Layer Surface-Complexation Model Su - -2.965e-09 Surface + diffuse layer charge, eq + 9.989e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -3.857e-01 psi, V - 1.501e+01 -F*psi/RT - 3.310e+06 exp(-F*psi/RT) + -3.853e-01 psi, V + 1.500e+01 -F*psi/RT + 3.258e+06 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 3.387e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89053 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 4.875e-08 m. + Water in diffuse layer: 3.363e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 4.884e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.126e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 7.996e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.122e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 7.870e+01 (= c_DL / c_free if z is +1). Element Moles - C 1.9265e-05 - Ca 4.9941e-01 - Cl 1.4827e-06 - H 7.6993e-06 - Na 1.1784e-03 - O 4.2502e-05 + C 1.9230e-05 + Ca 4.9964e-01 + Cl 1.5061e-06 + H 7.6763e-06 + Na 7.2874e-04 + O 4.2492e-05 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.514e+00 0.180 + Su- 1.000e+00 1.000 1.508e+00 0.178 -----------------------------Solution composition------------------------------ Elements Molality Moles - C 2.001e-04 1.322e-04 - Ca 2.307e-04 1.525e-04 - Cl 3.500e-04 2.313e-04 - Na 4.352e-05 2.875e-05 + C 2.002e-04 1.328e-04 + Ca 2.400e-04 1.591e-04 + Cl 3.525e-04 2.337e-04 + Na 2.754e-05 1.826e-05 ----------------------------Description of solution---------------------------- pH = 6.873 Charge balance - pe = 12.554 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 26 + pe = 12.573 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 25°C) = 27 Density (g/cm³) = 0.99707 Volume (L) = 1.00238 - Viscosity (mPa s) = 0.89053 + Viscosity (mPa s) = 0.89055 Activity of water = 1.000 - Ionic strength (mol/kgw) = 7.356e-04 - Mass of water (kg) = 6.607e-01 - Total alkalinity (eq/kg) = 1.549e-04 - Total CO2 (mol/kg) = 2.001e-04 + Ionic strength (mol/kgw) = 7.474e-04 + Mass of water (kg) = 6.631e-01 + Total alkalinity (eq/kg) = 1.550e-04 + Total CO2 (mol/kg) = 2.002e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.182e-08 + Electrical balance (eq) = 4.283e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 - Iterations = 0 (15 overall) - Total H = 7.334762e+01 - Total O = 3.667412e+01 + Iterations = 0 (14 overall) + Total H = 7.361430e+01 + Total O = 3.680747e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.379e-07 1.339e-07 -6.860 -6.873 -0.013 0.00 - OH- 7.794e-08 7.557e-08 -7.108 -7.122 -0.013 -4.11 - H2O 8.396e+01 1.000e+00 1.924 -0.000 0.000 18.07 + H+ 1.381e-07 1.340e-07 -6.860 -6.873 -0.013 0.00 + OH- 7.791e-08 7.552e-08 -7.108 -7.122 -0.014 -4.11 + H2O 8.366e+01 1.000e+00 1.922 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.368 -135.368 0.000 35.46 -C(4) 2.001e-04 - HCO3- 1.547e-04 1.500e-04 -3.811 -3.824 -0.013 24.57 - CO2 4.518e-05 4.519e-05 -4.345 -4.345 0.000 34.43 - CaHCO3+ 1.218e-07 1.182e-07 -6.914 -6.927 -0.013 122.63 - CO3-2 5.933e-08 5.254e-08 -7.227 -7.280 -0.053 -3.95 - CaCO3 1.802e-08 1.802e-08 -7.744 -7.744 0.000 -14.60 - NaHCO3 5.513e-09 5.515e-09 -8.259 -8.258 0.000 31.73 - (CO2)2 3.747e-11 3.748e-11 -10.426 -10.426 0.000 68.87 -Ca 2.307e-04 - Ca+2 2.306e-04 2.042e-04 -3.637 -3.690 -0.053 -18.16 - CaHCO3+ 1.218e-07 1.182e-07 -6.914 -6.927 -0.013 122.63 - CaCO3 1.802e-08 1.802e-08 -7.744 -7.744 0.000 -14.60 - CaOH+ 2.609e-10 2.530e-10 -9.584 -9.597 -0.013 (0) -Cl 3.500e-04 - Cl- 3.500e-04 3.394e-04 -3.456 -3.469 -0.013 18.07 - HCl 1.565e-11 1.566e-11 -10.806 -10.805 0.000 (0) + CH4 0.000e+00 0.000e+00 -135.520 -135.520 0.000 35.46 +C(4) 2.002e-04 + HCO3- 1.548e-04 1.501e-04 -3.810 -3.824 -0.013 24.57 + CO2 4.523e-05 4.523e-05 -4.345 -4.345 0.000 34.43 + CaHCO3+ 1.266e-07 1.228e-07 -6.897 -6.911 -0.013 122.63 + CO3-2 5.937e-08 5.252e-08 -7.226 -7.280 -0.053 -3.95 + CaCO3 1.872e-08 1.872e-08 -7.728 -7.728 0.000 -14.60 + NaHCO3 3.489e-09 3.490e-09 -8.457 -8.457 0.000 31.73 + (CO2)2 3.755e-11 3.755e-11 -10.425 -10.425 0.000 68.87 +Ca 2.400e-04 + Ca+2 2.398e-04 2.122e-04 -3.620 -3.673 -0.053 -18.16 + CaHCO3+ 1.266e-07 1.228e-07 -6.897 -6.911 -0.013 122.63 + CaCO3 1.872e-08 1.872e-08 -7.728 -7.728 0.000 -14.60 + CaOH+ 2.710e-10 2.627e-10 -9.567 -9.581 -0.013 (0) +Cl 3.525e-04 + Cl- 3.525e-04 3.417e-04 -3.453 -3.466 -0.013 18.07 + HCl 1.576e-11 1.578e-11 -10.802 -10.802 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.003 -42.003 0.000 28.61 -Na 4.352e-05 - Na+ 4.351e-05 4.220e-05 -4.361 -4.375 -0.013 -1.48 - NaHCO3 5.513e-09 5.515e-09 -8.259 -8.258 0.000 31.73 -O(0) 8.467e-09 - O2 4.233e-09 4.234e-09 -8.373 -8.373 0.000 30.40 + H2 0.000e+00 0.000e+00 -42.042 -42.042 0.000 28.61 +Na 2.754e-05 + Na+ 2.753e-05 2.670e-05 -4.560 -4.574 -0.013 -1.48 + NaHCO3 3.489e-09 3.490e-09 -8.457 -8.457 0.000 31.73 +O(0) 1.009e-08 + O2 5.046e-09 5.047e-09 -8.297 -8.297 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - Aragonite -2.63 -10.97 -8.34 CaCO3 - Calcite -2.49 -10.97 -8.48 CaCO3 - CH4(g) -132.57 -135.37 -2.80 CH4 - CO2(g) -2.88 -4.35 -1.47 CO2 - H2(g) -38.90 -42.00 -3.10 H2 + Aragonite -2.62 -10.95 -8.34 CaCO3 + Calcite -2.47 -10.95 -8.48 CaCO3 + CH4(g) -132.72 -135.52 -2.80 CH4 + CO2(g) -2.88 -4.34 -1.47 CO2 + H2(g) -38.94 -42.04 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -9.41 -7.84 1.57 NaCl - O2(g) -5.48 -8.37 -2.89 O2 + Halite -9.61 -8.04 1.57 NaCl + O2(g) -5.40 -8.30 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4092,100 +4092,100 @@ Mixture 6. Diffuse Double Layer Surface-Complexation Model Su - -3.387e-09 Surface + diffuse layer charge, eq + -3.307e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² - -4.033e-01 psi, V - 1.570e+01 -F*psi/RT - 6.570e+06 exp(-F*psi/RT) + -4.032e-01 psi, V + 1.569e+01 -F*psi/RT + 6.541e+06 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 4.571e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89044 mPa s for DDL water. - Radius of total pore: 5.996e-08 m; of free pore: 4.417e-08 m. + Water in diffuse layer: 4.562e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. + Radius of total pore: 5.996e-08 m; of free pore: 4.420e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.169e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 9.451e+01 (= c_DL / c_free if z is +1). + Donnan Layer potential, psi_DL = -1.168e-01 V. + Boltzmann factor, exp(-psi_DL * F / RT) = 9.422e+01 (= c_DL / c_free if z is +1). Element Moles - C 2.4607e-05 - Ca 4.9994e-01 - Cl 2.9628e-07 - H 9.1538e-06 - Na 1.2628e-04 - O 5.3619e-05 + C 2.4582e-05 + Ca 4.9997e-01 + Cl 3.0005e-07 + H 9.1428e-06 + Na 6.9424e-05 + O 5.3579e-05 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.844e+00 0.266 + Su- 1.000e+00 1.000 1.841e+00 0.265 -----------------------------Solution composition------------------------------ Elements Molality Moles - C 2.309e-04 1.252e-04 - Ca 1.226e-04 6.646e-05 - Cl 6.126e-05 3.322e-05 - Na 2.924e-06 1.586e-06 + C 2.308e-04 1.254e-04 + Ca 1.235e-04 6.710e-05 + Cl 6.197e-05 3.366e-05 + Na 1.615e-06 8.774e-07 ----------------------------Description of solution---------------------------- pH = 6.967 Charge balance - pe = 12.412 Adjusted to redox equilibrium + pe = 12.397 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 7 Density (g/cm³) = 0.99706 Volume (L) = 1.00238 Viscosity (mPa s) = 0.89044 Activity of water = 1.000 - Ionic strength (mol/kgw) = 3.705e-04 - Mass of water (kg) = 5.423e-01 + Ionic strength (mol/kgw) = 3.722e-04 + Mass of water (kg) = 5.432e-01 Total alkalinity (eq/kg) = 1.867e-04 - Total CO2 (mol/kg) = 2.309e-04 + Total CO2 (mol/kg) = 2.308e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.904e-08 + Electrical balance (eq) = 1.581e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 0 (19 overall) - Total H = 6.020427e+01 - Total O = 3.010243e+01 + Total H = 6.029979e+01 + Total O = 3.015020e+01 ----------------------------Distribution of species---------------------------- Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.101e-07 1.078e-07 -6.958 -6.967 -0.009 0.00 - OH- 9.598e-08 9.388e-08 -7.018 -7.027 -0.010 -4.12 - H2O 1.023e+02 1.000e+00 2.010 -0.000 0.000 18.07 + H+ 1.102e-07 1.079e-07 -6.958 -6.967 -0.009 0.00 + OH- 9.594e-08 9.384e-08 -7.018 -7.028 -0.010 -4.12 + H2O 1.021e+02 1.000e+00 2.009 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -134.995 -134.995 0.000 35.46 -C(4) 2.309e-04 - HCO3- 1.865e-04 1.824e-04 -3.729 -3.739 -0.009 24.57 - CO2 4.422e-05 4.422e-05 -4.354 -4.354 0.000 34.43 - CO3-2 8.661e-08 7.936e-08 -7.062 -7.100 -0.038 -3.98 - CaHCO3+ 8.069e-08 7.895e-08 -7.093 -7.103 -0.009 122.63 - CaCO3 1.496e-08 1.496e-08 -7.825 -7.825 0.000 -14.60 - NaHCO3 4.543e-10 4.544e-10 -9.343 -9.343 0.000 31.73 - (CO2)2 3.589e-11 3.589e-11 -10.445 -10.445 0.000 68.87 -Ca 1.226e-04 - Ca+2 1.225e-04 1.122e-04 -3.912 -3.950 -0.038 -18.18 - CaHCO3+ 8.069e-08 7.895e-08 -7.093 -7.103 -0.009 122.63 - CaCO3 1.496e-08 1.496e-08 -7.825 -7.825 0.000 -14.60 - CaOH+ 1.766e-10 1.727e-10 -9.753 -9.763 -0.010 (0) -Cl 6.126e-05 - Cl- 6.126e-05 5.992e-05 -4.213 -4.222 -0.010 18.06 - HCl 2.225e-12 2.225e-12 -11.653 -11.653 0.000 (0) + CH4 0.000e+00 0.000e+00 -134.877 -134.877 0.000 35.46 +C(4) 2.308e-04 + HCO3- 1.864e-04 1.824e-04 -3.730 -3.739 -0.010 24.57 + CO2 4.423e-05 4.423e-05 -4.354 -4.354 0.000 34.43 + CO3-2 8.656e-08 7.930e-08 -7.063 -7.101 -0.038 -3.98 + CaHCO3+ 8.130e-08 7.955e-08 -7.090 -7.099 -0.009 122.63 + CaCO3 1.506e-08 1.506e-08 -7.822 -7.822 0.000 -14.60 + NaHCO3 2.509e-10 2.510e-10 -9.600 -9.600 0.000 31.73 + (CO2)2 3.590e-11 3.591e-11 -10.445 -10.445 0.000 68.87 +Ca 1.235e-04 + Ca+2 1.234e-04 1.131e-04 -3.909 -3.947 -0.038 -18.18 + CaHCO3+ 8.130e-08 7.955e-08 -7.090 -7.099 -0.009 122.63 + CaCO3 1.506e-08 1.506e-08 -7.822 -7.822 0.000 -14.60 + CaOH+ 1.779e-10 1.740e-10 -9.750 -9.759 -0.010 (0) +Cl 6.197e-05 + Cl- 6.197e-05 6.061e-05 -4.208 -4.217 -0.010 18.06 + HCl 2.251e-12 2.252e-12 -11.648 -11.647 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.908 -41.908 0.000 28.61 -Na 2.924e-06 - Na+ 2.923e-06 2.860e-06 -5.534 -5.544 -0.010 -1.50 - NaHCO3 4.543e-10 4.544e-10 -9.343 -9.343 0.000 31.73 -O(0) 5.450e-09 - O2 2.725e-09 2.725e-09 -8.565 -8.565 0.000 30.40 + H2 0.000e+00 0.000e+00 -41.878 -41.878 0.000 28.61 +Na 1.615e-06 + Na+ 1.615e-06 1.580e-06 -5.792 -5.801 -0.010 -1.50 + NaHCO3 2.509e-10 2.510e-10 -9.600 -9.600 0.000 31.73 +O(0) 4.760e-09 + O2 2.380e-09 2.380e-09 -8.623 -8.623 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -4193,12 +4193,12 @@ O(0) 5.450e-09 Aragonite -2.71 -11.05 -8.34 CaCO3 Calcite -2.57 -11.05 -8.48 CaCO3 - CH4(g) -132.19 -134.99 -2.80 CH4 + CH4(g) -132.08 -134.88 -2.80 CH4 CO2(g) -2.89 -4.35 -1.47 CO2 - H2(g) -38.81 -41.91 -3.10 H2 + H2(g) -38.78 -41.88 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -11.34 -9.77 1.57 NaCl - O2(g) -5.67 -8.56 -2.89 O2 + Halite -11.59 -10.02 1.57 NaCl + O2(g) -5.73 -8.62 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4217,66 +4217,66 @@ Mixture 7. Diffuse Double Layer Surface-Complexation Model Su - -5.201e-10 Surface + diffuse layer charge, eq + -2.527e-10 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² -4.080e-01 psi, V 1.588e+01 -F*psi/RT - 7.897e+06 exp(-F*psi/RT) + 7.893e+06 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g - Water in diffuse layer: 4.938e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89041 mPa s for DDL water. + Water in diffuse layer: 4.937e-01 kg, 100.0% of total DDL-water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.265e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.181e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 9.933e+01 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 9.930e+01 (= c_DL / c_free if z is +1). Element Moles - C 2.6284e-05 - Ca 4.9999e-01 - Cl 3.6543e-08 - H 9.5898e-06 - Na 1.0414e-05 - O 5.7116e-05 + C 2.6279e-05 + Ca 5.0000e-01 + Cl 3.6997e-08 + H 9.5881e-06 + Na 5.0789e-06 + O 5.7109e-05 Su 1.000e+00 moles Mole Log Species Moles Fraction Molality Molality - Su- 1.000e+00 1.000 1.978e+00 0.296 + Su- 1.000e+00 1.000 1.977e+00 0.296 -----------------------------Solution composition------------------------------ Elements Molality Moles C 2.421e-04 1.224e-04 - Ca 1.027e-04 5.193e-05 - Cl 7.351e-06 3.717e-06 - Na 2.123e-07 1.074e-07 + Ca 1.028e-04 5.199e-05 + Cl 7.442e-06 3.763e-06 + Na 1.036e-07 5.240e-08 ----------------------------Description of solution---------------------------- pH = 6.996 Charge balance - pe = 12.414 Adjusted to redox equilibrium + pe = 12.410 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 5 Density (g/cm³) = 0.99706 Volume (L) = 1.00238 Viscosity (mPa s) = 0.89041 Activity of water = 1.000 - Ionic strength (mol/kgw) = 3.083e-04 - Mass of water (kg) = 5.056e-01 + Ionic strength (mol/kgw) = 3.085e-04 + Mass of water (kg) = 5.057e-01 Total alkalinity (eq/kg) = 1.982e-04 Total CO2 (mol/kg) = 2.421e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.166e-08 + Electrical balance (eq) = 4.155e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 0 (23 overall) - Total H = 5.612841e+01 - Total O = 2.806450e+01 + Total H = 5.614213e+01 + Total O = 2.807136e+01 ----------------------------Distribution of species---------------------------- @@ -4287,30 +4287,30 @@ Su OH- 1.023e-07 1.002e-07 -6.990 -6.999 -0.009 -4.12 H2O 1.097e+02 1.000e+00 2.040 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.246 -135.246 0.000 35.46 + CH4 0.000e+00 0.000e+00 -135.214 -135.214 0.000 35.46 C(4) 2.421e-04 HCO3- 1.979e-04 1.940e-04 -3.704 -3.712 -0.009 24.56 CO2 4.404e-05 4.404e-05 -4.356 -4.356 0.000 34.43 CO3-2 9.758e-08 9.008e-08 -7.011 -7.045 -0.035 -3.99 - CaHCO3+ 7.229e-08 7.087e-08 -7.141 -7.150 -0.009 122.62 - CaCO3 1.433e-08 1.433e-08 -7.844 -7.844 0.000 -14.60 + CaHCO3+ 7.236e-08 7.093e-08 -7.140 -7.149 -0.009 122.62 + CaCO3 1.435e-08 1.435e-08 -7.843 -7.843 0.000 -14.60 (CO2)2 3.560e-11 3.560e-11 -10.449 -10.449 0.000 68.87 - NaHCO3 3.515e-11 3.515e-11 -10.454 -10.454 0.000 31.73 -Ca 1.027e-04 - Ca+2 1.026e-04 9.472e-05 -3.989 -4.024 -0.035 -18.19 - CaHCO3+ 7.229e-08 7.087e-08 -7.141 -7.150 -0.009 122.62 - CaCO3 1.433e-08 1.433e-08 -7.844 -7.844 0.000 -14.60 - CaOH+ 1.588e-10 1.557e-10 -9.799 -9.808 -0.009 (0) -Cl 7.351e-06 - Cl- 7.351e-06 7.204e-06 -5.134 -5.142 -0.009 18.06 - HCl 2.505e-13 2.506e-13 -12.601 -12.601 0.000 (0) + NaHCO3 1.715e-11 1.715e-11 -10.766 -10.766 0.000 31.73 +Ca 1.028e-04 + Ca+2 1.027e-04 9.481e-05 -3.988 -4.023 -0.035 -18.19 + CaHCO3+ 7.236e-08 7.093e-08 -7.140 -7.149 -0.009 122.62 + CaCO3 1.435e-08 1.435e-08 -7.843 -7.843 0.000 -14.60 + CaOH+ 1.590e-10 1.558e-10 -9.799 -9.807 -0.009 (0) +Cl 7.442e-06 + Cl- 7.442e-06 7.293e-06 -5.128 -5.137 -0.009 18.06 + HCl 2.536e-13 2.537e-13 -12.596 -12.596 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.970 -41.970 0.000 28.61 -Na 2.123e-07 - Na+ 2.123e-07 2.081e-07 -6.673 -6.682 -0.009 -1.50 - NaHCO3 3.515e-11 3.515e-11 -10.454 -10.454 0.000 31.73 -O(0) 7.265e-09 - O2 3.633e-09 3.633e-09 -8.440 -8.440 0.000 30.40 + H2 0.000e+00 0.000e+00 -41.962 -41.962 0.000 28.61 +Na 1.036e-07 + Na+ 1.036e-07 1.015e-07 -6.985 -6.993 -0.009 -1.50 + NaHCO3 1.715e-11 1.715e-11 -10.766 -10.766 0.000 31.73 +O(0) 6.998e-09 + O2 3.499e-09 3.499e-09 -8.456 -8.456 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -4318,12 +4318,12 @@ O(0) 7.265e-09 Aragonite -2.73 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -132.44 -135.25 -2.80 CH4 + CH4(g) -132.41 -135.21 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 - H2(g) -38.87 -41.97 -3.10 H2 + H2(g) -38.86 -41.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -13.39 -11.82 1.57 NaCl - O2(g) -5.55 -8.44 -2.89 O2 + Halite -13.70 -12.13 1.57 NaCl + O2(g) -5.56 -8.46 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4342,17 +4342,17 @@ Mixture 8. Diffuse Double Layer Surface-Complexation Model Su - 1.336e-09 Surface + diffuse layer charge, eq + 1.354e-09 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² -4.087e-01 psi, V 1.591e+01 -F*psi/RT - 8.094e+06 exp(-F*psi/RT) + 8.093e+06 exp(-F*psi/RT) 3.334e+04 specific area, m²/g 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.989e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.243e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4362,10 +4362,10 @@ Su Element Moles C 2.6522e-05 Ca 5.0000e-01 - Cl 3.3830e-09 - H 9.6512e-06 - Na 6.9265e-07 - O 5.7613e-05 + Cl 3.4241e-09 + H 9.6510e-06 + Na 2.9923e-07 + O 5.7612e-05 Su 1.000e+00 moles @@ -4379,29 +4379,29 @@ Su Elements Molality Moles C 2.437e-04 1.220e-04 - Ca 1.003e-04 5.019e-05 - Cl 6.783e-07 3.395e-07 - Na 1.388e-08 6.950e-09 + Ca 1.003e-04 5.020e-05 + Cl 6.865e-07 3.436e-07 + Na 5.998e-09 3.003e-09 ----------------------------Description of solution---------------------------- pH = 6.999 Charge balance - pe = 12.416 Adjusted to redox equilibrium + pe = 12.415 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 5 Density (g/cm³) = 0.99706 Volume (L) = 1.00238 Viscosity (mPa s) = 0.89040 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.008e-04 - Mass of water (kg) = 5.005e-01 + Mass of water (kg) = 5.006e-01 Total alkalinity (eq/kg) = 1.998e-04 Total CO2 (mol/kg) = 2.437e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.300e-08 + Electrical balance (eq) = 4.295e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 0 (22 overall) - Total H = 5.556727e+01 - Total O = 2.778393e+01 + Total H = 5.556852e+01 + Total O = 2.778456e+01 ----------------------------Distribution of species---------------------------- @@ -4412,30 +4412,30 @@ Su H+ 1.021e-07 1.001e-07 -6.991 -6.999 -0.008 0.00 H2O 1.108e+02 1.000e+00 2.045 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.288 -135.288 0.000 35.46 + CH4 0.000e+00 0.000e+00 -135.280 -135.280 0.000 35.46 C(4) 2.437e-04 HCO3- 1.995e-04 1.956e-04 -3.700 -3.709 -0.009 24.56 CO2 4.403e-05 4.403e-05 -4.356 -4.356 0.000 34.43 CO3-2 9.915e-08 9.161e-08 -7.004 -7.038 -0.034 -3.99 - CaHCO3+ 7.123e-08 6.984e-08 -7.147 -7.156 -0.009 122.62 + CaHCO3+ 7.124e-08 6.985e-08 -7.147 -7.156 -0.009 122.62 CaCO3 1.425e-08 1.425e-08 -7.846 -7.846 0.000 -14.60 (CO2)2 3.559e-11 3.559e-11 -10.449 -10.449 0.000 68.87 - NaHCO3 2.318e-12 2.318e-12 -11.635 -11.635 0.000 31.73 + NaHCO3 1.001e-12 1.002e-12 -11.999 -11.999 0.000 31.73 Ca 1.003e-04 - Ca+2 1.002e-04 9.257e-05 -3.999 -4.034 -0.034 -18.19 - CaHCO3+ 7.123e-08 6.984e-08 -7.147 -7.156 -0.009 122.62 + Ca+2 1.002e-04 9.258e-05 -3.999 -4.033 -0.034 -18.19 + CaHCO3+ 7.124e-08 6.985e-08 -7.147 -7.156 -0.009 122.62 CaCO3 1.425e-08 1.425e-08 -7.846 -7.846 0.000 -14.60 CaOH+ 1.565e-10 1.534e-10 -9.805 -9.814 -0.009 (0) -Cl 6.783e-07 - Cl- 6.783e-07 6.649e-07 -6.169 -6.177 -0.009 18.06 - HCl 2.293e-14 2.293e-14 -13.640 -13.640 0.000 (0) +Cl 6.865e-07 + Cl- 6.865e-07 6.729e-07 -6.163 -6.172 -0.009 18.06 + HCl 2.320e-14 2.321e-14 -13.634 -13.634 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.981 -41.981 0.000 28.61 -Na 1.388e-08 - Na+ 1.388e-08 1.361e-08 -7.858 -7.866 -0.009 -1.50 - NaHCO3 2.318e-12 2.318e-12 -11.635 -11.635 0.000 31.73 -O(0) 7.622e-09 - O2 3.811e-09 3.811e-09 -8.419 -8.419 0.000 30.40 + H2 0.000e+00 0.000e+00 -41.979 -41.979 0.000 28.61 +Na 5.998e-09 + Na+ 5.997e-09 5.879e-09 -8.222 -8.231 -0.009 -1.50 + NaHCO3 1.001e-12 1.002e-12 -11.999 -11.999 0.000 31.73 +O(0) 7.554e-09 + O2 3.777e-09 3.777e-09 -8.423 -8.423 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -4443,11 +4443,11 @@ O(0) 7.622e-09 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -132.49 -135.29 -2.80 CH4 + CH4(g) -132.48 -135.28 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 H2(g) -38.88 -41.98 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -15.61 -14.04 1.57 NaCl + Halite -15.97 -14.40 1.57 NaCl O2(g) -5.53 -8.42 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. @@ -4467,7 +4467,7 @@ Mixture 9. Diffuse Double Layer Surface-Complexation Model Su - 8.675e-10 Surface + diffuse layer charge, eq + 8.494e-10 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² -4.087e-01 psi, V @@ -4477,7 +4477,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4487,9 +4487,9 @@ Su Element Moles C 2.6546e-05 Ca 5.0000e-01 - Cl 2.5632e-10 + Cl 2.5932e-10 H 9.6573e-06 - Na 3.8120e-08 + Na 1.4583e-08 O 5.7662e-05 Su @@ -4505,13 +4505,13 @@ Su C 2.439e-04 1.220e-04 Ca 1.000e-04 5.003e-05 - Cl 5.137e-08 2.569e-08 - Na 7.629e-10 3.815e-10 + Cl 5.197e-08 2.599e-08 + Na 2.918e-10 1.459e-10 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.412 Adjusted to redox equilibrium + pe = 12.410 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 5 Density (g/cm³) = 0.99706 Volume (L) = 1.00238 @@ -4522,11 +4522,11 @@ Su Total alkalinity (eq/kg) = 2.000e-04 Total CO2 (mol/kg) = 2.439e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.084e-08 + Electrical balance (eq) = 4.063e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 0 (22 overall) - Total H = 5.551319e+01 - Total O = 2.775689e+01 + Total H = 5.551327e+01 + Total O = 2.775693e+01 ----------------------------Distribution of species---------------------------- @@ -4537,7 +4537,7 @@ Su H+ 1.020e-07 1.001e-07 -6.991 -7.000 -0.008 0.00 H2O 1.109e+02 1.000e+00 2.045 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.257 -135.257 0.000 35.46 + CH4 0.000e+00 0.000e+00 -135.248 -135.248 0.000 35.46 C(4) 2.439e-04 HCO3- 1.997e-04 1.958e-04 -3.700 -3.708 -0.009 24.56 CO2 4.403e-05 4.403e-05 -4.356 -4.356 0.000 34.43 @@ -4545,22 +4545,22 @@ C(4) 2.439e-04 CaHCO3+ 7.113e-08 6.974e-08 -7.148 -7.157 -0.009 122.62 CaCO3 1.424e-08 1.424e-08 -7.847 -7.847 0.000 -14.60 (CO2)2 3.559e-11 3.559e-11 -10.449 -10.449 0.000 68.87 - NaHCO3 1.275e-13 1.275e-13 -12.895 -12.895 0.000 31.73 + NaHCO3 4.876e-14 4.877e-14 -13.312 -13.312 0.000 31.73 Ca 1.000e-04 Ca+2 9.996e-05 9.236e-05 -4.000 -4.034 -0.034 -18.19 CaHCO3+ 7.113e-08 6.974e-08 -7.148 -7.157 -0.009 122.62 CaCO3 1.424e-08 1.424e-08 -7.847 -7.847 0.000 -14.60 CaOH+ 1.563e-10 1.532e-10 -9.806 -9.815 -0.009 (0) -Cl 5.137e-08 - Cl- 5.137e-08 5.036e-08 -7.289 -7.298 -0.009 18.06 - HCl 1.735e-15 1.736e-15 -14.761 -14.761 0.000 (0) +Cl 5.197e-08 + Cl- 5.197e-08 5.095e-08 -7.284 -7.293 -0.009 18.06 + HCl 1.756e-15 1.756e-15 -14.756 -14.755 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.973 -41.973 0.000 28.61 -Na 7.629e-10 - Na+ 7.627e-10 7.478e-10 -9.118 -9.126 -0.009 -1.50 - NaHCO3 1.275e-13 1.275e-13 -12.895 -12.895 0.000 31.73 -O(0) 7.352e-09 - O2 3.676e-09 3.676e-09 -8.435 -8.435 0.000 30.40 + H2 0.000e+00 0.000e+00 -41.970 -41.970 0.000 28.61 +Na 2.918e-10 + Na+ 2.918e-10 2.861e-10 -9.535 -9.544 -0.009 -1.50 + NaHCO3 4.876e-14 4.877e-14 -13.312 -13.312 0.000 31.73 +O(0) 7.275e-09 + O2 3.637e-09 3.638e-09 -8.439 -8.439 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -4568,12 +4568,12 @@ O(0) 7.352e-09 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -132.45 -135.26 -2.80 CH4 + CH4(g) -132.45 -135.25 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 H2(g) -38.87 -41.97 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -17.99 -16.42 1.57 NaCl - O2(g) -5.54 -8.43 -2.89 O2 + Halite -18.41 -16.84 1.57 NaCl + O2(g) -5.55 -8.44 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4592,7 +4592,7 @@ Mixture 10. Diffuse Double Layer Surface-Complexation Model Su - 8.280e-10 Surface + diffuse layer charge, eq + 7.803e-10 Surface + diffuse layer charge, eq -1.000e+00 Surface charge, eq -2.894e+00 sigma, C/m² -4.087e-01 psi, V @@ -4602,7 +4602,7 @@ Su 3.334e+04 m² for 1.000e+00 g Water in diffuse layer: 4.994e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 5.996e-08 m; of free pore: 4.241e-08 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4612,9 +4612,9 @@ Su Element Moles C 2.6548e-05 Ca 5.0000e-01 - Cl 1.6993e-11 + Cl 1.7178e-11 H 9.6578e-06 - Na 1.8168e-09 + Na 6.1290e-10 O 5.7666e-05 Su @@ -4629,14 +4629,14 @@ Su Elements Molality Moles C 2.439e-04 1.219e-04 - Ca 1.000e-04 5.002e-05 - Cl 3.406e-09 1.703e-09 - Na 3.635e-11 1.818e-11 + Ca 1.000e-04 5.001e-05 + Cl 3.443e-09 1.722e-09 + Na 1.226e-11 6.132e-12 ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 12.411 Adjusted to redox equilibrium + pe = 12.409 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 5 Density (g/cm³) = 0.99706 Volume (L) = 1.00238 @@ -4647,11 +4647,11 @@ Su Total alkalinity (eq/kg) = 2.000e-04 Total CO2 (mol/kg) = 2.439e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.079e-08 + Electrical balance (eq) = 3.978e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 0 (22 overall) - Total H = 5.550900e+01 - Total O = 2.775480e+01 + Total H = 5.550894e+01 + Total O = 2.775476e+01 ----------------------------Distribution of species---------------------------- @@ -4662,7 +4662,7 @@ Su H+ 1.020e-07 1.000e-07 -6.991 -7.000 -0.008 0.00 H2O 1.109e+02 1.000e+00 2.045 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -135.250 -135.250 0.000 35.46 + CH4 0.000e+00 0.000e+00 -135.234 -135.234 0.000 35.46 C(4) 2.439e-04 HCO3- 1.997e-04 1.958e-04 -3.700 -3.708 -0.009 24.56 CO2 4.403e-05 4.404e-05 -4.356 -4.356 0.000 34.43 @@ -4670,22 +4670,22 @@ C(4) 2.439e-04 CaHCO3+ 7.112e-08 6.973e-08 -7.148 -7.157 -0.009 122.62 CaCO3 1.424e-08 1.424e-08 -7.847 -7.847 0.000 -14.60 (CO2)2 3.559e-11 3.559e-11 -10.449 -10.449 0.000 68.87 - NaHCO3 6.075e-15 6.076e-15 -14.216 -14.216 0.000 31.73 + NaHCO3 2.049e-15 2.050e-15 -14.688 -14.688 0.000 31.73 Ca 1.000e-04 Ca+2 9.994e-05 9.235e-05 -4.000 -4.035 -0.034 -18.19 CaHCO3+ 7.112e-08 6.973e-08 -7.148 -7.157 -0.009 122.62 CaCO3 1.424e-08 1.424e-08 -7.847 -7.847 0.000 -14.60 CaOH+ 1.563e-10 1.532e-10 -9.806 -9.815 -0.009 (0) -Cl 3.406e-09 - Cl- 3.406e-09 3.339e-09 -8.468 -8.476 -0.009 18.06 - HCl 1.150e-16 1.151e-16 -15.939 -15.939 0.000 (0) +Cl 3.443e-09 + Cl- 3.443e-09 3.375e-09 -8.463 -8.472 -0.009 18.06 + HCl 1.163e-16 1.163e-16 -15.934 -15.934 0.000 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.971 -41.971 0.000 28.61 -Na 3.635e-11 - Na+ 3.635e-11 3.563e-11 -10.440 -10.448 -0.009 -1.50 - NaHCO3 6.075e-15 6.076e-15 -14.216 -14.216 0.000 31.73 -O(0) 7.298e-09 - O2 3.649e-09 3.649e-09 -8.438 -8.438 0.000 30.40 + H2 0.000e+00 0.000e+00 -41.967 -41.967 0.000 28.61 +Na 1.226e-11 + Na+ 1.226e-11 1.202e-11 -10.911 -10.920 -0.009 -1.50 + NaHCO3 2.049e-15 2.050e-15 -14.688 -14.688 0.000 31.73 +O(0) 7.164e-09 + O2 3.582e-09 3.582e-09 -8.446 -8.446 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -4693,12 +4693,12 @@ O(0) 7.298e-09 Aragonite -2.74 -11.07 -8.34 CaCO3 Calcite -2.59 -11.07 -8.48 CaCO3 - CH4(g) -132.45 -135.25 -2.80 CH4 + CH4(g) -132.43 -135.23 -2.80 CH4 CO2(g) -2.89 -4.36 -1.47 CO2 H2(g) -38.87 -41.97 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -20.49 -18.92 1.57 NaCl - O2(g) -5.55 -8.44 -2.89 O2 + Halite -20.96 -19.39 1.57 NaCl + O2(g) -5.55 -8.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/debye1.sel b/mytest/debye1.sel index 47f6fd36..ac49dc3e 100644 --- a/mytest/debye1.sel +++ b/mytest/debye1.sel @@ -33,13 +33,13 @@ 0.0000e+00 1.0000e+00 0.0000e+00 1.0000e+00 1.0000e+02 1.0000e+02 7.0000e+00 - 5.0000e-10 9.5993e-01 3.9487e-02 9.9942e-01 6.3895e+01 6.4281e+01 6.8331e+00 - 1.5000e-09 9.3302e-01 6.6396e-02 9.9942e-01 2.0964e+01 2.1907e+01 6.7140e+00 - 2.5000e-09 8.7882e-01 1.2060e-01 9.9942e-01 4.5726e+00 5.8403e+00 6.6845e+00 - 3.5000e-09 7.9247e-01 2.0694e-01 9.9942e-01 5.8615e-01 1.5006e+00 6.7560e+00 - 4.5000e-09 6.6071e-01 3.3870e-01 9.9942e-01 4.3516e-02 3.5004e-01 6.8731e+00 - 5.5000e-09 5.4232e-01 4.5710e-01 9.9942e-01 2.9237e-03 6.1257e-02 6.9673e+00 - 6.5000e-09 5.0560e-01 4.9381e-01 9.9942e-01 2.1234e-04 7.3508e-03 6.9957e+00 - 7.5000e-09 5.0055e-01 4.9887e-01 9.9942e-01 1.3884e-05 6.7825e-04 6.9994e+00 - 8.5000e-09 5.0006e-01 4.9935e-01 9.9942e-01 7.6285e-07 5.1373e-05 6.9998e+00 - 9.5000e-09 5.0002e-01 4.9939e-01 9.9942e-01 3.6354e-08 3.4057e-06 6.9998e+00 7.4205e+02 8.8778e+01 + 5.0000e-10 9.5952e-01 3.9896e-02 9.9942e-01 6.2432e+01 6.2909e+01 6.8212e+00 + 1.5000e-09 9.3153e-01 6.7882e-02 9.9942e-01 1.9605e+01 2.0795e+01 6.6984e+00 + 2.5000e-09 8.7789e-01 1.2152e-01 9.9942e-01 3.9480e+00 5.5642e+00 6.6764e+00 + 3.5000e-09 7.9491e-01 2.0450e-01 9.9942e-01 4.3490e-01 1.4863e+00 6.7558e+00 + 4.5000e-09 6.6312e-01 3.3630e-01 9.9942e-01 2.7536e-02 3.5246e-01 6.8728e+00 + 5.5000e-09 5.4318e-01 4.5624e-01 9.9942e-01 1.6153e-03 6.1966e-02 6.9672e+00 + 6.5000e-09 5.0573e-01 4.9369e-01 9.9942e-01 1.0362e-04 7.4415e-03 6.9957e+00 + 7.5000e-09 5.0056e-01 4.9886e-01 9.9942e-01 5.9983e-06 6.8648e-04 6.9994e+00 + 8.5000e-09 5.0006e-01 4.9935e-01 9.9942e-01 2.9183e-07 5.1975e-05 6.9998e+00 + 9.5000e-09 5.0002e-01 4.9939e-01 9.9942e-01 1.2264e-08 3.4429e-06 6.9998e+00 6.6980e+02 8.6117e+01 diff --git a/mytest/debye1_101.sel b/mytest/debye1_101.sel index c3748033..93482e0a 100644 --- a/mytest/debye1_101.sel +++ b/mytest/debye1_101.sel @@ -1,47 +1,47 @@ Mu SC - 0.100000121159 10609.0349042419 - 0.000300016059 20.2337881015 - 0.100000121159 10609.0349042419 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.000300016060 20.2337881010 - 0.100000121159 10609.0349042419 - 0.063885357563 6956.2910415313 - 0.019912923549 2278.8765041781 - 0.004682580165 546.6662318241 - 0.001058741446 113.7405017860 - 0.000409123849 33.6701215713 - 0.000313602775 21.8530991467 - 0.000301449393 20.3996766020 - 0.000300142813 20.2482174300 - 0.000300025508 20.2348541848 - 0.000300016686 20.2338584149 - 0.100000121159 10609.0349042419 - 0.000300008841 5.0642525723 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.000300008841 5.0642525720 - 0.100000121159 10609.0349042419 - 0.064548068562 6469.0613186588 - 0.022512133485 2203.4361689658 - 0.006627284224 556.2971616433 - 0.002142272097 127.8211441430 - 0.000735601358 26.7881696896 - 0.000370548548 7.9340054860 - 0.000308286426 5.3804045727 - 0.000300813618 5.0941737810 - 0.000300105797 5.0674135698 - 0.000300051146 5.0653543234 + 0.100000121159 10609.0353009428 + 0.000300016059 20.2337881900 + 0.100000121159 10609.0353009428 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.000300016060 20.2337881895 + 0.100000121159 10609.0353009428 + 0.063885357582 6956.2912523208 + 0.019912923562 2278.8765442737 + 0.004682580168 546.6662368650 + 0.001058741446 113.7405023917 + 0.000409123849 33.6701217221 + 0.000313602775 21.8530992441 + 0.000301449393 20.3996766916 + 0.000300142813 20.2482175186 + 0.000300025508 20.2348542733 + 0.000300016686 20.2338585034 + 0.100000121159 10609.0353009428 + 0.000300008841 5.0642525944 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.000300008841 5.0642525941 + 0.100000121159 10609.0353009428 + 0.063219869918 6333.7117071902 + 0.021520624770 2091.3916122562 + 0.006523731187 531.9305464338 + 0.002196898741 127.8374561986 + 0.000747363873 27.1477434178 + 0.000372197888 7.9866490348 + 0.000308472057 5.3861029550 + 0.000300830036 5.0946842585 + 0.000300106837 5.0674477553 + 0.000300050342 5.0653346762 diff --git a/mytest/delta_h.out b/mytest/delta_h.out index af0786d8..0c99c8e4 100644 --- a/mytest/delta_h.out +++ b/mytest/delta_h.out @@ -361,7 +361,7 @@ Gypsum 0.00 -4.62 -4.62 1.000e+01 9.986e+00 -1.432e-02 Specific Conductance (µS/cm, 50°C) = 4563 Density (g/cm³) = 0.99033 Volume (L) = 1.01338 - Viscosity (mPa s) = 0.55965 + Viscosity (mPa s) = 0.55982 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.618e-02 Mass of water (kg) = 1.001e+00 diff --git a/mytest/delta_h_101.sel b/mytest/delta_h_101.sel index 62686fae..6084cd86 100644 --- a/mytest/delta_h_101.sel +++ b/mytest/delta_h_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.029040414359 1708.0751181856 - 0.048460573379 2967.1544429742 - 0.046176674436 4563.8336529438 + 0.029040414359 1708.0751865174 + 0.048460573379 2967.1545579635 + 0.046176674436 4563.2730887845 diff --git a/mytest/deltas.out b/mytest/deltas.out index bf469a53..9f54986a 100644 --- a/mytest/deltas.out +++ b/mytest/deltas.out @@ -889,7 +889,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.000e+01 -3.435e-04 ----------------------------Description of solution---------------------------- pH = 8.234 Charge balance - pe = -3.925 Adjusted to redox equilibrium + pe = -3.919 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 219 Density (g/cm³) = 0.99715 Volume (L) = 1.00299 @@ -914,8 +914,8 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.000e+01 -3.435e-04 OH- 1.844e-06 1.735e-06 -5.734 -5.761 -0.026 -4.08 H+ 6.164e-09 5.832e-09 -8.210 -8.234 -0.024 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -C(-4) 9.920e-16 - CH4 9.920e-16 9.927e-16 -15.003 -15.003 0.000 35.46 +C(-4) 8.829e-16 + CH4 8.829e-16 8.835e-16 -15.054 -15.054 0.000 35.46 C(4) 1.007e-03 HCO3- 9.725e-04 9.172e-04 -3.012 -3.038 -0.025 24.60 CO2 1.202e-05 1.203e-05 -4.920 -4.920 0.000 34.43 @@ -933,15 +933,15 @@ Ca 5.751e-04 Cl 1.000e-03 Cl- 1.000e-03 9.416e-04 -3.000 -3.026 -0.026 18.10 HCl 1.886e-12 1.892e-12 -11.724 -11.723 0.001 (0) -H(0) 3.407e-12 - H2 1.703e-12 1.704e-12 -11.769 -11.768 0.000 28.61 +H(0) 3.309e-12 + H2 1.654e-12 1.656e-12 -11.781 -11.781 0.000 28.61 Mg 4.322e-04 Mg+2 4.258e-04 3.374e-04 -3.371 -3.472 -0.101 -21.75 MgHCO3+ 3.845e-06 3.621e-06 -5.415 -5.441 -0.026 5.50 MgCO3 2.373e-06 2.375e-06 -5.625 -5.624 0.000 -17.09 MgOH+ 2.225e-07 2.101e-07 -6.653 -6.678 -0.025 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.844 -68.843 0.000 30.40 + O2 0.000e+00 0.000e+00 -68.818 -68.818 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -949,12 +949,12 @@ O(0) 0.000e+00 Aragonite -0.14 -8.48 -8.34 CaCO3 Calcite -0.00 -8.48 -8.48 CaCO3 - CH4(g) -12.20 -15.00 -2.80 CH4 + CH4(g) -12.25 -15.05 -2.80 CH4 CO2(g) -3.45 -4.92 -1.47 CO2 Dolomite 0.00 -17.08 -17.08 CaMg(CO3)2 - H2(g) -8.67 -11.77 -3.10 H2 + H2(g) -8.68 -11.78 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -65.95 -68.84 -2.89 O2 + O2(g) -65.93 -68.82 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1017,7 +1017,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.000e+01 -3.648e-04 ----------------------------Description of solution---------------------------- pH = 8.234 Charge balance - pe = -3.973 Adjusted to redox equilibrium + pe = -3.972 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 219 Density (g/cm³) = 0.99715 Volume (L) = 1.00299 @@ -1042,8 +1042,8 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.000e+01 -3.648e-04 OH- 1.844e-06 1.735e-06 -5.734 -5.761 -0.026 -4.08 H+ 6.164e-09 5.832e-09 -8.210 -8.234 -0.024 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -C(-4) 2.406e-15 - CH4 2.406e-15 2.408e-15 -14.619 -14.618 0.000 35.46 +C(-4) 2.375e-15 + CH4 2.375e-15 2.377e-15 -14.624 -14.624 0.000 35.46 C(4) 1.007e-03 HCO3- 9.725e-04 9.172e-04 -3.012 -3.038 -0.025 24.60 CO2 1.202e-05 1.203e-05 -4.920 -4.920 0.000 34.43 @@ -1061,15 +1061,15 @@ Ca 5.751e-04 Cl 1.000e-03 Cl- 1.000e-03 9.416e-04 -3.000 -3.026 -0.026 18.10 HCl 1.886e-12 1.892e-12 -11.724 -11.723 0.001 (0) -H(0) 4.251e-12 - H2 2.126e-12 2.127e-12 -11.673 -11.672 0.000 28.61 +H(0) 4.237e-12 + H2 2.119e-12 2.120e-12 -11.674 -11.674 0.000 28.61 Mg 4.322e-04 Mg+2 4.258e-04 3.374e-04 -3.371 -3.472 -0.101 -21.75 MgHCO3+ 3.845e-06 3.621e-06 -5.415 -5.441 -0.026 5.50 MgCO3 2.373e-06 2.375e-06 -5.625 -5.624 0.000 -17.09 MgOH+ 2.225e-07 2.101e-07 -6.653 -6.678 -0.025 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.036 -69.036 0.000 30.40 + O2 0.000e+00 0.000e+00 -69.033 -69.033 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1082,7 +1082,7 @@ O(0) 0.000e+00 Dolomite 0.00 -17.08 -17.08 CaMg(CO3)2 H2(g) -8.57 -11.67 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -66.14 -69.04 -2.89 O2 + O2(g) -66.14 -69.03 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1319,7 +1319,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -3.541e-04 ----------------------------Description of solution---------------------------- pH = 8.234 Charge balance - pe = -3.808 Adjusted to redox equilibrium + pe = -3.794 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 219 Density (g/cm³) = 0.99715 Volume (L) = 1.00299 @@ -1330,6 +1330,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -3.541e-04 Total alkalinity (eq/kg) = 1.015e-03 Total CO2 (mol/kg) = 1.008e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.175e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1805 @@ -1344,8 +1345,8 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -3.541e-04 OH- 1.841e-06 1.733e-06 -5.735 -5.761 -0.026 -4.08 H+ 6.172e-09 5.840e-09 -8.210 -8.234 -0.024 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -C(-4) 1.167e-16 - CH4 1.167e-16 1.168e-16 -15.933 -15.933 0.000 35.46 +C(-4) 8.964e-17 + CH4 8.964e-17 8.970e-17 -16.048 -16.047 0.000 35.46 C(4) 1.008e-03 HCO3- 9.732e-04 9.178e-04 -3.012 -3.037 -0.025 24.60 CO2 1.205e-05 1.205e-05 -4.919 -4.919 0.000 34.43 @@ -1363,15 +1364,15 @@ Ca 5.755e-04 Cl 1.001e-03 Cl- 1.001e-03 9.423e-04 -3.000 -3.026 -0.026 18.10 HCl 1.890e-12 1.896e-12 -11.724 -11.722 0.001 (0) -H(0) 1.994e-12 - H2 9.971e-13 9.977e-13 -12.001 -12.001 0.000 28.61 +H(0) 1.867e-12 + H2 9.334e-13 9.340e-13 -12.030 -12.030 0.000 28.61 Mg 4.325e-04 Mg+2 4.261e-04 3.376e-04 -3.370 -3.472 -0.101 -21.75 MgHCO3+ 3.850e-06 3.626e-06 -5.415 -5.441 -0.026 5.50 MgCO3 2.373e-06 2.375e-06 -5.625 -5.624 0.000 -17.09 MgOH+ 2.223e-07 2.099e-07 -6.653 -6.678 -0.025 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.378 -68.378 0.000 30.40 + O2 0.000e+00 0.000e+00 -68.321 -68.321 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -1379,12 +1380,12 @@ O(0) 0.000e+00 Aragonite -0.14 -8.48 -8.34 CaCO3 Calcite -0.00 -8.48 -8.48 CaCO3 - CH4(g) -13.13 -15.93 -2.80 CH4 + CH4(g) -13.25 -16.05 -2.80 CH4 CO2(g) -3.45 -4.92 -1.47 CO2 Dolomite 0.00 -17.08 -17.08 CaMg(CO3)2 - H2(g) -8.90 -12.00 -3.10 H2 + H2(g) -8.93 -12.03 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -65.49 -68.38 -2.89 O2 + O2(g) -65.43 -68.32 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1447,7 +1448,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -4.028e-04 ----------------------------Description of solution---------------------------- pH = 7.717 Charge balance - pe = -3.331 Adjusted to redox equilibrium + pe = -3.310 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 415 Density (g/cm³) = 0.99725 Volume (L) = 1.00301 @@ -1458,6 +1459,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -4.028e-04 Total alkalinity (eq/kg) = 1.882e-03 Total CO2 (mol/kg) = 1.940e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.093e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1010 @@ -1472,8 +1474,8 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 9.999e+00 -4.028e-04 OH- 5.725e-07 5.274e-07 -6.242 -6.278 -0.036 -4.06 H+ 2.064e-08 1.919e-08 -7.685 -7.717 -0.032 0.00 H2O 5.551e+01 9.999e-01 1.744 -0.000 0.000 18.07 -C(-4) 1.477e-15 - CH4 1.477e-15 1.479e-15 -14.831 -14.830 0.001 35.46 +C(-4) 1.003e-15 + CH4 1.003e-15 1.004e-15 -14.999 -14.998 0.001 35.46 C(4) 1.940e-03 HCO3- 1.835e-03 1.696e-03 -2.736 -2.770 -0.034 24.62 CO2 7.313e-05 7.320e-05 -4.136 -4.136 0.000 34.43 @@ -1491,15 +1493,15 @@ Ca 1.106e-03 Cl 1.999e-03 Cl- 1.999e-03 1.843e-03 -2.699 -2.735 -0.035 18.12 HCl 1.211e-11 1.218e-11 -10.917 -10.914 0.002 (0) -H(0) 2.395e-12 - H2 1.197e-12 1.199e-12 -11.922 -11.921 0.001 28.61 +H(0) 2.174e-12 + H2 1.087e-12 1.088e-12 -11.964 -11.963 0.001 28.61 Mg 8.347e-04 Mg+2 8.192e-04 6.003e-04 -3.087 -3.222 -0.135 -21.68 MgHCO3+ 1.292e-05 1.191e-05 -4.889 -4.924 -0.035 5.51 MgCO3 2.371e-06 2.375e-06 -5.625 -5.624 0.001 -17.09 MgOH+ 1.226e-07 1.136e-07 -6.911 -6.945 -0.033 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.538 -68.538 0.001 30.40 + O2 0.000e+00 0.000e+00 -68.454 -68.454 0.001 30.40 ------------------------------Saturation indices------------------------------- @@ -1507,12 +1509,12 @@ O(0) 0.000e+00 Aragonite -0.14 -8.48 -8.34 CaCO3 Calcite -0.00 -8.48 -8.48 CaCO3 - CH4(g) -12.03 -14.83 -2.80 CH4 + CH4(g) -12.20 -15.00 -2.80 CH4 CO2(g) -2.67 -4.14 -1.47 CO2 Dolomite 0.00 -17.08 -17.08 CaMg(CO3)2 - H2(g) -8.82 -11.92 -3.10 H2 + H2(g) -8.86 -11.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -65.65 -68.54 -2.89 O2 + O2(g) -65.56 -68.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/deltas_101.sel b/mytest/deltas_101.sel index 1197fd3f..8a014c83 100644 --- a/mytest/deltas_101.sel +++ b/mytest/deltas_101.sel @@ -1,16 +1,16 @@ Mu SC 0.000000100661 0.0546997340 - 0.000488657030 43.4432778374 - 0.002994393196 218.3889495261 - 0.000488657030 43.4432778374 - 0.000488657030 43.4432778374 - 0.000488657030 43.4432778374 - 0.000488657030 43.4432778374 - 0.000488657030 43.4432778374 - 0.002995923028 219.3708710501 - 0.002995923099 219.3708471877 - 0.000488657030 43.4432778374 - 0.000488657030 43.4432778374 - 0.002998135200 219.5291438934 - 0.005765629765 415.6534371229 - 0.000488657030 43.4432778374 + 0.000488657030 43.4432780105 + 0.002994393196 218.3889530778 + 0.000488657030 43.4432780105 + 0.000488657030 43.4432780105 + 0.000488657030 43.4432780105 + 0.000488657030 43.4432780105 + 0.000488657030 43.4432780105 + 0.002995923028 219.3708746065 + 0.002995923099 219.3708507441 + 0.000488657030 43.4432780105 + 0.000488657030 43.4432780105 + 0.002998135200 219.5291474537 + 0.005765629765 415.6534464709 + 0.000488657030 43.4432780105 diff --git a/mytest/densities.out b/mytest/densities.out index a3d32151..972d8d0e 100644 --- a/mytest/densities.out +++ b/mytest/densities.out @@ -145,7 +145,7 @@ Initial solution 1. Specific Conductance (µS/cm, 10°C) = 1512 Density (g/cm³) = 1.00123 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.30479 + Viscosity (mPa s) = 1.30468 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.015e-02 Mass of water (kg) = 1.000e+00 @@ -402,10 +402,10 @@ Initial solution 2. pH = 6.900 pe = 4.000 - Specific Conductance (µS/cm, 11°C) = 1143 + Specific Conductance (µS/cm, 11°C) = 1144 Density (g/cm³) = 1.00080 Volume (L) = 1.00084 - Viscosity (mPa s) = 1.29940 + Viscosity (mPa s) = 1.29931 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.243e-02 Mass of water (kg) = 1.000e+00 @@ -666,7 +666,7 @@ Initial solution 3. Specific Conductance (µS/cm, 10°C) = 1779 Density (g/cm³) = 1.00122 Volume (L) = 1.00099 - Viscosity (mPa s) = 1.30669 + Viscosity (mPa s) = 1.30659 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.202e-02 Mass of water (kg) = 1.000e+00 @@ -931,7 +931,7 @@ Initial solution 4. Specific Conductance (µS/cm, 10°C) = 2487 Density (g/cm³) = 1.00179 Volume (L) = 1.00116 - Viscosity (mPa s) = 1.31919 + Viscosity (mPa s) = 1.31908 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.400e-02 Mass of water (kg) = 1.000e+00 @@ -1195,7 +1195,7 @@ Initial solution 5. Specific Conductance (µS/cm, 10°C) = 3305 Density (g/cm³) = 1.00225 Volume (L) = 1.00131 - Viscosity (mPa s) = 1.31433 + Viscosity (mPa s) = 1.31421 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.710e-02 Mass of water (kg) = 1.000e+00 @@ -1454,10 +1454,10 @@ Initial solution 6. pH = 6.900 pe = 4.000 - Specific Conductance (µS/cm, 10°C) = 2939 + Specific Conductance (µS/cm, 10°C) = 2940 Density (g/cm³) = 1.00191 Volume (L) = 1.00108 - Viscosity (mPa s) = 1.31013 + Viscosity (mPa s) = 1.31000 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.334e-02 Mass of water (kg) = 1.000e+00 @@ -1729,7 +1729,7 @@ Initial solution 7. Specific Conductance (µS/cm, 8°C) = 1311 Density (g/cm³) = 1.00138 Volume (L) = 1.00078 - Viscosity (mPa s) = 1.41929 + Viscosity (mPa s) = 1.41914 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.972e-02 Mass of water (kg) = 1.000e+00 @@ -1991,7 +1991,7 @@ Initial solution 8. Specific Conductance (µS/cm, 10°C) = 1215 Density (g/cm³) = 1.00097 Volume (L) = 1.00088 - Viscosity (mPa s) = 1.32036 + Viscosity (mPa s) = 1.32026 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.433e-02 Mass of water (kg) = 1.000e+00 @@ -2264,7 +2264,7 @@ Initial solution 9. Specific Conductance (µS/cm, 10°C) = 1813 Density (g/cm³) = 1.00130 Volume (L) = 1.00100 - Viscosity (mPa s) = 1.31507 + Viscosity (mPa s) = 1.31497 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.306e-02 Mass of water (kg) = 1.000e+00 @@ -2529,7 +2529,7 @@ Initial solution 10. Specific Conductance (µS/cm, 10°C) = 2483 Density (g/cm³) = 1.00169 Volume (L) = 1.00108 - Viscosity (mPa s) = 1.31735 + Viscosity (mPa s) = 1.31723 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.516e-02 Mass of water (kg) = 1.000e+00 @@ -2795,7 +2795,7 @@ Initial solution 11. Specific Conductance (µS/cm, 11°C) = 3358 Density (g/cm³) = 1.00231 Volume (L) = 1.00137 - Viscosity (mPa s) = 1.31031 + Viscosity (mPa s) = 1.31019 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.798e-02 Mass of water (kg) = 1.000e+00 @@ -3069,7 +3069,7 @@ Initial solution 12. Specific Conductance (µS/cm, 10°C) = 1429 Density (g/cm³) = 1.00120 Volume (L) = 1.00092 - Viscosity (mPa s) = 1.32986 + Viscosity (mPa s) = 1.32974 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.910e-02 Mass of water (kg) = 1.000e+00 @@ -3342,7 +3342,7 @@ Initial solution 13. Specific Conductance (µS/cm, 11°C) = 1217 Density (g/cm³) = 1.00085 Volume (L) = 1.00084 - Viscosity (mPa s) = 1.29561 + Viscosity (mPa s) = 1.29552 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.375e-02 Mass of water (kg) = 1.000e+00 @@ -3607,7 +3607,7 @@ Initial solution 14. Specific Conductance (µS/cm, 11°C) = 1775 Density (g/cm³) = 1.00120 Volume (L) = 1.00101 - Viscosity (mPa s) = 1.29566 + Viscosity (mPa s) = 1.29556 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.199e-02 Mass of water (kg) = 1.000e+00 @@ -3873,7 +3873,7 @@ Initial solution 15. Specific Conductance (µS/cm, 11°C) = 2572 Density (g/cm³) = 1.00176 Volume (L) = 1.00112 - Viscosity (mPa s) = 1.30658 + Viscosity (mPa s) = 1.30647 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.482e-02 Mass of water (kg) = 1.000e+00 @@ -4146,7 +4146,7 @@ Initial solution 16. Specific Conductance (µS/cm, 11°C) = 3422 Density (g/cm³) = 1.00236 Volume (L) = 1.00140 - Viscosity (mPa s) = 1.31252 + Viscosity (mPa s) = 1.31240 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.916e-02 Mass of water (kg) = 1.000e+00 @@ -4410,7 +4410,7 @@ Initial solution 17. Specific Conductance (µS/cm, 11°C) = 1176 Density (g/cm³) = 1.00082 Volume (L) = 1.00092 - Viscosity (mPa s) = 1.29317 + Viscosity (mPa s) = 1.29308 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.264e-02 Mass of water (kg) = 1.000e+00 @@ -4672,7 +4672,7 @@ Initial solution 18. Specific Conductance (µS/cm, 10°C) = 1664 Density (g/cm³) = 1.00113 Volume (L) = 1.00091 - Viscosity (mPa s) = 1.30487 + Viscosity (mPa s) = 1.30477 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.020e-02 Mass of water (kg) = 1.000e+00 @@ -4946,7 +4946,7 @@ Initial solution 19. Specific Conductance (µS/cm, 11°C) = 2644 Density (g/cm³) = 1.00169 Volume (L) = 1.00125 - Viscosity (mPa s) = 1.29248 + Viscosity (mPa s) = 1.29237 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.438e-02 Mass of water (kg) = 1.000e+00 @@ -5220,7 +5220,7 @@ Initial solution 20. Specific Conductance (µS/cm, 11°C) = 3281 Density (g/cm³) = 1.00208 Volume (L) = 1.00137 - Viscosity (mPa s) = 1.28403 + Viscosity (mPa s) = 1.28392 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.485e-02 Mass of water (kg) = 1.000e+00 @@ -5494,7 +5494,7 @@ Initial solution 21. Specific Conductance (µS/cm, 7°C) = 99 Density (g/cm³) = 0.99999 Volume (L) = 1.00012 - Viscosity (mPa s) = 1.42850 + Viscosity (mPa s) = 1.42847 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.890e-03 Mass of water (kg) = 1.000e+00 @@ -5767,7 +5767,7 @@ Initial solution 22. Specific Conductance (µS/cm, 11°C) = 1174 Density (g/cm³) = 1.00071 Volume (L) = 1.00091 - Viscosity (mPa s) = 1.27023 + Viscosity (mPa s) = 1.27015 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.220e-02 Mass of water (kg) = 1.000e+00 @@ -6033,7 +6033,7 @@ Initial solution 23. Specific Conductance (µS/cm, 11°C) = 1077 Density (g/cm³) = 1.00052 Volume (L) = 1.00076 - Viscosity (mPa s) = 1.28406 + Viscosity (mPa s) = 1.28399 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.847e-02 Mass of water (kg) = 1.000e+00 @@ -6307,7 +6307,7 @@ Initial solution 24. Specific Conductance (µS/cm, 11°C) = 673 Density (g/cm³) = 1.00013 Volume (L) = 1.00061 - Viscosity (mPa s) = 1.27186 + Viscosity (mPa s) = 1.27181 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.063e-02 Mass of water (kg) = 1.000e+00 @@ -6579,7 +6579,7 @@ Initial solution 25. Specific Conductance (µS/cm, 11°C) = 2379 Density (g/cm³) = 1.00140 Volume (L) = 1.00111 - Viscosity (mPa s) = 1.28738 + Viscosity (mPa s) = 1.28729 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.862e-02 Mass of water (kg) = 1.000e+00 @@ -6841,7 +6841,7 @@ Initial solution 26. Specific Conductance (µS/cm, 7°C) = 39 Density (g/cm³) = 1.00022 Volume (L) = 1.00106 - Viscosity (mPa s) = 1.43271 + Viscosity (mPa s) = 1.43270 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.444e-04 Mass of water (kg) = 1.000e+00 @@ -7115,7 +7115,7 @@ Initial solution 27. Specific Conductance (µS/cm, 7°C) = 45 Density (g/cm³) = 0.99994 Volume (L) = 1.00011 - Viscosity (mPa s) = 1.42798 + Viscosity (mPa s) = 1.42796 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.387e-04 Mass of water (kg) = 1.000e+00 @@ -7389,7 +7389,7 @@ Initial solution 28. Specific Conductance (µS/cm, 10°C) = 518 Density (g/cm³) = 1.00018 Volume (L) = 1.00052 - Viscosity (mPa s) = 1.30494 + Viscosity (mPa s) = 1.30488 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.576e-03 Mass of water (kg) = 1.000e+00 @@ -7663,7 +7663,7 @@ Initial solution 29. Specific Conductance (µS/cm, 10°C) = 311 Density (g/cm³) = 0.99997 Volume (L) = 1.00040 - Viscosity (mPa s) = 1.31328 + Viscosity (mPa s) = 1.31324 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.256e-03 Mass of water (kg) = 1.000e+00 @@ -7937,7 +7937,7 @@ Initial solution 30. Specific Conductance (µS/cm, 10°C) = 195 Density (g/cm³) = 0.99988 Volume (L) = 1.00034 - Viscosity (mPa s) = 1.31578 + Viscosity (mPa s) = 1.31575 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.287e-03 Mass of water (kg) = 1.000e+00 @@ -8211,7 +8211,7 @@ Initial solution 31. Specific Conductance (µS/cm, 10°C) = 262 Density (g/cm³) = 0.99994 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.31640 + Viscosity (mPa s) = 1.31636 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.275e-03 Mass of water (kg) = 1.000e+00 @@ -8485,7 +8485,7 @@ Initial solution 32. Specific Conductance (µS/cm, 9°C) = 187 Density (g/cm³) = 0.99999 Volume (L) = 1.00026 - Viscosity (mPa s) = 1.36300 + Viscosity (mPa s) = 1.36296 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.519e-03 Mass of water (kg) = 1.000e+00 @@ -8759,7 +8759,7 @@ Initial solution 33. Specific Conductance (µS/cm, 8°C) = 98 Density (g/cm³) = 0.99991 Volume (L) = 1.00021 - Viscosity (mPa s) = 1.37391 + Viscosity (mPa s) = 1.37388 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.778e-03 Mass of water (kg) = 1.000e+00 @@ -9031,7 +9031,7 @@ Initial solution 34. Specific Conductance (µS/cm, 8°C) = 2850 Density (g/cm³) = 1.00222 Volume (L) = 1.00101 - Viscosity (mPa s) = 1.41085 + Viscosity (mPa s) = 1.41068 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.444e-02 Mass of water (kg) = 1.000e+00 @@ -9289,7 +9289,7 @@ Initial solution 35. Specific Conductance (µS/cm, 3°C) = 38 Density (g/cm³) = 1.00000 Volume (L) = 1.00007 - Viscosity (mPa s) = 1.64148 + Viscosity (mPa s) = 1.64145 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.411e-04 Mass of water (kg) = 1.000e+00 @@ -9548,7 +9548,7 @@ Initial solution 36. Specific Conductance (µS/cm, 8°C) = 127 Density (g/cm³) = 1.00001 Volume (L) = 1.00017 - Viscosity (mPa s) = 1.40353 + Viscosity (mPa s) = 1.40349 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.612e-03 Mass of water (kg) = 1.000e+00 @@ -9815,7 +9815,7 @@ Initial solution 37. Specific Conductance (µS/cm, 7°C) = 83 Density (g/cm³) = 0.99998 Volume (L) = 1.00013 - Viscosity (mPa s) = 1.42426 + Viscosity (mPa s) = 1.42422 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.731e-03 Mass of water (kg) = 1.000e+00 @@ -10081,7 +10081,7 @@ Initial solution 38. Specific Conductance (µS/cm, 8°C) = 123 Density (g/cm³) = 0.99993 Volume (L) = 1.00022 - Viscosity (mPa s) = 1.36622 + Viscosity (mPa s) = 1.36618 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.410e-03 Mass of water (kg) = 1.000e+00 @@ -10340,7 +10340,7 @@ Initial solution 39. Specific Conductance (µS/cm, 8°C) = 119 Density (g/cm³) = 0.99994 Volume (L) = 1.00019 - Viscosity (mPa s) = 1.38233 + Viscosity (mPa s) = 1.38229 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.321e-03 Mass of water (kg) = 1.000e+00 @@ -10603,7 +10603,7 @@ Initial solution 40. Specific Conductance (µS/cm, 12°C) = 1109 Density (g/cm³) = 1.00071 Volume (L) = 1.00093 - Viscosity (mPa s) = 1.26314 + Viscosity (mPa s) = 1.26305 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.191e-02 Mass of water (kg) = 1.000e+00 @@ -10868,7 +10868,7 @@ Initial solution 41. Specific Conductance (µS/cm, 12°C) = 1714 Density (g/cm³) = 1.00105 Volume (L) = 1.00107 - Viscosity (mPa s) = 1.26608 + Viscosity (mPa s) = 1.26599 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.019e-02 Mass of water (kg) = 1.000e+00 @@ -11133,7 +11133,7 @@ Initial solution 42. Specific Conductance (µS/cm, 12°C) = 2721 Density (g/cm³) = 1.00173 Volume (L) = 1.00130 - Viscosity (mPa s) = 1.27504 + Viscosity (mPa s) = 1.27493 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.694e-02 Mass of water (kg) = 1.000e+00 @@ -11398,7 +11398,7 @@ Initial solution 43. Specific Conductance (µS/cm, 11°C) = 3158 Density (g/cm³) = 1.00200 Volume (L) = 1.00140 - Viscosity (mPa s) = 1.28039 + Viscosity (mPa s) = 1.28028 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.225e-02 Mass of water (kg) = 1.000e+00 @@ -11664,7 +11664,7 @@ Initial solution 44. Specific Conductance (µS/cm, 7°C) = 122 Density (g/cm³) = 1.00003 Volume (L) = 1.00012 - Viscosity (mPa s) = 1.43360 + Viscosity (mPa s) = 1.43354 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.645e-03 Mass of water (kg) = 1.000e+00 @@ -11938,7 +11938,7 @@ Initial solution 45. Specific Conductance (µS/cm, 9°C) = 57 Density (g/cm³) = 0.99985 Volume (L) = 1.00039 - Viscosity (mPa s) = 1.34550 + Viscosity (mPa s) = 1.34549 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.591e-04 Mass of water (kg) = 1.000e+00 @@ -12210,7 +12210,7 @@ Initial solution 46. Specific Conductance (µS/cm, 8°C) = 272 Density (g/cm³) = 1.00016 Volume (L) = 1.00034 - Viscosity (mPa s) = 1.37435 + Viscosity (mPa s) = 1.37427 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.618e-03 Mass of water (kg) = 1.000e+00 @@ -12469,7 +12469,7 @@ Initial solution 47. Specific Conductance (µS/cm, 10°C) = 62 Density (g/cm³) = 0.99971 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.28868 + Viscosity (mPa s) = 1.28865 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.155e-03 Mass of water (kg) = 1.000e+00 @@ -12736,7 +12736,7 @@ Initial solution 48. Specific Conductance (µS/cm, 8°C) = 136 Density (g/cm³) = 1.00002 Volume (L) = 1.00018 - Viscosity (mPa s) = 1.40364 + Viscosity (mPa s) = 1.40359 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.807e-03 Mass of water (kg) = 1.000e+00 @@ -13002,7 +13002,7 @@ Initial solution 49. Specific Conductance (µS/cm, 7°C) = 127 Density (g/cm³) = 1.00000 Volume (L) = 1.00014 - Viscosity (mPa s) = 1.42446 + Viscosity (mPa s) = 1.42442 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.482e-03 Mass of water (kg) = 1.000e+00 @@ -13275,7 +13275,7 @@ Initial solution 50. Specific Conductance (µS/cm, 8°C) = 139 Density (g/cm³) = 0.99993 Volume (L) = 1.00023 - Viscosity (mPa s) = 1.36616 + Viscosity (mPa s) = 1.36612 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.587e-03 Mass of water (kg) = 1.000e+00 @@ -13540,7 +13540,7 @@ Initial solution 51. Specific Conductance (µS/cm, 8°C) = 873 Density (g/cm³) = 1.00053 Volume (L) = 1.00037 - Viscosity (mPa s) = 1.38874 + Viscosity (mPa s) = 1.38865 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.637e-02 Mass of water (kg) = 1.000e+00 @@ -13804,7 +13804,7 @@ Initial solution 52. Specific Conductance (µS/cm, 8°C) = 2986 Density (g/cm³) = 1.00231 Volume (L) = 1.00110 - Viscosity (mPa s) = 1.40769 + Viscosity (mPa s) = 1.40752 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.618e-02 Mass of water (kg) = 1.000e+00 @@ -14064,7 +14064,7 @@ Initial solution 53. Specific Conductance (µS/cm, 12°C) = 1112 Density (g/cm³) = 1.00069 Volume (L) = 1.00100 - Viscosity (mPa s) = 1.25338 + Viscosity (mPa s) = 1.25329 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.174e-02 Mass of water (kg) = 1.000e+00 @@ -14323,7 +14323,7 @@ Initial solution 54. Specific Conductance (µS/cm, 12°C) = 1541 Density (g/cm³) = 1.00095 Volume (L) = 1.00102 - Viscosity (mPa s) = 1.26144 + Viscosity (mPa s) = 1.26135 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.795e-02 Mass of water (kg) = 1.000e+00 @@ -14541,10 +14541,10 @@ Initial solution 55. pH = 6.840 pe = 4.000 - Specific Conductance (µS/cm, 12°C) = 2662 + Specific Conductance (µS/cm, 12°C) = 2663 Density (g/cm³) = 1.00162 Volume (L) = 1.00130 - Viscosity (mPa s) = 1.26367 + Viscosity (mPa s) = 1.26357 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.534e-02 Mass of water (kg) = 1.000e+00 @@ -14803,7 +14803,7 @@ Initial solution 56. Specific Conductance (µS/cm, 12°C) = 2983 Density (g/cm³) = 1.00182 Volume (L) = 1.00141 - Viscosity (mPa s) = 1.26870 + Viscosity (mPa s) = 1.26860 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.854e-02 Mass of water (kg) = 1.000e+00 @@ -15057,7 +15057,7 @@ Initial solution 57. Specific Conductance (µS/cm, 11°C) = 102 Density (g/cm³) = 0.99970 Volume (L) = 1.00042 - Viscosity (mPa s) = 1.27083 + Viscosity (mPa s) = 1.27079 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.078e-03 Mass of water (kg) = 1.000e+00 @@ -15318,7 +15318,7 @@ Initial solution 58. Specific Conductance (µS/cm, 10°C) = 133 Density (g/cm³) = 0.99982 Volume (L) = 1.00033 - Viscosity (mPa s) = 1.30781 + Viscosity (mPa s) = 1.30777 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.690e-03 Mass of water (kg) = 1.000e+00 @@ -15582,7 +15582,7 @@ Initial solution 59. Specific Conductance (µS/cm, 9°C) = 163 Density (g/cm³) = 0.99993 Volume (L) = 1.00027 - Viscosity (mPa s) = 1.34312 + Viscosity (mPa s) = 1.34307 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.398e-03 Mass of water (kg) = 1.000e+00 @@ -15842,7 +15842,7 @@ Initial solution 60. Specific Conductance (µS/cm, 10°C) = 1433 Density (g/cm³) = 1.00083 Volume (L) = 1.00059 - Viscosity (mPa s) = 1.33746 + Viscosity (mPa s) = 1.33736 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.618e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/densities_101.sel b/mytest/densities_101.sel index 7318c1e0..6984391c 100644 --- a/mytest/densities_101.sel +++ b/mytest/densities_101.sel @@ -1,61 +1,61 @@ Mu SC - 0.030148970730 1512.1177612534 - 0.022434817323 1143.9589893131 - 0.032023902558 1779.8183247146 - 0.044002306870 2487.3591470574 - 0.057101998093 3305.6578874065 - 0.053340066237 2939.8675235992 - 0.029724348830 1311.8504304619 - 0.024330214881 1215.5893953731 - 0.033059185846 1813.3796453550 - 0.045160309104 2483.3418761978 - 0.057977536854 3358.1855009680 - 0.029096594108 1429.4069608179 - 0.023752050612 1217.4036940629 - 0.031993314293 1775.0172099805 - 0.044816741820 2572.0568970864 - 0.059162427034 3422.5507060786 - 0.022642910643 1176.7613598983 - 0.030199996842 1664.4760698300 - 0.044380449319 2644.2094635355 - 0.054848919186 3281.3721404773 - 0.001889877916 99.3349264025 - 0.022196423208 1174.5041589618 - 0.018466165158 1077.8283054561 - 0.010625346035 673.5910971983 - 0.038624807017 2379.6689692338 - 0.000344401543 39.8527277120 - 0.000838700275 45.2358311369 - 0.009575529235 518.5195500597 - 0.005255532625 311.3379644425 - 0.003287398881 195.0178972899 - 0.004275327753 262.8571910520 - 0.003518949925 187.0591638646 - 0.001777697540 98.8387014411 - 0.054436484382 2850.5980436107 - 0.000741108138 38.3006882071 - 0.002612134295 127.2475583552 - 0.001730654200 83.8340189122 - 0.002410234960 123.4969817524 - 0.002320533354 119.7614583225 - 0.021908098411 1109.3941595498 - 0.030188512447 1714.0136413366 - 0.046944424527 2721.7223301785 - 0.052254547345 3158.7216519831 - 0.002645452797 122.8232971233 - 0.000659139900 57.0025639952 - 0.005617762691 272.0235519200 - 0.001154611121 62.6838344746 - 0.002806690194 136.9922348038 - 0.002482329899 127.9194349346 - 0.002587453511 139.7157214410 - 0.016368123897 873.2240110062 - 0.056182861318 2986.6998137948 - 0.021738781739 1112.0157622103 - 0.027948895610 1541.4417122907 - 0.045339389795 2662.8800809576 - 0.048540884887 2983.2416534632 - 0.002077594526 102.5418907684 - 0.002690275177 133.2754272347 - 0.003398173289 163.3111166897 - 0.026178448003 1433.1880771522 + 0.030148970730 1512.1751165009 + 0.022434817323 1144.0044324052 + 0.032023902558 1779.9014888814 + 0.044002306870 2487.4958300856 + 0.057101998093 3305.8696992518 + 0.053340066237 2940.0701876050 + 0.029724348830 1311.9151687491 + 0.024330214881 1215.6403880217 + 0.033059185846 1813.4674539105 + 0.045160309104 2483.4993630042 + 0.057977536854 3358.3879882683 + 0.029096594108 1429.4650973359 + 0.023752050612 1217.4518813311 + 0.031993314293 1775.0981832403 + 0.044816741820 2572.1972233000 + 0.059162427034 3422.7701946704 + 0.022642910643 1176.8058861471 + 0.030199996842 1664.5517520613 + 0.044380449319 2644.3504856925 + 0.054848919186 3281.5624530047 + 0.001889877916 99.3365664891 + 0.022196423208 1174.5474163235 + 0.018466165158 1077.8651498186 + 0.010625346035 673.6066026961 + 0.038624807017 2379.7848108178 + 0.000344401543 39.8531314243 + 0.000838700275 45.2362667210 + 0.009575529235 518.5324129869 + 0.005255532625 311.3435431211 + 0.003287398881 195.0208847984 + 0.004275327753 262.8612929011 + 0.003518949925 187.0620619528 + 0.001777697540 98.8397835271 + 0.054436484382 2850.8342919313 + 0.000741108138 38.3010820643 + 0.002612134295 127.2497024480 + 0.001730654200 83.8353863802 + 0.002410234960 123.4989471522 + 0.002320533354 119.7632580515 + 0.021908098411 1109.4377273479 + 0.030188512447 1714.0904884047 + 0.046944424527 2721.8801072696 + 0.052254547345 3158.8997135541 + 0.002645452797 122.8258382298 + 0.000659139900 57.0029550914 + 0.005617762691 272.0288545184 + 0.001154611121 62.6845033609 + 0.002806690194 136.9945824281 + 0.002482329899 127.9213770576 + 0.002587453511 139.7175920005 + 0.016368123897 873.2644913600 + 0.056182861318 2986.9437206225 + 0.021738781739 1112.0582193650 + 0.027948895610 1541.5074750636 + 0.045339389795 2663.0287538016 + 0.048540884887 2983.4008008410 + 0.002077594526 102.5434737078 + 0.002690275177 133.2776134616 + 0.003398173289 163.3145993877 + 0.026178448003 1433.2711414393 diff --git a/mytest/desc_101.sel b/mytest/desc_101.sel index 58f02b5c..fe17715c 100644 --- a/mytest/desc_101.sel +++ b/mytest/desc_101.sel @@ -1,18 +1,18 @@ Mu SC - 0.004990521876 270.3626904996 - 0.002495113452 138.4052797297 - 0.001248029258 70.6371019698 - 0.004992402115 269.5291293058 - 0.002497304615 138.4781931257 - 0.001249832673 70.9049578680 + 0.004990521876 270.3626947092 + 0.002495113452 138.4052812557 + 0.001248029258 70.6371025218 + 0.004992402115 269.5291365776 + 0.002497304615 138.4781957734 + 0.001249832673 70.9049588306 0.000000100661 0.0546997340 - 0.000002193889 0.8592862282 - 0.004990521876 270.3626904995 - 0.002495113452 138.4052797297 - 0.000002193889 0.8592862282 - 0.000002193889 0.8592862282 - 0.004990521876 270.3626904998 - 0.000002193889 0.8592862282 - 0.000002193889 0.8592862282 - 0.000002193889 0.8592862282 - 0.000002193889 0.8592862282 + 0.000002193889 0.8592862285 + 0.004990521876 270.3626947091 + 0.002495113452 138.4052812557 + 0.000002193889 0.8592862285 + 0.000002193889 0.8592862285 + 0.004990521876 270.3626947094 + 0.000002193889 0.8592862285 + 0.000002193889 0.8592862285 + 0.000002193889 0.8592862285 + 0.000002193889 0.8592862285 diff --git a/mytest/diel_101.sel b/mytest/diel_101.sel index 2256eda3..664da529 100644 --- a/mytest/diel_101.sel +++ b/mytest/diel_101.sel @@ -1,10 +1,10 @@ Mu SC 0.000000100661 0.0546997340 - 0.000000033974 0.0114316168 + 0.000000033974 0.0114316171 0.000000100645 0.0546913856 - 0.000000310932 0.2452490254 - 0.000000760967 0.7554744939 - 0.000001540946 1.7399219576 - 0.000002215543 2.5502470551 - 0.000002438131 2.6514098548 - 0.000002311360 2.2146308979 + 0.000000310932 0.2452489775 + 0.000000760967 0.7554738130 + 0.000001540946 1.7399167234 + 0.000002215543 2.5502296677 + 0.000002438131 2.6513777295 + 0.000002311360 2.2145890157 diff --git a/mytest/diff_c_101.sel b/mytest/diff_c_101.sel index a9c11c75..3ee90b85 100644 --- a/mytest/diff_c_101.sel +++ b/mytest/diff_c_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.000910892434 83.8222317372 + 0.000910892434 83.8222319608 diff --git a/mytest/dissolve_only_101.sel b/mytest/dissolve_only_101.sel index 9f623a88..b640ddb5 100644 --- a/mytest/dissolve_only_101.sel +++ b/mytest/dissolve_only_101.sel @@ -1,28 +1,28 @@ Mu SC 0.000000100661 0.0546997340 - 0.000061335084 6.6833747305 + 0.000061335084 6.6833747376 0.000000100661 0.0546997340 - 0.000488657030 43.4432778374 + 0.000488657030 43.4432780105 0.000000100661 0.0546997340 - 0.000816508070 67.9526523536 + 0.000816508070 67.9526527322 0.000000100661 0.0546997340 - 0.000299887833 28.2992055239 - 0.000816508070 67.9526523536 - 0.170446675750 10743.1556459317 - 0.323640198861 19108.4979012519 - 0.474518501697 26670.4978342435 - 0.598426282400 33199.2011497969 - 0.693855286692 52481.7478550988 - 0.000393857159 35.9690906056 - 0.000424876732 38.4402815478 - 0.000455729859 40.8728189444 - 0.000486411110 43.2687456679 - 0.000488657030 43.4432778363 - 0.000488657030 43.4432778373 - 0.000516916678 45.6299024359 - 0.000547244062 47.9579589082 - 0.101144400702 21614.1611557241 - 0.201572047121 41470.4714716126 - 0.301905180405 60394.9656437964 - 0.402185345320 78647.1745105903 - 0.502429693110 96363.7583141299 + 0.000299887833 28.2992056057 + 0.000816508070 67.9526527322 + 0.170446675750 10743.1569158951 + 0.323640198861 19108.5009139841 + 0.474518501697 26670.5027811768 + 0.598426282400 33199.2081995490 + 0.693855286692 52481.7611736480 + 0.000393857159 35.9690907301 + 0.000424876732 38.4402816876 + 0.000455729859 40.8728191000 + 0.000486411110 43.2687458399 + 0.000488657030 43.4432780095 + 0.000488657030 43.4432780104 + 0.000516916678 45.6299026246 + 0.000547244062 47.9579591141 + 0.101144400702 21614.1612450315 + 0.201572047121 41470.4717008149 + 0.301905180405 60394.9660357228 + 0.402185345320 78647.1750780083 + 0.502429693110 96363.7590639097 diff --git a/mytest/dist_x.out b/mytest/dist_x.out index 45fbe052..01dbf14b 100644 --- a/mytest/dist_x.out +++ b/mytest/dist_x.out @@ -3667,9 +3667,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.243e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.226e-19 + Total alkalinity (eq/kg) = -7.772e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.718e-16 + Electrical balance (eq) = -1.709e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 Total H = 1.110124e+02 @@ -3764,9 +3764,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.832e-19 + Total alkalinity (eq/kg) = -6.160e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.234e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.235e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -3861,9 +3862,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.972e-19 + Total alkalinity (eq/kg) = -7.766e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.843e-16 + Electrical balance (eq) = -2.841e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -3960,7 +3961,7 @@ X 1.100e-03 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.004e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.253e-16 + Electrical balance (eq) = -3.251e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -4055,7 +4056,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.859e-19 + Total alkalinity (eq/kg) = -9.427e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.388e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -7298,9 +7299,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.382e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.205e-19 + Total alkalinity (eq/kg) = -8.956e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.199e-17 + Electrical balance (eq) = -8.185e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -7395,9 +7396,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.234e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.564e-19 + Total alkalinity (eq/kg) = -1.001e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.146e-16 + Electrical balance (eq) = -1.139e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 Total H = 1.110124e+02 @@ -7492,9 +7493,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.152e-19 + Total alkalinity (eq/kg) = -8.319e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.856e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.857e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -7589,9 +7591,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.234e-20 + Total alkalinity (eq/kg) = -2.246e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.573e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.574e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -7686,9 +7689,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.242e-20 + Total alkalinity (eq/kg) = -1.015e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.080e-16 + Electrical balance (eq) = -3.082e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -7783,9 +7786,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.446e-20 + Total alkalinity (eq/kg) = -6.497e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.405e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.409e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -7880,9 +7884,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.426e-18 + Total alkalinity (eq/kg) = -1.040e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.485e-16 + Electrical balance (eq) = -3.487e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -7977,9 +7981,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.722e-19 + Total alkalinity (eq/kg) = -1.068e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.459e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.458e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -8072,9 +8077,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.911e-19 + Total alkalinity (eq/kg) = -1.012e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.431e-16 + Electrical balance (eq) = -3.437e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -8164,9 +8169,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.104e-18 + Total alkalinity (eq/kg) = -1.339e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.413e-16 + Electrical balance (eq) = -3.407e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -10974,9 +10979,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.516e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.320e-19 + Total alkalinity (eq/kg) = -5.870e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.192e-17 + Electrical balance (eq) = -4.168e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -11071,9 +11076,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.392e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.230e-19 + Total alkalinity (eq/kg) = -6.801e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.399e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.549e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110124e+02 @@ -11168,9 +11174,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.723e-19 + Total alkalinity (eq/kg) = -5.646e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.649e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.540e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -11265,9 +11272,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.101e-19 + Total alkalinity (eq/kg) = -8.739e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.480e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.487e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -11362,9 +11370,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.742e-20 + Total alkalinity (eq/kg) = 3.843e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.761e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.760e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -11459,9 +11468,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.280e-19 + Total alkalinity (eq/kg) = 2.045e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.146e-16 + Electrical balance (eq) = -2.130e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -11556,9 +11565,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.546e-19 + Total alkalinity (eq/kg) = -3.909e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.620e-16 + Electrical balance (eq) = -2.618e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -11653,9 +11662,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.107e-19 + Total alkalinity (eq/kg) = -5.582e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.990e-16 + Electrical balance (eq) = -3.978e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -11750,9 +11759,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.232e-19 + Total alkalinity (eq/kg) = -8.407e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.965e-16 + Electrical balance (eq) = -4.962e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -11845,9 +11854,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.105e-18 + Total alkalinity (eq/kg) = -8.604e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.371e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.368e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -11937,9 +11947,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.694e-19 + Total alkalinity (eq/kg) = -6.911e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.619e-16 + Electrical balance (eq) = -3.611e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -12029,9 +12039,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.439e-19 + Total alkalinity (eq/kg) = -7.606e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.528e-16 + Electrical balance (eq) = -3.525e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -12121,9 +12131,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.464e-19 + Total alkalinity (eq/kg) = -7.033e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.331e-16 + Electrical balance (eq) = -3.330e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110124e+02 @@ -12213,9 +12223,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.585e-19 + Total alkalinity (eq/kg) = -7.785e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.288e-16 + Electrical balance (eq) = -3.291e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 Total H = 1.110124e+02 @@ -12305,7 +12315,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.038e-18 + Total alkalinity (eq/kg) = -1.022e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.207e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -14685,9 +14695,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.585e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.184e-19 + Total alkalinity (eq/kg) = 6.610e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.936e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.923e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -14782,9 +14793,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.470e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.920e-19 + Total alkalinity (eq/kg) = 1.524e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.514e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.509e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -14879,9 +14891,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.314e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.811e-19 + Total alkalinity (eq/kg) = -6.286e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.896e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.888e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 8 Total H = 1.110124e+02 @@ -14976,9 +14989,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.071e-19 + Total alkalinity (eq/kg) = -8.239e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.065e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.085e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -15073,9 +15087,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.358e-20 + Total alkalinity (eq/kg) = -4.569e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.136e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.092e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -15170,9 +15185,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.009e-19 + Total alkalinity (eq/kg) = -4.386e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.136e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.141e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -15267,9 +15283,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.879e-19 + Total alkalinity (eq/kg) = 8.259e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.794e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.795e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -15364,9 +15381,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.585e-19 + Total alkalinity (eq/kg) = -9.478e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.723e-16 + Electrical balance (eq) = -2.713e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15461,9 +15478,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.270e-20 + Total alkalinity (eq/kg) = 2.380e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.644e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.639e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15556,9 +15574,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.385e-19 + Total alkalinity (eq/kg) = 1.739e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.460e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.453e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15648,9 +15667,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.408e-19 + Total alkalinity (eq/kg) = -4.938e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.172e-16 + Electrical balance (eq) = -5.169e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15740,9 +15759,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.694e-19 + Total alkalinity (eq/kg) = -1.152e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.303e-16 + Electrical balance (eq) = -5.312e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15832,9 +15851,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.455e-19 + Total alkalinity (eq/kg) = 1.233e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.246e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.254e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -15924,9 +15944,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.464e-19 + Total alkalinity (eq/kg) = -3.434e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.639e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.636e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -16016,9 +16037,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.302e-19 + Total alkalinity (eq/kg) = -7.431e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.316e-16 + Electrical balance (eq) = -3.315e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -16108,7 +16129,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.152e-19 + Total alkalinity (eq/kg) = -6.043e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.235e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -16200,7 +16221,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.535e-19 + Total alkalinity (eq/kg) = -8.432e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.128e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -16292,7 +16313,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.093e-19 + Total alkalinity (eq/kg) = -8.986e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.239e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -16384,7 +16405,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.024e-18 + Total alkalinity (eq/kg) = -1.020e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.338e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -18426,9 +18447,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.648e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.145e-19 + Total alkalinity (eq/kg) = 6.534e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.140e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.133e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -18523,9 +18545,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.555e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.995e-19 + Total alkalinity (eq/kg) = 3.338e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.741e-16 + Electrical balance (eq) = 7.747e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -18620,9 +18642,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.397e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.395e-19 + Total alkalinity (eq/kg) = -5.915e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.489e-16 + Electrical balance (eq) = 7.499e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -18717,9 +18739,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.212e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.478e-19 + Total alkalinity (eq/kg) = 1.873e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.846e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.854e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -18814,9 +18837,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.899e-19 + Total alkalinity (eq/kg) = -3.365e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.715e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.714e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -18911,9 +18935,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.463e-20 + Total alkalinity (eq/kg) = 1.533e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.491e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.514e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -19008,9 +19033,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.893e-19 + Total alkalinity (eq/kg) = 2.739e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.051e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.959e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -19105,9 +19131,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.287e-20 + Total alkalinity (eq/kg) = -1.509e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.529e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.520e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -19202,9 +19229,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.106e-19 + Total alkalinity (eq/kg) = 6.739e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.525e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.505e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19299,9 +19327,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.154e-19 + Total alkalinity (eq/kg) = 4.264e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.456e-16 + Electrical balance (eq) = -3.440e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19394,9 +19422,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.242e-19 + Total alkalinity (eq/kg) = -3.555e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.213e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.199e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19486,9 +19515,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.417e-19 + Total alkalinity (eq/kg) = 2.776e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.744e-16 + Electrical balance (eq) = -4.743e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19578,9 +19607,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.123e-19 + Total alkalinity (eq/kg) = 8.285e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.018e-16 + Electrical balance (eq) = -5.020e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19670,9 +19699,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.096e-19 + Total alkalinity (eq/kg) = 4.103e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.046e-16 + Electrical balance (eq) = -5.045e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19762,9 +19791,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.168e-19 + Total alkalinity (eq/kg) = -1.369e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.826e-16 + Electrical balance (eq) = -4.824e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19854,9 +19883,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.579e-20 + Total alkalinity (eq/kg) = -4.373e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.385e-16 + Electrical balance (eq) = -4.381e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -19946,9 +19975,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.512e-19 + Total alkalinity (eq/kg) = -4.487e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.364e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.361e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -20038,9 +20068,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.253e-20 + Total alkalinity (eq/kg) = -2.825e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.326e-16 + Electrical balance (eq) = -3.324e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -20130,7 +20160,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.430e-19 + Total alkalinity (eq/kg) = -5.182e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.292e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -20222,7 +20252,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.094e-18 + Total alkalinity (eq/kg) = -1.093e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.328e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -20314,7 +20344,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.102e-18 + Total alkalinity (eq/kg) = -1.091e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.352e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -20406,9 +20436,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.486e-19 + Total alkalinity (eq/kg) = -8.559e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.406e-16 + Electrical balance (eq) = -3.405e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -20419,8 +20449,8 @@ X 1.100e-03 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 + OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 Cl 2.341e-11 Cl- 2.341e-11 2.251e-11 -10.631 -10.648 -0.017 18.08 @@ -20498,7 +20528,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.592e-19 + Total alkalinity (eq/kg) = -9.588e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.403e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -22202,9 +22232,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.688e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.810e-19 + Total alkalinity (eq/kg) = 6.682e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.990e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.973e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -22299,9 +22330,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.615e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.577e-19 + Total alkalinity (eq/kg) = 5.633e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.990e-16 + Electrical balance (eq) = 5.984e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -22396,9 +22427,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.489e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.146e-20 + Total alkalinity (eq/kg) = 4.818e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.158e-16 + Electrical balance (eq) = 6.163e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -22493,9 +22524,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.343e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.442e-19 + Total alkalinity (eq/kg) = 7.503e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.153e-16 + Electrical balance (eq) = 6.147e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -22590,9 +22621,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.661e-19 + Total alkalinity (eq/kg) = 3.453e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.433e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.434e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -22687,9 +22719,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.561e-19 + Total alkalinity (eq/kg) = 2.436e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.470e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.467e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -22784,9 +22817,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.265e-20 + Total alkalinity (eq/kg) = 7.294e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.105e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.192e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -22881,9 +22915,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.087e-19 + Total alkalinity (eq/kg) = 3.117e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.877e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.839e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -22978,9 +23013,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.867e-21 + Total alkalinity (eq/kg) = 5.515e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.795e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.798e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23075,9 +23111,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.156e-19 + Total alkalinity (eq/kg) = 8.613e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.066e-16 + Electrical balance (eq) = -7.052e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -23172,9 +23208,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.269e-18 + Total alkalinity (eq/kg) = 1.024e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.229e-16 + Electrical balance (eq) = -8.209e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -23267,9 +23303,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.067e-18 + Total alkalinity (eq/kg) = 1.187e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.277e-16 + Electrical balance (eq) = -6.278e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23359,9 +23395,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.190e-19 + Total alkalinity (eq/kg) = 8.016e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.409e-16 + Electrical balance (eq) = -4.411e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23451,9 +23487,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.109e-19 + Total alkalinity (eq/kg) = 3.557e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.567e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.571e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23543,9 +23580,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.624e-19 + Total alkalinity (eq/kg) = 3.513e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.609e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.614e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23635,9 +23673,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.896e-20 + Total alkalinity (eq/kg) = -2.206e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.524e-16 + Electrical balance (eq) = -4.534e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23727,9 +23765,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.658e-19 + Total alkalinity (eq/kg) = -2.184e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.374e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.379e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23819,9 +23858,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.248e-19 + Total alkalinity (eq/kg) = -7.271e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.158e-16 + Electrical balance (eq) = -4.157e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -23911,9 +23950,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.856e-19 + Total alkalinity (eq/kg) = -1.294e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.936e-16 + Electrical balance (eq) = -3.943e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -24003,9 +24042,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.427e-19 + Total alkalinity (eq/kg) = -7.971e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.738e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.746e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -24095,9 +24135,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.633e-19 + Total alkalinity (eq/kg) = -5.419e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.741e-16 + Electrical balance (eq) = -3.744e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -24187,9 +24227,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.313e-19 + Total alkalinity (eq/kg) = -1.040e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.358e-16 + Electrical balance (eq) = -3.357e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -24279,9 +24319,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.093e-18 + Total alkalinity (eq/kg) = -7.673e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.381e-16 + Electrical balance (eq) = -3.387e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -24371,9 +24411,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.979e-19 + Total alkalinity (eq/kg) = -3.204e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.401e-16 + Electrical balance (eq) = -3.403e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -24463,9 +24503,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.855e-19 + Total alkalinity (eq/kg) = -6.098e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.409e-16 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -24555,9 +24595,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.564e-19 + Total alkalinity (eq/kg) = -6.222e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.400e-16 + Electrical balance (eq) = -3.403e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -24647,7 +24687,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.882e-19 + Total alkalinity (eq/kg) = -7.634e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.399e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -26013,9 +26053,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.718e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.491e-19 + Total alkalinity (eq/kg) = -1.501e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.556e-16 + Electrical balance (eq) = 3.549e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -26110,9 +26150,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.662e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.721e-19 + Total alkalinity (eq/kg) = -3.778e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.184e-16 + Electrical balance (eq) = 4.185e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -26207,9 +26247,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.555e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.683e-19 + Total alkalinity (eq/kg) = 5.137e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.099e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.101e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -26304,9 +26345,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.405e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.155e-19 + Total alkalinity (eq/kg) = 3.715e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.536e-16 + Electrical balance (eq) = 5.538e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -26401,9 +26442,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.245e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.004e-19 + Total alkalinity (eq/kg) = 1.028e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.116e-16 + Electrical balance (eq) = 5.117e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 8 Total H = 1.110124e+02 @@ -26498,9 +26539,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.168e-19 + Total alkalinity (eq/kg) = 7.605e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.064e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.063e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -26595,9 +26637,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.368e-19 + Total alkalinity (eq/kg) = 9.105e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.575e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.586e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -26692,9 +26735,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.169e-19 + Total alkalinity (eq/kg) = 7.712e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.426e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.413e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -26789,9 +26833,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.417e-19 + Total alkalinity (eq/kg) = 4.118e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.220e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.211e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -26886,9 +26931,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.749e-19 + Total alkalinity (eq/kg) = 1.023e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.757e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.755e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -26983,9 +27029,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.111e-19 + Total alkalinity (eq/kg) = 1.297e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.169e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.145e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -27078,9 +27125,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.479e-18 + Total alkalinity (eq/kg) = 2.146e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.187e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.185e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -27170,9 +27218,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.515e-18 + Total alkalinity (eq/kg) = 1.427e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.564e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.561e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -27262,9 +27311,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.222e-18 + Total alkalinity (eq/kg) = 1.682e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.997e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.993e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27354,8 +27404,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.870e-19 + Total alkalinity (eq/kg) = 7.289e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.428e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 @@ -27446,9 +27497,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.643e-19 + Total alkalinity (eq/kg) = 5.806e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.565e-16 + Electrical balance (eq) = -4.575e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27538,9 +27589,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.552e-19 + Total alkalinity (eq/kg) = 4.138e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.425e-16 + Electrical balance (eq) = -4.436e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27630,9 +27681,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.383e-19 + Total alkalinity (eq/kg) = -1.212e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.304e-16 + Electrical balance (eq) = -4.308e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27722,9 +27773,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.675e-19 + Total alkalinity (eq/kg) = -2.269e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.142e-16 + Electrical balance (eq) = -4.149e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27814,7 +27865,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.969e-19 + Total alkalinity (eq/kg) = -3.490e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.998e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -27906,9 +27957,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.304e-19 + Total alkalinity (eq/kg) = -4.988e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.839e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.842e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -27998,9 +28050,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.973e-19 + Total alkalinity (eq/kg) = -3.318e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.717e-16 + Electrical balance (eq) = -3.719e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -28090,9 +28142,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.340e-19 + Total alkalinity (eq/kg) = -8.652e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.630e-16 + Electrical balance (eq) = -3.634e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -28182,9 +28234,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.777e-19 + Total alkalinity (eq/kg) = -9.247e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.561e-16 + Electrical balance (eq) = -3.552e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -28274,9 +28326,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.073e-19 + Total alkalinity (eq/kg) = -1.048e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.511e-16 + Electrical balance (eq) = -3.504e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -28366,9 +28418,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.630e-19 + Total alkalinity (eq/kg) = -9.212e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.399e-16 + Electrical balance (eq) = -3.389e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -28458,9 +28510,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.826e-19 + Total alkalinity (eq/kg) = -7.929e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.407e-16 + Electrical balance (eq) = -3.406e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -28550,7 +28602,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.802e-19 + Total alkalinity (eq/kg) = -7.686e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.392e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -28642,7 +28694,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.094e-19 + Total alkalinity (eq/kg) = -9.290e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.399e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -28734,7 +28786,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.624e-19 + Total alkalinity (eq/kg) = -9.154e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.403e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -28826,9 +28878,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.049e-18 + Total alkalinity (eq/kg) = -1.056e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.405e-16 + Electrical balance (eq) = -3.404e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -29854,9 +29906,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.739e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.010e-19 + Total alkalinity (eq/kg) = -4.104e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.520e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.510e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -29951,9 +30004,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.696e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.603e-20 + Total alkalinity (eq/kg) = -1.602e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.962e-16 + Electrical balance (eq) = 2.952e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -30048,9 +30101,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.614e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.784e-19 + Total alkalinity (eq/kg) = -1.081e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.982e-16 + Electrical balance (eq) = 4.976e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -30145,9 +30198,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.498e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.182e-19 + Total alkalinity (eq/kg) = 1.707e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.427e-16 + Electrical balance (eq) = 9.426e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -30242,9 +30295,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.356e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.085e-19 + Total alkalinity (eq/kg) = 2.601e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.254e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.261e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -30339,9 +30393,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.788e-19 + Total alkalinity (eq/kg) = 8.365e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.473e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.476e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -30436,9 +30491,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.195e-19 + Total alkalinity (eq/kg) = 1.200e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.596e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.603e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -30533,9 +30589,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.545e-20 + Total alkalinity (eq/kg) = 1.196e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.238e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -30630,9 +30687,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.688e-19 + Total alkalinity (eq/kg) = 1.408e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.876e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.865e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -30727,9 +30785,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.304e-18 + Total alkalinity (eq/kg) = 1.514e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.728e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.727e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -30824,9 +30883,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.571e-18 + Total alkalinity (eq/kg) = 7.410e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.483e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.475e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -30921,9 +30981,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.626e-18 + Total alkalinity (eq/kg) = 2.011e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.910e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.901e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -31016,9 +31077,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.824e-18 + Total alkalinity (eq/kg) = 2.405e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.209e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.206e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -31108,9 +31170,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.082e-18 + Total alkalinity (eq/kg) = 1.896e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.651e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.649e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -31200,9 +31263,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.956e-18 + Total alkalinity (eq/kg) = 2.297e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.117e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.116e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -31292,9 +31356,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.693e-18 + Total alkalinity (eq/kg) = 1.513e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.375e-15 + Electrical balance (eq) = -2.374e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -31384,9 +31448,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.186e-18 + Total alkalinity (eq/kg) = 1.250e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.478e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.473e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31476,9 +31541,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.993e-19 + Total alkalinity (eq/kg) = 7.391e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.743e-16 + Electrical balance (eq) = -4.751e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31568,9 +31633,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.283e-19 + Total alkalinity (eq/kg) = 6.877e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.243e-16 + Electrical balance (eq) = -4.241e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31660,9 +31725,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.341e-19 + Total alkalinity (eq/kg) = 4.256e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.102e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.106e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31752,9 +31818,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.342e-19 + Total alkalinity (eq/kg) = -1.453e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.995e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.001e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31844,9 +31911,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.657e-19 + Total alkalinity (eq/kg) = 1.451e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.864e-16 + Electrical balance (eq) = -3.872e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -31936,9 +32003,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.639e-19 + Total alkalinity (eq/kg) = -5.130e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.742e-16 + Electrical balance (eq) = -3.745e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32028,9 +32095,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.080e-19 + Total alkalinity (eq/kg) = 1.780e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.646e-16 + Electrical balance (eq) = -3.650e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32120,9 +32187,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.949e-19 + Total alkalinity (eq/kg) = -4.693e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.585e-16 + Electrical balance (eq) = -3.584e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32212,9 +32279,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.172e-19 + Total alkalinity (eq/kg) = -9.980e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.544e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.524e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32304,7 +32372,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.319e-19 + Total alkalinity (eq/kg) = -3.468e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.509e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -32396,9 +32464,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.218e-19 + Total alkalinity (eq/kg) = -6.863e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.493e-16 + Electrical balance (eq) = -3.467e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32488,9 +32556,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.967e-19 + Total alkalinity (eq/kg) = -5.976e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.440e-16 + Electrical balance (eq) = -3.426e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -32580,9 +32648,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.373e-19 + Total alkalinity (eq/kg) = -1.223e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.396e-16 + Electrical balance (eq) = -3.388e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -32672,9 +32740,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.333e-18 + Total alkalinity (eq/kg) = -1.206e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.391e-16 + Electrical balance (eq) = -3.392e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -32764,9 +32832,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.363e-18 + Total alkalinity (eq/kg) = -1.161e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.405e-16 + Electrical balance (eq) = -3.406e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -32856,7 +32924,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.084e-18 + Total alkalinity (eq/kg) = -1.145e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.398e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -32948,9 +33016,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.669e-19 + Total alkalinity (eq/kg) = -7.814e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.403e-16 + Electrical balance (eq) = -3.406e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -33040,9 +33108,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.087e-18 + Total alkalinity (eq/kg) = -9.190e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.407e-16 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110124e+02 @@ -33132,7 +33200,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.027e-19 + Total alkalinity (eq/kg) = -8.814e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.405e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -33224,7 +33292,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.074e-19 + Total alkalinity (eq/kg) = -7.070e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.413e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -33730,9 +33798,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.189e-19 + Total alkalinity (eq/kg) = 7.049e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.885e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.880e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -33827,9 +33896,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.722e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.199e-19 + Total alkalinity (eq/kg) = -6.392e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.475e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.470e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -33924,9 +33994,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.658e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.247e-19 + Total alkalinity (eq/kg) = -2.771e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.746e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.740e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -34021,9 +34092,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.556e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.701e-19 + Total alkalinity (eq/kg) = -2.331e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.286e-16 + Electrical balance (eq) = 5.285e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -34118,9 +34189,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.419e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.104e-19 + Total alkalinity (eq/kg) = -6.207e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.190e-16 + Electrical balance (eq) = 6.187e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -34215,9 +34286,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.279e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.640e-19 + Total alkalinity (eq/kg) = 3.655e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.948e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.950e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 8 Total H = 1.110124e+02 @@ -34312,9 +34384,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.094e-19 + Total alkalinity (eq/kg) = 9.836e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.854e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.856e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -34409,9 +34482,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.943e-19 + Total alkalinity (eq/kg) = 1.086e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.451e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.448e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -34506,9 +34580,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.627e-19 + Total alkalinity (eq/kg) = 1.240e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.862e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.865e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -34603,9 +34678,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.633e-20 + Total alkalinity (eq/kg) = 1.220e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.086e-18 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.494e-18 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -34700,9 +34776,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.013e-19 + Total alkalinity (eq/kg) = 1.458e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.254e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.253e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -34797,9 +34874,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.775e-18 + Total alkalinity (eq/kg) = 1.484e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.044e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.036e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -34892,9 +34970,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.241e-18 + Total alkalinity (eq/kg) = 2.191e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.438e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.425e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -34984,8 +35063,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.540e-18 + Total alkalinity (eq/kg) = 3.118e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.261e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -35076,9 +35156,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.006e-18 + Total alkalinity (eq/kg) = 2.907e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.743e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.742e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -35168,8 +35249,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.580e-18 + Total alkalinity (eq/kg) = 2.179e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.225e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -35260,8 +35342,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.623e-18 + Total alkalinity (eq/kg) = 2.086e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.607e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -35352,7 +35435,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.821e-18 + Total alkalinity (eq/kg) = 2.054e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -2.563e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -35444,9 +35527,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.581e-18 + Total alkalinity (eq/kg) = 1.386e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.295e-15 + Electrical balance (eq) = -2.296e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -35536,9 +35619,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.080e-19 + Total alkalinity (eq/kg) = 1.076e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.095e-16 + Electrical balance (eq) = -6.093e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -35628,9 +35711,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.724e-19 + Total alkalinity (eq/kg) = 3.728e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.289e-16 + Electrical balance (eq) = -4.285e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -35720,9 +35803,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.733e-20 + Total alkalinity (eq/kg) = 2.428e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.982e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.988e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -35812,9 +35896,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.282e-19 + Total alkalinity (eq/kg) = 2.227e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.865e-16 + Electrical balance (eq) = -3.863e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -35904,9 +35988,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.862e-19 + Total alkalinity (eq/kg) = -6.894e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.742e-16 + Electrical balance (eq) = -3.754e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -35996,9 +36080,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.602e-19 + Total alkalinity (eq/kg) = -4.986e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.673e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.677e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36088,9 +36173,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.863e-19 + Total alkalinity (eq/kg) = -6.996e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.601e-16 + Electrical balance (eq) = -3.605e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36180,9 +36265,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.998e-19 + Total alkalinity (eq/kg) = -5.827e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.556e-16 + Electrical balance (eq) = -3.560e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36272,9 +36357,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.574e-19 + Total alkalinity (eq/kg) = -7.604e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.523e-16 + Electrical balance (eq) = -3.514e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36364,9 +36449,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.012e-19 + Total alkalinity (eq/kg) = -6.176e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.485e-16 + Electrical balance (eq) = -3.477e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36456,9 +36541,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.237e-20 + Total alkalinity (eq/kg) = -6.394e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.456e-16 + Electrical balance (eq) = -3.448e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36548,9 +36633,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.442e-19 + Total alkalinity (eq/kg) = -1.040e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.433e-16 + Electrical balance (eq) = -3.426e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36640,9 +36725,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.161e-18 + Total alkalinity (eq/kg) = -1.418e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.416e-16 + Electrical balance (eq) = -3.408e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36732,9 +36817,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.284e-18 + Total alkalinity (eq/kg) = -1.367e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.403e-16 + Electrical balance (eq) = -3.400e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -36824,7 +36909,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.043e-18 + Total alkalinity (eq/kg) = -8.988e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.401e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -36916,9 +37001,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.134e-18 + Total alkalinity (eq/kg) = -8.217e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.398e-16 + Electrical balance (eq) = -3.401e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -37008,9 +37093,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.284e-19 + Total alkalinity (eq/kg) = -5.711e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.403e-16 + Electrical balance (eq) = -3.407e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -37100,9 +37185,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.080e-18 + Total alkalinity (eq/kg) = -7.441e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.407e-16 + Electrical balance (eq) = -3.408e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -37192,9 +37277,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.336e-18 + Total alkalinity (eq/kg) = -1.122e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.405e-16 + Electrical balance (eq) = -3.406e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -37284,7 +37369,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.356e-19 + Total alkalinity (eq/kg) = -6.766e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.413e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -37376,7 +37461,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.318e-19 + Total alkalinity (eq/kg) = -7.232e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.413e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -37606,9 +37691,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.766e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.641e-19 + Total alkalinity (eq/kg) = 2.296e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.719e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.725e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -37703,9 +37789,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.741e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.047e-19 + Total alkalinity (eq/kg) = 7.576e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.060e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.068e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -37800,9 +37887,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.691e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.274e-19 + Total alkalinity (eq/kg) = -3.179e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.701e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.694e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -37897,8 +37985,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.614e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.966e-19 + Total alkalinity (eq/kg) = 2.279e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.342e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -37994,7 +38083,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.504e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.587e-19 + Total alkalinity (eq/kg) = 2.444e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 1.522e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -38091,9 +38180,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.364e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.846e-19 + Total alkalinity (eq/kg) = 2.498e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.852e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.857e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -38188,9 +38278,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.205e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.292e-19 + Total alkalinity (eq/kg) = 5.243e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.151e-16 + Electrical balance (eq) = 5.156e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -38285,9 +38375,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.028e-20 + Total alkalinity (eq/kg) = 1.028e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.408e-16 + Electrical balance (eq) = 4.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -38382,9 +38472,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.036e-19 + Total alkalinity (eq/kg) = 8.609e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.172e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.170e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -38479,9 +38570,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.970e-21 + Total alkalinity (eq/kg) = 1.270e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.552e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.559e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -38576,9 +38668,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.105e-19 + Total alkalinity (eq/kg) = 1.848e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.067e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.091e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -38673,9 +38766,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.556e-18 + Total alkalinity (eq/kg) = 2.267e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.772e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.758e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -38770,9 +38864,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.990e-18 + Total alkalinity (eq/kg) = 2.367e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.591e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.567e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -38865,9 +38960,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.715e-18 + Total alkalinity (eq/kg) = 2.489e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.972e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.947e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -38957,9 +39053,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.984e-18 + Total alkalinity (eq/kg) = 2.902e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.299e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.297e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -39049,9 +39146,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.725e-18 + Total alkalinity (eq/kg) = 3.317e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.755e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.753e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -39141,8 +39239,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.706e-18 + Total alkalinity (eq/kg) = 3.017e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.229e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -39233,9 +39332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.633e-18 + Total alkalinity (eq/kg) = 2.355e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.669e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.668e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -39325,8 +39425,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.262e-18 + Total alkalinity (eq/kg) = 2.073e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.948e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -39417,9 +39518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.844e-18 + Total alkalinity (eq/kg) = 1.904e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.966e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.965e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -39509,9 +39611,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.206e-18 + Total alkalinity (eq/kg) = 1.324e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.571e-15 + Electrical balance (eq) = -2.570e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -39601,9 +39703,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.159e-19 + Total alkalinity (eq/kg) = 8.420e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.046e-15 + Electrical balance (eq) = -1.045e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -39693,9 +39795,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.446e-19 + Total alkalinity (eq/kg) = 3.271e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.019e-16 + Electrical balance (eq) = -5.016e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -39785,9 +39887,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.510e-20 + Total alkalinity (eq/kg) = 5.176e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.039e-16 + Electrical balance (eq) = -4.035e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -39877,9 +39979,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.773e-19 + Total alkalinity (eq/kg) = 2.832e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.781e-16 + Electrical balance (eq) = -3.792e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -39969,9 +40071,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.873e-19 + Total alkalinity (eq/kg) = -1.116e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.682e-16 + Electrical balance (eq) = -3.698e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40061,9 +40163,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.515e-19 + Total alkalinity (eq/kg) = -1.950e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.616e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.630e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40153,9 +40256,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.754e-20 + Total alkalinity (eq/kg) = -3.084e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.563e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.566e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40245,9 +40349,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.125e-19 + Total alkalinity (eq/kg) = -6.519e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.528e-16 + Electrical balance (eq) = -3.506e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40337,9 +40441,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.997e-19 + Total alkalinity (eq/kg) = -5.404e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.496e-16 + Electrical balance (eq) = -3.481e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40429,9 +40533,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.907e-20 + Total alkalinity (eq/kg) = 8.403e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.468e-16 + Electrical balance (eq) = -3.444e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40521,9 +40625,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.611e-19 + Total alkalinity (eq/kg) = -8.265e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.446e-16 + Electrical balance (eq) = -3.442e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40613,9 +40717,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.997e-19 + Total alkalinity (eq/kg) = -1.130e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.424e-16 + Electrical balance (eq) = -3.412e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40705,9 +40809,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.277e-19 + Total alkalinity (eq/kg) = -1.372e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.414e-16 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40797,7 +40901,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.122e-18 + Total alkalinity (eq/kg) = -1.145e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.411e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -40889,9 +40993,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.119e-18 + Total alkalinity (eq/kg) = -8.492e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.403e-16 + Electrical balance (eq) = -3.404e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -40981,9 +41085,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.281e-18 + Total alkalinity (eq/kg) = -8.421e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.406e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -41073,9 +41178,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.071e-18 + Total alkalinity (eq/kg) = -3.826e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.402e-16 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -41165,9 +41270,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.837e-19 + Total alkalinity (eq/kg) = 1.498e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.407e-16 + Electrical balance (eq) = -3.415e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -41178,8 +41283,8 @@ X 1.100e-03 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 + H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 Cl 3.327e-14 Cl- 3.327e-14 3.200e-14 -13.478 -13.495 -0.017 18.08 @@ -41257,9 +41362,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.965e-19 + Total alkalinity (eq/kg) = 4.595e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.412e-16 + Electrical balance (eq) = -3.421e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -41270,8 +41375,8 @@ X 1.100e-03 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 + H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 Cl 6.338e-15 Cl- 6.338e-15 6.095e-15 -14.198 -14.215 -0.017 18.08 @@ -41487,9 +41592,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.774e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.453e-19 + Total alkalinity (eq/kg) = -4.213e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.738e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.740e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -41584,9 +41690,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.497e-19 + Total alkalinity (eq/kg) = -3.024e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.024e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.048e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -41681,8 +41788,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.717e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.327e-19 + Total alkalinity (eq/kg) = -1.147e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.415e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -41778,8 +41886,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.655e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.612e-19 + Total alkalinity (eq/kg) = -1.048e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.833e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -41875,9 +41984,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.560e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.661e-19 + Total alkalinity (eq/kg) = -7.364e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.312e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.311e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -41972,9 +42082,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.434e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.768e-19 + Total alkalinity (eq/kg) = 1.115e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.584e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.583e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -42069,7 +42180,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.302e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.243e-19 + Total alkalinity (eq/kg) = 5.242e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 1.066e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -42166,9 +42277,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.627e-19 + Total alkalinity (eq/kg) = 5.107e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.036e-16 + Electrical balance (eq) = 7.037e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -42263,9 +42374,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.934e-20 + Total alkalinity (eq/kg) = 1.071e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.618e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.632e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -42360,9 +42472,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.242e-19 + Total alkalinity (eq/kg) = 1.125e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.095e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.096e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -42457,9 +42570,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.084e-19 + Total alkalinity (eq/kg) = 1.411e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.622e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.623e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -42554,9 +42668,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.587e-19 + Total alkalinity (eq/kg) = 1.930e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.767e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.674e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -42651,9 +42766,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.526e-18 + Total alkalinity (eq/kg) = 2.257e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.785e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.778e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -42748,9 +42864,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.230e-18 + Total alkalinity (eq/kg) = 2.724e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.846e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.829e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -42843,9 +42960,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.735e-18 + Total alkalinity (eq/kg) = 2.997e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.352e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.327e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -42935,9 +43053,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.212e-18 + Total alkalinity (eq/kg) = 3.406e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.329e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.327e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43027,9 +43146,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.086e-18 + Total alkalinity (eq/kg) = 3.565e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.762e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.761e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43119,8 +43239,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.054e-18 + Total alkalinity (eq/kg) = 3.138e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.212e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -43211,9 +43332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.701e-18 + Total alkalinity (eq/kg) = 2.993e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.633e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.632e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43303,8 +43425,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.540e-18 + Total alkalinity (eq/kg) = 2.497e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.973e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -43395,9 +43518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.229e-18 + Total alkalinity (eq/kg) = 1.873e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.188e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.187e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43487,8 +43611,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.378e-18 + Total alkalinity (eq/kg) = 1.423e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.200e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -43579,9 +43704,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.395e-18 + Total alkalinity (eq/kg) = 1.343e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.766e-15 + Electrical balance (eq) = -2.765e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43671,9 +43796,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.067e-19 + Total alkalinity (eq/kg) = 9.661e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.039e-15 + Electrical balance (eq) = -2.038e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -43763,9 +43888,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.006e-19 + Total alkalinity (eq/kg) = 7.271e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.031e-16 + Electrical balance (eq) = -7.023e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -43855,9 +43980,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.279e-19 + Total alkalinity (eq/kg) = 1.070e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.401e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -43947,9 +44073,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.215e-19 + Total alkalinity (eq/kg) = 7.436e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.786e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.795e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44039,9 +44166,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.897e-21 + Total alkalinity (eq/kg) = 3.558e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.645e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.655e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44131,9 +44259,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.095e-19 + Total alkalinity (eq/kg) = 1.903e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.590e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.579e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44223,9 +44352,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.427e-20 + Total alkalinity (eq/kg) = -2.584e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.536e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.524e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44315,9 +44445,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.583e-19 + Total alkalinity (eq/kg) = -3.450e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.501e-16 + Electrical balance (eq) = -3.486e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44407,9 +44537,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.877e-19 + Total alkalinity (eq/kg) = -9.635e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.467e-16 + Electrical balance (eq) = -3.464e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44499,9 +44629,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.225e-19 + Total alkalinity (eq/kg) = -2.947e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.454e-16 + Electrical balance (eq) = -3.449e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44591,9 +44721,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.162e-19 + Total alkalinity (eq/kg) = -4.948e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.432e-16 + Electrical balance (eq) = -3.426e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44683,9 +44813,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.766e-19 + Total alkalinity (eq/kg) = -8.048e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.420e-16 + Electrical balance (eq) = -3.418e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44775,9 +44905,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.335e-18 + Total alkalinity (eq/kg) = -1.055e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.416e-16 + Electrical balance (eq) = -3.419e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44867,9 +44997,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.322e-18 + Total alkalinity (eq/kg) = -8.518e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.403e-16 + Electrical balance (eq) = -3.408e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -44959,9 +45089,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.028e-18 + Total alkalinity (eq/kg) = -5.081e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.404e-16 + Electrical balance (eq) = -3.411e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -45051,9 +45181,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.842e-19 + Total alkalinity (eq/kg) = 3.545e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.408e-16 + Electrical balance (eq) = -3.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -45064,8 +45194,8 @@ X 1.100e-03 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 + H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 Cl 1.638e-12 Cl- 1.638e-12 1.575e-12 -11.786 -11.803 -0.017 18.08 @@ -45143,9 +45273,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.364e-19 + Total alkalinity (eq/kg) = 8.202e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.420e-16 + Electrical balance (eq) = -3.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -45156,8 +45286,8 @@ X 1.100e-03 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 OH- 1.045e-07 1.005e-07 -6.981 -6.998 -0.017 -4.10 + H+ 1.045e-07 1.007e-07 -6.981 -6.997 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 Cl 4.495e-13 Cl- 4.495e-13 4.323e-13 -12.347 -12.364 -0.017 18.08 @@ -45373,9 +45503,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.780e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.364e-18 + Total alkalinity (eq/kg) = -1.016e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.292e-16 + Electrical balance (eq) = 2.290e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -45470,9 +45600,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.766e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.452e-18 + Total alkalinity (eq/kg) = -1.163e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.865e-16 + Electrical balance (eq) = 4.863e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -45567,8 +45697,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.736e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.608e-19 + Total alkalinity (eq/kg) = -9.298e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.557e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -45664,7 +45795,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.688e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.902e-19 + Total alkalinity (eq/kg) = -5.526e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 4.300e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -45761,9 +45892,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.615e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.019e-19 + Total alkalinity (eq/kg) = 1.504e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.754e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.755e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -45858,9 +45990,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.509e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.087e-19 + Total alkalinity (eq/kg) = 9.260e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.250e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.249e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -45955,9 +46088,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.370e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.489e-19 + Total alkalinity (eq/kg) = 1.415e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.628e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.627e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -46052,9 +46186,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.211e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.756e-19 + Total alkalinity (eq/kg) = 2.337e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.442e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.441e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -46149,8 +46284,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.429e-19 + Total alkalinity (eq/kg) = 6.174e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.537e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -46246,9 +46382,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.651e-19 + Total alkalinity (eq/kg) = 1.036e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.453e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.459e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -46343,9 +46480,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.022e-19 + Total alkalinity (eq/kg) = 8.382e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.306e-16 + Electrical balance (eq) = 3.322e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -46440,9 +46577,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.802e-19 + Total alkalinity (eq/kg) = 1.983e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.417e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.434e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -46537,9 +46675,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.972e-19 + Total alkalinity (eq/kg) = 1.763e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.697e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.524e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -46634,9 +46773,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.649e-18 + Total alkalinity (eq/kg) = 2.063e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.183e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.165e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -46729,9 +46869,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.208e-18 + Total alkalinity (eq/kg) = 2.857e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.203e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.193e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -46821,9 +46962,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.435e-18 + Total alkalinity (eq/kg) = 3.380e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.650e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.633e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -46913,9 +47055,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.925e-18 + Total alkalinity (eq/kg) = 3.527e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.349e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.347e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47005,8 +47148,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.241e-18 + Total alkalinity (eq/kg) = 3.792e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.764e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -47097,9 +47241,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.362e-18 + Total alkalinity (eq/kg) = 3.672e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.188e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.187e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47189,8 +47334,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.815e-18 + Total alkalinity (eq/kg) = 3.153e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.589e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -47281,8 +47427,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.872e-18 + Total alkalinity (eq/kg) = 2.916e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.931e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -47373,9 +47520,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.083e-18 + Total alkalinity (eq/kg) = 2.376e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.175e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.174e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47465,9 +47613,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.600e-18 + Total alkalinity (eq/kg) = 2.107e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.276e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.275e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47557,9 +47706,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.946e-18 + Total alkalinity (eq/kg) = 8.655e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.190e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.189e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47649,9 +47799,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.999e-18 + Total alkalinity (eq/kg) = 1.045e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.894e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.892e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47741,9 +47892,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.389e-18 + Total alkalinity (eq/kg) = 1.095e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.290e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.288e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -47833,9 +47985,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.950e-19 + Total alkalinity (eq/kg) = 7.402e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.074e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.076e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -47925,9 +48078,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.175e-19 + Total alkalinity (eq/kg) = 7.278e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.377e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.392e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48017,9 +48171,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.898e-19 + Total alkalinity (eq/kg) = 7.140e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.916e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.931e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48109,9 +48264,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.091e-19 + Total alkalinity (eq/kg) = 5.096e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.649e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.642e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48201,9 +48357,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.887e-19 + Total alkalinity (eq/kg) = 6.656e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.561e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.548e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48293,9 +48450,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.444e-20 + Total alkalinity (eq/kg) = 1.163e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.512e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.506e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48385,9 +48543,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.962e-19 + Total alkalinity (eq/kg) = -7.228e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.476e-16 + Electrical balance (eq) = -3.470e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48477,9 +48635,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.127e-19 + Total alkalinity (eq/kg) = 1.164e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.457e-16 + Electrical balance (eq) = -3.454e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48569,9 +48727,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.225e-19 + Total alkalinity (eq/kg) = -6.931e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.425e-16 + Electrical balance (eq) = -3.423e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48661,9 +48819,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.080e-18 + Total alkalinity (eq/kg) = -9.194e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.418e-16 + Electrical balance (eq) = -3.421e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48753,9 +48911,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.135e-18 + Total alkalinity (eq/kg) = -9.110e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.414e-16 + Electrical balance (eq) = -3.419e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48845,9 +49003,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.039e-18 + Total alkalinity (eq/kg) = -4.184e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.409e-16 + Electrical balance (eq) = -3.419e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -48937,9 +49095,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.530e-19 + Total alkalinity (eq/kg) = -5.525e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.407e-16 + Electrical balance (eq) = -3.410e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -49029,9 +49187,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.543e-20 + Total alkalinity (eq/kg) = 4.630e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.409e-16 + Electrical balance (eq) = -3.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -49259,9 +49417,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.785e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.414e-18 + Total alkalinity (eq/kg) = -1.099e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.973e-16 + Electrical balance (eq) = 4.960e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -49356,9 +49514,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.774e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.738e-19 + Total alkalinity (eq/kg) = -9.602e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.114e-15 + Electrical balance (eq) = 1.113e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -49453,9 +49611,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.751e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.002e-18 + Total alkalinity (eq/kg) = -1.357e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.651e-15 + Electrical balance (eq) = 2.650e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -49550,9 +49708,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.714e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.448e-19 + Total alkalinity (eq/kg) = -1.275e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.667e-15 + Electrical balance (eq) = 5.668e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -49647,9 +49805,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.655e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.140e-19 + Total alkalinity (eq/kg) = -6.488e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.309e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.311e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -49744,9 +49903,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.566e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.547e-19 + Total alkalinity (eq/kg) = 3.451e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.514e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.517e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -49841,9 +50001,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.447e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.320e-19 + Total alkalinity (eq/kg) = 1.285e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.437e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.439e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -49938,8 +50099,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.318e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.053e-19 + Total alkalinity (eq/kg) = 3.997e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.918e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -50035,9 +50197,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.076e-20 + Total alkalinity (eq/kg) = 4.539e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.882e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.880e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -50132,8 +50295,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.287e-19 + Total alkalinity (eq/kg) = 9.132e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.161e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -50229,9 +50393,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.545e-19 + Total alkalinity (eq/kg) = 1.083e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.858e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.859e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -50326,9 +50491,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.177e-18 + Total alkalinity (eq/kg) = 1.578e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.739e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.757e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -50423,9 +50589,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.926e-19 + Total alkalinity (eq/kg) = 1.547e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.337e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.353e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -50520,9 +50687,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.260e-18 + Total alkalinity (eq/kg) = 1.728e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.007e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.962e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -50617,9 +50785,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.474e-18 + Total alkalinity (eq/kg) = 2.806e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.611e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.591e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -50712,8 +50881,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.108e-18 + Total alkalinity (eq/kg) = 3.482e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.583e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -50804,9 +50974,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.271e-18 + Total alkalinity (eq/kg) = 3.949e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.952e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.948e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -50896,8 +51067,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.717e-18 + Total alkalinity (eq/kg) = 4.089e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.366e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -50988,9 +51160,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.206e-18 + Total alkalinity (eq/kg) = 4.612e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.762e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.761e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -51080,9 +51253,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.708e-18 + Total alkalinity (eq/kg) = 4.546e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.162e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.161e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -51172,8 +51346,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.319e-18 + Total alkalinity (eq/kg) = 3.809e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.538e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -51264,8 +51439,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.461e-18 + Total alkalinity (eq/kg) = 3.068e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.860e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -51356,9 +51532,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.004e-18 + Total alkalinity (eq/kg) = 3.195e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.102e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.103e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -51448,8 +51625,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.947e-18 + Total alkalinity (eq/kg) = 2.339e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.243e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -51540,9 +51718,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.736e-18 + Total alkalinity (eq/kg) = 1.837e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.255e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.254e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -51632,7 +51811,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.321e-18 + Total alkalinity (eq/kg) = 1.679e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.108e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -51724,9 +51903,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.770e-18 + Total alkalinity (eq/kg) = 1.588e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.769e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.771e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -51816,8 +51996,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.433e-18 + Total alkalinity (eq/kg) = 1.735e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.262e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -51908,9 +52089,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.489e-18 + Total alkalinity (eq/kg) = 1.132e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.633e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.634e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -52000,9 +52182,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.175e-19 + Total alkalinity (eq/kg) = 9.107e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.263e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.277e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52092,9 +52275,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.219e-19 + Total alkalinity (eq/kg) = 2.770e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.255e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.263e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52184,9 +52368,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.184e-19 + Total alkalinity (eq/kg) = 2.996e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.695e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.691e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52276,9 +52461,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.343e-19 + Total alkalinity (eq/kg) = 2.006e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.541e-16 + Electrical balance (eq) = -3.535e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52368,9 +52553,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.677e-20 + Total alkalinity (eq/kg) = 5.045e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.490e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.486e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52460,9 +52646,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.413e-21 + Total alkalinity (eq/kg) = 5.453e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.461e-16 + Electrical balance (eq) = -3.446e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52552,9 +52738,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.538e-19 + Total alkalinity (eq/kg) = 2.665e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.439e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.443e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52644,9 +52831,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.412e-19 + Total alkalinity (eq/kg) = -5.130e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.435e-16 + Electrical balance (eq) = -3.434e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52736,9 +52923,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.230e-18 + Total alkalinity (eq/kg) = -7.706e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.419e-16 + Electrical balance (eq) = -3.417e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52828,9 +53015,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.053e-18 + Total alkalinity (eq/kg) = -2.317e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.412e-16 + Electrical balance (eq) = -3.424e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -52920,9 +53107,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.674e-19 + Total alkalinity (eq/kg) = -2.879e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.412e-16 + Electrical balance (eq) = -3.416e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -53150,7 +53337,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.676e-19 + Total alkalinity (eq/kg) = -1.465e-18 Temperature (°C) = 25.00 Electrical balance (eq) = 6.769e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -53247,7 +53434,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.780e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.827e-19 + Total alkalinity (eq/kg) = -8.755e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 1.429e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -53344,9 +53531,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.762e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.582e-19 + Total alkalinity (eq/kg) = -9.614e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.248e-15 + Electrical balance (eq) = 3.245e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -53441,9 +53628,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.733e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.847e-19 + Total alkalinity (eq/kg) = -1.239e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.520e-15 + Electrical balance (eq) = 6.519e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -53538,9 +53725,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.687e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.615e-19 + Total alkalinity (eq/kg) = -9.204e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.132e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.133e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -53635,9 +53823,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.617e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.807e-19 + Total alkalinity (eq/kg) = -3.027e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.468e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.469e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -53732,9 +53921,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.514e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.686e-19 + Total alkalinity (eq/kg) = -2.241e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.114e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.116e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -53829,9 +54019,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.376e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.901e-20 + Total alkalinity (eq/kg) = 5.504e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.109e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.110e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -53926,9 +54117,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.221e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.342e-19 + Total alkalinity (eq/kg) = 2.085e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.433e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.432e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -54023,8 +54215,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.988e-19 + Total alkalinity (eq/kg) = 3.146e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.239e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -54120,8 +54313,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.641e-19 + Total alkalinity (eq/kg) = 8.076e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.420e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -54217,9 +54411,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.936e-19 + Total alkalinity (eq/kg) = 9.641e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.561e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.565e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -54314,9 +54509,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.233e-19 + Total alkalinity (eq/kg) = 9.969e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.591e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.600e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -54411,9 +54607,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.093e-19 + Total alkalinity (eq/kg) = 1.654e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.536e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.555e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -54508,9 +54705,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.644e-18 + Total alkalinity (eq/kg) = 1.758e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.179e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.166e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -54603,9 +54801,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.132e-18 + Total alkalinity (eq/kg) = 2.182e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.923e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.928e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -54695,9 +54894,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.091e-18 + Total alkalinity (eq/kg) = 3.286e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.929e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.927e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -54787,8 +54987,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.514e-18 + Total alkalinity (eq/kg) = 3.503e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.022e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -54879,9 +55080,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.087e-18 + Total alkalinity (eq/kg) = 4.199e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.381e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.380e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -54971,8 +55173,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.550e-18 + Total alkalinity (eq/kg) = 4.598e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.758e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -55063,8 +55266,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.840e-18 + Total alkalinity (eq/kg) = 4.577e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.134e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -55155,9 +55359,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.809e-18 + Total alkalinity (eq/kg) = 4.199e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.484e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.486e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55247,9 +55452,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.105e-18 + Total alkalinity (eq/kg) = 3.554e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.785e-15 + Electrical balance (eq) = -2.787e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55339,9 +55544,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.066e-18 + Total alkalinity (eq/kg) = 3.076e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.014e-15 + Electrical balance (eq) = -3.016e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55431,7 +55636,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.448e-18 + Total alkalinity (eq/kg) = 2.708e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -3.160e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -55523,9 +55728,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.136e-18 + Total alkalinity (eq/kg) = 2.620e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.206e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.207e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55615,9 +55821,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.371e-18 + Total alkalinity (eq/kg) = 1.877e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.138e-15 + Electrical balance (eq) = -3.139e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55707,8 +55913,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.910e-18 + Total alkalinity (eq/kg) = 1.891e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.942e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -55799,9 +56006,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.708e-18 + Total alkalinity (eq/kg) = 1.809e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.611e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.612e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55891,9 +56099,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.432e-18 + Total alkalinity (eq/kg) = 1.798e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.158e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.161e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -55983,9 +56192,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.187e-18 + Total alkalinity (eq/kg) = 1.609e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.590e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.592e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -56075,8 +56285,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.777e-19 + Total alkalinity (eq/kg) = 1.191e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.047e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -56167,9 +56378,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.405e-19 + Total alkalinity (eq/kg) = 9.167e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.894e-16 + Electrical balance (eq) = -4.886e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56259,9 +56470,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.414e-19 + Total alkalinity (eq/kg) = 5.723e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.821e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.823e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56351,9 +56563,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -9.575e-20 + Total alkalinity (eq/kg) = 3.586e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.550e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.547e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56443,9 +56656,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.165e-19 + Total alkalinity (eq/kg) = 3.016e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.485e-16 + Electrical balance (eq) = -3.480e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56535,9 +56748,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.950e-20 + Total alkalinity (eq/kg) = 3.829e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.453e-16 + Electrical balance (eq) = -3.455e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56627,7 +56840,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.226e-19 + Total alkalinity (eq/kg) = 1.745e-19 Temperature (°C) = 25.00 Electrical balance (eq) = -3.445e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -56719,9 +56932,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.265e-19 + Total alkalinity (eq/kg) = 1.629e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.424e-16 + Electrical balance (eq) = -3.435e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -56811,9 +57024,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.765e-19 + Total alkalinity (eq/kg) = 1.043e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.419e-16 + Electrical balance (eq) = -3.438e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -57041,9 +57254,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.752e-19 + Total alkalinity (eq/kg) = -8.360e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.115e-15 + Electrical balance (eq) = 1.113e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -57138,7 +57351,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.785e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.248e-19 + Total alkalinity (eq/kg) = -1.528e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 1.918e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -57235,9 +57448,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.771e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.075e-19 + Total alkalinity (eq/kg) = -1.017e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.707e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.706e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -57332,8 +57546,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.748e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.447e-19 + Total alkalinity (eq/kg) = -1.359e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.837e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -57429,9 +57644,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.712e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.542e-19 + Total alkalinity (eq/kg) = -9.427e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.700e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.699e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -57526,9 +57742,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.655e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.937e-19 + Total alkalinity (eq/kg) = -8.555e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.233e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.234e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -57623,9 +57840,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.571e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.510e-19 + Total alkalinity (eq/kg) = -3.169e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.456e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.458e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -57720,9 +57938,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.458e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.215e-20 + Total alkalinity (eq/kg) = -1.249e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.752e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.754e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -57817,9 +58036,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.329e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.305e-19 + Total alkalinity (eq/kg) = 6.486e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.179e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.180e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -57914,9 +58134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.289e-19 + Total alkalinity (eq/kg) = 4.560e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.789e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.790e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -58011,8 +58232,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.497e-19 + Total alkalinity (eq/kg) = 2.594e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.611e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -58108,9 +58330,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.057e-19 + Total alkalinity (eq/kg) = 4.575e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.705e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.706e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -58205,9 +58428,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.001e-20 + Total alkalinity (eq/kg) = 5.345e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.065e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.066e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -58302,9 +58526,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.809e-19 + Total alkalinity (eq/kg) = 5.990e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.151e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.157e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -58399,9 +58624,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.163e-19 + Total alkalinity (eq/kg) = 1.110e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.625e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.628e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -58496,9 +58722,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.903e-18 + Total alkalinity (eq/kg) = 1.376e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.150e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.058e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -58591,9 +58818,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.438e-18 + Total alkalinity (eq/kg) = 2.649e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.842e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.848e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -58683,9 +58911,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.654e-18 + Total alkalinity (eq/kg) = 3.225e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.100e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.108e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -58775,8 +59004,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.331e-18 + Total alkalinity (eq/kg) = 4.181e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.044e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -58867,8 +59097,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.058e-18 + Total alkalinity (eq/kg) = 4.338e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.393e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -58959,8 +59190,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.643e-18 + Total alkalinity (eq/kg) = 4.645e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.752e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -59051,9 +59283,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.263e-18 + Total alkalinity (eq/kg) = 5.380e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.107e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.106e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59143,9 +59376,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.907e-18 + Total alkalinity (eq/kg) = 5.009e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.433e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.434e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59235,8 +59469,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.033e-18 + Total alkalinity (eq/kg) = 4.114e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.712e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -59327,8 +59562,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.048e-18 + Total alkalinity (eq/kg) = 4.031e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.925e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -59419,9 +59655,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.750e-18 + Total alkalinity (eq/kg) = 3.714e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.066e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.067e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59511,9 +59748,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.328e-18 + Total alkalinity (eq/kg) = 3.153e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.126e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.127e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59603,9 +59841,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.215e-18 + Total alkalinity (eq/kg) = 3.095e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.094e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.096e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59695,9 +59934,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.609e-18 + Total alkalinity (eq/kg) = 2.518e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.960e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.961e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59787,9 +60027,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.701e-18 + Total alkalinity (eq/kg) = 2.118e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.723e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.724e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -59879,8 +60120,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.434e-18 + Total alkalinity (eq/kg) = 1.828e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.400e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -59971,8 +60213,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.236e-18 + Total alkalinity (eq/kg) = 2.086e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.011e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -60063,8 +60306,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.540e-18 + Total alkalinity (eq/kg) = 1.808e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.592e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -60155,8 +60399,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.019e-18 + Total alkalinity (eq/kg) = 1.483e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.152e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -60247,9 +60492,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.926e-19 + Total alkalinity (eq/kg) = 1.382e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.742e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.730e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -60339,9 +60585,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.296e-19 + Total alkalinity (eq/kg) = 8.263e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.174e-16 + Electrical balance (eq) = -4.175e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -60431,9 +60677,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.852e-19 + Total alkalinity (eq/kg) = 9.945e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.593e-16 + Electrical balance (eq) = -3.604e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -60523,9 +60769,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.640e-19 + Total alkalinity (eq/kg) = 4.387e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.554e-16 + Electrical balance (eq) = -3.558e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 1.110124e+02 @@ -60615,9 +60861,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.793e-19 + Total alkalinity (eq/kg) = 4.965e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.768e-16 + Electrical balance (eq) = -3.758e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -60707,9 +60953,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.350e-20 + Total alkalinity (eq/kg) = 6.632e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.517e-16 + Electrical balance (eq) = -3.514e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -60937,7 +61183,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.729e-19 + Total alkalinity (eq/kg) = 5.406e-20 Temperature (°C) = 25.00 Electrical balance (eq) = 1.246e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -61034,8 +61280,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.788e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.540e-20 + Total alkalinity (eq/kg) = -5.391e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.083e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -61131,9 +61378,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.778e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.205e-19 + Total alkalinity (eq/kg) = -1.009e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.889e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.888e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -61228,8 +61476,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.760e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.942e-19 + Total alkalinity (eq/kg) = -1.499e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.986e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -61325,8 +61574,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.731e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.467e-19 + Total alkalinity (eq/kg) = -1.320e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.986e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -61422,9 +61672,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.687e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.355e-19 + Total alkalinity (eq/kg) = -1.322e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.527e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.529e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -61519,9 +61770,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.619e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.081e-18 + Total alkalinity (eq/kg) = -8.021e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.089e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.090e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -61616,9 +61868,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.519e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.930e-19 + Total alkalinity (eq/kg) = -6.166e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.066e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.067e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -61713,9 +61966,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.383e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.273e-19 + Total alkalinity (eq/kg) = -1.006e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.126e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.127e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -61810,9 +62064,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.236e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.794e-19 + Total alkalinity (eq/kg) = 2.072e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.419e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.421e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -61907,9 +62162,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.638e-20 + Total alkalinity (eq/kg) = 3.285e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.024e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.025e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -62004,8 +62260,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.108e-20 + Total alkalinity (eq/kg) = 2.342e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.877e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -62101,9 +62358,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.245e-19 + Total alkalinity (eq/kg) = -4.747e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.962e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.963e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -62198,9 +62456,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.333e-19 + Total alkalinity (eq/kg) = 5.150e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.265e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.266e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -62295,9 +62554,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.234e-19 + Total alkalinity (eq/kg) = 5.991e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.399e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.421e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -62392,9 +62652,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.713e-19 + Total alkalinity (eq/kg) = 7.473e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.253e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.276e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -62489,9 +62750,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.445e-18 + Total alkalinity (eq/kg) = 1.368e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.515e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.381e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110124e+02 @@ -62584,9 +62846,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.710e-18 + Total alkalinity (eq/kg) = 2.455e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.773e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.774e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -62676,9 +62939,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.551e-18 + Total alkalinity (eq/kg) = 3.532e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.144e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.154e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -62768,8 +63032,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.567e-18 + Total alkalinity (eq/kg) = 4.116e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.053e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -62860,9 +63125,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.457e-18 + Total alkalinity (eq/kg) = 4.856e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.396e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.397e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -62952,9 +63218,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.859e-18 + Total alkalinity (eq/kg) = 5.680e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.741e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.742e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63044,9 +63311,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.111e-18 + Total alkalinity (eq/kg) = 5.741e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.075e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.077e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63136,9 +63404,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.554e-18 + Total alkalinity (eq/kg) = 5.818e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.381e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.382e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63228,8 +63497,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.684e-18 + Total alkalinity (eq/kg) = 5.038e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.640e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -63320,8 +63590,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.529e-18 + Total alkalinity (eq/kg) = 4.782e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.838e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -63412,8 +63683,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.002e-18 + Total alkalinity (eq/kg) = 3.863e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.971e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -63504,9 +63776,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.112e-18 + Total alkalinity (eq/kg) = 3.851e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.036e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.037e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63596,8 +63869,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.723e-18 + Total alkalinity (eq/kg) = 3.518e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.026e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -63688,9 +63962,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.290e-18 + Total alkalinity (eq/kg) = 3.175e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.927e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.930e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63780,9 +64055,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.236e-18 + Total alkalinity (eq/kg) = 2.686e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.747e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.749e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63872,9 +64148,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.881e-18 + Total alkalinity (eq/kg) = 2.301e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.497e-15 + Electrical balance (eq) = -2.498e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -63964,8 +64240,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.462e-18 + Total alkalinity (eq/kg) = 1.804e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.195e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -64056,9 +64333,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.545e-18 + Total alkalinity (eq/kg) = 1.775e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.861e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.863e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64148,9 +64426,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.398e-18 + Total alkalinity (eq/kg) = 1.668e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.520e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.518e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64240,9 +64519,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.627e-19 + Total alkalinity (eq/kg) = 1.301e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.188e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.186e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64332,9 +64612,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.051e-19 + Total alkalinity (eq/kg) = 1.003e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.916e-16 + Electrical balance (eq) = -8.913e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64424,9 +64704,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.661e-19 + Total alkalinity (eq/kg) = 7.893e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.438e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.450e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64516,9 +64797,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.079e-19 + Total alkalinity (eq/kg) = 5.187e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.469e-16 + Electrical balance (eq) = -4.483e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64608,9 +64889,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.268e-19 + Total alkalinity (eq/kg) = 1.673e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.858e-16 + Electrical balance (eq) = -3.862e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64838,9 +65119,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.232e-21 + Total alkalinity (eq/kg) = -1.066e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.266e-15 + Electrical balance (eq) = 1.269e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -64935,9 +65216,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.571e-19 + Total alkalinity (eq/kg) = -1.727e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.231e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.232e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -65032,9 +65314,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.783e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.100e-19 + Total alkalinity (eq/kg) = -1.012e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.220e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.221e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -65129,9 +65412,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.769e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.738e-20 + Total alkalinity (eq/kg) = -7.581e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.294e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.293e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -65226,8 +65510,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.746e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.592e-19 + Total alkalinity (eq/kg) = -1.816e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.373e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -65323,9 +65608,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.711e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.994e-19 + Total alkalinity (eq/kg) = -6.869e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.901e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.900e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -65420,9 +65706,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.656e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.374e-19 + Total alkalinity (eq/kg) = -8.494e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.371e-15 + Electrical balance (eq) = 9.373e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -65517,9 +65803,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.575e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.906e-19 + Total alkalinity (eq/kg) = -4.463e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.634e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.635e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -65614,9 +65901,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.466e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.509e-19 + Total alkalinity (eq/kg) = -3.869e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.349e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.351e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -65711,9 +65999,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.337e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.488e-20 + Total alkalinity (eq/kg) = -2.303e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.006e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.008e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -65808,9 +66097,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.264e-19 + Total alkalinity (eq/kg) = 3.191e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.608e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.609e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -65905,9 +66195,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.330e-19 + Total alkalinity (eq/kg) = -3.888e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.275e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.277e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -66002,9 +66293,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.004e-19 + Total alkalinity (eq/kg) = 1.773e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.120e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.122e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -66099,9 +66391,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.849e-19 + Total alkalinity (eq/kg) = 2.572e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.180e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.183e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -66196,9 +66489,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.717e-19 + Total alkalinity (eq/kg) = 9.581e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.441e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.444e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -66293,9 +66587,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.954e-19 + Total alkalinity (eq/kg) = 6.886e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.624e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.638e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -66390,9 +66685,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.316e-19 + Total alkalinity (eq/kg) = 9.376e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.968e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.977e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66485,9 +66781,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.548e-18 + Total alkalinity (eq/kg) = 1.528e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.895e-18 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.423e-18 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66577,9 +66874,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.144e-18 + Total alkalinity (eq/kg) = 2.182e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.395e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.385e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66669,9 +66967,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.638e-18 + Total alkalinity (eq/kg) = 3.252e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.600e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.608e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66761,9 +67060,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.825e-18 + Total alkalinity (eq/kg) = 4.037e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.893e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.906e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66853,9 +67153,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.321e-18 + Total alkalinity (eq/kg) = 4.950e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.341e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.342e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -66945,8 +67246,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.336e-18 + Total alkalinity (eq/kg) = 6.143e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.700e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -67037,8 +67339,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.147e-18 + Total alkalinity (eq/kg) = 6.223e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.037e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -67129,9 +67432,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.017e-18 + Total alkalinity (eq/kg) = 6.589e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.332e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.331e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67221,9 +67525,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.959e-18 + Total alkalinity (eq/kg) = 5.876e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.570e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.571e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67313,9 +67618,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.157e-18 + Total alkalinity (eq/kg) = 5.737e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.755e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.754e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67405,8 +67711,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.014e-18 + Total alkalinity (eq/kg) = 4.678e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.881e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -67497,9 +67804,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.823e-18 + Total alkalinity (eq/kg) = 4.593e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.947e-15 + Electrical balance (eq) = -2.949e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67589,9 +67896,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.751e-18 + Total alkalinity (eq/kg) = 4.262e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.948e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.950e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67681,9 +67989,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.113e-18 + Total alkalinity (eq/kg) = 4.003e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.876e-15 + Electrical balance (eq) = -2.878e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67773,9 +68081,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.517e-18 + Total alkalinity (eq/kg) = 3.570e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.731e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.733e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67865,9 +68174,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.176e-18 + Total alkalinity (eq/kg) = 2.885e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.524e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.527e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -67957,9 +68267,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.637e-18 + Total alkalinity (eq/kg) = 2.570e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.275e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.274e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68049,9 +68360,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.774e-18 + Total alkalinity (eq/kg) = 2.174e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.999e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.997e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68141,9 +68453,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.102e-18 + Total alkalinity (eq/kg) = 1.433e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.711e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.709e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68233,9 +68546,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.255e-18 + Total alkalinity (eq/kg) = 1.475e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.418e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.417e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68325,9 +68639,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.296e-19 + Total alkalinity (eq/kg) = 4.107e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.111e-15 + Electrical balance (eq) = -1.110e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68417,9 +68731,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.786e-19 + Total alkalinity (eq/kg) = 1.055e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.127e-16 + Electrical balance (eq) = -8.135e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68509,9 +68823,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.986e-19 + Total alkalinity (eq/kg) = 9.826e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.492e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.479e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68739,9 +69054,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.653e-19 + Total alkalinity (eq/kg) = -1.428e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.236e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.237e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -68836,9 +69152,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.409e-19 + Total alkalinity (eq/kg) = -1.476e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.196e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.197e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -68933,9 +69250,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.787e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.619e-19 + Total alkalinity (eq/kg) = -1.415e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.155e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.153e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -69030,8 +69348,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.776e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.826e-19 + Total alkalinity (eq/kg) = -6.721e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.136e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -69127,9 +69446,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.758e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.121e-18 + Total alkalinity (eq/kg) = -8.537e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.409e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.410e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -69224,9 +69544,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.730e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.971e-19 + Total alkalinity (eq/kg) = -7.112e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.059e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.058e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -69321,8 +69642,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.687e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.777e-19 + Total alkalinity (eq/kg) = -5.250e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.520e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -69418,8 +69740,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.621e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.908e-19 + Total alkalinity (eq/kg) = -1.649e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.011e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -69515,8 +69838,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.523e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.952e-19 + Total alkalinity (eq/kg) = -5.036e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.035e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -69612,9 +69936,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.392e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.076e-19 + Total alkalinity (eq/kg) = -8.713e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.601e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.603e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -69709,9 +70034,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.253e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.445e-19 + Total alkalinity (eq/kg) = -9.195e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.035e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.038e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -69806,9 +70132,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.054e-19 + Total alkalinity (eq/kg) = -6.583e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.680e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.682e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -69903,9 +70230,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.404e-19 + Total alkalinity (eq/kg) = -3.259e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.438e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.441e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -70000,9 +70328,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.929e-19 + Total alkalinity (eq/kg) = 4.155e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.326e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.329e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -70097,9 +70426,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.618e-19 + Total alkalinity (eq/kg) = 2.949e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.381e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.383e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -70194,9 +70524,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.298e-19 + Total alkalinity (eq/kg) = 1.679e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.606e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.609e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -70291,9 +70622,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.231e-19 + Total alkalinity (eq/kg) = 1.167e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.844e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.876e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70388,9 +70720,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.784e-19 + Total alkalinity (eq/kg) = 1.386e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.806e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.830e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70483,9 +70816,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.430e-18 + Total alkalinity (eq/kg) = 2.004e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.201e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.324e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70575,9 +70909,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.710e-18 + Total alkalinity (eq/kg) = 2.821e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.005e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.008e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70667,9 +71002,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.726e-18 + Total alkalinity (eq/kg) = 3.748e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.335e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.349e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70759,9 +71095,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.921e-18 + Total alkalinity (eq/kg) = 4.358e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.673e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.680e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70851,9 +71188,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.651e-18 + Total alkalinity (eq/kg) = 5.061e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.314e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.315e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -70943,9 +71281,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.667e-18 + Total alkalinity (eq/kg) = 6.074e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.663e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.664e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71035,9 +71374,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.921e-18 + Total alkalinity (eq/kg) = 6.685e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.990e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.991e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71127,8 +71467,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.805e-18 + Total alkalinity (eq/kg) = 7.210e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.274e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -71219,9 +71560,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.990e-18 + Total alkalinity (eq/kg) = 6.995e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.503e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.504e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71311,9 +71653,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.184e-18 + Total alkalinity (eq/kg) = 6.610e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.675e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.676e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71403,8 +71746,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.600e-18 + Total alkalinity (eq/kg) = 6.220e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.795e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -71495,9 +71839,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.014e-18 + Total alkalinity (eq/kg) = 4.955e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.862e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.864e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71587,9 +71932,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.158e-18 + Total alkalinity (eq/kg) = 5.007e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.872e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.874e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71679,9 +72025,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.899e-18 + Total alkalinity (eq/kg) = 4.575e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.817e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.818e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71771,9 +72118,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.863e-18 + Total alkalinity (eq/kg) = 3.661e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.696e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.697e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -71863,8 +72211,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.518e-18 + Total alkalinity (eq/kg) = 3.645e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.522e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -71955,8 +72304,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.471e-18 + Total alkalinity (eq/kg) = 2.880e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.305e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -72047,9 +72397,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.292e-18 + Total alkalinity (eq/kg) = 2.133e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.061e-15 + Electrical balance (eq) = -2.059e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -72139,9 +72489,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.446e-18 + Total alkalinity (eq/kg) = 1.684e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.794e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.791e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -72231,8 +72582,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.484e-18 + Total alkalinity (eq/kg) = 1.465e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.501e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -72323,8 +72675,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.802e-19 + Total alkalinity (eq/kg) = 6.579e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.223e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -72415,9 +72768,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.013e-18 + Total alkalinity (eq/kg) = 1.356e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.058e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.056e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -72645,9 +72999,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.395e-18 + Total alkalinity (eq/kg) = -9.667e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.158e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.157e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -72742,9 +73097,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.961e-19 + Total alkalinity (eq/kg) = -1.471e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.064e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.065e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -72839,9 +73195,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.790e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.071e-19 + Total alkalinity (eq/kg) = -1.062e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.909e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.908e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -72936,8 +73293,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.781e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.632e-19 + Total alkalinity (eq/kg) = -6.891e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.708e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -73033,9 +73391,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.767e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.084e-18 + Total alkalinity (eq/kg) = -9.310e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.106e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.105e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -73130,9 +73489,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.745e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.820e-19 + Total alkalinity (eq/kg) = -7.912e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.967e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.965e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -73227,9 +73587,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.711e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.757e-19 + Total alkalinity (eq/kg) = 1.351e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.597e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.596e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -73324,8 +73685,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.657e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.720e-19 + Total alkalinity (eq/kg) = -2.964e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.015e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -73421,9 +73783,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.579e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.719e-19 + Total alkalinity (eq/kg) = -3.632e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.048e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.049e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -73518,9 +73881,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.473e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.605e-19 + Total alkalinity (eq/kg) = -6.492e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.507e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.508e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -73615,9 +73979,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.344e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.295e-19 + Total alkalinity (eq/kg) = -9.897e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.414e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.416e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -73712,9 +74077,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.203e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.573e-19 + Total alkalinity (eq/kg) = -8.349e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.149e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.151e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -73809,9 +74175,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.577e-19 + Total alkalinity (eq/kg) = -1.162e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.818e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.820e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -73906,9 +74273,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.485e-19 + Total alkalinity (eq/kg) = -2.329e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.586e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.587e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -74003,9 +74371,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.824e-19 + Total alkalinity (eq/kg) = 9.419e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.498e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.500e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -74100,9 +74469,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.281e-19 + Total alkalinity (eq/kg) = 1.660e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.571e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.573e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -74197,9 +74567,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.653e-19 + Total alkalinity (eq/kg) = 2.713e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.798e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.799e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -74294,9 +74665,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.489e-19 + Total alkalinity (eq/kg) = 1.311e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.154e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.156e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74389,9 +74761,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.865e-19 + Total alkalinity (eq/kg) = 1.539e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.095e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.110e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74481,9 +74854,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.401e-18 + Total alkalinity (eq/kg) = 1.961e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.439e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.453e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74573,8 +74947,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.765e-18 + Total alkalinity (eq/kg) = 3.063e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.555e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -74665,9 +75040,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.758e-18 + Total alkalinity (eq/kg) = 3.921e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.121e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.125e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74757,9 +75133,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.585e-18 + Total alkalinity (eq/kg) = 5.032e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.546e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.549e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74849,9 +75226,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.988e-18 + Total alkalinity (eq/kg) = 5.700e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.296e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.297e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -74941,8 +75319,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.924e-18 + Total alkalinity (eq/kg) = 5.824e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.633e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75033,9 +75412,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.395e-18 + Total alkalinity (eq/kg) = 6.465e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.945e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.946e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -75125,8 +75505,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.900e-18 + Total alkalinity (eq/kg) = 7.095e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.218e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75217,8 +75598,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.075e-18 + Total alkalinity (eq/kg) = 7.515e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.436e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75309,9 +75691,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.597e-18 + Total alkalinity (eq/kg) = 6.873e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.600e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.601e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -75401,8 +75784,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.616e-18 + Total alkalinity (eq/kg) = 6.414e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.715e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75493,8 +75877,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.259e-18 + Total alkalinity (eq/kg) = 5.834e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.784e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75585,8 +75970,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.850e-18 + Total alkalinity (eq/kg) = 5.795e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.800e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75677,9 +76063,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.260e-18 + Total alkalinity (eq/kg) = 4.965e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.758e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.757e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -75769,8 +76156,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.261e-18 + Total alkalinity (eq/kg) = 3.807e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.654e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -75861,9 +76249,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.068e-18 + Total alkalinity (eq/kg) = 3.249e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.500e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.501e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -75953,8 +76342,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.738e-18 + Total alkalinity (eq/kg) = 2.633e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.305e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -76045,8 +76435,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.593e-18 + Total alkalinity (eq/kg) = 2.137e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.075e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -76137,9 +76528,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.682e-18 + Total alkalinity (eq/kg) = 2.444e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.823e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.822e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -76229,8 +76621,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.254e-18 + Total alkalinity (eq/kg) = 2.046e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.586e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -76321,7 +76714,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.116e-18 + Total alkalinity (eq/kg) = 2.049e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -1.443e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -76551,8 +76944,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.333e-19 + Total alkalinity (eq/kg) = -4.623e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.053e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -76648,9 +77042,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.833e-19 + Total alkalinity (eq/kg) = -5.231e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.882e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.881e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -76745,8 +77140,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.792e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.110e-19 + Total alkalinity (eq/kg) = -1.211e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.568e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -76842,9 +77238,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.785e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.055e-19 + Total alkalinity (eq/kg) = -1.190e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.136e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.135e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -76939,9 +77336,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.774e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.249e-20 + Total alkalinity (eq/kg) = -1.214e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.596e-15 + Electrical balance (eq) = 7.595e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -77036,9 +77433,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.757e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.259e-18 + Total alkalinity (eq/kg) = -1.551e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.612e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.610e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -77133,9 +77531,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.730e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.975e-20 + Total alkalinity (eq/kg) = -4.630e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.363e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.360e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -77230,9 +77629,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.687e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.993e-19 + Total alkalinity (eq/kg) = 1.526e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.989e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.988e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -77327,9 +77727,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.623e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.406e-19 + Total alkalinity (eq/kg) = 1.237e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.074e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.075e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -77424,8 +77825,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.528e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.292e-19 + Total alkalinity (eq/kg) = -2.498e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.126e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -77521,9 +77923,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.401e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.052e-19 + Total alkalinity (eq/kg) = -5.922e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.725e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.726e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -77618,9 +78021,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.269e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.109e-18 + Total alkalinity (eq/kg) = -7.493e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.366e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.369e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -77715,9 +78119,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.600e-19 + Total alkalinity (eq/kg) = -8.837e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.120e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.121e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -77812,9 +78217,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.436e-20 + Total alkalinity (eq/kg) = -4.529e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.896e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.899e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -77909,9 +78315,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.939e-19 + Total alkalinity (eq/kg) = -3.978e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.723e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.726e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -78006,9 +78413,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.030e-19 + Total alkalinity (eq/kg) = -3.558e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.658e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.661e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -78103,9 +78511,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.046e-19 + Total alkalinity (eq/kg) = 7.210e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.732e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.733e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -78200,9 +78609,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.424e-19 + Total alkalinity (eq/kg) = 1.880e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.943e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.944e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78297,8 +78707,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.763e-19 + Total alkalinity (eq/kg) = 4.626e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.275e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -78392,9 +78803,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.585e-19 + Total alkalinity (eq/kg) = 1.656e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.054e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.074e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78484,9 +78896,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.540e-19 + Total alkalinity (eq/kg) = 2.004e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.184e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.192e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78576,9 +78989,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.878e-18 + Total alkalinity (eq/kg) = 2.856e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.054e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.048e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78668,9 +79082,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.845e-18 + Total alkalinity (eq/kg) = 4.197e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.836e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.832e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78760,9 +79175,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.522e-18 + Total alkalinity (eq/kg) = 5.088e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.374e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.382e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78852,9 +79268,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.127e-18 + Total alkalinity (eq/kg) = 5.508e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.278e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.279e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -78944,8 +79361,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.247e-18 + Total alkalinity (eq/kg) = 6.058e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.604e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -79036,8 +79454,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.863e-18 + Total alkalinity (eq/kg) = 6.834e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.904e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -79128,8 +79547,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.786e-18 + Total alkalinity (eq/kg) = 7.444e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.162e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -79220,9 +79640,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.269e-18 + Total alkalinity (eq/kg) = 7.372e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.373e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.372e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79312,8 +79733,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.798e-18 + Total alkalinity (eq/kg) = 7.339e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.529e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -79404,9 +79826,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.705e-18 + Total alkalinity (eq/kg) = 7.058e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.641e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.640e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79496,9 +79919,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.274e-18 + Total alkalinity (eq/kg) = 6.423e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.711e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.710e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79588,9 +80012,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.326e-18 + Total alkalinity (eq/kg) = 6.108e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.732e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.733e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79680,9 +80105,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.236e-18 + Total alkalinity (eq/kg) = 5.203e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.699e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.698e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79772,9 +80198,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.152e-18 + Total alkalinity (eq/kg) = 4.375e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.609e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.608e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79864,9 +80291,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.767e-18 + Total alkalinity (eq/kg) = 3.308e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.469e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.467e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -79956,7 +80384,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.409e-18 + Total alkalinity (eq/kg) = 3.174e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -2.287e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -80048,9 +80476,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.258e-18 + Total alkalinity (eq/kg) = 2.928e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.080e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.081e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80140,9 +80569,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.366e-18 + Total alkalinity (eq/kg) = 2.704e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.889e-15 + Electrical balance (eq) = -1.888e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80232,8 +80661,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.874e-18 + Total alkalinity (eq/kg) = 2.514e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.770e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -80462,9 +80892,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.870e-19 + Total alkalinity (eq/kg) = -1.234e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.407e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.385e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80559,9 +80990,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.187e-19 + Total alkalinity (eq/kg) = -1.029e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.679e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -80656,9 +81088,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.794e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.530e-19 + Total alkalinity (eq/kg) = -1.335e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.295e-15 + Electrical balance (eq) = 4.293e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80753,9 +81185,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.625e-19 + Total alkalinity (eq/kg) = -5.739e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.506e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.503e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80850,9 +81283,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.780e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.758e-19 + Total alkalinity (eq/kg) = -5.459e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.954e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.951e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -80947,9 +81381,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.766e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.075e-19 + Total alkalinity (eq/kg) = -1.150e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.063e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.062e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -81044,9 +81479,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.972e-19 + Total alkalinity (eq/kg) = -7.850e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.966e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.962e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -81141,9 +81577,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.710e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.018e-19 + Total alkalinity (eq/kg) = -7.608e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.738e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.736e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -81238,8 +81675,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.659e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.510e-19 + Total alkalinity (eq/kg) = -3.195e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.046e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -81335,8 +81773,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.583e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.720e-20 + Total alkalinity (eq/kg) = 6.125e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.102e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -81432,9 +81871,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.479e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.967e-20 + Total alkalinity (eq/kg) = 1.158e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.041e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.042e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -81529,9 +81969,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.349e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.416e-19 + Total alkalinity (eq/kg) = -8.529e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.541e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.542e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -81626,9 +82067,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.205e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.259e-19 + Total alkalinity (eq/kg) = -5.196e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.404e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.406e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -81723,9 +82165,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.930e-20 + Total alkalinity (eq/kg) = -8.302e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.172e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.174e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -81820,9 +82263,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.446e-19 + Total alkalinity (eq/kg) = -2.376e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.963e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.964e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -81917,9 +82361,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.196e-19 + Total alkalinity (eq/kg) = -3.879e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.829e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.832e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -82014,9 +82459,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.875e-19 + Total alkalinity (eq/kg) = 1.264e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.793e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.795e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -82111,9 +82557,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.861e-19 + Total alkalinity (eq/kg) = -1.159e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.872e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.873e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -82208,9 +82655,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.960e-19 + Total alkalinity (eq/kg) = 1.375e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.070e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.071e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82303,9 +82751,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.437e-18 + Total alkalinity (eq/kg) = 4.983e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.383e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.384e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82395,9 +82844,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.545e-18 + Total alkalinity (eq/kg) = 1.393e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.939e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.953e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82487,9 +82937,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.850e-18 + Total alkalinity (eq/kg) = 2.664e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.864e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.877e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82579,9 +83030,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.438e-18 + Total alkalinity (eq/kg) = 2.860e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.540e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.553e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82671,9 +83123,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.529e-18 + Total alkalinity (eq/kg) = 4.341e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.496e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.513e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82763,9 +83216,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.878e-18 + Total alkalinity (eq/kg) = 4.634e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.118e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.139e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82855,9 +83309,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.123e-18 + Total alkalinity (eq/kg) = 6.103e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.253e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.255e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -82947,9 +83402,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.315e-18 + Total alkalinity (eq/kg) = 6.767e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.572e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.573e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83039,9 +83495,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.119e-18 + Total alkalinity (eq/kg) = 6.934e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.861e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.862e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83131,9 +83588,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.552e-18 + Total alkalinity (eq/kg) = 7.462e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.112e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.110e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83223,9 +83681,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.948e-18 + Total alkalinity (eq/kg) = 7.599e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.313e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.311e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83315,8 +83774,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.810e-18 + Total alkalinity (eq/kg) = 7.795e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.464e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -83407,9 +83867,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.025e-18 + Total alkalinity (eq/kg) = 7.378e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.573e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.572e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83499,9 +83960,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.587e-18 + Total alkalinity (eq/kg) = 6.704e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.643e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.642e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83591,9 +84053,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.950e-18 + Total alkalinity (eq/kg) = 6.734e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.668e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.667e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83683,9 +84146,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.086e-18 + Total alkalinity (eq/kg) = 6.079e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.642e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.640e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83775,8 +84239,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.358e-18 + Total alkalinity (eq/kg) = 5.444e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.561e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -83867,9 +84332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.901e-18 + Total alkalinity (eq/kg) = 4.444e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.434e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.435e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -83959,8 +84425,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.797e-18 + Total alkalinity (eq/kg) = 3.617e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.279e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -84051,9 +84518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.397e-18 + Total alkalinity (eq/kg) = 3.294e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.129e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.130e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84143,9 +84611,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.744e-18 + Total alkalinity (eq/kg) = 2.978e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.037e-15 + Electrical balance (eq) = -2.036e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84373,9 +84841,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.395e-19 + Total alkalinity (eq/kg) = -6.755e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.668e-16 + Electrical balance (eq) = 8.654e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84470,9 +84938,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.183e-20 + Total alkalinity (eq/kg) = -9.372e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.601e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.598e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -84567,9 +85036,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.009e-19 + Total alkalinity (eq/kg) = -6.637e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.947e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.945e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84664,9 +85134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.014e-18 + Total alkalinity (eq/kg) = -7.228e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.159e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.157e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84761,9 +85232,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.784e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.035e-18 + Total alkalinity (eq/kg) = -5.318e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.493e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.492e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84858,9 +85330,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.774e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.275e-18 + Total alkalinity (eq/kg) = -2.620e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.532e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.529e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -84955,9 +85428,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.756e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.269e-18 + Total alkalinity (eq/kg) = -3.607e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.434e-15 + Electrical balance (eq) = 8.431e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -85052,9 +85525,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.729e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.822e-19 + Total alkalinity (eq/kg) = -6.509e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.247e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.243e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -85149,9 +85623,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.688e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.128e-18 + Total alkalinity (eq/kg) = -4.649e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.004e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.003e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -85246,8 +85721,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.625e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.983e-19 + Total alkalinity (eq/kg) = -2.262e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.099e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -85343,8 +85819,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.533e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.487e-20 + Total alkalinity (eq/kg) = -6.657e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.177e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -85440,8 +85917,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.410e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.969e-19 + Total alkalinity (eq/kg) = -4.073e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.055e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -85537,8 +86015,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.283e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.180e-19 + Total alkalinity (eq/kg) = -3.866e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.409e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -85634,9 +86113,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.109e-19 + Total alkalinity (eq/kg) = -6.231e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.307e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.310e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -85731,9 +86211,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.308e-20 + Total alkalinity (eq/kg) = -5.768e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.172e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.176e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -85828,9 +86309,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.995e-20 + Total alkalinity (eq/kg) = -3.588e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.030e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.033e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -85925,9 +86407,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.350e-19 + Total alkalinity (eq/kg) = -2.869e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.938e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.940e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -86022,9 +86505,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.646e-19 + Total alkalinity (eq/kg) = -2.071e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.943e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.946e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -86119,9 +86603,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.031e-20 + Total alkalinity (eq/kg) = 2.035e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.058e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.061e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -86216,9 +86701,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.390e-19 + Total alkalinity (eq/kg) = 3.518e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.267e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.269e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86311,8 +86797,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.050e-19 + Total alkalinity (eq/kg) = 7.922e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.553e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -86403,9 +86890,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.385e-18 + Total alkalinity (eq/kg) = 1.028e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.240e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.253e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86495,9 +86983,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.797e-18 + Total alkalinity (eq/kg) = 1.941e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.992e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.991e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86587,9 +87076,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.560e-18 + Total alkalinity (eq/kg) = 3.522e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.864e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.847e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86679,9 +87169,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.822e-18 + Total alkalinity (eq/kg) = 4.561e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.341e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.350e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86771,9 +87262,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.775e-18 + Total alkalinity (eq/kg) = 5.240e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.201e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.219e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -86863,8 +87355,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.260e-18 + Total alkalinity (eq/kg) = 6.432e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.193e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -86955,9 +87448,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.428e-18 + Total alkalinity (eq/kg) = 7.287e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.529e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.531e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87047,9 +87541,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.692e-18 + Total alkalinity (eq/kg) = 7.756e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.820e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.819e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87139,8 +87634,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.685e-18 + Total alkalinity (eq/kg) = 8.123e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.061e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -87231,8 +87727,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.965e-18 + Total alkalinity (eq/kg) = 8.278e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.255e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -87323,9 +87820,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.976e-18 + Total alkalinity (eq/kg) = 8.141e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.403e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.402e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87415,9 +87913,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.555e-18 + Total alkalinity (eq/kg) = 8.028e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.510e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.508e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87507,9 +88006,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.923e-18 + Total alkalinity (eq/kg) = 7.607e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.579e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.577e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87599,9 +88099,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.821e-18 + Total alkalinity (eq/kg) = 7.354e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.607e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.605e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87691,8 +88192,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.954e-18 + Total alkalinity (eq/kg) = 6.585e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.586e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -87783,9 +88285,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.663e-18 + Total alkalinity (eq/kg) = 5.673e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.520e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.518e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87875,9 +88378,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.500e-18 + Total alkalinity (eq/kg) = 4.782e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.417e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.416e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -87967,9 +88471,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.986e-18 + Total alkalinity (eq/kg) = 4.376e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.313e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.312e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88059,9 +88564,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.616e-18 + Total alkalinity (eq/kg) = 3.875e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.243e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.245e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88289,9 +88795,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.537e-20 + Total alkalinity (eq/kg) = -1.105e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.911e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.923e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88386,9 +88893,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.845e-19 + Total alkalinity (eq/kg) = -8.754e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.460e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.461e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -88483,9 +88991,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.204e-19 + Total alkalinity (eq/kg) = -9.822e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.508e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.505e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88580,9 +89089,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.342e-19 + Total alkalinity (eq/kg) = -1.162e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.676e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.673e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88677,9 +89187,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.788e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.711e-20 + Total alkalinity (eq/kg) = -8.049e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.956e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.950e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88774,9 +89285,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.779e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.153e-19 + Total alkalinity (eq/kg) = -8.277e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.980e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.977e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88871,9 +89383,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.359e-18 + Total alkalinity (eq/kg) = -2.920e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.891e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.886e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -88968,9 +89481,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.895e-19 + Total alkalinity (eq/kg) = 3.742e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.744e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.739e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -89065,9 +89579,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.711e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.894e-19 + Total alkalinity (eq/kg) = -7.945e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.582e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.579e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -89162,8 +89677,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.660e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.668e-19 + Total alkalinity (eq/kg) = -3.443e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.047e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -89259,8 +89775,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.586e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.585e-19 + Total alkalinity (eq/kg) = -5.825e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.129e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -89356,8 +89873,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.484e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.337e-19 + Total alkalinity (eq/kg) = -4.453e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.110e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -89453,8 +89971,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.354e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.431e-19 + Total alkalinity (eq/kg) = -6.427e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.064e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -89550,8 +90069,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.208e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.759e-19 + Total alkalinity (eq/kg) = -8.566e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.450e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -89647,9 +90167,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.173e-20 + Total alkalinity (eq/kg) = -8.262e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.320e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.322e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -89744,9 +90265,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.196e-19 + Total alkalinity (eq/kg) = -4.514e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.182e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.185e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -89841,9 +90363,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.679e-19 + Total alkalinity (eq/kg) = -2.532e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.079e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.083e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -89938,9 +90461,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.802e-19 + Total alkalinity (eq/kg) = -1.597e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.031e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.033e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -90035,9 +90559,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.238e-19 + Total alkalinity (eq/kg) = 1.130e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.058e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.060e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -90132,9 +90657,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.974e-19 + Total alkalinity (eq/kg) = -6.230e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.175e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.178e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90229,9 +90755,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.725e-20 + Total alkalinity (eq/kg) = 2.361e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.380e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.382e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -90324,9 +90851,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.272e-19 + Total alkalinity (eq/kg) = 5.305e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.664e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.667e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90416,9 +90944,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.326e-18 + Total alkalinity (eq/kg) = 4.704e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.037e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.038e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90508,9 +91037,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.730e-18 + Total alkalinity (eq/kg) = 1.640e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.017e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.020e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90600,9 +91130,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.453e-18 + Total alkalinity (eq/kg) = 2.964e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.202e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.133e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90692,8 +91223,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.213e-18 + Total alkalinity (eq/kg) = 4.039e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.724e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -90784,9 +91316,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.998e-18 + Total alkalinity (eq/kg) = 5.265e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.673e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.670e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -90876,8 +91409,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.743e-18 + Total alkalinity (eq/kg) = 6.729e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.141e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -90968,9 +91502,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.342e-18 + Total alkalinity (eq/kg) = 7.728e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.477e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.478e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91060,9 +91595,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.127e-18 + Total alkalinity (eq/kg) = 7.959e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.767e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.768e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91152,8 +91688,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.239e-18 + Total alkalinity (eq/kg) = 8.798e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.009e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -91244,9 +91781,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.970e-18 + Total alkalinity (eq/kg) = 8.398e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.201e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.200e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91336,8 +91874,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.274e-18 + Total alkalinity (eq/kg) = 8.657e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.345e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -91428,9 +91967,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.046e-18 + Total alkalinity (eq/kg) = 8.469e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.451e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.449e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91520,8 +92060,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.077e-18 + Total alkalinity (eq/kg) = 8.236e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.519e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -91612,9 +92153,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.427e-18 + Total alkalinity (eq/kg) = 7.773e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.552e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.551e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91704,8 +92246,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.867e-18 + Total alkalinity (eq/kg) = 7.111e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.540e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -91796,9 +92339,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.183e-18 + Total alkalinity (eq/kg) = 6.487e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.493e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.492e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91888,9 +92432,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.507e-18 + Total alkalinity (eq/kg) = 5.646e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.433e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.431e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -91980,9 +92525,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.917e-18 + Total alkalinity (eq/kg) = 5.247e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.496e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.495e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -92210,9 +92756,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.305e-19 + Total alkalinity (eq/kg) = -1.824e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.069e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.070e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92307,9 +92854,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.892e-19 + Total alkalinity (eq/kg) = -7.370e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.300e-15 + Electrical balance (eq) = 1.301e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -92404,8 +92951,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.507e-19 + Total alkalinity (eq/kg) = -1.664e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.059e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -92501,9 +93049,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.506e-19 + Total alkalinity (eq/kg) = -1.650e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.148e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.147e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92598,9 +93147,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.790e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.234e-19 + Total alkalinity (eq/kg) = -1.106e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.357e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.355e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92695,9 +93245,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.784e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.095e-19 + Total alkalinity (eq/kg) = -6.269e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.373e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.370e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92792,9 +93343,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.773e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.713e-19 + Total alkalinity (eq/kg) = -2.846e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.302e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.299e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92889,9 +93441,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.756e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.198e-18 + Total alkalinity (eq/kg) = -6.869e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.178e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.174e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -92986,9 +93539,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.729e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.835e-19 + Total alkalinity (eq/kg) = -3.261e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.016e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.012e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -93083,9 +93637,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.689e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.174e-19 + Total alkalinity (eq/kg) = -7.421e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.898e-15 + Electrical balance (eq) = 9.895e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -93180,9 +93734,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.628e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.907e-19 + Total alkalinity (eq/kg) = -4.644e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.099e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.098e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -93277,8 +93832,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.538e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.245e-20 + Total alkalinity (eq/kg) = -4.794e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.195e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -93374,8 +93930,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.419e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.445e-21 + Total alkalinity (eq/kg) = -3.105e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.108e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -93471,8 +94028,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.295e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.400e-20 + Total alkalinity (eq/kg) = -9.232e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.024e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -93568,8 +94126,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.981e-19 + Total alkalinity (eq/kg) = -5.712e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.334e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -93665,9 +94224,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.317e-19 + Total alkalinity (eq/kg) = -1.429e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.305e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.307e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -93762,9 +94322,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.496e-19 + Total alkalinity (eq/kg) = -7.527e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.215e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.216e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -93859,9 +94420,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.447e-19 + Total alkalinity (eq/kg) = -5.264e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.137e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.139e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -93956,9 +94518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.833e-19 + Total alkalinity (eq/kg) = 2.931e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.108e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.110e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -94053,9 +94616,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.371e-20 + Total alkalinity (eq/kg) = 5.493e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.150e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.153e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -94150,9 +94714,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.690e-19 + Total alkalinity (eq/kg) = 3.644e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.270e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.274e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94245,9 +94810,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.175e-19 + Total alkalinity (eq/kg) = 3.711e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.475e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.478e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94337,9 +94903,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.016e-18 + Total alkalinity (eq/kg) = 5.742e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.761e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.763e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94429,9 +94996,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.645e-19 + Total alkalinity (eq/kg) = 1.047e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.132e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.134e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94521,9 +95089,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.829e-18 + Total alkalinity (eq/kg) = 1.873e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.857e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.861e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94613,9 +95182,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.644e-18 + Total alkalinity (eq/kg) = 3.050e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.079e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.076e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94705,9 +95275,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.110e-18 + Total alkalinity (eq/kg) = 4.168e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.226e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.231e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94797,9 +95368,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.540e-18 + Total alkalinity (eq/kg) = 5.121e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.245e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.237e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -94889,8 +95461,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.774e-18 + Total alkalinity (eq/kg) = 6.386e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.095e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -94981,9 +95554,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.443e-18 + Total alkalinity (eq/kg) = 7.415e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.427e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.429e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -95073,9 +95647,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.795e-18 + Total alkalinity (eq/kg) = 8.256e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.715e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.718e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -95165,9 +95740,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.055e-18 + Total alkalinity (eq/kg) = 9.213e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.956e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.957e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -95257,8 +95833,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.548e-18 + Total alkalinity (eq/kg) = 9.396e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.146e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95349,9 +95926,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.707e-18 + Total alkalinity (eq/kg) = 9.245e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.292e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.290e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -95441,8 +96019,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.297e-18 + Total alkalinity (eq/kg) = 9.067e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.396e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95533,8 +96112,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.190e-18 + Total alkalinity (eq/kg) = 8.697e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.466e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95625,8 +96205,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.756e-18 + Total alkalinity (eq/kg) = 8.244e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.503e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95717,8 +96298,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.584e-18 + Total alkalinity (eq/kg) = 7.770e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.507e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95809,8 +96391,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.848e-18 + Total alkalinity (eq/kg) = 6.457e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.489e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -95901,8 +96484,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.266e-18 + Total alkalinity (eq/kg) = 6.762e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.138e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -96131,9 +96715,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.450e-19 + Total alkalinity (eq/kg) = -2.205e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.206e-16 + Electrical balance (eq) = 6.201e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96228,9 +96812,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.682e-19 + Total alkalinity (eq/kg) = 1.216e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.138e-15 + Electrical balance (eq) = 1.137e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -96325,8 +96909,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.563e-20 + Total alkalinity (eq/kg) = -1.514e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.633e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -96422,9 +97007,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.362e-20 + Total alkalinity (eq/kg) = -6.492e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.627e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.626e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96519,9 +97105,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.001e-20 + Total alkalinity (eq/kg) = -1.034e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.744e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.742e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96616,9 +97203,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.787e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.922e-19 + Total alkalinity (eq/kg) = -1.302e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.730e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.726e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96713,9 +97301,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.779e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.087e-18 + Total alkalinity (eq/kg) = -1.184e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.658e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.656e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96810,9 +97399,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.339e-18 + Total alkalinity (eq/kg) = 1.692e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.551e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.548e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -96907,9 +97497,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.941e-19 + Total alkalinity (eq/kg) = 4.105e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.424e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.420e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -97004,9 +97595,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.711e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.144e-19 + Total alkalinity (eq/kg) = -3.663e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.324e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.319e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -97101,9 +97693,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.662e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.613e-19 + Total alkalinity (eq/kg) = 3.894e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.031e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.030e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -97198,8 +97791,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.590e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.482e-20 + Total alkalinity (eq/kg) = -4.036e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.130e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -97295,8 +97889,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.489e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.759e-20 + Total alkalinity (eq/kg) = -3.322e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.142e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -97392,9 +97987,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.359e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.761e-19 + Total alkalinity (eq/kg) = -6.370e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.096e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.095e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -97489,9 +98085,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.212e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.568e-19 + Total alkalinity (eq/kg) = -1.187e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.016e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.017e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -97586,9 +98183,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.978e-20 + Total alkalinity (eq/kg) = -9.830e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.242e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.243e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -97683,9 +98281,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.530e-19 + Total alkalinity (eq/kg) = -1.101e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.249e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.250e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -97780,9 +98379,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.544e-19 + Total alkalinity (eq/kg) = -1.147e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.217e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.219e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -97877,9 +98477,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.374e-20 + Total alkalinity (eq/kg) = -8.636e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.181e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.184e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -97974,9 +98575,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.131e-19 + Total alkalinity (eq/kg) = -5.623e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.177e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.181e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -98071,9 +98673,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.954e-19 + Total alkalinity (eq/kg) = -1.923e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.231e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.235e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98168,9 +98771,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.489e-20 + Total alkalinity (eq/kg) = 7.570e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.358e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.361e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98263,9 +98867,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.274e-19 + Total alkalinity (eq/kg) = 6.207e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.564e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.567e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98355,9 +98960,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.135e-19 + Total alkalinity (eq/kg) = 8.930e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.850e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.852e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98447,9 +99053,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.082e-18 + Total alkalinity (eq/kg) = 1.595e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.217e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.218e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98539,9 +99146,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.498e-18 + Total alkalinity (eq/kg) = 1.886e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.583e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.603e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98631,9 +99239,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.769e-18 + Total alkalinity (eq/kg) = 2.952e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.664e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.674e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98723,9 +99332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.526e-18 + Total alkalinity (eq/kg) = 4.100e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.770e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.769e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98815,9 +99425,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.971e-18 + Total alkalinity (eq/kg) = 5.191e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.813e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.819e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98907,9 +99518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.035e-18 + Total alkalinity (eq/kg) = 6.628e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.051e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.052e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -98999,9 +99611,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.574e-18 + Total alkalinity (eq/kg) = 7.358e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.380e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.382e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99091,9 +99704,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.547e-18 + Total alkalinity (eq/kg) = 8.872e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.665e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.667e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99183,8 +99797,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.166e-18 + Total alkalinity (eq/kg) = 9.256e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.904e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -99275,9 +99890,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.650e-18 + Total alkalinity (eq/kg) = 9.361e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.095e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.094e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99367,8 +99983,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.294e-18 + Total alkalinity (eq/kg) = 9.996e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.239e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -99459,9 +100076,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.999e-18 + Total alkalinity (eq/kg) = 9.710e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.346e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.345e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99551,9 +100169,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.825e-18 + Total alkalinity (eq/kg) = 8.934e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.421e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.420e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99643,9 +100262,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.155e-18 + Total alkalinity (eq/kg) = 8.573e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.467e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.466e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99735,9 +100355,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.361e-18 + Total alkalinity (eq/kg) = 7.362e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.707e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.705e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -99827,9 +100448,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.889e-18 + Total alkalinity (eq/kg) = 7.776e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.463e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.460e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -100057,7 +100679,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.605e-19 + Total alkalinity (eq/kg) = -3.497e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 5.374e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -100154,9 +100776,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.971e-19 + Total alkalinity (eq/kg) = -1.538e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.808e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.820e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -100251,9 +100874,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.159e-19 + Total alkalinity (eq/kg) = -3.631e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.247e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.246e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100348,8 +100972,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.420e-19 + Total alkalinity (eq/kg) = -5.851e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.134e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -100445,9 +101070,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.794e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.990e-19 + Total alkalinity (eq/kg) = 5.735e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.149e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.147e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100542,9 +101168,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.790e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.819e-19 + Total alkalinity (eq/kg) = -3.813e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.082e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.081e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100639,9 +101266,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.783e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.048e-19 + Total alkalinity (eq/kg) = -2.067e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.993e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.990e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100736,9 +101364,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.047e-18 + Total alkalinity (eq/kg) = 6.379e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.892e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.887e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100833,9 +101462,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.133e-18 + Total alkalinity (eq/kg) = 4.230e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.776e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.771e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -100930,9 +101560,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.729e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.436e-19 + Total alkalinity (eq/kg) = 2.797e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.662e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.659e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -101027,9 +101658,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.690e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.432e-19 + Total alkalinity (eq/kg) = 3.293e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.624e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.622e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -101124,8 +101756,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.630e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.898e-19 + Total alkalinity (eq/kg) = -2.110e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.079e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -101221,8 +101854,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.543e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.295e-19 + Total alkalinity (eq/kg) = -3.969e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.186e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -101318,9 +101952,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.428e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.161e-20 + Total alkalinity (eq/kg) = -5.022e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.129e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.128e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -101415,8 +102050,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.305e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.337e-20 + Total alkalinity (eq/kg) = -7.549e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.069e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -101512,9 +102148,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.526e-19 + Total alkalinity (eq/kg) = -9.208e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.994e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.993e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -101609,8 +102246,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.439e-20 + Total alkalinity (eq/kg) = -9.935e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.153e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -101706,9 +102344,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.611e-19 + Total alkalinity (eq/kg) = -1.379e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.206e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.208e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -101803,9 +102442,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.293e-19 + Total alkalinity (eq/kg) = -7.240e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.213e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.216e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -101900,9 +102540,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.724e-19 + Total alkalinity (eq/kg) = -5.288e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.216e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.219e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -101997,9 +102638,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.050e-19 + Total alkalinity (eq/kg) = -7.847e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.249e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.253e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -102094,9 +102736,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.611e-19 + Total alkalinity (eq/kg) = -4.363e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.333e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.338e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102189,9 +102832,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.825e-19 + Total alkalinity (eq/kg) = -1.754e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.477e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.480e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102281,9 +102925,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.496e-19 + Total alkalinity (eq/kg) = 4.555e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.678e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.681e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102373,9 +103018,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.120e-19 + Total alkalinity (eq/kg) = 8.590e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.949e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.952e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102465,9 +103111,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.416e-18 + Total alkalinity (eq/kg) = 1.326e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.299e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.301e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102557,9 +103204,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.164e-18 + Total alkalinity (eq/kg) = 1.650e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.279e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.301e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102649,9 +103297,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.216e-18 + Total alkalinity (eq/kg) = 2.804e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.231e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.249e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102741,9 +103390,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.970e-18 + Total alkalinity (eq/kg) = 3.938e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.289e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.273e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102833,9 +103483,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.709e-18 + Total alkalinity (eq/kg) = 4.869e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.373e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.367e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -102925,8 +103576,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.938e-18 + Total alkalinity (eq/kg) = 6.239e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.006e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -103017,9 +103669,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.616e-18 + Total alkalinity (eq/kg) = 7.379e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.332e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.333e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -103109,8 +103762,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.431e-18 + Total alkalinity (eq/kg) = 8.987e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.608e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -103201,8 +103855,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.428e-18 + Total alkalinity (eq/kg) = 9.860e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.823e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -103293,8 +103948,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.810e-18 + Total alkalinity (eq/kg) = 1.046e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.984e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -103385,8 +104041,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.373e-18 + Total alkalinity (eq/kg) = 1.033e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.119e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -103477,9 +104134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.516e-18 + Total alkalinity (eq/kg) = 1.028e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.251e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.250e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -103569,9 +104227,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.433e-18 + Total alkalinity (eq/kg) = 1.024e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.383e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.382e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -103661,9 +104320,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.117e-18 + Total alkalinity (eq/kg) = 9.504e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.604e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.603e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -103753,9 +104413,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.751e-18 + Total alkalinity (eq/kg) = 8.859e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.020e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.019e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -103983,9 +104644,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.545e-19 + Total alkalinity (eq/kg) = 3.220e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.596e-16 + Electrical balance (eq) = 4.618e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104080,9 +104741,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.343e-19 + Total alkalinity (eq/kg) = 2.461e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.287e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.289e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104177,8 +104839,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.086e-19 + Total alkalinity (eq/kg) = -2.801e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.112e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -104274,9 +104937,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.065e-19 + Total alkalinity (eq/kg) = -4.641e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.799e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.800e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104371,8 +105035,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.244e-19 + Total alkalinity (eq/kg) = -7.617e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.590e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -104468,9 +105133,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.792e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.352e-19 + Total alkalinity (eq/kg) = -2.893e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.457e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.455e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104565,9 +105231,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.787e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.641e-19 + Total alkalinity (eq/kg) = -4.288e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.328e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.325e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104662,9 +105329,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.778e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.506e-18 + Total alkalinity (eq/kg) = -1.255e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.211e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.205e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104759,9 +105427,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.958e-19 + Total alkalinity (eq/kg) = -4.057e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.093e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.085e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104856,9 +105525,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.269e-18 + Total alkalinity (eq/kg) = 2.398e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.987e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.980e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -104953,9 +105623,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.712e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.294e-18 + Total alkalinity (eq/kg) = -1.115e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.936e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.932e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -105050,9 +105721,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.664e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.527e-19 + Total alkalinity (eq/kg) = -3.359e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.995e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.990e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -105147,8 +105819,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.593e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.446e-19 + Total alkalinity (eq/kg) = -4.230e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.111e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -105244,9 +105917,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.494e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.373e-20 + Total alkalinity (eq/kg) = -2.727e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.152e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.151e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -105341,9 +106015,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.364e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.011e-19 + Total alkalinity (eq/kg) = -9.905e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.120e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.119e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -105438,8 +106113,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.217e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.157e-19 + Total alkalinity (eq/kg) = -1.335e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.059e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -105535,8 +106211,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.657e-19 + Total alkalinity (eq/kg) = -9.763e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.868e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -105632,8 +106309,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.916e-19 + Total alkalinity (eq/kg) = -7.276e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.052e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -105729,9 +106407,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.164e-19 + Total alkalinity (eq/kg) = -9.799e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.153e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.155e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -105826,9 +106505,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.253e-19 + Total alkalinity (eq/kg) = -3.425e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.205e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.209e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -105923,9 +106603,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.152e-20 + Total alkalinity (eq/kg) = -4.484e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.244e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.248e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -106020,9 +106701,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.919e-19 + Total alkalinity (eq/kg) = -4.421e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.302e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.307e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106117,9 +106799,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.457e-19 + Total alkalinity (eq/kg) = -1.472e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.401e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.406e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106212,9 +106895,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.589e-19 + Total alkalinity (eq/kg) = -9.137e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.551e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.556e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106304,9 +106988,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.961e-19 + Total alkalinity (eq/kg) = 4.896e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.761e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.764e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106396,9 +107081,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.667e-19 + Total alkalinity (eq/kg) = 4.093e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.040e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.042e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106488,9 +107174,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.341e-18 + Total alkalinity (eq/kg) = 1.531e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.402e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.403e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106580,9 +107267,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.425e-18 + Total alkalinity (eq/kg) = 2.110e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.414e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.413e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106672,9 +107360,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.148e-18 + Total alkalinity (eq/kg) = 3.400e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.344e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.360e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106764,9 +107453,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.629e-18 + Total alkalinity (eq/kg) = 3.899e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.372e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.361e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106856,9 +107546,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.541e-18 + Total alkalinity (eq/kg) = 5.036e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.696e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.692e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -106948,9 +107639,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.074e-18 + Total alkalinity (eq/kg) = 6.065e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.507e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.514e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -107040,8 +107732,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.670e-18 + Total alkalinity (eq/kg) = 7.201e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.277e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -107132,9 +107825,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.279e-18 + Total alkalinity (eq/kg) = 8.220e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.542e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.543e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -107224,9 +107918,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.817e-18 + Total alkalinity (eq/kg) = 9.648e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.747e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.748e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -107316,8 +108011,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.278e-18 + Total alkalinity (eq/kg) = 1.048e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.905e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -107408,9 +108104,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.992e-18 + Total alkalinity (eq/kg) = 1.078e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.047e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.046e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -107500,8 +108197,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.198e-18 + Total alkalinity (eq/kg) = 1.076e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.199e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -107592,9 +108290,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.086e-18 + Total alkalinity (eq/kg) = 1.039e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.349e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.348e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -107684,9 +108383,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.097e-18 + Total alkalinity (eq/kg) = 9.919e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.485e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.484e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110124e+02 @@ -107914,9 +108614,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.823e-19 + Total alkalinity (eq/kg) = -2.456e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.900e-16 + Electrical balance (eq) = 4.909e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108011,9 +108711,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.891e-19 + Total alkalinity (eq/kg) = -3.689e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.287e-15 + Electrical balance (eq) = 1.288e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108108,9 +108808,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.681e-20 + Total alkalinity (eq/kg) = 2.219e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.078e-15 + Electrical balance (eq) = 2.080e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108205,9 +108905,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.618e-19 + Total alkalinity (eq/kg) = -1.456e-22 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.643e-15 + Electrical balance (eq) = 2.645e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108302,9 +109002,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.556e-19 + Total alkalinity (eq/kg) = -4.982e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.232e-15 + Electrical balance (eq) = 3.235e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108399,9 +109099,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.794e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.588e-20 + Total alkalinity (eq/kg) = -2.744e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.937e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.938e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108496,9 +109197,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.790e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.891e-19 + Total alkalinity (eq/kg) = -1.197e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.712e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.710e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108593,9 +109295,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.783e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.985e-19 + Total alkalinity (eq/kg) = -2.184e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.540e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.535e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108690,9 +109393,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.122e-18 + Total alkalinity (eq/kg) = -2.917e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.401e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.396e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108787,9 +109491,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.666e-18 + Total alkalinity (eq/kg) = -3.920e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.286e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.280e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108884,9 +109589,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.730e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.508e-18 + Total alkalinity (eq/kg) = -4.258e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.208e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.202e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -108981,9 +109687,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.691e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.963e-18 + Total alkalinity (eq/kg) = 3.037e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.226e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.220e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -109078,8 +109785,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.633e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.701e-19 + Total alkalinity (eq/kg) = -2.684e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.044e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -109175,9 +109883,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.548e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.492e-19 + Total alkalinity (eq/kg) = -3.443e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.158e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.157e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -109272,8 +109981,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.437e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.973e-19 + Total alkalinity (eq/kg) = -9.263e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.127e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -109369,9 +110079,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.314e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.003e-19 + Total alkalinity (eq/kg) = -1.073e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.092e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.091e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -109466,8 +110177,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.689e-19 + Total alkalinity (eq/kg) = -1.442e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.042e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -109563,9 +110275,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.896e-19 + Total alkalinity (eq/kg) = -1.726e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.759e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.758e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -109660,8 +110373,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.587e-19 + Total alkalinity (eq/kg) = -9.546e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.971e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -109757,9 +110471,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.369e-19 + Total alkalinity (eq/kg) = -7.813e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.103e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.104e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -109854,9 +110569,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.160e-21 + Total alkalinity (eq/kg) = -3.808e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.190e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.193e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -109951,9 +110667,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.985e-19 + Total alkalinity (eq/kg) = 3.853e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.261e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.263e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -110048,9 +110765,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.395e-19 + Total alkalinity (eq/kg) = -3.108e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.342e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.347e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110143,9 +110861,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.850e-19 + Total alkalinity (eq/kg) = -4.738e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.457e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.461e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110235,9 +110954,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.107e-19 + Total alkalinity (eq/kg) = -5.597e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.617e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.621e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110327,9 +111047,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.523e-19 + Total alkalinity (eq/kg) = 2.576e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.837e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.841e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110419,9 +111140,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.028e-18 + Total alkalinity (eq/kg) = 1.221e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.125e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.128e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110511,9 +111233,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.454e-18 + Total alkalinity (eq/kg) = 1.354e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.489e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.490e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110603,9 +111326,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.827e-18 + Total alkalinity (eq/kg) = 2.025e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.211e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.218e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110695,9 +111419,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.978e-18 + Total alkalinity (eq/kg) = 3.519e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.059e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.065e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110787,9 +111512,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.974e-18 + Total alkalinity (eq/kg) = 3.814e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.098e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.047e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110879,9 +111605,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.086e-18 + Total alkalinity (eq/kg) = 5.663e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.065e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.061e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -110971,9 +111698,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.182e-18 + Total alkalinity (eq/kg) = 6.654e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.892e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.895e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -111063,9 +111791,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.718e-18 + Total alkalinity (eq/kg) = 7.280e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.213e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.214e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -111155,9 +111884,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.703e-18 + Total alkalinity (eq/kg) = 8.395e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.476e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.478e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -111247,8 +111977,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.615e-18 + Total alkalinity (eq/kg) = 9.605e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.683e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -111339,8 +112070,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.316e-18 + Total alkalinity (eq/kg) = 1.029e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.845e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -111431,9 +112163,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.181e-18 + Total alkalinity (eq/kg) = 1.125e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.987e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.988e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -111523,8 +112256,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.405e-18 + Total alkalinity (eq/kg) = 1.140e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.116e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -111615,8 +112349,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.273e-18 + Total alkalinity (eq/kg) = 1.114e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.180e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -111845,9 +112580,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.529e-19 + Total alkalinity (eq/kg) = -1.758e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.860e-16 + Electrical balance (eq) = 4.876e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -111942,9 +112677,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.225e-19 + Total alkalinity (eq/kg) = -2.407e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.182e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.183e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112039,9 +112775,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.460e-19 + Total alkalinity (eq/kg) = -6.855e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.905e-15 + Electrical balance (eq) = 1.906e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112136,9 +112872,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.217e-19 + Total alkalinity (eq/kg) = -1.092e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.436e-15 + Electrical balance (eq) = 2.438e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112233,7 +112969,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.558e-19 + Total alkalinity (eq/kg) = 4.174e-19 Temperature (°C) = 25.00 Electrical balance (eq) = 2.955e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -112330,9 +113066,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.178e-20 + Total alkalinity (eq/kg) = -1.699e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.546e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.549e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112427,8 +113164,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.792e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.351e-19 + Total alkalinity (eq/kg) = 7.026e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.202e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -112524,9 +113262,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.601e-19 + Total alkalinity (eq/kg) = -1.284e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.937e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.934e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112621,9 +113360,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.778e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.909e-19 + Total alkalinity (eq/kg) = 3.355e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.736e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.732e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112718,9 +113458,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.764e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.280e-18 + Total alkalinity (eq/kg) = -1.814e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.584e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.579e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112815,9 +113556,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.455e-18 + Total alkalinity (eq/kg) = -4.671e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.484e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.479e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -112912,9 +113654,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.713e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.408e-18 + Total alkalinity (eq/kg) = -6.248e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.461e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.455e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -113009,9 +113752,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.666e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.463e-18 + Total alkalinity (eq/kg) = -5.317e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.565e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.560e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -113106,8 +113850,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.597e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.996e-19 + Total alkalinity (eq/kg) = 4.126e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.079e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -113203,8 +113948,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.499e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.951e-19 + Total alkalinity (eq/kg) = 8.465e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.144e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -113300,8 +114046,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.369e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.116e-19 + Total alkalinity (eq/kg) = -5.556e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.125e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -113397,8 +114144,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.225e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.355e-19 + Total alkalinity (eq/kg) = -1.005e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.083e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -113494,8 +114242,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.898e-19 + Total alkalinity (eq/kg) = -1.130e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.028e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -113591,9 +114340,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.678e-19 + Total alkalinity (eq/kg) = -9.437e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.631e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.630e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -113688,9 +114438,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.479e-19 + Total alkalinity (eq/kg) = -7.032e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.885e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.884e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -113785,9 +114536,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.366e-20 + Total alkalinity (eq/kg) = -6.543e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.054e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.055e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -113882,9 +114634,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.614e-20 + Total alkalinity (eq/kg) = -4.780e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.179e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.181e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -113979,9 +114732,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.154e-20 + Total alkalinity (eq/kg) = -4.086e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.293e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.295e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114076,9 +114830,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.343e-19 + Total alkalinity (eq/kg) = -9.879e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.417e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.420e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114171,9 +114926,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.861e-19 + Total alkalinity (eq/kg) = -7.925e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.557e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.561e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114263,9 +115019,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.254e-19 + Total alkalinity (eq/kg) = 4.857e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.720e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.725e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114355,9 +115112,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.943e-19 + Total alkalinity (eq/kg) = -2.022e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.930e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.934e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114447,9 +115205,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.141e-18 + Total alkalinity (eq/kg) = 4.295e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.207e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.212e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114539,9 +115298,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.118e-18 + Total alkalinity (eq/kg) = 1.443e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.563e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.566e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114631,9 +115391,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.118e-18 + Total alkalinity (eq/kg) = 2.196e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.873e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.887e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114723,9 +115484,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.133e-18 + Total alkalinity (eq/kg) = 3.358e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.651e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.654e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114815,9 +115577,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.276e-18 + Total alkalinity (eq/kg) = 4.606e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.400e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.221e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114907,9 +115670,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.570e-18 + Total alkalinity (eq/kg) = 5.136e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.463e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.453e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -114999,9 +115763,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.989e-18 + Total alkalinity (eq/kg) = 6.453e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.274e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.266e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -115091,8 +115856,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.481e-18 + Total alkalinity (eq/kg) = 7.893e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.151e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -115183,8 +115949,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.535e-18 + Total alkalinity (eq/kg) = 8.801e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.417e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -115275,8 +116042,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.872e-18 + Total alkalinity (eq/kg) = 1.015e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.624e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -115367,9 +116135,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.004e-18 + Total alkalinity (eq/kg) = 1.089e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.782e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.783e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -115459,9 +116228,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.691e-18 + Total alkalinity (eq/kg) = 1.175e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.898e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.897e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -115551,8 +116321,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.163e-18 + Total alkalinity (eq/kg) = 1.222e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.962e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -115781,9 +116552,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.030e-19 + Total alkalinity (eq/kg) = -5.579e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.559e-16 + Electrical balance (eq) = 4.548e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -115878,9 +116649,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.822e-19 + Total alkalinity (eq/kg) = -3.512e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.048e-15 + Electrical balance (eq) = 1.049e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -115975,7 +116746,7 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.837e-19 + Total alkalinity (eq/kg) = -1.094e-18 Temperature (°C) = 25.00 Electrical balance (eq) = 1.691e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -116072,9 +116843,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.071e-19 + Total alkalinity (eq/kg) = -4.195e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.187e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.186e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116169,8 +116941,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.075e-18 + Total alkalinity (eq/kg) = -2.804e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.670e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -116266,9 +117039,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.368e-19 + Total alkalinity (eq/kg) = -5.152e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.199e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.198e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116363,9 +117137,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.827e-19 + Total alkalinity (eq/kg) = -9.526e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.775e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.773e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116460,9 +117235,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.988e-19 + Total alkalinity (eq/kg) = 3.822e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.420e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.419e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116557,9 +117333,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.878e-20 + Total alkalinity (eq/kg) = -3.190e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.138e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.136e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116654,9 +117431,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.333e-19 + Total alkalinity (eq/kg) = 1.834e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.925e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.921e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116751,9 +117529,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.883e-19 + Total alkalinity (eq/kg) = 4.929e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.775e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.770e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116848,9 +117627,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.730e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.028e-18 + Total alkalinity (eq/kg) = -4.458e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.700e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.695e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -116945,9 +117725,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.692e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.715e-18 + Total alkalinity (eq/kg) = -2.188e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.748e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.741e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -117042,9 +117823,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.635e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.101e-18 + Total alkalinity (eq/kg) = -1.775e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.991e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.987e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -117139,9 +117921,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.553e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.677e-19 + Total alkalinity (eq/kg) = 3.994e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.119e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.118e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -117236,8 +118019,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.444e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.550e-19 + Total alkalinity (eq/kg) = -3.703e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.115e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -117333,8 +118117,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.321e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.367e-20 + Total alkalinity (eq/kg) = -4.109e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.101e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -117430,8 +118215,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.093e-19 + Total alkalinity (eq/kg) = -4.315e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.068e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -117527,8 +118313,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.176e-19 + Total alkalinity (eq/kg) = -1.141e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.016e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -117624,9 +118411,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.415e-19 + Total alkalinity (eq/kg) = -1.027e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.531e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.529e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -117721,9 +118509,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.464e-20 + Total alkalinity (eq/kg) = -7.085e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.804e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.803e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -117818,9 +118607,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.860e-19 + Total alkalinity (eq/kg) = -6.751e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.007e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.006e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -117915,9 +118705,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.598e-21 + Total alkalinity (eq/kg) = -2.953e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.166e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.167e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -118012,9 +118803,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.305e-19 + Total alkalinity (eq/kg) = -4.844e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.306e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.308e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118109,9 +118901,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.533e-19 + Total alkalinity (eq/kg) = -3.015e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.448e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.450e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -118204,9 +118997,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.744e-19 + Total alkalinity (eq/kg) = -4.665e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.602e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.605e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118296,9 +119090,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.885e-21 + Total alkalinity (eq/kg) = -2.487e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.781e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.785e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118388,9 +119183,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.855e-19 + Total alkalinity (eq/kg) = -1.850e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.003e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.007e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118480,9 +119276,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.025e-18 + Total alkalinity (eq/kg) = 1.994e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.285e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.289e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118572,9 +119369,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.032e-18 + Total alkalinity (eq/kg) = 1.121e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.635e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.637e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118664,9 +119462,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.529e-18 + Total alkalinity (eq/kg) = 2.248e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.050e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.052e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118756,9 +119555,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.392e-18 + Total alkalinity (eq/kg) = 3.783e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.200e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.220e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118848,9 +119648,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.360e-18 + Total alkalinity (eq/kg) = 4.895e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.103e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.250e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -118940,9 +119741,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.882e-18 + Total alkalinity (eq/kg) = 5.788e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.881e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.894e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119032,9 +119834,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.125e-18 + Total alkalinity (eq/kg) = 6.599e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.684e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.672e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119124,8 +119927,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.031e-18 + Total alkalinity (eq/kg) = 8.507e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.091e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -119216,9 +120020,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.977e-18 + Total alkalinity (eq/kg) = 9.306e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.355e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.354e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119308,8 +120113,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.322e-18 + Total alkalinity (eq/kg) = 1.039e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.557e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -119400,9 +120206,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.011e-18 + Total alkalinity (eq/kg) = 1.121e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.690e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.691e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119492,8 +120299,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.820e-18 + Total alkalinity (eq/kg) = 1.160e-17 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.757e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -119722,9 +120530,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.753e-19 + Total alkalinity (eq/kg) = -2.743e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.098e-16 + Electrical balance (eq) = 4.081e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119819,9 +120627,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.977e-19 + Total alkalinity (eq/kg) = -3.232e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.087e-16 + Electrical balance (eq) = 9.086e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -119916,9 +120724,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.243e-20 + Total alkalinity (eq/kg) = -4.253e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.472e-15 + Electrical balance (eq) = 1.470e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120013,9 +120821,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.654e-19 + Total alkalinity (eq/kg) = -2.095e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.926e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.927e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120110,9 +120919,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.641e-19 + Total alkalinity (eq/kg) = -2.301e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.374e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.375e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120207,9 +121017,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.888e-19 + Total alkalinity (eq/kg) = -5.089e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.861e-15 + Electrical balance (eq) = 2.859e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120304,9 +121114,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.381e-19 + Total alkalinity (eq/kg) = -2.681e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.384e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.383e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120401,9 +121212,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.169e-20 + Total alkalinity (eq/kg) = -2.070e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.963e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.962e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120498,8 +121310,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.320e-19 + Total alkalinity (eq/kg) = -2.616e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.605e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -120595,9 +121408,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.778e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.612e-19 + Total alkalinity (eq/kg) = -1.443e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.322e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.320e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120692,9 +121506,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.764e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.967e-19 + Total alkalinity (eq/kg) = -9.656e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.111e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.107e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120789,9 +121604,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.744e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.101e-19 + Total alkalinity (eq/kg) = -8.163e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.980e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.975e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120886,9 +121702,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.714e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.353e-19 + Total alkalinity (eq/kg) = -3.826e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.952e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.945e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -120983,9 +121800,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.668e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.198e-19 + Total alkalinity (eq/kg) = -6.194e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.077e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.070e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -121080,8 +121898,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.600e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.040e-18 + Total alkalinity (eq/kg) = -4.454e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.037e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -121177,8 +121996,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.503e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.507e-19 + Total alkalinity (eq/kg) = -3.846e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.122e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -121274,9 +122094,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.375e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.581e-19 + Total alkalinity (eq/kg) = -5.282e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.112e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.111e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -121371,8 +122192,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.234e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.917e-19 + Total alkalinity (eq/kg) = -9.900e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.090e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -121468,8 +122290,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.048e-20 + Total alkalinity (eq/kg) = -1.065e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.051e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -121565,8 +122388,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.621e-19 + Total alkalinity (eq/kg) = -1.044e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.003e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -121662,9 +122486,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.053e-19 + Total alkalinity (eq/kg) = -8.553e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.431e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.428e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -121759,9 +122584,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.524e-20 + Total alkalinity (eq/kg) = -5.528e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.731e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.729e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -121856,9 +122682,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.856e-19 + Total alkalinity (eq/kg) = -2.154e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.961e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.960e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -121953,8 +122780,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.460e-19 + Total alkalinity (eq/kg) = -5.846e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.146e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -122050,9 +122878,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.510e-19 + Total alkalinity (eq/kg) = -3.420e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.307e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.308e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122145,9 +122974,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.246e-19 + Total alkalinity (eq/kg) = -1.039e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.465e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.468e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122237,9 +123067,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.162e-19 + Total alkalinity (eq/kg) = -3.883e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.635e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.638e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122329,9 +123160,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.824e-19 + Total alkalinity (eq/kg) = -7.739e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.831e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.834e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122421,9 +123253,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.203e-18 + Total alkalinity (eq/kg) = -4.060e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.072e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.075e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122513,9 +123346,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.051e-18 + Total alkalinity (eq/kg) = 4.651e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.376e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.380e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122605,9 +123439,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.366e-18 + Total alkalinity (eq/kg) = 1.200e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.746e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.748e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122697,8 +123532,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.925e-18 + Total alkalinity (eq/kg) = 2.133e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.166e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -122789,9 +123625,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.753e-18 + Total alkalinity (eq/kg) = 3.012e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.199e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.225e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122881,9 +123718,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.111e-18 + Total alkalinity (eq/kg) = 4.078e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.184e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.200e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -122973,9 +123811,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.976e-18 + Total alkalinity (eq/kg) = 5.734e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.263e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.260e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123065,9 +123904,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.727e-18 + Total alkalinity (eq/kg) = 7.174e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.081e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.077e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123157,8 +123997,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.148e-18 + Total alkalinity (eq/kg) = 8.595e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.028e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -123249,9 +124090,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.335e-18 + Total alkalinity (eq/kg) = 8.721e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.286e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.285e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123341,8 +124183,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.980e-18 + Total alkalinity (eq/kg) = 9.764e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.471e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -123433,9 +124276,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.693e-18 + Total alkalinity (eq/kg) = 1.083e-17 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.570e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.569e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123663,9 +124507,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.892e-20 + Total alkalinity (eq/kg) = -1.393e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.562e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.563e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123760,9 +124605,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.554e-19 + Total alkalinity (eq/kg) = -3.103e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.751e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.762e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123857,9 +124703,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.444e-21 + Total alkalinity (eq/kg) = -3.476e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.261e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.262e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -123954,9 +124801,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.959e-20 + Total alkalinity (eq/kg) = -2.265e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.672e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.670e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124051,9 +124899,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.053e-19 + Total alkalinity (eq/kg) = -2.499e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.085e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.083e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124148,9 +124997,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.038e-19 + Total alkalinity (eq/kg) = -5.209e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.531e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.532e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124245,8 +125095,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.213e-19 + Total alkalinity (eq/kg) = -8.483e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.013e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -124342,9 +125193,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.696e-19 + Total alkalinity (eq/kg) = -5.659e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.537e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.538e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124439,9 +125291,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.731e-19 + Total alkalinity (eq/kg) = -4.093e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.127e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.126e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124536,9 +125389,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.831e-19 + Total alkalinity (eq/kg) = -7.530e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.777e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.774e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124633,9 +125487,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.681e-19 + Total alkalinity (eq/kg) = -6.214e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.500e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.498e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124730,9 +125585,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.755e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.220e-20 + Total alkalinity (eq/kg) = -7.924e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.303e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.300e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124827,9 +125683,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.731e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.426e-19 + Total alkalinity (eq/kg) = -5.644e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.203e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.199e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -124924,9 +125781,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.694e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.637e-19 + Total alkalinity (eq/kg) = 1.706e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.247e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.240e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -125021,9 +125879,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.638e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.085e-19 + Total alkalinity (eq/kg) = 8.427e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.492e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.488e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -125118,9 +125977,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.557e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.867e-19 + Total alkalinity (eq/kg) = -1.345e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.072e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.071e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -125215,8 +126075,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.451e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.240e-18 + Total alkalinity (eq/kg) = -2.436e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.085e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -125312,8 +126173,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.328e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.501e-19 + Total alkalinity (eq/kg) = -6.400e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.087e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -125409,8 +126271,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.202e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.945e-19 + Total alkalinity (eq/kg) = -7.248e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.072e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -125506,8 +126369,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.916e-19 + Total alkalinity (eq/kg) = -9.829e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.039e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -125603,9 +126467,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.730e-19 + Total alkalinity (eq/kg) = -1.036e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.917e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.914e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -125700,9 +126565,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.924e-19 + Total alkalinity (eq/kg) = -6.369e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.332e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.329e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -125797,9 +126663,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.580e-19 + Total alkalinity (eq/kg) = -5.838e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.658e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.656e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -125894,8 +126761,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.143e-19 + Total alkalinity (eq/kg) = -5.120e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.920e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -125991,9 +126859,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.504e-19 + Total alkalinity (eq/kg) = -9.872e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.147e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.149e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126088,9 +126957,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.612e-19 + Total alkalinity (eq/kg) = -7.720e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.356e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.357e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126183,9 +127053,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.337e-19 + Total alkalinity (eq/kg) = -1.301e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.544e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.546e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126275,9 +127146,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.225e-19 + Total alkalinity (eq/kg) = -1.376e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.717e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.720e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126367,9 +127239,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.808e-19 + Total alkalinity (eq/kg) = -6.062e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.906e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.909e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126459,9 +127332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.645e-18 + Total alkalinity (eq/kg) = -3.248e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.145e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.147e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126551,9 +127425,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.784e-18 + Total alkalinity (eq/kg) = 4.761e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.451e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.454e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126643,9 +127518,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.585e-18 + Total alkalinity (eq/kg) = 1.309e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.820e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.823e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126735,9 +127611,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.373e-18 + Total alkalinity (eq/kg) = 2.142e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.235e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.238e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126827,9 +127704,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.875e-18 + Total alkalinity (eq/kg) = 3.523e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.892e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.918e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -126919,9 +127797,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.852e-18 + Total alkalinity (eq/kg) = 4.710e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.876e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.892e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127011,9 +127890,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.167e-18 + Total alkalinity (eq/kg) = 6.298e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.579e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.581e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127103,9 +127983,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.437e-18 + Total alkalinity (eq/kg) = 7.074e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.419e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.412e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127195,9 +128076,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.619e-18 + Total alkalinity (eq/kg) = 8.347e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.551e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.555e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127287,8 +128169,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.284e-18 + Total alkalinity (eq/kg) = 9.479e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.185e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -127379,8 +128262,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.101e-18 + Total alkalinity (eq/kg) = 8.993e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.310e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -127609,9 +128493,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.807e-20 + Total alkalinity (eq/kg) = -5.223e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.056e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.061e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127706,9 +128591,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.026e-19 + Total alkalinity (eq/kg) = -1.145e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.541e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.543e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127803,9 +128689,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.239e-20 + Total alkalinity (eq/kg) = -8.712e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.069e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.068e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127900,9 +128787,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.514e-19 + Total alkalinity (eq/kg) = -4.850e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.432e-15 + Electrical balance (eq) = 1.431e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -127997,9 +128884,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.181e-19 + Total alkalinity (eq/kg) = 2.125e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.808e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.807e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128094,8 +128982,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.479e-19 + Total alkalinity (eq/kg) = -2.635e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.218e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -128191,8 +129080,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.699e-19 + Total alkalinity (eq/kg) = -9.796e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.660e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -128288,9 +129178,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.446e-19 + Total alkalinity (eq/kg) = -4.735e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.145e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.144e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128385,9 +129276,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.008e-19 + Total alkalinity (eq/kg) = -2.539e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.682e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.681e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128482,8 +129374,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.969e-19 + Total alkalinity (eq/kg) = 2.125e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.275e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -128579,9 +129472,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.777e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.761e-20 + Total alkalinity (eq/kg) = 6.697e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.936e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.934e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128676,9 +129570,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.764e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.833e-20 + Total alkalinity (eq/kg) = -3.116e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.679e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.675e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128773,9 +129668,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.745e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.906e-19 + Total alkalinity (eq/kg) = -3.008e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.507e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.502e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128870,9 +129766,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.715e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.609e-19 + Total alkalinity (eq/kg) = -9.415e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.455e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.449e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -128967,9 +129864,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.670e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.090e-18 + Total alkalinity (eq/kg) = -8.213e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.576e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.569e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -129064,9 +129962,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.603e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.043e-19 + Total alkalinity (eq/kg) = -2.398e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.917e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.912e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -129161,9 +130060,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.508e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.109e-18 + Total alkalinity (eq/kg) = -2.317e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.095e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.094e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -129258,9 +130158,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.381e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.228e-18 + Total alkalinity (eq/kg) = -2.124e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.098e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.097e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -129355,8 +130256,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.245e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.717e-19 + Total alkalinity (eq/kg) = -4.009e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.078e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -129452,8 +130354,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.770e-19 + Total alkalinity (eq/kg) = -5.461e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.057e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -129549,8 +130452,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.581e-19 + Total alkalinity (eq/kg) = -3.977e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.024e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -129646,9 +130550,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.255e-19 + Total alkalinity (eq/kg) = -7.650e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.798e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.794e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -129743,9 +130648,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.354e-20 + Total alkalinity (eq/kg) = -1.006e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.239e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.237e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -129840,9 +130746,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.495e-19 + Total alkalinity (eq/kg) = -6.598e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.592e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.589e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -129937,8 +130844,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.698e-19 + Total alkalinity (eq/kg) = -4.669e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.882e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -130034,8 +130942,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.553e-19 + Total alkalinity (eq/kg) = -1.064e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.131e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -130129,9 +131038,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.606e-19 + Total alkalinity (eq/kg) = -9.057e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.354e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.355e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130221,9 +131131,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.119e-19 + Total alkalinity (eq/kg) = -1.089e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.557e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.560e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130313,9 +131224,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.385e-19 + Total alkalinity (eq/kg) = -9.591e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.751e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.755e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130405,9 +131317,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.897e-19 + Total alkalinity (eq/kg) = -5.680e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.962e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.965e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130497,9 +131410,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.718e-19 + Total alkalinity (eq/kg) = -4.021e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.213e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.215e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130589,9 +131503,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.659e-18 + Total alkalinity (eq/kg) = 5.227e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.518e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.522e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130681,9 +131596,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.739e-18 + Total alkalinity (eq/kg) = 1.270e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.881e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.884e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130773,9 +131689,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.335e-18 + Total alkalinity (eq/kg) = 2.533e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.294e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.296e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130865,9 +131782,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.202e-18 + Total alkalinity (eq/kg) = 3.957e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.486e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.511e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -130957,9 +131875,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.697e-18 + Total alkalinity (eq/kg) = 4.872e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.500e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.516e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131049,9 +131968,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.248e-18 + Total alkalinity (eq/kg) = 6.391e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.911e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.902e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131141,9 +132061,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.797e-18 + Total alkalinity (eq/kg) = 7.550e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.621e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.606e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131233,9 +132154,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.163e-18 + Total alkalinity (eq/kg) = 7.823e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.376e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.369e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131325,9 +132247,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.106e-18 + Total alkalinity (eq/kg) = 8.115e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.883e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.867e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131555,9 +132478,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.668e-19 + Total alkalinity (eq/kg) = 1.156e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.583e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.603e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131652,9 +132576,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.440e-19 + Total alkalinity (eq/kg) = 5.243e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.470e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.474e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131749,9 +132674,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.319e-19 + Total alkalinity (eq/kg) = -5.875e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.993e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.989e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131846,9 +132772,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.693e-20 + Total alkalinity (eq/kg) = -1.255e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.218e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.216e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -131943,9 +132870,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.862e-19 + Total alkalinity (eq/kg) = -9.591e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.552e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.553e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132040,8 +132968,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.942e-19 + Total alkalinity (eq/kg) = -7.550e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.924e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -132137,9 +133066,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.407e-19 + Total alkalinity (eq/kg) = -4.755e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.328e-15 + Electrical balance (eq) = 2.330e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132234,8 +133163,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.055e-20 + Total alkalinity (eq/kg) = -6.894e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.774e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -132331,9 +133261,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -7.028e-20 + Total alkalinity (eq/kg) = -8.775e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.267e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.266e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132428,9 +133359,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.770e-19 + Total alkalinity (eq/kg) = -1.004e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.812e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.810e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132525,9 +133457,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.177e-19 + Total alkalinity (eq/kg) = -3.608e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.420e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.419e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132622,9 +133555,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.104e-19 + Total alkalinity (eq/kg) = 4.393e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.097e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.096e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132719,9 +133653,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.756e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.894e-19 + Total alkalinity (eq/kg) = 1.095e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.860e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.856e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132816,9 +133751,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.731e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.069e-19 + Total alkalinity (eq/kg) = -3.486e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.731e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.724e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -132913,9 +133849,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.695e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.250e-19 + Total alkalinity (eq/kg) = 2.698e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.759e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.751e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -133010,9 +133947,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.640e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.064e-18 + Total alkalinity (eq/kg) = -4.142e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.994e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.987e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -133107,8 +134045,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.281e-18 + Total alkalinity (eq/kg) = -3.053e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.024e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -133204,9 +134143,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.457e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.431e-18 + Total alkalinity (eq/kg) = -2.251e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.059e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.058e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -133301,8 +134241,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.333e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.077e-18 + Total alkalinity (eq/kg) = 5.050e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.069e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -133398,9 +134339,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.203e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.109e-18 + Total alkalinity (eq/kg) = -2.988e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.067e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.066e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -133495,8 +134437,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.448e-19 + Total alkalinity (eq/kg) = -1.879e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.046e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -133592,9 +134535,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.079e-18 + Total alkalinity (eq/kg) = -1.527e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.013e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.012e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -133689,9 +134633,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.886e-19 + Total alkalinity (eq/kg) = -5.658e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.686e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.683e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -133786,9 +134731,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.745e-19 + Total alkalinity (eq/kg) = -3.793e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.149e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.146e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -133883,9 +134829,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.643e-20 + Total alkalinity (eq/kg) = -6.202e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.526e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.523e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -133980,8 +134927,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.609e-20 + Total alkalinity (eq/kg) = -6.002e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.837e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -134077,8 +135025,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.576e-20 + Total alkalinity (eq/kg) = -7.442e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.104e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -134172,9 +135121,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.564e-20 + Total alkalinity (eq/kg) = -6.618e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.340e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.342e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134264,9 +135214,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.807e-19 + Total alkalinity (eq/kg) = -7.756e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.559e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.562e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134356,9 +135307,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.288e-19 + Total alkalinity (eq/kg) = -3.860e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.773e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.777e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134448,9 +135400,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.043e-19 + Total alkalinity (eq/kg) = -4.227e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.004e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.008e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134540,9 +135493,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.492e-19 + Total alkalinity (eq/kg) = -1.241e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.267e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.272e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134632,9 +135586,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.532e-18 + Total alkalinity (eq/kg) = 6.014e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.577e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.581e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134724,9 +135679,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.342e-18 + Total alkalinity (eq/kg) = 2.031e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.937e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.941e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134816,9 +135772,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.570e-18 + Total alkalinity (eq/kg) = 2.818e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.348e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.350e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -134908,9 +135865,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.402e-18 + Total alkalinity (eq/kg) = 4.038e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.051e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.079e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135000,9 +135958,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.748e-18 + Total alkalinity (eq/kg) = 5.462e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.149e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.172e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135092,9 +136051,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.409e-18 + Total alkalinity (eq/kg) = 6.134e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.054e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.032e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135184,9 +136144,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.808e-18 + Total alkalinity (eq/kg) = 7.003e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.253e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.230e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135276,9 +136237,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.103e-18 + Total alkalinity (eq/kg) = 7.201e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.023e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.003e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135506,9 +136468,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.984e-19 + Total alkalinity (eq/kg) = -9.313e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.183e-16 + Electrical balance (eq) = 2.207e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135603,9 +136565,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.359e-19 + Total alkalinity (eq/kg) = -5.372e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.557e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.579e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135700,9 +136663,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.839e-19 + Total alkalinity (eq/kg) = -6.657e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.513e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.525e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135797,9 +136761,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.565e-19 + Total alkalinity (eq/kg) = -5.723e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.026e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.027e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135894,9 +136859,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.344e-19 + Total alkalinity (eq/kg) = -9.710e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.322e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.323e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -135991,8 +136957,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.161e-19 + Total alkalinity (eq/kg) = -1.212e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.655e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -136088,9 +137055,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.955e-20 + Total alkalinity (eq/kg) = -5.898e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.022e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.023e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136185,9 +137153,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.995e-19 + Total alkalinity (eq/kg) = -7.213e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.428e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.429e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136282,8 +137251,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.945e-19 + Total alkalinity (eq/kg) = -2.849e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.879e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -136379,8 +137349,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.453e-19 + Total alkalinity (eq/kg) = -1.785e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.380e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -136476,9 +137447,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.949e-20 + Total alkalinity (eq/kg) = -3.959e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.937e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.938e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136573,9 +137545,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.777e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.029e-19 + Total alkalinity (eq/kg) = -8.958e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.561e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.560e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136670,9 +137643,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.089e-19 + Total alkalinity (eq/kg) = -5.772e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.262e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.260e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136767,9 +137741,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.745e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.582e-19 + Total alkalinity (eq/kg) = -5.426e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.058e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.054e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136864,9 +137839,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.716e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.754e-19 + Total alkalinity (eq/kg) = -2.329e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.978e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.973e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -136961,9 +137937,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.672e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.707e-19 + Total alkalinity (eq/kg) = 6.195e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.085e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.080e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -137058,9 +138035,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.606e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.720e-19 + Total alkalinity (eq/kg) = -1.212e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.445e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.439e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -137155,9 +138133,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.512e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.978e-19 + Total alkalinity (eq/kg) = -5.683e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.060e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.059e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -137252,9 +138231,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.387e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.182e-19 + Total alkalinity (eq/kg) = 9.844e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.059e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.058e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -137349,9 +138329,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.256e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.597e-19 + Total alkalinity (eq/kg) = -2.325e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.057e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.056e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 Total H = 1.110124e+02 @@ -137446,8 +138427,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.247e-19 + Total alkalinity (eq/kg) = -2.893e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.050e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -137543,8 +138525,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.853e-19 + Total alkalinity (eq/kg) = -4.262e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.032e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -137640,8 +138623,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.028e-18 + Total alkalinity (eq/kg) = -3.527e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.001e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -137737,9 +138721,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.353e-19 + Total alkalinity (eq/kg) = -4.727e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.583e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.582e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -137834,9 +138819,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.348e-19 + Total alkalinity (eq/kg) = -4.369e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.063e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.061e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -137931,9 +138917,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.216e-19 + Total alkalinity (eq/kg) = -8.651e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.467e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.465e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -138028,9 +139015,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.584e-21 + Total alkalinity (eq/kg) = -9.423e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.822e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.820e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138123,9 +139111,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.152e-19 + Total alkalinity (eq/kg) = -7.103e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.135e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.134e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138215,9 +139204,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.241e-19 + Total alkalinity (eq/kg) = -4.588e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.400e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.402e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138307,9 +139297,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.337e-20 + Total alkalinity (eq/kg) = -7.967e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.620e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.623e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138399,9 +139390,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.213e-19 + Total alkalinity (eq/kg) = -5.054e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.823e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.828e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138491,9 +139483,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.584e-19 + Total alkalinity (eq/kg) = -1.820e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.054e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.058e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138583,9 +139576,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.017e-18 + Total alkalinity (eq/kg) = 3.250e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.335e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.339e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138675,9 +139669,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.486e-18 + Total alkalinity (eq/kg) = 1.344e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.667e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.671e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138767,9 +139762,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.449e-18 + Total alkalinity (eq/kg) = 2.384e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.039e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.042e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138859,9 +139855,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.034e-18 + Total alkalinity (eq/kg) = 3.278e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.442e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.444e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -138951,9 +139948,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.991e-18 + Total alkalinity (eq/kg) = 4.647e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.886e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.895e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139043,9 +140041,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.052e-18 + Total alkalinity (eq/kg) = 5.862e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.086e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.110e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139135,9 +140134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.685e-18 + Total alkalinity (eq/kg) = 6.505e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.600e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.798e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139227,9 +140227,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.495e-18 + Total alkalinity (eq/kg) = 7.061e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.556e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.535e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139457,9 +140458,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.017e-19 + Total alkalinity (eq/kg) = -4.015e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.798e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.838e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139554,9 +140556,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.648e-19 + Total alkalinity (eq/kg) = -7.172e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.768e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.792e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139651,9 +140654,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.032e-19 + Total alkalinity (eq/kg) = -7.468e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.234e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.259e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139748,9 +140752,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.094e-18 + Total alkalinity (eq/kg) = -4.044e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.598e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.600e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -139845,8 +140850,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.595e-19 + Total alkalinity (eq/kg) = -1.003e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.119e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -139942,8 +140948,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.939e-19 + Total alkalinity (eq/kg) = -1.355e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.414e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -140039,9 +141046,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.495e-19 + Total alkalinity (eq/kg) = -1.644e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.742e-15 + Electrical balance (eq) = 1.743e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140136,8 +141143,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.132e-20 + Total alkalinity (eq/kg) = -1.074e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.110e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -140233,8 +141241,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.521e-19 + Total alkalinity (eq/kg) = -9.958e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.520e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -140330,9 +141339,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.053e-20 + Total alkalinity (eq/kg) = -4.827e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.979e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.981e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140427,9 +141437,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.969e-19 + Total alkalinity (eq/kg) = -6.944e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.493e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.494e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140524,9 +141535,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.149e-19 + Total alkalinity (eq/kg) = -4.298e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.066e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.065e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140621,9 +141633,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.529e-19 + Total alkalinity (eq/kg) = -5.621e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.705e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.706e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140718,9 +141731,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.756e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.999e-19 + Total alkalinity (eq/kg) = -1.046e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.435e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.432e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140815,9 +141829,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.732e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.235e-19 + Total alkalinity (eq/kg) = -1.105e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.277e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.273e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -140912,9 +141927,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.696e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.686e-19 + Total alkalinity (eq/kg) = 2.222e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.282e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.278e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -141009,9 +142025,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.643e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.841e-19 + Total alkalinity (eq/kg) = 1.371e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.488e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.484e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -141106,9 +142123,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.566e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.125e-18 + Total alkalinity (eq/kg) = 2.306e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.733e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.729e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -141203,9 +142221,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.463e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.370e-19 + Total alkalinity (eq/kg) = 1.235e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.012e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.011e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -141300,9 +142319,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.338e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.098e-19 + Total alkalinity (eq/kg) = -5.578e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.038e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.037e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -141397,9 +142417,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.204e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.228e-19 + Total alkalinity (eq/kg) = -2.952e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.047e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.046e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -141494,8 +142515,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.981e-19 + Total alkalinity (eq/kg) = 5.503e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.039e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -141591,9 +142613,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.010e-19 + Total alkalinity (eq/kg) = -2.912e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.020e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.019e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -141688,9 +142711,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.358e-19 + Total alkalinity (eq/kg) = -6.054e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.893e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.891e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -141785,9 +142809,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.437e-19 + Total alkalinity (eq/kg) = -3.481e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.485e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.483e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -141882,9 +142907,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.145e-19 + Total alkalinity (eq/kg) = -1.040e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.986e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.984e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -141979,9 +143005,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.255e-20 + Total alkalinity (eq/kg) = -6.384e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.413e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.412e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142076,9 +143103,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.960e-19 + Total alkalinity (eq/kg) = -9.719e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.785e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.784e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142171,8 +143199,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.073e-19 + Total alkalinity (eq/kg) = -1.013e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.109e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -142263,9 +143292,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.774e-19 + Total alkalinity (eq/kg) = -1.105e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.388e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.389e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142355,9 +143385,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.166e-19 + Total alkalinity (eq/kg) = -7.123e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.628e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.630e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142447,9 +143478,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.607e-19 + Total alkalinity (eq/kg) = -5.323e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.856e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.860e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142539,9 +143571,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.639e-19 + Total alkalinity (eq/kg) = -1.146e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.104e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.109e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142631,9 +143664,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.542e-19 + Total alkalinity (eq/kg) = 7.417e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.393e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.397e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142723,9 +143757,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.641e-18 + Total alkalinity (eq/kg) = 1.260e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.727e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.732e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142815,9 +143850,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.401e-18 + Total alkalinity (eq/kg) = 2.244e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.101e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.105e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142907,9 +143943,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.843e-18 + Total alkalinity (eq/kg) = 3.379e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.515e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.517e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -142999,9 +144036,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.756e-18 + Total alkalinity (eq/kg) = 4.433e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.906e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.933e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143091,9 +144129,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.222e-18 + Total alkalinity (eq/kg) = 5.373e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.823e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.839e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143183,9 +144222,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.451e-18 + Total alkalinity (eq/kg) = 5.672e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.525e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.559e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143413,9 +144453,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.244e-19 + Total alkalinity (eq/kg) = -3.676e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.520e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.525e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143510,9 +144551,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.202e-19 + Total alkalinity (eq/kg) = -5.471e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.095e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.121e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143607,9 +144649,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.842e-19 + Total alkalinity (eq/kg) = -2.820e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.143e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.166e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143704,9 +144747,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.071e-19 + Total alkalinity (eq/kg) = -2.006e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.153e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.166e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143801,9 +144845,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.317e-18 + Total alkalinity (eq/kg) = -8.399e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.392e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.401e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143898,9 +144943,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.633e-19 + Total alkalinity (eq/kg) = -8.447e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.200e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.199e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -143995,8 +145041,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.694e-19 + Total alkalinity (eq/kg) = -1.993e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.492e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144092,8 +145139,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.075e-19 + Total alkalinity (eq/kg) = -1.932e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.823e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144189,8 +145237,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.928e-20 + Total alkalinity (eq/kg) = -1.554e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.195e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144286,8 +145335,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.794e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.960e-19 + Total alkalinity (eq/kg) = -1.669e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.612e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144383,8 +145433,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.320e-19 + Total alkalinity (eq/kg) = -9.396e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.080e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144480,8 +145531,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -5.390e-19 + Total alkalinity (eq/kg) = -9.507e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.605e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144577,8 +145629,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.777e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.635e-19 + Total alkalinity (eq/kg) = -3.244e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.193e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -144674,9 +145727,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.676e-19 + Total alkalinity (eq/kg) = -7.173e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.863e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.861e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -144771,9 +145825,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.746e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.527e-19 + Total alkalinity (eq/kg) = -2.882e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.627e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.623e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -144868,9 +145923,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.717e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.196e-19 + Total alkalinity (eq/kg) = 2.597e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.518e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.513e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -144965,9 +146021,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.673e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.594e-19 + Total alkalinity (eq/kg) = -1.560e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.600e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.593e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -145062,9 +146119,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.609e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.095e-18 + Total alkalinity (eq/kg) = 5.359e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.954e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.950e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -145159,9 +146217,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.517e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.193e-18 + Total alkalinity (eq/kg) = 1.748e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.020e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.019e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -145256,8 +146315,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.394e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.176e-19 + Total alkalinity (eq/kg) = 1.767e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.022e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -145353,8 +146413,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.267e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.497e-19 + Total alkalinity (eq/kg) = 1.120e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.029e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -145450,8 +146511,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.800e-19 + Total alkalinity (eq/kg) = 1.245e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.033e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -145547,8 +146609,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.435e-20 + Total alkalinity (eq/kg) = -1.413e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.026e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -145644,8 +146707,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.158e-19 + Total alkalinity (eq/kg) = 2.650e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.008e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -145741,9 +146805,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.578e-19 + Total alkalinity (eq/kg) = 5.220e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.786e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.783e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -145838,9 +146903,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.977e-19 + Total alkalinity (eq/kg) = -1.529e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.390e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.389e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -145935,9 +147001,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.248e-19 + Total alkalinity (eq/kg) = -4.369e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.908e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.906e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -146032,8 +147099,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.100e-19 + Total alkalinity (eq/kg) = -8.961e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.352e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -146127,9 +147195,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.873e-20 + Total alkalinity (eq/kg) = -7.478e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.736e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.737e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146219,9 +147288,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.849e-20 + Total alkalinity (eq/kg) = -1.489e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.070e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.071e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146311,9 +147381,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.766e-19 + Total alkalinity (eq/kg) = -1.507e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.362e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.363e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146403,9 +147474,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.223e-20 + Total alkalinity (eq/kg) = -9.544e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.624e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.626e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146495,9 +147567,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.014e-19 + Total alkalinity (eq/kg) = -1.447e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.876e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.880e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146587,9 +147660,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.173e-19 + Total alkalinity (eq/kg) = 4.159e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.143e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.148e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146679,9 +147753,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.267e-19 + Total alkalinity (eq/kg) = 6.651e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.441e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.446e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146771,9 +147846,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.200e-18 + Total alkalinity (eq/kg) = 1.434e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.779e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.784e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146863,9 +147939,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.495e-18 + Total alkalinity (eq/kg) = 2.165e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.164e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.167e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -146955,9 +148032,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.702e-18 + Total alkalinity (eq/kg) = 3.069e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.611e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.614e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147047,9 +148125,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.856e-18 + Total alkalinity (eq/kg) = 4.344e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.172e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.176e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147139,9 +148218,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.157e-18 + Total alkalinity (eq/kg) = 4.810e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.241e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.272e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147369,9 +148449,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.473e-19 + Total alkalinity (eq/kg) = -2.522e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.258e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.267e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147466,9 +148547,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.244e-20 + Total alkalinity (eq/kg) = -8.012e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.559e-16 + Electrical balance (eq) = 2.567e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147563,9 +148644,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.177e-19 + Total alkalinity (eq/kg) = -2.953e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.253e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.248e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147660,9 +148742,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.062e-18 + Total alkalinity (eq/kg) = -6.609e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.944e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.948e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147757,9 +148840,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.009e-18 + Total alkalinity (eq/kg) = -8.237e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.867e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.874e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147854,9 +148938,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.658e-19 + Total alkalinity (eq/kg) = -8.722e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.011e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.012e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -147951,8 +149036,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.174e-19 + Total alkalinity (eq/kg) = -1.647e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.270e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -148048,9 +149134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.929e-19 + Total alkalinity (eq/kg) = -2.028e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.564e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.563e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148145,9 +149232,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.451e-20 + Total alkalinity (eq/kg) = -1.963e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.899e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.897e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148242,9 +149330,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.044e-18 + Total alkalinity (eq/kg) = -1.717e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.275e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.276e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148339,9 +149428,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.902e-19 + Total alkalinity (eq/kg) = -1.694e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.701e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.702e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148436,8 +149526,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.789e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.596e-20 + Total alkalinity (eq/kg) = -1.869e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.181e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -148533,8 +149624,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.407e-19 + Total alkalinity (eq/kg) = -1.986e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.721e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -148630,9 +149722,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.186e-19 + Total alkalinity (eq/kg) = -1.167e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.335e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.331e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148727,9 +149820,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.756e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.350e-19 + Total alkalinity (eq/kg) = -1.631e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.030e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.028e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148824,9 +149918,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.733e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.057e-19 + Total alkalinity (eq/kg) = 2.840e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.841e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.838e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -148921,9 +150016,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.698e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.217e-19 + Total alkalinity (eq/kg) = 5.682e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.818e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.812e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -149018,9 +150114,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.645e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.595e-18 + Total alkalinity (eq/kg) = 1.485e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.997e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.989e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -149115,9 +150212,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.570e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.675e-19 + Total alkalinity (eq/kg) = 2.677e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.218e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.212e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -149212,9 +150310,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.468e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.638e-19 + Total alkalinity (eq/kg) = -8.125e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.659e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.655e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -149309,9 +150408,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.343e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.445e-18 + Total alkalinity (eq/kg) = 2.443e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.004e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.003e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -149406,9 +150506,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.206e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.387e-19 + Total alkalinity (eq/kg) = 3.822e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.024e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.023e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -149503,8 +150604,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.539e-19 + Total alkalinity (eq/kg) = -5.618e-20 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.024e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -149600,8 +150702,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.970e-22 + Total alkalinity (eq/kg) = -7.413e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.015e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -149697,9 +150800,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.264e-19 + Total alkalinity (eq/kg) = -4.971e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.966e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.964e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -149794,9 +150898,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.225e-18 + Total alkalinity (eq/kg) = 9.886e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.681e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.679e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -149891,9 +150996,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.492e-19 + Total alkalinity (eq/kg) = -1.723e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.302e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.300e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -149988,9 +151094,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.291e-19 + Total alkalinity (eq/kg) = -6.551e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.843e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.841e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150085,8 +151192,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.761e-20 + Total alkalinity (eq/kg) = -9.988e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.324e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -150180,8 +151288,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.525e-19 + Total alkalinity (eq/kg) = -1.194e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.753e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -150272,8 +151381,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.180e-19 + Total alkalinity (eq/kg) = -1.404e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.116e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -150364,9 +151474,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.735e-20 + Total alkalinity (eq/kg) = -9.232e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.406e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.407e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150456,9 +151567,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.074e-19 + Total alkalinity (eq/kg) = -7.083e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.654e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.657e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150548,9 +151660,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.965e-19 + Total alkalinity (eq/kg) = -2.700e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.912e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.915e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150640,9 +151753,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.897e-19 + Total alkalinity (eq/kg) = 5.068e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.208e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.213e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150732,9 +151846,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.534e-19 + Total alkalinity (eq/kg) = 7.843e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.547e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.550e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150824,9 +151939,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.641e-18 + Total alkalinity (eq/kg) = 1.870e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.914e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.919e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -150916,9 +152032,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.205e-18 + Total alkalinity (eq/kg) = 2.460e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.320e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.324e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151008,9 +152125,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.048e-18 + Total alkalinity (eq/kg) = 3.009e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.831e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.836e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151100,9 +152218,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.143e-18 + Total alkalinity (eq/kg) = 3.348e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.549e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.554e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151330,9 +152449,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.656e-19 + Total alkalinity (eq/kg) = -3.965e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.053e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.051e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151427,9 +152547,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.091e-19 + Total alkalinity (eq/kg) = -2.773e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.099e-16 + Electrical balance (eq) = 2.109e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151524,9 +152644,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.050e-18 + Total alkalinity (eq/kg) = -6.962e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.501e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.507e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151621,9 +152742,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.430e-18 + Total alkalinity (eq/kg) = -5.424e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.909e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.915e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151718,9 +152840,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.443e-18 + Total alkalinity (eq/kg) = 6.988e-21 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.549e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.564e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151815,9 +152938,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.839e-19 + Total alkalinity (eq/kg) = -1.576e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.487e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.494e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -151912,9 +153036,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.598e-19 + Total alkalinity (eq/kg) = -1.235e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.074e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.075e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152009,9 +153134,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.822e-19 + Total alkalinity (eq/kg) = -2.007e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.333e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.335e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152106,8 +153232,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.819e-19 + Total alkalinity (eq/kg) = -2.000e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.632e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -152203,8 +153330,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.796e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.610e-20 + Total alkalinity (eq/kg) = -1.649e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.972e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -152300,8 +153428,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.794e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.344e-19 + Total alkalinity (eq/kg) = -1.905e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.356e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -152397,9 +153526,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.791e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.015e-19 + Total alkalinity (eq/kg) = -1.135e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.793e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.792e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152494,9 +153624,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.786e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.171e-19 + Total alkalinity (eq/kg) = -1.174e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.286e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.288e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152591,9 +153722,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.777e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.248e-19 + Total alkalinity (eq/kg) = -1.099e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.843e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.844e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152688,8 +153820,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.765e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.101e-19 + Total alkalinity (eq/kg) = -9.121e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.479e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -152785,8 +153918,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.746e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.898e-19 + Total alkalinity (eq/kg) = -3.813e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.213e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -152882,9 +154016,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.718e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.990e-19 + Total alkalinity (eq/kg) = 1.320e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.075e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.072e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -152979,9 +154114,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.675e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.460e-19 + Total alkalinity (eq/kg) = -1.187e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.126e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.122e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -153076,9 +154212,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.612e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.398e-19 + Total alkalinity (eq/kg) = -1.130e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.477e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.471e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -153173,9 +154310,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.521e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.377e-18 + Total alkalinity (eq/kg) = 7.531e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.793e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.789e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -153270,9 +154408,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.402e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.450e-18 + Total alkalinity (eq/kg) = -3.146e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.839e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.837e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -153367,8 +154506,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.278e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.265e-18 + Total alkalinity (eq/kg) = -5.327e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.017e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -153464,8 +154604,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.069e-18 + Total alkalinity (eq/kg) = -7.691e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.008e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -153561,8 +154702,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.429e-19 + Total alkalinity (eq/kg) = -4.798e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.012e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -153658,9 +154800,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.176e-20 + Total alkalinity (eq/kg) = -5.433e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.005e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.004e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -153755,9 +154898,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.800e-19 + Total alkalinity (eq/kg) = -5.940e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.864e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.861e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -153852,9 +154996,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.923e-19 + Total alkalinity (eq/kg) = -3.006e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.586e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.583e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -153949,9 +155094,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.338e-19 + Total alkalinity (eq/kg) = -1.143e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.220e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.218e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -154046,9 +155192,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.442e-19 + Total alkalinity (eq/kg) = -2.318e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.780e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.777e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154143,9 +155290,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.313e-19 + Total alkalinity (eq/kg) = -6.674e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.275e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.273e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -154238,8 +155386,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.307e-19 + Total alkalinity (eq/kg) = -8.890e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.711e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -154330,9 +155479,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.823e-19 + Total alkalinity (eq/kg) = -1.149e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.081e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.082e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154422,9 +155572,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -3.545e-19 + Total alkalinity (eq/kg) = -9.663e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.393e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.395e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154514,9 +155665,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.998e-20 + Total alkalinity (eq/kg) = -7.790e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.671e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.673e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154606,9 +155758,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.265e-19 + Total alkalinity (eq/kg) = 3.047e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.951e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.955e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154698,9 +155851,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.877e-19 + Total alkalinity (eq/kg) = 6.792e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.263e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.268e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154790,9 +155944,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.813e-19 + Total alkalinity (eq/kg) = 9.882e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.617e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.621e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154882,9 +156037,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.670e-18 + Total alkalinity (eq/kg) = 1.505e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.025e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.029e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -154974,9 +156130,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.949e-18 + Total alkalinity (eq/kg) = 1.454e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.538e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.542e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155066,9 +156223,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.001e-18 + Total alkalinity (eq/kg) = 1.271e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.252e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.256e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155296,9 +156454,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -6.941e-19 + Total alkalinity (eq/kg) = -1.186e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.500e-17 + Electrical balance (eq) = 8.679e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155393,9 +156551,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.233e-19 + Total alkalinity (eq/kg) = -7.191e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.713e-16 + Electrical balance (eq) = 1.732e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155490,9 +156648,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.299e-19 + Total alkalinity (eq/kg) = -6.838e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.878e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.890e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155587,9 +156746,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.029e-18 + Total alkalinity (eq/kg) = -3.954e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.046e-16 + Electrical balance (eq) = 4.060e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155684,9 +156843,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.130e-19 + Total alkalinity (eq/kg) = -6.541e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.433e-16 + Electrical balance (eq) = 5.435e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155781,9 +156940,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.800e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.324e-19 + Total alkalinity (eq/kg) = -7.574e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.094e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.093e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155878,9 +157038,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.031e-18 + Total alkalinity (eq/kg) = -1.922e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.041e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.046e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -155975,9 +157136,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.799e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.274e-18 + Total alkalinity (eq/kg) = -2.449e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.132e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.133e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156072,9 +157234,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.798e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.125e-19 + Total alkalinity (eq/kg) = -2.511e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.396e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.397e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156169,9 +157332,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.797e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.197e-19 + Total alkalinity (eq/kg) = -1.890e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.698e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.699e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156266,8 +157430,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.795e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.693e-19 + Total alkalinity (eq/kg) = -1.738e-18 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.047e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -156363,9 +157528,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.793e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -8.625e-20 + Total alkalinity (eq/kg) = -1.208e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.439e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.441e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156460,9 +157626,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.788e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -1.265e-19 + Total alkalinity (eq/kg) = -1.068e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.887e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.885e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156557,8 +157724,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.782e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.927e-19 + Total alkalinity (eq/kg) = -5.799e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.394e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -156654,9 +157822,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.772e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.684e-19 + Total alkalinity (eq/kg) = -4.203e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.973e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.972e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156751,8 +157920,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.757e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.897e-19 + Total alkalinity (eq/kg) = -6.081e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.637e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -156848,9 +158018,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.734e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.881e-19 + Total alkalinity (eq/kg) = -3.330e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.420e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.419e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -156945,9 +158116,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.699e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.574e-19 + Total alkalinity (eq/kg) = -6.221e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.368e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.365e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -157042,9 +158214,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.648e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.100e-19 + Total alkalinity (eq/kg) = -1.184e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.520e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.517e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -157139,9 +158312,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.574e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.115e-18 + Total alkalinity (eq/kg) = 3.368e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.747e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.744e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -157236,9 +158410,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.473e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.480e-18 + Total alkalinity (eq/kg) = 3.232e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.269e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.264e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -157333,9 +158508,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.348e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.589e-18 + Total alkalinity (eq/kg) = 1.200e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.753e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.751e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110124e+02 @@ -157430,9 +158606,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.208e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.816e-19 + Total alkalinity (eq/kg) = -3.149e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.967e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.966e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110124e+02 @@ -157527,8 +158704,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.244e-19 + Total alkalinity (eq/kg) = -7.266e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.005e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -157624,8 +158802,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.609e-19 + Total alkalinity (eq/kg) = -6.191e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.004e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -157721,9 +158900,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 7.090e-19 + Total alkalinity (eq/kg) = -6.142e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.942e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.941e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -157818,9 +158998,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.355e-19 + Total alkalinity (eq/kg) = -4.629e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.762e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.761e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -157915,9 +159096,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.759e-19 + Total alkalinity (eq/kg) = 9.593e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.494e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.492e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 Total H = 1.110124e+02 @@ -158012,9 +159194,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.874e-19 + Total alkalinity (eq/kg) = -3.193e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.141e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 9.138e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158109,9 +159292,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.657e-19 + Total alkalinity (eq/kg) = -7.274e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.711e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.709e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158204,9 +159388,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.770e-19 + Total alkalinity (eq/kg) = -9.679e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.214e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.213e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158296,8 +159481,9 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.735e-19 + Total alkalinity (eq/kg) = -8.566e-19 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.654e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -158388,9 +159574,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -2.842e-19 + Total alkalinity (eq/kg) = -9.327e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.035e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 7.036e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158480,9 +159667,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 5.001e-20 + Total alkalinity (eq/kg) = -9.183e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.369e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.371e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158572,9 +159760,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = -4.589e-20 + Total alkalinity (eq/kg) = -3.922e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.674e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.678e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158664,9 +159853,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.542e-19 + Total alkalinity (eq/kg) = -8.612e-20 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.982e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.986e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158756,9 +159946,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.350e-19 + Total alkalinity (eq/kg) = 1.685e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.317e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.320e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158848,9 +160039,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.168e-19 + Total alkalinity (eq/kg) = 8.381e-19 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.715e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.719e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -158940,9 +160132,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 6.728e-19 + Total alkalinity (eq/kg) = 1.144e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.233e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 3.236e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -159032,9 +160225,10 @@ X 1.100e-03 mol Activity of water = 1.000 Ionic strength (mol/kgw) = 1.200e-03 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.833e-19 + Total alkalinity (eq/kg) = 1.069e-18 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.917e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.920e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 diff --git a/mytest/dist_x.sel b/mytest/dist_x.sel index 68b0b192..3468131b 100644 --- a/mytest/dist_x.sel +++ b/mytest/dist_x.sel @@ -217,7 +217,7 @@ 0.007 5 7.122444357710e-04 8.032605885819e-04 4.637986611311e-04 1.197845154055e-05 0.009 5 8.502074757928e-04 6.572199001612e-04 3.497778626077e-04 7.330792637640e-09 0.011 5 9.362522736421e-04 5.080975835192e-04 2.637477208704e-04 2.738345441284e-12 - 0.013 5 9.775778479315e-04 3.687446940694e-04 2.224221520595e-04 7.150832392987e-16 + 0.013 5 9.775778479315e-04 3.687446940694e-04 2.224221520595e-04 7.150832392988e-16 0.015 5 9.932471913480e-04 2.499633013865e-04 2.067528086472e-04 1.508543078890e-19 0.017 5 9.982267121408e-04 1.575097666968e-04 2.017732878565e-04 2.829288187094e-23 0.019 5 9.995916478449e-04 9.180834730339e-05 2.004083521538e-04 4.891041830051e-27 @@ -256,7 +256,7 @@ 0.001 6 1.299141215066e-04 1.130939807697e-03 9.399609489059e-05 4.880448918002e-04 0.003 6 2.143633815601e-04 1.088112848337e-03 1.565671470854e-04 4.145347356750e-04 0.005 6 3.647024935951e-04 1.011164167907e-03 2.579799795883e-04 2.886587634043e-04 - 0.007 6 5.542526869496e-04 9.091212449260e-04 3.604348928086e-04 1.426562101145e-04 + 0.007 6 5.542526869496e-04 9.091212449260e-04 3.604348928086e-04 1.426562101146e-04 0.009 6 7.555736870273e-04 7.879026320014e-04 4.430720159341e-04 6.771485108297e-07 0.011 6 8.712288069682e-04 6.541611612452e-04 3.287703692279e-04 4.118949283502e-10 0.013 6 9.441763116441e-04 5.175159388690e-04 2.558236880794e-04 1.327677393668e-13 @@ -301,7 +301,7 @@ 0.007 7 4.439205261471e-04 9.869076011168e-04 3.469263859811e-04 2.045765439302e-04 0.009 7 6.348746063969e-04 8.895308818439e-04 4.756815580589e-04 4.472191776364e-05 0.011 7 7.869688559623e-04 7.756962367117e-04 4.129523117366e-04 3.941614222442e-08 - 0.013 7 8.897335127807e-04 6.514109624165e-04 3.102664534310e-04 1.688718924572e-11 + 0.013 7 8.897335127807e-04 6.514109624165e-04 3.102664534310e-04 1.688718924573e-11 0.015 7 9.515903973592e-04 5.247649600969e-04 2.484096026192e-04 5.265919400425e-15 0.017 7 9.814959051045e-04 4.040901673586e-04 2.185040948872e-04 1.408180482331e-18 0.019 7 9.936975752383e-04 2.964717465501e-04 2.063024247558e-04 3.373059105207e-22 @@ -431,7 +431,7 @@ 0.015 10 7.655727618015e-04 8.475464854300e-04 4.344174190062e-04 4.909587063044e-09 0.017 10 8.651755417684e-04 7.495770378833e-04 3.348244523575e-04 2.929076766638e-12 0.019 10 9.320300314230e-04 6.451953324389e-04 2.679699685611e-04 1.126463799501e-15 - 0.021 10 9.694850523637e-04 5.392120024786e-04 2.305149476249e-04 3.276484095365e-19 + 0.021 10 9.694850523637e-04 5.392120024786e-04 2.305149476249e-04 3.276484095366e-19 0.023 10 9.875399609070e-04 4.366066952106e-04 2.124600390840e-04 8.331474335571e-23 0.025 10 9.953012214114e-04 3.418562490131e-04 2.046987785817e-04 2.029601427969e-26 0.027 10 9.983510630077e-04 2.583803290204e-04 2.016489369873e-04 0.000000000000e+00 @@ -528,7 +528,7 @@ 0.041 12 9.999960484309e-04 5.131294035223e-05 2.000039515687e-04 0.000000000000e+00 0.043 12 9.999989692072e-04 3.290253457064e-05 2.000010307928e-04 0.000000000000e+00 0.045 12 9.999997468415e-04 2.034800486721e-05 2.000002531587e-04 0.000000000000e+00 - 0.047 12 9.999999414870e-04 1.212669707794e-05 2.000000585134e-04 0.000000000000e+00 + 0.047 12 9.999999414869e-04 1.212669707794e-05 2.000000585134e-04 0.000000000000e+00 0.049 12 9.999999872774e-04 6.958745543578e-06 2.000000127231e-04 0.000000000000e+00 0.051 12 9.999999973989e-04 3.841700968731e-06 2.000000026017e-04 0.000000000000e+00 0.053 12 9.999999995004e-04 2.038682537218e-06 2.000000005002e-04 0.000000000000e+00 @@ -550,7 +550,7 @@ 0.001 13 1.472236585753e-05 1.193658974344e-03 1.521802961091e-05 5.850298022659e-04 0.003 13 2.566479137295e-05 1.189099500388e-03 2.661715525812e-05 5.738590266847e-04 0.005 13 4.795732312082e-05 1.180041045332e-03 4.992978293734e-05 5.510564469717e-04 - 0.007 13 8.427059868076e-05 1.165931317055e-03 8.860224719309e-05 5.135635770648e-04 + 0.007 13 8.427059868076e-05 1.165931317055e-03 8.860224719310e-05 5.135635770648e-04 0.009 13 1.404936035744e-04 1.145405771345e-03 1.506678337154e-04 4.544192813562e-04 0.011 13 2.240893246716e-04 1.116798672724e-03 2.450652169976e-04 3.654227291650e-04 0.013 13 3.393172817899e-04 1.078641239732e-03 3.666594683979e-04 2.470116249024e-04 @@ -560,15 +560,15 @@ 0.021 13 8.483786246281e-04 8.197105423969e-04 3.516213746975e-04 3.286119427384e-13 0.023 13 9.171366622617e-04 7.324964282949e-04 2.828633377226e-04 1.331172635161e-16 0.025 13 9.590760372390e-04 6.408168409666e-04 2.409239627476e-04 4.542925137174e-20 - 0.027 13 9.814035589090e-04 5.479578704926e-04 2.185964410796e-04 1.353790627125e-23 - 0.029 13 9.921036708796e-04 4.573070194811e-04 2.078963291110e-04 3.591340913235e-27 + 0.027 13 9.814035589090e-04 5.479578704926e-04 2.185964410796e-04 1.353790627124e-23 + 0.029 13 9.921036708796e-04 4.573070194811e-04 2.078963291110e-04 3.591340913233e-27 0.031 13 9.968384998666e-04 3.719949294529e-04 2.031615001259e-04 0.000000000000e+00 0.033 13 9.988016157947e-04 2.945840871164e-04 2.011983841995e-04 0.000000000000e+00 0.035 13 9.995693846057e-04 2.268543234775e-04 2.004306153901e-04 0.000000000000e+00 0.037 13 9.998533165381e-04 1.697126096211e-04 2.001466834588e-04 0.000000000000e+00 0.039 13 9.999526546959e-04 1.232279228153e-04 2.000473453021e-04 0.000000000000e+00 0.041 13 9.999855277343e-04 8.676799484547e-05 2.000144722645e-04 0.000000000000e+00 - 0.043 13 9.999958127208e-04 5.919920279038e-05 2.000041872786e-04 0.000000000000e+00 + 0.043 13 9.999958127207e-04 5.919920279038e-05 2.000041872786e-04 0.000000000000e+00 0.045 13 9.999988537935e-04 3.910624991978e-05 2.000011462063e-04 0.000000000000e+00 0.047 13 9.999997032739e-04 2.499375769652e-05 2.000002967262e-04 0.000000000000e+00 0.049 13 9.999999273799e-04 1.544406497198e-05 2.000000726204e-04 0.000000000000e+00 @@ -641,12 +641,12 @@ 0.015 15 3.133349652782e-04 1.097507394682e-03 3.715203562514e-04 2.575723392328e-04 0.017 15 4.455312759100e-04 1.057529203377e-03 4.970903346690e-04 1.286891947047e-04 0.019 15 5.950341368215e-04 1.008160887334e-03 6.028268158318e-04 1.069523664276e-06 - 0.021 15 7.094408344275e-04 9.492728154181e-04 4.905565996253e-04 1.282964512452e-09 + 0.021 15 7.094408344275e-04 9.492728154181e-04 4.905565996254e-04 1.282964512452e-09 0.023 15 8.110016632481e-04 8.813707255325e-04 3.889983349705e-04 8.819235632279e-13 0.025 15 8.890610028969e-04 8.056403534429e-04 3.109389970859e-04 4.153975691695e-16 0.027 15 9.409838861152e-04 7.239092033383e-04 2.590161138699e-04 1.550029903025e-19 - 0.029 15 9.711220019471e-04 6.385220625852e-04 2.288779980398e-04 4.924600603854e-23 - 0.031 15 9.867870824255e-04 5.521433115678e-04 2.132129175631e-04 1.392565368301e-26 + 0.029 15 9.711220019471e-04 6.385220625852e-04 2.288779980398e-04 4.924600603853e-23 + 0.031 15 9.867870824255e-04 5.521433115678e-04 2.132129175631e-04 1.392565368300e-26 0.033 15 9.942815653849e-04 4.675132847770e-04 2.057184346056e-04 0.000000000000e+00 0.035 15 9.976445425432e-04 3.871950121778e-04 2.023554574490e-04 0.000000000000e+00 0.037 15 9.990742311123e-04 3.133493804096e-04 2.009257688815e-04 0.000000000000e+00 @@ -658,7 +658,7 @@ 0.049 15 9.999987236594e-04 5.176350774755e-05 2.000012763402e-04 0.000000000000e+00 0.051 15 9.999996400038e-04 3.487254352625e-05 2.000003599962e-04 0.000000000000e+00 0.053 15 9.999999033109e-04 2.282880650510e-05 2.000000966893e-04 0.000000000000e+00 - 0.055 15 9.999999752774e-04 1.451405809481e-05 2.000000247230e-04 0.000000000000e+00 + 0.055 15 9.999999752773e-04 1.451405809481e-05 2.000000247230e-04 0.000000000000e+00 0.057 15 9.999999939835e-04 8.957195548309e-06 2.000000060170e-04 0.000000000000e+00 0.059 15 9.999999986069e-04 5.362990268439e-06 2.000000013937e-04 0.000000000000e+00 0.061 15 9.999999996933e-04 3.113640828448e-06 2.000000003073e-04 0.000000000000e+00 @@ -675,7 +675,7 @@ 0 16 0.000000000000e+00 1.200000000000e-03 0.000000000000e+00 6.000000000000e-04 0.001 16 6.191843289152e-06 1.197518895112e-03 7.273983648451e-06 5.932670865318e-04 0.003 16 1.089523276171e-05 1.195683747915e-03 1.280596363223e-05 5.881494018040e-04 - 0.005 16 2.062706641988e-05 1.191965801779e-03 2.428456711765e-05 5.775441832331e-04 + 0.005 16 2.062706641988e-05 1.191965801779e-03 2.428456711765e-05 5.775441832330e-04 0.007 16 3.683548545568e-05 1.185996042032e-03 4.369331947651e-05 5.597355975371e-04 0.009 16 6.252204794794e-05 1.176980779208e-03 7.515878771351e-05 5.311595821725e-04 0.011 16 1.021604958122e-04 1.163866701597e-03 1.247270605482e-04 4.865562218226e-04 @@ -701,10 +701,10 @@ 0.051 16 9.999987062428e-04 5.810692368477e-05 2.000012937566e-04 0.000000000000e+00 0.053 16 9.999996219318e-04 3.999431473040e-05 2.000003780680e-04 0.000000000000e+00 0.055 16 9.999998944851e-04 2.680262286935e-05 2.000001055150e-04 0.000000000000e+00 - 0.057 16 9.999999718822e-04 1.748059302293e-05 2.000000281181e-04 0.000000000000e+00 + 0.057 16 9.999999718822e-04 1.748059302293e-05 2.000000281182e-04 0.000000000000e+00 0.059 16 9.999999928471e-04 1.109001221362e-05 2.000000071533e-04 0.000000000000e+00 0.061 16 9.999999982634e-04 6.840786075371e-06 2.000000017371e-04 0.000000000000e+00 - 0.063 16 9.999999995978e-04 4.100920569311e-06 2.000000004027e-04 0.000000000000e+00 + 0.063 16 9.999999995978e-04 4.100920569312e-06 2.000000004027e-04 0.000000000000e+00 0.065 16 9.999999999113e-04 2.388150770908e-06 2.000000000893e-04 0.000000000000e+00 0.067 16 9.999999999816e-04 1.350360553449e-06 2.000000000191e-04 0.000000000000e+00 0.069 16 9.999999999965e-04 7.410471437945e-07 2.000000000041e-04 0.000000000000e+00 @@ -722,11 +722,11 @@ 0.009 17 4.781647270664e-05 1.182703632088e-03 5.957533468228e-05 5.463040963093e-04 0.011 17 7.864889730095e-05 1.172632977936e-03 9.971963849704e-05 5.108157321044e-04 0.013 17 1.254587975143e-04 1.158353670668e-03 1.625778033609e-04 4.559816995650e-04 - 0.015 17 1.942961881648e-04 1.138816068851e-03 2.556661130050e-04 3.750188494163e-04 + 0.015 17 1.942961881648e-04 1.138816068851e-03 2.556661130051e-04 3.750188494163e-04 0.017 17 2.903054064277e-04 1.112969405948e-03 3.777273623895e-04 2.659836155899e-04 0.019 17 4.135656970600e-04 1.079866042203e-03 5.124824734531e-04 1.369759147386e-04 0.021 17 5.563820199151e-04 1.038781088057e-03 6.400224923755e-04 1.797743846280e-06 - 0.023 17 6.690129188023e-04 9.893309163037e-04 5.309819544535e-04 2.563363516065e-09 + 0.023 17 6.690129188023e-04 9.893309163037e-04 5.309819544535e-04 2.563363516064e-09 0.025 17 7.735311696064e-04 9.315756950240e-04 4.264688261229e-04 2.126812672333e-12 0.027 17 8.589526457052e-04 8.660873141184e-04 3.410473542759e-04 1.164048789291e-15 0.029 17 9.200906553167e-04 7.939671126096e-04 2.799093446676e-04 4.787566968732e-19 @@ -773,7 +773,7 @@ 0.027 18 8.017721572117e-04 9.236705421961e-04 3.982278426213e-04 7.515627987151e-14 0.029 18 8.790461233257e-04 8.593214974690e-04 3.209538766581e-04 3.982548372389e-17 0.031 18 9.325288240001e-04 7.888295032646e-04 2.674711759846e-04 1.614582865593e-20 - 0.033 18 9.651498173744e-04 7.136827657969e-04 2.348501826114e-04 5.312637616893e-24 + 0.033 18 9.651498173744e-04 7.136827657969e-04 2.348501826114e-04 5.312637616891e-24 0.035 18 9.830736498454e-04 6.357092720053e-04 2.169263501418e-04 1.375554485106e-27 0.037 18 9.921780281980e-04 5.569456136654e-04 2.078219717907e-04 0.000000000000e+00 0.039 18 9.965369241484e-04 4.794804351025e-04 2.034630758419e-04 0.000000000000e+00 @@ -811,9 +811,9 @@ 0.019 19 2.695680196588e-04 1.125781186919e-03 3.848198392665e-04 2.728060705364e-04 0.021 19 3.846326807776e-04 1.098159240761e-03 5.284899798137e-04 1.434386697002e-04 0.023 19 5.203561122193e-04 1.063746310383e-03 6.737571548156e-04 2.943366474735e-06 - 0.025 19 6.305400746044e-04 1.022036233777e-03 5.694503026829e-04 4.811348234945e-09 + 0.025 19 6.305400746044e-04 1.022036233777e-03 5.694503026829e-04 4.811348234944e-09 0.027 19 7.364129467000e-04 9.728289028691e-04 4.635870438896e-04 4.696967559235e-12 - 0.029 19 8.274180109974e-04 9.163006322040e-04 3.725819889803e-04 2.984383895573e-15 + 0.029 19 8.274180109974e-04 9.163006322040e-04 3.725819889803e-04 2.984383895572e-15 0.031 19 8.967455527552e-04 8.530456983295e-04 3.032544472290e-04 1.373376578081e-18 0.033 19 9.432017777527e-04 7.840795805463e-04 2.567982222324e-04 5.064642388359e-22 0.035 19 9.708685716781e-04 7.107991009840e-04 2.291314283080e-04 1.620721149925e-25 @@ -857,9 +857,9 @@ 0.027 20 6.659952799383e-04 1.014317670557e-03 5.340042816763e-04 2.191847004807e-10 0.029 20 7.668639206435e-04 9.653119684841e-04 4.331360789972e-04 1.715430244207e-13 0.031 20 8.505873938774e-04 9.094086871791e-04 3.494126061064e-04 1.027980474864e-16 - 0.033 20 9.122291082297e-04 8.472036187637e-04 2.877708917549e-04 4.669886346632e-20 - 0.035 20 9.523116173780e-04 7.796709266561e-04 2.476883826073e-04 1.670461068505e-23 - 0.037 20 9.756836860312e-04 7.081247087346e-04 2.243163139551e-04 5.046601550694e-27 + 0.033 20 9.122291082297e-04 8.472036187637e-04 2.877708917549e-04 4.669886346631e-20 + 0.035 20 9.523116173780e-04 7.796709266561e-04 2.476883826073e-04 1.670461068504e-23 + 0.037 20 9.756836860312e-04 7.081247087346e-04 2.243163139551e-04 5.046601550692e-27 0.039 20 9.882095044692e-04 6.341448845797e-04 2.117904955184e-04 0.000000000000e+00 0.041 20 9.945157170732e-04 5.594740807508e-04 2.054842829157e-04 0.000000000000e+00 0.043 20 9.975413657300e-04 4.858965667772e-04 2.024586342604e-04 0.000000000000e+00 @@ -895,13 +895,13 @@ 0.019 21 1.689552129357e-04 1.154580715423e-03 2.655172010097e-04 3.827637930293e-04 0.021 21 2.506314423131e-04 1.136486744655e-03 3.920049117541e-04 2.786818229661e-04 0.023 21 3.581085801542e-04 1.113295095097e-03 5.440614166642e-04 1.489150015873e-04 - 0.025 21 4.866370042779e-04 1.084315896018e-03 7.039271944691e-04 4.717900619170e-06 - 0.027 21 5.939693299109e-04 1.048996010614e-03 6.060135446590e-04 8.562707365061e-09 + 0.025 21 4.866370042779e-04 1.084315896018e-03 7.039271944691e-04 4.717900619169e-06 + 0.027 21 5.939693299109e-04 1.048996010614e-03 6.060135446590e-04 8.562707365060e-09 0.029 21 6.999544994603e-04 1.006989920690e-03 5.000454813338e-04 9.595044201403e-12 - 0.031 21 7.949687425901e-04 9.582240474576e-04 4.050312573800e-04 7.050567537215e-15 + 0.031 21 7.949687425901e-04 9.582240474576e-04 4.050312573800e-04 7.050567537214e-15 0.033 21 8.713212911715e-04 9.029455775791e-04 3.286787088128e-04 3.675674838198e-18 0.035 21 9.256800677626e-04 8.417475988913e-04 2.743199322223e-04 1.487161160010e-21 - 0.037 21 9.600528076132e-04 7.755645476647e-04 2.399471923724e-04 5.084619186430e-25 + 0.037 21 9.600528076132e-04 7.755645476647e-04 2.399471923724e-04 5.084619186429e-25 0.039 21 9.797277063052e-04 7.056354057270e-04 2.202722936813e-04 0.000000000000e+00 0.041 21 9.901713932976e-04 6.334362749850e-04 2.098286066901e-04 0.000000000000e+00 0.043 21 9.954135633621e-04 5.605882140717e-04 2.045864366269e-04 0.000000000000e+00 @@ -937,13 +937,13 @@ 0.019 22 1.329533497958e-04 1.164563797358e-03 2.168809511417e-04 4.250828495341e-04 0.021 22 2.002512514803e-04 1.150027226071e-03 3.348364227996e-04 3.324561628615e-04 0.023 22 2.919082681464e-04 1.131162721324e-03 4.879689120876e-04 2.100614098812e-04 - 0.025 22 4.038024001178e-04 1.107274816690e-03 6.295312370929e-04 8.333318138954e-05 + 0.025 22 4.038024001178e-04 1.107274816690e-03 6.295312370929e-04 8.333318138953e-05 0.027 22 5.231882767418e-04 1.077743534764e-03 6.761675176316e-04 3.221028059038e-07 0.029 22 6.297037330846e-04 1.042086808237e-03 5.702954301127e-04 4.183937148635e-10 0.031 22 7.320049302688e-04 1.000023061084e-03 4.679950689779e-04 3.689041111496e-13 - 0.033 22 8.207579144287e-04 9.515266978058e-04 3.792420855552e-04 2.481064697156e-16 + 0.033 22 8.207579144287e-04 9.515266978058e-04 3.792420855552e-04 2.481064697155e-16 0.035 22 8.897337980375e-04 8.968689061154e-04 3.102662019471e-04 1.260343802031e-19 - 0.037 22 9.372872355680e-04 8.366369878999e-04 2.627127644172e-04 4.925306843559e-23 + 0.037 22 9.372872355680e-04 8.366369878999e-04 2.627127644172e-04 4.925306843558e-23 0.039 22 9.666040010177e-04 7.717274138936e-04 2.333959989682e-04 1.585112089822e-26 0.041 22 9.831167568477e-04 7.033107531159e-04 2.168832431391e-04 0.000000000000e+00 0.043 22 9.918122039772e-04 6.327701504525e-04 2.081877960107e-04 0.000000000000e+00 @@ -952,7 +952,7 @@ 0.049 22 9.992367407810e-04 4.236049012550e-04 2.007632592108e-04 0.000000000000e+00 0.051 22 9.996748840024e-04 3.595497278483e-04 2.003251159907e-04 0.000000000000e+00 0.053 22 9.998657732886e-04 3.003304200125e-04 2.001342267057e-04 0.000000000000e+00 - 0.055 22 9.999463114763e-04 2.467563106590e-04 2.000536885191e-04 0.000000000000e+00 + 0.055 22 9.999463114763e-04 2.467563106591e-04 2.000536885191e-04 0.000000000000e+00 0.057 22 9.999792049163e-04 1.993282824945e-04 2.000207950801e-04 0.000000000000e+00 0.059 22 9.999922037661e-04 1.582412367703e-04 2.000077962312e-04 0.000000000000e+00 0.061 22 9.999971719612e-04 1.234106078050e-04 2.000028280369e-04 0.000000000000e+00 @@ -984,9 +984,9 @@ 0.029 23 5.592384291488e-04 1.071394193806e-03 6.407324003721e-04 1.458523223123e-08 0.031 23 6.643677942485e-04 1.035464209776e-03 5.356321690715e-04 1.833248354672e-11 0.033 23 7.620282716979e-04 9.933899713529e-04 4.379717282560e-04 1.544943679148e-14 - 0.035 23 8.441966411294e-04 9.451860043298e-04 3.558033588553e-04 9.175108052775e-18 - 0.037 23 9.059525323770e-04 8.911418770789e-04 2.940474676080e-04 4.114180819270e-21 - 0.039 23 9.472448605279e-04 8.318368747645e-04 2.527551394576e-04 1.511628860403e-24 + 0.035 23 8.441966411294e-04 9.451860043298e-04 3.558033588553e-04 9.175108052774e-18 + 0.037 23 9.059525323770e-04 8.911418770789e-04 2.940474676080e-04 4.114180819269e-21 + 0.039 23 9.472448605279e-04 8.318368747645e-04 2.527551394576e-04 1.511628860402e-24 0.041 23 9.721284713372e-04 7.681313363402e-04 2.278715286489e-04 2.509196333713e-28 0.043 23 9.859515696820e-04 7.011333419191e-04 2.140484303050e-04 0.000000000000e+00 0.045 23 9.931829269339e-04 6.321424174895e-04 2.068170730542e-04 0.000000000000e+00 @@ -1022,14 +1022,14 @@ 0.021 24 1.242990526358e-04 1.169240523604e-03 2.208328455545e-04 4.274340509076e-04 0.023 24 1.862390303746e-04 1.156936523526e-03 3.387582577212e-04 3.375013559537e-04 0.025 24 2.708139541358e-04 1.140985482183e-03 4.904717098164e-04 2.193571680225e-04 - 0.027 24 3.754654475805e-04 1.120764885986e-03 6.342108102433e-04 9.516187108355e-05 - 0.029 24 4.911476326809e-04 1.095689573180e-03 7.078516701388e-04 5.003485830936e-07 - 0.031 24 5.948773899449e-04 1.065259642244e-03 6.051211086210e-04 7.507097598920e-10 - 0.033 24 6.974949324453e-04 1.029111341336e-03 5.025050660431e-04 7.483849318859e-13 - 0.035 24 7.899701562210e-04 9.870660688066e-04 4.100298437628e-04 5.626173051324e-16 - 0.037 24 8.653260460305e-04 9.391719395104e-04 3.346739539545e-04 3.187141859417e-19 - 0.039 24 9.201275600741e-04 8.857323871457e-04 2.798724399111e-04 1.367251107108e-22 - 0.041 24 9.557411318064e-04 8.273170885165e-04 2.442588681792e-04 4.740241151763e-26 + 0.027 24 3.754654475805e-04 1.120764885986e-03 6.342108102434e-04 9.516187108355e-05 + 0.029 24 4.911476326809e-04 1.095689573180e-03 7.078516701388e-04 5.003485830935e-07 + 0.031 24 5.948773899449e-04 1.065259642244e-03 6.051211086210e-04 7.507097598919e-10 + 0.033 24 6.974949324453e-04 1.029111341336e-03 5.025050660431e-04 7.483849318858e-13 + 0.035 24 7.899701562210e-04 9.870660688066e-04 4.100298437628e-04 5.626173051323e-16 + 0.037 24 8.653260460305e-04 9.391719395105e-04 3.346739539545e-04 3.187141859417e-19 + 0.039 24 9.201275600741e-04 8.857323871457e-04 2.798724399111e-04 1.367251107107e-22 + 0.041 24 9.557411318065e-04 8.273170885165e-04 2.442588681792e-04 4.740241151762e-26 0.043 24 9.767728429635e-04 7.647520913408e-04 2.232271570229e-04 0.000000000000e+00 0.045 24 9.883190162250e-04 6.990882384462e-04 2.116809837622e-04 0.000000000000e+00 0.047 24 9.943269060194e-04 6.315495156812e-04 2.056730939688e-04 0.000000000000e+00 @@ -1059,24 +1059,24 @@ 0.011 25 9.740546260550e-06 1.196987355322e-03 1.611822672088e-05 5.870706135123e-04 0.013 25 1.608649585521e-05 1.195180888438e-03 2.698787535232e-05 5.784628143996e-04 0.015 25 2.595983155634e-05 1.192514627430e-03 4.432701846080e-05 5.648565749950e-04 - 0.017 25 4.106619332173e-05 1.188679953667e-03 7.162357713340e-05 5.436551147761e-04 + 0.017 25 4.106619332173e-05 1.188679953667e-03 7.162357713340e-05 5.436551147760e-04 0.019 25 6.382339818051e-05 1.183298918864e-03 1.140242821855e-04 5.110761598205e-04 0.021 25 9.759963406771e-05 1.175924424113e-03 1.785437598969e-04 4.619283030208e-04 0.023 25 1.469514998191e-04 1.166046470653e-03 2.732782687014e-04 3.898851157420e-04 0.025 25 2.170393815267e-04 1.153106170387e-03 4.047257830804e-04 2.891174176967e-04 0.027 25 3.108481824398e-04 1.136518368928e-03 5.715461895114e-04 1.588028140216e-04 - 0.029 25 4.251261814052e-04 1.115702893449e-03 7.520778701359e-04 1.139797422291e-05 + 0.029 25 4.251261814052e-04 1.115702893449e-03 7.520778701359e-04 1.139797422290e-05 0.031 25 5.262858368257e-04 1.090123373651e-03 6.736661289725e-04 2.401709382018e-08 - 0.033 25 6.298008542158e-04 1.059331364003e-03 5.701990794202e-04 3.317478460619e-11 + 0.033 25 6.298008542158e-04 1.059331364003e-03 5.701990794202e-04 3.317478460618e-11 0.035 25 7.289431980347e-04 1.023012320147e-03 4.710568018872e-04 3.170089061009e-14 0.037 25 8.157401649036e-04 9.810290561261e-04 3.842598350815e-04 2.144055008724e-17 0.039 25 8.842065458776e-04 9.334578260157e-04 3.157934541076e-04 1.072616487199e-20 - 0.041 25 9.324282831052e-04 8.806122886615e-04 2.675717168803e-04 4.280239297064e-24 + 0.041 25 9.324282831052e-04 8.806122886615e-04 2.675717168803e-04 4.280239297063e-24 0.043 25 9.629559747173e-04 8.230514030103e-04 2.370440252686e-04 1.284434700526e-27 0.045 25 9.806669768236e-04 7.615687311908e-04 2.193330231629e-04 0.000000000000e+00 0.047 25 9.902934821500e-04 6.971625490423e-04 2.097065178373e-04 0.000000000000e+00 0.049 25 9.952808558277e-04 6.309883314240e-04 2.047191441606e-04 0.000000000000e+00 - 0.051 25 9.977705709596e-04 5.642972821393e-04 2.022294290298e-04 0.000000000000e+00 + 0.051 25 9.977705709596e-04 5.642972821393e-04 2.022294290299e-04 0.000000000000e+00 0.053 25 9.989750786358e-04 4.983662965553e-04 2.010249213548e-04 0.000000000000e+00 0.055 25 9.995413118401e-04 4.344258095379e-04 2.004586881517e-04 0.000000000000e+00 0.057 25 9.998001951028e-04 3.735922236219e-04 2.001998048901e-04 0.000000000000e+00 @@ -1108,13 +1108,13 @@ 0.025 26 1.732222621428e-04 1.162820766003e-03 3.414657683405e-04 3.426559847599e-04 0.027 26 2.514474679873e-04 1.149278895830e-03 4.921089999235e-04 2.282217660434e-04 0.029 26 3.495494132336e-04 1.132097798787e-03 6.400779916256e-04 1.051862975663e-04 - 0.031 26 4.609751220213e-04 1.110737128060e-03 7.375363520235e-04 7.442629707986e-07 + 0.031 26 4.609751220213e-04 1.110737128060e-03 7.375363520235e-04 7.442629707985e-07 0.033 26 5.615334657053e-04 1.084705434513e-03 6.384639791446e-04 1.277568041057e-09 0.035 26 6.635634868080e-04 1.053600771609e-03 5.364365102969e-04 1.440334185590e-12 0.037 26 7.585864710170e-04 1.017152260156e-03 4.414135289661e-04 1.207424628830e-15 0.039 26 8.393079181614e-04 9.752586879084e-04 3.606920818239e-04 7.603013031553e-19 - 0.041 26 9.009331921306e-04 9.280198836204e-04 2.990668078548e-04 3.594150119801e-22 - 0.043 26 9.430315502463e-04 8.757567883837e-04 2.569684497394e-04 1.350527448378e-25 + 0.041 26 9.009331921306e-04 9.280198836204e-04 2.990668078548e-04 3.594150119800e-22 + 0.043 26 9.430315502463e-04 8.757567883837e-04 2.569684497394e-04 1.350527448377e-25 0.045 26 9.690570359694e-04 8.190168986291e-04 2.309429640167e-04 0.000000000000e+00 0.047 26 9.839247284246e-04 7.585630357797e-04 2.160752715621e-04 0.000000000000e+00 0.049 26 9.919383285753e-04 6.953450749312e-04 2.080616714122e-04 0.000000000000e+00 @@ -1140,7 +1140,7 @@ 0.005 27 1.048167398272e-06 1.199666685222e-03 1.831436503521e-06 5.985601980503e-04 0.007 27 1.930615243843e-06 1.199394251231e-03 3.366314607910e-06 5.973515350757e-04 0.009 27 3.401694473443e-06 1.198952352773e-03 5.950042563763e-06 5.953241314833e-04 - 0.011 27 5.802363648210e-06 1.198255011455e-03 1.022773411254e-05 5.919849511220e-04 + 0.011 27 5.802363648210e-06 1.198255011455e-03 1.022773411255e-05 5.919849511220e-04 0.013 27 9.638089929652e-06 1.197184855511e-03 1.719164223206e-05 5.865851339219e-04 0.015 27 1.565115916739e-05 1.195585547616e-03 2.835938382605e-05 5.779947285063e-04 0.017 27 2.492311715369e-05 1.193253619304e-03 4.603466449203e-05 5.645211091804e-04 @@ -1150,21 +1150,21 @@ 0.025 27 1.370248484330e-04 1.170581274889e-03 2.762058712103e-04 3.933846401805e-04 0.027 27 2.020639349026e-04 1.159573251754e-03 4.099736962949e-04 2.939811844016e-04 0.029 27 2.896679177952e-04 1.145463307549e-03 5.828714938726e-04 1.637302941634e-04 - 0.031 27 3.969544901485e-04 1.127729758184e-03 7.689001003976e-04 1.707270472064e-05 + 0.031 27 3.969544901485e-04 1.127729758184e-03 7.689001003976e-04 1.707270472063e-05 0.033 27 4.950530582501e-04 1.105869623783e-03 7.048697962998e-04 3.857271820728e-08 - 0.035 27 5.963586844833e-04 1.079432788717e-03 6.036412003321e-04 5.758528492310e-11 - 0.037 27 6.959966839769e-04 1.048059355401e-03 5.040033158856e-04 6.163065563725e-14 - 0.039 27 7.862988892533e-04 1.011517250009e-03 4.137011107322e-04 4.728936000801e-17 - 0.041 27 8.606669270839e-04 9.697365580956e-04 3.393330729016e-04 2.648317489196e-20 + 0.035 27 5.963586844833e-04 1.079432788717e-03 6.036412003321e-04 5.758528492309e-11 + 0.037 27 6.959966839769e-04 1.048059355401e-03 5.040033158856e-04 6.163065563724e-14 + 0.039 27 7.862988892533e-04 1.011517250009e-03 4.137011107322e-04 4.728936000800e-17 + 0.041 27 8.606669270839e-04 9.697365580956e-04 3.393330729016e-04 2.648317489195e-20 0.043 27 9.156313806926e-04 9.228368462189e-04 2.843686192930e-04 1.151777646894e-23 - 0.045 27 9.521168102899e-04 8.711439534724e-04 2.478831896960e-04 4.106425865639e-27 + 0.045 27 9.521168102899e-04 8.711439534724e-04 2.478831896960e-04 4.106425865638e-27 0.047 27 9.741974821667e-04 8.151934456546e-04 2.258025178196e-04 0.000000000000e+00 0.049 27 9.866449127241e-04 7.557190723843e-04 2.133550872629e-04 0.000000000000e+00 0.051 27 9.933072791844e-04 6.936260359253e-04 2.066927208033e-04 0.000000000000e+00 0.053 27 9.967377788073e-04 6.299504897424e-04 2.032622211813e-04 0.000000000000e+00 0.055 27 9.984499904357e-04 5.658082185422e-04 2.015500095539e-04 0.000000000000e+00 0.057 27 9.992815187192e-04 5.023366926397e-04 2.007184812715e-04 0.000000000000e+00 - 0.059 27 9.996750721620e-04 4.406354581963e-04 2.003249278297e-04 0.000000000000e+00 + 0.059 27 9.996750721620e-04 4.406354581963e-04 2.003249278298e-04 0.000000000000e+00 0.061 27 9.998566729747e-04 3.817100144921e-04 2.001433270182e-04 0.000000000000e+00 0.063 27 9.999383605517e-04 3.264239407778e-04 2.000616394422e-04 0.000000000000e+00 0.065 27 9.999741663631e-04 2.754632269247e-04 2.000258336318e-04 0.000000000000e+00 @@ -1193,13 +1193,13 @@ 0.027 28 1.611509154405e-04 1.167848489123e-03 3.433199582403e-04 3.477645631610e-04 0.029 28 2.336530708619e-04 1.156312516824e-03 4.933827833460e-04 2.364820728950e-04 0.031 28 3.257230708535e-04 1.141666636199e-03 6.467546378447e-04 1.137611456470e-04 - 0.033 28 4.325488195254e-04 1.123418927182e-03 7.653001359594e-04 1.075522250890e-06 + 0.033 28 4.325488195254e-04 1.123418927182e-03 7.653001359594e-04 1.075522250889e-06 0.035 28 5.296723129948e-04 1.101101403078e-03 6.703235119277e-04 2.087531850830e-09 0.037 28 6.303875072016e-04 1.074301970040e-03 5.696124874787e-04 2.652861034502e-12 0.039 28 7.269211417872e-04 1.042698786098e-03 4.730788581937e-04 2.473290156948e-15 0.041 28 8.119865944018e-04 1.006094314211e-03 3.880134055839e-04 1.725439526634e-18 - 0.043 28 8.798504566307e-04 9.644459084054e-04 3.201495433549e-04 8.998516635240e-22 - 0.045 28 9.284478076622e-04 9.178896371024e-04 2.715521923236e-04 3.675498545181e-25 + 0.043 28 8.798504566307e-04 9.644459084054e-04 3.201495433549e-04 8.998516635239e-22 + 0.045 28 9.284478076622e-04 9.178896371024e-04 2.715521923236e-04 3.675498545180e-25 0.047 28 9.598596902694e-04 8.667543030152e-04 2.401403097167e-04 0.000000000000e+00 0.049 28 9.785150384611e-04 8.115632828643e-04 2.214849615254e-04 0.000000000000e+00 0.051 28 9.889126070906e-04 7.530228393298e-04 2.110873928965e-04 0.000000000000e+00 @@ -1235,13 +1235,13 @@ 0.027 29 1.277614914540e-04 1.174479717444e-03 2.786161645075e-04 3.968111720213e-04 0.029 29 1.881580590900e-04 1.165085760488e-03 4.145027089052e-04 2.986696160028e-04 0.031 29 2.699089492638e-04 1.153046035653e-03 5.923055009478e-04 1.688927748916e-04 - 0.033 29 3.703434355454e-04 1.137894928368e-03 7.802671183716e-04 2.469472303538e-05 - 0.035 29 4.654835367039e-04 1.119168899955e-03 7.343948623575e-04 6.080046252856e-08 - 0.037 29 5.641156403824e-04 1.096432687906e-03 6.358841656258e-04 9.698901229510e-11 + 0.033 29 3.703434355454e-04 1.137894928368e-03 7.802671183717e-04 2.469472303538e-05 + 0.035 29 4.654835367039e-04 1.119168899955e-03 7.343948623575e-04 6.080046252855e-08 + 0.037 29 5.641156403824e-04 1.096432687906e-03 6.358841656258e-04 9.698901229509e-11 0.039 29 6.634202418105e-04 1.069309172432e-03 5.365797579457e-04 1.148922294355e-13 - 0.041 29 7.561919016889e-04 1.037510983444e-03 4.438080982968e-04 9.943872751500e-17 - 0.043 29 8.355841519655e-04 1.000871364688e-03 3.644158480203e-04 6.238273196069e-20 - 0.045 29 8.969283611769e-04 9.593714568485e-04 3.030716388089e-04 2.970319236799e-23 + 0.041 29 7.561919016889e-04 1.037510983444e-03 4.438080982968e-04 9.943872751498e-17 + 0.043 29 8.355841519655e-04 1.000871364688e-03 3.644158480203e-04 6.238273196068e-20 + 0.045 29 8.969283611769e-04 9.593714568485e-04 3.030716388089e-04 2.970319236798e-23 0.047 29 9.395438894507e-04 9.131610927398e-04 2.604561105353e-04 1.129965546282e-26 0.049 29 9.664273544132e-04 8.625704682618e-04 2.335726455730e-04 0.000000000000e+00 0.051 29 9.821317829490e-04 8.081106713960e-04 2.178682170377e-04 0.000000000000e+00 @@ -1261,7 +1261,7 @@ 0.079 29 9.999997782999e-04 1.253179893826e-04 2.000002216984e-04 0.000000000000e+00 0.08 29 1.000000000001e-03 0.000000000000e+00 2.000000000001e-04 0.000000000000e+00 0 30 0.000000000000e+00 1.200000000000e-03 0.000000000000e+00 6.000000000000e-04 - 0.001 30 1.357626974336e-07 1.199958356908e-03 2.657449958599e-07 5.997992461536e-04 + 0.001 30 1.357626974336e-07 1.199958356908e-03 2.657449958600e-07 5.997992461536e-04 0.003 30 2.439182317212e-07 1.199925531913e-03 4.743549033370e-07 5.996408634331e-04 0.005 30 4.751423516144e-07 1.199856014713e-03 9.170423557565e-07 5.993039076473e-04 0.007 30 8.794330923264e-07 1.199736566168e-03 1.690871172196e-06 5.987148478690e-04 @@ -1274,18 +1274,18 @@ 0.021 30 2.894145726080e-05 1.193042259533e-03 6.065339262442e-05 5.552025750603e-04 0.023 30 4.444321134573e-05 1.189884227441e-03 9.536658478575e-05 5.300951019372e-04 0.025 30 6.743975482214e-05 1.185567869748e-03 1.483418062463e-04 4.921092194685e-04 - 0.027 30 1.012289217598e-04 1.179778741377e-03 2.284273609653e-04 4.351718586398e-04 + 0.027 30 1.012289217598e-04 1.179778741377e-03 2.284273609654e-04 4.351718586397e-04 0.029 30 1.499690020593e-04 1.172156351068e-03 3.446427901496e-04 3.526941038968e-04 0.031 30 2.172830174851e-04 1.162300164972e-03 4.946215243975e-04 2.440477290577e-04 0.033 30 3.037338423656e-04 1.149780295805e-03 6.539666561984e-04 1.211497507141e-04 0.035 30 4.057642310608e-04 1.134153213723e-03 7.911809986455e-04 1.527385140148e-06 0.037 30 4.992836487057e-04 1.114982368792e-03 7.007097283338e-04 3.311473423562e-09 0.039 30 5.981035069771e-04 1.091863069770e-03 6.018964835780e-04 4.715570269057e-12 - 0.041 30 6.952443474936e-04 1.064450372105e-03 5.047556524827e-04 4.874178811649e-15 - 0.043 30 7.836632305063e-04 1.032488160202e-03 4.163367694797e-04 3.756820568556e-18 - 0.045 30 8.570641426401e-04 9.958371475871e-04 3.429358573458e-04 2.162040603363e-21 - 0.047 30 9.120030965257e-04 9.544992448786e-04 2.879969034603e-04 9.624251825861e-25 - 0.049 30 9.490882858537e-04 9.086357270574e-04 2.509117141324e-04 1.785937928741e-28 + 0.041 30 6.952443474936e-04 1.064450372105e-03 5.047556524827e-04 4.874178811648e-15 + 0.043 30 7.836632305063e-04 1.032488160202e-03 4.163367694797e-04 3.756820568555e-18 + 0.045 30 8.570641426401e-04 9.958371475871e-04 3.429358573458e-04 2.162040603362e-21 + 0.047 30 9.120030965257e-04 9.544992448786e-04 2.879969034603e-04 9.624251825859e-25 + 0.049 30 9.490882858537e-04 9.086357270574e-04 2.509117141324e-04 1.785937928740e-28 0.051 30 9.719752366549e-04 8.585769085408e-04 2.280247633315e-04 0.000000000000e+00 0.053 30 9.851546494080e-04 8.048216090875e-04 2.148453505788e-04 0.000000000000e+00 0.055 30 9.923706279987e-04 7.480255249043e-04 2.076293719887e-04 0.000000000000e+00 @@ -1308,25 +1308,25 @@ 0.005 31 3.655384229462e-07 1.199890938413e-03 7.288864521801e-07 5.994527875633e-04 0.007 31 6.775400082926e-07 1.199800065579e-03 1.345161977187e-06 5.989886490084e-04 0.009 31 1.202838384045e-06 1.199650526663e-03 2.388987853022e-06 5.982040868828e-04 - 0.011 31 2.069445279475e-06 1.199410651479e-03 4.128750201162e-06 5.969009022612e-04 + 0.011 31 2.069445279475e-06 1.199410651479e-03 4.128750201163e-06 5.969009022612e-04 0.013 31 3.470464575256e-06 1.199035698000e-03 6.981616076135e-06 5.947739596761e-04 0.015 31 5.694498724802e-06 1.198463757117e-03 1.159339420914e-05 5.913560535351e-04 0.017 31 9.169200914088e-06 1.197610831604e-03 1.895676299281e-05 5.859370180489e-04 0.019 31 1.452163206577e-05 1.196365714772e-03 3.058348269671e-05 5.774474426213e-04 - 0.021 31 2.266340868341e-05 1.194584709586e-03 4.875786961230e-05 5.642893608549e-04 + 0.021 31 2.266340868341e-05 1.194584709586e-03 4.875786961230e-05 5.642893608548e-04 0.023 31 3.490917543310e-05 1.192086581041e-03 7.689794316503e-05 5.440964407037e-04 0.025 31 5.312621597780e-05 1.188648363043e-03 1.199598314477e-04 5.134569762900e-04 0.027 31 7.995355158204e-05 1.184002714030e-03 1.847822852526e-04 4.676320815851e-04 0.029 31 1.191248737685e-04 1.177837598725e-03 2.806301191620e-04 4.001225035366e-04 0.031 31 1.752334942354e-04 1.169799090890e-03 4.183541555461e-04 3.032061751096e-04 0.033 31 2.514471638497e-04 1.159498010172e-03 5.996472401944e-04 1.744527979753e-04 - 0.035 31 3.452587566292e-04 1.146520913137e-03 7.864046345745e-04 3.416830439221e-05 - 0.037 31 4.375204358097e-04 1.130445649332e-03 7.622909613343e-04 9.430142120604e-08 + 0.035 31 3.452587566292e-04 1.146520913137e-03 7.864046345745e-04 3.416830439220e-05 + 0.037 31 4.375204358097e-04 1.130445649332e-03 7.622909613343e-04 9.430142120602e-08 0.039 31 5.331225731743e-04 1.110861277734e-03 6.668771069394e-04 1.599362964883e-10 0.041 31 6.314026878434e-04 1.087391646825e-03 5.685973117279e-04 2.074818316595e-13 0.043 31 7.257073192021e-04 1.059721420813e-03 4.742926807836e-04 2.011556883776e-16 0.045 31 8.092224741861e-04 1.027622848312e-03 3.907775257999e-04 1.411913508966e-19 - 0.047 31 8.764371008608e-04 9.909811884968e-04 3.235628991252e-04 7.383919752421e-23 + 0.047 31 8.764371008608e-04 9.909811884968e-04 3.235628991252e-04 7.383919752419e-23 0.049 31 9.252026628396e-04 9.498165015503e-04 2.747973371465e-04 3.031786611013e-26 0.051 31 9.572502253044e-04 9.042995298103e-04 2.427497746818e-04 0.000000000000e+00 0.053 31 9.766450396841e-04 8.547596733255e-04 2.233549603025e-04 0.000000000000e+00 @@ -1360,17 +1360,17 @@ 0.025 32 4.182808207302e-05 1.191081309015e-03 9.680145536991e-05 5.306852312812e-04 0.027 32 6.317545543342e-05 1.187362307840e-03 1.499373985315e-04 4.934435730200e-04 0.029 32 9.447898879297e-05 1.182390231615e-03 2.299737540919e-04 4.377736285596e-04 - 0.031 32 1.396130016351e-04 1.175856274759e-03 3.456600130056e-04 3.573634926808e-04 + 0.031 32 1.396130016351e-04 1.175856274759e-03 3.456600130056e-04 3.573634926807e-04 0.033 32 2.021971650595e-04 1.167413686408e-03 4.959955652589e-04 2.509036348397e-04 0.035 32 2.833785626278e-04 1.156684906373e-03 6.614986619775e-04 1.275613876935e-04 0.037 32 3.805254979958e-04 1.143272735019e-03 8.151774965959e-04 2.148502697372e-06 - 0.039 32 4.703484373907e-04 1.126775644107e-03 7.296412875439e-04 5.137525878311e-09 - 0.041 32 5.668155698216e-04 1.106806950866e-03 6.331844138948e-04 8.134947254749e-12 - 0.043 32 6.637862895407e-04 1.083017134522e-03 5.362137104270e-04 9.294356591531e-15 - 0.045 32 7.546246527066e-04 1.055118116847e-03 4.453753472795e-04 7.901541227063e-18 - 0.047 32 8.327880021087e-04 1.022907912193e-03 3.672119978774e-04 5.018485963600e-21 - 0.049 32 8.937532196123e-04 9.862937382114e-04 3.062467803738e-04 2.461272893801e-24 - 0.051 32 9.366739309847e-04 9.453115232810e-04 2.633260690015e-04 7.220153585470e-28 + 0.039 32 4.703484373907e-04 1.126775644107e-03 7.296412875439e-04 5.137525878309e-09 + 0.041 32 5.668155698216e-04 1.106806950866e-03 6.331844138948e-04 8.134947254747e-12 + 0.043 32 6.637862895407e-04 1.083017134522e-03 5.362137104270e-04 9.294356591529e-15 + 0.045 32 7.546246527066e-04 1.055118116847e-03 4.453753472795e-04 7.901541227062e-18 + 0.047 32 8.327880021087e-04 1.022907912193e-03 3.672119978774e-04 5.018485963599e-21 + 0.049 32 8.937532196123e-04 9.862937382114e-04 3.062467803738e-04 2.461272893800e-24 + 0.051 32 9.366739309847e-04 9.453115232810e-04 2.633260690015e-04 7.220153585469e-28 0.053 32 9.641939407709e-04 9.001397947774e-04 2.358060592155e-04 0.000000000000e+00 0.055 32 9.805637998573e-04 8.511062065383e-04 2.194362001295e-04 0.000000000000e+00 0.057 32 9.897767291374e-04 7.986854609977e-04 2.102232708498e-04 0.000000000000e+00 @@ -1397,7 +1397,7 @@ 0.015 33 3.437718504289e-06 1.199093042332e-03 7.413424254106e-06 5.945744286225e-04 0.017 33 5.561381587934e-06 1.198579080111e-03 1.215667370104e-05 5.911409723574e-04 0.019 33 8.851552390538e-06 1.197821096860e-03 1.967414836306e-05 5.857371496253e-04 - 0.021 33 1.388593422306e-05 1.196724848657e-03 3.147289240653e-05 5.773205866875e-04 + 0.021 33 1.388593422306e-05 1.196724848657e-03 3.147289240654e-05 5.773205866875e-04 0.023 33 2.150408218432e-05 1.195168822035e-03 4.982697459564e-05 5.643344716125e-04 0.025 33 3.291695518707e-05 1.192999828664e-03 7.813206985425e-05 5.444754874819e-04 0.027 33 4.984666119822e-05 1.190029135914e-03 1.212983220316e-04 5.144275083876e-04 @@ -1405,14 +1405,14 @@ 0.031 33 1.110756984384e-04 1.180734830640e-03 2.823357741396e-04 4.032942637125e-04 0.033 33 1.632080204006e-04 1.173839764408e-03 4.215178206123e-04 3.076370794938e-04 0.035 33 2.341827310854e-04 1.165005363232e-03 6.047521550140e-04 1.805325569477e-04 - 0.037 33 3.217189625648e-04 1.153865833284e-03 7.883644030289e-04 4.495831719731e-05 + 0.037 33 3.217189625648e-04 1.153865833284e-03 7.883644030289e-04 4.495831719730e-05 0.039 33 4.111039105993e-04 1.140039932342e-03 7.886086153315e-04 1.437370277016e-07 - 0.041 33 5.034111114213e-04 1.123145965948e-03 6.965883694600e-04 2.595524736141e-10 + 0.041 33 5.034111114213e-04 1.123145965948e-03 6.965883694600e-04 2.595524736140e-10 0.043 33 6.000966111326e-04 1.102820199501e-03 5.999033881228e-04 3.654569452924e-13 - 0.045 33 6.951012149193e-04 1.078737954917e-03 5.048987850662e-04 3.938380618094e-16 - 0.047 33 7.818491095427e-04 1.050636258783e-03 4.181508904435e-04 3.085161429404e-19 - 0.049 33 8.543136689352e-04 1.018336552988e-03 3.456863310510e-04 1.775629689261e-22 - 0.051 33 9.090958682607e-04 9.817657207828e-04 2.909041317255e-04 7.907895969305e-26 + 0.045 33 6.951012149193e-04 1.078737954917e-03 5.048987850662e-04 3.938380618093e-16 + 0.047 33 7.818491095427e-04 1.050636258783e-03 4.181508904435e-04 3.085161429403e-19 + 0.049 33 8.543136689352e-04 1.018336552988e-03 3.456863310510e-04 1.775629689260e-22 + 0.051 33 9.090958682607e-04 9.817657207828e-04 2.909041317255e-04 7.907895969303e-26 0.053 33 9.465749866890e-04 9.409735691810e-04 2.534250132973e-04 0.000000000000e+00 0.055 33 9.700745973463e-04 8.961449789920e-04 2.299254026403e-04 0.000000000000e+00 0.057 33 9.838438316644e-04 8.476052062421e-04 2.161561683225e-04 0.000000000000e+00 @@ -1449,13 +1449,13 @@ 0.035 34 1.882623234632e-04 1.171792694103e-03 4.975072143779e-04 2.571152310782e-04 0.037 34 2.644844593831e-04 1.162578860634e-03 6.691134380901e-04 1.332010512595e-04 0.039 34 3.567411890040e-04 1.151045202021e-03 8.372462617405e-04 3.006274620859e-06 - 0.041 34 4.428394822448e-04 1.136826081219e-03 7.571448706241e-04 7.823558618946e-09 + 0.041 34 4.428394822448e-04 1.136826081219e-03 7.571448706241e-04 7.823558618944e-09 0.043 34 5.366005563566e-04 1.119558833883e-03 6.633994163216e-04 1.365401588903e-11 0.045 34 6.327408378012e-04 1.098901411777e-03 5.672591621506e-04 1.719752768037e-14 0.047 34 7.251375377275e-04 1.074552308828e-03 4.748624622587e-04 1.611668514146e-17 0.049 34 8.072542682700e-04 1.046271685997e-03 3.927457317162e-04 1.129742631874e-20 - 0.051 34 8.737953973510e-04 1.013902307039e-03 3.262046026353e-04 6.055550692809e-24 - 0.053 34 9.225774301469e-04 9.773886867519e-04 2.774225698394e-04 2.401341952942e-27 + 0.051 34 8.737953973510e-04 1.013902307039e-03 3.262046026353e-04 6.055550692807e-24 + 0.053 34 9.225774301469e-04 9.773886867519e-04 2.774225698394e-04 2.401341952941e-27 0.055 34 9.550679410230e-04 9.367927777117e-04 2.449320589634e-04 0.000000000000e+00 0.057 34 9.750354576796e-04 8.923046137240e-04 2.249645423071e-04 0.000000000000e+00 0.059 34 9.865832828099e-04 8.442466144434e-04 2.134167171771e-04 0.000000000000e+00 @@ -1463,7 +1463,7 @@ 0.063 34 9.964021148017e-04 7.393488311982e-04 2.035978851863e-04 0.000000000000e+00 0.065 34 9.981933783457e-04 6.837571557312e-04 2.018066216429e-04 0.000000000000e+00 0.067 34 9.991098699611e-04 6.270619524810e-04 2.008901300283e-04 0.000000000000e+00 - 0.069 34 9.995695896702e-04 5.701210558531e-04 2.004304103199e-04 0.000000000000e+00 + 0.069 34 9.995695896703e-04 5.701210558531e-04 2.004304103199e-04 0.000000000000e+00 0.071 34 9.997957876803e-04 5.139425478566e-04 2.002042123107e-04 0.000000000000e+00 0.073 34 9.999049476650e-04 4.599657767117e-04 2.000950523268e-04 0.000000000000e+00 0.075 34 9.999565466007e-04 4.108918980939e-04 2.000434533920e-04 0.000000000000e+00 @@ -1490,14 +1490,14 @@ 0.033 35 1.035716491180e-04 1.183238421377e-03 2.837584124483e-04 4.063349692182e-04 0.035 35 1.520050536199e-04 1.177311721281e-03 4.239173480033e-04 3.120387991885e-04 0.037 35 2.180405038339e-04 1.169719337812e-03 6.076288088350e-04 1.871653436628e-04 - 0.039 35 2.997449997764e-04 1.160138468563e-03 7.877071624682e-04 5.627391887193e-05 + 0.039 35 2.997449997764e-04 1.160138468563e-03 7.877071624682e-04 5.627391887192e-05 0.041 35 3.861688970714e-04 1.148226912126e-03 8.134020034198e-04 2.145497473929e-07 - 0.043 35 4.749963700209e-04 1.133634235310e-03 7.250028001664e-04 4.148994117969e-10 - 0.045 35 5.696231908603e-04 1.116015997317e-03 6.303768078661e-04 6.298653397979e-13 - 0.047 35 6.645976720482e-04 1.095050627674e-03 5.354023279365e-04 7.484128746118e-16 - 0.049 35 7.537251592171e-04 1.070458234356e-03 4.462748407691e-04 6.521473037243e-19 - 0.051 35 8.307443545305e-04 1.042020309752e-03 3.692556454558e-04 4.141919749739e-22 - 0.053 35 8.912658828555e-04 1.009599043294e-03 3.087341171308e-04 2.008186422763e-25 + 0.043 35 4.749963700209e-04 1.133634235310e-03 7.250028001664e-04 4.148994117968e-10 + 0.045 35 5.696231908603e-04 1.116015997317e-03 6.303768078661e-04 6.298653397978e-13 + 0.047 35 6.645976720482e-04 1.095050627674e-03 5.354023279365e-04 7.484128746116e-16 + 0.049 35 7.537251592171e-04 1.070458234356e-03 4.462748407691e-04 6.521473037241e-19 + 0.051 35 8.307443545305e-04 1.042020309752e-03 3.692556454558e-04 4.141919749738e-22 + 0.053 35 8.912658828555e-04 1.009599043294e-03 3.087341171308e-04 2.008186422762e-25 0.055 35 9.343320136985e-04 9.731547809820e-04 2.656679862879e-04 0.000000000000e+00 0.057 35 9.623130055296e-04 9.327601325949e-04 2.376869944570e-04 0.000000000000e+00 0.059 35 9.792063253632e-04 8.886093576031e-04 2.207936746236e-04 0.000000000000e+00 @@ -1529,18 +1529,18 @@ 0.027 36 2.441281717895e-05 1.195134851026e-03 6.386165381337e-05 5.558627645060e-04 0.029 36 3.691189186181e-05 1.193080724643e-03 9.900827814981e-05 5.320399149963e-04 0.031 36 5.533539367508e-05 1.190306770946e-03 1.523236785387e-04 4.961704638951e-04 - 0.033 36 8.226990451001e-05 1.186618001177e-03 2.321529690865e-04 4.427885632033e-04 + 0.033 36 8.226990451002e-05 1.186618001177e-03 2.321529690865e-04 4.427885632033e-04 0.035 36 1.211031925897e-04 1.181786421692e-03 3.470780616175e-04 3.659093728970e-04 0.037 36 1.753568023668e-04 1.175551640956e-03 4.990296781644e-04 2.628067597330e-04 - 0.039 36 2.469032083413e-04 1.167623635031e-03 6.765405948071e-04 1.382780984218e-04 - 0.041 36 3.343232319252e-04 1.157688063442e-03 8.572953263773e-04 4.190720841701e-06 + 0.039 36 2.469032083414e-04 1.167623635031e-03 6.765405948071e-04 1.382780984218e-04 + 0.041 36 3.343232319252e-04 1.157688063442e-03 8.572953263773e-04 4.190720841700e-06 0.043 36 4.167223747182e-04 1.145414403688e-03 7.832542023566e-04 1.171145555090e-08 0.045 36 5.075119564337e-04 1.130466989710e-03 6.924879989247e-04 2.231382077572e-11 - 0.047 36 6.022687222472e-04 1.112518804249e-03 5.977312776771e-04 3.089613963554e-14 - 0.049 36 6.954446244613e-04 1.091267602175e-03 5.045553755249e-04 3.191071871647e-17 - 0.051 36 7.807034069544e-04 1.066453655428e-03 4.192965930318e-04 2.468659276059e-20 - 0.053 36 8.522639509291e-04 1.037878140485e-03 3.477360490572e-04 1.448169002958e-23 - 0.055 36 9.067939683715e-04 1.005420971836e-03 2.932060316149e-04 6.512297573029e-27 + 0.047 36 6.022687222472e-04 1.112518804249e-03 5.977312776771e-04 3.089613963553e-14 + 0.049 36 6.954446244613e-04 1.091267602175e-03 5.045553755249e-04 3.191071871646e-17 + 0.051 36 7.807034069544e-04 1.066453655428e-03 4.192965930318e-04 2.468659276058e-20 + 0.053 36 8.522639509291e-04 1.037878140485e-03 3.477360490572e-04 1.448169002957e-23 + 0.055 36 9.067939683715e-04 1.005420971836e-03 2.932060316149e-04 6.512297573027e-27 0.057 36 9.445078154594e-04 9.690567594217e-04 2.554921845271e-04 0.000000000000e+00 0.059 36 9.684636397592e-04 9.288675828821e-04 2.315363602275e-04 0.000000000000e+00 0.061 36 9.827029677515e-04 8.850515125221e-04 2.172970322355e-04 0.000000000000e+00 @@ -1569,20 +1569,20 @@ 0.023 37 8.132391484350e-06 1.198212471944e-03 2.083888682836e-05 5.855143608454e-04 0.025 37 1.256823187820e-05 1.197364827261e-03 3.289622557738e-05 5.772677712741e-04 0.027 37 1.922587408018e-05 1.196176896907e-03 5.151090259460e-05 5.646316116646e-04 - 0.029 37 2.913797177841e-05 1.194538090727e-03 8.003987442220e-05 5.454110769017e-04 + 0.029 37 2.913797177841e-05 1.194538090727e-03 8.003987442221e-05 5.454110769017e-04 0.031 37 4.377710686354e-05 1.192311802255e-03 1.233266379533e-04 5.164481275935e-04 0.033 37 6.524589659016e-05 1.189332691659e-03 1.882296284903e-04 4.732622374615e-04 0.035 37 9.657012730538e-05 1.185404812333e-03 2.848636665702e-04 4.092831030633e-04 0.037 37 1.415571298114e-04 1.180300993168e-03 4.254517067487e-04 3.164955817198e-04 0.039 37 2.029646698237e-04 1.173763904202e-03 6.084923717760e-04 1.942714791973e-04 - 0.041 37 2.793166649216e-04 1.165509209812e-03 7.859133826670e-04 6.738497619997e-05 - 0.043 37 3.626453320983e-04 1.155231142278e-03 8.367293895460e-04 3.126391706312e-07 - 0.045 37 4.478789465773e-04 1.142610704779e-03 7.521197496445e-04 6.518819682297e-10 - 0.047 37 5.400761406490e-04 1.127326537425e-03 6.599238572113e-04 1.062836725649e-12 + 0.041 37 2.793166649216e-04 1.165509209812e-03 7.859133826670e-04 6.738497619996e-05 + 0.043 37 3.626453320983e-04 1.155231142278e-03 8.367293895460e-04 3.126391706311e-07 + 0.045 37 4.478789465773e-04 1.142610704779e-03 7.521197496445e-04 6.518819682296e-10 + 0.047 37 5.400761406490e-04 1.127326537425e-03 6.599238572113e-04 1.062836725648e-12 0.049 37 6.343896269527e-04 1.109068260412e-03 5.656103730306e-04 1.381533861459e-15 0.051 37 7.250985546563e-04 1.087551859810e-03 4.749014453299e-04 1.333746228678e-18 - 0.053 37 8.059363295599e-04 1.062536426406e-03 3.940636704264e-04 9.362556452170e-22 - 0.055 37 8.717941550352e-04 1.033841325561e-03 3.282058449511e-04 4.954856767510e-25 + 0.053 37 8.059363295599e-04 1.062536426406e-03 3.940636704264e-04 9.362556452167e-22 + 0.055 37 8.717941550352e-04 1.033841325561e-03 3.282058449511e-04 4.954856767509e-25 0.057 37 9.204789388019e-04 1.001362703288e-03 2.795210611845e-04 0.000000000000e+00 0.059 37 9.532600657813e-04 9.650881723261e-04 2.467399342052e-04 0.000000000000e+00 0.061 37 9.736631867424e-04 9.251086658239e-04 2.263368132443e-04 0.000000000000e+00 @@ -1618,14 +1618,14 @@ 0.037 38 1.128177429101e-04 1.184157757399e-03 3.474112410050e-04 3.698855080429e-04 0.039 38 1.633760670266e-04 1.178785069253e-03 5.003915185340e-04 2.681162072181e-04 0.041 38 2.305103287444e-04 1.171951747082e-03 6.835200109629e-04 1.429848301422e-04 - 0.043 38 3.131872066496e-04 1.163379390232e-03 8.751729442812e-04 5.819924527345e-06 - 0.045 38 3.919571356286e-04 1.152770854875e-03 8.080083596035e-04 1.725237666923e-08 - 0.047 38 4.795833726007e-04 1.139818474586e-03 7.204165563308e-04 3.552710858610e-11 - 0.049 38 5.725006008198e-04 1.124214719716e-03 6.274993990584e-04 5.388070607767e-14 - 0.051 38 6.657626044988e-04 1.105665082114e-03 5.342373954871e-04 6.128905730799e-17 - 0.053 38 7.533750371901e-04 1.083902746820e-03 4.466249627960e-04 5.230664505754e-20 - 0.055 38 8.293234965879e-04 1.058704388597e-03 3.706765033984e-04 3.371207619973e-23 - 0.057 38 8.893556105129e-04 1.029906241646e-03 3.106443894735e-04 1.643947370552e-26 + 0.043 38 3.131872066496e-04 1.163379390232e-03 8.751729442812e-04 5.819924527343e-06 + 0.045 38 3.919571356286e-04 1.152770854875e-03 8.080083596035e-04 1.725237666922e-08 + 0.047 38 4.795833726007e-04 1.139818474586e-03 7.204165563308e-04 3.552710858609e-11 + 0.049 38 5.725006008198e-04 1.124214719716e-03 6.274993990584e-04 5.388070607766e-14 + 0.051 38 6.657626044988e-04 1.105665082114e-03 5.342373954871e-04 6.128905730797e-17 + 0.053 38 7.533750371901e-04 1.083902746820e-03 4.466249627960e-04 5.230664505752e-20 + 0.055 38 8.293234965879e-04 1.058704388597e-03 3.706765033984e-04 3.371207619971e-23 + 0.057 38 8.893556105129e-04 1.029906241646e-03 3.106443894735e-04 1.643947370551e-26 0.059 38 9.324437874438e-04 9.974194868942e-04 2.675562125427e-04 0.000000000000e+00 0.061 38 9.607444879646e-04 9.612440840724e-04 2.392555120221e-04 0.000000000000e+00 0.063 38 9.780427651354e-04 9.214806920496e-04 2.219572348515e-04 0.000000000000e+00 @@ -1649,7 +1649,7 @@ 0.015 39 7.595227701204e-07 1.199812528584e-03 1.942908552432e-06 5.986487843395e-04 0.017 39 1.243077197647e-06 1.199700937444e-03 3.207872189256e-06 5.977745253074e-04 0.019 39 2.003004412688e-06 1.199532244790e-03 5.229619974424e-06 5.963836878075e-04 - 0.021 39 3.183009906753e-06 1.199281655773e-03 8.431721919337e-06 5.941926340882e-04 + 0.021 39 3.183009906754e-06 1.199281655773e-03 8.431721919337e-06 5.941926340882e-04 0.023 39 4.995591931398e-06 1.198915586126e-03 1.346232785590e-05 5.907710401077e-04 0.025 39 7.752838737681e-06 1.198389357613e-03 2.130764123450e-05 5.854697600155e-04 0.027 39 1.191041310404e-05 1.197644593792e-03 3.346006609276e-05 5.773147604033e-04 @@ -1660,15 +1660,15 @@ 0.037 39 9.003195013618e-05 1.187281730277e-03 2.855908746944e-04 4.121885875856e-04 0.039 39 1.318086009292e-04 1.182879241430e-03 4.260623354961e-04 3.210645317870e-04 0.041 39 1.889080137567e-04 1.177241433111e-03 6.077165367178e-04 2.016877247598e-04 - 0.043 39 2.603643664429e-04 1.170118187884e-03 7.839909572245e-04 7.782233816069e-05 - 0.045 39 3.404611737921e-04 1.161237227843e-03 8.586500292582e-04 4.443984673834e-07 + 0.043 39 2.603643664429e-04 1.170118187884e-03 7.839909572245e-04 7.782233816068e-05 + 0.045 39 3.404611737921e-04 1.161237227843e-03 8.586500292582e-04 4.443984673833e-07 0.047 39 4.220469845950e-04 1.150310034183e-03 7.779510076103e-04 1.003890058369e-09 - 0.049 39 5.115253005113e-04 1.137040043079e-03 6.884746959643e-04 1.755039643599e-12 + 0.049 39 5.115253005113e-04 1.137040043079e-03 6.884746959643e-04 1.755039643598e-12 0.051 39 6.046404180212e-04 1.121133072735e-03 5.953595819597e-04 2.478187148698e-15 0.053 39 6.961990577513e-04 1.102309749091e-03 5.038009422347e-04 2.638319587029e-18 - 0.055 39 7.801081588497e-04 1.080319497868e-03 4.198918411364e-04 2.048698942557e-21 + 0.055 39 7.801081588497e-04 1.080319497868e-03 4.198918411364e-04 2.048698942556e-21 0.057 39 8.507977416849e-04 1.054955486149e-03 3.492022583014e-04 1.188762656388e-24 - 0.059 39 9.050051615534e-04 1.026069777176e-03 2.949948384330e-04 2.657841335069e-28 + 0.059 39 9.050051615534e-04 1.026069777176e-03 2.949948384330e-04 2.657841335068e-28 0.061 39 9.428281033334e-04 9.935880118684e-04 2.571718966532e-04 0.000000000000e+00 0.063 39 9.671121336654e-04 9.575234085473e-04 2.328878663214e-04 0.000000000000e+00 0.065 39 9.817202344239e-04 9.179914436129e-04 2.182797655631e-04 0.000000000000e+00 @@ -1685,9 +1685,9 @@ 0.003 40 1.803453723419e-08 1.199995258755e-03 4.826713169117e-08 5.999668491656e-04 0.005 40 3.544977466059e-08 1.199990717941e-03 9.383943174520e-08 5.999353553970e-04 0.007 40 6.636631011590e-08 1.199982746181e-03 1.742547887813e-07 5.998796894508e-04 - 0.009 40 1.192387356786e-07 1.199969327231e-03 3.117524216529e-07 5.997845044216e-04 + 0.009 40 1.192387356786e-07 1.199969327231e-03 3.117524216530e-07 5.997845044216e-04 0.011 40 2.079814157981e-07 1.199947241411e-03 5.432794366907e-07 5.996243695742e-04 - 0.013 40 3.541637720535e-07 1.199911707871e-03 9.271248995684e-07 5.993593556647e-04 + 0.013 40 3.541637720535e-07 1.199911707871e-03 9.271248995685e-07 5.993593556647e-04 0.015 40 5.909242145276e-07 1.199855740412e-03 1.554898425392e-06 5.989270886807e-04 0.017 40 9.687385798427e-07 1.199769284866e-03 2.569712198367e-06 5.982307746117e-04 0.019 40 1.563698128594e-06 1.199638138440e-03 4.193519243442e-06 5.971213913149e-04 @@ -1697,20 +1697,20 @@ 0.027 40 9.370453778756e-06 1.198153053860e-03 2.695700582160e-05 5.818362702014e-04 0.029 40 1.429262261525e-05 1.197328435764e-03 4.208211848904e-05 5.718126294495e-04 0.031 40 2.161902133632e-05 1.196189965869e-03 6.524634857061e-05 5.565673150482e-04 - 0.033 40 3.245385243572e-05 1.194640351225e-03 1.005013464460e-04 5.335224005608e-04 + 0.033 40 3.245385243573e-05 1.194640351225e-03 1.005013464460e-04 5.335224005608e-04 0.035 40 4.837453748950e-05 1.192560298570e-03 1.537804712133e-04 4.989224956501e-04 - 0.037 40 7.159837399477e-05 1.189806242376e-03 2.331583298594e-04 4.476216480740e-04 + 0.037 40 7.159837399477e-05 1.189806242376e-03 2.331583298595e-04 4.476216480740e-04 0.039 40 1.051040951626e-04 1.186208702467e-03 3.474114860503e-04 3.737422093937e-04 0.041 40 1.522342348533e-04 1.181571580278e-03 5.014498807068e-04 2.731579422183e-04 0.043 40 2.152029276511e-04 1.175672718328e-03 6.898387037036e-04 1.474791843184e-04 - 0.045 40 2.932527690820e-04 1.168266036671e-03 8.906554455404e-04 8.045892681437e-06 + 0.045 40 2.932527690820e-04 1.168266036671e-03 8.906554455404e-04 8.045892681435e-06 0.047 40 3.685000822864e-04 1.159085516967e-03 8.314498137286e-04 2.505198504411e-08 - 0.049 40 4.528319961142e-04 1.147851225343e-03 7.471678934926e-04 5.518930818311e-11 - 0.051 40 5.435402920057e-04 1.134277449401e-03 6.564597077975e-04 9.123735547024e-14 + 0.049 40 4.528319961142e-04 1.147851225343e-03 7.471678934926e-04 5.518930818310e-11 + 0.051 40 5.435402920057e-04 1.134277449401e-03 6.564597077975e-04 9.123735547022e-14 0.053 40 6.362814540869e-04 1.118082876813e-03 5.637185458987e-04 1.140997676963e-16 - 0.055 40 7.255005920563e-04 1.099002575116e-03 4.744994079298e-04 1.073233810853e-19 - 0.057 40 8.051606874482e-04 1.076801367255e-03 3.948393125380e-04 7.602566439002e-23 - 0.059 40 8.703311683284e-04 1.051288081935e-03 3.296688316579e-04 4.063424214446e-26 + 0.055 40 7.255005920563e-04 1.099002575116e-03 4.744994079298e-04 1.073233810852e-19 + 0.057 40 8.051606874482e-04 1.076801367255e-03 3.948393125380e-04 7.602566439000e-23 + 0.059 40 8.703311683284e-04 1.051288081935e-03 3.296688316579e-04 4.063424214445e-26 0.061 40 9.188311612618e-04 1.022330196903e-03 2.811688387246e-04 0.000000000000e+00 0.063 40 9.517806067201e-04 9.898688516790e-04 2.482193932665e-04 0.000000000000e+00 0.065 40 9.725055347922e-04 9.539357602515e-04 2.274944651946e-04 0.000000000000e+00 diff --git a/mytest/dist_x_101.sel b/mytest/dist_x_101.sel index e8362e12..cc382ef9 100644 --- a/mytest/dist_x_101.sel +++ b/mytest/dist_x_101.sel @@ -1,1726 +1,1726 @@ Mu SC - 0.001800104024 155.2535883375 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001243279624 152.1126716269 - 0.001200275061 149.7794207531 - 0.001200104583 147.1429065435 - 0.001200104501 146.1726484692 - 0.001200104502 145.9395297022 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001381567230 154.5987194848 - 0.001233984469 154.1006617163 - 0.001200116555 150.1357990193 - 0.001200104500 147.6562982901 - 0.001200104500 146.6026243872 - 0.001200104501 146.1590643148 - 0.001200104502 145.9830263770 - 0.001200104502 145.9257409196 - 0.001200104502 145.9124193552 - 0.001200104502 145.9104720745 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001515795455 155.1689312499 - 0.001392269720 154.7073959879 - 0.001201727423 153.8517797819 - 0.001200105193 150.1124812094 - 0.001200104497 147.9841709019 - 0.001200104499 146.9184467252 - 0.001200104500 146.3798907908 - 0.001200104501 146.1094865584 - 0.001200104502 145.9840741009 - 0.001200104502 145.9333072032 - 0.001200104502 145.9161315628 - 0.001200104502 145.9114673841 - 0.001200104502 145.9104970640 - 0.001200104502 145.9103521648 - 0.001200104502 145.9103383114 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001585344409 155.5823584487 - 0.001469580536 155.6750188202 - 0.001314021607 155.1914707673 - 0.001200269589 153.2190224550 - 0.001200104551 150.0459439791 - 0.001200104496 148.1650478686 - 0.001200104498 147.1436969100 - 0.001200104500 146.5724571333 - 0.001200104501 146.2459896898 - 0.001200104501 146.0661303505 - 0.001200104502 145.9751759652 - 0.001200104502 145.9341558907 - 0.001200104502 145.9179444913 - 0.001200104502 145.9124129482 - 0.001200104502 145.9108107298 - 0.001200104502 145.9104251775 - 0.001200104502 145.9103502786 - 0.001200104502 145.9103390000 - 0.001200104502 145.9103377639 - 0.001200104502 145.9103376762 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001647742551 155.5827436653 - 0.001555445643 155.7297841847 - 0.001397161121 155.9542110970 - 0.001212082932 156.2153466827 - 0.001200111822 152.6713289270 - 0.001200104496 149.9218901720 - 0.001200104496 148.2650356839 - 0.001200104498 147.3093748051 - 0.001200104499 146.7340040002 - 0.001200104500 146.3758490496 - 0.001200104501 146.1569179235 - 0.001200104501 146.0309017270 - 0.001200104502 145.9641972093 - 0.001200104502 145.9321405108 - 0.001200104502 145.9182716777 - 0.001200104502 145.9129102204 - 0.001200104502 145.9110731743 - 0.001200104502 145.9105207275 - 0.001200104502 145.9103766986 - 0.001200104502 145.9103446526 - 0.001200104502 145.9103386914 - 0.001200104502 145.9103377895 - 0.001200104502 145.9103376829 - 0.001200104502 145.9103376737 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001688149010 155.5834892397 - 0.001614638914 155.8074294955 - 0.001488763042 156.0846214353 - 0.001342760599 156.0745012083 - 0.001200781637 155.5082335837 - 0.001200104903 152.1654126046 - 0.001200104493 149.7835890026 - 0.001200104495 148.3200812051 - 0.001200104497 147.4339234897 - 0.001200104499 146.8687111911 - 0.001200104500 146.4942774828 - 0.001200104501 146.2483165110 - 0.001200104501 146.0939222129 - 0.001200104501 146.0032093182 - 0.001200104502 145.9538506319 - 0.001200104502 145.9291283051 - 0.001200104502 145.9177805058 - 0.001200104502 145.9130273658 - 0.001200104502 145.9112191437 - 0.001200104502 145.9105978008 - 0.001200104502 145.9104062207 - 0.001200104502 145.9103536398 - 0.001200104502 145.9103409206 - 0.001200104502 145.9103382406 - 0.001200104502 145.9103377566 - 0.001200104502 145.9103376832 - 0.001200104502 145.9103376741 - 0.001200104502 145.9103376733 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001718101391 155.5400487886 - 0.001662232492 155.7367594905 - 0.001554983501 156.1386555489 - 0.001404680886 156.7768421777 - 0.001244826375 157.2909503456 - 0.001200143905 154.7352153656 - 0.001200104508 151.7196114235 - 0.001200104493 149.6464268452 - 0.001200104495 148.3490124746 - 0.001200104497 147.5297822577 - 0.001200104498 146.9818218823 - 0.001200104500 146.6006499524 - 0.001200104500 146.3364227128 - 0.001200104501 146.1598128249 - 0.001200104501 146.0480561610 - 0.001200104502 145.9817174639 - 0.001200104502 145.9449560961 - 0.001200104502 145.9259984106 - 0.001200104502 145.9169244654 - 0.001200104502 145.9129042769 - 0.001200104502 145.9112605830 - 0.001200104502 145.9106425623 - 0.001200104502 145.9104297370 - 0.001200104502 145.9103629327 - 0.001200104502 145.9103439268 - 0.001200104502 145.9103390590 - 0.001200104502 145.9103379452 - 0.001200104502 145.9103377199 - 0.001200104502 145.9103376801 - 0.001200104502 145.9103376741 - 0.001200104502 145.9103376733 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001739076298 155.5001292104 - 0.001696261211 155.6815464955 - 0.001614364659 156.0219263079 - 0.001498294447 156.4645663211 - 0.001356462926 156.9049059762 - 0.001202014806 157.2996986444 - 0.001200106115 153.9935595118 - 0.001200104492 151.3306155633 - 0.001200104493 149.5190853201 - 0.001200104495 148.3628696804 - 0.001200104497 147.6054670661 - 0.001200104498 147.0778294900 - 0.001200104499 146.6958112056 - 0.001200104500 146.4195765935 - 0.001200104501 146.2258671571 - 0.001200104501 146.0962518280 - 0.001200104501 146.0141601851 - 0.001200104502 145.9651477817 - 0.001200104502 145.9376291188 - 0.001200104502 145.9231259643 - 0.001200104502 145.9159636937 - 0.001200104502 145.9126555988 - 0.001200104502 145.9112295604 - 0.001200104502 145.9106571987 - 0.001200104502 145.9104438917 - 0.001200104502 145.9103703106 - 0.001200104502 145.9103469018 - 0.001200104502 145.9103400631 - 0.001200104502 145.9103382364 - 0.001200104502 145.9103377932 - 0.001200104502 145.9103376961 - 0.001200104502 145.9103376771 - 0.001200104502 145.9103376738 - 0.001200104502 145.9103376733 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001754546896 155.4591004241 - 0.001722284571 155.6071520700 - 0.001657753784 155.9168141519 - 0.001556353525 156.4637389442 - 0.001419306013 157.2729341628 - 0.001278965431 157.8148460049 - 0.001200236583 156.4423371674 - 0.001200104563 153.3493256586 - 0.001200104491 150.9925176408 - 0.001200104493 149.4031243567 - 0.001200104495 148.3682996992 - 0.001200104496 147.6667802930 - 0.001200104498 147.1602974049 - 0.001200104499 146.7810456857 - 0.001200104500 146.4972488470 - 0.001200104501 146.2905174784 - 0.001200104501 146.1460085364 - 0.001200104501 146.0497595451 - 0.001200104502 145.9888921320 - 0.001200104502 145.9524160759 - 0.001200104502 145.9317305212 - 0.001200104502 145.9206430632 - 0.001200104502 145.9150331419 - 0.001200104502 145.9123574025 - 0.001200104502 145.9111561792 - 0.001200104502 145.9106494896 - 0.001200104502 145.9104490672 - 0.001200104502 145.9103748894 - 0.001200104502 145.9103492662 - 0.001200104502 145.9103410297 - 0.001200104502 145.9103385725 - 0.001200104502 145.9103378953 - 0.001200104502 145.9103377235 - 0.001200104502 145.9103376836 - 0.001200104502 145.9103376751 - 0.001200104502 145.9103376735 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001765844124 155.4232811536 - 0.001740975329 155.5511501359 - 0.001691316494 155.8120076548 - 0.001613872246 156.2305250086 - 0.001504296226 156.8354653797 - 0.001363891725 157.6517766376 - 0.001204861291 158.7377418809 - 0.001200109397 155.5925564124 - 0.001200104492 152.7803223432 - 0.001200104491 150.7009581257 - 0.001200104493 149.3002309210 - 0.001200104495 148.3692860510 - 0.001200104496 147.7176628557 - 0.001200104498 147.2319853150 - 0.001200104499 146.8576671170 - 0.001200104500 146.5694633037 - 0.001200104500 146.3529070182 - 0.001200104501 146.1961010997 - 0.001200104501 146.0873659493 - 0.001200104501 146.0153766924 - 0.001200104502 145.9699467080 - 0.001200104502 145.9426490203 - 0.001200104502 145.9270453657 - 0.001200104502 145.9185680738 - 0.001200104502 145.9141948341 - 0.001200104502 145.9120548718 - 0.001200104502 145.9110627744 - 0.001200104502 145.9106275864 - 0.001200104502 145.9104472280 - 0.001200104502 145.9103767230 - 0.001200104502 145.9103507733 - 0.001200104502 145.9103418004 - 0.001200104502 145.9103388904 - 0.001200104502 145.9103380083 - 0.001200104502 145.9103377590 - 0.001200104502 145.9103376936 - 0.001200104502 145.9103376777 - 0.001200104502 145.9103376741 - 0.001200104502 145.9103376734 - 0.001200104502 145.9103376732 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001774198576 155.3928549265 - 0.001755280736 155.4967370111 - 0.001717122157 155.7100912325 - 0.001655028278 156.0826861334 - 0.001560450512 156.7153147969 - 0.001434227010 157.6077275289 - 0.001302018610 158.3119266750 - 0.001200417293 157.9040206588 - 0.001200104723 154.8254673985 - 0.001200104490 152.2852044815 - 0.001200104491 150.4490887052 - 0.001200104493 149.2101352288 - 0.001200104494 148.3682928297 - 0.001200104496 147.7608664253 - 0.001200104497 147.2950115103 - 0.001200104498 146.9268693920 - 0.001200104499 146.6365010405 - 0.001200104500 146.4126115396 - 0.001200104501 146.2457163002 - 0.001200104501 146.1260951446 - 0.001200104501 146.0438764102 - 0.001200104502 145.9897603142 - 0.001200104502 145.9556806154 - 0.001200104502 145.9351605552 - 0.001200104502 145.9233549299 - 0.001200104502 145.9168696922 - 0.001200104502 145.9134706194 - 0.001200104502 145.9117722625 - 0.001200104502 145.9109640446 - 0.001200104502 145.9105981025 - 0.001200104502 145.9104406364 - 0.001200104502 145.9103763224 - 0.001200104502 145.9103514243 - 0.001200104502 145.9103423034 - 0.001200104502 145.9103391449 - 0.001200104502 145.9103381139 - 0.001200104502 145.9103377972 - 0.001200104502 145.9103377059 - 0.001200104502 145.9103376813 - 0.001200104502 145.9103376754 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001780456986 155.3667654553 - 0.001765904895 155.4525919709 - 0.001736297828 155.6308167611 - 0.001688221653 155.9322902374 - 0.001614915779 156.4155370992 - 0.001509310092 157.1620048656 - 0.001370019858 158.2856996089 - 0.001210769561 159.8623153856 - 0.001200116834 157.0136190857 - 0.001200104497 154.1338429092 - 0.001200104490 151.8550079406 - 0.001200104491 150.2328236412 - 0.001200104493 149.1321535320 - 0.001200104494 148.3667413001 - 0.001200104496 147.7983199483 - 0.001200104497 147.3510046231 - 0.001200104498 146.9896870382 - 0.001200104499 146.6987483694 - 0.001200104500 146.4694657665 - 0.001200104501 146.2943305152 - 0.001200104501 146.1652873124 - 0.001200104501 146.0737813725 - 0.001200104501 146.0114083550 - 0.001200104502 145.9705703764 - 0.001200104502 145.9449010307 - 0.001200104502 145.9294189281 - 0.001200104502 145.9204635476 - 0.001200104502 145.9154983914 - 0.001200104502 145.9128614029 - 0.001200104502 145.9115207564 - 0.001200104502 145.9108687897 - 0.001200104502 145.9105657611 - 0.001200104502 145.9104312694 - 0.001200104502 145.9103743278 - 0.001200104502 145.9103513550 - 0.001200104502 145.9103425351 - 0.001200104502 145.9103393146 - 0.001200104502 145.9103381993 - 0.001200104502 145.9103378351 - 0.001200104502 145.9103377303 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001785133839 155.3454186159 - 0.001773963073 155.4152154286 - 0.001751160512 155.5594678249 - 0.001713667674 155.8057735366 - 0.001654523427 156.2238215467 - 0.001565526947 156.9124795012 - 0.001447115934 157.8760397942 - 0.001317607137 158.8101122169 - 0.001200712114 159.1878789059 - 0.001200105077 156.1716068223 - 0.001200104488 153.5206243483 - 0.001200104490 151.4820114436 - 0.001200104491 150.0475849101 - 0.001200104493 149.0652975112 - 0.001200104494 148.3654652855 - 0.001200104496 147.8313903174 - 0.001200104497 147.4012214883 - 0.001200104498 147.0469970239 - 0.001200104499 146.7566197038 - 0.001200104500 146.5234568334 - 0.001200104500 146.3416196770 - 0.001200104501 146.2044603933 - 0.001200104501 146.1045958661 - 0.001200104501 146.0344836396 - 0.001200104502 145.9870473907 - 0.001200104502 145.9561323500 - 0.001200104502 145.9367323766 - 0.001200104502 145.9250149940 - 0.001200104502 145.9182061726 - 0.001200104502 145.9144014638 - 0.001200104502 145.9123580543 - 0.001200104502 145.9113038405 - 0.001200104502 145.9107817176 - 0.001200104502 145.9105336362 - 0.001200104502 145.9104206375 - 0.001200104502 145.9103713360 - 0.001200104502 145.9103507503 - 0.001200104502 145.9103425389 - 0.001200104502 145.9103394363 - 0.001200104502 145.9103384195 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001788667081 155.3277498262 - 0.001780072674 155.3842874203 - 0.001762396559 155.5021720629 - 0.001733106898 155.7041606386 - 0.001686987894 156.0372973500 - 0.001616688884 156.5761654092 - 0.001514083532 157.4425284697 - 0.001376337368 158.8101563098 - 0.001221323335 160.6607403709 - 0.001200132201 158.2923488955 - 0.001200104509 155.3994001555 - 0.001200104488 152.9779354766 - 0.001200104490 151.1598105643 - 0.001200104491 149.8894655645 - 0.001200104493 149.0084144550 - 0.001200104494 148.3649065670 - 0.001200104495 147.8610568660 - 0.001200104497 147.4466393653 - 0.001200104498 147.0995356345 - 0.001200104499 146.8105195626 - 0.001200104500 146.5746591392 - 0.001200104500 146.3873956869 - 0.001200104501 146.2432685320 - 0.001200104501 146.1359257758 - 0.001200104501 146.0586313258 - 0.001200104501 146.0048476119 - 0.001200104502 145.9686963501 - 0.001200104502 145.9452308543 - 0.001200104502 145.9305269350 - 0.001200104502 145.9216351645 - 0.001200104502 145.9164479180 - 0.001200104502 145.9135297798 - 0.001200104502 145.9119474184 - 0.001200104502 145.9111207533 - 0.001200104502 145.9107048881 - 0.001200104502 145.9105035485 - 0.001200104502 145.9104098002 - 0.001200104502 145.9103678982 - 0.001200104502 145.9103501551 - 0.001200104502 145.9103437454 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001791339711 155.3133651997 - 0.001784711635 155.3590977132 - 0.001771034358 155.4544287835 - 0.001748237349 155.6176174035 - 0.001711856380 155.8900137743 - 0.001655061646 156.3449786288 - 0.001570572213 157.0777751680 - 0.001457676640 158.1159361318 - 0.001328793591 159.2909049841 - 0.001201174008 160.3312620478 - 0.001200105769 157.4084259224 - 0.001200104488 154.6995225353 - 0.001200104488 152.5006529036 - 0.001200104490 150.8824473297 - 0.001200104491 149.7548694902 - 0.001200104493 148.9603445969 - 0.001200104494 148.3652665259 - 0.001200104495 147.8880267969 - 0.001200104497 147.4880243425 - 0.001200104498 147.1479192451 - 0.001200104499 146.8608251719 - 0.001200104499 146.6231945881 - 0.001200104500 146.4315623162 - 0.001200104501 146.2814683689 - 0.001200104501 146.1674626247 - 0.001200104501 146.0835501152 - 0.001200104501 146.0237262246 - 0.001200104502 145.9824271254 - 0.001200104502 145.9548268300 - 0.001200104502 145.9369749095 - 0.001200104502 145.9258027075 - 0.001200104502 145.9190395428 - 0.001200104502 145.9150805778 - 0.001200104502 145.9128403897 - 0.001200104502 145.9116155039 - 0.001200104502 145.9109686056 - 0.001200104502 145.9106388049 - 0.001200104502 145.9104768993 - 0.001200104502 145.9104017004 - 0.001200104502 145.9103724039 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001793371116 155.3016754371 - 0.001788253436 155.3385286906 - 0.001777648226 155.4155635377 - 0.001759839656 155.5481868967 - 0.001731263664 155.7691357800 - 0.001686660341 156.1303039574 - 0.001618761889 156.7176847914 - 0.001518691763 157.6850136415 - 0.001383468358 159.2302130856 - 0.001236392476 161.1584624475 - 0.001200161882 159.4529785208 - 0.001200104536 156.5854249772 - 0.001200104487 154.0682971369 - 0.001200104488 152.0824130818 - 0.001200104490 150.6445030119 - 0.001200104491 149.6405836282 - 0.001200104493 148.9199728555 - 0.001200104494 148.3665989351 - 0.001200104495 147.9128159151 - 0.001200104496 147.5259823997 - 0.001200104498 147.1926642389 - 0.001200104498 146.9078798192 - 0.001200104499 146.6692084113 - 0.001200104500 146.4740848598 - 0.001200104500 146.3188928674 - 0.001200104501 146.1989679841 - 0.001200104501 146.1089886358 - 0.001200104501 146.0434633130 - 0.001200104502 145.9971613374 - 0.001200104502 145.9654201638 - 0.001200104502 145.9443148892 - 0.001200104502 145.9307063815 - 0.001200104502 145.9221992976 - 0.001200104502 145.9170447360 - 0.001200104502 145.9140183578 - 0.001200104502 145.9122971268 - 0.001200104502 145.9113493920 - 0.001200104502 145.9108458801 - 0.001200104502 145.9105934802 - 0.001200104502 145.9104890656 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001794919750 155.2922165467 - 0.001790959913 155.3218969914 - 0.001782728094 155.3840184339 - 0.001768844096 155.4909808342 - 0.001746408166 155.6695427831 - 0.001710919831 155.9651251236 - 0.001656085844 156.4517614842 - 0.001575123059 157.2256135531 - 0.001466087910 158.3432855307 - 0.001337080305 159.7501510569 - 0.001201902227 161.3550764751 - 0.001200107049 158.5513652256 - 0.001200104488 155.8237668426 - 0.001200104487 153.5037559250 - 0.001200104489 151.7180194703 - 0.001200104490 150.4409581571 - 0.001200104491 149.5437306194 - 0.001200104493 148.8862642284 - 0.001200104494 148.3688702583 - 0.001200104495 147.9358043128 - 0.001200104496 147.5609974846 - 0.001200104497 147.2342045222 - 0.001200104498 146.9519917229 - 0.001200104499 146.7128545845 - 0.001200104500 146.5149693110 - 0.001200104500 146.3554314438 - 0.001200104501 146.2302597080 - 0.001200104501 146.1347398192 - 0.001200104501 146.0638654912 - 0.001200104501 146.0127443998 - 0.001200104502 145.9769057268 - 0.001200104502 145.9524898855 - 0.001200104502 145.9363283209 - 0.001200104502 145.9259361851 - 0.001200104502 145.9194461774 - 0.001200104502 145.9155107197 - 0.001200104502 145.9131950919 - 0.001200104502 145.9118788460 - 0.001200104502 145.9111754791 - 0.001200104502 145.9108699911 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001796103681 155.2845870082 - 0.001793035709 155.3084473204 - 0.001786638731 155.3584600015 - 0.001775794061 155.4448151401 - 0.001758155906 155.5894784091 - 0.001730154779 155.8277983337 - 0.001686811930 156.2142617197 - 0.001620877806 156.8451674028 - 0.001523180260 157.8949811360 - 0.001391674703 159.5522707569 - 0.001253360753 161.4639282160 - 0.001200214663 160.5128986208 - 0.001200104593 157.6989700056 - 0.001200104486 155.1249458368 - 0.001200104487 153.0008862073 - 0.001200104489 151.4020283080 - 0.001200104490 150.2673064229 - 0.001200104491 149.4617859408 - 0.001200104493 148.8582791591 - 0.001200104494 148.3719978891 - 0.001200104495 147.9572752819 - 0.001200104496 147.5934599369 - 0.001200104497 147.2729062796 - 0.001200104498 146.9934356102 - 0.001200104499 146.7542871751 - 0.001200104500 146.5542480864 - 0.001200104500 146.3910150576 - 0.001200104501 146.2612003778 - 0.001200104501 146.1606347717 - 0.001200104501 146.0847652388 - 0.001200104501 146.0290338196 - 0.001200104502 145.9891786601 - 0.001200104502 145.9614352078 - 0.001200104502 145.9426392294 - 0.001200104502 145.9302476245 - 0.001200104502 145.9222997170 - 0.001200104502 145.9173441986 - 0.001200104502 145.9143577298 - 0.001200104502 145.9126728592 - 0.001200104502 145.9119111185 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001797011299 155.2784435698 - 0.001794630348 155.2976137071 - 0.001789652333 155.3378543509 - 0.001781180591 155.4074158122 - 0.001767341005 155.5239767035 - 0.001745206146 155.7167214706 - 0.001710515123 156.0328014644 - 0.001657340525 156.5475879678 - 0.001579153988 157.3608860693 - 0.001472910359 158.5591521828 - 0.001343543055 160.1819730331 - 0.001203047849 162.2703362788 - 0.001200109296 159.6121232108 - 0.001200104490 156.8953716077 - 0.001200104487 154.4893922325 - 0.001200104488 152.5563629990 - 0.001200104489 151.1291884758 - 0.001200104490 150.1194358732 - 0.001200104491 149.3925409800 - 0.001200104492 148.8351812223 - 0.001200104494 148.3758753699 - 0.001200104495 147.9774426864 - 0.001200104496 147.6236877795 - 0.001200104497 147.3090801300 - 0.001200104498 147.0324554933 - 0.001200104499 146.7936553645 - 0.001200104500 146.5919702442 - 0.001200104500 146.4256050924 - 0.001200104501 146.2916878668 - 0.001200104501 146.1865368924 - 0.001200104501 146.1060190398 - 0.001200104501 146.0459006620 - 0.001200104502 146.0021378259 - 0.001200104502 145.9710825119 - 0.001200104502 145.9496021557 - 0.001200104502 145.9351234750 - 0.001200104502 145.9256228626 - 0.001200104502 145.9195969845 - 0.001200104502 145.9160354600 - 0.001200104502 145.9143703501 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001797708641 155.2735067156 - 0.001795858359 155.2888960835 - 0.001791980769 155.3212364100 - 0.001785356620 155.3772352585 - 0.001774480718 155.4713100283 - 0.001756992268 155.6271612448 - 0.001729514958 155.8811656133 - 0.001687246622 156.2907237787 - 0.001622990362 156.9601495478 - 0.001527749348 158.0730185492 - 0.001400744851 159.7913648468 - 0.001269452478 161.6923674843 - 0.001200299901 161.4857679114 - 0.001200104704 158.7458965372 - 0.001200104486 156.1468546872 - 0.001200104487 153.9140506403 - 0.001200104488 152.1657456420 - 0.001200104489 150.8945494800 - 0.001200104490 149.9937083902 - 0.001200104491 149.3340772087 - 0.001200104492 148.8162336848 - 0.001200104494 148.3803879951 - 0.001200104495 147.9964704019 - 0.001200104496 147.6519427587 - 0.001200104497 147.3429910271 - 0.001200104498 147.0692678473 - 0.001200104499 146.8311007442 - 0.001200104499 146.6281947924 - 0.001200104500 146.4591850849 - 0.001200104500 146.3216477621 - 0.001200104501 146.2123365694 - 0.001200104501 146.1275049946 - 0.001200104501 146.0632298497 - 0.001200104501 146.0156880771 - 0.001200104502 145.9813636219 - 0.001200104502 145.9571797224 - 0.001200104502 145.9405734104 - 0.001200104502 145.9295554861 - 0.001200104502 145.9227759953 - 0.001200104502 145.9195152195 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001798245673 155.2695430837 - 0.001796805814 155.2818912599 - 0.001793781588 155.3078736842 - 0.001788597813 155.3529304190 - 0.001780055051 155.4286860824 - 0.001766261343 155.5542326125 - 0.001744428027 155.7597231499 - 0.001710473151 156.0938885175 - 0.001658748853 156.6333772259 - 0.001582867996 157.4828876997 - 0.001478786107 158.7581621928 - 0.001349019382 160.5785267042 - 0.001204822381 163.0804996645 - 0.001200113047 160.5998867197 - 0.001200104495 157.9163829998 - 0.001200104486 155.4552627692 - 0.001200104487 153.3977202742 - 0.001200104488 151.8245170980 - 0.001200104489 150.6933759940 - 0.001200104490 149.8869083425 - 0.001200104491 149.2847417602 - 0.001200104492 148.8007948214 - 0.001200104494 148.3854223170 - 0.001200104495 148.0144860904 - 0.001200104496 147.6784424855 - 0.001200104497 147.3748662805 - 0.001200104498 147.1040647800 - 0.001200104499 146.8667560151 - 0.001200104499 146.6629861255 - 0.001200104500 146.4917545805 - 0.001200104500 146.3510273369 - 0.001200104501 146.2379465795 - 0.001200104501 146.1491203602 - 0.001200104501 146.0809201297 - 0.001200104501 146.0297435837 - 0.001200104502 145.9922224985 - 0.001200104502 145.9653888753 - 0.001200104502 145.9468598697 - 0.001200104502 145.9350515383 - 0.001200104502 145.9292327505 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001798660050 155.2663642833 - 0.001797538127 155.2762686655 - 0.001795177097 155.2971305658 - 0.001791117995 155.3333527567 - 0.001784403260 155.3943506352 - 0.001773511438 155.4956530555 - 0.001756194762 155.6615574160 - 0.001729212650 155.9295997214 - 0.001687894633 156.3598150710 - 0.001625187019 157.0616961549 - 0.001532560405 158.2191884817 - 0.001410165746 159.9691033053 - 0.001283437609 161.9041160701 - 0.001200426586 162.3826244468 - 0.001200104903 159.7312968831 - 0.001200104486 157.1332335677 - 0.001200104486 154.8196931830 - 0.001200104487 152.9375261342 - 0.001200104488 151.5280660032 - 0.001200104489 150.5213315791 - 0.001200104490 149.7962222043 - 0.001200104491 149.2431157825 - 0.001200104492 148.7883100338 - 0.001200104494 148.3908717903 - 0.001200104495 148.0315910492 - 0.001200104496 147.7033696743 - 0.001200104497 147.4049020394 - 0.001200104498 147.1370169954 - 0.001200104498 146.9007445402 - 0.001200104499 146.6964109328 - 0.001200104500 146.5233245758 - 0.001200104500 146.3797908177 - 0.001200104501 146.2632983480 - 0.001200104501 146.1707800333 - 0.001200104501 146.0988878314 - 0.001200104501 146.0442482660 - 0.001200104501 146.0037151108 - 0.001200104502 145.9747112201 - 0.001200104502 145.9556493531 - 0.001200104502 145.9460581257 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001798980402 155.2638164288 - 0.001798105176 155.2717579045 - 0.001796259962 155.2885029943 - 0.001793078723 155.3176167657 - 0.001787798801 155.3667050055 - 0.001779205403 155.4482754646 - 0.001765489968 155.5819113741 - 0.001743967906 155.7986984559 - 0.001710710161 156.1485222756 - 0.001660313374 156.7089575084 - 0.001586451120 157.5902514346 - 0.001484151006 158.9364289306 - 0.001354038046 160.9350492883 - 0.001207516336 163.7819945699 - 0.001200119069 161.5219468694 - 0.001200104503 158.8888236931 - 0.001200104485 156.3990840783 - 0.001200104486 154.2407906767 - 0.001200104487 152.5303051261 - 0.001200104488 151.2716822795 - 0.001200104489 150.3744629922 - 0.001200104490 149.7192109741 - 0.001200104491 149.2079881035 - 0.001200104492 148.7783030857 - 0.001200104494 148.3966396954 - 0.001200104495 148.0478672570 - 0.001200104496 147.7268792164 - 0.001200104497 147.4332685360 - 0.001200104498 147.1682764706 - 0.001200104498 146.9331804106 - 0.001200104499 146.7285361399 - 0.001200104500 146.5539142140 - 0.001200104500 146.4079160338 - 0.001200104501 146.2883405830 - 0.001200104501 146.1924231222 - 0.001200104501 146.1171021200 - 0.001200104501 146.0593447720 - 0.001200104501 146.0166746506 - 0.001200104502 145.9878584151 - 0.001200104502 145.9730939571 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799228496 155.2617753288 - 0.001798544931 155.2681416228 - 0.001797101418 155.2815784906 - 0.001794606530 155.3049671009 - 0.001790453399 155.3444462531 - 0.001783670166 155.4101389711 - 0.001772799528 155.5179312687 - 0.001755678706 155.6927320242 - 0.001729174066 155.9731092355 - 0.001688740066 156.4211845097 - 0.001627538218 157.1490899155 - 0.001537605595 158.3364346609 - 0.001419461497 160.1053672915 - 0.001295266290 162.1159001950 - 0.001200604832 163.2119729898 - 0.001200105235 160.6596684650 - 0.001200104485 158.0835693829 - 0.001200104485 155.7150830849 - 0.001200104486 153.7174460603 - 0.001200104487 152.1723930889 - 0.001200104488 151.0508208786 - 0.001200104489 150.2492255197 - 0.001200104490 149.6537716501 - 0.001200104491 149.1783287782 - 0.001200104492 148.7703673358 - 0.001200104494 148.4026404152 - 0.001200104495 148.0633824249 - 0.001200104496 147.7491036280 - 0.001200104497 147.4601143360 - 0.001200104497 147.1979788304 - 0.001200104498 146.9641688404 - 0.001200104499 146.7594277194 - 0.001200104500 146.5835490770 - 0.001200104500 146.4353950455 - 0.001200104500 146.3130520856 - 0.001200104501 146.2140717154 - 0.001200104501 146.1358520275 - 0.001200104501 146.0763788543 - 0.001200104501 146.0352346231 - 0.001200104501 146.0138169719 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799420942 155.2601408241 - 0.001798886498 155.2652433409 - 0.001797756192 155.2760227716 - 0.001795798097 155.2948074581 - 0.001792529429 155.3265530190 - 0.001787174649 155.3794295802 - 0.001778566857 155.4662253022 - 0.001764960629 155.6070236252 - 0.001743759186 155.8336497667 - 0.001711180258 156.1966926545 - 0.001662032442 156.7744188819 - 0.001589989313 157.6830022055 - 0.001489221694 159.0932661505 - 0.001358907187 161.2497876448 - 0.001211502450 164.3650408590 - 0.001200128501 162.3841135102 - 0.001200104517 159.8145921621 - 0.001200104485 157.3187847285 - 0.001200104485 155.0832322418 - 0.001200104486 153.2481160938 - 0.001200104487 151.8596938240 - 0.001200104488 150.8611493217 - 0.001200104489 150.1424822243 - 0.001200104490 149.5981029603 - 0.001200104491 149.1532649017 - 0.001200104492 148.7641571350 - 0.001200104493 148.4087996461 - 0.001200104495 148.0781936286 - 0.001200104496 147.7701572751 - 0.001200104497 147.4855698085 - 0.001200104497 147.2262454914 - 0.001200104498 146.9938070181 - 0.001200104499 146.7891512694 - 0.001200104499 146.6122654593 - 0.001200104500 146.4622571314 - 0.001200104500 146.3375342053 - 0.001200104501 146.2362272172 - 0.001200104501 146.1571719363 - 0.001200104501 146.1012918409 - 0.001200104501 146.0717950222 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799570453 155.2588322388 - 0.001799152171 155.2629212867 - 0.001798266312 155.2715673739 - 0.001796728433 155.2866506204 - 0.001794154822 155.3121667028 - 0.001789926990 155.3547083419 - 0.001783108904 155.4246184120 - 0.001772292711 155.5381447623 - 0.001755386220 155.7207044056 - 0.001729352437 156.0116880163 - 0.001689765766 156.4748049505 - 0.001630041986 157.2229814747 - 0.001542760219 158.4299478083 - 0.001428326088 160.2145682526 - 0.001305290709 162.3275147353 - 0.001200848746 163.9800258978 - 0.001200105761 161.5349182035 - 0.001200104486 158.9975804165 - 0.001200104485 156.5973426002 - 0.001200104486 154.5041410376 - 0.001200104486 152.8304629104 - 0.001200104487 151.5879538096 - 0.001200104488 150.6986383082 - 0.001200104489 150.0514835209 - 0.001200104490 149.5506695243 - 0.001200104491 149.1320588860 - 0.001200104492 148.7593798477 - 0.001200104493 148.4150539631 - 0.001200104495 148.0923499291 - 0.001200104496 147.7901396980 - 0.001200104496 147.5097500810 - 0.001200104497 147.2531860481 - 0.001200104498 147.0221871261 - 0.001200104499 146.8177812568 - 0.001200104499 146.6401475216 - 0.001200104500 146.4887054435 - 0.001200104500 146.3625665864 - 0.001200104501 146.2617866633 - 0.001200104501 146.1891658721 - 0.001200104501 146.1503565868 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799686771 155.2577848040 - 0.001799359089 155.2610613165 - 0.001798664223 155.2679951101 - 0.001797455561 155.2801036056 - 0.001795428159 155.3006085642 - 0.001792088982 155.3348299520 - 0.001786689169 155.3911110814 - 0.001778098771 155.4825291656 - 0.001764625163 155.6295874623 - 0.001743754802 155.8646293497 - 0.001711842335 156.2386481950 - 0.001663876262 156.8305122545 - 0.001593488834 157.7624795861 - 0.001494085457 159.2299910880 - 0.001363834664 161.5219867615 - 0.001217177176 164.8170813209 - 0.001200143056 163.1910715516 - 0.001200104541 160.6954094622 - 0.001200104484 158.2125548994 - 0.001200104485 155.9221141494 - 0.001200104486 153.9778700470 - 0.001200104486 152.4614523194 - 0.001200104487 151.3528729615 - 0.001200104488 150.5596105743 - 0.001200104489 149.9738424579 - 0.001200104490 149.5101680852 - 0.001200104491 149.1140889732 - 0.001200104492 148.7557885777 - 0.001200104493 148.4213500368 - 0.001200104494 148.1058943132 - 0.001200104495 147.8091384339 - 0.001200104496 147.5327583117 - 0.001200104497 147.2789036186 - 0.001200104498 147.0494115806 - 0.001200104499 146.8454560340 - 0.001200104499 146.6675178255 - 0.001200104500 146.5158575676 - 0.001200104500 146.3920630838 - 0.001200104500 146.3013016298 - 0.001200104501 146.2522630214 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799777388 155.2569465107 - 0.001799520447 155.2595717159 - 0.001798974951 155.2651316476 - 0.001798024389 155.2748505565 - 0.001796426503 155.2913248622 - 0.001793788579 155.3188438606 - 0.001789511780 155.3641401413 - 0.001782687982 155.4377825101 - 0.001771951085 155.5563219168 - 0.001755274323 155.7455509722 - 0.001729707481 156.0455266548 - 0.001690938161 156.5211609082 - 0.001632644498 157.2850879661 - 0.001547868794 158.5054342330 - 0.001436586389 160.3065440970 - 0.001313865551 162.5359907009 - 0.001201180005 164.6911200357 - 0.001200106571 162.3603928328 - 0.001200104487 159.8751555884 - 0.001200104484 157.4636637089 - 0.001200104485 155.2952276526 - 0.001200104486 153.5035594506 - 0.001200104487 152.1375634407 - 0.001200104487 151.1502526035 - 0.001200104488 150.4407612592 - 0.001200104489 149.9075025179 - 0.001200104490 149.4754963712 - 0.001200104491 149.0988321297 - 0.001200104492 148.7531756758 - 0.001200104493 148.4276437503 - 0.001200104494 148.1188654333 - 0.001200104495 147.8272325383 - 0.001200104496 147.5546931746 - 0.001200104497 147.3035168978 - 0.001200104498 147.0756690516 - 0.001200104499 146.8726300454 - 0.001200104499 146.6958803901 - 0.001200104500 146.5487627458 - 0.001200104500 146.4392063366 - 0.001200104500 146.3794304321 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799848071 155.2562756638 - 0.001799646424 155.2583788987 - 0.001799217855 155.2628367326 - 0.001798469801 155.2706364484 - 0.001797209825 155.2838699561 - 0.001795125171 155.3059957911 - 0.001791737262 155.3424463557 - 0.001786318099 155.4017444413 - 0.001777768941 155.4972151723 - 0.001764446511 155.6496776554 - 0.001743914397 155.8918433910 - 0.001712651228 156.2749463515 - 0.001665795343 156.8784767961 - 0.001596915364 157.8307022793 - 0.001498773885 159.3486304945 - 0.001368997141 161.7506063756 - 0.001224799190 165.1308030849 - 0.001200165284 163.9466726710 - 0.001200104581 161.5328331738 - 0.001200104484 159.0788470027 - 0.001200104485 156.7542529858 - 0.001200104485 154.7181518861 - 0.001200104486 153.0795020852 - 0.001200104487 151.8549410254 - 0.001200104487 150.9761021873 - 0.001200104488 150.3391609919 - 0.001200104489 149.8507032344 - 0.001200104490 149.4457247914 - 0.001200104491 149.0858491598 - 0.001200104492 148.7513671352 - 0.001200104493 148.4338997270 - 0.001200104494 148.1313007326 - 0.001200104495 147.8445020184 - 0.001200104496 147.5756783646 - 0.001200104497 147.3272595526 - 0.001200104498 147.1015534496 - 0.001200104498 146.9012273093 - 0.001200104499 146.7314911558 - 0.001200104499 146.6032971952 - 0.001200104500 146.5327360478 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799903270 155.2557388497 - 0.001799744888 155.2574238180 - 0.001799407932 155.2609977214 - 0.001798818873 155.2672565092 - 0.001797824862 155.2778852421 - 0.001796176907 155.2956715059 - 0.001793492823 155.3249963653 - 0.001789189186 155.3727377070 - 0.001782381637 155.4496589376 - 0.001771743172 155.5725385783 - 0.001755306637 155.7674567407 - 0.001730199185 156.0750258393 - 0.001692213334 156.5610888836 - 0.001635276019 157.3375013485 - 0.001552798330 158.5679362186 - 0.001444152039 160.3880359085 - 0.001321254151 162.7394980971 - 0.001201631867 165.3480233273 - 0.001200107795 163.1389787803 - 0.001200104488 160.7163211075 - 0.001200104484 158.3114302832 - 0.001200104485 156.0876884117 - 0.001200104485 154.1914718163 - 0.001200104486 152.7032358280 - 0.001200104487 151.6095689306 - 0.001200104487 150.8267142063 - 0.001200104488 150.2522427327 - 0.001200104489 149.8019456672 - 0.001200104490 149.4200712992 - 0.001200104491 149.0747720149 - 0.001200104492 148.7502183747 - 0.001200104493 148.4400932528 - 0.001200104494 148.1432475778 - 0.001200104495 147.8610652145 - 0.001200104496 147.5959867902 - 0.001200104497 147.3508679127 - 0.001200104498 147.1294251333 - 0.001200104498 146.9387280040 - 0.001200104499 146.7928550082 - 0.001200104499 146.7119275722 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799946425 155.2553093042 - 0.001799821927 155.2566591443 - 0.001799556812 155.2595242115 - 0.001799092674 155.2645460035 - 0.001798308112 155.2730815240 - 0.001797004929 155.2873772333 - 0.001794877988 155.3109666912 - 0.001791460085 155.3493994774 - 0.001786041054 155.4113549745 - 0.001777551486 155.5103497804 - 0.001764393415 155.6674479018 - 0.001744200512 155.9156360928 - 0.001713561073 156.3063260372 - 0.001667736216 156.9197134122 - 0.001600226692 157.8897497005 - 0.001503310440 159.4509844868 - 0.001374557160 161.9342098471 - 0.001234272764 165.3144575362 - 0.001200198784 164.6541653171 - 0.001200104643 162.3283049836 - 0.001200104484 159.9163750342 - 0.001200104484 157.5764473539 - 0.001200104485 155.4665646371 - 0.001200104485 153.7148897461 - 0.001200104486 152.3717077549 - 0.001200104487 151.3974250284 - 0.001200104488 150.6987097539 - 0.001200104488 150.1777784145 - 0.001200104489 149.7599592545 - 0.001200104490 149.3978795528 - 0.001200104491 149.0652938146 - 0.001200104492 148.7496137784 - 0.001200104493 148.4462226410 - 0.001200104494 148.1548086074 - 0.001200104495 147.8772281136 - 0.001200104496 147.6164955335 - 0.001200104497 147.3771368488 - 0.001200104498 147.1679510866 - 0.001200104498 147.0060794903 - 0.001200104498 146.9156373743 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001799980199 155.2549655983 - 0.001799882263 155.2560469450 - 0.001799673529 155.2583436531 - 0.001799307606 155.2623726069 - 0.001798688066 155.2692264431 - 0.001797657160 155.2807152322 - 0.001795971366 155.2996881719 - 0.001793256780 155.3306221499 - 0.001788943229 155.3805229380 - 0.001782168846 155.4603052277 - 0.001771642505 155.5869255450 - 0.001755450638 155.7866966415 - 0.001730789314 156.1007077836 - 0.001693547686 156.5955340934 - 0.001637877787 157.3821232329 - 0.001557467715 158.6211485908 - 0.001451007940 160.4630771455 - 0.001327665783 162.9366841816 - 0.001202252984 165.9520677386 - 0.001200109621 163.8732306647 - 0.001200104491 161.5212391982 - 0.001200104484 159.1382916992 - 0.001200104484 156.8781872558 - 0.001200104485 154.8927533404 - 0.001200104485 153.2871852131 - 0.001200104486 152.0814294259 - 0.001200104487 151.2146103213 - 0.001200104488 150.5890593964 - 0.001200104488 150.1138496882 - 0.001200104489 149.7236713233 - 0.001200104490 149.3786011015 - 0.001200104491 149.0571643273 - 0.001200104492 148.7494794098 - 0.001200104493 148.4523621433 - 0.001200104494 148.1663152861 - 0.001200104495 147.8940019013 - 0.001200104496 147.6404142192 - 0.001200104497 147.4158312917 - 0.001200104497 147.2402300713 - 0.001200104498 147.1414896420 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800006658 155.2546905781 - 0.001799929561 155.2555568305 - 0.001799765111 155.2573978650 - 0.001799476456 155.2606300638 - 0.001798987000 155.2661330462 - 0.001798171195 155.2753650200 - 0.001796834729 155.2906232293 - 0.001794678457 155.3155196464 - 0.001791245004 155.3557078528 - 0.001785841186 155.4199908210 - 0.001777424630 155.5220384518 - 0.001764438526 155.6831116509 - 0.001744579558 155.9364177168 - 0.001714531604 156.3335398003 - 0.001669656077 156.9554663752 - 0.001603398450 157.9412295996 - 0.001507741341 159.5379619607 - 0.001380636914 162.0720306601 - 0.001245062770 165.3956712743 - 0.001200248220 165.3163887066 - 0.001200104743 163.0832053661 - 0.001200104484 160.7241213021 - 0.001200104484 158.3856396261 - 0.001200104484 156.2200686517 - 0.001200104485 154.3672990102 - 0.001200104485 152.9063661308 - 0.001200104486 151.8286551910 - 0.001200104487 151.0574433691 - 0.001200104488 150.4950837756 - 0.001200104489 150.0588163635 - 0.001200104489 149.6921808887 - 0.001200104490 149.3617848563 - 0.001200104491 149.0502015885 - 0.001200104492 148.7498424147 - 0.001200104493 148.4588576131 - 0.001200104494 148.1789004953 - 0.001200104495 147.9149744247 - 0.001200104496 147.6784726806 - 0.001200104496 147.4918289402 - 0.001200104497 147.3862794578 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800027405 155.2544705149 - 0.001799966672 155.2551644601 - 0.001799837029 155.2566401940 - 0.001799609201 155.2592330689 - 0.001799222338 155.2636511173 - 0.001798576520 155.2710689445 - 0.001797516728 155.2833385293 - 0.001795803728 155.3033734925 - 0.001793070814 155.3357363959 - 0.001788760551 155.3875350241 - 0.001782031909 155.4698060484 - 0.001771626327 155.5996511904 - 0.001755678155 155.8035817418 - 0.001731445326 156.1230985052 - 0.001694907490 156.6253276871 - 0.001640417563 157.4203086618 - 0.001561860332 158.6671035252 - 0.001457219531 160.5329790329 - 0.001333305442 163.1253464973 - 0.001203110755 166.5031507620 - 0.001200112306 164.5654809321 - 0.001200104497 162.2902234805 - 0.001200104484 159.9422110532 - 0.001200104484 157.6633135248 - 0.001200104484 155.6050242014 - 0.001200104485 153.8902651638 - 0.001200104486 152.5697657778 - 0.001200104486 151.6095497118 - 0.001200104487 150.9225260589 - 0.001200104488 150.4144405939 - 0.001200104489 150.0112860934 - 0.001200104489 149.6647409076 - 0.001200104490 149.3470856881 - 0.001200104491 149.0443559414 - 0.001200104492 148.7510454198 - 0.001200104493 148.4669442303 - 0.001200104494 148.1964787452 - 0.001200104495 147.9516728378 - 0.001200104496 147.7569008848 - 0.001200104496 147.6461985602 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800043687 155.2542944229 - 0.001799995814 155.2548503407 - 0.001799893549 155.2560332426 - 0.001799713634 155.2581131704 - 0.001799407723 155.2616599687 - 0.001798896290 155.2676196730 - 0.001798055676 155.2774851424 - 0.001796694599 155.2936066947 - 0.001794519155 155.3196668326 - 0.001791081506 155.3614029396 - 0.001785704286 155.4277189518 - 0.001777369826 155.5324108942 - 0.001764558666 155.6969017336 - 0.001745024184 155.9545809190 - 0.001715533786 156.3572061628 - 0.001671532805 156.9865900309 - 0.001606439153 157.9859419438 - 0.001512143057 159.6094282709 - 0.001387269696 162.1656924502 - 0.001256378364 165.4127574452 - 0.001200319032 165.9359310969 - 0.001200104898 163.7989037849 - 0.001200104484 161.5013440978 - 0.001200104484 159.1790262084 - 0.001200104484 156.9752771023 - 0.001200104484 155.0352710902 - 0.001200104485 153.4608580018 - 0.001200104486 152.2742128903 - 0.001200104486 151.4203261886 - 0.001200104487 150.8067802301 - 0.001200104488 150.3451043886 - 0.001200104489 149.9700914230 - 0.001200104490 149.6407621109 - 0.001200104490 149.3343305265 - 0.001200104491 149.0399386456 - 0.001200104492 148.7543977605 - 0.001200104493 148.4807985265 - 0.001200104494 148.2311831178 - 0.001200104495 148.0312263218 - 0.001200104495 147.9170827644 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800056477 155.2541535116 - 0.001800018717 155.2545988645 - 0.001799938001 155.2555470380 - 0.001799795850 155.2572154474 - 0.001799553845 155.2600626672 - 0.001799148688 155.2648505629 - 0.001798481743 155.2727824073 - 0.001797400100 155.2857539415 - 0.001795668302 155.3067370417 - 0.001792926713 155.3403639184 - 0.001788629858 155.3938262249 - 0.001781955861 155.4782611205 - 0.001771675709 155.6108913802 - 0.001755966826 155.8183993830 - 0.001732143996 156.1426241254 - 0.001696274575 156.6510404420 - 0.001642892718 157.4527634200 - 0.001566013589 158.7063821008 - 0.001462911055 160.5969769110 - 0.001338382486 163.3023080642 - 0.001204295201 166.9996187420 - 0.001200116194 165.2179077040 - 0.001200104505 163.0237517773 - 0.001200104483 160.7214951530 - 0.001200104484 158.4397625710 - 0.001200104484 156.3252733729 - 0.001200104485 154.5120843431 - 0.001200104485 153.0774410496 - 0.001200104486 152.0162101312 - 0.001200104486 151.2573603028 - 0.001200104487 150.7074637163 - 0.001200104488 150.2853476652 - 0.001200104489 149.9342890529 - 0.001200104490 149.6198783186 - 0.001200104490 149.3237557137 - 0.001200104491 149.0382938945 - 0.001200104492 148.7642619934 - 0.001200104493 148.5129549156 - 0.001200104494 148.3105886042 - 0.001200104494 148.1946595559 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800066531 155.2540407483 - 0.001800036730 155.2543975350 - 0.001799972987 155.2551575617 - 0.001799860617 155.2564958472 - 0.001799669085 155.2587813864 - 0.001799348006 155.2626276657 - 0.001798818705 155.2690044483 - 0.001797958965 155.2794407276 - 0.001796580193 155.2963350141 - 0.001794393704 155.3234275708 - 0.001790960686 155.3665251750 - 0.001785618397 155.4346154794 - 0.001777371815 155.5415986211 - 0.001764735666 155.7090283944 - 0.001745515147 155.9704347663 - 0.001716552222 156.3777294399 - 0.001673366367 157.0134880837 - 0.001609387284 158.0239218100 - 0.001516599836 159.6647882055 - 0.001394375826 162.2201280894 - 0.001267489413 165.4004971814 - 0.001200417122 166.5152098894 - 0.001200105135 164.4767966438 - 0.001200104484 162.2475778322 - 0.001200104483 159.9541279796 - 0.001200104484 157.7286957930 - 0.001200104484 155.7164676161 - 0.001200104485 154.0358867309 - 0.001200104485 152.7376687140 - 0.001200104486 151.7920997769 - 0.001200104486 151.1172718977 - 0.001200104487 150.6221764936 - 0.001200104488 150.2337410636 - 0.001200104489 149.9032225349 - 0.001200104490 149.6021866156 - 0.001200104490 149.3166866788 - 0.001200104491 149.0438840066 - 0.001200104492 148.7933655592 - 0.001200104493 148.5910030730 - 0.001200104493 148.4747800194 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800074440 155.2539505061 - 0.001800050907 155.2542363485 - 0.001800000541 155.2548455694 - 0.001799911669 155.2559190405 - 0.001799760020 155.2577536484 - 0.001799505482 155.2608433536 - 0.001799085301 155.2659696622 - 0.001798401803 155.2743656916 - 0.001797303967 155.2879670630 - 0.001795560156 155.3097936802 - 0.001792817498 155.3445357113 - 0.001788541671 155.3994542879 - 0.001781928478 155.4857688843 - 0.001771775973 155.6208008060 - 0.001756301029 155.8313702941 - 0.001732872541 156.1595607111 - 0.001697645726 156.6729647109 - 0.001645321022 157.4797076964 - 0.001569989721 158.7387780976 - 0.001468220499 160.6534953317 - 0.001343089214 163.4642573971 - 0.001205924403 167.4380412504 - 0.001200121735 165.8325626834 - 0.001200104518 163.7224628236 - 0.001200104483 161.4748050332 - 0.001200104483 159.2044620260 - 0.001200104484 157.0501307250 - 0.001200104484 155.1511953731 - 0.001200104485 153.6061784129 - 0.001200104485 152.4386447458 - 0.001200104486 151.5982200730 - 0.001200104486 150.9969850540 - 0.001200104487 150.5488765695 - 0.001200104488 150.1892152204 - 0.001200104489 149.8767599389 - 0.001200104490 149.5889218711 - 0.001200104490 149.3175890735 - 0.001200104491 149.0694251080 - 0.001200104492 148.8689223952 - 0.001200104492 148.7536259405 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800080667 155.2538782835 - 0.001800062073 155.2541072966 - 0.001800022255 155.2545956436 - 0.001799951936 155.2554566979 - 0.001799831815 155.2569293098 - 0.001799629958 155.2594111682 - 0.001799296308 155.2635320133 - 0.001798752810 155.2702862635 - 0.001797878551 155.2812359348 - 0.001796487715 155.2988194873 - 0.001794296663 155.3268254364 - 0.001790875072 155.3711181800 - 0.001785573796 155.4407538742 - 0.001777418804 155.5497153547 - 0.001764956716 155.7196522690 - 0.001746041294 155.9841808824 - 0.001717583055 156.3953142047 - 0.001675171404 157.0362400837 - 0.001612292767 158.0548351903 - 0.001521168783 159.7039074099 - 0.001401792066 162.2427344503 - 0.001277926768 165.3817396951 - 0.001200548881 167.0564528754 - 0.001200105487 165.1183229948 - 0.001200104485 162.9626205848 - 0.001200104483 160.7088267518 - 0.001200104483 158.4769050715 - 0.001200104484 156.4079393198 - 0.001200104484 154.6310157126 - 0.001200104485 153.2216164727 - 0.001200104485 152.1770923536 - 0.001200104486 151.4310374544 - 0.001200104487 150.8937854807 - 0.001200104487 150.4859503052 - 0.001200104488 150.1512932306 - 0.001200104489 149.8559517582 - 0.001200104490 149.5844454331 - 0.001200104490 149.3389727581 - 0.001200104491 149.1414198395 - 0.001200104491 149.0278897926 - 0.001200104502 145.9103376732 - 0.001800104024 155.2535883375 - 0.001800085573 155.2538204792 - 0.001800070873 155.2540039689 - 0.001800039379 155.2543954334 - 0.001799983714 155.2550861058 - 0.001799888529 155.2562681315 - 0.001799728394 155.2582616655 - 0.001799463380 155.2615741142 - 0.001799031114 155.2670073499 - 0.001798334800 155.2758218286 - 0.001797225418 155.2899863927 - 0.001795475073 155.3125612104 - 0.001792737313 155.3482845849 - 0.001788488290 155.4044740588 - 0.001781940310 155.4924135024 - 0.001771916677 155.6294969949 - 0.001756671376 155.8426385136 - 0.001733626480 156.1740535341 - 0.001699026604 156.6912146935 - 0.001647725798 157.5011778125 - 0.001573846419 158.7639990550 - 0.001473262230 160.7012318887 - 0.001347583565 163.6084731651 - 0.001208150370 167.8129818451 - 0.001200129534 166.4113762254 - 0.001200104538 164.3871350737 - 0.001200104483 162.2011453671 - 0.001200104483 159.9546511591 - 0.001200104483 157.7760929980 - 0.001200104484 155.8053237413 - 0.001200104484 154.1565724962 - 0.001200104485 152.8801287852 - 0.001200104485 151.9495406849 - 0.001200104486 151.2872704090 - 0.001200104487 150.8054188776 - 0.001200104487 150.4324429929 - 0.001200104488 150.1207235371 - 0.001200104489 149.8449343259 - 0.001200104490 149.6008784687 - 0.001200104490 149.4063589130 - 0.001200104490 149.2949319319 - 0.001200104502 145.9103376732 + 0.001800104024 155.2535903180 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001243279624 152.1126720443 + 0.001200275061 149.7794210729 + 0.001200104583 147.1429068072 + 0.001200104501 146.1726486952 + 0.001200104502 145.9395299156 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001381567230 154.5987201628 + 0.001233984469 154.1006621409 + 0.001200116555 150.1357993559 + 0.001200104500 147.6562985770 + 0.001200104500 146.6026246358 + 0.001200104501 146.1590645412 + 0.001200104502 145.9830265931 + 0.001200104502 145.9257411322 + 0.001200104502 145.9124195670 + 0.001200104502 145.9104722861 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001515795455 155.1689322132 + 0.001392269720 154.7073966893 + 0.001201727423 153.8517801666 + 0.001200105193 150.1124815543 + 0.001200104497 147.9841712045 + 0.001200104499 146.9184469907 + 0.001200104500 146.3798910300 + 0.001200104501 146.1094867822 + 0.001200104502 145.9840743171 + 0.001200104502 145.9333074162 + 0.001200104502 145.9161317748 + 0.001200104502 145.9114675958 + 0.001200104502 145.9104972756 + 0.001200104502 145.9103523764 + 0.001200104502 145.9103385229 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001585344409 155.5823595989 + 0.001469580536 155.6750196884 + 0.001314021607 155.1914713405 + 0.001200269589 153.2190228397 + 0.001200104551 150.0459443308 + 0.001200104496 148.1650481821 + 0.001200104498 147.1436971880 + 0.001200104500 146.5724573838 + 0.001200104501 146.2459899219 + 0.001200104501 146.0661305717 + 0.001200104502 145.9751761809 + 0.001200104502 145.9341561037 + 0.001200104502 145.9179447034 + 0.001200104502 145.9124131599 + 0.001200104502 145.9108109414 + 0.001200104502 145.9104253891 + 0.001200104502 145.9103504902 + 0.001200104502 145.9103392116 + 0.001200104502 145.9103379755 + 0.001200104502 145.9103378878 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001647742551 155.5827450064 + 0.001555445643 155.7297852592 + 0.001397161121 155.9542118276 + 0.001212082932 156.2153471071 + 0.001200111822 152.6713293141 + 0.001200104496 149.9218905289 + 0.001200104496 148.2650360053 + 0.001200104498 147.3093750928 + 0.001200104499 146.7340042602 + 0.001200104500 146.3758492896 + 0.001200104501 146.1569181503 + 0.001200104501 146.0309019461 + 0.001200104502 145.9641974242 + 0.001200104502 145.9321407237 + 0.001200104502 145.9182718897 + 0.001200104502 145.9129104322 + 0.001200104502 145.9110733860 + 0.001200104502 145.9105209391 + 0.001200104502 145.9103769102 + 0.001200104502 145.9103448642 + 0.001200104502 145.9103389030 + 0.001200104502 145.9103380011 + 0.001200104502 145.9103378945 + 0.001200104502 145.9103378853 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001688149010 155.5834907234 + 0.001614638914 155.8074307370 + 0.001488763042 156.0846223555 + 0.001342760599 156.0745018458 + 0.001200781637 155.5082339940 + 0.001200104903 152.1654129943 + 0.001200104493 149.7835893636 + 0.001200104495 148.3200815328 + 0.001200104497 147.4339237852 + 0.001200104499 146.8687114593 + 0.001200104500 146.4942777300 + 0.001200104501 146.2483167436 + 0.001200104501 146.0939224359 + 0.001200104501 146.0032095356 + 0.001200104502 145.9538508462 + 0.001200104502 145.9291285179 + 0.001200104502 145.9177807178 + 0.001200104502 145.9130275776 + 0.001200104502 145.9112193553 + 0.001200104502 145.9105980124 + 0.001200104502 145.9104064323 + 0.001200104502 145.9103538514 + 0.001200104502 145.9103411322 + 0.001200104502 145.9103384522 + 0.001200104502 145.9103379682 + 0.001200104502 145.9103378948 + 0.001200104502 145.9103378857 + 0.001200104502 145.9103378849 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001718101391 155.5400503889 + 0.001662232492 155.7367608851 + 0.001554983501 156.1386566302 + 0.001404680886 156.7768429333 + 0.001244826375 157.2909508322 + 0.001200143905 154.7352157768 + 0.001200104508 151.7196118154 + 0.001200104493 149.6464272096 + 0.001200104495 148.3490128073 + 0.001200104497 147.5297825597 + 0.001200104498 146.9818221574 + 0.001200104500 146.6006502061 + 0.001200104500 146.3364229508 + 0.001200104501 146.1598130521 + 0.001200104501 146.0480563812 + 0.001200104502 145.9817176800 + 0.001200104502 145.9449563099 + 0.001200104502 145.9259986232 + 0.001200104502 145.9169246774 + 0.001200104502 145.9129044886 + 0.001200104502 145.9112607947 + 0.001200104502 145.9106427739 + 0.001200104502 145.9104299486 + 0.001200104502 145.9103631443 + 0.001200104502 145.9103441384 + 0.001200104502 145.9103392706 + 0.001200104502 145.9103381568 + 0.001200104502 145.9103379315 + 0.001200104502 145.9103378917 + 0.001200104502 145.9103378856 + 0.001200104502 145.9103378849 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001739076298 155.5001308989 + 0.001696261211 155.6815480128 + 0.001614364659 156.0219275537 + 0.001498294447 156.4645672703 + 0.001356462926 156.9049066483 + 0.001202014806 157.2996990708 + 0.001200106115 153.9935599248 + 0.001200104492 151.3306159571 + 0.001200104493 149.5190856873 + 0.001200104495 148.3628700174 + 0.001200104497 147.6054673735 + 0.001200104498 147.0778297711 + 0.001200104499 146.6958114653 + 0.001200104500 146.4195768366 + 0.001200104501 146.2258673883 + 0.001200104501 146.0962520512 + 0.001200104501 146.0141604032 + 0.001200104502 145.9651479967 + 0.001200104502 145.9376293321 + 0.001200104502 145.9231261767 + 0.001200104502 145.9159639056 + 0.001200104502 145.9126558105 + 0.001200104502 145.9112297721 + 0.001200104502 145.9106574103 + 0.001200104502 145.9104441033 + 0.001200104502 145.9103705222 + 0.001200104502 145.9103471134 + 0.001200104502 145.9103402747 + 0.001200104502 145.9103384480 + 0.001200104502 145.9103380048 + 0.001200104502 145.9103379077 + 0.001200104502 145.9103378887 + 0.001200104502 145.9103378854 + 0.001200104502 145.9103378849 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001754546896 155.4591021815 + 0.001722284571 155.6071536896 + 0.001657753784 155.9168155353 + 0.001556353525 156.4637400345 + 0.001419306013 157.2729349532 + 0.001278965431 157.8148465532 + 0.001200236583 156.4423375934 + 0.001200104563 153.3493260735 + 0.001200104491 150.9925180363 + 0.001200104493 149.4031247262 + 0.001200104495 148.3683000397 + 0.001200104496 147.6667806050 + 0.001200104498 147.1602976913 + 0.001200104499 146.7810459506 + 0.001200104500 146.4972490949 + 0.001200104501 146.2905177136 + 0.001200104501 146.1460087627 + 0.001200104501 146.0497597654 + 0.001200104502 145.9888923485 + 0.001200104502 145.9524162901 + 0.001200104502 145.9317307341 + 0.001200104502 145.9206432754 + 0.001200104502 145.9150333538 + 0.001200104502 145.9123576142 + 0.001200104502 145.9111563909 + 0.001200104502 145.9106497013 + 0.001200104502 145.9104492788 + 0.001200104502 145.9103751010 + 0.001200104502 145.9103494778 + 0.001200104502 145.9103412413 + 0.001200104502 145.9103387841 + 0.001200104502 145.9103381069 + 0.001200104502 145.9103379351 + 0.001200104502 145.9103378952 + 0.001200104502 145.9103378867 + 0.001200104502 145.9103378851 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001765844124 155.4232829635 + 0.001740975329 155.5511518343 + 0.001691316494 155.8120091565 + 0.001613872246 156.2305262572 + 0.001504296226 156.8354663483 + 0.001363891725 157.6517773301 + 0.001204861291 158.7377423201 + 0.001200109397 155.5925568405 + 0.001200104492 152.7803227597 + 0.001200104491 150.7009585227 + 0.001200104493 149.3002312925 + 0.001200104495 148.3692863946 + 0.001200104496 147.7176631718 + 0.001200104498 147.2319856061 + 0.001200104499 146.8576673867 + 0.001200104500 146.5694635561 + 0.001200104500 146.3529072573 + 0.001200104501 146.1961013292 + 0.001200104501 146.0873661719 + 0.001200104501 146.0153769106 + 0.001200104502 145.9699469233 + 0.001200104502 145.9426492339 + 0.001200104502 145.9270455783 + 0.001200104502 145.9185682859 + 0.001200104502 145.9141950459 + 0.001200104502 145.9120550835 + 0.001200104502 145.9110629860 + 0.001200104502 145.9106277980 + 0.001200104502 145.9104474397 + 0.001200104502 145.9103769346 + 0.001200104502 145.9103509849 + 0.001200104502 145.9103420120 + 0.001200104502 145.9103391020 + 0.001200104502 145.9103382199 + 0.001200104502 145.9103379706 + 0.001200104502 145.9103379052 + 0.001200104502 145.9103378893 + 0.001200104502 145.9103378857 + 0.001200104502 145.9103378850 + 0.001200104502 145.9103378848 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001774198576 155.3928567763 + 0.001755280736 155.4967387729 + 0.001717122157 155.7100928333 + 0.001655028278 156.0826875109 + 0.001560450512 156.7153159018 + 0.001434227010 157.6077283533 + 0.001302018610 158.3119272665 + 0.001200417293 157.9040210943 + 0.001200104723 154.8254678288 + 0.001200104490 152.2852048996 + 0.001200104491 150.4490891034 + 0.001200104493 149.2101356021 + 0.001200104494 148.3682931759 + 0.001200104496 147.7608667448 + 0.001200104497 147.2950118054 + 0.001200104498 146.9268696660 + 0.001200104499 146.6365012971 + 0.001200104500 146.4126117824 + 0.001200104501 146.2457165328 + 0.001200104501 146.1260953697 + 0.001200104501 146.0438766301 + 0.001200104502 145.9897605308 + 0.001200104502 145.9556808298 + 0.001200104502 145.9351607684 + 0.001200104502 145.9233551423 + 0.001200104502 145.9168699042 + 0.001200104502 145.9134708312 + 0.001200104502 145.9117724741 + 0.001200104502 145.9109642563 + 0.001200104502 145.9105983141 + 0.001200104502 145.9104408480 + 0.001200104502 145.9103765339 + 0.001200104502 145.9103516359 + 0.001200104502 145.9103425150 + 0.001200104502 145.9103393565 + 0.001200104502 145.9103383255 + 0.001200104502 145.9103380088 + 0.001200104502 145.9103379175 + 0.001200104502 145.9103378929 + 0.001200104502 145.9103378870 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001780456986 155.3667673357 + 0.001765904895 155.4525937818 + 0.001736297828 155.6308184409 + 0.001688221653 155.9322917300 + 0.001614915779 156.4155383541 + 0.001509310092 157.1620058498 + 0.001370019858 158.2857003172 + 0.001210769561 159.8623158390 + 0.001200116834 157.0136195236 + 0.001200104497 154.1338433416 + 0.001200104490 151.8550083598 + 0.001200104491 150.2328240405 + 0.001200104493 149.1321539068 + 0.001200104494 148.3667416486 + 0.001200104496 147.7983202710 + 0.001200104497 147.3510049219 + 0.001200104498 146.9896873161 + 0.001200104499 146.6987486299 + 0.001200104500 146.4694660129 + 0.001200104501 146.2943307508 + 0.001200104501 146.1652875400 + 0.001200104501 146.0737815943 + 0.001200104501 146.0114085729 + 0.001200104502 145.9705705918 + 0.001200104502 145.9449012445 + 0.001200104502 145.9294191409 + 0.001200104502 145.9204637598 + 0.001200104502 145.9154986033 + 0.001200104502 145.9128616146 + 0.001200104502 145.9115209680 + 0.001200104502 145.9108690013 + 0.001200104502 145.9105659727 + 0.001200104502 145.9104314810 + 0.001200104502 145.9103745394 + 0.001200104502 145.9103515666 + 0.001200104502 145.9103427467 + 0.001200104502 145.9103395262 + 0.001200104502 145.9103384109 + 0.001200104502 145.9103380467 + 0.001200104502 145.9103379419 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001785133839 155.3454205196 + 0.001773963073 155.4152172778 + 0.001751160512 155.5594695693 + 0.001713667674 155.8057751255 + 0.001654523427 156.2238229249 + 0.001565526947 156.9124806222 + 0.001447115934 157.8760406479 + 0.001317607137 158.8101128384 + 0.001200712114 159.1878793476 + 0.001200105077 156.1716072630 + 0.001200104488 153.5206247824 + 0.001200104490 151.4820118639 + 0.001200104491 150.0475853103 + 0.001200104493 149.0652978873 + 0.001200104494 148.3654656360 + 0.001200104496 147.8313906429 + 0.001200104497 147.4012217905 + 0.001200104498 147.0469973055 + 0.001200104499 146.7566199679 + 0.001200104500 146.5234570831 + 0.001200104500 146.3416199155 + 0.001200104501 146.2044606233 + 0.001200104501 146.1045960898 + 0.001200104501 146.0344838590 + 0.001200104502 145.9870476071 + 0.001200104502 145.9561325644 + 0.001200104502 145.9367325899 + 0.001200104502 145.9250152065 + 0.001200104502 145.9182063847 + 0.001200104502 145.9144016757 + 0.001200104502 145.9123582660 + 0.001200104502 145.9113040522 + 0.001200104502 145.9107819292 + 0.001200104502 145.9105338478 + 0.001200104502 145.9104208491 + 0.001200104502 145.9103715476 + 0.001200104502 145.9103509619 + 0.001200104502 145.9103427505 + 0.001200104502 145.9103396479 + 0.001200104502 145.9103386311 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001788667081 155.3277517477 + 0.001780072674 155.3842892993 + 0.001762396559 155.5021738582 + 0.001733106898 155.7041623061 + 0.001686987894 156.0372988399 + 0.001616688884 156.5761666718 + 0.001514083532 157.4425294678 + 0.001376337368 158.8101570325 + 0.001221323335 160.6607408434 + 0.001200132201 158.2923493396 + 0.001200104509 155.3994005988 + 0.001200104488 152.9779359123 + 0.001200104490 151.1598109854 + 0.001200104491 149.8894659653 + 0.001200104493 149.0084148322 + 0.001200104494 148.3649069193 + 0.001200104495 147.8610571939 + 0.001200104497 147.4466396705 + 0.001200104498 147.0995359194 + 0.001200104499 146.8105198300 + 0.001200104500 146.5746593921 + 0.001200104500 146.3873959282 + 0.001200104501 146.2432687643 + 0.001200104501 146.1359260015 + 0.001200104501 146.0586315467 + 0.001200104501 146.0048478294 + 0.001200104502 145.9686965654 + 0.001200104502 145.9452310680 + 0.001200104502 145.9305271478 + 0.001200104502 145.9216353768 + 0.001200104502 145.9164481299 + 0.001200104502 145.9135299916 + 0.001200104502 145.9119476301 + 0.001200104502 145.9111209649 + 0.001200104502 145.9107050997 + 0.001200104502 145.9105037601 + 0.001200104502 145.9104100118 + 0.001200104502 145.9103681098 + 0.001200104502 145.9103503667 + 0.001200104502 145.9103439570 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001791339711 155.3133671349 + 0.001784711635 155.3590996151 + 0.001771034358 155.4544306192 + 0.001748237349 155.6176191359 + 0.001711856380 155.8900153574 + 0.001655061646 156.3449800106 + 0.001570572213 157.0777763045 + 0.001457676640 158.1159370097 + 0.001328793591 159.2909056273 + 0.001201174008 160.3312624937 + 0.001200105769 157.4084263698 + 0.001200104488 154.6995229809 + 0.001200104488 152.5006533406 + 0.001200104490 150.8824477514 + 0.001200104491 149.7548698917 + 0.001200104493 148.9603449751 + 0.001200104494 148.3652668799 + 0.001200104495 147.8880271271 + 0.001200104497 147.4880246504 + 0.001200104498 147.1479195330 + 0.001200104499 146.8608254425 + 0.001200104499 146.6231948440 + 0.001200104500 146.4315625603 + 0.001200104501 146.2814686036 + 0.001200104501 146.1674628524 + 0.001200104501 146.0835503376 + 0.001200104501 146.0237264432 + 0.001200104502 145.9824273415 + 0.001200104502 145.9548270444 + 0.001200104502 145.9369751227 + 0.001200104502 145.9258029200 + 0.001200104502 145.9190397549 + 0.001200104502 145.9150807897 + 0.001200104502 145.9128406015 + 0.001200104502 145.9116157156 + 0.001200104502 145.9109688172 + 0.001200104502 145.9106390165 + 0.001200104502 145.9104771109 + 0.001200104502 145.9104019120 + 0.001200104502 145.9103726155 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001793371116 155.3016773827 + 0.001788253436 155.3385306103 + 0.001777648226 155.4155654052 + 0.001759839656 155.5481886809 + 0.001731263664 155.7691374410 + 0.001686660341 156.1303054476 + 0.001618761889 156.7176860620 + 0.001518691763 157.6850146525 + 0.001383468358 159.2302138232 + 0.001236392476 161.1584629451 + 0.001200161882 159.4529789688 + 0.001200104536 156.5854254278 + 0.001200104487 154.0682975845 + 0.001200104488 152.0824135198 + 0.001200104490 150.6445034342 + 0.001200104491 149.6405840302 + 0.001200104493 148.9199732346 + 0.001200104494 148.3665992905 + 0.001200104495 147.9128162474 + 0.001200104496 147.5259827102 + 0.001200104498 147.1926645296 + 0.001200104498 146.9078800927 + 0.001200104499 146.6692086701 + 0.001200104500 146.4740851065 + 0.001200104500 146.3188931045 + 0.001200104501 146.1989682137 + 0.001200104501 146.1089888598 + 0.001200104501 146.0434635329 + 0.001200104502 145.9971615545 + 0.001200104502 145.9654203788 + 0.001200104502 145.9443151029 + 0.001200104502 145.9307065944 + 0.001200104502 145.9221995099 + 0.001200104502 145.9170449480 + 0.001200104502 145.9140185696 + 0.001200104502 145.9122973385 + 0.001200104502 145.9113496036 + 0.001200104502 145.9108460918 + 0.001200104502 145.9105936918 + 0.001200104502 145.9104892772 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001794919750 155.2922185002 + 0.001790959913 155.3218989248 + 0.001782728094 155.3840203263 + 0.001768844096 155.4909826600 + 0.001746408166 155.6695445082 + 0.001710919831 155.9651267041 + 0.001656085844 156.4517628709 + 0.001575123059 157.2256147034 + 0.001466087910 158.3432864280 + 0.001337080305 159.7501517160 + 0.001201902227 161.3550769240 + 0.001200107049 158.5513656773 + 0.001200104488 155.8237672960 + 0.001200104487 153.5037563743 + 0.001200104489 151.7180199091 + 0.001200104490 150.4409585797 + 0.001200104491 149.5437310218 + 0.001200104493 148.8862646083 + 0.001200104494 148.3688706151 + 0.001200104495 147.9358046470 + 0.001200104496 147.5609977974 + 0.001200104497 147.2342048156 + 0.001200104498 146.9519919992 + 0.001200104499 146.7128548460 + 0.001200104500 146.5149695603 + 0.001200104500 146.3554316831 + 0.001200104501 146.2302599396 + 0.001200104501 146.1347400448 + 0.001200104501 146.0638657124 + 0.001200104501 146.0127446178 + 0.001200104502 145.9769059426 + 0.001200104502 145.9524900997 + 0.001200104502 145.9363285342 + 0.001200104502 145.9259363977 + 0.001200104502 145.9194463896 + 0.001200104502 145.9155109316 + 0.001200104502 145.9131953036 + 0.001200104502 145.9118790577 + 0.001200104502 145.9111756908 + 0.001200104502 145.9108702027 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001796103681 155.2845889679 + 0.001793035709 155.3084492643 + 0.001786638731 155.3584619133 + 0.001775794061 155.4448169990 + 0.001758155906 155.5894801862 + 0.001730154779 155.8277999909 + 0.001686811930 156.2142632116 + 0.001620877806 156.8451686811 + 0.001523180260 157.8949821589 + 0.001391674703 159.5522715108 + 0.001253360753 161.4639287412 + 0.001200214663 160.5128990710 + 0.001200104593 157.6989704610 + 0.001200104486 155.1249462929 + 0.001200104487 153.0008866581 + 0.001200104489 151.4020287474 + 0.001200104490 150.2673068457 + 0.001200104491 149.4617863434 + 0.001200104493 148.8582795397 + 0.001200104494 148.3719982471 + 0.001200104495 147.9572756177 + 0.001200104496 147.5934602519 + 0.001200104497 147.2729065754 + 0.001200104498 146.9934358890 + 0.001200104499 146.7542874392 + 0.001200104500 146.5542483382 + 0.001200104500 146.3910152992 + 0.001200104501 146.2612006113 + 0.001200104501 146.1606349989 + 0.001200104501 146.0847654613 + 0.001200104501 146.0290340386 + 0.001200104502 145.9891788767 + 0.001200104502 145.9614354226 + 0.001200104502 145.9426394431 + 0.001200104502 145.9302478373 + 0.001200104502 145.9222999293 + 0.001200104502 145.9173444106 + 0.001200104502 145.9143579417 + 0.001200104502 145.9126730710 + 0.001200104502 145.9119113302 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001797011299 155.2784455342 + 0.001794630348 155.2976156592 + 0.001789652333 155.3378562777 + 0.001781180591 155.4074176971 + 0.001767341005 155.5239785227 + 0.001745206146 155.7167231911 + 0.001710515123 156.0328030443 + 0.001657340525 156.5475893597 + 0.001579153988 157.3608872316 + 0.001472910359 158.5591530957 + 0.001343543055 160.1819737044 + 0.001203047849 162.2703367301 + 0.001200109296 159.6121236650 + 0.001200104490 156.8953720665 + 0.001200104487 154.4893926909 + 0.001200104488 152.5563634511 + 0.001200104489 151.1291889157 + 0.001200104490 150.1194362961 + 0.001200104491 149.3925413829 + 0.001200104492 148.8351816034 + 0.001200104494 148.3758757289 + 0.001200104495 147.9774430238 + 0.001200104496 147.6236880964 + 0.001200104497 147.3090804281 + 0.001200104498 147.0324557745 + 0.001200104499 146.7936556310 + 0.001200104500 146.5919704983 + 0.001200104500 146.4256053362 + 0.001200104501 146.2916881022 + 0.001200104501 146.1865371212 + 0.001200104501 146.1060192637 + 0.001200104501 146.0459008821 + 0.001200104502 146.0021380433 + 0.001200104502 145.9710827273 + 0.001200104502 145.9496023697 + 0.001200104502 145.9351236882 + 0.001200104502 145.9256230751 + 0.001200104502 145.9195971967 + 0.001200104502 145.9160356719 + 0.001200104502 145.9143705620 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001797708641 155.2735086837 + 0.001795858359 155.2888980420 + 0.001791980769 155.3212383487 + 0.001785356620 155.3772371640 + 0.001774480718 155.4713118811 + 0.001756992268 155.6271630171 + 0.001729514958 155.8811672685 + 0.001687246622 156.2907252731 + 0.001622990362 156.9601508334 + 0.001527749348 158.0730195838 + 0.001400744851 159.7913656183 + 0.001269452478 161.6923680354 + 0.001200299901 161.4857683627 + 0.001200104704 158.7458969954 + 0.001200104486 156.1468551491 + 0.001200104487 153.9140511008 + 0.001200104488 152.1657460950 + 0.001200104489 150.8945499201 + 0.001200104490 149.9937088131 + 0.001200104491 149.3340776117 + 0.001200104492 148.8162340665 + 0.001200104494 148.3803883551 + 0.001200104495 147.9964707407 + 0.001200104496 147.6519430774 + 0.001200104497 147.3429913273 + 0.001200104498 147.0692681308 + 0.001200104499 146.8311010131 + 0.001200104499 146.6281950487 + 0.001200104500 146.4591853308 + 0.001200104500 146.3216479993 + 0.001200104501 146.2123367999 + 0.001200104501 146.1275052198 + 0.001200104501 146.0632300708 + 0.001200104501 146.0156882953 + 0.001200104502 145.9813638380 + 0.001200104502 145.9571799370 + 0.001200104502 145.9405736239 + 0.001200104502 145.9295556989 + 0.001200104502 145.9227762076 + 0.001200104502 145.9195154317 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001798245673 155.2695450545 + 0.001796805814 155.2818932232 + 0.001793781588 155.3078756321 + 0.001788597813 155.3529323406 + 0.001780055051 155.4286879620 + 0.001766261343 155.5542344271 + 0.001744428027 155.7597248676 + 0.001710473151 156.0938900978 + 0.001658748853 156.6333786233 + 0.001582867996 157.4828888728 + 0.001478786107 158.7581631190 + 0.001349019382 160.5785273853 + 0.001204822381 163.0805001183 + 0.001200113047 160.5998871750 + 0.001200104495 157.9163834619 + 0.001200104486 155.4552632340 + 0.001200104487 153.3977207364 + 0.001200104488 151.8245175517 + 0.001200104489 150.6933764342 + 0.001200104490 149.8869087653 + 0.001200104491 149.2847421633 + 0.001200104492 148.8007952035 + 0.001200104494 148.3854226780 + 0.001200104495 148.0144864306 + 0.001200104496 147.6784428060 + 0.001200104497 147.3748665827 + 0.001200104498 147.1040650657 + 0.001200104499 146.8667562862 + 0.001200104499 146.6629863840 + 0.001200104500 146.4917548284 + 0.001200104500 146.3510275760 + 0.001200104501 146.2379468115 + 0.001200104501 146.1491205867 + 0.001200104501 146.0809203520 + 0.001200104501 146.0297438028 + 0.001200104502 145.9922227152 + 0.001200104502 145.9653890904 + 0.001200104502 145.9468600835 + 0.001200104502 145.9350517515 + 0.001200104502 145.9292329633 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001798660050 155.2663662562 + 0.001797538127 155.2762706326 + 0.001795177097 155.2971325208 + 0.001791117995 155.3333546911 + 0.001784403260 155.3943525361 + 0.001773511438 155.4956549040 + 0.001756194762 155.6615591851 + 0.001729212650 155.9296013759 + 0.001687894633 156.3598165683 + 0.001625187019 157.0616974478 + 0.001532560405 158.2191895284 + 0.001410165746 159.9691040949 + 0.001283437609 161.9041166438 + 0.001200426586 162.3826248982 + 0.001200104903 159.7312973427 + 0.001200104486 157.1332340334 + 0.001200104486 154.8196936504 + 0.001200104487 152.9375265978 + 0.001200104488 151.5280664574 + 0.001200104489 150.5213320193 + 0.001200104490 149.7962226270 + 0.001200104491 149.2431161857 + 0.001200104492 148.7883104164 + 0.001200104494 148.3908721522 + 0.001200104495 148.0315913907 + 0.001200104496 147.7033699964 + 0.001200104497 147.4049023435 + 0.001200104498 147.1370172831 + 0.001200104498 146.9007448133 + 0.001200104499 146.6964111934 + 0.001200104500 146.5233248256 + 0.001200104500 146.3797910586 + 0.001200104501 146.2632985817 + 0.001200104501 146.1707802612 + 0.001200104501 146.0988880547 + 0.001200104501 146.0442484860 + 0.001200104501 146.0037153282 + 0.001200104502 145.9747114357 + 0.001200104502 145.9556495675 + 0.001200104502 145.9460583395 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001798980402 155.2638184034 + 0.001798105176 155.2717598746 + 0.001796259962 155.2885049549 + 0.001793078723 155.3176187101 + 0.001787798801 155.3667069233 + 0.001779205403 155.4482773403 + 0.001765489968 155.5819131853 + 0.001743967906 155.7987001719 + 0.001710710161 156.1485238573 + 0.001660313374 156.7089589115 + 0.001586451120 157.5902526180 + 0.001484151006 158.9364298687 + 0.001354038046 160.9350499781 + 0.001207516336 163.7819950272 + 0.001200119069 161.5219473249 + 0.001200104503 158.8888241570 + 0.001200104485 156.3990845473 + 0.001200104486 154.2407911464 + 0.001200104487 152.5303055909 + 0.001200104488 151.2716827341 + 0.001200104489 150.3744634323 + 0.001200104490 149.7192113967 + 0.001200104491 149.2079885068 + 0.001200104492 148.7783034687 + 0.001200104494 148.3966400580 + 0.001200104495 148.0478675997 + 0.001200104496 147.7268795400 + 0.001200104497 147.4332688418 + 0.001200104498 147.1682767603 + 0.001200104498 146.9331806858 + 0.001200104499 146.7285364025 + 0.001200104500 146.5539144657 + 0.001200104500 146.4079162764 + 0.001200104501 146.2883408182 + 0.001200104501 146.1924233515 + 0.001200104501 146.1171023446 + 0.001200104501 146.0593449929 + 0.001200104501 146.0166748688 + 0.001200104502 145.9878586316 + 0.001200104502 145.9730941726 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799228496 155.2617773047 + 0.001798544931 155.2681435952 + 0.001797101418 155.2815804555 + 0.001794606530 155.3049690530 + 0.001790453399 155.3444481842 + 0.001783670166 155.4101408686 + 0.001772799528 155.5179331140 + 0.001755678706 155.6927337913 + 0.001729174066 155.9731108902 + 0.001688740066 156.4211860105 + 0.001627538218 157.1490912159 + 0.001537605595 158.3364357201 + 0.001419461497 160.1053680989 + 0.001295266290 162.1159007877 + 0.001200604832 163.2119734408 + 0.001200105235 160.6596689250 + 0.001200104485 158.0835698507 + 0.001200104485 155.7150835571 + 0.001200104486 153.7174465319 + 0.001200104487 152.1723935546 + 0.001200104488 151.0508213333 + 0.001200104489 150.2492259596 + 0.001200104490 149.6537720724 + 0.001200104491 149.1783291814 + 0.001200104492 148.7703677191 + 0.001200104494 148.4026407786 + 0.001200104495 148.0633827686 + 0.001200104496 147.7491039530 + 0.001200104497 147.4601146436 + 0.001200104497 147.1979791219 + 0.001200104498 146.9641691175 + 0.001200104499 146.7594279839 + 0.001200104500 146.5835493305 + 0.001200104500 146.4353952899 + 0.001200104500 146.3130523223 + 0.001200104501 146.2140719460 + 0.001200104501 146.1358522532 + 0.001200104501 146.0763790763 + 0.001200104501 146.0352348425 + 0.001200104501 146.0138171900 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799420942 155.2601428011 + 0.001798886498 155.2652453151 + 0.001797756192 155.2760247399 + 0.001795798097 155.2948094164 + 0.001792529429 155.3265549606 + 0.001787174649 155.3794314950 + 0.001778566857 155.4662271750 + 0.001764960629 155.6070254342 + 0.001743759186 155.8336514821 + 0.001711180258 156.1966942384 + 0.001662032442 156.7744202910 + 0.001589989313 157.6830033989 + 0.001489221694 159.0932670997 + 0.001358907187 161.2497883426 + 0.001211502450 164.3650413213 + 0.001200128501 162.3841139651 + 0.001200104517 159.8145926265 + 0.001200104485 157.3187852001 + 0.001200104485 155.0832327167 + 0.001200104486 153.2481165670 + 0.001200104487 151.8596942903 + 0.001200104488 150.8611497764 + 0.001200104489 150.1424826639 + 0.001200104490 149.5981033825 + 0.001200104491 149.1532653050 + 0.001200104492 148.7641575187 + 0.001200104493 148.4088000102 + 0.001200104495 148.0781939734 + 0.001200104496 147.7701576015 + 0.001200104497 147.4855701177 + 0.001200104497 147.2262457847 + 0.001200104498 146.9938072971 + 0.001200104499 146.7891515357 + 0.001200104499 146.6122657146 + 0.001200104500 146.4622573774 + 0.001200104500 146.3375344435 + 0.001200104501 146.2362274491 + 0.001200104501 146.1571721633 + 0.001200104501 146.1012920644 + 0.001200104501 146.0717952438 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799570453 155.2588342165 + 0.001799152171 155.2629232622 + 0.001798266312 155.2715693448 + 0.001796728433 155.2866525834 + 0.001794154822 155.3121686526 + 0.001789926990 155.3547102704 + 0.001783108904 155.4246203068 + 0.001772292711 155.5381466053 + 0.001755386220 155.7207061716 + 0.001729352437 156.0116896720 + 0.001689765766 156.4748064552 + 0.001630041986 157.2229827830 + 0.001542760219 158.4299488802 + 0.001428326088 160.2145690770 + 0.001305290709 162.3275153438 + 0.001200848746 163.9800263480 + 0.001200105761 161.5349186630 + 0.001200104486 158.9975808852 + 0.001200104485 156.5973430754 + 0.001200104486 154.5041415150 + 0.001200104486 152.8304633850 + 0.001200104487 151.5879542763 + 0.001200104488 150.6986387627 + 0.001200104489 150.0514839602 + 0.001200104490 149.5506699461 + 0.001200104491 149.1320592892 + 0.001200104492 148.7593802317 + 0.001200104493 148.4150543277 + 0.001200104495 148.0923502748 + 0.001200104496 147.7901400256 + 0.001200104496 147.5097503916 + 0.001200104497 147.2531863430 + 0.001200104498 147.0221874068 + 0.001200104499 146.8177815249 + 0.001200104499 146.6401477787 + 0.001200104500 146.4887056911 + 0.001200104500 146.3625668262 + 0.001200104501 146.2617868968 + 0.001200104501 146.1891661011 + 0.001200104501 146.1503568134 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799686771 155.2577867823 + 0.001799359089 155.2610632931 + 0.001798664223 155.2679970831 + 0.001797455561 155.2801055724 + 0.001795428159 155.3006105206 + 0.001792088982 155.3348318914 + 0.001786689169 155.3911129938 + 0.001778098771 155.4825310363 + 0.001764625163 155.6295892699 + 0.001743754802 155.8646310653 + 0.001711842335 156.2386497817 + 0.001663876262 156.8305136701 + 0.001593488834 157.7624807892 + 0.001494085457 159.2299920477 + 0.001363834664 161.5219874674 + 0.001217177176 164.8170817906 + 0.001200143056 163.1910720053 + 0.001200104541 160.6954099264 + 0.001200104484 158.2125553723 + 0.001200104485 155.9221146279 + 0.001200104486 153.9778705266 + 0.001200104486 152.4614527951 + 0.001200104487 151.3528734285 + 0.001200104488 150.5596110286 + 0.001200104489 149.9738428968 + 0.001200104490 149.5101685068 + 0.001200104491 149.1140893763 + 0.001200104492 148.7557889619 + 0.001200104493 148.4213504020 + 0.001200104494 148.1058946599 + 0.001200104495 147.8091387628 + 0.001200104496 147.5327586238 + 0.001200104497 147.2789039151 + 0.001200104498 147.0494118630 + 0.001200104499 146.8454563038 + 0.001200104499 146.6675180843 + 0.001200104500 146.5158578169 + 0.001200104500 146.3920633254 + 0.001200104500 146.3013018659 + 0.001200104501 146.2522632544 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799777388 155.2569484895 + 0.001799520447 155.2595736934 + 0.001798974951 155.2651336222 + 0.001798024389 155.2748525262 + 0.001796426503 155.2913268237 + 0.001793788579 155.3188458086 + 0.001789511780 155.3641420678 + 0.001782687982 155.4377844029 + 0.001771951085 155.5563237584 + 0.001755274323 155.7455527378 + 0.001729707481 156.0455283121 + 0.001690938161 156.5211624173 + 0.001632644498 157.2850892824 + 0.001547868794 158.5054353173 + 0.001436586389 160.3065449373 + 0.001313865551 162.5359913229 + 0.001201180005 164.6911204849 + 0.001200106571 162.3603932912 + 0.001200104487 159.8751560571 + 0.001200104484 157.4636641857 + 0.001200104485 155.2952281341 + 0.001200104486 153.5035599320 + 0.001200104487 152.1375639172 + 0.001200104487 151.1502530705 + 0.001200104488 150.4407617132 + 0.001200104489 149.9075029564 + 0.001200104490 149.4754967925 + 0.001200104491 149.0988325328 + 0.001200104492 148.7531760603 + 0.001200104493 148.4276441161 + 0.001200104494 148.1188657809 + 0.001200104495 147.8272328684 + 0.001200104496 147.5546934881 + 0.001200104497 147.3035171958 + 0.001200104498 147.0756693356 + 0.001200104499 146.8726303168 + 0.001200104499 146.6958806507 + 0.001200104500 146.5487629972 + 0.001200104500 146.4392065812 + 0.001200104500 146.3794306730 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799848071 155.2562776429 + 0.001799646424 155.2583808768 + 0.001799217855 155.2628387085 + 0.001798469801 155.2706384204 + 0.001797209825 155.2838719216 + 0.001795125171 155.3059977459 + 0.001791737262 155.3424482934 + 0.001786318099 155.4017463520 + 0.001777768941 155.4972170415 + 0.001764446511 155.6496794623 + 0.001743914397 155.8918451075 + 0.001712651228 156.2749479415 + 0.001665795343 156.8784782182 + 0.001596915364 157.8307034919 + 0.001498773885 159.3486314643 + 0.001368997141 161.7506070898 + 0.001224799190 165.1308035650 + 0.001200165284 163.9466731231 + 0.001200104581 161.5328336370 + 0.001200104484 159.0788474759 + 0.001200104485 156.7542534664 + 0.001200104485 154.7181523702 + 0.001200104486 153.0795025682 + 0.001200104487 151.8549415024 + 0.001200104487 150.9761026542 + 0.001200104488 150.3391614455 + 0.001200104489 149.8507036724 + 0.001200104490 149.4457252124 + 0.001200104491 149.0858495628 + 0.001200104492 148.7513675199 + 0.001200104493 148.4339000934 + 0.001200104494 148.1313010810 + 0.001200104495 147.8445023495 + 0.001200104496 147.5756786793 + 0.001200104497 147.3272598521 + 0.001200104498 147.1015537352 + 0.001200104498 146.9012275825 + 0.001200104499 146.7314914185 + 0.001200104499 146.6032974500 + 0.001200104500 146.5327362982 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799903270 155.2557408292 + 0.001799744888 155.2574257966 + 0.001799407932 155.2609996983 + 0.001798818873 155.2672584830 + 0.001797824862 155.2778872108 + 0.001796176907 155.2956734661 + 0.001793492823 155.3249983119 + 0.001789189186 155.3727396319 + 0.001782381637 155.4496608290 + 0.001771743172 155.5725404190 + 0.001755306637 155.7674585066 + 0.001730199185 156.0750274987 + 0.001692213334 156.5610903975 + 0.001635276019 157.3375026728 + 0.001552798330 158.5679373150 + 0.001444152039 160.3880367634 + 0.001321254151 162.7394987305 + 0.001201631867 165.3480237754 + 0.001200107795 163.1389792372 + 0.001200104488 160.7163215754 + 0.001200104484 158.3114307605 + 0.001200104485 156.0876888956 + 0.001200104485 154.1914723028 + 0.001200104486 152.7032363122 + 0.001200104487 151.6095694079 + 0.001200104487 150.8267146730 + 0.001200104488 150.2522431858 + 0.001200104489 149.8019461048 + 0.001200104490 149.4200717199 + 0.001200104491 149.0747724179 + 0.001200104492 148.7502187597 + 0.001200104493 148.4400936197 + 0.001200104494 148.1432479270 + 0.001200104495 147.8610655467 + 0.001200104496 147.5959871062 + 0.001200104497 147.3508682136 + 0.001200104498 147.1294254206 + 0.001200104498 146.9387282796 + 0.001200104499 146.7928552747 + 0.001200104499 146.7119278337 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799946425 155.2553112839 + 0.001799821927 155.2566611233 + 0.001799556812 155.2595261892 + 0.001799092674 155.2645479787 + 0.001798308112 155.2730834952 + 0.001797004929 155.2873791978 + 0.001794877988 155.3109686448 + 0.001791460085 155.3494014137 + 0.001786041054 155.4113568838 + 0.001777551486 155.5103516486 + 0.001764393415 155.6674497085 + 0.001744200512 155.9156378106 + 0.001713561073 156.3063276307 + 0.001667736216 156.9197148408 + 0.001600226692 157.8897509222 + 0.001503310440 159.4509854663 + 0.001374557160 161.9342105703 + 0.001234272764 165.3144580297 + 0.001200198784 164.6541657675 + 0.001200104643 162.3283054452 + 0.001200104484 159.9163755067 + 0.001200104484 157.5764478353 + 0.001200104485 155.4665651242 + 0.001200104485 153.7148902346 + 0.001200104486 152.3717082401 + 0.001200104487 151.3974255059 + 0.001200104488 150.6987102203 + 0.001200104488 150.1777788671 + 0.001200104489 149.7599596916 + 0.001200104490 149.3978799731 + 0.001200104491 149.0652942175 + 0.001200104492 148.7496141635 + 0.001200104493 148.4462230083 + 0.001200104494 148.1548089573 + 0.001200104495 147.8772284467 + 0.001200104496 147.6164958508 + 0.001200104497 147.3771371514 + 0.001200104498 147.1679513763 + 0.001200104498 147.0060797700 + 0.001200104498 146.9156376484 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001799980199 155.2549675781 + 0.001799882263 155.2560489243 + 0.001799673529 155.2583456313 + 0.001799307606 155.2623745833 + 0.001798688066 155.2692284162 + 0.001797657160 155.2807172001 + 0.001795971366 155.2996901311 + 0.001793256780 155.3306240953 + 0.001788943229 155.3805248617 + 0.001782168846 155.4603071182 + 0.001771642505 155.5869273852 + 0.001755450638 155.7866984081 + 0.001730789314 156.1007094455 + 0.001693547686 156.5955356121 + 0.001637877787 157.3821245652 + 0.001557467715 158.6211496987 + 0.001451007940 160.4630780137 + 0.001327665783 162.9366848247 + 0.001202252984 165.9520681857 + 0.001200109621 163.8732311197 + 0.001200104491 161.5212396647 + 0.001200104484 159.1382921762 + 0.001200104484 156.8781877410 + 0.001200104485 154.8927538303 + 0.001200104485 153.2871857033 + 0.001200104486 152.0814299117 + 0.001200104487 151.2146107988 + 0.001200104488 150.5890598624 + 0.001200104488 150.1138501403 + 0.001200104489 149.7236717600 + 0.001200104490 149.3786015215 + 0.001200104491 149.0571647301 + 0.001200104492 148.7494797951 + 0.001200104493 148.4523625111 + 0.001200104494 148.1663156368 + 0.001200104495 147.8940022355 + 0.001200104496 147.6404145379 + 0.001200104497 147.4158315967 + 0.001200104497 147.2402303655 + 0.001200104498 147.1414899301 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800006658 155.2546925580 + 0.001799929561 155.2555588101 + 0.001799765111 155.2573998437 + 0.001799476456 155.2606320411 + 0.001798987000 155.2661350209 + 0.001798171195 155.2753669905 + 0.001796834729 155.2906251929 + 0.001794678457 155.3155215990 + 0.001791245004 155.3557097881 + 0.001785841186 155.4199927294 + 0.001777424630 155.5220403194 + 0.001764438526 155.6831134579 + 0.001744579558 155.9364194362 + 0.001714531604 156.3335413976 + 0.001669656077 156.9554678102 + 0.001603398450 157.9412308300 + 0.001507741341 159.5379629497 + 0.001380636914 162.0720313933 + 0.001245062770 165.3956717832 + 0.001200248220 165.3163891550 + 0.001200104743 163.0832058259 + 0.001200104484 160.7241217733 + 0.001200104484 158.3856401074 + 0.001200104484 156.2200691404 + 0.001200104485 154.3672995026 + 0.001200104485 152.9063666224 + 0.001200104486 151.8286556773 + 0.001200104487 151.0574438465 + 0.001200104488 150.4950842411 + 0.001200104489 150.0588168151 + 0.001200104489 149.6921813248 + 0.001200104490 149.3617852761 + 0.001200104491 149.0502019913 + 0.001200104492 148.7498428002 + 0.001200104493 148.4588579814 + 0.001200104494 148.1789008468 + 0.001200104495 147.9149747602 + 0.001200104496 147.6784730017 + 0.001200104496 147.4918292498 + 0.001200104497 147.3862797609 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800027405 155.2544724950 + 0.001799966672 155.2551664398 + 0.001799837029 155.2566421731 + 0.001799609201 155.2592350468 + 0.001799222338 155.2636530932 + 0.001798576520 155.2710709171 + 0.001797516728 155.2833404964 + 0.001795803728 155.3033754508 + 0.001793070814 155.3357383403 + 0.001788760551 155.3875369469 + 0.001782031909 155.4698079382 + 0.001771626327 155.5996530306 + 0.001755678155 155.8035835094 + 0.001731445326 156.1231001698 + 0.001694907490 156.6253292107 + 0.001640417563 157.4203100018 + 0.001561860332 158.6671046439 + 0.001457219531 160.5329799131 + 0.001333305442 163.1253471487 + 0.001203110755 166.5031512084 + 0.001200112306 164.5654813850 + 0.001200104497 162.2902239452 + 0.001200104484 159.9422115292 + 0.001200104484 157.6633140103 + 0.001200104484 155.6050246934 + 0.001200104485 153.8902656584 + 0.001200104486 152.5697662705 + 0.001200104486 151.6095501985 + 0.001200104487 150.9225265360 + 0.001200104488 150.4144410589 + 0.001200104489 150.0112865444 + 0.001200104489 149.6647413433 + 0.001200104490 149.3470861076 + 0.001200104491 149.0443563441 + 0.001200104492 148.7510458055 + 0.001200104493 148.4669445991 + 0.001200104494 148.1964790978 + 0.001200104495 147.9516731755 + 0.001200104496 147.7569012106 + 0.001200104496 147.6461988793 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800043687 155.2542964030 + 0.001799995814 155.2548523206 + 0.001799893549 155.2560352220 + 0.001799713634 155.2581151489 + 0.001799407723 155.2616619455 + 0.001798896290 155.2676216473 + 0.001798055676 155.2774871123 + 0.001796694599 155.2936086576 + 0.001794519155 155.3196687843 + 0.001791081506 155.3614048740 + 0.001785704286 155.4277208596 + 0.001777369826 155.5324127615 + 0.001764558666 155.6969035412 + 0.001745024184 155.9545826402 + 0.001715533786 156.3572077640 + 0.001671532805 156.9865914721 + 0.001606439153 157.9859431825 + 0.001512143057 159.6094292693 + 0.001387269696 162.1656931945 + 0.001256378364 165.4127579706 + 0.001200319032 165.9359315432 + 0.001200104898 163.7989042426 + 0.001200104484 161.5013445673 + 0.001200104484 159.1790266888 + 0.001200104484 156.9752775917 + 0.001200104484 155.0352715852 + 0.001200104485 153.4608584983 + 0.001200104486 152.2742133838 + 0.001200104486 151.4203266754 + 0.001200104487 150.8067807068 + 0.001200104488 150.3451048530 + 0.001200104489 149.9700918735 + 0.001200104490 149.6407625461 + 0.001200104490 149.3343309456 + 0.001200104491 149.0399390482 + 0.001200104492 148.7543981466 + 0.001200104493 148.4807988963 + 0.001200104494 148.2311834725 + 0.001200104495 148.0312266644 + 0.001200104495 147.9170831001 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800056477 155.2541554919 + 0.001800018717 155.2546008445 + 0.001799938001 155.2555490176 + 0.001799795850 155.2572174262 + 0.001799553845 155.2600646448 + 0.001799148688 155.2648525385 + 0.001798481743 155.2727843794 + 0.001797400100 155.2857559080 + 0.001795668302 155.3067389993 + 0.001792926713 155.3403658621 + 0.001788629858 155.3938281471 + 0.001781955861 155.4782630099 + 0.001771675709 155.6108932206 + 0.001755966826 155.8184011519 + 0.001732143996 156.1426257928 + 0.001696274575 156.6510419705 + 0.001642892718 157.4527647675 + 0.001566013589 158.7063832298 + 0.001462911055 160.5969778022 + 0.001338382486 163.3023087229 + 0.001204295201 166.9996191881 + 0.001200116194 165.2179081546 + 0.001200104505 163.0237522398 + 0.001200104483 160.7214956273 + 0.001200104484 158.4397630559 + 0.001200104484 156.3252738660 + 0.001200104485 154.5120848408 + 0.001200104485 153.0774415476 + 0.001200104486 152.0162106253 + 0.001200104486 151.2573607895 + 0.001200104487 150.7074641927 + 0.001200104488 150.2853481291 + 0.001200104489 149.9342895028 + 0.001200104490 149.6198787534 + 0.001200104490 149.3237561327 + 0.001200104491 149.0382942973 + 0.001200104492 148.7642623801 + 0.001200104493 148.5129552873 + 0.001200104494 148.3105889638 + 0.001200104494 148.1946599085 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800066531 155.2540427286 + 0.001800036730 155.2543995152 + 0.001799972987 155.2551595415 + 0.001799860617 155.2564978265 + 0.001799669085 155.2587833646 + 0.001799348006 155.2626296423 + 0.001798818705 155.2690064221 + 0.001797958965 155.2794426970 + 0.001796580193 155.2963369764 + 0.001794393704 155.3234295219 + 0.001790960686 155.3665271089 + 0.001785618397 155.4346173867 + 0.001777371815 155.5416004885 + 0.001764735666 155.7090302028 + 0.001745515147 155.9704364897 + 0.001716552222 156.3777310449 + 0.001673366367 157.0134895310 + 0.001609387284 158.0239230568 + 0.001516599836 159.6647892135 + 0.001394375826 162.2201288457 + 0.001267489413 165.4004977231 + 0.001200417122 166.5152103337 + 0.001200105135 164.4767970991 + 0.001200104484 162.2475782995 + 0.001200104483 159.9541284586 + 0.001200104484 157.7286962821 + 0.001200104484 155.7164681125 + 0.001200104485 154.0358872308 + 0.001200104485 152.7376692132 + 0.001200104486 151.7921002715 + 0.001200104486 151.1172723842 + 0.001200104487 150.6221769695 + 0.001200104488 150.2337415269 + 0.001200104489 149.9032229843 + 0.001200104490 149.6021870500 + 0.001200104490 149.3166870977 + 0.001200104491 149.0438844099 + 0.001200104492 148.7933659478 + 0.001200104493 148.5910034495 + 0.001200104493 148.4747803890 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800074440 155.2539524865 + 0.001800050907 155.2542383287 + 0.001800000541 155.2548475494 + 0.001799911669 155.2559210200 + 0.001799760020 155.2577556271 + 0.001799505482 155.2608453310 + 0.001799085301 155.2659716374 + 0.001798401803 155.2743676633 + 0.001797303967 155.2879690290 + 0.001795560156 155.3097956373 + 0.001792817498 155.3445376545 + 0.001788541671 155.3994562096 + 0.001781928478 155.4857707736 + 0.001771775973 155.6208026469 + 0.001756301029 155.8313720645 + 0.001732872541 156.1595623814 + 0.001697645726 156.6729662442 + 0.001645321022 157.4797090513 + 0.001569989721 158.7387792363 + 0.001468220499 160.6534962332 + 0.001343089214 163.4642580626 + 0.001205924403 167.4380416970 + 0.001200121735 165.8325631316 + 0.001200104518 163.7224632837 + 0.001200104483 161.4748055054 + 0.001200104483 159.2044625097 + 0.001200104484 157.0501312181 + 0.001200104484 155.1511958726 + 0.001200104485 153.6061789149 + 0.001200104485 152.4386452461 + 0.001200104486 151.5982205678 + 0.001200104486 150.9969855402 + 0.001200104487 150.5488770448 + 0.001200104488 150.1892156831 + 0.001200104489 149.8767603877 + 0.001200104490 149.5889223052 + 0.001200104490 149.3175894927 + 0.001200104491 149.0694255130 + 0.001200104492 148.8689227884 + 0.001200104492 148.7536263269 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800080667 155.2538802639 + 0.001800062073 155.2541092769 + 0.001800022255 155.2545976237 + 0.001799951936 155.2554586776 + 0.001799831815 155.2569312889 + 0.001799629958 155.2594131463 + 0.001799296308 155.2635339896 + 0.001798752810 155.2702882370 + 0.001797878551 155.2812379038 + 0.001796487715 155.2988214491 + 0.001794296663 155.3268273871 + 0.001790875072 155.3711201134 + 0.001785573796 155.4407557813 + 0.001777418804 155.5497172223 + 0.001764956716 155.7196540784 + 0.001746041294 155.9841826079 + 0.001717583055 156.3953158136 + 0.001675171404 157.0362415370 + 0.001612292767 158.0548364451 + 0.001521168783 159.7039084278 + 0.001401792066 162.2427352195 + 0.001277926768 165.3817402522 + 0.001200548881 167.0564533176 + 0.001200105487 165.1183234477 + 0.001200104485 162.9626210498 + 0.001200104483 160.7088272289 + 0.001200104483 158.4769055596 + 0.001200104484 156.4079398166 + 0.001200104484 154.6310162148 + 0.001200104485 153.2216169763 + 0.001200104485 152.1770928545 + 0.001200104486 151.4310379492 + 0.001200104487 150.8937859665 + 0.001200104487 150.4859507799 + 0.001200104488 150.1512936928 + 0.001200104489 149.8559522066 + 0.001200104490 149.5844458674 + 0.001200104490 149.3389731788 + 0.001200104491 149.1414202488 + 0.001200104491 149.0278901953 + 0.001200104502 145.9103378848 + 0.001800104024 155.2535903180 + 0.001800085573 155.2538224596 + 0.001800070873 155.2540059492 + 0.001800039379 155.2543974135 + 0.001799983714 155.2550880857 + 0.001799888529 155.2562701109 + 0.001799728394 155.2582636440 + 0.001799463380 155.2615760914 + 0.001799031114 155.2670093249 + 0.001798334800 155.2758237999 + 0.001797225418 155.2899883583 + 0.001795475073 155.3125631670 + 0.001792737313 155.3482865277 + 0.001788488290 155.4044759802 + 0.001781940310 155.4924153917 + 0.001771916677 155.6294988364 + 0.001756671376 155.8426402855 + 0.001733626480 156.1740552074 + 0.001699026604 156.6912162317 + 0.001647725798 157.5011791747 + 0.001573846419 158.7640002034 + 0.001473262230 160.7012328000 + 0.001347583565 163.6084738370 + 0.001208150370 167.8129822931 + 0.001200129534 166.4113766712 + 0.001200104538 164.3871355313 + 0.001200104483 162.2011458370 + 0.001200104483 159.9546516409 + 0.001200104483 157.7760934904 + 0.001200104484 155.8053242417 + 0.001200104484 154.1565730009 + 0.001200104485 152.8801292902 + 0.001200104485 151.9495411864 + 0.001200104486 151.2872709037 + 0.001200104487 150.8054193630 + 0.001200104487 150.4324434671 + 0.001200104488 150.1207239988 + 0.001200104489 149.8449347744 + 0.001200104490 149.6008789044 + 0.001200104490 149.4063593380 + 0.001200104490 149.2949323505 + 0.001200104502 145.9103378848 diff --git a/mytest/donly_101.sel b/mytest/donly_101.sel index 4bc089e8..bb802e1f 100644 --- a/mytest/donly_101.sel +++ b/mytest/donly_101.sel @@ -1,306 +1,306 @@ Mu SC - 0.051887174391 4110.8495367932 - 0.021231038792 1715.0761484960 - 0.021231038792 1715.0761484960 - 0.100000121159 10609.0349042419 - 0.187729700941 14832.1483933884 - 0.103005879782 6984.8835076065 - 0.178307919697 13624.8622254549 - 0.178307919697 13624.8622254549 - 0.178307919697 13624.8622254549 - 0.178307919697 13624.8622254549 - 0.092574205559 6180.2423019728 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.092574205567 6180.2423019472 - 0.103625874525 7035.8951431675 - 0.107215758365 7328.9344233134 - 0.178307919671 13624.8622252100 - 0.178307919671 13624.8622252100 - 0.178307919671 13624.8622252100 - 0.177032378380 13247.8317707797 - 0.092574205564 6180.2423019200 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.092574205566 6180.2423019347 - 0.104132711808 7077.5099696208 - 0.106537491249 7273.6750079026 - 0.108015538545 7393.9649357193 - 0.178307919666 13624.8622251700 - 0.178307919666 13624.8622251700 - 0.177333761152 13334.1897705105 - 0.176781833202 13163.0197698568 - 0.092574205566 6180.2423019214 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.092574205567 6180.2423019377 - 0.104546563777 7111.4301848011 - 0.106083101090 7236.6037096326 - 0.107739510512 7371.5256842879 - 0.108164846901 7406.0959193925 - 0.178307919665 13624.8622251622 - 0.177592593129 13401.6018426581 - 0.176905532697 13202.2412474711 - 0.176724294483 13143.4746202261 - 0.092574205567 6180.2423019247 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.092574205567 6180.2423019383 - 0.104884144760 7139.0565861597 - 0.105791988409 7212.8352299623 - 0.107430031747 7346.3481951892 - 0.108085692309 7399.6646306823 - 0.108192624587 7408.3525324970 - 0.177804994355 13454.0578412403 - 0.177060363679 13247.7947607449 - 0.176765759561 13157.0125851408 - 0.176710780235 13138.9537973341 - 0.092574205567 6180.2423019263 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.092574205567 6180.2423019384 - 0.105159256376 7161.5397061820 - 0.105618804975 7198.6930713672 - 0.107123921147 7321.4249615675 - 0.107963628665 7389.7444261595 - 0.108172743053 7406.7373630694 - 0.105350653063 7173.5086173502 - 0.177232287670 13294.9287821420 - 0.176831893251 13177.8422837733 - 0.176723481849 13143.1224930656 - 0.176707621251 13137.9084495069 - 0.092574205567 6180.2423019269 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.105383264160 7179.8230301635 - 0.105529650061 7191.4177271810 - 0.106842596307 7298.5025106071 - 0.107807260243 7377.0316539775 - 0.108133856829 7403.5780223179 - 0.105942406000 7220.5804567275 - 0.102326416652 6922.5912017292 - 0.176920912557 13204.6152012433 - 0.176748196896 13151.1193681494 - 0.176711291898 13139.1126192305 - 0.176706887008 13137.6668835069 - 0.092574205567 6180.2423019273 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.105565507312 7194.6792552886 - 0.105499257531 7188.9469334351 - 0.106597096382 7278.4858487593 - 0.107627596785 7362.4185818628 - 0.108073114092 7398.6422988480 - 0.106410867889 7257.9332568795 - 0.103063953522 6981.5508446705 - 0.100294328960 6755.5274044109 - 0.176787048890 13163.4080824106 - 0.176719778997 13141.8828605531 - 0.176707906125 13138.0007818521 - 0.176706716921 13137.6110826473 - 0.092574205567 6180.2423019277 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.105713646680 7206.7405359099 - 0.105510251278 7189.8231908839 - 0.106391662013 7261.7268635418 - 0.107435662019 7346.7998008054 - 0.107990242450 7391.9071735128 - 0.106774609610 7287.0401177510 - 0.103752188769 7036.5244549202 - 0.100842797953 6799.4054470594 - 0.099239165529 6669.0522576980 - 0.176735120573 13146.8422276889 - 0.176710645130 13138.8970026512 - 0.176706992096 13137.7010862028 - 0.176706677588 13137.5981954901 - 0.092574205567 6180.2423019279 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.105833957618 7216.5235961804 - 0.105550097163 7192.9854430763 - 0.106226290083 7248.2307397026 - 0.107241214283 7330.9684807056 - 0.107887073729 7383.5204378183 - 0.107048908827 7309.1059212434 - 0.104379984826 7086.6645201158 - 0.101420282726 6845.5283885162 - 0.099552224357 6694.1157613296 - 0.098769135704 6630.5890356092 - 0.176716269513 13140.7301093125 - 0.176707835374 13137.9772183469 - 0.176706750537 13137.6219662791 - 0.176706668500 13137.5952195014 - 0.092574205567 6180.2423019282 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 - 0.092574205567 6180.2423019385 + 0.051887174391 4110.8496208075 + 0.021231038792 1715.0761734484 + 0.021231038792 1715.0761734484 + 0.100000121159 10609.0353009428 + 0.187729700941 14832.1492217948 + 0.103005879782 6984.8837566651 + 0.178307919697 13624.8630833404 + 0.178307919697 13624.8630833404 + 0.178307919697 13624.8630833404 + 0.178307919697 13624.8630833404 + 0.092574205559 6180.2425291014 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.092574205567 6180.2425290758 + 0.103625874525 7035.8953940357 + 0.107215758365 7328.9346847970 + 0.178307919671 13624.8630830956 + 0.178307919671 13624.8630830956 + 0.178307919671 13624.8630830956 + 0.177032378380 13247.8326617031 + 0.092574205564 6180.2425290486 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.092574205566 6180.2425290634 + 0.104132711808 7077.5102219732 + 0.106537491249 7273.6752673774 + 0.108015538545 7393.9651995789 + 0.178307919666 13624.8630830556 + 0.178307919666 13624.8630830556 + 0.177333761152 13334.1906533578 + 0.176781833202 13163.0206695810 + 0.092574205566 6180.2425290500 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.092574205567 6180.2425290663 + 0.104546563777 7111.4304383690 + 0.106083101090 7236.6039677644 + 0.107739510512 7371.5259473274 + 0.108164846901 7406.0961836960 + 0.178307919665 13624.8630830478 + 0.177592593129 13401.6027196977 + 0.176905532697 13202.2421431554 + 0.176724294483 13143.4755220409 + 0.092574205567 6180.2425290533 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.092574205567 6180.2425290669 + 0.104884144760 7139.0568407217 + 0.105791988409 7212.8354872347 + 0.107430031747 7346.3484573104 + 0.108085692309 7399.6648947505 + 0.108192624587 7408.3527968832 + 0.177804994355 13454.0587140150 + 0.177060363679 13247.7956519630 + 0.176765759561 13157.0134855221 + 0.176710780235 13138.9546996335 + 0.092574205567 6180.2425290549 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.092574205567 6180.2425290670 + 0.105159256376 7161.5399615559 + 0.105618804975 7198.6933281281 + 0.107123921147 7321.4252227813 + 0.107963628665 7389.7446898649 + 0.108172743053 7406.7376273965 + 0.105350653063 7173.5088733765 + 0.177232287670 13294.9296689772 + 0.176831893251 13177.8431819950 + 0.176723481849 13143.1233949206 + 0.176707621251 13137.9093519183 + 0.092574205567 6180.2425290556 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.105383264160 7179.8232862001 + 0.105529650061 7191.4179836782 + 0.106842596307 7298.5027709881 + 0.107807260243 7377.0319172185 + 0.108133856829 7403.5782865293 + 0.105942406000 7220.5807145226 + 0.102326416652 6922.5914489694 + 0.176920912557 13204.6160967684 + 0.176748196896 13151.1202691585 + 0.176711291898 13139.1135215133 + 0.176706887008 13137.6677859441 + 0.092574205567 6180.2425290560 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.105565507312 7194.6795118656 + 0.105499257531 7188.9471898417 + 0.106597096382 7278.4861084142 + 0.107627596785 7362.4188445704 + 0.108073114092 7398.6425628788 + 0.106410867889 7257.9335160755 + 0.103063953522 6981.5510940893 + 0.100294328960 6755.5276457655 + 0.176787048890 13163.4089821365 + 0.176719778997 13141.8837625410 + 0.176707906125 13138.0016842537 + 0.176706716921 13137.6119850904 + 0.092574205567 6180.2425290563 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.105713646680 7206.7407929272 + 0.105510251278 7189.8234473225 + 0.106391662013 7261.7271225897 + 0.107435662019 7346.8000629438 + 0.107990242450 7391.9074372973 + 0.106774609610 7287.0403780340 + 0.103752188769 7036.5247063774 + 0.100842797953 6799.4056900223 + 0.099239165529 6669.0524960071 + 0.176735120573 13146.8431291514 + 0.176710645130 13138.8979049572 + 0.176706992096 13137.7019886364 + 0.176706677588 13137.5990979347 + 0.092574205567 6180.2425290565 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.105833957618 7216.5238535561 + 0.105550097163 7192.9856996335 + 0.106226290083 7248.2309982621 + 0.107241214283 7330.9687422677 + 0.107887073729 7383.5207012964 + 0.107048908827 7309.1061823448 + 0.104379984826 7086.6647734365 + 0.101420282726 6845.5286331771 + 0.099552224357 6694.1160005526 + 0.098769135704 6630.5892725642 + 0.176716269513 13140.7310114233 + 0.176707835374 13137.9781207509 + 0.176706750537 13137.6228687211 + 0.176706668500 13137.5961219462 + 0.092574205567 6180.2425290569 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 + 0.092574205567 6180.2425290671 diff --git a/mytest/dump.phrq b/mytest/dump.phrq index ace90046..f05c1067 100644 --- a/mytest/dump.phrq +++ b/mytest/dump.phrq @@ -9,7 +9,8 @@ SOLUTION_RAW 0 Solution after simulation 1. -total_o 22.602486678508 -cb 1.6653345369377e-16 -density 1.0394218774346 - -viscosity 1.0974209711277 + -viscosity 1.0974208850837 + -viscos_0 0.89002390361509 -totals Na 0.4 O(0) 6.0692320705675e-16 @@ -28,132 +29,136 @@ SOLUTION_RAW 0 Solution after simulation 1. -gammas SOLUTION_RAW 1 Solution after simulation 1. -temp 25 - -pressure 0.89889132899972 + -pressure 0.89889137389663 -potential 0 - -total_h 22.204296617107 - -total_o 11.102148429772 - -cb -5.9615413734032e-12 - -density 0.98992747223911 - -viscosity 68.124511219293 + -total_h 22.204296617106 + -total_o 11.102148429761 + -cb -2.7980268926461e-12 + -density 0.98992747223141 + -viscosity 68.124511378577 + -viscos_0 0.89002531833945 -totals - Amm 0.20335773607868 - N(0) 0.0002352243441432 - N(3) 1.4322929686449e-16 - N(5) 5.9719238491155e-12 - Na 2.4239989258475e-07 - O(0) 7.9757550731661e-21 - -pH 11.626555454906 - -pe 4.9722912728298 - -mu 0.0045295318328111 - -ah2o 0.98262757148225 - -mass_water 0.1999999853026 - -soln_vol 0.20555343443386 - -total_alkalinity 0.20335797847856 + Amm 0.20335773634104 + N(0) 0.00023522436222398 + N(3) 9.0837305624595e-17 + N(5) 2.7957707476835e-12 + Na 2.4239989092096e-07 + O(0) 4.3459190389538e-21 + -pH 11.626555455194 + -pe 4.9063687282225 + -mu 0.0045295318275566 + -ah2o 0.9826275714594 + -mass_water 0.19999998530257 + -soln_vol 0.20555343444001 + -total_alkalinity 0.20335797874093 -activities - Amm -2.3765908443484 - E -4.9722912728298 - H(0) -36.347693459705 - N(0) -3.2301247560047 - N(3) -15.177188841945 - N(5) -10.55710643895 - Na -5.9476118411822 - O(0) -19.699835188968 + Amm -2.3765908440751 + E -4.9063687282225 + H(0) -36.215848373102 + N(0) -3.2301247387532 + N(3) -15.374956462981 + N(5) -10.886719143598 + Na -5.9476118441466 + O(0) -19.963525362191 -gammas SOLUTION_RAW 2 Solution after simulation 1. -temp 25 - -pressure 0.89889142302023 + -pressure 0.89889142298249 -potential 0 -total_h 22.204282921096 -total_o 11.102141460558 - -cb -3.285047689601e-12 - -density 0.98992742628253 - -viscosity 68.133689045388 + -cb -3.2850268729193e-12 + -density 0.98992742628247 + -viscosity 68.133689040641 + -viscos_0 0.89002531833876 -totals - Amm 0.20335785919712 - N(0) 0.0002352242492455 - N(3) 1.0058879992577e-16 - N(5) 3.3139869731435e-12 - Na 3.6360231841993e-14 - O(0) 4.9797683586813e-21 - -pH 11.626497407548 - -pe 4.9212087023572 - -mu 0.0045289051672015 - -ah2o 0.98262758161694 + Amm 0.20335785919875 + N(0) 0.00023522424981995 + N(3) 1.00666485292e-16 + N(5) 3.318253756974e-12 + Na 3.6360231696623e-14 + O(0) 4.9848968859435e-21 + -pH 11.626497407549 + -pe 4.9213204618201 + -mu 0.0045289051672311 + -ah2o 0.98262758161678 -mass_water 0.19999986201343 - -soln_vol 0.2055533138758 - -total_alkalinity 0.20335785919712 + -soln_vol 0.20555331387585 + -total_alkalinity 0.20335785919875 -activities - Amm -2.376532577761 - E -4.9212087023572 - H(0) -36.245412220361 - N(0) -3.2301247100886 - N(3) -15.330668716376 - N(5) -10.812867547102 - Na -12.771515406248 - O(0) -19.9043976587 + Amm -2.3765325777583 + E -4.9213204618201 + H(0) -36.245635744864 + N(0) -3.2301247090281 + N(3) -15.33033342909 + N(5) -10.812308749252 + Na -12.771515407984 + O(0) -19.903950609693 -gammas SOLUTION_RAW 3 Solution after simulation 1. -temp 25 - -pressure 0.89889149600296 + -pressure 0.89889148293328 -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2059934214464e-12 - -density 0.98992742628467 - -viscosity 68.133689130011 + -cb -1.2059302124598e-12 + -density 0.98992742628455 + -viscosity 68.133689123028 + -viscos_0 0.89002531833793 -totals - Amm 0.20335785921298 - N(0) 0.0002352242613672 - N(3) 5.4869631042144e-17 - N(5) 1.2068542141091e-12 - Na 3.6501510693042e-21 - O(0) 2.2194856623962e-21 - -pH 11.626497407563 - -pe 4.8334695029688 - -mu 0.0045289051618255 - -ah2o 0.98262758161526 + Amm 0.20335785920077 + N(0) 0.00023522425781464 + N(3) 5.4811821868643e-17 + N(5) 1.2047357824022e-12 + Na 3.6805183421439e-21 + O(0) 2.2163683782214e-21 + -pH 11.62649740755 + -pe 4.8333169033325 + -mu 0.0045289051616818 + -ah2o 0.98262758161645 -mass_water 0.19999986201341 - -soln_vol 0.20555331387565 - -total_alkalinity 0.20335785921298 + -soln_vol 0.20555331387542 + -total_alkalinity 0.20335785920077 -activities - Amm -2.3765325777423 - E -4.8334695029688 - H(0) -36.069933893034 - N(0) -3.2301246877085 - N(3) -15.593886196163 - N(5) -11.251563532767 - Na -19.769831210927 - O(0) -20.255354313355 + Amm -2.3765325777556 + E -4.8333169033325 + H(0) -36.069730992165 + N(0) -3.2301246942676 + N(3) -15.594190550758 + N(5) -11.252326534304 + Na -19.766233063548 + O(0) -20.255760115092 -gammas SOLUTION_RAW 4 Solution after simulation 1. -temp 25 - -pressure 0.89889147675874 + -pressure 0.89889147675873 -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2063062137732e-12 + -cb -1.2063916489044e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919675 - N(0) 0.00023522425624131 - N(3) 5.4850293735736e-17 - N(5) 1.206145434707e-12 - O(0) 2.2184428263473e-21 + Amm 0.20335785919673 + N(0) 0.00023522425623982 + N(3) 5.4850298399752e-17 + N(5) 1.206145605644e-12 + O(0) 2.2184430778741e-21 -pH 11.626497407545 - -pe 4.8334184771581 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334184894682 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919675 + -total_alkalinity 0.20335785919673 -activities - Amm -2.3765325777595 - E -4.8334184771581 + Amm -2.3765325777596 + E -4.8334184894682 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818666655 + N(5) -11.251818605106 O(0) -29.999547109484 -gammas SOLUTION_RAW 5 Solution after simulation 1. @@ -162,29 +167,30 @@ SOLUTION_RAW 5 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.00023522425624049 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624005 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 6 Solution after simulation 1. @@ -193,29 +199,30 @@ SOLUTION_RAW 6 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 7 Solution after simulation 1. @@ -224,29 +231,30 @@ SOLUTION_RAW 7 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 8 Solution after simulation 1. @@ -255,29 +263,30 @@ SOLUTION_RAW 8 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 9 Solution after simulation 1. @@ -286,29 +295,30 @@ SOLUTION_RAW 9 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 10 Solution after simulation 1. @@ -317,29 +327,30 @@ SOLUTION_RAW 10 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 11 Solution after simulation 1. @@ -348,29 +359,30 @@ SOLUTION_RAW 11 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 12 Solution after simulation 1. @@ -379,29 +391,30 @@ SOLUTION_RAW 12 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 13 Solution after simulation 1. @@ -410,29 +423,30 @@ SOLUTION_RAW 13 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 14 Solution after simulation 1. @@ -441,29 +455,30 @@ SOLUTION_RAW 14 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 15 Solution after simulation 1. @@ -472,29 +487,30 @@ SOLUTION_RAW 15 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 16 Solution after simulation 1. @@ -503,29 +519,30 @@ SOLUTION_RAW 16 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 17 Solution after simulation 1. @@ -534,29 +551,30 @@ SOLUTION_RAW 17 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 18 Solution after simulation 1. @@ -565,29 +583,30 @@ SOLUTION_RAW 18 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 19 Solution after simulation 1. @@ -596,29 +615,30 @@ SOLUTION_RAW 19 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 20 Solution after simulation 1. @@ -627,29 +647,30 @@ SOLUTION_RAW 20 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 21 Solution after simulation 1. @@ -658,29 +679,30 @@ SOLUTION_RAW 21 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 22 Solution after simulation 1. @@ -689,29 +711,30 @@ SOLUTION_RAW 22 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 23 Solution after simulation 1. @@ -720,29 +743,30 @@ SOLUTION_RAW 23 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 24 Solution after simulation 1. @@ -751,29 +775,30 @@ SOLUTION_RAW 24 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 25 Solution after simulation 1. @@ -782,29 +807,30 @@ SOLUTION_RAW 25 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 26 Solution after simulation 1. @@ -813,29 +839,30 @@ SOLUTION_RAW 26 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 27 Solution after simulation 1. @@ -844,29 +871,30 @@ SOLUTION_RAW 27 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 28 Solution after simulation 1. @@ -875,29 +903,30 @@ SOLUTION_RAW 28 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 29 Solution after simulation 1. @@ -906,29 +935,30 @@ SOLUTION_RAW 29 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 30 Solution after simulation 1. @@ -937,29 +967,30 @@ SOLUTION_RAW 30 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 31 Solution after simulation 1. @@ -968,29 +999,30 @@ SOLUTION_RAW 31 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 32 Solution after simulation 1. @@ -999,29 +1031,30 @@ SOLUTION_RAW 32 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 33 Solution after simulation 1. @@ -1030,29 +1063,30 @@ SOLUTION_RAW 33 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 34 Solution after simulation 1. @@ -1061,29 +1095,30 @@ SOLUTION_RAW 34 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 35 Solution after simulation 1. @@ -1092,29 +1127,30 @@ SOLUTION_RAW 35 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 36 Solution after simulation 1. @@ -1123,29 +1159,30 @@ SOLUTION_RAW 36 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 37 Solution after simulation 1. @@ -1154,29 +1191,30 @@ SOLUTION_RAW 37 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 38 Solution after simulation 1. @@ -1185,29 +1223,30 @@ SOLUTION_RAW 38 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 39 Solution after simulation 1. @@ -1216,29 +1255,30 @@ SOLUTION_RAW 39 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 40 Solution after simulation 1. @@ -1247,29 +1287,30 @@ SOLUTION_RAW 40 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 41 Solution after simulation 1. @@ -1278,29 +1319,30 @@ SOLUTION_RAW 41 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 42 Solution after simulation 1. @@ -1309,29 +1351,30 @@ SOLUTION_RAW 42 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 43 Solution after simulation 1. @@ -1340,29 +1383,30 @@ SOLUTION_RAW 43 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 44 Solution after simulation 1. @@ -1371,29 +1415,30 @@ SOLUTION_RAW 44 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 45 Solution after simulation 1. @@ -1402,29 +1447,30 @@ SOLUTION_RAW 45 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 46 Solution after simulation 1. @@ -1433,29 +1479,30 @@ SOLUTION_RAW 46 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 47 Solution after simulation 1. @@ -1464,29 +1511,30 @@ SOLUTION_RAW 47 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 48 Solution after simulation 1. @@ -1495,29 +1543,30 @@ SOLUTION_RAW 48 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 49 Solution after simulation 1. @@ -1526,29 +1575,30 @@ SOLUTION_RAW 49 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 50 Solution after simulation 1. @@ -1557,29 +1607,30 @@ SOLUTION_RAW 50 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 51 Solution after simulation 1. @@ -1588,29 +1639,30 @@ SOLUTION_RAW 51 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 52 Solution after simulation 1. @@ -1619,29 +1671,30 @@ SOLUTION_RAW 52 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 53 Solution after simulation 1. @@ -1650,29 +1703,30 @@ SOLUTION_RAW 53 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 54 Solution after simulation 1. @@ -1681,29 +1735,30 @@ SOLUTION_RAW 54 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 55 Solution after simulation 1. @@ -1712,29 +1767,30 @@ SOLUTION_RAW 55 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 56 Solution after simulation 1. @@ -1743,29 +1799,30 @@ SOLUTION_RAW 56 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 57 Solution after simulation 1. @@ -1774,29 +1831,30 @@ SOLUTION_RAW 57 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 58 Solution after simulation 1. @@ -1805,29 +1863,30 @@ SOLUTION_RAW 58 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 59 Solution after simulation 1. @@ -1836,29 +1895,30 @@ SOLUTION_RAW 59 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 60 Solution after simulation 1. @@ -1867,29 +1927,30 @@ SOLUTION_RAW 60 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 61 Solution after simulation 1. @@ -1898,29 +1959,30 @@ SOLUTION_RAW 61 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 62 Solution after simulation 1. @@ -1929,29 +1991,30 @@ SOLUTION_RAW 62 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 63 Solution after simulation 1. @@ -1960,29 +2023,30 @@ SOLUTION_RAW 63 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 64 Solution after simulation 1. @@ -1991,29 +2055,30 @@ SOLUTION_RAW 64 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 65 Solution after simulation 1. @@ -2022,29 +2087,30 @@ SOLUTION_RAW 65 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 66 Solution after simulation 1. @@ -2053,29 +2119,30 @@ SOLUTION_RAW 66 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 67 Solution after simulation 1. @@ -2084,29 +2151,30 @@ SOLUTION_RAW 67 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 68 Solution after simulation 1. @@ -2115,29 +2183,30 @@ SOLUTION_RAW 68 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 69 Solution after simulation 1. @@ -2146,29 +2215,30 @@ SOLUTION_RAW 69 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 70 Solution after simulation 1. @@ -2177,29 +2247,30 @@ SOLUTION_RAW 70 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 71 Solution after simulation 1. @@ -2208,29 +2279,30 @@ SOLUTION_RAW 71 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 72 Solution after simulation 1. @@ -2239,29 +2311,30 @@ SOLUTION_RAW 72 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 73 Solution after simulation 1. @@ -2270,29 +2343,30 @@ SOLUTION_RAW 73 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 74 Solution after simulation 1. @@ -2301,29 +2375,30 @@ SOLUTION_RAW 74 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 75 Solution after simulation 1. @@ -2332,29 +2407,30 @@ SOLUTION_RAW 75 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 76 Solution after simulation 1. @@ -2363,29 +2439,30 @@ SOLUTION_RAW 76 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 77 Solution after simulation 1. @@ -2394,29 +2471,30 @@ SOLUTION_RAW 77 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 78 Solution after simulation 1. @@ -2425,29 +2503,30 @@ SOLUTION_RAW 78 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 79 Solution after simulation 1. @@ -2456,29 +2535,30 @@ SOLUTION_RAW 79 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 80 Solution after simulation 1. @@ -2487,29 +2567,30 @@ SOLUTION_RAW 80 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 81 Solution after simulation 1. @@ -2518,29 +2599,30 @@ SOLUTION_RAW 81 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 82 Solution after simulation 1. @@ -2549,29 +2631,30 @@ SOLUTION_RAW 82 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 83 Solution after simulation 1. @@ -2580,29 +2663,30 @@ SOLUTION_RAW 83 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 84 Solution after simulation 1. @@ -2611,29 +2695,30 @@ SOLUTION_RAW 84 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 85 Solution after simulation 1. @@ -2642,29 +2727,30 @@ SOLUTION_RAW 85 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 86 Solution after simulation 1. @@ -2673,29 +2759,30 @@ SOLUTION_RAW 86 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 87 Solution after simulation 1. @@ -2704,29 +2791,30 @@ SOLUTION_RAW 87 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 88 Solution after simulation 1. @@ -2735,29 +2823,30 @@ SOLUTION_RAW 88 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 89 Solution after simulation 1. @@ -2766,29 +2855,30 @@ SOLUTION_RAW 89 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 90 Solution after simulation 1. @@ -2797,29 +2887,30 @@ SOLUTION_RAW 90 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 91 Solution after simulation 1. @@ -2828,29 +2919,30 @@ SOLUTION_RAW 91 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 92 Solution after simulation 1. @@ -2859,29 +2951,30 @@ SOLUTION_RAW 92 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 93 Solution after simulation 1. @@ -2890,29 +2983,30 @@ SOLUTION_RAW 93 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 94 Solution after simulation 1. @@ -2921,29 +3015,30 @@ SOLUTION_RAW 94 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 95 Solution after simulation 1. @@ -2952,29 +3047,30 @@ SOLUTION_RAW 95 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 96 Solution after simulation 1. @@ -2983,29 +3079,30 @@ SOLUTION_RAW 96 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 97 Solution after simulation 1. @@ -3014,29 +3111,30 @@ SOLUTION_RAW 97 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063894805001e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.0002352242562405 - N(3) 5.4850315035078e-17 - N(5) 1.2061462153213e-12 - O(0) 2.2184439749669e-21 + Amm 0.20335785919672 + N(0) 0.00023522425624004 + N(3) 5.4850310239103e-17 + N(5) 1.2061460395514e-12 + O(0) 2.2184437163361e-21 -pH 11.626497407545 - -pe 4.8334185333731 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207154 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333731 + Amm -2.3765325777596 + E -4.8334185207154 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 98 Solution after simulation 1. @@ -3045,92 +3143,95 @@ SOLUTION_RAW 98 Solution after simulation 1. -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2062969980547e-12 + -cb -1.2063885047181e-12 -density 0.98992742628443 - -viscosity 68.133689127078 + -viscosity 68.133689122218 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919674 - N(0) 0.00023522425624024 - N(3) 5.485031503508e-17 - N(5) 1.2061462153218e-12 - O(0) 2.2184439749686e-21 + Amm 0.20335785919672 + N(0) 0.0002352242562398 + N(3) 5.4850310239106e-17 + N(5) 1.2061460395519e-12 + O(0) 2.2184437163378e-21 -pH 11.626497407545 - -pe 4.8334185333732 - -mu 0.00452890516164 - -ah2o 0.98262758161686 + -pe 4.8334185207155 + -mu 0.0045289051616398 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919674 + -total_alkalinity 0.20335785919672 -activities - Amm -2.3765325777595 - E -4.8334185333732 + Amm -2.3765325777596 + E -4.8334185207155 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251818385581 + N(5) -11.25181844887 O(0) -29.999547109484 -gammas SOLUTION_RAW 99 Solution after simulation 1. -temp 25 - -pressure 0.89889147675865 + -pressure 0.89889147675862 -potential 0 -total_h 22.204282921094 -total_o 11.102141460551 - -cb -1.2059923372443e-12 - -density 0.98992742628443 - -viscosity 68.133689127065 + -cb -1.2060795070989e-12 + -density 0.98992742628444 + -viscosity 68.133689122205 + -viscos_0 0.89002531833801 -totals - Amm 0.20335785919666 - N(0) 0.00023522425624144 - N(3) 5.4850345828203e-17 - N(5) 1.2061473438768e-12 - O(0) 2.21844563555e-21 + Amm 0.20335785919664 + N(0) 0.00023522425624085 + N(3) 5.4850351090231e-17 + N(5) 1.2061475367293e-12 + O(0) 2.2184459193203e-21 -pH 11.626497407545 - -pe 4.8334186146444 - -mu 0.0045289051616391 - -ah2o 0.98262758161686 + -pe 4.8334186285325 + -mu 0.0045289051616389 + -ah2o 0.98262758161687 -mass_water 0.19999986201341 -soln_vol 0.20555331387535 - -total_alkalinity 0.20335785919666 + -total_alkalinity 0.20335785919664 -activities - Amm -2.3765325777595 - E -4.8334186146444 + Amm -2.3765325777596 + E -4.8334186285325 H(0) -29.999547109484 N(0) -29.999547109484 N(3) -30.032188647984 - N(5) -11.251817979225 + N(5) -11.251817909785 O(0) -29.999547109484 -gammas SOLUTION_RAW 100 Solution after simulation 1. -temp 25 - -pressure 0.89889100901951 + -pressure 0.89889100901963 -potential 0 -total_h 22.204282920006 -total_o 11.102141460007 - -cb -1.2065008280632e-12 + -cb -1.2064802282219e-12 -density 0.98992743049516 - -viscosity 68.13366875597 + -viscosity 68.133668751114 + -viscos_0 0.89002531834453 -totals Amm 0.20335773630513 - N(0) 0.00023522424365889 - N(3) 5.4944380957662e-17 - N(5) 1.2095959417014e-12 - O(0) 2.2235191496298e-21 + N(0) 0.00023522424365898 + N(3) 5.4944494711289e-17 + N(5) 1.2096001154983e-12 + O(0) 2.2235252875564e-21 -pH 11.626497273558 - -pe 4.833666767177 - -mu 0.0045289037651266 + -pe 4.8336670668893 + -mu 0.0045289037651267 -ah2o 0.98262759208652 -mass_water 0.19999986200864 -soln_vol 0.20555331087667 - -total_alkalinity 0.20335773630512 + -total_alkalinity 0.20335773630513 -activities Amm -2.3765327069255 - E -4.833666767177 - H(0) -36.070328134796 + E -4.8336670668893 + H(0) -36.070328734221 N(0) -3.2301249873873 - N(3) -15.593295108536 - N(5) -11.250578018286 - O(0) -20.254565820537 + N(3) -15.593294209399 + N(5) -11.250576519724 + O(0) -20.254564621687 -gammas SOLUTION_RAW 101 Solution after simulation 1. -temp 25 @@ -3140,7 +3241,8 @@ SOLUTION_RAW 101 Solution after simulation 1. -total_o 11.101243359383 -cb -6.0807403404978e-18 -density 0.99704301396421 - -viscosity 0.89002433303495 + -viscosity 0.89002433302415 + -viscos_0 0.89002391829457 -totals -pH 6.9973757256035 -pe 4 @@ -3157,3501 +3259,3501 @@ SOLUTION_RAW 101 Solution after simulation 1. GAS_PHASE_RAW 1 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889132412206 + -total_p 0.89889136412466 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.0006654780306087 + -moles 0.00066547803161229 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547803392892 - -p 0.016273846424996 - -phi 0.99547628159787 - -f 0.016200228126449 + -initial_moles 0.0006654780349326 + -p 0.016273846449239 + -phi 0.99547628140125 + -f 0.016200228147383 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092423634032 + -moles 0.036092426409595 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092423635514 - -p 0.8826175054778 - -phi 0.99959394132647 - -f 0.88225911098429 + -initial_moles 0.0360924264113 + -p 0.8826175733362 + -phi 0.99959394130839 + -f 0.88225917879918 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757901664641 - -v_m 27.205035805063 + -total_moles 0.036757904441207 + -v_m 27.20503459388 -pr_in 1 -totals GAS_PHASE_RAW 2 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889142302023 + -total_p 0.89889142298249 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547836531217 + -moles 0.00066547836694905 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547836531235 - -p 0.016273854648576 - -phi 0.99547628106982 - -f 0.016200236304235 + -initial_moles 0.00066547836694924 + -p 0.01627385464888 + -phi 0.99547628105926 + -f 0.016200236304366 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426030058 + -moles 0.036092426206339 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426030076 - -p 0.88261756616555 - -phi 0.99959394128375 - -f 0.88225917160969 + -initial_moles 0.036092426206357 + -p 0.88261756832188 + -phi 0.99959394128277 + -f 0.88225917376429 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.03675790439537 - -v_m 27.205032809681 + -total_moles 0.036757904573288 + -v_m 27.205032810824 -pr_in 1 -totals GAS_PHASE_RAW 3 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889149600296 + -total_p 0.89889148293328 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834519151 + -moles 0.00066547834490608 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834519151 - -p 0.016273854653476 - -phi 0.99547628084693 - -f 0.016200236305486 + -initial_moles 0.00066547834490607 + -p 0.016273854651429 + -phi 0.99547628091224 + -f 0.016200236304511 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426788576 + -moles 0.036092426232318 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426788573 - -p 0.88261761166621 - -phi 0.99959394126316 - -f 0.88225921707371 + -initial_moles 0.036092426232313 + -p 0.88261759833079 + -phi 0.99959394126919 + -f 0.88225920374903 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757905133767 - -v_m 27.205030599991 + -total_moles 0.036757904577224 + -v_m 27.205030995686 -pr_in 1 -totals GAS_PHASE_RAW 4 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675874 + -total_p 0.89889147675872 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506865 + -moles 0.00066547834506553 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506867 - -p 0.016273854650595 - -phi 0.99547628094348 - -f 0.016200236304189 + -initial_moles 0.00066547834506558 + -p 0.01627385465062 + -phi 0.99547628094191 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.03609242600148 + -moles 0.036092426001027 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426001483 - -p 0.88261759242497 - -phi 0.99959394127182 - -f 0.88225919784792 + -initial_moles 0.036092426001031 + -p 0.88261759241935 + -phi 0.99959394127186 + -f 0.88225919784234 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346548 + -total_moles 0.036757904346093 -v_m 27.205031182634 -pr_in 1 -totals GAS_PHASE_RAW 5 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506787 + -moles 0.0006654783450666 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.0006654783450679 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506664 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001227 + -moles 0.036092426001093 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426001227 - -p 0.88261759242185 + -initial_moles 0.036092426001096 + -p 0.88261759242018 -phi 0.99959394127187 - -f 0.88225919784485 + -f 0.88225919784317 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346295 - -v_m 27.205031182634 + -total_moles 0.03675790434616 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 6 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 7 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 8 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 9 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 10 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 11 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 12 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 13 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 14 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 15 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 16 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 17 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 18 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 19 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 20 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 21 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 22 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 23 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 24 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 25 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 26 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 27 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 28 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 29 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 30 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 31 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 32 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 33 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 34 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 35 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 36 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 37 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 38 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 39 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 40 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 41 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 42 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 43 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 44 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 45 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 46 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 47 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 48 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 49 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 50 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 51 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 52 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 53 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 54 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 55 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 56 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 57 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 58 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 59 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 60 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 61 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 62 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 63 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 64 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 65 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 66 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 67 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 68 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 69 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 70 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 71 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 72 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 73 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 74 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 75 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 76 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 77 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 78 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 79 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 80 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 81 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 82 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 83 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 84 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 85 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 86 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 87 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 88 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 89 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 90 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 91 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 92 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 93 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 94 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 95 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 96 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 97 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675872 + -total_p 0.89889147675871 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506789 + -moles 0.00066547834506659 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506792 - -p 0.016273854650633 - -phi 0.99547628094118 - -f 0.016200236304189 + -initial_moles 0.00066547834506663 + -p 0.016273854650631 + -phi 0.99547628094119 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001229 + -moles 0.036092426001092 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.03609242600123 - -p 0.88261759242188 + -initial_moles 0.036092426001094 + -p 0.88261759242016 -phi 0.99959394127187 - -f 0.88225919784488 + -f 0.88225919784316 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346297 - -v_m 27.205031182634 + -total_moles 0.036757904346159 + -v_m 27.205031182635 -pr_in 1 -totals GAS_PHASE_RAW 98 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675874 + -total_p 0.89889147675873 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834506718 + -moles 0.00066547834506591 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834506721 - -p 0.016273854650633 - -phi 0.99547628094119 - -f 0.016200236304189 + -initial_moles 0.00066547834506596 + -p 0.016273854650631 + -phi 0.9954762809412 + -f 0.016200236304188 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092426001151 + -moles 0.036092426001018 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426001153 - -p 0.88261759242092 + -initial_moles 0.036092426001021 + -p 0.88261759241925 -phi 0.99959394127187 - -f 0.88225919784391 + -f 0.88225919784225 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757904346218 + -total_moles 0.036757904346084 -v_m 27.205031182634 -pr_in 1 -totals GAS_PHASE_RAW 99 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889147675877 + -total_p 0.89889147675874 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547834507016 + -moles 0.00066547834506852 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547834507015 - -p 0.016273854650626 - -phi 0.99547628094117 - -f 0.016200236304183 + -initial_moles 0.00066547834506854 + -p 0.016273854650625 + -phi 0.99547628094118 + -f 0.016200236304181 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.03609242600151 + -moles 0.036092426001334 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092426001509 - -p 0.88261759242539 + -initial_moles 0.036092426001335 + -p 0.88261759242318 -phi 0.99959394127187 - -f 0.88225919784839 + -f 0.88225919784618 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.03675790434658 - -v_m 27.205031182633 + -total_moles 0.036757904346403 + -v_m 27.205031182634 -pr_in 1 -totals GAS_PHASE_RAW 100 Gas phase after simulation 1. # GAS_PHASE_MODIFY candidate identifiers # -type 1 - -total_p 0.89889092815497 + -total_p 0.89889092815505 -volume 1 -component Amm(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.00066547796188426 + -moles 0.00066547796188428 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.1 # GasComp workspace variables # - -initial_moles 0.00066547796587734 - -p 0.016273844747288 + -initial_moles 0.00066547796587735 + -p 0.016273844747289 -phi 0.99547628353881 - -f 0.016200226487918 + -f 0.016200226487919 -component N2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 0.036092425233267 + -moles 0.036092425233281 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.9 # GasComp workspace variables # - -initial_moles 0.036092425237725 - -p 0.88261754474365 + -initial_moles 0.036092425237741 + -p 0.882617544744 -phi 0.99959394150552 - -f 0.88225915039223 + -f 0.88225915039258 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 -n_solution -99 -temperature 303.15 # GasPhase workspace variables # - -total_moles 0.036757903195151 - -v_m 27.205047793909 + -total_moles 0.036757903195165 + -v_m 27.205047793907 -pr_in 1 -totals END diff --git a/mytest/dump_test.out b/mytest/dump_test.out index 02f81a05..beab9abf 100644 --- a/mytest/dump_test.out +++ b/mytest/dump_test.out @@ -8431,7 +8431,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Total alkalinity (eq/kg) = 1.017e+00 Temperature (°C) = 25.00 Pressure (atm) = 0.90 - Electrical balance (eq) = -1.271e-15 + Electrical balance (eq) = -1.264e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 12 Total H = 2.220428e+01 @@ -17127,7 +17127,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 ----------------------------Description of solution---------------------------- pH = 11.627 Charge balance - pe = -6.447 Adjusted to redox equilibrium + pe = 4.906 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 1055 Density (g/cm³) = 0.98993 Volume (L) = 0.20555 @@ -17138,9 +17138,9 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Total alkalinity (eq/kg) = 1.017e+00 Temperature (°C) = 25.00 Pressure (atm) = 0.90 - Electrical balance (eq) = 7.951e-15 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 6 + Electrical balance (eq) = -2.798e-12 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Iterations = 4 Total H = 2.220429e+01 Total O = 1.110214e+01 @@ -17155,28 +17155,28 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Amm 1.017e+00 Amm 1.012e+00 1.013e+00 0.005 0.006 0.000 24.42 AmmH+ 4.529e-03 4.202e-03 -2.344 -2.377 -0.033 17.93 -H(0) 6.183e-14 - H2 3.091e-14 3.095e-14 -13.510 -13.509 0.000 28.61 +H(0) 1.216e-36 + H2 6.078e-37 6.084e-37 -36.216 -36.216 0.000 28.61 N(0) 1.176e-03 N2 5.881e-04 5.887e-04 -3.231 -3.230 0.000 29.29 -N(3) 0.000e+00 - NO2- 0.000e+00 0.000e+00 -49.402 -49.435 -0.032 25.00 -N(5) 0.000e+00 - NO3- 0.000e+00 0.000e+00 -67.621 -67.653 -0.032 29.52 +N(3) 4.541e-16 + NO2- 4.541e-16 4.216e-16 -15.343 -15.375 -0.032 25.00 +N(5) 1.397e-11 + NO3- 1.397e-11 1.297e-11 -10.855 -10.887 -0.032 29.52 Na 6.120e-07 Na+ 6.120e-07 5.697e-07 -6.213 -6.244 -0.031 -1.43 -O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.377 -65.376 0.000 30.40 +O(0) 2.172e-20 + O2 1.086e-20 1.087e-20 -19.964 -19.964 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) Amm(g) -1.79 0.01 1.80 Amm Pressure 0.0 atm, phi 0.995 - H2(g) -10.41 -13.51 -3.10 H2 + H2(g) -33.11 -36.22 -3.10 H2 H2O(g) -1.51 -0.01 1.50 H2O N2(g) -0.05 -3.23 -3.18 N2 Pressure 0.9 atm, phi 1.000 - O2(g) -62.48 -65.38 -2.89 O2 + O2(g) -17.07 -19.96 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -17298,7 +17298,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Amm 1.017e+00 2.034e-01 N 1.176e-03 2.352e-04 - Na 2.252e-21 4.504e-22 + Na 2.348e-21 4.697e-22 ----------------------------Description of solution---------------------------- @@ -17316,7 +17316,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Pressure (atm) = 0.90 Electrical balance (eq) = -1.206e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 - Iterations = 4 + Iterations = 1 Total H = 2.220428e+01 Total O = 1.110214e+01 @@ -17339,8 +17339,8 @@ N(3) 2.742e-16 NO2- 2.742e-16 2.546e-16 -15.562 -15.594 -0.032 25.00 N(5) 6.027e-12 NO3- 6.027e-12 5.597e-12 -11.220 -11.252 -0.032 29.52 -Na 2.252e-21 - Na+ 2.252e-21 2.097e-21 -20.647 -20.679 -0.031 -1.43 +Na 2.348e-21 + Na+ 2.348e-21 2.186e-21 -20.629 -20.660 -0.031 -1.43 O(0) 1.109e-20 O2 5.544e-21 5.549e-21 -20.256 -20.256 0.000 30.40 @@ -25585,7 +25585,7 @@ N(0) 1.176e-03 N(3) 2.748e-16 NO2- 2.748e-16 2.552e-16 -15.561 -15.593 -0.032 25.00 N(5) 6.052e-12 - NO3- 6.052e-12 5.619e-12 -11.218 -11.250 -0.032 29.52 + NO3- 6.052e-12 5.620e-12 -11.218 -11.250 -0.032 29.52 O(0) 1.112e-20 O2 5.562e-21 5.567e-21 -20.255 -20.254 0.000 30.40 @@ -25840,7 +25840,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 ----------------------------Description of solution---------------------------- pH = 11.627 Charge balance - pe = 4.972 Adjusted to redox equilibrium + pe = 4.906 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 1055 Density (g/cm³) = 0.98993 Volume (L) = 0.20555 @@ -25851,7 +25851,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Total alkalinity (eq/kg) = 1.017e+00 Temperature (°C) = 25.00 Pressure (atm) = 0.90 - Electrical balance (eq) = -5.962e-12 + Electrical balance (eq) = -2.798e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 2.220430e+01 @@ -25868,28 +25868,28 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Amm 1.017e+00 Amm 1.012e+00 1.013e+00 0.005 0.006 0.000 24.42 AmmH+ 4.528e-03 4.202e-03 -2.344 -2.377 -0.033 17.93 -H(0) 8.972e-37 - H2 4.486e-37 4.491e-37 -36.348 -36.348 0.000 28.61 +H(0) 1.215e-36 + H2 6.077e-37 6.083e-37 -36.216 -36.216 0.000 28.61 N(0) 1.176e-03 N2 5.881e-04 5.887e-04 -3.231 -3.230 0.000 29.29 -N(3) 7.161e-16 - NO2- 7.161e-16 6.650e-16 -15.145 -15.177 -0.032 25.00 -N(5) 2.986e-11 - NO3- 2.986e-11 2.773e-11 -10.525 -10.557 -0.032 29.52 +N(3) 4.542e-16 + NO2- 4.542e-16 4.217e-16 -15.343 -15.375 -0.032 25.00 +N(5) 1.398e-11 + NO3- 1.398e-11 1.298e-11 -10.855 -10.887 -0.032 29.52 Na 1.212e-06 Na+ 1.212e-06 1.128e-06 -5.916 -5.948 -0.031 -1.43 -O(0) 3.988e-20 - O2 1.994e-20 1.996e-20 -19.700 -19.700 0.000 30.40 +O(0) 2.173e-20 + O2 1.086e-20 1.088e-20 -19.964 -19.964 0.000 30.40 ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) Amm(g) -1.79 0.01 1.80 Amm Pressure 0.0 atm, phi 0.995 - H2(g) -33.25 -36.35 -3.10 H2 + H2(g) -33.11 -36.22 -3.10 H2 H2O(g) -1.51 -0.01 1.50 H2O N2(g) -0.05 -3.23 -3.18 N2 Pressure 0.9 atm, phi 1.000 - O2(g) -16.81 -19.70 -2.89 O2 + O2(g) -17.07 -19.96 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -25957,17 +25957,17 @@ Amm 1.017e+00 Amm 1.012e+00 1.013e+00 0.005 0.006 0.000 24.42 AmmH+ 4.529e-03 4.202e-03 -2.344 -2.377 -0.033 17.93 H(0) 1.135e-36 - H2 5.677e-37 5.683e-37 -36.246 -36.245 0.000 28.61 + H2 5.674e-37 5.680e-37 -36.246 -36.246 0.000 28.61 N(0) 1.176e-03 N2 5.881e-04 5.887e-04 -3.231 -3.230 0.000 29.29 -N(3) 5.029e-16 - NO2- 5.029e-16 4.670e-16 -15.298 -15.331 -0.032 25.00 -N(5) 1.657e-11 - NO3- 1.657e-11 1.539e-11 -10.781 -10.813 -0.032 29.52 +N(3) 5.033e-16 + NO2- 5.033e-16 4.674e-16 -15.298 -15.330 -0.032 25.00 +N(5) 1.659e-11 + NO3- 1.659e-11 1.541e-11 -10.780 -10.812 -0.032 29.52 Na 1.818e-13 Na+ 1.818e-13 1.692e-13 -12.740 -12.772 -0.031 -1.43 -O(0) 2.490e-20 - O2 1.245e-20 1.246e-20 -19.905 -19.904 0.000 30.40 +O(0) 2.492e-20 + O2 1.246e-20 1.248e-20 -19.904 -19.904 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -26011,7 +26011,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Amm 1.017e+00 2.034e-01 N 1.176e-03 2.352e-04 - Na 1.825e-20 3.650e-21 + Na 1.840e-20 3.681e-21 ----------------------------Description of solution---------------------------- @@ -26044,18 +26044,18 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Amm 1.017e+00 Amm 1.012e+00 1.013e+00 0.005 0.006 0.000 24.42 AmmH+ 4.529e-03 4.202e-03 -2.344 -2.377 -0.033 17.93 -H(0) 1.701e-36 - H2 8.504e-37 8.513e-37 -36.070 -36.070 0.000 28.61 +H(0) 1.702e-36 + H2 8.510e-37 8.519e-37 -36.070 -36.070 0.000 28.61 N(0) 1.176e-03 N2 5.881e-04 5.887e-04 -3.231 -3.230 0.000 29.29 -N(3) 2.743e-16 - NO2- 2.743e-16 2.547e-16 -15.562 -15.594 -0.032 25.00 -N(5) 6.034e-12 - NO3- 6.034e-12 5.603e-12 -11.219 -11.252 -0.032 29.52 -Na 1.825e-20 - Na+ 1.825e-20 1.699e-20 -19.739 -19.770 -0.031 -1.43 -O(0) 1.110e-20 - O2 5.549e-21 5.555e-21 -20.256 -20.255 0.000 30.40 +N(3) 2.741e-16 + NO2- 2.741e-16 2.545e-16 -15.562 -15.594 -0.032 25.00 +N(5) 6.024e-12 + NO3- 6.024e-12 5.593e-12 -11.220 -11.252 -0.032 29.52 +Na 1.840e-20 + Na+ 1.840e-20 1.713e-20 -19.735 -19.766 -0.031 -1.43 +O(0) 1.108e-20 + O2 5.541e-21 5.547e-21 -20.256 -20.256 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -34274,7 +34274,7 @@ N2(g) -0.05 8.826e-01 1.000 3.609e-02 3.609e-02 0.000e+00 Total alkalinity (eq/kg) = 1.017e+00 Temperature (°C) = 25.00 Pressure (atm) = 0.90 - Electrical balance (eq) = -1.207e-12 + Electrical balance (eq) = -1.206e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 Total H = 2.220428e+01 diff --git a/mytest/dump_test_101.sel b/mytest/dump_test_101.sel index 6dafba6e..b713c0b1 100644 --- a/mytest/dump_test_101.sel +++ b/mytest/dump_test_101.sel @@ -1,10409 +1,10409 @@ Mu SC - 1.000000000000 179694.9551182455 - 0.004490606465 1047.5373296904 + 1.000000000000 179694.9567549918 + 0.004490606465 1047.5373296915 0.000000100644 0.0547821292 - 1.000000726136 179506.9449031833 - 1.000000000000 179694.9551182455 - 0.004528905160 1055.3319180359 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 - 0.004528905158 1055.3319208597 + 1.000000726136 179506.9465266598 + 1.000000000000 179694.9567549918 + 0.004528905160 1055.3319180370 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 + 0.004528905158 1055.3319208608 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528911364 1055.3327883585 - 0.004528905158 1055.3319210344 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905158 1055.3319203712 - 0.004528905144 1055.3319175457 + 1.000000000000 179694.9567549918 + 0.004528911364 1055.3327883582 + 0.004528905158 1055.3319210355 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905158 1055.3319203723 + 0.004528905144 1055.3319175468 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528917569 1055.3336562834 - 0.004528905167 1055.3319210123 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905160 1055.3319216624 - 0.004528905133 1055.3319160116 + 1.000000000000 179694.9567549918 + 0.004528917569 1055.3336562845 + 0.004528905167 1055.3319210134 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905160 1055.3319216635 + 0.004528905133 1055.3319160127 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528923773 1055.3345254355 - 0.004528905167 1055.3319209275 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905161 1055.3319204717 - 0.004528905120 1055.3319119836 + 1.000000000000 179694.9567549918 + 0.004528923773 1055.3345254258 + 0.004528905167 1055.3319209287 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905161 1055.3319204728 + 0.004528905120 1055.3319119847 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528929977 1055.3353946291 - 0.004528905167 1055.3319208502 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905161 1055.3319202960 - 0.004528905106 1055.3319089721 + 1.000000000000 179694.9567549918 + 0.004528929977 1055.3353945224 + 0.004528905167 1055.3319208513 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905161 1055.3319202971 + 0.004528905106 1055.3319089732 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528936181 1055.3362649294 - 0.004528905167 1055.3319208388 - 0.004528905161 1055.3319201324 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905161 1055.3319201933 - 0.004528905092 1055.3319060376 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528942383 1055.3371359832 - 0.004528905167 1055.3319208321 - 0.004528905161 1055.3319201024 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905161 1055.3319201333 - 0.004528905078 1055.3319031481 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528948588 1055.3380036134 - 0.004528905167 1055.3319208283 - 0.004528905161 1055.3319200800 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905161 1055.3319200982 - 0.004528905065 1055.3319002849 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528954793 1055.3388724626 - 0.004528905167 1055.3319208260 - 0.004528905161 1055.3319200669 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905161 1055.3319200777 - 0.004528905051 1055.3318974371 + 1.000000000000 179694.9567549918 + 0.004528936180 1055.3362671348 + 0.004528905167 1055.3319208399 + 0.004528905161 1055.3319201335 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905161 1055.3319201944 + 0.004528905092 1055.3319060387 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528960997 1055.3397412732 - 0.004528905167 1055.3319208247 - 0.004528905161 1055.3319200592 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905161 1055.3319200657 - 0.004528905037 1055.3318945983 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528967201 1055.3406103055 - 0.004528905167 1055.3319208239 - 0.004528905161 1055.3319200547 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905161 1055.3319200587 - 0.004528905023 1055.3318917647 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528973405 1055.3414794206 - 0.004528905167 1055.3319208374 - 0.004528905162 1055.3319201471 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905161 1055.3319200546 - 0.004528905009 1055.3318889342 + 1.000000000000 179694.9567549918 + 0.004528942390 1055.3371367184 + 0.004528905167 1055.3319208332 + 0.004528905161 1055.3319201035 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905161 1055.3319201344 + 0.004528905078 1055.3319031492 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528979610 1055.3423485873 - 0.004528905167 1055.3319208360 - 0.004528905162 1055.3319201247 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201391 - 0.004528905162 1055.3319201390 - 0.004528904995 1055.3318861055 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528985814 1055.3432176211 - 0.004528905167 1055.3319208362 - 0.004528905162 1055.3319201301 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904982 1055.3318832779 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528992018 1055.3440867008 - 0.004528905167 1055.3319208362 - 0.004528905162 1055.3319201288 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904968 1055.3318804508 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004528998222 1055.3449567510 - 0.004528905167 1055.3319208362 - 0.004528905161 1055.3319200780 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904954 1055.3318776241 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529004426 1055.3458249930 - 0.004528905167 1055.3319208363 - 0.004528905161 1055.3319200784 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904940 1055.3318747976 + 1.000000000000 179694.9567549918 + 0.004528948595 1055.3380045891 + 0.004528905167 1055.3319208293 + 0.004528905161 1055.3319200811 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905161 1055.3319200993 + 0.004528905065 1055.3319002860 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529010631 1055.3466939296 - 0.004528905167 1055.3319208363 + 1.000000000000 179694.9567549918 + 0.004528954800 1055.3388734769 + 0.004528905167 1055.3319208271 + 0.004528905161 1055.3319200680 0.004528905161 1055.3319200788 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904926 1055.3318719713 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529016835 1055.3475630597 - 0.004528905167 1055.3319208364 - 0.004528905161 1055.3319200791 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528905162 1055.3319201186 - 0.004528904913 1055.3318691450 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529023039 1055.3484320133 - 0.004528905167 1055.3319208364 - 0.004528905161 1055.3319200793 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904899 1055.3318663187 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529029244 1055.3493009260 - 0.004528905167 1055.3319208365 - 0.004528905161 1055.3319200794 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904885 1055.3318634925 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529035448 1055.3501700787 - 0.004528905167 1055.3319208365 - 0.004528905161 1055.3319200796 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904871 1055.3318606663 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529041652 1055.3510392540 - 0.004528905167 1055.3319208366 - 0.004528905161 1055.3319200797 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904857 1055.3318578401 - 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529047857 1055.3519083844 - 0.004528905167 1055.3319208366 - 0.004528905161 1055.3319200799 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904843 1055.3318550139 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905161 1055.3319200788 + 0.004528905051 1055.3318974382 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529054061 1055.3527774908 - 0.004528905167 1055.3319208367 - 0.004528905161 1055.3319200800 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904830 1055.3318521877 + 1.000000000000 179694.9567549918 + 0.004528961004 1055.3397424400 + 0.004528905167 1055.3319208258 + 0.004528905161 1055.3319200603 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905161 1055.3319200668 + 0.004528905037 1055.3318945994 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529060264 1055.3536483601 - 0.004528905167 1055.3319208368 - 0.004528905161 1055.3319200801 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904816 1055.3318493615 + 1.000000000000 179694.9567549918 + 0.004528967208 1055.3406114479 + 0.004528905167 1055.3319208250 + 0.004528905161 1055.3319200558 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905161 1055.3319200598 + 0.004528905023 1055.3318917658 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529066469 1055.3545157575 - 0.004528905167 1055.3319208368 - 0.004528905161 1055.3319200803 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904802 1055.3318465353 + 1.000000000000 179694.9567549918 + 0.004528973413 1055.3414804827 + 0.004528905167 1055.3319208385 + 0.004528905162 1055.3319201482 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905161 1055.3319200557 + 0.004528905009 1055.3318889353 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529072674 1055.3553846350 - 0.004528905167 1055.3319208369 - 0.004528905161 1055.3319200804 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904788 1055.3318437091 + 1.000000000000 179694.9567549918 + 0.004528979617 1055.3423495340 + 0.004528905167 1055.3319208371 + 0.004528905162 1055.3319201258 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528905162 1055.3319201402 + 0.004528904995 1055.3318861066 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529078878 1055.3562537143 - 0.004528905167 1055.3319208370 - 0.004528905161 1055.3319200805 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904774 1055.3318408829 + 1.000000000000 179694.9567549918 + 0.004528985821 1055.3432185957 + 0.004528905167 1055.3319208372 + 0.004528905162 1055.3319201311 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528904982 1055.3318832790 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529085083 1055.3571228054 - 0.004528905167 1055.3319208370 - 0.004528905161 1055.3319200806 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904760 1055.3318380568 + 1.000000000000 179694.9567549918 + 0.004528992025 1055.3440876643 + 0.004528905167 1055.3319208372 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528904968 1055.3318804519 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529091286 1055.3579935489 - 0.004528905167 1055.3319208371 - 0.004528905161 1055.3319200808 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904747 1055.3318352306 + 1.000000000000 179694.9567549918 + 0.004528998230 1055.3449567510 + 0.004528905167 1055.3319208373 + 0.004528905162 1055.3319201302 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528904954 1055.3318776252 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529097491 1055.3588615384 - 0.004528905167 1055.3319208372 - 0.004528905161 1055.3319200809 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904733 1055.3318324044 + 1.000000000000 179694.9567549918 + 0.004529004434 1055.3458258242 + 0.004528905167 1055.3319208373 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528904940 1055.3318747988 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529103695 1055.3597304155 + 1.000000000000 179694.9567549918 + 0.004529010638 1055.3466949038 0.004528905167 1055.3319208373 - 0.004528905161 1055.3319200810 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904719 1055.3318295782 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528905162 1055.3319201197 + 0.004528904926 1055.3318719724 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529109898 1055.3606008583 + 1.000000000000 179694.9567549918 + 0.004529016843 1055.3475639858 0.004528905167 1055.3319208374 - 0.004528905161 1055.3319200811 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904705 1055.3318267520 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904913 1055.3318691461 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529023047 1055.3484330700 + 0.004528905167 1055.3319208374 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904899 1055.3318663199 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529116104 1055.3614685358 + 1.000000000000 179694.9567549918 + 0.004529029251 1055.3493021562 0.004528905167 1055.3319208375 - 0.004528905161 1055.3319200812 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904691 1055.3318239258 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904885 1055.3318634936 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529035456 1055.3501712443 + 0.004528905167 1055.3319208375 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904871 1055.3318606674 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529122308 1055.3623374436 + 1.000000000000 179694.9567549918 + 0.004529041660 1055.3510403344 0.004528905167 1055.3319208376 - 0.004528905161 1055.3319200814 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904678 1055.3318210996 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904857 1055.3318578412 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529128511 1055.3632081916 + 1.000000000000 179694.9567549918 + 0.004529047864 1055.3519094263 0.004528905167 1055.3319208377 - 0.004528905161 1055.3319200815 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904664 1055.3318182734 + 0.004528905162 1055.3319201301 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904843 1055.3318550150 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529134716 1055.3640760570 + 1.000000000000 179694.9567549918 + 0.004529054069 1055.3527785200 0.004528905167 1055.3319208377 - 0.004528905161 1055.3319200816 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904650 1055.3318154472 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904830 1055.3318521888 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529140921 1055.3649449320 + 1.000000000000 179694.9567549918 + 0.004529060273 1055.3536476156 + 0.004528905167 1055.3319208378 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904816 1055.3318493626 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529066477 1055.3545167130 + 0.004528905167 1055.3319208379 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904802 1055.3318465364 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529072682 1055.3553858122 0.004528905167 1055.3319208379 - 0.004528905161 1055.3319200817 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904636 1055.3318126210 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904788 1055.3318437103 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529147126 1055.3658140387 + 1.000000000000 179694.9567549918 + 0.004529078886 1055.3562549133 0.004528905167 1055.3319208380 - 0.004528905161 1055.3319200819 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904622 1055.3318097949 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904774 1055.3318408841 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529153330 1055.3666830647 + 1.000000000000 179694.9567549918 + 0.004529085090 1055.3571240161 0.004528905167 1055.3319208381 - 0.004528905161 1055.3319200820 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904608 1055.3318069687 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904760 1055.3318380579 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529159535 1055.3675521051 + 1.000000000000 179694.9567549918 + 0.004529091295 1055.3579931208 + 0.004528905167 1055.3319208381 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904747 1055.3318352317 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529097499 1055.3588622273 0.004528905167 1055.3319208382 - 0.004528905161 1055.3319200821 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904595 1055.3318041425 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904733 1055.3318324055 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529165739 1055.3684213501 + 1.000000000000 179694.9567549918 + 0.004529103704 1055.3597313357 0.004528905167 1055.3319208383 - 0.004528905161 1055.3319200823 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904581 1055.3318013163 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904719 1055.3318295793 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529171944 1055.3692904280 + 1.000000000000 179694.9567549918 + 0.004529109908 1055.3606004458 0.004528905167 1055.3319208384 - 0.004528905161 1055.3319200824 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904567 1055.3317984901 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904705 1055.3318267531 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529178148 1055.3701594910 + 1.000000000000 179694.9567549918 + 0.004529116113 1055.3614695578 0.004528905167 1055.3319208385 - 0.004528905161 1055.3319200825 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904553 1055.3317956639 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904691 1055.3318239269 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529184353 1055.3710285272 + 1.000000000000 179694.9567549918 + 0.004529122317 1055.3623386716 0.004528905167 1055.3319208386 - 0.004528905161 1055.3319200826 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904539 1055.3317928377 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904678 1055.3318211007 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529190557 1055.3718977277 + 1.000000000000 179694.9567549918 + 0.004529128521 1055.3632077872 0.004528905167 1055.3319208387 - 0.004528905161 1055.3319200827 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904525 1055.3317900115 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904664 1055.3318182745 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529134726 1055.3640769046 + 0.004528905167 1055.3319208388 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904650 1055.3318154484 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529196762 1055.3727668640 + 1.000000000000 179694.9567549918 + 0.004529140930 1055.3649460238 0.004528905167 1055.3319208389 - 0.004528905161 1055.3319200829 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904512 1055.3317871854 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904636 1055.3318126222 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529202966 1055.3736358846 + 1.000000000000 179694.9567549918 + 0.004529147135 1055.3658151449 0.004528905167 1055.3319208390 - 0.004528905161 1055.3319200830 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904498 1055.3317843592 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904622 1055.3318097960 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529209171 1055.3745050286 + 1.000000000000 179694.9567549918 + 0.004529153339 1055.3666842678 0.004528905167 1055.3319208391 - 0.004528905161 1055.3319200831 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904484 1055.3317815330 + 0.004528905162 1055.3319201300 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904608 1055.3318069698 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529159544 1055.3675533925 + 0.004528905167 1055.3319208392 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904595 1055.3318041436 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529215376 1055.3753741967 + 1.000000000000 179694.9567549918 + 0.004529165748 1055.3684225190 0.004528905167 1055.3319208393 - 0.004528905161 1055.3319200832 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201187 - 0.004528905162 1055.3319201186 - 0.004528904470 1055.3317787068 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904581 1055.3318013174 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529221579 1055.3762448480 + 1.000000000000 179694.9567549918 + 0.004529171953 1055.3692916473 0.004528905167 1055.3319208394 - 0.004528905161 1055.3319200834 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904456 1055.3317758806 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904567 1055.3317984912 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529227784 1055.3771128781 + 1.000000000000 179694.9567549918 + 0.004529178157 1055.3701607775 0.004528905167 1055.3319208395 - 0.004528905161 1055.3319200835 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904443 1055.3317730544 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904553 1055.3317956650 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529233989 1055.3779816835 - 0.004528905167 1055.3319208397 - 0.004528905161 1055.3319200836 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904429 1055.3317702282 + 1.000000000000 179694.9567549918 + 0.004529184362 1055.3710299095 + 0.004528905167 1055.3319208396 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904539 1055.3317928389 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529240193 1055.3788507389 + 1.000000000000 179694.9567549918 + 0.004529190566 1055.3718990432 0.004528905167 1055.3319208398 - 0.004528905161 1055.3319200837 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904415 1055.3317674020 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904525 1055.3317900126 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529196771 1055.3727681789 + 0.004528905167 1055.3319208399 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904512 1055.3317871865 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529246398 1055.3797200786 + 1.000000000000 179694.9567549918 + 0.004529202975 1055.3736373163 0.004528905167 1055.3319208400 - 0.004528905161 1055.3319200839 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904401 1055.3317645758 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904498 1055.3317843603 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529252601 1055.3805905801 - 0.004528905167 1055.3319208401 - 0.004528905161 1055.3319200840 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904387 1055.3317617496 + 1.000000000000 179694.9567549918 + 0.004529209180 1055.3745064555 + 0.004528905167 1055.3319208402 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904484 1055.3317815341 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529258807 1055.3814584043 + 1.000000000000 179694.9567549918 + 0.004529215385 1055.3753755966 0.004528905167 1055.3319208403 - 0.004528905161 1055.3319200841 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904373 1055.3317589235 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904470 1055.3317787079 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529265011 1055.3823273786 + 1.000000000000 179694.9567549918 + 0.004529221589 1055.3762447395 0.004528905167 1055.3319208404 - 0.004528905161 1055.3319200842 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904360 1055.3317560973 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201198 + 0.004528905162 1055.3319201197 + 0.004528904456 1055.3317758817 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529271216 1055.3831966108 - 0.004528905167 1055.3319208406 - 0.004528905161 1055.3319200844 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904346 1055.3317532711 + 1.000000000000 179694.9567549918 + 0.004529227794 1055.3771138842 + 0.004528905167 1055.3319208405 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904443 1055.3317730555 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529277421 1055.3840658680 + 1.000000000000 179694.9567549918 + 0.004529233998 1055.3779830308 0.004528905167 1055.3319208407 - 0.004528905161 1055.3319200845 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904332 1055.3317504449 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904429 1055.3317702293 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529283625 1055.3849358177 - 0.004528905167 1055.3319208409 - 0.004528905161 1055.3319200846 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904318 1055.3317476187 + 1.000000000000 179694.9567549918 + 0.004529240203 1055.3788521791 + 0.004528905167 1055.3319208408 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904415 1055.3317674031 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529289830 1055.3858043068 + 1.000000000000 179694.9567549918 + 0.004529246407 1055.3797213293 0.004528905167 1055.3319208410 - 0.004528905161 1055.3319200847 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904304 1055.3317447925 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904401 1055.3317645770 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529296035 1055.3866751571 - 0.004528905167 1055.3319208412 - 0.004528905161 1055.3319200849 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904290 1055.3317419663 + 1.000000000000 179694.9567549918 + 0.004529252612 1055.3805904813 + 0.004528905167 1055.3319208411 + 0.004528905162 1055.3319201299 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904387 1055.3317617508 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529302254 1055.3875458589 - 0.004528905167 1055.3319208213 - 0.004528905162 1055.3319201746 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904277 1055.3317391401 + 1.000000000000 179694.9567549918 + 0.004529258817 1055.3814596351 + 0.004528905167 1055.3319208413 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904373 1055.3317589246 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529308459 1055.3884138357 - 0.004528905167 1055.3319208437 - 0.004528905162 1055.3319201538 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904263 1055.3317363140 + 1.000000000000 179694.9567549918 + 0.004529265021 1055.3823287907 + 0.004528905167 1055.3319208414 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904360 1055.3317560984 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529314664 1055.3892828296 - 0.004528905167 1055.3319208358 - 0.004528905162 1055.3319201588 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904249 1055.3317334878 + 1.000000000000 179694.9567549918 + 0.004529271226 1055.3831979481 + 0.004528905167 1055.3319208416 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904346 1055.3317532722 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529320868 1055.3901518986 - 0.004528905167 1055.3319208389 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904235 1055.3317306616 + 1.000000000000 179694.9567549918 + 0.004529277431 1055.3840671074 + 0.004528905167 1055.3319208417 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904332 1055.3317504460 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529327073 1055.3910210122 - 0.004528905167 1055.3319208380 - 0.004528905162 1055.3319201579 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904221 1055.3317278354 + 1.000000000000 179694.9567549918 + 0.004529283635 1055.3849362685 + 0.004528905167 1055.3319208419 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904318 1055.3317476198 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529333278 1055.3918901528 - 0.004528905167 1055.3319208386 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904208 1055.3317250092 + 1.000000000000 179694.9567549918 + 0.004529289840 1055.3858054314 + 0.004528905167 1055.3319208421 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904304 1055.3317447936 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529339483 1055.3927593097 - 0.004528905167 1055.3319208386 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904194 1055.3317221830 + 1.000000000000 179694.9567549918 + 0.004529296045 1055.3866745961 + 0.004528905167 1055.3319208422 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904290 1055.3317419674 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529345687 1055.3936284770 - 0.004528905167 1055.3319208388 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904180 1055.3317193568 + 1.000000000000 179694.9567549918 + 0.004529302249 1055.3875437626 + 0.004528905167 1055.3319208424 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904277 1055.3317391412 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529351893 1055.3944978175 - 0.004528905167 1055.3319208390 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904166 1055.3317165306 + 1.000000000000 179694.9567549918 + 0.004529308454 1055.3884129310 + 0.004528905167 1055.3319208426 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904263 1055.3317363151 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529358097 1055.3953668405 - 0.004528905167 1055.3319208392 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904152 1055.3317137044 + 1.000000000000 179694.9567549918 + 0.004529314659 1055.3892821012 + 0.004528905167 1055.3319208428 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904249 1055.3317334889 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529364302 1055.3962360578 - 0.004528905167 1055.3319208394 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904138 1055.3317108783 + 1.000000000000 179694.9567549918 + 0.004529320863 1055.3901512732 + 0.004528905167 1055.3319208429 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904235 1055.3317306627 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529370506 1055.3971051944 - 0.004528905167 1055.3319208396 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904125 1055.3317080521 + 1.000000000000 179694.9567549918 + 0.004529327068 1055.3910204470 + 0.004528905167 1055.3319208431 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904221 1055.3317278365 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529376711 1055.3979743857 - 0.004528905167 1055.3319208398 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904111 1055.3317052259 + 1.000000000000 179694.9567549918 + 0.004529333273 1055.3918896226 + 0.004528905167 1055.3319208433 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904208 1055.3317250103 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529382916 1055.3988435730 - 0.004528905167 1055.3319208400 - 0.004528905162 1055.3319201578 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904097 1055.3317023997 + 1.000000000000 179694.9567549918 + 0.004529339477 1055.3927588001 + 0.004528905167 1055.3319208435 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904194 1055.3317221841 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529389121 1055.3997127643 - 0.004528905167 1055.3319208402 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904083 1055.3316995735 + 1.000000000000 179694.9567549918 + 0.004529345682 1055.3936279794 + 0.004528905167 1055.3319208437 + 0.004528905162 1055.3319201298 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904180 1055.3317193579 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529395325 1055.4005819578 - 0.004528905167 1055.3319208404 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904069 1055.3316967473 + 1.000000000000 179694.9567549918 + 0.004529351887 1055.3944971605 + 0.004528905167 1055.3319208439 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904166 1055.3317165317 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529401530 1055.4014511533 - 0.004528905167 1055.3319208406 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904055 1055.3316939211 + 1.000000000000 179694.9567549918 + 0.004529358092 1055.3953663434 + 0.004528905167 1055.3319208441 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904152 1055.3317137056 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529407735 1055.4023203506 - 0.004528905167 1055.3319208408 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904042 1055.3316910949 + 1.000000000000 179694.9567549918 + 0.004529364296 1055.3962355281 + 0.004528905167 1055.3319208443 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904138 1055.3317108794 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529413940 1055.4031895499 - 0.004528905167 1055.3319208410 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904028 1055.3316882688 + 1.000000000000 179694.9567549918 + 0.004529370501 1055.3971047147 + 0.004528905167 1055.3319208445 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904125 1055.3317080532 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529420145 1055.4040587510 - 0.004528905167 1055.3319208413 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201188 - 0.004528905162 1055.3319201186 - 0.004528904014 1055.3316854426 + 1.000000000000 179694.9567549918 + 0.004529376706 1055.3979739031 + 0.004528905167 1055.3319208447 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904111 1055.3317052270 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529426350 1055.4049279539 - 0.004528905167 1055.3319208415 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528904000 1055.3316826164 + 1.000000000000 179694.9567549918 + 0.004529382911 1055.3988430933 + 0.004528905167 1055.3319208449 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904097 1055.3317024008 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529432554 1055.4057971587 - 0.004528905167 1055.3319208417 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903986 1055.3316797902 + 1.000000000000 179694.9567549918 + 0.004529389115 1055.3997122853 + 0.004528905167 1055.3319208451 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904083 1055.3316995746 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529438759 1055.4066663653 - 0.004528905167 1055.3319208419 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903972 1055.3316769640 + 1.000000000000 179694.9567549918 + 0.004529395320 1055.4005814791 + 0.004528905167 1055.3319208453 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904069 1055.3316967484 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529444964 1055.4075355737 - 0.004528905167 1055.3319208422 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903959 1055.3316741378 + 1.000000000000 179694.9567549918 + 0.004529401525 1055.4014506747 + 0.004528905167 1055.3319208455 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904055 1055.3316939222 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529451169 1055.4084047840 - 0.004528905167 1055.3319208424 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903945 1055.3316713116 + 1.000000000000 179694.9567549918 + 0.004529407730 1055.4023198722 + 0.004528905167 1055.3319208457 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904042 1055.3316910961 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529457374 1055.4092739961 - 0.004528905167 1055.3319208426 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903931 1055.3316684854 + 1.000000000000 179694.9567549918 + 0.004529413935 1055.4031890715 + 0.004528905167 1055.3319208459 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904028 1055.3316882699 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529463579 1055.4101432100 - 0.004528905167 1055.3319208429 - 0.004528905162 1055.3319201577 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903917 1055.3316656592 + 1.000000000000 179694.9567549918 + 0.004529420139 1055.4040582726 + 0.004528905167 1055.3319208462 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201199 + 0.004528905162 1055.3319201197 + 0.004528904014 1055.3316854437 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529469784 1055.4110124257 - 0.004528905167 1055.3319208431 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903903 1055.3316628330 + 1.000000000000 179694.9567549918 + 0.004529426344 1055.4049274755 + 0.004528905167 1055.3319208464 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528904000 1055.3316826175 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529475988 1055.4118816432 - 0.004528905167 1055.3319208434 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903890 1055.3316600069 + 1.000000000000 179694.9567549918 + 0.004529432549 1055.4057966803 + 0.004528905167 1055.3319208466 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903986 1055.3316797913 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529482193 1055.4127508625 - 0.004528905167 1055.3319208436 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903876 1055.3316571807 + 1.000000000000 179694.9567549918 + 0.004529438754 1055.4066658869 + 0.004528905167 1055.3319208468 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903972 1055.3316769651 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529488398 1055.4136200837 - 0.004528905167 1055.3319208439 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903862 1055.3316543545 + 1.000000000000 179694.9567549918 + 0.004529444959 1055.4075350952 + 0.004528905167 1055.3319208471 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903959 1055.3316741389 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529494603 1055.4144893067 - 0.004528905167 1055.3319208441 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903848 1055.3316515283 + 1.000000000000 179694.9567549918 + 0.004529451164 1055.4084043055 + 0.004528905167 1055.3319208473 + 0.004528905162 1055.3319201297 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903945 1055.3316713127 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529500808 1055.4153585315 - 0.004528905167 1055.3319208444 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903834 1055.3316487021 + 1.000000000000 179694.9567549918 + 0.004529457369 1055.4092735175 + 0.004528905167 1055.3319208475 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903931 1055.3316684865 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529507013 1055.4162277581 - 0.004528905167 1055.3319208446 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903820 1055.3316458759 + 1.000000000000 179694.9567549918 + 0.004529463573 1055.4101427313 + 0.004528905167 1055.3319208478 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903917 1055.3316656603 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529513218 1055.4170969866 - 0.004528905167 1055.3319208449 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903807 1055.3316430497 + 1.000000000000 179694.9567549918 + 0.004529469778 1055.4110119470 + 0.004528905167 1055.3319208480 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903903 1055.3316628341 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529519423 1055.4179662168 - 0.004528905167 1055.3319208452 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903793 1055.3316402235 + 1.000000000000 179694.9567549918 + 0.004529475983 1055.4118811645 + 0.004528905167 1055.3319208483 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903890 1055.3316600080 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529525628 1055.4188354489 - 0.004528905167 1055.3319208454 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903779 1055.3316373974 + 1.000000000000 179694.9567549918 + 0.004529482188 1055.4127503838 + 0.004528905167 1055.3319208485 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903876 1055.3316571818 0.000000100644 0.0547821292 - 1.000000000000 179694.9551182455 - 0.004529531833 1055.4197046828 - 0.004528905167 1055.3319208457 - 0.004528905162 1055.3319201576 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201189 - 0.004528905162 1055.3319201186 - 0.004528903765 1055.3316345712 + 1.000000000000 179694.9567549918 + 0.004529488393 1055.4136196049 + 0.004528905167 1055.3319208488 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903862 1055.3316543556 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529494598 1055.4144888278 + 0.004528905167 1055.3319208490 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903848 1055.3316515294 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529500803 1055.4153580526 + 0.004528905167 1055.3319208493 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903834 1055.3316487032 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529507008 1055.4162272792 + 0.004528905167 1055.3319208495 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903820 1055.3316458770 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529513213 1055.4170965076 + 0.004528905167 1055.3319208498 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903807 1055.3316430509 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529519418 1055.4179657378 + 0.004528905167 1055.3319208500 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903793 1055.3316402247 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529525623 1055.4188349698 + 0.004528905167 1055.3319208503 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903779 1055.3316373985 + 0.000000100644 0.0547821292 + 1.000000000000 179694.9567549918 + 0.004529531828 1055.4197042037 + 0.004528905167 1055.3319208505 + 0.004528905162 1055.3319201296 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201200 + 0.004528905162 1055.3319201197 + 0.004528903765 1055.3316345723 0.000000100644 0.0547821292 diff --git a/mytest/edl_species.out b/mytest/edl_species.out index 6f1e6538..70964797 100644 --- a/mytest/edl_species.out +++ b/mytest/edl_species.out @@ -136,7 +136,7 @@ Hfo 2.000e+03 m² for 1.000e+03 g Water in diffuse layer: 2.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89224 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.496e-01 V. @@ -230,7 +230,7 @@ Hfo 2.000e+03 m² for 1.000e+03 g Water in diffuse layer: 2.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89224 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.496e-01 V. diff --git a/mytest/edl_species_101.sel b/mytest/edl_species_101.sel index 8fa11455..52d77712 100644 --- a/mytest/edl_species_101.sel +++ b/mytest/edl_species_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.025749957322 6314.9191068522 - 0.025749957322 6314.9191068522 - 0.025749957325 6314.9191077310 + 0.025749957322 6314.9193426321 + 0.025749957322 6314.9193426321 + 0.025749957325 6314.9193435108 diff --git a/mytest/eq11.flat b/mytest/eq11.flat index 0f2e87c5..21f82467 100644 --- a/mytest/eq11.flat +++ b/mytest/eq11.flat @@ -14,7 +14,7 @@ 1 transp 9 0.68 0 0 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 4.5494e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.5560e-11 7.5072e-02 8.0720e-03 1 transp 10 0.76 0 0 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 4.5494e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.5560e-11 7.5072e-02 8.0720e-03 1 transp 1 0.04 17280 1 6.19698 9.4712 9.6786e-03 1.4084e-02 4.8946e-02 1.6057e-07 2.8471e-02 1.0697e-02 5.2487e-02 6.9433e-04 1.2817e-05 9.4452e-05 3.8271e-04 1.6097e-02 1.3549e-02 7.3866e-06 4.1796e-03 4.4430e-04 1.0232e+00 5.3191e-02 4.8692e-02 4.8692e-02 0.0000e+00 0.0000e+00 1.8409e-02 -2.6591e-02 2.2989e-02 -5.2083e-02 - 1 transp 2 0.12 17280 1 6.37599 9.14397 9.6787e-03 9.1741e-03 3.8780e-02 1.1204e-07 2.2978e-02 1.0698e-02 4.0962e-02 7.5357e-04 3.0286e-06 8.7933e-05 1.7281e-04 1.6097e-02 1.2587e-02 8.0627e-06 1.9521e-03 2.4382e-04 9.7000e-01 3.7751e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.8724e-12 7.5464e-02 3.9181e-04 + 1 transp 2 0.12 17280 1 6.37599 9.14397 9.6787e-03 9.1741e-03 3.8780e-02 1.1204e-07 2.2978e-02 1.0698e-02 4.0962e-02 7.5357e-04 3.0286e-06 8.7933e-05 1.7281e-04 1.6097e-02 1.2587e-02 8.0627e-06 1.9521e-03 2.4382e-04 9.7000e-01 3.7751e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.8723e-12 7.5464e-02 3.9181e-04 1 transp 3 0.2 17280 1 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.3219e-14 7.5072e-02 -3.6221e-15 1 transp 4 0.28 17280 1 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.3219e-14 7.5072e-02 -3.6221e-15 1 transp 5 0.36 17280 1 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.3219e-14 7.5072e-02 -3.6221e-15 @@ -25,8 +25,8 @@ 1 transp 10 0.76 17280 1 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.3163e-14 7.5072e-02 -3.6082e-15 1 transp 1 0.04 34560 2 5.81131 3.12212 9.6654e-03 1.1927e-02 7.0930e-02 1.3065e-02 2.3373e-02 1.0683e-02 3.1986e-02 5.3610e-04 9.1991e-05 9.1553e-05 8.4720e-04 1.6075e-02 1.4762e-02 8.8528e-06 6.2186e-03 7.2717e-04 1.0601e+00 3.6878e-02 7.1791e-02 2.3099e-02 0.0000e+00 0.0000e+00 0.0000e+00 -1.8409e-02 0.0000e+00 -2.2989e-02 1 transp 2 0.12 34560 2 6.22758 9.40593 9.6776e-03 1.3909e-02 4.9649e-02 1.5103e-07 2.8682e-02 1.0696e-02 4.8458e-02 8.5530e-04 4.8230e-06 1.0340e-04 3.5632e-04 1.6095e-02 1.4536e-02 9.1318e-06 1.9821e-03 2.4279e-04 9.7328e-01 3.2781e-03 2.0602e-03 2.0602e-03 0.0000e+00 0.0000e+00 4.3357e-02 -1.6430e-03 7.2606e-02 -2.8578e-03 - 1 transp 3 0.2 34560 2 6.36621 9.15483 9.6788e-03 9.3974e-03 3.9904e-02 1.1428e-07 2.4151e-02 1.0698e-02 4.1953e-02 8.1153e-04 3.1532e-06 9.2292e-05 1.8092e-04 1.6097e-02 1.2644e-02 8.0973e-06 1.9506e-03 2.4356e-04 9.7000e-01 4.0243e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.3599e-12 7.5508e-02 4.3581e-04 - 1 transp 4 0.28 34560 2 6.41526 9.07871 9.6785e-03 8.4899e-03 3.6747e-02 1.0387e-07 2.1136e-02 1.0697e-02 3.8044e-02 7.0147e-04 2.6511e-06 8.2281e-05 1.4450e-04 1.6097e-02 1.2059e-02 7.6983e-06 1.9511e-03 2.4286e-04 9.7000e-01 2.7619e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4312e-13 7.5104e-02 3.1675e-05 + 1 transp 3 0.2 34560 2 6.36621 9.15483 9.6788e-03 9.3974e-03 3.9904e-02 1.1428e-07 2.4151e-02 1.0698e-02 4.1953e-02 8.1153e-04 3.1532e-06 9.2292e-05 1.8092e-04 1.6097e-02 1.2644e-02 8.0973e-06 1.9506e-03 2.4356e-04 9.7000e-01 4.0243e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.3604e-12 7.5508e-02 4.3581e-04 + 1 transp 4 0.28 34560 2 6.41526 9.07871 9.6785e-03 8.4899e-03 3.6747e-02 1.0387e-07 2.1136e-02 1.0697e-02 3.8044e-02 7.0147e-04 2.6511e-06 8.2281e-05 1.4450e-04 1.6097e-02 1.2059e-02 7.6983e-06 1.9511e-03 2.4286e-04 9.7000e-01 2.7619e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4310e-13 7.5104e-02 3.1675e-05 1 transp 5 0.36 34560 2 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3746e-14 7.5072e-02 3.7331e-15 1 transp 6 0.44 34560 2 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3746e-14 7.5072e-02 3.7331e-15 1 transp 7 0.52 34560 2 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3746e-14 7.5072e-02 3.7331e-15 @@ -35,124 +35,124 @@ 1 transp 10 0.76 34560 2 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 3.3307e-16 7.5072e-02 -9.7145e-17 1 transp 1 0.04 51840 3 5.58948 3.26714 9.6504e-03 1.1134e-02 8.9685e-02 4.2420e-02 7.4502e-03 1.0666e-02 1.4337e-02 3.2064e-04 2.4773e-04 7.7603e-05 6.9767e-04 1.6050e-02 1.3785e-02 7.9093e-06 8.0431e-03 8.9981e-04 1.0602e+00 1.3187e-04 7.3079e-02 1.2876e-03 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 51840 3 6.19225 9.47259 9.6787e-03 1.4065e-02 4.9734e-02 1.6229e-07 2.9836e-02 1.0697e-02 5.4102e-02 6.6468e-04 6.6263e-06 1.0103e-04 5.4521e-04 1.6097e-02 1.4641e-02 7.8942e-06 2.2560e-03 2.3718e-04 9.9698e-01 2.3706e-02 3.2790e-02 3.0730e-02 0.0000e+00 0.0000e+00 3.1478e-02 -1.1879e-02 3.8898e-02 -3.3708e-02 - 1 transp 3 0.2 51840 3 6.26424 9.33116 9.6783e-03 1.2355e-02 4.7339e-02 1.4020e-07 2.8725e-02 1.0697e-02 4.7797e-02 9.3389e-04 4.3224e-06 1.0706e-04 2.9316e-04 1.6096e-02 1.4001e-02 8.9408e-06 1.9517e-03 2.4301e-04 9.7000e-01 9.2853e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3148e-11 7.6558e-02 1.0498e-03 - 1 transp 4 0.28 51840 3 6.36343 9.1547 9.6786e-03 9.6007e-03 4.0841e-02 1.1499e-07 2.4881e-02 1.0697e-02 4.1955e-02 8.5288e-04 3.1815e-06 9.4629e-05 1.8440e-04 1.6097e-02 1.2617e-02 8.0438e-06 1.9515e-03 2.4259e-04 9.7000e-01 3.5900e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.6110e-12 7.5510e-02 4.0592e-04 - 1 transp 5 0.36 51840 3 6.41039 9.08404 9.6785e-03 8.5616e-03 3.7191e-02 1.0487e-07 2.1682e-02 1.0697e-02 3.8605e-02 7.2075e-04 2.7112e-06 8.4006e-05 1.4837e-04 1.6097e-02 1.2088e-02 7.7125e-06 1.9512e-03 2.4274e-04 9.7000e-01 4.6049e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.5646e-13 7.5126e-02 5.3728e-05 - 1 transp 6 0.44 51840 3 6.42013 9.07241 9.6784e-03 8.4255e-03 3.6406e-02 1.0290e-07 2.0713e-02 1.0697e-02 3.7531e-02 6.8635e-04 2.5964e-06 8.0863e-05 1.4102e-04 1.6097e-02 1.2018e-02 7.6721e-06 1.9510e-03 2.4286e-04 9.7000e-01 2.3783e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.9371e-14 7.5075e-02 3.1063e-06 - 1 transp 7 0.52 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.8992e-14 7.5072e-02 -5.1764e-15 - 1 transp 8 0.6 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.8895e-14 7.5072e-02 -5.1487e-15 - 1 transp 9 0.68 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.0776e-14 7.5072e-02 -2.9282e-15 - 1 transp 10 0.76 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 3.2960e-15 7.5072e-02 -2.6507e-15 + 1 transp 3 0.2 51840 3 6.26424 9.33116 9.6783e-03 1.2355e-02 4.7339e-02 1.4020e-07 2.8725e-02 1.0697e-02 4.7797e-02 9.3389e-04 4.3224e-06 1.0706e-04 2.9316e-04 1.6096e-02 1.4001e-02 8.9408e-06 1.9517e-03 2.4301e-04 9.7000e-01 9.2853e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3160e-11 7.6558e-02 1.0498e-03 + 1 transp 4 0.28 51840 3 6.36343 9.1547 9.6786e-03 9.6007e-03 4.0841e-02 1.1499e-07 2.4881e-02 1.0697e-02 4.1955e-02 8.5288e-04 3.1815e-06 9.4629e-05 1.8440e-04 1.6097e-02 1.2617e-02 8.0438e-06 1.9515e-03 2.4259e-04 9.7000e-01 3.5900e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.5965e-12 7.5510e-02 4.0592e-04 + 1 transp 5 0.36 51840 3 6.41039 9.08404 9.6785e-03 8.5616e-03 3.7191e-02 1.0487e-07 2.1682e-02 1.0697e-02 3.8605e-02 7.2075e-04 2.7112e-06 8.4006e-05 1.4837e-04 1.6097e-02 1.2088e-02 7.7125e-06 1.9512e-03 2.4274e-04 9.7000e-01 4.6049e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.4744e-13 7.5126e-02 5.3728e-05 + 1 transp 6 0.44 51840 3 6.42013 9.07241 9.6784e-03 8.4255e-03 3.6406e-02 1.0290e-07 2.0713e-02 1.0697e-02 3.7531e-02 6.8635e-04 2.5964e-06 8.0863e-05 1.4102e-04 1.6097e-02 1.2018e-02 7.6721e-06 1.9510e-03 2.4286e-04 9.7000e-01 2.3783e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.5153e-14 7.5075e-02 3.1063e-06 + 1 transp 7 0.52 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.8902e-14 7.5072e-02 -5.1625e-15 + 1 transp 8 0.6 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.8902e-14 7.5072e-02 -5.1625e-15 + 1 transp 9 0.68 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.0873e-14 7.5072e-02 -2.9560e-15 + 1 transp 10 0.76 51840 3 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 3.2058e-15 7.5072e-02 -2.6229e-15 1 transp 1 0.04 69120 4 5.41732 3.7781 9.6500e-03 1.1122e-02 9.0601e-02 4.2430e-02 7.0493e-03 1.0666e-02 1.4007e-02 2.5991e-04 4.6560e-04 6.9614e-05 5.0974e-04 1.6049e-02 1.2505e-02 6.3762e-06 9.5251e-03 9.4697e-04 1.0603e+00 1.1726e-04 7.4282e-02 1.2031e-03 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 69120 4 5.93209 9.97059 9.6733e-03 1.2699e-02 6.0267e-02 2.8025e-07 3.0272e-02 1.0692e-02 4.3529e-02 5.4231e-04 1.4906e-05 9.7330e-05 1.0195e-03 1.6088e-02 1.6658e-02 1.1110e-05 2.8036e-03 3.6459e-04 1.0500e+00 5.3062e-02 6.9613e-02 3.6823e-02 0.0000e+00 0.0000e+00 4.8876e-03 -2.6591e-02 0.0000e+00 -3.8898e-02 - 1 transp 3 0.2 69120 4 6.2086 9.43745 9.6786e-03 1.3682e-02 4.9576e-02 1.5701e-07 3.0070e-02 1.0697e-02 5.2747e-02 8.0544e-04 5.3280e-06 1.0833e-04 4.1826e-04 1.6097e-02 1.4720e-02 9.0270e-06 1.9620e-03 2.3460e-04 9.7000e-01 9.5285e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3014e-11 7.6590e-02 3.2110e-05 - 1 transp 4 0.28 69120 4 6.28722 9.28421 9.6786e-03 1.1525e-02 4.6128e-02 1.3389e-07 2.8766e-02 1.0697e-02 4.7270e-02 9.7984e-04 4.0821e-06 1.0891e-04 2.6120e-04 1.6097e-02 1.3625e-02 8.7375e-06 1.9505e-03 2.4390e-04 9.7000e-01 6.7539e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.6813e-12 7.6249e-02 7.3947e-04 - 1 transp 5 0.36 69120 4 6.36528 9.14777 9.6786e-03 9.5682e-03 4.1104e-02 1.1462e-07 2.5312e-02 1.0697e-02 4.2079e-02 8.7283e-04 3.1853e-06 9.5942e-05 1.8416e-04 1.6097e-02 1.2540e-02 7.9755e-06 1.9520e-03 2.4207e-04 9.7000e-01 2.9182e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4725e-12 7.5451e-02 3.2564e-04 - 1 transp 6 0.44 69120 4 6.40673 9.08745 9.6785e-03 8.6442e-03 3.7644e-02 1.0564e-07 2.2163e-02 1.0697e-02 3.8962e-02 7.3791e-04 2.7543e-06 8.5334e-05 1.5146e-04 1.6097e-02 1.2102e-02 7.7154e-06 1.9514e-03 2.4257e-04 9.7000e-01 5.4116e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.8808e-13 7.5139e-02 6.4206e-05 - 1 transp 7 0.52 69120 4 6.41886 9.07355 9.6784e-03 8.4384e-03 3.6525e-02 1.0315e-07 2.0880e-02 1.0697e-02 3.7709e-02 6.9140e-04 2.6138e-06 8.1367e-05 1.4206e-04 1.6097e-02 1.2022e-02 7.6747e-06 1.9510e-03 2.4286e-04 9.7000e-01 5.3507e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.0424e-13 7.5079e-02 7.2033e-06 - 1 transp 8 0.6 69120 4 6.42083 9.0717 9.6784e-03 8.4191e-03 3.6347e-02 1.0275e-07 2.0629e-02 1.0697e-02 3.7435e-02 6.8372e-04 2.5871e-06 8.0596e-05 1.4046e-04 1.6097e-02 1.2014e-02 7.6701e-06 1.9510e-03 2.4287e-04 9.7000e-01 2.4948e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.0554e-14 7.5072e-02 3.7677e-07 - 1 transp 9 0.68 69120 4 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 1.0353e-14 7.5072e-02 -1.8735e-15 - 1 transp 10 0.76 69120 4 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.4592e-14 7.5072e-02 4.3299e-15 + 1 transp 3 0.2 69120 4 6.2086 9.43745 9.6786e-03 1.3682e-02 4.9576e-02 1.5701e-07 3.0070e-02 1.0697e-02 5.2747e-02 8.0544e-04 5.3280e-06 1.0833e-04 4.1826e-04 1.6097e-02 1.4720e-02 9.0270e-06 1.9620e-03 2.3460e-04 9.7000e-01 9.5285e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3006e-11 7.6590e-02 3.2110e-05 + 1 transp 4 0.28 69120 4 6.28722 9.28421 9.6786e-03 1.1525e-02 4.6128e-02 1.3389e-07 2.8766e-02 1.0697e-02 4.7270e-02 9.7984e-04 4.0821e-06 1.0891e-04 2.6120e-04 1.6097e-02 1.3625e-02 8.7375e-06 1.9505e-03 2.4390e-04 9.7000e-01 6.7539e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.6855e-12 7.6249e-02 7.3947e-04 + 1 transp 5 0.36 69120 4 6.36528 9.14777 9.6786e-03 9.5682e-03 4.1104e-02 1.1462e-07 2.5312e-02 1.0697e-02 4.2079e-02 8.7283e-04 3.1853e-06 9.5942e-05 1.8416e-04 1.6097e-02 1.2540e-02 7.9755e-06 1.9520e-03 2.4207e-04 9.7000e-01 2.9182e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4621e-12 7.5451e-02 3.2564e-04 + 1 transp 6 0.44 69120 4 6.40673 9.08745 9.6785e-03 8.6442e-03 3.7644e-02 1.0564e-07 2.2163e-02 1.0697e-02 3.8962e-02 7.3791e-04 2.7543e-06 8.5334e-05 1.5146e-04 1.6097e-02 1.2102e-02 7.7154e-06 1.9514e-03 2.4257e-04 9.7000e-01 5.4116e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.9935e-13 7.5139e-02 6.4206e-05 + 1 transp 7 0.52 69120 4 6.41886 9.07355 9.6784e-03 8.4384e-03 3.6525e-02 1.0315e-07 2.0880e-02 1.0697e-02 3.7709e-02 6.9140e-04 2.6138e-06 8.1367e-05 1.4206e-04 1.6097e-02 1.2022e-02 7.6747e-06 1.9510e-03 2.4286e-04 9.7000e-01 5.3507e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.6367e-14 7.5079e-02 7.2033e-06 + 1 transp 8 0.6 69120 4 6.42083 9.0717 9.6784e-03 8.4191e-03 3.6347e-02 1.0275e-07 2.0629e-02 1.0697e-02 3.7435e-02 6.8372e-04 2.5871e-06 8.0596e-05 1.4046e-04 1.6097e-02 1.2014e-02 7.6701e-06 1.9510e-03 2.4287e-04 9.7000e-01 2.4948e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.2149e-15 7.5072e-02 3.7677e-07 + 1 transp 9 0.68 69120 4 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.4278e-15 7.5072e-02 1.8180e-15 + 1 transp 10 0.76 69120 4 6.42097 9.07159 9.6784e-03 8.4185e-03 3.6335e-02 1.0273e-07 2.0609e-02 1.0697e-02 3.7412e-02 6.8318e-04 2.5850e-06 8.0535e-05 1.4035e-04 1.6097e-02 1.2014e-02 7.6698e-06 1.9510e-03 2.4287e-04 9.7000e-01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.4551e-14 7.5072e-02 4.3576e-15 1 transp 1 0.04 86400 5 4.99776 4.97279 9.6454e-03 1.0934e-02 9.7656e-02 4.9043e-02 3.6941e-03 1.0661e-02 6.1221e-03 2.3036e-04 2.2007e-03 6.9204e-05 6.3756e-04 1.6042e-02 1.2714e-02 6.8143e-06 9.1961e-03 9.6104e-04 1.0604e+00 5.5731e-05 7.5190e-02 9.0821e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 86400 5 5.60969 3.35051 9.6558e-03 1.1363e-02 8.3512e-02 3.0273e-02 1.4042e-02 1.0672e-02 2.0241e-02 3.6135e-04 7.1053e-05 8.4252e-05 1.0155e-03 1.6059e-02 1.7836e-02 1.9185e-05 3.3748e-03 7.0780e-04 1.0597e+00 9.6999e-03 6.9893e-02 2.8046e-04 0.0000e+00 0.0000e+00 0.0000e+00 -4.8876e-03 0.0000e+00 0.0000e+00 1 transp 3 0.2 86400 5 6.19131 9.47161 9.6787e-03 1.4054e-02 5.0057e-02 1.6267e-07 3.0332e-02 1.0697e-02 5.4609e-02 6.4824e-04 6.0248e-06 1.0628e-04 6.5565e-04 1.6097e-02 1.4628e-02 7.1796e-06 2.0320e-03 1.9447e-04 9.7657e-01 6.5696e-03 1.7691e-02 1.7691e-02 0.0000e+00 0.0000e+00 4.1714e-02 -3.2860e-03 5.6798e-02 -1.9791e-02 - 1 transp 4 0.28 86400 5 6.23229 9.38744 9.6787e-03 1.2892e-02 4.8740e-02 1.4965e-07 3.0335e-02 1.0698e-02 5.1670e-02 9.1705e-04 4.9373e-06 1.1370e-04 3.5058e-04 1.6097e-02 1.4391e-02 9.1342e-06 1.9531e-03 2.4171e-04 9.7000e-01 5.3360e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.1157e-12 7.6826e-02 5.7660e-04 - 1 transp 5 0.36 86400 5 6.30318 9.25122 9.6787e-03 1.1030e-02 4.5467e-02 1.2973e-07 2.8843e-02 1.0698e-02 4.6793e-02 1.0099e-03 3.9259e-06 1.0982e-04 2.4357e-04 1.6097e-02 1.3344e-02 8.5359e-06 1.9510e-03 2.4335e-04 9.7000e-01 5.3229e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.6921e-12 7.6028e-02 5.7709e-04 - 1 transp 6 0.44 86400 5 6.36801 9.14022 9.6786e-03 9.4837e-03 4.1159e-02 1.1405e-07 2.5593e-02 1.0697e-02 4.2203e-02 8.8228e-04 3.1817e-06 9.6694e-05 1.8311e-04 1.6097e-02 1.2463e-02 7.9138e-06 1.9523e-03 2.4173e-04 9.7000e-01 2.3317e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.5975e-12 7.5400e-02 2.6056e-04 - 1 transp 7 0.52 86400 5 6.40428 9.08923 9.6785e-03 8.6983e-03 3.7991e-02 1.0617e-07 2.2554e-02 1.0697e-02 3.9246e-02 7.5080e-04 2.7867e-06 8.6357e-05 1.5372e-04 1.6097e-02 1.2106e-02 7.7132e-06 1.9515e-03 2.4245e-04 9.7000e-01 5.4321e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.8152e-13 7.5145e-02 6.5608e-05 - 1 transp 8 0.6 86400 5 6.41747 9.07471 9.6784e-03 8.4589e-03 3.6680e-02 1.0344e-07 2.1074e-02 1.0697e-02 3.7888e-02 6.9726e-04 2.6322e-06 8.1905e-05 1.4323e-04 1.6097e-02 1.2026e-02 7.6765e-06 1.9511e-03 2.4283e-04 9.7000e-01 7.8876e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.7075e-13 7.5083e-02 1.0845e-05 - 1 transp 9 0.68 86400 5 6.42053 9.07194 9.6784e-03 8.4209e-03 3.6375e-02 1.0281e-07 2.0672e-02 1.0697e-02 3.7483e-02 6.8490e-04 2.5915e-06 8.0724e-05 1.4072e-04 1.6097e-02 1.2015e-02 7.6707e-06 1.9510e-03 2.4287e-04 9.7000e-01 7.2609e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 8.2989e-15 7.5073e-02 1.1334e-06 - 1 transp 10 0.76 86400 5 6.42094 9.07161 9.6784e-03 8.4185e-03 3.6337e-02 1.0273e-07 2.0613e-02 1.0697e-02 3.7416e-02 6.8327e-04 2.5854e-06 8.0546e-05 1.4037e-04 1.6097e-02 1.2014e-02 7.6699e-06 1.9510e-03 2.4287e-04 9.7000e-01 3.2285e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 7.9728e-15 7.5072e-02 5.5144e-08 + 1 transp 4 0.28 86400 5 6.23229 9.38744 9.6787e-03 1.2892e-02 4.8740e-02 1.4965e-07 3.0335e-02 1.0698e-02 5.1670e-02 9.1705e-04 4.9373e-06 1.1370e-04 3.5058e-04 1.6097e-02 1.4391e-02 9.1342e-06 1.9531e-03 2.4171e-04 9.7000e-01 5.3360e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.1295e-12 7.6826e-02 5.7660e-04 + 1 transp 5 0.36 86400 5 6.30318 9.25122 9.6787e-03 1.1030e-02 4.5467e-02 1.2973e-07 2.8843e-02 1.0698e-02 4.6793e-02 1.0099e-03 3.9259e-06 1.0982e-04 2.4357e-04 1.6097e-02 1.3344e-02 8.5359e-06 1.9510e-03 2.4335e-04 9.7000e-01 5.3229e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -7.7053e-12 7.6028e-02 5.7709e-04 + 1 transp 6 0.44 86400 5 6.36801 9.14022 9.6786e-03 9.4837e-03 4.1159e-02 1.1405e-07 2.5593e-02 1.0697e-02 4.2203e-02 8.8228e-04 3.1817e-06 9.6694e-05 1.8311e-04 1.6097e-02 1.2463e-02 7.9138e-06 1.9523e-03 2.4173e-04 9.7000e-01 2.3317e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.5951e-12 7.5400e-02 2.6056e-04 + 1 transp 7 0.52 86400 5 6.40428 9.08923 9.6785e-03 8.6983e-03 3.7991e-02 1.0617e-07 2.2554e-02 1.0697e-02 3.9246e-02 7.5080e-04 2.7867e-06 8.6357e-05 1.5372e-04 1.6097e-02 1.2106e-02 7.7132e-06 1.9515e-03 2.4245e-04 9.7000e-01 5.4321e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.7485e-13 7.5145e-02 6.5608e-05 + 1 transp 8 0.6 86400 5 6.41747 9.07471 9.6784e-03 8.4589e-03 3.6680e-02 1.0344e-07 2.1074e-02 1.0697e-02 3.7888e-02 6.9726e-04 2.6322e-06 8.1905e-05 1.4323e-04 1.6097e-02 1.2026e-02 7.6765e-06 1.9511e-03 2.4283e-04 9.7000e-01 7.8876e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.6256e-13 7.5083e-02 1.0845e-05 + 1 transp 9 0.68 86400 5 6.42053 9.07194 9.6784e-03 8.4209e-03 3.6375e-02 1.0281e-07 2.0672e-02 1.0697e-02 3.7483e-02 6.8490e-04 2.5915e-06 8.0724e-05 1.4072e-04 1.6097e-02 1.2015e-02 7.6707e-06 1.9510e-03 2.4287e-04 9.7000e-01 7.2609e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 5.4262e-15 7.5073e-02 1.1334e-06 + 1 transp 10 0.76 86400 5 6.42094 9.07161 9.6784e-03 8.4185e-03 3.6337e-02 1.0273e-07 2.0613e-02 1.0697e-02 3.7416e-02 6.8327e-04 2.5854e-06 8.0546e-05 1.4037e-04 1.6097e-02 1.2014e-02 7.6699e-06 1.9510e-03 2.4287e-04 9.7000e-01 3.2285e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 2.9282e-15 7.5072e-02 5.5144e-08 1 transp 1 0.04 103680 6 4.89131 5.26609 9.6441e-03 1.0889e-02 9.9688e-02 5.2334e-02 1.8532e-03 1.0659e-02 4.5394e-03 2.1091e-04 2.9100e-03 6.4706e-05 4.8547e-04 1.6040e-02 1.3680e-02 8.2929e-06 8.1285e-03 9.6078e-04 1.0604e+00 3.6991e-05 7.6093e-02 9.0300e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 103680 6 5.54152 3.43397 9.6515e-03 1.1189e-02 8.8407e-02 4.0017e-02 8.4334e-03 1.0667e-02 1.6020e-02 2.7249e-04 1.6422e-04 7.4004e-05 7.1845e-04 1.6052e-02 1.5875e-02 1.2427e-05 5.7305e-03 8.7464e-04 1.0598e+00 2.2981e-05 7.0283e-02 3.8972e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 103680 6 6.17252 9.51568 9.6792e-03 1.4189e-02 4.9253e-02 1.6889e-07 2.9552e-02 1.0698e-02 5.6975e-02 4.7129e-04 7.1486e-06 9.5058e-05 7.9809e-04 1.6098e-02 1.4698e-02 6.6623e-06 2.2030e-03 1.9470e-04 1.0167e+00 4.0085e-02 6.1649e-02 4.3959e-02 0.0000e+00 0.0000e+00 2.1655e-02 -2.0059e-02 9.3191e-03 -4.7479e-02 - 1 transp 4 0.28 103680 6 6.20202 9.44878 9.6789e-03 1.3591e-02 4.9469e-02 1.5914e-07 3.0508e-02 1.0698e-02 5.4344e-02 7.6426e-04 5.5789e-06 1.1205e-04 4.7032e-04 1.6098e-02 1.4735e-02 8.6330e-06 1.9703e-03 2.2509e-04 9.7000e-01 2.4951e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7791e-12 7.7102e-02 2.7602e-04 - 1 transp 5 0.36 103680 6 6.25172 9.34663 9.6788e-03 1.2282e-02 4.8080e-02 1.4391e-07 3.0520e-02 1.0698e-02 5.0812e-02 9.9792e-04 4.6627e-06 1.1696e-04 3.1056e-04 1.6097e-02 1.4087e-02 9.0614e-06 1.9500e-03 2.4457e-04 9.7000e-01 5.0697e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.8952e-12 7.6572e-02 5.4308e-04 - 1 transp 6 0.44 103680 6 6.31596 9.2248 9.6788e-03 1.0653e-02 4.4962e-02 1.2651e-07 2.8906e-02 1.0698e-02 4.6411e-02 1.0257e-03 3.8094e-06 1.1009e-04 2.3174e-04 1.6097e-02 1.3112e-02 8.3524e-06 1.9518e-03 2.4243e-04 9.7000e-01 4.2587e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.2353e-12 7.5860e-02 4.6016e-04 - 1 transp 7 0.52 103680 6 6.37065 9.13346 9.6787e-03 9.4014e-03 4.1163e-02 1.1349e-07 2.5798e-02 1.0697e-02 4.2295e-02 8.8649e-04 3.1755e-06 9.7111e-05 1.8198e-04 1.6097e-02 1.2396e-02 7.8633e-06 1.9525e-03 2.4151e-04 9.7000e-01 1.8837e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.9712e-12 7.5356e-02 2.1166e-04 - 1 transp 8 0.6 103680 6 6.40266 9.09002 9.6785e-03 8.7282e-03 3.8245e-02 1.0652e-07 2.2868e-02 1.0697e-02 3.9486e-02 7.6009e-04 2.8119e-06 8.7153e-05 1.5538e-04 1.6097e-02 1.2103e-02 7.7093e-06 1.9516e-03 2.4239e-04 9.7000e-01 5.0785e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.1424e-13 7.5146e-02 6.2465e-05 - 1 transp 9 0.68 103680 6 6.41613 9.07575 9.6784e-03 8.4803e-03 3.6841e-02 1.0372e-07 2.1271e-02 1.0697e-02 3.8060e-02 7.0307e-04 2.6500e-06 8.2427e-05 1.4437e-04 1.6097e-02 1.2029e-02 7.6776e-06 1.9511e-03 2.4282e-04 9.7000e-01 9.5773e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.0232e-13 7.5087e-02 1.3490e-05 - 1 transp 10 0.76 103680 6 6.42004 9.07232 9.6784e-03 8.4250e-03 3.6427e-02 1.0292e-07 2.0745e-02 1.0697e-02 3.7561e-02 6.8690e-04 2.5988e-06 8.0935e-05 1.4114e-04 1.6097e-02 1.2016e-02 7.6714e-06 1.9510e-03 2.4287e-04 9.7000e-01 1.4108e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.4786e-14 7.5074e-02 2.2659e-06 + 1 transp 4 0.28 103680 6 6.20202 9.44878 9.6789e-03 1.3591e-02 4.9469e-02 1.5914e-07 3.0508e-02 1.0698e-02 5.4344e-02 7.6426e-04 5.5789e-06 1.1205e-04 4.7032e-04 1.6098e-02 1.4735e-02 8.6330e-06 1.9703e-03 2.2509e-04 9.7000e-01 2.4951e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7513e-12 7.7102e-02 2.7602e-04 + 1 transp 5 0.36 103680 6 6.25172 9.34663 9.6788e-03 1.2282e-02 4.8080e-02 1.4391e-07 3.0520e-02 1.0698e-02 5.0812e-02 9.9792e-04 4.6627e-06 1.1696e-04 3.1056e-04 1.6097e-02 1.4087e-02 9.0614e-06 1.9500e-03 2.4457e-04 9.7000e-01 5.0697e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.9060e-12 7.6572e-02 5.4308e-04 + 1 transp 6 0.44 103680 6 6.31596 9.2248 9.6788e-03 1.0653e-02 4.4962e-02 1.2651e-07 2.8906e-02 1.0698e-02 4.6411e-02 1.0257e-03 3.8094e-06 1.1009e-04 2.3174e-04 1.6097e-02 1.3112e-02 8.3524e-06 1.9518e-03 2.4243e-04 9.7000e-01 4.2587e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.2457e-12 7.5860e-02 4.6016e-04 + 1 transp 7 0.52 103680 6 6.37065 9.13346 9.6787e-03 9.4014e-03 4.1163e-02 1.1349e-07 2.5798e-02 1.0697e-02 4.2295e-02 8.8649e-04 3.1755e-06 9.7111e-05 1.8198e-04 1.6097e-02 1.2396e-02 7.8633e-06 1.9525e-03 2.4151e-04 9.7000e-01 1.8837e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.9764e-12 7.5356e-02 2.1166e-04 + 1 transp 8 0.6 103680 6 6.40266 9.09002 9.6785e-03 8.7282e-03 3.8245e-02 1.0652e-07 2.2868e-02 1.0697e-02 3.9486e-02 7.6009e-04 2.8119e-06 8.7153e-05 1.5538e-04 1.6097e-02 1.2103e-02 7.7093e-06 1.9516e-03 2.4239e-04 9.7000e-01 5.0785e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -9.2436e-13 7.5146e-02 6.2465e-05 + 1 transp 9 0.68 103680 6 6.41613 9.07575 9.6784e-03 8.4803e-03 3.6841e-02 1.0372e-07 2.1271e-02 1.0697e-02 3.8060e-02 7.0307e-04 2.6500e-06 8.2427e-05 1.4437e-04 1.6097e-02 1.2029e-02 7.6776e-06 1.9511e-03 2.4282e-04 9.7000e-01 9.5773e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.0837e-13 7.5087e-02 1.3490e-05 + 1 transp 10 0.76 103680 6 6.42004 9.07232 9.6784e-03 8.4250e-03 3.6427e-02 1.0292e-07 2.0745e-02 1.0697e-02 3.7561e-02 6.8690e-04 2.5988e-06 8.0935e-05 1.4114e-04 1.6097e-02 1.2016e-02 7.6714e-06 1.9510e-03 2.4287e-04 9.7000e-01 1.4108e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.2306e-14 7.5074e-02 2.2659e-06 1 transp 1 0.04 120960 7 4.82696 5.45404 9.6439e-03 1.0879e-02 1.0015e-01 5.3001e-02 1.4687e-03 1.0659e-02 4.2216e-03 2.0567e-04 3.1404e-03 6.2786e-05 4.0622e-04 1.6039e-02 1.4682e-02 1.0262e-05 7.0372e-03 9.5905e-04 1.0604e+00 2.4903e-05 7.6995e-02 9.0176e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 120960 7 4.97121 5.1145 9.6480e-03 1.1025e-02 9.4443e-02 4.2007e-02 7.5997e-03 1.0664e-02 8.6375e-03 2.5968e-04 1.6287e-03 7.6738e-05 1.0072e-03 1.6046e-02 1.4695e-02 1.0230e-05 7.0276e-03 9.5390e-04 1.0598e+00 2.1038e-06 7.0305e-02 2.1926e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 120960 7 5.42138 4.51563 9.6640e-03 1.1710e-02 7.5317e-02 7.2611e-03 2.6420e-02 1.0681e-02 2.7481e-02 4.2212e-04 5.9094e-05 9.8199e-05 1.7441e-03 1.6073e-02 1.9054e-02 3.0134e-05 2.1153e-03 6.5229e-04 1.0599e+00 4.3246e-02 7.0787e-02 9.1379e-03 0.0000e+00 0.0000e+00 0.0000e+00 -2.1655e-02 0.0000e+00 -9.3191e-03 1 transp 4 0.28 120960 7 6.18658 9.48216 9.6787e-03 1.4085e-02 4.9912e-02 1.6422e-07 3.0222e-02 1.0698e-02 5.5256e-02 6.0666e-04 6.1624e-06 1.0810e-04 7.0124e-04 1.6097e-02 1.4655e-02 6.9878e-06 2.0320e-03 1.8892e-04 9.7000e-01 2.9760e-07 4.6226e-03 4.6226e-03 0.0000e+00 0.0000e+00 4.5000e-02 -4.1667e-10 7.1976e-02 -5.1256e-03 - 1 transp 5 0.36 120960 7 6.21611 9.4187 9.6791e-03 1.3088e-02 4.8963e-02 1.5464e-07 3.0738e-02 1.0698e-02 5.3801e-02 8.7241e-04 5.2893e-06 1.1704e-04 3.8629e-04 1.6098e-02 1.4604e-02 9.2073e-06 1.9547e-03 2.4028e-04 9.7000e-01 3.5985e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4673e-12 7.6954e-02 3.8280e-04 - 1 transp 6 0.44 120960 7 6.26823 9.31214 9.6790e-03 1.1766e-02 4.7479e-02 1.3923e-07 3.0661e-02 1.0698e-02 5.0186e-02 1.0548e-03 4.4619e-06 1.1875e-04 2.8588e-04 1.6098e-02 1.3808e-02 8.8884e-06 1.9498e-03 2.4473e-04 9.7000e-01 4.6663e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.4551e-12 7.6356e-02 4.9618e-04 - 1 transp 7 0.52 120960 7 6.3262 9.20369 9.6789e-03 1.0364e-02 4.4565e-02 1.2400e-07 2.8949e-02 1.0698e-02 4.6103e-02 1.0316e-03 3.7202e-06 1.0996e-04 2.2323e-04 1.6097e-02 1.2924e-02 8.2021e-06 1.9526e-03 2.4162e-04 9.7000e-01 3.4485e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.0683e-12 7.5729e-02 3.7233e-04 - 1 transp 8 0.6 120960 7 6.37305 9.12753 9.6787e-03 9.3260e-03 4.1141e-02 1.1298e-07 2.5951e-02 1.0698e-02 4.2365e-02 8.8727e-04 3.1684e-06 9.7310e-05 1.8087e-04 1.6097e-02 1.2339e-02 7.8231e-06 1.9526e-03 2.4140e-04 9.7000e-01 1.5368e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.4705e-12 7.5320e-02 1.7403e-04 - 1 transp 9 0.68 120960 7 6.40155 9.09028 9.6785e-03 8.7434e-03 3.8435e-02 1.0677e-07 2.3124e-02 1.0697e-02 3.9693e-02 7.6681e-04 2.8320e-06 8.7779e-05 1.5662e-04 1.6097e-02 1.2097e-02 7.7051e-06 1.9516e-03 2.4237e-04 9.7000e-01 4.6011e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.8130e-13 7.5144e-02 5.7700e-05 - 1 transp 10 0.76 120960 7 6.41425 9.07715 9.6785e-03 8.5072e-03 3.7067e-02 1.0411e-07 2.1560e-02 1.0697e-02 3.8323e-02 7.1127e-04 2.6765e-06 8.3196e-05 1.4603e-04 1.6097e-02 1.2032e-02 7.6794e-06 1.9511e-03 2.4280e-04 9.7000e-01 1.1590e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.1190e-13 7.5091e-02 1.6812e-05 + 1 transp 5 0.36 120960 7 6.21611 9.4187 9.6791e-03 1.3088e-02 4.8963e-02 1.5464e-07 3.0738e-02 1.0698e-02 5.3801e-02 8.7241e-04 5.2893e-06 1.1704e-04 3.8629e-04 1.6098e-02 1.4604e-02 9.2073e-06 1.9547e-03 2.4028e-04 9.7000e-01 3.5985e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.4451e-12 7.6954e-02 3.8280e-04 + 1 transp 6 0.44 120960 7 6.26823 9.31214 9.6790e-03 1.1766e-02 4.7479e-02 1.3923e-07 3.0661e-02 1.0698e-02 5.0186e-02 1.0548e-03 4.4619e-06 1.1875e-04 2.8588e-04 1.6098e-02 1.3808e-02 8.8884e-06 1.9498e-03 2.4473e-04 9.7000e-01 4.6663e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.4731e-12 7.6356e-02 4.9618e-04 + 1 transp 7 0.52 120960 7 6.3262 9.20369 9.6789e-03 1.0364e-02 4.4565e-02 1.2400e-07 2.8949e-02 1.0698e-02 4.6103e-02 1.0316e-03 3.7202e-06 1.0996e-04 2.2323e-04 1.6097e-02 1.2924e-02 8.2021e-06 1.9526e-03 2.4162e-04 9.7000e-01 3.4485e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.0781e-12 7.5729e-02 3.7233e-04 + 1 transp 8 0.6 120960 7 6.37305 9.12753 9.6787e-03 9.3260e-03 4.1141e-02 1.1298e-07 2.5951e-02 1.0698e-02 4.2365e-02 8.8727e-04 3.1684e-06 9.7310e-05 1.8087e-04 1.6097e-02 1.2339e-02 7.8231e-06 1.9526e-03 2.4140e-04 9.7000e-01 1.5368e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.4822e-12 7.5320e-02 1.7403e-04 + 1 transp 9 0.68 120960 7 6.40155 9.09028 9.6785e-03 8.7434e-03 3.8435e-02 1.0677e-07 2.3124e-02 1.0697e-02 3.9693e-02 7.6681e-04 2.8320e-06 8.7779e-05 1.5662e-04 1.6097e-02 1.2097e-02 7.7051e-06 1.9516e-03 2.4237e-04 9.7000e-01 4.6011e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.9773e-13 7.5144e-02 5.7700e-05 + 1 transp 10 0.76 120960 7 6.41425 9.07715 9.6785e-03 8.5072e-03 3.7067e-02 1.0411e-07 2.1560e-02 1.0697e-02 3.8323e-02 7.1127e-04 2.6765e-06 8.3196e-05 1.4603e-04 1.6097e-02 1.2032e-02 7.6794e-06 1.9511e-03 2.4280e-04 9.7000e-01 1.1590e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.2014e-13 7.5091e-02 1.6812e-05 1 transp 1 0.04 138240 8 4.76015 5.65348 9.6439e-03 1.0875e-02 1.0042e-01 5.3141e-02 1.3826e-03 1.0659e-02 4.1578e-03 2.0362e-04 3.3924e-03 6.1356e-05 3.6042e-04 1.6039e-02 1.5658e-02 1.2840e-05 5.9828e-03 9.5658e-04 1.0605e+00 1.7827e-05 7.7896e-02 9.0115e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 138240 8 4.87281 5.333 9.6446e-03 1.0908e-02 9.8913e-02 5.0825e-02 2.6993e-03 1.0660e-02 5.0920e-03 2.1745e-04 2.6014e-03 6.6602e-05 5.9675e-04 1.6041e-02 1.4589e-02 1.0041e-05 7.1403e-03 9.5823e-04 1.0598e+00 6.3932e-06 7.0307e-02 2.7047e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 138240 8 5.52896 3.51802 9.6529e-03 1.1244e-02 8.6888e-02 3.5785e-02 1.0894e-02 1.0669e-02 1.7098e-02 2.9214e-04 1.0177e-04 7.7377e-05 9.1870e-04 1.6054e-02 1.7477e-02 1.8360e-05 3.9277e-03 8.0455e-04 1.0599e+00 1.1313e-05 7.1151e-02 3.6339e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 138240 8 6.1851 9.48666 9.6787e-03 1.4099e-02 4.9870e-02 1.6471e-07 3.0013e-02 1.0698e-02 5.5484e-02 4.8766e-04 6.9466e-06 1.0323e-04 1.0292e-03 1.6097e-02 1.4151e-02 5.2129e-06 2.1960e-03 1.5774e-04 9.8568e-01 1.5680e-02 3.8874e-02 3.4251e-02 0.0000e+00 0.0000e+00 3.7158e-02 -7.8417e-03 3.4726e-02 -3.7250e-02 - 1 transp 5 0.36 138240 8 6.19645 9.45995 9.6788e-03 1.3737e-02 4.9638e-02 1.6096e-07 3.0552e-02 1.0698e-02 5.4825e-02 7.2106e-04 5.7253e-06 1.1455e-04 5.1151e-04 1.6097e-02 1.4767e-02 8.3640e-06 1.9770e-03 2.1834e-04 9.7000e-01 1.2825e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.0837e-12 7.7106e-02 1.5158e-04 - 1 transp 6 0.44 138240 8 6.23129 9.38587 9.6791e-03 1.2652e-02 4.8663e-02 1.4999e-07 3.1032e-02 1.0698e-02 5.2997e-02 9.6801e-04 5.0365e-06 1.2108e-04 3.4302e-04 1.6098e-02 1.4379e-02 9.2707e-06 1.9497e-03 2.4511e-04 9.7000e-01 3.9113e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.0635e-12 7.6770e-02 4.1345e-04 - 1 transp 7 0.52 138240 8 6.28244 9.28256 9.6791e-03 1.1334e-02 4.6955e-02 1.3535e-07 3.0768e-02 1.0698e-02 4.9678e-02 1.0924e-03 4.3055e-06 1.1961e-04 2.6930e-04 1.6098e-02 1.3556e-02 8.6862e-06 1.9507e-03 2.4372e-04 9.7000e-01 4.1822e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.8617e-12 7.6171e-02 4.4219e-04 - 1 transp 8 0.6 138240 8 6.33449 9.18668 9.6789e-03 1.0131e-02 4.4232e-02 1.2201e-07 2.8972e-02 1.0698e-02 4.5867e-02 1.0309e-03 3.6509e-06 1.0959e-04 2.1675e-04 1.6098e-02 1.2772e-02 8.0838e-06 1.9532e-03 2.4104e-04 9.7000e-01 2.8231e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.2068e-12 7.5625e-02 3.0505e-04 - 1 transp 9 0.68 138240 8 6.37517 9.12245 9.6787e-03 9.2594e-03 4.1108e-02 1.1253e-07 2.6067e-02 1.0698e-02 4.2420e-02 8.8590e-04 3.1613e-06 9.7369e-05 1.7985e-04 1.6097e-02 1.2290e-02 7.7917e-06 1.9527e-03 2.4138e-04 9.7000e-01 1.2655e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.1223e-12 7.5289e-02 1.4473e-04 - 1 transp 10 0.76 138240 8 6.3986 9.09217 9.6786e-03 8.7868e-03 3.8846e-02 1.0741e-07 2.3661e-02 1.0697e-02 4.0155e-02 7.8183e-04 2.8787e-06 8.9161e-05 1.5957e-04 1.6097e-02 1.2098e-02 7.7048e-06 1.9516e-03 2.4234e-04 9.7000e-01 4.5472e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.8395e-13 7.5149e-02 5.8354e-05 + 1 transp 5 0.36 138240 8 6.19645 9.45995 9.6788e-03 1.3737e-02 4.9638e-02 1.6096e-07 3.0552e-02 1.0698e-02 5.4825e-02 7.2106e-04 5.7253e-06 1.1455e-04 5.1151e-04 1.6097e-02 1.4767e-02 8.3640e-06 1.9770e-03 2.1834e-04 9.7000e-01 1.2825e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.0822e-12 7.7106e-02 1.5158e-04 + 1 transp 6 0.44 138240 8 6.23129 9.38587 9.6791e-03 1.2652e-02 4.8663e-02 1.4999e-07 3.1032e-02 1.0698e-02 5.2997e-02 9.6801e-04 5.0365e-06 1.2108e-04 3.4302e-04 1.6098e-02 1.4379e-02 9.2707e-06 1.9497e-03 2.4511e-04 9.7000e-01 3.9113e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.0610e-12 7.6770e-02 4.1345e-04 + 1 transp 7 0.52 138240 8 6.28244 9.28256 9.6791e-03 1.1334e-02 4.6955e-02 1.3535e-07 3.0768e-02 1.0698e-02 4.9678e-02 1.0924e-03 4.3055e-06 1.1961e-04 2.6930e-04 1.6098e-02 1.3556e-02 8.6862e-06 1.9507e-03 2.4372e-04 9.7000e-01 4.1822e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.8762e-12 7.6171e-02 4.4219e-04 + 1 transp 8 0.6 138240 8 6.33449 9.18668 9.6789e-03 1.0131e-02 4.4232e-02 1.2201e-07 2.8972e-02 1.0698e-02 4.5867e-02 1.0309e-03 3.6509e-06 1.0959e-04 2.1675e-04 1.6098e-02 1.2772e-02 8.0838e-06 1.9532e-03 2.4104e-04 9.7000e-01 2.8231e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.2148e-12 7.5625e-02 3.0505e-04 + 1 transp 9 0.68 138240 8 6.37517 9.12245 9.6787e-03 9.2594e-03 4.1108e-02 1.1253e-07 2.6067e-02 1.0698e-02 4.2420e-02 8.8590e-04 3.1613e-06 9.7369e-05 1.7985e-04 1.6097e-02 1.2290e-02 7.7917e-06 1.9527e-03 2.4138e-04 9.7000e-01 1.2655e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.1043e-12 7.5289e-02 1.4473e-04 + 1 transp 10 0.76 138240 8 6.3986 9.09217 9.6786e-03 8.7868e-03 3.8846e-02 1.0741e-07 2.3661e-02 1.0697e-02 4.0155e-02 7.8183e-04 2.8787e-06 8.9161e-05 1.5957e-04 1.6097e-02 1.2098e-02 7.7048e-06 1.9516e-03 2.4234e-04 9.7000e-01 4.5472e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.8881e-13 7.5149e-02 5.8354e-05 1 transp 1 0.04 155520 9 4.70328 5.82374 9.6439e-03 1.0875e-02 1.0050e-01 5.3172e-02 1.3649e-03 1.0659e-02 4.1450e-03 2.0317e-04 3.4401e-03 6.1026e-05 3.4906e-04 1.6039e-02 1.6607e-02 1.6345e-05 4.9654e-03 9.5292e-04 1.0605e+00 1.1901e-05 7.8797e-02 9.0039e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 155520 9 4.84007 5.41712 9.6440e-03 1.0883e-02 9.9937e-02 5.2676e-02 1.6552e-03 1.0659e-02 4.3421e-03 2.0755e-04 2.9987e-03 6.3673e-05 4.5482e-04 1.6039e-02 1.4622e-02 1.0123e-05 7.1038e-03 9.5896e-04 1.0598e+00 1.1082e-05 7.0309e-02 1.5951e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 155520 9 5.41767 3.79045 9.6504e-03 1.1143e-02 9.0105e-02 4.1069e-02 7.8559e-03 1.0666e-02 1.4295e-02 2.4902e-04 2.5360e-04 7.1437e-05 7.5243e-04 1.6050e-02 1.5330e-02 1.1264e-05 6.3803e-03 9.1411e-04 1.0599e+00 3.7300e-05 7.1425e-02 2.7435e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 155520 9 5.92976 9.97569 9.6731e-03 1.2681e-02 6.0689e-02 2.8173e-07 3.0181e-02 1.0691e-02 4.3253e-02 4.2406e-04 1.2963e-05 9.5228e-05 1.6044e-03 1.6088e-02 1.6608e-02 8.8215e-06 2.4230e-03 2.5094e-04 1.0316e+00 4.5956e-02 7.1817e-02 3.2943e-02 0.0000e+00 0.0000e+00 1.4162e-02 -2.2996e-02 0.0000e+00 -3.4726e-02 - 1 transp 5 0.36 155520 9 6.18481 9.48573 9.6788e-03 1.4096e-02 4.9869e-02 1.6481e-07 3.0240e-02 1.0698e-02 5.5520e-02 5.8272e-04 6.1238e-06 1.0888e-04 6.9812e-04 1.6097e-02 1.4710e-02 7.0884e-06 2.0080e-03 1.8866e-04 9.7000e-01 7.1376e-09 6.7727e-04 6.7727e-04 0.0000e+00 0.0000e+00 4.5000e-02 -9.8645e-12 7.6190e-02 -9.1552e-04 - 1 transp 6 0.44 155520 9 6.20735 9.43598 9.6789e-03 1.3367e-02 4.9362e-02 1.5744e-07 3.0841e-02 1.0698e-02 5.4363e-02 8.2763e-04 5.4559e-06 1.1949e-04 4.1560e-04 1.6098e-02 1.4708e-02 9.1204e-06 1.9582e-03 2.3676e-04 9.7000e-01 2.3448e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7523e-12 7.7025e-02 2.5507e-04 - 1 transp 7 0.52 155520 9 6.24585 9.3546 9.6791e-03 1.2226e-02 4.8324e-02 1.4568e-07 3.1294e-02 1.0698e-02 5.2320e-02 1.0448e-03 4.8310e-06 1.2371e-04 3.1574e-04 1.6098e-02 1.4135e-02 9.1542e-06 1.9486e-03 2.4606e-04 9.7000e-01 3.9155e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.2012e-12 7.6583e-02 4.1208e-04 - 1 transp 8 0.6 155520 9 6.29473 9.257 9.6791e-03 1.0986e-02 4.6532e-02 1.3210e-07 3.0853e-02 1.0698e-02 4.9208e-02 1.1152e-03 4.1764e-06 1.1980e-04 2.5707e-04 1.6098e-02 1.3333e-02 8.4943e-06 1.9519e-03 2.4248e-04 9.7000e-01 3.6779e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.2278e-12 7.6013e-02 3.8786e-04 - 1 transp 9 0.68 155520 9 6.34126 9.17284 9.6790e-03 9.9424e-03 4.3948e-02 1.2041e-07 2.8982e-02 1.0698e-02 4.5684e-02 1.0260e-03 3.5959e-06 1.0909e-04 2.1164e-04 1.6098e-02 1.2649e-02 7.9923e-06 1.9535e-03 2.4067e-04 9.7000e-01 2.3328e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.5458e-12 7.5542e-02 2.5265e-04 - 1 transp 10 0.76 155520 9 6.37309 9.12232 9.6788e-03 9.2770e-03 4.1546e-02 1.1304e-07 2.6718e-02 1.0698e-02 4.2954e-02 9.0379e-04 3.2115e-06 9.9012e-05 1.8284e-04 1.6097e-02 1.2271e-02 7.7769e-06 1.9527e-03 2.4130e-04 9.7000e-01 1.1498e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.8536e-12 7.5282e-02 1.3294e-04 + 1 transp 5 0.36 155520 9 6.18481 9.48573 9.6788e-03 1.4096e-02 4.9869e-02 1.6481e-07 3.0240e-02 1.0698e-02 5.5520e-02 5.8272e-04 6.1238e-06 1.0888e-04 6.9812e-04 1.6097e-02 1.4710e-02 7.0884e-06 2.0080e-03 1.8866e-04 9.7000e-01 7.1376e-09 6.7727e-04 6.7727e-04 0.0000e+00 0.0000e+00 4.5000e-02 -9.8800e-12 7.6190e-02 -9.1552e-04 + 1 transp 6 0.44 155520 9 6.20735 9.43598 9.6789e-03 1.3367e-02 4.9362e-02 1.5744e-07 3.0841e-02 1.0698e-02 5.4363e-02 8.2763e-04 5.4559e-06 1.1949e-04 4.1560e-04 1.6098e-02 1.4708e-02 9.1204e-06 1.9582e-03 2.3676e-04 9.7000e-01 2.3448e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7627e-12 7.7025e-02 2.5507e-04 + 1 transp 7 0.52 155520 9 6.24585 9.3546 9.6791e-03 1.2226e-02 4.8324e-02 1.4568e-07 3.1294e-02 1.0698e-02 5.2320e-02 1.0448e-03 4.8310e-06 1.2371e-04 3.1574e-04 1.6098e-02 1.4135e-02 9.1542e-06 1.9486e-03 2.4606e-04 9.7000e-01 3.9155e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.2060e-12 7.6583e-02 4.1208e-04 + 1 transp 8 0.6 155520 9 6.29473 9.257 9.6791e-03 1.0986e-02 4.6532e-02 1.3210e-07 3.0853e-02 1.0698e-02 4.9208e-02 1.1152e-03 4.1764e-06 1.1980e-04 2.5707e-04 1.6098e-02 1.3333e-02 8.4943e-06 1.9519e-03 2.4248e-04 9.7000e-01 3.6779e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.1978e-12 7.6013e-02 3.8786e-04 + 1 transp 9 0.68 155520 9 6.34126 9.17284 9.6790e-03 9.9424e-03 4.3948e-02 1.2041e-07 2.8982e-02 1.0698e-02 4.5684e-02 1.0260e-03 3.5959e-06 1.0909e-04 2.1164e-04 1.6098e-02 1.2649e-02 7.9923e-06 1.9535e-03 2.4067e-04 9.7000e-01 2.3328e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.5525e-12 7.5542e-02 2.5265e-04 + 1 transp 10 0.76 155520 9 6.37309 9.12232 9.6788e-03 9.2770e-03 4.1546e-02 1.1304e-07 2.6718e-02 1.0698e-02 4.2954e-02 9.0379e-04 3.2115e-06 9.9012e-05 1.8284e-04 1.6097e-02 1.2271e-02 7.7769e-06 1.9527e-03 2.4130e-04 9.7000e-01 1.1498e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.8563e-12 7.5282e-02 1.3294e-04 1 transp 1 0.04 172800 10 4.64488 5.99873 9.6439e-03 1.0875e-02 1.0052e-01 5.3182e-02 1.3613e-03 1.0659e-02 4.1424e-03 2.0307e-04 3.4250e-03 6.0950e-05 3.4636e-04 1.6039e-02 1.7516e-02 2.1315e-05 3.9941e-03 9.4768e-04 1.0605e+00 7.0380e-06 7.9696e-02 8.9957e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 172800 10 4.81978 5.47518 9.6439e-03 1.0877e-02 1.0024e-01 5.3065e-02 1.4270e-03 1.0659e-02 4.1839e-03 2.0452e-04 3.2313e-03 6.2102e-05 3.8760e-04 1.6039e-02 1.4701e-02 1.0306e-05 7.0164e-03 9.5912e-04 1.0598e+00 1.3514e-05 7.0311e-02 1.9808e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 172800 10 4.82927 5.515 9.6466e-03 1.0963e-02 9.6916e-02 4.4773e-02 5.9012e-03 1.0662e-02 6.3011e-03 2.2780e-04 2.9449e-03 7.1936e-05 9.4766e-04 1.6044e-02 1.4880e-02 1.0720e-05 6.8117e-03 9.5689e-04 1.0602e+00 2.5138e-04 7.1434e-02 9.2235e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 172800 10 5.07142 5.15927 9.6582e-03 1.1415e-02 8.2342e-02 1.8250e-02 2.0175e-02 1.0675e-02 2.0542e-02 3.1885e-04 1.4299e-04 9.0633e-05 1.8083e-03 1.6063e-02 2.0011e-02 6.1381e-05 1.3050e-03 7.8050e-04 1.0594e+00 2.7766e-02 7.2024e-02 2.0689e-04 0.0000e+00 0.0000e+00 0.0000e+00 -1.4162e-02 0.0000e+00 0.0000e+00 1 transp 5 0.36 172800 10 6.18892 9.47742 9.6786e-03 1.4072e-02 5.0077e-02 1.6347e-07 3.0216e-02 1.0697e-02 5.5064e-02 4.8603e-04 8.2553e-06 1.0501e-04 1.0879e-03 1.6097e-02 1.3747e-02 4.7662e-06 2.5841e-03 1.7470e-04 9.7281e-01 2.8138e-03 1.8713e-02 1.8036e-02 0.0000e+00 0.0000e+00 4.3718e-02 -1.2821e-03 5.6209e-02 -1.9982e-02 - 1 transp 6 0.44 172800 10 6.19237 9.46835 9.6788e-03 1.3842e-02 4.9714e-02 1.6230e-07 3.0547e-02 1.0698e-02 5.5161e-02 6.8479e-04 5.8101e-06 1.1494e-04 5.2595e-04 1.6097e-02 1.4821e-02 8.3592e-06 1.9778e-03 2.1750e-04 9.7000e-01 8.9827e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.2624e-13 7.7133e-02 1.0799e-04 - 1 transp 7 0.52 172800 10 6.21888 9.41064 9.6790e-03 1.2992e-02 4.9111e-02 1.5382e-07 3.1146e-02 1.0698e-02 5.3893e-02 9.2594e-04 5.2462e-06 1.2337e-04 3.6584e-04 1.6098e-02 1.4560e-02 9.3766e-06 1.9500e-03 2.4485e-04 9.7000e-01 2.9445e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.7357e-12 7.6896e-02 3.1334e-04 - 1 transp 8 0.6 172800 10 6.25933 9.32577 9.6792e-03 1.1837e-02 4.7984e-02 1.4181e-07 3.1517e-02 1.0698e-02 5.1737e-02 1.1035e-03 4.6611e-06 1.2531e-04 2.9720e-04 1.6098e-02 1.3895e-02 8.9632e-06 1.9494e-03 2.4519e-04 9.7000e-01 3.7579e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.1181e-12 7.6407e-02 3.9398e-04 - 1 transp 9 0.68 172800 10 6.30524 9.23519 9.6792e-03 1.0700e-02 4.6175e-02 1.2939e-07 3.0917e-02 1.0698e-02 4.8800e-02 1.1268e-03 4.0701e-06 1.1954e-04 2.4753e-04 1.6098e-02 1.3140e-02 8.3297e-06 1.9530e-03 2.4139e-04 9.7000e-01 3.2014e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.5627e-12 7.5879e-02 3.3729e-04 - 1 transp 10 0.76 172800 10 6.34162 9.16846 9.6791e-03 9.8970e-03 4.4261e-02 1.2038e-07 2.9595e-02 1.0698e-02 4.6136e-02 1.0470e-03 3.6292e-06 1.1077e-04 2.1311e-04 1.6098e-02 1.2593e-02 7.9437e-06 1.9539e-03 2.4032e-04 9.7000e-01 2.0940e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.0350e-12 7.5510e-02 2.2714e-04 + 1 transp 6 0.44 172800 10 6.19237 9.46835 9.6788e-03 1.3842e-02 4.9714e-02 1.6230e-07 3.0547e-02 1.0698e-02 5.5161e-02 6.8479e-04 5.8101e-06 1.1494e-04 5.2595e-04 1.6097e-02 1.4821e-02 8.3592e-06 1.9778e-03 2.1750e-04 9.7000e-01 8.9827e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -6.0220e-13 7.7133e-02 1.0799e-04 + 1 transp 7 0.52 172800 10 6.21888 9.41064 9.6790e-03 1.2992e-02 4.9111e-02 1.5382e-07 3.1146e-02 1.0698e-02 5.3893e-02 9.2594e-04 5.2462e-06 1.2337e-04 3.6584e-04 1.6098e-02 1.4560e-02 9.3766e-06 1.9500e-03 2.4485e-04 9.7000e-01 2.9445e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.7272e-12 7.6896e-02 3.1334e-04 + 1 transp 8 0.6 172800 10 6.25933 9.32577 9.6792e-03 1.1837e-02 4.7984e-02 1.4181e-07 3.1517e-02 1.0698e-02 5.1737e-02 1.1035e-03 4.6611e-06 1.2531e-04 2.9720e-04 1.6098e-02 1.3895e-02 8.9632e-06 1.9494e-03 2.4519e-04 9.7000e-01 3.7579e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -5.1068e-12 7.6407e-02 3.9398e-04 + 1 transp 9 0.68 172800 10 6.30524 9.23519 9.6792e-03 1.0700e-02 4.6175e-02 1.2939e-07 3.0917e-02 1.0698e-02 4.8800e-02 1.1268e-03 4.0701e-06 1.1954e-04 2.4753e-04 1.6098e-02 1.3140e-02 8.3297e-06 1.9530e-03 2.4139e-04 9.7000e-01 3.2014e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.5664e-12 7.5879e-02 3.3729e-04 + 1 transp 10 0.76 172800 10 6.34162 9.16846 9.6791e-03 9.8970e-03 4.4261e-02 1.2038e-07 2.9595e-02 1.0698e-02 4.6136e-02 1.0470e-03 3.6292e-06 1.1077e-04 2.1311e-04 1.6098e-02 1.2593e-02 7.9437e-06 1.9539e-03 2.4032e-04 9.7000e-01 2.0940e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.0171e-12 7.5510e-02 2.2714e-04 1 transp 1 0.04 190080 11 4.57914 6.19577 9.6439e-03 1.0876e-02 1.0053e-01 5.3187e-02 1.3605e-03 1.0659e-02 4.1419e-03 2.0305e-04 3.3919e-03 6.0931e-05 3.4565e-04 1.6039e-02 1.8383e-02 2.8831e-05 3.0732e-03 9.3980e-04 1.0605e+00 2.7435e-06 8.0595e-02 8.9861e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 190080 11 4.79786 5.54051 9.6439e-03 1.0874e-02 1.0045e-01 5.3148e-02 1.3745e-03 1.0659e-02 4.1506e-03 2.0337e-04 3.4708e-03 6.1193e-05 3.5562e-04 1.6039e-02 1.4828e-02 1.0603e-05 6.8780e-03 9.5903e-04 1.0598e+00 1.8103e-05 7.0314e-02 2.9441e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 190080 11 4.8183 5.49216 9.6444e-03 1.0894e-02 9.9557e-02 5.1421e-02 2.3158e-03 1.0660e-02 4.6006e-03 2.0921e-04 3.0945e-03 6.4298e-05 5.2221e-04 1.6040e-02 1.4915e-02 1.0805e-05 6.7831e-03 9.5813e-04 1.0602e+00 2.7002e-06 7.1436e-02 1.5750e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 190080 11 5.38477 3.92645 9.6519e-03 1.1199e-02 8.8526e-02 3.7458e-02 9.7205e-03 1.0668e-02 1.5856e-02 2.4970e-04 1.4525e-04 7.2746e-05 8.7603e-04 1.6053e-02 1.7654e-02 2.0453e-05 3.8351e-03 8.6636e-04 1.0594e+00 5.0966e-06 7.2409e-02 3.8511e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 190080 11 6.17924 9.50206 9.6789e-03 1.4148e-02 4.9585e-02 1.6664e-07 2.9523e-02 1.0698e-02 5.6185e-02 3.7863e-04 1.0781e-05 9.6271e-05 1.3273e-03 1.6097e-02 1.3322e-02 4.0957e-06 3.1177e-03 1.8689e-04 1.0000e+00 2.7214e-02 6.1009e-02 4.2295e-02 0.0000e+00 0.0000e+00 3.0111e-02 -1.3606e-02 1.0579e-02 -4.5630e-02 - 1 transp 6 0.44 190080 11 6.18658 9.48172 9.6786e-03 1.4084e-02 4.9917e-02 1.6423e-07 3.0287e-02 1.0697e-02 5.5292e-02 5.6289e-04 6.1133e-06 1.1074e-04 7.2257e-04 1.6097e-02 1.4642e-02 6.8659e-06 2.0138e-03 1.8412e-04 9.7000e-01 -1.0029e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 2.0661e-12 7.7050e-02 -8.3034e-05 - 1 transp 7 0.52 190080 11 6.20123 9.44855 9.6788e-03 1.3555e-02 4.9552e-02 1.5942e-07 3.0827e-02 1.0698e-02 5.4745e-02 7.8463e-04 5.5665e-06 1.2012e-04 4.3230e-04 1.6097e-02 1.4794e-02 9.1314e-06 1.9592e-03 2.3579e-04 9.7000e-01 1.6757e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.9097e-12 7.7081e-02 1.8448e-04 - 1 transp 8 0.6 190080 11 6.23097 9.38422 9.6791e-03 1.2615e-02 4.8856e-02 1.5013e-07 3.1448e-02 1.0698e-02 5.3400e-02 1.0122e-03 5.0655e-06 1.2633e-04 3.3687e-04 1.6098e-02 1.4364e-02 9.3462e-06 1.9476e-03 2.4709e-04 9.7000e-01 3.1995e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.1288e-12 7.6744e-02 3.3724e-04 - 1 transp 9 0.68 190080 11 6.27146 9.29991 9.6792e-03 1.1494e-02 4.7671e-02 1.3843e-07 3.1709e-02 1.0698e-02 5.1235e-02 1.1467e-03 4.5199e-06 1.2617e-04 2.8356e-04 1.6098e-02 1.3671e-02 8.7602e-06 1.9508e-03 2.4373e-04 9.7000e-01 3.5178e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.8090e-12 7.6247e-02 3.6763e-04 - 1 transp 10 0.76 190080 11 6.30807 9.22662 9.6793e-03 1.0595e-02 4.6339e-02 1.2872e-07 3.1415e-02 1.0698e-02 4.9058e-02 1.1584e-03 4.0736e-06 1.2138e-04 2.4658e-04 1.6098e-02 1.3048e-02 8.2379e-06 1.9538e-03 2.4052e-04 9.7000e-01 2.9443e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.0986e-12 7.5819e-02 3.0964e-04 + 1 transp 6 0.44 190080 11 6.18658 9.48172 9.6786e-03 1.4084e-02 4.9917e-02 1.6423e-07 3.0287e-02 1.0697e-02 5.5292e-02 5.6289e-04 6.1133e-06 1.1074e-04 7.2257e-04 1.6097e-02 1.4642e-02 6.8659e-06 2.0138e-03 1.8412e-04 9.7000e-01 -1.0029e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 2.0684e-12 7.7050e-02 -8.3034e-05 + 1 transp 7 0.52 190080 11 6.20123 9.44855 9.6788e-03 1.3555e-02 4.9552e-02 1.5942e-07 3.0827e-02 1.0698e-02 5.4745e-02 7.8463e-04 5.5665e-06 1.2012e-04 4.3230e-04 1.6097e-02 1.4794e-02 9.1314e-06 1.9592e-03 2.3579e-04 9.7000e-01 1.6757e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.9138e-12 7.7081e-02 1.8448e-04 + 1 transp 8 0.6 190080 11 6.23097 9.38422 9.6791e-03 1.2615e-02 4.8856e-02 1.5013e-07 3.1448e-02 1.0698e-02 5.3400e-02 1.0122e-03 5.0655e-06 1.2633e-04 3.3687e-04 1.6098e-02 1.4364e-02 9.3462e-06 1.9476e-03 2.4709e-04 9.7000e-01 3.1995e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.1378e-12 7.6744e-02 3.3724e-04 + 1 transp 9 0.68 190080 11 6.27146 9.29991 9.6792e-03 1.1494e-02 4.7671e-02 1.3843e-07 3.1709e-02 1.0698e-02 5.1235e-02 1.1467e-03 4.5199e-06 1.2617e-04 2.8356e-04 1.6098e-02 1.3671e-02 8.7602e-06 1.9508e-03 2.4373e-04 9.7000e-01 3.5178e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.8290e-12 7.6247e-02 3.6763e-04 + 1 transp 10 0.76 190080 11 6.30807 9.22662 9.6793e-03 1.0595e-02 4.6339e-02 1.2872e-07 3.1415e-02 1.0698e-02 4.9058e-02 1.1584e-03 4.0736e-06 1.2138e-04 2.4658e-04 1.6098e-02 1.3048e-02 8.2379e-06 1.9538e-03 2.4052e-04 9.7000e-01 2.9443e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.1007e-12 7.5819e-02 3.0964e-04 1 transp 1 0.04 207360 12 4.50024 6.43226 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3604e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3513e-03 6.0924e-05 3.4542e-04 1.6039e-02 1.9198e-02 4.1302e-05 2.2094e-03 9.2683e-04 1.0605e+00 -1.5708e-06 8.1492e-02 8.9741e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 207360 12 4.78605 5.57581 9.6439e-03 1.0873e-02 1.0050e-01 5.3166e-02 1.3633e-03 1.0659e-02 4.1437e-03 2.0312e-04 3.5219e-03 6.0990e-05 3.4796e-04 1.6039e-02 1.5000e-02 1.1022e-05 6.6913e-03 9.5863e-04 1.0598e+00 2.1011e-05 7.0318e-02 3.7783e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 207360 12 4.81099 5.50349 9.6439e-03 1.0879e-02 1.0014e-01 5.2805e-02 1.5666e-03 1.0659e-02 4.2392e-03 2.0505e-04 3.2003e-03 6.2470e-05 4.1357e-04 1.6039e-02 1.4920e-02 1.0819e-05 6.7791e-03 9.5848e-04 1.0602e+00 1.6482e-06 7.1436e-02 3.9759e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 207360 12 4.87634 5.40375 9.6482e-03 1.1033e-02 9.4401e-02 4.1462e-02 7.8271e-03 1.0664e-02 8.8963e-03 2.4238e-04 1.6237e-03 7.3700e-05 1.1780e-03 1.6047e-02 1.6443e-02 1.5545e-05 5.1381e-03 9.4717e-04 1.0594e+00 -5.5250e-06 7.2441e-02 3.2392e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 207360 12 5.23296 11.343 9.6658e-03 1.1762e-02 7.4176e-02 1.3693e-06 2.9993e-02 1.0683e-02 2.8055e-02 3.5522e-04 1.6999e-04 9.8620e-05 2.7499e-03 1.6076e-02 1.8453e-02 2.5821e-05 2.8572e-03 7.7955e-04 1.0478e+00 4.7750e-02 7.1370e-02 1.0361e-02 0.0000e+00 0.0000e+00 6.2228e-03 -2.3889e-02 0.0000e+00 -1.0579e-02 - 1 transp 6 0.44 207360 12 6.18564 9.48557 9.6786e-03 1.4099e-02 4.9863e-02 1.6453e-07 2.9999e-02 1.0697e-02 5.5395e-02 4.6006e-04 6.5293e-06 1.0591e-04 1.0627e-03 1.6097e-02 1.4179e-02 5.1228e-06 2.0748e-03 1.4616e-04 9.7000e-01 1.7993e-07 4.9267e-03 4.9267e-03 0.0000e+00 0.0000e+00 4.5000e-02 -2.5651e-10 7.1672e-02 -5.3774e-03 - 1 transp 7 0.52 207360 12 6.18989 9.47408 9.6787e-03 1.3911e-02 4.9698e-02 1.6311e-07 3.0436e-02 1.0698e-02 5.5294e-02 6.4945e-04 5.8600e-06 1.1598e-04 5.3838e-04 1.6097e-02 1.4855e-02 8.3219e-06 1.9791e-03 2.1619e-04 9.7000e-01 5.2273e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.4240e-13 7.7149e-02 6.7804e-05 - 1 transp 8 0.6 207360 12 6.2106 9.42777 9.6789e-03 1.3248e-02 4.9376e-02 1.5643e-07 3.1108e-02 1.0698e-02 5.4360e-02 8.8050e-04 5.3790e-06 1.2424e-04 3.8123e-04 1.6098e-02 1.4688e-02 9.4642e-06 1.9499e-03 2.4497e-04 9.7000e-01 2.2552e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7892e-12 7.6985e-02 2.4155e-04 - 1 transp 9 0.68 207360 12 6.24271 9.35866 9.6792e-03 1.2262e-02 4.8612e-02 1.4664e-07 3.1726e-02 1.0698e-02 5.2921e-02 1.0850e-03 4.9095e-06 1.2852e-04 3.1797e-04 1.6098e-02 1.4156e-02 9.1917e-06 1.9480e-03 2.4664e-04 9.7000e-01 3.2601e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.3179e-12 7.6588e-02 3.4168e-04 - 1 transp 10 0.76 207360 12 6.27573 9.28916 9.6793e-03 1.1355e-02 4.7728e-02 1.3729e-07 3.2080e-02 1.0698e-02 5.1307e-02 1.1936e-03 4.4955e-06 1.2838e-04 2.8005e-04 1.6098e-02 1.3564e-02 8.6431e-06 1.9520e-03 2.4252e-04 9.7000e-01 3.3660e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.5829e-12 7.6170e-02 3.5051e-04 + 1 transp 6 0.44 207360 12 6.18564 9.48557 9.6786e-03 1.4099e-02 4.9863e-02 1.6453e-07 2.9999e-02 1.0697e-02 5.5395e-02 4.6006e-04 6.5293e-06 1.0591e-04 1.0627e-03 1.6097e-02 1.4179e-02 5.1228e-06 2.0748e-03 1.4616e-04 9.7000e-01 1.7993e-07 4.9267e-03 4.9267e-03 0.0000e+00 0.0000e+00 4.5000e-02 -2.5652e-10 7.1672e-02 -5.3774e-03 + 1 transp 7 0.52 207360 12 6.18989 9.47408 9.6787e-03 1.3911e-02 4.9698e-02 1.6311e-07 3.0436e-02 1.0698e-02 5.5294e-02 6.4945e-04 5.8600e-06 1.1598e-04 5.3838e-04 1.6097e-02 1.4855e-02 8.3219e-06 1.9791e-03 2.1619e-04 9.7000e-01 5.2273e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.6347e-13 7.7149e-02 6.7804e-05 + 1 transp 8 0.6 207360 12 6.2106 9.42777 9.6789e-03 1.3248e-02 4.9376e-02 1.5643e-07 3.1108e-02 1.0698e-02 5.4360e-02 8.8050e-04 5.3790e-06 1.2424e-04 3.8123e-04 1.6098e-02 1.4688e-02 9.4642e-06 1.9499e-03 2.4497e-04 9.7000e-01 2.2552e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.7814e-12 7.6985e-02 2.4155e-04 + 1 transp 9 0.68 207360 12 6.24271 9.35866 9.6792e-03 1.2262e-02 4.8612e-02 1.4664e-07 3.1726e-02 1.0698e-02 5.2921e-02 1.0850e-03 4.9095e-06 1.2852e-04 3.1797e-04 1.6098e-02 1.4156e-02 9.1917e-06 1.9480e-03 2.4664e-04 9.7000e-01 3.2601e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.3066e-12 7.6588e-02 3.4168e-04 + 1 transp 10 0.76 207360 12 6.27573 9.28916 9.6793e-03 1.1355e-02 4.7728e-02 1.3729e-07 3.2080e-02 1.0698e-02 5.1307e-02 1.1936e-03 4.4955e-06 1.2838e-04 2.8005e-04 1.6098e-02 1.3564e-02 8.6431e-06 1.9520e-03 2.4252e-04 9.7000e-01 3.3660e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.5904e-12 7.6170e-02 3.5051e-04 1 transp 1 0.04 224640 13 4.39868 6.73674 9.6438e-03 1.0878e-02 1.0054e-01 5.3196e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2999e-03 6.0921e-05 3.4535e-04 1.6039e-02 1.9946e-02 6.5063e-05 1.4187e-03 9.0233e-04 1.0605e+00 -7.1701e-06 8.2388e-02 8.9571e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 224640 13 4.77502 5.60883 9.6439e-03 1.0873e-02 1.0051e-01 5.3171e-02 1.3610e-03 1.0659e-02 4.1422e-03 2.0306e-04 3.5267e-03 6.0942e-05 3.4609e-04 1.6039e-02 1.5212e-02 1.1565e-05 6.4628e-03 9.5806e-04 1.0599e+00 2.3939e-05 7.0322e-02 4.7767e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 224640 13 4.79542 5.54819 9.6439e-03 1.0874e-02 1.0041e-01 5.3094e-02 1.4040e-03 1.0659e-02 4.1625e-03 2.0352e-04 3.4330e-03 6.1316e-05 3.6332e-04 1.6039e-02 1.4925e-02 1.0835e-05 6.7731e-03 9.5874e-04 1.0602e+00 2.5270e-06 7.1436e-02 3.8376e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 224640 13 4.69466 5.8901 9.6455e-03 1.0917e-02 9.8796e-02 4.8114e-02 4.0437e-03 1.0661e-02 5.1553e-03 2.1278e-04 3.6951e-03 6.5173e-05 6.1503e-04 1.6042e-02 1.6464e-02 1.5752e-05 5.1092e-03 9.5315e-04 1.0595e+00 9.6905e-05 7.2447e-02 5.5439e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 224640 13 5.01066 5.16141 9.6544e-03 1.1267e-02 8.6435e-02 2.7991e-02 1.4779e-02 1.0671e-02 1.7058e-02 2.6545e-04 3.9742e-04 7.8306e-05 1.2302e-03 1.6057e-02 1.8808e-02 3.3303e-05 2.6084e-03 9.0054e-04 1.0600e+00 1.2222e-02 7.1686e-02 3.1621e-04 0.0000e+00 0.0000e+00 0.0000e+00 -6.2228e-03 0.0000e+00 0.0000e+00 1 transp 6 0.44 224640 13 6.19193 9.47301 9.6784e-03 1.4057e-02 5.0234e-02 1.6249e-07 2.9959e-02 1.0697e-02 5.4726e-02 3.9433e-04 1.0902e-05 1.0243e-04 1.6218e-03 1.6097e-02 1.2678e-02 3.2913e-06 3.1980e-03 1.6188e-04 9.7593e-01 5.9339e-03 3.7480e-02 3.2553e-02 0.0000e+00 0.0000e+00 4.2088e-02 -2.9123e-03 3.6288e-02 -3.5384e-02 - 1 transp 7 0.52 224640 13 6.18655 9.48226 9.6785e-03 1.4089e-02 4.9858e-02 1.6423e-07 3.0202e-02 1.0697e-02 5.5235e-02 5.3691e-04 6.1149e-06 1.1219e-04 7.3655e-04 1.6097e-02 1.4631e-02 6.7765e-06 2.0139e-03 1.8188e-04 9.7000e-01 -1.0864e-09 7.9539e-05 7.9539e-05 0.0000e+00 0.0000e+00 4.5000e-02 2.2938e-12 7.6999e-02 -1.4931e-04 - 1 transp 8 0.6 224640 13 6.19654 9.45904 9.6788e-03 1.3686e-02 4.9575e-02 1.6093e-07 3.0679e-02 1.0698e-02 5.5013e-02 7.4148e-04 5.6482e-06 1.2081e-04 4.4415e-04 1.6097e-02 1.4869e-02 9.1602e-06 1.9596e-03 2.3539e-04 9.7000e-01 1.2986e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3686e-12 7.7129e-02 1.4400e-04 - 1 transp 9 0.68 224640 13 6.2203 9.40642 9.6790e-03 1.2928e-02 4.9174e-02 1.5341e-07 3.1380e-02 1.0698e-02 5.4005e-02 9.6932e-04 5.2261e-06 1.2757e-04 3.5220e-04 1.6098e-02 1.4538e-02 9.5033e-06 1.9466e-03 2.4811e-04 9.7000e-01 2.6171e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.3491e-12 7.6865e-02 2.7655e-04 - 1 transp 10 0.76 224640 13 6.24725 9.34795 9.6792e-03 1.2117e-02 4.8610e-02 1.4534e-07 3.1987e-02 1.0698e-02 5.2869e-02 1.1427e-03 4.8661e-06 1.3111e-04 3.1147e-04 1.6098e-02 1.4056e-02 9.0947e-06 1.9487e-03 2.4584e-04 9.7000e-01 3.2565e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.3154e-12 7.6509e-02 3.3953e-04 + 1 transp 7 0.52 224640 13 6.18655 9.48226 9.6785e-03 1.4089e-02 4.9858e-02 1.6423e-07 3.0202e-02 1.0697e-02 5.5235e-02 5.3691e-04 6.1149e-06 1.1219e-04 7.3655e-04 1.6097e-02 1.4631e-02 6.7765e-06 2.0139e-03 1.8188e-04 9.7000e-01 -1.0864e-09 7.9539e-05 7.9539e-05 0.0000e+00 0.0000e+00 4.5000e-02 2.2673e-12 7.6999e-02 -1.4931e-04 + 1 transp 8 0.6 224640 13 6.19654 9.45904 9.6788e-03 1.3686e-02 4.9575e-02 1.6093e-07 3.0679e-02 1.0698e-02 5.5013e-02 7.4148e-04 5.6482e-06 1.2081e-04 4.4415e-04 1.6097e-02 1.4869e-02 9.1602e-06 1.9596e-03 2.3539e-04 9.7000e-01 1.2986e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.3701e-12 7.7129e-02 1.4400e-04 + 1 transp 9 0.68 224640 13 6.2203 9.40642 9.6790e-03 1.2928e-02 4.9174e-02 1.5341e-07 3.1380e-02 1.0698e-02 5.4005e-02 9.6932e-04 5.2261e-06 1.2757e-04 3.5220e-04 1.6098e-02 1.4538e-02 9.5033e-06 1.9466e-03 2.4811e-04 9.7000e-01 2.6171e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.3456e-12 7.6865e-02 2.7655e-04 + 1 transp 10 0.76 224640 13 6.24725 9.34795 9.6792e-03 1.2117e-02 4.8610e-02 1.4534e-07 3.1987e-02 1.0698e-02 5.2869e-02 1.1427e-03 4.8661e-06 1.3111e-04 3.1147e-04 1.6098e-02 1.4056e-02 9.0947e-06 1.9487e-03 2.4584e-04 9.7000e-01 3.2565e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -4.3114e-12 7.6509e-02 3.3953e-04 1 transp 1 0.04 241920 14 4.25591 7.16484 9.6438e-03 1.0880e-02 1.0055e-01 5.3205e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2287e-03 6.0921e-05 3.4534e-04 1.6039e-02 2.0585e-02 1.2010e-04 7.4372e-04 8.4609e-04 1.0604e+00 -1.8127e-05 8.3281e-02 8.9286e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 241920 14 4.76223 5.64714 9.6439e-03 1.0873e-02 1.0052e-01 5.3173e-02 1.3605e-03 1.0659e-02 4.1419e-03 2.0305e-04 3.5183e-03 6.0929e-05 3.4557e-04 1.6039e-02 1.5469e-02 1.2277e-05 6.1861e-03 9.5729e-04 1.0599e+00 2.8689e-05 7.0329e-02 6.2097e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 241920 14 4.78889 5.56737 9.6439e-03 1.0873e-02 1.0050e-01 5.3154e-02 1.3695e-03 1.0659e-02 4.1462e-03 2.0315e-04 3.5182e-03 6.1016e-05 3.4973e-04 1.6039e-02 1.4948e-02 1.0893e-05 6.7477e-03 9.5876e-04 1.0602e+00 4.0345e-06 7.1437e-02 5.6989e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 241920 14 4.71803 5.78757 9.6442e-03 1.0884e-02 1.0007e-01 5.2115e-02 1.9272e-03 1.0659e-02 4.3577e-03 2.0541e-04 3.3744e-03 6.2191e-05 4.1987e-04 1.6040e-02 1.6425e-02 1.5571e-05 5.1584e-03 9.5353e-04 1.0595e+00 -8.7523e-06 7.2446e-02 -6.7730e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 241920 14 5.26512 4.26099 9.6509e-03 1.1153e-02 9.0096e-02 3.9453e-02 8.5830e-03 1.0667e-02 1.4640e-02 2.3092e-04 3.3433e-04 6.7816e-05 7.6875e-04 1.6051e-02 1.6282e-02 1.4450e-05 5.3494e-03 9.2565e-04 1.0600e+00 2.2441e-05 7.2003e-02 3.1720e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 241920 14 5.96765 9.90338 9.6736e-03 1.2785e-02 5.9802e-02 2.5973e-07 3.0004e-02 1.0692e-02 4.4108e-02 3.5391e-04 2.2021e-05 9.2244e-05 2.2098e-03 1.6089e-02 1.4589e-02 5.2801e-06 4.0817e-03 2.8806e-04 1.0136e+00 3.7620e-02 7.1803e-02 3.4323e-02 0.0000e+00 0.0000e+00 2.3276e-02 -1.8811e-02 0.0000e+00 -3.6288e-02 - 1 transp 7 0.52 241920 14 6.18555 9.48576 9.6786e-03 1.4099e-02 4.9838e-02 1.6455e-07 2.9996e-02 1.0697e-02 5.5393e-02 4.4892e-04 6.4434e-06 1.0678e-04 1.0367e-03 1.6097e-02 1.4231e-02 5.2376e-06 2.0543e-03 1.4742e-04 9.7000e-01 2.9677e-09 9.3100e-04 8.5146e-04 0.0000e+00 0.0000e+00 4.5000e-02 -4.0614e-12 7.6033e-02 -9.6663e-04 - 1 transp 8 0.6 241920 14 6.18943 9.47527 9.6786e-03 1.3977e-02 4.9766e-02 1.6327e-07 3.0377e-02 1.0697e-02 5.5131e-02 6.1746e-04 5.8652e-06 1.1723e-04 5.5118e-04 1.6097e-02 1.4850e-02 8.2148e-06 1.9815e-03 2.1374e-04 9.7000e-01 -1.6260e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 5.2462e-13 7.7142e-02 1.2395e-05 - 1 transp 9 0.68 241920 14 6.20402 9.44225 9.6788e-03 1.3446e-02 4.9470e-02 1.5852e-07 3.0931e-02 1.0698e-02 5.4686e-02 8.3227e-04 5.4811e-06 1.2482e-04 3.9287e-04 1.6097e-02 1.4799e-02 9.5533e-06 1.9495e-03 2.4538e-04 9.7000e-01 1.8172e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.1933e-12 7.7060e-02 1.9524e-04 - 1 transp 10 0.76 241920 14 6.22421 9.3975 9.6790e-03 1.2794e-02 4.9131e-02 1.5222e-07 3.1550e-02 1.0698e-02 5.3924e-02 1.0283e-03 5.1739e-06 1.3039e-04 3.4062e-04 1.6098e-02 1.4468e-02 9.5001e-06 1.9456e-03 2.4910e-04 9.7000e-01 2.7586e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.6587e-12 7.6798e-02 2.8914e-04 + 1 transp 7 0.52 241920 14 6.18555 9.48576 9.6786e-03 1.4099e-02 4.9838e-02 1.6455e-07 2.9996e-02 1.0697e-02 5.5393e-02 4.4892e-04 6.4434e-06 1.0678e-04 1.0367e-03 1.6097e-02 1.4231e-02 5.2376e-06 2.0543e-03 1.4742e-04 9.7000e-01 2.9677e-09 9.3100e-04 8.5146e-04 0.0000e+00 0.0000e+00 4.5000e-02 -4.0710e-12 7.6033e-02 -9.6663e-04 + 1 transp 8 0.6 241920 14 6.18943 9.47527 9.6786e-03 1.3977e-02 4.9766e-02 1.6327e-07 3.0377e-02 1.0697e-02 5.5131e-02 6.1746e-04 5.8652e-06 1.1723e-04 5.5118e-04 1.6097e-02 1.4850e-02 8.2148e-06 1.9815e-03 2.1374e-04 9.7000e-01 -1.6260e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 5.0247e-13 7.7142e-02 1.2395e-05 + 1 transp 9 0.68 241920 14 6.20402 9.44225 9.6788e-03 1.3446e-02 4.9470e-02 1.5852e-07 3.0931e-02 1.0698e-02 5.4686e-02 8.3227e-04 5.4811e-06 1.2482e-04 3.9287e-04 1.6097e-02 1.4799e-02 9.5533e-06 1.9495e-03 2.4538e-04 9.7000e-01 1.8172e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.1951e-12 7.7060e-02 1.9524e-04 + 1 transp 10 0.76 241920 14 6.22421 9.3975 9.6790e-03 1.2794e-02 4.9131e-02 1.5222e-07 3.1550e-02 1.0698e-02 5.3924e-02 1.0283e-03 5.1739e-06 1.3039e-04 3.4062e-04 1.6098e-02 1.4468e-02 9.5001e-06 1.9456e-03 2.4910e-04 9.7000e-01 2.7586e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.6279e-12 7.6798e-02 2.8914e-04 1 transp 1 0.04 259200 15 4.0558 7.76492 9.6438e-03 1.0884e-02 1.0056e-01 5.3232e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1133e-03 6.0922e-05 3.4536e-04 1.6039e-02 2.1012e-02 2.6009e-04 2.9184e-04 7.0440e-04 1.0604e+00 -5.1593e-05 8.4169e-02 8.8781e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 259200 15 4.74589 5.69609 9.6439e-03 1.0874e-02 1.0052e-01 5.3175e-02 1.3604e-03 1.0659e-02 4.1418e-03 2.0305e-04 3.5023e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.5794e-02 1.3270e-05 5.8368e-03 9.5623e-04 1.0599e+00 4.1924e-05 7.0337e-02 8.7524e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 259200 15 4.78606 5.57579 9.6439e-03 1.0873e-02 1.0051e-01 5.3167e-02 1.3623e-03 1.0659e-02 4.1427e-03 2.0307e-04 3.5341e-03 6.0948e-05 3.4648e-04 1.6039e-02 1.4985e-02 1.0984e-05 6.7076e-03 9.5868e-04 1.0602e+00 5.5322e-06 7.1438e-02 7.6990e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -160,9 +160,9 @@ 1 transp 5 0.36 259200 15 4.6413 6.10692 9.6476e-03 1.0971e-02 9.7023e-02 4.1880e-02 7.3293e-03 1.0663e-02 6.3802e-03 2.2028e-04 4.3744e-03 6.8849e-05 1.0188e-03 1.6046e-02 1.6707e-02 1.6849e-05 4.8400e-03 9.5171e-04 1.0608e+00 7.7412e-04 7.2027e-02 2.3347e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 259200 15 3.47904 10.6533 9.6622e-03 1.1482e-02 8.1696e-02 4.3262e-03 2.7564e-02 1.0679e-02 2.0702e-02 2.8509e-04 3.2118e-03 8.7495e-05 2.3699e-03 1.6070e-02 2.1211e-02 7.9535e-04 2.3442e-05 1.7139e-04 1.0576e+00 4.4017e-02 7.1917e-02 1.1429e-04 0.0000e+00 0.0000e+00 0.0000e+00 -2.3276e-02 0.0000e+00 0.0000e+00 1 transp 7 0.52 259200 15 6.19157 9.47306 9.6785e-03 1.4058e-02 5.0244e-02 1.6261e-07 3.0062e-02 1.0697e-02 5.4803e-02 3.9273e-04 1.0014e-05 1.0143e-04 1.5590e-03 1.6097e-02 1.2888e-02 3.4513e-06 2.9797e-03 1.5558e-04 9.7078e-01 7.7583e-04 1.7821e-02 1.6890e-02 0.0000e+00 0.0000e+00 4.5000e-02 -3.5452e-08 5.7370e-02 -1.8662e-02 - 1 transp 8 0.6 259200 15 6.18555 9.4845 9.6786e-03 1.4096e-02 4.9808e-02 1.6455e-07 3.0176e-02 1.0697e-02 5.5360e-02 5.1684e-04 6.1247e-06 1.1221e-04 7.2819e-04 1.6097e-02 1.4666e-02 6.8705e-06 2.0119e-03 1.8376e-04 9.7000e-01 -8.3390e-10 8.3205e-05 8.3205e-05 0.0000e+00 0.0000e+00 4.5000e-02 1.8706e-12 7.7013e-02 -1.2842e-04 - 1 transp 9 0.68 259200 15 6.19368 9.46553 9.6786e-03 1.3809e-02 4.9651e-02 1.6187e-07 3.0559e-02 1.0697e-02 5.5024e-02 6.9973e-04 5.6875e-06 1.2141e-04 4.5309e-04 1.6097e-02 1.4916e-02 9.1636e-06 1.9602e-03 2.3481e-04 9.7000e-01 8.5916e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.5746e-13 7.7159e-02 9.8432e-05 - 1 transp 10 0.76 259200 15 6.20708 9.43536 9.6788e-03 1.3346e-02 4.9440e-02 1.5755e-07 3.1044e-02 1.0698e-02 5.4570e-02 8.8538e-04 5.4138e-06 1.2762e-04 3.7022e-04 1.6097e-02 1.4769e-02 9.7461e-06 1.9445e-03 2.5020e-04 9.7000e-01 2.0556e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.6797e-12 7.7016e-02 2.1784e-04 + 1 transp 8 0.6 259200 15 6.18555 9.4845 9.6786e-03 1.4096e-02 4.9808e-02 1.6455e-07 3.0176e-02 1.0697e-02 5.5360e-02 5.1684e-04 6.1247e-06 1.1221e-04 7.2819e-04 1.6097e-02 1.4666e-02 6.8705e-06 2.0119e-03 1.8376e-04 9.7000e-01 -8.3390e-10 8.3205e-05 8.3205e-05 0.0000e+00 0.0000e+00 4.5000e-02 1.8444e-12 7.7013e-02 -1.2842e-04 + 1 transp 9 0.68 259200 15 6.19368 9.46553 9.6786e-03 1.3809e-02 4.9651e-02 1.6187e-07 3.0559e-02 1.0697e-02 5.5024e-02 6.9973e-04 5.6875e-06 1.2141e-04 4.5309e-04 1.6097e-02 1.4916e-02 9.1636e-06 1.9602e-03 2.3481e-04 9.7000e-01 8.5916e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -8.4847e-13 7.7159e-02 9.8432e-05 + 1 transp 10 0.76 259200 15 6.20708 9.43536 9.6788e-03 1.3346e-02 4.9440e-02 1.5755e-07 3.1044e-02 1.0698e-02 5.4570e-02 8.8538e-04 5.4138e-06 1.2762e-04 3.7022e-04 1.6097e-02 1.4769e-02 9.7461e-06 1.9445e-03 2.5020e-04 9.7000e-01 2.0556e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -2.6569e-12 7.7016e-02 2.1784e-04 1 transp 1 0.04 276480 16 3.86703 8.33107 9.6438e-03 1.0889e-02 1.0059e-01 5.3303e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0304e-04 2.9382e-03 6.0921e-05 3.4538e-04 1.6039e-02 2.1176e-02 4.6486e-04 1.1652e-04 4.9876e-04 1.0603e+00 -1.4059e-04 8.5050e-02 8.8174e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 276480 16 4.72228 5.76683 9.6439e-03 1.0874e-02 1.0052e-01 5.3177e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4823e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.6239e-02 1.4835e-05 5.3589e-03 9.5455e-04 1.0600e+00 8.4248e-05 7.0351e-02 1.3398e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 276480 16 4.78354 5.58332 9.6439e-03 1.0873e-02 1.0051e-01 5.3170e-02 1.3607e-03 1.0659e-02 4.1420e-03 2.0305e-04 3.5335e-03 6.0933e-05 3.4571e-04 1.6039e-02 1.5036e-02 1.1111e-05 6.6527e-03 9.5855e-04 1.0602e+00 7.3098e-06 7.1439e-02 1.0341e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -170,9 +170,9 @@ 1 transp 5 0.36 276480 16 4.68262 5.90435 9.6446e-03 1.0894e-02 9.9728e-02 5.0778e-02 2.6323e-03 1.0660e-02 4.6189e-03 2.0697e-04 3.5495e-03 6.2876e-05 4.9853e-04 1.6041e-02 1.6820e-02 1.7343e-05 4.7332e-03 9.5160e-04 1.0608e+00 2.0630e-05 7.2030e-02 3.3309e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 276480 16 5.18732 4.5338 9.6521e-03 1.1197e-02 8.8860e-02 3.5708e-02 1.0629e-02 1.0668e-02 1.5623e-02 2.3730e-04 1.9239e-04 7.1054e-05 1.0242e-03 1.6053e-02 1.8798e-02 3.2009e-05 2.6324e-03 8.7402e-04 1.0575e+00 -3.9821e-05 7.2279e-02 3.6173e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 276480 16 6.18832 9.48286 9.6787e-03 1.4081e-02 5.0193e-02 1.6367e-07 2.9636e-02 1.0697e-02 5.5286e-02 3.3118e-04 2.9226e-05 9.5042e-05 2.0161e-03 1.6097e-02 1.0239e-02 2.2811e-06 6.7942e-03 2.9515e-04 9.8352e-01 1.2747e-02 5.8664e-02 4.0842e-02 0.0000e+00 0.0000e+00 3.9115e-02 -5.8852e-03 1.3365e-02 -4.4006e-02 - 1 transp 8 0.6 276480 16 6.18733 9.48144 9.6785e-03 1.4086e-02 4.9916e-02 1.6397e-07 3.0091e-02 1.0697e-02 5.5184e-02 4.4090e-04 6.4017e-06 1.0752e-04 1.0309e-03 1.6097e-02 1.4204e-02 5.2239e-06 2.0555e-03 1.4740e-04 9.7000e-01 -1.6481e-09 4.9221e-04 4.0900e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.5505e-12 7.6573e-02 -4.3997e-04 - 1 transp 9 0.68 276480 16 6.18758 9.47936 9.6786e-03 1.4028e-02 4.9766e-02 1.6388e-07 3.0326e-02 1.0697e-02 5.5244e-02 5.8670e-04 5.8944e-06 1.1713e-04 5.5373e-04 1.6097e-02 1.4886e-02 8.2637e-06 1.9809e-03 2.1442e-04 9.7000e-01 -1.0512e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 5.7880e-13 7.7160e-02 1.8444e-06 - 1 transp 10 0.76 276480 16 6.19539 9.46158 9.6786e-03 1.3746e-02 4.9622e-02 1.6131e-07 3.0637e-02 1.0697e-02 5.4970e-02 7.4409e-04 5.6039e-06 1.2408e-04 4.0780e-04 1.6097e-02 1.4952e-02 9.7000e-06 1.9484e-03 2.4647e-04 9.7000e-01 1.2713e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.5278e-12 7.7154e-02 1.3812e-04 + 1 transp 8 0.6 276480 16 6.18733 9.48144 9.6785e-03 1.4086e-02 4.9916e-02 1.6397e-07 3.0091e-02 1.0697e-02 5.5184e-02 4.4090e-04 6.4017e-06 1.0752e-04 1.0309e-03 1.6097e-02 1.4204e-02 5.2239e-06 2.0555e-03 1.4740e-04 9.7000e-01 -1.6481e-09 4.9221e-04 4.0900e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.5283e-12 7.6573e-02 -4.3997e-04 + 1 transp 9 0.68 276480 16 6.18758 9.47936 9.6786e-03 1.4028e-02 4.9766e-02 1.6388e-07 3.0326e-02 1.0697e-02 5.5244e-02 5.8670e-04 5.8944e-06 1.1713e-04 5.5373e-04 1.6097e-02 1.4886e-02 8.2637e-06 1.9809e-03 2.1442e-04 9.7000e-01 -1.0512e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 5.6123e-13 7.7160e-02 1.8444e-06 + 1 transp 10 0.76 276480 16 6.19539 9.46158 9.6786e-03 1.3746e-02 4.9622e-02 1.6131e-07 3.0637e-02 1.0697e-02 5.4970e-02 7.4409e-04 5.6039e-06 1.2408e-04 4.0780e-04 1.6097e-02 1.4952e-02 9.7000e-06 1.9484e-03 2.4647e-04 9.7000e-01 1.2713e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -1.5397e-12 7.7154e-02 1.3812e-04 1 transp 1 0.04 293760 17 3.76418 8.63949 9.6437e-03 1.0894e-02 1.0061e-01 5.3390e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7693e-03 6.0917e-05 3.4530e-04 1.6039e-02 2.1221e-02 5.9116e-04 6.8588e-05 3.7256e-04 1.0600e+00 -2.4997e-04 8.5927e-02 8.7691e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 293760 17 4.68653 5.87395 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4593e-03 6.0929e-05 3.4547e-04 1.6039e-02 1.6859e-02 1.7524e-05 4.6955e-03 9.5170e-04 1.0602e+00 1.7414e-04 7.0370e-02 1.9362e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 293760 17 4.78011 5.59359 9.6439e-03 1.0873e-02 1.0052e-01 5.3171e-02 1.3604e-03 1.0659e-02 4.1418e-03 2.0305e-04 3.5325e-03 6.0930e-05 3.4553e-04 1.6039e-02 1.5105e-02 1.1287e-05 6.5780e-03 9.5836e-04 1.0602e+00 9.6112e-06 7.1440e-02 1.4148e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -180,29 +180,29 @@ 1 transp 5 0.36 293760 17 4.69787 5.84369 9.6440e-03 1.0879e-02 1.0025e-01 5.2669e-02 1.6341e-03 1.0659e-02 4.2435e-03 2.0419e-04 3.3217e-03 6.1761e-05 3.9716e-04 1.6039e-02 1.6816e-02 1.7316e-05 4.7402e-03 9.5170e-04 1.0608e+00 -2.0187e-06 7.2030e-02 -9.7094e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 293760 17 4.78166 5.69105 9.6486e-03 1.1041e-02 9.4334e-02 4.1071e-02 7.9165e-03 1.0664e-02 9.4204e-03 2.2928e-04 1.7823e-03 6.9569e-05 1.2229e-03 1.6047e-02 1.7567e-02 2.1565e-05 3.9327e-03 9.4134e-04 1.0575e+00 -1.2103e-06 7.2328e-02 4.9117e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 293760 17 5.38305 11.0479 9.6666e-03 1.1838e-02 7.3195e-02 9.6292e-07 2.9750e-02 1.0684e-02 2.9468e-02 3.0841e-04 2.6876e-04 9.1102e-05 3.1895e-03 1.6077e-02 1.4832e-02 9.4399e-06 6.6749e-03 8.2832e-04 1.0294e+00 4.5871e-02 7.1672e-02 1.3008e-02 0.0000e+00 0.0000e+00 1.6175e-02 -2.2940e-02 0.0000e+00 -1.3365e-02 - 1 transp 8 0.6 293760 17 6.18853 9.48023 9.6786e-03 1.4079e-02 5.0080e-02 1.6359e-07 2.9930e-02 1.0697e-02 5.5144e-02 3.7916e-04 6.9487e-06 1.0214e-04 1.5030e-03 1.6097e-02 1.3536e-02 3.7952e-06 2.1386e-03 1.1692e-04 9.7000e-01 1.1322e-07 5.2903e-03 4.7981e-03 0.0000e+00 0.0000e+00 4.5000e-02 -1.6377e-10 7.1337e-02 -5.2362e-03 - 1 transp 9 0.68 293760 17 6.18524 9.48531 9.6786e-03 1.4098e-02 4.9774e-02 1.6465e-07 3.0145e-02 1.0697e-02 5.5385e-02 4.9515e-04 6.1233e-06 1.1269e-04 7.2407e-04 1.6097e-02 1.4684e-02 6.9162e-06 2.0110e-03 1.8468e-04 9.7000e-01 -8.0865e-10 1.3885e-04 1.3885e-04 0.0000e+00 0.0000e+00 4.5000e-02 1.7487e-12 7.6994e-02 -1.6645e-04 - 1 transp 10 0.76 293760 17 6.18823 9.47768 9.6786e-03 1.4000e-02 4.9734e-02 1.6366e-07 3.0379e-02 1.0697e-02 5.5218e-02 6.2182e-04 5.7711e-06 1.2006e-04 4.6649e-04 1.6097e-02 1.5009e-02 9.2279e-06 1.9601e-03 2.3497e-04 9.7000e-01 4.4652e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.0700e-13 7.7209e-02 5.5013e-05 + 1 transp 8 0.6 293760 17 6.18853 9.48023 9.6786e-03 1.4079e-02 5.0080e-02 1.6359e-07 2.9930e-02 1.0697e-02 5.5144e-02 3.7916e-04 6.9487e-06 1.0214e-04 1.5030e-03 1.6097e-02 1.3536e-02 3.7952e-06 2.1386e-03 1.1692e-04 9.7000e-01 1.1322e-07 5.2903e-03 4.7981e-03 0.0000e+00 0.0000e+00 4.5000e-02 -1.6378e-10 7.1337e-02 -5.2362e-03 + 1 transp 9 0.68 293760 17 6.18524 9.48531 9.6786e-03 1.4098e-02 4.9774e-02 1.6465e-07 3.0145e-02 1.0697e-02 5.5385e-02 4.9515e-04 6.1233e-06 1.1269e-04 7.2407e-04 1.6097e-02 1.4684e-02 6.9162e-06 2.0110e-03 1.8468e-04 9.7000e-01 -8.0865e-10 1.3885e-04 1.3885e-04 0.0000e+00 0.0000e+00 4.5000e-02 1.7452e-12 7.6994e-02 -1.6645e-04 + 1 transp 10 0.76 293760 17 6.18823 9.47768 9.6786e-03 1.4000e-02 4.9734e-02 1.6366e-07 3.0379e-02 1.0697e-02 5.5218e-02 6.2182e-04 5.7711e-06 1.2006e-04 4.6649e-04 1.6097e-02 1.5009e-02 9.2279e-06 1.9601e-03 2.3497e-04 9.7000e-01 4.4652e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 4.5000e-02 -3.5558e-13 7.7209e-02 5.5013e-05 1 transp 1 0.04 311040 18 3.72359 8.7612 9.6437e-03 1.0896e-02 1.0062e-01 5.3442e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6755e-03 6.0913e-05 3.4523e-04 1.6039e-02 2.1234e-02 6.4035e-04 5.5017e-05 3.2351e-04 1.0597e+00 -3.1500e-04 8.6801e-02 8.7418e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 311040 18 4.63706 6.02218 9.6439e-03 1.0875e-02 1.0054e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4300e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.7621e-02 2.2042e-05 3.8824e-03 9.4693e-04 1.0605e+00 2.6997e-04 7.0394e-02 2.3471e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 311040 18 4.77531 5.60796 9.6439e-03 1.0873e-02 1.0052e-01 5.3172e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0305e-04 3.5323e-03 6.0930e-05 3.4550e-04 1.6039e-02 1.5200e-02 1.1533e-05 6.4761e-03 9.5810e-04 1.0602e+00 1.2461e-05 7.1442e-02 1.9549e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 311040 18 4.72546 5.7573 9.6439e-03 1.0874e-02 1.0052e-01 5.3175e-02 1.3615e-03 1.0659e-02 4.1422e-03 2.0305e-04 3.4827e-03 6.0936e-05 3.4592e-04 1.6039e-02 1.6183e-02 1.4623e-05 5.4191e-03 9.5478e-04 1.0595e+00 -6.7379e-06 7.2441e-02 -9.7556e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 311040 18 4.72546 5.7573 9.6439e-03 1.0874e-02 1.0052e-01 5.3175e-02 1.3615e-03 1.0659e-02 4.1422e-03 2.0305e-04 3.4827e-03 6.0936e-05 3.4592e-04 1.6039e-02 1.6183e-02 1.4623e-05 5.4191e-03 9.5478e-04 1.0595e+00 -6.7382e-06 7.2441e-02 -9.7556e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 311040 18 4.69417 5.85182 9.6439e-03 1.0875e-02 1.0045e-01 5.3071e-02 1.4189e-03 1.0659e-02 4.1635e-03 2.0332e-04 3.4047e-03 6.1138e-05 3.5898e-04 1.6039e-02 1.6792e-02 1.7197e-05 4.7673e-03 9.5198e-04 1.0608e+00 -2.7446e-06 7.2029e-02 -4.0367e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 311040 18 4.45402 6.65 9.6469e-03 1.0930e-02 9.8681e-02 4.3966e-02 6.1077e-03 1.0662e-02 5.2638e-03 2.0973e-04 5.5897e-03 6.3940e-05 6.2822e-04 1.6044e-02 1.8537e-02 3.0775e-05 2.8993e-03 9.3856e-04 1.0584e+00 8.2467e-04 7.2349e-02 2.0886e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 311040 18 4.1855 7.87455 9.6582e-03 1.1300e-02 8.5667e-02 1.5835e-02 2.0803e-02 1.0675e-02 1.7421e-02 2.4686e-04 4.6099e-03 7.5306e-05 1.4406e-03 1.6063e-02 2.0481e-02 1.1099e-04 8.0979e-04 8.5568e-04 1.0600e+00 3.0645e-02 7.1914e-02 2.4253e-04 0.0000e+00 0.0000e+00 0.0000e+00 -1.6175e-02 0.0000e+00 0.0000e+00 1 transp 8 0.6 311040 18 6.19373 9.47017 9.6785e-03 1.4045e-02 5.0479e-02 1.6193e-07 2.9865e-02 1.0697e-02 5.4670e-02 3.3783e-04 1.5472e-05 9.7001e-05 2.1453e-03 1.6097e-02 1.1529e-02 2.4664e-06 4.1620e-03 1.7361e-04 9.7259e-01 2.5858e-03 3.6472e-02 3.1182e-02 0.0000e+00 0.0000e+00 4.4126e-02 -8.7384e-04 3.7434e-02 -3.3903e-02 - 1 transp 9 0.68 311040 18 6.18587 9.48486 9.6786e-03 1.4097e-02 4.9833e-02 1.6445e-07 3.0027e-02 1.0697e-02 5.5348e-02 4.2390e-04 6.3961e-06 1.0786e-04 1.0149e-03 1.6097e-02 1.4263e-02 5.3287e-06 2.0473e-03 1.4914e-04 9.7000e-01 -1.4730e-09 5.1955e-04 3.8070e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.8845e-12 7.6591e-02 -4.0327e-04 - 1 transp 10 0.76 311040 18 6.18447 9.48663 9.6786e-03 1.4103e-02 4.9711e-02 1.6490e-07 3.0181e-02 1.0697e-02 5.5449e-02 5.2260e-04 5.9557e-06 1.1601e-04 5.6759e-04 1.6097e-02 1.4936e-02 8.2562e-06 1.9817e-03 2.1359e-04 9.7000e-01 -2.5394e-10 5.4409e-05 5.4409e-05 0.0000e+00 0.0000e+00 4.5000e-02 7.3631e-13 7.7156e-02 -5.3192e-05 + 1 transp 9 0.68 311040 18 6.18587 9.48486 9.6786e-03 1.4097e-02 4.9833e-02 1.6445e-07 3.0027e-02 1.0697e-02 5.5348e-02 4.2390e-04 6.3961e-06 1.0786e-04 1.0149e-03 1.6097e-02 1.4263e-02 5.3287e-06 2.0473e-03 1.4914e-04 9.7000e-01 -1.4730e-09 5.1955e-04 3.8070e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.9135e-12 7.6591e-02 -4.0327e-04 + 1 transp 10 0.76 311040 18 6.18447 9.48663 9.6786e-03 1.4103e-02 4.9711e-02 1.6490e-07 3.0181e-02 1.0697e-02 5.5449e-02 5.2260e-04 5.9557e-06 1.1601e-04 5.6759e-04 1.6097e-02 1.4936e-02 8.2562e-06 1.9817e-03 2.1359e-04 9.7000e-01 -2.5394e-10 5.4409e-05 5.4409e-05 0.0000e+00 0.0000e+00 4.5000e-02 7.3612e-13 7.7156e-02 -5.3192e-05 1 transp 1 0.04 328320 19 3.70894 8.80511 9.6437e-03 1.0897e-02 1.0062e-01 5.3464e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6362e-03 6.0911e-05 3.4519e-04 1.6039e-02 2.1238e-02 6.5780e-04 5.0690e-05 3.0613e-04 1.0594e+00 -3.4184e-04 8.7675e-02 8.7313e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 328320 19 4.5746 6.20936 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3938e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.8433e-02 2.9400e-05 3.0200e-03 9.3921e-04 1.0608e+00 3.2278e-04 7.0418e-02 2.4774e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 328320 19 4.76899 5.62691 9.6439e-03 1.0873e-02 1.0052e-01 5.3172e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0305e-04 3.5305e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.5325e-02 1.1870e-05 6.3412e-03 9.5773e-04 1.0603e+00 1.5469e-05 7.1445e-02 2.6395e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 328320 19 4.72735 5.75164 9.6439e-03 1.0874e-02 1.0053e-01 5.3177e-02 1.3606e-03 1.0659e-02 4.1419e-03 2.0305e-04 3.4897e-03 6.0931e-05 3.4559e-04 1.6039e-02 1.6142e-02 1.4471e-05 5.4629e-03 9.5494e-04 1.0595e+00 -5.7132e-06 7.2441e-02 -8.2976e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 328320 19 4.72735 5.75164 9.6439e-03 1.0874e-02 1.0053e-01 5.3177e-02 1.3606e-03 1.0659e-02 4.1419e-03 2.0305e-04 3.4897e-03 6.0931e-05 3.4559e-04 1.6039e-02 1.6142e-02 1.4471e-05 5.4629e-03 9.5494e-04 1.0595e+00 -5.7131e-06 7.2441e-02 -8.2976e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 328320 19 4.69196 5.85783 9.6439e-03 1.0874e-02 1.0052e-01 5.3157e-02 1.3728e-03 1.0659e-02 4.1464e-03 2.0310e-04 3.4555e-03 6.0970e-05 3.4852e-04 1.6039e-02 1.6776e-02 1.7121e-05 4.7845e-03 9.5211e-04 1.0608e+00 -2.0113e-06 7.2029e-02 -2.5929e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 328320 19 4.54235 6.32128 9.6445e-03 1.0886e-02 1.0015e-01 5.1271e-02 2.3488e-03 1.0660e-02 4.3801e-03 2.0454e-04 3.8015e-03 6.1652e-05 4.1087e-04 1.6040e-02 1.8511e-02 3.0356e-05 2.9346e-03 9.3837e-04 1.0583e+00 -5.5778e-06 7.2348e-02 -7.9243e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 328320 19 5.08697 4.81894 9.6516e-03 1.1167e-02 8.9798e-02 3.6970e-02 9.8208e-03 1.0668e-02 1.5007e-02 2.2333e-04 5.2057e-04 6.7030e-05 8.9414e-04 1.6052e-02 1.7238e-02 1.9104e-05 4.3051e-03 9.3027e-04 1.0601e+00 1.0968e-05 7.2276e-02 3.6201e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 328320 19 6.00759 9.82673 9.6742e-03 1.2897e-02 5.8999e-02 2.3860e-07 2.9902e-02 1.0693e-02 4.5051e-02 3.1536e-04 6.5890e-05 8.9315e-05 2.9222e-03 1.6090e-02 9.9994e-03 2.5229e-06 9.4980e-03 4.6726e-04 9.9723e-01 2.4640e-02 7.1757e-02 3.5285e-02 0.0000e+00 0.0000e+00 3.1822e-02 -1.2304e-02 0.0000e+00 -3.7434e-02 - 1 transp 9 0.68 328320 19 6.18636 9.48496 9.6786e-03 1.4095e-02 4.9958e-02 1.6430e-07 2.9885e-02 1.0697e-02 5.5388e-02 3.6916e-04 6.7827e-06 1.0189e-04 1.4180e-03 1.6097e-02 1.3716e-02 4.0377e-06 2.0923e-03 1.2010e-04 9.7000e-01 -8.1462e-10 1.1438e-03 6.2423e-04 0.0000e+00 0.0000e+00 4.5000e-02 7.8913e-13 7.5910e-02 -6.8090e-04 - 1 transp 10 0.76 328320 19 6.18397 9.48846 9.6786e-03 1.4110e-02 4.9677e-02 1.6506e-07 3.0060e-02 1.0697e-02 5.5515e-02 4.4563e-04 6.1639e-06 1.1159e-04 7.4336e-04 1.6097e-02 1.4690e-02 6.8351e-06 2.0130e-03 1.8262e-04 9.7000e-01 -8.6831e-10 2.7565e-04 2.2124e-04 0.0000e+00 0.0000e+00 4.5000e-02 1.7957e-12 7.6924e-02 -2.3176e-04 + 1 transp 9 0.68 328320 19 6.18636 9.48496 9.6786e-03 1.4095e-02 4.9958e-02 1.6430e-07 2.9885e-02 1.0697e-02 5.5388e-02 3.6916e-04 6.7827e-06 1.0189e-04 1.4180e-03 1.6097e-02 1.3716e-02 4.0377e-06 2.0923e-03 1.2010e-04 9.7000e-01 -8.1462e-10 1.1438e-03 6.2423e-04 0.0000e+00 0.0000e+00 4.5000e-02 7.8723e-13 7.5910e-02 -6.8090e-04 + 1 transp 10 0.76 328320 19 6.18397 9.48846 9.6786e-03 1.4110e-02 4.9677e-02 1.6506e-07 3.0060e-02 1.0697e-02 5.5515e-02 4.4563e-04 6.1639e-06 1.1159e-04 7.4336e-04 1.6097e-02 1.4690e-02 6.8351e-06 2.0130e-03 1.8262e-04 9.7000e-01 -8.6831e-10 2.7565e-04 2.2124e-04 0.0000e+00 0.0000e+00 4.5000e-02 1.7935e-12 7.6924e-02 -2.3176e-04 1 transp 1 0.04 345600 20 3.70274 8.82371 9.6437e-03 1.0898e-02 1.0062e-01 5.3474e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6182e-03 6.0910e-05 3.4518e-04 1.6039e-02 2.1239e-02 6.6517e-04 4.8931e-05 2.9880e-04 1.0590e+00 -3.5305e-04 8.8547e-02 8.7282e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 345600 20 4.49691 6.44225 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3513e-03 6.0922e-05 3.4535e-04 1.6039e-02 1.9226e-02 4.1910e-05 2.1791e-03 9.2620e-04 1.0611e+00 3.4197e-04 7.0443e-02 2.4333e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 345600 20 4.76104 5.65071 9.6439e-03 1.0873e-02 1.0053e-01 5.3173e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.5251e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.5484e-02 1.2320e-05 6.1702e-03 9.5725e-04 1.0603e+00 1.8332e-05 7.1448e-02 3.4449e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -212,7 +212,7 @@ 1 transp 7 0.52 345600 20 4.59864 6.24028 9.6479e-03 1.0971e-02 9.7168e-02 4.1369e-02 7.5369e-03 1.0663e-02 6.4673e-03 2.1509e-04 4.8497e-03 6.6435e-05 1.0214e-03 1.6046e-02 1.7027e-02 1.8447e-05 4.4988e-03 9.5037e-04 1.0601e+00 7.7805e-05 7.2288e-02 1.1938e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 345600 20 3.85353 14.1051 9.6638e-03 1.1470e-02 8.1440e-02 1.1497e-04 2.9108e-02 1.0681e-02 2.0876e-02 2.6198e-04 6.3119e-03 8.1724e-05 2.5314e-03 1.6072e-02 2.0998e-02 2.8743e-04 2.5432e-04 6.7880e-04 1.0442e+00 4.6972e-02 7.1915e-02 1.5827e-04 0.0000e+00 0.0000e+00 8.1993e-03 -2.3623e-02 0.0000e+00 0.0000e+00 1 transp 9 0.68 345600 20 6.19604 9.46426 9.6784e-03 1.4028e-02 5.0601e-02 1.6119e-07 3.0033e-02 1.0697e-02 5.4418e-02 3.4010e-04 1.4865e-05 9.7675e-05 2.1262e-03 1.6097e-02 1.1560e-02 2.4745e-06 4.0561e-03 1.6929e-04 9.7007e-01 7.2731e-05 1.6633e-02 1.5490e-02 0.0000e+00 0.0000e+00 4.5000e-02 -1.4721e-08 5.8785e-02 -1.7125e-02 - 1 transp 10 0.76 345600 20 6.18386 9.48937 9.6787e-03 1.4111e-02 4.9744e-02 1.6510e-07 2.9970e-02 1.0697e-02 5.5604e-02 3.8795e-04 6.4430e-06 1.0585e-04 1.0218e-03 1.6097e-02 1.4300e-02 5.3539e-06 2.0468e-03 1.4942e-04 9.7000e-01 -1.3649e-09 6.2766e-04 3.5200e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.7581e-12 7.6552e-02 -3.7286e-04 + 1 transp 10 0.76 345600 20 6.18386 9.48937 9.6787e-03 1.4111e-02 4.9744e-02 1.6510e-07 2.9970e-02 1.0697e-02 5.5604e-02 3.8795e-04 6.4430e-06 1.0585e-04 1.0218e-03 1.6097e-02 1.4300e-02 5.3539e-06 2.0468e-03 1.4942e-04 9.7000e-01 -1.3649e-09 6.2766e-04 3.5200e-04 0.0000e+00 0.0000e+00 4.5000e-02 2.7767e-12 7.6552e-02 -3.7286e-04 1 transp 1 0.04 362880 21 3.69881 8.83549 9.6437e-03 1.0898e-02 1.0062e-01 5.3481e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6059e-03 6.0910e-05 3.4517e-04 1.6039e-02 2.1240e-02 6.6986e-04 4.7831e-05 2.9413e-04 1.0586e+00 -3.5950e-04 8.9420e-02 8.7278e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 362880 21 4.39584 6.74526 9.6438e-03 1.0878e-02 1.0055e-01 5.3196e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2994e-03 6.0921e-05 3.4534e-04 1.6039e-02 1.9962e-02 6.5866e-05 1.4013e-03 9.0150e-04 1.0615e+00 3.4637e-04 7.0466e-02 2.2805e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 362880 21 4.75124 5.68006 9.6439e-03 1.0873e-02 1.0052e-01 5.3175e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.5158e-03 6.0925e-05 3.4539e-04 1.6039e-02 1.5679e-02 1.2907e-05 5.9600e-03 9.5662e-04 1.0603e+00 2.1371e-05 7.1453e-02 4.4322e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -222,7 +222,7 @@ 1 transp 7 0.52 362880 21 4.4887 6.51619 9.6458e-03 1.0903e-02 9.9677e-02 4.7291e-02 4.3724e-03 1.0661e-02 4.6396e-03 2.0578e-04 5.1965e-03 6.2269e-05 4.9633e-04 1.6043e-02 1.8337e-02 2.8412e-05 3.1146e-03 9.4098e-04 1.0610e+00 9.0100e-04 7.2311e-02 2.2431e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 362880 21 4.19465 7.64416 9.6549e-03 1.1215e-02 8.8358e-02 2.5585e-02 1.5724e-02 1.0671e-02 1.5518e-02 2.3065e-04 2.8896e-03 7.0849e-05 1.2765e-03 1.6058e-02 2.0755e-02 1.6115e-04 5.2999e-04 8.0237e-04 1.0588e+00 1.4568e-02 7.2201e-02 2.8667e-04 0.0000e+00 0.0000e+00 0.0000e+00 -8.1993e-03 0.0000e+00 0.0000e+00 1 transp 9 0.68 362880 21 6.19609 9.46673 9.6787e-03 1.4024e-02 5.0818e-02 1.6120e-07 2.9711e-02 1.0697e-02 5.4632e-02 3.0182e-04 6.6002e-05 9.1838e-05 2.7758e-03 1.6097e-02 7.1907e-03 1.3474e-06 1.1191e-02 4.0888e-04 9.7610e-01 6.0275e-03 5.6441e-02 3.9807e-02 0.0000e+00 0.0000e+00 4.2495e-02 -2.5051e-03 1.5907e-02 -4.2878e-02 - 1 transp 10 0.76 362880 21 6.19025 9.47584 9.6785e-03 1.4067e-02 5.0145e-02 1.6303e-07 3.0047e-02 1.0697e-02 5.4941e-02 3.5069e-04 6.7543e-06 1.0139e-04 1.4879e-03 1.6097e-02 1.3548e-02 3.8130e-06 2.0988e-03 1.1518e-04 9.7000e-01 -2.6314e-09 1.3157e-03 6.8806e-04 0.0000e+00 0.0000e+00 4.5000e-02 3.2277e-12 7.5815e-02 -7.3633e-04 + 1 transp 10 0.76 362880 21 6.19025 9.47584 9.6785e-03 1.4067e-02 5.0145e-02 1.6303e-07 3.0047e-02 1.0697e-02 5.4941e-02 3.5069e-04 6.7543e-06 1.0139e-04 1.4879e-03 1.6097e-02 1.3548e-02 3.8130e-06 2.0988e-03 1.1518e-04 9.7000e-01 -2.6314e-09 1.3157e-03 6.8806e-04 0.0000e+00 0.0000e+00 4.5000e-02 3.2159e-12 7.5815e-02 -7.3633e-04 1 transp 1 0.04 380160 22 3.69487 8.84731 9.6437e-03 1.0898e-02 1.0062e-01 5.3488e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5928e-03 6.0910e-05 3.4518e-04 1.6039e-02 2.1241e-02 6.7458e-04 4.6739e-05 2.8943e-04 1.0583e+00 -3.6510e-04 9.0293e-02 8.7290e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 380160 22 4.25408 7.17032 9.6438e-03 1.0880e-02 1.0055e-01 5.3205e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2288e-03 6.0921e-05 3.4534e-04 1.6039e-02 2.0590e-02 1.2098e-04 7.3773e-04 8.4519e-04 1.0618e+00 3.4111e-04 7.0485e-02 1.9898e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 380160 22 4.73904 5.71661 9.6439e-03 1.0874e-02 1.0052e-01 5.3176e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.5025e-03 6.0924e-05 3.4538e-04 1.6039e-02 1.5919e-02 1.3683e-05 5.7027e-03 9.5579e-04 1.0603e+00 2.6045e-05 7.1459e-02 5.8282e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -232,11 +232,11 @@ 1 transp 7 0.52 380160 22 4.55486 6.27843 9.6443e-03 1.0881e-02 1.0037e-01 5.1953e-02 1.9912e-03 1.0659e-02 4.2482e-03 2.0365e-04 3.7641e-03 6.1231e-05 3.7945e-04 1.6040e-02 1.8397e-02 2.9016e-05 3.0559e-03 9.3979e-04 1.0610e+00 4.7466e-06 7.2312e-02 1.1406e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 380160 22 4.49625 6.56808 9.6495e-03 1.1051e-02 9.4187e-02 3.8982e-02 8.8562e-03 1.0665e-02 9.9224e-03 2.2058e-04 2.6104e-03 6.6584e-05 1.2148e-03 1.6049e-02 1.9610e-02 5.2171e-05 1.7587e-03 9.1234e-04 1.0588e+00 -1.3818e-05 7.2266e-02 6.4554e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 380160 22 5.51045 10.7988 9.6673e-03 1.1907e-02 7.2034e-02 7.1786e-07 2.9475e-02 1.0685e-02 3.0841e-02 2.7679e-04 5.9257e-04 8.4791e-05 3.4098e-03 1.6078e-02 8.4870e-03 2.8134e-06 1.3862e-02 8.9602e-04 1.0112e+00 3.5053e-02 7.1880e-02 1.5439e-02 0.0000e+00 0.0000e+00 2.4984e-02 -1.7511e-02 0.0000e+00 -1.5907e-02 - 1 transp 10 0.76 380160 22 6.19234 9.47325 9.6786e-03 1.4049e-02 5.0444e-02 1.6238e-07 2.9846e-02 1.0697e-02 5.4872e-02 3.1539e-04 7.6418e-06 9.5486e-05 2.1298e-03 1.6097e-02 1.2681e-02 2.7477e-06 2.2439e-03 9.4803e-05 9.7000e-01 7.3253e-08 5.8564e-03 4.5407e-03 0.0000e+00 0.0000e+00 4.5000e-02 -1.1063e-10 7.0842e-02 -4.9734e-03 + 1 transp 10 0.76 380160 22 6.19234 9.47325 9.6786e-03 1.4049e-02 5.0444e-02 1.6238e-07 2.9846e-02 1.0697e-02 5.4872e-02 3.1539e-04 7.6418e-06 9.5486e-05 2.1298e-03 1.6097e-02 1.2681e-02 2.7477e-06 2.2439e-03 9.4803e-05 9.7000e-01 7.3253e-08 5.8564e-03 4.5407e-03 0.0000e+00 0.0000e+00 4.5000e-02 -1.1067e-10 7.0842e-02 -4.9734e-03 1 transp 1 0.04 397440 23 3.68909 8.86463 9.6437e-03 1.0899e-02 1.0062e-01 5.3498e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5739e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1243e-02 6.8142e-04 4.5185e-05 2.8262e-04 1.0579e+00 -3.7097e-04 9.1166e-02 8.7326e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 397440 23 4.05855 7.75668 9.6438e-03 1.0884e-02 1.0056e-01 5.3231e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1164e-03 6.0921e-05 3.4536e-04 1.6039e-02 2.1008e-02 2.5752e-04 2.9579e-04 7.0700e-04 1.0621e+00 3.1236e-04 7.0500e-02 1.4621e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 397440 23 4.72301 5.76463 9.6439e-03 1.0874e-02 1.0052e-01 5.3177e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4853e-03 6.0925e-05 3.4539e-04 1.6039e-02 1.6223e-02 1.4774e-05 5.3761e-03 9.5462e-04 1.0604e+00 3.7953e-05 7.1467e-02 8.2524e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 397440 23 4.73084 5.74117 9.6439e-03 1.0874e-02 1.0052e-01 5.3177e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4956e-03 6.0924e-05 3.4538e-04 1.6039e-02 1.6074e-02 1.4223e-05 5.5363e-03 9.5521e-04 1.0594e+00 -9.7507e-08 7.2439e-02 -8.1113e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 397440 23 4.73084 5.74117 9.6439e-03 1.0874e-02 1.0052e-01 5.3177e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4956e-03 6.0924e-05 3.4538e-04 1.6039e-02 1.6074e-02 1.4223e-05 5.5363e-03 9.5521e-04 1.0594e+00 -9.7506e-08 7.2439e-02 -8.1111e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 397440 23 4.69534 5.84752 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3604e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4702e-03 6.0924e-05 3.4540e-04 1.6039e-02 1.6706e-02 1.6795e-05 4.8591e-03 9.5247e-04 1.0608e+00 -2.4776e-06 7.2028e-02 -3.6779e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 397440 23 4.59467 6.14925 9.6439e-03 1.0876e-02 1.0054e-01 5.3183e-02 1.3622e-03 1.0659e-02 4.1423e-03 2.0304e-04 3.4077e-03 6.0925e-05 3.4565e-04 1.6039e-02 1.8188e-02 2.6790e-05 3.2798e-03 9.4194e-04 1.0583e+00 -7.6483e-06 7.2340e-02 -1.5976e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 397440 23 4.57183 6.21975 9.6439e-03 1.0876e-02 1.0051e-01 5.2929e-02 1.4926e-03 1.0659e-02 4.1645e-03 2.0318e-04 3.4695e-03 6.0995e-05 3.5386e-04 1.6039e-02 1.8409e-02 2.9134e-05 3.0446e-03 9.3953e-04 1.0610e+00 3.0891e-07 7.2312e-02 1.4590e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -267,7 +267,7 @@ 1 transp 2 0.12 449280 26 3.73499 8.72701 9.6437e-03 1.0896e-02 1.0061e-01 5.3426e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7037e-03 6.0914e-05 3.4525e-04 1.6039e-02 2.1230e-02 6.2666e-04 5.8580e-05 3.3716e-04 1.0626e+00 7.3113e-05 7.0512e-02 6.2738e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 449280 26 4.6147 6.08918 9.6439e-03 1.0875e-02 1.0054e-01 5.3185e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4146e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.7933e-02 2.4458e-05 3.5511e-03 9.4439e-04 1.0608e+00 2.4608e-04 7.1520e-02 2.2254e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 449280 26 4.72518 5.75815 9.6439e-03 1.0874e-02 1.0053e-01 5.3177e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4888e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.6181e-02 1.4617e-05 5.4209e-03 9.5479e-04 1.0595e+00 7.0166e-06 7.2441e-02 1.2687e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 449280 26 4.69855 5.83792 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4664e-03 6.0927e-05 3.4543e-04 1.6039e-02 1.6657e-02 1.6573e-05 4.9110e-03 9.5271e-04 1.0608e+00 -1.9708e-06 7.2027e-02 -2.9373e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 449280 26 4.69855 5.83792 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4664e-03 6.0927e-05 3.4543e-04 1.6039e-02 1.6657e-02 1.6573e-05 4.9110e-03 9.5271e-04 1.0608e+00 -1.9701e-06 7.2027e-02 -2.9373e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 449280 26 4.61048 6.10183 9.6439e-03 1.0875e-02 1.0053e-01 5.3185e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4082e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.7992e-02 2.4967e-05 3.4883e-03 9.4385e-04 1.0583e+00 -6.7678e-06 7.2336e-02 -1.3750e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 449280 26 4.57659 6.20344 9.6439e-03 1.0876e-02 1.0054e-01 5.3185e-02 1.3615e-03 1.0659e-02 4.1420e-03 2.0304e-04 3.3932e-03 6.0922e-05 3.4546e-04 1.6039e-02 1.8411e-02 2.9148e-05 3.0433e-03 9.3948e-04 1.0610e+00 -4.1662e-07 7.2312e-02 -6.7831e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 449280 26 4.42668 6.65372 9.6439e-03 1.0878e-02 1.0054e-01 5.3078e-02 1.4200e-03 1.0659e-02 4.1535e-03 2.0309e-04 3.3553e-03 6.0948e-05 3.4940e-04 1.6039e-02 1.9751e-02 5.6803e-05 1.6243e-03 9.1085e-04 1.0591e+00 -1.0441e-05 7.2272e-02 -2.7011e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -297,7 +297,7 @@ 1 transp 2 0.12 501120 29 3.69966 8.83294 9.6437e-03 1.0898e-02 1.0062e-01 5.3480e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6080e-03 6.0910e-05 3.4518e-04 1.6039e-02 2.1240e-02 6.6889e-04 4.8058e-05 2.9509e-04 1.0627e+00 2.8497e-05 7.0510e-02 -8.9975e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 501120 29 4.35984 6.85319 9.6438e-03 1.0879e-02 1.0055e-01 5.3198e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2812e-03 6.0922e-05 3.4535e-04 1.6039e-02 2.0159e-02 7.7129e-05 1.1929e-03 8.8995e-04 1.0618e+00 3.3756e-04 7.1589e-02 2.1945e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 501120 29 4.70361 5.82276 9.6439e-03 1.0874e-02 1.0053e-01 5.3179e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4757e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.6564e-02 1.6159e-05 5.0108e-03 9.5315e-04 1.0595e+00 1.7003e-05 7.2450e-02 3.9405e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 501120 29 4.69929 5.83572 9.6439e-03 1.0874e-02 1.0053e-01 5.3179e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4729e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.6639e-02 1.6488e-05 4.9310e-03 9.5280e-04 1.0608e+00 -1.9705e-07 7.2026e-02 -5.7393e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 501120 29 4.69929 5.83572 9.6439e-03 1.0874e-02 1.0053e-01 5.3179e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4729e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.6639e-02 1.6488e-05 4.9310e-03 9.5280e-04 1.0608e+00 -1.9705e-07 7.2026e-02 -5.7399e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 501120 29 4.62295 6.06448 9.6439e-03 1.0875e-02 1.0054e-01 5.3185e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4191e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.7821e-02 2.3546e-05 3.6695e-03 9.4534e-04 1.0583e+00 -5.9427e-06 7.2332e-02 -1.1754e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 501120 29 4.57974 6.19396 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3914e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.8376e-02 2.8758e-05 3.0802e-03 9.3988e-04 1.0610e+00 -1.4285e-06 7.2311e-02 -3.0696e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 501120 29 4.45595 6.56506 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3609e-03 1.0659e-02 4.1419e-03 2.0304e-04 3.3281e-03 6.0923e-05 3.4542e-04 1.6039e-02 1.9561e-02 5.0435e-05 1.8248e-03 9.1739e-04 1.0591e+00 -5.5848e-06 7.2267e-02 -1.4939e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -307,7 +307,7 @@ 1 transp 2 0.12 518400 30 3.69428 8.84908 9.6437e-03 1.0898e-02 1.0062e-01 5.3489e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5906e-03 6.0910e-05 3.4518e-04 1.6039e-02 2.1241e-02 6.7530e-04 4.6573e-05 2.8870e-04 1.0627e+00 2.1861e-05 7.0509e-02 -7.7891e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 518400 30 4.20232 7.32553 9.6438e-03 1.0881e-02 1.0055e-01 5.3210e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2016e-03 6.0921e-05 3.4535e-04 1.6039e-02 2.0739e-02 1.4946e-04 5.8087e-04 8.1625e-04 1.0621e+00 3.3262e-04 7.1608e-02 1.8618e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 518400 30 4.69121 5.85992 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4633e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.6780e-02 1.7142e-05 4.7799e-03 9.5210e-04 1.0595e+00 2.3293e-05 7.2456e-02 5.5753e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 518400 30 4.69893 5.83679 9.6439e-03 1.0874e-02 1.0053e-01 5.3179e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4718e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.6646e-02 1.6520e-05 4.9236e-03 9.5277e-04 1.0608e+00 7.3330e-07 7.2027e-02 1.5266e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 518400 30 4.69893 5.83679 9.6439e-03 1.0874e-02 1.0053e-01 5.3179e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4718e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.6646e-02 1.6520e-05 4.9236e-03 9.5277e-04 1.0608e+00 7.3350e-07 7.2027e-02 1.5266e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 518400 30 4.62658 6.0536 9.6439e-03 1.0875e-02 1.0054e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4224e-03 6.0925e-05 3.4541e-04 1.6039e-02 1.7770e-02 2.3147e-05 3.7238e-03 9.4576e-04 1.0583e+00 -5.6455e-06 7.2331e-02 -1.1094e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 518400 30 4.58105 6.19004 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3939e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.8359e-02 2.8571e-05 3.0981e-03 9.4008e-04 1.0610e+00 -1.6737e-06 7.2311e-02 -3.6287e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 518400 30 4.46336 6.54284 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3604e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3314e-03 6.0924e-05 3.4541e-04 1.6039e-02 1.9505e-02 4.8793e-05 1.8843e-03 9.1908e-04 1.0591e+00 -5.2816e-06 7.2266e-02 -1.4055e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -317,7 +317,7 @@ 1 transp 2 0.12 535680 31 3.68706 8.87072 9.6437e-03 1.0899e-02 1.0063e-01 5.3502e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5675e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1243e-02 6.8378e-04 4.4655e-05 2.8026e-04 1.0627e+00 1.5608e-05 7.0509e-02 -3.6212e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 535680 31 3.99877 7.93597 9.6438e-03 1.0885e-02 1.0057e-01 5.3246e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.0721e-03 6.0922e-05 3.4537e-04 1.6039e-02 2.1077e-02 3.1549e-04 2.2224e-04 6.4863e-04 1.0624e+00 2.9254e-04 7.1621e-02 1.2745e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 535680 31 4.67357 5.91276 9.6439e-03 1.0874e-02 1.0053e-01 5.3181e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4469e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.7074e-02 1.8635e-05 4.4663e-03 9.5052e-04 1.0596e+00 4.0494e-05 7.2464e-02 8.5306e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 535680 31 4.69812 5.8392 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4684e-03 6.0925e-05 3.4539e-04 1.6039e-02 1.6662e-02 1.6595e-05 4.9057e-03 9.5268e-04 1.0608e+00 1.8777e-06 7.2027e-02 3.5689e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 535680 31 4.69812 5.8392 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4684e-03 6.0925e-05 3.4539e-04 1.6039e-02 1.6662e-02 1.6595e-05 4.9057e-03 9.5268e-04 1.0608e+00 1.8777e-06 7.2027e-02 3.5688e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 535680 31 4.63005 6.04318 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4238e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.7722e-02 2.2782e-05 3.7748e-03 9.4615e-04 1.0583e+00 -5.3231e-06 7.2330e-02 -1.0408e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 535680 31 4.58258 6.18547 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3956e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.8340e-02 2.8365e-05 3.1181e-03 9.4029e-04 1.0610e+00 -1.8862e-06 7.2311e-02 -4.1118e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 535680 31 4.47016 6.52246 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3357e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.9451e-02 4.7313e-05 1.9411e-03 9.2061e-04 1.0590e+00 -5.0322e-06 7.2264e-02 -1.3322e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -337,7 +337,7 @@ 1 transp 2 0.12 570240 33 3.66636 8.93278 9.6437e-03 1.0900e-02 1.0063e-01 5.3542e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5000e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1248e-02 7.0746e-04 3.9543e-05 2.5671e-04 1.0627e+00 9.2130e-06 7.0509e-02 2.9758e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 570240 33 3.76027 8.6512 9.6437e-03 1.0894e-02 1.0061e-01 5.3394e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7607e-03 6.0917e-05 3.4529e-04 1.6039e-02 2.1222e-02 5.9597e-04 6.7161e-05 3.6775e-04 1.0627e+00 1.0635e-04 7.1629e-02 2.2576e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 570240 33 4.6027 6.12517 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4040e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.8093e-02 2.5879e-05 3.3809e-03 9.4289e-04 1.0598e+00 1.8323e-04 7.2497e-02 1.9056e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 570240 33 4.69368 5.85252 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4620e-03 6.0928e-05 3.4545e-04 1.6039e-02 1.6741e-02 1.6960e-05 4.8211e-03 9.5229e-04 1.0608e+00 5.4028e-06 7.2029e-02 1.0679e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 570240 33 4.69368 5.85252 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4620e-03 6.0928e-05 3.4545e-04 1.6039e-02 1.6741e-02 1.6960e-05 4.8211e-03 9.5229e-04 1.0608e+00 5.4028e-06 7.2029e-02 1.0678e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 570240 33 4.63636 6.02427 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4229e-03 6.0925e-05 3.4541e-04 1.6039e-02 1.7637e-02 2.2155e-05 3.8655e-03 9.4680e-04 1.0583e+00 -4.5473e-06 7.2328e-02 -8.8397e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 570240 33 4.58629 6.17435 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3947e-03 6.0924e-05 3.4538e-04 1.6039e-02 1.8298e-02 2.7909e-05 3.1633e-03 9.4077e-04 1.0610e+00 -2.2207e-06 7.2310e-02 -4.8615e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 570240 33 4.48261 6.48513 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3415e-03 6.0923e-05 3.4537e-04 1.6039e-02 1.9350e-02 4.4739e-05 2.0480e-03 9.2327e-04 1.0590e+00 -4.6424e-06 7.2262e-02 -1.2176e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -348,7 +348,7 @@ 1 transp 3 0.2 587520 34 3.72627 8.75316 9.6437e-03 1.0896e-02 1.0062e-01 5.3438e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6817e-03 6.0913e-05 3.4524e-04 1.6039e-02 2.1233e-02 6.3719e-04 5.5827e-05 3.2667e-04 1.0628e+00 6.0466e-05 7.1630e-02 2.1144e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 587520 34 4.5422 6.30651 9.6439e-03 1.0876e-02 1.0054e-01 5.3189e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3723e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.8793e-02 3.4141e-05 2.6376e-03 9.3427e-04 1.0601e+00 2.6447e-04 7.2519e-02 2.2097e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 587520 34 4.68901 5.86651 9.6439e-03 1.0874e-02 1.0053e-01 5.3180e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4613e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.6817e-02 1.7321e-05 4.7399e-03 9.5191e-04 1.0608e+00 8.0251e-06 7.2030e-02 1.6887e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 587520 34 4.63888 6.01674 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4247e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.7601e-02 2.1898e-05 3.9041e-03 9.4707e-04 1.0582e+00 -4.0415e-06 7.2328e-02 -7.8464e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 587520 34 4.63888 6.01674 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4247e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.7601e-02 2.1898e-05 3.9041e-03 9.4707e-04 1.0582e+00 -4.0409e-06 7.2328e-02 -7.8464e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 587520 34 4.5883 6.16831 9.6439e-03 1.0876e-02 1.0053e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3939e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.8275e-02 2.7667e-05 3.1878e-03 9.4102e-04 1.0610e+00 -2.3435e-06 7.2309e-02 -5.1226e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 587520 34 4.48842 6.46771 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3423e-03 6.0923e-05 3.4537e-04 1.6039e-02 1.9302e-02 4.3607e-05 2.0986e-03 9.2444e-04 1.0590e+00 -4.4869e-06 7.2261e-02 -1.1712e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 587520 34 4.36912 6.82536 9.6438e-03 1.0879e-02 1.0055e-01 5.3197e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2881e-03 6.0922e-05 3.4536e-04 1.6039e-02 2.0111e-02 7.4021e-05 1.2445e-03 8.9314e-04 1.0617e+00 -4.7875e-06 7.2453e-02 -1.3292e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -358,7 +358,7 @@ 1 transp 3 0.2 604800 35 3.71063 8.80004 9.6437e-03 1.0897e-02 1.0062e-01 5.3462e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6400e-03 6.0912e-05 3.4521e-04 1.6039e-02 2.1237e-02 6.5587e-04 5.1157e-05 3.0806e-04 1.0628e+00 4.0633e-05 7.1629e-02 -5.5527e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 604800 35 4.46144 6.54858 9.6438e-03 1.0877e-02 1.0055e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3310e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.9520e-02 4.9207e-05 1.8690e-03 9.1866e-04 1.0604e+00 3.0949e-04 7.2542e-02 2.2702e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 604800 35 4.6823 5.88663 9.6439e-03 1.0874e-02 1.0053e-01 5.3181e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4586e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.6927e-02 1.7863e-05 4.6232e-03 9.5134e-04 1.0608e+00 1.1085e-05 7.2033e-02 2.5142e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 604800 35 4.64087 6.01077 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4281e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.7570e-02 2.1683e-05 3.9369e-03 9.4730e-04 1.0582e+00 -3.4142e-06 7.2327e-02 -6.6333e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 604800 35 4.64087 6.01077 9.6439e-03 1.0875e-02 1.0053e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4281e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.7570e-02 2.1683e-05 3.9369e-03 9.4730e-04 1.0582e+00 -3.4149e-06 7.2327e-02 -6.6332e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 604800 35 4.59024 6.16249 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3952e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.8251e-02 2.7419e-05 3.2133e-03 9.4128e-04 1.0610e+00 -2.4346e-06 7.2309e-02 -5.3002e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 604800 35 4.49391 6.45125 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3435e-03 6.0924e-05 3.4539e-04 1.6039e-02 1.9256e-02 4.2558e-05 2.1477e-03 9.2553e-04 1.0590e+00 -4.3512e-06 7.2259e-02 -1.1295e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 604800 35 4.37778 6.7994 9.6438e-03 1.0878e-02 1.0055e-01 5.3197e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2902e-03 6.0922e-05 3.4536e-04 1.6039e-02 2.0065e-02 7.1311e-05 1.2928e-03 8.9591e-04 1.0617e+00 -4.7693e-06 7.2452e-02 -1.3156e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -376,7 +376,7 @@ 1 transp 1 0.04 639360 37 3.64941 8.98359 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4377e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2649e-04 3.5675e-05 2.3779e-04 1.0525e+00 -3.8759e-04 1.0340e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 639360 37 3.65286 8.97323 9.6436e-03 1.0901e-02 1.0064e-01 5.3571e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4509e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2263e-04 3.6441e-05 2.4162e-04 1.0627e+00 9.2227e-07 7.0510e-02 3.4692e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 639360 37 3.69527 8.84609 9.6437e-03 1.0898e-02 1.0062e-01 5.3487e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5935e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1241e-02 6.7414e-04 4.6839e-05 2.8986e-04 1.0629e+00 2.2461e-05 7.1628e-02 -7.1042e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 639360 37 4.19024 7.36175 9.6438e-03 1.0881e-02 1.0055e-01 5.3211e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1949e-03 6.0922e-05 3.4536e-04 1.6039e-02 2.0769e-02 1.5686e-04 5.4915e-04 8.0874e-04 1.0611e+00 3.2690e-04 7.2582e-02 1.8226e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 639360 37 4.19024 7.36175 9.6438e-03 1.0881e-02 1.0055e-01 5.3211e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1950e-03 6.0922e-05 3.4536e-04 1.6039e-02 2.0769e-02 1.5686e-04 5.4915e-04 8.0874e-04 1.0611e+00 3.2690e-04 7.2582e-02 1.8226e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 639360 37 4.66058 5.95171 9.6439e-03 1.0875e-02 1.0053e-01 5.3182e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4407e-03 6.0925e-05 3.4540e-04 1.6039e-02 1.7275e-02 1.9785e-05 4.2511e-03 9.4930e-04 1.0609e+00 2.1667e-05 7.2042e-02 5.2997e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 639360 37 4.64347 6.00298 9.6439e-03 1.0875e-02 1.0053e-01 5.3183e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4315e-03 6.0926e-05 3.4541e-04 1.6039e-02 1.7531e-02 2.1412e-05 3.9789e-03 9.4759e-04 1.0582e+00 -1.7108e-06 7.2326e-02 -3.3532e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 639360 37 4.594 6.15123 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4006e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.8202e-02 2.6924e-05 3.2653e-03 9.4180e-04 1.0610e+00 -2.5078e-06 7.2308e-02 -5.4180e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -419,7 +419,7 @@ 1 transp 4 0.28 708480 41 3.72379 8.7606 9.6437e-03 1.0896e-02 1.0062e-01 5.3442e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6751e-03 6.0913e-05 3.4524e-04 1.6039e-02 2.1234e-02 6.4019e-04 5.5059e-05 3.2368e-04 1.0617e+00 5.6819e-05 7.2602e-02 1.5362e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 708480 41 4.49594 6.44518 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3470e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.9237e-02 4.2142e-05 2.1678e-03 9.2596e-04 1.0614e+00 2.6750e-04 7.2104e-02 2.1634e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 708480 41 4.63718 6.02182 9.6439e-03 1.0875e-02 1.0054e-01 5.3184e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4250e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.7624e-02 2.2062e-05 3.8795e-03 9.4690e-04 1.0583e+00 5.7868e-06 7.2328e-02 1.3789e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 708480 41 4.60127 6.12945 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4007e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.8113e-02 2.6068e-05 3.3594e-03 9.4269e-04 1.0610e+00 -1.9886e-06 7.2306e-02 -4.2730e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 708480 41 4.60127 6.12945 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4007e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.8113e-02 2.6068e-05 3.3594e-03 9.4269e-04 1.0610e+00 -1.9883e-06 7.2306e-02 -4.2730e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 708480 41 4.52161 6.36821 9.6438e-03 1.0876e-02 1.0054e-01 5.3190e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3565e-03 6.0925e-05 3.4541e-04 1.6039e-02 1.9003e-02 3.7549e-05 2.4157e-03 9.3072e-04 1.0590e+00 -3.7448e-06 7.2253e-02 -9.4061e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 708480 41 4.42228 6.66599 9.6438e-03 1.0878e-02 1.0055e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3094e-03 6.0924e-05 3.4538e-04 1.6039e-02 1.9799e-02 5.8644e-05 1.5738e-03 9.0893e-04 1.0617e+00 -4.3005e-06 7.2444e-02 -1.1729e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 708480 41 4.32569 6.9556 9.6438e-03 1.0879e-02 1.0055e-01 5.3200e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2666e-03 6.0923e-05 3.4537e-04 1.6039e-02 2.0320e-02 8.9352e-05 1.0234e-03 8.7745e-04 1.0506e+00 -6.1184e-06 7.1290e-02 -1.4479e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -456,7 +456,7 @@ 1 transp 1 0.04 777600 45 3.64907 8.98459 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5601e-05 2.3742e-04 1.0494e+00 -3.8772e-04 1.1039e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 777600 45 3.64932 8.98385 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4374e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2658e-04 3.5655e-05 2.3770e-04 1.0627e+00 8.3389e-08 7.0510e-02 3.6082e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 777600 45 3.65202 8.97578 9.6436e-03 1.0901e-02 1.0064e-01 5.3573e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4477e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2358e-04 3.6252e-05 2.4068e-04 1.0629e+00 6.2103e-07 7.1628e-02 2.3619e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 777600 45 3.68151 8.88737 9.6437e-03 1.0899e-02 1.0063e-01 5.3512e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5502e-03 6.0911e-05 3.4520e-04 1.6039e-02 2.1244e-02 6.9018e-04 4.3239e-05 2.7390e-04 1.0618e+00 1.3638e-05 7.2601e-02 1.9522e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 777600 45 3.68151 8.88737 9.6437e-03 1.0899e-02 1.0063e-01 5.3512e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5502e-03 6.0911e-05 3.4520e-04 1.6039e-02 2.1244e-02 6.9018e-04 4.3239e-05 2.7390e-04 1.0618e+00 1.3638e-05 7.2601e-02 1.9523e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 777600 45 3.88466 8.27821 9.6438e-03 1.0889e-02 1.0059e-01 5.3293e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0304e-04 2.9599e-03 6.0922e-05 3.4538e-04 1.6039e-02 2.1166e-02 4.4365e-04 1.2724e-04 5.2000e-04 1.0626e+00 2.3193e-04 7.2170e-02 8.6514e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 777600 45 4.57912 6.19583 9.6439e-03 1.0876e-02 1.0054e-01 5.3187e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3850e-03 6.0927e-05 3.4544e-04 1.6039e-02 1.8388e-02 2.8890e-05 3.0676e-03 9.3974e-04 1.0584e+00 6.2600e-05 7.2351e-02 1.0420e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 777600 45 4.60288 6.12463 9.6439e-03 1.0875e-02 1.0053e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.4011e-03 6.0925e-05 3.4541e-04 1.6039e-02 1.8093e-02 2.5879e-05 3.3808e-03 9.4289e-04 1.0610e+00 7.7378e-07 7.2305e-02 1.9346e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -490,7 +490,7 @@ 1 transp 5 0.36 829440 48 3.71164 8.79703 9.6437e-03 1.0897e-02 1.0062e-01 5.3460e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6419e-03 6.0912e-05 3.4522e-04 1.6039e-02 2.1237e-02 6.5475e-04 5.1429e-05 3.0917e-04 1.0629e+00 4.0893e-05 7.2174e-02 -2.9053e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 829440 48 4.36545 6.83638 9.6438e-03 1.0878e-02 1.0055e-01 5.3197e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2818e-03 6.0924e-05 3.4540e-04 1.6039e-02 2.0131e-02 7.5313e-05 1.2226e-03 8.9181e-04 1.0590e+00 2.9400e-04 7.2407e-02 2.0636e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 829440 48 4.58995 6.16336 9.6439e-03 1.0875e-02 1.0054e-01 5.3186e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3953e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.8254e-02 2.7454e-05 3.2096e-03 9.4124e-04 1.0610e+00 8.4067e-06 7.2309e-02 2.2112e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 829440 48 4.5445 6.29959 9.6439e-03 1.0876e-02 1.0054e-01 5.3189e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3684e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.8773e-02 3.3832e-05 2.6596e-03 9.3459e-04 1.0590e+00 -2.3536e-06 7.2248e-02 -5.7887e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 829440 48 4.5445 6.29959 9.6439e-03 1.0876e-02 1.0054e-01 5.3189e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3684e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.8773e-02 3.3832e-05 2.6596e-03 9.3459e-04 1.0590e+00 -2.3534e-06 7.2248e-02 -5.7887e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 829440 48 4.46223 6.54621 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3258e-03 6.0926e-05 3.4542e-04 1.6039e-02 1.9516e-02 4.9110e-05 1.8725e-03 9.1875e-04 1.0616e+00 -3.6856e-06 7.2437e-02 -9.9356e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 829440 48 4.38265 6.78482 9.6438e-03 1.0878e-02 1.0055e-01 5.3196e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2889e-03 6.0924e-05 3.4540e-04 1.6039e-02 2.0039e-02 6.9880e-05 1.3198e-03 8.9738e-04 1.0505e+00 -4.5083e-06 7.1281e-02 -1.1576e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 846720 49 3.64905 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0479e+00 -3.8773e-04 1.1389e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -569,7 +569,7 @@ 1 transp 4 0.28 967680 56 3.64946 8.98345 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4379e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2643e-04 3.5685e-05 2.3784e-04 1.0618e+00 1.6531e-07 7.2602e-02 7.1563e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 967680 56 3.6526 8.97404 9.6436e-03 1.0901e-02 1.0064e-01 5.3572e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4499e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2293e-04 3.6381e-05 2.4132e-04 1.0629e+00 1.0954e-06 7.2174e-02 4.3599e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 967680 56 3.68229 8.88501 9.6437e-03 1.0899e-02 1.0063e-01 5.3511e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5528e-03 6.0911e-05 3.4521e-04 1.6039e-02 2.1244e-02 6.8927e-04 4.3439e-05 2.7481e-04 1.0601e+00 1.4788e-05 7.2449e-02 1.1263e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 967680 56 3.87344 8.31186 9.6438e-03 1.0889e-02 1.0059e-01 5.3299e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0304e-04 2.9456e-03 6.0922e-05 3.4539e-04 1.6039e-02 2.1173e-02 4.5717e-04 1.2029e-04 5.0646e-04 1.0624e+00 2.1886e-04 7.2408e-02 8.2273e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 967680 56 3.87343 8.31186 9.6438e-03 1.0889e-02 1.0059e-01 5.3299e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0304e-04 2.9456e-03 6.0922e-05 3.4539e-04 1.6039e-02 2.1173e-02 4.5717e-04 1.2029e-04 5.0646e-04 1.0624e+00 2.1886e-04 7.2408e-02 8.2273e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 967680 56 4.48381 6.48153 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3325e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9345e-02 4.4619e-05 2.0533e-03 9.2339e-04 1.0591e+00 6.1860e-05 7.2266e-02 9.4508e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 967680 56 4.48909 6.4657 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3367e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.9300e-02 4.3550e-05 2.1012e-03 9.2450e-04 1.0616e+00 -6.1511e-07 7.2431e-02 -1.6777e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 967680 56 4.42852 6.64729 9.6438e-03 1.0877e-02 1.0055e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3089e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.9759e-02 5.7098e-05 1.6159e-03 9.1051e-04 1.0505e+00 -3.3905e-06 7.1273e-02 -9.0378e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -584,8 +584,8 @@ 1 transp 9 0.68 984960 57 4.48781 6.46954 9.6438e-03 1.0877e-02 1.0054e-01 5.3191e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3351e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9311e-02 4.3814e-05 2.0892e-03 9.2422e-04 1.0616e+00 1.1780e-06 7.2431e-02 3.1656e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 984960 57 4.43302 6.63378 9.6438e-03 1.0877e-02 1.0054e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3093e-03 6.0926e-05 3.4543e-04 1.6039e-02 1.9729e-02 5.5994e-05 1.6474e-03 9.1165e-04 1.0505e+00 -3.1605e-06 7.1272e-02 -8.4542e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.00224e+06 58 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0444e+00 -3.8773e-04 1.2175e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.00224e+06 58 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.0437e-09 7.0510e-02 4.5469e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.00224e+06 58 3.64907 8.98461 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5600e-05 2.3742e-04 1.0629e+00 8.6216e-09 7.1628e-02 3.7489e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.00224e+06 58 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.0437e-09 7.0510e-02 4.5468e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.00224e+06 58 3.64907 8.98461 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5600e-05 2.3742e-04 1.0629e+00 8.6217e-09 7.1628e-02 3.7489e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.00224e+06 58 3.64925 8.98408 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4371e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2667e-04 3.5638e-05 2.3761e-04 1.0618e+00 6.7043e-08 7.2602e-02 2.9090e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.00224e+06 58 3.65077 8.97951 9.6436e-03 1.0901e-02 1.0064e-01 5.3576e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4429e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2497e-04 3.5975e-05 2.3930e-04 1.0629e+00 6.7362e-07 7.2174e-02 2.8437e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.00224e+06 58 3.66171 8.94672 9.6437e-03 1.0901e-02 1.0064e-01 5.3552e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.4836e-03 6.0909e-05 3.4518e-04 1.6039e-02 2.1249e-02 7.1271e-04 3.8455e-05 2.5149e-04 1.0601e+00 7.2621e-06 7.2449e-02 2.7431e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -594,8 +594,8 @@ 1 transp 9 0.68 1.00224e+06 58 4.48282 6.4845 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3334e-03 6.0928e-05 3.4546e-04 1.6039e-02 1.9353e-02 4.4801e-05 2.0453e-03 9.2320e-04 1.0616e+00 4.5079e-06 7.2433e-02 1.1939e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.00224e+06 58 4.43695 6.62201 9.6438e-03 1.0877e-02 1.0054e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3106e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9702e-02 5.5032e-05 1.6757e-03 9.1264e-04 1.0505e+00 -2.8336e-06 7.1271e-02 -7.5887e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.01952e+06 59 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0440e+00 -3.8773e-04 1.2262e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.01952e+06 59 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.9167e-10 7.0510e-02 3.0135e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.01952e+06 59 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0629e+00 5.6506e-09 7.1628e-02 2.4584e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.01952e+06 59 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.9167e-10 7.0510e-02 3.0134e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.01952e+06 59 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0629e+00 5.6507e-09 7.1628e-02 2.4584e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.01952e+06 59 3.64918 8.98427 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4368e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2674e-04 3.5625e-05 2.3754e-04 1.0618e+00 4.9812e-08 7.2602e-02 2.1648e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.01952e+06 59 3.65015 8.98138 9.6436e-03 1.0901e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4405e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2566e-04 3.5837e-05 2.3861e-04 1.0629e+00 4.9806e-07 7.2174e-02 2.1363e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.01952e+06 59 3.65686 8.96126 9.6437e-03 1.0901e-02 1.0064e-01 5.3562e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4659e-03 6.0909e-05 3.4516e-04 1.6039e-02 2.1250e-02 7.1816e-04 3.7341e-05 2.4607e-04 1.0601e+00 4.0345e-06 7.2449e-02 1.6040e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -604,15 +604,15 @@ 1 transp 9 0.68 1.01952e+06 59 4.47191 6.5172 9.6438e-03 1.0877e-02 1.0054e-01 5.3192e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3279e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9442e-02 4.7057e-05 1.9512e-03 9.2087e-04 1.0616e+00 1.1473e-05 7.2435e-02 2.7676e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.01952e+06 59 4.44007 6.61266 9.6438e-03 1.0877e-02 1.0055e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3128e-03 6.0927e-05 3.4546e-04 1.6039e-02 1.9680e-02 5.4262e-05 1.6991e-03 9.1343e-04 1.0505e+00 -2.3338e-06 7.1271e-02 -6.2451e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.0368e+06 60 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0436e+00 -3.8773e-04 1.2350e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.0368e+06 60 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.5817e-10 7.0510e-02 1.9961e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.0368e+06 60 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0629e+00 3.9329e-09 7.1628e-02 1.7119e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.0368e+06 60 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.5816e-10 7.0510e-02 1.9961e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.0368e+06 60 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0629e+00 3.9328e-09 7.1628e-02 1.7119e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.0368e+06 60 3.64914 8.98441 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4366e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2679e-04 3.5615e-05 2.3749e-04 1.0618e+00 3.6585e-08 7.2602e-02 1.5890e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.0368e+06 60 3.64974 8.98259 9.6436e-03 1.0902e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4390e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2611e-04 3.5748e-05 2.3816e-04 1.0629e+00 3.2223e-07 7.2174e-02 1.3911e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.0368e+06 60 3.65422 8.96918 9.6436e-03 1.0901e-02 1.0064e-01 5.3568e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4560e-03 6.0908e-05 3.4516e-04 1.6039e-02 2.1250e-02 7.2112e-04 3.6744e-05 2.4312e-04 1.0601e+00 2.1799e-06 7.2450e-02 8.7653e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.0368e+06 60 3.69214 8.85548 9.6437e-03 1.0898e-02 1.0063e-01 5.3493e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5833e-03 6.0912e-05 3.4521e-04 1.6039e-02 2.1242e-02 6.7786e-04 4.5990e-05 2.8616e-04 1.0626e+00 2.0624e-05 7.2412e-02 -4.1510e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.0368e+06 60 3.69214 8.85548 9.6437e-03 1.0898e-02 1.0063e-01 5.3493e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5833e-03 6.0912e-05 3.4521e-04 1.6039e-02 2.1242e-02 6.7786e-04 4.5990e-05 2.8616e-04 1.0626e+00 2.0624e-05 7.2412e-02 -4.1509e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.0368e+06 60 3.97501 8.00723 9.6438e-03 1.0886e-02 1.0057e-01 5.3254e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.0512e-03 6.0924e-05 3.4541e-04 1.6039e-02 2.1100e-02 3.4055e-04 1.9810e-04 6.2343e-04 1.0600e+00 2.6212e-04 7.2327e-02 1.1710e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.0368e+06 60 4.45008 6.58264 9.6438e-03 1.0877e-02 1.0054e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3154e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9609e-02 5.1922e-05 1.7739e-03 9.1585e-04 1.0617e+00 3.0987e-05 7.2441e-02 5.7500e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.0368e+06 60 4.44214 6.60644 9.6438e-03 1.0877e-02 1.0054e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3132e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9666e-02 5.3772e-05 1.7143e-03 9.1394e-04 1.0505e+00 -1.5309e-06 7.1270e-02 -4.0960e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.0368e+06 60 4.44214 6.60644 9.6438e-03 1.0877e-02 1.0054e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3132e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9666e-02 5.3772e-05 1.7143e-03 9.1394e-04 1.0505e+00 -1.5309e-06 7.1270e-02 -4.0959e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.05408e+06 61 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0432e+00 -3.8773e-04 1.2437e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 2 0.12 1.05408e+06 61 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.1146e-10 7.0510e-02 1.3570e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 1.05408e+06 61 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0629e+00 2.7977e-09 7.1628e-02 1.2183e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -620,11 +620,11 @@ 1 transp 5 0.36 1.05408e+06 61 3.6495 8.98332 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4380e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2639e-04 3.5694e-05 2.3789e-04 1.0629e+00 1.9535e-07 7.2174e-02 8.4582e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.05408e+06 61 3.65264 8.97392 9.6436e-03 1.0901e-02 1.0064e-01 5.3572e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4501e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2289e-04 3.6390e-05 2.4137e-04 1.0601e+00 1.2936e-06 7.2450e-02 5.2513e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.05408e+06 61 3.67845 8.89654 9.6437e-03 1.0899e-02 1.0063e-01 5.3518e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5406e-03 6.0911e-05 3.4521e-04 1.6039e-02 2.1245e-02 6.9367e-04 4.2477e-05 2.7042e-04 1.0626e+00 1.4273e-05 7.2413e-02 2.8958e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.05408e+06 61 3.82396 8.46023 9.6438e-03 1.0891e-02 1.0060e-01 5.3333e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.8757e-03 6.0921e-05 3.4537e-04 1.6039e-02 2.1198e-02 5.1766e-04 9.3652e-05 4.4594e-04 1.0602e+00 1.7391e-04 7.2333e-02 6.0609e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.05408e+06 61 3.82396 8.46023 9.6438e-03 1.0891e-02 1.0060e-01 5.3333e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.8757e-03 6.0921e-05 3.4537e-04 1.6039e-02 2.1198e-02 5.1766e-04 9.3652e-05 4.4594e-04 1.0602e+00 1.7391e-04 7.2333e-02 6.0608e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.05408e+06 61 4.40564 6.71589 9.6438e-03 1.0878e-02 1.0055e-01 5.3195e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2942e-03 6.0928e-05 3.4547e-04 1.6039e-02 1.9907e-02 6.3259e-05 1.4593e-03 9.0417e-04 1.0617e+00 8.6782e-05 7.2452e-02 1.0659e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.05408e+06 61 4.44241 6.60565 9.6438e-03 1.0877e-02 1.0054e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3116e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9665e-02 5.3735e-05 1.7154e-03 9.1398e-04 1.0505e+00 -1.1436e-07 7.1270e-02 -3.2473e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.05408e+06 61 4.44241 6.60565 9.6438e-03 1.0877e-02 1.0054e-01 5.3193e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3116e-03 6.0927e-05 3.4545e-04 1.6039e-02 1.9665e-02 5.3735e-05 1.7154e-03 9.1398e-04 1.0505e+00 -1.1436e-07 7.1270e-02 -3.2472e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.07136e+06 62 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0428e+00 -3.8773e-04 1.2525e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.07136e+06 62 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.1618e-10 7.0510e-02 9.4204e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.07136e+06 62 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.1618e-10 7.0510e-02 9.4206e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 1.07136e+06 62 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0629e+00 1.9474e-09 7.1628e-02 8.4822e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.07136e+06 62 3.64909 8.98456 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2685e-04 3.5603e-05 2.3743e-04 1.0618e+00 1.6321e-08 7.2602e-02 7.0893e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.07136e+06 62 3.64935 8.98377 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4375e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2655e-04 3.5661e-05 2.3773e-04 1.0629e+00 1.1924e-07 7.2174e-02 5.1706e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -634,28 +634,28 @@ 1 transp 9 0.68 1.07136e+06 62 4.32139 6.96849 9.6438e-03 1.0879e-02 1.0055e-01 5.3200e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2563e-03 6.0927e-05 3.4546e-04 1.6039e-02 2.0341e-02 9.1222e-05 1.0012e-03 8.7553e-04 1.0619e+00 1.7935e-04 7.2467e-02 1.5049e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.07136e+06 62 4.43916 6.61539 9.6438e-03 1.0877e-02 1.0054e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3101e-03 6.0928e-05 3.4547e-04 1.6039e-02 1.9688e-02 5.4519e-05 1.6912e-03 9.1317e-04 1.0505e+00 2.7167e-06 7.1271e-02 6.9443e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.08864e+06 63 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0424e+00 -3.8773e-04 1.2612e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.08864e+06 63 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.4996e-10 7.0510e-02 6.5315e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.08864e+06 63 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3109e-09 7.1628e-02 5.7104e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.08864e+06 63 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.4996e-10 7.0510e-02 6.5312e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.08864e+06 63 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3109e-09 7.1628e-02 5.7105e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.08864e+06 63 3.64907 8.9846 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5600e-05 2.3742e-04 1.0618e+00 1.0389e-08 7.2602e-02 4.5173e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.08864e+06 63 3.64925 8.98407 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4371e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2666e-04 3.5639e-05 2.3762e-04 1.0629e+00 7.8840e-08 7.2174e-02 3.4238e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.08864e+06 63 3.65062 8.97996 9.6436e-03 1.0901e-02 1.0064e-01 5.3576e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4424e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2514e-04 3.5942e-05 2.3913e-04 1.0601e+00 6.9858e-07 7.2450e-02 2.9758e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.08864e+06 63 3.65972 8.95268 9.6437e-03 1.0901e-02 1.0064e-01 5.3556e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.4764e-03 6.0909e-05 3.4517e-04 1.6039e-02 2.1249e-02 7.1495e-04 3.7995e-05 2.4926e-04 1.0626e+00 6.0888e-06 7.2413e-02 2.3810e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.08864e+06 63 3.71564 8.78503 9.6437e-03 1.0897e-02 1.0062e-01 5.3454e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6513e-03 6.0914e-05 3.4525e-04 1.6039e-02 2.1236e-02 6.5011e-04 5.2569e-05 3.1379e-04 1.0603e+00 4.5033e-05 7.2336e-02 4.2983e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.08864e+06 63 4.17938 7.39432 9.6438e-03 1.0881e-02 1.0056e-01 5.3212e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1866e-03 6.0926e-05 3.4544e-04 1.6039e-02 2.0795e-02 1.6388e-04 5.2169e-04 8.0163e-04 1.0622e+00 2.4963e-04 7.2482e-02 1.5564e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.08864e+06 63 4.17938 7.39433 9.6438e-03 1.0881e-02 1.0056e-01 5.3212e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1866e-03 6.0926e-05 3.4544e-04 1.6039e-02 2.0795e-02 1.6388e-04 5.2169e-04 8.0163e-04 1.0622e+00 2.4963e-04 7.2482e-02 1.5564e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.08864e+06 63 4.42967 6.64383 9.6438e-03 1.0877e-02 1.0055e-01 5.3194e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.3059e-03 6.0928e-05 3.4547e-04 1.6039e-02 1.9753e-02 5.6864e-05 1.6225e-03 9.1075e-04 1.0505e+00 9.0966e-06 7.1273e-02 2.1101e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.10592e+06 64 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0420e+00 -3.8773e-04 1.2699e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.10592e+06 64 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.0236e-10 7.0510e-02 4.4586e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.10592e+06 64 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.0235e-10 7.0510e-02 4.4590e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 1.10592e+06 64 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.6215e-10 7.1628e-02 3.7561e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.10592e+06 64 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0618e+00 6.7678e-09 7.2602e-02 2.9447e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.10592e+06 64 3.64918 8.98428 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4368e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2674e-04 3.5624e-05 2.3754e-04 1.0629e+00 5.5276e-08 7.2174e-02 2.4037e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.10592e+06 64 3.65003 8.98173 9.6436e-03 1.0902e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4401e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2580e-04 3.5811e-05 2.3848e-04 1.0601e+00 4.7197e-07 7.2450e-02 2.0319e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.10592e+06 64 3.6557 8.96472 9.6437e-03 1.0901e-02 1.0064e-01 5.3565e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4616e-03 6.0908e-05 3.4516e-04 1.6039e-02 2.1250e-02 7.1946e-04 3.7079e-05 2.4478e-04 1.0626e+00 3.3181e-06 7.2413e-02 1.3383e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.10592e+06 64 3.6557 8.96473 9.6437e-03 1.0901e-02 1.0064e-01 5.3565e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4616e-03 6.0908e-05 3.4516e-04 1.6039e-02 2.1250e-02 7.1946e-04 3.7079e-05 2.4478e-04 1.0626e+00 3.3181e-06 7.2413e-02 1.3383e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.10592e+06 64 3.69672 8.84176 9.6437e-03 1.0898e-02 1.0062e-01 5.3485e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5972e-03 6.0912e-05 3.4523e-04 1.6039e-02 2.1241e-02 6.7250e-04 4.7217e-05 2.9149e-04 1.0603e+00 2.5091e-05 7.2336e-02 1.2479e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.10592e+06 64 3.9876 7.96948 9.6438e-03 1.0885e-02 1.0057e-01 5.3250e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.0617e-03 6.0925e-05 3.4543e-04 1.6039e-02 2.1088e-02 3.2720e-04 2.1050e-04 6.3684e-04 1.0624e+00 2.5151e-04 7.2494e-02 1.1686e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.10592e+06 64 4.40836 6.70773 9.6438e-03 1.0877e-02 1.0055e-01 5.3195e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2944e-03 6.0928e-05 3.4547e-04 1.6039e-02 1.9891e-02 6.2521e-05 1.4765e-03 9.0493e-04 1.0505e+00 2.6983e-05 7.1278e-02 4.8788e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.1232e+06 65 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0417e+00 -3.8773e-04 1.2787e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.1232e+06 65 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.8713e-11 7.0510e-02 2.9911e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.1232e+06 65 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.6671e-10 7.1628e-02 2.4692e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.1232e+06 65 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.8698e-11 7.0510e-02 2.9917e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.1232e+06 65 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.6670e-10 7.1628e-02 2.4692e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.1232e+06 65 3.64906 8.98464 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0618e+00 4.5641e-09 7.2602e-02 1.9869e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.1232e+06 65 3.64913 8.98442 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4366e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2679e-04 3.5614e-05 2.3749e-04 1.0629e+00 3.7848e-08 7.2174e-02 1.6450e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.1232e+06 65 3.64966 8.98283 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4387e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2620e-04 3.5730e-05 2.3807e-04 1.0601e+00 2.9196e-07 7.2450e-02 1.2627e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -664,19 +664,19 @@ 1 transp 9 0.68 1.1232e+06 65 3.83312 8.43275 9.6438e-03 1.0891e-02 1.0060e-01 5.3326e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.8897e-03 6.0922e-05 3.4539e-04 1.6039e-02 2.1193e-02 5.0639e-04 9.8137e-05 4.5721e-04 1.0626e+00 1.7618e-04 7.2501e-02 6.3797e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.1232e+06 65 4.36209 6.84647 9.6438e-03 1.0878e-02 1.0055e-01 5.3198e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2728e-03 6.0928e-05 3.4548e-04 1.6039e-02 2.0151e-02 7.6582e-05 1.2017e-03 8.9050e-04 1.0506e+00 7.8312e-05 7.1287e-02 9.5303e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.14048e+06 66 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0413e+00 -3.8773e-04 1.2874e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.14048e+06 66 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.5755e-11 7.0510e-02 1.9910e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.14048e+06 66 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.5739e-11 7.0510e-02 1.9919e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 3 0.2 1.14048e+06 66 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.7775e-10 7.1628e-02 1.6459e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.14048e+06 66 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0618e+00 3.0918e-09 7.2602e-02 1.3465e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.14048e+06 66 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0618e+00 3.0919e-09 7.2602e-02 1.3465e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.14048e+06 66 3.6491 8.98451 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4365e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2683e-04 3.5607e-05 2.3745e-04 1.0629e+00 2.4705e-08 7.2174e-02 1.0739e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.14048e+06 66 3.64944 8.98349 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4378e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2645e-04 3.5682e-05 2.3783e-04 1.0601e+00 1.7621e-07 7.2450e-02 7.6389e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.14048e+06 66 3.65192 8.97605 9.6436e-03 1.0901e-02 1.0064e-01 5.3573e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4473e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2369e-04 3.6231e-05 2.4058e-04 1.0626e+00 1.2125e-06 7.2413e-02 5.0618e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.14048e+06 66 3.66864 8.92595 9.6437e-03 1.0900e-02 1.0063e-01 5.3537e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5080e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1247e-02 7.0486e-04 4.0086e-05 2.5929e-04 1.0604e+00 1.1185e-05 7.2337e-02 3.8663e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.14048e+06 66 3.75326 8.67223 9.6437e-03 1.0895e-02 1.0061e-01 5.3403e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7435e-03 6.0917e-05 3.4531e-04 1.6039e-02 2.1225e-02 6.0470e-04 6.4632e-05 3.5905e-04 1.0627e+00 9.1785e-05 7.2503e-02 2.4276e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.14048e+06 66 3.75326 8.67223 9.6437e-03 1.0895e-02 1.0061e-01 5.3403e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7435e-03 6.0917e-05 3.4531e-04 1.6039e-02 2.1225e-02 6.0470e-04 6.4632e-05 3.5905e-04 1.0627e+00 9.1784e-05 7.2503e-02 2.4276e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.14048e+06 66 4.26961 7.12377 9.6438e-03 1.0879e-02 1.0055e-01 5.3204e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.2309e-03 6.0928e-05 3.4548e-04 1.6039e-02 2.0540e-02 1.1358e-04 7.9084e-04 8.5272e-04 1.0508e+00 1.6730e-04 7.1301e-02 1.3850e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.15776e+06 67 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0409e+00 -3.8773e-04 1.2961e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.15776e+06 67 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.0508e-11 7.0510e-02 1.3293e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.15776e+06 67 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.5368e-10 7.1628e-02 1.1052e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.15776e+06 67 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0618e+00 2.0555e-09 7.2602e-02 8.9536e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.15776e+06 67 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.0525e-11 7.0510e-02 1.3289e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.15776e+06 67 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.5370e-10 7.1628e-02 1.1052e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.15776e+06 67 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0618e+00 2.0555e-09 7.2602e-02 8.9535e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.15776e+06 67 3.64908 8.98457 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2685e-04 3.5602e-05 2.3743e-04 1.0629e+00 1.5649e-08 7.2174e-02 6.8006e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.15776e+06 67 3.6493 8.98391 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4373e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2660e-04 3.5651e-05 2.3767e-04 1.0601e+00 1.1089e-07 7.2450e-02 4.8151e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.15776e+06 67 3.65087 8.97922 9.6436e-03 1.0901e-02 1.0064e-01 5.3576e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4433e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2486e-04 3.5996e-05 2.3940e-04 1.0626e+00 8.4934e-07 7.2413e-02 3.6172e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -684,8 +684,8 @@ 1 transp 9 0.68 1.15776e+06 67 3.71632 8.783 9.6437e-03 1.0897e-02 1.0062e-01 5.3453e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6528e-03 6.0914e-05 3.4526e-04 1.6039e-02 2.1236e-02 6.4932e-04 5.2763e-05 3.1457e-04 1.0627e+00 4.5647e-05 7.2504e-02 6.6047e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.15776e+06 67 4.10934 7.60437 9.6438e-03 1.0882e-02 1.0056e-01 5.3222e-02 1.3603e-03 1.0659e-02 4.1418e-03 2.0304e-04 3.1460e-03 6.0926e-05 3.4545e-04 1.6039e-02 2.0932e-02 2.1441e-04 3.7576e-04 7.5049e-04 1.0510e+00 2.3567e-04 7.1315e-02 1.4273e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.17504e+06 68 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0405e+00 -3.8773e-04 1.3049e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.17504e+06 68 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.0443e-11 7.0510e-02 8.9001e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.17504e+06 68 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.6944e-10 7.1628e-02 7.3830e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.17504e+06 68 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.0450e-11 7.0510e-02 8.8968e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.17504e+06 68 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.6945e-10 7.1628e-02 7.3829e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 4 0.28 1.17504e+06 68 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.3384e-09 7.2602e-02 5.8308e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.17504e+06 68 3.64907 8.98461 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5600e-05 2.3742e-04 1.0629e+00 9.9428e-09 7.2174e-02 4.3250e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.17504e+06 68 3.64921 8.98419 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4369e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2671e-04 3.5631e-05 2.3757e-04 1.0601e+00 7.3307e-08 7.2450e-02 3.1876e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -694,19 +694,19 @@ 1 transp 9 0.68 1.17504e+06 68 3.69483 8.84742 9.6437e-03 1.0898e-02 1.0063e-01 5.3488e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5917e-03 6.0913e-05 3.4523e-04 1.6039e-02 2.1241e-02 6.7470e-04 4.6711e-05 2.8930e-04 1.0628e+00 2.4851e-05 7.2504e-02 3.6210e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.17504e+06 68 3.90999 8.20225 9.6438e-03 1.0888e-02 1.0058e-01 5.3280e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0304e-04 2.9876e-03 6.0925e-05 3.4545e-04 1.6039e-02 2.1150e-02 4.1375e-04 1.4418e-04 5.4996e-04 1.0512e+00 2.2519e-04 7.1326e-02 1.0634e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.19232e+06 69 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0401e+00 -3.8773e-04 1.3136e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.19232e+06 69 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.3693e-11 7.0510e-02 5.9469e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.19232e+06 69 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1193e-10 7.1628e-02 4.8745e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.19232e+06 69 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 8.6459e-10 7.2602e-02 3.7668e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.19232e+06 69 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0629e+00 6.4465e-09 7.2174e-02 2.8059e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.19232e+06 69 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.3671e-11 7.0510e-02 5.9523e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.19232e+06 69 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1192e-10 7.1628e-02 4.8746e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.19232e+06 69 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 8.6457e-10 7.2602e-02 3.7669e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.19232e+06 69 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0629e+00 6.4464e-09 7.2174e-02 2.8059e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.19232e+06 69 3.64915 8.98437 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4367e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2677e-04 3.5617e-05 2.3751e-04 1.0601e+00 4.8192e-08 7.2450e-02 2.0943e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.19232e+06 69 3.64974 8.98261 9.6436e-03 1.0902e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4390e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2612e-04 3.5747e-05 2.3816e-04 1.0626e+00 3.4228e-07 7.2413e-02 1.4804e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.19232e+06 69 3.65355 8.97117 9.6436e-03 1.0901e-02 1.0064e-01 5.3570e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4535e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2187e-04 3.6595e-05 2.4238e-04 1.0604e+00 2.1132e-06 7.2337e-02 8.7280e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.19232e+06 69 3.67761 8.89905 9.6437e-03 1.0899e-02 1.0063e-01 5.3520e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5381e-03 6.0911e-05 3.4521e-04 1.6039e-02 2.1245e-02 6.9462e-04 4.2272e-05 2.6949e-04 1.0628e+00 1.6209e-05 7.2504e-02 4.9055e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.19232e+06 69 3.76854 8.62642 9.6437e-03 1.0894e-02 1.0061e-01 5.3385e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7762e-03 6.0921e-05 3.4538e-04 1.6039e-02 2.1219e-02 5.8600e-04 7.0144e-05 3.7771e-04 1.0514e+00 1.3815e-04 7.1332e-02 6.0185e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.19232e+06 69 3.76854 8.62642 9.6437e-03 1.0894e-02 1.0061e-01 5.3385e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.7762e-03 6.0921e-05 3.4538e-04 1.6039e-02 2.1219e-02 5.8600e-04 7.0144e-05 3.7770e-04 1.0514e+00 1.3815e-04 7.1332e-02 6.0185e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.2096e+06 70 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0397e+00 -3.8773e-04 1.3224e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.2096e+06 70 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.0601e-12 7.0510e-02 3.9650e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.2096e+06 70 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.3271e-11 7.1628e-02 3.1915e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.2096e+06 70 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.6082e-10 7.2602e-02 2.4436e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.2096e+06 70 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.0576e-12 7.0510e-02 3.9667e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.2096e+06 70 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.3257e-11 7.1628e-02 3.1917e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.2096e+06 70 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.6085e-10 7.2602e-02 2.4436e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.2096e+06 70 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0629e+00 4.2039e-09 7.2174e-02 1.8306e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.2096e+06 70 3.64911 8.98448 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4365e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2682e-04 3.5609e-05 2.3746e-04 1.0601e+00 3.0708e-08 7.2450e-02 1.3347e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.2096e+06 70 3.64948 8.98338 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4380e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2641e-04 3.5690e-05 2.3787e-04 1.0626e+00 2.0619e-07 7.2413e-02 8.9418e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -714,9 +714,9 @@ 1 transp 9 0.68 1.2096e+06 70 3.66487 8.93726 9.6437e-03 1.0900e-02 1.0064e-01 5.3545e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.4948e-03 6.0910e-05 3.4519e-04 1.6039e-02 2.1248e-02 7.0914e-04 3.9192e-05 2.5504e-04 1.0628e+00 1.0807e-05 7.2505e-02 4.2571e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.2096e+06 70 3.70082 8.82948 9.6437e-03 1.0898e-02 1.0063e-01 5.3478e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.6105e-03 6.0915e-05 3.4527e-04 1.6039e-02 2.1240e-02 6.6760e-04 4.8358e-05 2.9637e-04 1.0514e+00 5.9913e-05 7.1335e-02 2.6137e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0393e+00 -3.8773e-04 1.3311e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 5.9848e-12 7.0510e-02 2.6221e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.7839e-11 7.1628e-02 2.0843e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.6506e-10 7.2602e-02 1.5906e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 5.9897e-12 7.0510e-02 2.6233e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.7842e-11 7.1628e-02 2.0842e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.22688e+06 71 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.6507e-10 7.2602e-02 1.5905e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.22688e+06 71 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0629e+00 2.7126e-09 7.2174e-02 1.1815e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.22688e+06 71 3.64909 8.98456 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2684e-04 3.5604e-05 2.3744e-04 1.0601e+00 1.9176e-08 7.2450e-02 8.3323e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.22688e+06 71 3.64932 8.98387 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4373e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2659e-04 3.5654e-05 2.3769e-04 1.0626e+00 1.2892e-07 7.2414e-02 5.6011e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -724,19 +724,19 @@ 1 transp 9 0.68 1.22688e+06 71 3.65732 8.95987 9.6437e-03 1.0901e-02 1.0064e-01 5.3561e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4676e-03 6.0909e-05 3.4517e-04 1.6039e-02 2.1250e-02 7.1764e-04 3.7446e-05 2.4658e-04 1.0628e+00 6.1650e-06 7.2505e-02 2.5962e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.22688e+06 71 3.67233 8.91487 9.6437e-03 1.0900e-02 1.0063e-01 5.3530e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.5208e-03 6.0911e-05 3.4521e-04 1.6039e-02 2.1247e-02 7.0063e-04 4.0980e-05 2.6350e-04 1.0515e+00 2.3770e-05 7.1336e-02 1.0395e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0389e+00 -3.8773e-04 1.3398e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.9369e-12 7.0510e-02 1.7274e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.1225e-11 7.1628e-02 1.3615e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.3680e-10 7.2602e-02 1.0319e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.9302e-12 7.0510e-02 1.7294e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.1231e-11 7.1628e-02 1.3613e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.24416e+06 72 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.3681e-10 7.2602e-02 1.0318e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.24416e+06 72 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.7279e-09 7.2174e-02 7.5270e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.24416e+06 72 3.64907 8.9846 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5600e-05 2.3742e-04 1.0601e+00 1.2034e-08 7.2450e-02 5.2347e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.24416e+06 72 3.64921 8.98418 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4369e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2671e-04 3.5631e-05 2.3757e-04 1.0626e+00 8.3092e-08 7.2414e-02 3.6147e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.24416e+06 72 3.65001 8.9818 9.6436e-03 1.0902e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4400e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2582e-04 3.5806e-05 2.3845e-04 1.0604e+00 5.7166e-07 7.2337e-02 2.4739e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.24416e+06 72 3.65333 8.97185 9.6436e-03 1.0901e-02 1.0064e-01 5.3570e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4527e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2212e-04 3.6544e-05 2.4213e-04 1.0628e+00 3.2174e-06 7.2505e-02 1.3829e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.24416e+06 72 3.66006 8.95165 9.6437e-03 1.0901e-02 1.0064e-01 5.3555e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.4777e-03 6.0909e-05 3.4517e-04 1.6039e-02 2.1249e-02 7.1456e-04 3.8075e-05 2.4965e-04 1.0515e+00 9.9685e-06 7.1336e-02 4.3560e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.24416e+06 72 3.66006 8.95165 9.6437e-03 1.0901e-02 1.0064e-01 5.3555e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0303e-04 2.4777e-03 6.0909e-05 3.4517e-04 1.6039e-02 2.1249e-02 7.1456e-04 3.8075e-05 2.4965e-04 1.0515e+00 9.9685e-06 7.1336e-02 4.3559e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0386e+00 -3.8773e-04 1.3486e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.5846e-12 7.0510e-02 1.1312e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.0345e-11 7.1628e-02 8.8729e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.5250e-10 7.2602e-02 6.6472e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.6079e-12 7.0510e-02 1.1255e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.0352e-11 7.1628e-02 8.8711e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.26144e+06 73 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.5253e-10 7.2602e-02 6.6459e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.26144e+06 73 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0963e-09 7.2174e-02 4.7760e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.26144e+06 73 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0601e+00 7.6522e-09 7.2450e-02 3.3309e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.26144e+06 73 3.64915 8.98438 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4367e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2678e-04 3.5616e-05 2.3750e-04 1.0626e+00 5.2790e-08 7.2414e-02 2.2959e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -744,9 +744,9 @@ 1 transp 9 0.68 1.26144e+06 73 3.65127 8.97802 9.6436e-03 1.0901e-02 1.0064e-01 5.3575e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4448e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2442e-04 3.6086e-05 2.3985e-04 1.0628e+00 1.6433e-06 7.2505e-02 7.1171e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.26144e+06 73 3.65447 8.96844 9.6436e-03 1.0901e-02 1.0064e-01 5.3568e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4570e-03 6.0908e-05 3.4516e-04 1.6039e-02 2.1250e-02 7.2085e-04 3.6800e-05 2.4340e-04 1.0515e+00 4.4944e-06 7.1336e-02 1.9618e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0382e+00 -3.8773e-04 1.3573e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.6869e-12 7.0510e-02 7.4094e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3199e-11 7.1628e-02 5.7589e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 9.7759e-11 7.2602e-02 4.2586e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.6946e-12 7.0510e-02 7.3511e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3210e-11 7.1628e-02 5.7572e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.27872e+06 74 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 9.7757e-11 7.2602e-02 4.2584e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.27872e+06 74 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.9753e-10 7.2174e-02 3.0391e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.27872e+06 74 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0601e+00 4.8635e-09 7.2450e-02 2.1179e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.27872e+06 74 3.64911 8.9845 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4365e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2682e-04 3.5607e-05 2.3746e-04 1.0626e+00 3.2517e-08 7.2414e-02 1.4146e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -754,19 +754,19 @@ 1 transp 9 0.68 1.27872e+06 74 3.65021 8.98119 9.6436e-03 1.0901e-02 1.0064e-01 5.3577e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4408e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2559e-04 3.5851e-05 2.3868e-04 1.0628e+00 8.4241e-07 7.2505e-02 3.6603e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.27872e+06 74 3.65179 8.97647 9.6436e-03 1.0901e-02 1.0064e-01 5.3574e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4468e-03 6.0908e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2384e-04 3.6200e-05 2.4042e-04 1.0515e+00 2.1388e-06 7.1337e-02 9.3288e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0378e+00 -3.8773e-04 1.3660e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.1176e-12 7.0510e-02 4.7989e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.5165e-12 7.1628e-02 3.7226e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.2543e-11 7.2602e-02 2.7250e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.4405e-10 7.2174e-02 1.9347e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.1022e-12 7.0510e-02 4.8281e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.5167e-12 7.1628e-02 3.7194e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.2546e-11 7.2602e-02 2.7251e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.296e+06 75 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.4403e-10 7.2174e-02 1.9347e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.296e+06 75 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0601e+00 3.0523e-09 7.2450e-02 1.3296e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.296e+06 75 3.64908 8.98458 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2685e-04 3.5602e-05 2.3743e-04 1.0626e+00 1.9492e-08 7.2414e-02 8.4783e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.296e+06 75 3.64921 8.98418 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4369e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2671e-04 3.5631e-05 2.3757e-04 1.0604e+00 1.0609e-07 7.2337e-02 4.6151e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.296e+06 75 3.64966 8.98283 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4387e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2620e-04 3.5730e-05 2.3807e-04 1.0628e+00 4.3635e-07 7.2505e-02 1.8987e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.296e+06 75 3.65046 8.98044 9.6436e-03 1.0901e-02 1.0064e-01 5.3577e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4417e-03 6.0907e-05 3.4515e-04 1.6039e-02 2.1251e-02 7.2532e-04 3.5906e-05 2.3895e-04 1.0515e+00 1.0562e-06 7.1337e-02 4.6047e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0374e+00 -3.8773e-04 1.3748e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.1942e-13 7.0510e-02 3.1336e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.5020e-12 7.1628e-02 2.3953e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 4.0002e-11 7.2602e-02 1.7411e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.1254e-13 7.0510e-02 3.1447e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.4869e-12 7.1628e-02 2.3982e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 4.0019e-11 7.2602e-02 1.7403e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.31328e+06 76 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.8123e-10 7.2174e-02 1.2251e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.31328e+06 76 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.8845e-09 7.2450e-02 8.2095e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.31328e+06 76 3.64907 8.98462 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5599e-05 2.3741e-04 1.0626e+00 1.1459e-08 7.2414e-02 4.9881e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -774,9 +774,9 @@ 1 transp 9 0.68 1.31328e+06 76 3.64938 8.98369 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4376e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2652e-04 3.5667e-05 2.3775e-04 1.0628e+00 2.2851e-07 7.2505e-02 9.9516e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.31328e+06 76 3.64979 8.98246 9.6436e-03 1.0902e-02 1.0064e-01 5.3578e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4391e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2607e-04 3.5757e-05 2.3821e-04 1.0515e+00 5.3523e-07 7.1337e-02 2.3330e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0370e+00 -3.8773e-04 1.3835e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.5408e-13 7.0510e-02 2.0609e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.5447e-12 7.1628e-02 1.5349e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.5502e-11 7.2602e-02 1.1094e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.6985e-13 7.0510e-02 2.0109e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.5278e-12 7.1628e-02 1.5402e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.5514e-11 7.2602e-02 1.1085e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 5 0.36 1.33056e+06 77 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.7646e-10 7.2174e-02 7.6875e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 6 0.44 1.33056e+06 77 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.1456e-09 7.2450e-02 4.9912e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.33056e+06 77 3.64906 8.98464 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0626e+00 6.6481e-09 7.2414e-02 2.8953e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -784,346 +784,346 @@ 1 transp 9 0.68 1.33056e+06 77 3.64922 8.98415 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4370e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2669e-04 3.5634e-05 2.3759e-04 1.0628e+00 1.2086e-07 7.2505e-02 5.2625e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.33056e+06 77 3.64944 8.9835 9.6436e-03 1.0902e-02 1.0064e-01 5.3579e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4378e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2645e-04 3.5681e-05 2.3782e-04 1.0515e+00 2.7641e-07 7.1337e-02 1.2045e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0366e+00 -3.8773e-04 1.3923e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.8999e-13 7.0510e-02 1.3545e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.2529e-12 7.1628e-02 9.8657e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.6143e-11 7.2602e-02 7.0390e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0956e-10 7.2174e-02 4.7720e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.34784e+06 78 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 6.8752e-10 7.2450e-02 2.9957e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.0376e-13 7.0510e-02 1.2851e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.2811e-12 7.1628e-02 9.7949e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.6149e-11 7.2602e-02 7.0334e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.34784e+06 78 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0959e-10 7.2174e-02 4.7711e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.34784e+06 78 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 6.8753e-10 7.2450e-02 2.9957e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.34784e+06 78 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0626e+00 3.8241e-09 7.2414e-02 1.6658e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.34784e+06 78 3.64907 8.98459 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5601e-05 2.3742e-04 1.0604e+00 1.7849e-08 7.2337e-02 7.7695e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.34784e+06 78 3.64914 8.98439 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4367e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2678e-04 3.5616e-05 2.3750e-04 1.0628e+00 6.4478e-08 7.2505e-02 2.8081e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.34784e+06 78 3.64926 8.98405 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4371e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2666e-04 3.5641e-05 2.3762e-04 1.0515e+00 1.4480e-07 7.1337e-02 6.3095e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0362e+00 -3.8773e-04 1.4010e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.0028e-13 7.0510e-02 8.2434e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4486e-12 7.1628e-02 6.2811e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.0155e-11 7.2602e-02 4.4302e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.7317e-11 7.2174e-02 2.9311e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.0845e-10 7.2450e-02 1.7797e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.36512e+06 79 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.1873e-09 7.2414e-02 9.5297e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.9851e-13 7.0510e-02 8.4377e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4626e-12 7.1628e-02 6.2075e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.0153e-11 7.2602e-02 4.4312e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.7294e-11 7.2174e-02 2.9316e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.36512e+06 79 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.0848e-10 7.2450e-02 1.7795e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.36512e+06 79 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.1873e-09 7.2414e-02 9.5298e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.36512e+06 79 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0604e+00 9.8555e-09 7.2337e-02 4.2921e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.36512e+06 79 3.6491 8.98452 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4365e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2683e-04 3.5606e-05 2.3745e-04 1.0628e+00 3.4654e-08 7.2505e-02 1.5096e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.36512e+06 79 3.64916 8.98434 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4367e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2676e-04 3.5619e-05 2.3752e-04 1.0515e+00 7.6714e-08 7.1337e-02 3.3427e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0358e+00 -3.8773e-04 1.4097e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.4566e-13 7.0510e-02 4.5519e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.3503e-13 7.1628e-02 3.9357e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.3256e-12 7.2602e-02 2.7725e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.0963e-11 7.2174e-02 1.7835e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4072e-10 7.2450e-02 1.0490e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.3856e-13 7.0510e-02 4.8433e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.2193e-13 7.1628e-02 3.9704e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.3547e-12 7.2602e-02 2.7638e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.0996e-11 7.2174e-02 1.7825e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.3824e+06 80 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4073e-10 7.2450e-02 1.0489e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 7 0.52 1.3824e+06 80 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.2466e-09 7.2414e-02 5.4320e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.3824e+06 80 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0604e+00 5.4514e-09 7.2337e-02 2.3747e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.3824e+06 80 3.64908 8.98459 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2686e-04 3.5601e-05 2.3742e-04 1.0628e+00 1.8744e-08 7.2505e-02 8.1619e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.3824e+06 80 3.64911 8.9845 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4365e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2682e-04 3.5608e-05 2.3746e-04 1.0515e+00 4.1012e-08 7.1337e-02 1.7858e-09 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0355e+00 -3.8773e-04 1.4185e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.7938e-14 7.0510e-02 3.1919e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.9752e-13 7.1628e-02 2.4564e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.9291e-12 7.2602e-02 1.7177e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.4738e-11 7.2174e-02 1.0758e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.4101e-10 7.2450e-02 6.1457e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.39968e+06 81 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.0896e-10 7.2414e-02 3.0892e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.1038e-14 7.0510e-02 2.9143e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.1662e-13 7.1628e-02 2.3939e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.9226e-12 7.2602e-02 1.7153e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.4741e-11 7.2174e-02 1.0756e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.39968e+06 81 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.4104e-10 7.2450e-02 6.1447e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.39968e+06 81 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.0897e-10 7.2414e-02 3.0891e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.39968e+06 81 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0604e+00 3.0215e-09 7.2337e-02 1.3164e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.39968e+06 81 3.64906 8.98463 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5598e-05 2.3741e-04 1.0628e+00 1.0195e-08 7.2505e-02 4.4406e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.39968e+06 81 3.64908 8.98458 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2685e-04 3.5602e-05 2.3743e-04 1.0515e+00 2.2090e-08 7.1337e-02 9.6217e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0351e+00 -3.8773e-04 1.4272e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.0840e-14 7.0510e-02 1.7070e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.9146e-13 7.1628e-02 1.4586e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.4225e-12 7.2602e-02 1.0528e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4818e-11 7.2174e-02 6.4548e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 8.2265e-11 7.2450e-02 3.5820e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.0264e-10 7.2414e-02 1.7545e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.41696e+06 82 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6781e-09 7.2337e-02 7.3121e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 6.3505e-14 7.0510e-02 1.4572e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.7792e-13 7.1628e-02 1.5030e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.4423e-12 7.2602e-02 1.0469e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4806e-11 7.2174e-02 6.4561e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 8.2291e-11 7.2450e-02 3.5807e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.41696e+06 82 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.0266e-10 7.2414e-02 1.7545e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.41696e+06 82 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6782e-09 7.2337e-02 7.3120e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.41696e+06 82 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0628e+00 5.5716e-09 7.2505e-02 2.4273e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.41696e+06 82 3.64906 8.98462 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4364e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2687e-04 3.5599e-05 2.3741e-04 1.0515e+00 1.1973e-08 7.1337e-02 5.2162e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0347e+00 -3.8773e-04 1.4360e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 5.0626e-14 7.0510e-02 6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.5779e-13 7.1628e-02 8.5071e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.4877e-12 7.2602e-02 6.3963e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.8081e-12 7.2174e-02 3.8540e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.7783e-11 7.2450e-02 2.0816e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.2858e-10 7.2414e-02 9.9562e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.9516e-14 7.0510e-02 4.8572e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.4647e-13 7.1628e-02 9.0761e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.5024e-12 7.2602e-02 6.3075e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.8265e-12 7.2174e-02 3.8498e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.7771e-11 7.2450e-02 2.0813e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.43424e+06 83 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.2856e-10 7.2414e-02 9.9566e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.43424e+06 83 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.3407e-10 7.2337e-02 4.0699e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.43424e+06 83 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0628e+00 3.0580e-09 7.2505e-02 1.3324e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.43424e+06 83 3.64906 8.98465 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5597e-05 2.3740e-04 1.0515e+00 6.5251e-09 7.1337e-02 2.8429e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0343e+00 -3.8773e-04 1.4447e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.3077e-14 7.0510e-02 -1.8041e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5676e-13 7.1628e-02 5.1903e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 9.2082e-13 7.2602e-02 3.8247e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.2425e-12 7.2174e-02 2.2825e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.7701e-11 7.2450e-02 1.2057e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.2972e-10 7.2414e-02 5.6475e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.9754e-14 7.0510e-02 2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5365e-13 7.1628e-02 5.3291e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 9.2104e-13 7.2602e-02 3.7859e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.2274e-12 7.2174e-02 2.2858e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.7705e-11 7.2450e-02 1.2056e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.2972e-10 7.2414e-02 5.6472e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 8 0.6 1.45152e+06 84 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.2093e-10 7.2337e-02 2.2700e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.45152e+06 84 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6848e-09 7.2505e-02 7.3406e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.45152e+06 84 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6847e-09 7.2505e-02 7.3407e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.45152e+06 84 3.64905 8.98466 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2688e-04 3.5596e-05 2.3740e-04 1.0515e+00 3.5726e-09 7.1337e-02 1.5567e-10 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0339e+00 -3.8773e-04 1.4534e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.5979e-14 7.0510e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1258e-13 7.1628e-02 2.7478e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.8464e-13 7.2602e-02 2.1649e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.0840e-12 7.2174e-02 1.3543e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.6023e-11 7.2450e-02 6.9707e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.3605e-11 7.2414e-02 3.2043e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.9111e-10 7.2337e-02 1.2684e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.4688e+06 85 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 9.3126e-10 7.2505e-02 4.0580e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.4688e+06 85 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.9641e-09 7.1337e-02 8.5583e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.2204e-15 7.0510e-02 6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.7041e-14 7.1628e-02 3.5388e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.5733e-13 7.2602e-02 2.2371e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.0689e-12 7.2174e-02 1.3584e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.6023e-11 7.2450e-02 6.9680e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.3613e-11 7.2414e-02 3.2039e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.4688e+06 85 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.9109e-10 7.2337e-02 1.2684e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.4688e+06 85 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 9.3124e-10 7.2505e-02 4.0580e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.4688e+06 85 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.9641e-09 7.1337e-02 8.5584e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0335e+00 -3.8773e-04 1.4622e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.1990e-14 7.0510e-02 -3.6082e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.3957e-14 7.1628e-02 1.8874e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.4239e-13 7.2602e-02 1.3115e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.8148e-12 7.2174e-02 7.9867e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 9.2402e-12 7.2450e-02 4.0276e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.1781e-11 7.2414e-02 1.8183e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6295e-10 7.2337e-02 7.1013e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.3323e-15 7.0510e-02 7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.4615e-14 7.1628e-02 1.5543e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.4173e-13 7.2602e-02 1.3115e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.7997e-12 7.2174e-02 8.0144e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 9.2428e-12 7.2450e-02 4.0236e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.1773e-11 7.2414e-02 1.8183e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6298e-10 7.2337e-02 7.1005e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 9 0.68 1.48608e+06 86 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.1634e-10 7.2505e-02 2.2500e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 10 0.76 1.48608e+06 86 3.64905 8.98467 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0837e-09 7.1337e-02 4.7223e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0331e+00 -3.8773e-04 1.4709e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.1982e-14 7.0510e-02 -4.9960e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.9968e-14 7.1628e-02 7.9103e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.0095e-13 7.2602e-02 7.7022e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0774e-12 7.2174e-02 4.6366e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 5.3100e-12 7.2450e-02 2.3306e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.3733e-11 7.2414e-02 1.0318e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.1426e-11 7.2337e-02 3.9812e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8709e-10 7.2505e-02 1.2509e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.9991e-10 7.1337e-02 2.6141e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.5987e-14 7.0510e-02 -2.7756e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.4853e-14 7.1628e-02 7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.0539e-13 7.2602e-02 7.6467e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0649e-12 7.2174e-02 4.6879e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 5.3288e-12 7.2450e-02 2.3186e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.3696e-11 7.2414e-02 1.0330e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.1416e-11 7.2337e-02 3.9808e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8707e-10 7.2505e-02 1.2510e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.50336e+06 87 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.9990e-10 7.1337e-02 2.6141e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0327e+00 -3.8773e-04 1.4796e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.4433e-14 7.0510e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.3529e-14 7.1628e-02 2.2204e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.1546e-13 7.2602e-02 4.7184e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.5570e-13 7.2174e-02 2.5951e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.0911e-12 7.2450e-02 1.3341e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.3483e-11 7.2414e-02 5.8607e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.1370e-11 7.2337e-02 2.2353e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6002e-10 7.2505e-02 6.9716e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.3307e-10 7.1337e-02 1.4513e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.4655e-14 7.0510e-02 -3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.9976e-14 7.1628e-02 3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.1524e-13 7.2602e-02 4.8017e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.4526e-13 7.2174e-02 2.6604e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.0760e-12 7.2450e-02 1.3345e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.3474e-11 7.2414e-02 5.8646e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.1378e-11 7.2337e-02 2.2347e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6001e-10 7.2505e-02 6.9715e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.52064e+06 88 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.3308e-10 7.1337e-02 1.4512e-11 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0324e+00 -3.8773e-04 1.4884e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -8.4377e-15 7.0510e-02 8.3267e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5987e-14 7.1628e-02 2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 7.2387e-14 7.2602e-02 2.7756e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.5905e-13 7.2174e-02 1.5640e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.7555e-12 7.2450e-02 7.7410e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.6650e-12 7.2414e-02 3.3308e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.8893e-11 7.2337e-02 1.2576e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.9400e-11 7.2505e-02 3.8940e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8539e-10 7.1337e-02 8.0785e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.3537e-14 7.0510e-02 -9.1593e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.9080e-14 7.1628e-02 -5.2736e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.1302e-13 7.2602e-02 1.5404e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.7925e-13 7.2174e-02 1.5057e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.7644e-12 7.2450e-02 7.7216e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 7.6363e-12 7.2414e-02 3.3390e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.8892e-11 7.2337e-02 1.2573e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.9414e-11 7.2505e-02 3.8933e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.53792e+06 89 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8539e-10 7.1337e-02 8.0782e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0320e+00 -3.8773e-04 1.4971e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.6645e-15 7.0510e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.5091e-14 7.1628e-02 -6.2450e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.9730e-14 7.2602e-02 9.2981e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.1472e-13 7.2174e-02 9.1038e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.0121e-12 7.2450e-02 4.4326e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.3447e-12 7.2414e-02 1.8964e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6303e-11 7.2337e-02 7.0768e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.0030e-11 7.2505e-02 2.1799e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0346e-10 7.1337e-02 4.5071e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.3259e-15 7.0510e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.7764e-15 7.1628e-02 2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.9746e-14 7.2602e-02 1.3739e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.2982e-13 7.2174e-02 8.9512e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.0250e-12 7.2450e-02 4.4048e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.3325e-12 7.2414e-02 1.9056e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6292e-11 7.2337e-02 7.0761e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.0039e-11 7.2505e-02 2.1791e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.5552e+06 90 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0345e-10 7.1337e-02 4.5073e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0316e+00 -3.8773e-04 1.5059e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.3275e-15 7.0510e-02 -3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.9920e-15 7.1628e-02 -3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.8192e-14 7.2602e-02 2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3367e-13 7.2174e-02 5.0793e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 6.0330e-13 7.2450e-02 2.4786e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.4751e-12 7.2414e-02 1.0791e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.1898e-12 7.2337e-02 3.9897e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8085e-11 7.2505e-02 1.2219e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.7867e-11 7.1337e-02 2.5194e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.5979e-14 7.0510e-02 -9.1593e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.2188e-15 7.1628e-02 6.9389e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 4.1966e-14 7.2602e-02 1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.2634e-13 7.2174e-02 4.9405e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 6.0663e-13 7.2450e-02 2.4966e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.4705e-12 7.2414e-02 1.0852e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.2093e-12 7.2337e-02 3.9842e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8050e-11 7.2505e-02 1.2226e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.57248e+06 91 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.7864e-11 7.1337e-02 2.5192e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0312e+00 -3.8773e-04 1.5146e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -5.9952e-15 7.0510e-02 2.2204e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.2879e-14 7.1628e-02 -4.5797e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.3767e-14 7.2602e-02 2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.0824e-14 7.2174e-02 2.7339e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.4150e-13 7.2450e-02 1.4364e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.4129e-12 7.2414e-02 6.1395e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.1870e-12 7.2337e-02 2.2557e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.5777e-11 7.2505e-02 6.8601e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.2445e-11 7.1337e-02 1.4109e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.6201e-14 7.0510e-02 -1.3045e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.1530e-14 7.1628e-02 -6.8001e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.4195e-14 7.2602e-02 -4.3021e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.0158e-14 7.2174e-02 2.8033e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.3351e-13 7.2450e-02 1.4502e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.4266e-12 7.2414e-02 6.1284e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.1992e-12 7.2337e-02 2.2524e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.5804e-11 7.2505e-02 6.8547e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.58976e+06 92 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.2428e-11 7.1337e-02 1.4109e-12 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0308e+00 -3.8773e-04 1.5233e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.5479e-15 7.0510e-02 -3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1990e-14 7.1628e-02 -5.8287e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 -2.8866e-15 7.2602e-02 6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.3957e-14 7.2174e-02 1.1102e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.1116e-13 7.2450e-02 7.6883e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 8.1313e-13 7.2414e-02 3.4597e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.9261e-12 7.2337e-02 1.2794e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.8620e-12 7.2505e-02 3.8641e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8202e-11 7.1337e-02 7.9171e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.3275e-15 7.0510e-02 -7.3552e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.0872e-14 7.1628e-02 -8.0491e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.1974e-14 7.2602e-02 -3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.3957e-14 7.2174e-02 1.4155e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.3981e-13 7.2450e-02 6.7585e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 8.2201e-13 7.2414e-02 3.4278e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.9439e-12 7.2337e-02 1.2740e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.8678e-12 7.2505e-02 3.8634e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.60704e+06 93 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8220e-11 7.1337e-02 7.9158e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0304e+00 -3.8773e-04 1.5321e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -8.8818e-15 7.0510e-02 1.3878e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5543e-14 7.1628e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.6613e-16 7.2602e-02 4.0246e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1546e-14 7.2174e-02 1.0408e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.2368e-13 7.2450e-02 4.1217e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.6851e-13 7.2414e-02 1.9568e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6882e-12 7.2337e-02 7.1498e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.0029e-12 7.2505e-02 2.1763e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0227e-11 7.1337e-02 4.4507e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.3767e-14 7.0510e-02 -7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.8430e-14 7.1628e-02 -1.0408e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.9762e-14 7.2602e-02 -5.4123e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.4425e-14 7.2174e-02 1.2351e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.1546e-13 7.2450e-02 4.2882e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.6252e-13 7.2414e-02 1.9942e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.6769e-12 7.2337e-02 7.1818e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 4.9996e-12 7.2505e-02 2.1796e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.62432e+06 94 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0230e-11 7.1337e-02 4.4502e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0300e+00 -3.8773e-04 1.5408e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.2204e-16 7.0510e-02 6.9389e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.1038e-15 7.1628e-02 -5.8287e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.1768e-14 7.2602e-02 -9.7145e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.1292e-14 7.2174e-02 -6.6613e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 7.1720e-14 7.2450e-02 2.0123e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.7911e-13 7.2414e-02 1.0505e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.4191e-13 7.2337e-02 4.0759e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8224e-12 7.2505e-02 1.2310e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.7609e-12 7.1337e-02 2.5083e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.4425e-15 7.0510e-02 -4.9960e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.3981e-14 7.1628e-02 -1.1241e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.5321e-14 7.2602e-02 -5.6899e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5543e-14 7.2174e-02 5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 7.5273e-14 7.2450e-02 2.3731e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.7489e-13 7.2414e-02 1.0755e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 9.5146e-13 7.2337e-02 4.0662e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.8224e-12 7.2505e-02 1.2296e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.6416e+06 95 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.7654e-12 7.1337e-02 2.5080e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0296e+00 -3.8773e-04 1.5495e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.3275e-15 7.0510e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4433e-14 7.1628e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.7319e-14 7.2602e-02 -5.8287e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.5527e-15 7.2174e-02 1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.3973e-14 7.2450e-02 1.6792e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.5143e-13 7.2414e-02 5.9536e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.5023e-13 7.2337e-02 2.2787e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6240e-12 7.2505e-02 6.8376e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.2618e-12 7.1337e-02 1.4119e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -8.8818e-16 7.0510e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.9952e-15 7.1628e-02 -7.3552e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.2212e-14 7.2602e-02 -6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.1982e-14 7.2174e-02 -2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 5.7954e-14 7.2450e-02 7.2164e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.7497e-13 7.2414e-02 5.4817e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.6111e-13 7.2337e-02 2.2302e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.6116e-12 7.2505e-02 6.9098e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.65888e+06 96 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.2720e-12 7.1337e-02 1.4075e-13 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0292e+00 -3.8773e-04 1.5583e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -3.7748e-15 7.0510e-02 6.9389e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.6645e-15 7.1628e-02 -1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.2212e-14 7.2602e-02 -4.7184e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.1760e-14 7.2174e-02 -3.8858e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4203e-14 7.2450e-02 6.8001e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 9.8144e-14 7.2414e-02 3.0254e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 3.1575e-13 7.2337e-02 1.2254e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.9906e-13 7.2505e-02 3.9357e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8365e-12 7.1337e-02 7.9950e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.2188e-15 7.0510e-02 -2.7756e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.7748e-15 7.1628e-02 -4.3021e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 7.3275e-15 7.2602e-02 -5.9674e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.3259e-15 7.2174e-02 -2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.2419e-14 7.2450e-02 3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 8.2823e-14 7.2414e-02 3.6915e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 3.2707e-13 7.2337e-02 1.2171e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 9.1238e-13 7.2505e-02 3.9149e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.67616e+06 97 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.8290e-12 7.1337e-02 8.0158e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0289e+00 -3.8773e-04 1.5670e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.1054e-15 7.0510e-02 -5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.5987e-14 7.1628e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 6.4393e-15 7.2602e-02 -3.6082e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3101e-14 7.2174e-02 -3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 3.2196e-14 7.2450e-02 -1.3878e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 6.6835e-14 7.2414e-02 1.2351e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.0117e-13 7.2337e-02 6.3144e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.2558e-13 7.2505e-02 2.1608e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0383e-12 7.1337e-02 4.5103e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.3259e-15 7.0510e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.7756e-14 7.1628e-02 -1.1380e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.5757e-14 7.2602e-02 -1.2074e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.2157e-15 7.2174e-02 -3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.7986e-14 7.2450e-02 4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 4.4409e-14 7.2414e-02 2.1233e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.0428e-13 7.2337e-02 6.1756e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.3979e-13 7.2505e-02 2.1261e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.69344e+06 98 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.0467e-12 7.1337e-02 4.5242e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0285e+00 -3.8773e-04 1.5758e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.6645e-15 7.0510e-02 -2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3323e-15 7.1628e-02 -2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.9096e-14 7.2602e-02 -7.7716e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 9.5479e-15 7.2174e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.6209e-14 7.2450e-02 -2.2204e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 5.8176e-14 7.2414e-02 1.1102e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.1613e-13 7.2337e-02 3.3168e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 3.1997e-13 7.2505e-02 1.1505e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 6.0085e-13 7.1337e-02 2.5244e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.5321e-14 7.0510e-02 -7.9103e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.6431e-14 7.1628e-02 -9.9920e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.6875e-14 7.2602e-02 -8.1879e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.0436e-14 7.2174e-02 -3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.6645e-14 7.2450e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.9968e-14 7.2414e-02 7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.0725e-13 7.2337e-02 3.3445e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 3.0087e-13 7.2505e-02 1.2074e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.71072e+06 99 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 6.0751e-13 7.1337e-02 2.5216e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0281e+00 -3.8773e-04 1.5845e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.6431e-14 7.0510e-02 -8.1879e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -1.2879e-14 7.1628e-02 3.0531e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.3101e-14 7.2602e-02 -7.6328e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.2157e-15 7.2174e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.6423e-14 7.2450e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.2419e-14 7.2414e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 7.7049e-14 7.2337e-02 1.6098e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.7364e-13 7.2505e-02 6.5364e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.4395e-13 7.1337e-02 1.4252e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.6201e-14 7.0510e-02 -1.0547e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -6.6613e-16 7.1628e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 3.9968e-15 7.2602e-02 -4.3021e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.9762e-14 7.2174e-02 -7.7716e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.4433e-14 7.2450e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.8200e-14 7.2414e-02 1.1102e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 4.7073e-14 7.2337e-02 2.4702e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.7319e-13 7.2505e-02 6.6058e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.728e+06 100 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.5105e-13 7.1337e-02 1.3683e-14 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0277e+00 -3.8773e-04 1.5932e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 9.7700e-15 7.0510e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.9936e-15 7.1628e-02 -8.3267e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 -7.9936e-15 7.2602e-02 -1.8041e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.6629e-15 7.2174e-02 -3.6082e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.4409e-15 7.2450e-02 -2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.9302e-14 7.2414e-02 -8.3267e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.3735e-14 7.2337e-02 3.0531e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.0503e-13 7.2505e-02 3.6360e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 2.0473e-13 7.1337e-02 7.5218e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.6209e-14 7.0510e-02 -1.0686e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.3537e-14 7.1628e-02 -7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.2212e-14 7.2602e-02 -7.0777e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3989e-14 7.2174e-02 -8.1879e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4203e-14 7.2450e-02 -8.7430e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.6209e-14 7.2414e-02 -2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.6621e-14 7.2337e-02 5.6899e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.0747e-13 7.2505e-02 3.1919e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.74528e+06 101 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.9740e-13 7.1337e-02 7.5495e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0273e+00 -3.8773e-04 1.6020e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -1.2434e-14 7.0510e-02 1.2490e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -6.4393e-15 7.1628e-02 2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.3101e-14 7.2602e-02 -4.3021e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -3.7748e-15 7.2174e-02 -1.6653e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 9.5479e-15 7.2450e-02 -5.1348e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.1752e-14 7.2414e-02 -1.2490e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 4.1078e-14 7.2337e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 6.1062e-14 7.2505e-02 1.9568e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.1813e-13 7.1337e-02 4.1495e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.9540e-14 7.0510e-02 -1.1241e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.9762e-14 7.1628e-02 -1.0686e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 8.6597e-15 7.2602e-02 -3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -5.5511e-15 7.2174e-02 -4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4425e-14 7.2450e-02 -1.2351e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -1.2657e-14 7.2414e-02 8.6042e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 4.1300e-14 7.2337e-02 -3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 7.3497e-14 7.2505e-02 1.5404e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.76256e+06 102 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.2657e-13 7.1337e-02 3.7748e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0269e+00 -3.8773e-04 1.6107e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.7542e-14 7.0510e-02 -4.9960e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -5.3291e-15 7.1628e-02 4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.5765e-14 7.2602e-02 -8.7430e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.7716e-15 7.2174e-02 -2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.8652e-14 7.2450e-02 -9.2981e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.3085e-14 7.2414e-02 -1.4710e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.8200e-14 7.2337e-02 -5.4123e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 4.8184e-14 7.2505e-02 6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 7.3941e-14 7.1337e-02 2.1511e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.3275e-15 7.0510e-02 -5.9674e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 3.0198e-14 7.1628e-02 -1.3600e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.7319e-14 7.2602e-02 -7.2164e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.2188e-15 7.2174e-02 -1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.9310e-14 7.2450e-02 -1.4572e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -1.5543e-15 7.2414e-02 4.1633e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 2.8200e-14 7.2337e-02 -7.0777e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 5.4845e-14 7.2505e-02 2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.77984e+06 103 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 9.3925e-14 7.1337e-02 1.3878e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0265e+00 -3.8773e-04 1.6194e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 2.4425e-15 7.0510e-02 -1.2490e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.6629e-15 7.1628e-02 4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.3093e-14 7.2602e-02 -1.1380e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.4425e-15 7.2174e-02 -2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.9984e-15 7.2450e-02 -2.7756e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.7542e-14 7.2414e-02 -1.2212e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 -1.0658e-14 7.2337e-02 5.9674e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 4.8628e-14 7.2505e-02 -6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 4.7296e-14 7.1337e-02 9.9920e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.5495e-15 7.0510e-02 -4.0246e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.1324e-14 7.1628e-02 -9.5757e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.0658e-14 7.2602e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.2204e-14 7.2174e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.3315e-14 7.2450e-02 -1.2768e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -1.2212e-14 7.2414e-02 6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 7.9936e-15 7.2337e-02 -2.0817e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.1990e-14 7.2505e-02 3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.79712e+06 104 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.9080e-14 7.1337e-02 1.0686e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0261e+00 -3.8773e-04 1.6282e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -1.8208e-14 7.0510e-02 4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -3.1086e-15 7.1628e-02 1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 -2.4425e-15 7.2602e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3101e-14 7.2174e-02 -4.5797e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.8652e-14 7.2450e-02 -8.0491e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.6201e-14 7.2414e-02 -1.3461e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.3323e-14 7.2337e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.2434e-14 7.2505e-02 -3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 4.9738e-14 7.1337e-02 -2.2204e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 3.7748e-15 7.0510e-02 -5.1348e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.2879e-14 7.1628e-02 -7.7716e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.0436e-14 7.2602e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 4.2188e-15 7.2174e-02 -3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.0872e-14 7.2450e-02 -9.7145e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -1.8652e-14 7.2414e-02 8.7430e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 7.1054e-15 7.2337e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 2.9532e-14 7.2505e-02 -5.8287e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.8144e+06 105 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.9762e-14 7.1337e-02 2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0258e+00 -3.8773e-04 1.6369e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.9984e-14 7.0510e-02 -6.6613e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.4877e-14 7.1628e-02 -7.0777e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.0214e-14 7.2602e-02 -4.3021e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -4.2188e-15 7.2174e-02 -1.1102e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 9.5479e-15 7.2450e-02 -6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.7756e-14 7.2414e-02 -1.3323e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.0436e-14 7.2337e-02 -3.8858e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.3101e-14 7.2505e-02 -3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 6.6613e-15 7.1337e-02 -1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 1.6653e-14 7.0510e-02 -7.6328e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.6597e-15 7.1628e-02 -6.9389e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 2.0428e-14 7.2602e-02 -9.8532e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.2172e-15 7.2174e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.5543e-14 7.2450e-02 -8.6042e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 3.5527e-15 7.2414e-02 2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.9540e-14 7.2337e-02 -8.3267e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -3.5527e-15 7.2505e-02 8.3267e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.83168e+06 106 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 4.8850e-15 7.1337e-02 5.2736e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1 transp 1 0.04 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0254e+00 -3.8773e-04 1.6457e-01 8.7380e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 2 0.12 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.1054e-15 7.0510e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 3 0.2 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -1.1546e-14 7.1628e-02 3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 4 0.28 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 -1.4877e-14 7.2602e-02 4.1633e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 5 0.36 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.5495e-15 7.2174e-02 -2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 6 0.44 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 6.4393e-15 7.2450e-02 -5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 7 0.52 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.6653e-14 7.2414e-02 -1.0825e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 8 0.6 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 3.7748e-15 7.2337e-02 -2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 9 0.68 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -5.5511e-15 7.2505e-02 2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 1 transp 10 0.76 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 9.1038e-15 7.1337e-02 -1.5266e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 2 0.12 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 4.4409e-15 7.0510e-02 -3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 3 0.2 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.3275e-15 7.1628e-02 -4.8572e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 4 0.28 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.7764e-15 7.2602e-02 -5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 5 0.36 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.1054e-15 7.2174e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 6 0.44 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.1316e-14 7.2450e-02 -1.1380e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 7 0.52 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -4.2188e-15 7.2414e-02 2.6368e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 8 0.6 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.3291e-15 7.2337e-02 -2.0817e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 9 0.68 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -6.4393e-15 7.2505e-02 3.7470e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 1 transp 10 0.76 1.84896e+06 107 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.3323e-14 7.1337e-02 -3.0531e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 i_soln 0 -99 -99 -99 7.19 11.2 4.8015e-04 1.2257e-03 7.0022e-04 3.5011e-07 1.0003e-07 1.8006e-06 2.5878e-03 5.0016e-07 1.5005e-07 1.0003e-06 2.5008e-07 3.7012e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 1 0.04 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0254e+00 -4.4409e-16 1.6457e-01 2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 2 0.12 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 -8.4377e-15 7.0510e-02 2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 3 0.2 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3989e-14 7.1628e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 4 0.28 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 7.9936e-15 7.2602e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 5 0.36 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 6.2172e-15 7.2174e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 6 0.44 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 5.5511e-15 7.2450e-02 -1.9429e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 7 0.52 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.3545e-14 7.2414e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 8 0.6 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 6.8834e-15 7.2337e-02 -2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 9 0.68 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 8.2157e-15 7.2505e-02 -2.7756e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 10 0.76 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.5543e-15 7.1337e-02 -5.5511e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 1 0.04 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0254e+00 1.7319e-14 1.6457e-01 -5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 2 0.12 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0627e+00 7.7716e-15 7.0510e-02 -2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 3 0.2 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.2157e-15 7.1628e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 4 0.28 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 5.1070e-15 7.2602e-02 -1.6653e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 5 0.36 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.9936e-15 7.2174e-02 -2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 6 0.44 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 -2.2204e-15 7.2450e-02 8.3267e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 7 0.52 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -7.3275e-15 7.2414e-02 2.3592e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 8 0.6 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 -6.4393e-15 7.2337e-02 2.0817e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 9 0.68 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.0658e-14 7.2505e-02 -3.4694e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 10 0.76 1.84896e+06 0 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 -1.0880e-14 7.1337e-02 3.6082e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 1 0.04 1.86624e+06 1 4.19042 7.90003 2.3195e-03 1.3576e-02 3.0710e-02 9.9936e-03 2.7315e-04 2.1411e-03 2.8988e-03 4.1139e-05 2.8844e-04 1.3024e-05 6.8712e-05 3.5153e-03 2.0702e-02 5.4803e-04 7.6773e-05 3.9628e-04 1.0261e+00 7.6224e-04 1.5117e-01 -1.3393e-02 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 2 0.12 1.86624e+06 1 3.63828 9.08467 7.8029e-03 1.1286e-02 8.2861e-02 4.2703e-02 1.0870e-03 8.5181e-03 3.8294e-03 1.6234e-04 1.9846e-03 4.8841e-05 2.7592e-04 1.2891e-02 2.1166e-02 7.5747e-04 2.9564e-05 2.0629e-04 1.0629e+00 1.1479e-04 7.1145e-02 6.3516e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 3 0.2 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 8.8818e-15 7.1628e-02 -4.1633e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 4 0.28 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 -1.5543e-15 7.2602e-02 5.5511e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 5 0.36 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 -7.5495e-15 7.2174e-02 5.5511e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 6 0.44 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.2188e-15 7.2450e-02 -3.8858e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 7 0.52 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 1.6875e-14 7.2414e-02 -1.1935e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 8 0.6 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.1102e-15 7.2337e-02 -1.2490e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 9 0.68 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -6.2172e-15 7.2505e-02 2.4980e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 10 0.76 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 7.9936e-15 7.1337e-02 -3.1919e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 3 0.2 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 2.3315e-14 7.1628e-02 -9.4369e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 4 0.28 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0618e+00 1.3545e-14 7.2602e-02 -6.5226e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 5 0.36 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 7.7716e-15 7.2174e-02 -7.2164e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 6 0.44 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 4.8850e-15 7.2450e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 7 0.52 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -5.5511e-15 7.2414e-02 3.3307e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 8 0.6 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.1324e-14 7.2337e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 9 0.68 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -1.6431e-14 7.2505e-02 5.5511e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 10 0.76 1.86624e+06 1 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 5.9952e-15 7.1337e-02 -4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 1 0.04 1.88352e+06 2 4.67048 7.26807 8.4929e-04 1.5250e-02 1.8182e-02 1.3040e-03 5.4939e-05 4.3134e-04 2.6493e-03 8.6301e-06 3.1186e-05 3.3586e-06 1.2897e-05 1.0015e-03 2.0530e-02 4.7999e-04 8.9544e-05 4.0820e-04 1.0268e+00 7.0752e-04 1.3668e-01 -1.4492e-02 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 2 0.12 1.88352e+06 2 3.77899 9.00839 3.0509e-03 1.3069e-02 3.7548e-02 1.4410e-02 3.8169e-04 2.9917e-03 3.0230e-03 5.7316e-05 6.2081e-04 1.7777e-05 9.6771e-05 4.7661e-03 2.0827e-02 7.8594e-04 2.3326e-05 1.7164e-04 1.0630e+00 1.3138e-04 7.1578e-02 4.3321e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 3 0.2 1.88352e+06 2 3.66898 9.02448 7.0712e-03 1.1475e-02 7.5600e-02 3.8309e-02 9.7842e-04 7.6671e-03 3.7052e-03 1.4617e-04 1.7498e-03 4.4068e-05 2.4815e-04 1.1640e-02 2.1124e-02 7.4871e-04 3.1010e-05 2.1431e-04 1.0630e+00 1.8729e-05 7.1840e-02 2.1181e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 4 0.28 1.88352e+06 2 3.64931 8.99613 9.2740e-03 1.0974e-02 9.7031e-02 5.1391e-02 1.3054e-03 1.0229e-02 4.0790e-03 1.9485e-04 2.3553e-03 5.8485e-05 3.3125e-04 1.5407e-02 2.1235e-02 7.3016e-04 3.4904e-05 2.3401e-04 1.0618e+00 2.1261e-06 7.2608e-02 5.9735e-06 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 5 0.36 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 1.3101e-14 7.2174e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 6 0.44 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 2.4869e-14 7.2450e-02 -1.1241e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 7 0.52 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 6.8834e-15 7.2414e-02 -7.4940e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 8 0.6 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 1.0880e-14 7.2337e-02 -6.1062e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 9 0.68 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -2.2204e-16 7.2505e-02 2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 10 0.76 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 4.4409e-15 7.1337e-02 -2.9143e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 5 0.36 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0629e+00 5.9952e-15 7.2174e-02 -3.0531e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 6 0.44 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0601e+00 1.9318e-14 7.2450e-02 -9.9920e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 7 0.52 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -1.6653e-14 7.2414e-02 5.8287e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 8 0.6 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 8.6597e-15 7.2337e-02 -4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 9 0.68 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -1.1768e-14 7.2505e-02 6.8001e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 10 0.76 1.88352e+06 2 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 -6.4393e-15 7.1337e-02 4.1633e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 1 0.04 1.9008e+06 3 5.09588 15.4307 5.5409e-04 1.5634e-02 1.6248e-02 1.6892e-06 4.0093e-10 8.8054e-05 2.5991e-03 2.1022e-06 5.2129e-06 1.3208e-06 2.4059e-06 4.9676e-04 2.0515e-02 3.8635e-04 1.0810e-04 3.9695e-04 1.0271e+00 2.6349e-04 1.2211e-01 -1.4571e-02 0.0000e+00 0.0000e+00 1.1150e-05 1.1150e-05 0.0000e+00 0.0000e+00 2 transp 2 0.12 1.9008e+06 3 3.91998 9.11464 1.2172e-03 1.4743e-02 2.1321e-02 3.5232e-03 1.0952e-04 8.5918e-04 2.7117e-03 1.6780e-05 1.8845e-04 5.7511e-06 2.7434e-05 1.6306e-03 2.0615e-02 8.2076e-04 1.6405e-05 1.2735e-04 1.0631e+00 1.4354e-04 7.1691e-02 1.1308e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 3 0.2 1.9008e+06 3 3.77286 8.9785 3.4159e-03 1.2878e-02 4.0800e-02 1.6572e-02 4.3588e-04 3.4162e-03 3.0849e-03 6.5377e-05 7.5266e-04 2.0159e-05 1.1031e-04 5.3902e-03 2.0861e-02 7.6679e-04 2.6731e-05 1.9159e-04 1.0630e+00 8.5841e-06 7.2143e-02 3.0303e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 4 0.28 1.9008e+06 3 3.68072 9.00667 6.7060e-03 1.1581e-02 7.2002e-02 3.6128e-02 9.2422e-04 7.2424e-03 3.6432e-03 1.3810e-04 1.6642e-03 4.1684e-05 2.3444e-04 1.1016e-02 2.1102e-02 7.4472e-04 3.1679e-05 2.1799e-04 1.0618e+00 8.9699e-06 7.2728e-02 1.2075e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 5 0.36 1.9008e+06 3 3.65416 8.99427 8.9058e-03 1.1051e-02 9.3394e-02 4.9200e-02 1.2507e-03 9.8007e-03 4.0165e-03 1.8672e-04 2.2576e-03 5.6077e-05 3.1736e-04 1.4777e-02 2.1218e-02 7.3102e-04 3.4679e-05 2.3296e-04 1.0629e+00 2.5141e-06 7.2184e-02 1.0553e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 6 0.44 1.9008e+06 3 3.64932 8.98626 9.5694e-03 1.0916e-02 9.9909e-02 5.3140e-02 1.3492e-03 1.0572e-02 4.1291e-03 2.0138e-04 2.4211e-03 6.0421e-05 3.4235e-04 1.5912e-02 2.1248e-02 7.2727e-04 3.5510e-05 2.3699e-04 1.0601e+00 2.2377e-07 7.2450e-02 3.0369e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 7 0.52 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 2.6867e-14 7.2414e-02 -1.1241e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 8 0.6 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 5.7732e-15 7.2337e-02 -4.8572e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 9 0.68 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.4211e-14 7.2505e-02 -5.6899e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 10 0.76 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 3.1086e-15 7.1337e-02 -1.8041e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 7 0.52 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0626e+00 -2.6201e-14 7.2414e-02 1.1657e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 8 0.6 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0604e+00 3.1752e-14 7.2337e-02 -1.4017e-15 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 9 0.68 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -5.7732e-15 7.2505e-02 4.4409e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 10 0.76 1.9008e+06 3 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 1.9762e-14 7.1337e-02 -5.6899e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 1 0.04 1.91808e+06 4 5.39587 15.1989 4.9480e-04 1.5673e-02 1.6085e-02 8.3876e-07 7.3693e-11 1.9120e-05 2.5890e-03 8.0232e-07 1.6575e-06 8.1954e-07 7.4064e-07 3.9540e-04 2.0460e-02 2.9567e-04 1.3320e-04 3.7534e-04 1.0271e+00 2.0797e-06 1.0754e-01 -1.4567e-02 0.0000e+00 0.0000e+00 1.1250e-05 1.0018e-07 0.0000e+00 0.0000e+00 2 transp 2 0.12 1.91808e+06 4 3.79377 10.5725 6.7235e-04 1.5482e-02 1.7091e-02 3.5524e-04 2.1991e-05 2.2558e-04 2.6192e-03 4.7348e-06 1.2362e-04 2.1053e-06 7.2349e-06 6.9896e-04 2.0537e-02 8.9636e-04 6.4660e-06 5.5027e-05 1.0635e+00 3.4856e-04 7.1692e-02 7.0858e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 3 0.2 1.91808e+06 4 3.83884 9.19126 1.5255e-03 1.4403e-02 2.3926e-02 5.3715e-03 1.5305e-04 1.2177e-03 2.7641e-03 2.3592e-05 3.1640e-04 7.7572e-06 3.9143e-05 2.1578e-03 2.0659e-02 8.1272e-04 1.8271e-05 1.4015e-04 1.0630e+00 6.6813e-05 7.2256e-02 1.1246e-04 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 @@ -1132,8 +1132,8 @@ 2 transp 6 0.44 1.91808e+06 4 3.65873 8.9916 8.5973e-03 1.1119e-02 9.0340e-02 4.7363e-02 1.2049e-03 9.4419e-03 3.9641e-03 1.7990e-04 2.1779e-03 5.4059e-05 3.0573e-04 1.4250e-02 2.1203e-02 7.3130e-04 3.4576e-05 2.3252e-04 1.0601e+00 2.2463e-06 7.2462e-02 1.2329e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 7 0.52 1.91808e+06 4 3.65045 8.98672 9.4511e-03 1.0940e-02 9.8734e-02 5.2436e-02 1.3317e-03 1.0435e-02 4.1090e-03 1.9877e-04 2.3929e-03 5.9646e-05 3.3789e-04 1.5710e-02 2.1243e-02 7.2760e-04 3.5429e-05 2.3661e-04 1.0626e+00 3.7654e-07 7.2414e-02 3.3084e-07 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 8 0.6 1.91808e+06 4 3.64912 8.98493 9.6287e-03 1.0905e-02 1.0049e-01 5.3492e-02 1.3580e-03 1.0641e-02 4.1392e-03 2.0269e-04 2.4334e-03 6.0810e-05 3.4458e-04 1.6013e-02 2.1251e-02 7.2694e-04 3.5584e-05 2.3734e-04 1.0604e+00 2.3443e-08 7.2337e-02 -3.5582e-08 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 9 0.68 1.91808e+06 4 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 1.0658e-14 7.2505e-02 -6.3838e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 2 transp 10 0.76 1.91808e+06 4 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 -1.6209e-14 7.1337e-02 5.6899e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 9 0.68 1.91808e+06 4 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0628e+00 -2.2204e-15 7.2505e-02 3.6082e-16 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 + 2 transp 10 0.76 1.91808e+06 4 3.64905 8.98468 9.6436e-03 1.0902e-02 1.0064e-01 5.3580e-02 1.3603e-03 1.0659e-02 4.1417e-03 2.0302e-04 2.4363e-03 6.0907e-05 3.4514e-04 1.6039e-02 2.1251e-02 7.2689e-04 3.5595e-05 2.3739e-04 1.0515e+00 -5.9952e-15 7.1337e-02 2.7756e-17 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 2 transp 1 0.04 1.93536e+06 5 5.59219 15.0123 4.8289e-04 1.5711e-02 1.6044e-02 5.3741e-07 2.8637e-11 5.2776e-06 2.5869e-03 5.3248e-07 8.2379e-07 6.6694e-07 3.6957e-07 3.7504e-04 2.0324e-02 2.3214e-04 1.5786e-04 3.5157e-04 1.0271e+00 2.0235e-06 9.2943e-02 -1.4601e-02 0.0000e+00 0.0000e+00 1.1350e-05 1.0003e-07 0.0000e+00 0.0000e+00 2 transp 2 0.12 1.93536e+06 5 4.27303 16.2895 5.2746e-04 1.5590e-02 1.6261e-02 1.4586e-05 1.4964e-08 5.7098e-05 2.5945e-03 1.5259e-06 1.7773e-05 1.0380e-06 1.9495e-06 4.5124e-04 2.0526e-02 8.4476e-04 8.5398e-06 6.8529e-05 1.0635e+00 4.9292e-05 7.1753e-02 6.1032e-05 0.0000e+00 0.0000e+00 4.4034e-06 4.4034e-06 0.0000e+00 0.0000e+00 2 transp 3 0.2 1.93536e+06 5 3.74946 10.1157 8.0801e-04 1.5299e-02 1.8183e-02 1.1735e-03 4.3893e-05 3.8334e-04 2.6422e-03 7.7339e-06 2.0493e-04 2.9852e-06 1.2445e-05 9.3093e-04 2.0561e-02 8.8214e-04 8.5779e-06 7.1760e-05 1.0632e+00 1.2641e-04 7.2237e-02 -1.8349e-05 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 diff --git a/mytest/eq_EC_101.sel b/mytest/eq_EC_101.sel index 8314ed7c..2f656f6e 100644 --- a/mytest/eq_EC_101.sel +++ b/mytest/eq_EC_101.sel @@ -1,58 +1,58 @@ Mu SC - 0.000500102494 73.5758151991 - 0.001000103455 146.2884136944 - 0.005000107110 715.3264443420 - 0.010000109488 1408.9744436276 - 0.020000112425 2762.2433771556 - 0.050000117127 6668.4500532804 - 0.100000121159 12896.6137815862 - 0.000500102494 61.8693211275 - 0.001000103455 122.9170043733 - 0.005000107110 599.2346539380 - 0.010000109488 1177.7198473915 - 0.020000112425 2301.7961920931 - 0.050000117127 5523.3570746190 - 0.100000121159 10609.0349042546 - 0.000499918182 210.1653296991 - 0.000999679240 419.1814502454 - 0.004992608422 2074.8534679926 - 0.009972085298 4121.9164191182 - 0.019896665087 8169.5069755146 - 0.049441420148 20059.1176293058 - 0.098089727332 39256.7479188842 - 0.000750104906 65.6697999646 - 0.001500106080 129.8466070422 - 0.007500110469 621.6243234462 - 0.015000113241 1207.7555930487 - 0.030000116511 2328.2633139500 - 0.075000121031 5471.8747125459 - 0.150000123377 10337.9813430631 - 0.000750100955 62.4629953399 - 0.001500098454 123.4643318853 - 0.007500077162 590.2486656281 - 0.015000052226 1145.5793219102 - 0.030000006909 2204.9778220936 - 0.074999888970 5165.1011320911 - 0.149999715676 9718.7149090392 - 0.000746541453 62.8244345203 - 0.001486655780 123.9793424097 - 0.007236397950 587.2544747622 - 0.014114777841 1130.1671260260 - 0.027190455757 2148.1562256992 - 0.063236038957 4912.8790682887 - 0.117608186083 9025.0912233205 - 0.000952863011 60.5426097359 - 0.001849680460 115.7924045680 - 0.008096824826 484.5837567923 - 0.014864921625 867.1205998103 - 0.026982496036 1522.3966937097 - 0.059117702472 3118.7331398985 - 0.108088038277 5259.5123617282 + 0.000500102494 73.5758153056 + 0.001000103455 146.2884139937 + 0.005000107110 715.3264476121 + 0.010000109488 1408.9744527355 + 0.020000112425 2762.2434024054 + 0.050000117127 6668.4501496656 + 0.100000121159 12896.6140452992 + 0.000500102494 61.8693212926 + 0.001000103455 122.9170048372 + 0.005000107110 599.2346589903 + 0.010000109488 1177.7198614267 + 0.020000112425 2301.7962308498 + 0.050000117127 5523.3572212786 + 0.100000121159 10609.0353009555 + 0.000499918182 210.1653302717 + 0.000999679240 419.1814518610 + 0.004992608422 2074.8534858907 + 0.009972085298 4121.9164694211 + 0.019896665087 8169.5071165107 + 0.049441420148 20059.1181757536 + 0.098089727332 39256.7494247101 + 0.000750104906 65.6698005059 + 0.001500106080 129.8466085546 + 0.007500110469 621.6243395865 + 0.015000113241 1207.7556372893 + 0.030000116511 2328.2634341204 + 0.075000121031 5471.8751554087 + 0.150000123377 10337.9825130437 + 0.000750100955 62.4629958878 + 0.001500098454 123.4643334155 + 0.007500077162 590.2486819232 + 0.015000052226 1145.5793664995 + 0.030000006909 2204.9779428987 + 0.074999888970 5165.1015746914 + 0.149999715676 9718.7160692474 + 0.000746541453 62.8244346924 + 0.001486655780 123.9793428867 + 0.007236397950 587.2544796543 + 0.014114777841 1130.1671389676 + 0.027190455757 2148.1562590808 + 0.063236038957 4912.8791801038 + 0.117608186083 9025.0914928630 + 0.000952863011 60.5426097608 + 0.001849680460 115.7924046340 + 0.008096824826 484.5837573779 + 0.014864921625 867.1206012468 + 0.026982496036 1522.3966971466 + 0.059117702472 3118.7331503787 + 0.108088038277 5259.5123853533 0.000000100661 0.0546997340 - 0.000999586584 80.1929485195 - 0.001998350653 157.5666965051 - 0.009968727908 734.7932367285 - 0.019892497886 1401.0358634122 - 0.039634229343 2633.8741835174 - 0.098162266471 5918.0750733701 - 0.193743558254 10697.8535127094 + 0.000999586584 80.1929489837 + 0.001998350653 157.5666978022 + 0.009968727908 734.7932505701 + 0.019892497886 1401.0359013664 + 0.039634229343 2633.8742867653 + 0.098162266471 5918.0754564863 + 0.193743558254 10697.8545386498 diff --git a/mytest/erm.out b/mytest/erm.out index 779a9672..ecbe45b6 100644 --- a/mytest/erm.out +++ b/mytest/erm.out @@ -151,7 +151,7 @@ Su 1.000e+03 m² for 1.000e+00 g Water in diffuse layer: 1.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89023 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -9.478e-02 V. @@ -203,7 +203,7 @@ Su 1.000e+03 m² for 1.000e+00 g Water in diffuse layer: 1.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89023 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -9.478e-02 V. @@ -390,7 +390,7 @@ Su 1.000e+03 m² for 1.000e+00 g Water in diffuse layer: 1.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.152e-01 V. diff --git a/mytest/erm.prn b/mytest/erm.prn index b229f5c8..4540c157 100644 --- a/mytest/erm.prn +++ b/mytest/erm.prn @@ -27,7 +27,7 @@ SURFACE_RAW 1 -charge_balance -1.1604192433345e-11 -mass_water 0.01 -f_free 0 - -ddl_viscosity 1 + -ddl_viscosity 0 -la_psi -1.5659519297377 -capacitance0 1 -capacitance1 5 diff --git a/mytest/erm_101.sel b/mytest/erm_101.sel index fd94a4a1..471af152 100644 --- a/mytest/erm_101.sel +++ b/mytest/erm_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.002000105534 267.0128675232 - 0.002000105534 267.0128675232 - 0.002000105550 267.0128692917 - 0.001000104163 146.2885180049 - 0.001000510165 140.3224750881 + 0.002000105534 267.0128683599 + 0.002000105534 267.0128683599 + 0.002000105550 267.0128701284 + 0.001000104163 146.2885183042 + 0.001000510165 140.3224753884 diff --git a/mytest/evap_101.sel b/mytest/evap_101.sel index 9dfe65fe..98e19b46 100644 --- a/mytest/evap_101.sel +++ b/mytest/evap_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.722276588069 52653.8993555370 - 17.631685935937 82975.0173860579 + 0.722276588069 52653.9055791994 + 17.631685935937 82975.0247270915 diff --git a/mytest/evap_sea_101.sel b/mytest/evap_sea_101.sel index abd92843..2343d07e 100644 --- a/mytest/evap_sea_101.sel +++ b/mytest/evap_sea_101.sel @@ -1,15 +1,15 @@ Mu SC - 0.721987248890 52619.0492460296 - 0.719741606778 52569.2045961448 - 2.045560502558 121918.1142185326 - 2.572860418051 143159.2460576714 - 3.406871647264 172159.0631216972 - 5.124977842382 210049.7925819352 - 5.887266605448 219101.4533715520 - 6.930701848309 225481.2486265271 - 7.503201758732 222798.0529678704 - 7.885057627771 215085.0161271016 - 8.585895569384 200818.8012383638 - 9.569019479036 180576.7814570032 - 10.615421645446 159360.3597423742 - 12.501006224306 125123.9613182086 + 0.721987248890 52619.0554661075 + 0.719741606778 52569.2107890053 + 2.045560502558 121918.1352171467 + 2.572860418051 143159.2721644200 + 3.406871647264 172159.0956480647 + 5.124977842382 210049.8318419636 + 5.887266605448 219101.4932404148 + 6.930701848309 225481.2876118863 + 7.503201758732 222798.0911109263 + 7.885057627771 215085.0538153557 + 8.585895569384 200818.8373565188 + 9.569019479036 180576.8139882001 + 10.615421645446 159360.3873393248 + 12.501006224306 125123.9798197670 diff --git a/mytest/ex10_pz.out b/mytest/ex10_pz.out index fc586135..12791859 100644 --- a/mytest/ex10_pz.out +++ b/mytest/ex10_pz.out @@ -294,7 +294,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 25°C) = 243626 Density (g/cm³) = 1.21623 Volume (L) = 1.13678 - Viscosity (mPa s) = 1.94907 + Viscosity (mPa s) = 1.94906 Activity of water = 0.726 Ionic strength (mol/kgw) = 7.273e+00 Mass of water (kg) = 9.998e-01 diff --git a/mytest/ex10_pz_101.sel b/mytest/ex10_pz_101.sel index 33782583..34ea86b0 100644 --- a/mytest/ex10_pz_101.sel +++ b/mytest/ex10_pz_101.sel @@ -1,207 +1,207 @@ Mu SC - 7.285855082456 243002.2317036419 - 7.285855082461 243002.2317034463 - 7.285855082460 243002.2317036060 - 7.272611469575 243626.8916404977 - 0.001065639344 82.9375361441 - 0.010129326464 628.7736092811 - 0.035082916307 2959.9259606883 - 0.026804316906 2239.6768028815 - 0.023199042723 1949.6766126624 - 0.020690591254 1747.3560740110 - 0.018841333009 1597.0818594204 - 0.017419023132 1480.7622728819 - 0.016292831384 1388.1916242407 - 0.015382368704 1313.0688397881 - 0.014634641456 1251.2172692618 - 0.014012745350 1199.7090203122 - 0.013489865480 1156.3993638609 - 0.013045884108 1119.6638712252 - 0.012665354594 1088.2422344517 - 0.012336225229 1061.1406372693 - 0.012048991151 1037.5672969599 - 0.011796101290 1016.8874545700 - 0.011571525370 998.5903212955 - 0.011370427530 982.2638479542 - 0.011188915153 967.5749725367 - 0.011023843181 954.2539370282 - 0.010872660657 942.0817546063 - 0.010733289941 930.8801739884 - 0.010604031427 920.5036443268 - 0.010483488270 910.8328875349 - 0.010370506808 901.7697611039 - 0.010264129330 893.2331545734 - 0.010163555799 885.1556516996 - 0.010068117024 877.4811571339 - 0.009977246149 870.1624250970 - 0.009890462708 863.1596366825 - 0.009807356521 856.4389891483 - 0.009727575346 849.9716126222 - 0.009650814922 843.7326972945 - 0.009576810896 837.7007880865 - 0.009505332273 831.8572130453 - 0.009436176068 826.1856187508 - 0.009369162945 820.6715915587 - 0.009304133630 815.3023478730 - 0.009240945970 810.0664800837 - 0.009179472500 804.9537475334 - 0.009119598446 799.9549040249 - 0.009061220053 795.0615550871 - 0.009004243221 790.2660395683 - 0.008948582353 785.5613311988 - 0.008894159421 780.9409566208 - 0.008840903178 776.3989270671 - 0.008788748523 771.9296814186 - 0.008737635974 767.5280388094 - 0.008687511254 763.1891593077 - 0.008638324956 758.9085114849 - 0.008590032296 754.6818459271 - 0.008542592932 750.5051739317 - 0.008495970857 746.3747507982 - 0.008450134343 742.2870632512 - 0.008405055955 738.2388206549 - 0.008360712619 734.2269497700 - 0.008317085749 730.2485928952 - 0.008274161435 726.3011093083 - 0.008231554135 722.3497573308 - 0.008187138742 718.2100459363 - 0.008143800333 714.1275885647 - 0.008101503003 710.0960795174 - 0.008060225384 706.1110014164 - 0.008019958128 702.1685897669 - 0.007980703664 698.2657248745 - 0.007942476511 694.3999166113 - 0.007905303818 690.5693058891 - 0.007869226077 686.7726766561 - 0.007834298022 683.0094776560 - 0.007800589710 679.2798536484 - 0.007768187783 675.5846858307 - 0.007737196919 671.9256411493 - 0.007707741447 668.3052300452 - 0.007679967136 664.7268719254 - 0.007654043113 661.1947760968 - 0.007630163884 657.7139174716 - 0.007608551395 654.2914980715 - 0.007589457047 650.9353209200 - 0.007573163533 647.6544771934 - 0.007559986344 644.4594069670 - 0.007550274703 641.3619394169 - 0.007544411638 638.3753017371 - 0.007542812841 635.5140834760 - 0.007545923837 632.7941403966 - 0.007554214976 630.2324196355 - 0.007568173632 627.8466863917 - 0.007588293056 625.6551323260 - 0.007615057289 623.6758482476 - 0.007648921791 621.9261495962 - 0.007690289422 620.4217388588 - 0.007739483492 619.1758158285 - 0.007796715226 618.1979172170 - 0.007862052565 617.4929161242 - 0.007935388613 617.0599737220 - 0.008016414968 616.8916936327 - 0.008104603350 616.9735840453 - 0.008199199354 617.2839568780 - 0.008299231449 617.7943647608 - 0.008403536944 618.4706217746 - 0.008510804566 619.2743765785 - 0.008619630920 620.1651192276 - 0.008728585872 621.1024244004 - 0.008836280356 622.0481841374 - 0.008941429615 622.9685774277 - 0.009042905766 623.8355723550 - 0.009139774732 624.6277910114 - 0.009231316729 625.3307973497 - 0.009317029434 625.9367541417 - 0.009396616809 626.4436473596 - 0.009469967357 626.8542270017 - 0.009537125694 627.1748243686 - 0.009598261309 627.4141868818 - 0.009653637599 627.5824316914 - 0.009703583406 627.6901775278 - 0.009748468366 627.7478774910 - 0.009788682630 627.7653477726 - 0.009824620979 627.7514696218 - 0.009856670963 627.7140330409 - 0.009885204525 627.6596885727 - 0.009910572497 627.5939757855 - 0.009933101344 627.5214016658 - 0.009953091637 627.4455476106 - 0.009970817761 627.3691890822 - 0.009986528505 627.2944167378 - 0.010000448233 627.2227517197 - 0.010012778398 627.1552507838 - 0.010023699256 627.0925991321 - 0.010033371646 627.0351903187 - 0.010041938765 626.9831935918 - 0.010049527875 626.9366096131 - 0.010056251919 626.8953158068 - 0.010062211019 626.8591026986 - 0.010067493858 626.8277025965 - 0.010072178929 626.8008118736 - 0.010076335673 626.7781079919 - 0.010080025497 626.7592622581 - 0.010083302683 626.7439491635 - 0.010086215210 626.7318530219 - 0.010088805475 626.7226724952 - 0.010091110937 626.7161234929 - 0.010093164692 626.7119408336 - 0.010094995978 626.7098789821 - 0.010096630624 626.7097121098 - 0.010098091447 626.7112336700 - 0.010099398604 626.7142556402 - 0.010100569901 626.7186075463 - 0.010101621068 626.7241353542 - 0.010102566001 626.7307002966 - 0.010103416977 626.7381776794 - 0.010104184841 626.7464557055 - 0.010104879177 626.7554343362 - 0.010105508448 626.7650242089 - 0.010106080135 626.7751456193 - 0.010106600847 626.7857275734 - 0.010107076422 626.7967069127 - 0.010107512020 626.8080275104 - 0.010107912199 626.8196395380 - 0.010108280988 626.8314987986 - 0.010108621946 626.8435661234 - 0.010108938220 626.8558068267 - 0.010109232587 626.8681902159 - 0.010109507505 626.8806891507 - 0.010109765145 626.8932796493 - 0.010110007425 626.9059405347 - 0.010110236041 626.9186531201 - 0.010110452491 626.9314009274 - 0.010110658100 626.9441694372 - 0.010110854038 626.9569458655 - 0.010111041340 626.9697189659 - 0.010111220922 626.9824788532 - 0.010111393592 626.9952168473 - 0.010111560064 627.0079253346 - 0.010111720972 627.0205976447 - 0.010111876873 627.0332279419 - 0.010112028263 627.0458111280 - 0.010112175579 627.0583427571 - 0.010112319206 627.0708189600 - 0.010112459488 627.0832363769 - 0.010112596727 627.0955920980 - 0.010112731191 627.1078836115 - 0.010112863117 627.1201087564 - 0.010112992715 627.1322656824 - 0.010113120170 627.1443528128 - 0.010113245648 627.1563688126 - 0.010113369294 627.1683125606 - 0.010113491237 627.1801831235 - 0.010113611593 627.1919797345 - 0.010113730462 627.2037017732 - 0.010113847936 627.2153487485 - 0.010113964094 627.2269202835 - 0.010114079007 627.2384161013 - 0.010114192740 627.2498360139 - 0.010114305348 627.2611799111 - 0.010114416882 627.2724477513 - 0.010114527387 627.2836395534 - 0.010114636902 627.2947553892 - 0.010114745464 627.3057953776 - 0.010114853104 627.3167596780 - 0.010114959851 627.3276484861 - 0.010115065731 627.3384620291 + 7.285855082456 243002.2729547821 + 7.285855082461 243002.2729545865 + 7.285855082460 243002.2729547462 + 7.272611469575 243626.9330297576 + 0.001065639344 82.9375371174 + 0.010129326464 628.7736410706 + 0.035082916307 2959.9260682661 + 0.026804316906 2239.6768819246 + 0.023199042723 1949.6766761749 + 0.020690591254 1747.3561272314 + 0.018841333009 1597.0819054211 + 0.017419023132 1480.7623135658 + 0.016292831384 1388.1916608757 + 0.015382368704 1313.0688732650 + 0.014634641456 1251.2173002313 + 0.014012745350 1199.7090492631 + 0.013489865480 1156.3993911678 + 0.013045884108 1119.6638971795 + 0.012665354594 1088.2422592824 + 0.012336225229 1061.1406611581 + 0.012048991151 1037.5673200518 + 0.011796101290 1016.8874769814 + 0.011571525370 998.5903431205 + 0.011370427530 982.2638692693 + 0.011188915153 967.5749934041 + 0.011023843181 954.2539574994 + 0.010872660657 942.0817747234 + 0.010733289941 930.8801937867 + 0.010604031427 920.5036638357 + 0.010483488270 910.8329067792 + 0.010370506808 901.7697801045 + 0.010264129330 893.2331733482 + 0.010163555799 885.1556702638 + 0.010068117024 877.4811755007 + 0.009977246149 870.1624432779 + 0.009890462708 863.1596546875 + 0.009807356521 856.4390069862 + 0.009727575346 849.9716303008 + 0.009650814922 843.7327148206 + 0.009576810896 837.7008054662 + 0.009505332273 831.8572302842 + 0.009436176068 826.1856358537 + 0.009369162945 820.6716085303 + 0.009304133630 815.3023647172 + 0.009240945970 810.0664968042 + 0.009179472500 804.9537641335 + 0.009119598446 799.9549205077 + 0.009061220053 795.0615714555 + 0.009004243221 790.2660558249 + 0.008948582353 785.5613473460 + 0.008894159421 780.9409726608 + 0.008840903178 776.3989430021 + 0.008788748523 771.9296972504 + 0.008737635974 767.5280545400 + 0.008687511254 763.1891749387 + 0.008638324956 758.9085270179 + 0.008590032296 754.6818613636 + 0.008542592932 750.5051892732 + 0.008495970857 746.3747660460 + 0.008450134343 742.2870784068 + 0.008405055955 738.2388357195 + 0.008360712619 734.2269647449 + 0.008317085749 730.2486077817 + 0.008274161435 726.3011241076 + 0.008231554135 722.3497720433 + 0.008187138742 718.2100605571 + 0.008143800333 714.1276030960 + 0.008101503003 710.0960939613 + 0.008060225384 706.1110157754 + 0.008019958128 702.1686040432 + 0.007980703664 698.2657390704 + 0.007942476511 694.3999307292 + 0.007905303818 690.5693199316 + 0.007869226077 686.7726906258 + 0.007834298022 683.0094915558 + 0.007800589710 679.2798674814 + 0.007768187783 675.5846996001 + 0.007737196919 671.9256548589 + 0.007707741447 668.3052436990 + 0.007679967136 664.7268855279 + 0.007654043113 661.1947896580 + 0.007630163884 657.7139310152 + 0.007608551395 654.2915116055 + 0.007589457047 650.9353344532 + 0.007573163533 647.6544907361 + 0.007559986344 644.4594205303 + 0.007550274703 641.3619530135 + 0.007544411638 638.3753153812 + 0.007542812841 635.5140971834 + 0.007545923837 632.7941541849 + 0.007554214976 630.2324335244 + 0.007568173632 627.8467004029 + 0.007588293056 625.6551464836 + 0.007615057289 623.6758625780 + 0.007648921791 621.9261641281 + 0.007690289422 620.4217536235 + 0.007739483492 619.1758308597 + 0.007796715226 618.1979325503 + 0.007862052565 617.4929317972 + 0.007935388613 617.0599897737 + 0.008016414968 616.8917101029 + 0.008104603350 616.9736009738 + 0.008199199354 617.2839743038 + 0.008299231449 617.7943827210 + 0.008403536944 618.4706403033 + 0.008510804566 619.2743957060 + 0.008619630920 620.1651389793 + 0.008728585872 621.1024447957 + 0.008836280356 622.0482051895 + 0.008941429615 622.9685991430 + 0.009042905766 623.8355947330 + 0.009139774732 624.6278140451 + 0.009231316729 625.3308210260 + 0.009317029434 625.9367784420 + 0.009396616809 626.4436722607 + 0.009469967357 626.8542524766 + 0.009537125694 627.1748503875 + 0.009598261309 627.4142134128 + 0.009653637599 627.5824587015 + 0.009703583406 627.6902049836 + 0.009748468366 627.7479053591 + 0.009788682630 627.7653760205 + 0.009824620979 627.7514982179 + 0.009856670963 627.7140619550 + 0.009885204525 627.6597177763 + 0.009910572497 627.5940052516 + 0.009933101344 627.5214313695 + 0.009953091637 627.4455775287 + 0.009970817761 627.3692191934 + 0.009986528505 627.2944470226 + 0.010000448233 627.2227821600 + 0.010012778398 627.1552813635 + 0.010023699256 627.0926298364 + 0.010033371646 627.0352211343 + 0.010041938765 626.9832245068 + 0.010049527875 626.9366406167 + 0.010056251919 626.8953468892 + 0.010062211019 626.8591338512 + 0.010067493858 626.8277338115 + 0.010072178929 626.8008431442 + 0.010076335673 626.7781393118 + 0.010080025497 626.7592936218 + 0.010083302683 626.7439805662 + 0.010086215210 626.7318844591 + 0.010088805475 626.7227039632 + 0.010091110937 626.7161549881 + 0.010093164692 626.7119723530 + 0.010094995978 626.7099105230 + 0.010096630624 626.7097436698 + 0.010098091447 626.7112652469 + 0.010099398604 626.7142872322 + 0.010100569901 626.7186391517 + 0.010101621068 626.7241669716 + 0.010102566001 626.7307319245 + 0.010103416977 626.7382093168 + 0.010104184841 626.7464873513 + 0.010104879177 626.7554659895 + 0.010105508448 626.7650558689 + 0.010106080135 626.7751772852 + 0.010106600847 626.7857592447 + 0.010107076422 626.7967385888 + 0.010107512020 626.8080591908 + 0.010107912199 626.8196712223 + 0.010108280988 626.8315304864 + 0.010108621946 626.8435978142 + 0.010108938220 626.8558385204 + 0.010109232587 626.8682219121 + 0.010109507505 626.8807208493 + 0.010109765145 626.8933113500 + 0.010110007425 626.9059722374 + 0.010110236041 626.9186848245 + 0.010110452491 626.9314326334 + 0.010110658100 626.9442011447 + 0.010110854038 626.9569775744 + 0.010111041340 626.9697506761 + 0.010111220922 626.9825105645 + 0.010111393592 626.9952485597 + 0.010111560064 627.0079570480 + 0.010111720972 627.0206293592 + 0.010111876873 627.0332596573 + 0.010112028263 627.0458428442 + 0.010112175579 627.0583744741 + 0.010112319206 627.0708506778 + 0.010112459488 627.0832680954 + 0.010112596727 627.0956238173 + 0.010112731191 627.1079153314 + 0.010112863117 627.1201404770 + 0.010112992715 627.1322974036 + 0.010113120170 627.1443845346 + 0.010113245648 627.1564005351 + 0.010113369294 627.1683442836 + 0.010113491237 627.1802148470 + 0.010113611593 627.1920114586 + 0.010113730462 627.2037334978 + 0.010113847936 627.2153804737 + 0.010113964094 627.2269520091 + 0.010114079007 627.2384478275 + 0.010114192740 627.2498677406 + 0.010114305348 627.2612116383 + 0.010114416882 627.2724794790 + 0.010114527387 627.2836712815 + 0.010114636902 627.2947871178 + 0.010114745464 627.3058271066 + 0.010114853104 627.3167914075 + 0.010114959851 627.3276802160 + 0.010115065731 627.3384937595 diff --git a/mytest/ex11_101.sel b/mytest/ex11_101.sel index a6ba2b12..f232625f 100644 --- a/mytest/ex11_101.sel +++ b/mytest/ex11_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000485529673 38.1048693287 - 0.001316661388 97.4529034025 + 0.000485529673 38.1048694594 + 0.001316661388 97.4529040127 diff --git a/mytest/ex12_101.sel b/mytest/ex12_101.sel index e321801d..c4c5597f 100644 --- a/mytest/ex12_101.sel +++ b/mytest/ex12_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.350764706388 29831.4252517249 - 9.148627568117 127224.2844588367 + 0.350764706388 29831.4275538316 + 9.148627568117 127224.2967758855 diff --git a/mytest/ex12b.out b/mytest/ex12b.out index 6629c221..b12e0ab7 100644 --- a/mytest/ex12b.out +++ b/mytest/ex12b.out @@ -2564,12 +2564,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.106 Charge balance - pe = 12.154 Adjusted to redox equilibrium + pe = 12.144 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.723e-08 Temperature (°C) = 21.73 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.024e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 9 @@ -2589,22 +2590,22 @@ Br 1.302e-03 Cl 2.270e-02 Cl- 2.270e-02 1.948e-02 -1.644 -1.710 -0.066 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.658 -41.656 0.002 (0) + H2 0.000e+00 0.000e+00 -41.640 -41.637 0.002 (0) K 2.267e-03 K+ 2.267e-03 1.946e-03 -2.645 -2.711 -0.066 (0) Na 2.173e-02 Na+ 2.173e-02 1.878e-02 -1.663 -1.726 -0.064 (0) -O(0) 1.458e-10 - O2 7.290e-11 7.330e-11 -10.137 -10.135 0.002 (0) +O(0) 1.339e-10 + O2 6.693e-11 6.730e-11 -10.174 -10.172 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(294 K, 1 atm) - H2(g) -38.52 -41.66 -3.14 H2 + H2(g) -38.50 -41.64 -3.14 H2 H2O(g) -1.60 -0.00 1.60 H2O Halite -5.01 -3.44 1.57 NaCl - O2(g) -7.27 -10.13 -2.87 O2 + O2(g) -7.30 -10.17 -2.87 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2641,12 +2642,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.328 Charge balance - pe = 12.429 Adjusted to redox equilibrium + pe = 12.420 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 8.222e-08 Temperature (°C) = 17.33 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.040e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2666,22 +2668,22 @@ Br 3.882e-03 Cl 2.012e-02 Cl- 2.012e-02 1.729e-02 -1.696 -1.762 -0.066 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.633 -42.630 0.002 (0) + H2 0.000e+00 0.000e+00 -42.614 -42.612 0.002 (0) K 6.676e-03 K+ 6.676e-03 5.736e-03 -2.176 -2.241 -0.066 (0) Na 1.732e-02 Na+ 1.732e-02 1.498e-02 -1.761 -1.824 -0.063 (0) -O(0) 4.336e-10 - O2 2.168e-10 2.180e-10 -9.664 -9.662 0.002 (0) +O(0) 3.985e-10 + O2 1.992e-10 2.003e-10 -9.701 -9.698 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(290 K, 1 atm) - H2(g) -39.51 -42.63 -3.12 H2 + H2(g) -39.50 -42.61 -3.12 H2 H2O(g) -1.71 -0.00 1.71 H2O Halite -5.15 -3.59 1.56 NaCl - O2(g) -6.83 -9.66 -2.83 O2 + O2(g) -6.87 -9.70 -2.83 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2718,12 +2720,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.530 Charge balance - pe = 12.639 Adjusted to redox equilibrium + pe = 12.630 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.201e-07 Temperature (°C) = 13.28 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.028e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2743,22 +2746,22 @@ Br 6.391e-03 Cl 1.761e-02 Cl- 1.761e-02 1.514e-02 -1.754 -1.820 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -43.438 -43.435 0.002 (0) + H2 0.000e+00 0.000e+00 -43.420 -43.417 0.002 (0) K 1.073e-02 K+ 1.073e-02 9.225e-03 -1.970 -2.035 -0.065 (0) Na 1.327e-02 Na+ 1.327e-02 1.149e-02 -1.877 -1.940 -0.063 (0) -O(0) 7.103e-10 - O2 3.552e-10 3.571e-10 -9.450 -9.447 0.002 (0) +O(0) 6.541e-10 + O2 3.270e-10 3.289e-10 -9.485 -9.483 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(286 K, 1 atm) - H2(g) -40.34 -43.44 -3.10 H2 + H2(g) -40.32 -43.42 -3.10 H2 H2O(g) -1.83 -0.00 1.83 H2O Halite -5.31 -3.76 1.55 NaCl - O2(g) -6.65 -9.45 -2.80 O2 + O2(g) -6.69 -9.48 -2.80 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2795,12 +2798,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.696 Charge balance - pe = 12.826 Adjusted to redox equilibrium + pe = 12.817 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.427e-07 Temperature (°C) = 9.76 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.970e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2820,22 +2824,22 @@ Br 8.788e-03 Cl 1.521e-02 Cl- 1.521e-02 1.309e-02 -1.818 -1.883 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.127 -44.125 0.002 (0) + H2 0.000e+00 0.000e+00 -44.110 -44.108 0.002 (0) K 1.425e-02 K+ 1.425e-02 1.226e-02 -1.846 -1.911 -0.065 (0) Na 9.754e-03 Na+ 9.754e-03 8.450e-03 -2.011 -2.073 -0.062 (0) -O(0) 9.695e-10 - O2 4.847e-10 4.874e-10 -9.314 -9.312 0.002 (0) +O(0) 8.954e-10 + O2 4.477e-10 4.502e-10 -9.349 -9.347 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(282 K, 1 atm) - H2(g) -41.04 -44.13 -3.08 H2 + H2(g) -41.03 -44.11 -3.08 H2 H2O(g) -1.93 -0.00 1.93 H2O Halite -5.50 -3.96 1.55 NaCl - O2(g) -6.55 -9.31 -2.76 O2 + O2(g) -6.58 -9.35 -2.76 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2856,9 +2860,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.421e-02 3.421e-02 7.127e-01 -0.000 - NaX 1.379e-02 1.379e-02 2.873e-01 -0.000 - HX 3.477e-07 3.477e-07 7.244e-06 -0.000 + KX 3.421e-02 3.421e-02 7.127e-01 0.000 + NaX 1.379e-02 1.379e-02 2.873e-01 0.000 + HX 3.477e-07 3.477e-07 7.244e-06 0.000 -----------------------------Solution composition------------------------------ @@ -2872,12 +2876,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.824 Charge balance - pe = 12.990 Adjusted to redox equilibrium + pe = 12.982 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.538e-07 Temperature (°C) = 6.88 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.854e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2897,22 +2902,22 @@ Br 1.103e-02 Cl 1.297e-02 Cl- 1.297e-02 1.117e-02 -1.887 -1.952 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.698 -44.695 0.002 (0) + H2 0.000e+00 0.000e+00 -44.681 -44.679 0.002 (0) K 1.714e-02 K+ 1.714e-02 1.476e-02 -1.766 -1.831 -0.065 (0) Na 6.864e-03 Na+ 6.864e-03 5.950e-03 -2.163 -2.226 -0.062 (0) -O(0) 1.206e-09 - O2 6.029e-10 6.062e-10 -9.220 -9.217 0.002 (0) +O(0) 1.118e-09 + O2 5.590e-10 5.621e-10 -9.253 -9.250 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(280 K, 1 atm) - H2(g) -41.63 -44.70 -3.07 H2 + H2(g) -41.61 -44.68 -3.07 H2 H2O(g) -2.01 -0.00 2.01 H2O Halite -5.72 -4.18 1.54 NaCl - O2(g) -6.48 -9.22 -2.73 O2 + O2(g) -6.52 -9.25 -2.73 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2933,9 +2938,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.871e-02 3.871e-02 8.065e-01 0.000 - NaX 9.288e-03 9.288e-03 1.935e-01 0.000 - HX 2.821e-07 2.821e-07 5.878e-06 0.000 + KX 3.871e-02 3.871e-02 8.065e-01 -0.000 + NaX 9.288e-03 9.288e-03 1.935e-01 -0.000 + HX 2.821e-07 2.821e-07 5.878e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -2949,13 +2954,14 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.915 Charge balance - pe = 13.129 Adjusted to redox equilibrium + pe = 13.122 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.570e-07 Temperature (°C) = 4.63 - Electrical balance (eq) = 5.667e-08 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.668e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -2974,22 +2980,22 @@ Br 1.310e-02 Cl 1.090e-02 Cl- 1.090e-02 9.390e-03 -1.963 -2.027 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.146 -45.144 0.002 (0) + H2 0.000e+00 0.000e+00 -45.131 -45.128 0.002 (0) K 1.938e-02 K+ 1.938e-02 1.670e-02 -1.713 -1.777 -0.065 (0) Na 4.620e-03 Na+ 4.620e-03 4.006e-03 -2.335 -2.397 -0.062 (0) -O(0) 1.415e-09 - O2 7.077e-10 7.116e-10 -9.150 -9.148 0.002 (0) +O(0) 1.318e-09 + O2 6.592e-10 6.629e-10 -9.181 -9.179 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(277 K, 1 atm) - H2(g) -42.09 -45.14 -3.06 H2 + H2(g) -42.07 -45.13 -3.06 H2 H2O(g) -2.08 -0.00 2.08 H2O Halite -5.96 -4.42 1.53 NaCl - O2(g) -6.44 -9.15 -2.71 O2 + O2(g) -6.47 -9.18 -2.71 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3026,12 +3032,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 7.974 Charge balance - pe = 13.242 Adjusted to redox equilibrium + pe = 13.235 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.551e-07 Temperature (°C) = 2.98 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.402e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3051,22 +3058,22 @@ Br 1.497e-02 Cl 9.031e-03 Cl- 9.031e-03 7.784e-03 -2.044 -2.109 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.481 -45.478 0.002 (0) + H2 0.000e+00 0.000e+00 -45.467 -45.464 0.002 (0) K 2.103e-02 K+ 2.103e-02 1.812e-02 -1.677 -1.742 -0.065 (0) Na 2.971e-03 Na+ 2.971e-03 2.578e-03 -2.527 -2.589 -0.062 (0) -O(0) 1.596e-09 - O2 7.981e-10 8.025e-10 -9.098 -9.096 0.002 (0) +O(0) 1.495e-09 + O2 7.474e-10 7.515e-10 -9.126 -9.124 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(276 K, 1 atm) - H2(g) -42.43 -45.48 -3.05 H2 + H2(g) -42.42 -45.46 -3.05 H2 H2O(g) -2.13 -0.00 2.12 H2O Halite -6.23 -4.70 1.53 NaCl - O2(g) -6.40 -9.10 -2.69 O2 + O2(g) -6.43 -9.12 -2.69 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3087,9 +3094,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.433e-02 4.433e-02 9.235e-01 -0.000 - NaX 3.672e-03 3.672e-03 7.650e-02 -0.000 - HX 2.277e-07 2.277e-07 4.744e-06 -0.000 + KX 4.433e-02 4.433e-02 9.235e-01 0.000 + NaX 3.672e-03 3.672e-03 7.650e-02 0.000 + HX 2.277e-07 2.277e-07 4.744e-06 0.000 -----------------------------Solution composition------------------------------ @@ -3103,12 +3110,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.008 Charge balance - pe = 13.329 Adjusted to redox equilibrium + pe = 13.322 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.506e-07 Temperature (°C) = 1.84 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.054e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3128,22 +3136,22 @@ Br 1.662e-02 Cl 7.375e-03 Cl- 7.375e-03 6.358e-03 -2.132 -2.197 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.717 -45.715 0.002 (0) + H2 0.000e+00 0.000e+00 -45.704 -45.702 0.002 (0) K 2.218e-02 K+ 2.218e-02 1.912e-02 -1.654 -1.719 -0.064 (0) Na 1.825e-03 Na+ 1.825e-03 1.584e-03 -2.739 -2.800 -0.062 (0) -O(0) 1.748e-09 - O2 8.739e-10 8.787e-10 -9.059 -9.056 0.002 (0) +O(0) 1.646e-09 + O2 8.231e-10 8.277e-10 -9.085 -9.082 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -42.67 -45.71 -3.04 H2 + H2(g) -42.66 -45.70 -3.04 H2 H2O(g) -2.16 -0.00 2.16 H2O Halite -6.52 -5.00 1.53 NaCl - O2(g) -6.38 -9.06 -2.68 O2 + O2(g) -6.40 -9.08 -2.68 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3180,12 +3188,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.024 Charge balance - pe = 13.394 Adjusted to redox equilibrium + pe = 13.389 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.451e-07 Temperature (°C) = 1.08 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.621e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3205,22 +3214,22 @@ Br 1.807e-02 Cl 5.933e-03 Cl- 5.933e-03 5.116e-03 -2.227 -2.291 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.876 -45.874 0.002 (0) + H2 0.000e+00 0.000e+00 -45.865 -45.862 0.002 (0) K 2.293e-02 K+ 2.293e-02 1.977e-02 -1.640 -1.704 -0.064 (0) Na 1.070e-03 Na+ 1.070e-03 9.286e-04 -2.971 -3.032 -0.062 (0) -O(0) 1.871e-09 - O2 9.355e-10 9.406e-10 -9.029 -9.027 0.002 (0) +O(0) 1.773e-09 + O2 8.865e-10 8.915e-10 -9.052 -9.050 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -42.84 -45.87 -3.04 H2 + H2(g) -42.82 -45.86 -3.04 H2 H2O(g) -2.18 -0.00 2.18 H2O Halite -6.85 -5.32 1.52 NaCl - O2(g) -6.36 -9.03 -2.67 O2 + O2(g) -6.38 -9.05 -2.67 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3257,12 +3266,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.029 Charge balance - pe = 13.442 Adjusted to redox equilibrium + pe = 13.436 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.397e-07 Temperature (°C) = 0.60 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.106e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3282,22 +3292,22 @@ Br 1.930e-02 Cl 4.701e-03 Cl- 4.701e-03 4.054e-03 -2.328 -2.392 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.978 -45.975 0.002 (0) + H2 0.000e+00 0.000e+00 -45.967 -45.965 0.002 (0) K 2.340e-02 K+ 2.340e-02 2.018e-02 -1.631 -1.695 -0.064 (0) Na 5.989e-04 Na+ 5.989e-04 5.198e-04 -3.223 -3.284 -0.062 (0) -O(0) 1.968e-09 - O2 9.841e-10 9.895e-10 -9.007 -9.005 0.002 (0) +O(0) 1.877e-09 + O2 9.385e-10 9.438e-10 -9.028 -9.025 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.94 -45.98 -3.04 H2 + H2(g) -42.93 -45.97 -3.04 H2 H2O(g) -2.20 -0.00 2.20 H2O Halite -7.20 -5.68 1.52 NaCl - O2(g) -6.34 -9.00 -2.67 O2 + O2(g) -6.36 -9.03 -2.67 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3318,9 +3328,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.736e-02 4.736e-02 9.866e-01 -0.000 - NaX 6.440e-04 6.440e-04 1.342e-02 -0.000 - HX 2.178e-07 2.178e-07 4.537e-06 -0.000 + KX 4.736e-02 4.736e-02 9.866e-01 0.000 + NaX 6.440e-04 6.440e-04 1.342e-02 0.000 + HX 2.178e-07 2.178e-07 4.537e-06 0.000 -----------------------------Solution composition------------------------------ @@ -3334,13 +3344,14 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.027 Charge balance - pe = 13.474 Adjusted to redox equilibrium + pe = 13.470 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.351e-07 Temperature (°C) = 0.32 - Electrical balance (eq) = 8.512e-08 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.513e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -3359,22 +3370,22 @@ Br 2.033e-02 Cl 3.668e-03 Cl- 3.668e-03 3.163e-03 -2.436 -2.500 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.040 -46.037 0.002 (0) + H2 0.000e+00 0.000e+00 -46.031 -46.028 0.002 (0) K 2.368e-02 K+ 2.368e-02 2.042e-02 -1.626 -1.690 -0.064 (0) Na 3.199e-04 Na+ 3.199e-04 2.777e-04 -3.495 -3.556 -0.062 (0) -O(0) 2.043e-09 - O2 1.021e-09 1.027e-09 -8.991 -8.988 0.002 (0) +O(0) 1.961e-09 + O2 9.803e-10 9.857e-10 -9.009 -9.006 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.00 -46.04 -3.03 H2 + H2(g) -42.99 -46.03 -3.03 H2 H2O(g) -2.21 -0.00 2.21 H2O Halite -7.58 -6.06 1.52 NaCl - O2(g) -6.33 -8.99 -2.66 O2 + O2(g) -6.34 -9.01 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3411,12 +3422,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.024 Charge balance - pe = 13.496 Adjusted to redox equilibrium + pe = 13.493 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.316e-07 Temperature (°C) = 0.17 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.847e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3436,22 +3448,22 @@ Br 2.118e-02 Cl 2.817e-03 Cl- 2.817e-03 2.429e-03 -2.550 -2.615 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.076 -46.073 0.002 (0) + H2 0.000e+00 0.000e+00 -46.068 -46.066 0.002 (0) K 2.384e-02 K+ 2.384e-02 2.056e-02 -1.623 -1.687 -0.064 (0) Na 1.632e-04 Na+ 1.632e-04 1.416e-04 -3.787 -3.849 -0.062 (0) -O(0) 2.099e-09 - O2 1.049e-09 1.055e-09 -8.979 -8.977 0.002 (0) +O(0) 2.027e-09 + O2 1.013e-09 1.019e-09 -8.994 -8.992 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.04 -46.07 -3.03 H2 + H2(g) -43.03 -46.07 -3.03 H2 H2O(g) -2.21 -0.00 2.21 H2O Halite -7.98 -6.46 1.52 NaCl - O2(g) -6.32 -8.98 -2.66 O2 + O2(g) -6.33 -8.99 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3488,12 +3500,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.020 Charge balance - pe = 13.510 Adjusted to redox equilibrium + pe = 13.507 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.292e-07 Temperature (°C) = 0.08 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.118e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3513,13 +3526,13 @@ Br 2.187e-02 Cl 2.129e-03 Cl- 2.129e-03 1.836e-03 -2.672 -2.736 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.096 -46.094 0.002 (0) + H2 0.000e+00 0.000e+00 -46.090 -46.088 0.002 (0) K 2.392e-02 K+ 2.392e-02 2.063e-02 -1.621 -1.686 -0.064 (0) Na 7.945e-05 Na+ 7.945e-05 6.896e-05 -4.100 -4.161 -0.062 (0) -O(0) 2.140e-09 - O2 1.070e-09 1.076e-09 -8.971 -8.968 0.002 (0) +O(0) 2.079e-09 + O2 1.039e-09 1.045e-09 -8.983 -8.981 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -3528,7 +3541,7 @@ O(0) 2.140e-09 H2(g) -43.06 -46.09 -3.03 H2 H2O(g) -2.21 -0.00 2.21 H2O Halite -8.42 -6.90 1.52 NaCl - O2(g) -6.31 -8.97 -2.66 O2 + O2(g) -6.32 -8.98 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3565,12 +3578,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.017 Charge balance - pe = 13.519 Adjusted to redox equilibrium + pe = 13.517 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.276e-07 Temperature (°C) = 0.04 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.333e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3590,22 +3604,22 @@ Br 2.242e-02 Cl 1.583e-03 Cl- 1.583e-03 1.365e-03 -2.801 -2.865 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.108 -46.105 0.002 (0) + H2 0.000e+00 0.000e+00 -46.103 -46.100 0.002 (0) K 2.396e-02 K+ 2.396e-02 2.067e-02 -1.620 -1.685 -0.064 (0) Na 3.695e-05 Na+ 3.695e-05 3.207e-05 -4.432 -4.494 -0.062 (0) -O(0) 2.170e-09 - O2 1.085e-09 1.091e-09 -8.965 -8.962 0.002 (0) +O(0) 2.119e-09 + O2 1.060e-09 1.066e-09 -8.975 -8.972 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.07 -46.11 -3.03 H2 + H2(g) -43.07 -46.10 -3.03 H2 H2O(g) -2.22 -0.00 2.21 H2O Halite -8.88 -7.36 1.52 NaCl - O2(g) -6.30 -8.96 -2.66 O2 + O2(g) -6.31 -8.97 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3642,12 +3656,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.016 Charge balance - pe = 13.524 Adjusted to redox equilibrium + pe = 13.522 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.267e-07 Temperature (°C) = 0.02 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.500e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3667,13 +3682,13 @@ Br 2.284e-02 Cl 1.158e-03 Cl- 1.158e-03 9.986e-04 -2.936 -3.001 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.114 -46.112 0.002 (0) + H2 0.000e+00 0.000e+00 -46.110 -46.108 0.002 (0) K 2.398e-02 K+ 2.398e-02 2.068e-02 -1.620 -1.684 -0.064 (0) Na 1.642e-05 Na+ 1.642e-05 1.426e-05 -4.785 -4.846 -0.062 (0) -O(0) 2.193e-09 - O2 1.097e-09 1.103e-09 -8.960 -8.958 0.002 (0) +O(0) 2.152e-09 + O2 1.076e-09 1.082e-09 -8.968 -8.966 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -3682,7 +3697,7 @@ O(0) 2.193e-09 H2(g) -43.08 -46.11 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O Halite -9.37 -7.85 1.52 NaCl - O2(g) -6.30 -8.96 -2.66 O2 + O2(g) -6.31 -8.97 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3719,12 +3734,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.014 Charge balance - pe = 13.527 Adjusted to redox equilibrium + pe = 13.526 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.261e-07 Temperature (°C) = 0.01 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.628e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3744,22 +3760,22 @@ Br 2.317e-02 Cl 8.331e-04 Cl- 8.331e-04 7.185e-04 -3.079 -3.144 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.118 -46.115 0.002 (0) + H2 0.000e+00 0.000e+00 -46.115 -46.112 0.002 (0) K 2.399e-02 K+ 2.399e-02 2.069e-02 -1.620 -1.684 -0.064 (0) Na 6.979e-06 Na+ 6.979e-06 6.057e-06 -5.156 -5.218 -0.062 (0) -O(0) 2.212e-09 - O2 1.106e-09 1.112e-09 -8.956 -8.954 0.002 (0) +O(0) 2.180e-09 + O2 1.090e-09 1.096e-09 -8.963 -8.960 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.08 -46.12 -3.03 H2 + H2(g) -43.08 -46.11 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O Halite -9.88 -8.36 1.52 NaCl - O2(g) -6.30 -8.95 -2.66 O2 + O2(g) -6.30 -8.96 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3796,12 +3812,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.014 Charge balance - pe = 13.529 Adjusted to redox equilibrium + pe = 13.528 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.258e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.724e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3821,22 +3838,22 @@ Br 2.341e-02 Cl 5.894e-04 Cl- 5.894e-04 5.083e-04 -3.230 -3.294 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.120 -46.118 0.002 (0) + H2 0.000e+00 0.000e+00 -46.118 -46.115 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.069e-02 -1.620 -1.684 -0.064 (0) Na 2.836e-06 Na+ 2.836e-06 2.462e-06 -5.547 -5.609 -0.062 (0) -O(0) 2.228e-09 - O2 1.114e-09 1.120e-09 -8.953 -8.951 0.002 (0) +O(0) 2.204e-09 + O2 1.102e-09 1.108e-09 -8.958 -8.956 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.09 -46.12 -3.03 H2 + H2(g) -43.08 -46.12 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O Halite -10.42 -8.90 1.52 NaCl - O2(g) -6.29 -8.95 -2.66 O2 + O2(g) -6.30 -8.96 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3857,9 +3874,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 9.999e-01 0.000 - NaX 2.220e-06 2.220e-06 4.626e-05 0.000 - HX 2.249e-07 2.249e-07 4.686e-06 0.000 + KX 4.800e-02 4.800e-02 9.999e-01 -0.000 + NaX 2.220e-06 2.220e-06 4.626e-05 -0.000 + HX 2.249e-07 2.249e-07 4.686e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -3873,12 +3890,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.531 Adjusted to redox equilibrium + pe = 13.530 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.257e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.794e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3898,13 +3916,13 @@ Br 2.359e-02 Cl 4.100e-04 Cl- 4.100e-04 3.536e-04 -3.387 -3.452 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.122 -46.120 0.002 (0) + H2 0.000e+00 0.000e+00 -46.120 -46.118 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 1.103e-06 Na+ 1.103e-06 9.574e-07 -5.957 -6.019 -0.062 (0) -O(0) 2.243e-09 - O2 1.122e-09 1.128e-09 -8.950 -8.948 0.002 (0) +O(0) 2.225e-09 + O2 1.112e-09 1.119e-09 -8.954 -8.951 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -3934,9 +3952,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 8.268e-07 8.268e-07 1.723e-05 0.000 - HX 2.250e-07 2.250e-07 4.688e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + NaX 8.268e-07 8.268e-07 1.723e-05 -0.000 + HX 2.250e-07 2.250e-07 4.688e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -3956,6 +3974,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.846e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -3975,13 +3994,13 @@ Br 2.372e-02 Cl 2.804e-04 Cl- 2.804e-04 2.418e-04 -3.552 -3.617 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.123 -46.121 0.002 (0) + H2 0.000e+00 0.000e+00 -46.122 -46.120 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 4.108e-07 Na+ 4.108e-07 3.565e-07 -6.386 -6.448 -0.062 (0) -O(0) 2.257e-09 - O2 1.129e-09 1.135e-09 -8.947 -8.945 0.002 (0) +O(0) 2.244e-09 + O2 1.122e-09 1.128e-09 -8.950 -8.948 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4033,6 +4052,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.882e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4052,13 +4072,13 @@ Br 2.381e-02 Cl 1.884e-04 Cl- 1.884e-04 1.625e-04 -3.725 -3.789 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.125 -46.122 0.002 (0) + H2 0.000e+00 0.000e+00 -46.124 -46.121 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 1.465e-07 Na+ 1.465e-07 1.272e-07 -6.834 -6.896 -0.062 (0) -O(0) 2.270e-09 - O2 1.135e-09 1.142e-09 -8.945 -8.943 0.002 (0) +O(0) 2.261e-09 + O2 1.130e-09 1.137e-09 -8.947 -8.944 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4067,7 +4087,7 @@ O(0) 2.270e-09 H2(g) -43.09 -46.12 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O Halite -12.21 -10.68 1.52 NaCl - O2(g) -6.28 -8.94 -2.66 O2 + O2(g) -6.29 -8.94 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4088,9 +4108,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 1.009e-07 1.009e-07 2.102e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + HX 2.251e-07 2.251e-07 4.690e-06 -0.000 + NaX 1.009e-07 1.009e-07 2.102e-06 -0.000 -----------------------------Solution composition------------------------------ @@ -4104,12 +4124,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.533 Adjusted to redox equilibrium + pe = 13.532 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.907e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4129,13 +4150,13 @@ Br 2.388e-02 Cl 1.245e-04 Cl- 1.245e-04 1.073e-04 -3.905 -3.969 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.126 -46.123 0.002 (0) + H2 0.000e+00 0.000e+00 -46.125 -46.123 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 5.011e-08 Na+ 5.011e-08 4.350e-08 -7.300 -7.362 -0.062 (0) -O(0) 2.282e-09 - O2 1.141e-09 1.147e-09 -8.943 -8.940 0.002 (0) +O(0) 2.275e-09 + O2 1.138e-09 1.144e-09 -8.944 -8.942 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4165,9 +4186,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 3.309e-08 3.309e-08 6.893e-07 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + HX 2.251e-07 2.251e-07 4.690e-06 -0.000 + NaX 3.309e-08 3.309e-08 6.893e-07 -0.000 -----------------------------Solution composition------------------------------ @@ -4187,6 +4208,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.924e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4206,13 +4228,13 @@ Br 2.392e-02 Cl 8.078e-05 Cl- 8.078e-05 6.966e-05 -4.093 -4.157 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.127 -46.124 0.002 (0) + H2 0.000e+00 0.000e+00 -46.126 -46.124 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 1.644e-08 Na+ 1.644e-08 1.427e-08 -7.784 -7.846 -0.062 (0) -O(0) 2.291e-09 - O2 1.145e-09 1.152e-09 -8.941 -8.939 0.002 (0) +O(0) 2.286e-09 + O2 1.143e-09 1.150e-09 -8.942 -8.939 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4258,12 +4280,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.534 Adjusted to redox equilibrium + pe = 13.533 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.936e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4288,8 +4311,8 @@ K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 5.174e-09 Na+ 5.174e-09 4.490e-09 -8.286 -8.348 -0.062 (0) -O(0) 2.297e-09 - O2 1.149e-09 1.155e-09 -8.940 -8.937 0.002 (0) +O(0) 2.294e-09 + O2 1.147e-09 1.153e-09 -8.940 -8.938 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4341,6 +4364,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.943e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4360,13 +4384,13 @@ Br 2.397e-02 Cl 3.228e-05 Cl- 3.228e-05 2.783e-05 -4.491 -4.555 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.128 -46.125 0.002 (0) + H2 0.000e+00 0.000e+00 -46.127 -46.125 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 1.564e-09 Na+ 1.564e-09 1.357e-09 -8.806 -8.867 -0.062 (0) -O(0) 2.300e-09 - O2 1.150e-09 1.156e-09 -8.939 -8.937 0.002 (0) +O(0) 2.298e-09 + O2 1.149e-09 1.155e-09 -8.940 -8.937 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4396,9 +4420,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 -0.000 - HX 2.251e-07 2.251e-07 4.690e-06 -0.000 - NaX 9.138e-10 9.138e-10 1.904e-08 -0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 9.138e-10 9.138e-10 1.904e-08 0.000 -----------------------------Solution composition------------------------------ @@ -4418,6 +4442,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.948e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4437,13 +4462,13 @@ Br 2.398e-02 Cl 1.988e-05 Cl- 1.988e-05 1.714e-05 -4.702 -4.766 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.128 -46.125 0.002 (0) + H2 0.000e+00 0.000e+00 -46.127 -46.125 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 4.540e-10 Na+ 4.540e-10 3.940e-10 -9.343 -9.404 -0.062 (0) -O(0) 2.300e-09 - O2 1.150e-09 1.156e-09 -8.939 -8.937 0.002 (0) +O(0) 2.299e-09 + O2 1.149e-09 1.156e-09 -8.940 -8.937 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4489,12 +4514,13 @@ X 4.800e-02 mol ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.534 Adjusted to redox equilibrium + pe = 13.533 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.951e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4519,8 +4545,8 @@ K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 1.267e-10 Na+ 1.267e-10 1.100e-10 -9.897 -9.959 -0.062 (0) -O(0) 2.297e-09 - O2 1.149e-09 1.155e-09 -8.940 -8.937 0.002 (0) +O(0) 2.296e-09 + O2 1.148e-09 1.155e-09 -8.940 -8.938 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4572,6 +4598,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.953e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4591,12 +4618,12 @@ Br 2.399e-02 Cl 7.227e-06 Cl- 7.227e-06 6.232e-06 -5.141 -5.205 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.127 -46.125 0.002 (0) + H2 0.000e+00 0.000e+00 -46.127 -46.124 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) Na 3.400e-11 Na+ 3.400e-11 2.951e-11 -10.469 -10.530 -0.062 (0) -O(0) 2.293e-09 +O(0) 2.292e-09 O2 1.146e-09 1.153e-09 -8.941 -8.938 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4649,6 +4676,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.954e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4726,6 +4754,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.955e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -4751,7 +4780,7 @@ K 2.400e-02 Na 2.209e-12 Na+ 2.209e-12 1.917e-12 -11.656 -11.717 -0.062 (0) O(0) 2.284e-09 - O2 1.142e-09 1.149e-09 -8.942 -8.940 0.002 (0) + O2 1.142e-09 1.148e-09 -8.942 -8.940 0.002 (0) ------------------------------Saturation indices------------------------------- @@ -4781,9 +4810,9 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 1.294e-12 1.294e-12 2.696e-11 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + HX 2.251e-07 2.251e-07 4.690e-06 -0.000 + NaX 1.294e-12 1.294e-12 2.696e-11 -0.000 -----------------------------Solution composition------------------------------ @@ -4803,6 +4832,7 @@ X 4.800e-02 mol Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.955e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7025,10 +7055,10 @@ O(0) 3.432e-15 For ideal gases, phi = 1. WARNING: -Calculating implicit transport: 30 (mobile) cells, 1 shifts, 55 mixruns, max. mixf = 1. +Calculating implicit transport: 30 (mobile) cells, 1 shifts, 53 mixruns, max. mixf = 1. -Transport step 1. Multicomponent diffusion run 55. +Transport step 1. Multicomponent diffusion run 53. Using solution 0. Solution after simulation 4. @@ -7099,29 +7129,29 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 4.330e-02 4.330e-02 9.021e-01 0.000 - KX 4.696e-03 4.696e-03 9.784e-02 0.000 - HX 1.761e-06 1.761e-06 3.669e-05 0.000 + NaX 4.339e-02 4.339e-02 9.040e-01 0.000 + KX 4.605e-03 4.605e-03 9.594e-02 0.000 + HX 1.709e-06 1.709e-06 3.561e-05 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.315e-03 1.315e-03 - Cl 2.268e-02 2.268e-02 - K 2.362e-03 2.362e-03 - Na 2.164e-02 2.164e-02 + Br 1.212e-03 1.212e-03 + Cl 2.280e-02 2.280e-02 + K 2.317e-03 2.317e-03 + Na 2.169e-02 2.169e-02 ----------------------------Description of solution---------------------------- - pH = 7.119 Charge balance - pe = 12.151 Adjusted to redox equilibrium + pH = 7.132 Charge balance + pe = -1.963 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.401e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 3.388e-08 - Temperature (°C) = 21.80 - Electrical balance (eq) = 9.972e-08 + Total alkalinity (eq/kg) = 3.955e-08 + Temperature (°C) = 21.76 + Electrical balance (eq) = 9.967e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 @@ -7132,30 +7162,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.200e-07 1.029e-07 -6.921 -6.988 -0.067 (0) - H+ 8.607e-08 7.602e-08 -7.065 -7.119 -0.054 0.00 + OH- 1.231e-07 1.056e-07 -6.910 -6.976 -0.067 (0) + H+ 8.357e-08 7.381e-08 -7.078 -7.132 -0.054 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.06 -Br 1.315e-03 - Br- 1.315e-03 1.134e-03 -2.881 -2.945 -0.064 (0) -Cl 2.268e-02 - Cl- 2.268e-02 1.947e-02 -1.644 -1.711 -0.066 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.679 -41.677 0.002 (0) -K 2.362e-03 - K+ 2.362e-03 2.027e-03 -2.627 -2.693 -0.066 (0) -Na 2.164e-02 - Na+ 2.164e-02 1.869e-02 -1.665 -1.728 -0.064 (0) -O(0) 1.689e-10 - O2 8.444e-11 8.491e-11 -10.073 -10.071 0.002 (0) +Br 1.212e-03 + Br- 1.212e-03 1.045e-03 -2.916 -2.981 -0.064 (0) +Cl 2.280e-02 + Cl- 2.280e-02 1.957e-02 -1.642 -1.709 -0.066 (0) +H(0) 6.696e-14 + H2 3.348e-14 3.367e-14 -13.475 -13.473 0.002 (0) +K 2.317e-03 + K+ 2.317e-03 1.989e-03 -2.635 -2.701 -0.066 (0) +Na 2.169e-02 + Na+ 2.169e-02 1.874e-02 -1.664 -1.727 -0.064 (0) +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -66.496 -66.493 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(294 K, 1 atm) - H2(g) -38.54 -41.68 -3.14 H2 - H2O(g) -1.59 -0.00 1.59 H2O + H2(g) -10.34 -13.47 -3.14 H2 + H2O(g) -1.60 -0.00 1.59 H2O Halite -5.01 -3.44 1.57 NaCl - O2(g) -7.20 -10.07 -2.87 O2 + O2(g) -63.63 -66.49 -2.87 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7176,29 +7206,29 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 3.420e-02 3.420e-02 7.126e-01 0.000 - KX 1.380e-02 1.380e-02 2.874e-01 0.000 - HX 9.592e-07 9.592e-07 1.998e-05 0.000 + NaX 3.398e-02 3.398e-02 7.079e-01 0.000 + KX 1.402e-02 1.402e-02 2.921e-01 0.000 + HX 9.819e-07 9.819e-07 2.046e-05 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 3.920e-03 3.920e-03 - Cl 2.008e-02 2.008e-02 - K 6.930e-03 6.930e-03 - Na 1.707e-02 1.707e-02 + Br 3.757e-03 3.757e-03 + Cl 2.027e-02 2.027e-02 + K 7.050e-03 7.050e-03 + Na 1.698e-02 1.698e-02 ----------------------------Description of solution---------------------------- - pH = 7.383 Charge balance - pe = 12.548 Adjusted to redox equilibrium + pH = 7.372 Charge balance + pe = -2.475 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.403e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 8.559e-08 - Temperature (°C) = 15.54 - Electrical balance (eq) = 1.001e-07 + Total alkalinity (eq/kg) = 9.996e-08 + Temperature (°C) = 17.16 + Electrical balance (eq) = 1.000e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 @@ -7209,30 +7239,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.324e-07 1.137e-07 -6.878 -6.944 -0.066 (0) - H+ 4.684e-08 4.142e-08 -7.329 -7.383 -0.053 0.00 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.03 -Br 3.920e-03 - Br- 3.920e-03 3.385e-03 -2.407 -2.470 -0.064 (0) -Cl 2.008e-02 - Cl- 2.008e-02 1.726e-02 -1.697 -1.763 -0.066 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -42.971 -42.969 0.002 (0) -K 6.930e-03 - K+ 6.930e-03 5.957e-03 -2.159 -2.225 -0.066 (0) -Na 1.707e-02 - Na+ 1.707e-02 1.477e-02 -1.768 -1.831 -0.063 (0) -O(0) 5.019e-10 - O2 2.510e-10 2.524e-10 -9.600 -9.598 0.002 (0) + OH- 1.480e-07 1.270e-07 -6.830 -6.896 -0.066 (0) + H+ 4.799e-08 4.242e-08 -7.319 -7.372 -0.054 0.00 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.04 +Br 3.757e-03 + Br- 3.757e-03 3.243e-03 -2.425 -2.489 -0.064 (0) +Cl 2.027e-02 + Cl- 2.027e-02 1.741e-02 -1.693 -1.759 -0.066 (0) +H(0) 2.448e-13 + H2 1.224e-13 1.231e-13 -12.912 -12.910 0.002 (0) +K 7.050e-03 + K+ 7.050e-03 6.057e-03 -2.152 -2.218 -0.066 (0) +Na 1.698e-02 + Na+ 1.698e-02 1.468e-02 -1.770 -1.833 -0.063 (0) +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -69.163 -69.161 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(288 K, 1 atm) + Phase SI** log IAP log K(290 K, 1 atm) - H2(g) -39.86 -42.97 -3.11 H2 - H2O(g) -1.76 -0.00 1.76 H2O - Halite -5.15 -3.59 1.56 NaCl - O2(g) -6.78 -9.60 -2.82 O2 + H2(g) -9.79 -12.91 -3.12 H2 + H2O(g) -1.72 -0.00 1.72 H2O + Halite -5.16 -3.59 1.56 NaCl + O2(g) -66.33 -69.16 -2.83 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7253,29 +7283,29 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - NaX 2.595e-02 2.595e-02 5.406e-01 0.000 - KX 2.205e-02 2.205e-02 4.594e-01 0.000 - HX 5.664e-07 5.664e-07 1.180e-05 0.000 + NaX 2.462e-02 2.462e-02 5.129e-01 0.000 + KX 2.338e-02 2.338e-02 4.871e-01 0.000 + HX 5.903e-07 5.903e-07 1.230e-05 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 6.451e-03 6.451e-03 - Cl 1.755e-02 1.755e-02 - K 1.106e-02 1.106e-02 - Na 1.294e-02 1.294e-02 + Br 6.526e-03 6.526e-03 + Cl 1.752e-02 1.752e-02 + K 1.175e-02 1.175e-02 + Na 1.229e-02 1.229e-02 ----------------------------Description of solution---------------------------- - pH = 7.612 Charge balance - pe = 12.852 Adjusted to redox equilibrium + pH = 7.593 Charge balance + pe = 11.647 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.404e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.139e-07 - Temperature (°C) = 10.20 - Electrical balance (eq) = 1.002e-07 + Total alkalinity (eq/kg) = 1.375e-07 + Temperature (°C) = 12.53 + Electrical balance (eq) = 1.001e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 Total H = 1.110124e+02 @@ -7286,30 +7316,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.415e-07 1.217e-07 -6.849 -6.915 -0.066 (0) - H+ 2.763e-08 2.446e-08 -7.559 -7.612 -0.053 0.00 - H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 6.451e-03 - Br- 6.451e-03 5.577e-03 -2.190 -2.254 -0.063 (0) -Cl 1.755e-02 - Cl- 1.755e-02 1.510e-02 -1.756 -1.821 -0.065 (0) + OH- 1.663e-07 1.429e-07 -6.779 -6.845 -0.066 (0) + H+ 2.884e-08 2.552e-08 -7.540 -7.593 -0.053 0.00 + H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.03 +Br 6.526e-03 + Br- 6.526e-03 5.638e-03 -2.185 -2.249 -0.063 (0) +Cl 1.752e-02 + Cl- 1.752e-02 1.506e-02 -1.757 -1.822 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.013 -44.010 0.002 (0) -K 1.106e-02 - K+ 1.106e-02 9.522e-03 -1.956 -2.021 -0.065 (0) -Na 1.294e-02 - Na+ 1.294e-02 1.120e-02 -1.888 -1.951 -0.062 (0) -O(0) 8.212e-10 - O2 4.106e-10 4.129e-10 -9.387 -9.384 0.002 (0) + H2 0.000e+00 0.000e+00 -41.576 -41.574 0.002 (0) +K 1.175e-02 + K+ 1.175e-02 1.011e-02 -1.930 -1.995 -0.065 (0) +Na 1.229e-02 + Na+ 1.229e-02 1.064e-02 -1.910 -1.973 -0.063 (0) +O(0) 7.318e-14 + O2 3.659e-14 3.680e-14 -13.437 -13.434 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(283 K, 1 atm) + Phase SI** log IAP log K(285 K, 1 atm) - H2(g) -40.93 -44.01 -3.08 H2 - H2O(g) -1.91 -0.00 1.91 H2O - Halite -5.32 -3.77 1.55 NaCl - O2(g) -6.62 -9.38 -2.77 O2 + H2(g) -38.48 -41.57 -3.09 H2 + H2O(g) -1.85 -0.00 1.85 H2O + Halite -5.35 -3.80 1.55 NaCl + O2(g) -10.64 -13.43 -2.79 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7330,31 +7360,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 2.908e-02 2.908e-02 6.059e-01 0.000 - NaX 1.892e-02 1.892e-02 3.941e-01 0.000 - HX 3.799e-07 3.799e-07 7.914e-06 0.000 + KX 3.174e-02 3.174e-02 6.613e-01 -0.000 + NaX 1.626e-02 1.626e-02 3.387e-01 -0.000 + HX 3.869e-07 3.869e-07 8.061e-06 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 8.863e-03 8.863e-03 - Cl 1.514e-02 1.514e-02 - K 1.458e-02 1.458e-02 - Na 9.422e-03 9.422e-03 + Br 9.450e-03 9.450e-03 + Cl 1.461e-02 1.461e-02 + K 1.594e-02 1.594e-02 + Na 8.113e-03 8.113e-03 ----------------------------Description of solution---------------------------- - pH = 7.785 Charge balance - pe = 13.088 Adjusted to redox equilibrium + pH = 7.777 Charge balance + pe = 11.823 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.406e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.277e-07 - Temperature (°C) = 6.17 - Electrical balance (eq) = 1.000e-07 + Total alkalinity (eq/kg) = 1.555e-07 + Temperature (°C) = 8.30 + Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -7363,30 +7393,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.463e-07 1.259e-07 -6.835 -6.900 -0.065 (0) - H+ 1.852e-08 1.640e-08 -7.732 -7.785 -0.053 0.00 + OH- 1.744e-07 1.500e-07 -6.759 -6.824 -0.065 (0) + H+ 1.890e-08 1.673e-08 -7.724 -7.777 -0.053 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 8.863e-03 - Br- 8.863e-03 7.669e-03 -2.052 -2.115 -0.063 (0) -Cl 1.514e-02 - Cl- 1.514e-02 1.304e-02 -1.820 -1.885 -0.065 (0) +Br 9.450e-03 + Br- 9.450e-03 8.172e-03 -2.025 -2.088 -0.063 (0) +Cl 1.461e-02 + Cl- 1.461e-02 1.257e-02 -1.835 -1.901 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -44.811 -44.809 0.002 (0) -K 1.458e-02 - K+ 1.458e-02 1.256e-02 -1.836 -1.901 -0.065 (0) -Na 9.422e-03 - Na+ 9.422e-03 8.168e-03 -2.026 -2.088 -0.062 (0) -O(0) 1.119e-09 - O2 5.593e-10 5.624e-10 -9.252 -9.250 0.002 (0) + H2 0.000e+00 0.000e+00 -42.275 -42.273 0.002 (0) +K 1.594e-02 + K+ 1.594e-02 1.373e-02 -1.797 -1.862 -0.065 (0) +Na 8.113e-03 + Na+ 8.113e-03 7.029e-03 -2.091 -2.153 -0.062 (0) +O(0) 5.675e-14 + O2 2.838e-14 2.853e-14 -13.547 -13.545 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(279 K, 1 atm) + Phase SI** log IAP log K(281 K, 1 atm) - H2(g) -41.75 -44.81 -3.06 H2 - H2O(g) -2.03 -0.00 2.03 H2O - Halite -5.51 -3.97 1.54 NaCl - O2(g) -6.52 -9.25 -2.73 O2 + H2(g) -39.20 -42.27 -3.07 H2 + H2O(g) -1.97 -0.00 1.97 H2O + Halite -5.60 -4.05 1.54 NaCl + O2(g) -10.80 -13.54 -2.75 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7407,31 +7437,31 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.472e-02 3.472e-02 7.234e-01 0.000 - NaX 1.327e-02 1.327e-02 2.766e-01 0.000 - HX 2.914e-07 2.914e-07 6.072e-06 0.000 + KX 3.828e-02 3.828e-02 7.974e-01 0.000 + NaX 9.722e-03 9.722e-03 2.026e-01 0.000 + HX 2.860e-07 2.860e-07 5.958e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.112e-02 1.112e-02 - Cl 1.288e-02 1.288e-02 - K 1.739e-02 1.739e-02 - Na 6.607e-03 6.607e-03 + Br 1.238e-02 1.238e-02 + Cl 1.169e-02 1.169e-02 + K 1.922e-02 1.922e-02 + Na 4.850e-03 4.850e-03 ----------------------------Description of solution---------------------------- - pH = 7.900 Charge balance - pe = 13.256 Adjusted to redox equilibrium + pH = 7.908 Charge balance + pe = -2.917 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.407e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.332e-07 - Temperature (°C) = 3.44 - Electrical balance (eq) = 9.962e-08 + Total alkalinity (eq/kg) = 1.586e-07 + Temperature (°C) = 4.92 + Electrical balance (eq) = 9.955e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 2 + Iterations = 3 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -7440,30 +7470,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.474e-07 1.269e-07 -6.832 -6.897 -0.065 (0) - H+ 1.420e-08 1.258e-08 -7.848 -7.900 -0.053 0.00 + OH- 1.725e-07 1.485e-07 -6.763 -6.828 -0.065 (0) + H+ 1.396e-08 1.237e-08 -7.855 -7.908 -0.053 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.112e-02 - Br- 1.112e-02 9.627e-03 -1.954 -2.017 -0.063 (0) -Cl 1.288e-02 - Cl- 1.288e-02 1.110e-02 -1.890 -1.955 -0.065 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.365 -45.362 0.002 (0) -K 1.739e-02 - K+ 1.739e-02 1.499e-02 -1.760 -1.824 -0.065 (0) -Na 6.607e-03 - Na+ 6.607e-03 5.730e-03 -2.180 -2.242 -0.062 (0) -O(0) 1.387e-09 - O2 6.936e-10 6.974e-10 -9.159 -9.156 0.002 (0) +Br 1.238e-02 + Br- 1.238e-02 1.071e-02 -1.907 -1.970 -0.063 (0) +Cl 1.169e-02 + Cl- 1.169e-02 1.007e-02 -1.932 -1.997 -0.065 (0) +H(0) 1.824e-13 + H2 9.122e-14 9.173e-14 -13.040 -13.037 0.002 (0) +K 1.922e-02 + K+ 1.922e-02 1.656e-02 -1.716 -1.781 -0.065 (0) +Na 4.850e-03 + Na+ 4.850e-03 4.205e-03 -2.314 -2.376 -0.062 (0) +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -73.258 -73.255 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(276 K, 1 atm) + Phase SI** log IAP log K(278 K, 1 atm) - H2(g) -42.31 -45.36 -3.05 H2 - H2O(g) -2.11 -0.00 2.11 H2O - Halite -5.73 -4.20 1.53 NaCl - O2(g) -6.46 -9.16 -2.70 O2 + H2(g) -9.98 -13.04 -3.06 H2 + H2O(g) -2.07 -0.00 2.07 H2O + Halite -5.91 -4.37 1.53 NaCl + O2(g) -70.54 -73.26 -2.71 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7484,29 +7514,29 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 3.902e-02 3.902e-02 8.129e-01 -0.000 - NaX 8.982e-03 8.982e-03 1.871e-01 -0.000 - HX 2.501e-07 2.501e-07 5.210e-06 -0.000 + KX 4.270e-02 4.270e-02 8.896e-01 0.000 + NaX 5.299e-03 5.299e-03 1.104e-01 0.000 + HX 2.404e-07 2.404e-07 5.007e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.319e-02 1.319e-02 - Cl 1.081e-02 1.081e-02 - K 1.953e-02 1.953e-02 - Na 4.468e-03 4.468e-03 + Br 1.512e-02 1.512e-02 + Cl 8.956e-03 8.956e-03 + K 2.143e-02 2.143e-02 + Na 2.643e-03 2.643e-03 ----------------------------Description of solution---------------------------- - pH = 7.967 Charge balance - pe = 13.368 Adjusted to redox equilibrium + pH = 7.983 Charge balance + pe = 12.060 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.407e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.340e-07 - Temperature (°C) = 1.77 - Electrical balance (eq) = 9.956e-08 + Total alkalinity (eq/kg) = 1.528e-07 + Temperature (°C) = 2.60 + Electrical balance (eq) = 9.955e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110124e+02 @@ -7517,30 +7547,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.462e-07 1.259e-07 -6.835 -6.900 -0.065 (0) - H+ 1.218e-08 1.079e-08 -7.914 -7.967 -0.052 0.00 + OH- 1.645e-07 1.417e-07 -6.784 -6.849 -0.065 (0) + H+ 1.173e-08 1.040e-08 -7.931 -7.983 -0.053 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.319e-02 - Br- 1.319e-02 1.142e-02 -1.880 -1.942 -0.062 (0) -Cl 1.081e-02 - Cl- 1.081e-02 9.320e-03 -1.966 -2.031 -0.064 (0) +Br 1.512e-02 + Br- 1.512e-02 1.309e-02 -1.820 -1.883 -0.063 (0) +Cl 8.956e-03 + Cl- 8.956e-03 7.718e-03 -2.048 -2.112 -0.065 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.713 -45.711 0.002 (0) -K 1.953e-02 - K+ 1.953e-02 1.684e-02 -1.709 -1.774 -0.064 (0) -Na 4.468e-03 - Na+ 4.468e-03 3.876e-03 -2.350 -2.412 -0.062 (0) -O(0) 1.622e-09 - O2 8.110e-10 8.155e-10 -9.091 -9.089 0.002 (0) + H2 0.000e+00 0.000e+00 -43.133 -43.131 0.002 (0) +K 2.143e-02 + K+ 2.143e-02 1.847e-02 -1.669 -1.734 -0.065 (0) +Na 2.643e-03 + Na+ 2.643e-03 2.292e-03 -2.578 -2.640 -0.062 (0) +O(0) 2.309e-14 + O2 1.154e-14 1.161e-14 -13.938 -13.935 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(274 K, 1 atm) + Phase SI** log IAP log K(275 K, 1 atm) - H2(g) -42.67 -45.71 -3.04 H2 - H2O(g) -2.16 -0.00 2.16 H2O - Halite -5.97 -4.44 1.53 NaCl - O2(g) -6.41 -9.09 -2.68 O2 + H2(g) -40.09 -43.13 -3.05 H2 + H2O(g) -2.14 -0.00 2.14 H2O + Halite -6.28 -4.75 1.53 NaCl + O2(g) -11.25 -13.94 -2.69 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7561,28 +7591,28 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.213e-02 4.213e-02 8.776e-01 0.000 - NaX 5.873e-03 5.873e-03 1.224e-01 0.000 - HX 2.318e-07 2.318e-07 4.830e-06 0.000 + KX 4.533e-02 4.533e-02 9.443e-01 0.000 + NaX 2.672e-03 2.672e-03 5.568e-02 0.000 + HX 2.234e-07 2.234e-07 4.655e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.505e-02 1.505e-02 - Cl 8.947e-03 8.947e-03 - K 2.108e-02 2.108e-02 - Na 2.920e-03 2.920e-03 + Br 1.749e-02 1.749e-02 + Cl 6.587e-03 6.587e-03 + K 2.274e-02 2.274e-02 + Na 1.332e-03 1.332e-03 ----------------------------Description of solution---------------------------- - pH = 8.000 Charge balance - pe = 13.438 Adjusted to redox equilibrium + pH = 8.015 Charge balance + pe = -2.786 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.407e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.328e-07 - Temperature (°C) = 0.85 + Total alkalinity (eq/kg) = 1.441e-07 + Temperature (°C) = 1.24 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7594,30 +7624,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.441e-07 1.241e-07 -6.841 -6.906 -0.065 (0) - H+ 1.128e-08 1.000e-08 -7.947 -8.000 -0.052 0.00 + OH- 1.550e-07 1.335e-07 -6.810 -6.874 -0.065 (0) + H+ 1.091e-08 9.664e-09 -7.962 -8.015 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.505e-02 - Br- 1.505e-02 1.304e-02 -1.822 -1.885 -0.062 (0) -Cl 8.947e-03 - Cl- 8.947e-03 7.715e-03 -2.048 -2.113 -0.064 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.915 -45.912 0.002 (0) -K 2.108e-02 - K+ 2.108e-02 1.818e-02 -1.676 -1.740 -0.064 (0) -Na 2.920e-03 - Na+ 2.920e-03 2.534e-03 -2.535 -2.596 -0.062 (0) -O(0) 1.820e-09 - O2 9.099e-10 9.149e-10 -9.041 -9.039 0.002 (0) +Br 1.749e-02 + Br- 1.749e-02 1.514e-02 -1.757 -1.820 -0.062 (0) +Cl 6.587e-03 + Cl- 6.587e-03 5.679e-03 -2.181 -2.246 -0.064 (0) +H(0) 6.357e-14 + H2 3.178e-14 3.196e-14 -13.498 -13.495 0.002 (0) +K 2.274e-02 + K+ 2.274e-02 1.960e-02 -1.643 -1.708 -0.064 (0) +Na 1.332e-03 + Na+ 1.332e-03 1.156e-03 -2.875 -2.937 -0.062 (0) +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -73.724 -73.722 0.002 (0) ------------------------------Saturation indices------------------------------- - Phase SI** log IAP log K(273 K, 1 atm) + Phase SI** log IAP log K(274 K, 1 atm) - H2(g) -42.88 -45.91 -3.04 H2 - H2O(g) -2.19 -0.00 2.19 H2O - Halite -6.23 -4.71 1.52 NaCl - O2(g) -6.37 -9.04 -2.67 O2 + H2(g) -10.46 -13.50 -3.04 H2 + H2O(g) -2.18 -0.00 2.18 H2O + Halite -6.71 -5.18 1.52 NaCl + O2(g) -71.05 -73.72 -2.67 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7638,28 +7668,28 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.428e-02 4.428e-02 9.225e-01 0.000 - NaX 3.720e-03 3.720e-03 7.749e-02 0.000 - HX 2.248e-07 2.248e-07 4.684e-06 0.000 + KX 4.673e-02 4.673e-02 9.736e-01 0.000 + NaX 1.267e-03 1.267e-03 2.640e-02 0.000 + HX 2.197e-07 2.197e-07 4.577e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.670e-02 1.670e-02 - Cl 7.301e-03 7.301e-03 - K 2.215e-02 2.215e-02 - Na 1.849e-03 1.849e-03 + Br 1.940e-02 1.940e-02 + Cl 4.671e-03 4.671e-03 + K 2.344e-02 2.344e-02 + Na 6.314e-04 6.314e-04 ----------------------------Description of solution---------------------------- - pH = 8.013 Charge balance - pe = 13.480 Adjusted to redox equilibrium + pH = 8.022 Charge balance + pe = -2.978 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.407e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.309e-07 - Temperature (°C) = 0.38 + Total alkalinity (eq/kg) = 1.365e-07 + Temperature (°C) = 0.54 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7671,30 +7701,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.418e-07 1.222e-07 -6.848 -6.913 -0.065 (0) - H+ 1.094e-08 9.698e-09 -7.961 -8.013 -0.052 0.00 + OH- 1.472e-07 1.268e-07 -6.832 -6.897 -0.065 (0) + H+ 1.072e-08 9.499e-09 -7.970 -8.022 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.670e-02 - Br- 1.670e-02 1.447e-02 -1.777 -1.840 -0.062 (0) -Cl 7.301e-03 - Cl- 7.301e-03 6.295e-03 -2.137 -2.201 -0.064 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.023 -46.020 0.002 (0) -K 2.215e-02 - K+ 2.215e-02 1.910e-02 -1.655 -1.719 -0.064 (0) -Na 1.849e-03 - Na+ 1.849e-03 1.605e-03 -2.733 -2.795 -0.062 (0) -O(0) 1.979e-09 - O2 9.893e-10 9.948e-10 -9.005 -9.002 0.002 (0) +Br 1.940e-02 + Br- 1.940e-02 1.680e-02 -1.712 -1.775 -0.062 (0) +Cl 4.671e-03 + Cl- 4.671e-03 4.027e-03 -2.331 -2.395 -0.064 (0) +H(0) 1.494e-13 + H2 7.470e-14 7.512e-14 -13.127 -13.124 0.002 (0) +K 2.344e-02 + K+ 2.344e-02 2.021e-02 -1.630 -1.695 -0.064 (0) +Na 6.314e-04 + Na+ 6.314e-04 5.479e-04 -3.200 -3.261 -0.062 (0) +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -74.733 -74.731 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.99 -46.02 -3.03 H2 + H2(g) -10.09 -13.12 -3.03 H2 H2O(g) -2.20 -0.00 2.20 H2O - Halite -6.52 -5.00 1.52 NaCl - O2(g) -6.34 -9.00 -2.66 O2 + Halite -7.18 -5.66 1.52 NaCl + O2(g) -72.07 -74.73 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7715,28 +7745,28 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.571e-02 4.571e-02 9.524e-01 0.000 - NaX 2.286e-03 2.286e-03 4.764e-02 0.000 - HX 2.229e-07 2.229e-07 4.644e-06 0.000 + KX 4.743e-02 4.743e-02 9.881e-01 0.000 + NaX 5.720e-04 5.720e-04 1.192e-02 0.000 + HX 2.206e-07 2.206e-07 4.596e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.813e-02 1.813e-02 - Cl 5.872e-03 5.872e-03 - K 2.286e-02 2.286e-02 - Na 1.136e-03 1.136e-03 + Br 2.085e-02 2.085e-02 + Cl 3.205e-03 3.205e-03 + K 2.378e-02 2.378e-02 + Na 2.849e-04 2.849e-04 ----------------------------Description of solution---------------------------- - pH = 8.017 Charge balance - pe = 13.504 Adjusted to redox equilibrium + pH = 8.021 Charge balance + pe = 12.535 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.406e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.291e-07 - Temperature (°C) = 0.16 + Total alkalinity (eq/kg) = 1.313e-07 + Temperature (°C) = 0.22 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7748,30 +7778,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.400e-07 1.206e-07 -6.854 -6.919 -0.065 (0) - H+ 1.085e-08 9.614e-09 -7.965 -8.017 -0.052 0.00 + OH- 1.421e-07 1.224e-07 -6.848 -6.912 -0.065 (0) + H+ 1.076e-08 9.535e-09 -7.968 -8.021 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.813e-02 - Br- 1.813e-02 1.570e-02 -1.742 -1.804 -0.062 (0) -Cl 5.872e-03 - Cl- 5.872e-03 5.064e-03 -2.231 -2.296 -0.064 (0) +Br 2.085e-02 + Br- 2.085e-02 1.806e-02 -1.681 -1.743 -0.062 (0) +Cl 3.205e-03 + Cl- 3.205e-03 2.764e-03 -2.494 -2.559 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.078 -46.075 0.002 (0) -K 2.286e-02 - K+ 2.286e-02 1.972e-02 -1.641 -1.705 -0.064 (0) -Na 1.136e-03 - Na+ 1.136e-03 9.862e-04 -2.945 -3.006 -0.062 (0) -O(0) 2.099e-09 - O2 1.049e-09 1.055e-09 -8.979 -8.977 0.002 (0) + H2 0.000e+00 0.000e+00 -44.147 -44.145 0.002 (0) +K 2.378e-02 + K+ 2.378e-02 2.050e-02 -1.624 -1.688 -0.064 (0) +Na 2.849e-04 + Na+ 2.849e-04 2.472e-04 -3.545 -3.607 -0.062 (0) +O(0) 3.055e-13 + O2 1.528e-13 1.536e-13 -12.816 -12.814 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.04 -46.08 -3.03 H2 + H2(g) -41.11 -44.14 -3.03 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -6.82 -5.30 1.52 NaCl - O2(g) -6.32 -8.98 -2.66 O2 + Halite -7.69 -6.17 1.52 NaCl + O2(g) -10.15 -12.81 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7792,28 +7822,28 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.663e-02 4.663e-02 9.715e-01 0.000 - NaX 1.367e-03 1.367e-03 2.848e-02 0.000 - HX 2.229e-07 2.229e-07 4.644e-06 0.000 + KX 4.775e-02 4.775e-02 9.948e-01 0.000 + NaX 2.480e-04 2.480e-04 5.167e-03 0.000 + HX 2.223e-07 2.223e-07 4.632e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 1.934e-02 1.934e-02 - Cl 4.655e-03 4.655e-03 - K 2.332e-02 2.332e-02 - Na 6.793e-04 6.793e-04 + Br 2.192e-02 2.192e-02 + Cl 2.135e-03 2.135e-03 + K 2.393e-02 2.393e-02 + Na 1.235e-04 1.235e-04 ----------------------------Description of solution---------------------------- pH = 8.017 Charge balance - pe = 13.518 Adjusted to redox equilibrium + pe = 12.501 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.405e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.278e-07 - Temperature (°C) = 0.06 + Total alkalinity (eq/kg) = 1.283e-07 + Temperature (°C) = 0.08 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7825,30 +7855,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.387e-07 1.195e-07 -6.858 -6.923 -0.065 (0) - H+ 1.085e-08 9.614e-09 -7.965 -8.017 -0.052 0.00 + OH- 1.391e-07 1.199e-07 -6.857 -6.921 -0.065 (0) + H+ 1.084e-08 9.605e-09 -7.965 -8.017 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 1.934e-02 - Br- 1.934e-02 1.676e-02 -1.713 -1.776 -0.062 (0) -Cl 4.655e-03 - Cl- 4.655e-03 4.015e-03 -2.332 -2.396 -0.064 (0) +Br 2.192e-02 + Br- 2.192e-02 1.898e-02 -1.659 -1.722 -0.062 (0) +Cl 2.135e-03 + Cl- 2.135e-03 1.841e-03 -2.671 -2.735 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.104 -46.102 0.002 (0) -K 2.332e-02 - K+ 2.332e-02 2.011e-02 -1.632 -1.697 -0.064 (0) -Na 6.793e-04 - Na+ 6.793e-04 5.896e-04 -3.168 -3.229 -0.062 (0) -O(0) 2.181e-09 - O2 1.090e-09 1.096e-09 -8.962 -8.960 0.002 (0) + H2 0.000e+00 0.000e+00 -44.072 -44.069 0.002 (0) +K 2.393e-02 + K+ 2.393e-02 2.063e-02 -1.621 -1.685 -0.064 (0) +Na 1.235e-04 + Na+ 1.235e-04 1.071e-04 -3.908 -3.970 -0.062 (0) +O(0) 1.913e-13 + O2 9.566e-14 9.619e-14 -13.019 -13.017 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.07 -46.10 -3.03 H2 + H2(g) -41.04 -44.07 -3.03 H2 H2O(g) -2.21 -0.00 2.21 H2O - Halite -7.15 -5.63 1.52 NaCl - O2(g) -6.30 -8.96 -2.66 O2 + Halite -8.23 -6.71 1.52 NaCl + O2(g) -10.36 -13.02 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7869,28 +7899,28 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.720e-02 4.720e-02 9.834e-01 0.000 - NaX 7.966e-04 7.966e-04 1.660e-02 0.000 - HX 2.235e-07 2.235e-07 4.657e-06 0.000 + KX 4.790e-02 4.790e-02 9.978e-01 0.000 + NaX 1.038e-04 1.038e-04 2.163e-03 0.000 + HX 2.236e-07 2.236e-07 4.659e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.036e-02 2.036e-02 - Cl 3.638e-03 3.638e-03 - K 2.360e-02 2.360e-02 - Na 3.958e-04 3.958e-04 + Br 2.266e-02 2.266e-02 + Cl 1.382e-03 1.382e-03 + K 2.399e-02 2.399e-02 + Na 5.167e-05 5.167e-05 ----------------------------Description of solution---------------------------- - pH = 8.016 Charge balance - pe = 13.525 Adjusted to redox equilibrium + pH = 8.015 Charge balance + pe = 12.729 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.404e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.269e-07 - Temperature (°C) = 0.02 + Total alkalinity (eq/kg) = 1.267e-07 + Temperature (°C) = 0.03 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -7902,30 +7932,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.378e-07 1.187e-07 -6.861 -6.926 -0.065 (0) - H+ 1.087e-08 9.639e-09 -7.964 -8.016 -0.052 0.00 + OH- 1.376e-07 1.186e-07 -6.861 -6.926 -0.065 (0) + H+ 1.090e-08 9.658e-09 -7.963 -8.015 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.036e-02 - Br- 2.036e-02 1.764e-02 -1.691 -1.753 -0.062 (0) -Cl 3.638e-03 - Cl- 3.638e-03 3.137e-03 -2.439 -2.503 -0.064 (0) +Br 2.266e-02 + Br- 2.266e-02 1.963e-02 -1.645 -1.707 -0.062 (0) +Cl 1.382e-03 + Cl- 1.382e-03 1.192e-03 -2.860 -2.924 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.116 -46.114 0.002 (0) -K 2.360e-02 - K+ 2.360e-02 2.036e-02 -1.627 -1.691 -0.064 (0) -Na 3.958e-04 - Na+ 3.958e-04 3.435e-04 -3.403 -3.464 -0.062 (0) -O(0) 2.226e-09 - O2 1.113e-09 1.119e-09 -8.953 -8.951 0.002 (0) + H2 0.000e+00 0.000e+00 -44.523 -44.521 0.002 (0) +K 2.399e-02 + K+ 2.399e-02 2.068e-02 -1.620 -1.684 -0.064 (0) +Na 5.167e-05 + Na+ 5.167e-05 4.484e-05 -4.287 -4.348 -0.062 (0) +O(0) 1.462e-12 + O2 7.308e-13 7.349e-13 -12.136 -12.134 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.08 -46.11 -3.03 H2 + H2(g) -41.49 -44.52 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -7.49 -5.97 1.52 NaCl - O2(g) -6.29 -8.95 -2.66 O2 + Halite -8.79 -7.27 1.52 NaCl + O2(g) -9.47 -12.13 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -7946,27 +7976,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.755e-02 4.755e-02 9.906e-01 0.000 - NaX 4.531e-04 4.531e-04 9.440e-03 0.000 - HX 2.241e-07 2.241e-07 4.669e-06 0.000 + KX 4.796e-02 4.796e-02 9.991e-01 0.000 + NaX 4.215e-05 4.215e-05 8.781e-04 0.000 + HX 2.244e-07 2.244e-07 4.675e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.120e-02 2.120e-02 - Cl 2.802e-03 2.802e-03 - K 2.378e-02 2.378e-02 - Na 2.251e-04 2.251e-04 + Br 2.316e-02 2.316e-02 + Cl 8.705e-04 8.705e-04 + K 2.401e-02 2.401e-02 + Na 2.097e-05 2.097e-05 ----------------------------Description of solution---------------------------- - pH = 8.015 Charge balance - pe = 13.528 Adjusted to redox equilibrium + pH = 8.014 Charge balance + pe = 12.757 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.403e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.263e-07 + Total alkalinity (eq/kg) = 1.260e-07 Temperature (°C) = 0.01 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -7979,30 +8009,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.372e-07 1.182e-07 -6.863 -6.927 -0.065 (0) - H+ 1.090e-08 9.663e-09 -7.963 -8.015 -0.052 0.00 + OH- 1.369e-07 1.180e-07 -6.864 -6.928 -0.065 (0) + H+ 1.093e-08 9.687e-09 -7.961 -8.014 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.120e-02 - Br- 2.120e-02 1.837e-02 -1.674 -1.736 -0.062 (0) -Cl 2.802e-03 - Cl- 2.802e-03 2.416e-03 -2.553 -2.617 -0.064 (0) +Br 2.316e-02 + Br- 2.316e-02 2.006e-02 -1.635 -1.698 -0.062 (0) +Cl 8.705e-04 + Cl- 8.705e-04 7.507e-04 -3.060 -3.125 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.120 -46.118 0.002 (0) -K 2.378e-02 - K+ 2.378e-02 2.050e-02 -1.624 -1.688 -0.064 (0) -Na 2.251e-04 - Na+ 2.251e-04 1.954e-04 -3.648 -3.709 -0.062 (0) -O(0) 2.239e-09 - O2 1.119e-09 1.126e-09 -8.951 -8.949 0.002 (0) + H2 0.000e+00 0.000e+00 -44.577 -44.574 0.002 (0) +K 2.401e-02 + K+ 2.401e-02 2.070e-02 -1.620 -1.684 -0.064 (0) +Na 2.097e-05 + Na+ 2.097e-05 1.820e-05 -4.679 -4.740 -0.062 (0) +O(0) 1.834e-12 + O2 9.172e-13 9.223e-13 -12.038 -12.035 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.09 -46.12 -3.03 H2 + H2(g) -41.54 -44.57 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -7.85 -6.33 1.52 NaCl - O2(g) -6.29 -8.95 -2.66 O2 + Halite -9.39 -7.86 1.52 NaCl + O2(g) -9.38 -12.04 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8023,27 +8053,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.775e-02 4.775e-02 9.947e-01 0.000 - NaX 2.520e-04 2.520e-04 5.251e-03 0.000 - HX 2.245e-07 2.245e-07 4.677e-06 0.000 + KX 4.798e-02 4.798e-02 9.996e-01 0.000 + NaX 1.664e-05 1.664e-05 3.466e-04 0.000 + HX 2.248e-07 2.248e-07 4.683e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.187e-02 2.187e-02 - Cl 2.127e-03 2.127e-03 - K 2.388e-02 2.388e-02 - Na 1.252e-04 1.252e-04 + Br 2.349e-02 2.349e-02 + Cl 5.342e-04 5.342e-04 + K 2.401e-02 2.401e-02 + Na 8.273e-06 8.273e-06 ----------------------------Description of solution---------------------------- - pH = 8.014 Charge balance - pe = 13.528 Adjusted to redox equilibrium + pH = 8.013 Charge balance + pe = 12.774 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.402e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.260e-07 + Total alkalinity (eq/kg) = 1.257e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8056,30 +8086,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.369e-07 1.180e-07 -6.864 -6.928 -0.065 (0) - H+ 1.092e-08 9.681e-09 -7.962 -8.014 -0.052 0.00 + OH- 1.366e-07 1.177e-07 -6.864 -6.929 -0.065 (0) + H+ 1.094e-08 9.701e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.187e-02 - Br- 2.187e-02 1.895e-02 -1.660 -1.722 -0.062 (0) -Cl 2.127e-03 - Cl- 2.127e-03 1.834e-03 -2.672 -2.737 -0.064 (0) +Br 2.349e-02 + Br- 2.349e-02 2.035e-02 -1.629 -1.692 -0.062 (0) +Cl 5.342e-04 + Cl- 5.342e-04 4.606e-04 -3.272 -3.337 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.119 -46.117 0.002 (0) -K 2.388e-02 - K+ 2.388e-02 2.059e-02 -1.622 -1.686 -0.064 (0) -Na 1.252e-04 - Na+ 1.252e-04 1.087e-04 -3.902 -3.964 -0.062 (0) -O(0) 2.221e-09 - O2 1.110e-09 1.117e-09 -8.955 -8.952 0.002 (0) + H2 0.000e+00 0.000e+00 -44.608 -44.606 0.002 (0) +K 2.401e-02 + K+ 2.401e-02 2.071e-02 -1.620 -1.684 -0.064 (0) +Na 8.273e-06 + Na+ 8.273e-06 7.180e-06 -5.082 -5.144 -0.062 (0) +O(0) 2.110e-12 + O2 1.055e-12 1.061e-12 -11.977 -11.974 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.09 -46.12 -3.03 H2 + H2(g) -41.57 -44.61 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -8.22 -6.70 1.52 NaCl - O2(g) -6.29 -8.95 -2.66 O2 + Halite -10.00 -8.48 1.52 NaCl + O2(g) -9.32 -11.97 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8100,27 +8130,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.786e-02 4.786e-02 9.971e-01 0.000 - NaX 1.373e-04 1.373e-04 2.860e-03 0.000 - HX 2.248e-07 2.248e-07 4.683e-06 0.000 + KX 4.799e-02 4.799e-02 9.999e-01 0.000 + NaX 6.403e-06 6.403e-06 1.334e-04 0.000 + HX 2.250e-07 2.250e-07 4.687e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.241e-02 2.241e-02 - Cl 1.592e-03 1.592e-03 - K 2.393e-02 2.393e-02 - Na 6.821e-05 6.821e-05 + Br 2.370e-02 2.370e-02 + Cl 3.195e-04 3.195e-04 + K 2.401e-02 2.401e-02 + Na 3.183e-06 3.183e-06 ----------------------------Description of solution---------------------------- - pH = 8.014 Charge balance - pe = 13.527 Adjusted to redox equilibrium + pH = 8.013 Charge balance + pe = 12.804 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.401e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.258e-07 + Total alkalinity (eq/kg) = 1.256e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8133,30 +8163,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.367e-07 1.178e-07 -6.864 -6.929 -0.065 (0) - H+ 1.093e-08 9.692e-09 -7.961 -8.014 -0.052 0.00 + OH- 1.365e-07 1.176e-07 -6.865 -6.929 -0.065 (0) + H+ 1.095e-08 9.706e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.241e-02 - Br- 2.241e-02 1.941e-02 -1.650 -1.712 -0.062 (0) -Cl 1.592e-03 - Cl- 1.592e-03 1.373e-03 -2.798 -2.862 -0.064 (0) +Br 2.370e-02 + Br- 2.370e-02 2.053e-02 -1.625 -1.688 -0.062 (0) +Cl 3.195e-04 + Cl- 3.195e-04 2.755e-04 -3.496 -3.560 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.115 -46.113 0.002 (0) -K 2.393e-02 - K+ 2.393e-02 2.064e-02 -1.621 -1.685 -0.064 (0) -Na 6.821e-05 - Na+ 6.821e-05 5.920e-05 -4.166 -4.228 -0.062 (0) -O(0) 2.176e-09 - O2 1.088e-09 1.094e-09 -8.963 -8.961 0.002 (0) + H2 0.000e+00 0.000e+00 -44.668 -44.666 0.002 (0) +K 2.401e-02 + K+ 2.401e-02 2.071e-02 -1.620 -1.684 -0.064 (0) +Na 3.183e-06 + Na+ 3.183e-06 2.762e-06 -5.497 -5.559 -0.062 (0) +O(0) 2.776e-12 + O2 1.388e-12 1.396e-12 -11.858 -11.855 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.08 -46.11 -3.03 H2 + H2(g) -41.63 -44.67 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -8.61 -7.09 1.52 NaCl - O2(g) -6.30 -8.96 -2.66 O2 + Halite -10.64 -9.12 1.52 NaCl + O2(g) -9.20 -11.86 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8177,27 +8207,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.793e-02 4.793e-02 9.985e-01 0.000 - NaX 7.333e-05 7.333e-05 1.528e-03 0.000 - HX 2.249e-07 2.249e-07 4.686e-06 0.000 + KX 4.800e-02 4.800e-02 9.999e-01 0.000 + NaX 2.407e-06 2.407e-06 5.014e-05 0.000 + HX 2.251e-07 2.251e-07 4.689e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.283e-02 2.283e-02 - Cl 1.174e-03 1.174e-03 - K 2.396e-02 2.396e-02 - Na 3.643e-05 3.643e-05 + Br 2.382e-02 2.382e-02 + Cl 1.864e-04 1.864e-04 + K 2.401e-02 2.401e-02 + Na 1.196e-06 1.196e-06 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.524 Adjusted to redox equilibrium + pe = 12.843 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.401e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.257e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8210,30 +8240,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.366e-07 1.177e-07 -6.865 -6.929 -0.065 (0) - H+ 1.094e-08 9.699e-09 -7.961 -8.013 -0.052 0.00 + OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) + H+ 1.095e-08 9.708e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.283e-02 - Br- 2.283e-02 1.978e-02 -1.642 -1.704 -0.062 (0) -Cl 1.174e-03 - Cl- 1.174e-03 1.012e-03 -2.930 -2.995 -0.064 (0) +Br 2.382e-02 + Br- 2.382e-02 2.064e-02 -1.623 -1.685 -0.062 (0) +Cl 1.864e-04 + Cl- 1.864e-04 1.607e-04 -3.730 -3.794 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.109 -46.106 0.002 (0) -K 2.396e-02 - K+ 2.396e-02 2.067e-02 -1.620 -1.685 -0.064 (0) -Na 3.643e-05 - Na+ 3.643e-05 3.162e-05 -4.439 -4.500 -0.062 (0) -O(0) 2.109e-09 - O2 1.054e-09 1.060e-09 -8.977 -8.975 0.002 (0) + H2 0.000e+00 0.000e+00 -44.746 -44.743 0.002 (0) +K 2.401e-02 + K+ 2.401e-02 2.070e-02 -1.620 -1.684 -0.064 (0) +Na 1.196e-06 + Na+ 1.196e-06 1.038e-06 -5.922 -5.984 -0.062 (0) +O(0) 3.962e-12 + O2 1.981e-12 1.992e-12 -11.703 -11.701 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.07 -46.11 -3.03 H2 + H2(g) -41.71 -44.74 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -9.02 -7.49 1.52 NaCl - O2(g) -6.32 -8.97 -2.66 O2 + Halite -11.30 -9.78 1.52 NaCl + O2(g) -9.04 -11.70 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8254,27 +8284,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.796e-02 4.796e-02 9.992e-01 0.000 - NaX 3.846e-05 3.846e-05 8.012e-04 0.000 - HX 2.250e-07 2.250e-07 4.688e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 8.855e-07 8.855e-07 1.845e-05 0.000 + HX 2.251e-07 2.251e-07 4.689e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.315e-02 2.315e-02 - Cl 8.539e-04 8.539e-04 - K 2.398e-02 2.398e-02 - Na 1.910e-05 1.910e-05 + Br 2.390e-02 2.390e-02 + Cl 1.061e-04 1.061e-04 + K 2.401e-02 2.401e-02 + Na 4.400e-07 4.400e-07 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.519 Adjusted to redox equilibrium + pe = 12.882 Adjusted to redox equilibrium Activity of water = 0.999 - Ionic strength (mol/kgw) = 2.400e-02 + Ionic strength (mol/kgw) = 2.401e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8287,30 +8317,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.366e-07 1.177e-07 -6.865 -6.929 -0.065 (0) - H+ 1.095e-08 9.703e-09 -7.961 -8.013 -0.052 0.00 + OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) + H+ 1.095e-08 9.708e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.315e-02 - Br- 2.315e-02 2.005e-02 -1.636 -1.698 -0.062 (0) -Cl 8.539e-04 - Cl- 8.539e-04 7.363e-04 -3.069 -3.133 -0.064 (0) +Br 2.390e-02 + Br- 2.390e-02 2.071e-02 -1.622 -1.684 -0.062 (0) +Cl 1.061e-04 + Cl- 1.061e-04 9.151e-05 -3.974 -4.039 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.100 -46.097 0.002 (0) -K 2.398e-02 - K+ 2.398e-02 2.068e-02 -1.620 -1.684 -0.064 (0) -Na 1.910e-05 - Na+ 1.910e-05 1.658e-05 -4.719 -4.780 -0.062 (0) -O(0) 2.022e-09 - O2 1.011e-09 1.017e-09 -8.995 -8.993 0.002 (0) + H2 0.000e+00 0.000e+00 -44.825 -44.822 0.002 (0) +K 2.401e-02 + K+ 2.401e-02 2.070e-02 -1.620 -1.684 -0.064 (0) +Na 4.400e-07 + Na+ 4.400e-07 3.819e-07 -6.357 -6.418 -0.062 (0) +O(0) 5.698e-12 + O2 2.849e-12 2.865e-12 -11.545 -11.543 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.07 -46.10 -3.03 H2 + H2(g) -41.79 -44.82 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -9.43 -7.91 1.52 NaCl - O2(g) -6.33 -8.99 -2.66 O2 + Halite -11.98 -10.46 1.52 NaCl + O2(g) -8.88 -11.54 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8331,27 +8361,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.798e-02 4.798e-02 9.996e-01 0.000 - NaX 1.982e-05 1.982e-05 4.129e-04 0.000 - HX 2.251e-07 2.251e-07 4.689e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + NaX 3.193e-07 3.193e-07 6.652e-06 0.000 + HX 2.251e-07 2.251e-07 4.690e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.339e-02 2.339e-02 - Cl 6.123e-04 6.123e-04 - K 2.399e-02 2.399e-02 - Na 9.847e-06 9.847e-06 + Br 2.394e-02 2.394e-02 + Cl 5.902e-05 5.902e-05 + K 2.400e-02 2.400e-02 + Na 1.587e-07 1.587e-07 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.514 Adjusted to redox equilibrium + pe = 12.919 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8364,30 +8394,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.365e-07 1.176e-07 -6.865 -6.929 -0.065 (0) - H+ 1.095e-08 9.705e-09 -7.961 -8.013 -0.052 0.00 + OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) + H+ 1.095e-08 9.708e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.339e-02 - Br- 2.339e-02 2.026e-02 -1.631 -1.693 -0.062 (0) -Cl 6.123e-04 - Cl- 6.123e-04 5.281e-04 -3.213 -3.277 -0.064 (0) +Br 2.394e-02 + Br- 2.394e-02 2.074e-02 -1.621 -1.683 -0.062 (0) +Cl 5.902e-05 + Cl- 5.902e-05 5.089e-05 -4.229 -4.293 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.088 -46.086 0.002 (0) -K 2.399e-02 - K+ 2.399e-02 2.069e-02 -1.620 -1.684 -0.064 (0) -Na 9.847e-06 - Na+ 9.847e-06 8.547e-06 -5.007 -5.068 -0.062 (0) -O(0) 1.921e-09 - O2 9.605e-10 9.658e-10 -9.018 -9.015 0.002 (0) + H2 0.000e+00 0.000e+00 -44.899 -44.897 0.002 (0) +K 2.400e-02 + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) +Na 1.587e-07 + Na+ 1.587e-07 1.377e-07 -6.800 -6.861 -0.062 (0) +O(0) 8.026e-12 + O2 4.013e-12 4.035e-12 -11.397 -11.394 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.05 -46.09 -3.03 H2 + H2(g) -41.86 -44.90 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -9.87 -8.35 1.52 NaCl - O2(g) -6.36 -9.02 -2.66 O2 + Halite -12.67 -11.15 1.52 NaCl + O2(g) -8.74 -11.39 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8408,27 +8438,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.799e-02 4.799e-02 9.998e-01 0.000 - NaX 1.005e-05 1.005e-05 2.094e-04 0.000 - HX 2.251e-07 2.251e-07 4.689e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 + HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 1.130e-07 1.130e-07 2.355e-06 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.357e-02 2.357e-02 - Cl 4.331e-04 4.331e-04 + Br 2.397e-02 2.397e-02 + Cl 3.208e-05 3.208e-05 K 2.400e-02 2.400e-02 - Na 4.994e-06 4.994e-06 + Na 5.616e-08 5.616e-08 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.508 Adjusted to redox equilibrium + pe = 12.954 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8441,30 +8471,30 @@ X 4.800e-02 mol Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.365e-07 1.176e-07 -6.865 -6.929 -0.065 (0) - H+ 1.095e-08 9.706e-09 -7.961 -8.013 -0.052 0.00 + OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) + H+ 1.095e-08 9.708e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.357e-02 - Br- 2.357e-02 2.042e-02 -1.628 -1.690 -0.062 (0) -Cl 4.331e-04 - Cl- 4.331e-04 3.735e-04 -3.363 -3.428 -0.064 (0) +Br 2.397e-02 + Br- 2.397e-02 2.077e-02 -1.620 -1.683 -0.062 (0) +Cl 3.208e-05 + Cl- 3.208e-05 2.767e-05 -4.494 -4.558 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.075 -46.073 0.002 (0) + H2 0.000e+00 0.000e+00 -44.967 -44.965 0.002 (0) K 2.400e-02 - K+ 2.400e-02 2.069e-02 -1.620 -1.684 -0.064 (0) -Na 4.994e-06 - Na+ 4.994e-06 4.335e-06 -5.302 -5.363 -0.062 (0) -O(0) 1.809e-09 - O2 9.047e-10 9.098e-10 -9.043 -9.041 0.002 (0) + K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) +Na 5.616e-08 + Na+ 5.616e-08 4.875e-08 -7.251 -7.312 -0.062 (0) +O(0) 1.099e-11 + O2 5.497e-12 5.527e-12 -11.260 -11.257 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.04 -46.07 -3.03 H2 + H2(g) -41.93 -44.96 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -10.31 -8.79 1.52 NaCl - O2(g) -6.38 -9.04 -2.66 O2 + Halite -13.39 -11.87 1.52 NaCl + O2(g) -8.60 -11.26 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8485,27 +8515,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.799e-02 4.799e-02 9.999e-01 0.000 - NaX 5.020e-06 5.020e-06 1.046e-04 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 3.933e-08 3.933e-08 8.194e-07 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.370e-02 2.370e-02 - Cl 3.021e-04 3.021e-04 + Br 2.398e-02 2.398e-02 + Cl 1.706e-05 1.706e-05 K 2.400e-02 2.400e-02 - Na 2.494e-06 2.494e-06 + Na 1.954e-08 1.954e-08 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.500 Adjusted to redox equilibrium + pe = 12.985 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8519,29 +8549,29 @@ X 4.800e-02 mol Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) - H+ 1.095e-08 9.706e-09 -7.961 -8.013 -0.052 0.00 + H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.370e-02 - Br- 2.370e-02 2.053e-02 -1.625 -1.688 -0.062 (0) -Cl 3.021e-04 - Cl- 3.021e-04 2.605e-04 -3.520 -3.584 -0.064 (0) +Br 2.398e-02 + Br- 2.398e-02 2.078e-02 -1.620 -1.682 -0.062 (0) +Cl 1.706e-05 + Cl- 1.706e-05 1.471e-05 -4.768 -4.832 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.061 -46.058 0.002 (0) + H2 0.000e+00 0.000e+00 -45.030 -45.027 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 2.494e-06 - Na+ 2.494e-06 2.165e-06 -5.603 -5.665 -0.062 (0) -O(0) 1.692e-09 - O2 8.459e-10 8.505e-10 -9.073 -9.070 0.002 (0) +Na 1.954e-08 + Na+ 1.954e-08 1.696e-08 -7.709 -7.771 -0.062 (0) +O(0) 1.466e-11 + O2 7.330e-12 7.371e-12 -11.135 -11.132 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.03 -46.06 -3.03 H2 + H2(g) -42.00 -45.03 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -10.77 -9.25 1.52 NaCl - O2(g) -6.41 -9.07 -2.66 O2 + Halite -14.12 -12.60 1.52 NaCl + O2(g) -8.47 -11.13 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8562,27 +8592,27 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 9.999e-01 0.000 - NaX 2.471e-06 2.471e-06 5.149e-05 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 1.347e-08 1.347e-08 2.806e-07 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.379e-02 2.379e-02 - Cl 2.079e-04 2.079e-04 + Br 2.399e-02 2.399e-02 + Cl 8.877e-06 8.877e-06 K 2.400e-02 2.400e-02 - Na 1.228e-06 1.228e-06 + Na 6.691e-09 6.691e-09 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.492 Adjusted to redox equilibrium + pe = 13.013 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8598,27 +8628,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.379e-02 - Br- 2.379e-02 2.061e-02 -1.624 -1.686 -0.062 (0) -Cl 2.079e-04 - Cl- 2.079e-04 1.793e-04 -3.682 -3.746 -0.064 (0) +Br 2.399e-02 + Br- 2.399e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 8.877e-06 + Cl- 8.877e-06 7.656e-06 -5.052 -5.116 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.045 -46.042 0.002 (0) + H2 0.000e+00 0.000e+00 -45.086 -45.084 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 1.228e-06 - Na+ 1.228e-06 1.066e-06 -5.911 -5.972 -0.062 (0) -O(0) 1.572e-09 - O2 7.858e-10 7.901e-10 -9.105 -9.102 0.002 (0) +Na 6.691e-09 + Na+ 6.691e-09 5.807e-09 -8.175 -8.236 -0.062 (0) +O(0) 1.900e-11 + O2 9.498e-12 9.550e-12 -11.022 -11.020 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -43.01 -46.04 -3.03 H2 + H2(g) -42.05 -45.08 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -11.24 -9.72 1.52 NaCl - O2(g) -6.44 -9.10 -2.66 O2 + Halite -14.87 -13.35 1.52 NaCl + O2(g) -8.36 -11.02 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8640,26 +8670,26 @@ X 4.800e-02 mol Species Moles alents Fraction Gamma KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 1.200e-06 1.200e-06 2.500e-05 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 4.543e-09 4.543e-09 9.465e-08 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.386e-02 2.386e-02 - Cl 1.412e-04 1.412e-04 + Br 2.400e-02 2.400e-02 + Cl 4.525e-06 4.525e-06 K 2.400e-02 2.400e-02 - Na 5.962e-07 5.962e-07 + Na 2.257e-09 2.257e-09 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.484 Adjusted to redox equilibrium + pe = 13.038 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8675,27 +8705,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.386e-02 - Br- 2.386e-02 2.067e-02 -1.622 -1.685 -0.062 (0) -Cl 1.412e-04 - Cl- 1.412e-04 1.218e-04 -3.850 -3.914 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 4.525e-06 + Cl- 4.525e-06 3.902e-06 -5.344 -5.409 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.028 -46.025 0.002 (0) + H2 0.000e+00 0.000e+00 -45.136 -45.134 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 5.962e-07 - Na+ 5.962e-07 5.175e-07 -6.225 -6.286 -0.062 (0) -O(0) 1.453e-09 - O2 7.263e-10 7.303e-10 -9.139 -9.136 0.002 (0) +Na 2.257e-09 + Na+ 2.257e-09 1.959e-09 -8.646 -8.708 -0.062 (0) +O(0) 2.390e-11 + O2 1.195e-11 1.202e-11 -10.923 -10.920 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.99 -46.03 -3.03 H2 + H2(g) -42.10 -45.13 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -11.72 -10.20 1.52 NaCl - O2(g) -6.48 -9.14 -2.66 O2 + Halite -15.64 -14.12 1.52 NaCl + O2(g) -8.26 -10.92 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8717,26 +8747,26 @@ X 4.800e-02 mol Species Moles alents Fraction Gamma KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 5.753e-07 5.753e-07 1.198e-05 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 1.512e-09 1.512e-09 3.149e-08 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.391e-02 2.391e-02 - Cl 9.465e-05 9.465e-05 + Br 2.400e-02 2.400e-02 + Cl 2.261e-06 2.261e-06 K 2.400e-02 2.400e-02 - Na 2.858e-07 2.858e-07 + Na 7.510e-10 7.510e-10 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.475 Adjusted to redox equilibrium + pe = 13.060 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.256e-07 + Total alkalinity (eq/kg) = 1.255e-07 Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -8752,27 +8782,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.391e-02 - Br- 2.391e-02 2.071e-02 -1.622 -1.684 -0.062 (0) -Cl 9.465e-05 - Cl- 9.465e-05 8.162e-05 -4.024 -4.088 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 2.261e-06 + Cl- 2.261e-06 1.950e-06 -5.646 -5.710 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -46.010 -46.008 0.002 (0) + H2 0.000e+00 0.000e+00 -45.180 -45.178 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 2.858e-07 - Na+ 2.858e-07 2.481e-07 -6.544 -6.605 -0.062 (0) -O(0) 1.338e-09 - O2 6.690e-10 6.727e-10 -9.175 -9.172 0.002 (0) +Na 7.510e-10 + Na+ 7.510e-10 6.518e-10 -9.124 -9.186 -0.062 (0) +O(0) 2.933e-11 + O2 1.466e-11 1.475e-11 -10.834 -10.831 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.98 -46.01 -3.03 H2 + H2(g) -42.15 -45.18 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -12.21 -10.69 1.52 NaCl - O2(g) -6.51 -9.17 -2.66 O2 + Halite -16.42 -14.90 1.52 NaCl + O2(g) -8.17 -10.83 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8794,22 +8824,22 @@ X 4.800e-02 mol Species Moles alents Fraction Gamma KX 4.800e-02 4.800e-02 1.000e+00 0.000 - NaX 2.724e-07 2.724e-07 5.675e-06 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 + NaX 4.968e-10 4.968e-10 1.035e-08 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.394e-02 2.394e-02 - Cl 6.264e-05 6.264e-05 + Br 2.400e-02 2.400e-02 + Cl 1.108e-06 1.108e-06 K 2.400e-02 2.400e-02 - Na 1.353e-07 1.353e-07 + Na 2.468e-10 2.468e-10 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.466 Adjusted to redox equilibrium + pe = 13.079 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -8829,27 +8859,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.394e-02 - Br- 2.394e-02 2.074e-02 -1.621 -1.683 -0.062 (0) -Cl 6.264e-05 - Cl- 6.264e-05 5.402e-05 -4.203 -4.267 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 1.108e-06 + Cl- 1.108e-06 9.552e-07 -5.956 -6.020 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.992 -45.989 0.002 (0) + H2 0.000e+00 0.000e+00 -45.219 -45.216 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 1.353e-07 - Na+ 1.353e-07 1.174e-07 -6.869 -6.930 -0.062 (0) -O(0) 1.231e-09 - O2 6.153e-10 6.187e-10 -9.211 -9.209 0.002 (0) +Na 2.468e-10 + Na+ 2.468e-10 2.142e-10 -9.608 -9.669 -0.062 (0) +O(0) 3.500e-11 + O2 1.750e-11 1.760e-11 -10.757 -10.755 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.96 -45.99 -3.03 H2 + H2(g) -42.18 -45.22 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -12.72 -11.20 1.52 NaCl - O2(g) -6.55 -9.21 -2.66 O2 + Halite -17.21 -15.69 1.52 NaCl + O2(g) -8.10 -10.75 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8870,23 +8900,23 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 1.275e-07 1.275e-07 2.656e-06 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + HX 2.251e-07 2.251e-07 4.690e-06 -0.000 + NaX 1.618e-10 1.618e-10 3.370e-09 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.396e-02 2.396e-02 - Cl 4.096e-05 4.096e-05 + Br 2.400e-02 2.400e-02 + Cl 5.326e-07 5.326e-07 K 2.400e-02 2.400e-02 - Na 6.333e-08 6.333e-08 + Na 8.037e-11 8.037e-11 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.457 Adjusted to redox equilibrium + pe = 13.096 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -8906,27 +8936,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.396e-02 - Br- 2.396e-02 2.076e-02 -1.621 -1.683 -0.062 (0) -Cl 4.096e-05 - Cl- 4.096e-05 3.532e-05 -4.388 -4.452 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 5.326e-07 + Cl- 5.326e-07 4.593e-07 -6.274 -6.338 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.974 -45.971 0.002 (0) + H2 0.000e+00 0.000e+00 -45.252 -45.249 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 6.333e-08 - Na+ 6.333e-08 5.497e-08 -7.198 -7.260 -0.062 (0) -O(0) 1.133e-09 - O2 5.663e-10 5.695e-10 -9.247 -9.245 0.002 (0) +Na 8.037e-11 + Na+ 8.037e-11 6.975e-11 -10.095 -10.156 -0.062 (0) +O(0) 4.077e-11 + O2 2.038e-11 2.050e-11 -10.691 -10.688 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.94 -45.97 -3.03 H2 + H2(g) -42.22 -45.25 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -13.23 -11.71 1.52 NaCl - O2(g) -6.59 -9.24 -2.66 O2 + Halite -18.01 -16.49 1.52 NaCl + O2(g) -8.03 -10.69 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -8949,21 +8979,21 @@ X 4.800e-02 mol KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 5.900e-08 5.900e-08 1.229e-06 0.000 + NaX 5.256e-11 5.256e-11 1.095e-09 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.397e-02 2.397e-02 - Cl 2.649e-05 2.649e-05 + Br 2.400e-02 2.400e-02 + Cl 2.515e-07 2.515e-07 K 2.400e-02 2.400e-02 - Na 2.931e-08 2.931e-08 + Na 2.611e-11 2.611e-11 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.448 Adjusted to redox equilibrium + pe = 13.110 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -8983,27 +9013,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.397e-02 - Br- 2.397e-02 2.077e-02 -1.620 -1.683 -0.062 (0) -Cl 2.649e-05 - Cl- 2.649e-05 2.284e-05 -4.577 -4.641 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 2.515e-07 + Cl- 2.515e-07 2.169e-07 -6.599 -6.664 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.956 -45.954 0.002 (0) + H2 0.000e+00 0.000e+00 -45.280 -45.277 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 2.931e-08 - Na+ 2.931e-08 2.544e-08 -7.533 -7.594 -0.062 (0) -O(0) 1.046e-09 - O2 5.230e-10 5.259e-10 -9.282 -9.279 0.002 (0) +Na 2.611e-11 + Na+ 2.611e-11 2.267e-11 -10.583 -10.645 -0.062 (0) +O(0) 4.633e-11 + O2 2.317e-11 2.329e-11 -10.635 -10.633 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.92 -45.95 -3.03 H2 + H2(g) -42.25 -45.28 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -13.76 -12.24 1.52 NaCl - O2(g) -6.62 -9.28 -2.66 O2 + Halite -18.83 -17.31 1.52 NaCl + O2(g) -7.97 -10.63 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9026,21 +9056,21 @@ X 4.800e-02 mol KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 2.703e-08 2.703e-08 5.632e-07 0.000 + NaX 1.743e-11 1.743e-11 3.632e-10 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.398e-02 2.398e-02 - Cl 1.699e-05 1.699e-05 + Br 2.400e-02 2.400e-02 + Cl 1.167e-07 1.167e-07 K 2.400e-02 2.400e-02 - Na 1.343e-08 1.343e-08 + Na 8.660e-12 8.660e-12 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.440 Adjusted to redox equilibrium + pe = 13.121 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -9060,27 +9090,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.398e-02 - Br- 2.398e-02 2.078e-02 -1.620 -1.682 -0.062 (0) -Cl 1.699e-05 - Cl- 1.699e-05 1.465e-05 -4.770 -4.834 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 1.167e-07 + Cl- 1.167e-07 1.006e-07 -6.933 -6.997 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.941 -45.938 0.002 (0) + H2 0.000e+00 0.000e+00 -45.302 -45.300 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 1.343e-08 - Na+ 1.343e-08 1.166e-08 -7.872 -7.933 -0.062 (0) -O(0) 9.721e-10 - O2 4.860e-10 4.887e-10 -9.313 -9.311 0.002 (0) +Na 8.660e-12 + Na+ 8.660e-12 7.517e-12 -11.062 -11.124 -0.062 (0) +O(0) 5.145e-11 + O2 2.572e-11 2.587e-11 -10.590 -10.587 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.91 -45.94 -3.03 H2 + H2(g) -42.27 -45.30 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -14.29 -12.77 1.52 NaCl - O2(g) -6.65 -9.31 -2.66 O2 + Halite -19.64 -18.12 1.52 NaCl + O2(g) -7.93 -10.59 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9103,21 +9133,21 @@ X 4.800e-02 mol KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 1.229e-08 1.229e-08 2.560e-07 0.000 + NaX 6.144e-12 6.144e-12 1.280e-10 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.399e-02 2.399e-02 - Cl 1.089e-05 1.089e-05 + Br 2.400e-02 2.400e-02 + Cl 5.334e-08 5.334e-08 K 2.400e-02 2.400e-02 - Na 6.104e-09 6.104e-09 + Na 3.052e-12 3.052e-12 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.433 Adjusted to redox equilibrium + pe = 13.130 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -9137,27 +9167,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.399e-02 - Br- 2.399e-02 2.078e-02 -1.620 -1.682 -0.062 (0) -Cl 1.089e-05 - Cl- 1.089e-05 9.393e-06 -4.963 -5.027 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 5.334e-08 + Cl- 5.334e-08 4.600e-08 -7.273 -7.337 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.927 -45.924 0.002 (0) + H2 0.000e+00 0.000e+00 -45.321 -45.318 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 6.104e-09 - Na+ 6.104e-09 5.298e-09 -8.214 -8.276 -0.062 (0) -O(0) 9.119e-10 - O2 4.560e-10 4.585e-10 -9.341 -9.339 0.002 (0) +Na 3.052e-12 + Na+ 3.052e-12 2.649e-12 -11.515 -11.577 -0.062 (0) +O(0) 5.595e-11 + O2 2.797e-11 2.813e-11 -10.553 -10.551 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.89 -45.92 -3.03 H2 + H2(g) -42.29 -45.32 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -14.82 -13.30 1.52 NaCl - O2(g) -6.68 -9.34 -2.66 O2 + Halite -20.43 -18.91 1.52 NaCl + O2(g) -7.89 -10.55 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9178,23 +9208,23 @@ X 4.800e-02 mol Equiv- Equivalent Log Species Moles alents Fraction Gamma - KX 4.800e-02 4.800e-02 1.000e+00 0.000 - HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 5.589e-09 5.589e-09 1.164e-07 0.000 + KX 4.800e-02 4.800e-02 1.000e+00 -0.000 + HX 2.251e-07 2.251e-07 4.690e-06 -0.000 + NaX 2.982e-12 2.982e-12 6.212e-11 -0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles - Br 2.399e-02 2.399e-02 - Cl 7.109e-06 7.109e-06 + Br 2.400e-02 2.400e-02 + Cl 2.421e-08 2.421e-08 K 2.400e-02 2.400e-02 - Na 2.776e-09 2.776e-09 + Na 1.481e-12 1.481e-12 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.428 Adjusted to redox equilibrium + pe = 13.137 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -9202,7 +9232,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 4 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9214,27 +9244,27 @@ X 4.800e-02 mol OH- 1.365e-07 1.176e-07 -6.865 -6.930 -0.065 (0) H+ 1.095e-08 9.707e-09 -7.961 -8.013 -0.052 0.00 H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 -Br 2.399e-02 - Br- 2.399e-02 2.079e-02 -1.620 -1.682 -0.062 (0) -Cl 7.109e-06 - Cl- 7.109e-06 6.131e-06 -5.148 -5.212 -0.064 (0) +Br 2.400e-02 + Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) +Cl 2.421e-08 + Cl- 2.421e-08 2.088e-08 -7.616 -7.680 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.916 -45.913 0.002 (0) + H2 0.000e+00 0.000e+00 -45.334 -45.332 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 2.776e-09 - Na+ 2.776e-09 2.410e-09 -8.557 -8.618 -0.062 (0) -O(0) 8.662e-10 - O2 4.331e-10 4.355e-10 -9.363 -9.361 0.002 (0) +Na 1.481e-12 + Na+ 1.481e-12 1.286e-12 -11.829 -11.891 -0.062 (0) +O(0) 5.954e-11 + O2 2.977e-11 2.993e-11 -10.526 -10.524 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.88 -45.91 -3.03 H2 + H2(g) -42.30 -45.33 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -15.35 -13.83 1.52 NaCl - O2(g) -6.70 -9.36 -2.66 O2 + Halite -21.09 -19.57 1.52 NaCl + O2(g) -7.87 -10.52 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9257,29 +9287,29 @@ X 4.800e-02 mol KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 2.652e-09 2.652e-09 5.526e-08 0.000 + NaX 2.015e-12 2.015e-12 4.197e-11 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles Br 2.400e-02 2.400e-02 - Cl 4.936e-06 4.936e-06 + Cl 1.136e-08 1.136e-08 K 2.400e-02 2.400e-02 - Na 1.318e-09 1.318e-09 + Na 1.001e-12 1.001e-12 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.424 Adjusted to redox equilibrium + pe = 13.141 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.256e-07 - Temperature (°C) = -0.00 + Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 4 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9293,25 +9323,25 @@ X 4.800e-02 mol H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 Br 2.400e-02 Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) -Cl 4.936e-06 - Cl- 4.936e-06 4.257e-06 -5.307 -5.371 -0.064 (0) +Cl 1.136e-08 + Cl- 1.136e-08 9.800e-09 -7.944 -8.009 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.908 -45.905 0.002 (0) + H2 0.000e+00 0.000e+00 -45.343 -45.340 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 1.318e-09 - Na+ 1.318e-09 1.144e-09 -8.880 -8.942 -0.062 (0) -O(0) 8.356e-10 - O2 4.178e-10 4.201e-10 -9.379 -9.377 0.002 (0) +Na 1.001e-12 + Na+ 1.001e-12 8.688e-13 -12.000 -12.061 -0.062 (0) +O(0) 6.199e-11 + O2 3.099e-11 3.116e-11 -10.509 -10.506 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.87 -45.91 -3.03 H2 + H2(g) -42.31 -45.34 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -15.83 -14.31 1.52 NaCl - O2(g) -6.72 -9.38 -2.66 O2 + Halite -21.59 -20.07 1.52 NaCl + O2(g) -7.85 -10.51 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -9334,21 +9364,21 @@ X 4.800e-02 mol KX 4.800e-02 4.800e-02 1.000e+00 0.000 HX 2.251e-07 2.251e-07 4.690e-06 0.000 - NaX 1.552e-09 1.552e-09 3.233e-08 0.000 + NaX 1.596e-12 1.596e-12 3.324e-11 0.000 -----------------------------Solution composition------------------------------ Elements Molality Moles Br 2.400e-02 2.400e-02 - Cl 3.948e-06 3.948e-06 + Cl 6.541e-09 6.541e-09 K 2.400e-02 2.400e-02 - Na 7.709e-10 7.709e-10 + Na 7.927e-13 7.927e-13 ----------------------------Description of solution---------------------------- pH = 8.013 Charge balance - pe = 13.422 Adjusted to redox equilibrium + pe = 13.144 Adjusted to redox equilibrium Activity of water = 0.999 Ionic strength (mol/kgw) = 2.400e-02 Mass of water (kg) = 1.000e+00 @@ -9356,7 +9386,7 @@ X 4.800e-02 mol Temperature (°C) = 0.00 Electrical balance (eq) = 9.956e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 3 + Iterations = 4 Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -9370,32 +9400,32 @@ X 4.800e-02 mol H2O 5.551e+01 9.992e-01 1.744 -0.000 0.000 18.02 Br 2.400e-02 Br- 2.400e-02 2.079e-02 -1.620 -1.682 -0.062 (0) -Cl 3.948e-06 - Cl- 3.948e-06 3.405e-06 -5.404 -5.468 -0.064 (0) +Cl 6.541e-09 + Cl- 6.541e-09 5.641e-09 -8.184 -8.249 -0.064 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -45.904 -45.901 0.002 (0) + H2 0.000e+00 0.000e+00 -45.348 -45.346 0.002 (0) K 2.400e-02 K+ 2.400e-02 2.070e-02 -1.620 -1.684 -0.064 (0) -Na 7.709e-10 - Na+ 7.709e-10 6.691e-10 -9.113 -9.175 -0.062 (0) -O(0) 8.201e-10 - O2 4.101e-10 4.123e-10 -9.387 -9.385 0.002 (0) +Na 7.927e-13 + Na+ 7.927e-13 6.880e-13 -12.101 -12.162 -0.062 (0) +O(0) 6.349e-11 + O2 3.175e-11 3.192e-11 -10.498 -10.496 0.002 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(273 K, 1 atm) - H2(g) -42.87 -45.90 -3.03 H2 + H2(g) -42.31 -45.35 -3.03 H2 H2O(g) -2.22 -0.00 2.22 H2O - Halite -16.16 -14.64 1.52 NaCl - O2(g) -6.73 -9.38 -2.66 O2 + Halite -21.93 -20.41 1.52 NaCl + O2(g) -7.84 -10.50 -2.66 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. WARNING: For balancing negative concentrations in MCD, added in total to the system: -WARNING: 2.7382e-12 moles Na. +WARNING: 2.0319e-12 moles Na. ------------------ End of simulation. ------------------ diff --git a/mytest/ex12b_101.sel b/mytest/ex12b_101.sel index b4becf7f..4ede21cf 100644 --- a/mytest/ex12b_101.sel +++ b/mytest/ex12b_101.sel @@ -36,17 +36,17 @@ 0.024000110712 0.0000000000 0.024000121000 0.0000000000 0.024000145626 0.0000000000 - 0.024000168662 0.0000000000 - 0.024000185344 0.0000000000 - 0.024000195057 0.0000000000 - 0.024000199079 0.0000000000 + 0.024000168663 0.0000000000 + 0.024000185345 0.0000000000 + 0.024000195058 0.0000000000 + 0.024000199080 0.0000000000 0.024000199170 0.0000000000 0.024000196992 0.0000000000 - 0.024000193892 0.0000000000 - 0.024000190821 0.0000000000 + 0.024000193893 0.0000000000 + 0.024000190822 0.0000000000 0.024000188325 0.0000000000 0.024000186601 0.0000000000 - 0.024000185605 0.0000000000 + 0.024000185606 0.0000000000 0.024000185170 0.0000000000 0.024000185099 0.0000000000 0.024000185225 0.0000000000 @@ -99,33 +99,33 @@ 0.024000186334 0.0000000000 0.024000186334 0.0000000000 0.024000110712 0.0000000000 - 0.024000125143 0.0000000000 - 0.024000142818 0.0000000000 - 0.024000156952 0.0000000000 - 0.024000166459 0.0000000000 - 0.024000171975 0.0000000000 - 0.024000174850 0.0000000000 - 0.024000176343 0.0000000000 - 0.024000177337 0.0000000000 - 0.024000178291 0.0000000000 - 0.024000179340 0.0000000000 - 0.024000180453 0.0000000000 - 0.024000181546 0.0000000000 - 0.024000182548 0.0000000000 - 0.024000183416 0.0000000000 - 0.024000184136 0.0000000000 - 0.024000184711 0.0000000000 - 0.024000185158 0.0000000000 - 0.024000185497 0.0000000000 - 0.024000185747 0.0000000000 - 0.024000185929 0.0000000000 - 0.024000186059 0.0000000000 - 0.024000186150 0.0000000000 - 0.024000186212 0.0000000000 - 0.024000186255 0.0000000000 - 0.024000186283 0.0000000000 - 0.024000186302 0.0000000000 - 0.024000186314 0.0000000000 - 0.024000186321 0.0000000000 - 0.024000186326 0.0000000000 - 0.024000186328 0.0000000000 + 0.024008272432 0.0000000000 + 0.024025010268 0.0000000000 + 0.024041879543 0.0000000000 + 0.024057189635 0.0000000000 + 0.024068798591 0.0000000000 + 0.024074867468 0.0000000000 + 0.024074786646 0.0000000000 + 0.024069402676 0.0000000000 + 0.024060449994 0.0000000000 + 0.024049820679 0.0000000000 + 0.024039092622 0.0000000000 + 0.024029343603 0.0000000000 + 0.024021151609 0.0000000000 + 0.024014691615 0.0000000000 + 0.024009866245 0.0000000000 + 0.024006430062 0.0000000000 + 0.024004086180 0.0000000000 + 0.024002549008 0.0000000000 + 0.024001576828 0.0000000000 + 0.024000982391 0.0000000000 + 0.024000630232 0.0000000000 + 0.024000427714 0.0000000000 + 0.024000314471 0.0000000000 + 0.024000252810 0.0000000000 + 0.024000220072 0.0000000000 + 0.024000203107 0.0000000000 + 0.024000194526 0.0000000000 + 0.024000190304 0.0000000000 + 0.024000188329 0.0000000000 + 0.024000187555 0.0000000000 diff --git a/mytest/ex13_impl.out b/mytest/ex13_impl.out index 0dbc383c..055de67b 100644 --- a/mytest/ex13_impl.out +++ b/mytest/ex13_impl.out @@ -262,6 +262,6 @@ Calculating transport: 10 (mobile) cells, 1 shifts, 338 mixruns... WARNING: No porosities were read; used the value 3.00e-01 from -multi_D. WARNING: -Calculating implicit transport: 10 (mobile) cells, 1 shifts, 15 mixruns, max. mixf = 10. +Calculating implicit transport: 10 (mobile) cells, 1 shifts, 16 mixruns, max. mixf = 10. diff --git a/mytest/ex13_impl_101.sel b/mytest/ex13_impl_101.sel index ff5445f2..6ebf833a 100644 --- a/mytest/ex13_impl_101.sel +++ b/mytest/ex13_impl_101.sel @@ -69,24 +69,24 @@ 0.001000156719 0.0000000000 0.001000156719 0.0000000000 0.001000162054 0.0000000000 - 0.001417432889 0.0000000000 - 0.001298451747 0.0000000000 - 0.001183988239 0.0000000000 - 0.001087195841 0.0000000000 - 0.001073402530 0.0000000000 - 0.001059805948 0.0000000000 - 0.001046369444 0.0000000000 - 0.001033058137 0.0000000000 - 0.001019840238 0.0000000000 - 0.001006695996 0.0000000000 - 0.001000156719 0.0000000000 - 0.001000181124 0.0000000000 - 0.001000189354 0.0000000000 - 0.001000181279 0.0000000000 - 0.001000176735 0.0000000000 - 0.001000172738 0.0000000000 - 0.001000169192 0.0000000000 - 0.001000166012 0.0000000000 - 0.001000163120 0.0000000000 - 0.001000160448 0.0000000000 - 0.001000157935 0.0000000000 + 0.001392195976 0.0000000000 + 0.001274048320 0.0000000000 + 0.001160229914 0.0000000000 + 0.001081559743 0.0000000000 + 0.001068654959 0.0000000000 + 0.001055936626 0.0000000000 + 0.001043369801 0.0000000000 + 0.001030921415 0.0000000000 + 0.001018561642 0.0000000000 + 0.001006271927 0.0000000000 + 0.001000156719 0.0000000000 + 0.001000180128 0.0000000000 + 0.001000186948 0.0000000000 + 0.001000178797 0.0000000000 + 0.001000174795 0.0000000000 + 0.001000171245 0.0000000000 + 0.001000168071 0.0000000000 + 0.001000165203 0.0000000000 + 0.001000162579 0.0000000000 + 0.001000160141 0.0000000000 + 0.001000157837 0.0000000000 diff --git a/mytest/ex15.cvode.out b/mytest/ex15.cvode.out index e0789ce8..4971202b 100644 --- a/mytest/ex15.cvode.out +++ b/mytest/ex15.cvode.out @@ -578,6 +578,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 3.438e-06 Total CO2 (mol/kg) = 1.541e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.646e-06 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.13 Iterations = 37 (81 overall) @@ -698,6 +699,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 6.603e-06 Total CO2 (mol/kg) = 2.330e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.954e-06 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.20 Iterations = 55 (134 overall) @@ -1145,6 +1147,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 1.229e-05 Total CO2 (mol/kg) = 2.855e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.954e-06 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.20 Iterations = 53 (142 overall) @@ -1265,6 +1268,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 1.418e-05 Total CO2 (mol/kg) = 2.617e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.697e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.02 Iterations = 51 (130 overall) @@ -1505,6 +1509,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 1.265e-05 Total CO2 (mol/kg) = 1.847e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 52 (125 overall) @@ -1625,6 +1630,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 9.478e-06 Total CO2 (mol/kg) = 1.473e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 49 (122 overall) @@ -1745,6 +1751,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 6.102e-06 Total CO2 (mol/kg) = 1.132e-06 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 55 (128 overall) @@ -1865,6 +1872,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 3.419e-06 Total CO2 (mol/kg) = 8.577e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 50 (124 overall) @@ -1985,6 +1993,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 1.708e-06 Total CO2 (mol/kg) = 6.714e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 52 (125 overall) @@ -2105,6 +2114,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 8.060e-07 Total CO2 (mol/kg) = 5.675e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 54 (121 overall) @@ -2345,6 +2355,7 @@ Kinetics 10. Four kinetic reactions for all cells Total alkalinity (eq/kg) = 2.356e-07 Total CO2 (mol/kg) = 5.005e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.387e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 37 (80 overall) diff --git a/mytest/ex16mp_101.sel b/mytest/ex16mp_101.sel index a6ba2b12..f232625f 100644 --- a/mytest/ex16mp_101.sel +++ b/mytest/ex16mp_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000485529673 38.1048693287 - 0.001316661388 97.4529034025 + 0.000485529673 38.1048694594 + 0.001316661388 97.4529040127 diff --git a/mytest/ex17mp_101.sel b/mytest/ex17mp_101.sel index df8fd9a2..cc8b5a92 100644 --- a/mytest/ex17mp_101.sel +++ b/mytest/ex17mp_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.350963716420 29837.5679085253 - 9.159034343803 127047.5122900363 + 0.350963716420 29837.5702096907 + 9.159034343803 127047.5245766436 diff --git a/mytest/ex18mp.out b/mytest/ex18mp.out index 9a3b902d..f8cd6dba 100644 --- a/mytest/ex18mp.out +++ b/mytest/ex18mp.out @@ -98,7 +98,7 @@ Initial solution 1. Recharge number 3 Specific Conductance (µS/cm, 10°C) = 278 Density (g/cm³) = 0.99999 Volume (L) = 1.00035 - Viscosity (mPa s) = 1.31409 + Viscosity (mPa s) = 1.31401 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.588e-03 Mass of water (kg) = 1.000e+00 @@ -231,10 +231,10 @@ Initial solution 2. Mysse pH = 6.610 pe = 0.000 - Specific Conductance (µS/cm, 63°C) = 10505 + Specific Conductance (µS/cm, 63°C) = 10503 Density (g/cm³) = 0.98520 Volume (L) = 1.01942 - Viscosity (mPa s) = 0.45631 + Viscosity (mPa s) = 0.45647 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.101e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/ex18mp_101.sel b/mytest/ex18mp_101.sel index 6d872a33..215fd8a6 100644 --- a/mytest/ex18mp_101.sel +++ b/mytest/ex18mp_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.006588098451 278.9069785580 - 0.071009749837 10505.0063496441 + 0.006588098451 278.9168318865 + 0.071009749837 10503.2364887349 diff --git a/mytest/ex1_101.sel b/mytest/ex1_101.sel index 0b67e8c5..697fa020 100644 --- a/mytest/ex1_101.sel +++ b/mytest/ex1_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.670406807480 52856.3091042353 + 0.670406807480 52856.3145756088 diff --git a/mytest/ex2.out b/mytest/ex2.out index 88592c4e..aa62f6a0 100644 --- a/mytest/ex2.out +++ b/mytest/ex2.out @@ -307,7 +307,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.854e-01 Specific Conductance (µS/cm, 27°C) = 2606 Density (g/cm³) = 0.99849 Volume (L) = 0.96794 - Viscosity (mPa s) = 0.85909 + Viscosity (mPa s) = 0.85911 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.185e-02 Mass of water (kg) = 9.645e-01 @@ -390,7 +390,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.854e-01 Specific Conductance (µS/cm, 28°C) = 2667 Density (g/cm³) = 0.99821 Volume (L) = 0.96822 - Viscosity (mPa s) = 0.84040 + Viscosity (mPa s) = 0.84043 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.189e-02 Mass of water (kg) = 9.645e-01 @@ -473,7 +473,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 29°C) = 2727 Density (g/cm³) = 0.99793 Volume (L) = 0.96850 - Viscosity (mPa s) = 0.82236 + Viscosity (mPa s) = 0.82239 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.193e-02 Mass of water (kg) = 9.645e-01 @@ -556,7 +556,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 30°C) = 2788 Density (g/cm³) = 0.99763 Volume (L) = 0.96879 - Viscosity (mPa s) = 0.80493 + Viscosity (mPa s) = 0.80498 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.196e-02 Mass of water (kg) = 9.645e-01 @@ -639,7 +639,7 @@ Gypsum 0.00 -4.58 -4.58 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 31°C) = 2849 Density (g/cm³) = 0.99733 Volume (L) = 0.96909 - Viscosity (mPa s) = 0.78810 + Viscosity (mPa s) = 0.78815 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.198e-02 Mass of water (kg) = 9.645e-01 @@ -722,7 +722,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 32°C) = 2910 Density (g/cm³) = 0.99702 Volume (L) = 0.96940 - Viscosity (mPa s) = 0.77182 + Viscosity (mPa s) = 0.77188 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.200e-02 Mass of water (kg) = 9.645e-01 @@ -805,7 +805,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 33°C) = 2971 Density (g/cm³) = 0.99669 Volume (L) = 0.96972 - Viscosity (mPa s) = 0.75608 + Viscosity (mPa s) = 0.75615 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.201e-02 Mass of water (kg) = 9.645e-01 @@ -888,7 +888,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 34°C) = 3031 Density (g/cm³) = 0.99636 Volume (L) = 0.97005 - Viscosity (mPa s) = 0.74085 + Viscosity (mPa s) = 0.74093 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.201e-02 Mass of water (kg) = 9.645e-01 @@ -971,7 +971,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.852e-01 Specific Conductance (µS/cm, 35°C) = 3092 Density (g/cm³) = 0.99603 Volume (L) = 0.97038 - Viscosity (mPa s) = 0.72612 + Viscosity (mPa s) = 0.72620 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.200e-02 Mass of water (kg) = 9.645e-01 @@ -1051,10 +1051,10 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 pH = 6.922 Charge balance pe = 10.009 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 3153 + Specific Conductance (µS/cm, 36°C) = 3152 Density (g/cm³) = 0.99568 Volume (L) = 0.97072 - Viscosity (mPa s) = 0.71185 + Viscosity (mPa s) = 0.71194 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.199e-02 Mass of water (kg) = 9.645e-01 @@ -1137,7 +1137,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 37°C) = 3213 Density (g/cm³) = 0.99532 Volume (L) = 0.97107 - Viscosity (mPa s) = 0.69803 + Viscosity (mPa s) = 0.69812 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.197e-02 Mass of water (kg) = 9.645e-01 @@ -1220,7 +1220,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 38°C) = 3273 Density (g/cm³) = 0.99496 Volume (L) = 0.97143 - Viscosity (mPa s) = 0.68464 + Viscosity (mPa s) = 0.68474 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.194e-02 Mass of water (kg) = 9.645e-01 @@ -1303,7 +1303,7 @@ Gypsum 0.00 -4.59 -4.59 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 39°C) = 3333 Density (g/cm³) = 0.99459 Volume (L) = 0.97179 - Viscosity (mPa s) = 0.67166 + Viscosity (mPa s) = 0.67177 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.191e-02 Mass of water (kg) = 9.645e-01 @@ -1386,7 +1386,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 40°C) = 3392 Density (g/cm³) = 0.99421 Volume (L) = 0.97216 - Viscosity (mPa s) = 0.65908 + Viscosity (mPa s) = 0.65919 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.187e-02 Mass of water (kg) = 9.645e-01 @@ -1469,7 +1469,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 41°C) = 3452 Density (g/cm³) = 0.99382 Volume (L) = 0.97254 - Viscosity (mPa s) = 0.64688 + Viscosity (mPa s) = 0.64699 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.182e-02 Mass of water (kg) = 9.645e-01 @@ -1552,7 +1552,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 42°C) = 3511 Density (g/cm³) = 0.99343 Volume (L) = 0.97293 - Viscosity (mPa s) = 0.63504 + Viscosity (mPa s) = 0.63516 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.177e-02 Mass of water (kg) = 9.645e-01 @@ -1632,10 +1632,10 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 pH = 6.839 Charge balance pe = 9.566 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 3570 + Specific Conductance (µS/cm, 43°C) = 3569 Density (g/cm³) = 0.99302 Volume (L) = 0.97332 - Viscosity (mPa s) = 0.62355 + Viscosity (mPa s) = 0.62367 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.171e-02 Mass of water (kg) = 9.645e-01 @@ -1718,7 +1718,7 @@ Gypsum 0.00 -4.60 -4.60 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 44°C) = 3628 Density (g/cm³) = 0.99261 Volume (L) = 0.97372 - Viscosity (mPa s) = 0.61239 + Viscosity (mPa s) = 0.61252 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.165e-02 Mass of water (kg) = 9.645e-01 @@ -1801,7 +1801,7 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.851e-01 Specific Conductance (µS/cm, 45°C) = 3686 Density (g/cm³) = 0.99220 Volume (L) = 0.97413 - Viscosity (mPa s) = 0.60156 + Viscosity (mPa s) = 0.60169 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.158e-02 Mass of water (kg) = 9.645e-01 @@ -1881,10 +1881,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.851e-01 pH = 6.805 Charge balance pe = 9.381 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 46°C) = 3744 + Specific Conductance (µS/cm, 46°C) = 3743 Density (g/cm³) = 0.99177 Volume (L) = 0.97454 - Viscosity (mPa s) = 0.59103 + Viscosity (mPa s) = 0.59117 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.151e-02 Mass of water (kg) = 9.645e-01 @@ -1964,10 +1964,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.852e-01 pH = 6.794 Charge balance pe = 9.319 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 3801 + Specific Conductance (µS/cm, 47°C) = 3800 Density (g/cm³) = 0.99134 Volume (L) = 0.97497 - Viscosity (mPa s) = 0.58080 + Viscosity (mPa s) = 0.58095 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.142e-02 Mass of water (kg) = 9.645e-01 @@ -2047,10 +2047,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+00 1.985e+00 9.852e-01 pH = 6.783 Charge balance pe = 9.215 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 48°C) = 3858 + Specific Conductance (µS/cm, 48°C) = 3857 Density (g/cm³) = 0.99090 Volume (L) = 0.97540 - Viscosity (mPa s) = 0.57086 + Viscosity (mPa s) = 0.57101 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.134e-02 Mass of water (kg) = 9.645e-01 @@ -2130,10 +2130,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.773 Charge balance pe = 9.197 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 3914 + Specific Conductance (µS/cm, 49°C) = 3913 Density (g/cm³) = 0.99045 Volume (L) = 0.97583 - Viscosity (mPa s) = 0.56120 + Viscosity (mPa s) = 0.56135 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.125e-02 Mass of water (kg) = 9.645e-01 @@ -2213,10 +2213,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.762 Charge balance pe = -1.655 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 3970 + Specific Conductance (µS/cm, 50°C) = 3969 Density (g/cm³) = 0.99000 Volume (L) = 0.97627 - Viscosity (mPa s) = 0.55180 + Viscosity (mPa s) = 0.55195 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.115e-02 Mass of water (kg) = 9.645e-01 @@ -2296,10 +2296,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+00 1.985e+00 9.852e-01 pH = 6.752 Charge balance pe = -2.096 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 51°C) = 4025 + Specific Conductance (µS/cm, 51°C) = 4024 Density (g/cm³) = 0.98954 Volume (L) = 0.97672 - Viscosity (mPa s) = 0.54265 + Viscosity (mPa s) = 0.54281 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.105e-02 Mass of water (kg) = 9.645e-01 @@ -2382,7 +2382,7 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 52°C) = 4079 Density (g/cm³) = 0.98908 Volume (L) = 0.97718 - Viscosity (mPa s) = 0.53376 + Viscosity (mPa s) = 0.53392 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.094e-02 Mass of water (kg) = 9.645e-01 @@ -2462,10 +2462,10 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 pH = 6.732 Charge balance pe = 8.915 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 53°C) = 4134 + Specific Conductance (µS/cm, 53°C) = 4133 Density (g/cm³) = 0.98860 Volume (L) = 0.97764 - Viscosity (mPa s) = 0.52510 + Viscosity (mPa s) = 0.52526 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.083e-02 Mass of water (kg) = 9.645e-01 @@ -2548,7 +2548,7 @@ Gypsum 0.00 -4.63 -4.63 1.000e+00 1.985e+00 9.853e-01 Specific Conductance (µS/cm, 54°C) = 4187 Density (g/cm³) = 0.98812 Volume (L) = 0.97811 - Viscosity (mPa s) = 0.51666 + Viscosity (mPa s) = 0.51684 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.071e-02 Mass of water (kg) = 9.645e-01 @@ -2631,7 +2631,7 @@ Gypsum -0.01 -4.64 -4.63 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 55°C) = 4201 Density (g/cm³) = 0.98762 Volume (L) = 1.05117 - Viscosity (mPa s) = 0.50842 + Viscosity (mPa s) = 0.50859 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.020e-02 Mass of water (kg) = 1.036e+00 @@ -2714,7 +2714,7 @@ Gypsum -0.02 -4.65 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 56°C) = 4190 Density (g/cm³) = 0.98709 Volume (L) = 1.05168 - Viscosity (mPa s) = 0.50037 + Viscosity (mPa s) = 0.50054 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.946e-02 Mass of water (kg) = 1.036e+00 @@ -2797,7 +2797,7 @@ Gypsum -0.03 -4.67 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 57°C) = 4178 Density (g/cm³) = 0.98656 Volume (L) = 1.05221 - Viscosity (mPa s) = 0.49252 + Viscosity (mPa s) = 0.49270 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.874e-02 Mass of water (kg) = 1.036e+00 @@ -2880,7 +2880,7 @@ Gypsum -0.04 -4.68 -4.64 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 58°C) = 4165 Density (g/cm³) = 0.98602 Volume (L) = 1.05274 - Viscosity (mPa s) = 0.48488 + Viscosity (mPa s) = 0.48506 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.802e-02 Mass of water (kg) = 1.036e+00 @@ -2963,7 +2963,7 @@ Gypsum -0.04 -4.69 -4.65 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 59°C) = 4151 Density (g/cm³) = 0.98548 Volume (L) = 1.05328 - Viscosity (mPa s) = 0.47744 + Viscosity (mPa s) = 0.47762 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.731e-02 Mass of water (kg) = 1.036e+00 @@ -3043,10 +3043,10 @@ Gypsum -0.05 -4.71 -4.65 1.000e+00 0 -1.000e+00 pH = 6.658 Charge balance pe = 8.549 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 4137 + Specific Conductance (µS/cm, 60°C) = 4136 Density (g/cm³) = 0.98493 Volume (L) = 1.05382 - Viscosity (mPa s) = 0.47018 + Viscosity (mPa s) = 0.47036 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.662e-02 Mass of water (kg) = 1.036e+00 @@ -3126,10 +3126,10 @@ Gypsum -0.06 -4.72 -4.66 1.000e+00 0 -1.000e+00 pH = 6.648 Charge balance pe = 8.493 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 4121 + Specific Conductance (µS/cm, 61°C) = 4120 Density (g/cm³) = 0.98438 Volume (L) = 1.05438 - Viscosity (mPa s) = 0.46310 + Viscosity (mPa s) = 0.46328 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.594e-02 Mass of water (kg) = 1.036e+00 @@ -3209,10 +3209,10 @@ Gypsum -0.07 -4.73 -4.66 1.000e+00 0 -1.000e+00 pH = 6.638 Charge balance pe = 8.491 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 4105 + Specific Conductance (µS/cm, 62°C) = 4104 Density (g/cm³) = 0.98382 Volume (L) = 1.05493 - Viscosity (mPa s) = 0.45620 + Viscosity (mPa s) = 0.45638 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.526e-02 Mass of water (kg) = 1.036e+00 @@ -3295,7 +3295,7 @@ Gypsum -0.08 -4.75 -4.66 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 63°C) = 4087 Density (g/cm³) = 0.98326 Volume (L) = 1.05550 - Viscosity (mPa s) = 0.44947 + Viscosity (mPa s) = 0.44965 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.460e-02 Mass of water (kg) = 1.036e+00 @@ -3378,7 +3378,7 @@ Gypsum -0.09 -4.76 -4.67 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 64°C) = 4069 Density (g/cm³) = 0.98269 Volume (L) = 1.05607 - Viscosity (mPa s) = 0.44290 + Viscosity (mPa s) = 0.44309 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.395e-02 Mass of water (kg) = 1.036e+00 @@ -3458,10 +3458,10 @@ Gypsum -0.10 -4.77 -4.67 1.000e+00 0 -1.000e+00 pH = 6.608 Charge balance pe = 8.273 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 4051 + Specific Conductance (µS/cm, 65°C) = 4050 Density (g/cm³) = 0.98212 Volume (L) = 1.05665 - Viscosity (mPa s) = 0.43649 + Viscosity (mPa s) = 0.43668 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.331e-02 Mass of water (kg) = 1.036e+00 @@ -3541,10 +3541,10 @@ Gypsum -0.11 -4.79 -4.67 1.000e+00 0 -1.000e+00 pH = 6.598 Charge balance pe = 8.218 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 66°C) = 4031 + Specific Conductance (µS/cm, 66°C) = 4030 Density (g/cm³) = 0.98154 Volume (L) = 1.05724 - Viscosity (mPa s) = 0.43024 + Viscosity (mPa s) = 0.43043 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.268e-02 Mass of water (kg) = 1.036e+00 @@ -3624,10 +3624,10 @@ Gypsum -0.12 -4.80 -4.68 1.000e+00 0 -1.000e+00 pH = 6.589 Charge balance pe = 8.164 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 67°C) = 4011 + Specific Conductance (µS/cm, 67°C) = 4010 Density (g/cm³) = 0.98095 Volume (L) = 1.05783 - Viscosity (mPa s) = 0.42414 + Viscosity (mPa s) = 0.42433 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.206e-02 Mass of water (kg) = 1.036e+00 @@ -3707,10 +3707,10 @@ Gypsum -0.13 -4.81 -4.68 1.000e+00 0 -1.000e+00 pH = 6.579 Charge balance pe = 8.110 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 68°C) = 3990 + Specific Conductance (µS/cm, 68°C) = 3989 Density (g/cm³) = 0.98037 Volume (L) = 1.05843 - Viscosity (mPa s) = 0.41818 + Viscosity (mPa s) = 0.41837 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.145e-02 Mass of water (kg) = 1.036e+00 @@ -3790,10 +3790,10 @@ Gypsum -0.14 -4.83 -4.69 1.000e+00 0 -1.000e+00 pH = 6.570 Charge balance pe = 8.057 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 3969 + Specific Conductance (µS/cm, 69°C) = 3968 Density (g/cm³) = 0.97977 Volume (L) = 1.05904 - Viscosity (mPa s) = 0.41236 + Viscosity (mPa s) = 0.41255 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.086e-02 Mass of water (kg) = 1.036e+00 @@ -3876,7 +3876,7 @@ Gypsum -0.15 -4.84 -4.69 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 70°C) = 3946 Density (g/cm³) = 0.97917 Volume (L) = 1.05965 - Viscosity (mPa s) = 0.40667 + Viscosity (mPa s) = 0.40686 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.027e-02 Mass of water (kg) = 1.036e+00 @@ -3956,10 +3956,10 @@ Gypsum -0.16 -4.85 -4.70 1.000e+00 0 -1.000e+00 pH = 6.552 Charge balance pe = 7.950 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 3924 + Specific Conductance (µS/cm, 71°C) = 3923 Density (g/cm³) = 0.97857 Volume (L) = 1.06027 - Viscosity (mPa s) = 0.40112 + Viscosity (mPa s) = 0.40131 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.969e-02 Mass of water (kg) = 1.036e+00 @@ -4042,7 +4042,7 @@ Gypsum -0.17 -4.87 -4.70 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 72°C) = 3900 Density (g/cm³) = 0.97796 Volume (L) = 1.06090 - Viscosity (mPa s) = 0.39569 + Viscosity (mPa s) = 0.39588 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.912e-02 Mass of water (kg) = 1.036e+00 @@ -4125,7 +4125,7 @@ Gypsum -0.18 -4.88 -4.70 1.000e+00 0 -1.000e+00 Specific Conductance (µS/cm, 73°C) = 3876 Density (g/cm³) = 0.97735 Volume (L) = 1.06153 - Viscosity (mPa s) = 0.39039 + Viscosity (mPa s) = 0.39058 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.856e-02 Mass of water (kg) = 1.036e+00 @@ -4205,10 +4205,10 @@ Gypsum -0.18 -4.89 -4.71 1.000e+00 0 -1.000e+00 pH = 6.525 Charge balance pe = 7.790 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 74°C) = 3852 + Specific Conductance (µS/cm, 74°C) = 3851 Density (g/cm³) = 0.97673 Volume (L) = 1.06217 - Viscosity (mPa s) = 0.38521 + Viscosity (mPa s) = 0.38540 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.802e-02 Mass of water (kg) = 1.036e+00 @@ -4288,10 +4288,10 @@ Gypsum -0.19 -4.91 -4.71 1.000e+00 0 -1.000e+00 pH = 6.516 Charge balance pe = 7.738 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 3827 + Specific Conductance (µS/cm, 75°C) = 3826 Density (g/cm³) = 0.97611 Volume (L) = 1.06282 - Viscosity (mPa s) = 0.38014 + Viscosity (mPa s) = 0.38033 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.748e-02 Mass of water (kg) = 1.036e+00 diff --git a/mytest/ex2_101.sel b/mytest/ex2_101.sel index 1764ee9c..ed014093 100644 --- a/mytest/ex2_101.sel +++ b/mytest/ex2_101.sel @@ -1,53 +1,53 @@ Mu SC 0.000000100661 0.0546997340 - 0.041737056157 2485.3654276774 - 0.041796709086 2545.8356833207 - 0.041848730424 2606.4419698882 - 0.041893197469 2667.1537218445 - 0.041930190645 2727.9404640202 - 0.041959793357 2788.7718384596 - 0.041982091833 2849.6176307527 - 0.041997174980 2910.4477958267 - 0.042005134646 2971.2324897640 - 0.042006063431 3031.9420615293 - 0.042000058909 3092.5471474477 - 0.041987218253 3153.0186097416 - 0.041967641757 3213.3276188812 - 0.041941431894 3273.4456634050 - 0.041908691984 3333.3445501437 - 0.041869527165 3392.9964438810 - 0.041824044444 3452.3738915485 - 0.041772351512 3511.4498214757 - 0.041714557708 3570.1975826175 - 0.041650773306 3628.5909512169 - 0.041581109533 3686.6041504714 - 0.041505678507 3744.2118680834 - 0.041424593012 3801.3892694305 - 0.041337966485 3858.1120144801 - 0.041245912905 3914.3562717582 - 0.041148546655 3970.0987307826 - 0.041045982447 4025.3166150999 - 0.040938335230 4079.9876950859 - 0.040825720078 4134.0902962896 - 0.040708252120 4187.6033123749 - 0.040203265385 4201.9215598321 - 0.039463768023 4190.8490548648 - 0.038735664322 4178.8158326200 - 0.038018881275 4165.8483789098 - 0.037313341426 4151.9731569522 - 0.036618963162 4137.2165806334 - 0.035935660947 4121.6049877561 - 0.035263345577 4105.1646153639 - 0.034601924422 4087.9215760649 - 0.033951301663 4069.9018354869 - 0.033311378477 4051.1311899517 - 0.032682053305 4031.6352473712 - 0.032063222037 4011.4394075963 - 0.031454778217 3990.5688443024 - 0.030856613240 3969.0484879287 - 0.030268616534 3946.9030096493 - 0.029690675741 3924.1568063468 - 0.029122676749 3900.8339822196 - 0.028564504428 3876.9583528385 - 0.028016041946 3852.5534077802 - 0.027477171474 3827.6423157968 + 0.041737056157 2485.3655160918 + 0.041796709086 2545.8244377023 + 0.041848730424 2606.4187832606 + 0.041893197469 2667.1179835120 + 0.041930190645 2727.8915602971 + 0.041959793357 2788.7091534025 + 0.041982091833 2849.5405468936 + 0.041997174980 2910.3556949068 + 0.042005134646 2971.1247534655 + 0.042006063431 3031.8180722066 + 0.042000058909 3092.4062888510 + 0.041987218253 3152.8602677402 + 0.041967641757 3213.1511821771 + 0.041941431894 3273.2505242402 + 0.041908691984 3333.1301049998 + 0.041869527165 3392.7620941684 + 0.041824044444 3452.1190442845 + 0.041772351512 3511.1738899527 + 0.041714557708 3569.8999870566 + 0.041650773306 3628.2711194095 + 0.041581109533 3686.2615184050 + 0.041505678507 3743.8458805536 + 0.041424593012 3800.9993806358 + 0.041337966485 3857.6976886009 + 0.041245912905 3913.9169835174 + 0.041148546655 3969.6339659885 + 0.041045982447 4024.8258711703 + 0.040938335230 4079.4704815534 + 0.040825720078 4133.5461352860 + 0.040708252120 4187.0317390962 + 0.040203265385 4201.3300134450 + 0.039463768023 4190.2428101990 + 0.038735664322 4178.1953352215 + 0.038018881275 4165.2140786776 + 0.037313341426 4151.3255074087 + 0.036618963162 4136.5560382179 + 0.035935660947 4120.9320111422 + 0.035263345577 4104.4796647990 + 0.034601924422 4087.2251127348 + 0.033951301663 4069.1943209030 + 0.033311378477 4050.4130853633 + 0.032682053305 4030.9070132007 + 0.032063222037 4010.7015028989 + 0.031454778217 3989.8217262495 + 0.030856613240 3968.2926113151 + 0.030268616534 3946.1388264236 + 0.029690675741 3923.3847651653 + 0.029122676749 3900.0545280246 + 0.028564504428 3876.1719264543 + 0.028016041946 3851.7604455385 + 0.027477171474 3826.8432491795 diff --git a/mytest/ex3.out b/mytest/ex3.out index 68ca56c0..a8e24798 100644 --- a/mytest/ex3.out +++ b/mytest/ex3.out @@ -400,7 +400,7 @@ Mixture 1. ----------------------------Description of solution---------------------------- pH = 7.327 Charge balance - pe = 10.560 Adjusted to redox equilibrium + pe = 10.559 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18310 Density (g/cm³) = 1.00526 Volume (L) = 1.00578 @@ -426,7 +426,7 @@ Mixture 1. H+ 5.921e-08 4.715e-08 -7.228 -7.327 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -122.397 -122.377 0.021 35.46 + CH4 0.000e+00 0.000e+00 -122.396 -122.375 0.021 35.46 C(4) 3.175e-03 HCO3- 2.615e-03 1.945e-03 -2.583 -2.711 -0.128 25.15 CO2 2.010e-04 2.074e-04 -3.697 -3.683 0.014 34.43 @@ -448,8 +448,8 @@ Ca 4.334e-03 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.46 HCl 1.605e-09 1.965e-09 -8.795 -8.707 0.088 (0) -H(0) 2.281e-39 - H2 1.140e-39 1.196e-39 -38.943 -38.922 0.021 28.61 +H(0) 2.283e-39 + H2 1.142e-39 1.197e-39 -38.942 -38.922 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.986e-05 4.061e-05 -4.302 -4.391 -0.089 14.03 @@ -465,13 +465,13 @@ Na 1.456e-01 Na+ 1.427e-01 1.065e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.801e-03 2.089e-03 -2.553 -2.680 -0.127 -0.72 NaHCO3 1.640e-04 1.804e-04 -3.785 -3.744 0.041 31.73 -O(0) 5.492e-15 - O2 2.746e-15 2.880e-15 -14.561 -14.541 0.021 30.40 +O(0) 5.481e-15 + O2 2.740e-15 2.874e-15 -14.562 -14.541 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -119.522 -119.674 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -120.080 -120.059 0.021 36.27 - S-2 0.000e+00 0.000e+00 -124.735 -125.266 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -241.417 -241.396 0.021 30.09 + HS- 0.000e+00 0.000e+00 -119.520 -119.672 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -120.078 -120.057 0.021 36.27 + S-2 0.000e+00 0.000e+00 -124.733 -125.264 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -241.413 -241.393 0.021 30.09 S(6) 8.777e-03 SO4-2 4.174e-03 1.206e-03 -2.379 -2.919 -0.539 28.42 NaSO4- 2.801e-03 2.089e-03 -2.553 -2.680 -0.127 -0.72 @@ -494,7 +494,7 @@ Si 2.215e-05 Aragonite -0.27 -8.60 -8.34 CaCO3 Arcanite -6.35 -8.23 -1.88 K2SO4 Calcite -0.12 -8.60 -8.48 CaCO3 - CH4(g) -119.57 -122.38 -2.80 CH4 + CH4(g) -119.57 -122.37 -2.80 CH4 Chalcedony -1.08 -4.63 -3.55 SiO2 Chrysotile -4.40 27.80 32.20 Mg3Si2O5(OH)4 CO2(g) -2.21 -3.68 -1.47 CO2 @@ -574,7 +574,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.001e+01 7.786e-03 ----------------------------Description of solution---------------------------- pH = 7.047 Charge balance - pe = 10.927 Adjusted to redox equilibrium + pe = 10.928 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18478 Density (g/cm³) = 1.00533 Volume (L) = 1.00583 @@ -600,7 +600,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+01 1.001e+01 7.786e-03 H+ 1.127e-07 8.972e-08 -6.948 -7.047 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -122.863 -122.843 0.021 35.46 + CH4 0.000e+00 0.000e+00 -122.866 -122.845 0.021 35.46 C(4) 3.016e-03 HCO3- 2.394e-03 1.781e-03 -2.621 -2.749 -0.128 25.15 CO2 3.502e-04 3.614e-04 -3.456 -3.442 0.014 34.43 @@ -622,8 +622,8 @@ Ca 1.196e-02 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.47 HCl 3.053e-09 3.740e-09 -8.515 -8.427 0.088 (0) -H(0) 1.518e-39 - H2 7.590e-40 7.961e-40 -39.120 -39.099 0.021 28.61 +H(0) 1.516e-39 + H2 7.579e-40 7.949e-40 -39.120 -39.100 0.021 28.61 K 3.173e-03 K+ 3.120e-03 2.213e-03 -2.506 -2.655 -0.149 9.35 KSO4- 5.122e-05 4.172e-05 -4.291 -4.380 -0.089 14.03 @@ -639,13 +639,13 @@ Na 1.456e-01 Na+ 1.426e-01 1.064e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.878e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 NaHCO3 1.500e-04 1.650e-04 -3.824 -3.782 0.041 31.73 -O(0) 1.239e-14 - O2 6.197e-15 6.500e-15 -14.208 -14.187 0.021 30.40 +O(0) 1.243e-14 + O2 6.216e-15 6.519e-15 -14.207 -14.186 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -119.937 -120.090 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -120.216 -120.195 0.021 36.27 - S-2 0.000e+00 0.000e+00 -125.429 -125.961 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -241.689 -241.669 0.021 30.09 + HS- 0.000e+00 0.000e+00 -119.940 -120.092 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -120.218 -120.198 0.021 36.27 + S-2 0.000e+00 0.000e+00 -125.432 -125.963 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -241.694 -241.674 0.021 30.09 S(6) 8.777e-03 SO4-2 4.293e-03 1.239e-03 -2.367 -2.907 -0.540 28.43 NaSO4- 2.878e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 @@ -668,7 +668,7 @@ Si 2.215e-05 Aragonite -0.14 -8.48 -8.34 CaCO3 Arcanite -6.34 -8.22 -1.88 K2SO4 Calcite 0.00 -8.48 -8.48 CaCO3 - CH4(g) -120.04 -122.84 -2.80 CH4 + CH4(g) -120.04 -122.85 -2.80 CH4 Chalcedony -1.08 -4.63 -3.55 SiO2 Chrysotile -6.91 25.29 32.20 Mg3Si2O5(OH)4 CO2(g) -1.97 -3.44 -1.47 CO2 @@ -772,7 +772,7 @@ Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -4.587e-05 H+ 4.632e-08 3.688e-08 -7.334 -7.433 -0.099 0.00 H2O 5.551e+01 9.941e-01 1.744 -0.003 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -123.203 -123.182 0.021 35.46 + CH4 0.000e+00 0.000e+00 -123.204 -123.183 0.021 35.46 C(4) 3.221e-03 HCO3- 2.685e-03 1.998e-03 -2.571 -2.699 -0.128 25.15 NaHCO3 1.684e-04 1.852e-04 -3.774 -3.732 0.041 31.73 @@ -794,8 +794,8 @@ Ca 4.380e-03 Cl 1.697e-01 Cl- 1.697e-01 1.210e-01 -0.770 -0.917 -0.147 18.47 HCl 1.255e-09 1.538e-09 -8.901 -8.813 0.088 (0) -H(0) 1.515e-39 - H2 7.577e-40 7.946e-40 -39.121 -39.100 0.021 28.61 +H(0) 1.514e-39 + H2 7.572e-40 7.942e-40 -39.121 -39.100 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.984e-05 4.060e-05 -4.302 -4.392 -0.089 14.03 @@ -811,13 +811,13 @@ Na 1.456e-01 Na+ 1.427e-01 1.064e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 NaHCO3 1.684e-04 1.852e-04 -3.774 -3.732 0.041 31.73 -O(0) 1.244e-14 - O2 6.221e-15 6.524e-15 -14.206 -14.185 0.021 30.40 +O(0) 1.246e-14 + O2 6.228e-15 6.532e-15 -14.206 -14.185 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -120.339 -120.491 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -121.003 -120.983 0.021 36.27 - S-2 0.000e+00 0.000e+00 -125.445 -125.976 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -243.264 -243.243 0.021 30.09 + HS- 0.000e+00 0.000e+00 -120.340 -120.492 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -121.004 -120.984 0.021 36.27 + S-2 0.000e+00 0.000e+00 -125.446 -125.977 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -243.266 -243.245 0.021 30.09 S(6) 8.777e-03 SO4-2 4.174e-03 1.205e-03 -2.379 -2.919 -0.539 28.43 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 @@ -849,17 +849,17 @@ Si 2.215e-05 Gypsum -1.23 -5.81 -4.58 CaSO4:2H2O H2(g) -36.00 -39.10 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -119.99 -127.92 -7.94 H2S + H2S(g) -119.99 -127.93 -7.94 H2S Halite -3.46 -1.89 1.57 NaCl Hexahydrite -3.66 -5.23 -1.57 MgSO4:6H2O Kieserite -4.06 -5.22 -1.16 MgSO4:H2O Mirabilite -3.65 -4.89 -1.24 Na2SO4:10H2O - O2(g) -11.29 -14.19 -2.89 O2 + O2(g) -11.29 -14.18 -2.89 O2 Quartz -0.65 -4.63 -3.98 SiO2 Sepiolite -4.53 11.23 15.76 Mg2Si3O7.5OH:3H2O Sepiolite(d) -7.43 11.23 18.66 Mg2Si3O7.5OH:3H2O SiO2(a) -1.92 -4.63 -2.71 SiO2 - Sulfur -89.91 -85.03 4.88 S + Sulfur -89.92 -85.03 4.88 S Sylvite -4.47 -3.57 0.90 KCl Talc -2.22 19.18 21.40 Mg3Si4O10(OH)2 Thenardite -4.56 -4.86 -0.30 Na2SO4 diff --git a/mytest/ex3_101.sel b/mytest/ex3_101.sel index 8ae8b266..15f5a396 100644 --- a/mytest/ex3_101.sel +++ b/mytest/ex3_101.sel @@ -1,7 +1,7 @@ Mu SC 0.000000100661 0.0546997340 - 0.004825593442 307.6125352977 - 0.670402506809 52856.6430529688 - 0.206832094395 18310.5770230106 - 0.207111579544 18478.8131756853 - 0.206941923487 18314.8102994689 + 0.004825593442 307.6125405972 + 0.670402506809 52856.6485243883 + 0.206832094395 18310.5781270576 + 0.207111579544 18478.8142879915 + 0.206941923487 18314.8114042757 diff --git a/mytest/ex4_101.sel b/mytest/ex4_101.sel index 03d26a74..325ad830 100644 --- a/mytest/ex4_101.sel +++ b/mytest/ex4_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000088389032 15.5646966431 - 0.001529421508 292.8465845700 - 0.001529421508 292.8465845700 + 0.000088389032 15.5646966866 + 0.001529421508 292.8465886738 + 0.001529421508 292.8465886738 diff --git a/mytest/ex5_101.sel b/mytest/ex5_101.sel index 3860e914..719f3aaa 100644 --- a/mytest/ex5_101.sel +++ b/mytest/ex5_101.sel @@ -1,7 +1,7 @@ Mu SC 0.000000100661 0.0546997340 - 0.000386037400 36.1764316546 - 0.003478455093 236.4009547385 - 0.013822097830 898.8913678100 - 0.023658453718 1503.0043087512 - 0.051985278226 3182.0887612556 + 0.000386037400 36.1764317771 + 0.003478455093 236.4009575918 + 0.013822097830 898.8913884097 + 0.023658453718 1503.0043521589 + 0.051985278226 3182.0888889649 diff --git a/mytest/ex6.cvode_101.sel b/mytest/ex6.cvode_101.sel index 63658c5e..c94568a3 100644 --- a/mytest/ex6.cvode_101.sel +++ b/mytest/ex6.cvode_101.sel @@ -2,10 +2,10 @@ 0.000000100644 0.0547821292 0.000000126671 0.0574612478 0.000002184622 0.4991345759 - 0.000020102076 4.0468376656 - 0.000127310996 14.1617574786 + 0.000020102076 4.0468376657 + 0.000127310996 14.1617574799 0.000003029023 0.6908453956 - 0.000021985904 3.9560065776 + 0.000021985904 3.9560065777 0.000000134389 0.0577504286 0.000000159593 0.0597292850 0.000000218344 0.0679017254 @@ -14,17 +14,17 @@ 0.000001012956 0.2402986446 0.000002006764 0.4605370739 0.000004003348 0.9185164628 - 0.000008001751 1.7977942610 + 0.000008001751 1.7977942611 0.000016001293 3.3385788685 - 0.000021865928 3.9604366936 - 0.000042730594 6.4664394948 - 0.000066713304 8.8862782943 - 0.000127310996 14.1617574786 + 0.000021865928 3.9604366937 + 0.000042730594 6.4664394951 + 0.000066713304 8.8862782948 + 0.000127310996 14.1617574799 0.000000100645 0.0546914117 0.000000101885 0.0548187860 0.000000114280 0.0560955752 0.000000203465 0.0655275749 0.000001416021 0.3305483696 - 0.000014053885 2.9852233873 - 0.000084439096 10.5133225908 - 0.000127313764 14.1619940715 + 0.000014053885 2.9852233874 + 0.000084439096 10.5133225915 + 0.000127313764 14.1619940728 diff --git a/mytest/ex6_101.sel b/mytest/ex6_101.sel index e5bbc24c..79406c0e 100644 --- a/mytest/ex6_101.sel +++ b/mytest/ex6_101.sel @@ -2,10 +2,10 @@ 0.000000100644 0.0547821292 0.000000126671 0.0574612478 0.000002184622 0.4991345759 - 0.000020102076 4.0468376656 - 0.000127310996 14.1617574786 + 0.000020102076 4.0468376657 + 0.000127310996 14.1617574799 0.000003029023 0.6908453956 - 0.000021985904 3.9560065792 + 0.000021985904 3.9560065794 0.000000134389 0.0577504286 0.000000159593 0.0597292850 0.000000218344 0.0679017254 @@ -14,10 +14,10 @@ 0.000001012956 0.2402986446 0.000002006764 0.4605370739 0.000004003348 0.9185164628 - 0.000008001751 1.7977942610 + 0.000008001751 1.7977942611 0.000016001293 3.3385788685 - 0.000021865928 3.9604366926 - 0.000026760089 4.5909946242 - 0.000033411252 5.4102854911 - 0.000018668007 4.2450374203 - 0.000052168630 4.7915116312 + 0.000021865928 3.9604366927 + 0.000026760089 4.5909946243 + 0.000033411252 5.4102854913 + 0.000018668007 4.2450374204 + 0.000052168630 4.7915116316 diff --git a/mytest/ex7_101.sel b/mytest/ex7_101.sel index 92d1dc88..22bd8ae1 100644 --- a/mytest/ex7_101.sel +++ b/mytest/ex7_101.sel @@ -1,15 +1,15 @@ Mu SC 0.000000100661 0.0546997340 - 0.007281181403 457.1968451314 - 0.007353854810 464.2644797558 - 0.007424920099 471.2650337406 - 0.007495298386 478.2472543915 - 0.007565005910 485.2119263338 - 0.007838828194 512.7943848950 - 0.008362448891 565.9486922464 - 0.009249822088 656.6342424142 - 0.010261986476 760.5706965157 - 0.010896844038 825.8971109724 - 0.011215116197 858.6581482234 - 0.011361496732 873.7236883285 - 0.011430657827 880.8406836686 + 0.007281181403 457.1968547271 + 0.007353854810 464.2644893104 + 0.007424920099 471.2650432568 + 0.007495298386 478.2472638730 + 0.007565005910 485.2119357852 + 0.007838828194 512.7943942621 + 0.008362448891 565.9487015605 + 0.009249822088 656.6342518233 + 0.010261986476 760.5707061701 + 0.010896844038 825.8971208161 + 0.011215116197 858.6581581675 + 0.011361496732 873.7236983195 + 0.011430657827 880.8406936819 diff --git a/mytest/ex7_T_P.out b/mytest/ex7_T_P.out index add1ce3e..93ea2519 100644 --- a/mytest/ex7_T_P.out +++ b/mytest/ex7_T_P.out @@ -277,7 +277,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 740 Density (g/cm³) = 0.99047 Volume (L) = 1.01006 - Viscosity (mPa s) = 0.55146 + Viscosity (mPa s) = 0.55152 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.255e-03 Mass of water (kg) = 1.000e+00 @@ -385,7 +385,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 744 Density (g/cm³) = 0.99046 Volume (L) = 1.01010 - Viscosity (mPa s) = 0.55187 + Viscosity (mPa s) = 0.55193 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.327e-03 Mass of water (kg) = 1.000e+00 @@ -493,7 +493,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 749 Density (g/cm³) = 0.99046 Volume (L) = 1.01013 - Viscosity (mPa s) = 0.55224 + Viscosity (mPa s) = 0.55230 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.397e-03 Mass of water (kg) = 1.000e+00 @@ -601,7 +601,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 753 Density (g/cm³) = 0.99046 Volume (L) = 1.01017 - Viscosity (mPa s) = 0.55257 + Viscosity (mPa s) = 0.55264 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.467e-03 Mass of water (kg) = 1.000e+00 @@ -709,7 +709,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 770 Density (g/cm³) = 0.99044 Volume (L) = 1.01030 - Viscosity (mPa s) = 0.55370 + Viscosity (mPa s) = 0.55377 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.743e-03 Mass of water (kg) = 9.999e-01 @@ -817,7 +817,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 804 Density (g/cm³) = 0.99042 Volume (L) = 1.01058 - Viscosity (mPa s) = 0.55538 + Viscosity (mPa s) = 0.55545 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.290e-03 Mass of water (kg) = 9.999e-01 @@ -925,7 +925,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 873 Density (g/cm³) = 0.99037 Volume (L) = 1.01114 - Viscosity (mPa s) = 0.55791 + Viscosity (mPa s) = 0.55798 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.382e-03 Mass of water (kg) = 9.999e-01 @@ -1033,7 +1033,7 @@ Reaction 1. Specific Conductance (µS/cm, 50°C) = 1010 Density (g/cm³) = 0.99027 Volume (L) = 1.01224 - Viscosity (mPa s) = 0.56210 + Viscosity (mPa s) = 0.56218 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.157e-02 Mass of water (kg) = 9.999e-01 @@ -1155,7 +1155,7 @@ N2(g) -1.40 4.005e-02 1.016 0.000e+00 1.644e-05 1.644e-05 Specific Conductance (µS/cm, 50°C) = 1270 Density (g/cm³) = 0.99047 Volume (L) = 1.01360 - Viscosity (mPa s) = 0.56925 + Viscosity (mPa s) = 0.56934 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.569e-02 Mass of water (kg) = 9.998e-01 @@ -1277,7 +1277,7 @@ N2(g) -0.77 1.703e-01 1.019 0.000e+00 3.336e-04 3.336e-04 Specific Conductance (µS/cm, 50°C) = 1763 Density (g/cm³) = 0.99131 Volume (L) = 1.01510 - Viscosity (mPa s) = 0.58215 + Viscosity (mPa s) = 0.58225 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.354e-02 Mass of water (kg) = 9.997e-01 @@ -1399,7 +1399,7 @@ N2(g) -0.24 5.783e-01 1.024 0.000e+00 3.248e-03 3.248e-03 Specific Conductance (µS/cm, 50°C) = 2455 Density (g/cm³) = 0.99253 Volume (L) = 1.01738 - Viscosity (mPa s) = 0.60039 + Viscosity (mPa s) = 0.60051 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.465e-02 Mass of water (kg) = 9.995e-01 @@ -1521,7 +1521,7 @@ N2(g) 0.04 1.104e+00 1.030 0.000e+00 1.592e-02 1.592e-02 Specific Conductance (µS/cm, 50°C) = 3006 Density (g/cm³) = 0.99369 Volume (L) = 1.02009 - Viscosity (mPa s) = 0.61611 + Viscosity (mPa s) = 0.61625 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.366e-02 Mass of water (kg) = 9.997e-01 diff --git a/mytest/ex7_T_P_101.sel b/mytest/ex7_T_P_101.sel index ef42d0de..1c131da2 100644 --- a/mytest/ex7_T_P_101.sel +++ b/mytest/ex7_T_P_101.sel @@ -1,15 +1,15 @@ Mu SC 0.000000100661 0.0546997340 - 0.007281181403 457.1968451314 - 0.007255379547 740.4016078132 - 0.007327049223 744.8630824472 - 0.007397392651 749.2217065451 - 0.007467033253 753.5334202888 - 0.007742636967 770.6439638973 - 0.008289778216 804.8479974677 - 0.009381508358 873.4613632534 - 0.011565141593 1010.7295378207 - 0.015690751695 1270.4812474331 - 0.023538013135 1763.9075780514 - 0.034645383308 2455.1526751710 - 0.043662903932 3006.8080084256 + 0.007281181403 457.1968547271 + 0.007255379547 740.3513016532 + 0.007327049223 744.8126786730 + 0.007397392651 749.1712134027 + 0.007467033253 753.4828406602 + 0.007742636967 770.5930395554 + 0.008289778216 804.7963647543 + 0.009381508358 873.4083327311 + 0.011565141593 1010.6740199763 + 0.015690751695 1270.4220247455 + 0.023538013135 1763.8437980275 + 0.034645383308 2455.0858870413 + 0.043662903932 3006.7407067069 diff --git a/mytest/ex8_101.sel b/mytest/ex8_101.sel index ddeee60c..c5d805e2 100644 --- a/mytest/ex8_101.sel +++ b/mytest/ex8_101.sel @@ -1,29 +1,29 @@ Mu SC - 0.100001415522 9916.2267315774 - 0.100092353027 9913.8287488182 - 0.099942655540 9915.2699834428 - 0.099950841274 9914.3200603409 - 0.099958390144 9914.0032374196 - 0.099965213085 9914.0154461222 - 0.099971288602 9914.1881940828 - 0.099976640683 9914.4297938598 - 0.099981328013 9914.6919957240 - 0.099985436516 9914.9513218298 - 0.099989063022 9915.1991322918 - 0.099992312919 9915.4366678769 - 0.099995314096 9915.6731336432 - 0.099998231407 9915.9262863572 - 0.100001285616 9916.2257146423 - 0.100042191628 9912.8457239028 - 0.100049852720 9911.9054703132 - 0.100056360344 9911.6031668609 - 0.100061650586 9911.6349402773 - 0.100066025968 9911.8289805268 - 0.100069391499 9912.0959267862 - 0.100070673564 9912.4024274498 - 0.100068066531 9912.7494678286 - 0.100060487709 9913.1417021124 - 0.100049314385 9913.5608164756 - 0.100037191158 9913.9852870347 - 0.100026052096 9914.4134083206 - 0.100016939865 9914.8627971297 + 0.100001415522 9916.2268848179 + 0.100092353027 9913.8289017100 + 0.099942655540 9915.2701369592 + 0.099950841274 9914.3202136730 + 0.099958390144 9914.0033906589 + 0.099965213085 9914.0155993188 + 0.099971288602 9914.1883472636 + 0.099976640683 9914.4299470390 + 0.099981328013 9914.6921489084 + 0.099985436516 9914.9514750227 + 0.099989063022 9915.1992854942 + 0.099992312919 9915.4368210890 + 0.099995314096 9915.6732868648 + 0.099998231407 9915.9264395883 + 0.100001285616 9916.2258678830 + 0.100042191628 9912.8458770470 + 0.100049852720 9911.9056232748 + 0.100056360344 9911.6033197326 + 0.100061650586 9911.6350931106 + 0.100066025968 9911.8291333492 + 0.100069391499 9912.0960796126 + 0.100070673564 9912.4025802914 + 0.100068066531 9912.7496206982 + 0.100060487709 9913.1418550239 + 0.100049314385 9913.5609694382 + 0.100037191158 9913.9854400500 + 0.100026052096 9914.4135613856 + 0.100016939865 9914.8629502392 diff --git a/mytest/ex8_tail_biter_101.sel b/mytest/ex8_tail_biter_101.sel index 8755a06c..ff0f97c6 100644 --- a/mytest/ex8_tail_biter_101.sel +++ b/mytest/ex8_tail_biter_101.sel @@ -1,16 +1,16 @@ Mu SC - 0.100001415522 9916.2267315774 - 0.100092353027 9913.8287488182 - 0.099942655540 9915.2699834428 - 0.099950841274 9914.3200603409 - 0.099958390144 9914.0032374196 - 0.099965213085 9914.0154461222 - 0.099971288602 9914.1881940828 - 0.099976640683 9914.4297938598 - 0.099981328013 9914.6919957240 - 0.099985436516 9914.9513218298 - 0.099989063022 9915.1991322918 - 0.099992312919 9915.4366678769 - 0.099995314096 9915.6731336432 - 0.099998231407 9915.9262863572 - 0.100001285616 9916.2257146423 + 0.100001415522 9916.2268848179 + 0.100092353027 9913.8289017100 + 0.099942655540 9915.2701369592 + 0.099950841274 9914.3202136730 + 0.099958390144 9914.0033906589 + 0.099965213085 9914.0155993188 + 0.099971288602 9914.1883472636 + 0.099976640683 9914.4299470390 + 0.099981328013 9914.6921489084 + 0.099985436516 9914.9514750227 + 0.099989063022 9915.1992854942 + 0.099992312919 9915.4368210890 + 0.099995314096 9915.6732868648 + 0.099998231407 9915.9264395883 + 0.100001285616 9916.2258678830 diff --git a/mytest/ex9.cvode_101.sel b/mytest/ex9.cvode_101.sel index 103cad2a..0b5a190d 100644 --- a/mytest/ex9.cvode_101.sel +++ b/mytest/ex9.cvode_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.010297823284 1190.9751131418 - 0.010296887864 1191.2554934263 - 0.010296163762 1191.5047972177 - 0.010294597824 1192.0493156538 - 0.010292715191 1192.7061327120 - 0.010290932028 1193.3289643816 - 0.010288684311 1194.1146127009 - 0.010286420336 1194.9064278199 - 0.010283633275 1195.8817939004 - 0.010281725318 1196.5498848988 - 0.010280233600 1197.0724424074 - 0.010278990847 1197.5079348437 + 0.010297823284 1190.9751274089 + 0.010296887864 1191.2555077048 + 0.010296163762 1191.5048115059 + 0.010294597824 1192.0493299628 + 0.010292715191 1192.7061470461 + 0.010290932028 1193.3289787395 + 0.010288684311 1194.1146270887 + 0.010286420336 1194.9064422379 + 0.010283633275 1195.8818083557 + 0.010281725318 1196.5498993796 + 0.010280233600 1197.0724569082 + 0.010278990847 1197.5079493611 diff --git a/mytest/ex9_101.sel b/mytest/ex9_101.sel index cc464d38..cee54025 100644 --- a/mytest/ex9_101.sel +++ b/mytest/ex9_101.sel @@ -1,4804 +1,4804 @@ Mu SC - 0.001800104024 155.2561064049 - 0.001200104502 145.9127045105 - 0.001200104502 145.9127045105 - 0.001306823510 159.0742930197 - 0.001200099538 145.9113075170 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001200099538 145.9113073109 - 0.001747520540 156.0590646189 - 0.001200459225 156.1961310897 - 0.001200099540 145.9113075142 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001200099538 145.9113074195 - 0.001796296858 155.3259229295 - 0.001358683781 162.2352119111 - 0.001200105027 153.6494625693 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001200099539 145.9113074182 - 0.001799802413 155.2618954266 - 0.001746192623 156.2245769450 - 0.001201290295 161.4403186686 - 0.001200104483 152.5642322796 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800079433 155.2565832164 - 0.001795514420 155.3435427525 - 0.001404181181 163.2683022830 - 0.001200107270 156.8205918273 - 0.001200104482 152.1339391321 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800102006 155.2561456283 - 0.001799708465 155.2637625800 - 0.001749814287 156.2139641984 - 0.001203025083 166.2890200842 - 0.001200104487 154.1273063100 - 0.001200104482 151.9683910898 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800103858 155.2561096061 - 0.001800069738 155.2567724113 - 0.001795572821 155.3435596535 - 0.001446337643 163.0945908963 - 0.001200115351 161.0509224428 - 0.001200104482 152.8280938733 - 0.001200104482 151.9054558099 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104011 155.2561066682 - 0.001800101054 155.2561641406 - 0.001799701124 155.2639263686 - 0.001755468941 156.1255578562 - 0.001205912015 169.7831497316 - 0.001200104507 156.7982198650 - 0.001200104482 152.2615790367 - 0.001200104483 151.8816397547 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104023 155.2561064266 - 0.001800103768 155.2561113583 - 0.001800068202 155.2568026755 - 0.001795990330 155.3359053764 - 0.001486646860 162.3780785946 - 0.001200136451 165.4351957356 - 0.001200104482 154.2094793233 - 0.001200104482 152.0263365641 - 0.001200104483 151.8726430028 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064067 - 0.001800104002 155.2561068321 - 0.001800100844 155.2561682461 - 0.001799732851 155.2633183443 - 0.001761672837 156.0108280198 - 0.001210212324 171.8298397342 - 0.001200104593 160.4810136474 - 0.001200104482 152.9012899747 - 0.001200104482 151.9308543224 - 0.001200104483 151.8692466368 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064051 - 0.001800104022 155.2561064417 - 0.001800103742 155.2561118438 - 0.001800070593 155.2567563494 - 0.001796531479 155.3255512055 - 0.001525706805 161.4693377017 - 0.001200178473 169.0776519586 - 0.001200104482 156.5423118810 - 0.001200104482 152.3067874494 - 0.001200104482 151.8925288253 - 0.001200104483 151.8679647940 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064081 - 0.001800103999 155.2561068859 - 0.001800101017 155.2561648838 - 0.001799779205 155.2624205740 - 0.001767686314 155.8941130592 - 0.001216461161 172.7716134346 - 0.001200104854 164.5603314592 - 0.001200104482 154.1228394270 - 0.001200104482 152.0505873228 - 0.001200104482 151.8772395882 - 0.001200104483 151.8674811464 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104022 155.2561064474 - 0.001800103754 155.2561116187 - 0.001800074554 155.2566793849 - 0.001797082883 155.3148804844 - 0.001563353745 160.5352543036 - 0.001200249545 171.6214201545 - 0.001200104483 159.8567178691 - 0.001200104482 152.8813351986 - 0.001200104482 151.9429530888 - 0.001200104482 151.8711643590 - 0.001200104483 151.8672985950 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064087 - 0.001800104000 155.2561068726 - 0.001800101353 155.2561583458 - 0.001799828159 155.2614700349 - 0.001773185089 155.7857138186 - 0.001225545854 172.9518269143 - 0.001200105446 168.2209755518 - 0.001200104482 156.1915289108 - 0.001200104482 152.3066971539 - 0.001200104482 151.8983052193 - 0.001200104482 151.8687574386 - 0.001200104483 151.8672297013 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064053 - 0.001800104022 155.2561064468 - 0.001800103782 155.2561110730 - 0.001800078886 155.2565951897 - 0.001797595430 155.3049222930 - 0.001598855811 159.6577742596 - 0.001200361957 173.1970245647 - 0.001200104487 163.7257310966 - 0.001200104482 153.9612718910 - 0.001200104482 152.0542023335 - 0.001200104482 151.8799160693 - 0.001200104482 151.8678061584 - 0.001200104484 151.8672037027 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064087 - 0.001800104002 155.2561068273 - 0.001800101735 155.2561509170 - 0.001799874352 155.2605722851 - 0.001778028195 155.6898634496 - 0.001238555570 172.5901858893 - 0.001200106546 170.9666580634 - 0.001200104482 159.2169229675 - 0.001200104482 152.8165220359 - 0.001200104482 151.9460054121 - 0.001200104482 151.8723773606 - 0.001200104482 151.8674310363 - 0.001200104484 151.8671938918 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064053 - 0.001800104022 155.2561064431 - 0.001800103816 155.2561104251 - 0.001800083035 155.2565145298 - 0.001798048912 155.2960988725 - 0.001631182982 158.8802807278 - 0.001200536246 174.1006203579 - 0.001200104495 167.4124193400 - 0.001200104482 155.8068243658 - 0.001200104482 152.2830930769 - 0.001200104482 151.9002182227 - 0.001200104482 151.8692977880 - 0.001200104483 151.8672833467 - 0.001200104484 151.8671901896 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064084 - 0.001800104005 155.2561067706 - 0.001800102107 155.2561436846 - 0.001799915534 155.2597716356 - 0.001782152971 155.6082675931 - 0.001256395558 171.8196451646 - 0.001200108363 172.7696632431 - 0.001200104482 162.9125925583 - 0.001200104482 153.7701482287 - 0.001200104482 152.0463293143 - 0.001200104482 151.8809757768 - 0.001200104482 151.8680435265 - 0.001200104483 151.8672253055 - 0.001200104484 151.8671887925 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064382 - 0.001800103849 155.2561097828 - 0.001800086763 155.2564420416 - 0.001798435396 155.2885756968 - 0.001659418091 158.2230403191 - 0.001200802496 174.5913837475 - 0.001200104512 170.3360154741 - 0.001200104482 158.5818002050 - 0.001200104482 152.7323541433 - 0.001200104482 151.9436736423 - 0.001200104482 151.8729253294 - 0.001200104482 151.8675341531 - 0.001200104483 151.8672025326 - 0.001200104484 151.8671882653 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064080 - 0.001800104008 155.2561067132 - 0.001800102444 155.2561371296 - 0.001799950807 155.2590857620 - 0.001785551888 155.5411633898 - 0.001279360830 170.7474295581 - 0.001200111189 173.8547515082 - 0.001200104482 166.6208814313 - 0.001200104482 155.4188719481 - 0.001200104482 152.2484981706 - 0.001200104482 151.8996773027 - 0.001200104482 151.8695687970 - 0.001200104483 151.8673277110 - 0.001200104483 151.8671936107 - 0.001200104484 151.8671880663 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064331 - 0.001800103880 155.2561091952 - 0.001800089973 155.2563796174 - 0.001798753829 155.2823768380 - 0.001683177503 157.6866597933 - 0.001201200419 174.8420832122 - 0.001200104541 172.3431619095 - 0.001200104482 162.1142973026 - 0.001200104484 153.5729019002 - 0.001200104482 152.0326941817 - 0.001200104482 151.8809402928 - 0.001200104482 151.8681733871 - 0.001200104483 151.8672442453 - 0.001200104483 151.8671901201 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064075 - 0.001800104011 155.2561066602 - 0.001800102736 155.2561314528 - 0.001799979991 155.2585182726 - 0.001788277942 155.4874656104 - 0.001307040908 169.4799345764 - 0.001200115421 174.4743765435 - 0.001200104482 169.7078440305 - 0.001200104482 157.9640814919 - 0.001200104484 152.6425699088 - 0.001200104482 151.9384655472 - 0.001200104482 151.8729928374 - 0.001200104482 151.8675948042 - 0.001200104483 151.8672105741 - 0.001200104483 151.8671887561 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064283 - 0.001800103906 155.2561086833 - 0.001800092641 155.2563277367 - 0.001799009124 155.2774075213 - 0.001702718689 157.2568594660 - 0.001201782399 174.9538173311 - 0.001200104585 173.5907550554 - 0.001200104482 165.8301086709 - 0.001200104482 155.0442075285 - 0.001200104484 152.2099928875 - 0.001200104482 151.8977474934 - 0.001200104482 151.8696321087 - 0.001200104482 151.8673555215 - 0.001200104483 151.8671970185 - 0.001200104483 151.8671882414 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064071 - 0.001800104013 155.2561066137 - 0.001800102980 155.2561267130 - 0.001800003469 155.2580617314 - 0.001790433754 155.4450895233 - 0.001338597465 168.1139976832 - 0.001200121607 174.8177156317 - 0.001200104483 171.9117001421 - 0.001200104482 161.3308728796 - 0.001200104483 153.3818510414 - 0.001200104484 152.0167052460 - 0.001200104482 151.8802504754 - 0.001200104482 151.8682146553 - 0.001200104482 151.8672567757 - 0.001200104483 151.8671915827 - 0.001200104483 151.8671880472 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064241 - 0.001800103928 155.2561082538 - 0.001800094796 155.2562858411 - 0.001799210773 155.2734829482 - 0.001718694452 156.9129047544 - 0.001202622645 174.9806953606 - 0.001200104651 174.3194410848 - 0.001200104482 169.0658043269 - 0.001200104482 157.3725677078 - 0.001200104483 152.5545012887 - 0.001200104484 151.9319567084 - 0.001200104482 151.8727580724 - 0.001200104482 151.8676182365 - 0.001200104482 151.8672161267 - 0.001200104483 151.8671894105 - 0.001200104483 151.8671879739 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064067 - 0.001800104015 155.2561065745 - 0.001800103177 155.2561228705 - 0.001800022052 155.2577003706 - 0.001792139794 155.4116144978 - 0.001373097598 166.7241850426 - 0.001200130545 175.0046525821 - 0.001200104484 173.3208037384 - 0.001200104482 165.0336097964 - 0.001200104482 154.6918269104 - 0.001200104483 152.1714758171 - 0.001200104484 151.8951372943 - 0.001200104482 151.8695580832 - 0.001200104482 151.8673678800 - 0.001200104482 151.8671994347 - 0.001200104483 151.8671885451 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064205 - 0.001800103947 155.2561079043 - 0.001800096506 155.2562525971 - 0.001799369963 155.2703851308 - 0.001731841823 156.6347159881 - 0.001203833465 174.9479788255 - 0.001200104745 174.7298051265 - 0.001200104482 171.4625639413 - 0.001200104482 160.5656714563 - 0.001200104482 153.2032689019 - 0.001200104483 152.0003101849 - 0.001200104484 151.8792181700 - 0.001200104482 151.8681944078 - 0.001200104482 151.8672630016 - 0.001200104482 151.8671925970 - 0.001200104483 151.8671882014 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064064 - 0.001800104017 155.2561065425 - 0.001800103335 155.2561198135 - 0.001800036727 155.2574150013 - 0.001793505863 155.3848502809 - 0.001409690389 165.3605554032 - 0.001200143475 175.1052026916 - 0.001200104485 174.1597752135 - 0.001200104482 168.4008649758 - 0.001200104482 156.8134017579 - 0.001200104482 152.4718875001 - 0.001200104483 151.9250836777 - 0.001200104484 151.8723558176 - 0.001200104482 151.8676144663 - 0.001200104482 151.8672191654 - 0.001200104482 151.8671898026 - 0.001200104483 151.8671880716 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104024 155.2561064176 - 0.001800103961 155.2561076254 - 0.001800097857 155.2562263235 - 0.001799496991 155.2679135075 - 0.001742802834 156.4060615739 - 0.001205590853 174.8624387959 - 0.001200104881 174.9561897775 - 0.001200104482 173.0364890302 - 0.001200104482 164.2306347705 - 0.001200104482 154.3663117491 - 0.001200104483 152.1349910234 - 0.001200104483 151.8922852468 - 0.001200104484 151.8694040339 - 0.001200104482 151.8673683424 - 0.001200104482 151.8672008831 - 0.001200104482 151.8671886674 - 0.001200104483 151.8671880227 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064061 - 0.001800104018 155.2561065169 - 0.001800103459 155.2561173950 - 0.001800048423 155.2571875631 - 0.001794618691 155.3630746611 - 0.001447633707 164.0539524595 - 0.001200162399 175.1585394376 - 0.001200104486 174.6383739055 - 0.001200104482 170.9871219979 - 0.001200104482 159.8235018707 - 0.001200104482 153.0400021762 - 0.001200104483 151.9845672955 - 0.001200104483 151.8780444484 - 0.001200104484 151.8681366884 - 0.001200104482 151.8672640716 - 0.001200104482 151.8671932773 - 0.001200104482 151.8671882085 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064152 - 0.001800103972 155.2561074046 - 0.001800098933 155.2562054002 - 0.001799600064 155.2659081670 - 0.001752072406 156.2149577476 - 0.001208174326 174.7169106071 - 0.001200105079 175.0796582341 - 0.001200104482 173.9905719469 - 0.001200104482 167.7087816842 - 0.001200104482 156.2906525826 - 0.001200104482 152.3964258579 - 0.001200104483 151.9183748787 - 0.001200104483 151.8718765548 - 0.001200104484 151.8675936006 - 0.001200104482 151.8672199864 - 0.001200104482 151.8671901214 - 0.001200104482 151.8671880239 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064059 - 0.001800104020 155.2561064966 - 0.001800103558 155.2561154012 - 0.001800057894 155.2570034040 - 0.001795541595 155.3450342408 - 0.001486240592 162.8231244556 - 0.001200190615 175.1860205677 - 0.001200104488 174.9047777409 - 0.001200104482 172.7312156987 - 0.001200104482 163.4239340042 - 0.001200104482 154.0695185314 - 0.001200104482 152.1015068001 - 0.001200104483 151.8894483473 - 0.001200104483 151.8692099282 - 0.001200104485 151.8673611610 - 0.001200104482 151.8672013851 - 0.001200104482 151.8671888156 - 0.001200104482 151.8671879542 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064133 - 0.001800103982 155.2561072288 - 0.001800099803 155.2561884891 - 0.001799685221 155.2642515596 - 0.001760007086 156.0529872524 - 0.001212025856 174.4910152994 - 0.001200105373 175.1465687420 - 0.001200104482 174.5412425617 - 0.001200104482 170.4796052271 - 0.001200104482 159.1095137039 - 0.001200104482 152.8929267222 - 0.001200104482 151.9700036139 - 0.001200104483 151.8768518368 - 0.001200104483 151.8680587459 - 0.001200104485 151.8672618562 - 0.001200104482 151.8671935526 - 0.001200104482 151.8671882794 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064057 - 0.001800104020 155.2561064804 - 0.001800103638 155.2561138598 - 0.001800065699 155.2568516206 - 0.001796318779 155.3298556722 - 0.001524789998 161.6809523229 - 0.001200233627 175.1989993259 - 0.001200104491 175.0510484412 - 0.001200104482 173.8074593249 - 0.001200104482 166.9886536467 - 0.001200104482 155.8066861066 - 0.001200104482 152.3286574160 - 0.001200104482 151.9121058261 - 0.001200104483 151.8713777904 - 0.001200104483 151.8675625720 - 0.001200104485 151.8672195041 - 0.001200104482 151.8671902631 - 0.001200104482 151.8671880607 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064118 - 0.001800103989 155.2561070872 - 0.001800100518 155.2561745816 - 0.001799756695 155.2628612359 - 0.001766849707 155.9144793407 - 0.001217821222 174.1502183876 - 0.001200105821 175.1826926816 - 0.001200104482 174.8501459788 - 0.001200104482 172.3998034315 - 0.001200104482 162.6183735702 - 0.001200104485 153.8015874146 - 0.001200104482 152.0713762418 - 0.001200104483 151.8867663230 - 0.001200104483 151.8690024000 - 0.001200104484 151.8673489235 - 0.001200104485 151.8672014736 - 0.001200104482 151.8671888856 - 0.001200104482 151.8671879782 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064056 - 0.001800104021 155.2561064674 - 0.001800103703 155.2561125949 - 0.001800072237 155.2567245017 - 0.001796980008 155.3169514584 - 0.001562427271 160.6390863980 - 0.001200300608 175.2032090951 - 0.001200104496 175.1307560575 - 0.001200104482 174.4357519910 - 0.001200104482 169.9363308201 - 0.001200104482 158.4285145011 - 0.001200104485 152.7617954663 - 0.001200104482 151.9568359791 - 0.001200104483 151.8757094205 - 0.001200104483 151.8679728538 - 0.001200104484 151.8672570666 - 0.001200104485 151.8671938119 - 0.001200104482 151.8671883144 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064107 - 0.001800103995 155.2561069713 - 0.001800101116 155.2561629582 - 0.001799817351 155.2616814199 - 0.001772752561 155.7958489347 - 0.001226507107 173.6474842873 - 0.001200106518 175.2021400814 - 0.001200104482 175.0206671926 - 0.001200104482 173.6067008443 - 0.001200104482 166.2420531509 - 0.001200104482 155.3624653050 - 0.001200104485 152.2684832064 - 0.001200104482 151.9064012217 - 0.001200104483 151.8708929633 - 0.001200104483 151.8675272048 - 0.001200104484 151.8672176316 - 0.001200104485 151.8671905650 - 0.001200104482 151.8671880794 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064055 - 0.001800104022 155.2561064568 - 0.001800103758 155.2561115399 - 0.001800077776 155.2566167969 - 0.001797544287 155.3059463536 - 0.001598101165 159.7103695037 - 0.001200406395 175.2011138140 - 0.001200104503 175.1740124773 - 0.001200104482 174.7907593634 - 0.001200104482 172.0380595040 - 0.001200104484 161.8199955825 - 0.001200104484 153.5615848418 - 0.001200104485 152.0446103880 - 0.001200104482 151.8843071985 - 0.001200104483 151.8687973480 - 0.001200104484 151.8673344469 - 0.001200104484 151.8672007286 - 0.001200104485 151.8671891935 - 0.001200104482 151.8671879908 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001200099539 145.9113074202 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064097 - 0.001800104000 155.2561068748 - 0.001800101621 155.2561531255 - 0.001799869035 155.2606761878 - 0.001777798620 155.6950549408 - 0.001239189741 172.9349009307 - 0.001200107619 175.2125690289 - 0.001200104482 175.1139667630 - 0.001200104482 174.3195169205 - 0.001200104482 169.3552785387 - 0.001200104484 157.7845629829 - 0.001200104484 152.6457442625 - 0.001200104485 151.9451056801 - 0.001200104482 151.8746529467 - 0.001200104483 151.8678864158 - 0.001200104484 151.8672511768 - 0.001200104484 151.8671934960 - 0.001200104485 151.8671886208 - 0.001200104482 151.8671879573 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001200099540 145.9113075142 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064054 - 0.001800104022 155.2561064479 - 0.001800103804 155.2561106489 - 0.001800082492 155.2565250972 - 0.001798022759 155.2966198906 - 0.001630641817 158.9074946556 - 0.001200573443 175.1931354178 - 0.001200104515 175.1974346559 - 0.001200104482 174.9876634334 - 0.001200104482 173.3849559187 - 0.001200104482 165.4724452155 - 0.001200104484 154.9578262201 - 0.001200104484 152.2154658733 - 0.001200104485 151.9012981117 - 0.001200104482 151.8704403486 - 0.001200104483 151.8674908620 - 0.001200104484 151.8672152496 - 0.001200104484 151.8671904101 - 0.001200104485 151.8671883838 - 0.001200104482 151.8671879447 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001200104484 151.8671879913 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064089 - 0.001800104004 155.2561067934 - 0.001800102052 155.2561447606 - 0.001799912846 155.2598241157 - 0.001782029542 155.6109752314 - 0.001256780623 171.9883868270 - 0.001200109358 175.2181116563 - 0.001200104482 175.1647672854 - 0.001200104482 174.7251934255 - 0.001200104482 171.6425471470 - 0.001200104483 161.0353349440 - 0.001200104484 153.3479340242 - 0.001200104484 152.0210376688 - 0.001200104486 151.8820962970 - 0.001200104482 151.8686039349 - 0.001200104483 151.8673191994 - 0.001200104484 151.8671997705 - 0.001200104484 151.8671890981 - 0.001200104485 151.8671882865 - 0.001200104482 151.8671879399 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001200104483 151.8671879462 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064053 - 0.001800104022 155.2561064405 - 0.001800103844 155.2561098916 - 0.001800086490 155.2564473431 - 0.001798421763 155.2888460522 - 0.001659068471 158.2371454276 - 0.001200832775 175.1783262005 - 0.001200104533 175.2101014996 - 0.001200104482 175.0957557055 - 0.001200104482 174.1902992010 - 0.001200104482 168.7358663753 - 0.001200104483 157.1807518522 - 0.001200104484 152.5436019025 - 0.001200104484 151.9347574974 - 0.001200104486 151.8736977607 - 0.001200104482 151.8678039755 - 0.001200104483 151.8672447778 - 0.001200104484 151.8671931124 - 0.001200104484 151.8671885424 - 0.001200104485 151.8671882468 - 0.001200104482 151.8671879381 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001200104483 151.8671880042 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064082 - 0.001800104008 155.2561067243 - 0.001800102417 155.2561376661 - 0.001799949420 155.2591128331 - 0.001785485996 155.5425751337 - 0.001279574490 170.8293909110 - 0.001200112063 175.2209846509 - 0.001200104483 175.1923547331 - 0.001200104482 174.9512168881 - 0.001200104482 173.1391331158 - 0.001200104482 164.6847545890 - 0.001200104483 154.5917262472 - 0.001200104485 152.1690104017 - 0.001200104484 151.8967834730 - 0.001200104486 151.8700286671 - 0.001200104482 151.8674557982 - 0.001200104483 151.8672125476 - 0.001200104484 151.8671902539 - 0.001200104484 151.8671883080 - 0.001200104485 151.8671882468 - 0.001200104482 151.8671879381 - 0.001200104482 151.8671879470 - 0.001200104482 151.8671879279 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064342 - 0.001800103877 155.2561092492 - 0.001800089834 155.2563823352 - 0.001798746704 155.2825175925 - 0.001682970928 157.6938590504 - 0.001201224496 175.1547346596 - 0.001200104561 175.2169468393 - 0.001200104482 175.1547584345 - 0.001200104482 174.6520785588 - 0.001200104482 171.2104807322 - 0.001200104483 160.2709063103 - 0.001200104483 153.1587003108 - 0.001200104485 152.0004011659 - 0.001200104484 151.8801332150 - 0.001200104486 151.8684269586 - 0.001200104483 151.8673043215 - 0.001200104483 151.8671986052 - 0.001200104484 151.8671890292 - 0.001200104484 151.8671882196 - 0.001200104485 151.8671882307 - 0.001200104482 151.8671879381 - 0.001200104482 151.8671879470 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064076 - 0.001800104011 155.2561066657 - 0.001800102722 155.2561317261 - 0.001799979270 155.2585323305 - 0.001788243553 155.4881899322 - 0.001307149182 169.5195186362 - 0.001200116159 175.2223665881 - 0.001200104483 175.2073149424 - 0.001200104482 175.0756598322 - 0.001200104482 174.0459142364 - 0.001200104482 168.0788338163 - 0.001200104483 156.6191287079 - 0.001200104483 152.4540720303 - 0.001200104485 151.9256904010 - 0.001200104484 151.8728459213 - 0.001200104486 151.8677281567 - 0.001200104483 151.8672384753 - 0.001200104483 151.8671925814 - 0.001200104484 151.8671885120 - 0.001200104484 151.8671882196 - 0.001200104485 151.8671882247 - 0.001200104482 151.8671879381 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064288 - 0.001800103905 155.2561087106 - 0.001800092569 155.2563291433 - 0.001799005450 155.2774799047 - 0.001702604866 157.2604547291 - 0.001201801164 175.1194187224 - 0.001200104603 175.2206439087 - 0.001200104482 175.1868660913 - 0.001200104482 174.9105291817 - 0.001200104482 172.8663113942 - 0.001200104482 163.8849975531 - 0.001200104483 154.2624731700 - 0.001200104484 152.1284638324 - 0.001200104485 151.8928206433 - 0.001200104484 151.8696595776 - 0.001200104486 151.8674234838 - 0.001200104483 151.8672098762 - 0.001200104483 151.8671899862 - 0.001200104484 151.8671883169 - 0.001200104484 151.8671881724 - 0.001200104485 151.8671882224 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064071 - 0.001800104013 155.2561066165 - 0.001800102973 155.2561268539 - 0.001800003097 155.2580689698 - 0.001790416290 155.4454529529 - 0.001338647237 168.1330161415 - 0.001200122210 175.2228710138 - 0.001200104483 175.2154214679 - 0.001200104482 175.1437276795 - 0.001200104482 174.5700435564 - 0.001200104482 170.7397038014 - 0.001200104482 159.5328116099 - 0.001200104483 152.9917883339 - 0.001200104484 151.9824096660 - 0.001200104485 151.8784060821 - 0.001200104484 151.8682672130 - 0.001200104486 151.8672906897 - 0.001200104483 151.8671974681 - 0.001200104483 151.8671888854 - 0.001200104484 151.8671882138 - 0.001200104484 151.8671881724 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064243 - 0.001800103928 155.2561082679 - 0.001800094759 155.2562865656 - 0.001799208917 155.2735194359 - 0.001718634725 156.9146658603 - 0.001202637032 175.0680094556 - 0.001200104666 175.2226386989 - 0.001200104482 175.2043089476 - 0.001200104482 175.0532256999 - 0.001200104482 173.8841695732 - 0.001200104482 167.3861738169 - 0.001200104482 156.1007114122 - 0.001200104483 152.3758459973 - 0.001200104484 151.9177821686 - 0.001200104485 151.8720945113 - 0.001200104484 151.8676590576 - 0.001200104486 151.8672328498 - 0.001200104483 151.8671921003 - 0.001200104483 151.8671884058 - 0.001200104484 151.8671881750 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064067 - 0.001800104015 155.2561065759 - 0.001800103174 155.2561229431 - 0.001800021864 155.2577040338 - 0.001792131133 155.4117932346 - 0.001373117581 166.7332809516 - 0.001200131027 175.2227966965 - 0.001200104484 175.2198123372 - 0.001200104482 175.1808262580 - 0.001200104482 174.8647912920 - 0.001200104482 172.5637098680 - 0.001200104482 163.0799433061 - 0.001200104482 153.9679226564 - 0.001200104483 152.0931760472 - 0.001200104484 151.8893600269 - 0.001200104485 151.8693331329 - 0.001200104484 151.8673935700 - 0.001200104486 151.8672076806 - 0.001200104483 151.8671897761 - 0.001200104483 151.8671882007 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064206 - 0.001800103946 155.2561079115 - 0.001800096487 155.2562529649 - 0.001799369045 155.2704031656 - 0.001731811425 156.6355674158 - 0.001203844359 174.9938142036 - 0.001200104758 175.2237125465 - 0.001200104482 175.2137763655 - 0.001200104482 175.1314210392 - 0.001200104482 174.4776735302 - 0.001200104482 170.2287216769 - 0.001200104482 158.8264506674 - 0.001200104482 152.8450713504 - 0.001200104483 151.9667706313 - 0.001200104484 151.8768951943 - 0.001200104485 151.8681255971 - 0.001200104484 151.8672777024 - 0.001200104486 151.8671967355 - 0.001200104483 151.8671887713 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064064 - 0.001800104017 155.2561065432 - 0.001800103333 155.2561198504 - 0.001800036634 155.2574168209 - 0.001793501638 155.3849369050 - 0.001409696365 165.3648945311 - 0.001200143855 175.2222541002 - 0.001200104485 175.2221899936 - 0.001200104482 175.2010064164 - 0.001200104482 175.0279915027 - 0.001200104482 173.7028271681 - 0.001200104482 166.6610742739 - 0.001200104482 155.6255711685 - 0.001200104482 152.3076648158 - 0.001200104483 151.9109071140 - 0.001200104484 151.8714357521 - 0.001200104485 151.8675978530 - 0.001200104484 151.8672271615 - 0.001200104486 151.8671919797 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104024 155.2561064176 - 0.001800103961 155.2561076291 - 0.001800097848 155.2562265070 - 0.001799496543 155.2679222878 - 0.001742787606 156.4064707469 - 0.001205599028 174.8863843375 - 0.001200104891 175.2242871905 - 0.001200104482 175.2189123722 - 0.001200104482 175.1740940804 - 0.001200104482 174.8131573201 - 0.001200104482 172.2286947844 - 0.001200104482 162.2767864782 - 0.001200104482 153.7056460372 - 0.001200104482 152.0625297333 - 0.001200104483 151.8863491597 - 0.001200104484 151.8690461976 - 0.001200104486 151.8673671872 - 0.001200104484 151.8672051278 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064061 - 0.001800104018 155.2561065173 - 0.001800103458 155.2561174135 - 0.001800048377 155.2571884531 - 0.001794616648 155.3631163308 - 0.001447633688 164.0560253878 - 0.001200162697 175.2212200483 - 0.001200104486 175.2234771917 - 0.001200104482 175.2119718914 - 0.001200104482 175.1175795310 - 0.001200104482 174.3734783567 - 0.001200104482 169.6767680137 - 0.001200104482 158.1563214723 - 0.001200104482 152.7164762824 - 0.001200104482 151.9532050896 - 0.001200104483 151.8755791236 - 0.001200104484 151.8680007042 - 0.001200104486 151.8672664148 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064152 - 0.001800103972 155.2561074064 - 0.001800098928 155.2562054903 - 0.001799599848 155.2659124039 - 0.001752064803 156.2151546606 - 0.001208180413 174.7293476945 - 0.001200105087 175.2245896870 - 0.001200104482 175.2216977690 - 0.001200104482 175.1973292852 - 0.001200104482 174.9994716378 - 0.001200104482 173.4995843292 - 0.001200104482 165.9078425851 - 0.001200104482 155.1929570218 - 0.001200104482 152.2483536655 - 0.001200104482 151.9049440810 - 0.001200104483 151.8708611000 - 0.001200104484 151.8675434887 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064059 - 0.001800104020 155.2561064968 - 0.001800103558 155.2561154102 - 0.001800057872 155.2570038350 - 0.001795540608 155.3450542821 - 0.001486238388 162.8241228578 - 0.001200190848 175.2195443261 - 0.001200104488 175.2241738524 - 0.001200104482 175.2179267709 - 0.001200104482 175.1665257490 - 0.001200104482 174.7547229918 - 0.001200104482 171.8588167862 - 0.001200104483 161.4828299901 - 0.001200104483 153.4730668820 - 0.001200104482 152.0359562776 - 0.001200104483 151.8837364654 - 0.001200104483 151.8687954399 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064134 - 0.001800103982 155.2561072297 - 0.001800099801 155.2561885329 - 0.001799685117 155.2642536000 - 0.001760003258 156.0530829607 - 0.001212030339 174.4974271678 - 0.001200105379 175.2247413079 - 0.001200104482 175.2232080520 - 0.001200104482 175.2099650562 - 0.001200104482 175.1019303503 - 0.001200104482 174.2558691636 - 0.001200104482 169.0838890375 - 0.001200104483 157.5259027238 - 0.001200104483 152.6040368252 - 0.001200104482 151.9414560381 - 0.001200104483 151.8744362006 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064057 - 0.001800104020 155.2561064805 - 0.001800103638 155.2561138642 - 0.001800065689 155.2568518285 - 0.001796318298 155.3298653907 - 0.001524787315 161.6814415489 - 0.001200233811 175.2169145727 - 0.001200104491 175.2245507490 - 0.001200104482 175.2211594993 - 0.001200104482 175.1931981599 - 0.001200104482 174.9671434441 - 0.001200104482 173.2720710124 - 0.001200104483 165.1317956445 - 0.001200104483 154.8014414834 - 0.001200104484 152.1968382577 - 0.001200104482 151.8997804910 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064119 - 0.001800103989 155.2561070877 - 0.001800100517 155.2561746028 - 0.001799756644 155.2628622245 - 0.001766847742 155.9145267744 - 0.001217824454 174.1534929967 - 0.001200105826 175.2248050748 - 0.001200104482 175.2240268194 - 0.001200104482 175.2168319616 - 0.001200104482 175.1579698418 - 0.001200104482 174.6885074999 - 0.001200104482 171.4518738346 - 0.001200104484 160.7051833393 - 0.001200104484 153.2675679012 - 0.001200104484 152.0129419624 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064056 - 0.001800104021 155.2561064674 - 0.001800103703 155.2561125970 - 0.001800072232 155.2567246024 - 0.001796979769 155.3169562518 - 0.001562424808 160.6393329055 - 0.001200300754 175.2127774605 - 0.001200104496 175.2247544784 - 0.001200104482 175.2229140859 - 0.001200104482 175.2077121847 - 0.001200104482 175.0841791158 - 0.001200104482 174.1231414371 - 0.001200104482 168.4510287987 - 0.001200104484 156.9376097920 - 0.001200104484 152.5059230287 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064107 - 0.001800103995 155.2561069715 - 0.001800101115 155.2561629685 - 0.001799817326 155.2616819059 - 0.001772751523 155.7958731106 - 0.001226509343 173.6491386206 - 0.001200106522 175.2248111994 - 0.001200104482 175.2244706231 - 0.001200104482 175.2205623460 - 0.001200104482 175.1885295496 - 0.001200104482 174.9304353462 - 0.001200104482 173.0178621596 - 0.001200104482 164.3391085705 - 0.001200104484 154.4490731065 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064055 - 0.001800104022 155.2561064568 - 0.001800103758 155.2561115409 - 0.001800077773 155.2566168463 - 0.001797544166 155.3059487825 - 0.001598099180 159.7104978565 - 0.001200406512 175.2062214354 - 0.001200104503 175.2248643960 - 0.001200104482 175.2238662535 - 0.001200104482 175.2156039689 - 0.001200104482 175.1482628750 - 0.001200104482 174.6134377190 - 0.001200104482 171.0059957383 - 0.001200104483 159.9504907077 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064097 - 0.001800104000 155.2561068749 - 0.001800101621 155.2561531305 - 0.001799869022 155.2606764327 - 0.001777798054 155.6950676523 - 0.001239191175 172.9357285948 - 0.001200107622 175.2247694715 - 0.001200104482 175.2247111571 - 0.001200104482 175.2225883799 - 0.001200104482 175.2051674158 - 0.001200104482 175.0640027190 - 0.001200104482 173.9734641979 - 0.001200104482 167.7801035632 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064054 - 0.001800104022 155.2561064479 - 0.001800103804 155.2561106494 - 0.001800082490 155.2565251220 - 0.001798022696 155.2966211593 - 0.001630640353 158.9075634938 - 0.001200573536 175.1958599887 - 0.001200104515 175.2249234009 - 0.001200104482 175.2243829222 - 0.001200104482 175.2198931393 - 0.001200104482 175.1832333591 - 0.001200104482 174.8887158220 - 0.001200104482 172.7345053196 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064089 - 0.001800104004 155.2561067934 - 0.001800102052 155.2561447631 - 0.001799912840 155.2598242427 - 0.001782029227 155.6109820999 - 0.001256781432 171.9887991496 - 0.001200109361 175.2246757279 - 0.001200104483 175.2248415248 - 0.001200104482 175.2236886077 - 0.001200104482 175.2142176304 - 0.001200104482 175.1372251753 - 0.001200104482 174.5283343986 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064053 - 0.001800104022 155.2561064405 - 0.001800103844 155.2561098918 - 0.001800086490 155.2564473559 - 0.001798421728 155.2888467341 - 0.001659067475 158.2371828884 - 0.001200832848 175.1797780618 - 0.001200104533 175.2249545388 - 0.001200104482 175.2246632754 - 0.001200104482 175.2222237324 - 0.001200104482 175.2022812854 - 0.001200104482 175.0410425171 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064082 - 0.001800104008 155.2561067243 - 0.001800102416 155.2561376674 - 0.001799949416 155.2591129009 - 0.001785485819 155.5425788901 - 0.001279574851 170.8295974979 - 0.001200112065 175.2245153916 - 0.001200104483 175.2249121267 - 0.001200104482 175.2242860467 - 0.001200104482 175.2191381165 - 0.001200104482 175.1772105413 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064342 - 0.001800103877 155.2561092493 - 0.001800089833 155.2563823420 - 0.001798746686 155.2825179644 - 0.001682970291 157.6938795556 - 0.001201224553 175.1555070874 - 0.001200104561 175.2249702620 - 0.001200104482 175.2248153445 - 0.001200104482 175.2234899390 - 0.001200104482 175.2126458800 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064076 - 0.001800104011 155.2561066657 - 0.001800102722 155.2561317268 - 0.001799979268 155.2585323673 - 0.001788243454 155.4881919939 - 0.001307149249 169.5196244255 - 0.001200116161 175.2242650515 - 0.001200104483 175.2249503825 - 0.001200104482 175.2246103987 - 0.001200104482 175.2218126122 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064052 - 0.001800104023 155.2561064288 - 0.001800103905 155.2561087107 - 0.001800092569 155.2563291470 - 0.001799005440 155.2774801087 - 0.001702604468 157.2604661282 - 0.001201801206 175.1198287885 - 0.001200104603 175.2249770534 - 0.001200104482 175.2248978563 - 0.001200104482 175.2241777617 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064071 - 0.001800104013 155.2561066165 - 0.001800102973 155.2561268543 - 0.001800003096 155.2580689900 - 0.001790416234 155.4454541008 - 0.001338647124 168.1330728902 - 0.001200122212 175.2238912651 - 0.001200104483 175.2249710910 - 0.001200104482 175.2247865136 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064243 - 0.001800103928 155.2561082679 - 0.001800094759 155.2562865676 - 0.001799208911 155.2735195495 - 0.001718634473 156.9146724362 - 0.001202637060 175.0682266467 - 0.001200104666 175.2249782497 - 0.001200104482 175.2249426168 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064067 - 0.001800104015 155.2561065759 - 0.001800103174 155.2561229433 - 0.001800021863 155.2577040451 - 0.001792131101 155.4117938951 - 0.001373117355 166.7333142247 - 0.001200131028 175.2233446141 - 0.001200104484 175.2249822914 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104023 155.2561064206 - 0.001800103946 155.2561079115 - 0.001800096487 155.2562529660 - 0.001799369042 155.2704032308 - 0.001731811254 156.6355715294 - 0.001203844375 174.9939290888 - 0.001200104758 175.2249753186 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064064 - 0.001800104017 155.2561065432 - 0.001800103333 155.2561198505 - 0.001800036633 155.2574168274 - 0.001793501618 155.3849373162 - 0.001409696073 165.3649163384 - 0.001200143856 175.2225481318 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064051 - 0.001800104024 155.2561064176 - 0.001800103961 155.2561076291 - 0.001800097848 155.2562265076 - 0.001799496541 155.2679223281 - 0.001742787484 156.4064735145 - 0.001205599030 174.8864452920 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064061 - 0.001800104018 155.2561065173 - 0.001800103458 155.2561174136 - 0.001800048377 155.2571884570 - 0.001794616635 155.3631166036 - 0.001447633351 164.0560417531 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064152 - 0.001800103972 155.2561074064 - 0.001800098928 155.2562054907 - 0.001799599847 155.2659124303 - 0.001752064707 156.2151567331 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064059 - 0.001800104020 155.2561064968 - 0.001800103558 155.2561154103 - 0.001800057872 155.2570038375 - 0.001795540598 155.3450544841 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064134 - 0.001800103982 155.2561072297 - 0.001800099801 155.2561885332 - 0.001799685116 155.2642536194 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064057 - 0.001800104020 155.2561064805 - 0.001800103638 155.2561138642 - 0.001800065689 155.2568518304 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064119 - 0.001800103989 155.2561070877 - 0.001800100517 155.2561746030 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064056 - 0.001800104021 155.2561064674 - 0.001800103703 155.2561125970 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064107 - 0.001800103995 155.2561069715 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064055 - 0.001800104022 155.2561064568 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064097 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064054 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064050 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 - 0.001800104024 155.2561064049 + 0.001800104024 155.2561083855 + 0.001200104502 145.9127047221 + 0.001200104502 145.9127047221 + 0.001306823510 159.0742936860 + 0.001200099538 145.9113077286 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001200099538 145.9113075225 + 0.001747520540 156.0590663522 + 0.001200459225 156.1961316270 + 0.001200099540 145.9113077258 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001200099538 145.9113076310 + 0.001796296858 155.3259248901 + 0.001358683781 162.2352126231 + 0.001200105027 153.6494631262 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001200099539 145.9113076298 + 0.001799802413 155.2618974056 + 0.001746192623 156.2245786689 + 0.001201290295 161.4403191664 + 0.001200104483 152.5642328451 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800079433 155.2565851968 + 0.001795514420 155.3435447090 + 0.001404181181 163.2683030537 + 0.001200107270 156.8205923593 + 0.001200104482 152.1339397010 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800102006 155.2561476088 + 0.001799708465 155.2637645585 + 0.001749814287 156.2139659366 + 0.001203025083 166.2890205471 + 0.001200104487 154.1273068631 + 0.001200104482 151.9683916600 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800103858 155.2561115866 + 0.001800069738 155.2567743916 + 0.001795572821 155.3435616103 + 0.001446337643 163.0945917378 + 0.001200115351 161.0509229419 + 0.001200104482 152.8280944367 + 0.001200104482 151.9054563806 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104011 155.2561086487 + 0.001800101054 155.2561661211 + 0.001799701124 155.2639283470 + 0.001755468941 156.1255596191 + 0.001205912015 169.7831501715 + 0.001200104507 156.7982203972 + 0.001200104482 152.2615796046 + 0.001200104483 151.8816403256 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104023 155.2561084071 + 0.001800103768 155.2561133389 + 0.001800068202 155.2568046558 + 0.001795990330 155.3359073354 + 0.001486646860 162.3780795164 + 0.001200136451 165.4351962012 + 0.001200104482 154.2094798758 + 0.001200104482 152.0263371338 + 0.001200104483 151.8726435738 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083872 + 0.001800104002 155.2561088127 + 0.001800100844 155.2561702266 + 0.001799732851 155.2633203229 + 0.001761672837 156.0108298108 + 0.001210212324 171.8298401637 + 0.001200104593 160.4810141509 + 0.001200104482 152.9012905375 + 0.001200104482 151.9308548929 + 0.001200104483 151.8692472078 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083856 + 0.001800104022 155.2561084222 + 0.001800103742 155.2561138243 + 0.001800070593 155.2567583297 + 0.001796531479 155.3255531673 + 0.001525706805 161.4693387112 + 0.001200178473 169.0776523969 + 0.001200104482 156.5423124152 + 0.001200104482 152.3067880169 + 0.001200104482 151.8925293961 + 0.001200104483 151.8679653651 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083886 + 0.001800103999 155.2561088665 + 0.001800101017 155.2561668643 + 0.001799779205 155.2624225528 + 0.001767686314 155.8941148780 + 0.001216461161 172.7716138643 + 0.001200104854 164.5603319314 + 0.001200104482 154.1228399801 + 0.001200104482 152.0505878924 + 0.001200104482 151.8772401591 + 0.001200104483 151.8674817174 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104022 155.2561084279 + 0.001800103754 155.2561135993 + 0.001800074554 155.2566813652 + 0.001797082883 155.3148824491 + 0.001563353745 160.5352554068 + 0.001200249545 171.6214205739 + 0.001200104483 159.8567183775 + 0.001200104482 152.8813357615 + 0.001200104482 151.9429536592 + 0.001200104482 151.8711649300 + 0.001200104483 151.8672991660 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083892 + 0.001800104000 155.2561088532 + 0.001800101353 155.2561603263 + 0.001799828159 155.2614720139 + 0.001773185089 155.7857156636 + 0.001225545854 172.9518273532 + 0.001200105446 168.2209759964 + 0.001200104482 156.1915294477 + 0.001200104482 152.3066977214 + 0.001200104482 151.8983057900 + 0.001200104482 151.8687580096 + 0.001200104483 151.8672302723 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104022 155.2561084274 + 0.001800103782 155.2561130535 + 0.001800078886 155.2565971701 + 0.001797595430 155.3049242603 + 0.001598855811 159.6577754597 + 0.001200361957 173.1970249725 + 0.001200104487 163.7257315753 + 0.001200104482 153.9612724455 + 0.001200104482 152.0542029030 + 0.001200104482 151.8799166402 + 0.001200104482 151.8678067294 + 0.001200104484 151.8672042737 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083892 + 0.001800104002 155.2561088078 + 0.001800101735 155.2561528975 + 0.001799874352 155.2605742644 + 0.001778028195 155.6898653180 + 0.001238555570 172.5901863462 + 0.001200106546 170.9666584875 + 0.001200104482 159.2169234808 + 0.001200104482 152.8165225994 + 0.001200104482 151.9460059825 + 0.001200104482 151.8723779316 + 0.001200104482 151.8674316074 + 0.001200104484 151.8671944628 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104022 155.2561084236 + 0.001800103816 155.2561124056 + 0.001800083035 155.2565165102 + 0.001798048912 155.2961008422 + 0.001631182982 158.8802820243 + 0.001200536246 174.1006207593 + 0.001200104495 167.4124197906 + 0.001200104482 155.8068249057 + 0.001200104482 152.2830936446 + 0.001200104482 151.9002187935 + 0.001200104482 151.8692983590 + 0.001200104483 151.8672839177 + 0.001200104484 151.8671907606 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083889 + 0.001800104005 155.2561087511 + 0.001800102107 155.2561456652 + 0.001799915534 155.2597736152 + 0.001782152971 155.6082694818 + 0.001256395558 171.8196456491 + 0.001200108363 172.7696636538 + 0.001200104482 162.9125930431 + 0.001200104482 153.7701487846 + 0.001200104482 152.0463298839 + 0.001200104482 151.8809763477 + 0.001200104482 151.8680440975 + 0.001200104483 151.8672258765 + 0.001200104484 151.8671893635 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104023 155.2561084187 + 0.001800103849 155.2561117633 + 0.001800086763 155.2564440221 + 0.001798435396 155.2885776685 + 0.001659418091 158.2230417070 + 0.001200802496 174.5913841456 + 0.001200104512 170.3360159029 + 0.001200104482 158.5818007232 + 0.001200104482 152.7323547074 + 0.001200104482 151.9436742127 + 0.001200104482 151.8729259004 + 0.001200104482 151.8675347241 + 0.001200104483 151.8672031037 + 0.001200104484 151.8671888363 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083885 + 0.001800104008 155.2561086937 + 0.001800102444 155.2561391101 + 0.001799950807 155.2590877417 + 0.001785551888 155.5411652955 + 0.001279360830 170.7474300798 + 0.001200111189 173.8547519109 + 0.001200104482 166.6208818879 + 0.001200104482 155.4188724911 + 0.001200104482 152.2484987386 + 0.001200104482 151.8996778734 + 0.001200104482 151.8695693680 + 0.001200104483 151.8673282820 + 0.001200104483 151.8671941818 + 0.001200104484 151.8671886373 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084136 + 0.001800103880 155.2561111758 + 0.001800089973 155.2563815978 + 0.001798753829 155.2823788115 + 0.001683177503 157.6866612639 + 0.001201200419 174.8420836089 + 0.001200104541 172.3431623233 + 0.001200104482 162.1142977935 + 0.001200104484 153.5729024577 + 0.001200104482 152.0326947514 + 0.001200104482 151.8809408637 + 0.001200104482 151.8681739581 + 0.001200104483 151.8672448163 + 0.001200104483 151.8671906911 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083880 + 0.001800104011 155.2561086407 + 0.001800102736 155.2561334333 + 0.001799979991 155.2585202525 + 0.001788277942 155.4874675298 + 0.001307040908 169.4799351444 + 0.001200115421 174.4743769416 + 0.001200104482 169.7078444639 + 0.001200104482 157.9640820150 + 0.001200104484 152.6425704737 + 0.001200104482 151.9384661177 + 0.001200104482 151.8729934084 + 0.001200104482 151.8675953752 + 0.001200104483 151.8672111451 + 0.001200104483 151.8671893271 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084088 + 0.001800103906 155.2561106638 + 0.001800092641 155.2563297171 + 0.001799009124 155.2774094961 + 0.001702718689 157.2568610091 + 0.001201782399 174.9538177277 + 0.001200104585 173.5907554600 + 0.001200104482 165.8301091335 + 0.001200104482 155.0442080745 + 0.001200104484 152.2099934558 + 0.001200104482 151.8977480642 + 0.001200104482 151.8696326797 + 0.001200104482 151.8673560925 + 0.001200104483 151.8671975895 + 0.001200104483 151.8671888124 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083876 + 0.001800104013 155.2561085942 + 0.001800102980 155.2561286935 + 0.001800003469 155.2580637114 + 0.001790433754 155.4450914536 + 0.001338597465 168.1139983060 + 0.001200121607 174.8177160273 + 0.001200104483 171.9117005591 + 0.001200104482 161.3308733766 + 0.001200104483 153.3818516004 + 0.001200104484 152.0167058158 + 0.001200104482 151.8802510463 + 0.001200104482 151.8682152263 + 0.001200104482 151.8672573467 + 0.001200104483 151.8671921537 + 0.001200104483 151.8671886182 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084046 + 0.001800103928 155.2561102344 + 0.001800094796 155.2562878216 + 0.001799210773 155.2734849241 + 0.001718694452 156.9129063600 + 0.001202622645 174.9806957579 + 0.001200104651 174.3194414841 + 0.001200104482 169.0658047651 + 0.001200104482 157.3725682355 + 0.001200104483 152.5545018543 + 0.001200104484 151.9319572789 + 0.001200104482 151.8727586433 + 0.001200104482 151.8676188075 + 0.001200104482 151.8672166978 + 0.001200104483 151.8671899815 + 0.001200104483 151.8671885449 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083872 + 0.001800104015 155.2561085551 + 0.001800103177 155.2561248511 + 0.001800022052 155.2577023507 + 0.001792139794 155.4116164369 + 0.001373097598 166.7241857279 + 0.001200130545 175.0046529764 + 0.001200104484 173.3208041450 + 0.001200104482 165.0336102650 + 0.001200104482 154.6918274590 + 0.001200104483 152.1714763857 + 0.001200104484 151.8951378651 + 0.001200104482 151.8695586542 + 0.001200104482 151.8673684510 + 0.001200104482 151.8672000057 + 0.001200104483 151.8671891161 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104023 155.2561084010 + 0.001800103947 155.2561098848 + 0.001800096506 155.2562545776 + 0.001799369963 155.2703871074 + 0.001731841823 156.6347176477 + 0.001203833465 174.9479792244 + 0.001200104745 174.7298055228 + 0.001200104482 171.4625643617 + 0.001200104482 160.5656719592 + 0.001200104482 153.2032694623 + 0.001200104483 152.0003107549 + 0.001200104484 151.8792187409 + 0.001200104482 151.8681949788 + 0.001200104482 151.8672635726 + 0.001200104482 151.8671931680 + 0.001200104483 151.8671887724 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083869 + 0.001800104017 155.2561085230 + 0.001800103335 155.2561217940 + 0.001800036727 155.2574169815 + 0.001793505863 155.3848522269 + 0.001409690389 165.3605561582 + 0.001200143475 175.1052030852 + 0.001200104485 174.1597756139 + 0.001200104482 168.4008654191 + 0.001200104482 156.8134022899 + 0.001200104482 152.4718880663 + 0.001200104483 151.9250842482 + 0.001200104484 151.8723563886 + 0.001200104482 151.8676150373 + 0.001200104482 151.8672197364 + 0.001200104482 151.8671903736 + 0.001200104483 151.8671886427 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083981 + 0.001800103961 155.2561096060 + 0.001800097857 155.2562283040 + 0.001799496991 155.2679154848 + 0.001742802834 156.4060632802 + 0.001205590853 174.8624391974 + 0.001200104881 174.9561901721 + 0.001200104482 173.0364894389 + 0.001200104482 164.2306352453 + 0.001200104482 154.3663123004 + 0.001200104483 152.1349915923 + 0.001200104483 151.8922858176 + 0.001200104484 151.8694046049 + 0.001200104482 151.8673689134 + 0.001200104482 151.8672014542 + 0.001200104482 151.8671892384 + 0.001200104483 151.8671885937 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083866 + 0.001800104018 155.2561084974 + 0.001800103459 155.2561193755 + 0.001800048423 155.2571895433 + 0.001794618691 155.3630766129 + 0.001447633707 164.0539532911 + 0.001200162399 175.1585398308 + 0.001200104486 174.6383743025 + 0.001200104482 170.9871224219 + 0.001200104482 159.8235023793 + 0.001200104482 153.0400027379 + 0.001200104483 151.9845678656 + 0.001200104483 151.8780450193 + 0.001200104484 151.8681372594 + 0.001200104482 151.8672646426 + 0.001200104482 151.8671938483 + 0.001200104482 151.8671887795 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083957 + 0.001800103972 155.2561093851 + 0.001800098933 155.2562073807 + 0.001799600064 155.2659101449 + 0.001752072406 156.2149594947 + 0.001208174326 174.7169110126 + 0.001200105079 175.0796586278 + 0.001200104482 173.9905723486 + 0.001200104482 167.7087821326 + 0.001200104482 156.2906531187 + 0.001200104482 152.3964264247 + 0.001200104483 151.9183754493 + 0.001200104483 151.8718771257 + 0.001200104484 151.8675941716 + 0.001200104482 151.8672205574 + 0.001200104482 151.8671906924 + 0.001200104482 151.8671885949 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083864 + 0.001800104020 155.2561084771 + 0.001800103558 155.2561173817 + 0.001800057894 155.2570053843 + 0.001795541595 155.3450361974 + 0.001486240592 162.8231253705 + 0.001200190615 175.1860209607 + 0.001200104488 174.9047781359 + 0.001200104482 172.7312161097 + 0.001200104482 163.4239344852 + 0.001200104482 154.0695190850 + 0.001200104482 152.1015073693 + 0.001200104483 151.8894489182 + 0.001200104483 151.8692104992 + 0.001200104485 151.8673617320 + 0.001200104482 151.8672019561 + 0.001200104482 151.8671893866 + 0.001200104482 151.8671885252 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083939 + 0.001800103982 155.2561092093 + 0.001800099803 155.2561904696 + 0.001799685221 155.2642535380 + 0.001760007086 156.0529890354 + 0.001212025856 174.4910157110 + 0.001200105373 175.1465691353 + 0.001200104482 174.5412429594 + 0.001200104482 170.4796056548 + 0.001200104482 159.1095142181 + 0.001200104482 152.8929272851 + 0.001200104482 151.9700041841 + 0.001200104483 151.8768524078 + 0.001200104483 151.8680593169 + 0.001200104485 151.8672624272 + 0.001200104482 151.8671941236 + 0.001200104482 151.8671888504 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083862 + 0.001800104020 155.2561084609 + 0.001800103638 155.2561158403 + 0.001800065699 155.2568536009 + 0.001796318779 155.3298576328 + 0.001524789998 161.6809533275 + 0.001200233627 175.1989997189 + 0.001200104491 175.0510488352 + 0.001200104482 173.8074597280 + 0.001200104482 166.9886541006 + 0.001200104482 155.8066866465 + 0.001200104482 152.3286579833 + 0.001200104482 151.9121063967 + 0.001200104483 151.8713783613 + 0.001200104483 151.8675631430 + 0.001200104485 151.8672200751 + 0.001200104482 151.8671908341 + 0.001200104482 151.8671886317 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083924 + 0.001800103989 155.2561090678 + 0.001800100518 155.2561765622 + 0.001799756695 155.2628632146 + 0.001766849707 155.9144811555 + 0.001217821222 174.1502188083 + 0.001200105821 175.1826930745 + 0.001200104482 174.8501463742 + 0.001200104482 172.3998038449 + 0.001200104482 162.6183740573 + 0.001200104485 153.8015879702 + 0.001200104482 152.0713768112 + 0.001200104483 151.8867668939 + 0.001200104483 151.8690029710 + 0.001200104484 151.8673494945 + 0.001200104485 151.8672020446 + 0.001200104482 151.8671894566 + 0.001200104482 151.8671885492 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083861 + 0.001800104021 155.2561084479 + 0.001800103703 155.2561145754 + 0.001800072237 155.2567264821 + 0.001796980008 155.3169534225 + 0.001562427271 160.6390874975 + 0.001200300608 175.2032094882 + 0.001200104496 175.1307564509 + 0.001200104482 174.4357523894 + 0.001200104482 169.9363312519 + 0.001200104482 158.4285150205 + 0.001200104485 152.7617960302 + 0.001200104482 151.9568365494 + 0.001200104483 151.8757099914 + 0.001200104483 151.8679734248 + 0.001200104484 151.8672576376 + 0.001200104485 151.8671943829 + 0.001200104482 151.8671888854 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083912 + 0.001800103995 155.2561089518 + 0.001800101116 155.2561649387 + 0.001799817351 155.2616833989 + 0.001772752561 155.7958507775 + 0.001226507107 173.6474847219 + 0.001200106518 175.2021404743 + 0.001200104482 175.0206675867 + 0.001200104482 173.6067012488 + 0.001200104482 166.2420536104 + 0.001200104482 155.3624658484 + 0.001200104485 152.2684837743 + 0.001200104482 151.9064017924 + 0.001200104483 151.8708935343 + 0.001200104483 151.8675277758 + 0.001200104484 151.8672182026 + 0.001200104485 151.8671911361 + 0.001200104482 151.8671886505 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083860 + 0.001800104022 155.2561084373 + 0.001800103758 155.2561135204 + 0.001800077776 155.2566187773 + 0.001797544287 155.3059483207 + 0.001598101165 159.7103707011 + 0.001200406395 175.2011142072 + 0.001200104503 175.1740128703 + 0.001200104482 174.7907597592 + 0.001200104482 172.0380599201 + 0.001200104484 161.8199960757 + 0.001200104484 153.5615853994 + 0.001200104485 152.0446109576 + 0.001200104482 151.8843077694 + 0.001200104483 151.8687979190 + 0.001200104484 151.8673350179 + 0.001200104484 151.8672012996 + 0.001200104485 151.8671897645 + 0.001200104482 151.8671885618 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001200099539 145.9113076318 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083902 + 0.001800104000 155.2561088553 + 0.001800101621 155.2561551060 + 0.001799869035 155.2606781671 + 0.001777798620 155.6950568080 + 0.001239189741 172.9349013857 + 0.001200107619 175.2125694217 + 0.001200104482 175.1139671564 + 0.001200104482 174.3195173198 + 0.001200104482 169.3552789747 + 0.001200104484 157.7845635073 + 0.001200104484 152.6457448274 + 0.001200104485 151.9451062504 + 0.001200104482 151.8746535177 + 0.001200104483 151.8678869868 + 0.001200104484 151.8672517478 + 0.001200104484 151.8671940671 + 0.001200104485 151.8671891918 + 0.001200104482 151.8671885283 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001200099540 145.9113077258 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083859 + 0.001800104022 155.2561084284 + 0.001800103804 155.2561126294 + 0.001800082492 155.2565270776 + 0.001798022759 155.2966218602 + 0.001630641817 158.9074959501 + 0.001200573443 175.1931358113 + 0.001200104515 175.1974350487 + 0.001200104482 174.9876638278 + 0.001200104482 173.3849563249 + 0.001200104482 165.4724456808 + 0.001200104484 154.9578267667 + 0.001200104484 152.2154664415 + 0.001200104485 151.9012986824 + 0.001200104482 151.8704409196 + 0.001200104483 151.8674914330 + 0.001200104484 151.8672158206 + 0.001200104484 151.8671909812 + 0.001200104485 151.8671889548 + 0.001200104482 151.8671885157 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001200104484 151.8671885623 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083894 + 0.001800104004 155.2561087739 + 0.001800102052 155.2561467411 + 0.001799912846 155.2598260952 + 0.001782029542 155.6109771194 + 0.001256780623 171.9883873105 + 0.001200109358 175.2181120490 + 0.001200104482 175.1647676785 + 0.001200104482 174.7251938218 + 0.001200104482 171.6425475660 + 0.001200104483 161.0353354432 + 0.001200104484 153.3479345835 + 0.001200104484 152.0210382386 + 0.001200104486 151.8820968679 + 0.001200104482 151.8686045059 + 0.001200104483 151.8673197704 + 0.001200104484 151.8672003415 + 0.001200104484 151.8671896691 + 0.001200104485 151.8671888575 + 0.001200104482 151.8671885110 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001200104483 151.8671885173 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104022 155.2561084210 + 0.001800103844 155.2561118721 + 0.001800086490 155.2564493235 + 0.001798421763 155.2888480239 + 0.001659068471 158.2371468142 + 0.001200832775 175.1783265944 + 0.001200104533 175.2101018924 + 0.001200104482 175.0957560991 + 0.001200104482 174.1902996012 + 0.001200104482 168.7358668160 + 0.001200104483 157.1807523813 + 0.001200104484 152.5436024682 + 0.001200104484 151.9347580678 + 0.001200104486 151.8736983316 + 0.001200104482 151.8678045465 + 0.001200104483 151.8672453489 + 0.001200104484 151.8671936834 + 0.001200104484 151.8671891134 + 0.001200104485 151.8671888179 + 0.001200104482 151.8671885092 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001200104483 151.8671885752 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083887 + 0.001800104008 155.2561087048 + 0.001800102417 155.2561396466 + 0.001799949420 155.2591148128 + 0.001785485996 155.5425770390 + 0.001279574490 170.8293914322 + 0.001200112063 175.2209850436 + 0.001200104483 175.1923551260 + 0.001200104482 174.9512172828 + 0.001200104482 173.1391335238 + 0.001200104482 164.6847550603 + 0.001200104483 154.5917267966 + 0.001200104485 152.1690109703 + 0.001200104484 151.8967840438 + 0.001200104486 151.8700292381 + 0.001200104482 151.8674563692 + 0.001200104483 151.8672131186 + 0.001200104484 151.8671908249 + 0.001200104484 151.8671888791 + 0.001200104485 151.8671888179 + 0.001200104482 151.8671885092 + 0.001200104482 151.8671885180 + 0.001200104482 151.8671884989 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104023 155.2561084147 + 0.001800103877 155.2561112297 + 0.001800089834 155.2563843157 + 0.001798746704 155.2825195659 + 0.001682970928 157.6938605202 + 0.001201224496 175.1547350540 + 0.001200104561 175.2169472320 + 0.001200104482 175.1547588277 + 0.001200104482 174.6520789556 + 0.001200104482 171.2104811544 + 0.001200104483 160.2709068155 + 0.001200104483 153.1587008715 + 0.001200104485 152.0004017359 + 0.001200104484 151.8801337859 + 0.001200104486 151.8684275297 + 0.001200104483 151.8673048926 + 0.001200104483 151.8671991762 + 0.001200104484 151.8671896002 + 0.001200104484 151.8671887906 + 0.001200104485 151.8671888018 + 0.001200104482 151.8671885092 + 0.001200104482 151.8671885180 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083881 + 0.001800104011 155.2561086462 + 0.001800102722 155.2561337067 + 0.001799979270 155.2585343103 + 0.001788243553 155.4881918513 + 0.001307149182 169.5195192040 + 0.001200116159 175.2223669808 + 0.001200104483 175.2073153352 + 0.001200104482 175.0756602260 + 0.001200104482 174.0459146377 + 0.001200104482 168.0788342619 + 0.001200104483 156.6191292415 + 0.001200104483 152.4540725966 + 0.001200104485 151.9256909716 + 0.001200104484 151.8728464923 + 0.001200104486 151.8677287277 + 0.001200104483 151.8672390463 + 0.001200104483 151.8671931524 + 0.001200104484 151.8671890830 + 0.001200104484 151.8671887906 + 0.001200104485 151.8671887957 + 0.001200104482 151.8671885092 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084094 + 0.001800103905 155.2561106912 + 0.001800092569 155.2563311238 + 0.001799005450 155.2774818795 + 0.001702604866 157.2604562717 + 0.001201801164 175.1194191177 + 0.001200104603 175.2206443014 + 0.001200104482 175.1868664843 + 0.001200104482 174.9105295767 + 0.001200104482 172.8663118042 + 0.001200104482 163.8849980305 + 0.001200104483 154.2624737220 + 0.001200104484 152.1284644013 + 0.001200104485 151.8928212141 + 0.001200104484 151.8696601486 + 0.001200104486 151.8674240548 + 0.001200104483 151.8672104472 + 0.001200104483 151.8671905572 + 0.001200104484 151.8671888879 + 0.001200104484 151.8671887434 + 0.001200104485 151.8671887934 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083877 + 0.001800104013 155.2561085970 + 0.001800102973 155.2561288344 + 0.001800003097 155.2580709498 + 0.001790416290 155.4454548832 + 0.001338647237 168.1330167642 + 0.001200122210 175.2228714064 + 0.001200104483 175.2154218606 + 0.001200104482 175.1437280727 + 0.001200104482 174.5700439539 + 0.001200104482 170.7397042272 + 0.001200104482 159.5328121208 + 0.001200104483 152.9917888960 + 0.001200104484 151.9824102361 + 0.001200104485 151.8784066530 + 0.001200104484 151.8682677840 + 0.001200104486 151.8672912608 + 0.001200104483 151.8671980391 + 0.001200104483 151.8671894564 + 0.001200104484 151.8671887849 + 0.001200104484 151.8671887434 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084049 + 0.001800103928 155.2561102484 + 0.001800094759 155.2562885460 + 0.001799208917 155.2735214117 + 0.001718634725 156.9146674657 + 0.001202637032 175.0680098522 + 0.001200104666 175.2226390916 + 0.001200104482 175.2043093405 + 0.001200104482 175.0532260938 + 0.001200104482 173.8841699756 + 0.001200104482 167.3861742677 + 0.001200104482 156.1007119498 + 0.001200104483 152.3758465643 + 0.001200104484 151.9177827392 + 0.001200104485 151.8720950823 + 0.001200104484 151.8676596286 + 0.001200104486 151.8672334208 + 0.001200104483 151.8671926713 + 0.001200104483 151.8671889768 + 0.001200104484 151.8671887460 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083872 + 0.001800104015 155.2561085565 + 0.001800103174 155.2561249236 + 0.001800021864 155.2577060139 + 0.001792131133 155.4117951736 + 0.001373117581 166.7332816368 + 0.001200131027 175.2227970892 + 0.001200104484 175.2198127299 + 0.001200104482 175.1808266510 + 0.001200104482 174.8647916873 + 0.001200104482 172.5637102802 + 0.001200104482 163.0799437897 + 0.001200104482 153.9679232108 + 0.001200104483 152.0931766164 + 0.001200104484 151.8893605977 + 0.001200104485 151.8693337039 + 0.001200104484 151.8673941410 + 0.001200104486 151.8672082516 + 0.001200104483 151.8671903471 + 0.001200104483 151.8671887717 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104023 155.2561084012 + 0.001800103946 155.2561098920 + 0.001800096487 155.2562549453 + 0.001799369045 155.2704051423 + 0.001731811425 156.6355690753 + 0.001203844359 174.9938146022 + 0.001200104758 175.2237129392 + 0.001200104482 175.2137767582 + 0.001200104482 175.1314214326 + 0.001200104482 174.4776739283 + 0.001200104482 170.2287221065 + 0.001200104482 158.8264511837 + 0.001200104482 152.8450719136 + 0.001200104483 151.9667712015 + 0.001200104484 151.8768957652 + 0.001200104485 151.8681261681 + 0.001200104484 151.8672782734 + 0.001200104486 151.8671973065 + 0.001200104483 151.8671893423 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083869 + 0.001800104017 155.2561085238 + 0.001800103333 155.2561218309 + 0.001800036634 155.2574188011 + 0.001793501638 155.3849388511 + 0.001409696365 165.3648952861 + 0.001200143855 175.2222544929 + 0.001200104485 175.2221903863 + 0.001200104482 175.2010068093 + 0.001200104482 175.0279918968 + 0.001200104482 173.7028275720 + 0.001200104482 166.6610747302 + 0.001200104482 155.6255717099 + 0.001200104482 152.3076653833 + 0.001200104483 151.9109076847 + 0.001200104484 151.8714363230 + 0.001200104485 151.8675984240 + 0.001200104484 151.8672277325 + 0.001200104486 151.8671925507 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083982 + 0.001800103961 155.2561096096 + 0.001800097848 155.2562284875 + 0.001799496543 155.2679242651 + 0.001742787606 156.4064724531 + 0.001205599028 174.8863847388 + 0.001200104891 175.2242875831 + 0.001200104482 175.2189127649 + 0.001200104482 175.1740944735 + 0.001200104482 174.8131577158 + 0.001200104482 172.2286951991 + 0.001200104482 162.2767869680 + 0.001200104482 153.7056465937 + 0.001200104482 152.0625303028 + 0.001200104483 151.8863497306 + 0.001200104484 151.8690467686 + 0.001200104486 151.8673677582 + 0.001200104484 151.8672056988 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083866 + 0.001800104018 155.2561084978 + 0.001800103458 155.2561193940 + 0.001800048377 155.2571904333 + 0.001794616648 155.3631182826 + 0.001447633688 164.0560262194 + 0.001200162697 175.2212204411 + 0.001200104486 175.2234775844 + 0.001200104482 175.2119722842 + 0.001200104482 175.1175799244 + 0.001200104482 174.3734787556 + 0.001200104482 169.6767684474 + 0.001200104482 158.1563219939 + 0.001200104482 152.7164768467 + 0.001200104482 151.9532056600 + 0.001200104483 151.8755796945 + 0.001200104484 151.8680012753 + 0.001200104486 151.8672669858 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083958 + 0.001800103972 155.2561093869 + 0.001800098928 155.2562074708 + 0.001799599848 155.2659143817 + 0.001752064803 156.2151564076 + 0.001208180413 174.7293480999 + 0.001200105087 175.2245900796 + 0.001200104482 175.2216981617 + 0.001200104482 175.1973296780 + 0.001200104482 174.9994720321 + 0.001200104482 173.4995847345 + 0.001200104482 165.9078430471 + 0.001200104482 155.1929575665 + 0.001200104482 152.2483542335 + 0.001200104482 151.9049446517 + 0.001200104483 151.8708616710 + 0.001200104484 151.8675440597 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083864 + 0.001800104020 155.2561084773 + 0.001800103558 155.2561173907 + 0.001800057872 155.2570058153 + 0.001795540608 155.3450562387 + 0.001486238388 162.8241237727 + 0.001200190848 175.2195447189 + 0.001200104488 175.2241742451 + 0.001200104482 175.2179271636 + 0.001200104482 175.1665261421 + 0.001200104482 174.7547233879 + 0.001200104482 171.8588172036 + 0.001200104483 161.4828304859 + 0.001200104483 153.4730674403 + 0.001200104482 152.0359568472 + 0.001200104483 151.8837370363 + 0.001200104483 151.8687960109 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083939 + 0.001800103982 155.2561092103 + 0.001800099801 155.2561905134 + 0.001799685117 155.2642555784 + 0.001760003258 156.0530847437 + 0.001212030339 174.4974275794 + 0.001200105379 175.2247417006 + 0.001200104482 175.2232084447 + 0.001200104482 175.2099654490 + 0.001200104482 175.1019307439 + 0.001200104482 174.2558695633 + 0.001200104482 169.0838894756 + 0.001200104483 157.5259032502 + 0.001200104483 152.6040373904 + 0.001200104482 151.9414566085 + 0.001200104483 151.8744367716 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083862 + 0.001800104020 155.2561084610 + 0.001800103638 155.2561158447 + 0.001800065689 155.2568538089 + 0.001796318298 155.3298673513 + 0.001524787315 161.6814425534 + 0.001200233811 175.2169149656 + 0.001200104491 175.2245511417 + 0.001200104482 175.2211598920 + 0.001200104482 175.1931985528 + 0.001200104482 174.9671438387 + 0.001200104482 173.2720714194 + 0.001200104483 165.1317961124 + 0.001200104483 154.8014420312 + 0.001200104484 152.1968388261 + 0.001200104482 151.8997810618 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083924 + 0.001800103989 155.2561090682 + 0.001800100517 155.2561765833 + 0.001799756644 155.2628642032 + 0.001766847742 155.9145285892 + 0.001217824454 174.1534934174 + 0.001200105826 175.2248054674 + 0.001200104482 175.2240272121 + 0.001200104482 175.2168323543 + 0.001200104482 175.1579702349 + 0.001200104482 174.6885078965 + 0.001200104482 171.4518742550 + 0.001200104484 160.7051838411 + 0.001200104484 153.2675684611 + 0.001200104484 152.0129425322 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083861 + 0.001800104021 155.2561084480 + 0.001800103703 155.2561145775 + 0.001800072232 155.2567265828 + 0.001796979769 155.3169582159 + 0.001562424808 160.6393340049 + 0.001200300754 175.2127778535 + 0.001200104496 175.2247548710 + 0.001200104482 175.2229144785 + 0.001200104482 175.2077125774 + 0.001200104482 175.0841795095 + 0.001200104482 174.1231418378 + 0.001200104482 168.4510292415 + 0.001200104484 156.9376103230 + 0.001200104484 152.5059235946 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083912 + 0.001800103995 155.2561089520 + 0.001800101115 155.2561649490 + 0.001799817326 155.2616838849 + 0.001772751523 155.7958749534 + 0.001226509343 173.6491390552 + 0.001200106522 175.2248115921 + 0.001200104482 175.2244710158 + 0.001200104482 175.2205627387 + 0.001200104482 175.1885299425 + 0.001200104482 174.9304357410 + 0.001200104482 173.0178625685 + 0.001200104482 164.3391090444 + 0.001200104484 154.4490736570 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083860 + 0.001800104022 155.2561084373 + 0.001800103758 155.2561135215 + 0.001800077773 155.2566188267 + 0.001797544166 155.3059507496 + 0.001598099180 159.7104990538 + 0.001200406512 175.2062218286 + 0.001200104503 175.2248647887 + 0.001200104482 175.2238666462 + 0.001200104482 175.2156043616 + 0.001200104482 175.1482632683 + 0.001200104482 174.6134381161 + 0.001200104482 171.0059961620 + 0.001200104483 159.9504912154 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083902 + 0.001800104000 155.2561088554 + 0.001800101621 155.2561551110 + 0.001799869022 155.2606784120 + 0.001777798054 155.6950695196 + 0.001239191175 172.9357290497 + 0.001200107622 175.2247698641 + 0.001200104482 175.2247115497 + 0.001200104482 175.2225887726 + 0.001200104482 175.2051678086 + 0.001200104482 175.0640031128 + 0.001200104482 173.9734645998 + 0.001200104482 167.7801040111 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083859 + 0.001800104022 155.2561084285 + 0.001800103804 155.2561126299 + 0.001800082490 155.2565271024 + 0.001798022696 155.2966231289 + 0.001630640353 158.9075647883 + 0.001200573536 175.1958603821 + 0.001200104515 175.2249237936 + 0.001200104482 175.2243833149 + 0.001200104482 175.2198935320 + 0.001200104482 175.1832337521 + 0.001200104482 174.8887162171 + 0.001200104482 172.7345057305 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083894 + 0.001800104004 155.2561087740 + 0.001800102052 155.2561467436 + 0.001799912840 155.2598262222 + 0.001782029227 155.6109839880 + 0.001256781432 171.9887996332 + 0.001200109361 175.2246761206 + 0.001200104483 175.2248419175 + 0.001200104482 175.2236890004 + 0.001200104482 175.2142180232 + 0.001200104482 175.1372255686 + 0.001200104482 174.5283347964 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104022 155.2561084210 + 0.001800103844 155.2561118723 + 0.001800086490 155.2564493363 + 0.001798421728 155.2888487057 + 0.001659067475 158.2371842749 + 0.001200832848 175.1797784556 + 0.001200104533 175.2249549315 + 0.001200104482 175.2246636680 + 0.001200104482 175.2222241251 + 0.001200104482 175.2022816782 + 0.001200104482 175.0410429111 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083887 + 0.001800104008 155.2561087048 + 0.001800102416 155.2561396479 + 0.001799949416 155.2591148806 + 0.001785485819 155.5425807954 + 0.001279574851 170.8295980191 + 0.001200112065 175.2245157843 + 0.001200104483 175.2249125194 + 0.001200104482 175.2242864394 + 0.001200104482 175.2191385092 + 0.001200104482 175.1772109343 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083858 + 0.001800104023 155.2561084147 + 0.001800103877 155.2561112298 + 0.001800089833 155.2563843225 + 0.001798746686 155.2825199378 + 0.001682970291 157.6938810254 + 0.001201224553 175.1555074818 + 0.001200104561 175.2249706547 + 0.001200104482 175.2248157372 + 0.001200104482 175.2234903317 + 0.001200104482 175.2126462728 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083881 + 0.001800104011 155.2561086462 + 0.001800102722 155.2561337073 + 0.001799979268 155.2585343472 + 0.001788243454 155.4881939131 + 0.001307149249 169.5196249933 + 0.001200116161 175.2242654441 + 0.001200104483 175.2249507751 + 0.001200104482 175.2246107914 + 0.001200104482 175.2218130049 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084094 + 0.001800103905 155.2561106912 + 0.001800092569 155.2563311274 + 0.001799005440 155.2774820835 + 0.001702604468 157.2604676709 + 0.001201801206 175.1198291838 + 0.001200104603 175.2249774460 + 0.001200104482 175.2248982490 + 0.001200104482 175.2241781544 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083877 + 0.001800104013 155.2561085970 + 0.001800102973 155.2561288348 + 0.001800003096 155.2580709700 + 0.001790416234 155.4454560310 + 0.001338647124 168.1330735129 + 0.001200122212 175.2238916578 + 0.001200104483 175.2249714836 + 0.001200104482 175.2247869063 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083857 + 0.001800104023 155.2561084049 + 0.001800103928 155.2561102484 + 0.001800094759 155.2562885480 + 0.001799208911 155.2735215253 + 0.001718634473 156.9146740416 + 0.001202637060 175.0682270433 + 0.001200104666 175.2249786423 + 0.001200104482 175.2249430094 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083872 + 0.001800104015 155.2561085565 + 0.001800103174 155.2561249238 + 0.001800021863 155.2577060252 + 0.001792131101 155.4117958341 + 0.001373117355 166.7333149100 + 0.001200131028 175.2233450068 + 0.001200104484 175.2249826841 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104023 155.2561084012 + 0.001800103946 155.2561098921 + 0.001800096487 155.2562549465 + 0.001799369042 155.2704052074 + 0.001731811254 156.6355731888 + 0.001203844375 174.9939294874 + 0.001200104758 175.2249757113 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083869 + 0.001800104017 155.2561085238 + 0.001800103333 155.2561218310 + 0.001800036633 155.2574188075 + 0.001793501618 155.3849392623 + 0.001409696073 165.3649170933 + 0.001200143856 175.2225485246 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083982 + 0.001800103961 155.2561096097 + 0.001800097848 155.2562284881 + 0.001799496541 155.2679243054 + 0.001742787484 156.4064752207 + 0.001205599030 174.8864456933 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083866 + 0.001800104018 155.2561084978 + 0.001800103458 155.2561193941 + 0.001800048377 155.2571904373 + 0.001794616635 155.3631185554 + 0.001447633351 164.0560425847 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083856 + 0.001800104024 155.2561083958 + 0.001800103972 155.2561093869 + 0.001800098928 155.2562074712 + 0.001799599847 155.2659144081 + 0.001752064707 156.2151584802 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083864 + 0.001800104020 155.2561084773 + 0.001800103558 155.2561173908 + 0.001800057872 155.2570058178 + 0.001795540598 155.3450564407 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083939 + 0.001800103982 155.2561092103 + 0.001800099801 155.2561905137 + 0.001799685116 155.2642555977 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083862 + 0.001800104020 155.2561084610 + 0.001800103638 155.2561158448 + 0.001800065689 155.2568538107 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083924 + 0.001800103989 155.2561090682 + 0.001800100517 155.2561765835 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083861 + 0.001800104021 155.2561084480 + 0.001800103703 155.2561145776 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083912 + 0.001800103995 155.2561089520 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083860 + 0.001800104022 155.2561084373 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083902 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083859 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 + 0.001800104024 155.2561083855 diff --git a/mytest/exch_kin_related.out b/mytest/exch_kin_related.out index 8b2d6b83..1057b9b2 100644 --- a/mytest/exch_kin_related.out +++ b/mytest/exch_kin_related.out @@ -85,7 +85,7 @@ Initial solution 0. Specific Conductance (µS/cm, 20°C) = 2950 Density (g/cm³) = 0.99994 Volume (L) = 1.00202 - Viscosity (mPa s) = 1.00444 + Viscosity (mPa s) = 1.00439 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.586e-02 Mass of water (kg) = 1.000e+00 @@ -188,7 +188,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 981 Density (g/cm³) = 0.99862 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00436 + Viscosity (mPa s) = 1.00434 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.350e-02 Mass of water (kg) = 1.000e+00 @@ -277,10 +277,10 @@ X 1.000e-01 mol [0.1 (mol MnX2)/(mol kinetic reactant Pyrolusite) pH = 12.031 Charge balance pe = 9.784 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 31447 + Specific Conductance (µS/cm, 20°C) = 31448 Density (g/cm³) = 1.06651 Volume (L) = 1.00864 - Viscosity (mPa s) = 1.11454 + Viscosity (mPa s) = 1.11445 Activity of water = 0.971 Ionic strength (mol/kgw) = 7.719e-01 Mass of water (kg) = 9.999e-01 diff --git a/mytest/exch_kin_related_101.sel b/mytest/exch_kin_related_101.sel index 00cee74e..0fdefb19 100644 --- a/mytest/exch_kin_related_101.sel +++ b/mytest/exch_kin_related_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.045864721837 2950.4341788592 - 0.013500099900 981.5745624908 - 0.771935068916 31447.6467189010 + 0.045864721837 2950.4992950570 + 0.013500099900 981.5953312626 + 0.771935068916 31448.3135386988 diff --git a/mytest/exch_kin_related_pz.out b/mytest/exch_kin_related_pz.out index 0de53730..34c11ef0 100644 --- a/mytest/exch_kin_related_pz.out +++ b/mytest/exch_kin_related_pz.out @@ -73,7 +73,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 981 Density (g/cm³) = 0.99862 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00436 + Viscosity (mPa s) = 1.00434 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.350e-02 Mass of water (kg) = 1.000e+00 @@ -152,10 +152,10 @@ X 5.000e-02 mol [0.1 (mol NaX)/(mol kinetic reactant Halite)] pH = 6.958 Charge balance pe = 8.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 42436 + Specific Conductance (µS/cm, 20°C) = 42439 Density (g/cm³) = 1.01879 Volume (L) = 1.01074 - Viscosity (mPa s) = 1.04570 + Viscosity (mPa s) = 1.04563 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.120e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/exch_kin_related_pz_101.sel b/mytest/exch_kin_related_pz_101.sel index cc543cbb..c32b9018 100644 --- a/mytest/exch_kin_related_pz_101.sel +++ b/mytest/exch_kin_related_pz_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.013500112479 981.5758222115 - 0.511956509675 42436.9368277066 + 0.013500112479 981.5965914020 + 0.511956509675 42439.0684863255 diff --git a/mytest/exch_related_101.sel b/mytest/exch_related_101.sel index d972ea37..b399cf14 100644 --- a/mytest/exch_related_101.sel +++ b/mytest/exch_related_101.sel @@ -1,10 +1,10 @@ Mu SC 0.000000100661 0.0546997340 - 0.000003925598 0.2785379853 - 0.000003925598 0.2785379853 - 0.317290699784 59173.9282185974 - 0.317290699784 59173.9282185974 + 0.000003925598 0.2785379854 + 0.000003925598 0.2785379854 + 0.317290699784 59173.9373989852 + 0.317290699784 59173.9373989852 0.000000100661 0.0546997340 0.000000100645 0.0546913856 0.000000100661 0.0546997187 - 0.000011413704 0.7794630342 + 0.000011413704 0.7794630350 diff --git a/mytest/exch_related_pz_101.sel b/mytest/exch_related_pz_101.sel index fa0f6ffe..da2bc62a 100644 --- a/mytest/exch_related_pz_101.sel +++ b/mytest/exch_related_pz_101.sel @@ -1,10 +1,10 @@ Mu SC 0.000000100645 0.0546913895 - 0.000417047311 38.8489270000 - 0.000417047311 38.8489270024 - 0.259953204624 82717.0895906727 - 0.259953204625 82717.0895906721 + 0.000417047311 38.8489272071 + 0.000417047311 38.8489272095 + 0.259953204624 82717.0985084857 + 0.259953204625 82717.0985084851 0.000000100645 0.0546913895 0.000000100645 0.0546913895 0.000000100645 0.0546913895 - 0.000417047311 38.8489270000 + 0.000417047311 38.8489272071 diff --git a/mytest/f_viscos_101.sel b/mytest/f_viscos_101.sel index 51c98583..0fe4b63c 100644 --- a/mytest/f_viscos_101.sel +++ b/mytest/f_viscos_101.sel @@ -1,2 +1,2 @@ Mu SC - 2.781989560542 279215.2953268072 + 2.781989560542 279215.3489565359 diff --git a/mytest/fiona_101.sel b/mytest/fiona_101.sel index 700ef3a1..a1f03444 100644 --- a/mytest/fiona_101.sel +++ b/mytest/fiona_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.530657355109 48693.7743740276 - 0.530657355092 48693.7743822958 - 0.530657355092 48693.7743822956 - 0.530657355092 48693.7743822939 - 0.530657355092 48693.7743822764 - 0.530657355092 48693.7743821062 - 0.530657355095 48693.7743807241 - 0.530657355104 48693.7743764983 - 0.530657355108 48693.7743743662 - 0.530657355109 48693.7743740634 - 0.530657355109 48693.7743740319 - 0.530657355109 48693.7743740288 + 0.530657355109 48693.7780753815 + 0.530657355092 48693.7780836497 + 0.530657355092 48693.7780836496 + 0.530657355092 48693.7780836478 + 0.530657355092 48693.7780836304 + 0.530657355092 48693.7780834602 + 0.530657355095 48693.7780820781 + 0.530657355104 48693.7780778523 + 0.530657355108 48693.7780757201 + 0.530657355109 48693.7780754174 + 0.530657355109 48693.7780753858 + 0.530657355109 48693.7780753827 diff --git a/mytest/fix_P_101.sel b/mytest/fix_P_101.sel index e5b89907..8d7091f5 100644 --- a/mytest/fix_P_101.sel +++ b/mytest/fix_P_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.013147754784 873.9008619328 - 0.020003396668 1301.4631667243 - 0.231753434828 9647.2844936882 + 0.013147754784 873.9008859524 + 0.020003396668 1301.4632102366 + 0.231753434828 9647.2850616155 diff --git a/mytest/fix_V_101.sel b/mytest/fix_V_101.sel index 6c14497f..f0d52d3e 100644 --- a/mytest/fix_V_101.sel +++ b/mytest/fix_V_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.025872339112 1513.1094673593 - 0.050973776103 2772.4379387045 - 0.050973776026 2772.4379391428 - 0.050262463758 2739.3282380202 + 0.025872339112 1513.1095233203 + 0.050973776103 2772.4380690917 + 0.050973776026 2772.4380695300 + 0.050262463758 2739.3283663214 diff --git a/mytest/fixed_volume_gas_101.sel b/mytest/fixed_volume_gas_101.sel index 3a8e4cbd..72b2286c 100644 --- a/mytest/fixed_volume_gas_101.sel +++ b/mytest/fixed_volume_gas_101.sel @@ -1,6 +1,6 @@ Mu SC 0.000000100661 0.0546997340 - 0.000021994538 8.5963108678 - 0.000021994538 8.5963108678 - 0.005385737757 332.7521703128 - 0.002987454960 188.2206546437 + 0.000021994538 8.5963108743 + 0.000021994538 8.5963108743 + 0.005385737757 332.7521764046 + 0.002987454960 188.2206572377 diff --git a/mytest/fixed_volume_gas_pz_101.sel b/mytest/fixed_volume_gas_pz_101.sel index ef159adf..c2df9af2 100644 --- a/mytest/fixed_volume_gas_pz_101.sel +++ b/mytest/fixed_volume_gas_pz_101.sel @@ -1,6 +1,6 @@ Mu SC 0.000000100645 0.0546913895 - 0.000022261069 8.6997986125 - 0.000022261069 8.6997986084 - 0.005499474993 339.9437789598 - 0.003027272997 191.2101338994 + 0.000022261069 8.6997986216 + 0.000022261069 8.6997986174 + 0.005499474993 339.9437924822 + 0.003027272997 191.2101394984 diff --git a/mytest/fluorite_101.sel b/mytest/fluorite_101.sel index d3959618..946da3db 100644 --- a/mytest/fluorite_101.sel +++ b/mytest/fluorite_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000643842830 43.9369756835 - 0.001152211730 79.4877863864 + 0.000643842830 43.9369759665 + 0.001152211730 79.4877869865 diff --git a/mytest/gas_101.sel b/mytest/gas_101.sel index 58d32e51..47f683ae 100644 --- a/mytest/gas_101.sel +++ b/mytest/gas_101.sel @@ -1,10 +1,10 @@ Mu SC - 0.001552295412 243.3712873643 - 0.017343030952 1276.4810642786 - 0.016904222329 1233.4354674051 - 0.016432762112 1188.4753521098 - 0.015937135061 1142.0499458498 - 0.015423914472 1094.5077875930 - 0.012220663092 798.9587640570 - 0.020098818113 1386.9246696716 - 0.022142332015 1445.6896842673 + 0.001552295412 243.3712875670 + 0.017343030952 1276.4810916476 + 0.016904222329 1233.4354939258 + 0.016432762112 1188.4753777052 + 0.015937135061 1142.0499704659 + 0.015423914472 1094.5078111941 + 0.012220663092 798.9587814526 + 0.020098818113 1386.9246945339 + 0.022142332015 1445.6897165662 diff --git a/mytest/gas_fix_P_101.sel b/mytest/gas_fix_P_101.sel index a016a257..ba416a74 100644 --- a/mytest/gas_fix_P_101.sel +++ b/mytest/gas_fix_P_101.sel @@ -1,4 +1,4 @@ Mu SC 0.000000100644 0.0547821292 - 0.001440589241 401.2157992844 - 0.001441735174 401.3068432712 + 0.001440589241 401.2158013019 + 0.001441735174 401.3068452894 diff --git a/mytest/gas_fix_V_101.sel b/mytest/gas_fix_V_101.sel index 6852d125..53b93a00 100644 --- a/mytest/gas_fix_V_101.sel +++ b/mytest/gas_fix_V_101.sel @@ -1,5 +1,5 @@ Mu SC 0.000000100661 0.0546997340 - 0.696199871768 66147.0830178085 - 0.899951253632 84372.7546689013 - 1.045072333496 97380.7730953557 + 0.696199871768 66147.0832533974 + 0.899951253632 84372.7549739234 + 1.045072333496 97380.7734561154 diff --git a/mytest/gas_mod_101.sel b/mytest/gas_mod_101.sel index a305e0d9..d6231aba 100644 --- a/mytest/gas_mod_101.sel +++ b/mytest/gas_mod_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000385256076 139.1847987710 - 0.000385255815 139.1847182271 + 0.000385256076 139.1847991969 + 0.000385255815 139.1847186531 diff --git a/mytest/gas_phase_mix_101.sel b/mytest/gas_phase_mix_101.sel index 1cbf3100..ae50b6fe 100644 --- a/mytest/gas_phase_mix_101.sel +++ b/mytest/gas_phase_mix_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100661 0.0546997340 - 0.000014638481 5.7238357370 + 0.000014638481 5.7238357405 diff --git a/mytest/get_put__101.sel b/mytest/get_put__101.sel index 844cb0ed..02de442f 100644 --- a/mytest/get_put__101.sel +++ b/mytest/get_put__101.sel @@ -1,2 +1,2 @@ Mu SC - 2.605456805519 125097.8190472905 + 2.605456805519 125097.8379031982 diff --git a/mytest/gfw_101.sel b/mytest/gfw_101.sel index 5d6e4fee..14b727b1 100644 --- a/mytest/gfw_101.sel +++ b/mytest/gfw_101.sel @@ -1,2 +1,2 @@ Mu SC - 1.196797900057 88566.0889081588 + 1.196797900057 88566.0988568917 diff --git a/mytest/gyps_Na2SO4_101.sel b/mytest/gyps_Na2SO4_101.sel index cd5ea27f..55ace23a 100644 --- a/mytest/gyps_Na2SO4_101.sel +++ b/mytest/gyps_Na2SO4_101.sel @@ -1,260 +1,260 @@ Mu SC 0.000000100644 0.0547821166 - 0.060214568777 2826.4184555834 - 0.060362838263 2840.6119164830 - 0.105904724713 5798.1252466627 - 0.398989474936 19092.8253957160 - 0.695964692612 30287.1932238376 - 0.991174685746 40434.6286824878 - 1.284288267767 49809.7990148420 - 1.575248628617 58500.6933772437 - 1.864051224790 66541.1627763985 - 2.150706902170 73948.8776238050 - 2.435232505802 80737.8601284337 - 2.717647761242 86922.6854080963 - 2.997973999597 92519.6824238236 - 3.276233534038 97547.0391657954 - 3.552449304307 102024.5430237541 - 3.826644647454 105973.2414268471 - 4.098843135896 109415.1276691638 - 4.369068455607 112372.8823012171 - 4.637344310661 114869.6703811292 - 4.903694346457 116928.9840953270 - 5.168142087015 118574.5178840371 - 5.430710883327 119830.0643513286 - 5.691423870314 120719.4216640497 - 5.944210967847 121257.1594103483 - 5.944210967885 121257.1594103821 - 5.944210967907 121257.1594104728 - 5.944210967928 121257.1594105600 - 5.944210967948 121257.1594106448 - 5.944210967967 121257.1594107281 - 5.944210967986 121257.1594108111 - 5.944210968005 121257.1594108946 - 5.944210968024 121257.1594109801 - 5.944210968044 121257.1594110686 - 5.944210968063 121257.1594111615 - 5.944210968084 121257.1594112599 - 5.944210968105 121257.1594113654 - 5.944210968129 121257.1594114794 - 5.944210968153 121257.1594116031 - 5.944210968180 121257.1594117384 - 5.944210968209 121257.1594118864 - 5.944210968241 121257.1594120488 - 5.944210968276 121257.1594122270 - 5.857391483257 121440.8351308443 - 0.061794674327 3882.4359757402 - 0.061943597154 3901.6219906404 - 0.107841218513 7884.6967386894 - 0.402067524704 25563.2026558691 - 0.699589538542 40323.1065774284 - 0.995181195615 53678.8282579895 - 1.288592158621 66032.0940197194 - 1.579797179530 77516.2531701920 - 1.868809195846 88184.1767122865 - 2.155650796263 98063.0437712899 - 2.440347627636 107172.9985898552 - 2.722926419533 115533.7403697692 - 3.003414246953 123166.6311343095 - 3.281838192068 130095.0814780591 - 3.558225158840 136344.3048207237 - 3.832601757689 141940.8864493886 - 4.104994228367 146912.3469558985 - 4.375428386854 151286.7651147745 - 4.643929588962 155092.4758468956 - 4.910522706226 158357.8385338002 - 5.175232111142 161111.0637121514 - 5.438081669601 163380.0848388347 - 5.615928665815 164661.5839397438 - 5.615928665809 164661.5839395240 - 5.615928665796 164661.5839422024 - 5.615928665937 164661.5839443945 - 5.615928666082 164661.5839466391 - 5.615928666230 164661.5839489368 - 5.615928666381 164661.5839512880 - 5.615928666536 164661.5839536932 - 5.615928666695 164661.5839561525 - 5.615928666857 164661.5839586665 - 5.615928667023 164661.5839612357 - 5.918236737516 166447.5230721675 - 6.420521237054 168194.1639260509 - 6.926432935964 168543.4147140783 - 7.435150014139 167620.3696350752 - 7.946075808063 165561.5945805340 - 8.458766484662 162510.2243228852 - 8.972884944450 158611.7479717981 - 9.488170542588 154010.2387901332 - 10.004418644697 148844.9967885315 - 10.211983542627 146701.7312636063 - 0.060802676948 4876.9264437734 - 0.060952079836 4901.5376686803 - 0.107534994416 10016.7068801201 - 0.403521205986 32392.2173041527 - 0.701837437918 50938.5381221573 - 0.998007889904 67717.9288024040 - 1.291894021982 83270.1633802287 - 1.583510610464 97775.0453064392 - 1.872890964063 111303.3919151741 - 2.160070349196 123890.3994957689 - 2.445083362892 135560.9170794582 - 2.727963571019 146338.5667100080 - 3.008743525365 156248.7882828773 - 3.287454818809 165319.4990235612 - 3.564128126141 173580.8432893602 - 3.838793231354 181064.6487057853 - 4.111479048539 187803.8453511601 - 4.382213641499 193831.9479446895 - 4.639324066419 198962.6359067376 - 4.639324066413 198962.6359062577 - 4.639324066398 198962.6359134958 - 4.639324066611 198962.6359205852 - 4.639324066828 198962.6359278310 - 4.639324067050 198962.6359352338 - 4.639324067277 198962.6359427953 - 4.639324067509 198962.6359505161 - 4.639324067745 198962.6359583976 - 4.639324067987 198962.6359664408 - 4.639324068234 198962.6359746467 - 4.639324068485 198962.6359830162 - 4.639324068742 198962.6359915502 - 4.881850009501 203386.4083328705 - 5.381206451623 210926.2577996826 - 5.885527651847 216538.0435785033 - 6.393468783712 220321.9720353116 - 6.904117984656 222401.2575701405 - 7.416836521745 222913.0087248794 - 7.931164505743 222002.5225929626 - 8.446763030953 219819.3733689252 - 8.963377387908 216514.4298306939 - 9.480812923005 212237.3562437048 - 9.564188669669 211467.7799870724 - 9.543556812665 211753.3791532628 - 0.057713699742 5708.4822647633 - 0.057863503747 5738.8593868165 - 0.105427550128 12084.4484237638 - 0.403612209311 39424.8953116346 - 0.702922134753 61998.2476162674 - 0.999849171604 82473.1003668580 - 1.294380557099 101517.8891585130 - 1.586573958003 119348.4258392503 - 1.876483447922 136045.7950709750 - 2.164156661267 151647.9995752678 - 2.449636648895 166181.1918692022 - 2.732963324764 179670.7818617605 - 3.014174313799 192145.0277296485 - 3.293305428253 203635.6997064304 - 3.570390940806 214177.6430785210 - 3.845463749856 223807.9988183854 - 3.859330644974 224271.7997335714 - 3.859330645184 224271.7997483144 - 3.859330645471 224271.7997634186 - 3.859330645765 224271.7997788296 - 3.859330646064 224271.7997945505 - 3.859330646370 224271.7998105827 - 3.859330646682 224271.7998269293 - 3.859330646999 224271.7998435917 - 3.859330647323 224271.7998605725 - 3.859330647653 224271.7998778736 - 3.859330647990 224271.7998954967 - 3.859330648332 224271.7999134441 - 3.859330648681 224271.7999317173 - 3.859330649037 224271.7999503181 - 4.348261840246 239633.7722056567 - 4.848537004847 252709.1245295172 - 5.354031430761 263404.3122793366 - 5.863200899438 271813.0341462846 - 6.375042600234 278063.2853397230 - 6.888878940445 282301.3486900124 - 7.404236769569 284682.6314993222 - 7.920776582124 285366.2781226474 - 8.438249221566 284511.8866769101 - 8.956468400804 282277.3855984853 - 9.160587261061 281053.5336124483 - 9.160587261070 281053.5336133449 - 9.140146066244 281302.1629885648 - 0.030838388197 4005.2955326229 - 0.030961869636 4036.9402200373 - 0.074688795625 11160.3329051301 - 0.336970302307 40932.1389616927 - 0.600343134235 65369.5096396086 - 0.863503612099 87746.4761568064 - 1.126476360666 108852.9289239940 - 1.389291198409 128935.9748472573 - 1.651969295744 148073.5344221662 - 1.914525917193 166284.7679684549 - 2.176972840549 183569.8076397388 - 2.439319788624 199925.3127203024 - 2.701575228253 215350.5366230693 - 2.963746813068 229849.3800543858 - 3.225841630021 243430.7023748012 - 3.487866337724 256107.9002409779 - 3.749827244972 267898.2183575869 - 4.011730356274 278822.0077847285 - 4.273581399414 288902.0283332420 - 4.535385843266 298162.8336901032 - 4.569136991631 299298.5264776194 - 4.569136992575 299298.5264779500 - 4.569136992571 299298.5264777278 - 4.569136992568 299298.5264775117 - 4.569136992565 299298.5264772959 - 4.569136992561 299298.5264770691 - 4.569136992558 299298.5264768619 - 4.569136992555 299298.5264766518 - 4.569136992551 299298.5264764265 - 4.569136992548 299298.5264762123 - 4.569136992544 299298.5264759889 - 4.824856096065 307562.7846445824 - 5.334849144103 321848.9459267131 - 5.847501668421 333448.0182530553 - 6.362096002113 342525.4758958577 - 6.878146784991 349259.7876982375 - 7.395314776241 353833.3466544928 - 7.913356493492 356427.3139889832 - 8.432093447511 357218.7331130256 - 8.951392616840 356378.9576118474 - 8.963319535381 356341.8449658828 - 8.963319536072 356341.8449608646 - 8.944076250563 356532.1113786082 - 0.021066197926 3323.1054115721 - 0.021204732934 3365.3010317721 - 0.074543525484 13215.6370582736 - 0.375640227850 51994.6766793711 - 0.676653086511 84076.4992722947 - 0.977387232588 113796.6542713683 - 1.277920963384 141956.9445222585 - 1.578294853025 168729.9062271173 - 1.878533125518 194129.3362311802 - 2.178652350929 218133.3180152961 - 2.478665285608 240721.5419364031 - 2.778582662500 261886.0016979777 - 3.078414056299 281632.5734320874 - 3.378168310869 299979.5047342260 - 3.677853752963 316955.0523135860 - 3.977478300058 332595.1104358210 - 4.277049515970 346941.1238719589 - 4.424461442574 353539.8598078783 - 4.424461442560 353539.8598876619 - 4.424461443501 353539.8599693236 - 4.424461444442 353539.8600509849 - 4.424461445383 353539.8601326465 - 4.424461446324 353539.8602143076 - 4.424461447265 353539.8602959693 - 4.424461448206 353539.8603776308 - 4.424461449147 353539.8604592921 - 4.424461450088 353539.8605409537 - 4.424461451029 353539.8606226147 - 4.424461451970 353539.8607042765 - 4.424461452911 353539.8607859380 - 4.893672665519 372729.0605602024 - 5.481498775682 392755.8154947670 - 6.071580296635 408740.9659453634 - 6.663272889969 421011.8748596497 - 7.256155717805 429899.7766442039 - 7.849943396373 435727.0440490670 - 8.444437049295 438800.9960975822 - 8.908822739275 439474.2946786900 - 8.908822739352 439474.2946789985 - 8.908822739372 439474.2946798119 - 8.908822739393 439474.2946806253 - 8.908822739413 439474.2946814386 - 8.890820652257 439609.4960305172 + 0.060214568777 2826.4187474203 + 0.060362838263 2840.6122092534 + 0.105904724713 5798.1258709579 + 0.398989474936 19092.8288039518 + 0.695964692612 30287.1999366564 + 0.991174685746 40434.6388592644 + 1.284288267767 49809.8126524295 + 1.575248628617 58500.7103641506 + 1.864051224790 66541.1829250543 + 2.150706902170 73948.9006940499 + 2.435232505802 80737.8858455173 + 2.717647761242 86922.7134766028 + 2.997973999597 92519.7125384249 + 3.276233534038 97547.0710195078 + 3.552449304307 102024.5763142355 + 3.826644647454 105973.2758611591 + 4.098843135896 109415.1629673315 + 4.369068455607 112372.9181988455 + 4.637344310661 114869.7066312730 + 4.903694346457 116929.0204697640 + 5.168142087015 118574.5541740577 + 5.430710883327 119830.1003681271 + 5.691423870314 120719.4572387834 + 5.944210967847 121257.1944094489 + 5.944210967885 121257.1944094827 + 5.944210967907 121257.1944095734 + 5.944210967928 121257.1944096606 + 5.944210967948 121257.1944097454 + 5.944210967967 121257.1944098288 + 5.944210967986 121257.1944099117 + 5.944210968005 121257.1944099952 + 5.944210968024 121257.1944100807 + 5.944210968044 121257.1944101692 + 5.944210968063 121257.1944102621 + 5.944210968084 121257.1944103605 + 5.944210968105 121257.1944104660 + 5.944210968129 121257.1944105800 + 5.944210968153 121257.1944107037 + 5.944210968180 121257.1944108390 + 5.944210968209 121257.1944109870 + 5.944210968241 121257.1944111494 + 5.944210968276 121257.1944113276 + 5.857391483257 121440.8702331522 + 0.061794674327 3881.6328984545 + 0.061943597154 3900.8163725617 + 0.107841218513 7882.9962128498 + 0.402067524704 25554.1130142157 + 0.699589538542 40305.3375597737 + 0.995181195615 53651.9838169804 + 1.288592158621 65996.1696792496 + 1.579797179530 77471.5062120567 + 1.868809195846 88131.0497994393 + 2.155650796263 98002.1090395525 + 2.440347627636 107104.9144356626 + 2.722926419533 115459.2177757312 + 3.003414246953 123086.4075652634 + 3.281838192068 130009.9008399026 + 3.558225158840 136254.9022536477 + 3.832601757689 141847.9769489196 + 4.104994228367 146816.6170052538 + 4.375428386854 151188.8666749246 + 4.643929588962 154993.0221875870 + 4.910522706226 158257.4015012813 + 5.175232111142 161010.1721199313 + 5.438081669601 163279.2237394281 + 5.615928665815 164560.9986103085 + 5.615928665809 164560.9986100891 + 5.615928665796 164560.9986127643 + 5.615928665937 164560.9986149538 + 5.615928666082 164560.9986171959 + 5.615928666230 164560.9986194910 + 5.615928666381 164560.9986218394 + 5.615928666536 164560.9986242419 + 5.615928666695 164560.9986266984 + 5.615928666857 164560.9986292096 + 5.615928667023 164560.9986317758 + 5.918236737516 166347.8749544063 + 6.420521237054 168097.1532716613 + 6.926432935964 168450.2016258768 + 7.435150014139 167531.8748554763 + 7.946075808063 165478.5009449368 + 8.458766484662 162432.9888714698 + 8.972884944450 158540.6220220188 + 9.488170542588 153945.2935388384 + 10.004418644697 148786.1521679960 + 10.211983542627 146645.3240730314 + 0.060802676948 4874.8110282939 + 0.060952079836 4899.4154051547 + 0.107534994416 10012.1468231195 + 0.403521205986 32367.7855659452 + 0.701837437918 50890.9395135278 + 0.998007889904 67646.1228473400 + 1.291894021982 83174.0830856639 + 1.583510610464 97655.2799516847 + 1.872890964063 111161.0007196765 + 2.160070349196 123726.7738236007 + 2.445083362892 135377.6728146099 + 2.727963571019 146137.4596856105 + 3.008743525365 156031.6483400348 + 3.287454818809 165088.1792223822 + 3.564128126141 173337.1813570381 + 3.838793231354 180810.4382712612 + 4.111479048539 187540.8149331269 + 4.382213641499 193561.7460309115 + 4.639324066419 198687.0346927515 + 4.639324066413 198687.0346922728 + 4.639324066398 198687.0346994912 + 4.639324066611 198687.0347065623 + 4.639324066828 198687.0347137894 + 4.639324067050 198687.0347211731 + 4.639324067277 198687.0347287150 + 4.639324067509 198687.0347364159 + 4.639324067745 198687.0347442770 + 4.639324067987 198687.0347522993 + 4.639324068234 198687.0347604840 + 4.639324068485 198687.0347688319 + 4.639324068742 198687.0347773439 + 4.881850009501 203106.9876338255 + 5.381206451623 210642.4299817469 + 5.885527651847 216254.0502555372 + 6.393468783712 220041.5992282878 + 6.904117984656 222127.7705065235 + 7.416836521745 222649.1260439446 + 7.931164505743 221750.4177040925 + 8.446763030953 219580.6951854904 + 8.963377387908 216290.3375829362 + 9.480812923005 212028.5643959119 + 9.564188669669 211261.4911213539 + 9.543556812665 211546.5962657402 + 0.057713699742 5704.6593055045 + 0.057863503747 5735.0233842725 + 0.105427550128 12075.8433572162 + 0.403612209311 39377.7514079993 + 0.702922134753 61906.3003456677 + 0.999849171604 82334.2300390292 + 1.294380557099 101331.7826011029 + 1.586573958003 119116.0074018263 + 1.876483447922 135768.8862698980 + 2.164156661267 151329.0631873008 + 2.449636648895 165823.1299474806 + 2.732963324764 179276.7759876548 + 3.014174313799 191718.4139574345 + 3.293305428253 203179.8720255817 + 3.570390940806 213695.9800754068 + 3.845463749856 223303.8089895167 + 3.859330644974 223766.5560434462 + 3.859330645184 223766.5560581273 + 3.859330645471 223766.5560731686 + 3.859330645765 223766.5560885155 + 3.859330646064 223766.5561041711 + 3.859330646370 223766.5561201366 + 3.859330646682 223766.5561364153 + 3.859330646999 223766.5561530084 + 3.859330647323 223766.5561699186 + 3.859330647653 223766.5561871477 + 3.859330647990 223766.5562046976 + 3.859330648332 223766.5562225703 + 3.859330648681 223766.5562407675 + 3.859330649037 223766.5562592910 + 4.348261840246 239096.5204766312 + 4.848537004847 252148.6479739732 + 5.354031430761 262829.4021906559 + 5.863200899438 271231.8630982566 + 6.375042600234 277483.2139424864 + 6.888878940445 281728.8318193880 + 7.404236769569 284123.1875531317 + 7.920776582124 284824.4988714918 + 8.438249221566 283991.4736795682 + 8.956468400804 281781.2042354525 + 9.160587261061 280567.5034694153 + 9.160587261070 280567.5034703085 + 9.140146066244 280815.3507259244 + 0.030838388197 4002.5225209580 + 0.030961869636 4034.1541718308 + 0.074688795625 11151.2257085428 + 0.336970302307 40869.3625263242 + 0.600343134235 65242.5496940077 + 0.863503612099 87550.6472432539 + 1.126476360666 108585.9967817009 + 1.389291198409 128597.4551913568 + 1.651969295744 147664.3128988164 + 1.914525917193 165806.8113240009 + 2.176972840549 183025.9231376278 + 2.439319788624 199318.9445234172 + 2.701575228253 214685.5942627595 + 2.963746813068 229130.0953441688 + 3.225841630021 242661.5113378700 + 3.487866337724 255293.3467363117 + 3.749827244972 267042.8762847013 + 4.011730356274 277930.4190180514 + 4.273581399414 287978.6538480875 + 4.535385843266 297212.0156619680 + 4.569136991631 298344.4788223313 + 4.569136992575 298344.4788226743 + 4.569136992571 298344.4788224532 + 4.569136992568 298344.4788222385 + 4.569136992565 298344.4788220240 + 4.569136992561 298344.4788217983 + 4.569136992558 298344.4788215924 + 4.569136992555 298344.4788213836 + 4.569136992551 298344.4788211596 + 4.569136992548 298344.4788209466 + 4.569136992544 298344.4788207244 + 4.824856096065 306586.6056226119 + 5.334849144103 320839.8640225274 + 5.847501668421 332419.7456521717 + 6.362096002113 341490.4084943025 + 6.878146784991 348228.8904773768 + 7.395314776241 352816.1304161465 + 7.913356493492 355431.8684173892 + 8.432093447511 356251.7939949343 + 8.951392616840 355445.9941863905 + 8.963319535381 355409.7162665594 + 8.963319536072 355409.7162615727 + 8.944076250563 355599.0265595194 + 0.021066197926 3320.5938876761 + 0.021204732934 3362.7710993539 + 0.074543525484 13201.8523983244 + 0.375640227850 51885.2047085309 + 0.676653086511 83851.2562276327 + 0.977387232588 113446.3710407737 + 1.277920963384 141477.6063516591 + 1.578294853025 168121.3609779188 + 1.878533125518 193394.3787892109 + 2.178652350929 217276.9570073751 + 2.478665285608 239750.3983825278 + 2.778582662500 260807.8200699036 + 3.078414056299 280455.8294561986 + 3.378168310869 298713.0950531589 + 3.677853752963 315608.0522006890 + 3.977478300058 331176.5872846286 + 4.277049515970 345459.9958883167 + 4.424461442574 352031.1219996447 + 4.424461442560 352031.1220787975 + 4.424461443501 352031.1221598365 + 4.424461444442 352031.1222408748 + 4.424461445383 352031.1223219136 + 4.424461446324 352031.1224029517 + 4.424461447265 352031.1224839905 + 4.424461448206 352031.1225650291 + 4.424461449147 352031.1226460675 + 4.424461450088 352031.1227271061 + 4.424461451029 352031.1228081443 + 4.424461451970 352031.1228891832 + 4.424461452911 352031.1229702217 + 4.893672665519 371146.2038054686 + 5.481498775682 391107.3304450262 + 6.071580296635 407054.0013954670 + 6.663272889969 419310.4324466251 + 7.256155717805 428204.6038084142 + 7.849943396373 434055.7179431492 + 8.444437049295 437168.1109545630 + 8.908822739275 437879.7755902265 + 8.908822739352 437879.7755905337 + 8.908822739372 437879.7755913416 + 8.908822739393 437879.7755921494 + 8.908822739413 437879.7755929570 + 8.890820652257 438013.9236825369 diff --git a/mytest/gyps_NaCl.out b/mytest/gyps_NaCl.out index c34dcf26..03763e1d 100644 --- a/mytest/gyps_NaCl.out +++ b/mytest/gyps_NaCl.out @@ -152,7 +152,7 @@ Halite Element not present. 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 0°C) = 1270 Density (g/cm³) = 1.00174 Volume (L) = 1.00048 - Viscosity (mPa s) = 1.78092 + Viscosity (mPa s) = 1.78045 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.162e-02 Mass of water (kg) = 1.000e+00 @@ -235,10 +235,10 @@ Halite -5.10 -3.59 1.50 0.000e+00 0 0.000e+00 pH = 7.489 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 2581 + Specific Conductance (µS/cm, 0°C) = 2582 Density (g/cm³) = 1.00288 Volume (L) = 1.00081 - Viscosity (mPa s) = 1.77988 + Viscosity (mPa s) = 1.77951 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.856e-02 Mass of water (kg) = 1.001e+00 @@ -333,7 +333,7 @@ Halite -4.52 -3.01 1.50 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 0°C) = 3772 Density (g/cm³) = 1.00397 Volume (L) = 1.00113 - Viscosity (mPa s) = 1.78203 + Viscosity (mPa s) = 1.78166 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.042e-01 Mass of water (kg) = 1.001e+00 @@ -425,10 +425,10 @@ Halite -4.18 -2.68 1.50 0.000e+00 0 0.000e+00 pH = 7.484 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 4915 + Specific Conductance (µS/cm, 0°C) = 4916 Density (g/cm³) = 1.00503 Volume (L) = 1.00145 - Viscosity (mPa s) = 1.78460 + Viscosity (mPa s) = 1.78422 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.291e-01 Mass of water (kg) = 1.001e+00 @@ -520,10 +520,10 @@ Halite -3.95 -2.44 1.50 0.000e+00 0 0.000e+00 pH = 7.481 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 6028 + Specific Conductance (µS/cm, 0°C) = 6029 Density (g/cm³) = 1.00606 Volume (L) = 1.00177 - Viscosity (mPa s) = 1.78730 + Viscosity (mPa s) = 1.78690 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.535e-01 Mass of water (kg) = 1.001e+00 @@ -615,10 +615,10 @@ Halite -3.76 -2.26 1.50 0.000e+00 0 0.000e+00 pH = 7.478 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 7117 + Specific Conductance (µS/cm, 0°C) = 7118 Density (g/cm³) = 1.00709 Volume (L) = 1.00209 - Viscosity (mPa s) = 1.79003 + Viscosity (mPa s) = 1.78962 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.776e-01 Mass of water (kg) = 1.001e+00 @@ -710,10 +710,10 @@ Halite -3.21 -1.70 1.50 0.000e+00 0 0.000e+00 pH = 7.463 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 12326 + Specific Conductance (µS/cm, 0°C) = 12329 Density (g/cm³) = 1.01204 Volume (L) = 1.00369 - Viscosity (mPa s) = 1.80376 + Viscosity (mPa s) = 1.80327 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.948e-01 Mass of water (kg) = 1.001e+00 @@ -805,10 +805,10 @@ Halite -2.65 -1.15 1.50 0.000e+00 0 0.000e+00 pH = 7.436 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 22025 + Specific Conductance (µS/cm, 0°C) = 22031 Density (g/cm³) = 1.02150 Volume (L) = 1.00696 - Viscosity (mPa s) = 1.83156 + Viscosity (mPa s) = 1.83094 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.209e-01 Mass of water (kg) = 1.001e+00 @@ -900,10 +900,10 @@ Halite -2.33 -0.82 1.50 0.000e+00 0 0.000e+00 pH = 7.411 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 31087 + Specific Conductance (µS/cm, 0°C) = 31096 Density (g/cm³) = 1.03058 Volume (L) = 1.01030 - Viscosity (mPa s) = 1.86052 + Viscosity (mPa s) = 1.85980 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.415e-01 Mass of water (kg) = 1.001e+00 @@ -995,10 +995,10 @@ Halite -2.09 -0.59 1.50 0.000e+00 0 0.000e+00 pH = 7.387 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 39641 + Specific Conductance (µS/cm, 0°C) = 39654 Density (g/cm³) = 1.03937 Volume (L) = 1.01373 - Viscosity (mPa s) = 1.89105 + Viscosity (mPa s) = 1.89024 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.585e-01 Mass of water (kg) = 1.001e+00 @@ -1090,10 +1090,10 @@ Halite -1.91 -0.41 1.50 0.000e+00 0 0.000e+00 pH = 7.364 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 47738 + Specific Conductance (µS/cm, 0°C) = 47755 Density (g/cm³) = 1.04792 Volume (L) = 1.01722 - Viscosity (mPa s) = 1.92337 + Viscosity (mPa s) = 1.92248 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.173e+00 Mass of water (kg) = 1.002e+00 @@ -1185,10 +1185,10 @@ Halite -1.57 -0.07 1.50 0.000e+00 0 0.000e+00 pH = 7.310 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 66130 + Specific Conductance (µS/cm, 0°C) = 66156 Density (g/cm³) = 1.06840 Volume (L) = 1.02621 - Viscosity (mPa s) = 2.01261 + Viscosity (mPa s) = 2.01155 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.700e+00 Mass of water (kg) = 1.002e+00 @@ -1280,10 +1280,10 @@ Halite -1.31 0.19 1.50 0.000e+00 0 0.000e+00 pH = 7.257 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 82030 + Specific Conductance (µS/cm, 0°C) = 82065 Density (g/cm³) = 1.08776 Volume (L) = 1.03553 - Viscosity (mPa s) = 2.11459 + Viscosity (mPa s) = 2.11340 Activity of water = 0.932 Ionic strength (mol/kgw) = 2.217e+00 Mass of water (kg) = 1.002e+00 @@ -1375,10 +1375,10 @@ Halite -1.10 0.40 1.50 0.000e+00 0 0.000e+00 pH = 7.206 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 95595 + Specific Conductance (µS/cm, 0°C) = 95637 Density (g/cm³) = 1.10614 Volume (L) = 1.04514 - Viscosity (mPa s) = 2.22983 + Viscosity (mPa s) = 2.22851 Activity of water = 0.914 Ionic strength (mol/kgw) = 2.726e+00 Mass of water (kg) = 1.002e+00 @@ -1470,10 +1470,10 @@ Halite -0.92 0.59 1.50 0.000e+00 0 0.000e+00 pH = 7.157 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 106987 + Specific Conductance (µS/cm, 0°C) = 107035 Density (g/cm³) = 1.12363 Volume (L) = 1.05501 - Viscosity (mPa s) = 2.35865 + Viscosity (mPa s) = 2.35723 Activity of water = 0.895 Ionic strength (mol/kgw) = 3.228e+00 Mass of water (kg) = 1.002e+00 @@ -1565,10 +1565,10 @@ Halite -0.75 0.75 1.50 0.000e+00 0 0.000e+00 pH = 7.108 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 116386 + Specific Conductance (µS/cm, 0°C) = 116439 Density (g/cm³) = 1.14032 Volume (L) = 1.06514 - Viscosity (mPa s) = 2.50136 + Viscosity (mPa s) = 2.49984 Activity of water = 0.875 Ionic strength (mol/kgw) = 3.726e+00 Mass of water (kg) = 1.002e+00 @@ -1660,10 +1660,10 @@ Halite -0.59 0.91 1.50 0.000e+00 0 0.000e+00 pH = 7.060 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 123981 + Specific Conductance (µS/cm, 0°C) = 124037 Density (g/cm³) = 1.15628 Volume (L) = 1.07551 - Viscosity (mPa s) = 2.65818 + Viscosity (mPa s) = 2.65657 Activity of water = 0.854 Ionic strength (mol/kgw) = 4.219e+00 Mass of water (kg) = 1.002e+00 @@ -1755,10 +1755,10 @@ Halite -0.45 1.06 1.50 0.000e+00 0 0.000e+00 pH = 7.013 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 129962 + Specific Conductance (µS/cm, 0°C) = 130020 Density (g/cm³) = 1.17155 Volume (L) = 1.08612 - Viscosity (mPa s) = 2.82937 + Viscosity (mPa s) = 2.82767 Activity of water = 0.832 Ionic strength (mol/kgw) = 4.710e+00 Mass of water (kg) = 1.002e+00 @@ -1850,10 +1850,10 @@ Halite -0.30 1.20 1.50 0.000e+00 0 0.000e+00 pH = 6.967 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 134516 + Specific Conductance (µS/cm, 0°C) = 134575 Density (g/cm³) = 1.18620 Volume (L) = 1.09696 - Viscosity (mPa s) = 3.01512 + Viscosity (mPa s) = 3.01334 Activity of water = 0.809 Ionic strength (mol/kgw) = 5.199e+00 Mass of water (kg) = 1.002e+00 @@ -1945,10 +1945,10 @@ Halite -0.17 1.34 1.50 0.000e+00 0 0.000e+00 pH = 6.921 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 137822 + Specific Conductance (µS/cm, 0°C) = 137880 Density (g/cm³) = 1.20024 Volume (L) = 1.10804 - Viscosity (mPa s) = 3.21564 + Viscosity (mPa s) = 3.21379 Activity of water = 0.785 Ionic strength (mol/kgw) = 5.687e+00 Mass of water (kg) = 1.002e+00 @@ -2040,10 +2040,10 @@ Halite -0.03 1.47 1.50 0.000e+00 0 0.000e+00 pH = 6.877 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 140043 + Specific Conductance (µS/cm, 0°C) = 140101 Density (g/cm³) = 1.21373 Volume (L) = 1.11934 - Viscosity (mPa s) = 3.43111 + Viscosity (mPa s) = 3.42919 Activity of water = 0.760 Ionic strength (mol/kgw) = 6.174e+00 Mass of water (kg) = 1.002e+00 @@ -2135,10 +2135,10 @@ Halite 0.00 1.50 1.50 0.000e+00 3.913e-01 3.913e-01 pH = 6.867 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 140398 + Specific Conductance (µS/cm, 0°C) = 140455 Density (g/cm³) = 1.21659 Volume (L) = 1.12183 - Viscosity (mPa s) = 3.47997 + Viscosity (mPa s) = 3.47803 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.280e+00 Mass of water (kg) = 1.002e+00 @@ -2230,10 +2230,10 @@ Halite 0.00 1.50 1.50 3.913e-01 8.913e-01 5.000e-01 pH = 6.867 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 140398 + Specific Conductance (µS/cm, 0°C) = 140455 Density (g/cm³) = 1.21659 Volume (L) = 1.12183 - Viscosity (mPa s) = 3.47997 + Viscosity (mPa s) = 3.47803 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.280e+00 Mass of water (kg) = 1.002e+00 @@ -2351,7 +2351,7 @@ Halite Element not present. 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 15°C) = 2145 Density (g/cm³) = 1.00111 Volume (L) = 1.00137 - Viscosity (mPa s) = 1.15295 + Viscosity (mPa s) = 1.15281 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.760e-02 Mass of water (kg) = 1.001e+00 @@ -2438,7 +2438,7 @@ Halite -5.15 -3.60 1.56 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 15°C) = 4138 Density (g/cm³) = 1.00220 Volume (L) = 1.00176 - Viscosity (mPa s) = 1.15249 + Viscosity (mPa s) = 1.15238 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.480e-02 Mass of water (kg) = 1.001e+00 @@ -2531,10 +2531,10 @@ Halite -4.57 -3.02 1.56 0.000e+00 0 0.000e+00 pH = 7.215 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 5927 + Specific Conductance (µS/cm, 15°C) = 5928 Density (g/cm³) = 1.00324 Volume (L) = 1.00214 - Viscosity (mPa s) = 1.15419 + Viscosity (mPa s) = 1.15408 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.107e-01 Mass of water (kg) = 1.001e+00 @@ -2627,10 +2627,10 @@ Halite -4.24 -2.68 1.56 0.000e+00 0 0.000e+00 pH = 7.212 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 7636 + Specific Conductance (µS/cm, 15°C) = 7637 Density (g/cm³) = 1.00425 Volume (L) = 1.00251 - Viscosity (mPa s) = 1.15622 + Viscosity (mPa s) = 1.15611 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.357e-01 Mass of water (kg) = 1.001e+00 @@ -2723,10 +2723,10 @@ Halite -4.00 -2.45 1.56 0.000e+00 0 0.000e+00 pH = 7.210 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 9294 + Specific Conductance (µS/cm, 15°C) = 9295 Density (g/cm³) = 1.00523 Volume (L) = 1.00289 - Viscosity (mPa s) = 1.15833 + Viscosity (mPa s) = 1.15822 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.603e-01 Mass of water (kg) = 1.001e+00 @@ -2819,10 +2819,10 @@ Halite -3.82 -2.26 1.56 0.000e+00 0 0.000e+00 pH = 7.207 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10913 + Specific Conductance (µS/cm, 15°C) = 10914 Density (g/cm³) = 1.00621 Volume (L) = 1.00326 - Viscosity (mPa s) = 1.16047 + Viscosity (mPa s) = 1.16035 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.845e-01 Mass of water (kg) = 1.001e+00 @@ -2915,10 +2915,10 @@ Halite -3.26 -1.70 1.56 0.000e+00 0 0.000e+00 pH = 7.193 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 18619 + Specific Conductance (µS/cm, 15°C) = 18621 Density (g/cm³) = 1.01090 Volume (L) = 1.00513 - Viscosity (mPa s) = 1.17118 + Viscosity (mPa s) = 1.17104 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.021e-01 Mass of water (kg) = 1.001e+00 @@ -3011,10 +3011,10 @@ Halite -2.70 -1.14 1.56 0.000e+00 0 0.000e+00 pH = 7.167 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 32854 + Specific Conductance (µS/cm, 15°C) = 32858 Density (g/cm³) = 1.01985 Volume (L) = 1.00890 - Viscosity (mPa s) = 1.19257 + Viscosity (mPa s) = 1.19239 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.282e-01 Mass of water (kg) = 1.001e+00 @@ -3107,10 +3107,10 @@ Halite -2.37 -0.81 1.56 0.000e+00 0 0.000e+00 pH = 7.142 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 46054 + Specific Conductance (µS/cm, 15°C) = 46060 Density (g/cm³) = 1.02841 Volume (L) = 1.01272 - Viscosity (mPa s) = 1.21443 + Viscosity (mPa s) = 1.21422 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.483e-01 Mass of water (kg) = 1.001e+00 @@ -3203,10 +3203,10 @@ Halite -2.13 -0.57 1.56 0.000e+00 0 0.000e+00 pH = 7.120 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 58439 + Specific Conductance (µS/cm, 15°C) = 58448 Density (g/cm³) = 1.03671 Volume (L) = 1.01658 - Viscosity (mPa s) = 1.23705 + Viscosity (mPa s) = 1.23682 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.646e-01 Mass of water (kg) = 1.001e+00 @@ -3299,10 +3299,10 @@ Halite -1.94 -0.39 1.56 0.000e+00 0 0.000e+00 pH = 7.097 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 70103 + Specific Conductance (µS/cm, 15°C) = 70114 Density (g/cm³) = 1.04478 Volume (L) = 1.02050 - Viscosity (mPa s) = 1.26061 + Viscosity (mPa s) = 1.26036 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.178e+00 Mass of water (kg) = 1.002e+00 @@ -3395,10 +3395,10 @@ Halite -1.59 -0.03 1.56 0.000e+00 0 0.000e+00 pH = 7.045 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 96406 + Specific Conductance (µS/cm, 15°C) = 96422 Density (g/cm³) = 1.06412 Volume (L) = 1.03046 - Viscosity (mPa s) = 1.32409 + Viscosity (mPa s) = 1.32379 Activity of water = 0.949 Ionic strength (mol/kgw) = 1.703e+00 Mass of water (kg) = 1.002e+00 @@ -3491,10 +3491,10 @@ Halite -1.32 0.23 1.56 0.000e+00 0 0.000e+00 pH = 6.994 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 118979 + Specific Conductance (µS/cm, 15°C) = 119001 Density (g/cm³) = 1.08245 Volume (L) = 1.04063 - Viscosity (mPa s) = 1.39465 + Viscosity (mPa s) = 1.39431 Activity of water = 0.931 Ionic strength (mol/kgw) = 2.217e+00 Mass of water (kg) = 1.002e+00 @@ -3587,10 +3587,10 @@ Halite -1.11 0.45 1.56 0.000e+00 0 0.000e+00 pH = 6.945 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 138160 + Specific Conductance (µS/cm, 15°C) = 138186 Density (g/cm³) = 1.09991 Volume (L) = 1.05101 - Viscosity (mPa s) = 1.47268 + Viscosity (mPa s) = 1.47231 Activity of water = 0.912 Ionic strength (mol/kgw) = 2.724e+00 Mass of water (kg) = 1.002e+00 @@ -3683,10 +3683,10 @@ Halite -0.92 0.64 1.56 0.000e+00 0 0.000e+00 pH = 6.897 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 154251 + Specific Conductance (µS/cm, 15°C) = 154281 Density (g/cm³) = 1.11660 Volume (L) = 1.06156 - Viscosity (mPa s) = 1.55848 + Viscosity (mPa s) = 1.55807 Activity of water = 0.893 Ionic strength (mol/kgw) = 3.226e+00 Mass of water (kg) = 1.002e+00 @@ -3779,10 +3779,10 @@ Halite -0.74 0.81 1.56 0.000e+00 0 0.000e+00 pH = 6.850 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 167550 + Specific Conductance (µS/cm, 15°C) = 167583 Density (g/cm³) = 1.13261 Volume (L) = 1.07229 - Viscosity (mPa s) = 1.65226 + Viscosity (mPa s) = 1.65182 Activity of water = 0.872 Ionic strength (mol/kgw) = 3.723e+00 Mass of water (kg) = 1.002e+00 @@ -3875,10 +3875,10 @@ Halite -0.58 0.97 1.56 0.000e+00 0 0.000e+00 pH = 6.803 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 178347 + Specific Conductance (µS/cm, 15°C) = 178381 Density (g/cm³) = 1.14798 Volume (L) = 1.08318 - Viscosity (mPa s) = 1.75421 + Viscosity (mPa s) = 1.75374 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.217e+00 Mass of water (kg) = 1.002e+00 @@ -3971,10 +3971,10 @@ Halite -0.44 1.12 1.56 0.000e+00 0 0.000e+00 pH = 6.758 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 186920 + Specific Conductance (µS/cm, 15°C) = 186956 Density (g/cm³) = 1.16279 Volume (L) = 1.09423 - Viscosity (mPa s) = 1.86449 + Viscosity (mPa s) = 1.86401 Activity of water = 0.829 Ionic strength (mol/kgw) = 4.708e+00 Mass of water (kg) = 1.002e+00 @@ -4067,10 +4067,10 @@ Halite -0.29 1.26 1.56 0.000e+00 0 0.000e+00 pH = 6.713 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 193535 + Specific Conductance (µS/cm, 15°C) = 193572 Density (g/cm³) = 1.17706 Volume (L) = 1.10545 - Viscosity (mPa s) = 1.98326 + Viscosity (mPa s) = 1.98275 Activity of water = 0.806 Ionic strength (mol/kgw) = 5.198e+00 Mass of water (kg) = 1.002e+00 @@ -4163,10 +4163,10 @@ Halite -0.16 1.40 1.56 0.000e+00 0 0.000e+00 pH = 6.669 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 198436 + Specific Conductance (µS/cm, 15°C) = 198473 Density (g/cm³) = 1.19083 Volume (L) = 1.11682 - Viscosity (mPa s) = 2.11064 + Viscosity (mPa s) = 2.11011 Activity of water = 0.782 Ionic strength (mol/kgw) = 5.688e+00 Mass of water (kg) = 1.002e+00 @@ -4259,10 +4259,10 @@ Halite -0.02 1.53 1.56 0.000e+00 0 0.000e+00 pH = 6.626 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 201850 + Specific Conductance (µS/cm, 15°C) = 201887 Density (g/cm³) = 1.20414 Volume (L) = 1.12836 - Viscosity (mPa s) = 2.24675 + Viscosity (mPa s) = 2.24620 Activity of water = 0.758 Ionic strength (mol/kgw) = 6.176e+00 Mass of water (kg) = 1.002e+00 @@ -4355,10 +4355,10 @@ Halite 0.00 1.56 1.56 0.000e+00 4.153e-01 4.153e-01 pH = 6.619 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 202296 + Specific Conductance (µS/cm, 15°C) = 202333 Density (g/cm³) = 1.20634 Volume (L) = 1.13033 - Viscosity (mPa s) = 2.27068 + Viscosity (mPa s) = 2.27012 Activity of water = 0.753 Ionic strength (mol/kgw) = 6.259e+00 Mass of water (kg) = 1.002e+00 @@ -4451,10 +4451,10 @@ Halite 0.00 1.56 1.56 4.153e-01 9.153e-01 5.000e-01 pH = 6.619 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 202296 + Specific Conductance (µS/cm, 15°C) = 202333 Density (g/cm³) = 1.20634 Volume (L) = 1.13033 - Viscosity (mPa s) = 2.27068 + Viscosity (mPa s) = 2.27012 Activity of water = 0.753 Ionic strength (mol/kgw) = 6.259e+00 Mass of water (kg) = 1.002e+00 @@ -5904,7 +5904,7 @@ Halite -0.92 0.66 1.58 0.000e+00 0 0.000e+00 pH = 6.746 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 188832 + Specific Conductance (µS/cm, 25°C) = 188833 Density (g/cm³) = 1.11195 Volume (L) = 1.06595 Viscosity (mPa s) = 1.23439 @@ -6288,7 +6288,7 @@ Halite -0.30 1.29 1.58 0.000e+00 0 0.000e+00 pH = 6.568 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 236884 + Specific Conductance (µS/cm, 25°C) = 236885 Density (g/cm³) = 1.17160 Volume (L) = 1.11061 Viscosity (mPa s) = 1.56645 @@ -6387,7 +6387,7 @@ Halite -0.16 1.42 1.58 0.000e+00 0 0.000e+00 Specific Conductance (µS/cm, 25°C) = 243033 Density (g/cm³) = 1.18528 Volume (L) = 1.12211 - Viscosity (mPa s) = 1.66489 + Viscosity (mPa s) = 1.66488 Activity of water = 0.781 Ionic strength (mol/kgw) = 5.689e+00 Mass of water (kg) = 1.002e+00 @@ -6790,10 +6790,10 @@ Halite Element not present. 0.000e+00 0 0.000e+00 pH = 6.851 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 3882 + Specific Conductance (µS/cm, 40°C) = 3881 Density (g/cm³) = 0.99431 Volume (L) = 1.00840 - Viscosity (mPa s) = 0.66253 + Viscosity (mPa s) = 0.66266 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.179e-02 Mass of water (kg) = 1.001e+00 @@ -6877,10 +6877,10 @@ Halite -5.21 -3.61 1.61 0.000e+00 0 0.000e+00 pH = 6.849 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 7232 + Specific Conductance (µS/cm, 40°C) = 7231 Density (g/cm³) = 0.99536 Volume (L) = 1.00883 - Viscosity (mPa s) = 0.66255 + Viscosity (mPa s) = 0.66266 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.928e-02 Mass of water (kg) = 1.001e+00 @@ -6973,10 +6973,10 @@ Halite -4.63 -3.02 1.61 0.000e+00 0 0.000e+00 pH = 6.847 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 10190 + Specific Conductance (µS/cm, 40°C) = 10188 Density (g/cm³) = 0.99636 Volume (L) = 1.00926 - Viscosity (mPa s) = 0.66381 + Viscosity (mPa s) = 0.66391 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.153e-01 Mass of water (kg) = 1.001e+00 @@ -7069,10 +7069,10 @@ Halite -4.30 -2.69 1.61 0.000e+00 0 0.000e+00 pH = 6.845 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 12994 + Specific Conductance (µS/cm, 40°C) = 12992 Density (g/cm³) = 0.99733 Volume (L) = 1.00968 - Viscosity (mPa s) = 0.66525 + Viscosity (mPa s) = 0.66536 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.406e-01 Mass of water (kg) = 1.001e+00 @@ -7165,10 +7165,10 @@ Halite -4.06 -2.45 1.61 0.000e+00 0 0.000e+00 pH = 6.843 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 15700 + Specific Conductance (µS/cm, 40°C) = 15698 Density (g/cm³) = 0.99827 Volume (L) = 1.01010 - Viscosity (mPa s) = 0.66674 + Viscosity (mPa s) = 0.66686 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.653e-01 Mass of water (kg) = 1.001e+00 @@ -7261,10 +7261,10 @@ Halite -3.88 -2.27 1.61 0.000e+00 0 0.000e+00 pH = 6.840 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 18334 + Specific Conductance (µS/cm, 40°C) = 18331 Density (g/cm³) = 0.99920 Volume (L) = 1.01051 - Viscosity (mPa s) = 0.66824 + Viscosity (mPa s) = 0.66836 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.896e-01 Mass of water (kg) = 1.001e+00 @@ -7357,10 +7357,10 @@ Halite -3.31 -1.71 1.61 0.000e+00 0 0.000e+00 pH = 6.827 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 30789 + Specific Conductance (µS/cm, 40°C) = 30783 Density (g/cm³) = 1.00369 Volume (L) = 1.01258 - Viscosity (mPa s) = 0.67573 + Viscosity (mPa s) = 0.67587 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.073e-01 Mass of water (kg) = 1.001e+00 @@ -7453,10 +7453,10 @@ Halite -2.75 -1.14 1.61 0.000e+00 0 0.000e+00 pH = 6.803 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 53571 + Specific Conductance (µS/cm, 40°C) = 53560 Density (g/cm³) = 1.01220 Volume (L) = 1.01673 - Viscosity (mPa s) = 0.69049 + Viscosity (mPa s) = 0.69066 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.331e-01 Mass of water (kg) = 1.001e+00 @@ -7549,10 +7549,10 @@ Halite -2.41 -0.81 1.61 0.000e+00 0 0.000e+00 pH = 6.780 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 74517 + Specific Conductance (µS/cm, 40°C) = 74500 Density (g/cm³) = 1.02035 Volume (L) = 1.02090 - Viscosity (mPa s) = 0.70531 + Viscosity (mPa s) = 0.70552 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.525e-01 Mass of water (kg) = 1.001e+00 @@ -7645,10 +7645,10 @@ Halite -2.17 -0.57 1.61 0.000e+00 0 0.000e+00 pH = 6.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 94046 + Specific Conductance (µS/cm, 40°C) = 94023 Density (g/cm³) = 1.02824 Volume (L) = 1.02510 - Viscosity (mPa s) = 0.72041 + Viscosity (mPa s) = 0.72064 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.679e-01 Mass of water (kg) = 1.002e+00 @@ -7741,10 +7741,10 @@ Halite -1.98 -0.38 1.61 0.000e+00 0 0.000e+00 pH = 6.739 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 112342 + Specific Conductance (µS/cm, 40°C) = 112312 Density (g/cm³) = 1.03592 Volume (L) = 1.02932 - Viscosity (mPa s) = 0.73588 + Viscosity (mPa s) = 0.73613 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.180e+00 Mass of water (kg) = 1.002e+00 @@ -7837,10 +7837,10 @@ Halite -1.62 -0.01 1.61 0.000e+00 0 0.000e+00 pH = 6.691 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 153330 + Specific Conductance (µS/cm, 40°C) = 153285 Density (g/cm³) = 1.05434 Volume (L) = 1.04001 - Viscosity (mPa s) = 0.77655 + Viscosity (mPa s) = 0.77685 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.703e+00 Mass of water (kg) = 1.002e+00 @@ -7933,10 +7933,10 @@ Halite -1.35 0.26 1.61 0.000e+00 0 0.000e+00 pH = 6.645 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 188296 + Specific Conductance (µS/cm, 40°C) = 188238 Density (g/cm³) = 1.07186 Volume (L) = 1.05084 - Viscosity (mPa s) = 0.82040 + Viscosity (mPa s) = 0.82074 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.216e+00 Mass of water (kg) = 1.002e+00 @@ -8029,10 +8029,10 @@ Halite -1.13 0.48 1.61 0.000e+00 0 0.000e+00 pH = 6.600 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 217945 + Specific Conductance (µS/cm, 40°C) = 217875 Density (g/cm³) = 1.08861 Volume (L) = 1.06180 - Viscosity (mPa s) = 0.86772 + Viscosity (mPa s) = 0.86809 Activity of water = 0.910 Ionic strength (mol/kgw) = 2.722e+00 Mass of water (kg) = 1.002e+00 @@ -8125,10 +8125,10 @@ Halite -0.93 0.68 1.61 0.000e+00 0 0.000e+00 pH = 6.556 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 242860 + Specific Conductance (µS/cm, 40°C) = 242781 Density (g/cm³) = 1.10470 Volume (L) = 1.07287 - Viscosity (mPa s) = 0.91867 + Viscosity (mPa s) = 0.91907 Activity of water = 0.891 Ionic strength (mol/kgw) = 3.223e+00 Mass of water (kg) = 1.002e+00 @@ -8221,10 +8221,10 @@ Halite -0.76 0.85 1.61 0.000e+00 0 0.000e+00 pH = 6.513 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 263564 + Specific Conductance (µS/cm, 40°C) = 263478 Density (g/cm³) = 1.12021 Volume (L) = 1.08405 - Viscosity (mPa s) = 0.97339 + Viscosity (mPa s) = 0.97382 Activity of water = 0.870 Ionic strength (mol/kgw) = 3.720e+00 Mass of water (kg) = 1.002e+00 @@ -8317,10 +8317,10 @@ Halite -0.60 1.01 1.61 0.000e+00 0 0.000e+00 pH = 6.471 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 280534 + Specific Conductance (µS/cm, 40°C) = 280442 Density (g/cm³) = 1.13518 Volume (L) = 1.09534 - Viscosity (mPa s) = 1.03201 + Viscosity (mPa s) = 1.03247 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.215e+00 Mass of water (kg) = 1.002e+00 @@ -8413,10 +8413,10 @@ Halite -0.45 1.16 1.61 0.000e+00 0 0.000e+00 pH = 6.429 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 294208 + Specific Conductance (µS/cm, 40°C) = 294112 Density (g/cm³) = 1.14966 Volume (L) = 1.10674 - Viscosity (mPa s) = 1.09461 + Viscosity (mPa s) = 1.09509 Activity of water = 0.827 Ionic strength (mol/kgw) = 4.709e+00 Mass of water (kg) = 1.002e+00 @@ -8509,10 +8509,10 @@ Halite -0.31 1.30 1.61 0.000e+00 0 0.000e+00 pH = 6.388 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 304985 + Specific Conductance (µS/cm, 40°C) = 304887 Density (g/cm³) = 1.16370 Volume (L) = 1.11823 - Viscosity (mPa s) = 1.16127 + Viscosity (mPa s) = 1.16178 Activity of water = 0.804 Ionic strength (mol/kgw) = 5.201e+00 Mass of water (kg) = 1.002e+00 @@ -8605,10 +8605,10 @@ Halite -0.18 1.43 1.61 0.000e+00 0 0.000e+00 pH = 6.348 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 313228 + Specific Conductance (µS/cm, 40°C) = 313129 Density (g/cm³) = 1.17732 Volume (L) = 1.12983 - Viscosity (mPa s) = 1.23207 + Viscosity (mPa s) = 1.23260 Activity of water = 0.781 Ionic strength (mol/kgw) = 5.692e+00 Mass of water (kg) = 1.002e+00 @@ -8701,10 +8701,10 @@ Halite -0.05 1.56 1.61 0.000e+00 0 0.000e+00 pH = 6.308 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 319265 + Specific Conductance (µS/cm, 40°C) = 319167 Density (g/cm³) = 1.19055 Volume (L) = 1.14152 - Viscosity (mPa s) = 1.30706 + Viscosity (mPa s) = 1.30760 Activity of water = 0.758 Ionic strength (mol/kgw) = 6.184e+00 Mass of water (kg) = 1.002e+00 @@ -8797,10 +8797,10 @@ Halite 0.00 1.61 1.61 0.000e+00 3.031e-01 3.031e-01 pH = 6.293 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 321104 + Specific Conductance (µS/cm, 40°C) = 321005 Density (g/cm³) = 1.19566 Volume (L) = 1.14615 - Viscosity (mPa s) = 1.33775 + Viscosity (mPa s) = 1.33831 Activity of water = 0.749 Ionic strength (mol/kgw) = 6.377e+00 Mass of water (kg) = 1.002e+00 @@ -8893,10 +8893,10 @@ Halite 0.00 1.61 1.61 3.031e-01 8.031e-01 5.000e-01 pH = 6.293 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 321104 + Specific Conductance (µS/cm, 40°C) = 321005 Density (g/cm³) = 1.19566 Volume (L) = 1.14615 - Viscosity (mPa s) = 1.33775 + Viscosity (mPa s) = 1.33831 Activity of water = 0.749 Ionic strength (mol/kgw) = 6.377e+00 Mass of water (kg) = 1.002e+00 @@ -9011,10 +9011,10 @@ Halite Element not present. 0.000e+00 0 0.000e+00 pH = 6.546 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 5708 + Specific Conductance (µS/cm, 70°C) = 5704 Density (g/cm³) = 0.97970 Volume (L) = 1.02326 - Viscosity (mPa s) = 0.40931 + Viscosity (mPa s) = 0.40958 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.771e-02 Mass of water (kg) = 1.001e+00 @@ -9098,10 +9098,10 @@ Halite -5.23 -3.61 1.62 0.000e+00 0 0.000e+00 pH = 6.545 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 10869 + Specific Conductance (µS/cm, 70°C) = 10863 Density (g/cm³) = 0.98074 Volume (L) = 1.02370 - Viscosity (mPa s) = 0.40956 + Viscosity (mPa s) = 0.40979 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.543e-02 Mass of water (kg) = 1.001e+00 @@ -9194,10 +9194,10 @@ Halite -4.65 -3.03 1.62 0.000e+00 0 0.000e+00 pH = 6.543 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 15355 + Specific Conductance (µS/cm, 70°C) = 15348 Density (g/cm³) = 0.98173 Volume (L) = 1.02413 - Viscosity (mPa s) = 0.41053 + Viscosity (mPa s) = 0.41075 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.116e-01 Mass of water (kg) = 1.001e+00 @@ -9290,10 +9290,10 @@ Halite -4.32 -2.70 1.62 0.000e+00 0 0.000e+00 pH = 6.541 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 19580 + Specific Conductance (µS/cm, 70°C) = 19570 Density (g/cm³) = 0.98268 Volume (L) = 1.02456 - Viscosity (mPa s) = 0.41159 + Viscosity (mPa s) = 0.41182 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.369e-01 Mass of water (kg) = 1.001e+00 @@ -9386,10 +9386,10 @@ Halite -4.08 -2.46 1.62 0.000e+00 0 0.000e+00 pH = 6.538 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 23639 + Specific Conductance (µS/cm, 70°C) = 23627 Density (g/cm³) = 0.98362 Volume (L) = 1.02499 - Viscosity (mPa s) = 0.41267 + Viscosity (mPa s) = 0.41291 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.616e-01 Mass of water (kg) = 1.001e+00 @@ -9482,10 +9482,10 @@ Halite -3.90 -2.28 1.62 0.000e+00 0 0.000e+00 pH = 6.536 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 27578 + Specific Conductance (µS/cm, 70°C) = 27563 Density (g/cm³) = 0.98453 Volume (L) = 1.02541 - Viscosity (mPa s) = 0.41375 + Viscosity (mPa s) = 0.41400 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.859e-01 Mass of water (kg) = 1.001e+00 @@ -9578,10 +9578,10 @@ Halite -3.34 -1.72 1.62 0.000e+00 0 0.000e+00 pH = 6.524 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 46090 + Specific Conductance (µS/cm, 70°C) = 46063 Density (g/cm³) = 0.98894 Volume (L) = 1.02752 - Viscosity (mPa s) = 0.41907 + Viscosity (mPa s) = 0.41938 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.035e-01 Mass of water (kg) = 1.001e+00 @@ -9674,10 +9674,10 @@ Halite -2.78 -1.16 1.62 0.000e+00 0 0.000e+00 pH = 6.501 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 79689 + Specific Conductance (µS/cm, 70°C) = 79633 Density (g/cm³) = 0.99731 Volume (L) = 1.03174 - Viscosity (mPa s) = 0.42948 + Viscosity (mPa s) = 0.42986 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.290e-01 Mass of water (kg) = 1.001e+00 @@ -9770,10 +9770,10 @@ Halite -2.44 -0.82 1.62 0.000e+00 0 0.000e+00 pH = 6.480 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 110398 + Specific Conductance (µS/cm, 70°C) = 110312 Density (g/cm³) = 1.00530 Volume (L) = 1.03599 - Viscosity (mPa s) = 0.43982 + Viscosity (mPa s) = 0.44026 Activity of water = 0.979 Ionic strength (mol/kgw) = 7.481e-01 Mass of water (kg) = 1.001e+00 @@ -9866,10 +9866,10 @@ Halite -2.20 -0.58 1.62 0.000e+00 0 0.000e+00 pH = 6.461 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 138916 + Specific Conductance (µS/cm, 70°C) = 138799 Density (g/cm³) = 1.01305 Volume (L) = 1.04027 - Viscosity (mPa s) = 0.45024 + Viscosity (mPa s) = 0.45073 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.632e-01 Mass of water (kg) = 1.001e+00 @@ -9962,10 +9962,10 @@ Halite -2.01 -0.39 1.62 0.000e+00 0 0.000e+00 pH = 6.443 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 165557 + Specific Conductance (µS/cm, 70°C) = 165407 Density (g/cm³) = 1.02059 Volume (L) = 1.04458 - Viscosity (mPa s) = 0.46081 + Viscosity (mPa s) = 0.46135 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.176e+00 Mass of water (kg) = 1.002e+00 @@ -10058,10 +10058,10 @@ Halite -1.65 -0.03 1.62 0.000e+00 0 0.000e+00 pH = 6.400 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 225046 + Specific Conductance (µS/cm, 70°C) = 224822 Density (g/cm³) = 1.03871 Volume (L) = 1.05546 - Viscosity (mPa s) = 0.48811 + Viscosity (mPa s) = 0.48875 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.698e+00 Mass of water (kg) = 1.002e+00 @@ -10154,10 +10154,10 @@ Halite -1.37 0.24 1.62 0.000e+00 0 0.000e+00 pH = 6.359 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 275702 + Specific Conductance (µS/cm, 70°C) = 275410 Density (g/cm³) = 1.05598 Volume (L) = 1.06647 - Viscosity (mPa s) = 0.51689 + Viscosity (mPa s) = 0.51762 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.211e+00 Mass of water (kg) = 1.002e+00 @@ -10250,10 +10250,10 @@ Halite -1.15 0.47 1.62 0.000e+00 0 0.000e+00 pH = 6.320 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 318717 + Specific Conductance (µS/cm, 70°C) = 318367 Density (g/cm³) = 1.07253 Volume (L) = 1.07760 - Viscosity (mPa s) = 0.54733 + Viscosity (mPa s) = 0.54813 Activity of water = 0.910 Ionic strength (mol/kgw) = 2.719e+00 Mass of water (kg) = 1.002e+00 @@ -10346,10 +10346,10 @@ Halite -0.96 0.66 1.62 0.000e+00 0 0.000e+00 pH = 6.282 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 355035 + Specific Conductance (µS/cm, 70°C) = 354639 Density (g/cm³) = 1.08847 Volume (L) = 1.08883 - Viscosity (mPa s) = 0.57953 + Viscosity (mPa s) = 0.58040 Activity of water = 0.891 Ionic strength (mol/kgw) = 3.222e+00 Mass of water (kg) = 1.002e+00 @@ -10442,10 +10442,10 @@ Halite -0.78 0.83 1.62 0.000e+00 0 0.000e+00 pH = 6.244 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 385464 + Specific Conductance (µS/cm, 70°C) = 385029 Density (g/cm³) = 1.10386 Volume (L) = 1.10015 - Viscosity (mPa s) = 0.61358 + Viscosity (mPa s) = 0.61451 Activity of water = 0.870 Ionic strength (mol/kgw) = 3.721e+00 Mass of water (kg) = 1.002e+00 @@ -10538,10 +10538,10 @@ Halite -0.63 0.99 1.62 0.000e+00 0 0.000e+00 pH = 6.207 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 410707 + Specific Conductance (µS/cm, 70°C) = 410244 Density (g/cm³) = 1.11876 Volume (L) = 1.11155 - Viscosity (mPa s) = 0.64955 + Viscosity (mPa s) = 0.65054 Activity of water = 0.849 Ionic strength (mol/kgw) = 4.219e+00 Mass of water (kg) = 1.002e+00 @@ -10634,10 +10634,10 @@ Halite -0.48 1.13 1.62 0.000e+00 0 0.000e+00 pH = 6.170 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 431390 + Specific Conductance (µS/cm, 70°C) = 430907 Density (g/cm³) = 1.13322 Volume (L) = 1.12305 - Viscosity (mPa s) = 0.68749 + Viscosity (mPa s) = 0.68853 Activity of water = 0.828 Ionic strength (mol/kgw) = 4.715e+00 Mass of water (kg) = 1.002e+00 @@ -10730,10 +10730,10 @@ Halite -0.35 1.27 1.62 0.000e+00 0 0.000e+00 pH = 6.133 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 448071 + Specific Conductance (µS/cm, 70°C) = 447574 Density (g/cm³) = 1.14726 Volume (L) = 1.13462 - Viscosity (mPa s) = 0.72744 + Viscosity (mPa s) = 0.72854 Activity of water = 0.806 Ionic strength (mol/kgw) = 5.210e+00 Mass of water (kg) = 1.002e+00 @@ -10826,10 +10826,10 @@ Halite -0.22 1.40 1.62 0.000e+00 0 0.000e+00 pH = 6.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 461244 + Specific Conductance (µS/cm, 70°C) = 460739 Density (g/cm³) = 1.16093 Volume (L) = 1.14627 - Viscosity (mPa s) = 0.76945 + Viscosity (mPa s) = 0.77059 Activity of water = 0.784 Ionic strength (mol/kgw) = 5.705e+00 Mass of water (kg) = 1.002e+00 @@ -10922,10 +10922,10 @@ Halite -0.10 1.52 1.62 0.000e+00 0 0.000e+00 pH = 6.062 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 471351 + Specific Conductance (µS/cm, 70°C) = 470844 Density (g/cm³) = 1.17424 Volume (L) = 1.15799 - Viscosity (mPa s) = 0.81355 + Viscosity (mPa s) = 0.81473 Activity of water = 0.762 Ionic strength (mol/kgw) = 6.200e+00 Mass of water (kg) = 1.002e+00 @@ -11018,10 +11018,10 @@ Halite 0.00 1.62 1.62 0.000e+00 6.028e-02 6.028e-02 pH = 6.032 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 478019 + Specific Conductance (µS/cm, 70°C) = 477512 Density (g/cm³) = 1.18566 Volume (L) = 1.16836 - Viscosity (mPa s) = 0.85407 + Viscosity (mPa s) = 0.85530 Activity of water = 0.743 Ionic strength (mol/kgw) = 6.635e+00 Mass of water (kg) = 1.002e+00 @@ -11114,10 +11114,10 @@ Halite 0.00 1.62 1.62 6.028e-02 5.603e-01 5.000e-01 pH = 6.032 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 478019 + Specific Conductance (µS/cm, 70°C) = 477512 Density (g/cm³) = 1.18566 Volume (L) = 1.16836 - Viscosity (mPa s) = 0.85407 + Viscosity (mPa s) = 0.85530 Activity of water = 0.743 Ionic strength (mol/kgw) = 6.635e+00 Mass of water (kg) = 1.002e+00 @@ -11232,10 +11232,10 @@ Halite Element not present. 0.000e+00 0 0.000e+00 pH = 6.384 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 6547 + Specific Conductance (µS/cm, 95°C) = 6540 Density (g/cm³) = 0.96356 Volume (L) = 1.04003 - Viscosity (mPa s) = 0.30085 + Viscosity (mPa s) = 0.30116 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.945e-02 Mass of water (kg) = 1.000e+00 @@ -11319,10 +11319,10 @@ Halite -5.21 -3.62 1.59 0.000e+00 0 0.000e+00 pH = 6.383 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 13253 + Specific Conductance (µS/cm, 95°C) = 13243 Density (g/cm³) = 0.96461 Volume (L) = 1.04046 - Viscosity (mPa s) = 0.30118 + Viscosity (mPa s) = 0.30144 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.734e-02 Mass of water (kg) = 1.001e+00 @@ -11415,10 +11415,10 @@ Halite -4.64 -3.04 1.59 0.000e+00 0 0.000e+00 pH = 6.381 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 19025 + Specific Conductance (µS/cm, 95°C) = 19010 Density (g/cm³) = 0.96561 Volume (L) = 1.04087 - Viscosity (mPa s) = 0.30200 + Viscosity (mPa s) = 0.30227 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.035e-01 Mass of water (kg) = 1.001e+00 @@ -11511,10 +11511,10 @@ Halite -4.30 -2.71 1.59 0.000e+00 0 0.000e+00 pH = 6.379 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 24439 + Specific Conductance (µS/cm, 95°C) = 24419 Density (g/cm³) = 0.96657 Volume (L) = 1.04128 - Viscosity (mPa s) = 0.30287 + Viscosity (mPa s) = 0.30315 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.288e-01 Mass of water (kg) = 1.001e+00 @@ -11607,10 +11607,10 @@ Halite -4.07 -2.48 1.59 0.000e+00 0 0.000e+00 pH = 6.376 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 29628 + Specific Conductance (µS/cm, 95°C) = 29603 Density (g/cm³) = 0.96751 Volume (L) = 1.04169 - Viscosity (mPa s) = 0.30374 + Viscosity (mPa s) = 0.30404 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.535e-01 Mass of water (kg) = 1.001e+00 @@ -11703,10 +11703,10 @@ Halite -3.89 -2.30 1.59 0.000e+00 0 0.000e+00 pH = 6.374 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 34653 + Specific Conductance (µS/cm, 95°C) = 34623 Density (g/cm³) = 0.96843 Volume (L) = 1.04210 - Viscosity (mPa s) = 0.30461 + Viscosity (mPa s) = 0.30492 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.778e-01 Mass of water (kg) = 1.001e+00 @@ -11799,10 +11799,10 @@ Halite -3.33 -1.74 1.59 0.000e+00 0 0.000e+00 pH = 6.361 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 58204 + Specific Conductance (µS/cm, 95°C) = 58145 Density (g/cm³) = 0.97287 Volume (L) = 1.04414 - Viscosity (mPa s) = 0.30885 + Viscosity (mPa s) = 0.30923 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.954e-01 Mass of water (kg) = 1.001e+00 @@ -11895,10 +11895,10 @@ Halite -2.77 -1.18 1.59 0.000e+00 0 0.000e+00 pH = 6.339 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 100794 + Specific Conductance (µS/cm, 95°C) = 100673 Density (g/cm³) = 0.98127 Volume (L) = 1.04824 - Viscosity (mPa s) = 0.31709 + Viscosity (mPa s) = 0.31757 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.209e-01 Mass of water (kg) = 1.001e+00 @@ -11991,10 +11991,10 @@ Halite -2.44 -0.85 1.59 0.000e+00 0 0.000e+00 pH = 6.319 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 139633 + Specific Conductance (µS/cm, 95°C) = 139444 Density (g/cm³) = 0.98931 Volume (L) = 1.05239 - Viscosity (mPa s) = 0.32522 + Viscosity (mPa s) = 0.32579 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.401e-01 Mass of water (kg) = 1.001e+00 @@ -12087,10 +12087,10 @@ Halite -2.20 -0.61 1.59 0.000e+00 0 0.000e+00 pH = 6.301 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 175649 + Specific Conductance (µS/cm, 95°C) = 175392 Density (g/cm³) = 0.99709 Volume (L) = 1.05659 - Viscosity (mPa s) = 0.33338 + Viscosity (mPa s) = 0.33401 Activity of water = 0.973 Ionic strength (mol/kgw) = 9.556e-01 Mass of water (kg) = 1.001e+00 @@ -12183,10 +12183,10 @@ Halite -2.01 -0.42 1.59 0.000e+00 0 0.000e+00 pH = 6.284 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 209262 + Specific Conductance (µS/cm, 95°C) = 208936 Density (g/cm³) = 1.00467 Volume (L) = 1.06082 - Viscosity (mPa s) = 0.34160 + Viscosity (mPa s) = 0.34229 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.169e+00 Mass of water (kg) = 1.002e+00 @@ -12279,10 +12279,10 @@ Halite -1.65 -0.06 1.59 0.000e+00 0 0.000e+00 pH = 6.245 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 284260 + Specific Conductance (µS/cm, 95°C) = 283769 Density (g/cm³) = 1.02289 Volume (L) = 1.07156 - Viscosity (mPa s) = 0.36263 + Viscosity (mPa s) = 0.36346 Activity of water = 0.948 Ionic strength (mol/kgw) = 1.693e+00 Mass of water (kg) = 1.002e+00 @@ -12375,10 +12375,10 @@ Halite -1.38 0.21 1.59 0.000e+00 0 0.000e+00 pH = 6.209 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 348141 + Specific Conductance (µS/cm, 95°C) = 347502 Density (g/cm³) = 1.04026 Volume (L) = 1.08246 - Viscosity (mPa s) = 0.38452 + Viscosity (mPa s) = 0.38546 Activity of water = 0.930 Ionic strength (mol/kgw) = 2.208e+00 Mass of water (kg) = 1.002e+00 @@ -12471,10 +12471,10 @@ Halite -1.16 0.43 1.59 0.000e+00 0 0.000e+00 pH = 6.174 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 402511 + Specific Conductance (µS/cm, 95°C) = 401745 Density (g/cm³) = 1.05691 Volume (L) = 1.09350 - Viscosity (mPa s) = 0.40738 + Viscosity (mPa s) = 0.40842 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.718e+00 Mass of water (kg) = 1.002e+00 @@ -12567,10 +12567,10 @@ Halite -0.97 0.62 1.59 0.000e+00 0 0.000e+00 pH = 6.139 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 448617 + Specific Conductance (µS/cm, 95°C) = 447745 Density (g/cm³) = 1.07294 Volume (L) = 1.10467 - Viscosity (mPa s) = 0.43130 + Viscosity (mPa s) = 0.43242 Activity of water = 0.892 Ionic strength (mol/kgw) = 3.224e+00 Mass of water (kg) = 1.002e+00 @@ -12663,10 +12663,10 @@ Halite -0.80 0.79 1.59 0.000e+00 0 0.000e+00 pH = 6.105 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 487501 + Specific Conductance (µS/cm, 95°C) = 486544 Density (g/cm³) = 1.08843 Volume (L) = 1.11594 - Viscosity (mPa s) = 0.45633 + Viscosity (mPa s) = 0.45753 Activity of water = 0.872 Ionic strength (mol/kgw) = 3.726e+00 Mass of water (kg) = 1.002e+00 @@ -12759,10 +12759,10 @@ Halite -0.65 0.94 1.59 0.000e+00 0 0.000e+00 pH = 6.071 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 520053 + Specific Conductance (µS/cm, 95°C) = 519031 Density (g/cm³) = 1.10343 Volume (L) = 1.12731 - Viscosity (mPa s) = 0.48252 + Viscosity (mPa s) = 0.48380 Activity of water = 0.851 Ionic strength (mol/kgw) = 4.227e+00 Mass of water (kg) = 1.002e+00 @@ -12855,10 +12855,10 @@ Halite -0.51 1.08 1.59 0.000e+00 0 0.000e+00 pH = 6.038 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 547050 + Specific Conductance (µS/cm, 95°C) = 545978 Density (g/cm³) = 1.11799 Volume (L) = 1.13878 - Viscosity (mPa s) = 0.50992 + Viscosity (mPa s) = 0.51127 Activity of water = 0.830 Ionic strength (mol/kgw) = 4.726e+00 Mass of water (kg) = 1.002e+00 @@ -12951,10 +12951,10 @@ Halite -0.38 1.21 1.59 0.000e+00 0 0.000e+00 pH = 6.004 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 569170 + Specific Conductance (µS/cm, 95°C) = 568063 Density (g/cm³) = 1.13213 Volume (L) = 1.15033 - Viscosity (mPa s) = 0.53854 + Viscosity (mPa s) = 0.53996 Activity of water = 0.809 Ionic strength (mol/kgw) = 5.224e+00 Mass of water (kg) = 1.002e+00 @@ -13047,10 +13047,10 @@ Halite -0.26 1.33 1.59 0.000e+00 0 0.000e+00 pH = 5.971 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 587009 + Specific Conductance (µS/cm, 95°C) = 585880 Density (g/cm³) = 1.14590 Volume (L) = 1.16197 - Viscosity (mPa s) = 0.56843 + Viscosity (mPa s) = 0.56991 Activity of water = 0.788 Ionic strength (mol/kgw) = 5.722e+00 Mass of water (kg) = 1.002e+00 @@ -13143,10 +13143,10 @@ Halite -0.14 1.45 1.59 0.000e+00 0 0.000e+00 pH = 5.938 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 601093 + Specific Conductance (µS/cm, 95°C) = 599953 Density (g/cm³) = 1.15930 Volume (L) = 1.17369 - Viscosity (mPa s) = 0.59960 + Viscosity (mPa s) = 0.60114 Activity of water = 0.767 Ionic strength (mol/kgw) = 6.220e+00 Mass of water (kg) = 1.002e+00 @@ -13239,10 +13239,10 @@ Halite -0.04 1.56 1.59 0.000e+00 0 0.000e+00 pH = 5.906 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 611886 + Specific Conductance (µS/cm, 95°C) = 610745 Density (g/cm³) = 1.17238 Volume (L) = 1.18549 - Viscosity (mPa s) = 0.63208 + Viscosity (mPa s) = 0.63368 Activity of water = 0.746 Ionic strength (mol/kgw) = 6.718e+00 Mass of water (kg) = 1.002e+00 @@ -13335,10 +13335,10 @@ Halite 0.00 1.59 1.59 0.000e+00 3.252e-01 3.252e-01 pH = 5.894 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 614960 + Specific Conductance (µS/cm, 95°C) = 613820 Density (g/cm³) = 1.17688 Volume (L) = 1.18963 - Viscosity (mPa s) = 0.64374 + Viscosity (mPa s) = 0.64536 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.892e+00 Mass of water (kg) = 1.002e+00 diff --git a/mytest/gyps_NaCl_101.sel b/mytest/gyps_NaCl_101.sel index 1cf782ef..e05d23b0 100644 --- a/mytest/gyps_NaCl_101.sel +++ b/mytest/gyps_NaCl_101.sel @@ -1,140 +1,140 @@ Mu SC - 0.000000034798 0.0119045068 - 0.051623981236 1270.5870093952 - 0.078562638743 2581.5371557953 - 0.104194546606 3772.1834480720 - 0.129104860950 4915.7617308099 - 0.153536847903 6028.3849452546 - 0.177619299980 7117.5904652574 - 0.294797665212 12326.8542821430 - 0.520930611938 22025.1978756740 - 0.741457859021 31087.0821636542 - 0.958487084345 39641.3130596854 - 1.172875555058 47738.7058192826 - 1.699888326612 66130.1060739568 - 2.216753954767 82030.2866643277 - 2.725619910614 95595.0316098004 - 3.228118210753 106987.5864536661 - 3.725624474941 116386.8063933293 - 4.219321393697 123981.4676240417 - 4.710219301323 129962.6179568268 - 5.199168516315 134516.9893578224 - 5.686871584393 137822.1558462455 - 6.173897247377 140043.3766844221 - 6.279776189430 140398.0344858603 - 6.279776189430 140398.0344858603 - 0.057597900756 2145.5437427209 - 0.084801173174 4138.6086175187 - 0.110654510797 5927.5244974202 - 0.135746231543 7636.7696698123 - 0.160328009941 9294.3843746832 - 0.184534936987 10913.2739246010 - 0.302078381149 18619.1456837742 - 0.528234178747 32854.2132592812 - 0.748303162964 46054.7282497501 - 0.964615033873 58439.9515481391 - 1.178139084738 70103.2049072981 - 1.702764537919 96406.0421593848 - 2.217391190932 118979.9116200088 - 2.724499095510 138160.1527451002 - 3.225869610604 154251.2984100802 - 3.722912310551 167550.2522871449 - 4.216770693541 178347.0103110919 - 4.708372527489 186920.6786621496 - 5.198463609688 193535.3108901385 - 5.687635180817 198436.7727749485 - 6.176348237112 201850.8300156731 - 6.259120729921 202296.8485272363 - 6.259120729921 202296.8485272363 - 0.060214568777 2826.4184555834 - 0.087550295252 5338.7625159883 - 0.113505460269 7577.7092878636 - 0.138676215173 9709.9403694741 - 0.163320088399 11773.5459320346 - 0.187575959593 13785.9589404314 - 0.305235067776 23337.6194433624 - 0.531284002399 40905.5245951818 - 0.751032836338 57132.6683913746 - 0.966922596303 72311.7216119582 - 1.179977016174 86570.4976987465 - 1.703413782715 118621.5303011295 - 2.217034900089 146042.1620640251 - 2.723449643668 169308.5486508175 - 3.224483874274 188832.9991636001 - 3.721542049569 205000.2371596941 - 4.215733591635 218173.9266439450 - 4.707936892242 228696.0525824667 - 5.198842317214 236884.9868958372 - 5.688985906650 243033.9270473499 - 6.178777303504 247410.1399160424 - 6.289562109559 248179.6037871297 - 6.289562109559 248179.6037871297 - 0.061794674327 3882.4359757402 - 0.089281870598 7232.5747627175 - 0.115338014942 10190.0381178038 - 0.140580378399 12994.2029753911 - 0.165276057438 15700.6086790339 - 0.189569176524 18334.5876852164 - 0.307280296588 30789.1323572169 - 0.533109387966 53571.1357155970 - 0.752459530391 74517.9200197142 - 0.967884359710 94046.3351952618 - 1.180459834520 112342.0961834182 - 1.702810762765 153330.5497178817 - 2.215670271802 188296.6798830429 - 2.721734050495 217945.3026317063 - 3.222838672806 242860.5310900302 - 3.720358422885 263564.6489554903 - 4.215351182256 280534.8266924424 - 4.708634776656 294208.4607204215 - 5.200837916058 304985.2183702039 - 5.692438831469 313228.3088246780 - 6.183796038563 319265.8107449072 - 6.377333994564 321104.0738729831 - 6.377333994564 321104.0738729832 - 0.057713699742 5708.4822647633 - 0.085426509760 10869.3148888023 - 0.111580849473 15355.7167043416 - 0.136872407525 19580.4432824040 - 0.161591701427 23639.9107426975 - 0.185892756122 27578.1402126632 - 0.303531038453 46090.7054721153 - 0.529039193375 79689.1659811757 - 0.748056218238 110398.9542708354 - 0.963213123812 138916.9539107760 - 1.175612620085 165557.1259831550 - 1.697977280306 225046.9554262355 - 2.211497247962 275702.4292842767 - 2.718811354719 318717.1556478256 - 3.221675492753 355035.9736881096 - 3.721377653064 385464.1669427616 - 4.218892723204 410707.3988397604 - 4.714963926349 431390.9810756932 - 5.210156578305 448071.4099557067 - 5.704897965998 461244.4840647820 - 6.199508483186 471351.6935205981 - 6.634569669408 478019.1337812939 - 6.634569663290 478019.1338546129 - 0.049446451303 6547.8896022470 - 0.077338081794 13253.9763113516 - 0.103526982476 19025.6710021779 - 0.128816241016 24439.3834501889 - 0.153521042672 29628.3408613009 - 0.177803702559 34653.4882722415 - 0.295363351701 58204.0996341900 - 0.520881875800 100794.2834939660 - 0.740111220824 139633.0523576953 - 0.955643729546 175649.5140950476 - 1.168553685133 209262.0985159037 - 1.692647895899 284260.1492249710 - 2.208358831933 348141.4391539954 - 2.718164617075 402511.0190225134 - 3.223716893485 448617.3908573621 - 3.726236700481 487501.0543031693 - 4.226658030280 520053.8738967078 - 4.725702363229 547050.8176909573 - 5.223928058338 569170.3594679615 - 5.721767424752 587009.1245936505 - 6.219556049678 601093.1343018357 - 6.717556486573 611886.8247444849 - 6.891700870069 614960.6093906572 + 0.000000034798 0.0119045072 + 0.051623981236 1270.9264880595 + 0.078562638743 2582.0435884122 + 0.104194546606 3772.8904274830 + 0.129104860950 4916.6866249514 + 0.153536847903 6029.5410044107 + 0.177619299980 7118.9889409363 + 0.294797665212 12329.5972985987 + 0.520930611938 22031.0828334924 + 0.741457859021 31096.4769069237 + 0.958487084345 39654.4179366750 + 1.172875555058 47755.6085420076 + 1.699888326612 66156.3849531382 + 2.216753954767 82065.1509605716 + 2.725619910614 95637.2440196528 + 3.228118210753 107035.7237166893 + 3.725624474941 116439.4275709027 + 4.219321393697 124037.2184411810 + 4.710219301323 130020.2893012639 + 5.199168516315 134575.5436582020 + 5.686871584393 137880.7320032234 + 6.173897247377 140101.2816436158 + 6.279776189430 140455.7169564081 + 6.279776189430 140455.7169564081 + 0.057597900756 2145.8045619133 + 0.084801173174 4138.9861978935 + 0.110654510797 5928.0390677994 + 0.135746231543 7637.4319466645 + 0.160328009941 9295.2024047902 + 0.184534936987 10914.2544784611 + 0.302078381149 18621.0176671722 + 0.528234178747 32858.1316117505 + 0.748303162964 46060.8972611547 + 0.964615033873 58448.4722809485 + 1.178139084738 70114.1106909560 + 1.702764537919 96422.7657829717 + 2.217391190932 119001.9042617607 + 2.724499095510 138186.6359269927 + 3.225869610604 154281.4104780065 + 3.722912310551 167583.1372530960 + 4.216770693541 178381.8703528934 + 4.708372527489 186956.8023673748 + 5.198463609688 193572.0852793565 + 5.687635180817 198473.6847757232 + 6.176348237112 201887.4614361794 + 6.259120729921 202333.3973165989 + 6.259120729921 202333.3973165989 + 0.060214568777 2826.4187474203 + 0.087550295252 5338.7629342642 + 0.113505460269 7577.7098525633 + 0.138676215173 9709.9410913866 + 0.163320088399 11773.5468192104 + 0.187575959593 13785.9599996157 + 0.305235067776 23337.6214406529 + 0.531284002399 40905.5287265474 + 0.751032836338 57132.6748514459 + 0.966922596303 72311.7304912887 + 1.179977016174 86570.5090204847 + 1.703413782715 118621.5475468299 + 2.217034900089 146042.1846492835 + 2.723449643668 169308.5757819169 + 3.224483874274 188833.0299780075 + 3.721542049569 205000.2708083823 + 4.215733591635 218173.9623386592 + 4.707936892242 228696.0896204651 + 5.198842317214 236885.0246699670 + 5.688985906650 243033.9650467553 + 6.178777303504 247410.1777211540 + 6.289562109559 248179.6414988334 + 6.289562109559 248179.6414988334 + 0.061794674327 3881.6328984545 + 0.089281870598 7231.4264851472 + 0.115338014942 10188.4958375923 + 0.140580378399 12992.2397268191 + 0.165276057438 15698.2044118454 + 0.189569176524 18331.7256528685 + 0.307280296588 30783.7887807739 + 0.533109387966 53560.2014878409 + 0.752459530391 74500.9368429197 + 0.967884359710 94023.1066763296 + 1.180459834520 112312.5928825398 + 1.702810762765 153285.9153828780 + 2.215670271802 188238.4661850789 + 2.721734050495 217875.5254482162 + 3.222838672806 242781.3379961429 + 3.720358422885 263478.1327351579 + 4.215351182256 280442.9223955505 + 4.708634776656 294112.8939785173 + 5.200837916058 304887.4858729261 + 5.692438831469 313129.6788043880 + 6.183796038563 319167.3354473916 + 6.377333994564 321005.9045380134 + 6.377333994564 321005.9045380135 + 0.057713699742 5704.6593055045 + 0.085426509760 10863.6654967223 + 0.111580849473 15348.0097289084 + 0.136872407525 19570.5494346804 + 0.161591701427 23627.7330018936 + 0.185892756122 27563.5972871330 + 0.303531038453 46063.4042512886 + 0.529039193375 79633.3664679455 + 0.748056218238 110312.5711387154 + 0.963213123812 138799.1895720416 + 1.175612620085 165407.9838451597 + 1.697977280306 224822.5534164236 + 2.211497247962 275410.6509487835 + 2.718811354719 318367.7669745450 + 3.221675492753 354639.1372082307 + 3.721377653064 385029.6651861795 + 4.218892723204 410244.2354848374 + 4.714963926349 430907.1976164586 + 5.210156578305 447574.0289453457 + 5.704897965998 460739.5267161750 + 6.199508483186 470844.2396695316 + 6.634569669408 477512.9988609657 + 6.634569663290 477512.9989341327 + 0.049446451303 6540.9776361039 + 0.077338081794 13243.0692257288 + 0.103526982476 19010.2592207081 + 0.128816241016 24419.1852597717 + 0.153521042672 29603.1404118988 + 0.177803702559 34623.1032296594 + 0.295363351701 58145.6984012368 + 0.520881875800 100673.2138566996 + 0.740111220824 139444.7523105522 + 0.955643729546 175392.2981135755 + 1.168553685133 208936.0396271162 + 1.692647895899 283769.1079356057 + 2.208358831933 347502.5320095133 + 2.718164617075 401745.0790947730 + 3.223716893485 447745.8632271911 + 3.726236700481 486544.4532232967 + 4.226658030280 519031.0353292206 + 4.725702363229 545978.5835001402 + 5.223928058338 568063.5021971021 + 5.721767424752 585880.4062417918 + 6.219556049678 599953.4372733166 + 6.717556486573 610745.3182038071 + 6.891700870069 613820.3440852606 diff --git a/mytest/gypsum.out b/mytest/gypsum.out index 1b54b4b6..7b8659da 100644 --- a/mytest/gypsum.out +++ b/mytest/gypsum.out @@ -142,10 +142,10 @@ Gypsum 0.00 -4.63 -4.63 2.000e-01 1.871e-01 -1.291e-02 pH = 7.496 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 1389 + Specific Conductance (µS/cm, 0°C) = 1390 Density (g/cm³) = 1.00174 Volume (L) = 1.00048 - Viscosity (mPa s) = 1.77228 + Viscosity (mPa s) = 1.77182 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.162e-02 Mass of water (kg) = 1.000e+00 @@ -214,7 +214,7 @@ Gypsum 0.00 -4.61 -4.61 2.000e-01 1.866e-01 -1.344e-02 Specific Conductance (µS/cm, 5°C) = 1668 Density (g/cm³) = 1.00188 Volume (L) = 1.00043 - Viscosity (mPa s) = 1.52922 + Viscosity (mPa s) = 1.52888 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.374e-02 Mass of water (kg) = 1.000e+00 @@ -283,7 +283,7 @@ Gypsum 0.00 -4.60 -4.60 2.000e-01 1.860e-01 -1.396e-02 Specific Conductance (µS/cm, 10°C) = 2000 Density (g/cm³) = 1.00167 Volume (L) = 1.00073 - Viscosity (mPa s) = 1.31651 + Viscosity (mPa s) = 1.31628 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.582e-02 Mass of water (kg) = 1.001e+00 @@ -349,10 +349,10 @@ Gypsum 0.00 -4.60 -4.60 2.000e-01 1.856e-01 -1.441e-02 pH = 7.221 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 2352 + Specific Conductance (µS/cm, 15°C) = 2353 Density (g/cm³) = 1.00111 Volume (L) = 1.00137 - Viscosity (mPa s) = 1.14764 + Viscosity (mPa s) = 1.14751 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.760e-02 Mass of water (kg) = 1.001e+00 @@ -421,7 +421,7 @@ Gypsum 0.00 -4.60 -4.60 2.000e-01 1.852e-01 -1.477e-02 Specific Conductance (µS/cm, 20°C) = 2721 Density (g/cm³) = 1.00025 Volume (L) = 1.00229 - Viscosity (mPa s) = 1.01108 + Viscosity (mPa s) = 1.01102 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.906e-02 Mass of water (kg) = 1.001e+00 @@ -556,10 +556,10 @@ Gypsum 0.00 -4.61 -4.61 2.000e-01 1.847e-01 -1.527e-02 pH = 6.985 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 3485 + Specific Conductance (µS/cm, 30°C) = 3484 Density (g/cm³) = 0.99774 Volume (L) = 1.00490 - Viscosity (mPa s) = 0.80548 + Viscosity (mPa s) = 0.80553 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.105e-02 Mass of water (kg) = 1.001e+00 @@ -628,7 +628,7 @@ Gypsum 0.00 -4.62 -4.62 2.000e-01 1.846e-01 -1.541e-02 Specific Conductance (µS/cm, 36°C) = 3913 Density (g/cm³) = 0.99593 Volume (L) = 1.00675 - Viscosity (mPa s) = 0.71859 + Viscosity (mPa s) = 0.71870 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.161e-02 Mass of water (kg) = 1.001e+00 @@ -694,10 +694,10 @@ Gypsum 0.00 -4.62 -4.62 2.000e-01 1.846e-01 -1.544e-02 pH = 6.885 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 37°C) = 4048 + Specific Conductance (µS/cm, 37°C) = 4047 Density (g/cm³) = 0.99531 Volume (L) = 1.00739 - Viscosity (mPa s) = 0.69425 + Viscosity (mPa s) = 0.69437 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.171e-02 Mass of water (kg) = 1.001e+00 @@ -766,7 +766,7 @@ Gypsum 0.00 -4.63 -4.63 2.000e-01 1.845e-01 -1.546e-02 Specific Conductance (µS/cm, 40°C) = 4250 Density (g/cm³) = 0.99431 Volume (L) = 1.00840 - Viscosity (mPa s) = 0.65979 + Viscosity (mPa s) = 0.65993 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.179e-02 Mass of water (kg) = 1.001e+00 @@ -832,10 +832,10 @@ Gypsum 0.00 -4.63 -4.63 2.000e-01 1.845e-01 -1.546e-02 pH = 6.849 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 4263 + Specific Conductance (µS/cm, 40°C) = 4262 Density (g/cm³) = 0.99425 Volume (L) = 1.00846 - Viscosity (mPa s) = 0.65769 + Viscosity (mPa s) = 0.65783 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.180e-02 Mass of water (kg) = 1.001e+00 @@ -904,7 +904,7 @@ Gypsum 0.00 -4.63 -4.63 2.000e-01 1.845e-01 -1.546e-02 Specific Conductance (µS/cm, 40°C) = 4265 Density (g/cm³) = 0.99423 Volume (L) = 1.00848 - Viscosity (mPa s) = 0.65732 + Viscosity (mPa s) = 0.65746 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.180e-02 Mass of water (kg) = 1.001e+00 @@ -973,7 +973,7 @@ Gypsum 0.00 -4.65 -4.65 2.000e-01 1.846e-01 -1.540e-02 Specific Conductance (µS/cm, 48°C) = 4811 Density (g/cm³) = 0.99116 Volume (L) = 1.01160 - Viscosity (mPa s) = 0.57502 + Viscosity (mPa s) = 0.57520 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.158e-02 Mass of water (kg) = 1.001e+00 @@ -1039,10 +1039,10 @@ Gypsum 0.00 -4.66 -4.66 2.000e-01 1.846e-01 -1.539e-02 pH = 6.753 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 48°C) = 4859 + Specific Conductance (µS/cm, 48°C) = 4858 Density (g/cm³) = 0.99086 Volume (L) = 1.01190 - Viscosity (mPa s) = 0.56844 + Viscosity (mPa s) = 0.56863 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.154e-02 Mass of water (kg) = 1.001e+00 @@ -1108,10 +1108,10 @@ Gypsum 0.00 -4.66 -4.66 2.000e-01 1.846e-01 -1.535e-02 pH = 6.734 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 4982 + Specific Conductance (µS/cm, 50°C) = 4981 Density (g/cm³) = 0.99007 Volume (L) = 1.01270 - Viscosity (mPa s) = 0.55175 + Viscosity (mPa s) = 0.55195 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.139e-02 Mass of water (kg) = 1.001e+00 @@ -1177,10 +1177,10 @@ Gypsum 0.00 -4.68 -4.68 2.000e-01 1.848e-01 -1.521e-02 pH = 6.683 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 5308 + Specific Conductance (µS/cm, 55°C) = 5307 Density (g/cm³) = 0.98778 Volume (L) = 1.01502 - Viscosity (mPa s) = 0.50984 + Viscosity (mPa s) = 0.51005 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.082e-02 Mass of water (kg) = 1.001e+00 @@ -1246,10 +1246,10 @@ Gypsum 0.00 -4.71 -4.71 2.000e-01 1.850e-01 -1.500e-02 pH = 6.633 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 5629 + Specific Conductance (µS/cm, 60°C) = 5628 Density (g/cm³) = 0.98521 Volume (L) = 1.01763 - Viscosity (mPa s) = 0.47105 + Viscosity (mPa s) = 0.47129 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.998e-02 Mass of water (kg) = 1.001e+00 @@ -1315,10 +1315,10 @@ Gypsum 0.00 -4.71 -4.71 2.000e-01 1.850e-01 -1.496e-02 pH = 6.625 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 5680 + Specific Conductance (µS/cm, 61°C) = 5678 Density (g/cm³) = 0.98476 Volume (L) = 1.01809 - Viscosity (mPa s) = 0.46505 + Viscosity (mPa s) = 0.46529 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.982e-02 Mass of water (kg) = 1.001e+00 @@ -1384,10 +1384,10 @@ Gypsum 0.00 -4.73 -4.73 2.000e-01 1.853e-01 -1.474e-02 pH = 6.588 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 5919 + Specific Conductance (µS/cm, 65°C) = 5917 Density (g/cm³) = 0.98252 Volume (L) = 1.02038 - Viscosity (mPa s) = 0.43737 + Viscosity (mPa s) = 0.43762 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.894e-02 Mass of water (kg) = 1.001e+00 @@ -1453,10 +1453,10 @@ Gypsum 0.00 -4.76 -4.76 2.000e-01 1.855e-01 -1.446e-02 pH = 6.549 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 6159 + Specific Conductance (µS/cm, 70°C) = 6157 Density (g/cm³) = 0.97991 Volume (L) = 1.02304 - Viscosity (mPa s) = 0.40982 + Viscosity (mPa s) = 0.41009 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.781e-02 Mass of water (kg) = 1.001e+00 @@ -1522,10 +1522,10 @@ Gypsum 0.00 -4.76 -4.76 2.000e-01 1.856e-01 -1.442e-02 pH = 6.544 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 70°C) = 6192 + Specific Conductance (µS/cm, 70°C) = 6191 Density (g/cm³) = 0.97952 Volume (L) = 1.02344 - Viscosity (mPa s) = 0.40601 + Viscosity (mPa s) = 0.40628 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.763e-02 Mass of water (kg) = 1.001e+00 @@ -1591,10 +1591,10 @@ Gypsum 0.00 -4.77 -4.77 2.000e-01 1.857e-01 -1.428e-02 pH = 6.528 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 72°C) = 6286 + Specific Conductance (µS/cm, 72°C) = 6284 Density (g/cm³) = 0.97836 Volume (L) = 1.02463 - Viscosity (mPa s) = 0.39528 + Viscosity (mPa s) = 0.39556 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.710e-02 Mass of water (kg) = 1.001e+00 @@ -1660,10 +1660,10 @@ Gypsum 0.00 -4.79 -4.79 2.000e-01 1.859e-01 -1.409e-02 pH = 6.508 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 6402 + Specific Conductance (µS/cm, 75°C) = 6400 Density (g/cm³) = 0.97679 Volume (L) = 1.02625 - Viscosity (mPa s) = 0.38169 + Viscosity (mPa s) = 0.38198 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.634e-02 Mass of water (kg) = 1.001e+00 @@ -1729,10 +1729,10 @@ Gypsum 0.00 -4.81 -4.81 2.000e-01 1.862e-01 -1.381e-02 pH = 6.482 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 79°C) = 6551 + Specific Conductance (µS/cm, 79°C) = 6549 Density (g/cm³) = 0.97449 Volume (L) = 1.02862 - Viscosity (mPa s) = 0.36373 + Viscosity (mPa s) = 0.36402 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.520e-02 Mass of water (kg) = 1.000e+00 @@ -1798,10 +1798,10 @@ Gypsum 0.00 -4.82 -4.82 2.000e-01 1.863e-01 -1.370e-02 pH = 6.472 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 6601 + Specific Conductance (µS/cm, 80°C) = 6599 Density (g/cm³) = 0.97363 Volume (L) = 1.02951 - Viscosity (mPa s) = 0.35754 + Viscosity (mPa s) = 0.35783 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.477e-02 Mass of water (kg) = 1.000e+00 @@ -1867,10 +1867,10 @@ Gypsum 0.00 -4.85 -4.85 2.000e-01 1.867e-01 -1.332e-02 pH = 6.442 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 6750 + Specific Conductance (µS/cm, 85°C) = 6748 Density (g/cm³) = 0.97067 Volume (L) = 1.03258 - Viscosity (mPa s) = 0.33792 + Viscosity (mPa s) = 0.33822 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.324e-02 Mass of water (kg) = 1.000e+00 @@ -1936,10 +1936,10 @@ Gypsum 0.00 -4.88 -4.88 2.000e-01 1.871e-01 -1.289e-02 pH = 6.414 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 89°C) = 6875 + Specific Conductance (µS/cm, 89°C) = 6872 Density (g/cm³) = 0.96745 Volume (L) = 1.03594 - Viscosity (mPa s) = 0.31927 + Viscosity (mPa s) = 0.31958 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.153e-02 Mass of water (kg) = 1.000e+00 @@ -2005,10 +2005,10 @@ Gypsum 0.00 -4.88 -4.88 2.000e-01 1.871e-01 -1.285e-02 pH = 6.412 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 6884 + Specific Conductance (µS/cm, 90°C) = 6881 Density (g/cm³) = 0.96715 Volume (L) = 1.03625 - Viscosity (mPa s) = 0.31769 + Viscosity (mPa s) = 0.31800 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.138e-02 Mass of water (kg) = 1.000e+00 @@ -2074,10 +2074,10 @@ Gypsum 0.00 -4.90 -4.90 2.000e-01 1.873e-01 -1.269e-02 pH = 6.402 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 92°C) = 6921 + Specific Conductance (µS/cm, 92°C) = 6918 Density (g/cm³) = 0.96594 Volume (L) = 1.03753 - Viscosity (mPa s) = 0.31133 + Viscosity (mPa s) = 0.31164 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.073e-02 Mass of water (kg) = 1.000e+00 @@ -2143,10 +2143,10 @@ Gypsum 0.00 -4.92 -4.92 2.000e-01 1.876e-01 -1.237e-02 pH = 6.384 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 95°C) = 6978 + Specific Conductance (µS/cm, 95°C) = 6975 Density (g/cm³) = 0.96356 Volume (L) = 1.04003 - Viscosity (mPa s) = 0.29971 + Viscosity (mPa s) = 0.30003 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.945e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/gypsum_101.sel b/mytest/gypsum_101.sel index 2a07fd9f..5c3179dd 100644 --- a/mytest/gypsum_101.sel +++ b/mytest/gypsum_101.sel @@ -1,32 +1,32 @@ Mu SC 0.000000100645 0.0546913895 - 0.051623981300 1389.8873854710 - 0.053739474507 1668.0286259477 - 0.055819304920 2000.3248053453 - 0.057597900826 2352.9896365876 - 0.059064573712 2721.3529676818 - 0.060214568852 3100.4389776283 - 0.061048557782 3485.0958169334 - 0.061612392539 3913.8064973661 - 0.061712490969 4048.2221332923 - 0.061794674411 4250.3816289105 - 0.061797103863 4263.1669669634 - 0.061797498084 4265.4220194822 - 0.061583894253 4811.7514319687 - 0.061535265943 4859.2785290293 - 0.061385405959 4982.6155201656 - 0.060815427933 5308.5873843687 - 0.059978735047 5629.2652838634 - 0.059816910720 5680.2772501857 - 0.058937383362 5919.1201910336 - 0.057810671639 6159.6588721667 - 0.057631736999 6192.9380832324 - 0.057095958657 6286.0452601181 - 0.056342205122 6402.5257116589 - 0.055203375744 6551.9541564756 - 0.054769278743 6601.7364254813 - 0.053237086144 6750.8292608447 - 0.051533464395 6875.2934080737 - 0.051376865802 6884.8246059064 - 0.050725531217 6921.2957073065 - 0.049446451409 6978.9010216425 + 0.051623981300 1390.0461178922 + 0.053739474507 1668.1899812284 + 0.055819304920 2000.4755219679 + 0.057597900826 2353.1120057505 + 0.059064573712 2721.4260498337 + 0.060214568852 3100.4391147109 + 0.061048557782 3484.9972956036 + 0.061612392539 3913.5662652592 + 0.061712490969 4047.9300466613 + 0.061794674411 4250.0044139013 + 0.061797103863 4262.7840698523 + 0.061797498084 4265.0381164112 + 0.061583894253 4811.0883977117 + 0.061535265943 4858.5876278747 + 0.061385405959 4981.8493614353 + 0.060815427933 5307.6002293873 + 0.059978735047 5628.0247638184 + 0.059816910720 5678.9926317573 + 0.058937383362 5917.6129539154 + 0.057810671639 6157.8956696596 + 0.057631736999 6191.1364569617 + 0.057095958657 6284.1315910380 + 0.056342205122 6400.4611958071 + 0.055203375744 6549.6745293048 + 0.054769278743 6599.3783819942 + 0.053237086144 6748.2083966124 + 0.051533464395 6872.4033814928 + 0.051376865802 6881.9109723658 + 0.050725531217 6918.2858597590 + 0.049446451409 6975.7112823395 diff --git a/mytest/gypsum_P.out b/mytest/gypsum_P.out index 68b11e77..5c91258a 100644 --- a/mytest/gypsum_P.out +++ b/mytest/gypsum_P.out @@ -137,10 +137,10 @@ Gypsum -0.07 -4.73 -4.66 1.000e+01 0 -1.000e+01 pH = 6.637 Charge balance pe = 8.118 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 4105 + Specific Conductance (µS/cm, 62°C) = 4104 Density (g/cm³) = 0.98382 Volume (L) = 1.38514 - Viscosity (mPa s) = 0.45620 + Viscosity (mPa s) = 0.45638 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.526e-02 Mass of water (kg) = 1.360e+00 @@ -220,10 +220,10 @@ Gypsum -0.06 -4.66 -4.60 1.000e+01 0 -1.000e+01 pH = 6.619 Charge balance pe = 8.124 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 4567 + Specific Conductance (µS/cm, 62°C) = 4566 Density (g/cm³) = 0.98886 Volume (L) = 1.37840 - Viscosity (mPa s) = 0.45926 + Viscosity (mPa s) = 0.45946 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.920e-02 Mass of water (kg) = 1.360e+00 @@ -310,10 +310,10 @@ Gypsum -0.04 -4.60 -4.55 1.000e+01 0 -1.000e+01 pH = 6.601 Charge balance pe = 8.140 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 5037 + Specific Conductance (µS/cm, 62°C) = 5036 Density (g/cm³) = 0.99379 Volume (L) = 1.37189 - Viscosity (mPa s) = 0.46235 + Viscosity (mPa s) = 0.46256 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.320e-02 Mass of water (kg) = 1.360e+00 @@ -430,10 +430,10 @@ Gypsum -0.03 -4.54 -4.51 1.000e+01 0 -1.000e+01 pH = 6.584 Charge balance pe = 8.326 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 5512 + Specific Conductance (µS/cm, 62°C) = 5511 Density (g/cm³) = 0.99863 Volume (L) = 1.36559 - Viscosity (mPa s) = 0.46548 + Viscosity (mPa s) = 0.46569 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.724e-02 Mass of water (kg) = 1.360e+00 @@ -550,10 +550,10 @@ Gypsum -0.02 -4.48 -4.47 1.000e+01 0 -1.000e+01 pH = 6.567 Charge balance pe = 8.169 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 5987 + Specific Conductance (µS/cm, 62°C) = 5986 Density (g/cm³) = 1.00338 Volume (L) = 1.35950 - Viscosity (mPa s) = 0.46863 + Viscosity (mPa s) = 0.46886 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.129e-02 Mass of water (kg) = 1.360e+00 @@ -670,10 +670,10 @@ Gypsum -0.00 -4.43 -4.43 1.000e+01 0 -1.000e+01 pH = 6.550 Charge balance pe = 8.240 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 6461 + Specific Conductance (µS/cm, 62°C) = 6459 Density (g/cm³) = 1.00805 Volume (L) = 1.35360 - Viscosity (mPa s) = 0.47183 + Viscosity (mPa s) = 0.47206 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.533e-02 Mass of water (kg) = 1.360e+00 @@ -826,10 +826,10 @@ Gypsum -0.00 -4.39 -4.39 1.000e+01 1.998e+01 9.984e+00 pH = 6.533 Charge balance pe = 8.283 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 6833 + Specific Conductance (µS/cm, 62°C) = 6832 Density (g/cm³) = 1.01260 Volume (L) = 0.63439 - Viscosity (mPa s) = 0.47500 + Viscosity (mPa s) = 0.47524 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.847e-02 Mass of water (kg) = 6.402e-01 @@ -924,10 +924,10 @@ Gypsum -0.00 -4.36 -4.36 1.000e+01 1.998e+01 9.983e+00 pH = 6.515 Charge balance pe = 8.289 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 7162 + Specific Conductance (µS/cm, 62°C) = 7161 Density (g/cm³) = 1.01705 Volume (L) = 0.63182 - Viscosity (mPa s) = 0.47819 + Viscosity (mPa s) = 0.47844 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.124e-02 Mass of water (kg) = 6.403e-01 @@ -1008,10 +1008,10 @@ Gypsum -0.00 -4.33 -4.33 1.000e+01 1.998e+01 9.982e+00 pH = 6.498 Charge balance pe = 8.342 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 7477 + Specific Conductance (µS/cm, 62°C) = 7475 Density (g/cm³) = 1.02144 Volume (L) = 0.62932 - Viscosity (mPa s) = 0.48142 + Viscosity (mPa s) = 0.48168 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.389e-02 Mass of water (kg) = 6.403e-01 @@ -1092,10 +1092,10 @@ Gypsum 0.00 -4.30 -4.30 1.000e+01 1.998e+01 9.980e+00 pH = 6.482 Charge balance pe = 8.321 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 7776 + Specific Conductance (µS/cm, 62°C) = 7774 Density (g/cm³) = 1.02576 Volume (L) = 0.62690 - Viscosity (mPa s) = 0.48470 + Viscosity (mPa s) = 0.48496 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.642e-02 Mass of water (kg) = 6.404e-01 diff --git a/mytest/gypsum_P2.out b/mytest/gypsum_P2.out index 4424c2e8..be578a40 100644 --- a/mytest/gypsum_P2.out +++ b/mytest/gypsum_P2.out @@ -133,10 +133,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+01 9.985e+00 -1.527e-02 pH = 6.984 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 3178 + Specific Conductance (µS/cm, 30°C) = 3177 Density (g/cm³) = 0.99773 Volume (L) = 1.00491 - Viscosity (mPa s) = 0.80895 + Viscosity (mPa s) = 0.80901 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.105e-02 Mass of water (kg) = 1.001e+00 @@ -205,7 +205,7 @@ Gypsum 0.00 -4.61 -4.61 1.000e+01 9.985e+00 -1.534e-02 Specific Conductance (µS/cm, 32°C) = 3329 Density (g/cm³) = 0.99707 Volume (L) = 1.00559 - Viscosity (mPa s) = 0.77343 + Viscosity (mPa s) = 0.77351 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.131e-02 Mass of water (kg) = 1.001e+00 @@ -271,10 +271,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+01 9.985e+00 -1.539e-02 pH = 6.925 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 34°C) = 3481 + Specific Conductance (µS/cm, 34°C) = 3480 Density (g/cm³) = 0.99637 Volume (L) = 1.00630 - Viscosity (mPa s) = 0.74036 + Viscosity (mPa s) = 0.74045 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.152e-02 Mass of water (kg) = 1.001e+00 @@ -340,10 +340,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+01 9.985e+00 -1.543e-02 pH = 6.896 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 3632 + Specific Conductance (µS/cm, 36°C) = 3631 Density (g/cm³) = 0.99563 Volume (L) = 1.00706 - Viscosity (mPa s) = 0.70952 + Viscosity (mPa s) = 0.70963 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.167e-02 Mass of water (kg) = 1.001e+00 @@ -412,7 +412,7 @@ Gypsum 0.00 -4.62 -4.62 1.000e+01 9.985e+00 -1.545e-02 Specific Conductance (µS/cm, 39°C) = 3782 Density (g/cm³) = 0.99485 Volume (L) = 1.00785 - Viscosity (mPa s) = 0.68070 + Viscosity (mPa s) = 0.68082 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.176e-02 Mass of water (kg) = 1.001e+00 @@ -478,10 +478,10 @@ Gypsum 0.00 -4.63 -4.63 1.000e+01 9.985e+00 -1.546e-02 pH = 6.842 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 3932 + Specific Conductance (µS/cm, 41°C) = 3931 Density (g/cm³) = 0.99403 Volume (L) = 1.00868 - Viscosity (mPa s) = 0.65373 + Viscosity (mPa s) = 0.65387 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.180e-02 Mass of water (kg) = 1.001e+00 @@ -547,10 +547,10 @@ Gypsum 0.00 -4.64 -4.64 1.000e+01 9.985e+00 -1.546e-02 pH = 6.816 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 4080 + Specific Conductance (µS/cm, 43°C) = 4078 Density (g/cm³) = 0.99318 Volume (L) = 1.00954 - Viscosity (mPa s) = 0.62845 + Viscosity (mPa s) = 0.62861 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.179e-02 Mass of water (kg) = 1.001e+00 @@ -616,10 +616,10 @@ Gypsum 0.00 -4.64 -4.64 1.000e+01 9.985e+00 -1.544e-02 pH = 6.790 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 4226 + Specific Conductance (µS/cm, 45°C) = 4225 Density (g/cm³) = 0.99230 Volume (L) = 1.01044 - Viscosity (mPa s) = 0.60473 + Viscosity (mPa s) = 0.60489 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.173e-02 Mass of water (kg) = 1.001e+00 @@ -685,10 +685,10 @@ Gypsum 0.00 -4.65 -4.65 1.000e+01 9.985e+00 -1.541e-02 pH = 6.766 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 4370 + Specific Conductance (µS/cm, 47°C) = 4369 Density (g/cm³) = 0.99138 Volume (L) = 1.01137 - Viscosity (mPa s) = 0.58242 + Viscosity (mPa s) = 0.58260 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.162e-02 Mass of water (kg) = 1.001e+00 @@ -754,10 +754,10 @@ Gypsum 0.00 -4.66 -4.66 1.000e+01 9.985e+00 -1.537e-02 pH = 6.742 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 4512 + Specific Conductance (µS/cm, 49°C) = 4510 Density (g/cm³) = 0.99043 Volume (L) = 1.01234 - Viscosity (mPa s) = 0.56143 + Viscosity (mPa s) = 0.56162 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.146e-02 Mass of water (kg) = 1.001e+00 @@ -823,10 +823,10 @@ Gypsum 0.00 -4.67 -4.67 1.000e+01 9.985e+00 -1.532e-02 pH = 6.719 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 51°C) = 4651 + Specific Conductance (µS/cm, 51°C) = 4649 Density (g/cm³) = 0.98944 Volume (L) = 1.01334 - Viscosity (mPa s) = 0.54165 + Viscosity (mPa s) = 0.54185 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.125e-02 Mass of water (kg) = 1.001e+00 @@ -892,10 +892,10 @@ Gypsum 0.00 -4.68 -4.68 1.000e+01 9.985e+00 -1.526e-02 pH = 6.696 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 4787 + Specific Conductance (µS/cm, 54°C) = 4785 Density (g/cm³) = 0.98843 Volume (L) = 1.01436 - Viscosity (mPa s) = 0.52299 + Viscosity (mPa s) = 0.52320 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.100e-02 Mass of water (kg) = 1.001e+00 @@ -961,10 +961,10 @@ Gypsum 0.00 -4.69 -4.69 1.000e+01 9.985e+00 -1.518e-02 pH = 6.674 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 4920 + Specific Conductance (µS/cm, 56°C) = 4918 Density (g/cm³) = 0.98738 Volume (L) = 1.01542 - Viscosity (mPa s) = 0.50535 + Viscosity (mPa s) = 0.50557 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.070e-02 Mass of water (kg) = 1.001e+00 @@ -1030,10 +1030,10 @@ Gypsum 0.00 -4.70 -4.70 1.000e+01 9.985e+00 -1.510e-02 pH = 6.653 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 5050 + Specific Conductance (µS/cm, 58°C) = 5048 Density (g/cm³) = 0.98631 Volume (L) = 1.01651 - Viscosity (mPa s) = 0.48868 + Viscosity (mPa s) = 0.48891 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.036e-02 Mass of water (kg) = 1.001e+00 @@ -1099,10 +1099,10 @@ Gypsum 0.00 -4.71 -4.71 1.000e+01 9.985e+00 -1.500e-02 pH = 6.633 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 5176 + Specific Conductance (µS/cm, 60°C) = 5173 Density (g/cm³) = 0.98521 Volume (L) = 1.01764 - Viscosity (mPa s) = 0.47290 + Viscosity (mPa s) = 0.47313 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.998e-02 Mass of water (kg) = 1.001e+00 @@ -1168,10 +1168,10 @@ Gypsum 0.00 -4.72 -4.72 1.000e+01 9.985e+00 -1.490e-02 pH = 6.613 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 5298 + Specific Conductance (µS/cm, 62°C) = 5295 Density (g/cm³) = 0.98408 Volume (L) = 1.01879 - Viscosity (mPa s) = 0.45794 + Viscosity (mPa s) = 0.45819 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.956e-02 Mass of water (kg) = 1.001e+00 @@ -1237,10 +1237,10 @@ Gypsum 0.00 -4.73 -4.73 1.000e+01 9.985e+00 -1.478e-02 pH = 6.594 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 5416 + Specific Conductance (µS/cm, 64°C) = 5413 Density (g/cm³) = 0.98292 Volume (L) = 1.01997 - Viscosity (mPa s) = 0.44376 + Viscosity (mPa s) = 0.44401 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.910e-02 Mass of water (kg) = 1.001e+00 @@ -1306,10 +1306,10 @@ Gypsum 0.00 -4.74 -4.74 1.000e+01 9.985e+00 -1.466e-02 pH = 6.575 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 66°C) = 5529 + Specific Conductance (µS/cm, 66°C) = 5526 Density (g/cm³) = 0.98173 Volume (L) = 1.02118 - Viscosity (mPa s) = 0.43029 + Viscosity (mPa s) = 0.43055 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.861e-02 Mass of water (kg) = 1.001e+00 @@ -1375,10 +1375,10 @@ Gypsum 0.00 -4.75 -4.75 1.000e+01 9.985e+00 -1.453e-02 pH = 6.557 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 5638 + Specific Conductance (µS/cm, 69°C) = 5634 Density (g/cm³) = 0.98052 Volume (L) = 1.02242 - Viscosity (mPa s) = 0.41749 + Viscosity (mPa s) = 0.41776 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.808e-02 Mass of water (kg) = 1.001e+00 @@ -1444,10 +1444,10 @@ Gypsum 0.00 -4.76 -4.76 1.000e+01 9.986e+00 -1.439e-02 pH = 6.540 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 5742 + Specific Conductance (µS/cm, 71°C) = 5738 Density (g/cm³) = 0.97928 Volume (L) = 1.02368 - Viscosity (mPa s) = 0.40532 + Viscosity (mPa s) = 0.40559 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.752e-02 Mass of water (kg) = 1.001e+00 @@ -1513,10 +1513,10 @@ Gypsum 0.00 -4.77 -4.77 1.000e+01 9.986e+00 -1.424e-02 pH = 6.523 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 5841 + Specific Conductance (µS/cm, 73°C) = 5837 Density (g/cm³) = 0.97802 Volume (L) = 1.02498 - Viscosity (mPa s) = 0.39374 + Viscosity (mPa s) = 0.39401 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.693e-02 Mass of water (kg) = 1.001e+00 @@ -1582,10 +1582,10 @@ Gypsum 0.00 -4.79 -4.79 1.000e+01 9.986e+00 -1.409e-02 pH = 6.507 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 5935 + Specific Conductance (µS/cm, 75°C) = 5931 Density (g/cm³) = 0.97673 Volume (L) = 1.02631 - Viscosity (mPa s) = 0.38270 + Viscosity (mPa s) = 0.38298 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.632e-02 Mass of water (kg) = 1.001e+00 @@ -1651,10 +1651,10 @@ Gypsum 0.00 -4.80 -4.80 1.000e+01 9.986e+00 -1.392e-02 pH = 6.492 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 6024 + Specific Conductance (µS/cm, 77°C) = 6019 Density (g/cm³) = 0.97542 Volume (L) = 1.02766 - Viscosity (mPa s) = 0.37218 + Viscosity (mPa s) = 0.37246 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.567e-02 Mass of water (kg) = 1.001e+00 @@ -1720,10 +1720,10 @@ Gypsum 0.00 -4.81 -4.81 1.000e+01 9.986e+00 -1.376e-02 pH = 6.477 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 79°C) = 6108 + Specific Conductance (µS/cm, 79°C) = 6103 Density (g/cm³) = 0.97408 Volume (L) = 1.02904 - Viscosity (mPa s) = 0.36214 + Viscosity (mPa s) = 0.36243 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.500e-02 Mass of water (kg) = 1.000e+00 @@ -1789,10 +1789,10 @@ Gypsum 0.00 -4.83 -4.83 1.000e+01 9.986e+00 -1.358e-02 pH = 6.462 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 6186 + Specific Conductance (µS/cm, 81°C) = 6180 Density (g/cm³) = 0.97272 Volume (L) = 1.03045 - Viscosity (mPa s) = 0.35256 + Viscosity (mPa s) = 0.35285 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.430e-02 Mass of water (kg) = 1.000e+00 @@ -1858,10 +1858,10 @@ Gypsum 0.00 -4.84 -4.84 1.000e+01 9.987e+00 -1.340e-02 pH = 6.449 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 84°C) = 6258 + Specific Conductance (µS/cm, 84°C) = 6252 Density (g/cm³) = 0.97133 Volume (L) = 1.03189 - Viscosity (mPa s) = 0.34341 + Viscosity (mPa s) = 0.34370 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.359e-02 Mass of water (kg) = 1.000e+00 @@ -1927,10 +1927,10 @@ Gypsum 0.00 -4.86 -4.86 1.000e+01 9.987e+00 -1.322e-02 pH = 6.435 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 86°C) = 6325 + Specific Conductance (µS/cm, 86°C) = 6319 Density (g/cm³) = 0.96992 Volume (L) = 1.03336 - Viscosity (mPa s) = 0.33466 + Viscosity (mPa s) = 0.33496 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.285e-02 Mass of water (kg) = 1.000e+00 @@ -1996,10 +1996,10 @@ Gypsum 0.00 -4.87 -4.87 1.000e+01 9.987e+00 -1.303e-02 pH = 6.423 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 88°C) = 6386 + Specific Conductance (µS/cm, 88°C) = 6380 Density (g/cm³) = 0.96849 Volume (L) = 1.03485 - Viscosity (mPa s) = 0.32628 + Viscosity (mPa s) = 0.32659 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.209e-02 Mass of water (kg) = 1.000e+00 @@ -2065,10 +2065,10 @@ Gypsum 0.00 -4.89 -4.89 1.000e+01 9.987e+00 -1.283e-02 pH = 6.410 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 6441 + Specific Conductance (µS/cm, 90°C) = 6435 Density (g/cm³) = 0.96704 Volume (L) = 1.03637 - Viscosity (mPa s) = 0.31827 + Viscosity (mPa s) = 0.31857 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.131e-02 Mass of water (kg) = 1.000e+00 @@ -2220,7 +2220,7 @@ Gypsum 0.00 -4.36 -4.36 1.000e+01 9.977e+00 -2.321e-02 Specific Conductance (µS/cm, 30°C) = 4978 Density (g/cm³) = 1.01973 Volume (L) = 0.98457 - Viscosity (mPa s) = 0.81553 + Viscosity (mPa s) = 0.81559 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.278e-02 Mass of water (kg) = 1.001e+00 @@ -2287,10 +2287,10 @@ Gypsum 0.00 -4.36 -4.36 1.000e+01 9.977e+00 -2.335e-02 pH = 6.855 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 5187 + Specific Conductance (µS/cm, 32°C) = 5186 Density (g/cm³) = 1.01898 Volume (L) = 0.98532 - Viscosity (mPa s) = 0.78153 + Viscosity (mPa s) = 0.78162 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.334e-02 Mass of water (kg) = 1.001e+00 @@ -2357,10 +2357,10 @@ Gypsum 0.00 -4.37 -4.37 1.000e+01 9.977e+00 -2.347e-02 pH = 6.825 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 34°C) = 5394 + Specific Conductance (µS/cm, 34°C) = 5393 Density (g/cm³) = 1.01821 Volume (L) = 0.98609 - Viscosity (mPa s) = 0.74976 + Viscosity (mPa s) = 0.74987 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.380e-02 Mass of water (kg) = 1.001e+00 @@ -2427,10 +2427,10 @@ Gypsum 0.00 -4.37 -4.37 1.000e+01 9.976e+00 -2.357e-02 pH = 6.796 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 5599 + Specific Conductance (µS/cm, 36°C) = 5598 Density (g/cm³) = 1.01740 Volume (L) = 0.98689 - Viscosity (mPa s) = 0.72002 + Viscosity (mPa s) = 0.72015 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.419e-02 Mass of water (kg) = 1.001e+00 @@ -2497,10 +2497,10 @@ Gypsum 0.00 -4.37 -4.37 1.000e+01 9.976e+00 -2.364e-02 pH = 6.768 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 5801 + Specific Conductance (µS/cm, 39°C) = 5800 Density (g/cm³) = 1.01656 Volume (L) = 0.98771 - Viscosity (mPa s) = 0.69214 + Viscosity (mPa s) = 0.69229 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.448e-02 Mass of water (kg) = 1.001e+00 @@ -2567,10 +2567,10 @@ Gypsum 0.00 -4.38 -4.38 1.000e+01 9.976e+00 -2.369e-02 pH = 6.740 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 6001 + Specific Conductance (µS/cm, 41°C) = 6000 Density (g/cm³) = 1.01570 Volume (L) = 0.98856 - Viscosity (mPa s) = 0.66597 + Viscosity (mPa s) = 0.66615 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.469e-02 Mass of water (kg) = 1.001e+00 @@ -2637,10 +2637,10 @@ Gypsum 0.00 -4.39 -4.39 1.000e+01 9.976e+00 -2.373e-02 pH = 6.714 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 6198 + Specific Conductance (µS/cm, 43°C) = 6196 Density (g/cm³) = 1.01481 Volume (L) = 0.98943 - Viscosity (mPa s) = 0.64138 + Viscosity (mPa s) = 0.64157 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.483e-02 Mass of water (kg) = 1.001e+00 @@ -2707,10 +2707,10 @@ Gypsum 0.00 -4.39 -4.39 1.000e+01 9.976e+00 -2.374e-02 pH = 6.688 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 6392 + Specific Conductance (µS/cm, 45°C) = 6389 Density (g/cm³) = 1.01389 Volume (L) = 0.99033 - Viscosity (mPa s) = 0.61822 + Viscosity (mPa s) = 0.61843 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.488e-02 Mass of water (kg) = 1.001e+00 @@ -2777,10 +2777,10 @@ Gypsum 0.00 -4.40 -4.40 1.000e+01 9.976e+00 -2.374e-02 pH = 6.663 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 6582 + Specific Conductance (µS/cm, 47°C) = 6579 Density (g/cm³) = 1.01295 Volume (L) = 0.99125 - Viscosity (mPa s) = 0.59641 + Viscosity (mPa s) = 0.59663 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.486e-02 Mass of water (kg) = 1.001e+00 @@ -2847,10 +2847,10 @@ Gypsum 0.00 -4.41 -4.41 1.000e+01 9.976e+00 -2.371e-02 pH = 6.638 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 6768 + Specific Conductance (µS/cm, 49°C) = 6765 Density (g/cm³) = 1.01198 Volume (L) = 0.99219 - Viscosity (mPa s) = 0.57582 + Viscosity (mPa s) = 0.57606 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.477e-02 Mass of water (kg) = 1.001e+00 @@ -2917,10 +2917,10 @@ Gypsum 0.00 -4.41 -4.41 1.000e+01 9.976e+00 -2.367e-02 pH = 6.614 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 51°C) = 6950 + Specific Conductance (µS/cm, 51°C) = 6947 Density (g/cm³) = 1.01099 Volume (L) = 0.99316 - Viscosity (mPa s) = 0.55638 + Viscosity (mPa s) = 0.55663 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.460e-02 Mass of water (kg) = 1.001e+00 @@ -2987,10 +2987,10 @@ Gypsum 0.00 -4.42 -4.42 1.000e+01 9.976e+00 -2.361e-02 pH = 6.591 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 7127 + Specific Conductance (µS/cm, 54°C) = 7124 Density (g/cm³) = 1.00998 Volume (L) = 0.99414 - Viscosity (mPa s) = 0.53800 + Viscosity (mPa s) = 0.53826 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.437e-02 Mass of water (kg) = 1.001e+00 @@ -3057,10 +3057,10 @@ Gypsum 0.00 -4.43 -4.43 1.000e+01 9.976e+00 -2.354e-02 pH = 6.569 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 7301 + Specific Conductance (µS/cm, 56°C) = 7297 Density (g/cm³) = 1.00894 Volume (L) = 0.99515 - Viscosity (mPa s) = 0.52060 + Viscosity (mPa s) = 0.52087 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.407e-02 Mass of water (kg) = 1.001e+00 @@ -3127,10 +3127,10 @@ Gypsum 0.00 -4.44 -4.44 1.000e+01 9.977e+00 -2.345e-02 pH = 6.547 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 7469 + Specific Conductance (µS/cm, 58°C) = 7465 Density (g/cm³) = 1.00788 Volume (L) = 0.99619 - Viscosity (mPa s) = 0.50411 + Viscosity (mPa s) = 0.50440 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.371e-02 Mass of water (kg) = 1.001e+00 @@ -3197,10 +3197,10 @@ Gypsum 0.00 -4.45 -4.45 1.000e+01 9.977e+00 -2.334e-02 pH = 6.526 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 7632 + Specific Conductance (µS/cm, 60°C) = 7628 Density (g/cm³) = 1.00680 Volume (L) = 0.99724 - Viscosity (mPa s) = 0.48847 + Viscosity (mPa s) = 0.48877 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.328e-02 Mass of water (kg) = 1.001e+00 @@ -3267,10 +3267,10 @@ Gypsum 0.00 -4.46 -4.46 1.000e+01 9.977e+00 -2.322e-02 pH = 6.506 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 7791 + Specific Conductance (µS/cm, 62°C) = 7785 Density (g/cm³) = 1.00570 Volume (L) = 0.99831 - Viscosity (mPa s) = 0.47363 + Viscosity (mPa s) = 0.47394 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.280e-02 Mass of water (kg) = 1.001e+00 @@ -3337,10 +3337,10 @@ Gypsum 0.00 -4.47 -4.47 1.000e+01 9.977e+00 -2.309e-02 pH = 6.486 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 7944 + Specific Conductance (µS/cm, 64°C) = 7938 Density (g/cm³) = 1.00457 Volume (L) = 0.99941 - Viscosity (mPa s) = 0.45953 + Viscosity (mPa s) = 0.45985 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.226e-02 Mass of water (kg) = 1.001e+00 @@ -3407,10 +3407,10 @@ Gypsum 0.00 -4.48 -4.48 1.000e+01 9.977e+00 -2.294e-02 pH = 6.467 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 66°C) = 8092 + Specific Conductance (µS/cm, 66°C) = 8086 Density (g/cm³) = 1.00342 Volume (L) = 1.00052 - Viscosity (mPa s) = 0.44613 + Viscosity (mPa s) = 0.44645 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.167e-02 Mass of water (kg) = 1.001e+00 @@ -3477,10 +3477,10 @@ Gypsum 0.00 -4.49 -4.49 1.000e+01 9.977e+00 -2.278e-02 pH = 6.449 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 8234 + Specific Conductance (µS/cm, 69°C) = 8228 Density (g/cm³) = 1.00226 Volume (L) = 1.00166 - Viscosity (mPa s) = 0.43337 + Viscosity (mPa s) = 0.43370 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.103e-02 Mass of water (kg) = 1.001e+00 @@ -3547,10 +3547,10 @@ Gypsum 0.00 -4.51 -4.51 1.000e+01 9.977e+00 -2.260e-02 pH = 6.431 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 8371 + Specific Conductance (µS/cm, 71°C) = 8364 Density (g/cm³) = 1.00107 Volume (L) = 1.00282 - Viscosity (mPa s) = 0.42122 + Viscosity (mPa s) = 0.42156 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.035e-02 Mass of water (kg) = 1.001e+00 @@ -3617,10 +3617,10 @@ Gypsum 0.00 -4.52 -4.52 1.000e+01 9.978e+00 -2.242e-02 pH = 6.414 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 8502 + Specific Conductance (µS/cm, 73°C) = 8495 Density (g/cm³) = 0.99986 Volume (L) = 1.00400 - Viscosity (mPa s) = 0.40964 + Viscosity (mPa s) = 0.40999 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.961e-02 Mass of water (kg) = 1.001e+00 @@ -3687,10 +3687,10 @@ Gypsum 0.00 -4.53 -4.53 1.000e+01 9.978e+00 -2.223e-02 pH = 6.397 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 8628 + Specific Conductance (µS/cm, 75°C) = 8620 Density (g/cm³) = 0.99863 Volume (L) = 1.00520 - Viscosity (mPa s) = 0.39859 + Viscosity (mPa s) = 0.39895 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.884e-02 Mass of water (kg) = 1.001e+00 @@ -3757,10 +3757,10 @@ Gypsum 0.00 -4.54 -4.54 1.000e+01 9.978e+00 -2.202e-02 pH = 6.381 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 8747 + Specific Conductance (µS/cm, 77°C) = 8739 Density (g/cm³) = 0.99738 Volume (L) = 1.00642 - Viscosity (mPa s) = 0.38805 + Viscosity (mPa s) = 0.38841 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.802e-02 Mass of water (kg) = 1.001e+00 @@ -3827,10 +3827,10 @@ Gypsum 0.00 -4.55 -4.55 1.000e+01 9.978e+00 -2.181e-02 pH = 6.365 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 79°C) = 8861 + Specific Conductance (µS/cm, 79°C) = 8852 Density (g/cm³) = 0.99612 Volume (L) = 1.00767 - Viscosity (mPa s) = 0.37798 + Viscosity (mPa s) = 0.37835 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.717e-02 Mass of water (kg) = 1.001e+00 @@ -3897,10 +3897,10 @@ Gypsum 0.00 -4.57 -4.57 1.000e+01 9.978e+00 -2.159e-02 pH = 6.350 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 8969 + Specific Conductance (µS/cm, 81°C) = 8960 Density (g/cm³) = 0.99483 Volume (L) = 1.00893 - Viscosity (mPa s) = 0.36835 + Viscosity (mPa s) = 0.36873 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.628e-02 Mass of water (kg) = 1.001e+00 @@ -3967,10 +3967,10 @@ Gypsum 0.00 -4.58 -4.58 1.000e+01 9.979e+00 -2.136e-02 pH = 6.336 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 84°C) = 9072 + Specific Conductance (µS/cm, 84°C) = 9062 Density (g/cm³) = 0.99353 Volume (L) = 1.01022 - Viscosity (mPa s) = 0.35915 + Viscosity (mPa s) = 0.35953 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.536e-02 Mass of water (kg) = 1.001e+00 @@ -4037,10 +4037,10 @@ Gypsum 0.00 -4.59 -4.59 1.000e+01 9.979e+00 -2.112e-02 pH = 6.322 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 86°C) = 9176 + Specific Conductance (µS/cm, 86°C) = 9165 Density (g/cm³) = 0.99220 Volume (L) = 1.01152 - Viscosity (mPa s) = 0.35034 + Viscosity (mPa s) = 0.35073 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.441e-02 Mass of water (kg) = 1.001e+00 @@ -4107,10 +4107,10 @@ Gypsum 0.00 -4.61 -4.61 1.000e+01 9.979e+00 -2.087e-02 pH = 6.308 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 88°C) = 9282 + Specific Conductance (µS/cm, 88°C) = 9271 Density (g/cm³) = 0.99086 Volume (L) = 1.01285 - Viscosity (mPa s) = 0.34191 + Viscosity (mPa s) = 0.34230 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.343e-02 Mass of water (kg) = 1.001e+00 @@ -4177,10 +4177,10 @@ Gypsum 0.00 -4.62 -4.62 1.000e+01 9.979e+00 -2.062e-02 pH = 6.296 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 9381 + Specific Conductance (µS/cm, 90°C) = 9370 Density (g/cm³) = 0.98950 Volume (L) = 1.01420 - Viscosity (mPa s) = 0.33382 + Viscosity (mPa s) = 0.33422 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.242e-02 Mass of water (kg) = 1.001e+00 @@ -4330,10 +4330,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.972e+00 -2.806e-02 pH = 6.809 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 6310 + Specific Conductance (µS/cm, 30°C) = 6309 Density (g/cm³) = 1.03953 Volume (L) = 0.96662 - Viscosity (mPa s) = 0.82612 + Viscosity (mPa s) = 0.82619 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.121e-01 Mass of water (kg) = 1.001e+00 @@ -4400,10 +4400,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.971e+00 -2.861e-02 pH = 6.776 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 32°C) = 6624 + Specific Conductance (µS/cm, 32°C) = 6623 Density (g/cm³) = 1.03876 Volume (L) = 0.96743 - Viscosity (mPa s) = 0.79322 + Viscosity (mPa s) = 0.79332 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.143e-01 Mass of water (kg) = 1.001e+00 @@ -4470,10 +4470,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.971e+00 -2.912e-02 pH = 6.744 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 34°C) = 6934 + Specific Conductance (µS/cm, 34°C) = 6933 Density (g/cm³) = 1.03797 Volume (L) = 0.96825 - Viscosity (mPa s) = 0.76240 + Viscosity (mPa s) = 0.76252 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.164e-01 Mass of water (kg) = 1.001e+00 @@ -4540,10 +4540,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.970e+00 -2.959e-02 pH = 6.712 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 36°C) = 7239 + Specific Conductance (µS/cm, 36°C) = 7238 Density (g/cm³) = 1.03715 Volume (L) = 0.96910 - Viscosity (mPa s) = 0.73347 + Viscosity (mPa s) = 0.73362 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.182e-01 Mass of water (kg) = 1.001e+00 @@ -4610,10 +4610,10 @@ Gypsum 0.00 -4.22 -4.22 1.000e+01 9.970e+00 -3.002e-02 pH = 6.682 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 7539 + Specific Conductance (µS/cm, 39°C) = 7538 Density (g/cm³) = 1.03630 Volume (L) = 0.96996 - Viscosity (mPa s) = 0.70628 + Viscosity (mPa s) = 0.70645 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.199e-01 Mass of water (kg) = 1.001e+00 @@ -4680,10 +4680,10 @@ Gypsum 0.00 -4.22 -4.22 1.000e+01 9.970e+00 -3.041e-02 pH = 6.653 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 7834 + Specific Conductance (µS/cm, 41°C) = 7831 Density (g/cm³) = 1.03543 Volume (L) = 0.97084 - Viscosity (mPa s) = 0.68069 + Viscosity (mPa s) = 0.68089 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.215e-01 Mass of water (kg) = 1.001e+00 @@ -4750,10 +4750,10 @@ Gypsum 0.00 -4.22 -4.22 1.000e+01 9.969e+00 -3.077e-02 pH = 6.624 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 43°C) = 8121 + Specific Conductance (µS/cm, 43°C) = 8118 Density (g/cm³) = 1.03454 Volume (L) = 0.97173 - Viscosity (mPa s) = 0.65658 + Viscosity (mPa s) = 0.65680 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.229e-01 Mass of water (kg) = 1.001e+00 @@ -4820,10 +4820,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.969e+00 -3.108e-02 pH = 6.596 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 8402 + Specific Conductance (µS/cm, 45°C) = 8398 Density (g/cm³) = 1.03363 Volume (L) = 0.97264 - Viscosity (mPa s) = 0.63384 + Viscosity (mPa s) = 0.63408 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.242e-01 Mass of water (kg) = 1.001e+00 @@ -4890,10 +4890,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.969e+00 -3.136e-02 pH = 6.569 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 47°C) = 8675 + Specific Conductance (µS/cm, 47°C) = 8671 Density (g/cm³) = 1.03269 Volume (L) = 0.97357 - Viscosity (mPa s) = 0.61236 + Viscosity (mPa s) = 0.61262 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.253e-01 Mass of water (kg) = 1.001e+00 @@ -4960,10 +4960,10 @@ Gypsum 0.00 -4.23 -4.23 1.000e+01 9.968e+00 -3.161e-02 pH = 6.543 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 49°C) = 8940 + Specific Conductance (µS/cm, 49°C) = 8936 Density (g/cm³) = 1.03173 Volume (L) = 0.97452 - Viscosity (mPa s) = 0.59205 + Viscosity (mPa s) = 0.59233 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.263e-01 Mass of water (kg) = 1.001e+00 @@ -5030,10 +5030,10 @@ Gypsum 0.00 -4.24 -4.24 1.000e+01 9.968e+00 -3.182e-02 pH = 6.518 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 51°C) = 9197 + Specific Conductance (µS/cm, 51°C) = 9192 Density (g/cm³) = 1.03075 Volume (L) = 0.97548 - Viscosity (mPa s) = 0.57283 + Viscosity (mPa s) = 0.57312 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.271e-01 Mass of water (kg) = 1.001e+00 @@ -5100,10 +5100,10 @@ Gypsum 0.00 -4.24 -4.24 1.000e+01 9.968e+00 -3.199e-02 pH = 6.493 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 9445 + Specific Conductance (µS/cm, 54°C) = 9440 Density (g/cm³) = 1.02976 Volume (L) = 0.97645 - Viscosity (mPa s) = 0.55462 + Viscosity (mPa s) = 0.55493 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.278e-01 Mass of water (kg) = 1.001e+00 @@ -5170,10 +5170,10 @@ Gypsum 0.00 -4.25 -4.25 1.000e+01 9.968e+00 -3.214e-02 pH = 6.469 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 56°C) = 9685 + Specific Conductance (µS/cm, 56°C) = 9679 Density (g/cm³) = 1.02874 Volume (L) = 0.97744 - Viscosity (mPa s) = 0.53735 + Viscosity (mPa s) = 0.53768 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.284e-01 Mass of water (kg) = 1.001e+00 @@ -5240,10 +5240,10 @@ Gypsum 0.00 -4.25 -4.25 1.000e+01 9.968e+00 -3.225e-02 pH = 6.446 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 9917 + Specific Conductance (µS/cm, 58°C) = 9910 Density (g/cm³) = 1.02770 Volume (L) = 0.97845 - Viscosity (mPa s) = 0.52096 + Viscosity (mPa s) = 0.52131 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.288e-01 Mass of water (kg) = 1.001e+00 @@ -5310,10 +5310,10 @@ Gypsum 0.00 -4.26 -4.26 1.000e+01 9.968e+00 -3.233e-02 pH = 6.424 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 10139 + Specific Conductance (µS/cm, 60°C) = 10132 Density (g/cm³) = 1.02664 Volume (L) = 0.97947 - Viscosity (mPa s) = 0.50540 + Viscosity (mPa s) = 0.50575 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.292e-01 Mass of water (kg) = 1.001e+00 @@ -5380,10 +5380,10 @@ Gypsum 0.00 -4.26 -4.26 1.000e+01 9.968e+00 -3.238e-02 pH = 6.402 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 10354 + Specific Conductance (µS/cm, 62°C) = 10346 Density (g/cm³) = 1.02556 Volume (L) = 0.98051 - Viscosity (mPa s) = 0.49059 + Viscosity (mPa s) = 0.49096 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.294e-01 Mass of water (kg) = 1.001e+00 @@ -5450,10 +5450,10 @@ Gypsum 0.00 -4.27 -4.27 1.000e+01 9.968e+00 -3.240e-02 pH = 6.381 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 64°C) = 10559 + Specific Conductance (µS/cm, 64°C) = 10551 Density (g/cm³) = 1.02447 Volume (L) = 0.98156 - Viscosity (mPa s) = 0.47651 + Viscosity (mPa s) = 0.47689 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.295e-01 Mass of water (kg) = 1.001e+00 @@ -5520,10 +5520,10 @@ Gypsum 0.00 -4.28 -4.28 1.000e+01 9.968e+00 -3.240e-02 pH = 6.360 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 66°C) = 10757 + Specific Conductance (µS/cm, 66°C) = 10747 Density (g/cm³) = 1.02335 Volume (L) = 0.98263 - Viscosity (mPa s) = 0.46309 + Viscosity (mPa s) = 0.46349 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.294e-01 Mass of water (kg) = 1.001e+00 @@ -5590,10 +5590,10 @@ Gypsum 0.00 -4.29 -4.29 1.000e+01 9.968e+00 -3.237e-02 pH = 6.341 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 10946 + Specific Conductance (µS/cm, 69°C) = 10936 Density (g/cm³) = 1.02222 Volume (L) = 0.98372 - Viscosity (mPa s) = 0.45031 + Viscosity (mPa s) = 0.45072 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.293e-01 Mass of water (kg) = 1.001e+00 @@ -5660,10 +5660,10 @@ Gypsum 0.00 -4.30 -4.30 1.000e+01 9.968e+00 -3.231e-02 pH = 6.322 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 71°C) = 11128 + Specific Conductance (µS/cm, 71°C) = 11117 Density (g/cm³) = 1.02107 Volume (L) = 0.98481 - Viscosity (mPa s) = 0.43812 + Viscosity (mPa s) = 0.43854 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.291e-01 Mass of water (kg) = 1.001e+00 @@ -5730,10 +5730,10 @@ Gypsum 0.00 -4.31 -4.31 1.000e+01 9.968e+00 -3.223e-02 pH = 6.303 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 11302 + Specific Conductance (µS/cm, 73°C) = 11290 Density (g/cm³) = 1.01990 Volume (L) = 0.98593 - Viscosity (mPa s) = 0.42649 + Viscosity (mPa s) = 0.42692 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.288e-01 Mass of water (kg) = 1.001e+00 @@ -5800,10 +5800,10 @@ Gypsum 0.00 -4.32 -4.32 1.000e+01 9.968e+00 -3.213e-02 pH = 6.285 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 11469 + Specific Conductance (µS/cm, 75°C) = 11457 Density (g/cm³) = 1.01872 Volume (L) = 0.98706 - Viscosity (mPa s) = 0.41537 + Viscosity (mPa s) = 0.41582 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.284e-01 Mass of water (kg) = 1.001e+00 @@ -5870,10 +5870,10 @@ Gypsum 0.00 -4.33 -4.33 1.000e+01 9.968e+00 -3.201e-02 pH = 6.268 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 11630 + Specific Conductance (µS/cm, 77°C) = 11617 Density (g/cm³) = 1.01752 Volume (L) = 0.98820 - Viscosity (mPa s) = 0.40476 + Viscosity (mPa s) = 0.40521 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.279e-01 Mass of water (kg) = 1.001e+00 @@ -5940,10 +5940,10 @@ Gypsum 0.00 -4.34 -4.34 1.000e+01 9.968e+00 -3.186e-02 pH = 6.251 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 79°C) = 11785 + Specific Conductance (µS/cm, 79°C) = 11771 Density (g/cm³) = 1.01630 Volume (L) = 0.98936 - Viscosity (mPa s) = 0.39460 + Viscosity (mPa s) = 0.39506 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.273e-01 Mass of water (kg) = 1.001e+00 @@ -6010,10 +6010,10 @@ Gypsum 0.00 -4.35 -4.35 1.000e+01 9.968e+00 -3.170e-02 pH = 6.235 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 11977 + Specific Conductance (µS/cm, 81°C) = 11962 Density (g/cm³) = 1.01507 Volume (L) = 0.99053 - Viscosity (mPa s) = 0.38489 + Viscosity (mPa s) = 0.38536 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.267e-01 Mass of water (kg) = 1.001e+00 @@ -6080,10 +6080,10 @@ Gypsum 0.00 -4.36 -4.36 1.000e+01 9.968e+00 -3.152e-02 pH = 6.219 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 84°C) = 12176 + Specific Conductance (µS/cm, 84°C) = 12160 Density (g/cm³) = 1.01382 Volume (L) = 0.99172 - Viscosity (mPa s) = 0.37558 + Viscosity (mPa s) = 0.37606 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.259e-01 Mass of water (kg) = 1.001e+00 @@ -6150,10 +6150,10 @@ Gypsum 0.00 -4.37 -4.37 1.000e+01 9.969e+00 -3.132e-02 pH = 6.204 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 86°C) = 12366 + Specific Conductance (µS/cm, 86°C) = 12350 Density (g/cm³) = 1.01255 Volume (L) = 0.99293 - Viscosity (mPa s) = 0.36667 + Viscosity (mPa s) = 0.36716 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.251e-01 Mass of water (kg) = 1.001e+00 @@ -6220,10 +6220,10 @@ Gypsum 0.00 -4.38 -4.38 1.000e+01 9.969e+00 -3.110e-02 pH = 6.190 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 88°C) = 12549 + Specific Conductance (µS/cm, 88°C) = 12531 Density (g/cm³) = 1.01127 Volume (L) = 0.99415 - Viscosity (mPa s) = 0.35813 + Viscosity (mPa s) = 0.35862 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.243e-01 Mass of water (kg) = 1.001e+00 @@ -6290,10 +6290,10 @@ Gypsum 0.00 -4.39 -4.39 1.000e+01 9.969e+00 -3.087e-02 pH = 6.176 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 90°C) = 12723 + Specific Conductance (µS/cm, 90°C) = 12704 Density (g/cm³) = 1.00997 Volume (L) = 0.99539 - Viscosity (mPa s) = 0.34994 + Viscosity (mPa s) = 0.35044 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.234e-01 Mass of water (kg) = 1.001e+00 @@ -6444,10 +6444,10 @@ Anhydrite 0.00 -4.60 -4.60 1.000e+01 9.983e+00 -1.735e-02 pH = 6.738 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 5034 + Specific Conductance (µS/cm, 50°C) = 5032 Density (g/cm³) = 0.99037 Volume (L) = 1.01211 - Viscosity (mPa s) = 0.55562 + Viscosity (mPa s) = 0.55583 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.941e-02 Mass of water (kg) = 1.000e+00 @@ -6513,10 +6513,10 @@ Anhydrite 0.00 -4.65 -4.65 1.000e+01 9.984e+00 -1.596e-02 pH = 6.695 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 4989 + Specific Conductance (µS/cm, 54°C) = 4986 Density (g/cm³) = 0.98838 Volume (L) = 1.01395 - Viscosity (mPa s) = 0.52077 + Viscosity (mPa s) = 0.52098 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.383e-02 Mass of water (kg) = 1.000e+00 @@ -6582,10 +6582,10 @@ Anhydrite 0.00 -4.71 -4.71 1.000e+01 9.985e+00 -1.465e-02 pH = 6.653 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 4922 + Specific Conductance (µS/cm, 58°C) = 4920 Density (g/cm³) = 0.98631 Volume (L) = 1.01590 - Viscosity (mPa s) = 0.48938 + Viscosity (mPa s) = 0.48960 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.860e-02 Mass of water (kg) = 1.000e+00 @@ -6651,10 +6651,10 @@ Anhydrite 0.00 -4.77 -4.77 1.000e+01 9.987e+00 -1.343e-02 pH = 6.613 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 4837 + Specific Conductance (µS/cm, 62°C) = 4834 Density (g/cm³) = 0.98416 Volume (L) = 1.01795 - Viscosity (mPa s) = 0.46100 + Viscosity (mPa s) = 0.46123 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.373e-02 Mass of water (kg) = 1.000e+00 @@ -6720,10 +6720,10 @@ Anhydrite 0.00 -4.83 -4.83 1.000e+01 9.988e+00 -1.230e-02 pH = 6.575 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 4733 + Specific Conductance (µS/cm, 65°C) = 4731 Density (g/cm³) = 0.98194 Volume (L) = 1.02010 - Viscosity (mPa s) = 0.43527 + Viscosity (mPa s) = 0.43550 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.919e-02 Mass of water (kg) = 1.000e+00 @@ -6789,10 +6789,10 @@ Anhydrite 0.00 -4.89 -4.89 1.000e+01 9.989e+00 -1.124e-02 pH = 6.539 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 4613 + Specific Conductance (µS/cm, 69°C) = 4611 Density (g/cm³) = 0.97964 Volume (L) = 1.02235 - Viscosity (mPa s) = 0.41186 + Viscosity (mPa s) = 0.41209 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.497e-02 Mass of water (kg) = 1.000e+00 @@ -6858,10 +6858,10 @@ Anhydrite 0.00 -4.95 -4.95 1.000e+01 9.990e+00 -1.026e-02 pH = 6.504 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 4479 + Specific Conductance (µS/cm, 73°C) = 4477 Density (g/cm³) = 0.97727 Volume (L) = 1.02469 - Viscosity (mPa s) = 0.39050 + Viscosity (mPa s) = 0.39074 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.105e-02 Mass of water (kg) = 1.000e+00 @@ -6927,10 +6927,10 @@ Anhydrite 0.00 -5.01 -5.01 1.000e+01 9.991e+00 -9.355e-03 pH = 6.471 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 4333 + Specific Conductance (µS/cm, 77°C) = 4330 Density (g/cm³) = 0.97483 Volume (L) = 1.02712 - Viscosity (mPa s) = 0.37097 + Viscosity (mPa s) = 0.37120 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.742e-02 Mass of water (kg) = 1.000e+00 @@ -6996,10 +6996,10 @@ Anhydrite 0.00 -5.07 -5.07 1.000e+01 9.991e+00 -8.515e-03 pH = 6.440 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 4177 + Specific Conductance (µS/cm, 81°C) = 4174 Density (g/cm³) = 0.97233 Volume (L) = 1.02965 - Viscosity (mPa s) = 0.35306 + Viscosity (mPa s) = 0.35329 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.406e-02 Mass of water (kg) = 1.000e+00 @@ -7065,10 +7065,10 @@ Anhydrite 0.00 -5.13 -5.13 1.000e+01 9.992e+00 -7.741e-03 pH = 6.410 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 4012 + Specific Conductance (µS/cm, 85°C) = 4009 Density (g/cm³) = 0.96976 Volume (L) = 1.03227 - Viscosity (mPa s) = 0.33659 + Viscosity (mPa s) = 0.33682 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.096e-02 Mass of water (kg) = 1.000e+00 @@ -7134,10 +7134,10 @@ Anhydrite 0.00 -5.19 -5.19 1.000e+01 9.993e+00 -7.027e-03 pH = 6.382 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 89°C) = 3841 + Specific Conductance (µS/cm, 89°C) = 3838 Density (g/cm³) = 0.96712 Volume (L) = 1.03499 - Viscosity (mPa s) = 0.32142 + Viscosity (mPa s) = 0.32164 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.811e-02 Mass of water (kg) = 1.000e+00 @@ -7203,10 +7203,10 @@ Anhydrite 0.00 -5.25 -5.25 1.000e+01 9.994e+00 -6.372e-03 pH = 6.355 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 3665 + Specific Conductance (µS/cm, 93°C) = 3662 Density (g/cm³) = 0.96442 Volume (L) = 1.03779 - Viscosity (mPa s) = 0.30741 + Viscosity (mPa s) = 0.30763 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.549e-02 Mass of water (kg) = 1.000e+00 @@ -7272,10 +7272,10 @@ Anhydrite 0.00 -5.31 -5.31 1.000e+01 9.994e+00 -5.772e-03 pH = 6.329 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 96°C) = 3487 + Specific Conductance (µS/cm, 96°C) = 3484 Density (g/cm³) = 0.96165 Volume (L) = 1.04069 - Viscosity (mPa s) = 0.29445 + Viscosity (mPa s) = 0.29466 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.309e-02 Mass of water (kg) = 1.000e+00 @@ -7341,10 +7341,10 @@ Anhydrite 0.00 -5.38 -5.38 1.000e+01 9.995e+00 -5.223e-03 pH = 6.305 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 3308 + Specific Conductance (µS/cm, 100°C) = 3305 Density (g/cm³) = 0.95883 Volume (L) = 1.04368 - Viscosity (mPa s) = 0.28243 + Viscosity (mPa s) = 0.28264 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.089e-02 Mass of water (kg) = 1.000e+00 @@ -7411,10 +7411,10 @@ Anhydrite 0.00 -5.44 -5.44 1.000e+01 9.995e+00 -4.723e-03 pH = 6.282 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 3130 + Specific Conductance (µS/cm, 104°C) = 3128 Density (g/cm³) = 0.95594 Volume (L) = 1.04676 - Viscosity (mPa s) = 0.27127 + Viscosity (mPa s) = 0.27148 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.889e-02 Mass of water (kg) = 1.000e+00 @@ -7481,10 +7481,10 @@ Anhydrite 0.00 -5.50 -5.50 1.000e+01 9.996e+00 -4.268e-03 pH = 6.260 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 108°C) = 2954 + Specific Conductance (µS/cm, 108°C) = 2952 Density (g/cm³) = 0.95300 Volume (L) = 1.04993 - Viscosity (mPa s) = 0.26090 + Viscosity (mPa s) = 0.26109 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.707e-02 Mass of water (kg) = 1.000e+00 @@ -7551,10 +7551,10 @@ Anhydrite 0.00 -5.57 -5.57 1.000e+01 9.996e+00 -3.854e-03 pH = 6.239 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 112°C) = 2782 + Specific Conductance (µS/cm, 112°C) = 2780 Density (g/cm³) = 0.94999 Volume (L) = 1.05319 - Viscosity (mPa s) = 0.25122 + Viscosity (mPa s) = 0.25142 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.542e-02 Mass of water (kg) = 1.000e+00 @@ -7621,10 +7621,10 @@ Anhydrite -0.00 -5.63 -5.63 1.000e+01 9.997e+00 -3.479e-03 pH = 6.219 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 116°C) = 2615 + Specific Conductance (µS/cm, 116°C) = 2612 Density (g/cm³) = 0.94693 Volume (L) = 1.05655 - Viscosity (mPa s) = 0.24219 + Viscosity (mPa s) = 0.24238 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.392e-02 Mass of water (kg) = 1.000e+00 @@ -7691,10 +7691,10 @@ Anhydrite 0.00 -5.70 -5.70 1.000e+01 9.997e+00 -3.140e-03 pH = 6.201 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 2452 + Specific Conductance (µS/cm, 120°C) = 2450 Density (g/cm³) = 0.94380 Volume (L) = 1.06000 - Viscosity (mPa s) = 0.23375 + Viscosity (mPa s) = 0.23393 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.256e-02 Mass of water (kg) = 1.000e+00 @@ -7761,10 +7761,10 @@ Anhydrite 0.00 -5.76 -5.76 1.000e+01 9.997e+00 -2.833e-03 pH = 6.184 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 124°C) = 2296 + Specific Conductance (µS/cm, 124°C) = 2294 Density (g/cm³) = 0.94061 Volume (L) = 1.06355 - Viscosity (mPa s) = 0.22585 + Viscosity (mPa s) = 0.22602 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.133e-02 Mass of water (kg) = 1.000e+00 @@ -7831,10 +7831,10 @@ Anhydrite -0.00 -5.83 -5.83 1.000e+01 9.997e+00 -2.556e-03 pH = 6.168 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 2146 + Specific Conductance (µS/cm, 127°C) = 2144 Density (g/cm³) = 0.93737 Volume (L) = 1.06719 - Viscosity (mPa s) = 0.21844 + Viscosity (mPa s) = 0.21860 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.022e-02 Mass of water (kg) = 1.000e+00 @@ -7901,10 +7901,10 @@ Anhydrite 0.00 -5.90 -5.90 1.000e+01 9.998e+00 -2.306e-03 pH = 6.152 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 131°C) = 2003 + Specific Conductance (µS/cm, 131°C) = 2001 Density (g/cm³) = 0.93406 Volume (L) = 1.07093 - Viscosity (mPa s) = 0.21147 + Viscosity (mPa s) = 0.21164 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.222e-03 Mass of water (kg) = 1.000e+00 @@ -7971,10 +7971,10 @@ Anhydrite 0.00 -5.96 -5.96 1.000e+01 9.998e+00 -2.081e-03 pH = 6.138 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 135°C) = 1867 + Specific Conductance (µS/cm, 135°C) = 1865 Density (g/cm³) = 0.93069 Volume (L) = 1.07477 - Viscosity (mPa s) = 0.20493 + Viscosity (mPa s) = 0.20509 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.321e-03 Mass of water (kg) = 1.000e+00 @@ -8041,10 +8041,10 @@ Anhydrite 0.00 -6.03 -6.03 1.000e+01 9.998e+00 -1.878e-03 pH = 6.125 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 139°C) = 1738 + Specific Conductance (µS/cm, 139°C) = 1737 Density (g/cm³) = 0.92726 Volume (L) = 1.07872 - Viscosity (mPa s) = 0.19876 + Viscosity (mPa s) = 0.19891 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.510e-03 Mass of water (kg) = 1.000e+00 @@ -8111,10 +8111,10 @@ Anhydrite 0.00 -6.10 -6.10 1.000e+01 9.998e+00 -1.695e-03 pH = 6.113 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 143°C) = 1617 + Specific Conductance (µS/cm, 143°C) = 1615 Density (g/cm³) = 0.92377 Volume (L) = 1.08277 - Viscosity (mPa s) = 0.19295 + Viscosity (mPa s) = 0.19310 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.780e-03 Mass of water (kg) = 1.000e+00 @@ -8181,10 +8181,10 @@ Anhydrite 0.00 -6.17 -6.17 1.000e+01 9.998e+00 -1.531e-03 pH = 6.102 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 147°C) = 1502 + Specific Conductance (µS/cm, 147°C) = 1501 Density (g/cm³) = 0.92022 Volume (L) = 1.08692 - Viscosity (mPa s) = 0.18746 + Viscosity (mPa s) = 0.18760 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.123e-03 Mass of water (kg) = 1.000e+00 @@ -8251,10 +8251,10 @@ Anhydrite -0.00 -6.23 -6.23 1.000e+01 9.999e+00 -1.384e-03 pH = 6.092 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 151°C) = 1395 + Specific Conductance (µS/cm, 151°C) = 1394 Density (g/cm³) = 0.91660 Volume (L) = 1.09119 - Viscosity (mPa s) = 0.18227 + Viscosity (mPa s) = 0.18241 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.533e-03 Mass of water (kg) = 1.000e+00 @@ -8321,10 +8321,10 @@ Anhydrite 0.00 -6.30 -6.30 1.000e+01 9.999e+00 -1.251e-03 pH = 6.082 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 1294 + Specific Conductance (µS/cm, 155°C) = 1293 Density (g/cm³) = 0.91293 Volume (L) = 1.09556 - Viscosity (mPa s) = 0.17736 + Viscosity (mPa s) = 0.17750 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.001e-03 Mass of water (kg) = 1.000e+00 @@ -8391,10 +8391,10 @@ Anhydrite 0.00 -6.37 -6.37 1.000e+01 9.999e+00 -1.131e-03 pH = 6.074 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 158°C) = 1200 + Specific Conductance (µS/cm, 158°C) = 1199 Density (g/cm³) = 0.90919 Volume (L) = 1.10005 - Viscosity (mPa s) = 0.17271 + Viscosity (mPa s) = 0.17284 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.523e-03 Mass of water (kg) = 1.000e+00 @@ -8461,10 +8461,10 @@ Anhydrite 0.00 -6.44 -6.44 1.000e+01 9.999e+00 -1.024e-03 pH = 6.067 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 162°C) = 1112 + Specific Conductance (µS/cm, 162°C) = 1111 Density (g/cm³) = 0.90538 Volume (L) = 1.10466 - Viscosity (mPa s) = 0.16829 + Viscosity (mPa s) = 0.16842 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.093e-03 Mass of water (kg) = 1.000e+00 @@ -8534,7 +8534,7 @@ Anhydrite 0.00 -6.51 -6.51 1.000e+01 9.999e+00 -9.271e-04 Specific Conductance (µS/cm, 166°C) = 1029 Density (g/cm³) = 0.90151 Volume (L) = 1.10939 - Viscosity (mPa s) = 0.16410 + Viscosity (mPa s) = 0.16422 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.706e-03 Mass of water (kg) = 1.000e+00 @@ -8601,10 +8601,10 @@ Anhydrite 0.00 -6.58 -6.58 1.000e+01 9.999e+00 -8.400e-04 pH = 6.054 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 953 + Specific Conductance (µS/cm, 170°C) = 952 Density (g/cm³) = 0.89758 Volume (L) = 1.11424 - Viscosity (mPa s) = 0.16011 + Viscosity (mPa s) = 0.16023 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.358e-03 Mass of water (kg) = 1.000e+00 @@ -8755,10 +8755,10 @@ Anhydrite 0.00 -4.28 -4.28 1.000e+01 9.970e+00 -3.022e-02 pH = 6.638 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 8302 + Specific Conductance (µS/cm, 50°C) = 8298 Density (g/cm³) = 1.01250 Volume (L) = 0.99172 - Viscosity (mPa s) = 0.57208 + Viscosity (mPa s) = 0.57235 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.209e-01 Mass of water (kg) = 1.000e+00 @@ -8825,10 +8825,10 @@ Anhydrite 0.00 -4.34 -4.34 1.000e+01 9.972e+00 -2.786e-02 pH = 6.594 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 8167 + Specific Conductance (µS/cm, 54°C) = 8163 Density (g/cm³) = 1.01039 Volume (L) = 0.99347 - Viscosity (mPa s) = 0.53727 + Viscosity (mPa s) = 0.53756 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.114e-01 Mass of water (kg) = 1.000e+00 @@ -8895,10 +8895,10 @@ Anhydrite 0.00 -4.39 -4.39 1.000e+01 9.974e+00 -2.566e-02 pH = 6.552 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 8016 + Specific Conductance (µS/cm, 58°C) = 8011 Density (g/cm³) = 1.00823 Volume (L) = 0.99530 - Viscosity (mPa s) = 0.50584 + Viscosity (mPa s) = 0.50614 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.026e-01 Mass of water (kg) = 1.000e+00 @@ -8965,10 +8965,10 @@ Anhydrite 0.00 -4.45 -4.45 1.000e+01 9.976e+00 -2.360e-02 pH = 6.512 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 7849 + Specific Conductance (µS/cm, 62°C) = 7844 Density (g/cm³) = 1.00602 Volume (L) = 0.99721 - Viscosity (mPa s) = 0.47737 + Viscosity (mPa s) = 0.47768 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.440e-02 Mass of water (kg) = 1.000e+00 @@ -9035,10 +9035,10 @@ Anhydrite 0.00 -4.51 -4.51 1.000e+01 9.978e+00 -2.168e-02 pH = 6.473 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 7667 + Specific Conductance (µS/cm, 65°C) = 7662 Density (g/cm³) = 1.00376 Volume (L) = 0.99919 - Viscosity (mPa s) = 0.45149 + Viscosity (mPa s) = 0.45181 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.673e-02 Mass of water (kg) = 1.000e+00 @@ -9105,10 +9105,10 @@ Anhydrite 0.00 -4.56 -4.56 1.000e+01 9.980e+00 -1.990e-02 pH = 6.437 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 7471 + Specific Conductance (µS/cm, 69°C) = 7466 Density (g/cm³) = 1.00146 Volume (L) = 1.00125 - Viscosity (mPa s) = 0.42792 + Viscosity (mPa s) = 0.42823 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.958e-02 Mass of water (kg) = 1.000e+00 @@ -9175,10 +9175,10 @@ Anhydrite 0.00 -4.62 -4.62 1.000e+01 9.982e+00 -1.823e-02 pH = 6.402 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 7262 + Specific Conductance (µS/cm, 73°C) = 7256 Density (g/cm³) = 0.99911 Volume (L) = 1.00338 - Viscosity (mPa s) = 0.40637 + Viscosity (mPa s) = 0.40669 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.293e-02 Mass of water (kg) = 1.000e+00 @@ -9245,10 +9245,10 @@ Anhydrite 0.00 -4.68 -4.68 1.000e+01 9.983e+00 -1.669e-02 pH = 6.369 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 7041 + Specific Conductance (µS/cm, 77°C) = 7035 Density (g/cm³) = 0.99671 Volume (L) = 1.00558 - Viscosity (mPa s) = 0.38664 + Viscosity (mPa s) = 0.38696 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.675e-02 Mass of water (kg) = 1.000e+00 @@ -9315,10 +9315,10 @@ Anhydrite 0.00 -4.74 -4.74 1.000e+01 9.985e+00 -1.525e-02 pH = 6.337 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 6808 + Specific Conductance (µS/cm, 81°C) = 6802 Density (g/cm³) = 0.99427 Volume (L) = 1.00785 - Viscosity (mPa s) = 0.36852 + Viscosity (mPa s) = 0.36883 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.102e-02 Mass of water (kg) = 1.000e+00 @@ -9385,10 +9385,10 @@ Anhydrite 0.00 -4.80 -4.80 1.000e+01 9.986e+00 -1.393e-02 pH = 6.307 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 6574 + Specific Conductance (µS/cm, 85°C) = 6568 Density (g/cm³) = 0.99178 Volume (L) = 1.01020 - Viscosity (mPa s) = 0.35184 + Viscosity (mPa s) = 0.35215 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.571e-02 Mass of water (kg) = 1.000e+00 @@ -9455,10 +9455,10 @@ Anhydrite 0.00 -4.86 -4.86 1.000e+01 9.987e+00 -1.270e-02 pH = 6.279 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 89°C) = 6334 + Specific Conductance (µS/cm, 89°C) = 6328 Density (g/cm³) = 0.98925 Volume (L) = 1.01262 - Viscosity (mPa s) = 0.33646 + Viscosity (mPa s) = 0.33677 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.079e-02 Mass of water (kg) = 1.000e+00 @@ -9525,10 +9525,10 @@ Anhydrite 0.00 -4.92 -4.92 1.000e+01 9.988e+00 -1.156e-02 pH = 6.251 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 6082 + Specific Conductance (µS/cm, 93°C) = 6077 Density (g/cm³) = 0.98667 Volume (L) = 1.01510 - Viscosity (mPa s) = 0.32225 + Viscosity (mPa s) = 0.32255 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.625e-02 Mass of water (kg) = 1.000e+00 @@ -9595,10 +9595,10 @@ Anhydrite 0.00 -4.98 -4.98 1.000e+01 9.989e+00 -1.051e-02 pH = 6.226 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 96°C) = 5822 + Specific Conductance (µS/cm, 96°C) = 5817 Density (g/cm³) = 0.98405 Volume (L) = 1.01766 - Viscosity (mPa s) = 0.30909 + Viscosity (mPa s) = 0.30938 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.206e-02 Mass of water (kg) = 1.000e+00 @@ -9665,10 +9665,10 @@ Anhydrite 0.00 -5.04 -5.04 1.000e+01 9.990e+00 -9.550e-03 pH = 6.201 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 5556 + Specific Conductance (µS/cm, 100°C) = 5551 Density (g/cm³) = 0.98138 Volume (L) = 1.02029 - Viscosity (mPa s) = 0.29688 + Viscosity (mPa s) = 0.29717 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.820e-02 Mass of water (kg) = 1.000e+00 @@ -9735,10 +9735,10 @@ Anhydrite 0.00 -5.10 -5.10 1.000e+01 9.991e+00 -8.665e-03 pH = 6.178 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 5286 + Specific Conductance (µS/cm, 104°C) = 5281 Density (g/cm³) = 0.97867 Volume (L) = 1.02300 - Viscosity (mPa s) = 0.28553 + Viscosity (mPa s) = 0.28581 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.466e-02 Mass of water (kg) = 1.000e+00 @@ -9805,10 +9805,10 @@ Anhydrite 0.00 -5.17 -5.17 1.000e+01 9.992e+00 -7.853e-03 pH = 6.156 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 108°C) = 5015 + Specific Conductance (µS/cm, 108°C) = 5010 Density (g/cm³) = 0.97591 Volume (L) = 1.02578 - Viscosity (mPa s) = 0.27496 + Viscosity (mPa s) = 0.27524 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.141e-02 Mass of water (kg) = 1.000e+00 @@ -9875,10 +9875,10 @@ Anhydrite 0.00 -5.23 -5.23 1.000e+01 9.993e+00 -7.110e-03 pH = 6.135 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 112°C) = 4745 + Specific Conductance (µS/cm, 112°C) = 4740 Density (g/cm³) = 0.97311 Volume (L) = 1.02863 - Viscosity (mPa s) = 0.26511 + Viscosity (mPa s) = 0.26538 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.844e-02 Mass of water (kg) = 1.000e+00 @@ -9945,10 +9945,10 @@ Anhydrite 0.00 -5.29 -5.29 1.000e+01 9.994e+00 -6.431e-03 pH = 6.116 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 116°C) = 4479 + Specific Conductance (µS/cm, 116°C) = 4474 Density (g/cm³) = 0.97026 Volume (L) = 1.03155 - Viscosity (mPa s) = 0.25590 + Viscosity (mPa s) = 0.25616 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.573e-02 Mass of water (kg) = 1.000e+00 @@ -10015,10 +10015,10 @@ Anhydrite 0.00 -5.35 -5.35 1.000e+01 9.994e+00 -5.814e-03 pH = 6.097 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 4217 + Specific Conductance (µS/cm, 120°C) = 4212 Density (g/cm³) = 0.96737 Volume (L) = 1.03455 - Viscosity (mPa s) = 0.24729 + Viscosity (mPa s) = 0.24754 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.325e-02 Mass of water (kg) = 1.000e+00 @@ -10085,10 +10085,10 @@ Anhydrite 0.00 -5.42 -5.42 1.000e+01 9.995e+00 -5.252e-03 pH = 6.079 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 124°C) = 3962 + Specific Conductance (µS/cm, 124°C) = 3957 Density (g/cm³) = 0.96443 Volume (L) = 1.03762 - Viscosity (mPa s) = 0.23922 + Viscosity (mPa s) = 0.23947 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.101e-02 Mass of water (kg) = 1.000e+00 @@ -10155,10 +10155,10 @@ Anhydrite 0.00 -5.48 -5.48 1.000e+01 9.995e+00 -4.743e-03 pH = 6.063 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 3715 + Specific Conductance (µS/cm, 127°C) = 3711 Density (g/cm³) = 0.96145 Volume (L) = 1.04077 - Viscosity (mPa s) = 0.23165 + Viscosity (mPa s) = 0.23189 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.897e-02 Mass of water (kg) = 1.000e+00 @@ -10225,10 +10225,10 @@ Anhydrite 0.00 -5.54 -5.54 1.000e+01 9.996e+00 -4.282e-03 pH = 6.048 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 131°C) = 3477 + Specific Conductance (µS/cm, 131°C) = 3473 Density (g/cm³) = 0.95842 Volume (L) = 1.04400 - Viscosity (mPa s) = 0.22454 + Viscosity (mPa s) = 0.22477 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.713e-02 Mass of water (kg) = 1.000e+00 @@ -10295,10 +10295,10 @@ Anhydrite 0.00 -5.60 -5.60 1.000e+01 9.996e+00 -3.866e-03 pH = 6.033 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 135°C) = 3249 + Specific Conductance (µS/cm, 135°C) = 3246 Density (g/cm³) = 0.95534 Volume (L) = 1.04730 - Viscosity (mPa s) = 0.21785 + Viscosity (mPa s) = 0.21807 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.546e-02 Mass of water (kg) = 1.000e+00 @@ -10365,10 +10365,10 @@ Anhydrite 0.00 -5.67 -5.67 1.000e+01 9.997e+00 -3.490e-03 pH = 6.019 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 139°C) = 3032 + Specific Conductance (µS/cm, 139°C) = 3029 Density (g/cm³) = 0.95222 Volume (L) = 1.05068 - Viscosity (mPa s) = 0.21155 + Viscosity (mPa s) = 0.21176 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.396e-02 Mass of water (kg) = 1.000e+00 @@ -10435,10 +10435,10 @@ Anhydrite 0.00 -5.73 -5.73 1.000e+01 9.997e+00 -3.151e-03 pH = 6.007 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 143°C) = 2826 + Specific Conductance (µS/cm, 143°C) = 2823 Density (g/cm³) = 0.94905 Volume (L) = 1.05414 - Viscosity (mPa s) = 0.20560 + Viscosity (mPa s) = 0.20581 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.260e-02 Mass of water (kg) = 1.000e+00 @@ -10505,10 +10505,10 @@ Anhydrite 0.00 -5.79 -5.79 1.000e+01 9.997e+00 -2.847e-03 pH = 5.995 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 147°C) = 2632 + Specific Conductance (µS/cm, 147°C) = 2629 Density (g/cm³) = 0.94583 Volume (L) = 1.05768 - Viscosity (mPa s) = 0.19999 + Viscosity (mPa s) = 0.20019 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.139e-02 Mass of water (kg) = 1.000e+00 @@ -10575,10 +10575,10 @@ Anhydrite 0.00 -5.86 -5.86 1.000e+01 9.997e+00 -2.573e-03 pH = 5.984 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 151°C) = 2448 + Specific Conductance (µS/cm, 151°C) = 2446 Density (g/cm³) = 0.94257 Volume (L) = 1.06130 - Viscosity (mPa s) = 0.19468 + Viscosity (mPa s) = 0.19488 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.029e-02 Mass of water (kg) = 1.000e+00 @@ -10645,10 +10645,10 @@ Anhydrite 0.00 -5.92 -5.92 1.000e+01 9.998e+00 -2.327e-03 pH = 5.974 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 2276 + Specific Conductance (µS/cm, 155°C) = 2274 Density (g/cm³) = 0.93926 Volume (L) = 1.06501 - Viscosity (mPa s) = 0.18966 + Viscosity (mPa s) = 0.18985 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.304e-03 Mass of water (kg) = 1.000e+00 @@ -10715,10 +10715,10 @@ Anhydrite 0.00 -5.98 -5.98 1.000e+01 9.998e+00 -2.106e-03 pH = 5.965 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 158°C) = 2115 + Specific Conductance (µS/cm, 158°C) = 2113 Density (g/cm³) = 0.93590 Volume (L) = 1.06879 - Viscosity (mPa s) = 0.18490 + Viscosity (mPa s) = 0.18508 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.420e-03 Mass of water (kg) = 1.000e+00 @@ -10785,10 +10785,10 @@ Anhydrite 0.00 -6.05 -6.05 1.000e+01 9.998e+00 -1.907e-03 pH = 5.957 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 162°C) = 1965 + Specific Conductance (µS/cm, 162°C) = 1963 Density (g/cm³) = 0.93250 Volume (L) = 1.07266 - Viscosity (mPa s) = 0.18038 + Viscosity (mPa s) = 0.18056 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.626e-03 Mass of water (kg) = 1.000e+00 @@ -10855,10 +10855,10 @@ Anhydrite 0.00 -6.11 -6.11 1.000e+01 9.998e+00 -1.729e-03 pH = 5.949 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 166°C) = 1825 + Specific Conductance (µS/cm, 166°C) = 1823 Density (g/cm³) = 0.92905 Volume (L) = 1.07662 - Viscosity (mPa s) = 0.17609 + Viscosity (mPa s) = 0.17627 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.913e-03 Mass of water (kg) = 1.000e+00 @@ -10925,10 +10925,10 @@ Anhydrite 0.00 -6.17 -6.17 1.000e+01 9.998e+00 -1.569e-03 pH = 5.942 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 1695 + Specific Conductance (µS/cm, 170°C) = 1693 Density (g/cm³) = 0.92556 Volume (L) = 1.08066 - Viscosity (mPa s) = 0.17202 + Viscosity (mPa s) = 0.17219 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.273e-03 Mass of water (kg) = 1.000e+00 @@ -11079,10 +11079,10 @@ Anhydrite 0.00 -4.06 -4.06 1.000e+01 9.955e+00 -4.460e-02 pH = 6.544 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 11904 + Specific Conductance (µS/cm, 50°C) = 11898 Density (g/cm³) = 1.03304 Volume (L) = 0.97390 - Viscosity (mPa s) = 0.59110 + Viscosity (mPa s) = 0.59144 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.784e-01 Mass of water (kg) = 1.000e+00 @@ -11149,10 +11149,10 @@ Anhydrite 0.00 -4.10 -4.10 1.000e+01 9.958e+00 -4.175e-02 pH = 6.498 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 54°C) = 11717 + Specific Conductance (µS/cm, 54°C) = 11709 Density (g/cm³) = 1.03085 Volume (L) = 0.97559 - Viscosity (mPa s) = 0.55614 + Viscosity (mPa s) = 0.55649 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.670e-01 Mass of water (kg) = 1.000e+00 @@ -11219,10 +11219,10 @@ Anhydrite 0.00 -4.15 -4.15 1.000e+01 9.961e+00 -3.899e-02 pH = 6.453 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 11504 + Specific Conductance (µS/cm, 58°C) = 11495 Density (g/cm³) = 1.02862 Volume (L) = 0.97734 - Viscosity (mPa s) = 0.52445 + Viscosity (mPa s) = 0.52483 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.560e-01 Mass of water (kg) = 1.000e+00 @@ -11289,10 +11289,10 @@ Anhydrite 0.00 -4.20 -4.20 1.000e+01 9.964e+00 -3.634e-02 pH = 6.411 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 62°C) = 11272 + Specific Conductance (µS/cm, 62°C) = 11263 Density (g/cm³) = 1.02634 Volume (L) = 0.97915 - Viscosity (mPa s) = 0.49566 + Viscosity (mPa s) = 0.49605 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.453e-01 Mass of water (kg) = 1.000e+00 @@ -11359,10 +11359,10 @@ Anhydrite 0.00 -4.25 -4.25 1.000e+01 9.966e+00 -3.379e-02 pH = 6.371 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 65°C) = 11026 + Specific Conductance (µS/cm, 65°C) = 11016 Density (g/cm³) = 1.02403 Volume (L) = 0.98103 - Viscosity (mPa s) = 0.46943 + Viscosity (mPa s) = 0.46983 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.352e-01 Mass of water (kg) = 1.000e+00 @@ -11429,10 +11429,10 @@ Anhydrite 0.00 -4.31 -4.31 1.000e+01 9.969e+00 -3.136e-02 pH = 6.333 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 69°C) = 10769 + Specific Conductance (µS/cm, 69°C) = 10759 Density (g/cm³) = 1.02168 Volume (L) = 0.98296 - Viscosity (mPa s) = 0.44547 + Viscosity (mPa s) = 0.44588 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.254e-01 Mass of water (kg) = 1.000e+00 @@ -11499,10 +11499,10 @@ Anhydrite 0.00 -4.36 -4.36 1.000e+01 9.971e+00 -2.905e-02 pH = 6.296 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 73°C) = 10502 + Specific Conductance (µS/cm, 73°C) = 10492 Density (g/cm³) = 1.01929 Volume (L) = 0.98495 - Viscosity (mPa s) = 0.42354 + Viscosity (mPa s) = 0.42395 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.162e-01 Mass of water (kg) = 1.000e+00 @@ -11569,10 +11569,10 @@ Anhydrite 0.00 -4.41 -4.41 1.000e+01 9.973e+00 -2.687e-02 pH = 6.262 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 77°C) = 10229 + Specific Conductance (µS/cm, 77°C) = 10218 Density (g/cm³) = 1.01688 Volume (L) = 0.98700 - Viscosity (mPa s) = 0.40342 + Viscosity (mPa s) = 0.40383 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.075e-01 Mass of water (kg) = 1.000e+00 @@ -11639,10 +11639,10 @@ Anhydrite 0.00 -4.47 -4.47 1.000e+01 9.975e+00 -2.480e-02 pH = 6.229 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 9981 + Specific Conductance (µS/cm, 81°C) = 9970 Density (g/cm³) = 1.01443 Volume (L) = 0.98911 - Viscosity (mPa s) = 0.38492 + Viscosity (mPa s) = 0.38534 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.921e-02 Mass of water (kg) = 1.000e+00 @@ -11709,10 +11709,10 @@ Anhydrite 0.00 -4.52 -4.52 1.000e+01 9.977e+00 -2.286e-02 pH = 6.197 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 85°C) = 9748 + Specific Conductance (µS/cm, 85°C) = 9737 Density (g/cm³) = 1.01195 Volume (L) = 0.99127 - Viscosity (mPa s) = 0.36788 + Viscosity (mPa s) = 0.36829 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.144e-02 Mass of water (kg) = 1.000e+00 @@ -11779,10 +11779,10 @@ Anhydrite 0.00 -4.58 -4.58 1.000e+01 9.979e+00 -2.104e-02 pH = 6.168 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 89°C) = 9487 + Specific Conductance (µS/cm, 89°C) = 9476 Density (g/cm³) = 1.00944 Volume (L) = 0.99349 - Viscosity (mPa s) = 0.35214 + Viscosity (mPa s) = 0.35255 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.415e-02 Mass of water (kg) = 1.000e+00 @@ -11849,10 +11849,10 @@ Anhydrite 0.00 -4.64 -4.64 1.000e+01 9.981e+00 -1.933e-02 pH = 6.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 9202 + Specific Conductance (µS/cm, 93°C) = 9190 Density (g/cm³) = 1.00690 Volume (L) = 0.99576 - Viscosity (mPa s) = 0.33759 + Viscosity (mPa s) = 0.33799 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.731e-02 Mass of water (kg) = 1.000e+00 @@ -11919,10 +11919,10 @@ Anhydrite 0.00 -4.69 -4.69 1.000e+01 9.982e+00 -1.773e-02 pH = 6.113 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 96°C) = 8895 + Specific Conductance (µS/cm, 96°C) = 8884 Density (g/cm³) = 1.00433 Volume (L) = 0.99809 - Viscosity (mPa s) = 0.32410 + Viscosity (mPa s) = 0.32450 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.092e-02 Mass of water (kg) = 1.000e+00 @@ -11989,10 +11989,10 @@ Anhydrite 0.00 -4.75 -4.75 1.000e+01 9.984e+00 -1.624e-02 pH = 6.088 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 8571 + Specific Conductance (µS/cm, 100°C) = 8560 Density (g/cm³) = 1.00173 Volume (L) = 1.00048 - Viscosity (mPa s) = 0.31158 + Viscosity (mPa s) = 0.31197 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.495e-02 Mass of water (kg) = 1.000e+00 @@ -12059,10 +12059,10 @@ Anhydrite 0.00 -4.81 -4.81 1.000e+01 9.985e+00 -1.485e-02 pH = 6.064 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 8232 + Specific Conductance (µS/cm, 104°C) = 8221 Density (g/cm³) = 0.99910 Volume (L) = 1.00293 - Viscosity (mPa s) = 0.29994 + Viscosity (mPa s) = 0.30032 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.940e-02 Mass of water (kg) = 1.000e+00 @@ -12129,10 +12129,10 @@ Anhydrite 0.00 -4.87 -4.87 1.000e+01 9.986e+00 -1.356e-02 pH = 6.041 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 108°C) = 7881 + Specific Conductance (µS/cm, 108°C) = 7871 Density (g/cm³) = 0.99644 Volume (L) = 1.00543 - Viscosity (mPa s) = 0.28909 + Viscosity (mPa s) = 0.28947 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.424e-02 Mass of water (kg) = 1.000e+00 @@ -12199,10 +12199,10 @@ Anhydrite 0.00 -4.93 -4.93 1.000e+01 9.988e+00 -1.236e-02 pH = 6.020 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 112°C) = 7523 + Specific Conductance (µS/cm, 112°C) = 7512 Density (g/cm³) = 0.99374 Volume (L) = 1.00799 - Viscosity (mPa s) = 0.27897 + Viscosity (mPa s) = 0.27934 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.945e-02 Mass of water (kg) = 1.000e+00 @@ -12269,10 +12269,10 @@ Anhydrite 0.00 -4.99 -4.99 1.000e+01 9.989e+00 -1.126e-02 pH = 6.000 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 116°C) = 7159 + Specific Conductance (µS/cm, 116°C) = 7149 Density (g/cm³) = 0.99102 Volume (L) = 1.01061 - Viscosity (mPa s) = 0.26952 + Viscosity (mPa s) = 0.26988 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.502e-02 Mass of water (kg) = 1.000e+00 @@ -12339,10 +12339,10 @@ Anhydrite 0.00 -5.05 -5.05 1.000e+01 9.990e+00 -1.023e-02 pH = 5.981 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 6793 + Specific Conductance (µS/cm, 120°C) = 6784 Density (g/cm³) = 0.98827 Volume (L) = 1.01328 - Viscosity (mPa s) = 0.26067 + Viscosity (mPa s) = 0.26102 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.094e-02 Mass of water (kg) = 1.000e+00 @@ -12409,10 +12409,10 @@ Anhydrite 0.00 -5.11 -5.11 1.000e+01 9.991e+00 -9.293e-03 pH = 5.963 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 124°C) = 6428 + Specific Conductance (µS/cm, 124°C) = 6419 Density (g/cm³) = 0.98548 Volume (L) = 1.01602 - Viscosity (mPa s) = 0.25238 + Viscosity (mPa s) = 0.25272 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.717e-02 Mass of water (kg) = 1.000e+00 @@ -12479,10 +12479,10 @@ Anhydrite 0.00 -5.17 -5.17 1.000e+01 9.992e+00 -8.428e-03 pH = 5.947 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 127°C) = 6066 + Specific Conductance (µS/cm, 127°C) = 6058 Density (g/cm³) = 0.98266 Volume (L) = 1.01881 - Viscosity (mPa s) = 0.24460 + Viscosity (mPa s) = 0.24493 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.371e-02 Mass of water (kg) = 1.000e+00 @@ -12549,10 +12549,10 @@ Anhydrite 0.00 -5.23 -5.23 1.000e+01 9.992e+00 -7.636e-03 pH = 5.931 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 131°C) = 5710 + Specific Conductance (µS/cm, 131°C) = 5703 Density (g/cm³) = 0.97981 Volume (L) = 1.02166 - Viscosity (mPa s) = 0.23729 + Viscosity (mPa s) = 0.23761 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.054e-02 Mass of water (kg) = 1.000e+00 @@ -12619,10 +12619,10 @@ Anhydrite 0.00 -5.29 -5.29 1.000e+01 9.993e+00 -6.911e-03 pH = 5.916 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 135°C) = 5363 + Specific Conductance (µS/cm, 135°C) = 5356 Density (g/cm³) = 0.97693 Volume (L) = 1.02458 - Viscosity (mPa s) = 0.23042 + Viscosity (mPa s) = 0.23073 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.764e-02 Mass of water (kg) = 1.000e+00 @@ -12689,10 +12689,10 @@ Anhydrite 0.00 -5.35 -5.35 1.000e+01 9.994e+00 -6.251e-03 pH = 5.903 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 139°C) = 5026 + Specific Conductance (µS/cm, 139°C) = 5019 Density (g/cm³) = 0.97402 Volume (L) = 1.02755 - Viscosity (mPa s) = 0.22394 + Viscosity (mPa s) = 0.22424 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.500e-02 Mass of water (kg) = 1.000e+00 @@ -12759,10 +12759,10 @@ Anhydrite 0.00 -5.41 -5.41 1.000e+01 9.994e+00 -5.650e-03 pH = 5.890 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 143°C) = 4700 + Specific Conductance (µS/cm, 143°C) = 4694 Density (g/cm³) = 0.97107 Volume (L) = 1.03058 - Viscosity (mPa s) = 0.21783 + Viscosity (mPa s) = 0.21812 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.260e-02 Mass of water (kg) = 1.000e+00 @@ -12829,10 +12829,10 @@ Anhydrite 0.00 -5.47 -5.47 1.000e+01 9.995e+00 -5.105e-03 pH = 5.878 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 147°C) = 4388 + Specific Conductance (µS/cm, 147°C) = 4382 Density (g/cm³) = 0.96810 Volume (L) = 1.03367 - Viscosity (mPa s) = 0.21206 + Viscosity (mPa s) = 0.21234 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.042e-02 Mass of water (kg) = 1.000e+00 @@ -12899,10 +12899,10 @@ Anhydrite 0.00 -5.53 -5.53 1.000e+01 9.995e+00 -4.611e-03 pH = 5.867 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 151°C) = 4091 + Specific Conductance (µS/cm, 151°C) = 4085 Density (g/cm³) = 0.96508 Volume (L) = 1.03683 - Viscosity (mPa s) = 0.20660 + Viscosity (mPa s) = 0.20688 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.844e-02 Mass of water (kg) = 1.000e+00 @@ -12969,10 +12969,10 @@ Anhydrite 0.00 -5.59 -5.59 1.000e+01 9.996e+00 -4.165e-03 pH = 5.857 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 155°C) = 3808 + Specific Conductance (µS/cm, 155°C) = 3803 Density (g/cm³) = 0.96204 Volume (L) = 1.04005 - Viscosity (mPa s) = 0.20144 + Viscosity (mPa s) = 0.20171 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.666e-02 Mass of water (kg) = 1.000e+00 @@ -13039,10 +13039,10 @@ Anhydrite 0.00 -5.65 -5.65 1.000e+01 9.996e+00 -3.762e-03 pH = 5.848 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 158°C) = 3541 + Specific Conductance (µS/cm, 158°C) = 3536 Density (g/cm³) = 0.95897 Volume (L) = 1.04332 - Viscosity (mPa s) = 0.19655 + Viscosity (mPa s) = 0.19681 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.505e-02 Mass of water (kg) = 1.000e+00 @@ -13109,10 +13109,10 @@ Anhydrite 0.00 -5.72 -5.72 1.000e+01 9.997e+00 -3.400e-03 pH = 5.839 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 162°C) = 3290 + Specific Conductance (µS/cm, 162°C) = 3285 Density (g/cm³) = 0.95586 Volume (L) = 1.04667 - Viscosity (mPa s) = 0.19191 + Viscosity (mPa s) = 0.19216 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.360e-02 Mass of water (kg) = 1.000e+00 @@ -13179,10 +13179,10 @@ Anhydrite 0.00 -5.78 -5.78 1.000e+01 9.997e+00 -3.074e-03 pH = 5.831 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 166°C) = 3054 + Specific Conductance (µS/cm, 166°C) = 3050 Density (g/cm³) = 0.95271 Volume (L) = 1.05007 - Viscosity (mPa s) = 0.18751 + Viscosity (mPa s) = 0.18775 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.229e-02 Mass of water (kg) = 1.000e+00 @@ -13249,10 +13249,10 @@ Anhydrite 0.00 -5.84 -5.84 1.000e+01 9.997e+00 -2.782e-03 pH = 5.824 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 170°C) = 2834 + Specific Conductance (µS/cm, 170°C) = 2830 Density (g/cm³) = 0.94954 Volume (L) = 1.05354 - Viscosity (mPa s) = 0.18333 + Viscosity (mPa s) = 0.18356 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.112e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/gypsum_P2_101.sel b/mytest/gypsum_P2_101.sel index 62c045c5..9540422b 100644 --- a/mytest/gypsum_P2_101.sel +++ b/mytest/gypsum_P2_101.sel @@ -1,190 +1,190 @@ Mu SC - 0.000000121213 0.0706525639 - 0.061048557704 3178.2018414003 - 0.061310451974 3329.7391754381 - 0.061515939755 3481.2379549761 - 0.061665830045 3632.3533375207 - 0.061761053018 3782.7442018659 - 0.061802650231 3932.0742768231 - 0.061791764941 4080.0132159637 - 0.061729632571 4226.2376154217 - 0.061617571382 4370.4319721630 - 0.061456973396 4512.2895805373 - 0.061249295601 4651.5133653529 - 0.060996051473 4787.8166501687 - 0.060698802846 4920.9238599519 - 0.060359152136 5050.5711576936 - 0.059978734952 5176.5070150271 - 0.059559213094 5298.4927173036 - 0.059102267951 5416.3028039880 - 0.058609594301 5529.7254455954 - 0.058082894515 5638.5627587375 - 0.057523873163 5742.6310611352 - 0.056934232018 5841.7610687262 - 0.056315665446 5935.7980372180 - 0.055669856182 6024.6018506211 - 0.054998471478 6108.0470594459 - 0.054303159602 6186.0228713615 - 0.053585546693 6258.4330971808 - 0.052847233940 6325.1960550860 - 0.052089795077 6386.2444360082 - 0.051314774183 6441.5251330581 - 0.000000148659 0.0901370399 - 0.092781756284 4978.5011940614 - 0.093337220626 5187.1329646774 - 0.093804408398 5394.1351129162 - 0.094185103613 5599.1314830078 - 0.094481221405 5801.7642045519 - 0.094694796615 6001.6941226315 - 0.094827972189 6198.6010133202 - 0.094882987535 6392.1836457775 - 0.094862166960 6582.1598414777 - 0.094767908295 6768.2663081913 - 0.094602671796 6950.2584050041 - 0.094368969373 7127.9098224401 - 0.094069354233 7301.0121926311 - 0.093706410953 7469.3746445981 - 0.093282746040 7632.8233198715 - 0.092800978988 7791.2008639036 - 0.092263733862 7944.3659092193 - 0.091673631412 8092.1925671574 - 0.091033281729 8234.5699467486 - 0.090345277436 8371.4017221849 - 0.089612187423 8502.6057753881 - 0.088836551093 8628.1139487608 - 0.088020873146 8747.8719580224 - 0.087167618851 8861.8395411488 - 0.086279209811 8969.9909671330 - 0.085358020198 9072.3161196977 - 0.084406373442 9176.4019227891 - 0.083426539346 9282.5270420176 - 0.082420731612 9381.8160705566 - 0.000000178327 0.1111702368 - 0.112122138378 6310.3016424875 - 0.114318666590 6624.1530079802 - 0.116354246975 6934.2270687077 - 0.118230525704 7239.7188064184 - 0.119949554909 7539.8921844421 - 0.121513753537 7834.0830631687 - 0.122925870416 8121.7010180669 - 0.124188949370 8402.2308703228 - 0.125306296257 8675.2330871252 - 0.126281447823 8940.3435468325 - 0.127118142296 9197.2726459774 - 0.127820291650 9445.8038310542 - 0.128391955484 9685.7916578504 - 0.128837316476 9917.1595045194 - 0.129160657350 10139.8970945409 - 0.129366339326 10354.0580270991 - 0.129458782007 10559.7575742731 - 0.129442444662 10757.1711033885 - 0.129321808856 10946.5336512152 - 0.129101362391 11128.1414802689 - 0.128785584514 11302.3570305962 - 0.128378932336 11469.6198858582 - 0.127885828427 11630.4691056679 - 0.127310649533 11785.5892814349 - 0.126657716370 11977.0362852847 - 0.125931284443 12176.0831528513 - 0.125135535845 12366.8951311706 - 0.124274571985 12549.3351955558 - 0.123352407202 12723.2874713939 - 0.000000121213 0.0706525639 - 0.069410294122 5034.2558339672 - 0.063825188715 4989.0853223537 - 0.058604612921 4922.8925251971 - 0.053732453740 4837.1826535664 - 0.049192972127 4733.6008822559 - 0.044970829331 4613.9129958918 - 0.041051083038 4479.9833020663 - 0.037419160210 4333.7495409241 - 0.034060813969 4177.1947907070 - 0.030962072386 4012.3167085515 - 0.028109187084 3841.0948305194 - 0.025488589235 3665.4570396142 - 0.023086859498 3487.2466347610 - 0.020891933741 3308.3600544947 - 0.018891865552 3130.5807177575 - 0.017070982779 2954.9676915249 - 0.015416577795 2782.7610786324 - 0.013916239937 2615.0145546290 - 0.012557928351 2452.5943464124 - 0.011330046201 2296.1845421692 - 0.010221510119 2146.2977240044 - 0.009221809845 2003.2896475086 - 0.008321054588 1867.3765983542 - 0.007510004248 1738.6541149727 - 0.006780085220 1617.1159378354 - 0.006123391706 1502.6722817671 - 0.005532674339 1395.1667834990 - 0.005001318359 1294.3917188830 - 0.004523314015 1200.1012832205 - 0.004093220947 1112.0229062299 - 0.003706129520 1029.8666487036 - 0.003357620240 953.3328236361 - 0.000000148659 0.0901370399 - 0.120868193057 8302.5507649802 - 0.111443675000 8167.7565249995 - 0.102631536722 8016.4870692347 - 0.094403003958 7849.5752140772 - 0.086729104641 7667.7904624876 - 0.079581182846 7471.9142733184 - 0.072931272639 7262.8003035676 - 0.066752354900 7041.4201039718 - 0.061018516636 6808.8961175005 - 0.055705029633 6574.6852495948 - 0.050788363329 6334.4659144098 - 0.046246145499 6082.9910405984 - 0.042057083591 5822.8631054480 - 0.038200859215 5556.6484740695 - 0.034658008207 5286.8445330492 - 0.031409798452 5015.8448527622 - 0.028438117057 4745.9037281369 - 0.025725377063 4479.1019464822 - 0.023254451615 4217.3159425093 - 0.021008640289 3962.1925321102 - 0.018971668499 3715.1311216080 - 0.017127717019 3477.2746905518 - 0.015461475286 3249.5100374214 - 0.013958209888 3032.4769026080 - 0.012603838748 2826.5847970134 - 0.011385001976 2632.0357930011 - 0.010289122032 2448.8512440003 - 0.009304448081 2276.9003903195 - 0.008420081914 2115.9290285725 - 0.007625985063 1965.5867882349 - 0.006912968446 1825.4519850816 - 0.006272667104 1695.0534363414 - 0.000000178327 0.1111702368 - 0.178385713086 11904.9893999145 - 0.167010017989 11717.1204250860 - 0.155978123312 11504.3665224784 - 0.145348124750 11272.6462040033 - 0.135160787925 11026.4679853471 - 0.125442725477 10769.1174349536 - 0.116209140447 10502.9156245885 - 0.107466174537 10229.5635373404 - 0.099212898563 9981.6143051292 - 0.091442980936 9748.3740760125 - 0.084146068509 9487.4534105942 - 0.077308912398 9202.0950212900 - 0.070916269483 8895.5694032494 - 0.064951608233 8571.1537965249 - 0.059397645373 8232.1127558582 - 0.054236737932 7881.6788007672 - 0.049451153483 7523.0316862736 - 0.045023240087 7159.2750651704 - 0.040935516636 6793.4097242612 - 0.037170703798 6428.3031713574 - 0.033711715398 6066.6560966073 - 0.030541629439 5710.9670549932 - 0.027643656528 5363.4974922387 - 0.025001120910 5026.2398068083 - 0.022597465436 4700.8913523432 - 0.020416286743 4388.8370361506 - 0.018441401376 4091.1424553091 - 0.016656938298 3808.5584420622 - 0.015047449128 3541.5366670329 - 0.013598025181 3290.2548115960 - 0.012294410109 3054.6489756632 - 0.011123098438 2834.4505529587 + 0.000000121213 0.0706525626 + 0.061048557704 3177.9921467265 + 0.061310451974 3329.4220055044 + 0.061515939755 3480.8026109718 + 0.061665830045 3631.7890557506 + 0.061761053018 3782.0402156320 + 0.061802650231 3931.2198788161 + 0.061791764941 4078.9978206767 + 0.061729632571 4225.0508211141 + 0.061617571382 4369.0636219172 + 0.061456973396 4510.7298219704 + 0.061249295601 4649.7527085698 + 0.060996051473 4785.8460235689 + 0.060698802846 4918.7346635293 + 0.060359152136 5048.1553135003 + 0.059978734952 5173.8570145030 + 0.059559213094 5295.6016652062 + 0.059102267951 5413.1644586905 + 0.058609594301 5526.3342555540 + 0.058082894515 5634.9138949635 + 0.057523873163 5738.7204455393 + 0.056934232018 5837.5853982354 + 0.056315665446 5931.3548035961 + 0.055669856182 6019.8893559558 + 0.054998471478 6103.0644272916 + 0.054303159602 6180.7700535568 + 0.053585546693 6252.9108763833 + 0.052847233940 6319.4060430934 + 0.052089795077 6380.1890679532 + 0.051314774183 6435.2076575898 + 0.000000148659 0.0901370381 + 0.092781756284 4978.1032836436 + 0.093337220626 5186.5339802129 + 0.093804408398 5393.3167496079 + 0.094185103613 5598.0754711599 + 0.094481221405 5800.4523981424 + 0.094694796615 6000.1085853699 + 0.094827972189 6196.7241016825 + 0.094882987535 6389.9980885789 + 0.094862166960 6579.6488155899 + 0.094767908295 6765.4135100969 + 0.094602671796 6947.0481179272 + 0.094368969373 7124.3269788509 + 0.094069354233 7297.0424319721 + 0.093706410953 7465.0043661267 + 0.093282746040 7628.0397305520 + 0.092800978988 7785.9920213166 + 0.092263733862 7938.7207594813 + 0.091673631412 8086.1009778646 + 0.091033281729 8228.0227349668 + 0.090345277436 8364.3906775095 + 0.089612187423 8495.1236780810 + 0.088836551093 8620.1545829425 + 0.088020873146 8739.4301198341 + 0.087167618851 8852.9110416970 + 0.086279209811 8960.5726298490 + 0.085358020198 9062.4057714218 + 0.084406373442 9165.9899176720 + 0.083426539346 9271.6034624055 + 0.082420731612 9370.3816604550 + 0.000000178327 0.1111702344 + 0.112122138378 6309.7548903810 + 0.114318666590 6623.3184887970 + 0.116354246975 6933.0724401900 + 0.118230525704 7238.2116989874 + 0.119949554909 7538.0004115091 + 0.121513753537 7831.7748193872 + 0.122925870416 8118.9450633060 + 0.124188949370 8398.9966974327 + 0.125306296257 8671.4910720029 + 0.126281447823 8936.0650796313 + 0.127118142296 9192.4302426618 + 0.127820291650 9440.3712248296 + 0.128391955484 9679.7438702848 + 0.128837316476 9910.4728964074 + 0.129160657350 10132.5493967194 + 0.129366339326 10346.0283514840 + 0.129458782007 10551.0264053053 + 0.129442444662 10747.7202697985 + 0.129321808856 10936.3462774163 + 0.129101362391 11117.2019155705 + 0.128785584514 11290.6507523505 + 0.128378932336 11457.1333686828 + 0.127885828427 11617.1896407351 + 0.127310649533 11771.5047111767 + 0.126657716370 11962.0841130789 + 0.125931284443 12160.2322860060 + 0.125135535845 12350.1347410245 + 0.124274571985 12531.6563213283 + 0.123352407202 12704.6830278801 + 0.000000121213 0.0706525626 + 0.069410294122 5032.3499430397 + 0.063825188715 4986.9615655586 + 0.058604612921 4920.5805624704 + 0.053732453740 4834.7134923612 + 0.049192972127 4731.0061269147 + 0.044970829331 4611.2241350993 + 0.041051083038 4477.2310493029 + 0.037419160210 4330.9632420915 + 0.034060813969 4174.4019118039 + 0.030962072386 4009.5424142510 + 0.028109187084 3838.3616616507 + 0.025488589235 3662.7846939006 + 0.023086859498 3484.6518508832 + 0.020891933741 3305.8563961906 + 0.018891865552 3128.1786101210 + 0.017070982779 2952.6752251598 + 0.015416577795 2780.5838105270 + 0.013916239937 2612.9557626447 + 0.012557928351 2450.6553105111 + 0.011330046201 2294.3648364097 + 0.010221510119 2144.5955055401 + 0.009221809845 2001.7019316306 + 0.008321054588 1865.8995116689 + 0.007510004248 1737.2831217299 + 0.006780085220 1615.8460369919 + 0.006123391706 1501.4981744494 + 0.005532674339 1394.0830120594 + 0.005001318359 1293.3927797758 + 0.004523314015 1199.1817165166 + 0.004093220947 1111.1773648331 + 0.003706129520 1029.0899503547 + 0.003357620240 952.6199886443 + 0.000000148659 0.0901370381 + 0.120868193057 8298.4911951976 + 0.111443675000 8163.2573965032 + 0.102631536722 8011.6055968576 + 0.094403003958 7844.3692095585 + 0.086729104641 7662.3177569438 + 0.079581182846 7466.2321418771 + 0.072931272639 7256.9648800808 + 0.066752354900 7035.4857835781 + 0.061018516636 6802.9149519919 + 0.055705029633 6568.6990313551 + 0.050788363329 6328.5175800469 + 0.046246145499 6077.1259212474 + 0.042057083591 5817.1216299170 + 0.038200859215 5551.0658066034 + 0.034658008207 5281.4503595353 + 0.031409798452 5010.6633169618 + 0.028438117057 4740.9535144213 + 0.025725377063 4474.3964995598 + 0.023254451615 4212.8638083516 + 0.021008640289 3957.9977985177 + 0.018971668499 3711.1939324293 + 0.017127717019 3473.5918051571 + 0.015461475286 3246.0754069914 + 0.013958209888 3029.2822370898 + 0.012603838748 2823.6201007830 + 0.011385001976 2629.2898526674 + 0.010289122032 2446.3120576064 + 0.009304448081 2274.5555327250 + 0.008420081914 2113.7659525217 + 0.007625985063 1963.5930642349 + 0.006912968446 1823.6154856738 + 0.006272667104 1693.3624717365 + 0.000000178327 0.1111702344 + 0.178385713086 11898.0654407588 + 0.167010017989 11709.3823503245 + 0.155978123312 11495.9060155429 + 0.145348124750 11263.5551006412 + 0.135160787925 11016.8367799424 + 0.125442725477 10759.0343676145 + 0.116209140447 10492.4661298604 + 0.107466174537 10218.8298023717 + 0.099212898563 9970.6411145716 + 0.091442980936 9737.2112651173 + 0.084146068509 9476.1950998445 + 0.077308912398 9190.8311682293 + 0.070916269483 8884.3845664267 + 0.064951608233 8560.1260835929 + 0.059397645373 8221.3129558321 + 0.054236737932 7871.1697014912 + 0.049451153483 7512.8675794544 + 0.045023240087 7149.5014422071 + 0.040935516636 6784.0631658281 + 0.037170703798 6419.4114316981 + 0.033711715398 6058.2383794054 + 0.030541629439 5703.0344714972 + 0.027643656528 5356.0536844903 + 0.025001120910 5019.2817102779 + 0.022597465436 4694.4100643083 + 0.020416286743 4382.8187501584 + 0.018441401376 4085.5694192287 + 0.016656938298 3803.4098981931 + 0.015047449128 3536.7897374277 + 0.013598025181 3285.8852994032 + 0.012294410109 3050.6320626591 + 0.011123098438 2830.7613831266 diff --git a/mytest/gypsum_P5_101.sel b/mytest/gypsum_P5_101.sel index ea54f076..963fd519 100644 --- a/mytest/gypsum_P5_101.sel +++ b/mytest/gypsum_P5_101.sel @@ -1,190 +1,190 @@ Mu SC - 0.000000121213 0.0706525639 - 0.061048557704 3485.1071255695 - 0.061310451974 3650.3750344765 - 0.061515939755 3815.3022621459 - 0.061665830045 3979.4853252501 - 0.061761053018 4142.5262892170 - 0.061802650231 4304.0342587282 - 0.061791764941 4463.6267892821 - 0.061729632571 4620.9312145672 - 0.061617571382 4775.5858850952 - 0.061456973396 4927.2413143149 - 0.061249295601 5075.5612292185 - 0.060996051473 5220.2235232752 - 0.060698802846 5360.9211103477 - 0.060359152136 5497.3626790513 - 0.059978734952 5629.2733478157 - 0.059559213094 5756.3952216559 - 0.059102267951 5878.4878523771 - 0.058609594301 5995.3286045922 - 0.058082894515 6106.7129305426 - 0.057523873163 6212.4545572369 - 0.056934232018 6312.3855899018 - 0.056315665446 6406.3565361333 - 0.055669856182 6494.2362554598 - 0.054998471478 6575.9118392800 - 0.054303159602 6651.2884263245 - 0.053585546693 6720.2889588883 - 0.052847233940 6782.8538851347 - 0.052089795077 6838.9408127342 - 0.051314774183 6888.5241190345 - 0.000000148659 0.0901370399 - 0.097632940744 5655.5269034124 - 0.098058834464 5900.7998126676 - 0.098399377015 6144.2647694113 - 0.098656261704 6385.2912026420 - 0.098831325159 6623.2509288852 - 0.098926533814 6857.5178232932 - 0.098943970536 7087.4665629181 - 0.098885821479 7312.4701190792 - 0.098754363242 7531.8957543496 - 0.098551950422 7745.0985041603 - 0.098281003596 7951.4111677224 - 0.097943997792 8150.1288802800 - 0.097543451475 8340.4850014491 - 0.097081916095 8521.6124007758 - 0.096561966184 8692.4787564815 - 0.095986190051 8851.7723170488 - 0.095357181062 9006.1691879360 - 0.094677529502 9186.6726031355 - 0.093949815036 9360.0950920218 - 0.093176599748 9526.2034445296 - 0.092360421748 9684.7881315080 - 0.091503789344 9835.6632370908 - 0.090609175752 9978.6662930858 - 0.089679014330 10113.6580217406 - 0.088715694327 10240.5219935421 - 0.087721557113 10359.1642068918 - 0.086698892869 10469.5125966537 - 0.085649937726 10571.5164786015 - 0.084576871323 10665.1459368008 - 0.000000178327 0.1111702368 - 0.132989592537 7783.5336148539 - 0.134881195181 8174.2081808033 - 0.136599729686 8562.6030380001 - 0.138148524732 8947.4638360044 - 0.139531180561 9327.4983479347 - 0.140751541150 9701.3611157336 - 0.141813667294 10067.6289885471 - 0.142721810618 10424.7639825338 - 0.143480388562 10771.0536274208 - 0.144093960384 11104.5135502738 - 0.144567204192 11422.7208253483 - 0.144904895065 11722.5109508219 - 0.145111884262 11999.3791301327 - 0.145193079552 12246.1518413681 - 0.145153426676 12473.8851236808 - 0.144997891932 12797.6051064815 - 0.144731445896 13112.3802690630 - 0.144359048266 13417.7537477047 - 0.143885633804 13713.3057561379 - 0.143316099376 13998.6537488391 - 0.142655292048 14273.4524073549 - 0.141907998224 14537.3934586740 - 0.141078933781 14790.2053354260 - 0.140172735186 15031.6526882636 - 0.139193951533 15261.5357612930 - 0.138147037491 15479.6896417453 - 0.137036347094 15685.9833953485 - 0.135866128360 15880.3190989453 - 0.134640518678 16062.6307819558 - 0.000000121213 0.0706525639 - 0.069410294122 5557.4633517291 - 0.063825188715 5461.1747132037 - 0.058604612921 5344.9700416449 - 0.053732453740 5210.9435760665 - 0.049192972127 5061.2278185994 - 0.044970829331 4897.9770781593 - 0.041051083038 4723.3496446943 - 0.037419160210 4539.4881589468 - 0.034060813969 4348.4980498824 - 0.030962072386 4152.4242655641 - 0.028109187084 3953.2268978416 - 0.025488589235 3752.7566546692 - 0.023086859498 3552.7314121927 - 0.020891934234 3354.8922331736 - 0.018891871653 3160.8231840904 - 0.017070993680 2971.3617770948 - 0.015416592772 2787.5255234842 - 0.013916258344 2610.1421048023 - 0.012557949616 2439.8548055770 - 0.011330069823 2277.1330256469 - 0.010221535660 2122.2868417067 - 0.009221836929 1975.4844021698 - 0.008321082892 1836.7709095819 - 0.007510033499 1706.0880458394 - 0.006780115188 1583.2928864640 - 0.006123422201 1468.1755863808 - 0.005532705204 1360.4753618779 - 0.005001349465 1259.8945143762 - 0.004523345261 1166.1104192835 - 0.004093252249 1078.7855618982 - 0.003706160814 997.5757836007 - 0.003357651478 922.1370341862 - 0.000000148659 0.0901370399 - 0.125732051523 9728.4286463659 - 0.115695900219 9494.7924961701 - 0.106352918676 9231.0544279148 - 0.097662814646 8938.1000005466 - 0.089586848467 8653.1713133382 - 0.082088066199 8392.2855273106 - 0.075131442657 8113.6677401077 - 0.068683947043 7820.1360976741 - 0.062714542814 7514.4561567701 - 0.057194132522 7199.3351705684 - 0.052095457698 6877.4140411937 - 0.047392963554 6551.2561755226 - 0.043062638261 6223.3327799894 - 0.039081836877 5896.0045212590 - 0.035429100409 5571.4999558525 - 0.032083980752 5251.8916604420 - 0.029026882032 4939.0715128156 - 0.026238927862 4634.7269934405 - 0.023701861941 4340.3206025223 - 0.021397986400 4057.0744385622 - 0.019310138485 3785.9616293054 - 0.017421702210 3527.7056782087 - 0.015716648126 3282.7879886395 - 0.014179591902 3051.4629965889 - 0.012795861423 2833.7796280899 - 0.011551562606 2629.6073123792 - 0.010433635794 2438.6645782737 - 0.009429897027 2260.5483267676 - 0.008529061126 2094.7621456107 - 0.007720745929 1940.7424257855 - 0.006995458928 1797.8814706685 - 0.006344568813 1665.5471899169 - 0.000000178327 0.1111702368 - 0.204054271065 15298.2730772069 - 0.189749317520 14959.2441037217 - 0.176113203833 14522.8980562157 - 0.163171436978 14085.4903190531 - 0.150934422137 13793.0992064558 - 0.139400747042 13460.1086651023 - 0.128559947217 13091.8593549945 - 0.118394816228 12693.4150363896 - 0.108883316201 12269.5523371138 - 0.100000137499 11824.7619174154 - 0.091717951642 11363.2580411054 - 0.084008397645 10888.9936819399 - 0.076842838351 10405.6784986658 - 0.070192919908 9916.7972656498 - 0.064030964283 9425.6266276603 - 0.058330221648 8935.2483546032 - 0.053065006850 8448.5576201465 - 0.048210742186 7968.2652456965 - 0.043743927326 7496.8933696491 - 0.039642056513 7036.7646410085 - 0.035883502875 6589.9857861768 - 0.032447389271 6158.4272018638 - 0.029313464177 5743.7009771333 - 0.026461998964 5347.1402947046 - 0.023873719312 4969.7833509819 - 0.021529778387 4612.3646564414 - 0.019411773347 4275.3158190463 - 0.017501800620 3958.7767805453 - 0.015782540309 3662.6171798740 - 0.014237356916 3386.4663161326 - 0.012850402728 3129.7493009236 - 0.011606711572 2891.7265565787 + 0.000000121213 0.0706525626 + 0.061048557704 3485.0086027310 + 0.061310451974 3650.2260117337 + 0.061515939755 3815.0977189728 + 0.061665830045 3979.2202182919 + 0.061761053018 4142.1955827200 + 0.061802650231 4303.6329551913 + 0.061791764941 4463.1499600764 + 0.061729632571 4620.3740302772 + 0.061617571382 4774.9436453420 + 0.061456973396 4926.5094768330 + 0.061249295601 5074.7354379699 + 0.060996051473 5219.2996353978 + 0.060698802846 5359.8952217509 + 0.060359152136 5496.2311484873 + 0.059978734952 5628.0328192739 + 0.059559213094 5755.0426449451 + 0.059102267951 5877.0205017782 + 0.058609594301 5993.7440954844 + 0.058082894515 6105.0092339244 + 0.057523873163 6210.6300120813 + 0.056934232018 6310.4389133045 + 0.056315665446 6404.2868312296 + 0.055669856182 6492.0430171031 + 0.054998471478 6573.5949574920 + 0.054303159602 6648.8481875410 + 0.053585546693 6717.7260450400 + 0.052847233940 6780.1693706143 + 0.052089795077 6836.1361593156 + 0.051314774183 6885.6011688176 + 0.000000148659 0.0901370381 + 0.097632940744 5655.3330634526 + 0.098058834464 5900.5072967660 + 0.098399377015 6143.8641179862 + 0.098656261704 6384.7729054730 + 0.098831325159 6622.6054753439 + 0.098926533814 6856.7357526949 + 0.098943970536 7086.5385145996 + 0.098885821479 7311.3868818258 + 0.098754363242 7530.6483147879 + 0.098551950422 7743.6780937789 + 0.098281003596 7949.8093081928 + 0.097943997792 8148.3374267764 + 0.097543451475 8338.4961836940 + 0.097081916095 8519.4188615648 + 0.096561966184 8690.0735874736 + 0.095986190051 8849.1490916353 + 0.095357181062 9003.3219910360 + 0.094677529502 9183.5960577929 + 0.093949815036 9356.7843827119 + 0.093176599748 9522.6543371132 + 0.092360421748 9680.9969897969 + 0.091503789344 9831.6270360201 + 0.090609175752 9974.3826285107 + 0.089679014330 10109.1251169024 + 0.088715694327 10235.7387022679 + 0.087721557113 10354.1300136163 + 0.086698892869 10464.2276133661 + 0.085649937726 10565.9814388385 + 0.084576871323 10659.3621868224 + 0.000000178327 0.1111702344 + 0.132989592537 7783.2324538491 + 0.134881195181 8173.7484129326 + 0.136599729686 8561.9664057648 + 0.138148524732 8946.6317657030 + 0.139531180561 9326.4520475504 + 0.140751541150 9700.0816739398 + 0.141813667294 10066.0974740563 + 0.142721810618 10422.9615429224 + 0.143480388562 10768.9615866970 + 0.144093960384 11102.1135044461 + 0.144567204192 11419.9947353045 + 0.144904895065 11719.4412318757 + 0.145111884262 11995.9487376496 + 0.145193079552 12242.3443519375 + 0.145153426676 12469.6848113618 + 0.144997891932 12792.9970137108 + 0.144731445896 13107.3502718763 + 0.144359048266 13412.2886149860 + 0.143885633804 13707.3932026735 + 0.143316099376 13992.2824820158 + 0.142655292048 14266.6121674000 + 0.141907998224 14530.0750523943 + 0.141078933781 14782.4006634565 + 0.140172735186 15023.3547658887 + 0.139193951533 15252.7387329500 + 0.138147037491 15470.3887893647 + 0.137036347094 15676.1751407254 + 0.135866128360 15870.0010003700 + 0.134640518678 16051.8015253647 + 0.000000121213 0.0706525626 + 0.069410294122 5556.5597319347 + 0.063825188715 5460.1752505743 + 0.058604612921 5343.8897680002 + 0.053732453740 5209.7977656785 + 0.049192972127 5060.0316534899 + 0.044970829331 4896.7453436731 + 0.041051083038 4722.0964597785 + 0.037419160210 4538.2267450946 + 0.034060813969 4347.2405420467 + 0.030962072386 4151.1815674420 + 0.028109187084 3952.0085827480 + 0.025488589235 3751.5709117673 + 0.023086859498 3551.5850362180 + 0.020891934234 3353.7905641197 + 0.018891871653 3159.7701556659 + 0.017070993680 2970.3603082896 + 0.015416592772 2786.5774441359 + 0.013916258344 2609.2482832281 + 0.012557949616 2439.0152828001 + 0.011330069823 2276.3471498370 + 0.010221535660 2121.5533975505 + 0.009221836929 1974.8017311688 + 0.008321082892 1836.1370185803 + 0.007510033499 1705.5007022906 + 0.006780115188 1582.7496999611 + 0.006123422201 1467.6740767666 + 0.005532705204 1360.0130148010 + 0.005001349465 1259.4688254998 + 0.004523345261 1165.7189285105 + 0.004093252249 1078.4258789899 + 0.003706160814 997.2456064551 + 0.003357651478 921.8341608025 + 0.000000148659 0.0901370381 + 0.125732051523 9726.3618451328 + 0.115695900219 9492.5069344028 + 0.106352918676 9228.5827467264 + 0.097662814646 8935.4751177441 + 0.089586848467 8650.4258510285 + 0.082088066199 8389.4513023496 + 0.075131442657 8110.7753157798 + 0.068683947043 7817.2143948958 + 0.062714542814 7511.5321234484 + 0.057194132522 7196.4335083413 + 0.052095457698 6874.5569894414 + 0.047392963554 6548.4633530917 + 0.043062638261 6220.6210853347 + 0.039081836877 5893.3880915384 + 0.035429100409 5568.9901847831 + 0.032083980752 5249.4972734209 + 0.029026882032 4936.7986959730 + 0.026238927862 4632.5795710987 + 0.023701861941 4338.3002552639 + 0.021397986400 4055.1809520930 + 0.019310138485 3784.1931628827 + 0.017421702210 3526.0590408409 + 0.015716648126 3281.2589116769 + 0.014179591902 3050.0463926577 + 0.012795861423 2832.4698283588 + 0.011551562606 2628.3982765864 + 0.010433635794 2437.5500744440 + 0.009429897027 2259.5220798277 + 0.008529061126 2093.8179559681 + 0.007720745929 1939.8742602799 + 0.006995458928 1797.0835291326 + 0.006344568813 1664.8139509597 + 0.000000178327 0.1111702344 + 0.204054271065 15294.2687634041 + 0.189749317520 14954.7539189311 + 0.176113203833 14517.9796382419 + 0.163171436978 14080.2044355630 + 0.150934422137 13787.5081602748 + 0.139400747042 13454.2749048990 + 0.128559947217 13085.8442919235 + 0.118394816228 12687.2780576672 + 0.108883316201 12263.3500011365 + 0.100000137499 11818.5473115489 + 0.091717951642 11357.0802822037 + 0.084008397645 10882.8975404325 + 0.076842838351 10399.7041291315 + 0.070192919908 9910.9800296763 + 0.064030964283 9419.9969980245 + 0.058330221648 8929.8318930158 + 0.053065006850 8443.3750236584 + 0.048210742186 7963.3324590635 + 0.043743927326 7492.2217622561 + 0.039642056513 7032.3612471591 + 0.035883502875 6585.8536065803 + 0.032447389271 6154.5655620432 + 0.029313464177 5740.1059354867 + 0.026461998964 5343.8050895260 + 0.023873719312 4966.6988724933 + 0.021529778387 4609.5199274629 + 0.019411773347 4272.6984669009 + 0.017501800620 3956.3734834555 + 0.015782540309 3660.4140734407 + 0.014237356916 3384.4493491192 + 0.012850402728 3127.9045339086 + 0.011606711572 2890.0404014286 diff --git a/mytest/gypsum_P_101.sel b/mytest/gypsum_P_101.sel index 35c200d2..418d76a6 100644 --- a/mytest/gypsum_P_101.sel +++ b/mytest/gypsum_P_101.sel @@ -1,12 +1,12 @@ Mu SC - 0.000000328030 0.2628448998 - 0.035263345576 4105.1645799519 - 0.039198421868 4567.3245247727 - 0.043200998889 5037.5058290684 - 0.047241261214 5512.0854126418 - 0.051291377358 5987.6473428888 - 0.055325949357 6461.0407869770 - 0.058471858771 6833.7102469793 - 0.061241521532 7162.9880281832 - 0.063889527089 7477.2898981685 - 0.066415326315 7776.3508357570 + 0.000000328030 0.2628448430 + 0.035263345576 4104.4796293138 + 0.039198421868 4566.5288253120 + 0.043200998889 5036.5929160943 + 0.047241261214 5511.0498523013 + 0.051291377358 5986.4847802502 + 0.055325949357 6459.7479578690 + 0.058471858771 6832.3132833155 + 0.061241521532 7161.4977934002 + 0.063889527089 7475.7092959500 + 0.066415326315 7774.6830836461 diff --git a/mytest/halite.out b/mytest/halite.out index e789e63c..4bda3f13 100644 --- a/mytest/halite.out +++ b/mytest/halite.out @@ -138,10 +138,10 @@ Halite 0.00 1.58 1.58 1.000e+01 3.906e+00 -6.094e+00 pH = 6.306 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 448242 + Specific Conductance (µS/cm, 30°C) = 448186 Density (g/cm³) = 1.19682 Volume (L) = 1.13311 - Viscosity (mPa s) = 0.80955 + Viscosity (mPa s) = 0.80975 Activity of water = 0.755 Ionic strength (mol/kgw) = 6.094e+00 Mass of water (kg) = 1.000e+00 @@ -204,10 +204,10 @@ Halite 0.00 1.60 1.60 1.000e+01 3.840e+00 -6.160e+00 pH = 6.276 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 454700 + Specific Conductance (µS/cm, 30°C) = 454644 Density (g/cm³) = 1.20454 Volume (L) = 1.12908 - Viscosity (mPa s) = 0.80970 + Viscosity (mPa s) = 0.80991 Activity of water = 0.751 Ionic strength (mol/kgw) = 6.160e+00 Mass of water (kg) = 1.000e+00 @@ -271,10 +271,10 @@ Halite 0.00 1.61 1.61 1.000e+01 3.790e+00 -6.210e+00 pH = 6.249 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 459670 + Specific Conductance (µS/cm, 30°C) = 459613 Density (g/cm³) = 1.21175 Volume (L) = 1.12477 - Viscosity (mPa s) = 0.81109 + Viscosity (mPa s) = 0.81130 Activity of water = 0.748 Ionic strength (mol/kgw) = 6.210e+00 Mass of water (kg) = 1.000e+00 @@ -338,10 +338,10 @@ Halite 0.00 1.62 1.62 1.000e+01 3.753e+00 -6.247e+00 pH = 6.226 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 463232 + Specific Conductance (µS/cm, 30°C) = 463175 Density (g/cm³) = 1.21853 Volume (L) = 1.12028 - Viscosity (mPa s) = 0.81371 + Viscosity (mPa s) = 0.81392 Activity of water = 0.746 Ionic strength (mol/kgw) = 6.247e+00 Mass of water (kg) = 1.000e+00 @@ -405,10 +405,10 @@ Halite -0.00 1.63 1.63 1.000e+01 3.726e+00 -6.274e+00 pH = 6.205 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 465538 + Specific Conductance (µS/cm, 30°C) = 465481 Density (g/cm³) = 1.22502 Volume (L) = 1.11562 - Viscosity (mPa s) = 0.81753 + Viscosity (mPa s) = 0.81774 Activity of water = 0.744 Ionic strength (mol/kgw) = 6.274e+00 Mass of water (kg) = 1.000e+00 @@ -472,10 +472,10 @@ Halite 0.00 1.64 1.64 1.000e+01 3.707e+00 -6.293e+00 pH = 6.186 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 466764 + Specific Conductance (µS/cm, 30°C) = 466707 Density (g/cm³) = 1.23143 Volume (L) = 1.11075 - Viscosity (mPa s) = 0.82257 + Viscosity (mPa s) = 0.82278 Activity of water = 0.743 Ionic strength (mol/kgw) = 6.293e+00 Mass of water (kg) = 1.000e+00 @@ -539,10 +539,10 @@ Halite -0.00 1.65 1.65 1.000e+01 3.690e+00 -6.310e+00 pH = 6.168 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 467062 + Specific Conductance (µS/cm, 30°C) = 467005 Density (g/cm³) = 1.23804 Volume (L) = 1.10558 - Viscosity (mPa s) = 0.82897 + Viscosity (mPa s) = 0.82918 Activity of water = 0.742 Ionic strength (mol/kgw) = 6.310e+00 Mass of water (kg) = 1.000e+00 @@ -606,10 +606,10 @@ Halite -0.00 1.65 1.65 1.000e+01 3.674e+00 -6.326e+00 pH = 6.151 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 466508 + Specific Conductance (µS/cm, 30°C) = 466452 Density (g/cm³) = 1.24518 Volume (L) = 1.09999 - Viscosity (mPa s) = 0.83701 + Viscosity (mPa s) = 0.83722 Activity of water = 0.741 Ionic strength (mol/kgw) = 6.326e+00 Mass of water (kg) = 1.000e+00 @@ -673,10 +673,10 @@ Halite -0.00 1.65 1.65 1.000e+01 3.655e+00 -6.345e+00 pH = 6.134 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 465045 + Specific Conductance (µS/cm, 30°C) = 464989 Density (g/cm³) = 1.25321 Volume (L) = 1.09383 - Viscosity (mPa s) = 0.84725 + Viscosity (mPa s) = 0.84746 Activity of water = 0.739 Ionic strength (mol/kgw) = 6.345e+00 Mass of water (kg) = 1.000e+00 @@ -740,10 +740,10 @@ Halite -0.00 1.66 1.66 1.000e+01 3.630e+00 -6.370e+00 pH = 6.117 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 462385 + Specific Conductance (µS/cm, 30°C) = 462330 Density (g/cm³) = 1.26255 Volume (L) = 1.08692 - Viscosity (mPa s) = 0.86057 + Viscosity (mPa s) = 0.86079 Activity of water = 0.738 Ionic strength (mol/kgw) = 6.370e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/halite_101.sel b/mytest/halite_101.sel index ac5aa214..7a85ea4e 100644 --- a/mytest/halite_101.sel +++ b/mytest/halite_101.sel @@ -1,12 +1,12 @@ Mu SC - 0.000000121213 0.0706525639 - 6.093624033220 448242.0790458894 - 6.160176768737 454700.9605096157 - 6.210167243086 459670.6712278777 - 6.246904944307 463232.4659221268 - 6.273580859847 465538.1435395923 - 6.293402935747 466764.0231307620 - 6.309620217177 467062.0456520282 - 6.325544094620 466508.9984347165 - 6.344567135711 465045.1063862992 - 6.370182841434 462385.2163780713 + 0.000000121213 0.0706525626 + 6.093624033220 448186.5759200526 + 6.160176768737 454644.7430168564 + 6.210167243086 459613.9852386422 + 6.246904944307 463175.5357887694 + 6.273580859847 465481.1634996847 + 6.293402935747 466707.1546291506 + 6.309620217177 467005.4212631719 + 6.325544094620 466452.7327427141 + 6.344567135711 464989.3155842367 + 6.370182841434 462330.0511697147 diff --git a/mytest/harm_mean.out b/mytest/harm_mean.out index e48b2b9d..89d38421 100644 --- a/mytest/harm_mean.out +++ b/mytest/harm_mean.out @@ -1191,12 +1191,12 @@ Su Element Moles Cl 6.1804e-02 H 2.8170e-07 - Hdo 7.9928e-07 - Hto 7.9928e-07 - I 4.9395e-07 + Hdo 7.9901e-07 + Hto 7.9901e-07 + I 4.9382e-07 Na 1.6180e-01 - Nat 1.2933e-06 - O 7.7978e-08 + Nat 1.2928e-06 + O 7.7931e-08 Su 1.000e-01 moles @@ -1210,22 +1210,22 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 7.993e-07 7.993e-07 - Hto 7.993e-07 7.993e-07 - I 7.992e-07 7.992e-07 + Hdo 7.990e-07 7.990e-07 + Hto 7.990e-07 7.990e-07 + I 7.990e-07 7.990e-07 Na 1.000e-01 1.000e-01 - Nat 7.993e-07 7.993e-07 + Nat 7.990e-07 7.990e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.979 Adjusted to redox equilibrium + pe = 11.919 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.365e-12 + Total alkalinity (eq/kg) = 1.092e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.345e-09 + Electrical balance (eq) = 4.649e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -1242,32 +1242,32 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.084 -41.074 0.010 (0) -Hdo 7.993e-07 - Hdo 7.993e-07 8.179e-07 -6.097 -6.087 0.010 (0) -Hto 7.993e-07 - Hto 7.993e-07 8.179e-07 -6.097 -6.087 0.010 (0) -I 7.992e-07 - I- 7.992e-07 6.244e-07 -6.097 -6.205 -0.107 (0) + H2 0.000e+00 0.000e+00 -40.965 -40.955 0.010 (0) +Hdo 7.990e-07 + Hdo 7.990e-07 8.176e-07 -6.097 -6.087 0.010 (0) +Hto 7.990e-07 + Hto 7.990e-07 8.176e-07 -6.097 -6.087 0.010 (0) +I 7.990e-07 + I- 7.990e-07 6.242e-07 -6.097 -6.205 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 7.993e-07 - Nat+ 7.993e-07 6.244e-07 -6.097 -6.205 -0.107 (0) -O(0) 1.139e-10 - O2 5.695e-11 5.827e-11 -10.245 -10.235 0.010 (0) +Nat 7.990e-07 + Nat+ 7.990e-07 6.242e-07 -6.097 -6.205 -0.107 (0) +O(0) 6.581e-11 + O2 3.291e-11 3.367e-11 -10.483 -10.473 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.92 -41.07 -3.15 H2 + H2(g) -37.81 -40.96 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.34 -10.23 -2.89 O2 + O2(g) -7.58 -10.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1303,13 +1303,13 @@ Su Element Moles Cl 6.1803e-02 - H 2.8170e-07 - Hdo 3.9883e-07 - Hto 3.9883e-07 - I 2.4644e-07 + H 2.8169e-07 + Hdo 3.9839e-07 + Hto 3.9839e-07 + I 2.4622e-07 Na 1.6180e-01 - Nat 6.4546e-07 - O 7.8174e-08 + Nat 6.4461e-07 + O 7.7990e-08 Su 1.000e-01 moles @@ -1323,22 +1323,22 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 3.988e-07 3.988e-07 - Hto 3.988e-07 3.988e-07 - I 3.987e-07 3.987e-07 + Hdo 3.984e-07 3.984e-07 + Hto 3.984e-07 3.984e-07 + I 3.984e-07 3.984e-07 Na 1.000e-01 1.000e-01 - Nat 3.989e-07 3.989e-07 + Nat 3.984e-07 3.984e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.087 Adjusted to redox equilibrium + pe = 11.985 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.380e-12 + Total alkalinity (eq/kg) = 2.606e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.576e-09 + Electrical balance (eq) = 5.170e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -1349,38 +1349,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.260e-07 9.595e-08 -6.900 -7.018 -0.118 (0) + OH- 1.260e-07 9.596e-08 -6.900 -7.018 -0.118 (0) H+ 1.260e-07 1.040e-07 -6.900 -6.983 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.301 -41.291 0.010 (0) -Hdo 3.988e-07 - Hdo 3.988e-07 4.081e-07 -6.399 -6.389 0.010 (0) -Hto 3.988e-07 - Hto 3.988e-07 4.081e-07 -6.399 -6.389 0.010 (0) -I 3.987e-07 - I- 3.987e-07 3.115e-07 -6.399 -6.507 -0.107 (0) + H2 0.000e+00 0.000e+00 -41.096 -41.086 0.010 (0) +Hdo 3.984e-07 + Hdo 3.984e-07 4.077e-07 -6.400 -6.390 0.010 (0) +Hto 3.984e-07 + Hto 3.984e-07 4.077e-07 -6.400 -6.390 0.010 (0) +I 3.984e-07 + I- 3.984e-07 3.112e-07 -6.400 -6.507 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 3.989e-07 - Nat+ 3.989e-07 3.116e-07 -6.399 -6.506 -0.107 (0) -O(0) 3.087e-10 - O2 1.544e-10 1.580e-10 -9.811 -9.801 0.010 (0) +Nat 3.984e-07 + Nat+ 3.984e-07 3.112e-07 -6.400 -6.507 -0.107 (0) +O(0) 1.202e-10 + O2 6.010e-11 6.149e-11 -10.221 -10.211 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.14 -41.29 -3.15 H2 + H2(g) -37.94 -41.09 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -6.91 -9.80 -2.89 O2 + O2(g) -7.32 -10.21 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1400,17 +1400,17 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 0.000e+00 2.063e-06 2.063e-06 -Hto 0.00 -13.00 -13.00 0.000e+00 2.063e-06 2.063e-06 -I 0.00 -13.00 -13.00 0.000e+00 1.645e-06 1.645e-06 -Nat -0.00 -13.00 -13.00 0.000e+00 2.740e-06 2.740e-06 +Hdo 0.00 -13.00 -13.00 0.000e+00 1.936e-06 1.936e-06 +Hto 0.00 -13.00 -13.00 0.000e+00 1.936e-06 1.936e-06 +I 0.00 -13.00 -13.00 0.000e+00 1.566e-06 1.566e-06 +Nat 0.00 -13.00 -13.00 0.000e+00 2.534e-06 2.534e-06 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.467e-12 Surface + diffuse layer charge, eq + 1.468e-12 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -1427,13 +1427,13 @@ Su Element Moles Cl 6.1803e-02 - H 2.8170e-07 + H 2.8169e-07 Hdo 9.7724e-14 Hto 9.7724e-14 I 1.0109e-12 Na 1.6180e-01 Nat 2.7102e-12 - O 7.8283e-08 + O 7.7966e-08 Su 1.000e-01 moles @@ -1456,13 +1456,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.120 Adjusted to redox equilibrium + pe = 11.959 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.072e-11 + Total alkalinity (eq/kg) = 3.176e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.924e-10 + Electrical balance (eq) = 9.809e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -1473,13 +1473,13 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.260e-07 9.595e-08 -6.900 -7.018 -0.118 (0) + OH- 1.260e-07 9.596e-08 -6.900 -7.018 -0.118 (0) H+ 1.260e-07 1.040e-07 -6.900 -6.983 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.366 -41.356 0.010 (0) + H2 0.000e+00 0.000e+00 -41.044 -41.034 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -1490,21 +1490,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 4.178e-10 - O2 2.089e-10 2.138e-10 -9.680 -9.670 0.010 (0) +O(0) 9.473e-11 + O2 4.737e-11 4.847e-11 -10.325 -10.315 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.21 -41.36 -3.15 H2 + H2(g) -37.88 -41.03 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI - Nat -0.00 -13.00 -13.00 NatCl - O2(g) -6.78 -9.67 -2.89 O2 + Nat 0.00 -13.00 -13.00 NatCl + O2(g) -7.42 -10.31 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1617,7 +1617,7 @@ Su I 4.9442e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.7915e-08 + O 7.7895e-08 Su 1.000e-01 moles @@ -1640,13 +1640,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.892 Adjusted to redox equilibrium + pe = 11.836 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.321e-12 + Total alkalinity (eq/kg) = 7.350e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.724e-08 + Electrical balance (eq) = 1.355e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -1663,7 +1663,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.910 -40.900 0.010 (0) + H2 0.000e+00 0.000e+00 -40.799 -40.789 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -1674,21 +1674,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 5.104e-11 - O2 2.552e-11 2.611e-11 -10.593 -10.583 0.010 (0) +O(0) 3.059e-11 + O2 1.530e-11 1.565e-11 -10.815 -10.805 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.75 -40.90 -3.15 H2 + H2(g) -37.64 -40.79 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.69 -10.58 -2.89 O2 + O2(g) -7.91 -10.81 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1725,12 +1725,12 @@ Su Element Moles Cl 6.1803e-02 H 2.8170e-07 - Hdo 3.9999e-07 - Hto 3.9999e-07 - I 2.4721e-07 + Hdo 3.9998e-07 + Hto 3.9998e-07 + I 2.4720e-07 Na 1.6180e-01 - Nat 6.4720e-07 - O 7.8006e-08 + Nat 6.4718e-07 + O 7.7933e-08 Su 1.000e-01 moles @@ -1753,13 +1753,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.002 Adjusted to redox equilibrium + pe = 11.919 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.441e-12 + Total alkalinity (eq/kg) = 1.754e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.547e-08 + Electrical balance (eq) = 1.407e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -1776,7 +1776,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.130 -41.120 0.010 (0) + H2 0.000e+00 0.000e+00 -40.963 -40.953 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -1787,21 +1787,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 1.407e-10 - O2 7.036e-11 7.200e-11 -10.153 -10.143 0.010 (0) +O(0) 6.524e-11 + O2 3.262e-11 3.338e-11 -10.487 -10.477 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.97 -41.12 -3.15 H2 + H2(g) -37.80 -40.95 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.25 -10.14 -2.89 O2 + O2(g) -7.58 -10.48 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -1821,10 +1821,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 2.063e-06 4.263e-06 2.200e-06 -Hto 0.00 -13.00 -13.00 2.063e-06 4.263e-06 2.200e-06 -I 0.00 -13.00 -13.00 1.645e-06 3.400e-06 1.755e-06 -Nat 0.00 -13.00 -13.00 2.740e-06 5.660e-06 2.920e-06 +Hdo 0.00 -13.00 -13.00 1.936e-06 4.007e-06 2.071e-06 +Hto 0.00 -13.00 -13.00 1.936e-06 4.007e-06 2.071e-06 +I 0.00 -13.00 -13.00 1.566e-06 3.242e-06 1.676e-06 +Nat 0.00 -13.00 -13.00 2.534e-06 5.246e-06 2.711e-06 ------------------------------Surface composition------------------------------ @@ -1854,7 +1854,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7102e-12 - O 7.8058e-08 + O 7.7935e-08 Su 1.000e-01 moles @@ -1877,13 +1877,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.037 Adjusted to redox equilibrium + pe = 11.922 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.104e-11 + Total alkalinity (eq/kg) = 2.194e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.100e-10 + Electrical balance (eq) = 1.157e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -1894,13 +1894,13 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.260e-07 9.595e-08 -6.900 -7.018 -0.118 (0) + OH- 1.260e-07 9.596e-08 -6.900 -7.018 -0.118 (0) H+ 1.260e-07 1.040e-07 -6.900 -6.983 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.199 -41.189 0.010 (0) + H2 0.000e+00 0.000e+00 -40.969 -40.959 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -1911,21 +1911,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.933e-10 - O2 9.667e-11 9.892e-11 -10.015 -10.005 0.010 (0) +O(0) 6.711e-11 + O2 3.355e-11 3.434e-11 -10.474 -10.464 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.04 -41.19 -3.15 H2 + H2(g) -37.81 -40.96 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.11 -10.00 -2.89 O2 + O2(g) -7.57 -10.46 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2015,7 +2015,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - -1.263e-11 Surface + diffuse layer charge, eq + -1.519e-11 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -2038,7 +2038,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.8071e-08 + O 7.8031e-08 Su 1.000e-01 moles @@ -2061,13 +2061,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.044 Adjusted to redox equilibrium + pe = 12.021 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.339e-12 + Total alkalinity (eq/kg) = 5.952e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.614e-08 + Electrical balance (eq) = 2.244e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -2084,7 +2084,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.215 -41.205 0.010 (0) + H2 0.000e+00 0.000e+00 -41.168 -41.158 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -2095,21 +2095,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 2.078e-10 - O2 1.039e-10 1.063e-10 -9.983 -9.973 0.010 (0) +O(0) 1.673e-10 + O2 8.367e-11 8.562e-11 -10.077 -10.067 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.05 -41.20 -3.15 H2 + H2(g) -38.01 -41.16 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.08 -9.97 -2.89 O2 + O2(g) -7.18 -10.07 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2174,13 +2174,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.935 Adjusted to redox equilibrium + pe = 11.934 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.508e-12 + Total alkalinity (eq/kg) = 1.374e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.437e-08 + Electrical balance (eq) = 2.296e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -2197,7 +2197,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) + H2 0.000e+00 0.000e+00 -40.994 -40.984 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -2208,14 +2208,14 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 7.622e-11 - O2 3.811e-11 3.900e-11 -10.419 -10.409 0.010 (0) +O(0) 7.517e-11 + O2 3.759e-11 3.846e-11 -10.425 -10.415 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.84 -40.99 -3.15 H2 + H2(g) -37.83 -40.98 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo @@ -2242,10 +2242,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 4.263e-06 6.465e-06 2.202e-06 -Hto 0.00 -13.00 -13.00 4.263e-06 6.465e-06 2.202e-06 -I 0.00 -13.00 -13.00 3.400e-06 5.157e-06 1.757e-06 -Nat 0.00 -13.00 -13.00 5.660e-06 8.582e-06 2.922e-06 +Hdo 0.00 -13.00 -13.00 4.007e-06 6.081e-06 2.074e-06 +Hto 0.00 -13.00 -13.00 4.007e-06 6.081e-06 2.074e-06 +I 0.00 -13.00 -13.00 3.242e-06 4.919e-06 1.678e-06 +Nat 0.00 -13.00 -13.00 5.246e-06 7.960e-06 2.714e-06 ------------------------------Surface composition------------------------------ @@ -2275,7 +2275,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7102e-12 - O 7.7956e-08 + O 7.7943e-08 Su 1.000e-01 moles @@ -2298,13 +2298,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.954 Adjusted to redox equilibrium + pe = 11.936 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.114e-11 + Total alkalinity (eq/kg) = 1.677e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.276e-10 + Electrical balance (eq) = 1.333e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -2321,7 +2321,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.035 -41.025 0.010 (0) + H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -2332,21 +2332,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.080e-11 - O2 4.540e-11 4.646e-11 -10.343 -10.333 0.010 (0) +O(0) 7.639e-11 + O2 3.820e-11 3.909e-11 -10.418 -10.408 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.88 -41.03 -3.15 H2 + H2(g) -37.84 -40.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.44 -10.33 -2.89 O2 + O2(g) -7.52 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2436,7 +2436,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 6.803e-11 Surface + diffuse layer charge, eq + 1.480e-09 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -2459,7 +2459,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.7977e-08 + O 7.8911e-08 Su 1.000e-01 moles @@ -2482,15 +2482,15 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.979 Adjusted to redox equilibrium + pe = 12.220 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.412e-12 + Total alkalinity (eq/kg) = 5.369e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.428e-08 + Electrical balance (eq) = 3.058e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 (9 overall) + Iterations = 0 (8 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -2505,7 +2505,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.084 -41.074 0.010 (0) + H2 0.000e+00 0.000e+00 -41.566 -41.556 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -2516,21 +2516,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.136e-10 - O2 5.682e-11 5.815e-11 -10.245 -10.235 0.010 (0) +O(0) 1.047e-09 + O2 5.234e-10 5.356e-10 -9.281 -9.271 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.92 -41.07 -3.15 H2 + H2(g) -38.41 -41.56 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.34 -10.24 -2.89 O2 + O2(g) -6.38 -9.27 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2572,7 +2572,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7945e-08 + O 7.7942e-08 Su 1.000e-01 moles @@ -2595,13 +2595,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.940 Adjusted to redox equilibrium + pe = 11.936 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.723e-12 + Total alkalinity (eq/kg) = 1.216e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.327e-08 + Electrical balance (eq) = 3.186e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -2618,7 +2618,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.007 -40.997 0.010 (0) + H2 0.000e+00 0.000e+00 -40.997 -40.987 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -2629,21 +2629,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 7.985e-11 - O2 3.992e-11 4.085e-11 -10.399 -10.389 0.010 (0) +O(0) 7.628e-11 + O2 3.814e-11 3.903e-11 -10.419 -10.409 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.85 -41.00 -3.15 H2 + H2(g) -37.84 -40.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.50 -10.39 -2.89 O2 + O2(g) -7.52 -10.41 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2663,10 +2663,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 6.465e-06 8.667e-06 2.202e-06 -Hto 0.00 -13.00 -13.00 6.465e-06 8.667e-06 2.202e-06 -I 0.00 -13.00 -13.00 5.157e-06 6.914e-06 1.757e-06 -Nat 0.00 -13.00 -13.00 8.582e-06 1.150e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 6.081e-06 8.154e-06 2.074e-06 +Hto 0.00 -13.00 -13.00 6.081e-06 8.154e-06 2.074e-06 +I 0.00 -13.00 -13.00 4.919e-06 6.597e-06 1.678e-06 +Nat 0.00 -13.00 -13.00 7.960e-06 1.067e-05 2.714e-06 ------------------------------Surface composition------------------------------ @@ -2696,7 +2696,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7102e-12 - O 7.7955e-08 + O 7.7948e-08 Su 1.000e-01 moles @@ -2719,13 +2719,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.954 Adjusted to redox equilibrium + pe = 11.943 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.145e-11 + Total alkalinity (eq/kg) = 1.462e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.452e-10 + Electrical balance (eq) = 1.509e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -2742,7 +2742,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.034 -41.024 0.010 (0) + H2 0.000e+00 0.000e+00 -41.012 -41.002 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -2753,21 +2753,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.022e-11 - O2 4.511e-11 4.616e-11 -10.346 -10.336 0.010 (0) +O(0) 8.176e-11 + O2 4.088e-11 4.183e-11 -10.388 -10.378 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.87 -41.02 -3.15 H2 + H2(g) -37.85 -41.00 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.44 -10.34 -2.89 O2 + O2(g) -7.49 -10.38 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2857,7 +2857,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.625e-10 Surface + diffuse layer charge, eq + -3.895e-12 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -2880,7 +2880,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.7971e-08 + O 7.8037e-08 Su 1.000e-01 moles @@ -2903,13 +2903,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.973 Adjusted to redox equilibrium + pe = 12.025 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.533e-12 + Total alkalinity (eq/kg) = 4.950e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.250e-08 + Electrical balance (eq) = 4.022e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -2926,7 +2926,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.072 -41.062 0.010 (0) + H2 0.000e+00 0.000e+00 -41.175 -41.165 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -2937,21 +2937,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.077e-10 - O2 5.384e-11 5.509e-11 -10.269 -10.259 0.010 (0) +O(0) 1.732e-10 + O2 8.662e-11 8.863e-11 -10.062 -10.052 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -38.02 -41.17 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.37 -10.26 -2.89 O2 + O2(g) -7.16 -10.05 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -2993,7 +2993,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7960e-08 + O 7.7958e-08 Su 1.000e-01 moles @@ -3016,13 +3016,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.959 Adjusted to redox equilibrium + pe = 11.956 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.007e-11 + Total alkalinity (eq/kg) = 1.104e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.217e-08 + Electrical balance (eq) = 4.076e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -3039,7 +3039,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.045 -41.035 0.010 (0) + H2 0.000e+00 0.000e+00 -41.039 -41.029 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -3050,8 +3050,8 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 9.490e-11 - O2 4.745e-11 4.856e-11 -10.324 -10.314 0.010 (0) +O(0) 9.248e-11 + O2 4.624e-11 4.732e-11 -10.335 -10.325 0.010 (0) ------------------------------Saturation indices------------------------------- @@ -3064,7 +3064,7 @@ O(0) 9.490e-11 Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.42 -10.31 -2.89 O2 + O2(g) -7.43 -10.32 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3084,10 +3084,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 8.667e-06 1.087e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 8.667e-06 1.087e-05 2.202e-06 -I 0.00 -13.00 -13.00 6.914e-06 8.671e-06 1.757e-06 -Nat 0.00 -13.00 -13.00 1.150e-05 1.443e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 8.154e-06 1.023e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 8.154e-06 1.023e-05 2.074e-06 +I 0.00 -13.00 -13.00 6.597e-06 8.275e-06 1.678e-06 +Nat 0.00 -13.00 -13.00 1.067e-05 1.339e-05 2.714e-06 ------------------------------Surface composition------------------------------ @@ -3116,8 +3116,8 @@ Su Hto 9.7724e-14 I 1.0109e-12 Na 1.6180e-01 - Nat 2.7103e-12 - O 7.7961e-08 + Nat 2.7102e-12 + O 7.7990e-08 Su 1.000e-01 moles @@ -3140,13 +3140,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.960 Adjusted to redox equilibrium + pe = 11.989 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.193e-11 + Total alkalinity (eq/kg) = 1.312e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.628e-10 + Electrical balance (eq) = 1.685e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -3163,7 +3163,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.046 -41.036 0.010 (0) + H2 0.000e+00 0.000e+00 -41.103 -41.093 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -3174,21 +3174,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.552e-11 - O2 4.776e-11 4.887e-11 -10.321 -10.311 0.010 (0) +O(0) 1.245e-10 + O2 6.223e-11 6.368e-11 -10.206 -10.196 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.89 -41.04 -3.15 H2 + H2(g) -37.94 -41.09 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.42 -10.31 -2.89 O2 + O2(g) -7.30 -10.20 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3278,7 +3278,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - -4.044e-12 Surface + diffuse layer charge, eq + 4.504e-12 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -3301,7 +3301,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.8037e-08 + O 7.8011e-08 Su 1.000e-01 moles @@ -3324,13 +3324,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.025 Adjusted to redox equilibrium + pe = 12.007 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.594e-12 + Total alkalinity (eq/kg) = 4.903e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.082e-08 + Electrical balance (eq) = 4.837e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -3347,7 +3347,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.176 -41.166 0.010 (0) + H2 0.000e+00 0.000e+00 -41.140 -41.130 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -3358,21 +3358,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.736e-10 - O2 8.679e-11 8.882e-11 -10.062 -10.052 0.010 (0) +O(0) 1.470e-10 + O2 7.349e-11 7.520e-11 -10.134 -10.124 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.02 -41.17 -3.15 H2 + H2(g) -37.98 -41.13 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.16 -10.05 -2.89 O2 + O2(g) -7.23 -10.12 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3414,7 +3414,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7947e-08 + O 7.7986e-08 Su 1.000e-01 moles @@ -3437,13 +3437,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.943 Adjusted to redox equilibrium + pe = 11.986 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.025e-11 + Total alkalinity (eq/kg) = 1.092e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.106e-08 + Electrical balance (eq) = 4.966e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -3460,7 +3460,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.012 -41.002 0.010 (0) + H2 0.000e+00 0.000e+00 -41.098 -41.088 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -3471,21 +3471,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 8.173e-11 - O2 4.087e-11 4.182e-11 -10.389 -10.379 0.010 (0) +O(0) 1.212e-10 + O2 6.058e-11 6.199e-11 -10.218 -10.208 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.85 -41.00 -3.15 H2 + H2(g) -37.94 -41.09 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.49 -10.38 -2.89 O2 + O2(g) -7.32 -10.21 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3505,17 +3505,17 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 1.087e-05 1.307e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 1.087e-05 1.307e-05 2.202e-06 -I 0.00 -13.00 -13.00 8.671e-06 1.043e-05 1.757e-06 -Nat 0.00 -13.00 -13.00 1.443e-05 1.735e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 1.023e-05 1.230e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 1.023e-05 1.230e-05 2.074e-06 +I 0.00 -13.00 -13.00 8.275e-06 9.952e-06 1.678e-06 +Nat 0.00 -13.00 -13.00 1.339e-05 1.610e-05 2.714e-06 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.468e-12 Surface + diffuse layer charge, eq + 1.467e-12 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -3538,7 +3538,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7103e-12 - O 7.7957e-08 + O 7.7954e-08 Su 1.000e-01 moles @@ -3561,13 +3561,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.956 Adjusted to redox equilibrium + pe = 11.952 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.220e-11 + Total alkalinity (eq/kg) = 1.296e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.804e-10 + Electrical balance (eq) = 1.861e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -3584,7 +3584,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.038 -41.028 0.010 (0) + H2 0.000e+00 0.000e+00 -41.031 -41.021 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -3595,21 +3595,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.203e-11 - O2 4.602e-11 4.709e-11 -10.337 -10.327 0.010 (0) +O(0) 8.895e-11 + O2 4.448e-11 4.551e-11 -10.352 -10.342 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.88 -41.03 -3.15 H2 + H2(g) -37.87 -41.02 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.43 -10.33 -2.89 O2 + O2(g) -7.45 -10.34 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3699,7 +3699,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.264e-11 Surface + diffuse layer charge, eq + -1.161e-11 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -3722,7 +3722,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.8020e-08 + O 7.8070e-08 Su 1.000e-01 moles @@ -3745,13 +3745,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.014 Adjusted to redox equilibrium + pe = 12.043 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.575e-12 + Total alkalinity (eq/kg) = 4.880e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.897e-08 + Electrical balance (eq) = 5.653e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -3768,7 +3768,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.153 -41.143 0.010 (0) + H2 0.000e+00 0.000e+00 -41.213 -41.203 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -3779,21 +3779,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.566e-10 - O2 7.828e-11 8.011e-11 -10.106 -10.096 0.010 (0) +O(0) 2.058e-10 + O2 1.029e-10 1.053e-10 -9.988 -9.978 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.99 -41.14 -3.15 H2 + H2(g) -38.05 -41.20 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.20 -10.10 -2.89 O2 + O2(g) -7.09 -9.98 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3835,7 +3835,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7949e-08 + O 7.7953e-08 Su 1.000e-01 moles @@ -3858,13 +3858,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.946 Adjusted to redox equilibrium + pe = 11.951 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.022e-11 + Total alkalinity (eq/kg) = 1.087e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.996e-08 + Electrical balance (eq) = 5.855e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -3881,7 +3881,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.019 -41.009 0.010 (0) + H2 0.000e+00 0.000e+00 -41.027 -41.017 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -3892,21 +3892,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 8.418e-11 - O2 4.209e-11 4.307e-11 -10.376 -10.366 0.010 (0) +O(0) 8.760e-11 + O2 4.380e-11 4.482e-11 -10.359 -10.349 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.86 -41.01 -3.15 H2 + H2(g) -37.87 -41.02 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.47 -10.37 -2.89 O2 + O2(g) -7.46 -10.35 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -3926,10 +3926,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 1.307e-05 1.527e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 1.307e-05 1.527e-05 2.202e-06 -I 0.00 -13.00 -13.00 1.043e-05 1.218e-05 1.757e-06 -Nat 0.00 -13.00 -13.00 1.735e-05 2.027e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 1.230e-05 1.438e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 1.230e-05 1.438e-05 2.074e-06 +I 0.00 -13.00 -13.00 9.952e-06 1.163e-05 1.678e-06 +Nat 0.00 -13.00 -13.00 1.610e-05 1.882e-05 2.714e-06 ------------------------------Surface composition------------------------------ @@ -3959,7 +3959,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7103e-12 - O 7.7963e-08 + O 7.7966e-08 Su 1.000e-01 moles @@ -3982,13 +3982,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.963 Adjusted to redox equilibrium + pe = 11.966 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.217e-11 + Total alkalinity (eq/kg) = 1.291e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.980e-10 + Electrical balance (eq) = 2.037e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -4005,7 +4005,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.052 -41.042 0.010 (0) + H2 0.000e+00 0.000e+00 -41.057 -41.047 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -4016,21 +4016,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.803e-11 - O2 4.901e-11 5.015e-11 -10.310 -10.300 0.010 (0) +O(0) 1.006e-10 + O2 5.031e-11 5.148e-11 -10.298 -10.288 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.89 -41.04 -3.15 H2 + H2(g) -37.90 -41.05 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.41 -10.30 -2.89 O2 + O2(g) -7.40 -10.29 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4120,7 +4120,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 2.907e-10 Surface + diffuse layer charge, eq + 2.892e-10 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -4143,7 +4143,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.7931e-08 + O 7.7933e-08 Su 1.000e-01 moles @@ -4166,13 +4166,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.922 Adjusted to redox equilibrium + pe = 11.925 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.575e-12 + Total alkalinity (eq/kg) = 4.842e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.714e-08 + Electrical balance (eq) = 6.467e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -4189,7 +4189,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.971 -40.961 0.010 (0) + H2 0.000e+00 0.000e+00 -40.976 -40.966 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -4200,21 +4200,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 6.759e-11 - O2 3.379e-11 3.458e-11 -10.471 -10.461 0.010 (0) +O(0) 6.933e-11 + O2 3.467e-11 3.547e-11 -10.460 -10.450 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.81 -40.96 -3.15 H2 + H2(g) -37.82 -40.97 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.57 -10.46 -2.89 O2 + O2(g) -7.56 -10.45 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4256,7 +4256,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7955e-08 + O 7.7948e-08 Su 1.000e-01 moles @@ -4279,13 +4279,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.954 Adjusted to redox equilibrium + pe = 11.945 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.023e-11 + Total alkalinity (eq/kg) = 1.079e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.886e-08 + Electrical balance (eq) = 6.745e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -4302,7 +4302,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.033 -41.023 0.010 (0) + H2 0.000e+00 0.000e+00 -41.016 -41.006 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -4313,21 +4313,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 9.009e-11 - O2 4.504e-11 4.609e-11 -10.346 -10.336 0.010 (0) +O(0) 8.307e-11 + O2 4.153e-11 4.250e-11 -10.382 -10.372 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.87 -41.02 -3.15 H2 + H2(g) -37.86 -41.01 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.44 -10.34 -2.89 O2 + O2(g) -7.48 -10.37 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4347,10 +4347,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 1.527e-05 1.747e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 1.527e-05 1.747e-05 2.202e-06 -I 0.00 -13.00 -13.00 1.218e-05 1.394e-05 1.757e-06 -Nat 0.00 -13.00 -13.00 2.027e-05 2.319e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 1.438e-05 1.645e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 1.438e-05 1.645e-05 2.074e-06 +I 0.00 -13.00 -13.00 1.163e-05 1.331e-05 1.678e-06 +Nat 0.00 -13.00 -13.00 1.882e-05 2.153e-05 2.714e-06 ------------------------------Surface composition------------------------------ @@ -4380,7 +4380,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7103e-12 - O 7.7957e-08 + O 7.7959e-08 Su 1.000e-01 moles @@ -4403,13 +4403,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.956 Adjusted to redox equilibrium + pe = 11.958 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.220e-11 + Total alkalinity (eq/kg) = 1.281e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.156e-10 + Electrical balance (eq) = 2.213e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -4426,7 +4426,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.037 -41.027 0.010 (0) + H2 0.000e+00 0.000e+00 -41.042 -41.032 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -4437,8 +4437,8 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 9.182e-11 - O2 4.591e-11 4.698e-11 -10.338 -10.328 0.010 (0) +O(0) 9.361e-11 + O2 4.680e-11 4.789e-11 -10.330 -10.320 0.010 (0) ------------------------------Saturation indices------------------------------- @@ -4451,7 +4451,7 @@ O(0) 9.182e-11 Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.44 -10.33 -2.89 O2 + O2(g) -7.43 -10.32 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4541,7 +4541,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 7.414e-10 Surface + diffuse layer charge, eq + 1.864e-10 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -4564,7 +4564,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.8016e-08 + O 7.7952e-08 Su 1.000e-01 moles @@ -4587,15 +4587,15 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.011 Adjusted to redox equilibrium + pe = 11.952 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.603e-12 + Total alkalinity (eq/kg) = 4.880e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.558e-08 + Electrical balance (eq) = 7.311e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 (8 overall) + Iterations = 0 (9 overall) Total H = 1.110124e+02 Total O = 5.550622e+01 @@ -4610,7 +4610,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.148 -41.138 0.010 (0) + H2 0.000e+00 0.000e+00 -41.030 -41.020 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -4621,21 +4621,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.528e-10 - O2 7.640e-11 7.818e-11 -10.117 -10.107 0.010 (0) +O(0) 8.864e-11 + O2 4.432e-11 4.535e-11 -10.353 -10.343 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.99 -41.14 -3.15 H2 + H2(g) -37.87 -41.02 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.21 -10.11 -2.89 O2 + O2(g) -7.45 -10.34 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4677,7 +4677,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7970e-08 + O 7.7952e-08 Su 1.000e-01 moles @@ -4700,13 +4700,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.970 Adjusted to redox equilibrium + pe = 11.949 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.033e-11 + Total alkalinity (eq/kg) = 1.091e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.776e-08 + Electrical balance (eq) = 7.635e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -4723,7 +4723,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.065 -41.055 0.010 (0) + H2 0.000e+00 0.000e+00 -41.024 -41.014 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -4734,21 +4734,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 1.045e-10 - O2 5.224e-11 5.346e-11 -10.282 -10.272 0.010 (0) +O(0) 8.642e-11 + O2 4.321e-11 4.422e-11 -10.364 -10.354 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -37.86 -41.01 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.38 -10.27 -2.89 O2 + O2(g) -7.46 -10.35 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4768,10 +4768,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 1.747e-05 1.968e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 1.747e-05 1.968e-05 2.202e-06 -I 0.00 -13.00 -13.00 1.394e-05 1.570e-05 1.757e-06 -Nat 0.00 -13.00 -13.00 2.319e-05 2.611e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 1.645e-05 1.852e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 1.645e-05 1.852e-05 2.074e-06 +I 0.00 -13.00 -13.00 1.331e-05 1.498e-05 1.678e-06 +Nat 0.00 -13.00 -13.00 2.153e-05 2.425e-05 2.714e-06 ------------------------------Surface composition------------------------------ @@ -4801,7 +4801,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7103e-12 - O 7.7973e-08 + O 7.7958e-08 Su 1.000e-01 moles @@ -4824,13 +4824,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.973 Adjusted to redox equilibrium + pe = 11.956 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.235e-11 + Total alkalinity (eq/kg) = 1.298e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.332e-10 + Electrical balance (eq) = 2.389e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -4847,7 +4847,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.072 -41.062 0.010 (0) + H2 0.000e+00 0.000e+00 -41.038 -41.028 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -4858,21 +4858,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.077e-10 - O2 5.386e-11 5.511e-11 -10.269 -10.259 0.010 (0) +O(0) 9.208e-11 + O2 4.604e-11 4.711e-11 -10.337 -10.327 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -37.88 -41.03 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.37 -10.26 -2.89 O2 + O2(g) -7.43 -10.33 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -4962,7 +4962,7 @@ Mixture 1. Diffuse Double Layer Surface-Complexation Model Su - 1.782e-10 Surface + diffuse layer charge, eq + 7.142e-10 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -4985,7 +4985,7 @@ Su I 4.9443e-07 Na 1.6180e-01 Nat 1.2944e-06 - O 7.7965e-08 + O 7.7897e-08 Su 1.000e-01 moles @@ -5008,13 +5008,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.966 Adjusted to redox equilibrium + pe = 11.845 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 4.429e-12 + Total alkalinity (eq/kg) = 4.889e-12 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.448e-08 + Electrical balance (eq) = 8.145e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -5031,7 +5031,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.058 -41.048 0.010 (0) + H2 0.000e+00 0.000e+00 -40.817 -40.807 0.010 (0) Hdo 8.000e-07 Hdo 8.000e-07 8.186e-07 -6.097 -6.087 0.010 (0) Hto 8.000e-07 @@ -5042,21 +5042,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.000e-07 Nat+ 8.000e-07 6.250e-07 -6.097 -6.204 -0.107 (0) -O(0) 1.009e-10 - O2 5.044e-11 5.162e-11 -10.297 -10.287 0.010 (0) +O(0) 3.328e-11 + O2 1.664e-11 1.703e-11 -10.779 -10.769 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.90 -41.05 -3.15 H2 + H2(g) -37.66 -40.81 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.91 -6.09 -13.00 Hdo Hto 6.91 -6.09 -13.00 Hto I 5.69 -7.31 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -7.39 -10.29 -2.89 O2 + O2(g) -7.88 -10.77 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5098,7 +5098,7 @@ Su I 2.4721e-07 Na 1.6180e-01 Nat 6.4721e-07 - O 7.7956e-08 + O 7.7950e-08 Su 1.000e-01 moles @@ -5121,13 +5121,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.954 Adjusted to redox equilibrium + pe = 11.947 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 9.878e-12 + Total alkalinity (eq/kg) = 1.095e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.665e-08 + Electrical balance (eq) = 8.525e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -5144,7 +5144,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.035 -41.025 0.010 (0) + H2 0.000e+00 0.000e+00 -41.020 -41.010 0.010 (0) Hdo 4.000e-07 Hdo 4.000e-07 4.093e-07 -6.398 -6.388 0.010 (0) Hto 4.000e-07 @@ -5155,21 +5155,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 4.000e-07 Nat+ 4.000e-07 3.125e-07 -6.398 -6.505 -0.107 (0) -O(0) 9.061e-11 - O2 4.530e-11 4.636e-11 -10.344 -10.334 0.010 (0) +O(0) 8.482e-11 + O2 4.241e-11 4.340e-11 -10.373 -10.363 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.87 -41.02 -3.15 H2 + H2(g) -37.86 -41.01 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.61 -6.39 -13.00 Hdo Hto 6.61 -6.39 -13.00 Hto I 5.39 -7.61 -13.00 NaI Nat 5.38 -7.62 -13.00 NatCl - O2(g) -7.44 -10.33 -2.89 O2 + O2(g) -7.47 -10.36 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5189,17 +5189,17 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 1.968e-05 2.188e-05 2.202e-06 -Hto 0.00 -13.00 -13.00 1.968e-05 2.188e-05 2.202e-06 -I 0.00 -13.00 -13.00 1.570e-05 1.745e-05 1.757e-06 -Nat 0.00 -13.00 -13.00 2.611e-05 2.903e-05 2.922e-06 +Hdo 0.00 -13.00 -13.00 1.852e-05 2.060e-05 2.074e-06 +Hto 0.00 -13.00 -13.00 1.852e-05 2.060e-05 2.074e-06 +I 0.00 -13.00 -13.00 1.498e-05 1.666e-05 1.678e-06 +Nat 0.00 -13.00 -13.00 2.425e-05 2.696e-05 2.714e-06 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.468e-12 Surface + diffuse layer charge, eq + 1.467e-12 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -5222,7 +5222,7 @@ Su I 1.0109e-12 Na 1.6180e-01 Nat 2.7103e-12 - O 7.7972e-08 + O 7.7962e-08 Su 1.000e-01 moles @@ -5245,13 +5245,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.972 Adjusted to redox equilibrium + pe = 11.961 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.176e-11 + Total alkalinity (eq/kg) = 1.305e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.508e-10 + Electrical balance (eq) = 2.566e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (9 overall) Total H = 1.110124e+02 @@ -5268,7 +5268,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.070 -41.060 0.010 (0) + H2 0.000e+00 0.000e+00 -41.048 -41.038 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -5279,21 +5279,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.068e-10 - O2 5.340e-11 5.464e-11 -10.272 -10.262 0.010 (0) +O(0) 9.638e-11 + O2 4.819e-11 4.931e-11 -10.317 -10.307 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -37.89 -41.04 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -7.37 -10.26 -2.89 O2 + O2(g) -7.41 -10.31 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5372,7 +5372,7 @@ Initial solution 0. Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.110e-18 + Total alkalinity (eq/kg) = 1.327e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -5.893e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -5642,7 +5642,7 @@ Surface 3. Diffuse Double Layer Surface-Complexation Model Su - -4.691e-13 Surface + diffuse layer charge, eq + -4.694e-13 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -5665,7 +5665,7 @@ Su I 1.6196e-14 Na 1.0099e-01 Nat 1.6916e-12 - O 1.2582e-09 + O 1.2572e-09 Su 1.000e-01 moles @@ -5734,7 +5734,7 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.430 Adjusted to redox equilibrium + pe = 11.437 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 @@ -5756,8 +5756,8 @@ Su H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) -H(0) 2.063e-40 - H2 1.032e-40 1.056e-40 -39.987 -39.977 0.010 (0) +H(0) 0.000e+00 + H2 0.000e+00 1.023e-40 -40.000 -39.990 0.010 (0) Hdo 8.600e-07 Hdo 8.600e-07 8.800e-07 -6.066 -6.056 0.010 (0) Hto 8.600e-07 @@ -5768,21 +5768,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 8.041e-07 Nat+ 8.041e-07 6.281e-07 -6.095 -6.202 -0.107 (0) -O(0) 7.263e-13 - O2 3.632e-13 3.716e-13 -12.440 -12.430 0.010 (0) +O(0) 7.737e-13 + O2 3.868e-13 3.958e-13 -12.412 -12.402 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -36.83 -39.98 -3.15 H2 + H2(g) -36.84 -39.99 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.94 -6.06 -13.00 Hdo Hto 6.94 -6.06 -13.00 Hto I 5.75 -7.25 -13.00 NaI Nat 5.68 -7.32 -13.00 NatCl - O2(g) -9.54 -12.43 -2.89 O2 + O2(g) -9.51 -12.40 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -5874,7 +5874,7 @@ Using solution 0. Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.110e-18 + Total alkalinity (eq/kg) = 1.327e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -5.893e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -6146,17 +6146,17 @@ Using pure phase assemblage 3. Pure-phase assemblage after simulation 5. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 2.188e-05 2.188e-05 0.000e+00 -Hto 0.00 -13.00 -13.00 2.188e-05 2.188e-05 0.000e+00 -I 0.00 -13.00 -13.00 1.745e-05 1.745e-05 0.000e+00 -Nat -0.00 -13.00 -13.00 2.903e-05 2.903e-05 -3.388e-21 +Hdo 0.00 -13.00 -13.00 2.060e-05 2.060e-05 3.388e-21 +Hto 0.00 -13.00 -13.00 2.060e-05 2.060e-05 3.388e-21 +I 0.00 -13.00 -13.00 1.666e-05 1.666e-05 0.000e+00 +Nat 0.00 -13.00 -13.00 2.696e-05 2.696e-05 3.388e-21 ------------------------------Surface composition------------------------------ Diffuse Double Layer Surface-Complexation Model Su - 1.406e-12 Surface + diffuse layer charge, eq + 9.524e-13 Surface + diffuse layer charge, eq -1.000e-01 Surface charge, eq -9.649e+06 sigma, C/m² -1.031e+00 psi, V @@ -6179,7 +6179,7 @@ Su I 1.6196e-14 Na 1.0099e-01 Nat 1.6916e-12 - O 1.2582e-09 + O 1.2572e-09 Su 1.000e-01 moles @@ -6202,13 +6202,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 11.972 Adjusted to redox equilibrium + pe = 11.961 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.176e-11 + Total alkalinity (eq/kg) = 1.305e-11 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.503e-10 + Electrical balance (eq) = 2.561e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (12 overall) Total H = 1.110124e+02 @@ -6225,7 +6225,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.070 -41.060 0.010 (0) + H2 0.000e+00 0.000e+00 -41.048 -41.038 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -6236,21 +6236,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.068e-10 - O2 5.339e-11 5.464e-11 -10.273 -10.263 0.010 (0) +O(0) 9.638e-11 + O2 4.819e-11 4.931e-11 -10.317 -10.307 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -37.91 -41.06 -3.15 H2 + H2(g) -37.89 -41.04 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI - Nat -0.00 -13.00 -13.00 NatCl - O2(g) -7.37 -10.26 -2.89 O2 + Nat 0.00 -13.00 -13.00 NatCl + O2(g) -7.41 -10.31 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6281,7 +6281,7 @@ Using solution 0. Solution after simulation 7. Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.113e-18 + Total alkalinity (eq/kg) = 1.330e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -5.978e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -6361,13 +6361,13 @@ Su Element Moles Cl 3.6023e-02 - H 2.1665e-07 - Hdo 5.9733e-07 - Hto 5.9733e-07 - I 3.0183e-07 + H 2.1664e-07 + Hdo 5.9452e-07 + Hto 5.9452e-07 + I 3.0060e-07 Na 1.3602e-01 - Nat 1.1153e-06 - O 4.5545e-08 + Nat 1.1139e-06 + O 4.5718e-08 Su 1.000e-01 moles @@ -6381,20 +6381,20 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 8.533e-07 8.533e-07 - Hto 8.533e-07 8.533e-07 - I 8.379e-07 8.379e-07 + Hdo 8.493e-07 8.493e-07 + Hto 8.493e-07 8.493e-07 + I 8.345e-07 8.345e-07 Na 1.000e-01 1.000e-01 - Nat 8.199e-07 8.199e-07 + Nat 8.189e-07 8.189e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.027 Adjusted to redox equilibrium + pe = 12.121 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.051e-10 + Total alkalinity (eq/kg) = 2.166e-10 Temperature (°C) = 25.00 Electrical balance (eq) = 2.645e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 @@ -6413,32 +6413,32 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.181 -41.171 0.010 (0) -Hdo 8.533e-07 - Hdo 8.533e-07 8.732e-07 -6.069 -6.059 0.010 (0) -Hto 8.533e-07 - Hto 8.533e-07 8.732e-07 -6.069 -6.059 0.010 (0) -I 8.379e-07 - I- 8.379e-07 6.545e-07 -6.077 -6.184 -0.107 (0) + H2 0.000e+00 0.000e+00 -41.368 -41.358 0.010 (0) +Hdo 8.493e-07 + Hdo 8.493e-07 8.691e-07 -6.071 -6.061 0.010 (0) +Hto 8.493e-07 + Hto 8.493e-07 8.691e-07 -6.071 -6.061 0.010 (0) +I 8.345e-07 + I- 8.345e-07 6.519e-07 -6.079 -6.186 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 8.199e-07 - Nat+ 8.199e-07 6.405e-07 -6.086 -6.193 -0.107 (0) -O(0) 1.775e-10 - O2 8.874e-11 9.081e-11 -10.052 -10.042 0.010 (0) +Nat 8.189e-07 + Nat+ 8.189e-07 6.398e-07 -6.087 -6.194 -0.107 (0) +O(0) 4.216e-10 + O2 2.108e-10 2.157e-10 -9.676 -9.666 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.02 -41.17 -3.15 H2 + H2(g) -38.21 -41.36 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.94 -6.06 -13.00 Hdo Hto 6.94 -6.06 -13.00 Hto I 5.71 -7.29 -13.00 NaI Nat 5.69 -7.31 -13.00 NatCl - O2(g) -7.15 -10.04 -2.89 O2 + O2(g) -6.77 -9.67 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6474,13 +6474,13 @@ Su Element Moles Cl 9.9018e-04 - H 1.2837e-07 - Hdo 4.7111e-08 - Hto 4.7111e-08 - I 4.4608e-09 + H 1.2836e-07 + Hdo 4.6575e-08 + Hto 4.6575e-08 + I 4.4157e-09 Na 1.0099e-01 - Nat 4.3079e-07 - O 1.4570e-09 + Nat 4.2946e-07 + O 1.4001e-09 Su 1.000e-01 moles @@ -6494,22 +6494,22 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 4.711e-07 4.711e-07 - Hto 4.711e-07 4.711e-07 - I 4.505e-07 4.505e-07 + Hdo 4.658e-07 4.658e-07 + Hto 4.658e-07 4.658e-07 + I 4.459e-07 4.459e-07 Na 1.000e-01 1.000e-01 - Nat 4.266e-07 4.266e-07 + Nat 4.252e-07 4.252e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.294 Adjusted to redox equilibrium + pe = 12.260 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.174e-10 + Total alkalinity (eq/kg) = 2.290e-10 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.934e-08 + Electrical balance (eq) = 1.955e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -6526,32 +6526,32 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.716 -41.706 0.010 (0) -Hdo 4.711e-07 - Hdo 4.711e-07 4.821e-07 -6.327 -6.317 0.010 (0) -Hto 4.711e-07 - Hto 4.711e-07 4.821e-07 -6.327 -6.317 0.010 (0) -I 4.505e-07 - I- 4.505e-07 3.519e-07 -6.346 -6.454 -0.107 (0) + H2 0.000e+00 0.000e+00 -41.646 -41.636 0.010 (0) +Hdo 4.658e-07 + Hdo 4.658e-07 4.766e-07 -6.332 -6.322 0.010 (0) +Hto 4.658e-07 + Hto 4.658e-07 4.766e-07 -6.332 -6.322 0.010 (0) +I 4.459e-07 + I- 4.459e-07 3.484e-07 -6.351 -6.458 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 4.266e-07 - Nat+ 4.266e-07 3.332e-07 -6.370 -6.477 -0.107 (0) -O(0) 2.085e-09 - O2 1.042e-09 1.067e-09 -8.982 -8.972 0.010 (0) +Nat 4.252e-07 + Nat+ 4.252e-07 3.322e-07 -6.371 -6.479 -0.107 (0) +O(0) 1.515e-09 + O2 7.576e-10 7.752e-10 -9.121 -9.111 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.56 -41.71 -3.15 H2 + H2(g) -38.49 -41.64 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.68 -6.32 -13.00 Hdo Hto 6.68 -6.32 -13.00 Hto I 5.44 -7.56 -13.00 NaI - Nat 5.41 -7.59 -13.00 NatCl - O2(g) -6.08 -8.97 -2.89 O2 + Nat 5.40 -7.60 -13.00 NatCl + O2(g) -6.22 -9.11 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6571,10 +6571,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 2.718e-05 2.854e-05 1.358e-06 -Hto 0.00 -13.00 -13.00 2.718e-05 2.854e-05 1.358e-06 -I 0.00 -13.00 -13.00 2.207e-05 2.325e-05 1.181e-06 -Nat 0.00 -13.00 -13.00 3.829e-05 4.066e-05 2.360e-06 +Hdo 0.00 -13.00 -13.00 2.578e-05 2.711e-05 1.328e-06 +Hto 0.00 -13.00 -13.00 2.578e-05 2.711e-05 1.328e-06 +I 0.00 -13.00 -13.00 2.123e-05 2.239e-05 1.167e-06 +Nat 0.00 -13.00 -13.00 3.564e-05 3.786e-05 2.215e-06 ------------------------------Surface composition------------------------------ @@ -6604,7 +6604,7 @@ Su I 1.6196e-14 Na 1.0099e-01 Nat 1.6916e-12 - O 1.3620e-09 + O 1.3849e-09 Su 1.000e-01 moles @@ -6627,13 +6627,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.228 Adjusted to redox equilibrium + pe = 12.248 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.166e-10 + Total alkalinity (eq/kg) = 2.279e-10 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.211e-10 + Electrical balance (eq) = 7.962e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 1.110124e+02 @@ -6650,7 +6650,7 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.583 -41.573 0.010 (0) + H2 0.000e+00 0.000e+00 -41.623 -41.613 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -6661,21 +6661,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.134e-09 - O2 5.672e-10 5.804e-10 -9.246 -9.236 0.010 (0) +O(0) 1.363e-09 + O2 6.814e-10 6.973e-10 -9.167 -9.157 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.42 -41.57 -3.15 H2 + H2(g) -38.46 -41.61 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -6.34 -9.24 -2.89 O2 + O2(g) -6.26 -9.16 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6702,7 +6702,7 @@ Using solution 0. Solution after simulation 7. Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 1.113e-18 + Total alkalinity (eq/kg) = 1.330e-18 Temperature (°C) = 25.00 Electrical balance (eq) = -5.978e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 @@ -6782,13 +6782,13 @@ Su Element Moles Cl 3.6023e-02 - H 2.1665e-07 - Hdo 5.9733e-07 - Hto 5.9733e-07 - I 3.0183e-07 + H 2.1664e-07 + Hdo 5.9452e-07 + Hto 5.9452e-07 + I 3.0060e-07 Na 1.3602e-01 - Nat 1.1153e-06 - O 4.5595e-08 + Nat 1.1139e-06 + O 4.5537e-08 Su 1.000e-01 moles @@ -6802,22 +6802,22 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 8.533e-07 8.533e-07 - Hto 8.533e-07 8.533e-07 - I 8.379e-07 8.379e-07 + Hdo 8.493e-07 8.493e-07 + Hto 8.493e-07 8.493e-07 + I 8.345e-07 8.345e-07 Na 1.000e-01 1.000e-01 - Nat 8.199e-07 8.199e-07 + Nat 8.189e-07 8.189e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.063 Adjusted to redox equilibrium + pe = 12.017 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.064e-10 + Total alkalinity (eq/kg) = 2.181e-10 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.429e-08 + Electrical balance (eq) = 5.428e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (8 overall) Total H = 1.110124e+02 @@ -6834,32 +6834,32 @@ Su Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.254 -41.244 0.010 (0) -Hdo 8.533e-07 - Hdo 8.533e-07 8.732e-07 -6.069 -6.059 0.010 (0) -Hto 8.533e-07 - Hto 8.533e-07 8.732e-07 -6.069 -6.059 0.010 (0) -I 8.379e-07 - I- 8.379e-07 6.545e-07 -6.077 -6.184 -0.107 (0) + H2 0.000e+00 0.000e+00 -41.161 -41.151 0.010 (0) +Hdo 8.493e-07 + Hdo 8.493e-07 8.691e-07 -6.071 -6.061 0.010 (0) +Hto 8.493e-07 + Hto 8.493e-07 8.691e-07 -6.071 -6.061 0.010 (0) +I 8.345e-07 + I- 8.345e-07 6.519e-07 -6.079 -6.186 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 8.199e-07 - Nat+ 8.199e-07 6.405e-07 -6.086 -6.193 -0.107 (0) -O(0) 2.484e-10 - O2 1.242e-10 1.271e-10 -9.906 -9.896 0.010 (0) +Nat 8.189e-07 + Nat+ 8.189e-07 6.398e-07 -6.087 -6.194 -0.107 (0) +O(0) 1.624e-10 + O2 8.122e-11 8.312e-11 -10.090 -10.080 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.09 -41.24 -3.15 H2 + H2(g) -38.00 -41.15 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.94 -6.06 -13.00 Hdo Hto 6.94 -6.06 -13.00 Hto I 5.71 -7.29 -13.00 NaI Nat 5.69 -7.31 -13.00 NatCl - O2(g) -7.00 -9.90 -2.89 O2 + O2(g) -7.19 -10.08 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6895,13 +6895,13 @@ Su Element Moles Cl 9.9018e-04 - H 1.2837e-07 - Hdo 4.7111e-08 - Hto 4.7111e-08 - I 4.4608e-09 + H 1.2836e-07 + Hdo 4.6575e-08 + Hto 4.6575e-08 + I 4.4157e-09 Na 1.0099e-01 - Nat 4.3079e-07 - O 1.3395e-09 + Nat 4.2946e-07 + O 1.3556e-09 Su 1.000e-01 moles @@ -6915,22 +6915,22 @@ Su Elements Molality Moles Cl 1.000e-01 1.000e-01 - Hdo 4.711e-07 4.711e-07 - Hto 4.711e-07 4.711e-07 - I 4.505e-07 4.505e-07 + Hdo 4.658e-07 4.658e-07 + Hto 4.658e-07 4.658e-07 + I 4.459e-07 4.459e-07 Na 1.000e-01 1.000e-01 - Nat 4.266e-07 4.266e-07 + Nat 4.252e-07 4.252e-07 ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.204 Adjusted to redox equilibrium + pe = 12.222 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.212e-10 + Total alkalinity (eq/kg) = 2.336e-10 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.012e-08 + Electrical balance (eq) = 4.033e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (9 overall) Total H = 1.110124e+02 @@ -6941,38 +6941,38 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.261e-07 9.603e-08 -6.899 -7.018 -0.118 (0) + OH- 1.261e-07 9.604e-08 -6.899 -7.018 -0.118 (0) H+ 1.259e-07 1.039e-07 -6.900 -6.983 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.535 -41.525 0.010 (0) -Hdo 4.711e-07 - Hdo 4.711e-07 4.821e-07 -6.327 -6.317 0.010 (0) -Hto 4.711e-07 - Hto 4.711e-07 4.821e-07 -6.327 -6.317 0.010 (0) -I 4.505e-07 - I- 4.505e-07 3.519e-07 -6.346 -6.454 -0.107 (0) + H2 0.000e+00 0.000e+00 -41.571 -41.561 0.010 (0) +Hdo 4.658e-07 + Hdo 4.658e-07 4.766e-07 -6.332 -6.322 0.010 (0) +Hto 4.658e-07 + Hto 4.658e-07 4.766e-07 -6.332 -6.322 0.010 (0) +I 4.459e-07 + I- 4.459e-07 3.484e-07 -6.351 -6.458 -0.107 (0) Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) -Nat 4.266e-07 - Nat+ 4.266e-07 3.332e-07 -6.370 -6.477 -0.107 (0) -O(0) 9.089e-10 - O2 4.545e-10 4.650e-10 -9.343 -9.333 0.010 (0) +Nat 4.252e-07 + Nat+ 4.252e-07 3.322e-07 -6.371 -6.479 -0.107 (0) +O(0) 1.069e-09 + O2 5.347e-10 5.471e-10 -9.272 -9.262 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.38 -41.53 -3.15 H2 + H2(g) -38.41 -41.56 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 6.68 -6.32 -13.00 Hdo Hto 6.68 -6.32 -13.00 Hto I 5.44 -7.56 -13.00 NaI - Nat 5.41 -7.59 -13.00 NatCl - O2(g) -6.44 -9.33 -2.89 O2 + Nat 5.40 -7.60 -13.00 NatCl + O2(g) -6.37 -9.26 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -6992,10 +6992,10 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Hdo 0.00 -13.00 -13.00 3.397e-05 3.533e-05 1.358e-06 -Hto 0.00 -13.00 -13.00 3.397e-05 3.533e-05 1.358e-06 -I 0.00 -13.00 -13.00 2.797e-05 2.915e-05 1.181e-06 -Nat 0.00 -13.00 -13.00 5.010e-05 5.246e-05 2.360e-06 +Hdo 0.00 -13.00 -13.00 3.242e-05 3.375e-05 1.328e-06 +Hto 0.00 -13.00 -13.00 3.242e-05 3.375e-05 1.328e-06 +I 0.00 -13.00 -13.00 2.706e-05 2.823e-05 1.167e-06 +Nat 0.00 -13.00 -13.00 4.672e-05 4.894e-05 2.215e-06 ------------------------------Surface composition------------------------------ @@ -7019,13 +7019,13 @@ Su Element Moles Cl 9.9017e-04 - H 1.2837e-07 + H 1.2836e-07 Hdo 9.7724e-15 Hto 9.7724e-15 I 1.6196e-14 Na 1.0099e-01 Nat 1.6916e-12 - O 1.3692e-09 + O 1.3569e-09 Su 1.000e-01 moles @@ -7048,13 +7048,13 @@ Su ----------------------------Description of solution---------------------------- pH = 6.983 Charge balance - pe = 12.235 Adjusted to redox equilibrium + pe = 12.223 Adjusted to redox equilibrium Activity of water = 0.997 Ionic strength (mol/kgw) = 1.000e-01 Mass of water (kg) = 1.000e+00 - Total alkalinity (eq/kg) = 2.221e-10 + Total alkalinity (eq/kg) = 2.343e-10 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.141e-09 + Electrical balance (eq) = 1.116e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 (10 overall) Total H = 1.110124e+02 @@ -7065,13 +7065,13 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.261e-07 9.603e-08 -6.899 -7.018 -0.118 (0) + OH- 1.261e-07 9.604e-08 -6.899 -7.018 -0.118 (0) H+ 1.259e-07 1.039e-07 -6.900 -6.983 -0.083 0.00 H2O 5.551e+01 9.966e-01 1.744 -0.001 0.000 18.07 Cl 1.000e-01 Cl- 1.000e-01 7.642e-02 -1.000 -1.117 -0.117 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -41.597 -41.587 0.010 (0) + H2 0.000e+00 0.000e+00 -41.573 -41.563 0.010 (0) Hdo 9.772e-14 Hdo 9.772e-14 1.000e-13 -13.010 -13.000 0.010 (0) Hto 9.772e-14 @@ -7082,21 +7082,21 @@ Na 1.000e-01 Na+ 1.000e-01 7.826e-02 -1.000 -1.106 -0.106 (0) Nat 1.675e-12 Nat+ 1.675e-12 1.309e-12 -11.776 -11.883 -0.107 (0) -O(0) 1.206e-09 - O2 6.032e-10 6.172e-10 -9.220 -9.210 0.010 (0) +O(0) 1.083e-09 + O2 5.414e-10 5.540e-10 -9.267 -9.257 0.010 (0) ------------------------------Saturation indices------------------------------- Phase SI** log IAP log K(298 K, 1 atm) - H2(g) -38.44 -41.59 -3.15 H2 + H2(g) -38.41 -41.56 -3.15 H2 H2O(g) -1.51 -0.00 1.51 H2O Halite -3.81 -2.22 1.58 NaCl Hdo 0.00 -13.00 -13.00 Hdo Hto 0.00 -13.00 -13.00 Hto I 0.00 -13.00 -13.00 NaI Nat 0.00 -13.00 -13.00 NatCl - O2(g) -6.32 -9.21 -2.89 O2 + O2(g) -6.36 -9.26 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. diff --git a/mytest/harm_mean_101.sel b/mytest/harm_mean_101.sel index 61a7a051..24d8bd20 100644 --- a/mytest/harm_mean_101.sel +++ b/mytest/harm_mean_101.sel @@ -8,64 +8,64 @@ 0.100000455983 0.0000000000 0.100000125983 0.0000000000 0.100000125983 0.0000000000 - 0.099999435778 0.0000000000 - 0.099999103146 0.0000000000 - 0.099998942934 0.0000000000 - 0.099998865800 0.0000000000 - 0.099998828667 0.0000000000 - 0.099998810793 0.0000000000 - 0.099998802186 0.0000000000 - 0.099998798042 0.0000000000 - 0.099998796051 0.0000000000 - 0.099998795096 0.0000000000 + 0.099999470945 0.0000000000 + 0.099999141763 0.0000000000 + 0.099998976331 0.0000000000 + 0.099998893321 0.0000000000 + 0.099998851687 0.0000000000 + 0.099998830783 0.0000000000 + 0.099998820294 0.0000000000 + 0.099998815032 0.0000000000 + 0.099998812395 0.0000000000 + 0.099998811070 0.0000000000 0.100001125983 0.0000000000 0.100000785983 0.0000000000 0.100000455983 0.0000000000 0.100000785983 0.0000000000 0.100000455983 0.0000000000 - 0.099998795096 0.0000000000 + 0.099998811070 0.0000000000 0.100001002597 0.0000000000 0.100001125983 0.0000000000 0.100000785983 0.0000000000 0.100000455983 0.0000000000 - 0.099998795096 0.0000000000 + 0.099998811070 0.0000000000 0.100001125983 0.0000000000 - 0.100000768219 0.0000000000 - 0.099999918389 0.0000000000 - 0.099998905042 0.0000000000 + 0.100000768621 0.0000000000 + 0.099999931691 0.0000000000 + 0.099998944645 0.0000000000 0.100001125983 0.0000000000 - 0.100000733510 0.0000000000 - 0.099999815375 0.0000000000 - 0.099998752900 0.0000000000 + 0.100000734661 0.0000000000 + 0.099999831431 0.0000000000 + 0.099998796490 0.0000000000 0.100001125983 0.0000000000 - 0.100000720260 0.0000000000 - 0.099999776893 0.0000000000 - 0.099998697464 0.0000000000 + 0.100000721052 0.0000000000 + 0.099999792319 0.0000000000 + 0.099998740447 0.0000000000 0.100001125983 0.0000000000 - 0.100000715441 0.0000000000 - 0.099999762909 0.0000000000 - 0.099998677335 0.0000000000 + 0.100000715935 0.0000000000 + 0.099999777627 0.0000000000 + 0.099998719417 0.0000000000 0.100001125983 0.0000000000 - 0.100000713709 0.0000000000 - 0.099999757878 0.0000000000 - 0.099998670089 0.0000000000 + 0.100000714015 0.0000000000 + 0.099999772115 0.0000000000 + 0.099998711528 0.0000000000 0.100001125983 0.0000000000 - 0.100000713081 0.0000000000 - 0.099999756055 0.0000000000 - 0.099998667465 0.0000000000 + 0.100000713295 0.0000000000 + 0.099999770047 0.0000000000 + 0.099998708568 0.0000000000 0.100001125983 0.0000000000 - 0.100000712853 0.0000000000 - 0.099999755395 0.0000000000 - 0.099998666515 0.0000000000 + 0.100000713025 0.0000000000 + 0.099999769271 0.0000000000 + 0.099998707457 0.0000000000 0.100001125983 0.0000000000 - 0.100000712771 0.0000000000 - 0.099999755156 0.0000000000 - 0.099998666171 0.0000000000 + 0.100000712923 0.0000000000 + 0.099999768980 0.0000000000 + 0.099998707041 0.0000000000 0.100001125983 0.0000000000 - 0.100000712741 0.0000000000 - 0.099999755069 0.0000000000 - 0.099998666046 0.0000000000 + 0.100000712885 0.0000000000 + 0.099999768871 0.0000000000 + 0.099998706884 0.0000000000 0.100001125983 0.0000000000 - 0.100000712730 0.0000000000 - 0.099999755038 0.0000000000 - 0.099998666001 0.0000000000 + 0.100000712871 0.0000000000 + 0.099999768830 0.0000000000 + 0.099998706826 0.0000000000 diff --git a/mytest/hittorf1_101.sel b/mytest/hittorf1_101.sel index 9c3c1729..763378f3 100644 --- a/mytest/hittorf1_101.sel +++ b/mytest/hittorf1_101.sel @@ -1,3083 +1,3083 @@ Mu SC - 3.660000157188 210850.3329355153 - 3.660000157238 210850.3329366521 - 3.660000157188 210850.3329355153 - 3.660000157188 210850.3329355153 - 3.660000157238 210850.3329366521 - 3.660000157238 210850.3329366521 - 3.660000157238 210850.3329366521 - 3.660000157238 210850.3329374499 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157238 210850.3329374499 - 3.660003382266 210850.4241935293 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.659996932210 210850.2416813368 - 3.660003382268 210850.4241935207 - 3.660003382268 210850.4241935143 - 3.660000157188 210850.3329355153 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355153 - 3.659996932211 210850.2416813236 - 3.716605606800 212432.9892131541 - 3.681724578867 211462.2365842531 - 3.663790101399 210957.4883761097 - 3.660499544598 210864.4622887765 - 3.660051102356 210851.7744973390 - 3.660004255269 210850.4489012042 - 3.660000420357 210850.3403833986 - 3.660000170738 210850.3333191311 - 3.660000157506 210850.3329445244 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157172 210850.3329350407 - 3.660000156665 210850.3329206796 - 3.660000144468 210850.3325753612 - 3.659999908180 210850.3258884194 - 3.659996237719 210850.2220241992 - 3.659950904827 210848.9392464870 - 3.659512132641 210836.5222060910 - 3.656256693106 210744.3231704608 - 3.638329806852 210234.3329483480 - 3.603388386669 209229.1988593932 - 3.716605606800 212432.9892131526 - 3.716605606800 212432.9892131516 - 3.681724578867 211462.2365842529 - 3.663790101399 210957.4883761097 - 3.660499544598 210864.4622887765 - 3.660051102356 210851.7744973389 - 3.660004255269 210850.4489012042 - 3.660000420357 210850.3403833986 - 3.660000170738 210850.3333191311 - 3.660000157506 210850.3329445244 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157172 210850.3329350407 - 3.660000156665 210850.3329206796 - 3.660000144468 210850.3325753612 - 3.659999908180 210850.3258884194 - 3.659996237719 210850.2220241991 - 3.659950904827 210848.9392464870 - 3.659512132641 210836.5222060910 - 3.656256693106 210744.3231704608 - 3.638329806852 210234.3329483478 - 3.603388386669 209229.1988593903 - 3.771430643711 213929.8312481555 - 3.720022967889 212527.3223582996 - 3.678291050574 211365.9000548860 - 3.664626533010 210981.1142918991 - 3.660980572273 210878.0693712316 - 3.660176127794 210855.3121142196 - 3.660027186503 210851.0977802068 - 3.660003742965 210850.4344024660 - 3.660000570967 210850.3446390026 - 3.660000198204 210850.3340908464 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157174 210850.3329253338 - 3.660000156926 210850.3329213961 - 3.660000153803 210850.3328346345 - 3.660000118808 210850.3318454140 - 3.659999773813 210850.3220820582 - 3.659996801287 210850.2379641024 - 3.659974582957 210849.6092485498 - 3.659831816583 210845.5692990042 - 3.659051796196 210823.4924033314 - 3.655475167985 210722.1702439123 - 3.641918728300 210336.7402175987 - 3.600135184793 209134.8657575893 - 3.548541336696 207621.5942759735 - 3.771430643711 213929.8312481543 - 3.771430643711 213929.8312481533 - 3.720022967889 212527.3223582992 - 3.678291050574 211365.9000548860 - 3.664626533010 210981.1142918991 - 3.660980572273 210878.0693712316 - 3.660176127794 210855.3121142196 - 3.660027186503 210851.0977802068 - 3.660003742965 210850.4344024660 - 3.660000570967 210850.3446390026 - 3.660000198204 210850.3340908464 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157174 210850.3329253338 - 3.660000156926 210850.3329213961 - 3.660000153803 210850.3328346345 - 3.660000118808 210850.3318454140 - 3.659999773813 210850.3220820582 - 3.659996801287 210850.2379641024 - 3.659974582957 210849.6092485498 - 3.659831816583 210845.5692990042 - 3.659051796196 210823.4924033314 - 3.655475167985 210722.1702439123 - 3.641918728300 210336.7402175987 - 3.600135184793 209134.8657575889 - 3.548541336696 207621.5942759711 - 3.825215145450 215364.2502918598 - 3.762059841078 213676.4811267293 - 3.699875574410 211969.1846062914 - 3.673583892715 211233.6003405514 - 3.664040568891 210964.5641263919 - 3.661054010133 210880.1465443552 - 3.660242543650 210857.1913012468 - 3.660049609907 210851.7322888137 - 3.660009158446 210850.5876521353 - 3.660001624721 210850.3744642411 - 3.660000367225 210850.3388780578 - 3.660000164077 210850.3330997068 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157167 210850.3329252070 - 3.660000156857 210850.3329195257 - 3.660000154097 210850.3328415289 - 3.660000131352 210850.3321973888 - 3.659999961168 210850.3273803838 - 3.659998810724 210850.2948227469 - 3.659991819692 210850.0969917339 - 3.659953843262 210849.0223673502 - 3.659770596911 210843.8368448750 - 3.658990704161 210821.7629878000 - 3.656085646516 210739.4752493478 - 3.646691497543 210472.6883805885 - 3.620528565562 209724.0973593561 - 3.558177737246 207906.7013702508 - 3.494723887617 206008.3202118977 - 3.825215145451 215364.2502918585 - 3.825215145451 215364.2502918577 - 3.762059841078 213676.4811267288 - 3.699875574410 211969.1846062913 - 3.673583892715 211233.6003405514 - 3.664040568891 210964.5641263919 - 3.661054010133 210880.1465443552 - 3.660242543650 210857.1913012468 - 3.660049609907 210851.7322888137 - 3.660009158446 210850.5876521353 - 3.660001624721 210850.3744642411 - 3.660000367225 210850.3388780578 - 3.660000164077 210850.3330997068 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157167 210850.3329252070 - 3.660000156857 210850.3329195257 - 3.660000154097 210850.3328415289 - 3.660000131352 210850.3321973888 - 3.659999961168 210850.3273803838 - 3.659998810724 210850.2948227469 - 3.659991819692 210850.0969917339 - 3.659953843262 210849.0223673502 - 3.659770596911 210843.8368448750 - 3.658990704161 210821.7629878000 - 3.656085646516 210739.4752493478 - 3.646691497543 210472.6883805885 - 3.620528565562 209724.0973593560 - 3.558177737247 207906.7013702503 - 3.494723887618 206008.3202118955 - 3.878207175232 216745.0038354608 - 3.805519089437 214842.8444109251 - 3.725680526844 212683.1915706667 - 3.686644446616 211600.0328073330 - 3.669698421740 211124.1960920974 - 3.663170095684 210939.9705459473 - 3.660932825483 210876.7189412887 - 3.660247997078 210857.3456182972 - 3.660059860468 210852.0223494560 - 3.660013241083 210850.7031830742 - 3.660002765361 210850.4067426785 - 3.660000611093 210850.3457785242 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157001 210850.3329248432 - 3.660000155620 210850.3328840391 - 3.660000146099 210850.3326141559 - 3.660000085158 210850.3308884185 - 3.659999725793 210850.3207163994 - 3.659997780916 210850.2656766390 - 3.659988157641 210849.9933595952 - 3.659944802731 210848.7665366826 - 3.659767751254 210843.7563021466 - 3.659115464465 210825.2946330364 - 3.656958199901 210764.2014870677 - 3.650585220320 210583.3954151274 - 3.633845443778 210106.1570605799 - 3.594895279712 208982.6547242222 - 3.514762619210 206613.1938856862 - 3.441691660632 204383.4239264942 - 3.878207175232 216745.0038354598 - 3.878207175232 216745.0038354582 - 3.805519089437 214842.8444109246 - 3.725680526844 212683.1915706667 - 3.686644446616 211600.0328073330 - 3.669698421740 211124.1960920974 - 3.663170095684 210939.9705459473 - 3.660932825483 210876.7189412887 - 3.660247997078 210857.3456182972 - 3.660059860468 210852.0223494560 - 3.660013241083 210850.7031830742 - 3.660002765361 210850.4067426783 - 3.660000611093 210850.3457785242 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157001 210850.3329248432 - 3.660000155620 210850.3328840391 - 3.660000146099 210850.3326141559 - 3.660000085158 210850.3308884185 - 3.659999725793 210850.3207163994 - 3.659997780916 210850.2656766390 - 3.659988157641 210849.9933595953 - 3.659944802731 210848.7665366826 - 3.659767751254 210843.7563021466 - 3.659115464465 210825.2946330364 - 3.656958199901 210764.2014870677 - 3.650585220320 210583.3954151274 - 3.633845443778 210106.1570605799 - 3.594895279712 208982.6547242220 - 3.514762619210 206613.1938856856 - 3.441691660632 204383.4239264915 - 3.930539022564 218077.2656605619 - 3.849664059280 216005.2761088525 - 3.754212450771 213463.5300646723 - 3.702918267003 212053.7835462047 - 3.677880459811 211354.3708797004 - 3.666806682649 211042.6557424135 - 3.662369040021 210917.3302067177 - 3.660755107357 210871.6919898410 - 3.660220960175 210856.5806616439 - 3.660059567562 210852.0140707448 - 3.660014885675 210850.7497262917 - 3.660003489920 210850.4272509564 - 3.660000778764 210850.3505265132 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157162 210850.3329234397 - 3.660000156603 210850.3329114403 - 3.660000153310 210850.3328183666 - 3.660000134309 210850.3322794202 - 3.660000031789 210850.3293761924 - 3.659999516897 210850.3148021661 - 3.659997117270 210850.2468931006 - 3.659986770223 210849.9540943124 - 3.659945618411 210848.7896108032 - 3.659795149598 210844.5316374872 - 3.659291040204 210830.2644331487 - 3.657748816879 210786.5979769382 - 3.653454620056 210664.8625008431 - 3.642604765588 210356.2980764667 - 3.617789809284 209645.2577057871 - 3.566490644556 208151.7381863404 - 3.470627572319 205274.3658559505 - 3.389315005673 202743.9466425784 - 3.930539022565 218077.2656605610 - 3.930539022565 218077.2656605603 - 3.849664059280 216005.2761088521 - 3.754212450771 213463.5300646722 - 3.702918267003 212053.7835462047 - 3.677880459811 211354.3708797004 - 3.666806682649 211042.6557424135 - 3.662369040021 210917.3302067177 - 3.660755107357 210871.6919898410 - 3.660220960175 210856.5806616439 - 3.660059567562 210852.0140707448 - 3.660014885675 210850.7497262906 - 3.660003489920 210850.4272509562 - 3.660000778764 210850.3505265132 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157162 210850.3329234397 - 3.660000156603 210850.3329114403 - 3.660000153310 210850.3328183666 - 3.660000134309 210850.3322794202 - 3.660000031789 210850.3293761924 - 3.659999516897 210850.3148021661 - 3.659997117270 210850.2468931006 - 3.659986770223 210849.9540943124 - 3.659945618411 210848.7896108032 - 3.659795149598 210844.5316374872 - 3.659291040204 210830.2644331487 - 3.657748816879 210786.5979769382 - 3.653454620056 210664.8625008431 - 3.642604765588 210356.2980764667 - 3.617789809284 209645.2577057870 - 3.566490644556 208151.7381863403 - 3.470627572319 205274.3658559498 - 3.389315005673 202743.9466425759 - 3.982296965580 219364.7150914930 - 3.894164209066 217154.5152020694 - 3.784634393589 214285.0767830165 - 3.721705124411 212573.7070493257 - 3.688329299108 211647.1563269584 - 3.672041040639 211190.1796330589 - 3.664736030272 210984.2068076086 - 3.661724676853 210899.1129087861 - 3.660582202857 210866.8008236357 - 3.660182517089 210855.4929625635 - 3.660053270831 210851.8359062371 - 3.660014524204 210850.7395031718 - 3.660003704477 210850.4333260719 - 3.660000873847 210850.3532190924 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157069 210850.3329241891 - 3.660000156009 210850.3328938205 - 3.660000150488 210850.3327376298 - 3.660000122551 210850.3319456480 - 3.659999989435 210850.3281759725 - 3.659999394487 210850.3113358193 - 3.659996906294 210850.2409199022 - 3.659987191373 210849.9660076133 - 3.659951864246 210848.9663451111 - 3.659832513937 210845.5889897403 - 3.659458831514 210835.0135512330 - 3.658377207610 210804.3936210568 - 3.655489680856 210722.5815771970 - 3.648394974254 210521.1442237810 - 3.632379182253 210064.1947076623 - 3.599200288173 209107.7326876256 - 3.536143603717 207253.1136661459 - 3.426106300127 203899.1948749319 - 3.337509711996 201088.0669501533 - 3.982296965580 219364.7150914921 - 3.982296965580 219364.7150914924 - 3.894164209066 217154.5152020689 - 3.784634393589 214285.0767830164 - 3.721705124411 212573.7070493257 - 3.688329299108 211647.1563269584 - 3.672041040639 211190.1796330589 - 3.664736030272 210984.2068076086 - 3.661724676853 210899.1129087861 - 3.660582202857 210866.8008236358 - 3.660182517089 210855.4929625635 - 3.660053270832 210851.8359062297 - 3.660014524204 210850.7395031711 - 3.660003704477 210850.4333260718 - 3.660000873847 210850.3532190925 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157069 210850.3329241891 - 3.660000156009 210850.3328938205 - 3.660000150488 210850.3327376298 - 3.660000122551 210850.3319456480 - 3.659999989435 210850.3281759725 - 3.659999394487 210850.3113358193 - 3.659996906294 210850.2409199022 - 3.659987191373 210849.9660076133 - 3.659951864246 210848.9663451111 - 3.659832513937 210845.5889897403 - 3.659458831514 210835.0135512330 - 3.658377207610 210804.3936210568 - 3.655489680856 210722.5815771971 - 3.648394974254 210521.1442237810 - 3.632379182253 210064.1947076623 - 3.599200288173 209107.7326876256 - 3.536143603717 207253.1136661459 - 3.426106300127 203899.1948749311 - 3.337509711996 201088.0669501509 - 4.033543199662 220610.2132854307 - 3.938842429986 218285.8221285985 - 3.816432837958 215132.3134549036 - 3.742488347278 213144.0359696004 - 3.700759518683 211993.7736379733 - 3.678835631237 211381.1896989307 - 3.668132273325 211080.0468787944 - 3.663279775264 210943.0699753067 - 3.661236161478 210885.2983879764 - 3.660435834108 210862.6600207223 - 3.660143938750 210854.4014138003 - 3.660044604411 210851.5906840443 - 3.660012986241 210850.6959844269 - 3.660003540143 210850.4286741224 - 3.660000886745 210850.3535818594 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156930 210850.3329219593 - 3.660000155375 210850.3328759379 - 3.660000147943 210850.3326648818 - 3.660000113948 210850.3317012415 - 3.659999966686 210850.3275309213 - 3.659999364566 210850.3104874034 - 3.659997045512 210850.2448572702 - 3.659988647746 210850.0072160054 - 3.659960109721 210849.1996649734 - 3.659869273026 210846.6292015032 - 3.659598972460 210838.9798078274 - 3.658848434718 210817.7353962498 - 3.656907205873 210762.7566304274 - 3.652237632913 210630.3221846604 - 3.641804666694 210333.4877548919 - 3.620174353404 209713.9057584821 - 3.578578318000 208506.5375241463 - 3.504365515274 206299.9755127148 - 3.381379306966 202492.5152183045 - 3.286215283910 199414.5347340951 - 4.033543199662 220610.2132854297 - 4.033543199662 220610.2132854283 - 3.938842429986 218285.8221285980 - 3.816432837958 215132.3134549035 - 3.742488347278 213144.0359696003 - 3.700759518683 211993.7736379733 - 3.678835631237 211381.1896989307 - 3.668132273325 211080.0468787944 - 3.663279775264 210943.0699753067 - 3.661236161478 210885.2983879765 - 3.660435834108 210862.6600207223 - 3.660143938755 210854.4014137666 - 3.660044604412 210851.5906840400 - 3.660012986241 210850.6959844262 - 3.660003540143 210850.4286741224 - 3.660000886745 210850.3535818594 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156930 210850.3329219593 - 3.660000155375 210850.3328759379 - 3.660000147943 210850.3326648818 - 3.660000113948 210850.3317012415 - 3.659999966686 210850.3275309213 - 3.659999364566 210850.3104874034 - 3.659997045512 210850.2448572702 - 3.659988647746 210850.0072160054 - 3.659960109721 210849.1996649734 - 3.659869273026 210846.6292015033 - 3.659598972460 210838.9798078274 - 3.658848434718 210817.7353962498 - 3.656907205873 210762.7566304275 - 3.652237632913 210630.3221846604 - 3.641804666694 210333.4877548919 - 3.620174353404 209713.9057584821 - 3.578578318000 208506.5375241463 - 3.504365515274 206299.9755127144 - 3.381379306966 202492.5152183037 - 3.286215283910 199414.5347340926 - 4.084325350400 221816.1050664772 - 3.983593721506 219396.5898526235 - 3.849269600458 215994.9892940285 - 3.764885590291 213752.9878479364 - 3.714908935935 212386.1048881037 - 3.687099529725 211612.7647078430 - 3.672592507143 211205.7031313115 - 3.665505965573 211005.9460937384 - 3.662265225957 210914.3956232872 - 3.660877259430 210875.1473199337 - 3.660320049609 210859.3842663350 - 3.660110108619 210853.4441923738 - 3.660035758261 210851.3403725645 - 3.660010959456 210850.6386345195 - 3.660003147864 210850.4175766810 - 3.660000825539 210850.3518527272 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156803 210850.3329189491 - 3.660000154844 210850.3328608611 - 3.660000146209 210850.3326152372 - 3.660000109746 210850.3315815669 - 3.659999963270 210850.3274333200 - 3.659999405050 210850.3116318870 - 3.659997390272 210850.2546117699 - 3.659990513798 210850.0600183028 - 3.659968354262 210849.4329594935 - 3.659901033313 210847.5279462052 - 3.659708511301 210842.0798067202 - 3.659191000927 210827.4327565079 - 3.657885207207 210790.4608394371 - 3.654796211007 210702.9186927965 - 3.647952306787 210508.5557338845 - 3.633761653451 210103.7597287252 - 3.606237021536 209311.6948931821 - 3.556297036959 207851.1472283666 - 3.471495078574 205300.9148644296 - 3.336554795700 201057.2219446667 - 3.235385534878 197722.4326331478 - 4.084325350400 221816.1050664764 - 4.084325350400 221816.1050664757 - 3.983593721506 219396.5898526230 - 3.849269600458 215994.9892940284 - 3.764885590291 213752.9878479363 - 3.714908935935 212386.1048881037 - 3.687099529725 211612.7647078430 - 3.672592507143 211205.7031313115 - 3.665505965573 211005.9460937384 - 3.662265225957 210914.3956232872 - 3.660877259430 210875.1473199337 - 3.660320049626 210859.3842662251 - 3.660110108622 210853.4441923569 - 3.660035758261 210851.3403725621 - 3.660010959456 210850.6386345192 - 3.660003147864 210850.4175766810 - 3.660000825539 210850.3518527272 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156803 210850.3329189491 - 3.660000154844 210850.3328608611 - 3.660000146209 210850.3326152372 - 3.660000109746 210850.3315815669 - 3.659999963270 210850.3274333200 - 3.659999405050 210850.3116318870 - 3.659997390272 210850.2546117699 - 3.659990513798 210850.0600183028 - 3.659968354262 210849.4329594935 - 3.659901033313 210847.5279462052 - 3.659708511301 210842.0798067202 - 3.659191000927 210827.4327565079 - 3.657885207207 210790.4608394371 - 3.654796211007 210702.9186927965 - 3.647952306787 210508.5557338845 - 3.633761653451 210103.7597287252 - 3.606237021536 209311.6948931821 - 3.556297036959 207851.1472283665 - 3.471495078574 205300.9148644292 - 3.336554795701 201057.2219446659 - 3.235385534878 197722.4326331452 - 4.134681411706 222984.3798088927 - 4.028351677269 220485.3518838517 - 3.882909803373 216865.9909744131 - 3.788608719005 214391.6093101318 - 3.730550813867 212817.0696267980 - 3.696721992178 211881.3880813295 - 3.678110196747 211360.8225784208 - 3.668455224868 211089.1533069386 - 3.663735774107 210955.9540001902 - 3.661562121425 210894.5164507051 - 3.660618433302 210867.8258074938 - 3.660231943595 210856.8914714983 - 3.660082469819 210852.6621416287 - 3.660027810190 210851.1154714392 - 3.660008879637 210850.5797826167 - 3.660002654614 210850.4036193332 - 3.660000717410 210850.3487929663 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156741 210850.3329171628 - 3.660000154521 210850.3328515847 - 3.660000145463 210850.3325938216 - 3.660000109662 210850.3315787111 - 3.659999974408 210850.3277479003 - 3.659999487561 210850.3139661426 - 3.659997820435 210850.2667836734 - 3.659992396386 210850.1132895032 - 3.659975650274 210849.6394143171 - 3.659926649775 210848.2528277984 - 3.659790926527 210844.4121038707 - 3.659435485885 210834.3527815132 - 3.658556331983 210809.4654330664 - 3.656504589023 210751.3482159138 - 3.651990374709 210623.3023741127 - 3.642632747727 210357.0956508871 - 3.624364557528 209834.3704448237 - 3.590782203425 208862.9430256475 - 3.532639219473 207148.6154308126 - 3.437768957603 204261.8352506201 - 3.291702090109 199595.1738426645 - 3.184983713448 196011.0554896259 - 4.134681411706 222984.3798088919 - 4.134681411706 222984.3798088914 - 4.028351677269 220485.3518838513 - 3.882909803374 216865.9909744130 - 3.788608719005 214391.6093101318 - 3.730550813867 212817.0696267980 - 3.696721992178 211881.3880813295 - 3.678110196747 211360.8225784208 - 3.668455224868 211089.1533069386 - 3.663735774107 210955.9540001902 - 3.661562121425 210894.5164507051 - 3.660618433346 210867.8258072091 - 3.660231943602 210856.8914714468 - 3.660082469820 210852.6621416202 - 3.660027810190 210851.1154714379 - 3.660008879637 210850.5797826165 - 3.660002654614 210850.4036193332 - 3.660000717410 210850.3487929663 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156741 210850.3329171628 - 3.660000154521 210850.3328515847 - 3.660000145463 210850.3325938216 - 3.660000109662 210850.3315787111 - 3.659999974408 210850.3277479003 - 3.659999487561 210850.3139661426 - 3.659997820435 210850.2667836734 - 3.659992396386 210850.1132895032 - 3.659975650274 210849.6394143171 - 3.659926649775 210848.2528277984 - 3.659790926527 210844.4121038707 - 3.659435485885 210834.3527815132 - 3.658556331983 210809.4654330664 - 3.656504589023 210751.3482159138 - 3.651990374709 210623.3023741127 - 3.642632747727 210357.0956508871 - 3.624364557528 209834.3704448237 - 3.590782203425 208862.9430256475 - 3.532639219473 207148.6154308126 - 3.437768957603 204261.8352506198 - 3.291702090109 199595.1738426637 - 3.184983713449 196011.0554896233 - 4.184642610704 224116.7671765363 - 4.073072416099 221551.3038818495 - 3.917183541302 217740.1981825880 - 3.813436093308 215052.9676195983 - 3.747493069729 213280.6174540228 - 3.707589237684 212183.4419529364 - 3.684654145766 211544.3236806560 - 3.672153136097 211193.3355458539 - 3.665697228724 211011.3453940377 - 3.662539419832 210922.1464704927 - 3.661076338040 210880.7782423123 - 3.660433962735 210862.6071150206 - 3.660166515293 210855.0402356541 - 3.660060833331 210852.0499194834 - 3.660021154990 210850.9271510857 - 3.660006978830 210850.5259937493 - 3.660002141465 210850.3890958969 - 3.660000566678 210850.3445249234 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156713 210850.3329161650 - 3.660000154430 210850.3328486595 - 3.660000145619 210850.3325978188 - 3.660000112656 210850.3316630480 - 3.659999994333 210850.3283114291 - 3.659999588130 210850.3168118261 - 3.659998256402 210850.2791204145 - 3.659994091508 210850.1612567743 - 3.659981679209 210849.8100154781 - 3.659946465443 210848.8135580102 - 3.659851460045 210846.1251143360 - 3.659607936049 210839.2334727346 - 3.659015415395 210822.4624455299 - 3.657648052710 210783.7439153450 - 3.654657274963 210698.9785587934 - 3.648460448502 210523.0059453877 - 3.636302023429 210176.4028489789 - 3.613716521954 209527.8340177234 - 3.573993278135 208372.1664127538 - 3.507823628809 206404.3014748342 - 3.403359441945 203186.9645281207 - 3.246867704434 198107.6244995418 - 3.134979680202 194279.8421755335 - 4.184642610704 224116.7671765355 - 4.184642610704 224116.7671765353 - 4.073072416099 221551.3038818489 - 3.917183541302 217740.1981825879 - 3.813436093308 215052.9676195982 - 3.747493069729 213280.6174540228 - 3.707589237684 212183.4419529364 - 3.684654145766 211544.3236806560 - 3.672153136097 211193.3355458539 - 3.665697228724 211011.3453940377 - 3.662539419832 210922.1464704927 - 3.661076338135 210880.7782416908 - 3.660433962755 210862.6071148912 - 3.660166515297 210855.0402356297 - 3.660060833331 210852.0499194791 - 3.660021154990 210850.9271510849 - 3.660006978830 210850.5259937492 - 3.660002141465 210850.3890958969 - 3.660000566678 210850.3445249234 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156713 210850.3329161650 - 3.660000154430 210850.3328486595 - 3.660000145619 210850.3325978188 - 3.660000112656 210850.3316630480 - 3.659999994333 210850.3283114291 - 3.659999588130 210850.3168118261 - 3.659998256402 210850.2791204145 - 3.659994091508 210850.1612567743 - 3.659981679209 210849.8100154781 - 3.659946465443 210848.8135580102 - 3.659851460045 210846.1251143360 - 3.659607936049 210839.2334727346 - 3.659015415395 210822.4624455298 - 3.657648052710 210783.7439153450 - 3.654657274963 210698.9785587934 - 3.648460448502 210523.0059453877 - 3.636302023429 210176.4028489789 - 3.613716521954 209527.8340177234 - 3.573993278135 208372.1664127538 - 3.507823628809 206404.3014748341 - 3.403359441945 203186.9645281203 - 3.246867704434 198107.6244995410 - 3.134979680202 194279.8421755310 - 4.234235202733 225214.7986125977 - 4.117726049482 222594.0485543784 - 3.951963916468 218613.8217748037 - 3.839193891854 215731.5999447587 - 3.765573812385 213771.6073515219 - 3.719592286815 212515.4430800829 - 3.692179536835 211754.7166591387 - 3.676605941418 211318.5693247578 - 3.668183598342 211081.4943354867 - 3.663850062645 210959.1828076575 - 3.661729012940 210899.2356501210 - 3.660741298903 210871.3014880349 - 3.660303514066 210858.9164559595 - 3.660118714145 210853.6877075544 - 3.660044361926 210851.5838407255 - 3.660015820383 210850.7761968941 - 3.660005351370 210850.4799396478 - 3.660001666842 210850.3756639053 - 3.660000420215 210850.3403785035 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156764 210850.3329171947 - 3.660000154531 210850.3328512473 - 3.660000146437 210850.3326207206 - 3.660000117525 210850.3318006068 - 3.660000018125 210850.3289845882 - 3.659999690251 210850.3197017067 - 3.659998654006 210850.2903719899 - 3.659995519138 210850.2016554236 - 3.659986449569 210849.9450034426 - 3.659961377720 210849.2355340906 - 3.659895209138 210847.3631255749 - 3.659728625324 210842.6490181948 - 3.659328862012 210831.3349249644 - 3.658415026452 210805.4644508704 - 3.656426300100 210749.1296226736 - 3.652307978785 210632.3192013080 - 3.644195437475 210401.6242332781 - 3.628996913082 209967.3003858683 - 3.601917503908 209186.5632409267 - 3.556025784283 207843.1311592288 - 3.482022837643 205622.3570116257 - 3.368396070656 202079.4305389028 - 3.202083901689 196595.4504960816 - 3.085348141821 192528.3339235556 - 4.234235202733 225214.7986125971 - 4.234235202733 225214.7986125977 - 4.117726049482 222594.0485543779 - 3.951963916468 218613.8217748034 - 3.839193891854 215731.5999447586 - 3.765573812385 213771.6073515219 - 3.719592286815 212515.4430800829 - 3.692179536835 211754.7166591386 - 3.676605941418 211318.5693247578 - 3.668183598342 211081.4943354867 - 3.663850062645 210959.1828076575 - 3.661729013122 210899.2356489295 - 3.660741298946 210871.3014877552 - 3.660303514075 210858.9164559002 - 3.660118714146 210853.6877075428 - 3.660044361927 210851.5838407235 - 3.660015820383 210850.7761968938 - 3.660005351370 210850.4799396477 - 3.660001666842 210850.3756639053 - 3.660000420215 210850.3403785035 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156764 210850.3329171947 - 3.660000154531 210850.3328512473 - 3.660000146437 210850.3326207206 - 3.660000117525 210850.3318006068 - 3.660000018125 210850.3289845882 - 3.659999690251 210850.3197017067 - 3.659998654006 210850.2903719899 - 3.659995519138 210850.2016554236 - 3.659986449569 210849.9450034426 - 3.659961377720 210849.2355340906 - 3.659895209138 210847.3631255749 - 3.659728625324 210842.6490181948 - 3.659328862012 210831.3349249644 - 3.658415026452 210805.4644508704 - 3.656426300100 210749.1296226736 - 3.652307978785 210632.3192013080 - 3.644195437475 210401.6242332781 - 3.628996913082 209967.3003858683 - 3.601917503908 209186.5632409267 - 3.556025784283 207843.1311592288 - 3.482022837643 205622.3570116256 - 3.368396070657 202079.4305389024 - 3.202083901689 196595.4504960807 - 3.085348141821 192528.3339235531 - 4.283481662042 226279.8491320286 - 4.162291800735 223613.4493410401 - 3.987153686243 219483.9978399149 - 3.865743413533 216423.1349641408 - 3.784656390739 214285.6680645201 - 3.732630240752 212874.1453808933 - 3.700634912859 211990.3084921151 - 3.681806342988 211464.5301716085 - 3.671215944103 211166.9472817320 - 3.665526547601 211006.5272381824 - 3.662608203086 210924.0907608988 - 3.661178936128 210883.6800359568 - 3.660510459224 210864.7712804432 - 3.660211764552 210856.3205470367 - 3.660084186303 210852.7107251579 - 3.660032061406 210851.2357777862 - 3.660011670186 210850.6587566219 - 3.660004023470 210850.4423623556 - 3.660001260710 210850.3641701018 - 3.660000233739 210850.3350913920 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156823 210850.3329184371 - 3.660000154780 210850.3328580499 - 3.660000147662 210850.3326553320 - 3.660000123231 210850.3319620767 - 3.660000042293 210850.3296685711 - 3.659999784284 210850.3223629766 - 3.659998993985 210850.2999932473 - 3.659996669980 210850.2342221858 - 3.659990114139 210850.0487014264 - 3.659972386915 210849.5470637130 - 3.659926471202 210848.2477675566 - 3.659812631948 210845.0263338927 - 3.659542637581 210837.3854288445 - 3.658930431588 210820.0566731218 - 3.657603947232 210782.4946434663 - 3.654858648585 210704.6893016438 - 3.649433313271 210550.6630355872 - 3.639197334709 210259.1011430259 - 3.620761322573 209730.7933906567 - 3.589060909730 208812.7836260083 - 3.537011828284 207278.9802082493 - 3.455375380564 204806.0545633713 - 3.332978805393 200941.6086206847 - 3.157373604915 195059.2816883484 - 3.036067481528 190756.1473467712 - 4.283481662042 226279.8491320280 - 4.283481662042 226279.8491320278 - 4.162291800735 223613.4493410396 - 3.987153686243 219483.9978399147 - 3.865743413533 216423.1349641407 - 3.784656390739 214285.6680645201 - 3.732630240752 212874.1453808933 - 3.700634912859 211990.3084921151 - 3.681806342988 211464.5301716085 - 3.671215944103 211166.9472817320 - 3.665526547601 211006.5272381824 - 3.662608203401 210924.0907588326 - 3.661178936210 210883.6800354190 - 3.660510459243 210864.7712803163 - 3.660211764556 210856.3205470091 - 3.660084186303 210852.7107251526 - 3.660032061406 210851.2357777852 - 3.660011670186 210850.6587566217 - 3.660004023470 210850.4423623556 - 3.660001260710 210850.3641701018 - 3.660000233739 210850.3350913920 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156823 210850.3329184371 - 3.660000154780 210850.3328580499 - 3.660000147662 210850.3326553320 - 3.660000123231 210850.3319620767 - 3.660000042293 210850.3296685711 - 3.659999784284 210850.3223629766 - 3.659998993985 210850.2999932473 - 3.659996669980 210850.2342221858 - 3.659990114139 210850.0487014264 - 3.659972386915 210849.5470637130 - 3.659926471202 210848.2477675566 - 3.659812631948 210845.0263338927 - 3.659542637581 210837.3854288445 - 3.658930431588 210820.0566731218 - 3.657603947232 210782.4946434663 - 3.654858648585 210704.6893016438 - 3.649433313271 210550.6630355872 - 3.639197334709 210259.1011430259 - 3.620761322573 209730.7933906567 - 3.589060909730 208812.7836260083 - 3.537011828284 207278.9802082492 - 3.455375380564 204806.0545633712 - 3.332978805394 200941.6086206843 - 3.157373604915 195059.2816883475 - 3.036067481528 190756.1473467685 - 4.332401507379 227313.1670000610 - 4.206755048982 224609.5417039887 - 4.022676747943 220348.5266027121 - 3.892972279940 217124.0280668913 - 3.804624945467 214819.0700568257 - 3.746611293366 213256.5749668488 - 3.709966461146 212249.3305804093 - 3.687737917438 211630.6204182269 - 3.674804955585 211267.9456718674 - 3.667593469865 211064.8516290941 - 3.663741396216 210956.1130190835 - 3.661770642737 210900.4127702394 - 3.660804899135 210873.1005755622 - 3.660351496048 210860.2740043054 - 3.660147479494 210854.5016365170 - 3.660059450163 210852.0107914391 - 3.660023003084 210850.9794543921 - 3.660008508672 210850.5692914952 - 3.660002964888 210850.4124041597 - 3.660000930311 210850.3548205926 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156940 210850.3329208416 - 3.660000155100 210850.3328670948 - 3.660000149064 210850.3326952196 - 3.660000129022 210850.3321261913 - 3.660000064711 210850.3303032847 - 3.659999865685 210850.3246669818 - 3.659999272335 210850.3078707948 - 3.659997569691 210850.2596829754 - 3.659992870268 210850.1266936868 - 3.659980402461 210849.7738819632 - 3.659948627141 210848.8747231037 - 3.659870879581 210846.6746460332 - 3.659688347098 210841.5091466966 - 3.659277356814 210829.8770873647 - 3.658390262901 210804.7632628185 - 3.656555434906 210752.7890751226 - 3.652919744934 210649.6839363322 - 3.646019534213 210453.5645211270 - 3.633477082579 210095.6174959913 - 3.611642190516 209467.9587743630 - 3.575232415752 208408.5064270318 - 3.517064110805 206682.3469211278 - 3.427994195402 203958.0135646292 - 3.297186449492 199775.3417342693 - 3.112753381864 193499.5800446940 - 2.987118949431 188962.9561684965 - 4.332401507379 227313.1670000604 - 4.332401507379 227313.1670000602 - 4.206755048982 224609.5417039882 - 4.022676747943 220348.5266027119 - 3.892972279940 217124.0280668911 - 3.804624945467 214819.0700568257 - 3.746611293366 213256.5749668488 - 3.709966461146 212249.3305804093 - 3.687737917438 211630.6204182269 - 3.674804955585 211267.9456718674 - 3.667593471486 211064.8516184718 - 3.663741396722 210956.1130157720 - 3.661770642881 210900.4127692972 - 3.660804899172 210873.1005753177 - 3.660351496056 210860.2740042475 - 3.660147479496 210854.5016365043 - 3.660059450163 210852.0107914366 - 3.660023003084 210850.9794543915 - 3.660008508672 210850.5692914950 - 3.660002964888 210850.4124041596 - 3.660000930311 210850.3548205926 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156940 210850.3329208416 - 3.660000155100 210850.3328670948 - 3.660000149064 210850.3326952196 - 3.660000129022 210850.3321261913 - 3.660000064711 210850.3303032847 - 3.659999865685 210850.3246669818 - 3.659999272335 210850.3078707948 - 3.659997569691 210850.2596829754 - 3.659992870268 210850.1266936868 - 3.659980402461 210849.7738819632 - 3.659948627141 210848.8747231037 - 3.659870879581 210846.6746460332 - 3.659688347098 210841.5091466966 - 3.659277356814 210829.8770873646 - 3.658390262901 210804.7632628185 - 3.656555434906 210752.7890751227 - 3.652919744934 210649.6839363322 - 3.646019534213 210453.5645211270 - 3.633477082579 210095.6174959913 - 3.611642190516 209467.9587743630 - 3.575232415752 208408.5064270318 - 3.517064110805 206682.3469211277 - 3.427994195402 203958.0135646291 - 3.297186449492 199775.3417342690 - 3.112753381864 193499.5800446931 - 2.987118949431 188962.9561684942 - 4.381011895068 228315.8955610843 - 4.251105455901 225582.4769519036 - 4.058472490245 221205.6978056078 - 3.920788212270 217831.3721970828 - 3.825380687580 215368.6167506839 - 3.761452651495 213660.0318409506 - 3.720120573505 212530.0164699084 - 3.694378343999 211816.0635855692 - 3.678953278268 211384.4924784490 - 3.670068408409 211134.6224464343 - 3.665151607229 210995.9419432556 - 3.662538266100 210922.1139639550 - 3.661204243160 210884.3957883489 - 3.660550163070 210865.8945197565 - 3.660242052778 210857.1775284904 - 3.660102561186 210853.2306632865 - 3.660041836104 210851.5123762691 - 3.660016399762 210850.7925972031 - 3.660006135916 210850.5021449265 - 3.660002135463 210850.3889295748 - 3.660000644316 210850.3467249146 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000157188 210850.3329355154 - 3.660000156994 210850.3329216998 - 3.660000155460 210850.3328771274 - 3.660000150479 210850.3327355680 - 3.660000134421 210850.3322793321 - 3.660000084315 210850.3308585145 - 3.659999933209 210850.3265784829 - 3.659999493247 210850.3141231955 - 3.659998257448 210850.2791462918 - 3.659994910806 210850.1844371702 - 3.659986178088 210849.9373174680 - 3.659964233297 210849.3163353431 - 3.659911153348 210847.8143067053 - 3.659787633640 210844.3189092212 - 3.659511221760 210836.4962978369 - 3.658916625305 210819.6658304927 - 3.657687516618 210784.8617008222 - 3.655246625887 210715.6905618104 - 3.650590577037 210583.5475519637 - 3.642060482702 210340.7817728044 - 3.627051595801 209911.5091500393 - 3.601686997116 209179.8794269001 - 3.560509862912 207975.5299251493 - 3.496279326393 206055.4495703520 - 3.399972609095 203080.3591448925 - 3.261082245215 198582.0855398596 - 3.068235343408 191916.6896172051 - 2.938486081788 187148.4783967855 - 4.381011895068 228315.8955610836 + 3.660000157188 210850.3659260999 + 3.660000157238 210850.3659272367 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260998 + 3.660000157238 210850.3659272367 + 3.660000157238 210850.3659272367 + 3.660000157238 210850.3659272367 + 3.660000157238 210850.3659280345 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659260999 + 3.660000157238 210850.3659280344 + 3.660003382266 210850.4571841295 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659260999 + 3.659996932210 210850.2746719056 + 3.660003382268 210850.4571841208 + 3.660003382268 210850.4571841145 + 3.660000157188 210850.3659260999 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659260999 + 3.659996932211 210850.2746718925 + 3.716605606328 212433.0224678570 + 3.681724580630 211462.2697318090 + 3.663790102202 210957.5214082462 + 3.660499544775 210864.4952868574 + 3.660051102382 210851.8074889044 + 3.660004255272 210850.4818918854 + 3.660000420358 210850.3733739906 + 3.660000170739 210850.3663097301 + 3.660000157518 210850.3659354331 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157171 210850.3659254698 + 3.660000156665 210850.3659107473 + 3.660000144468 210850.3655650712 + 3.659999908180 210850.3588781483 + 3.659996237716 210850.2550138310 + 3.659950904802 210848.9722349569 + 3.659512132466 210836.5551878224 + 3.656256692306 210744.3561183816 + 3.638329805085 210234.3657790062 + 3.603388387131 209229.2315757535 + 3.716605606328 212433.0224678556 + 3.716605606329 212433.0224678551 + 3.681724580630 211462.2697318088 + 3.663790102202 210957.5214082462 + 3.660499544775 210864.4952868574 + 3.660051102382 210851.8074889044 + 3.660004255272 210850.4818918854 + 3.660000420358 210850.3733739905 + 3.660000170739 210850.3663097301 + 3.660000157518 210850.3659354331 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157171 210850.3659254698 + 3.660000156665 210850.3659107473 + 3.660000144468 210850.3655650712 + 3.659999908180 210850.3588781483 + 3.659996237716 210850.2550138310 + 3.659950904802 210848.9722349569 + 3.659512132466 210836.5551878224 + 3.656256692306 210744.3561183816 + 3.638329805085 210234.3657790060 + 3.603388387131 209229.2315757502 + 3.771430642901 213929.8647692789 + 3.720022970995 212527.3557419423 + 3.678291053383 211365.9332280747 + 3.664626534267 210981.1473533187 + 3.660980572667 210878.1023878623 + 3.660176127889 210855.3451157404 + 3.660027186522 210851.1307777126 + 3.660003742970 210850.4674004286 + 3.660000570971 210850.3776380509 + 3.660000198206 210850.3670877181 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157174 210850.3659256655 + 3.660000156926 210850.3659185206 + 3.660000153803 210850.3658298591 + 3.660000118807 210850.3648387454 + 3.659999773813 210850.3550743414 + 3.659996801284 210850.2709568165 + 3.659974582939 210849.6422428693 + 3.659831816492 210845.6022939904 + 3.659051795813 210823.5253898593 + 3.655475166753 210722.2031904158 + 3.641918725541 210336.7730507962 + 3.600135181843 209134.8983655363 + 3.548541337841 207621.6267293229 + 3.771430642901 213929.8647692776 + 3.771430642901 213929.8647692761 + 3.720022970995 212527.3557419420 + 3.678291053383 211365.9332280747 + 3.664626534267 210981.1473533187 + 3.660980572667 210878.1023878623 + 3.660176127889 210855.3451157404 + 3.660027186522 210851.1307777126 + 3.660003742970 210850.4674004286 + 3.660000570971 210850.3776380509 + 3.660000198206 210850.3670877181 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157174 210850.3659256655 + 3.660000156926 210850.3659185206 + 3.660000153803 210850.3658298591 + 3.660000118807 210850.3648387454 + 3.659999773813 210850.3550743414 + 3.659996801284 210850.2709568165 + 3.659974582939 210849.6422428693 + 3.659831816492 210845.6022939904 + 3.659051795813 210823.5253898593 + 3.655475166753 210722.2031904158 + 3.641918725541 210336.7730507961 + 3.600135181843 209134.8983655358 + 3.548541337841 207621.6267293201 + 3.825215144115 215364.2840531408 + 3.762059844869 213676.5147321961 + 3.699875579212 211969.2179411371 + 3.673583895702 211233.6334944189 + 3.664040570238 210964.5971853077 + 3.661054010617 210880.1795627467 + 3.660242543793 210857.2243050815 + 3.660049609924 210851.7652876747 + 3.660009158277 210850.6206452425 + 3.660001623370 210850.4074229723 + 3.660000360350 210850.3716781013 + 3.660000158347 210850.3659589480 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157176 210850.3659257020 + 3.660000156857 210850.3659165314 + 3.660000154097 210850.3658380446 + 3.660000131352 210850.3651935096 + 3.659999961167 210850.3603756425 + 3.659998810723 210850.3278172119 + 3.659991819685 210850.1299857868 + 3.659953843229 210849.0553611015 + 3.659770596776 210843.8698363324 + 3.658990703703 210821.7959681280 + 3.656085645221 210739.5081931297 + 3.646691494641 210472.7212321306 + 3.620528560897 209724.1300259708 + 3.558177733769 207906.7337412742 + 3.494723889455 206008.3523960966 + 3.825215144115 215364.2840531397 + 3.825215144115 215364.2840531389 + 3.762059844869 213676.5147321956 + 3.699875579212 211969.2179411370 + 3.673583895702 211233.6334944189 + 3.664040570238 210964.5971853077 + 3.661054010617 210880.1795627467 + 3.660242543793 210857.2243050815 + 3.660049609924 210851.7652876747 + 3.660009158277 210850.6206452425 + 3.660001623370 210850.4074229722 + 3.660000360350 210850.3716781013 + 3.660000158347 210850.3659589480 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157176 210850.3659257020 + 3.660000156857 210850.3659165314 + 3.660000154097 210850.3658380446 + 3.660000131352 210850.3651935096 + 3.659999961167 210850.3603756425 + 3.659998810723 210850.3278172119 + 3.659991819685 210850.1299857868 + 3.659953843229 210849.0553611015 + 3.659770596776 210843.8698363324 + 3.658990703703 210821.7959681280 + 3.656085645221 210739.5081931297 + 3.646691494641 210472.7212321306 + 3.620528560897 209724.1300259707 + 3.558177733769 207906.7337412736 + 3.494723889456 206008.3523960944 + 3.878207173198 216745.0378059607 + 3.805519094451 214842.8783048775 + 3.725680534123 212683.2250924127 + 3.686644451698 211600.0660800301 + 3.669698424505 211124.2292161094 + 3.663170096927 210940.0035936230 + 3.660932825918 210876.7519514209 + 3.660247996996 210857.3786062184 + 3.660059859595 210852.0553158630 + 3.660013238557 210850.7361063300 + 3.660002760655 210850.4396056971 + 3.660000606275 210850.3786369250 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157001 210850.3659206002 + 3.660000155623 210850.3658812457 + 3.660000146101 210850.3656109901 + 3.660000085159 210850.3638847704 + 3.659999725792 210850.3537123082 + 3.659997780914 210850.2986720748 + 3.659988157630 210850.0263545150 + 3.659944802688 210848.7995306306 + 3.659767751107 210843.7892928518 + 3.659115464016 210825.3276129518 + 3.656958198716 210764.2344365147 + 3.650585217677 210583.4282921399 + 3.633845439002 210106.1897920574 + 3.594895273396 208982.6872082916 + 3.514762615472 206613.2260126418 + 3.441691663165 204383.4558353760 + 3.878207173198 216745.0378059597 + 3.878207173198 216745.0378059583 + 3.805519094451 214842.8783048771 + 3.725680534123 212683.2250924126 + 3.686644451698 211600.0660800300 + 3.669698424505 211124.2292161094 + 3.663170096927 210940.0035936230 + 3.660932825918 210876.7519514209 + 3.660247996996 210857.3786062184 + 3.660059859595 210852.0553158630 + 3.660013238557 210850.7361063300 + 3.660002760655 210850.4396056971 + 3.660000606275 210850.3786369249 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157001 210850.3659206002 + 3.660000155623 210850.3658812457 + 3.660000146101 210850.3656109901 + 3.660000085159 210850.3638847704 + 3.659999725792 210850.3537123082 + 3.659997780914 210850.2986720748 + 3.659988157630 210850.0263545150 + 3.659944802688 210848.7995306306 + 3.659767751107 210843.7892928518 + 3.659115464016 210825.3276129518 + 3.656958198716 210764.2344365147 + 3.650585217677 210583.4282921399 + 3.633845439002 210106.1897920574 + 3.594895273396 208982.6872082915 + 3.514762615472 206613.2260126412 + 3.441691663165 204383.4558353739 + 3.930539019828 218077.2998365264 + 3.849664063803 216005.3101849620 + 3.754212459428 213463.5637572811 + 3.702918274156 212053.8169547501 + 3.677880464300 211354.4040912759 + 3.666806684966 211042.6888369274 + 3.662369040917 210917.3632377368 + 3.660755107234 210871.7249831346 + 3.660220958970 210856.6136215757 + 3.660059565049 210852.0469933412 + 3.660014882215 210850.7826222164 + 3.660003486960 210850.4601607190 + 3.660000777631 210850.3834868124 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157162 210850.3659252774 + 3.660000156603 210850.3659091200 + 3.660000153310 210850.3658153014 + 3.660000134311 210850.3652763912 + 3.660000031790 210850.3623728841 + 3.659999516897 210850.3477984841 + 3.659997117267 210850.2798890357 + 3.659986770210 210849.9870897415 + 3.659945618367 210848.8226051317 + 3.659795149457 210844.5646286088 + 3.659291039805 210830.2974149682 + 3.657748815870 210786.6309345205 + 3.653454617820 210664.8954028626 + 3.642604761336 210356.3308668387 + 3.617789802628 209645.2902996846 + 3.566490636824 208151.7704768788 + 3.470627568482 205274.3977328563 + 3.389315008921 202743.9782716186 + 3.930539019828 218077.2998365254 + 3.930539019828 218077.2998365247 + 3.849664063804 216005.3101849615 + 3.754212459428 213463.5637572809 + 3.702918274156 212053.8169547501 + 3.677880464300 211354.4040912759 + 3.666806684966 211042.6888369274 + 3.662369040917 210917.3632377368 + 3.660755107234 210871.7249831346 + 3.660220958970 210856.6136215757 + 3.660059565049 210852.0469933412 + 3.660014882215 210850.7826222153 + 3.660003486960 210850.4601607189 + 3.660000777631 210850.3834868124 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157162 210850.3659252774 + 3.660000156603 210850.3659091200 + 3.660000153310 210850.3658153014 + 3.660000134311 210850.3652763912 + 3.660000031790 210850.3623728841 + 3.659999516897 210850.3477984841 + 3.659997117267 210850.2798890357 + 3.659986770210 210849.9870897415 + 3.659945618367 210848.8226051317 + 3.659795149457 210844.5646286088 + 3.659291039805 210830.2974149682 + 3.657748815870 210786.6309345205 + 3.653454617820 210664.8954028626 + 3.642604761336 210356.3308668387 + 3.617789802628 209645.2902996846 + 3.566490636824 208151.7704768785 + 3.470627568482 205274.3977328555 + 3.389315008921 202743.9782716162 + 3.982296962113 219364.7494641264 + 3.894164213492 217154.5494672892 + 3.784634403402 214285.1106453029 + 3.721705133411 212573.7405978289 + 3.688329305394 211647.1896394079 + 3.672041044249 211190.2127898497 + 3.664736031858 210984.2398703687 + 3.661724676950 210899.1459139134 + 3.660582201716 210866.8337877299 + 3.660182514912 210855.5258951087 + 3.660053268139 210851.8688231036 + 3.660014521866 210850.7724289193 + 3.660003703142 210850.4662789307 + 3.660000873422 210850.3861970540 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157070 210850.3659225202 + 3.660000156009 210850.3658920410 + 3.660000150489 210850.3657349143 + 3.660000122552 210850.3649426997 + 3.659999989436 210850.3611728807 + 3.659999394487 210850.3443324747 + 3.659996906291 210850.2739162226 + 3.659987191361 210849.9990034400 + 3.659951864205 210848.9993398818 + 3.659832513813 210845.6219816945 + 3.659458831178 210835.0465356311 + 3.658377206788 210804.4265867257 + 3.655489679046 210722.6145009429 + 3.648394970719 210521.1770633071 + 3.632379176260 210064.2273956134 + 3.599200279705 209107.7651310887 + 3.536143594767 207253.1457547898 + 3.426106296309 203899.2264966093 + 3.337509715982 201088.0982952847 + 3.982296962113 219364.7494641255 + 3.982296962113 219364.7494641248 + 3.894164213492 217154.5494672886 + 3.784634403402 214285.1106453027 + 3.721705133411 212573.7405978288 + 3.688329305394 211647.1896394079 + 3.672041044249 211190.2127898497 + 3.664736031858 210984.2398703687 + 3.661724676950 210899.1459139134 + 3.660582201716 210866.8337877299 + 3.660182514912 210855.5258951087 + 3.660053268140 210851.8688230960 + 3.660014521866 210850.7724289185 + 3.660003703142 210850.4662789307 + 3.660000873422 210850.3861970540 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157070 210850.3659225202 + 3.660000156009 210850.3658920411 + 3.660000150489 210850.3657349143 + 3.660000122552 210850.3649426997 + 3.659999989436 210850.3611728808 + 3.659999394487 210850.3443324747 + 3.659996906291 210850.2739162226 + 3.659987191361 210849.9990034400 + 3.659951864205 210848.9993398818 + 3.659832513813 210845.6219816945 + 3.659458831178 210835.0465356311 + 3.658377206788 210804.4265867257 + 3.655489679046 210722.6145009429 + 3.648394970719 210521.1770633071 + 3.632379176260 210064.2273956134 + 3.599200279705 209107.7651310886 + 3.536143594767 207253.1457547897 + 3.426106296309 203899.2264966086 + 3.337509715983 201088.0982952823 + 4.033543195436 220610.2478449384 + 3.938842434287 218285.8565772544 + 3.816432848792 215132.3474858729 + 3.742488357980 213144.0696615901 + 3.700759526759 211993.8070600793 + 3.678835636286 211381.2229295466 + 3.668132275837 211080.0799846706 + 3.663279775865 210943.1030025888 + 3.661236160668 210885.3313647121 + 3.660435832336 210862.6929657418 + 3.660143936564 210854.4343450936 + 3.660044602429 210851.6236200323 + 3.660012984896 210850.7289378093 + 3.660003539488 210850.4616466157 + 3.660000886545 210850.3865670041 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156930 210850.3659184320 + 3.660000155376 210850.3658738153 + 3.660000147943 210850.3656623771 + 3.660000113949 210850.3646984389 + 3.659999966687 210850.3605279704 + 3.659999364566 210850.3434842717 + 3.659997045510 210850.2778538740 + 3.659988647735 210850.0402121730 + 3.659960109685 210849.2326602095 + 3.659869272922 210846.6621944001 + 3.659598972189 210839.0127947857 + 3.658848434068 210817.7683690040 + 3.656907204449 210762.7895719279 + 3.652237630090 210630.3550633948 + 3.641804661686 210333.5205188491 + 3.620174345617 209713.9383314305 + 3.578578307815 208506.5698071758 + 3.504365505270 206300.0073925715 + 3.381379303260 202492.5465800218 + 3.286215288659 199414.5657914011 + 4.033543195436 220610.2478449375 + 4.033543195436 220610.2478449371 + 3.938842434287 218285.8565772538 + 3.816432848792 215132.3474858727 + 3.742488357980 213144.0696615900 + 3.700759526759 211993.8070600792 + 3.678835636286 211381.2229295466 + 3.668132275837 211080.0799846706 + 3.663279775865 210943.1030025888 + 3.661236160668 210885.3313647121 + 3.660435832336 210862.6929657418 + 3.660143936569 210854.4343450599 + 3.660044602430 210851.6236200280 + 3.660012984896 210850.7289378088 + 3.660003539488 210850.4616466156 + 3.660000886545 210850.3865670041 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156930 210850.3659184320 + 3.660000155376 210850.3658738153 + 3.660000147943 210850.3656623771 + 3.660000113949 210850.3646984389 + 3.659999966687 210850.3605279704 + 3.659999364566 210850.3434842717 + 3.659997045510 210850.2778538740 + 3.659988647735 210850.0402121730 + 3.659960109685 210849.2326602095 + 3.659869272922 210846.6621944001 + 3.659598972189 210839.0127947858 + 3.658848434068 210817.7683690040 + 3.656907204449 210762.7895719279 + 3.652237630090 210630.3550633948 + 3.641804661686 210333.5205188491 + 3.620174345617 209713.9383314305 + 3.578578307815 208506.5698071757 + 3.504365505270 206300.0073925712 + 3.381379303260 202492.5465800209 + 3.286215288659 199414.5657913985 + 4.084325345388 221816.1398035839 + 3.983593725618 219396.6244776031 + 3.849269612183 215995.0234909449 + 3.764885602570 213753.0216852271 + 3.714908945775 212386.1384261854 + 3.687099536316 211612.7980218164 + 3.672592510783 211205.7362909995 + 3.665505966918 211005.9791531131 + 3.662265225668 210914.4286198303 + 3.660877258108 210875.1802798298 + 3.660320047830 210859.4172100403 + 3.660110106907 210853.4771364346 + 3.660035756969 210851.3733277455 + 3.660010958689 210850.6716040688 + 3.660003147520 210850.4505578667 + 3.660000825438 210850.3848405955 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156831 210850.3659155216 + 3.660000154849 210850.3658586741 + 3.660000146209 210850.3656128910 + 3.660000109747 210850.3645789128 + 3.659999963270 210850.3604304901 + 3.659999405050 210850.3446289072 + 3.659997390269 210850.2876085802 + 3.659990513789 210850.0930147489 + 3.659968354232 210849.4659551626 + 3.659901033229 210847.5609400012 + 3.659708511087 210842.1127959481 + 3.659191000423 210827.4657351001 + 3.657885206109 210790.4937949362 + 3.654796208810 210702.9516019262 + 3.647952302776 210508.5885572080 + 3.633761646852 210103.7924058458 + 3.606237011947 209311.7273407664 + 3.556297025163 207851.1793428339 + 3.471495067659 205300.9465295484 + 3.336554792182 201057.2530419583 + 3.235385540412 197722.4633987644 + 4.084325345389 221816.1398035831 + 4.084325345389 221816.1398035827 + 3.983593725618 219396.6244776025 + 3.849269612183 215995.0234909447 + 3.764885602570 213753.0216852271 + 3.714908945775 212386.1384261854 + 3.687099536316 211612.7980218164 + 3.672592510783 211205.7362909995 + 3.665505966918 211005.9791531131 + 3.662265225668 210914.4286198303 + 3.660877258108 210875.1802798298 + 3.660320047847 210859.4172099305 + 3.660110106909 210853.4771364177 + 3.660035756970 210851.3733277432 + 3.660010958689 210850.6716040685 + 3.660003147520 210850.4505578667 + 3.660000825438 210850.3848405955 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156831 210850.3659155216 + 3.660000154849 210850.3658586741 + 3.660000146209 210850.3656128910 + 3.660000109747 210850.3645789128 + 3.659999963270 210850.3604304901 + 3.659999405050 210850.3446289072 + 3.659997390269 210850.2876085802 + 3.659990513789 210850.0930147489 + 3.659968354232 210849.4659551626 + 3.659901033229 210847.5609400012 + 3.659708511087 210842.1127959481 + 3.659191000423 210827.4657351001 + 3.657885206109 210790.4937949362 + 3.654796208810 210702.9516019262 + 3.647952302776 210508.5885572080 + 3.633761646852 210103.7924058458 + 3.606237011947 209311.7273407664 + 3.556297025163 207851.1793428338 + 3.471495067659 205300.9465295482 + 3.336554792183 201057.2530419574 + 3.235385540412 197722.4633987620 + 4.134681405886 222984.4147148436 + 4.028351681130 220485.3866779403 + 3.882909815870 216866.0253336311 + 3.788608732746 214391.6432931617 + 3.730550825430 212817.1032854354 + 3.696722000381 211881.4214865052 + 3.678110201676 211360.8558013374 + 3.668455227151 211089.1864073392 + 3.663735774490 210955.9870230498 + 3.661562120613 210894.5494284477 + 3.660618431913 210867.8587637280 + 3.660231942130 210856.9244232136 + 3.660082468613 210852.6950994271 + 3.660027809381 210851.1484394455 + 3.660008879195 210850.6127597949 + 3.660002654426 210850.4366024948 + 3.660000717358 210850.3817799928 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156744 210850.3659129504 + 3.660000154532 210850.3658495047 + 3.660000145471 210850.3655917101 + 3.660000109666 210850.3645762168 + 3.659999974409 210850.3607451957 + 3.659999487561 210850.3469632992 + 3.659997820433 210850.2997806520 + 3.659992396378 210850.1462861781 + 3.659975650249 210849.6724103626 + 3.659926649709 210848.2858223802 + 3.659790926362 210844.4450949907 + 3.659435485500 210834.3857647435 + 3.658556331150 210809.4983993464 + 3.656504587345 210751.3811481759 + 3.651990371584 210623.3352428383 + 3.642632742391 210357.1284093477 + 3.624364549265 209834.4030254597 + 3.590782192056 208862.9753391691 + 3.532639206170 207148.6473697375 + 3.437768945900 204261.8666956355 + 3.291702086844 199595.2046712359 + 3.184983719789 196011.0859597132 + 4.134681405887 222984.4147148429 + 4.134681405887 222984.4147148436 + 4.028351681130 220485.3866779396 + 3.882909815870 216866.0253336309 + 3.788608732746 214391.6432931617 + 3.730550825430 212817.1032854353 + 3.696722000381 211881.4214865052 + 3.678110201676 211360.8558013374 + 3.668455227151 211089.1864073392 + 3.663735774490 210955.9870230498 + 3.661562120613 210894.5494284477 + 3.660618431956 210867.8587634433 + 3.660231942137 210856.9244231619 + 3.660082468615 210852.6950994188 + 3.660027809381 210851.1484394443 + 3.660008879195 210850.6127597947 + 3.660002654426 210850.4366024948 + 3.660000717358 210850.3817799928 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156744 210850.3659129504 + 3.660000154532 210850.3658495047 + 3.660000145471 210850.3655917101 + 3.660000109666 210850.3645762168 + 3.659999974409 210850.3607451957 + 3.659999487561 210850.3469632992 + 3.659997820433 210850.2997806520 + 3.659992396378 210850.1462861781 + 3.659975650249 210849.6724103626 + 3.659926649709 210848.2858223802 + 3.659790926362 210844.4450949907 + 3.659435485500 210834.3857647435 + 3.658556331150 210809.4983993464 + 3.656504587345 210751.3811481759 + 3.651990371584 210623.3352428383 + 3.642632742391 210357.1284093477 + 3.624364549265 209834.4030254597 + 3.590782192056 208862.9753391691 + 3.532639206170 207148.6473697375 + 3.437768945900 204261.8666956352 + 3.291702086844 199595.2046712351 + 3.184983719789 196011.0859597106 + 4.184642604056 224116.8022429978 + 4.073072419655 221551.3388379678 + 3.917183554464 217740.2327000054 + 3.813436108406 215053.0017478373 + 3.747493082967 213280.6512364412 + 3.707589247538 212183.4754556610 + 3.684654152104 211544.3569748305 + 3.672153139471 211193.3686951724 + 3.665697229912 211011.3784493307 + 3.662539419605 210922.1794696245 + 3.661076337064 210880.8112124623 + 3.660433961528 210862.6400748926 + 3.660166514201 210855.0731968408 + 3.660060832523 210852.0828875716 + 3.660021154489 210850.9601272581 + 3.660006978572 210850.5589768605 + 3.660002141362 210850.4220840172 + 3.660000566654 210850.3775156340 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156714 210850.3659120564 + 3.660000154434 210850.3658466236 + 3.660000145626 210850.3655958939 + 3.660000112663 210850.3646608048 + 3.659999994337 210850.3613089284 + 3.659999588131 210850.3498091395 + 3.659998256401 210850.3121175448 + 3.659994091501 210850.1942536442 + 3.659981679189 210849.8430118434 + 3.659946465391 210848.8465532470 + 3.659851459919 210846.1581069774 + 3.659607935759 210839.2664595632 + 3.659015414769 210822.4954199839 + 3.657648051445 210783.7768649788 + 3.654657272575 210699.0114617256 + 3.648460444315 210523.0387660496 + 3.636302016661 210176.4355340127 + 3.613716511984 209527.8664933450 + 3.573993265029 208372.1985848166 + 3.507823614101 206404.3332321126 + 3.403359429563 203186.9957480712 + 3.246867701481 198107.6550552148 + 3.134979687369 194279.8723462663 + 4.184642604056 224116.8022429970 + 4.184642604056 224116.8022429956 + 4.073072419655 221551.3388379673 + 3.917183554464 217740.2327000052 + 3.813436108406 215053.0017478373 + 3.747493082967 213280.6512364412 + 3.707589247538 212183.4754556610 + 3.684654152104 211544.3569748305 + 3.672153139471 211193.3686951724 + 3.665697229912 211011.3784493307 + 3.662539419605 210922.1794696245 + 3.661076337159 210880.8112118409 + 3.660433961548 210862.6400747631 + 3.660166514205 210855.0731968166 + 3.660060832523 210852.0828875676 + 3.660021154489 210850.9601272573 + 3.660006978572 210850.5589768605 + 3.660002141362 210850.4220840172 + 3.660000566654 210850.3775156340 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156714 210850.3659120564 + 3.660000154434 210850.3658466236 + 3.660000145626 210850.3655958939 + 3.660000112663 210850.3646608048 + 3.659999994337 210850.3613089284 + 3.659999588131 210850.3498091394 + 3.659998256401 210850.3121175448 + 3.659994091501 210850.1942536442 + 3.659981679189 210849.8430118434 + 3.659946465391 210848.8465532470 + 3.659851459919 210846.1581069774 + 3.659607935759 210839.2664595632 + 3.659015414769 210822.4954199839 + 3.657648051445 210783.7768649788 + 3.654657272575 210699.0114617256 + 3.648460444315 210523.0387660496 + 3.636302016661 210176.4355340127 + 3.613716511984 209527.8664933450 + 3.573993265029 208372.1985848166 + 3.507823614101 206404.3332321125 + 3.403359429563 203186.9957480708 + 3.246867701481 198107.6550552138 + 3.134979687369 194279.8723462637 + 4.234235195236 225214.8338316264 + 4.117726052684 222594.0836656437 + 3.951963930203 218613.8564460999 + 3.839193908214 215731.6342169968 + 3.765573827246 213771.6412598537 + 3.719592298341 212515.4766853713 + 3.692179544669 211754.7500313196 + 3.676605946005 211318.6025299371 + 3.668183600452 211081.5274289972 + 3.663850063087 210959.2158321229 + 3.661729012426 210899.2686364976 + 3.660741297985 210871.3344575705 + 3.660303513119 210858.9494220375 + 3.660118713374 210853.7206773318 + 3.660044361399 210851.6168167823 + 3.660015820075 210850.8091788760 + 3.660005351220 210850.5129255436 + 3.660001666785 210850.4086511385 + 3.660000420204 210850.3733661729 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156764 210850.3659134678 + 3.660000154533 210850.3658493683 + 3.660000146440 210850.3656188772 + 3.660000117530 210850.3647984945 + 3.660000018130 210850.3619822808 + 3.659999690254 210850.3526992265 + 3.659998654006 210850.3233693125 + 3.659995519133 210850.2346524916 + 3.659986449554 210849.9780000880 + 3.659961377680 210849.2685298643 + 3.659895209043 210847.3961194122 + 3.659728625107 210842.6820077723 + 3.659328861547 210831.3679055437 + 3.658415025508 210805.4974134173 + 3.656426298299 210749.1625510903 + 3.652307975567 210632.3520688637 + 3.644195432110 210401.6569986704 + 3.628996904802 209967.3329898022 + 3.601917492213 209186.5956040696 + 3.556025769488 207843.1631832210 + 3.482022821626 205622.3885817347 + 3.368396057691 202079.4615291346 + 3.202083899097 196595.4807747692 + 3.085348149833 192528.3637911367 + 4.234235195236 225214.8338316258 + 4.234235195236 225214.8338316254 + 4.117726052684 222594.0836656431 + 3.951963930203 218613.8564460997 + 3.839193908214 215731.6342169967 + 3.765573827246 213771.6412598536 + 3.719592298341 212515.4766853713 + 3.692179544669 211754.7500313196 + 3.676605946005 211318.6025299372 + 3.668183600452 211081.5274289972 + 3.663850063087 210959.2158321229 + 3.661729012608 210899.2686353063 + 3.660741298028 210871.3344572908 + 3.660303513128 210858.9494219783 + 3.660118713376 210853.7206773205 + 3.660044361399 210851.6168167804 + 3.660015820075 210850.8091788756 + 3.660005351220 210850.5129255436 + 3.660001666785 210850.4086511384 + 3.660000420204 210850.3733661729 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156764 210850.3659134679 + 3.660000154533 210850.3658493683 + 3.660000146440 210850.3656188772 + 3.660000117530 210850.3647984945 + 3.660000018130 210850.3619822808 + 3.659999690254 210850.3526992265 + 3.659998654006 210850.3233693125 + 3.659995519133 210850.2346524916 + 3.659986449554 210849.9780000880 + 3.659961377680 210849.2685298643 + 3.659895209043 210847.3961194122 + 3.659728625107 210842.6820077723 + 3.659328861547 210831.3679055437 + 3.658415025508 210805.4974134173 + 3.656426298299 210749.1625510903 + 3.652307975567 210632.3520688637 + 3.644195432110 210401.6569986704 + 3.628996904802 209967.3329898022 + 3.601917492213 209186.5956040696 + 3.556025769488 207843.1631832210 + 3.482022821626 205622.3885817346 + 3.368396057691 202079.4615291343 + 3.202083899097 196595.4807747683 + 3.085348149833 192528.3637911340 + 4.283481653679 226279.8844960287 + 4.162291803539 223613.4846007757 + 3.987153700469 219484.0326606386 + 3.865743431067 216423.1693786493 + 3.784656407168 214285.7021000106 + 3.732630253952 212874.1790926352 + 3.700634922249 211990.3419479194 + 3.681806348885 211464.5634387664 + 3.671215947236 211166.9804189471 + 3.665526548797 211006.5602921864 + 3.662608203094 210924.1237664024 + 3.661178935543 210883.7130171180 + 3.660510458459 210864.8042527963 + 3.660211763853 210856.3535193856 + 3.660084185777 210852.7437014077 + 3.660032061067 210851.2687586772 + 3.660011669998 210850.6917413266 + 3.660004023383 210850.4753497083 + 3.660001260680 210850.3971593253 + 3.660000233737 210850.3680814558 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156823 210850.3659151495 + 3.660000154781 210850.3658563989 + 3.660000147664 210850.3656535370 + 3.660000123235 210850.3649600025 + 3.660000042297 210850.3626663640 + 3.659999784288 210850.3553606568 + 3.659998993987 210850.3329907623 + 3.659996669978 210850.2672194665 + 3.659990114128 210850.0816983414 + 3.659972386885 210849.5800599400 + 3.659926471131 210848.2807623322 + 3.659812631788 210845.0593255494 + 3.659542637237 210837.4184139773 + 3.658930430889 210820.0896451989 + 3.657603945889 210782.5275907200 + 3.654858646149 210704.7222041797 + 3.649433309113 210550.6958618959 + 3.639197328069 210259.1338464107 + 3.620761312720 209730.8259064018 + 3.589060896309 208812.8158701095 + 3.537011811857 207279.0120782778 + 3.455375363331 204806.0859412345 + 3.332978791932 200941.6393767544 + 3.157373602729 195059.3116860377 + 3.036067490402 190756.1769074159 + 4.283481653679 226279.8844960281 + 4.283481653679 226279.8844960268 + 4.162291803539 223613.4846007752 + 3.987153700469 219484.0326606384 + 3.865743431067 216423.1693786493 + 3.784656407168 214285.7021000107 + 3.732630253952 212874.1790926352 + 3.700634922249 211990.3419479194 + 3.681806348885 211464.5634387664 + 3.671215947236 211166.9804189471 + 3.665526548797 211006.5602921864 + 3.662608203409 210924.1237643360 + 3.661178935625 210883.7130165801 + 3.660510458478 210864.8042526694 + 3.660211763857 210856.3535193582 + 3.660084185777 210852.7437014022 + 3.660032061067 210851.2687586762 + 3.660011669998 210850.6917413263 + 3.660004023383 210850.4753497082 + 3.660001260680 210850.3971593253 + 3.660000233737 210850.3680814558 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156823 210850.3659151495 + 3.660000154781 210850.3658563989 + 3.660000147664 210850.3656535370 + 3.660000123235 210850.3649600025 + 3.660000042297 210850.3626663640 + 3.659999784288 210850.3553606568 + 3.659998993987 210850.3329907623 + 3.659996669978 210850.2672194665 + 3.659990114128 210850.0816983414 + 3.659972386885 210849.5800599400 + 3.659926471131 210848.2807623322 + 3.659812631788 210845.0593255494 + 3.659542637237 210837.4184139773 + 3.658930430889 210820.0896451989 + 3.657603945889 210782.5275907200 + 3.654858646149 210704.7222041797 + 3.649433309113 210550.6958618959 + 3.639197328069 210259.1338464107 + 3.620761312720 209730.8259064017 + 3.589060896309 208812.8158701095 + 3.537011811857 207279.0120782778 + 3.455375363331 204806.0859412345 + 3.332978791932 200941.6393767541 + 3.157373602730 195059.3116860368 + 3.036067490402 190756.1769074133 + 4.332401498134 227313.2025017534 + 4.206755051351 224609.5771057174 + 4.022676762589 220348.5615683540 + 3.892972298568 217124.0626215597 + 3.804624963408 214819.1042199990 + 3.746611308229 213256.6087879975 + 3.709966472131 212249.3641245126 + 3.687737924720 211630.6537527515 + 3.674804959830 211267.9788579168 + 3.667593471898 211064.8847168864 + 3.663741396814 210956.1460468737 + 3.661770642536 210900.4457652388 + 3.660804898594 210873.1335557316 + 3.660351495455 210860.3069803756 + 3.660147478998 210854.5346139554 + 3.660059449812 210852.0437722561 + 3.660023002869 210851.0124386591 + 3.660008508558 210850.6022784674 + 3.660002964838 210850.4453929566 + 3.660000930294 210850.3878105026 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156929 210850.3659182306 + 3.660000155103 210850.3658655928 + 3.660000149065 210850.3656932709 + 3.660000129024 210850.3651240180 + 3.660000064714 210850.3633010918 + 3.659999865688 210850.3576647523 + 3.659999272338 210850.3408684523 + 3.659997569691 210850.2926804432 + 3.659992870261 210850.1596908511 + 3.659980402440 210849.8068785808 + 3.659948627089 210848.9077186247 + 3.659870879462 210846.7076392647 + 3.659688346845 210841.5421352001 + 3.659277356300 210829.9100664375 + 3.658390261907 210804.7962239009 + 3.656555433082 210752.8220035265 + 3.652919741765 210649.7168083021 + 3.646019529017 210453.5973005203 + 3.633477074584 210095.6501310948 + 3.611642179051 209467.9911955809 + 3.575232400615 208408.5385460388 + 3.517064092806 206682.3786318184 + 3.427994177038 203958.0447455142 + 3.297186435613 199775.3722519082 + 3.112753380125 193499.6097574340 + 2.987118959184 188962.9854184602 + 4.332401498134 227313.2025017528 + 4.332401498134 227313.2025017514 + 4.206755051352 224609.5771057170 + 4.022676762589 220348.5615683538 + 3.892972298568 217124.0626215596 + 3.804624963408 214819.1042199989 + 3.746611308229 213256.6087879975 + 3.709966472131 212249.3641245126 + 3.687737924720 211630.6537527515 + 3.674804959830 211267.9788579168 + 3.667593473519 211064.8847062642 + 3.663741397320 210956.1460435623 + 3.661770642680 210900.4457642967 + 3.660804898631 210873.1335554871 + 3.660351495464 210860.3069803175 + 3.660147479000 210854.5346139428 + 3.660059449812 210852.0437722535 + 3.660023002869 210851.0124386586 + 3.660008508558 210850.6022784673 + 3.660002964838 210850.4453929565 + 3.660000930294 210850.3878105026 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156929 210850.3659182306 + 3.660000155103 210850.3658655928 + 3.660000149065 210850.3656932709 + 3.660000129024 210850.3651240180 + 3.660000064714 210850.3633010918 + 3.659999865688 210850.3576647523 + 3.659999272338 210850.3408684523 + 3.659997569691 210850.2926804432 + 3.659992870261 210850.1596908511 + 3.659980402440 210849.8068785808 + 3.659948627089 210848.9077186247 + 3.659870879462 210846.7076392647 + 3.659688346845 210841.5421352001 + 3.659277356300 210829.9100664375 + 3.658390261907 210804.7962239009 + 3.656555433082 210752.8220035265 + 3.652919741765 210649.7168083021 + 3.646019529017 210453.5973005203 + 3.633477074584 210095.6501310948 + 3.611642179051 209467.9911955809 + 3.575232400615 208408.5385460388 + 3.517064092806 206682.3786318184 + 3.427994177038 203958.0447455141 + 3.297186435613 199775.3722519079 + 3.112753380125 193499.6097574331 + 2.987118959184 188962.9854184574 + 4.381011884924 228315.9311934843 + 4.251105457802 225582.5124893539 + 4.058472505247 221205.7329116318 + 3.920788231919 217831.4068894984 + 3.825380706976 215368.6510414836 + 3.761452668002 213660.0657736760 + 3.720120586109 212530.0501061571 + 3.694378352725 211816.0969921697 + 3.678953283703 211384.5257180820 + 3.670068411357 211134.6555721850 + 3.665151608488 210995.9749966511 + 3.662538266342 210922.1469752781 + 3.661204242890 210884.4287781699 + 3.660550162620 210865.9275009186 + 3.660242052340 210857.2105081259 + 3.660102560843 210853.2636446301 + 3.660041835874 210851.5453601212 + 3.660016399626 210850.8255829217 + 3.660006135847 210850.5351312566 + 3.660002135435 210850.4219158121 + 3.660000644309 210850.3797122084 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000157188 210850.3659261000 + 3.660000156997 210850.3659202287 + 3.660000155482 210850.3658764211 + 3.660000150492 210850.3657338212 + 3.660000134425 210850.3652771407 + 3.660000084317 210850.3638562998 + 3.659999933211 210850.3595762690 + 3.659999493249 210850.3471209184 + 3.659998257449 210850.3121438855 + 3.659994910802 210850.2174345345 + 3.659986178073 210849.9703144104 + 3.659964233259 210849.3493314573 + 3.659911153262 210847.8473011340 + 3.659787633456 210844.3519002203 + 3.659511221384 210836.5292820295 + 3.658916624575 210819.6988016837 + 3.657687515264 210784.8946482316 + 3.655246623501 210715.7234677065 + 3.650590573044 210583.5803887410 + 3.642060476381 210340.8144998761 + 3.627051586385 209911.5417110295 + 3.601686984011 209179.9117477475 + 3.560509846080 207975.5619135715 + 3.496279306884 206055.4811167333 + 3.399972589683 203080.3901243211 + 3.261082230992 198582.1158149350 + 3.068235342154 191916.7190411076 + 2.938486092434 187148.5073323527 + 4.381011884924 228315.9311934838 diff --git a/mytest/i2.prn b/mytest/i2.prn index 656beb5c..c30c746e 100644 --- a/mytest/i2.prn +++ b/mytest/i2.prn @@ -14,13 +14,13 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 0.0000e+00 1.5000e-01 7.0000e+00 1.2341e+01 1.9128e-06 9.9645e-01 9.9645e+00 9.9645e+00 -1.3889e-12 4.5000e-01 6.9998e+00 1.2332e+01 1.7634e-06 9.8121e-01 9.8121e+00 9.8121e+00 -3.4343e-12 - 7.5000e-01 6.9992e+00 1.2322e+01 1.6033e-06 9.3148e-01 9.3148e+00 9.3148e+00 -1.6366e-11 + 7.5000e-01 6.9992e+00 1.2322e+01 1.6033e-06 9.3148e-01 9.3148e+00 9.3148e+00 -1.6367e-11 1.0500e+00 6.9999e+00 1.2310e+01 1.4352e-06 8.1427e-01 8.1427e+00 8.1427e+00 -5.3797e-11 1.3500e+00 7.0014e+00 1.2293e+01 1.2534e-06 6.1515e-01 6.1514e+00 6.1514e+00 -4.7451e-10 1.6500e+00 6.9997e+00 1.2279e+01 1.0819e-06 3.7796e-01 3.7796e+00 3.7796e+00 2.6409e-10 1.9500e+00 6.9946e+00 1.2276e+01 1.0001e-06 1.8385e-01 1.8385e+00 1.8385e+00 -3.3691e-12 2.2500e+00 6.9969e+00 1.2278e+01 1.0499e-06 7.0850e-02 7.0849e-01 7.0849e-01 1.7758e-11 - 2.5500e+00 6.9987e+00 1.2286e+01 1.1439e-06 2.1982e-02 2.1981e-01 2.1981e-01 8.2176e-12 + 2.5500e+00 6.9987e+00 1.2286e+01 1.1440e-06 2.1982e-02 2.1981e-01 2.1981e-01 8.2172e-12 2.8500e+00 6.9966e+00 1.2292e+01 1.1860e-06 6.3400e-03 6.3391e-02 6.3392e-02 1.7809e-11 3.0000e+00 6.9974e+00 4.0000e+00 0.0000e+00 1.0000e-06 1.0000e-06 1.0000e-06 0.0000e+00 @@ -39,11 +39,11 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 0.0000e+00 1.5000e-01 7.0000e+00 -1.6882e+00 0.0000e+00 9.9987e-01 9.9987e+00 9.9987e+00 -1.3323e-14 - 4.5000e-01 7.0000e+00 1.1473e+01 6.4640e-10 9.9730e-01 9.9730e+00 9.9730e+00 -2.7933e-13 - 7.5000e-01 6.9999e+00 1.1619e+01 2.4872e-09 9.7608e-01 9.7608e+00 9.7608e+00 -2.4629e-12 + 4.5000e-01 7.0000e+00 1.1473e+01 6.4639e-10 9.9730e-01 9.9730e+00 9.9730e+00 -2.7933e-13 + 7.5000e-01 6.9999e+00 1.1619e+01 2.4854e-09 9.7608e-01 9.7608e+00 9.7608e+00 -2.4629e-12 1.0500e+00 6.9997e+00 1.1325e+01 1.6450e-10 8.8349e-01 8.8349e+00 8.8349e+00 -1.1705e-11 1.3500e+00 6.9990e+00 1.1212e+01 5.7751e-11 6.5586e-01 6.5586e+00 6.5586e+00 -3.1990e-11 - 1.6500e+00 6.9982e+00 1.1240e+01 7.4648e-11 3.4414e-01 3.4414e+00 3.4414e+00 -5.0519e-11 + 1.6500e+00 6.9982e+00 1.1240e+01 7.4649e-11 3.4414e-01 3.4414e+00 3.4414e+00 -5.0519e-11 1.9500e+00 6.9976e+00 -1.2510e+00 0.0000e+00 1.1651e-01 1.1651e+00 1.1651e+00 -4.6893e-11 2.2500e+00 6.9974e+00 -1.4914e+00 0.0000e+00 2.3921e-02 2.3920e-01 2.3920e-01 -2.7074e-11 2.5500e+00 6.9974e+00 1.0922e+01 3.9455e-12 2.7016e-03 2.7007e-02 2.7007e-02 -9.8180e-12 diff --git a/mytest/i2_101.sel b/mytest/i2_101.sel index f5cd612f..1e7afec0 100644 --- a/mytest/i2_101.sel +++ b/mytest/i2_101.sel @@ -1,7 +1,7 @@ Mu SC 0.010001112419 0.1767168683 0.000001101730 0.1802865512 - 0.010001112442 0.1767168682 + 0.010001112442 0.1767168683 0.000001101730 0.1802865512 0.000001101730 0.1802865512 0.000001101730 0.1802865512 @@ -17,9 +17,9 @@ 0.009965604954 0.1767222042 0.009813248873 0.1767512636 0.009315943898 0.1768477286 - 0.008143804364 0.1770103381 - 0.006152556681 0.1773226253 - 0.003780677613 0.1779298599 + 0.008143804364 0.1770103382 + 0.006152556681 0.1773226254 + 0.003780677614 0.1779298599 0.001839560577 0.1787584254 0.000709593661 0.1792692092 0.000220913093 0.1796646089 diff --git a/mytest/i3.prn b/mytest/i3.prn index c8b71cd7..dedaf758 100644 --- a/mytest/i3.prn +++ b/mytest/i3.prn @@ -12,16 +12,16 @@ 0.000000000000e+00 7.212898650267e+00 4.000000000000e+00 0.000000000000e+00 1.000000000000e+00 4.066826439039e-01 5.933173561843e-01 0.000000000000e+00 - 5.000000000000e-01 7.198923853101e+00 4.024786795544e+00 0.000000000000e+00 8.329852290272e-01 3.482789168426e-01 4.988681619078e-01 -4.584244095440e-10 - 1.500000000000e+00 7.159901644636e+00 4.095690803200e+00 0.000000000000e+00 5.281616515387e-01 2.394738755637e-01 3.252956074154e-01 -2.082456429520e-09 - 2.500000000000e+00 7.106371778185e+00 4.194569113667e+00 0.000000000000e+00 2.956781589622e-01 1.506156343128e-01 1.899825948979e-01 -2.584943925577e-09 - 3.500000000000e+00 7.039869911763e+00 4.318336948712e+00 0.000000000000e+00 1.461030249910e-01 8.653270695134e-02 9.955949975799e-02 -2.718311797878e-09 - 4.500000000000e+00 6.963282260672e+00 4.460897866027e+00 0.000000000000e+00 6.393924285253e-02 4.543732145680e-02 4.706861442593e-02 -2.674012344883e-09 - 5.500000000000e+00 6.882503174492e+00 4.608878454503e+00 0.000000000000e+00 2.491648131473e-02 2.184093504432e-02 2.021831851368e-02 -2.674103050104e-09 - 6.500000000000e+00 6.812149683577e+00 4.728062770297e+00 1.204607994837e-37 8.699604204960e-03 9.629660763603e-03 7.946189892015e-03 -2.798773768298e-09 - 7.500000000000e+00 6.779897731169e+00 4.754299084382e+00 1.139687106233e-37 2.736995425320e-03 3.889698838496e-03 2.867056914979e-03 -2.232871554320e-09 - 8.500000000000e+00 6.817033159254e+00 4.615948533890e+00 0.000000000000e+00 7.716932753815e-04 1.403394512777e-03 9.328326332111e-04 -3.835866069224e-10 - 9.500000000000e+00 6.950895343386e+00 4.245036848197e+00 0.000000000000e+00 1.551773726283e-04 3.415381752591e-04 2.096773295256e-04 1.997155552047e-09 + 5.000000000000e-01 7.198923853133e+00 4.024786795448e+00 0.000000000000e+00 8.329852290293e-01 3.482789168488e-01 4.988681619045e-01 -4.584218560311e-10 + 1.500000000000e+00 7.159901644767e+00 4.095690802814e+00 0.000000000000e+00 5.281616515431e-01 2.394738755782e-01 3.252956074062e-01 -2.082456984631e-09 + 2.500000000000e+00 7.106371778549e+00 4.194569112589e+00 0.000000000000e+00 2.956781589660e-01 1.506156343399e-01 1.899825948771e-01 -2.584943259443e-09 + 3.500000000000e+00 7.039869913732e+00 4.318336942930e+00 0.000000000000e+00 1.461030249933e-01 8.653270702705e-02 9.955949968532e-02 -2.718311242766e-09 + 4.500000000000e+00 6.963282258185e+00 4.460897873364e+00 0.000000000000e+00 6.393924285363e-02 4.543732140431e-02 4.706861448190e-02 -2.674017562931e-09 + 5.500000000000e+00 6.882503178846e+00 4.608878441568e+00 0.000000000000e+00 2.491648131517e-02 2.184093509429e-02 2.021831846327e-02 -2.674099497391e-09 + 6.500000000000e+00 6.812149702427e+00 4.728062711803e+00 1.204607554990e-37 8.699604205112e-03 9.629660874289e-03 7.946189759504e-03 -2.798770659673e-09 + 7.500000000000e+00 6.779897745895e+00 4.754299043671e+00 1.139686833464e-37 2.736995425366e-03 3.889698855715e-03 2.867056895840e-03 -2.232870222052e-09 + 8.500000000000e+00 6.817033113853e+00 4.615948693378e+00 0.000000000000e+00 7.716932753943e-04 1.403394457018e-03 9.328326989667e-04 -3.835978201749e-10 + 9.500000000000e+00 6.950895327546e+00 4.245037065642e+00 0.000000000000e+00 1.551773726308e-04 3.415381330120e-04 2.096773891986e-04 1.997155107958e-09 1.000000000000e+01 6.997375705926e+00 4.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 @@ -38,14 +38,14 @@ 0.000000000000e+00 7.212898650241e+00 4.000000000000e+00 0.000000000000e+00 1.000000000000e+00 4.066826439057e-01 5.933173560943e-01 0.000000000000e+00 - 5.000000000000e-01 7.211497057238e+00 3.998470979365e+00 0.000000000000e+00 8.369182663984e-01 3.403601333523e-01 4.965581330464e-01 1.082716138967e-10 - 1.500000000000e+00 7.208377363694e+00 3.995338359328e+00 0.000000000000e+00 5.367366224626e-01 2.182814687259e-01 3.184551537365e-01 3.073983290136e-10 - 2.500000000000e+00 7.204962022016e+00 3.992728939005e+00 0.000000000000e+00 3.028103645646e-01 1.231477196884e-01 1.796626448761e-01 4.619842286502e-10 - 3.500000000000e+00 7.201197254998e+00 3.991957273727e+00 0.000000000000e+00 1.486238895313e-01 6.044275637808e-02 8.818113315318e-02 5.621056953231e-10 - 4.500000000000e+00 7.196266750931e+00 3.996107112311e+00 0.000000000000e+00 6.283433746837e-02 2.555363452141e-02 3.728070294696e-02 6.124498685978e-10 - 5.500000000000e+00 7.186960685811e+00 4.014176020621e+00 0.000000000000e+00 2.266274478007e-02 9.216545003003e-03 1.344619977707e-02 6.190501444792e-10 - 6.500000000000e+00 7.163357865893e+00 4.072454967280e+00 0.000000000000e+00 6.902416412881e-03 2.807092959231e-03 4.095323453653e-03 5.672688985214e-10 - 7.500000000000e+00 7.108495381517e+00 4.214687965009e+00 0.000000000000e+00 1.754442047624e-03 7.135011186578e-04 1.040940928968e-03 4.060380920379e-10 + 5.000000000000e-01 7.211497057151e+00 3.998470979627e+00 0.000000000000e+00 8.369182663984e-01 3.403601333381e-01 4.965581330606e-01 1.082713918521e-10 + 1.500000000000e+00 7.208377363829e+00 3.995338358920e+00 0.000000000000e+00 5.367366224626e-01 2.182814687401e-01 3.184551537222e-01 3.073983290136e-10 + 2.500000000000e+00 7.204962022255e+00 3.992728938283e+00 0.000000000000e+00 3.028103645646e-01 1.231477197026e-01 1.796626448618e-01 4.619844506948e-10 + 3.500000000000e+00 7.201197255482e+00 3.991957272262e+00 0.000000000000e+00 1.486238895313e-01 6.044275639229e-02 8.818113313897e-02 5.621056953231e-10 + 4.500000000000e+00 7.196266749805e+00 3.996107115728e+00 0.000000000000e+00 6.283433746837e-02 2.555363450720e-02 3.728070296117e-02 6.124496465532e-10 + 5.500000000000e+00 7.186960682834e+00 4.014176029696e+00 0.000000000000e+00 2.266274478007e-02 9.216544988792e-03 1.344619979128e-02 6.190501444792e-10 + 6.500000000000e+00 7.163357874313e+00 4.072454941193e+00 0.000000000000e+00 6.902416412881e-03 2.807092973442e-03 4.095323439442e-03 5.672693426106e-10 + 7.500000000000e+00 7.108495381517e+00 4.214687965009e+00 0.000000000000e+00 1.754442047624e-03 7.135011186578e-04 1.040940928968e-03 4.060383140825e-10 8.500000000000e+00 7.039477791210e+00 4.393268165882e+00 0.000000000000e+00 3.659964758760e-04 1.488444231179e-04 2.171520527585e-04 1.663693627307e-10 9.500000000000e+00 7.004957044699e+00 4.481650568510e+00 0.000000000000e+00 5.368253842461e-05 2.183175229133e-05 3.185078613339e-05 3.112332613853e-11 1.000000000000e+01 6.997375705860e+00 4.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 0.000000000000e+00 diff --git a/mytest/i3_101.sel b/mytest/i3_101.sel index 80a89960..8c39bcf0 100644 --- a/mytest/i3_101.sel +++ b/mytest/i3_101.sel @@ -1,7 +1,7 @@ Mu SC - 0.001410196335 114.8523511978 + 0.001410196335 114.8523519351 0.000000100644 0.0547821299 - 0.001410196335 114.8523511978 + 0.001410196335 114.8523519351 0.000000100644 0.0547821299 0.000000100644 0.0547821299 0.000000100644 0.0547821299 @@ -13,21 +13,21 @@ 0.000000100644 0.0547821299 0.000000100644 0.0547821299 0.000000100644 0.0547821299 - 0.001410196335 114.8523511979 - 0.001208128469 98.6917542565 - 0.000831318299 68.3588388220 - 0.000523149695 43.3169330774 - 0.000300620886 25.0625689401 - 0.000157799345 13.2450536895 - 0.000075772430 6.4088319608 - 0.000033339697 2.8531974350 - 0.000013436508 1.1781049157 - 0.000004862483 0.4512425332 - 0.000001232042 0.1387148783 + 0.001410196335 114.8523519351 + 0.001208128469 98.6917548435 + 0.000831318299 68.3588391601 + 0.000523149695 43.3169332497 + 0.000300620886 25.0625690223 + 0.000157799345 13.2450537119 + 0.000075772430 6.4088319770 + 0.000033339697 2.8531974526 + 0.000013436508 1.1781049169 + 0.000004862483 0.4512425274 + 0.000001232042 0.1387148706 0.000000100644 0.0547821299 - 0.001410196335 114.8523511981 + 0.001410196335 114.8523519353 0.000000100644 0.0547821299 - 0.001410196335 114.8523511981 + 0.001410196335 114.8523519353 0.000000100644 0.0547821299 0.000000100644 0.0547821299 0.000000100644 0.0547821299 @@ -39,14 +39,14 @@ 0.000000100644 0.0547821299 0.000000100644 0.0547821299 0.000000100644 0.0547821299 - 0.001410196335 114.8523511981 - 0.001180322851 96.4405264339 - 0.000757115075 62.2981385477 - 0.000427243538 35.4144063440 - 0.000209785010 17.5164012025 - 0.000088781401 7.4701973816 - 0.000032117307 2.7328459258 - 0.000009880269 0.8641762751 + 0.001410196335 114.8523519353 + 0.001180322851 96.4405269985 + 0.000757115075 62.2981388415 + 0.000427243538 35.4144064700 + 0.000209785010 17.5164012471 + 0.000088781401 7.4701973920 + 0.000032117307 2.7328459268 + 0.000009880269 0.8641762773 0.000002602898 0.2506654285 0.000000626566 0.0856184693 0.000000178043 0.0541343607 diff --git a/mytest/i4.prn b/mytest/i4.prn index b82812e1..0c047809 100644 --- a/mytest/i4.prn +++ b/mytest/i4.prn @@ -12,16 +12,16 @@ 0.0000e+00 2.0000e+00 1.0000e+00 0.0000e+00 7.0000e+00 4.0000e+00 -8.3267e-16 - 2.0000e-03 1.8726e+00 9.3632e-01 0.0000e+00 6.9991e+00 1.1169e+01 1.9574e-11 - 6.0000e-03 1.6138e+00 8.0692e-01 0.0000e+00 7.0006e+00 1.1178e+01 2.6544e-11 - 1.0000e-02 1.3610e+00 6.8050e-01 0.0000e+00 7.0020e+00 1.1144e+01 -1.7473e-12 - 1.4000e-02 1.1201e+00 5.6007e-01 0.0000e+00 7.0014e+00 1.1171e+01 -1.7622e-12 - 1.8000e-02 8.9614e-01 4.4807e-01 0.0000e+00 6.9994e+00 1.1158e+01 -1.5722e-12 - 2.2000e-02 6.9216e-01 3.4608e-01 0.0000e+00 6.9917e+00 1.1159e+01 -1.2448e-12 - 2.6000e-02 5.0916e-01 2.5458e-01 0.0000e+00 6.9821e+00 1.1111e+01 -9.2562e-13 - 3.0000e-02 3.4564e-01 1.7282e-01 0.0000e+00 6.9705e+00 1.1169e+01 -6.1207e-13 - 3.4000e-02 1.9766e-01 9.8832e-02 0.0000e+00 6.9541e+00 1.1160e+01 -2.5319e-13 - 3.8000e-02 5.9586e-02 2.9793e-02 0.0000e+00 6.9535e+00 1.1094e+01 1.2983e-14 + 2.0000e-03 1.8726e+00 9.3632e-01 1.6511e-14 6.9991e+00 -2.0771e+00 1.9683e-11 + 6.0000e-03 1.6138e+00 8.0692e-01 8.3028e-14 7.0006e+00 -2.1686e+00 2.6758e-11 + 1.0000e-02 1.3610e+00 6.8050e-01 1.4145e-13 7.0020e+00 -2.2016e+00 -2.0390e-12 + 1.4000e-02 1.1201e+00 5.6007e-01 1.7174e-13 7.0014e+00 -2.2147e+00 -2.0607e-12 + 1.8000e-02 8.9614e-01 4.4807e-01 1.6225e-13 6.9994e+00 -2.2132e+00 -1.7982e-12 + 2.2000e-02 6.9216e-01 3.4608e-01 1.2977e-13 6.9917e+00 -2.1970e+00 -1.4305e-12 + 2.6000e-02 5.0916e-01 2.5458e-01 9.9069e-14 6.9821e+00 -2.1776e+00 -9.7666e-13 + 3.0000e-02 3.4564e-01 1.7282e-01 5.5758e-14 6.9705e+00 -2.1416e+00 -6.1290e-13 + 3.4000e-02 1.9766e-01 9.8832e-02 1.9741e-14 6.9541e+00 -2.0801e+00 -2.5398e-13 + 3.8000e-02 5.9586e-02 2.9793e-02 2.0535e-16 6.9535e+00 -1.8668e+00 -1.9131e-14 4.0000e-02 0.0000e+00 0.0000e+00 0.0000e+00 6.9974e+00 4.0000e+00 2.1176e-22 @@ -38,14 +38,14 @@ 0.0000e+00 2.0000e+00 1.0000e+00 0.0000e+00 7.0000e+00 1.1534e+01 -7.7716e-16 - 2.0000e-03 1.8021e+00 9.0104e-01 0.0000e+00 7.0253e+00 1.1497e+01 6.6613e-15 - 6.0000e-03 1.4182e+00 7.0910e-01 0.0000e+00 7.0725e+00 1.1425e+01 2.0373e-14 - 1.0000e-02 1.0681e+00 5.3404e-01 0.0000e+00 7.1121e+00 1.1358e+01 3.0920e-14 - 1.4000e-02 7.6771e-01 3.8386e-01 0.0000e+00 7.1414e+00 1.1304e+01 3.6249e-14 - 1.8000e-02 5.2536e-01 2.6268e-01 0.0000e+00 7.1590e+00 1.1264e+01 3.4583e-14 - 2.2000e-02 3.4134e-01 1.7067e-01 0.0000e+00 7.1645e+00 1.1242e+01 2.6729e-14 - 2.6000e-02 2.0955e-01 1.0477e-01 0.0000e+00 7.1586e+00 1.1232e+01 1.4932e-14 - 3.0000e-02 1.1978e-01 5.9892e-02 0.0000e+00 7.1422e+00 1.1240e+01 4.1772e-15 - 3.4000e-02 6.0047e-02 3.0023e-02 0.0000e+00 7.1147e+00 1.1263e+01 2.4772e-15 - 3.8000e-02 1.8067e-02 9.0333e-03 0.0000e+00 7.0648e+00 1.1312e+01 9.5757e-16 + 2.0000e-03 1.8021e+00 9.0104e-01 0.0000e+00 7.0253e+00 1.1497e+01 2.4980e-15 + 6.0000e-03 1.4182e+00 7.0910e-01 0.0000e+00 7.0725e+00 1.1426e+01 6.6058e-15 + 1.0000e-02 1.0681e+00 5.3404e-01 0.0000e+00 7.1121e+00 1.1359e+01 1.1213e-14 + 1.4000e-02 7.6771e-01 3.8386e-01 0.0000e+00 7.1414e+00 1.1304e+01 1.3378e-14 + 1.8000e-02 5.2536e-01 2.6268e-01 0.0000e+00 7.1590e+00 1.1264e+01 1.2573e-14 + 2.2000e-02 3.4134e-01 1.7067e-01 0.0000e+00 7.1645e+00 1.1236e+01 7.7438e-15 + 2.6000e-02 2.0955e-01 1.0477e-01 0.0000e+00 7.1586e+00 1.1227e+01 -1.9429e-16 + 3.0000e-02 1.1978e-01 5.9892e-02 0.0000e+00 7.1422e+00 1.1232e+01 -6.3560e-15 + 3.4000e-02 6.0047e-02 3.0023e-02 0.0000e+00 7.1147e+00 1.1258e+01 -3.5943e-15 + 3.8000e-02 1.8067e-02 9.0333e-03 0.0000e+00 7.0648e+00 1.1311e+01 -1.0027e-15 4.0000e-02 0.0000e+00 0.0000e+00 0.0000e+00 6.9974e+00 4.0000e+00 2.1176e-22 diff --git a/mytest/i4_101.sel b/mytest/i4_101.sel index 984e9e3f..27d80758 100644 --- a/mytest/i4_101.sel +++ b/mytest/i4_101.sel @@ -1,7 +1,7 @@ Mu SC - 1.482359875372 91784.0480850104 + 1.482359875372 91784.0540586004 0.000000100644 0.0547821292 - 1.482359875372 91784.0480850104 + 1.482359875372 91784.0540586004 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000100644 0.0547821292 @@ -13,21 +13,21 @@ 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000100644 0.0547821292 - 1.482359875372 91784.0480850104 - 1.404351889415 88320.8651957159 - 1.242780006936 80626.9077765532 - 1.080242287088 72179.6775698014 - 0.920030241013 63169.4386946414 - 0.765031712267 53826.0705936949 - 0.617288259581 44374.3704346730 - 0.477481903923 34973.2266255041 - 0.344292968107 25640.3225924842 - 0.213342874984 16145.6011914045 - 0.074094643417 5738.6985191005 + 1.482359875372 91784.0540586005 + 1.404351890285 88320.8710006948 + 1.242780009444 80626.9131618144 + 1.080242290848 72179.6824293195 + 0.920030245575 63169.4429363488 + 0.765031717164 53826.0741519509 + 0.617288264378 44374.3732776318 + 0.477481908237 34973.2287547201 + 0.344292971617 25640.3240350495 + 0.213342877393 16145.6019889554 + 0.074094644335 5738.6987289184 0.000000100644 0.0547821292 - 1.482359875372 91784.0480850076 + 1.482359875372 91784.0540585977 0.000000100644 0.0547821292 - 1.482359875372 91784.0480850064 + 1.482359875372 91784.0540585964 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000100644 0.0547821292 @@ -39,15 +39,15 @@ 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000100644 0.0547821292 - 1.482359875372 91784.0480850064 - 1.360734558398 86313.1177314865 - 1.117477915833 74177.1024117329 - 0.884573632470 61085.5099837286 - 0.672868198348 47990.3788651638 - 0.490202769733 35846.0016667736 - 0.340651778198 25380.3883287880 - 0.224369378934 16956.2890094983 - 0.137894141689 10546.1255968258 - 0.074610110887 5777.8298607007 - 0.024719008980 1956.6826848557 + 1.482359875372 91784.0540585964 + 1.360734558398 86313.1233703394 + 1.117477915833 74177.1072142825 + 0.884573632470 61085.5137990651 + 0.672868198348 47990.3816687110 + 0.490202769733 35846.0035622344 + 0.340651778198 25380.3895040287 + 0.224369378934 16956.2896744670 + 0.137894141689 10546.1259340558 + 0.074610110887 5777.8300021882 + 0.024719008980 1956.6827139553 0.000000100644 0.0547821292 diff --git a/mytest/i5.prn b/mytest/i5.prn index ea60c773..9229094f 100644 --- a/mytest/i5.prn +++ b/mytest/i5.prn @@ -8,13 +8,13 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 -2.6107e-19 - 1.0000e+00 6.9986e+00 1.1109e+01 2.2458e-11 3.8259e-01 3.8259e+00 3.8259e+00 -1.6604e-17 - 2.0000e+00 6.9984e+00 1.1230e+01 6.8002e-11 6.3649e-02 6.3649e-01 6.3649e-01 4.9096e-19 + 1.0000e+00 6.9986e+00 1.1109e+01 2.2458e-11 3.8259e-01 3.8259e+00 3.8259e+00 9.8782e-18 + 2.0000e+00 6.9984e+00 1.1230e+01 6.8002e-11 6.3649e-02 6.3649e-01 6.3649e-01 7.6802e-19 3.0000e+00 6.9974e+00 4.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 -2.1176e-22 - 4.0000e+00 6.9978e+00 1.1123e+01 2.5198e-11 2.8356e-01 2.8356e+00 2.8356e+00 1.3893e-18 - 5.0000e+00 6.9973e+00 1.1253e+01 8.3450e-11 4.7270e-02 4.7270e-01 4.7270e-01 2.1282e-19 - 6.0000e+00 6.9984e+00 1.1146e+01 3.1419e-11 2.4023e-01 2.4023e+00 2.4023e+00 -4.9011e-18 - 8.0000e+00 6.9981e+00 1.1135e+01 2.8324e-11 2.6271e-01 2.6271e+00 2.6271e+00 2.9830e-18 + 4.0000e+00 6.9978e+00 1.1123e+01 2.5198e-11 2.8356e-01 2.8356e+00 2.8356e+00 5.7676e-18 + 5.0000e+00 6.9973e+00 1.1253e+01 8.3450e-11 4.7270e-02 4.7270e-01 4.7270e-01 -2.5462e-19 + 6.0000e+00 6.9984e+00 1.1146e+01 3.1419e-11 2.4023e-01 2.4023e+00 2.4023e+00 2.3747e-18 + 8.0000e+00 6.9981e+00 1.1135e+01 2.8324e-11 2.6271e-01 2.6271e+00 2.6271e+00 1.6622e-18 @@ -27,10 +27,10 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 -2.6107e-19 - 1.0000e+00 6.9980e+00 -3.3801e+00 0.0000e+00 2.5457e-01 2.5457e+00 2.5457e+00 -2.1332e-18 - 2.0000e+00 6.9974e+00 1.1273e+01 1.0080e-10 2.6726e-02 2.6726e-01 2.6726e-01 -6.4425e-19 + 1.0000e+00 6.9980e+00 -3.3794e+00 0.0000e+00 2.5457e-01 2.5457e+00 2.5457e+00 -9.0282e-19 + 2.0000e+00 6.9974e+00 1.1273e+01 1.0080e-10 2.6726e-02 2.6726e-01 2.6726e-01 -6.8492e-19 3.0000e+00 6.9974e+00 4.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 -2.1176e-22 - 4.0000e+00 6.9978e+00 -2.4389e+00 0.0000e+00 1.8363e-01 1.8363e+00 1.8363e+00 9.1089e-19 - 5.0000e+00 6.9974e+00 1.1352e+01 2.0850e-10 1.9058e-02 1.9058e-01 1.9058e-01 -4.3784e-19 - 6.0000e+00 6.9977e+00 1.1490e+01 7.4233e-10 1.5309e-01 1.5309e+00 1.5309e+00 7.7587e-19 - 8.0000e+00 6.9977e+00 -2.3780e+00 0.0000e+00 1.6864e-01 1.6864e+00 1.6864e+00 6.4152e-19 + 4.0000e+00 6.9978e+00 -2.3763e+00 0.0000e+00 1.8363e-01 1.8363e+00 1.8363e+00 8.0509e-19 + 5.0000e+00 6.9974e+00 1.1352e+01 2.0850e-10 1.9058e-02 1.9058e-01 1.9058e-01 -5.3399e-19 + 6.0000e+00 6.9977e+00 1.1491e+01 7.4588e-10 1.5309e-01 1.5309e+00 1.5309e+00 3.0783e-18 + 8.0000e+00 6.9977e+00 -2.3684e+00 0.0000e+00 1.6864e-01 1.6864e+00 1.6864e+00 6.9829e-19 diff --git a/mytest/i5_101.sel b/mytest/i5_101.sel index 155fd9d8..4d95b51d 100644 --- a/mytest/i5_101.sel +++ b/mytest/i5_101.sel @@ -18,7 +18,7 @@ 0.000000100644 0.0547821292 0.002835668838 0.0570737736 0.000472807804 0.0557486404 - 0.002402421414 0.0568759054 + 0.002402421415 0.0568759054 0.002627229345 0.0569810389 0.010000112418 0.0587955789 0.000000100644 0.0547821292 diff --git a/mytest/i6.prn b/mytest/i6.prn index 65622686..32a4cac4 100644 --- a/mytest/i6.prn +++ b/mytest/i6.prn @@ -8,13 +8,13 @@ 0.0000e+00 7.0000e+00 4.0000e+00 1.0000e-03 0.0000e+00 9.9878e-04 -3.9705e-22 - 1.0000e+00 7.0108e+00 1.1132e+01 9.8576e-07 2.7120e-04 5.3715e-04 -1.0479e-18 - 2.0000e+00 6.9705e+00 1.1230e+01 9.9177e-11 4.9315e-05 1.1111e-04 3.3908e-20 + 1.0000e+00 7.0108e+00 1.1203e+01 9.8576e-07 2.7120e-04 5.3715e-04 -1.0416e-18 + 2.0000e+00 6.9705e+00 1.1239e+01 9.9177e-11 4.9315e-05 1.1111e-04 3.5668e-20 3.0000e+00 6.9974e+00 -1.3744e+00 0.0000e+00 6.9165e-13 0.0000e+00 -5.2940e-22 - 4.0000e+00 6.9744e+00 1.1178e+01 1.1046e-09 2.1531e-04 4.4127e-04 2.3542e-19 - 5.0000e+00 6.9471e+00 1.1253e+01 1.6967e-14 3.5989e-05 9.5353e-05 1.9324e-19 - 6.0000e+00 6.9557e+00 1.1141e+01 6.6740e-13 1.8945e-04 3.9823e-04 3.6897e-19 - 8.0000e+00 6.9659e+00 1.1158e+01 6.8155e-13 2.0311e-04 4.2083e-04 1.6362e-19 + 4.0000e+00 6.9744e+00 1.1245e+01 1.1046e-09 2.1531e-04 4.4127e-04 2.2749e-19 + 5.0000e+00 6.9471e+00 1.1267e+01 1.6967e-14 3.5989e-05 9.5353e-05 2.0981e-19 + 6.0000e+00 6.9557e+00 1.1258e+01 6.6740e-13 1.8945e-04 3.9823e-04 3.8083e-19 + 8.0000e+00 6.9659e+00 1.1238e+01 6.8155e-13 2.0311e-04 4.2083e-04 1.5609e-19 @@ -24,10 +24,10 @@ 0.0000e+00 7.0000e+00 4.0000e+00 1.0000e-03 0.0000e+00 9.9878e-04 -3.9705e-22 - 1.0000e+00 6.9980e+00 1.1205e+01 2.6838e-07 1.2715e-04 2.5426e-04 6.9616e-21 - 2.0000e+00 6.9974e+00 1.1252e+01 4.9926e-12 1.3363e-05 2.6693e-05 3.8183e-20 + 1.0000e+00 6.9980e+00 1.1224e+01 2.6838e-07 1.2715e-04 2.5426e-04 7.5836e-21 + 2.0000e+00 6.9974e+00 1.1265e+01 4.9926e-12 1.3363e-05 2.6693e-05 3.3537e-20 3.0000e+00 6.9974e+00 -1.3744e+00 0.0000e+00 6.9165e-13 0.0000e+00 -5.2940e-22 - 4.0000e+00 6.9979e+00 1.1303e+01 2.6900e-10 9.1815e-05 1.8341e-04 7.1336e-21 - 5.0000e+00 6.9974e+00 1.1242e+01 6.2154e-16 9.5290e-06 1.9035e-05 4.3424e-20 - 6.0000e+00 6.9978e+00 1.1325e+01 1.4424e-13 7.6546e-05 1.5291e-04 6.6307e-21 - 8.0000e+00 6.9978e+00 1.1306e+01 3.0264e-13 8.4321e-05 1.6844e-04 7.3983e-21 + 4.0000e+00 6.9979e+00 1.1311e+01 2.6900e-10 9.1815e-05 1.8341e-04 8.5100e-21 + 5.0000e+00 6.9974e+00 1.1256e+01 6.2154e-16 9.5290e-06 1.9035e-05 3.9347e-20 + 6.0000e+00 6.9978e+00 1.1327e+01 1.4424e-13 7.6546e-05 1.5291e-04 6.8821e-21 + 8.0000e+00 6.9978e+00 1.1314e+01 3.0264e-13 8.4321e-05 1.6844e-04 8.3115e-21 diff --git a/mytest/i6_101.sel b/mytest/i6_101.sel index 54f7843f..ab7871b7 100644 --- a/mytest/i6_101.sel +++ b/mytest/i6_101.sel @@ -3,7 +3,7 @@ 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000100644 0.0547821292 - 0.000001599704 0.1757460172 + 0.000001599704 0.1757460173 0.000000100644 0.0547821292 0.000001100123 0.1801034252 0.000000100644 0.0547821288 @@ -14,13 +14,13 @@ 0.000000100644 0.0547821286 0.000000100644 0.0547821278 0.000001100123 0.1801034252 - 0.000000912245 0.1142834931 - 0.000000255044 0.0600846903 + 0.000000912245 0.1142834932 + 0.000000255044 0.0600846904 0.000000100644 0.0547821288 0.000000752101 0.1009583557 - 0.000000220992 0.0592767383 + 0.000000220992 0.0592767384 0.000000679172 0.0951567164 - 0.000000717614 0.0981866000 + 0.000000717614 0.0981865999 0.000001100123 0.1801034252 0.000000100644 0.0547821288 0.000000100644 0.0547821288 @@ -34,6 +34,6 @@ 0.000000140723 0.0533523939 0.000000100644 0.0547821288 0.000000376011 0.0681560108 - 0.000000129224 0.0533658086 - 0.000000330218 0.0645066204 + 0.000000129224 0.0533658083 + 0.000000330218 0.0645066205 0.000000353538 0.0663487273 diff --git a/mytest/i7.out b/mytest/i7.out index 7aaf7cfe..dd679a82 100644 --- a/mytest/i7.out +++ b/mytest/i7.out @@ -337,7 +337,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.916e-01 V. @@ -371,7 +371,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 5.000e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.094e-01 V. @@ -405,7 +405,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 2.500e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.272e-01 V. @@ -448,7 +448,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.000e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89134 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.324e-01 V. diff --git a/mytest/i7.prn b/mytest/i7.prn index 7c405e3d..3a33914c 100644 --- a/mytest/i7.prn +++ b/mytest/i7.prn @@ -8,13 +8,13 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 4.5924e-11 - 1.0000e+00 6.8324e+00 1.2849e+01 4.4278e-05 3.8329e-01 2.4692e+00 4.9590e+00 2.6028e-07 - 2.0000e+00 6.8300e+00 1.2830e+01 3.6132e-05 6.4150e-02 1.5028e-01 1.1934e+00 -9.3471e-07 + 1.0000e+00 6.8170e+00 1.2865e+01 4.4312e-05 3.8329e-01 2.3638e+00 4.9512e+00 2.3233e-06 + 2.0000e+00 6.8266e+00 1.2833e+01 3.6296e-05 6.4150e-02 1.3442e-01 1.1923e+00 -8.2114e-07 3.0000e+00 6.9970e+00 4.3000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 -1.9722e-17 - 4.0000e+00 6.8599e+00 1.2829e+01 4.7375e-05 2.7965e-01 1.4456e+00 4.1465e+00 -5.5480e-07 - 5.0000e+00 6.8570e+00 1.2809e+01 3.8218e-05 4.6906e-02 9.7013e-02 9.5554e-01 -2.0773e-06 - 6.0000e+00 6.8777e+00 1.2812e+01 4.7833e-05 2.3635e-01 1.2082e+00 3.8138e+00 -2.0229e-06 - 8.0000e+00 6.8671e+00 1.2825e+01 4.8748e-05 2.5878e-01 1.2862e+00 3.9871e+00 -1.0691e-06 + 4.0000e+00 6.8415e+00 1.2840e+01 4.4336e-05 2.7965e-01 1.3082e+00 4.1371e+00 -2.7217e-07 + 5.0000e+00 6.8527e+00 1.2812e+01 3.7912e-05 4.6906e-02 8.2392e-02 9.5465e-01 -1.9532e-06 + 6.0000e+00 6.8585e+00 1.2823e+01 4.4386e-05 2.3635e-01 1.0687e+00 3.8044e+00 -1.4381e-06 + 8.0000e+00 6.8481e+00 1.2834e+01 4.4333e-05 2.5878e-01 1.1452e+00 3.9772e+00 -7.5473e-07 @@ -29,10 +29,10 @@ 0.0000e+00 7.0000e+00 4.0000e+00 0.0000e+00 1.0000e+00 1.0000e+01 1.0000e+01 4.5924e-11 - 1.0000e+00 6.4930e+00 1.3197e+01 4.7961e-05 2.5457e-01 1.9577e-02 2.5457e+00 1.1929e-08 - 2.0000e+00 6.9051e+00 1.2721e+01 2.6446e-05 2.6726e-02 3.0033e-06 2.6726e-01 -3.9946e-08 + 1.0000e+00 6.4930e+00 1.3197e+01 4.8033e-05 2.5457e-01 1.9577e-02 2.5457e+00 1.2251e-08 + 2.0000e+00 6.9051e+00 1.2721e+01 2.6452e-05 2.6726e-02 3.0033e-06 2.6726e-01 -4.0064e-08 3.0000e+00 6.9970e+00 4.3000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 -1.9722e-17 - 4.0000e+00 6.5817e+00 1.3099e+01 4.4028e-05 1.8363e-01 1.3094e-04 1.8363e+00 2.8388e-08 - 5.0000e+00 6.9294e+00 1.2691e+01 2.5266e-05 1.9058e-02 3.9833e-09 1.9058e-01 -4.0146e-08 - 6.0000e+00 6.6279e+00 1.3035e+01 3.7131e-05 1.5309e-01 4.6609e-07 1.5309e+00 3.9217e-08 - 8.0000e+00 6.6036e+00 1.3076e+01 4.3542e-05 1.6864e-01 9.8412e-07 1.6864e+00 2.2593e-08 + 4.0000e+00 6.5817e+00 1.3099e+01 4.4067e-05 1.8363e-01 1.3094e-04 1.8363e+00 2.9894e-08 + 5.0000e+00 6.9294e+00 1.2691e+01 2.5277e-05 1.9058e-02 3.9833e-09 1.9058e-01 -4.0264e-08 + 6.0000e+00 6.6279e+00 1.3036e+01 3.7660e-05 1.5309e-01 4.6609e-07 1.5309e+00 4.2257e-08 + 8.0000e+00 6.6036e+00 1.3076e+01 4.3631e-05 1.6864e-01 9.8412e-07 1.6864e+00 2.3630e-08 diff --git a/mytest/i7_101.sel b/mytest/i7_101.sel index fdc2de9a..72270025 100644 --- a/mytest/i7_101.sel +++ b/mytest/i7_101.sel @@ -1,47 +1,47 @@ Mu SC 0.010000112418 0.0587955789 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.010000011940 456.3786701084 - 0.001000104161 122.9172139030 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.010000011940 456.3786722936 + 0.001000104161 122.9172143668 0.010000112441 0.0587955789 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 0.010000112441 0.0587955790 - 0.005389299515 168.4098186157 - 0.001964813892 144.0681590887 - 0.001000104161 122.9172139030 - 0.004720495946 196.1373092276 - 0.001827680913 147.6871115706 - 0.004459514602 200.5491659358 - 0.004591262806 199.9240066360 + 0.005382110110 173.0414143044 + 0.001963486523 144.7476654714 + 0.001000104161 122.9172143668 + 0.004710216237 202.0621862641 + 0.001826583389 148.3189045421 + 0.004449222165 206.5748980136 + 0.004580631445 206.0122677652 0.010000112418 0.0587955789 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.010000011940 456.3786701084 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.010000011940 456.3786722936 0.010000112441 0.0587955789 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 - 0.001000104161 122.9172139030 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 + 0.001000104161 122.9172143668 0.010000112441 0.0587955790 - 0.003291200253 210.1127289959 - 0.001240595588 132.2517850618 - 0.001000104161 122.9172139030 - 0.002652722622 186.6569385107 - 0.001171590647 129.5751057765 - 0.002377889399 176.1285807243 - 0.002517839653 181.4958224342 + 0.003291200415 210.1127451066 + 0.001240595529 132.2517799904 + 0.001000104161 122.9172143668 + 0.002652723375 186.6570103198 + 0.001171590589 129.5751006821 + 0.002377890919 176.1287249668 + 0.002517840171 181.4958721856 diff --git a/mytest/include.out b/mytest/include.out index 64292ee9..109a4451 100644 --- a/mytest/include.out +++ b/mytest/include.out @@ -137,7 +137,7 @@ Reaction 1. Specific Conductance (µS/cm, 10°C) = 86 Density (g/cm³) = 0.99974 Volume (L) = 1.00032 - Viscosity (mPa s) = 1.30622 + Viscosity (mPa s) = 1.30621 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 @@ -289,7 +289,7 @@ Reaction 1. Specific Conductance (µS/cm, 30°C) = 135 Density (g/cm³) = 0.99569 Volume (L) = 1.00439 - Viscosity (mPa s) = 0.79744 + Viscosity (mPa s) = 0.79745 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/include_101.sel b/mytest/include_101.sel index 5d135256..447eb902 100644 --- a/mytest/include_101.sel +++ b/mytest/include_101.sel @@ -1,5 +1,5 @@ Mu SC 0.000000100661 0.0546997340 - 0.001000056109 86.7030610901 - 0.001000085639 110.5059791928 - 0.001000125485 135.6129138315 + 0.001000056109 86.7036230192 + 0.001000085639 110.5062325135 + 0.001000125485 135.6125859210 diff --git a/mytest/initial_gas_101.sel b/mytest/initial_gas_101.sel index 0925ef4f..0a5196eb 100644 --- a/mytest/initial_gas_101.sel +++ b/mytest/initial_gas_101.sel @@ -1,4 +1,4 @@ Mu SC 0.000000100661 0.0546997340 - 0.013554106033 805.8714545539 - 0.013554106033 805.8714545539 + 0.013554106033 805.8714772463 + 0.013554106033 805.8714772463 diff --git a/mytest/is_101.sel b/mytest/is_101.sel index 4ab34c54..00ba3691 100644 --- a/mytest/is_101.sel +++ b/mytest/is_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.212332583365 11446.8708394438 - 0.001339338050 124.9188465242 - 0.002435609827 205.6421684685 + 0.212332583365 11446.8712093407 + 0.001339338050 124.9188021821 + 0.002435609827 205.6420283264 diff --git a/mytest/jgb2col_101.sel b/mytest/jgb2col_101.sel index 93470745..5e882aab 100644 --- a/mytest/jgb2col_101.sel +++ b/mytest/jgb2col_101.sel @@ -1,128 +1,128 @@ Mu SC - 0.211242782845 11374.0396925052 - 0.006073558432 443.2725604109 - 0.240830142986 13093.7770436382 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.240830142986 13093.7770436382 - 0.240830142986 13093.7770436388 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.240830142986 13093.7770436381 - 0.240830142986 13093.7770436388 - 0.240830142986 13093.7770436404 - 0.006488176916 469.7068603111 - 0.006488176916 469.7068603111 - 0.225741731391 12076.0311844133 - 0.240830142986 13093.7770436388 - 0.240830142986 13093.7770436404 - 0.240830142986 13093.7770436405 - 0.006488176916 469.7068603111 - 0.211242782845 11374.0396925103 - 0.240830142985 13093.7770438186 - 0.240830142986 13093.7770436403 - 0.240830142986 13093.7770436405 - 0.240830142986 13093.7770436404 - 0.211242782845 11374.0396925103 - 0.240830142986 13093.7770436444 - 0.240830142992 13093.7770439240 - 0.240830142986 13093.7770436419 - 0.240830142986 13093.7770436404 - 0.211242782845 11374.0396925103 - 0.240830142986 13093.7770436444 - 0.240830142986 13093.7770436455 - 0.240830142995 13093.7770439556 - 0.240830142986 13093.7770436437 - 0.211242782845 11374.0396925103 - 0.235543755493 12733.7792638595 - 0.240830142986 13093.7770436456 - 0.240830142986 13093.7770436485 - 0.240830142995 13093.7770439688 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.240830143109 13093.7770476335 - 0.240830142986 13093.7770436486 - 0.240830142986 13093.7770436503 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.240830142986 13093.7770436506 - 0.240830143109 13093.7770476363 - 0.240830142986 13093.7770436504 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.240830142986 13093.7770436506 - 0.240830142986 13093.7770436523 - 0.240830143109 13093.7770476359 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.240830142986 13093.7770436506 - 0.240830142986 13093.7770436523 - 0.240830142986 13093.7770436538 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.218264933170 11614.7430199446 - 0.240830142986 13093.7770436523 - 0.240830142986 13093.7770436538 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.240830142988 13093.7770436931 - 0.240830142986 13093.7770436538 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.240830142986 13093.7770436553 - 0.240830142988 13093.7770436968 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.240830142986 13093.7770436553 - 0.240830142986 13093.7770436588 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.229818464956 12345.5239601603 - 0.240830142986 13093.7770436588 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.240830142986 13093.7770436491 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.240830142986 13093.7770436584 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.240830142986 13093.7770436584 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.239107717263 12976.8358137398 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.211242782845 11374.0396925253 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.211242782845 11374.0396925253 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.211242782845 11374.0396925253 - 0.211242782845 11374.0396925103 - 0.211242782845 11374.0396925149 - 0.211242782845 11374.0396925195 - 0.211242782845 11374.0396925230 - 0.211242782845 11374.0396925253 + 0.211242782845 11374.0400594134 + 0.006073558432 443.2725662848 + 0.240830142986 13093.7775772181 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.240830142986 13093.7775772181 + 0.240830142986 13093.7775772188 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.240830142986 13093.7775772181 + 0.240830142986 13093.7775772188 + 0.240830142986 13093.7775772203 + 0.006488176916 469.7068668863 + 0.006488176916 469.7068668863 + 0.225741731391 12076.0315903792 + 0.240830142986 13093.7775772187 + 0.240830142986 13093.7775772203 + 0.240830142986 13093.7775772204 + 0.006488176916 469.7068668863 + 0.211242782845 11374.0400594185 + 0.240830142985 13093.7775773985 + 0.240830142986 13093.7775772203 + 0.240830142986 13093.7775772204 + 0.240830142986 13093.7775772204 + 0.211242782845 11374.0400594185 + 0.240830142986 13093.7775772243 + 0.240830142992 13093.7775775040 + 0.240830142986 13093.7775772218 + 0.240830142986 13093.7775772204 + 0.211242782845 11374.0400594185 + 0.240830142986 13093.7775772243 + 0.240830142986 13093.7775772254 + 0.240830142995 13093.7775775356 + 0.240830142986 13093.7775772236 + 0.211242782845 11374.0400594185 + 0.235543755493 12733.7797493966 + 0.240830142986 13093.7775772255 + 0.240830142986 13093.7775772285 + 0.240830142995 13093.7775775488 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.240830143109 13093.7775812134 + 0.240830142986 13093.7775772285 + 0.240830142986 13093.7775772303 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.240830142986 13093.7775772305 + 0.240830143109 13093.7775812162 + 0.240830142986 13093.7775772303 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.240830142986 13093.7775772305 + 0.240830142986 13093.7775772322 + 0.240830143109 13093.7775812159 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.240830142986 13093.7775772305 + 0.240830142986 13093.7775772322 + 0.240830142986 13093.7775772337 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.218264933170 11614.7433785817 + 0.240830142986 13093.7775772322 + 0.240830142986 13093.7775772337 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.240830142988 13093.7775772730 + 0.240830142986 13093.7775772337 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.240830142986 13093.7775772352 + 0.240830142988 13093.7775772768 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.240830142986 13093.7775772352 + 0.240830142986 13093.7775772388 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.229818464956 12345.5243972516 + 0.240830142986 13093.7775772388 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.240830142986 13093.7775772290 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.240830142986 13093.7775772384 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.240830142986 13093.7775772384 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.239107717263 12976.8363314314 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.211242782845 11374.0400594335 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.211242782845 11374.0400594335 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.211242782845 11374.0400594335 + 0.211242782845 11374.0400594185 + 0.211242782845 11374.0400594231 + 0.211242782845 11374.0400594277 + 0.211242782845 11374.0400594312 + 0.211242782845 11374.0400594335 diff --git a/mytest/jgbcol_101.sel b/mytest/jgbcol_101.sel index 689078f1..ad75dcd4 100644 --- a/mytest/jgbcol_101.sel +++ b/mytest/jgbcol_101.sel @@ -1,128 +1,128 @@ Mu SC - 0.208365983949 11289.9820991617 - 0.006051493731 441.8364648484 - 0.136202534124 7862.0810134777 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.144994867829 8179.9016685578 - 0.136202534124 7862.0810134772 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.181098634485 9932.1962100728 - 0.136201623922 7862.0465350039 - 0.136202534124 7862.0810134772 - 0.006464982632 468.2608207538 - 0.006464982632 468.2608207538 - 0.188802472697 10348.0534835309 - 0.136202534127 7862.0810135875 - 0.136201623922 7862.0465350043 - 0.136202534124 7862.0810134772 - 0.006464982632 468.2608207538 - 0.188802472697 10348.0534835273 - 0.160321997378 8887.1336120041 - 0.136202534128 7862.0810136061 - 0.136201623922 7862.0465350043 - 0.136202534124 7862.0810134772 - 0.188802472697 10348.0534835269 - 0.181500814435 9907.1016756415 - 0.135896078108 7843.2882190816 - 0.136202534129 7862.0810136110 - 0.136201623922 7862.0465350043 - 0.188802472697 10348.0534835271 - 0.181500814435 9907.1016756444 - 0.135896078107 7843.2882190756 - 0.135896078108 7843.2882190881 - 0.136202534129 7862.0810136124 - 0.198608970563 10861.6897354669 - 0.181500814435 9907.1016756423 - 0.178763957699 9776.6275286967 - 0.135896078108 7843.2882190868 - 0.135896078108 7843.2882190900 - 0.206229419920 11150.3406466356 - 0.178488240738 9793.7746109774 - 0.181500814435 9907.1016756406 - 0.135896078107 7843.2882190532 - 0.135896078108 7843.2882190899 - 0.206229419920 11150.3406466356 - 0.176511190408 9717.1282068943 - 0.178488240738 9793.7746109837 - 0.142618973837 8027.3618755440 - 0.135896078107 7843.2882190525 - 0.206229419920 11150.3406466356 - 0.187716628713 10306.3481888483 - 0.176511190408 9717.1282068944 - 0.178488240738 9793.7746109865 - 0.135896003014 7843.2851391111 - 0.206229419920 11150.3406466356 - 0.188802472697 10348.0534841887 - 0.177393657313 9751.5640497901 - 0.176511190408 9717.1282068947 - 0.135992338505 7851.9064861903 - 0.206229419920 11150.3406466356 - 0.188802472697 10348.0534835244 - 0.181500814420 9907.1016741019 - 0.177393657319 9751.5640498863 - 0.156650327839 8741.5778565168 - 0.206229419920 11150.3406466356 - 0.194086513729 10686.7463508968 - 0.181500814435 9907.1016756376 - 0.181500814420 9907.1016741003 - 0.177393657321 9751.5640499179 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.180211703764 9859.1567228083 - 0.181500814435 9907.1016756373 - 0.181500814420 9907.1016740986 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.176511190408 9717.1282069002 - 0.180211703764 9859.1567228075 - 0.181500814435 9907.1016756367 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.181568536295 9954.6506275645 - 0.176511190408 9717.1282069061 - 0.180211703764 9859.1567228061 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.188802472697 10348.0534835289 - 0.176511190386 9717.1282049936 - 0.176511190409 9717.1282069065 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.188802472697 10348.0534840016 - 0.181500814435 9907.1016756455 - 0.176511190386 9717.1282049963 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.191295547354 10522.5485714443 - 0.181500814424 9907.1016745375 - 0.181500814435 9907.1016756427 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.206229419920 11150.3406466416 - 0.181015972889 9889.2080748337 - 0.181500814424 9907.1016745376 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.206229419920 11150.3406466416 - 0.176511190407 9717.1282069059 - 0.181015972889 9889.2080748336 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.206229419920 11150.3406466416 - 0.180598377001 9903.3554166162 - 0.176511190408 9717.1282069193 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.206229419920 11150.3406466416 - 0.188802472697 10348.0534842061 - 0.176511190409 9717.1282069479 - 0.206229419920 11150.3406466356 - 0.206229419920 11150.3406466400 - 0.206229419920 11150.3406466416 - 0.188802472697 10348.0534839562 - 0.181500814420 9907.1016740839 + 0.208365983949 11289.9824653931 + 0.006051493731 441.8364706970 + 0.136202534124 7862.0812891333 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.144994867829 8179.9019325470 + 0.136202534124 7862.0812891329 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.181098634485 9932.1964912286 + 0.136201623922 7862.0468106593 + 0.136202534124 7862.0812891329 + 0.006464982632 468.2608273018 + 0.006464982632 468.2608273018 + 0.188802472697 10348.0537798721 + 0.136202534127 7862.0812892432 + 0.136201623922 7862.0468106597 + 0.136202534124 7862.0812891329 + 0.006464982632 468.2608273018 + 0.188802472697 10348.0537798684 + 0.160321997378 8887.1338781936 + 0.136202534128 7862.0812892617 + 0.136201623922 7862.0468106597 + 0.136202534124 7862.0812891328 + 0.188802472697 10348.0537798680 + 0.181500814435 9907.1019569103 + 0.135896078108 7843.2884909347 + 0.136202534129 7862.0812892667 + 0.136201623922 7862.0468106597 + 0.188802472697 10348.0537798682 + 0.181500814435 9907.1019569133 + 0.135896078107 7843.2884909287 + 0.135896078108 7843.2884909412 + 0.136202534129 7862.0812892681 + 0.198608970563 10861.6900549456 + 0.181500814435 9907.1019569111 + 0.178763957699 9776.6278077316 + 0.135896078108 7843.2884909399 + 0.135896078108 7843.2884909431 + 0.206229419920 11150.3409812513 + 0.178488240738 9793.7748890463 + 0.181500814435 9907.1019569094 + 0.135896078107 7843.2884909063 + 0.135896078108 7843.2884909430 + 0.206229419920 11150.3409812513 + 0.176511190408 9717.1284832241 + 0.178488240738 9793.7748890526 + 0.142618973837 8027.3621341444 + 0.135896078107 7843.2884909057 + 0.206229419920 11150.3409812513 + 0.187716628713 10306.3484832246 + 0.176511190408 9717.1284832241 + 0.178488240738 9793.7748890554 + 0.135896003014 7843.2854109642 + 0.206229419920 11150.3409812513 + 0.188802472697 10348.0537805299 + 0.177393657313 9751.5643268549 + 0.176511190408 9717.1284832244 + 0.135992338505 7851.9067598756 + 0.206229419920 11150.3409812513 + 0.188802472697 10348.0537798655 + 0.181500814420 9907.1019553708 + 0.177393657319 9751.5643269511 + 0.156650327839 8741.5781226138 + 0.206229419920 11150.3409812513 + 0.194086513729 10686.7466611540 + 0.181500814435 9907.1019569065 + 0.181500814420 9907.1019553692 + 0.177393657321 9751.5643269827 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.180211703764 9859.1570026300 + 0.181500814435 9907.1019569061 + 0.181500814420 9907.1019553674 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.176511190408 9717.1284832299 + 0.180211703764 9859.1570026293 + 0.181500814435 9907.1019569055 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.181568536295 9954.6509094417 + 0.176511190408 9717.1284832358 + 0.180211703764 9859.1570026279 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.188802472697 10348.0537798700 + 0.176511190386 9717.1284813234 + 0.176511190409 9717.1284832362 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.188802472697 10348.0537803428 + 0.181500814435 9907.1019569143 + 0.176511190386 9717.1284813261 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.191295547354 10522.5488746116 + 0.181500814424 9907.1019558063 + 0.181500814435 9907.1019569115 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.206229419920 11150.3409812573 + 0.181015972889 9889.2083555434 + 0.181500814424 9907.1019558065 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.206229419920 11150.3409812573 + 0.176511190407 9717.1284832357 + 0.181015972889 9889.2083555433 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.206229419920 11150.3409812573 + 0.180598377001 9903.3556968915 + 0.176511190408 9717.1284832491 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.206229419920 11150.3409812573 + 0.188802472697 10348.0537805473 + 0.176511190409 9717.1284832777 + 0.206229419920 11150.3409812513 + 0.206229419920 11150.3409812557 + 0.206229419920 11150.3409812573 + 0.188802472697 10348.0537802973 + 0.181500814420 9907.1019553527 diff --git a/mytest/joe_101.sel b/mytest/joe_101.sel index 4107f6bb..94e8c565 100644 --- a/mytest/joe_101.sel +++ b/mytest/joe_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.222839770900 20707.3218752682 - 0.222839770902 20707.3218754793 - 0.222231064923 20679.3136264336 - 0.193860654434 75888.1917417902 - 0.256742563116 21935.5923910873 - 0.257547814029 22046.6145416253 - 0.253736598624 21932.8826110724 - 0.235506782668 21254.8033350152 - 0.223974381196 20757.9880447878 - 0.222397840541 20686.9413840729 - 0.222235542809 20679.5916024277 - 0.222219266725 20678.8541662504 + 0.222839770900 20707.3231009615 + 0.222839770902 20707.3231011725 + 0.222231064923 20679.3148491065 + 0.193860654434 75888.1958188335 + 0.256742563116 21935.5937442996 + 0.257547814029 22046.6158910688 + 0.253736598624 21932.8839501930 + 0.235506782668 21254.8046137079 + 0.223974381196 20757.9892752658 + 0.222397840541 20686.9426074865 + 0.222235542809 20679.5928251085 + 0.222219266725 20678.8553888576 diff --git a/mytest/kin3.dmp b/mytest/kin3.dmp index ac92b369..14d47d48 100644 --- a/mytest/kin3.dmp +++ b/mytest/kin3.dmp @@ -10,6 +10,7 @@ SOLUTION_RAW 0 Solution after simulation 2. -cb 1.6903765862586e-17 -density 0.99740673912697 -viscosity 0.8900239182442 + -viscos_0 0.8900239182442 -totals Al 1.8005608956051e-06 C(4) 0.0025877589437808 @@ -78,69 +79,70 @@ SOLUTION_RAW 1 Solution after simulation 2. -potential 0 -total_h 111.01635030565 -total_o 55.518581350296 - -cb 1.5155423111262e-06 - -density 0.99746786850887 + -cb 1.5155423111012e-06 + -density 0.99746786850886 -viscosity 0.89002391824412 + -viscos_0 0.89002391824412 -totals Al 1.8005608956987e-06 C(4) 0.0025877589438744 - Ca 0.0012245545274009 - Cd 4.5014022390066e-09 + Ca 0.001224554527401 + Cd 4.5014022390067e-09 Cl 0.00048014957216136 - Co 2.0254166580657e-07 - Cu(1) 1.9021847350086e-20 - Cu(2) 1.2660241846696e-08 + Co 2.025416658091e-07 + Cu(1) 1.9021847350125e-20 + Cu(2) 1.2660241846743e-08 F 1.5804923417024e-05 - Fe(2) 1.8277130662135e-17 - Fe(3) 3.4802889878596e-08 + Fe(2) 1.8277130661919e-17 + Fe(3) 3.4802889878523e-08 K 3.0009348260085e-05 Mg 0.00037011529520727 - Mn(2) 1.3692064101641e-14 - Mn(6) 3.7037754314043e-22 - Mn(7) 3.5349372980617e-18 - Na 0.00096029914432273 - Ni 5.6326037290629e-07 - O(0) 0.00044003707683723 - S(6) 0.00071435215731522 + Mn(2) 1.3692064101474e-14 + Mn(6) 3.703775431451e-22 + Mn(7) 3.5349372980888e-18 + Na 0.00096029914432272 + Ni 5.6326037291517e-07 + O(0) 0.00044003707683838 + S(6) 0.00071435215731447 Si 0.00040012464346802 Sr 2.7008413434052e-06 - Zn 1.0844937275345e-08 - -pH 7.1383063354117 - -pe 13.467484677112 - -mu 0.0060349265986568 + Zn 1.0844937275601e-08 + -pH 7.1383063354142 + -pe 13.46748467711 + -mu 0.0060349265986566 -ah2o 0.99988312707868 - -mass_water 1.0000005488597 + -mass_water 1.0000005488598 -soln_vol 1.0029663082924 - -total_alkalinity 0.0022658995708106 + -total_alkalinity 0.0022658995708122 -activities - Al -11.69188126636 + Al -11.69188126637 C(-4) -143.93112738249 - C(4) -5.8793388921682 + C(4) -5.8793388921654 Ca -3.0875505795764 Cd -8.56118138203 Cl -3.3549058803064 - Co -6.8674616979571 - Cu(1) -19.783936137385 - Cu(2) -9.0364514602914 - E -13.467484677112 + Co -6.8674616979516 + Cu(1) -19.783936137384 + Cu(2) -9.0364514602927 + E -13.46748467711 F -4.847988932895 - Fe(2) -16.971251402654 - Fe(3) -16.523766725542 - H(0) -44.361582025047 + Fe(2) -16.971251402659 + Fe(3) -16.523766725549 + H(0) -44.361582025048 K -4.5603740768011 Mg -3.6093797314011 - Mn(2) -14.108093175408 - Mn(3) -26.150608498297 - Mn(6) -21.571906824592 - Mn(7) -17.48842214748 - Na -3.0545292179261 - Ni -7.3134880584928 - O(0) -3.6569374703678 - S(-2) -141.8313072621 - S(6) -3.3525695320162 + Mn(2) -14.108093175414 + Mn(3) -26.150608498304 + Mn(6) -21.571906824586 + Mn(7) -17.488422147476 + Na -3.054529217926 + Ni -7.3134880584883 + O(0) -3.6569374703666 + S(-2) -141.83130726211 + S(6) -3.3525695320167 Si -3.3981582250531 Sr -5.7441420016376 - Zn -8.276641949182 + Zn -8.2766419491722 -gammas SOLUTION_RAW 2 Solution after simulation 2. -temp 25 @@ -148,69 +150,70 @@ SOLUTION_RAW 2 Solution after simulation 2. -potential 0 -total_h 111.01640011981 -total_o 55.518683434661 - -cb 4.0089871689108e-06 + -cb 4.0089871688162e-06 -density 0.9974073746818 -viscosity 0.89002391824396 + -viscos_0 0.89002391824396 -totals Al 1.8005608959826e-06 - C(4) 0.0025877589441552 - Ca 0.0012221928576763 + C(4) 0.0025877589441551 + Ca 0.0012221928576765 Cd 4.5014022389891e-09 Cl 0.00048014957216138 - Co 6.6642818839174e-08 - Cu(1) 2.5394613981525e-21 - Cu(2) 1.6450060039192e-09 + Co 6.6642818839848e-08 + Cu(1) 2.539461398057e-21 + Cu(2) 1.6450060038382e-09 F 1.5804923417163e-05 - Fe(2) 2.6829611499487e-17 - Fe(3) 3.7573124129366e-08 + Fe(2) 2.6829611498822e-17 + Fe(3) 3.757312412906e-08 K 3.0009348260085e-05 Mg 0.00037011529520597 - Mn(2) 1.995095505659e-14 - Mn(6) 2.5090901909114e-22 - Mn(7) 2.9093856459626e-18 + Mn(2) 1.995095505638e-14 + Mn(6) 2.5090901909409e-22 + Mn(7) 2.9093856459005e-18 Na 0.00096029914432276 - Ni 1.9811670565769e-07 - O(0) 0.00044003707685423 - S(6) 0.00074145347710129 + Ni 1.9811670566391e-07 + O(0) 0.00044003707683028 + S(6) 0.00074145347709827 Si 0.00040012464346869 Sr 2.7008413433982e-06 - Zn 4.6691398487395e-10 - -pH 7.0537051934059 - -pe 13.552085972438 - -mu 0.0060420467966884 + Zn 4.669139848813e-10 + -pH 7.0537051934143 + -pe 13.552085972424 + -mu 0.0060420467966874 -ah2o 0.99988274677434 -mass_water 1.0000015369505 -soln_vol 1.0029672993131 - -total_alkalinity 0.0022034380456295 + -total_alkalinity 0.0022034380456361 -activities - Al -11.361213855366 - C(-4) -143.85826161148 - C(4) -5.9756746741618 - Ca -3.0890909700715 - Cd -8.5619388502429 + Al -11.361213855399 + C(-4) -143.85826161144 + C(4) -5.9756746741521 + Ca -3.0890909700714 + Cd -8.5619388502428 Cl -3.3549258546516 - Co -7.3514230253518 - Cu(1) -20.658465858656 - Cu(2) -9.8263799212158 - E -13.552085972438 + Co -7.3514230253473 + Cu(1) -20.658465858673 + Cu(2) -9.8263799212465 + E -13.552085972424 F -4.8481788313877 - Fe(2) -16.802048776412 - Fe(3) -16.269962803974 - H(0) -44.361582331688 + Fe(2) -16.802048776423 + Fe(3) -16.269962803999 + H(0) -44.361582331676 K -4.5604455849016 - Mg -3.6103155652502 - Mn(2) -13.938890867671 - Mn(3) -25.896804895233 - Mn(6) -21.741109132329 - Mn(7) -17.573023159891 + Mg -3.6103155652501 + Mn(2) -13.938890867676 + Mn(3) -25.896804895252 + Mn(6) -21.741109132324 + Mn(7) -17.573023159901 Na -3.0545707822757 - Ni -7.6868164241934 - O(0) -3.6569371874531 - S(-2) -141.6458013806 - S(6) -3.3362653686995 + Ni -7.6868164241877 + O(0) -3.6569371874768 + S(-2) -141.64580138058 + S(6) -3.3362653687012 Si -3.3979887798427 - Sr -5.7448560196963 - Zn -9.6290910707317 + Sr -5.7448560196962 + Zn -9.6290910707261 -gammas SOLUTION_RAW 3 Solution after simulation 2. -temp 25 @@ -218,140 +221,142 @@ SOLUTION_RAW 3 Solution after simulation 2. -potential 0 -total_h 111.01647917586 -total_o 55.518862109035 - -cb 7.6618864475548e-06 + -cb 7.6618864478149e-06 -density 0.99740880892822 -viscosity 0.89002391824366 + -viscos_0 0.89002391824366 -totals Al 1.8005608961297e-06 C(4) 0.0025877589442863 - Ca 0.0012185307831072 + Ca 0.0012185307831083 Cd 4.5014022389836e-09 - Cl 0.00048014957216138 - Co 2.3790046679924e-08 - Cu(1) 1.1690434497386e-21 - Cu(2) 7.4663700895669e-10 + Cl 0.00048014957216139 + Co 2.3790046680287e-08 + Cu(1) 1.1690434493127e-21 + Cu(2) 7.466370086748e-10 F 1.5804923417239e-05 - Fe(2) 4.7349985353498e-17 - Fe(3) 4.2831549563387e-08 + Fe(2) 4.7349985347983e-17 + Fe(3) 4.2831549562005e-08 K 3.0009348260085e-05 Mg 0.00037011529520555 - Mn(2) 3.4913832332447e-14 - Mn(6) 1.4115257568044e-22 - Mn(7) 2.1819930007173e-18 + Mn(2) 3.4913832328889e-14 + Mn(6) 1.4115257569526e-22 + Mn(7) 2.1819930007753e-18 Na 0.00096029914432276 - Ni 5.1526462875131e-08 - O(0) 0.00044003707683823 - S(6) 0.00078972605897794 + Ni 5.1526462879293e-08 + O(0) 0.00044003707681546 + S(6) 0.00078972605896553 Si 0.00040012464346896 Sr 2.7008413433959e-06 - Zn 4.6496220284158e-11 - -pH 6.9287136148139 - -pe 13.677077895253 - -mu 0.0060570663017809 + Zn 4.6496220283593e-11 + -pH 6.9287136148423 + -pe 13.677077895219 + -mu 0.0060570663017769 -ah2o 0.99988206009246 -mass_water 1.0000031983997 -soln_vol 1.0029689656888 - -total_alkalinity 0.0020955395683111 + -total_alkalinity 0.0020955395683379 -activities - Al -10.879099339632 - C(-4) -143.75471658957 - C(4) -6.1221109490449 - Ca -3.0917469059158 - Cd -8.5633947986181 + Al -10.87909933974 + C(-4) -143.75471658954 + C(4) -6.1221109490109 + Ca -3.0917469059151 + Cd -8.5633947986178 Cl -3.354967826955 - Co -7.8009325487499 - Cu(1) -20.995414887449 - Cu(2) -10.03833815575 - E -13.677077895253 - F -4.8489017462847 - Fe(2) -16.55206506868 - Fe(3) -15.894987174283 - H(0) -44.361583020133 + Co -7.8009325487428 + Cu(1) -20.995414887639 + Cu(2) -10.038338155942 + E -13.677077895219 + F -4.8489017462844 + Fe(2) -16.552065068731 + Fe(3) -15.894987174368 + H(0) -44.361583020121 K -4.5605792201182 - Mg -3.6120479907798 - Mn(2) -13.688907802419 - Mn(3) -25.521829908021 - Mn(6) -21.991092197274 - Mn(7) -17.698014302149 - Na -3.0546524159527 - Ni -8.1556332154067 - O(0) -3.6569364070748 - S(-2) -141.36823041485 - S(6) -3.3086760019232 - Si -3.3977912141841 - Sr -5.7461814954527 - Zn -10.614622294178 + Mg -3.6120479907793 + Mn(2) -13.688907802464 + Mn(3) -25.521829908101 + Mn(6) -21.991092197229 + Mn(7) -17.698014302137 + Na -3.0546524159526 + Ni -8.1556332153975 + O(0) -3.6569364070973 + S(-2) -141.36823041486 + S(6) -3.3086760019301 + Si -3.3977912141842 + Sr -5.7461814954523 + Zn -10.614622294186 -gammas SOLUTION_RAW 4 Solution after simulation 2. -temp 25 -pressure 1 -potential 0 -total_h 111.01658293252 - -total_o 55.519132463662 - -cb 1.2343279470516e-05 + -total_o 55.519132463661 + -cb 1.2343279469279e-05 -density 0.99741146728068 -viscosity 0.89002391824319 + -viscos_0 0.89002391824319 -totals Al 1.800560896284e-06 C(4) 0.0025877589444133 - Ca 0.0012138346998051 + Ca 0.0012138346998091 Cd 4.5014022389801e-09 Cl 0.00048014957216139 - Co 1.0397025215088e-08 - Cu(1) 7.5839502428722e-22 - Cu(2) 4.9738863232404e-10 + Co 1.0397025219513e-08 + Cu(1) 7.5839502422949e-22 + Cu(2) 4.9738863226421e-10 F 1.580492341732e-05 - Fe(2) 9.6923669364941e-17 - Fe(3) 5.2070329951541e-08 + Fe(2) 9.6923669325358e-17 + Fe(3) 5.2070329945037e-08 K 3.0009348260085e-05 Mg 0.00037011529520528 - Mn(2) 7.0949663226787e-14 - Mn(3) 1.7429119821452e-25 - Mn(6) 6.8421417706277e-23 - Mn(7) 1.5189523512325e-18 - Na 0.00096029914432278 - Ni 1.1849862616006e-08 - O(0) 0.00044003707687094 - S(6) 0.00086491025151195 + Mn(2) 7.0949663199038e-14 + Mn(3) 1.7429119810517e-25 + Mn(6) 6.8421417733569e-23 + Mn(7) 1.5189523514933e-18 + Na 0.00096029914432277 + Ni 1.1849862626073e-08 + O(0) 0.00044003707684642 + S(6) 0.0008649102514633 Si 0.0004001246434692 Sr 2.7008413433944e-06 - Zn 8.7883885244123e-12 - -pH 6.7713267987378 - -pe 13.834465355416 - -mu 0.0060838401745202 + Zn 8.7883885296621e-12 + -pH 6.7713267988306 + -pe 13.834465355318 + -mu 0.0060838401745045 -ah2o 0.99988097790433 -mass_water 1.0000055957678 - -soln_vol 1.0029713701654 - -total_alkalinity 0.0019310001493124 + -soln_vol 1.0029713701653 + -total_alkalinity 0.0019310001494189 -activities - Al -10.293386388534 - C(-4) -143.63255210836 - C(4) -6.3147163538236 - Ca -3.0956557957106 - Cd -8.5657955729384 - Cl -3.3550422756725 - Co -8.1637801364721 - Cu(1) -21.183420680694 - Cu(2) -10.068955392822 - E -13.834465355416 - F -4.8519124515725 - Fe(2) -16.237290670483 - Fe(3) -15.422825319502 - H(0) -44.361584308305 - K -4.560796323806 - Mg -3.614822953441 - Mn(2) -13.374134518353 - Mn(3) -25.049669167371 - Mn(6) -22.305865479287 - Mn(7) -17.855400124992 + Al -10.293386388868 + C(-4) -143.63255210838 + C(4) -6.3147163537071 + Ca -3.0956557957077 + Cd -8.5657955729369 + Cl -3.3550422756724 + Co -8.1637801362851 + Cu(1) -21.18342068073 + Cu(2) -10.068955392954 + E -13.834465355318 + F -4.8519124515694 + Fe(2) -16.237290670662 + Fe(3) -15.42282531978 + H(0) -44.361584308293 + K -4.5607963238059 + Mg -3.6148229534392 + Mn(2) -13.374134518526 + Mn(3) -25.049669167643 + Mn(6) -22.305865479114 + Mn(7) -17.855400124918 Na -3.0547901622738 - Ni -8.654891817403 - O(0) -3.656934770814 - S(-2) -141.01371534624 - S(6) -3.2689312941554 - Si -3.3976101245096 - Sr -5.7483129010472 - Zn -11.322512845717 + Ni -8.654891817113 + O(0) -3.6569347708382 + S(-2) -141.0137153464 + S(6) -3.26893129418 + Si -3.3976101245097 + Sr -5.7483129010458 + Zn -11.322512845465 -gammas SOLUTION_RAW 5 Solution after simulation 2. -temp 25 @@ -359,70 +364,71 @@ SOLUTION_RAW 5 Solution after simulation 2. -potential 0 -total_h 111.01669466825 -total_o 55.519508004015 - -cb 1.8220594971116e-05 - -density 0.99741570626618 + -cb 1.8220594972042e-05 + -density 0.99741570626617 -viscosity 0.89002391824251 + -viscos_0 0.89002391824251 -totals Al 1.8005608967756e-06 C(4) 0.0025877589445523 Ca 0.0012080845032989 - Cd 4.5014022389775e-09 + Cd 4.5014022389774e-09 Cl 0.00048014957216141 - Co 5.5583433236651e-09 - Cu(1) 5.822915142914e-22 - Cu(2) 4.2033562376079e-10 + Co 5.5583433230392e-09 + Cu(1) 5.8229151415967e-22 + Cu(2) 4.2033562367022e-10 F 1.5804923417633e-05 - Fe(2) 2.2765062914207e-16 - Fe(3) 6.8537729528508e-08 + Fe(2) 2.2765062917057e-16 + Fe(3) 6.8537729531311e-08 K 3.0009348260086e-05 - Mg 0.00037011529520508 - Mn(2) 1.6581400624654e-13 - Mn(3) 6.3728874260121e-25 - Mn(6) 2.889477536819e-23 - Mn(7) 9.8687086936413e-19 + Mg 0.00037011529520507 + Mn(2) 1.6581400626843e-13 + Mn(3) 6.3728874271994e-25 + Mn(6) 2.8894775364335e-23 + Mn(7) 9.8687086928398e-19 Na 0.00096029914432281 - Ni 2.8026479689573e-09 - O(0) 0.00044003707697244 - S(6) 0.0009743604546125 + Ni 2.8026479685382e-09 + O(0) 0.00044003707695968 + S(6) 0.0009743604546296 Si 0.00040012464346946 Sr 2.7008413433935e-06 - Zn 2.1213968235459e-12 - -pH 6.5839186090302 - -pe 14.021874627619 - -mu 0.006126896231432 + Zn 2.12139682271e-12 + -pH 6.5839186090044 + -pe 14.021874627642 + -mu 0.0061268962314411 -ah2o 0.99987939063572 -mass_water 1.0000087148117 -soln_vol 1.0029744984574 - -total_alkalinity 0.0016947105629556 + -total_alkalinity 0.0016947105629203 -activities - Al -9.6685639464773 - C(-4) -143.50149513156 - C(4) -6.5584691581487 - Ca -3.1010796140641 - Cd -8.5694161244524 + Al -9.6685639464 + C(-4) -143.50149513152 + C(4) -6.5584691581835 + Ca -3.1010796140647 + Cd -8.569416124453 Cl -3.355161291022 - Co -8.4406294834054 - Cu(1) -21.298286909766 - Cu(2) -9.9964123008106 - E -14.021874627619 - F -4.8642020021537 - Fe(2) -15.862473305289 - Fe(3) -14.860598677213 - H(0) -44.361586473292 - K -4.5611229160229 - Mg -3.6189206058658 - Mn(2) -12.999318925079 - Mn(3) -24.487444297002 - Mn(6) -22.68068107642 - Mn(7) -18.042806447934 + Co -8.4406294834551 + Cu(1) -21.298286909865 + Cu(2) -9.9964123008862 + E -14.021874627642 + F -4.8642020021564 + Fe(2) -15.862473305234 + Fe(3) -14.860598677134 + H(0) -44.361586473286 + K -4.561122916023 + Mg -3.6189206058665 + Mn(2) -12.999318925021 + Mn(3) -24.48744429692 + Mn(6) -22.680681076479 + Mn(7) -18.04280644797 Na -3.0550027522618 - Ni -9.1313480617752 - O(0) -3.6569318196807 - S(-2) -140.58685998271 - S(6) -3.2168864157673 + Ni -9.131348061821 + O(0) -3.6569318196933 + S(-2) -140.58685998262 + S(6) -3.2168864157597 Si -3.3974631111549 - Sr -5.7514772906359 - Zn -11.926278612003 + Sr -5.7514772906364 + Zn -11.926278612173 -gammas SOLUTION_RAW 6 Solution after simulation 2. -temp 25 @@ -430,212 +436,215 @@ SOLUTION_RAW 6 Solution after simulation 2. -potential 0 -total_h 111.01677109595 -total_o 55.51999412876 - -cb 2.5957316888382e-05 - -density 0.99742196754562 + -cb 2.5957316885333e-05 + -density 0.99742196754563 -viscosity 0.89002391824155 + -viscos_0 0.89002391824155 -totals - Al 1.800560908624e-06 + Al 1.8005609086247e-06 C(4) 0.0025877589446456 - Ca 0.0012011985519221 + Ca 0.0012011985519294 Cd 4.5014022389794e-09 Cl 0.00048014957216144 - Co 3.5520553288103e-09 - Cu(1) 5.0740141054752e-22 - Cu(2) 4.4992653124263e-10 - F 1.5804923430141e-05 - Fe(2) 6.3849212705628e-16 - Fe(3) 1.0074599115313e-07 + Co 3.5520553303075e-09 + Cu(1) 5.0740141029482e-22 + Cu(2) 4.4992653097559e-10 + F 1.5804923430142e-05 + Fe(2) 6.3849212683622e-16 + Fe(3) 1.0074599113893e-07 K 3.0009348260088e-05 Mg 0.00037011529520523 - Mn(2) 4.6392878912882e-13 - Mn(3) 3.0486774884807e-24 - Mn(6) 1.0212726630818e-23 - Mn(7) 5.8650931507843e-19 + Mn(2) 4.639287889733e-13 + Mn(3) 3.0486774868715e-24 + Mn(6) 1.0212726634284e-23 + Mn(7) 5.8650931516732e-19 Na 0.00096029914432288 - Ni 7.859443300425e-10 - O(0) 0.00044003707728129 - S(6) 0.0011272340840587 + Ni 7.8594433066778e-10 + O(0) 0.00044003707726531 + S(6) 0.0011272340840093 Si 0.00040012464346962 Sr 2.7008413433949e-06 - Zn 6.1751200173537e-13 - -pH 6.357745961801 - -pe 14.248048995143 - -mu 0.0061920627585476 + Zn 6.1751200215495e-13 + -pH 6.3577459618787 + -pe 14.248048995062 + -mu 0.00619206275854 -ah2o 0.99987716047308 -mass_water 1.000012337066 -soln_vol 1.0029781314513 - -total_alkalinity 0.001367478898465 + -total_alkalinity 0.0013674788985815 -activities - Al -9.1276406529682 - C(-4) -143.36785367665 - C(4) -6.8771621433842 - Ca -3.1083348170809 - Cd -8.5745696669522 + Al -9.1276406531043 + C(-4) -143.36785367666 + C(4) -6.8771621432698 + Ca -3.1083348170769 + Cd -8.5745696669507 Cl -3.3553400313472 - Co -8.6418741361023 - Cu(1) -21.358242686202 - Cu(2) -9.8301937509881 - E -14.248048995143 - F -4.8979468991645 - Fe(2) -15.41012682513 - Fe(3) -14.182077741021 - H(0) -44.36158991388 - K -4.5615914440187 - Mg -3.6246608402686 - Mn(2) -12.54697513388 - Mn(3) -23.808926049769 - Mn(6) -23.133024927183 - Mn(7) -18.268975901334 + Co -8.6418741359172 + Cu(1) -21.35824268642 + Cu(2) -9.830193751286 + E -14.248048995062 + F -4.8979468991513 + Fe(2) -15.410126825281 + Fe(3) -14.182077741245 + H(0) -44.361589913872 + K -4.5615914440186 + Mg -3.6246608402669 + Mn(2) -12.546975134027 + Mn(3) -23.80892604999 + Mn(6) -23.133024927041 + Mn(7) -18.268975901271 Na -3.055313225312 - Ni -9.5366159835766 - O(0) -3.6569268758273 - S(-2) -140.07090372067 - S(6) -3.153265613521 + Ni -9.5366159832741 + O(0) -3.6569268758431 + S(-2) -140.0709037208 + S(6) -3.1532656135405 Si -3.3973497380372 - Sr -5.7559392868143 - Zn -12.450828678472 + Sr -5.755939286813 + Zn -12.45082867818 -gammas SOLUTION_RAW 7 Solution after simulation 2. -temp 25 -pressure 1 -potential 0 -total_h 111.01672849499 - -total_o 55.520558673994 - -cb 3.6436429544246e-05 + -total_o 55.520558673995 + -cb 3.6436429552943e-05 -density 0.99743080007476 -viscosity 0.89002391824027 + -viscos_0 0.89002391824027 -totals - Al 1.8005609130001e-06 + Al 1.8005609130097e-06 C(4) 0.0025877589447081 - Ca 0.0011938226768098 + Ca 0.0011938226768071 Cd 4.5014022389674e-09 Cl 0.00048014957216143 - Co 2.717220773722e-09 - Cu(1) 5.2147000065756e-22 - Cu(2) 6.8287940739047e-10 - F 1.5804923438155e-05 - Fe(2) 2.38620500603e-15 - Fe(3) 1.7595207480029e-07 - K 3.000934826009e-05 + Co 2.7172207741825e-09 + Cu(1) 5.2147000003818e-22 + Cu(2) 6.8287940723426e-10 + F 1.5804923438167e-05 + Fe(2) 2.3862050128135e-15 + Fe(3) 1.7595207502162e-07 + K 3.0009348260089e-05 Mg 0.00037011529520377 - Mn(2) 1.7339320337709e-12 - Mn(3) 2.2505890649036e-23 - Mn(6) 2.7067722362281e-24 - Mn(7) 3.0180432614366e-19 + Mn(2) 1.7339320387225e-12 + Mn(3) 2.2505890745819e-23 + Mn(6) 2.7067722284631e-24 + Mn(7) 3.0180432570391e-19 Na 0.00096029914432295 - Ni 3.0694376202235e-10 - O(0) 0.00044003707858748 - S(6) 0.0013266838892292 + Ni 3.0694376218604e-10 + O(0) 0.00044003707856857 + S(6) 0.0013266838896517 Si 0.00040012464346956 Sr 2.7008413433868e-06 - Zn 2.4209437783875e-13 - -pH 6.0689351300984 - -pe 14.536862388629 - -mu 0.0062837290028779 + Zn 2.420943781e-13 + -pH 6.068935129479 + -pe 14.536862389244 + -mu 0.0062837290031157 -ah2o 0.9998742083477 -mass_water 1.0000157571096 -soln_vol 1.0029815616337 - -total_alkalinity 0.00094342147135771 + -total_alkalinity 0.00094342147049879 -activities - Al -8.8190257523707 - C(-4) -143.23938568826 - C(4) -7.3262992690589 - Ca -3.1172621578423 - Cd -8.5813387708267 - Cl -3.3555888886044 - Co -8.7669708154296 - Cu(1) -21.346597264702 - Cu(2) -9.5297353885938 - E -14.536862388629 - F -4.9364968405782 - Fe(2) -14.832503876754 - Fe(3) -13.315640868897 - H(0) -44.361595037461 - K -4.5622179431621 - Mg -3.632122198332 - Mn(2) -11.969356029538 - Mn(3) -22.942493021683 - Mn(6) -23.71064438325 - Mn(7) -18.557781788223 - Na -3.055734233683 - Ni -9.8226707703202 - O(0) -3.6569191931909 - S(-2) -139.42225017304 - S(6) -3.0822186403813 - Si -3.3972649350263 - Sr -5.7617664173656 - Zn -12.847831026022 + Al -8.8190257520347 + C(-4) -143.23938568799 + C(4) -7.3262992700721 + Ca -3.1172621578569 + Cd -8.5813387708416 + Cl -3.355588888605 + Co -8.7669708153747 + Cu(1) -21.346597265215 + Cu(2) -9.5297353884954 + E -14.536862389244 + F -4.9364968406302 + Fe(2) -14.83250387551 + Fe(3) -13.315640867003 + H(0) -44.361595037451 + K -4.5622179431635 + Mg -3.6321221983481 + Mn(2) -11.969356028289 + Mn(3) -22.942493019785 + Mn(6) -23.710644384522 + Mn(7) -18.557781788868 + Na -3.055734233684 + Ni -9.8226707699029 + O(0) -3.6569191932096 + S(-2) -139.4222501716 + S(6) -3.0822186402432 + Si -3.3972649350262 + Sr -5.7617664173784 + Zn -12.847831025538 -gammas SOLUTION_RAW 8 Solution after simulation 2. -temp 25 -pressure 1 -potential 0 -total_h 111.01650556311 - -total_o 55.52107846926 - -cb 4.8842173423271e-05 - -density 0.99744243805476 + -total_o 55.521078469261 + -cb 4.8842173425797e-05 + -density 0.99744243805479 -viscosity 0.89002391823887 + -viscos_0 0.89002391823887 -totals - Al 1.8005609154409e-06 - C(4) 0.0025877589448479 - Ca 0.0011880639889048 - Cd 4.5014022388984e-09 - Cl 0.00048014957216103 - Co 2.4995546472348e-09 - Cu(1) 7.0615885764742e-22 - Cu(2) 1.839931851847e-09 - F 1.5804923441055e-05 - Fe(2) 1.3998136202363e-14 - Fe(3) 3.9988877569547e-07 - K 3.0009348260073e-05 - Mg 0.00037011529519651 - Mn(2) 1.0190683409837e-11 - Mn(3) 3.2686738802773e-22 - Mn(6) 4.5726519450566e-25 - Mn(7) 1.2397860310812e-19 - Na 0.00096029914432257 - Ni 1.967402059412e-10 - O(0) 0.00044003708705022 - S(6) 0.0015409792272009 + Al 1.8005609155151e-06 + C(4) 0.0025877589448478 + Ca 0.0011880639889102 + Cd 4.5014022388971e-09 + Cl 0.00048014957216102 + Co 2.4995546484469e-09 + Cu(1) 7.0615885797072e-22 + Cu(2) 1.8399318544536e-09 + F 1.5804923441147e-05 + Fe(2) 1.3998136234288e-14 + Fe(3) 3.9988877613073e-07 + K 3.0009348260072e-05 + Mg 0.00037011529519641 + Mn(2) 1.0190683433211e-11 + Mn(3) 3.2686738915108e-22 + Mn(6) 4.5726519345523e-25 + Mn(7) 1.23978602963e-19 + Na 0.00096029914432254 + Ni 1.9674020634472e-10 + O(0) 0.00044003708703167 + S(6) 0.0015409792274342 Si 0.00040012464346923 - Sr 2.7008413433409e-06 - Zn 1.5333254123438e-13 - -pH 5.682253066557 - -pe 14.923547623531 - -mu 0.0063911131184854 - -ah2o 0.99987096049405 + Sr 2.7008413433402e-06 + Zn 1.5333254179392e-13 + -pH 5.682253066062 + -pe 14.923547624021 + -mu 0.0063911131186409 + -ah2o 0.99987096049404 -mass_water 1.0000177897041 -soln_vol 1.0029836002518 - -total_alkalinity 0.00049113328754082 + -total_alkalinity 0.00049113328708266 -activities - Al -8.7241120762694 - C(-4) -143.13433696454 - C(4) -7.9945934858085 - Ca -3.1260715404987 - Cd -8.5886273160525 - Cl -3.3558768822543 - Co -8.8124913837013 - Cu(1) -21.215193604103 - Cu(2) -9.0116465531882 - E -14.923547623531 - F -4.9525700747901 - Fe(2) -14.059138688918 - Fe(3) -12.155590709972 - H(0) -44.361601380253 - K -4.5629105578116 - Mg -3.6400840947868 - Mn(2) -11.195995423767 - Mn(3) -21.782447444838 - Mn(6) -24.48400480298 - Mn(7) -18.944457067058 - Na -3.0562067099187 - Ni -9.9452310532061 - O(0) -3.6569093291538 - S(-2) -138.58375265093 - S(6) -3.0170652619945 - Si -3.3972069037755 - Sr -5.7680152931605 - Zn -13.038728436818 + Al -8.7241120762049 + C(-4) -143.13433696441 + C(4) -7.9945934867042 + Ca -3.1260715405043 + Cd -8.588627316061 + Cl -3.3558768822548 + Co -8.8124913835009 + Cu(1) -21.2151936039 + Cu(2) -9.0116465524993 + E -14.923547624021 + F -4.9525700748003 + Fe(2) -14.059138687923 + Fe(3) -12.155590708481 + H(0) -44.361601380244 + K -4.5629105578124 + Mg -3.6400840947958 + Mn(2) -11.195995422768 + Mn(3) -21.782447443343 + Mn(6) -24.484004803983 + Mn(7) -18.944457067569 + Na -3.0562067099193 + Ni -9.9452310522694 + O(0) -3.6569093291721 + S(-2) -138.58375264983 + S(6) -3.0170652619293 + Si -3.3972069037754 + Sr -5.7680152931678 + Zn -13.038728435228 -gammas SOLUTION_RAW 9 Solution after simulation 2. -temp 25 @@ -643,69 +652,70 @@ SOLUTION_RAW 9 Solution after simulation 2. -potential 0 -total_h 111.01624284547 -total_o 55.521378766947 - -cb 5.8189471301544e-05 - -density 0.99745511242601 + -cb 5.8189471308811e-05 + -density 0.99745511242602 -viscosity 0.89002391823787 + -viscos_0 0.89002391823787 -totals - Al 1.8005609164062e-06 - C(4) 0.0025877589449369 - Ca 0.0011855800656024 - Cd 4.5014022388746e-09 - Cl 0.00048014957216092 - Co 2.5595372127364e-09 - Cu(1) 1.2699790491182e-21 - Cu(2) 8.7317667437067e-09 - F 1.5804923442137e-05 - Fe(2) 1.1871413917611e-13 - Fe(3) 1.1458494289182e-06 - K 3.0009348260074e-05 - Mg 0.00037011529519285 - Mn(2) 8.6579070295638e-11 - Mn(3) 8.188852327362e-21 - Mn(7) 4.244282254322e-20 - Na 0.0009602991443227 - Ni 1.8837275935664e-10 - O(0) 0.0004400371634691 - S(6) 0.0016868752403407 + Al 1.8005609167341e-06 + C(4) 0.0025877589449362 + Ca 0.0011855800656099 + Cd 4.5014022388669e-09 + Cl 0.00048014957216083 + Co 2.5595372141214e-09 + Cu(1) 1.2699790492369e-21 + Cu(2) 8.7317667490232e-09 + F 1.5804923442542e-05 + Fe(2) 1.1871413930112e-13 + Fe(3) 1.1458494295322e-06 + K 3.0009348260069e-05 + Mg 0.0003701152951923 + Mn(2) 8.6579070385895e-11 + Mn(3) 8.1888523403766e-21 + Mn(7) 4.2442822522038e-20 + Na 0.00096029914432256 + Ni 1.883727598295e-10 + O(0) 0.00044003716348865 + S(6) 0.0016868752403942 Si 0.00040012464346874 - Sr 2.7008413433205e-06 - Zn 1.5579957337971e-13 - -pH 5.2164806960398 - -pe 15.389322536332 - -mu 0.0064731902052624 + Sr 2.7008413433161e-06 + Zn 1.5579957403771e-13 + -pH 5.2164806958085 + -pe 15.389322536569 + -mu 0.0064731902053135 -ah2o 0.99986864825564 -mass_water 1.0000180720976 -soln_vol 1.0029838834796 - -total_alkalinity 0.00018578611731705 + -total_alkalinity 0.00018578611721787 -activities - Al -8.7035419582318 - C(-4) -143.07614724833 - C(4) -8.8679311879966 - Ca -3.131562638395 - Cd -8.5936286905875 - Cl -3.3560945523016 - Co -8.8084281290565 - Cu(1) -20.96050373532 - Cu(2) -8.2911813073796 - E -15.389322536332 - F -4.9577671500515 - Fe(2) -13.127593477198 - Fe(3) -10.758270196943 - H(0) -44.361606464827 - K -4.5634019363415 - Mg -3.6454835848607 - Mn(2) -10.264453758655 - Mn(3) -20.385130478418 - Mn(6) -25.41554672591 - Mn(7) -19.410223948397 - Na -3.056549222859 - Ni -9.9421201929438 - O(0) -3.6569011686712 - S(-2) -137.61307720385 - S(6) -2.9779185902441 + Al -8.7035419581327 + C(-4) -143.07614724835 + C(4) -8.8679311884422 + Ca -3.1315626383941 + Cd -8.5936286905903 + Cl -3.3560945523018 + Co -8.8084281288239 + Cu(1) -20.960503735279 + Cu(2) -8.2911813071029 + E -15.389322536569 + F -4.9577671500612 + Fe(2) -13.12759347674 + Fe(3) -10.758270196247 + H(0) -44.361606464837 + K -4.5634019363418 + Mg -3.6454835848635 + Mn(2) -10.264453758202 + Mn(3) -20.385130477726 + Mn(6) -25.415546726364 + Mn(7) -19.410223948615 + Na -3.0565492228592 + Ni -9.9421201918496 + O(0) -3.6569011686519 + S(-2) -137.61307720341 + S(6) -2.9779185902308 Si -3.3971767284029 - Sr -5.7722896310389 - Zn -13.027800240513 + Sr -5.7722896310414 + Zn -13.027800238678 -gammas SOLUTION_RAW 10 Solution after simulation 2. -temp 25 @@ -713,69 +723,70 @@ SOLUTION_RAW 10 Solution after simulation 2. -potential 0 -total_h 111.01611755898 -total_o 55.521490952818 - -cb 6.2156871682459e-05 - -density 0.99746396418985 + -cb 6.2156871727252e-05 + -density 0.99746396418986 -viscosity 0.8900239182374 + -viscos_0 0.8900239182374 -totals - Al 1.8005609172466e-06 - C(4) 0.0025877589450151 - Ca 0.0011848938328358 - Cd 4.5014022388769e-09 - Cl 0.00048014957216101 - Co 2.6535979808662e-09 - Cu(1) 2.1093973085088e-21 - Cu(2) 3.3969534219047e-08 - F 1.5804923443069e-05 - Fe(2) 6.9283664152812e-13 - Fe(3) 2.840023603904e-06 - K 3.0009348260087e-05 - Mg 0.00037011529519162 - Mn(2) 9.8586360631907e-11 - Mn(3) 2.2621824930304e-20 - Mn(7) 3.4227086347565e-21 - Na 0.00096029914432314 - Ni 1.9757639455425e-10 - O(0) 0.00044003717575182 - S(6) 0.0017451860484992 + Al 1.8005609179779e-06 + C(4) 0.0025877589450134 + Ca 0.0011848938328424 + Cd 4.5014022388605e-09 + Cl 0.00048014957216083 + Co 2.6535979823265e-09 + Cu(1) 2.1093973076298e-21 + Cu(2) 3.3969534205284e-08 + F 1.5804923443973e-05 + Fe(2) 6.928366415458e-13 + Fe(3) 2.8400236039436e-06 + K 3.0009348260076e-05 + Mg 0.00037011529519042 + Mn(2) 9.8586360722922e-11 + Mn(3) 2.2621824951508e-20 + Mn(7) 3.422708637781e-21 + Na 0.00096029914432282 + Ni 1.9757639507342e-10 + O(0) 0.0004400371757516 + S(6) 0.0017451860484835 Si 0.00040012464346836 - Sr 2.7008413433168e-06 - Zn 1.7746420435787e-13 - -pH 4.8329646744463 - -pe 15.772839894503 - -mu 0.0065159627911594 + Sr 2.7008413433074e-06 + Zn 1.7746420510092e-13 + -pH 4.8329646744405 + -pe 15.772839894509 + -mu 0.0065159627911424 -ah2o 0.99986756401604 - -mass_water 1.0000178071931 + -mass_water 1.0000178071932 -soln_vol 1.002983617788 - -total_alkalinity 6.5569516530354e-05 + -total_alkalinity 6.5569516528989e-05 -activities - Al -8.6916231039838 + Al -8.6916231037757 C(-4) -143.05672007508 - C(4) -9.6155267349427 - Ca -3.1337124976372 - Cd -8.595722308888 - Cl -3.356207183991 - Co -8.7952616138024 - Cu(1) -20.740247500004 - Cu(2) -7.6874076059165 - E -15.772839894503 - F -4.9633008414398 - Fe(2) -12.360561357764 - Fe(3) -9.6077214498349 + C(4) -9.6155267349545 + Ca -3.133712497634 + Cd -8.5957223088887 + Cl -3.3562071839911 + Co -8.7952616135627 + Cu(1) -20.740247500185 + Cu(2) -7.6874076060916 + E -15.772839894509 + F -4.9633008414564 + Fe(2) -12.360561357752 + Fe(3) -9.6077214498173 H(0) -44.361609137899 - K -4.5636215998803 - Mg -3.6476851142067 - Mn(2) -10.207460869506 - Mn(3) -19.944620970514 - Mn(6) -26.892613993901 - Mn(7) -20.503774094932 + K -4.5636215998804 + Mg -3.6476851142073 + Mn(2) -10.207460869104 + Mn(3) -19.944620970107 + Mn(6) -26.892613993523 + Mn(7) -20.503774094548 Na -3.0567110028467 - Ni -9.9174590030761 - O(0) -3.6568967642549 - S(-2) -136.8316454151 - S(6) -2.9635096039547 + Ni -9.9174590019341 + O(0) -3.6568967642552 + S(-2) -136.83164541509 + S(6) -2.9635096039588 Si -3.3971655932921 - Sr -5.7740712260963 - Zn -12.970156375023 + Sr -5.7740712260971 + Zn -12.970156373204 -gammas SOLUTION_RAW 11 Solution after simulation 2. -temp 25 @@ -786,6 +797,7 @@ SOLUTION_RAW 11 Solution after simulation 2. -cb -0.0035729937652329 -density 1.0120585190113 -viscosity 0.89002391717293 + -viscos_0 0.89002391717293 -totals Al 0.01065863032004 C(4) 0.045348940402004 @@ -864,14 +876,14 @@ EQUILIBRIUM_PHASES_RAW 1 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0271396400641 + -moles 1.0271396400639 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0271393242006 + -initial_moles 1.0271393242004 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -888,14 +900,14 @@ EQUILIBRIUM_PHASES_RAW 1 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 2.0854025408533e-05 + -moles 2.0854025408546e-05 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 2.0753994259819e-05 + -initial_moles 2.0753994259832e-05 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -938,14 +950,14 @@ EQUILIBRIUM_PHASES_RAW 2 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0635339264523 + -moles 1.0635339264531 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0635339286787 + -initial_moles 1.0635339286796 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -962,14 +974,14 @@ EQUILIBRIUM_PHASES_RAW 2 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 4.4105130199274e-06 + -moles 4.4105130198154e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 4.410513023611e-06 + -initial_moles 4.4105130234989e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1012,14 +1024,14 @@ EQUILIBRIUM_PHASES_RAW 3 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0632654560659 + -moles 1.0632654560742 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0632654603903 + -initial_moles 1.0632654603987 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1036,14 +1048,14 @@ EQUILIBRIUM_PHASES_RAW 3 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 8.6058107754655e-06 + -moles 8.6058107751869e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 8.605810784474e-06 + -initial_moles 8.6058107841954e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1086,14 +1098,14 @@ EQUILIBRIUM_PHASES_RAW 4 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0620786595297 + -moles 1.062078659264 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0620786670151 + -initial_moles 1.0620786667493 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1110,14 +1122,14 @@ EQUILIBRIUM_PHASES_RAW 4 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 2.5097776127962e-06 + -moles 2.5097776126939e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 2.5097776338557e-06 + -initial_moles 2.5097776337534e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1160,14 +1172,14 @@ EQUILIBRIUM_PHASES_RAW 5 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0630948700643 + -moles 1.0630948707712 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0630948827465 + -initial_moles 1.0630948834534 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1184,14 +1196,14 @@ EQUILIBRIUM_PHASES_RAW 5 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 4.7103038551512e-06 + -moles 4.7103038548603e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 4.7103039033237e-06 + -initial_moles 4.7103039030328e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1234,14 +1246,14 @@ EQUILIBRIUM_PHASES_RAW 6 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0602241567201 + -moles 1.0602241565986 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0602241789512 + -initial_moles 1.0602241788296 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1258,14 +1270,14 @@ EQUILIBRIUM_PHASES_RAW 6 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 6.6923783199375e-06 + -moles 6.6923783197998e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 6.6923784094356e-06 + -initial_moles 6.6923784092979e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1308,14 +1320,14 @@ EQUILIBRIUM_PHASES_RAW 7 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0627672305352 + -moles 1.0627672306939 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0627672725105 + -initial_moles 1.0627672726692 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1332,14 +1344,14 @@ EQUILIBRIUM_PHASES_RAW 7 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 7.707436952171e-06 + -moles 7.7074369523721e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 7.7074367204525e-06 + -initial_moles 7.7074367206536e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1382,14 +1394,14 @@ EQUILIBRIUM_PHASES_RAW 8 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0604501032028 + -moles 1.0604501032898 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0604502126633 + -initial_moles 1.0604502127503 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1406,14 +1418,14 @@ EQUILIBRIUM_PHASES_RAW 8 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 2.2018682526595e-06 + -moles 2.2018682525974e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 2.2018626095016e-06 + -initial_moles 2.2018626094394e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1456,14 +1468,14 @@ EQUILIBRIUM_PHASES_RAW 9 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.0628440243763 + -moles 1.0628440243143 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0628445489316 + -initial_moles 1.0628445488696 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1480,14 +1492,14 @@ EQUILIBRIUM_PHASES_RAW 9 Pure-phase assemblage after simulation 2. -component Pyrolusite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 3.7020406039672e-06 + -moles 3.7020406038261e-06 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 3.7021283936839e-06 + -initial_moles 3.7021283935429e-06 -totals -component SiO2(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1530,14 +1542,14 @@ EQUILIBRIUM_PHASES_RAW 10 Pure-phase assemblage after simulation 2. -component Fe(OH)3(a) # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 1.051442189701 + -moles 1.0514421896702 -force_equality 0 -dissolve_only 0 -precipitate_only 0 # PPassemblage workspace variables # -si_org 0 -delta 0 - -initial_moles 1.0514441340451 + -initial_moles 1.0514441340142 -totals -component Gypsum # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # @@ -1600,52 +1612,52 @@ SURFACE_RAW 1 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.78111806407608 - -charge_balance 0.0011723023280895 + -la -0.78111806407908 + -charge_balance 0.0011723023280567 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00039035055359343 - Co 1.8561857639945e-05 - Cu 0.00028159936762488 - H 0.00063262442758838 - Mn 1.5882256432109e-20 - Ni 4.4936068923412e-05 - O 0.00097200004500381 - Surf_s 0.00097200004500381 - Zn 2.0391124970812e-05 + Ca 0.00039035055358226 + Co 1.856185763968e-05 + Cu 0.00028159936761648 + H 0.00063262442756827 + Mn 1.5882256431452e-20 + Ni 4.4936068922672e-05 + O 0.00097200004497527 + Surf_s 0.00097200004497527 + Zn 2.0391124970726e-05 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.16230238605697 - -charge_balance -0.00021850115837727 + -la -0.16230238605666 + -charge_balance -0.000218501158347 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 7.577394652955e-05 - Co 8.7017938173739e-06 - Cu 0.00024022545600748 - H 0.042603109067841 - Mn 1.617995507183e-13 - Ni 1.0082829613624e-05 - O 0.048982761530911 - S 0.0025962066925512 - Surf_w 0.038890001354595 - Zn 3.5516367208143e-06 + Ca 7.5773946529573e-05 + Co 8.7017938174852e-06 + Cu 0.00024022545600681 + H 0.042603109067402 + Mn 1.6179955071629e-13 + Ni 1.008282961373e-05 + O 0.048982761530341 + S 0.0025962066925043 + Surf_w 0.038890001354207 + Zn 3.5516367208953e-06 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.00095380116971225 + -charge_balance 0.00095380116970966 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.37438571044151 + -la_psi 0.37438571044069 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -1677,52 +1689,52 @@ SURFACE_RAW 2 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.58243797186305 - -charge_balance 0.0012145096805725 + -la -0.5824379718663 + -charge_balance 0.0012145096805522 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00053728483842325 - Co 7.4053245947985e-06 - Cu 5.5537612205407e-05 - H 0.00093759436802484 - Mn 3.2389533115172e-20 - Ni 2.3128672186069e-05 - O 0.00097200003223068 - Surf_s 0.00097200003223068 - Zn 1.1012249796591e-06 + Ca 0.00053728483841625 + Co 7.40532459486e-06 + Cu 5.5537612201362e-05 + H 0.00093759436800427 + Mn 3.2389533114357e-20 + Ni 2.3128672186321e-05 + O 0.00097200003220901 + Surf_s 0.00097200003220901 + Zn 1.101224979671e-06 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.17246010049643 - -charge_balance -0.00021359601611188 + -la -0.172460100495 + -charge_balance -0.00021359601609735 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 5.6757821879562e-05 - Co 2.1463160117995e-06 - Cu 2.9291173387183e-05 - H 0.043839931912809 - Mn 1.79566708977e-13 - Ni 3.2084868718783e-06 - O 0.050738046585046 - S 0.003058252953893 - Surf_w 0.038890002753413 - Zn 1.1858387016348e-07 + Ca 5.6757821880934e-05 + Co 2.146316011873e-06 + Cu 2.9291173385808e-05 + H 0.043839931912415 + Mn 1.7956670897917e-13 + Ni 3.2084868719963e-06 + O 0.050738046584467 + S 0.0030582529538143 + Surf_w 0.038890002753135 + Zn 1.1858387016782e-07 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0010009136644606 + -charge_balance 0.0010009136644548 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.38898318798877 + -la_psi 0.38898318798699 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -1754,52 +1766,52 @@ SURFACE_RAW 3 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.51398353230533 - -charge_balance 0.00115075440591 + -la -0.51398353231145 + -charge_balance 0.0011507544058367 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00051558473468323 - Co 2.0972293162374e-06 - Cu 2.7179428017008e-05 - H 0.001020319420459 - Mn 5.5608240511594e-20 - Ni 6.2653487928349e-06 - O 0.00097200004195263 - Surf_s 0.00097200004195263 - Zn 9.0772892479547e-08 + Ca 0.00051558473465923 + Co 2.0972293162573e-06 + Cu 2.7179428004786e-05 + H 0.0010203194203777 + Mn 5.5608240503061e-20 + Ni 6.265348792923e-06 + O 0.00097200004187235 + Surf_s 0.00097200004187235 + Zn 9.0772892477126e-08 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.19614884312796 - -charge_balance -7.9795699126284e-05 + -la -0.19614884312172 + -charge_balance -7.9795699070868e-05 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 3.6377927092068e-05 - Co 4.9164576822286e-07 - Cu 1.1594357796862e-05 - H 0.045253381734782 - Mn 2.0590981656619e-13 - Ni 7.0299403295462e-07 - O 0.053684208042497 - S 0.0038411476151292 - Surf_w 0.038890003298309 - Zn 7.9061046740764e-09 + Ca 3.6377927095871e-05 + Co 4.9164576828152e-07 + Cu 1.1594357792922e-05 + H 0.045253381734454 + Mn 2.0590981656572e-13 + Ni 7.0299403304171e-07 + O 0.053684208041622 + S 0.0038411476149094 + Surf_w 0.03889000329826 + Zn 7.9061046747338e-09 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0010709587067837 + -charge_balance 0.0010709587067658 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.40990894876781 + -la_psi 0.40990894876256 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -1831,52 +1843,52 @@ SURFACE_RAW 4 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.47043212690833 - -charge_balance 0.0010679768395011 + -la -0.47043212694446 + -charge_balance 0.0010679768383715 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00045848070235954 - Co 6.3045220817383e-07 - Cu 1.7558075567706e-05 - H 0.0010838622633879 - Mn 1.0300121273572e-19 - Ni 1.3757530657076e-06 - O 0.00097200004781262 - Surf_s 0.00097200004781262 - Zn 1.2328761775752e-08 + Ca 0.00045848070189515 + Co 6.3045220787466e-07 + Cu 1.7558075546486e-05 + H 0.001083862262128 + Mn 1.0300121258959e-19 + Ni 1.3757530653813e-06 + O 0.00097200004670984 + Surf_s 0.00097200004670984 + Zn 1.2328761771733e-08 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.23579287369103 - -charge_balance 8.2814211288035e-05 + -la -0.23579287366434 + -charge_balance 8.281421234104e-05 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 2.0634191429414e-05 - Co 1.2202901747656e-07 - Cu 6.1842616830404e-06 - H 0.046979905843342 - Mn 2.4328130269836e-13 - Ni 1.2745340241473e-07 - O 0.057741990127702 - S 0.0049404579849161 - Surf_w 0.038890003069092 - Zn 8.8660546775553e-10 + Ca 2.0634191423647e-05 + Co 1.2202901749418e-07 + Cu 6.1842616793942e-06 + H 0.046979905811854 + Mn 2.4328130253163e-13 + Ni 1.2745340246339e-07 + O 0.057741990085618 + S 0.0049404579805939 + Surf_w 0.038890003043415 + Zn 8.8660546801531e-10 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0011507910507891 + -charge_balance 0.0011507910507126 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.43256432572803 + -la_psi 0.4325643257065 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -1908,52 +1920,52 @@ SURFACE_RAW 5 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.44901065491395 - -charge_balance 0.0009857821296372 + -la -0.44901065489201 + -charge_balance 0.00098578213094838 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.0003848424142772 - Co 2.0454940092998e-07 - Cu 1.2735482238656e-05 - H 0.0011616497295189 - Mn 2.0751219271836e-19 - Ni 2.8188997657708e-07 - O 0.0009720000402601 - Surf_s 0.0009720000402601 - Zn 1.8842958138945e-09 + Ca 0.0003848424147805 + Co 2.0454940117414e-07 + Cu 1.2735482253098e-05 + H 0.0011616497311305 + Mn 2.0751219301774e-19 + Ni 2.8188997691604e-07 + O 0.00097200004159709 + Surf_s 0.00097200004159709 + Zn 1.8842958156234e-09 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.29827101213767 - -charge_balance 0.00025124731426572 + -la -0.29827101214739 + -charge_balance 0.0002512473130017 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 1.031001782412e-05 - Co 3.263694854391e-08 - Cu 3.6976579062833e-06 - H 0.048840679720494 - Mn 2.9175620755247e-13 - Ni 2.152736965823e-08 - O 0.062906341297696 - S 0.0063841872389211 - Surf_w 0.038890002851553 - Zn 1.117018634319e-10 + Ca 1.0310017832657e-05 + Co 3.2636948567244e-08 + Cu 3.6976579087066e-06 + H 0.048840679767443 + Mn 2.9175620783342e-13 + Ni 2.1527369673811e-08 + O 0.062906341361394 + S 0.006384187245829 + Surf_w 0.038890002889265 + Zn 1.1170186348092e-10 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0012370294439029 + -charge_balance 0.0012370294439501 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.45557327086034 + -la_psi 0.45557327087303 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -1985,52 +1997,52 @@ SURFACE_RAW 6 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.45773649162239 - -charge_balance 0.00091358430099931 + -la -0.45773649162905 + -charge_balance 0.00091358429974445 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00029690076098394 - Co 6.703626228268e-08 - Cu 9.7272522126277e-06 - H 0.0012720781793722 - Mn 4.6128676468125e-19 - Ni 5.7752121704131e-08 - O 0.00097200006819232 - Surf_s 0.00097200006819232 - Zn 2.9332916713398e-10 + Ca 0.00029690076060546 + Co 6.7036262231852e-08 + Cu 9.7272521944338e-06 + H 0.0012720781775235 + Mn 4.6128676393229e-19 + Ni 5.7752121675941e-08 + O 0.00097200006680499 + Surf_s 0.00097200006680499 + Zn 2.9332916698346e-10 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.39668596647287 - -charge_balance 0.00042055880618766 + -la -0.39668596643533 + -charge_balance 0.00042055880737575 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 4.296069776804e-06 - Co 8.7002555166362e-09 - Cu 2.2972718592112e-06 - H 0.050514954692398 - Mn 3.5029263783391e-13 - Ni 3.5874855468048e-09 - O 0.06924670067945 - S 0.0082492983868616 - Surf_w 0.038890003863777 - Zn 1.4144169923447e-11 + Ca 4.296069773913e-06 + Co 8.7002555144094e-09 + Cu 2.2972718560682e-06 + H 0.050514954640836 + Mn 3.5029263747598e-13 + Ni 3.5874855468555e-09 + O 0.069246700604009 + S 0.0082492983771639 + Surf_w 0.038890003823844 + Zn 1.4144169923293e-11 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.001334143107187 + -charge_balance 0.0013341431071202 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.47974591898937 + -la_psi 0.47974591897216 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2062,52 +2074,52 @@ SURFACE_RAW 7 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.51972990029337 - -charge_balance 0.00086477071187337 + -la -0.51972990046178 + -charge_balance 0.00086477071297603 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 0.00019487486314285 - Co 1.9698878223503e-08 - Cu 7.6151229963581e-06 - H 0.0014317278552181 - Mn 1.1685894239359e-18 - Ni 1.1714979704634e-08 - O 0.00097200003551365 - Surf_s 0.00097200003551365 - Zn 4.608730200454e-11 + Ca 0.00019487486320355 + Co 1.9698878210939e-08 + Cu 7.6151229922622e-06 + H 0.001431727857536 + Mn 1.1685894276981e-18 + Ni 1.1714979706936e-08 + O 0.00097200003684204 + Surf_s 0.00097200003684204 + Zn 4.6087302020677e-11 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.55736586670212 - -charge_balance 0.00059003386302326 + -la -0.55736586708667 + -charge_balance 0.00059003386222788 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 1.3142738903518e-06 - Co 2.0369352440013e-09 - Cu 1.4328893323959e-06 - H 0.051283230920234 - Mn 4.1361093160338e-13 - Ni 5.7979874065769e-10 - O 0.076761937624859 - S 0.010655862638705 - Surf_w 0.038890002795998 - Zn 1.7705859432468e-12 + Ca 1.3142738899693e-06 + Co 2.0369352437348e-09 + Cu 1.4328893323516e-06 + H 0.051283231040446 + Mn 4.1361093268574e-13 + Ni 5.7979874106557e-10 + O 0.076761937825214 + S 0.010655862669952 + Surf_w 0.038890002888218 + Zn 1.7705859447644e-12 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0014548045748966 + -charge_balance 0.0014548045752039 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.50772959986465 + -la_psi 0.50772959993346 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2139,52 +2151,52 @@ SURFACE_RAW 8 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.68593434204239 - -charge_balance 0.00086396523207367 + -la -0.68593434231923 + -charge_balance 0.00086396523156266 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 9.5035925692339e-05 - Co 4.2423582850372e-09 - Cu 6.0041588574162e-06 - H 0.0016338724481851 - Mn 3.4511507171599e-18 - Ni 2.1128451760829e-09 - O 0.00097200010982151 - Surf_s 0.00097200010982151 - Zn 7.1018303015807e-12 + Ca 9.5035925538555e-05 + Co 4.2423582760521e-09 + Cu 6.0041588514536e-06 + H 0.001633872447375 + Mn 3.4511507195605e-18 + Ni 2.1128451751903e-09 + O 0.00097200010920292 + Surf_s 0.00097200010920292 + Zn 7.1018303092729e-12 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.82485616644875 - -charge_balance 0.00074819306029966 + -la -0.82485616682539 + -charge_balance 0.0007481930609878 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 2.4393664626073e-07 - Co 3.4742191152902e-10 - Cu 8.9475067764377e-07 - H 0.049791838016917 - Mn 4.6489316959987e-13 - Ni 8.2816626544487e-11 - O 0.084712819721474 - S 0.013581618524432 - Surf_w 0.03889000510325 - Zn 2.160827768864e-13 + Ca 2.4393664560358e-07 + Co 3.4742191075791e-10 + Cu 8.9475067666433e-07 + H 0.049791837988765 + Mn 4.6489316942313e-13 + Ni 8.2816626501088e-11 + O 0.084712819685596 + S 0.013581618520574 + Surf_w 0.038890005083487 + Zn 2.160827770985e-13 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0016121582923733 + -charge_balance 0.0016121582925505 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.54194315553982 + -la_psi 0.54194315557579 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2216,52 +2228,52 @@ SURFACE_RAW 9 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.99045690528737 - -charge_balance 0.00090644708590476 + -la -0.99045690546136 + -charge_balance 0.00090644708595349 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 3.4349262096411e-05 - Co 6.2430567601664e-10 - Cu 4.5987955782371e-06 - H 0.0018005491509203 - Mn 1.0790120420835e-17 - Ni 3.1024530613407e-10 - O 0.00097200005159033 - Surf_s 0.00097200005159033 - Zn 1.0617570955208e-12 + Ca 3.4349262079551e-05 + Co 6.2430567574857e-10 + Cu 4.598795576729e-06 + H 0.001800549151034 + Mn 1.0790120426773e-17 + Ni 3.1024530661636e-10 + O 0.00097200005161854 + Surf_s 0.00097200005161854 + Zn 1.0617570989823e-12 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -1.2074615254899 - -charge_balance 0.00086624194806466 + -la -1.2074615256932 + -charge_balance 0.00086624194808493 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 2.9337954763487e-08 - Co 4.2713419783876e-11 - Cu 5.725470292578e-07 - H 0.045995508652624 - Mn 4.8365837716508e-13 - Ni 1.0159498722393e-11 - O 0.090727770332887 - S 0.016239177966376 - Surf_w 0.038890002286221 - Zn 2.6989338015859e-14 + Ca 2.9337954732551e-08 + Co 4.2713419761624e-11 + Cu 5.7254702901762e-07 + H 0.045995508650896 + Mn 4.8365837715865e-13 + Ni 1.0159498737256e-11 + O 0.090727770335521 + S 0.016239177967514 + Surf_w 0.038890002286414 + Zn 2.6989338101378e-14 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0017726890339694 + -charge_balance 0.0017726890340384 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.57493233311852 + -la_psi 0.57493233313169 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2293,52 +2305,52 @@ SURFACE_RAW 10 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -1.3029922589807 - -charge_balance 0.00093768317677568 + -la -1.3029922589809 + -charge_balance 0.00093768317691541 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_s -totals - Ca 1.4182292171576e-05 - Co 1.1961057184564e-10 - Cu 3.4326029753291e-06 - H 0.0018744532047729 - Mn 5.1050271511426e-18 - Ni 6.1034048355394e-11 - O 0.00097200018003099 - Surf_s 0.00097200018003099 - Zn 2.2535894739504e-13 + Ca 1.4182292173472e-05 + Co 1.1961057192653e-10 + Cu 3.4326029743712e-06 + H 0.0018744532050558 + Mn 5.1050271565091e-18 + Ni 6.1034048523454e-11 + O 0.00097200018017604 + Surf_s 0.00097200018017604 + Zn 2.2535894836703e-13 -component Surf_w # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -1.5566129242053 - -charge_balance 0.00092428154693688 + -la -1.5566129242088 + -charge_balance 0.00092428154680655 -phase_proportion 0 -Dw 0 -charge_name Surf -master_element Surf_w -totals - Ca 4.9873485187815e-09 - Co 7.5217795671229e-12 - Cu 3.9280283152782e-07 - H 0.043201629881431 - Mn 9.4215280652792e-14 - Ni 1.8370594569106e-12 - O 0.093368345696603 - S 0.01759475637864 - Surf_w 0.038890009187597 - Zn 5.2653329732068e-15 + Ca 4.9873485192964e-09 + Co 7.5217795719975e-12 + Cu 3.9280283140715e-07 + H 0.043201629886759 + Mn 9.4215280748962e-14 + Ni 1.8370594619173e-12 + O 0.093368345709 + S 0.017594756381028 + Surf_w 0.038890009192601 + Zn 5.2653329957683e-15 -charge_component Surf # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 17.3 - -charge_balance 0.0018619647237126 + -charge_balance 0.001861964723722 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.59230379016231 + -la_psi 0.59230379016473 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals diff --git a/mytest/kin_r_101.sel b/mytest/kin_r_101.sel index 475dfa5d..6cbee10c 100644 --- a/mytest/kin_r_101.sel +++ b/mytest/kin_r_101.sel @@ -1,23 +1,23 @@ Mu SC 0.000000155027 0.0510773043 0.000000100644 0.0547821292 - 0.000134321939 11.2936899071 - 0.000134321939 11.2936899071 + 0.000134321939 11.2936899174 + 0.000134321939 11.2936899174 0.000000136802 0.0557258540 0.000000142052 0.0561891445 0.000000194750 0.0610411788 0.000000685186 0.1050880584 0.000001567563 0.2027569294 - 0.000002852108 0.3923130457 - 0.000005386593 0.7811407975 - 0.000008560543 1.2515610283 - 0.000012256015 1.7645826100 - 0.000016383770 2.2965662681 - 0.000032371909 4.0590528330 - 0.000050338957 5.6849759483 - 0.000068534840 7.1080682054 - 0.000109846760 9.8685940346 - 0.000128869882 11.0033032052 - 0.000129828126 11.0588276324 - 0.000129834680 11.0592069528 - 0.000134321939 11.2936899071 + 0.000002852108 0.3923130458 + 0.000005386593 0.7811407976 + 0.000008560543 1.2515610285 + 0.000012256015 1.7645826103 + 0.000016383770 2.2965662686 + 0.000032371909 4.0590528343 + 0.000050338957 5.6849759508 + 0.000068534840 7.1080682093 + 0.000109846760 9.8685940422 + 0.000128869882 11.0033032147 + 0.000129828126 11.0588276421 + 0.000129834680 11.0592069625 + 0.000134321939 11.2936899174 diff --git a/mytest/kin_time.out b/mytest/kin_time.out index 7e1fd2eb..dcc33db2 100644 --- a/mytest/kin_time.out +++ b/mytest/kin_time.out @@ -422,7 +422,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.98215 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.809e-04 V. @@ -797,7 +797,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.98215 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.809e-04 V. @@ -1200,7 +1200,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.98215 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.809e-04 V. @@ -1575,7 +1575,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.98224 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.832e-04 V. diff --git a/mytest/kin_time_101.sel b/mytest/kin_time_101.sel index 0f3cd9be..532f1b53 100644 --- a/mytest/kin_time_101.sel +++ b/mytest/kin_time_101.sel @@ -1,7 +1,7 @@ Mu SC - 1.006616820822 84402.7500551818 - 1.006616820822 84402.7500551818 - 1.020101724460 83890.5580497609 - 1.020100607830 83890.5705977816 - 1.020101724558 83890.5580575637 - 1.020304464948 83888.5307727605 + 1.006616820822 84402.7593332986 + 1.006616820822 84402.7593332986 + 1.020101724460 83890.5672045213 + 1.020100607830 83890.5797525499 + 1.020101724558 83890.5672123240 + 1.020304464948 83888.5399264087 diff --git a/mytest/kinetic_rates_101.sel b/mytest/kinetic_rates_101.sel index 38b89a54..0fce4929 100644 --- a/mytest/kinetic_rates_101.sel +++ b/mytest/kinetic_rates_101.sel @@ -1,92 +1,92 @@ Mu SC 0.000000100661 0.0546997340 - 1.360612168980 475717.8607569690 - 0.410098469489 159070.2104842646 - 0.122379599295 49318.4765881620 - 0.036497908574 14982.5910770519 - 0.010985261082 4562.7481727114 - 0.003351280591 1403.7736680974 - 0.001035104260 436.1881441037 - 0.000322626371 136.4966601235 - 0.000101154249 42.9033454084 - 0.000031830147 13.5205746048 - 0.000010037541 4.2674103688 - 0.000003169472 1.3483949597 - 0.000001001783 0.4272830009 + 1.360612168980 475717.9255972660 + 0.410098469489 159070.2226331846 + 0.122379599295 49318.4786480267 + 0.036497908574 14982.5914176300 + 0.010985261082 4562.7482294274 + 0.003351280591 1403.7736777146 + 0.001035104260 436.1881457625 + 0.000322626371 136.4966604132 + 0.000101154249 42.9033454593 + 0.000031830147 13.5205746138 + 0.000010037541 4.2674103704 + 0.000003169472 1.3483949599 + 0.000001001783 0.4272830010 0.000000317047 0.1385586989 0.000000100748 0.0547033165 0.000000319682 0.0850534092 0.000001012756 0.2412979604 0.000003206863 0.7547499448 - 0.000010158840 2.3863150486 - 0.000032219430 7.5581575770 - 0.000102411321 23.9721730687 - 0.000326795649 76.2045374687 - 0.001049944140 243.1821370257 - 0.003412861700 781.0270838940 - 0.011308631280 2533.5152510776 - 0.038583779194 8327.6895228420 - 0.136622805272 27656.5146941542 - 0.497107457053 90420.8287487690 - 1.763786311989 271308.1208646849 - 1.360612168532 475717.8608065663 - 0.410098469224 159070.2105085291 - 0.122379599138 49318.4766001133 - 0.036497908481 14982.5910833036 - 0.010985261027 4562.7481762476 - 0.003351280558 1403.7736702060 - 0.001035104240 436.1881453923 - 0.000322626358 136.4966609158 - 0.000101154241 42.9033458803 - 0.000031830142 13.5205748324 - 0.000010037538 4.2674103764 - 0.000003169470 1.3483948304 + 0.000010158840 2.3863150488 + 0.000032219430 7.5581575783 + 0.000102411321 23.9721730759 + 0.000326795649 76.2045375094 + 0.001049944140 243.1821372569 + 0.003412861700 781.0270852143 + 0.011308631280 2533.5152586851 + 0.038583779194 8327.6895669647 + 0.136622805272 27656.5149449753 + 0.497107457053 90420.8299671057 + 1.763786311989 271308.1240123467 + 1.360612168532 475717.9256468632 + 0.410098469224 159070.2226574492 + 0.122379599138 49318.4786599780 + 0.036497908481 14982.5914238817 + 0.010985261027 4562.7482329636 + 0.003351280558 1403.7736798232 + 0.001035104240 436.1881470511 + 0.000322626358 136.4966612054 + 0.000101154241 42.9033459312 + 0.000031830142 13.5205748415 + 0.000010037538 4.2674103780 + 0.000003169470 1.3483948307 0.000001001781 0.4272828179 - 0.000000317045 0.1385585019 + 0.000000317045 0.1385585020 0.000000100746 0.0547030690 0.000000319677 0.0850529549 0.000001012746 0.2412970798 0.000003206842 0.7547481919 - 0.000010158790 2.3863113262 - 0.000032219294 7.5581488657 - 0.000102410944 23.9721518731 - 0.000326794738 76.2044894535 - 0.001049942179 243.1820367664 - 0.003412857634 781.0268815274 - 0.011308622482 2533.5148388645 - 0.038583757519 8327.6886372249 - 0.136622746703 27656.5127815078 - 0.497107317999 90420.8258097291 - 1.763786035172 271308.1203881076 - 1.360612168860 475717.8607703280 - 0.410098469481 159070.2104850028 - 0.122379599340 49318.4765847635 - 0.036497908640 14982.5910726082 - 0.010985261154 4562.7481681029 - 0.003351280662 1403.7736635820 - 0.001035104327 436.1881398086 - 0.000322626433 136.4966561672 - 0.000101154306 42.9033420365 - 0.000031830197 13.5205724531 - 0.000010037578 4.2674102857 - 0.000003169495 1.3483962724 + 0.000010158790 2.3863113264 + 0.000032219294 7.5581488669 + 0.000102410944 23.9721518803 + 0.000326794738 76.2044894942 + 0.001049942179 243.1820369975 + 0.003412857634 781.0268828477 + 0.011308622482 2533.5148464720 + 0.038583757519 8327.6886813476 + 0.136622746703 27656.5130323289 + 0.497107317999 90420.8270280655 + 1.763786035172 271308.1235357693 + 1.360612168860 475717.9256106249 + 0.410098469481 159070.2226339229 + 0.122379599340 49318.4786446282 + 0.036497908640 14982.5914131863 + 0.010985261154 4562.7482248190 + 0.003351280662 1403.7736731992 + 0.001035104327 436.1881414674 + 0.000322626433 136.4966564568 + 0.000101154306 42.9033420875 + 0.000031830197 13.5205724621 + 0.000010037578 4.2674102873 + 0.000003169495 1.3483962727 0.000001001798 0.4272843888 0.000000317057 0.1385596286 0.000000100755 0.0547039494 0.000000319688 0.0850539411 0.000001012759 0.2412982566 - 0.000003206860 0.7547496647 - 0.000010158817 2.3863133429 - 0.000032219343 7.5581519854 - 0.000102411036 23.9721570041 - 0.000326794890 76.2044974591 - 0.001049942407 243.1820484527 - 0.003412857969 781.0268982032 - 0.011308622998 2533.5148630703 - 0.038583758429 8327.6886743782 - 0.136622748493 27656.5128401901 - 0.497107320996 90420.8258730943 - 1.763786039499 271308.1203974175 + 0.000003206860 0.7547496648 + 0.000010158817 2.3863133431 + 0.000032219343 7.5581519867 + 0.000102411036 23.9721570113 + 0.000326794890 76.2044974998 + 0.001049942407 243.1820486838 + 0.003412857969 781.0268995235 + 0.011308622998 2533.5148706778 + 0.038583758429 8327.6887185009 + 0.136622748493 27656.5130910111 + 0.497107320996 90420.8270914307 + 1.763786039499 271308.1235450791 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 diff --git a/mytest/kinetic_rates_plus.out b/mytest/kinetic_rates_plus.out index a2bcf84b..dac14c81 100644 --- a/mytest/kinetic_rates_plus.out +++ b/mytest/kinetic_rates_plus.out @@ -20054,7 +20054,7 @@ Kinetics 1. Specific Conductance (µS/cm, 25°C) = 195 Density (g/cm³) = 0.99718 Volume (L) = 1.00298 - Viscosity (mPa s) = 0.89170 + Viscosity (mPa s) = 0.89169 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.026e-03 Mass of water (kg) = 1.000e+00 @@ -27346,10 +27346,10 @@ X_montm_mg 1.000e-02 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Equiv- Equivalent Log Species Moles alents Fraction Gamma - Na0.34X_montm_mg 3.995e-03 1.358e-03 3.995e-01 0.000 - Ca0.17X_montm_mg 3.002e-03 1.021e-03 3.002e-01 0.000 - K0.34X_montm_mg 2.002e-03 6.808e-04 2.002e-01 0.000 - Mg0.17X_montm_mg 1.000e-03 3.401e-04 1.000e-01 0.000 + Na0.34X_montm_mg 3.995e-03 1.358e-03 3.995e-01 -0.000 + Ca0.17X_montm_mg 3.002e-03 1.021e-03 3.002e-01 -0.000 + K0.34X_montm_mg 2.002e-03 6.808e-04 2.002e-01 -0.000 + Mg0.17X_montm_mg 1.000e-03 3.401e-04 1.000e-01 -0.000 -----------------------------Solution composition------------------------------ @@ -27782,7 +27782,7 @@ Al 3.605e-07 Ca 2.164e-09 Ca+2 2.164e-09 2.156e-09 -8.665 -8.666 -0.001 -18.25 CaOH+ 5.887e-15 5.882e-15 -14.230 -14.230 -0.000 (0) -H(0) 9.600e-14 +H(0) 9.601e-14 H2 4.800e-14 4.800e-14 -13.319 -13.319 0.000 28.61 K 1.137e-09 K+ 1.137e-09 1.136e-09 -8.944 -8.945 -0.000 8.98 @@ -27913,7 +27913,7 @@ Kinetics 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Kaolinite -0.00 7.43 7.43 0.000e+00 1.611e-07 1.611e-07 +Kaolinite 0.00 7.44 7.43 0.000e+00 1.611e-07 1.611e-07 -----------------------------Exchange composition------------------------------ @@ -28033,7 +28033,7 @@ Si 2.889e-06 Jadeite -8.14 -0.58 7.56 NaAl(SiO3)2 K-feldspar -10.81 -31.38 -20.57 KAlSi3O8 K-mica -2.90 9.80 12.70 KAl3Si3O10(OH)2 - Kaolinite -0.00 7.43 7.43 Al2Si2O5(OH)4 + Kaolinite 0.00 7.44 7.43 Al2Si2O5(OH)4 Kyanite -2.96 12.98 15.94 Al2SiO5 Labradorite -30.34 -30.34 0.00 Na0.4Ca0.6Si2.4Al1.6O8 Larnite(alpha) -31.54 7.51 39.04 Ca2SiO4 @@ -28105,7 +28105,7 @@ Kinetics 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Kaolinite 0.00 7.44 7.43 1.611e-07 1.122e-06 9.613e-07 +Kaolinite -0.00 7.43 7.43 1.611e-07 1.122e-06 9.613e-07 -----------------------------Exchange composition------------------------------ @@ -28114,10 +28114,10 @@ X_montm_mg 9.998e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Equiv- Equivalent Log Species Moles alents Fraction Gamma - Na0.34X_montm_mg 3.989e-03 1.356e-03 3.990e-01 0.000 - Ca0.17X_montm_mg 3.002e-03 1.021e-03 3.002e-01 0.000 - K0.34X_montm_mg 2.002e-03 6.808e-04 2.003e-01 0.000 - Mg0.17X_montm_mg 1.005e-03 3.416e-04 1.005e-01 0.000 + Na0.34X_montm_mg 3.989e-03 1.356e-03 3.990e-01 -0.000 + Ca0.17X_montm_mg 3.002e-03 1.021e-03 3.002e-01 -0.000 + K0.34X_montm_mg 2.002e-03 6.808e-04 2.003e-01 -0.000 + Mg0.17X_montm_mg 1.005e-03 3.416e-04 1.005e-01 -0.000 -----------------------------Solution composition------------------------------ @@ -28166,7 +28166,7 @@ Al 1.489e-06 Ca 6.340e-08 Ca+2 6.340e-08 6.292e-08 -7.198 -7.201 -0.003 -18.25 CaOH+ 9.835e-13 9.816e-13 -12.007 -12.008 -0.001 (0) -H(0) 8.382e-14 +H(0) 8.383e-14 H2 4.191e-14 4.191e-14 -13.378 -13.378 0.000 28.61 K 6.151e-09 K+ 6.151e-09 6.140e-09 -8.211 -8.212 -0.001 8.98 @@ -28225,7 +28225,7 @@ Si 7.276e-06 Jadeite -6.64 0.92 7.56 NaAl(SiO3)2 K-feldspar -8.90 -29.47 -20.57 KAlSi3O8 K-mica -1.79 10.91 12.70 KAl3Si3O10(OH)2 - Kaolinite 0.00 7.44 7.43 Al2Si2O5(OH)4 + Kaolinite -0.00 7.43 7.43 Al2Si2O5(OH)4 Kyanite -3.36 12.58 15.94 Al2SiO5 Labradorite -28.24 -28.24 0.00 Na0.4Ca0.6Si2.4Al1.6O8 Larnite(alpha) -26.70 12.35 39.04 Ca2SiO4 @@ -28306,10 +28306,10 @@ X_montm_mg 9.993e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Equiv- Equivalent Log Species Moles alents Fraction Gamma - Na0.34X_montm_mg 3.976e-03 1.352e-03 3.979e-01 0.000 - Ca0.17X_montm_mg 2.999e-03 1.020e-03 3.001e-01 0.000 - K0.34X_montm_mg 2.002e-03 6.808e-04 2.004e-01 0.000 - Mg0.17X_montm_mg 1.015e-03 3.452e-04 1.016e-01 0.000 + Na0.34X_montm_mg 3.976e-03 1.352e-03 3.979e-01 -0.000 + Ca0.17X_montm_mg 2.999e-03 1.020e-03 3.001e-01 -0.000 + K0.34X_montm_mg 2.002e-03 6.808e-04 2.004e-01 -0.000 + Mg0.17X_montm_mg 1.015e-03 3.452e-04 1.016e-01 -0.000 -----------------------------Solution composition------------------------------ @@ -28743,7 +28743,7 @@ Ca 2.295e-05 Ca+2 2.294e-05 2.183e-05 -4.639 -4.661 -0.022 -18.22 CaOH+ 1.008e-08 9.952e-09 -7.997 -8.002 -0.005 (0) H(0) 4.969e-14 - H2 2.484e-14 2.485e-14 -13.605 -13.605 0.000 28.61 + H2 2.485e-14 2.485e-14 -13.605 -13.605 0.000 28.61 K 1.324e-07 K+ 1.324e-07 1.308e-07 -6.878 -6.883 -0.005 8.99 Mg 1.193e-10 @@ -28752,7 +28752,7 @@ Mg 1.193e-10 Na 4.668e-05 Na+ 4.668e-05 4.610e-05 -4.331 -4.336 -0.005 -1.51 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.171 -65.170 0.000 30.40 + O2 0.000e+00 0.000e+00 -65.171 -65.171 0.000 30.40 Si 2.147e-04 H4SiO4 1.523e-04 1.523e-04 -3.817 -3.817 0.000 52.08 H3SiO4- 6.246e-05 6.168e-05 -4.204 -4.210 -0.005 27.95 @@ -29065,7 +29065,7 @@ Kinetics 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Kaolinite 0.00 7.44 7.43 1.231e-04 1.562e-04 3.301e-05 +Kaolinite -0.00 7.43 7.43 1.231e-04 1.562e-04 3.301e-05 -----------------------------Exchange composition------------------------------ @@ -29074,10 +29074,10 @@ X_montm_mg 9.811e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Equiv- Equivalent Log Species Moles alents Fraction Gamma - Na0.34X_montm_mg 3.756e-03 1.277e-03 3.828e-01 0.000 - Ca0.17X_montm_mg 2.675e-03 9.096e-04 2.727e-01 0.000 - K0.34X_montm_mg 2.002e-03 6.805e-04 2.040e-01 0.000 - Mg0.17X_montm_mg 1.378e-03 4.686e-04 1.405e-01 0.000 + Na0.34X_montm_mg 3.756e-03 1.277e-03 3.828e-01 -0.000 + Ca0.17X_montm_mg 2.675e-03 9.096e-04 2.727e-01 -0.000 + K0.34X_montm_mg 2.002e-03 6.805e-04 2.040e-01 -0.000 + Mg0.17X_montm_mg 1.378e-03 4.686e-04 1.405e-01 -0.000 -----------------------------Solution composition------------------------------ @@ -29126,7 +29126,7 @@ Al 1.414e-06 Ca 5.552e-05 Ca+2 5.548e-05 5.163e-05 -4.256 -4.287 -0.031 -18.20 CaOH+ 3.107e-08 3.052e-08 -7.508 -7.515 -0.008 (0) -H(0) 3.581e-14 +H(0) 3.580e-14 H2 1.790e-14 1.790e-14 -13.747 -13.747 0.000 28.61 K 2.509e-07 K+ 2.509e-07 2.464e-07 -6.600 -6.608 -0.008 8.99 @@ -29185,7 +29185,7 @@ Si 4.442e-04 Jadeite -1.93 5.64 7.56 NaAl(SiO3)2 K-feldspar -2.51 -23.08 -20.57 KAlSi3O8 K-mica 1.39 14.10 12.70 KAl3Si3O10(OH)2 - Kaolinite 0.00 7.44 7.43 Al2Si2O5(OH)4 + Kaolinite -0.00 7.43 7.43 Al2Si2O5(OH)4 Kyanite -4.96 10.97 15.94 Al2SiO5 Labradorite -22.07 -22.07 0.00 Na0.4Ca0.6Si2.4Al1.6O8 Larnite(alpha) -12.95 26.09 39.04 Ca2SiO4 @@ -29271,10 +29271,10 @@ X_montm_mg 9.784e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Equiv- Equivalent Log Species Moles alents Fraction Gamma - Na0.34X_montm_mg 3.728e-03 1.267e-03 3.810e-01 -0.000 - Ca0.17X_montm_mg 2.622e-03 8.916e-04 2.680e-01 -0.000 - K0.34X_montm_mg 2.001e-03 6.805e-04 2.046e-01 -0.000 - Mg0.17X_montm_mg 1.433e-03 4.871e-04 1.464e-01 -0.000 + Na0.34X_montm_mg 3.728e-03 1.267e-03 3.810e-01 0.000 + Ca0.17X_montm_mg 2.622e-03 8.916e-04 2.680e-01 0.000 + K0.34X_montm_mg 2.001e-03 6.805e-04 2.046e-01 0.000 + Mg0.17X_montm_mg 1.433e-03 4.871e-04 1.464e-01 0.000 -----------------------------Solution composition------------------------------ @@ -29290,7 +29290,7 @@ X_montm_mg 9.784e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor ----------------------------Description of solution---------------------------- pH = 9.567 Charge balance - pe = 9.202 Adjusted to redox equilibrium + pe = 8.649 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 19 Density (g/cm³) = 0.99708 Volume (L) = 1.00297 @@ -29300,9 +29300,9 @@ X_montm_mg 9.784e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.246e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.205e-12 + Electrical balance (eq) = -1.196e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 - Iterations = 177 (164 overall) + Iterations = 218 (205 overall) Total H = 1.110122e+02 Total O = 5.550720e+01 @@ -29323,8 +29323,8 @@ Al 1.301e-06 Ca 6.456e-05 Ca+2 6.452e-05 5.973e-05 -4.190 -4.224 -0.033 -18.19 CaOH+ 3.731e-08 3.660e-08 -7.428 -7.437 -0.008 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.689 -40.689 0.000 28.61 +H(0) 5.223e-40 + H2 2.612e-40 2.612e-40 -39.583 -39.583 0.000 28.61 K 2.867e-07 K+ 2.867e-07 2.811e-07 -6.543 -6.551 -0.008 9.00 Mg 1.766e-09 @@ -29332,8 +29332,8 @@ Mg 1.766e-09 MgOH+ 2.207e-11 2.165e-11 -10.656 -10.665 -0.008 (0) Na 9.131e-05 Na+ 9.131e-05 8.956e-05 -4.039 -4.048 -0.008 -1.50 -O(0) 1.990e-11 - O2 9.951e-12 9.951e-12 -11.002 -11.002 0.000 30.40 +O(0) 1.222e-13 + O2 6.110e-14 6.110e-14 -13.214 -13.214 0.000 30.40 Si 5.076e-04 H4SiO4 3.264e-04 3.264e-04 -3.486 -3.486 0.000 52.08 H3SiO4- 1.812e-04 1.777e-04 -3.742 -3.750 -0.008 27.96 @@ -29374,7 +29374,7 @@ Si 5.076e-04 Gibbsite -0.91 7.20 8.11 Al(OH)3 Glaucophane -8.44 28.58 37.03 Na2(Mg3Al2)Si8O22(OH)2 Grossular -0.69 48.68 49.37 Ca3Al2Si3O12 - H2(g) -37.59 -40.69 -3.10 H2 + H2(g) -36.48 -39.58 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Heulandite(Ca) 5.00 7.46 2.46 Ca1.07Al2.14Si6.86O18:6.17H2O Heulandite(Na) 0.52 3.31 2.80 Na2.14Al2.14Si6.86O18:6.17H2O @@ -29406,7 +29406,7 @@ Si 5.076e-04 Muscovite 2.82 14.17 11.35 KAl2(AlSi3)O10(OH)2 Natrolite -4.34 14.99 19.33 Na2(Al2Si3)O10:2H2O Nepheline -4.84 9.24 14.08 Na(AlSi)O4 - O2(g) -8.11 -11.00 -2.89 O2 + O2(g) -10.32 -13.21 -2.89 O2 Oligoclase -20.92 -20.92 0.00 Na0.8Ca0.2Si2.8Al1.2O8 Palygorskite 7.20 7.20 0.00 Mg2Al2Si8O20(OH)2:8H2O Paragonite -0.13 16.67 16.80 NaAl2(AlSi3)O10(OH)2 @@ -29454,7 +29454,7 @@ Kinetics 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Kaolinite 0.00 7.43 7.43 1.788e-04 1.792e-04 4.741e-07 +Kaolinite 0.00 7.44 7.43 1.788e-04 1.792e-04 4.741e-07 -----------------------------Exchange composition------------------------------ @@ -29482,7 +29482,7 @@ X_montm_mg 9.783e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor ----------------------------Description of solution---------------------------- pH = 9.568 Charge balance - pe = 9.202 Adjusted to redox equilibrium + pe = 8.636 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 19 Density (g/cm³) = 0.99708 Volume (L) = 1.00297 @@ -29492,7 +29492,7 @@ X_montm_mg 9.783e-03 mol [1 (mol X_montm_mg)/(mol kinetic reactant Montmor Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.252e-04 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.279e-12 + Electrical balance (eq) = -1.270e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 85 Total H = 1.110121e+02 @@ -29515,8 +29515,8 @@ Al 1.299e-06 Ca 6.475e-05 Ca+2 6.471e-05 5.990e-05 -4.189 -4.223 -0.034 -18.19 CaOH+ 3.745e-08 3.673e-08 -7.427 -7.435 -0.008 (0) -H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.689 -40.689 0.000 28.61 +H(0) 5.543e-40 + H2 2.772e-40 2.772e-40 -39.557 -39.557 0.000 28.61 K 2.874e-07 K+ 2.874e-07 2.819e-07 -6.541 -6.550 -0.008 9.00 Mg 1.784e-09 @@ -29524,8 +29524,8 @@ Mg 1.784e-09 MgOH+ 2.231e-11 2.188e-11 -10.652 -10.660 -0.008 (0) Na 9.151e-05 Na+ 9.151e-05 8.976e-05 -4.039 -4.047 -0.008 -1.50 -O(0) 1.990e-11 - O2 9.951e-12 9.952e-12 -11.002 -11.002 0.000 30.40 +O(0) 1.085e-13 + O2 5.425e-14 5.426e-14 -13.266 -13.266 0.000 30.40 Si 5.090e-04 H4SiO4 3.272e-04 3.272e-04 -3.485 -3.485 0.000 52.08 H3SiO4- 1.817e-04 1.782e-04 -3.741 -3.749 -0.008 27.96 @@ -29566,7 +29566,7 @@ Si 5.090e-04 Gibbsite -0.91 7.20 8.11 Al(OH)3 Glaucophane -8.42 28.61 37.03 Na2(Mg3Al2)Si8O22(OH)2 Grossular -0.68 48.69 49.37 Ca3Al2Si3O12 - H2(g) -37.59 -40.69 -3.10 H2 + H2(g) -36.46 -39.56 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O Heulandite(Ca) 5.01 7.46 2.46 Ca1.07Al2.14Si6.86O18:6.17H2O Heulandite(Na) 0.52 3.32 2.80 Na2.14Al2.14Si6.86O18:6.17H2O @@ -29574,7 +29574,7 @@ Si 5.090e-04 Jadeite -1.81 5.75 7.56 NaAl(SiO3)2 K-feldspar -2.33 -22.90 -20.57 KAlSi3O8 K-mica 1.47 14.17 12.70 KAl3Si3O10(OH)2 - Kaolinite 0.00 7.43 7.43 Al2Si2O5(OH)4 + Kaolinite 0.00 7.44 7.43 Al2Si2O5(OH)4 Kyanite -5.02 10.92 15.94 Al2SiO5 Labradorite -21.95 -21.95 0.00 Na0.4Ca0.6Si2.4Al1.6O8 Larnite(alpha) -12.70 26.34 39.04 Ca2SiO4 @@ -29598,7 +29598,7 @@ Si 5.090e-04 Muscovite 2.82 14.17 11.35 KAl2(AlSi3)O10(OH)2 Natrolite -4.34 14.99 19.33 Na2(Al2Si3)O10:2H2O Nepheline -4.84 9.24 14.08 Na(AlSi)O4 - O2(g) -8.11 -11.00 -2.89 O2 + O2(g) -10.37 -13.27 -2.89 O2 Oligoclase -20.91 -20.91 0.00 Na0.8Ca0.2Si2.8Al1.2O8 Palygorskite 7.22 7.22 0.00 Mg2Al2Si8O20(OH)2:8H2O Paragonite -0.13 16.67 16.80 NaAl2(AlSi3)O10(OH)2 diff --git a/mytest/kinetic_rates_plus_101.sel b/mytest/kinetic_rates_plus_101.sel index f74f7afa..5602e92a 100644 --- a/mytest/kinetic_rates_plus_101.sel +++ b/mytest/kinetic_rates_plus_101.sel @@ -1,121 +1,121 @@ Mu SC 0.000000100661 0.0546997340 - 1.360612168973 475717.8607577567 - 0.410098469539 159070.2104796606 - 0.122379599362 49318.4765830821 - 0.036497908638 14982.5910727191 - 0.010985261137 4562.7481691935 - 0.003351280635 1403.7736653003 - 0.001035104293 436.1881419472 - 0.000322626396 136.4966585398 - 0.000101154267 42.9033443600 - 0.000031830159 13.5205741042 - 0.000010037547 4.2674103552 - 0.000003169474 1.3483950886 + 1.360612168973 475717.9255980534 + 0.410098469539 159070.2226285806 + 0.122379599362 49318.4786429468 + 0.036497908638 14982.5914132972 + 0.010985261137 4562.7482259096 + 0.003351280635 1403.7736749176 + 0.001035104293 436.1881436060 + 0.000322626396 136.4966588294 + 0.000101154267 42.9033444110 + 0.000031830159 13.5205741132 + 0.000010037547 4.2674103568 + 0.000003169474 1.3483950889 0.000001001783 0.4272830394 0.000000317046 0.1385586357 0.000000100747 0.0547031672 0.000000319678 0.0850530727 0.000001012748 0.2412972475 - 0.000003206845 0.7547484590 - 0.000010158796 2.3863118039 - 0.000032219309 7.5581498330 - 0.000102410981 23.9721539385 - 0.000326794816 76.2044935882 - 0.001049942328 243.1820444225 - 0.003412857909 781.0268952494 - 0.011308623011 2533.5148636852 - 0.038583758674 8327.6886844090 - 0.136622749455 27656.5128711669 - 0.497107323763 90420.8259316194 - 1.763786045372 271308.1204100549 - 1.360612170325 475717.8606083016 - 0.410098470223 159070.2104170808 - 0.122379599697 49318.4765575950 - 0.036497908793 14982.5910622665 - 0.010985261203 4562.7481649558 - 0.003351280659 1403.7736637829 - 0.001035104299 436.1881416177 - 0.000322626394 136.4966586614 - 0.000101154263 42.9033445677 - 0.000031830156 13.5205742224 - 0.000010037546 4.2674103579 - 0.000003169474 1.3483950783 - 0.000001001784 0.4272830572 + 0.000003206845 0.7547484591 + 0.000010158796 2.3863118041 + 0.000032219309 7.5581498343 + 0.000102410981 23.9721539457 + 0.000326794816 76.2044936289 + 0.001049942328 243.1820446536 + 0.003412857909 781.0268965698 + 0.011308623011 2533.5148712927 + 0.038583758674 8327.6887285317 + 0.136622749455 27656.5131219879 + 0.497107323763 90420.8271499558 + 1.763786045372 271308.1235577165 + 1.360612170325 475717.9254485985 + 0.410098470223 159070.2225660008 + 0.122379599697 49318.4786174597 + 0.036497908793 14982.5914028446 + 0.010985261203 4562.7482216718 + 0.003351280659 1403.7736734001 + 0.001035104299 436.1881432765 + 0.000322626394 136.4966589510 + 0.000101154263 42.9033446186 + 0.000031830156 13.5205742314 + 0.000010037546 4.2674103595 + 0.000003169474 1.3483950785 + 0.000001001784 0.4272830573 0.000000317047 0.1385586593 0.000000100747 0.0547031838 0.000000319678 0.0850530760 0.000001012747 0.2412972162 0.000003206844 0.7547483531 - 0.000010158793 2.3863115350 - 0.000032219299 7.5581491726 - 0.000102410953 23.9721523554 - 0.000326794751 76.2044901773 - 0.001049942199 243.1820377900 - 0.003412857662 781.0268829522 - 0.011308622525 2533.5148408935 - 0.038583757595 8327.6886402941 - 0.136622746846 27656.5127861844 - 0.497107318241 90420.8258148453 - 1.763786035515 271308.1203888462 - 1.360612170985 475717.8605353117 - 0.410098470589 159070.2103835305 - 0.122379599901 49318.4765420850 - 0.036497908906 14982.5910546686 - 0.010985261265 4562.7481609470 - 0.003351280693 1403.7736615678 - 0.001035104318 436.1881403762 - 0.000322626405 136.4966579721 - 0.000101154269 42.9033442050 - 0.000031830159 13.5205740722 - 0.000010037548 4.2674103537 - 0.000003169475 1.3483951352 - 0.000001001784 0.4272831205 + 0.000010158793 2.3863115353 + 0.000032219299 7.5581491738 + 0.000102410953 23.9721523626 + 0.000326794751 76.2044902180 + 0.001049942199 243.1820380212 + 0.003412857662 781.0268842725 + 0.011308622525 2533.5148485010 + 0.038583757595 8327.6886844168 + 0.136622746846 27656.5130370054 + 0.497107318241 90420.8270331817 + 1.763786035515 271308.1235365079 + 1.360612170985 475717.9253756086 + 0.410098470589 159070.2225324506 + 0.122379599901 49318.4786019497 + 0.036497908906 14982.5913952467 + 0.010985261265 4562.7482176630 + 0.003351280693 1403.7736711850 + 0.001035104318 436.1881420351 + 0.000322626405 136.4966582617 + 0.000101154269 42.9033442560 + 0.000031830159 13.5205740812 + 0.000010037548 4.2674103553 + 0.000003169475 1.3483951355 + 0.000001001784 0.4272831206 0.000000317047 0.1385587117 0.000000100747 0.0547032336 0.000000319679 0.0850531444 0.000001012748 0.2412973145 0.000003206845 0.7547484973 - 0.000010158796 2.3863117600 - 0.000032219305 7.5581495586 - 0.000102410965 23.9721530431 - 0.000326794773 76.2044913172 - 0.001049942233 243.1820395306 - 0.003412857714 781.0268855194 - 0.011308622606 2533.5148447102 - 0.038583757740 8327.6886462531 - 0.136622747131 27656.5127954748 - 0.497107318730 90420.8258251789 - 1.763786036215 271308.1203903531 - 1.360612168860 475717.8607703280 - 0.410098469481 159070.2104850028 - 0.122379599340 49318.4765847635 - 0.036497908640 14982.5910726082 - 0.010985261154 4562.7481681029 - 0.003351280662 1403.7736635820 - 0.001035104327 436.1881398086 - 0.000322626433 136.4966561672 - 0.000101154306 42.9033420365 - 0.000031830197 13.5205724531 - 0.000010037578 4.2674102857 - 0.000003169495 1.3483962724 + 0.000010158796 2.3863117602 + 0.000032219305 7.5581495598 + 0.000102410965 23.9721530503 + 0.000326794773 76.2044913579 + 0.001049942233 243.1820397618 + 0.003412857714 781.0268868397 + 0.011308622606 2533.5148523177 + 0.038583757740 8327.6886903759 + 0.136622747131 27656.5130462958 + 0.497107318730 90420.8270435152 + 1.763786036215 271308.1235380148 + 1.360612168860 475717.9256106249 + 0.410098469481 159070.2226339229 + 0.122379599340 49318.4786446282 + 0.036497908640 14982.5914131863 + 0.010985261154 4562.7482248190 + 0.003351280662 1403.7736731992 + 0.001035104327 436.1881414674 + 0.000322626433 136.4966564568 + 0.000101154306 42.9033420875 + 0.000031830197 13.5205724621 + 0.000010037578 4.2674102873 + 0.000003169495 1.3483962727 0.000001001798 0.4272843888 0.000000317057 0.1385596286 0.000000100755 0.0547039494 0.000000319688 0.0850539411 0.000001012759 0.2412982566 - 0.000003206860 0.7547496647 - 0.000010158817 2.3863133429 - 0.000032219343 7.5581519854 - 0.000102411036 23.9721570041 - 0.000326794890 76.2044974591 - 0.001049942407 243.1820484527 - 0.003412857969 781.0268982032 - 0.011308622998 2533.5148630703 - 0.038583758429 8327.6886743782 - 0.136622748493 27656.5128401901 - 0.497107320996 90420.8258730943 - 1.763786039499 271308.1203974175 + 0.000003206860 0.7547496648 + 0.000010158817 2.3863133431 + 0.000032219343 7.5581519867 + 0.000102411036 23.9721570113 + 0.000326794890 76.2044974998 + 0.001049942407 243.1820486838 + 0.003412857969 781.0268995235 + 0.011308622998 2533.5148706778 + 0.038583758429 8327.6887185009 + 0.136622748493 27656.5130910111 + 0.497107320996 90420.8270914307 + 1.763786039499 271308.1235450791 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 @@ -137,52 +137,52 @@ 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 - 0.000006940132 2.7155621534 - 0.000045001402 3.3354810234 - 0.000286424928 19.3407244205 - 0.000432906104 31.0419789358 - 0.000486143817 35.5094520002 - 0.000501052000 36.7394944605 - 0.000504993293 37.0633040480 - 0.000506022456 37.1477660679 - 0.000506290178 37.1697314476 - 0.000506359754 37.1754393542 - 0.000506384778 37.1774923047 - 0.000506384778 37.1774923074 - 0.000034160608 2.6947104723 - 0.000194228859 13.1701734488 - 0.000325321892 22.0068356712 - 0.000418395525 29.8016837264 - 0.000462969108 33.5799218894 - 0.000484790445 35.3973673974 - 0.000495609898 36.2914470415 - 0.000501000626 36.7352698042 - 0.000503692365 36.9564839301 - 0.000505037805 37.0669575741 - 0.000505710648 37.1221801291 - 0.000021994538 8.5964952475 - 0.000177177963 12.6976298762 - 0.001274189281 84.0382542745 - 0.001996835533 130.3989768375 - 0.002467410241 160.3325692722 - 0.002755004836 178.5637870297 - 0.002912013555 188.5188421188 - 0.002985270191 193.1742557539 - 0.003014837936 195.0574332501 - 0.003025770144 195.7545598705 - 0.003029656323 196.0025010889 - 0.003031017071 196.0893343880 - 0.000090827932 7.6036917896 - 0.000412412601 27.9440520190 - 0.000639789636 42.8274330471 - 0.000840345111 55.9129668812 - 0.001025253947 67.9303489490 - 0.001198785267 79.1673317286 - 0.001363012282 89.7671811974 - 0.001519053737 99.8094171522 - 0.001667530800 109.3400079358 - 0.001808769112 118.3848824998 - 0.001942899015 126.9567049019 + 0.000006940132 2.7155621545 + 0.000045001402 3.3354810299 + 0.000286424928 19.3407245030 + 0.000432906104 31.0419790919 + 0.000486143817 35.5094521869 + 0.000501052000 36.7394946560 + 0.000504993293 37.0633042458 + 0.000506022456 37.1477662664 + 0.000506290178 37.1697316462 + 0.000506359754 37.1754395528 + 0.000506384778 37.1774925034 + 0.000506384778 37.1774925061 + 0.000034160608 2.6947104772 + 0.000194228859 13.1701734953 + 0.000325321892 22.0068357709 + 0.000418395525 29.8016838744 + 0.000462969108 33.5799220626 + 0.000484790445 35.3973675833 + 0.000495609898 36.2914472338 + 0.000501000626 36.7352699996 + 0.000503692365 36.9564841271 + 0.000505037805 37.0669577720 + 0.000505710648 37.1221803274 + 0.000021994538 8.5964952540 + 0.000177177963 12.6976299234 + 0.001274189281 84.0382550279 + 0.001996835533 130.3989782953 + 0.002467410241 160.3325712617 + 0.002755004836 178.5637893695 + 0.002912013555 188.5188446580 + 0.002985270191 193.1742583884 + 0.003014837936 195.0574359235 + 0.003025770144 195.7545625583 + 0.003029656323 196.0025037819 + 0.003031017071 196.0893370828 + 0.000090827932 7.6036918135 + 0.000412412601 27.9440521649 + 0.000639789636 42.8274333218 + 0.000840345111 55.9129672902 + 0.001025253947 67.9303494965 + 0.001198785267 79.1673324174 + 0.001363012282 89.7671820292 + 0.001519053737 99.8094181276 + 0.001667530800 109.3400090545 + 0.001808769112 118.3848837604 + 0.001942899015 126.9567063022 0.000000100644 0.0547821292 0.000000101193 0.0548655725 0.000000106321 0.0556983505 @@ -203,7 +203,7 @@ 0.000000159723 0.0679923177 0.000000159842 0.0680245163 0.000000159885 0.0680360617 - 0.000000159901 0.0680402029 + 0.000000159901 0.0680402030 0.000000159907 0.0680420724 0.000000159909 0.0680424335 0.000000104628 0.0554130708 @@ -228,45 +228,45 @@ 0.000000118236 0.0579509411 0.000000119929 0.0583015764 0.000000121542 0.0586415455 - 0.030000116639 3396.0891211971 - 0.030000127222 3396.0885327531 - 0.030000198439 3396.0848708604 - 0.030000236597 3396.0828748479 - 0.030000259095 3396.0816449875 - 0.030000272924 3396.0808658848 - 0.030000281616 3396.0803667351 - 0.030000287149 3396.0800450669 - 0.030000290699 3396.0798370712 - 0.030000292988 3396.0797023005 - 0.030000294468 3396.0796148633 - 0.030000295427 3396.0795580891 - 0.030000146351 3396.0875207827 - 0.030000269442 3396.0810637560 - 0.030000291879 3396.0797676921 - 0.030000296176 3396.0795136956 - 0.030000297002 3396.0794646413 - 0.030000297164 3396.0794550343 - 0.030000297196 3396.0794531537 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 + 0.030000116639 3396.0891911678 + 0.030000127222 3396.0886027239 + 0.030000198439 3396.0849408317 + 0.030000236597 3396.0829448194 + 0.030000259095 3396.0817149592 + 0.030000272924 3396.0809358565 + 0.030000281616 3396.0804367068 + 0.030000287149 3396.0801150387 + 0.030000290699 3396.0799070430 + 0.030000292988 3396.0797722723 + 0.030000294468 3396.0796848352 + 0.030000295427 3396.0796280609 + 0.030000146351 3396.0875907536 + 0.030000269442 3396.0811337277 + 0.030000291879 3396.0798376639 + 0.030000296176 3396.0795836674 + 0.030000297002 3396.0795346132 + 0.030000297164 3396.0795250062 + 0.030000297196 3396.0795231256 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 0.000000100644 0.0547821292 - 0.000302081305 20.3147359441 + 0.000302081305 20.3147359723 0.000000100644 0.0547821292 0.000000340579 0.0743035301 - 0.000302081305 20.3147359441 + 0.000302081305 20.3147359723 0.000000267836 0.0765897156 0.000000269542 0.0766465929 0.000000286645 0.0772388237 0.000000338394 0.0792862058 0.000000516784 0.0895294278 - 0.000000980697 0.1318583536 + 0.000000980697 0.1318583537 0.000002596833 0.3758899927 - 0.000008351302 1.3284955933 - 0.000032004370 4.3156047929 - 0.000115647629 10.7157661605 - 0.000194813532 15.2014312821 - 0.000248489817 17.9448610134 - 0.000285248772 19.7461588442 - 0.000286019146 19.7833945285 + 0.000008351302 1.3284955935 + 0.000032004370 4.3156047939 + 0.000115647629 10.7157661671 + 0.000194813532 15.2014312961 + 0.000248489817 17.9448610335 + 0.000285248772 19.7461588675 + 0.000286019146 19.7833945519 diff --git a/mytest/krest.out b/mytest/krest.out index 662fba08..c584ee26 100644 --- a/mytest/krest.out +++ b/mytest/krest.out @@ -5386,7 +5386,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5417,7 +5417,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -5500,7 +5500,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5531,7 +5531,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -5614,7 +5614,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5645,7 +5645,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -5728,7 +5728,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5759,7 +5759,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -5842,7 +5842,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5873,7 +5873,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -5956,7 +5956,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -5987,7 +5987,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6070,7 +6070,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6101,7 +6101,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6184,7 +6184,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6215,7 +6215,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6298,7 +6298,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6329,7 +6329,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6412,7 +6412,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6443,7 +6443,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6526,7 +6526,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6557,7 +6557,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6640,7 +6640,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6671,7 +6671,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6754,7 +6754,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6785,7 +6785,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6868,7 +6868,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -6899,7 +6899,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -6982,7 +6982,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7013,7 +7013,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7096,7 +7096,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7127,7 +7127,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7210,7 +7210,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7241,7 +7241,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7324,7 +7324,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7355,7 +7355,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7438,7 +7438,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7469,7 +7469,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7552,7 +7552,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7583,7 +7583,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7666,7 +7666,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7697,7 +7697,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7780,7 +7780,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7811,7 +7811,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -7894,7 +7894,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -7925,7 +7925,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8008,7 +8008,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8039,7 +8039,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8122,7 +8122,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8153,7 +8153,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8236,7 +8236,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8267,7 +8267,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8350,7 +8350,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8381,7 +8381,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8464,7 +8464,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8495,7 +8495,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8578,7 +8578,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8609,7 +8609,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8692,7 +8692,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8723,7 +8723,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8806,7 +8806,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8837,7 +8837,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -8920,7 +8920,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -8951,7 +8951,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9034,7 +9034,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9065,7 +9065,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9148,7 +9148,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9179,7 +9179,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9262,7 +9262,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9293,7 +9293,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9376,7 +9376,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9407,7 +9407,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9490,7 +9490,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9521,7 +9521,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9604,7 +9604,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9635,7 +9635,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9718,7 +9718,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9749,7 +9749,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9832,7 +9832,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.880e-18 + Electrical balance (eq) = 1.457e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -9863,7 +9863,7 @@ Ca 4.116e-04 H(0) 2.608e-40 H2 1.304e-40 1.305e-40 -39.885 -39.885 0.000 28.61 O(0) 4.898e-13 - O2 2.449e-13 2.450e-13 -12.611 -12.611 0.000 30.40 + O2 2.449e-13 2.449e-13 -12.611 -12.611 0.000 30.40 [224Ra] 3.716e-10 [224Ra] 3.716e-10 3.717e-10 -9.430 -9.430 0.000 (0) @@ -9946,8 +9946,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.960e-19 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -1.698e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 11 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -10061,7 +10061,8 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.255e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 6.093e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 13 Total H = 1.110133e+02 @@ -10179,7 +10180,7 @@ Solid Total alkalinity (eq/kg) = 8.241e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.699e-16 + Electrical balance (eq) = 1.702e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 13 Total H = 1.110133e+02 @@ -10569,8 +10570,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.269e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -1.694e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -10683,8 +10684,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.534e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.320e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -10797,8 +10799,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -10828,7 +10830,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -10911,8 +10913,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -10942,7 +10944,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11025,8 +11027,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11056,7 +11058,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11139,8 +11141,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11170,7 +11172,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11253,8 +11255,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11284,7 +11286,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11367,8 +11369,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11398,7 +11400,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11481,8 +11483,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11512,7 +11514,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11595,8 +11597,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11626,7 +11628,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11709,8 +11711,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11740,7 +11742,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11823,8 +11825,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11854,7 +11856,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -11937,8 +11939,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -11968,7 +11970,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12051,8 +12053,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12082,7 +12084,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12165,8 +12167,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12196,7 +12198,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12279,8 +12281,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12310,7 +12312,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12393,8 +12395,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12424,7 +12426,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12507,8 +12509,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12538,7 +12540,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12621,8 +12623,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12652,7 +12654,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12735,8 +12737,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12766,7 +12768,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12849,8 +12851,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12880,7 +12882,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -12963,8 +12965,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -12994,7 +12996,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13077,8 +13079,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13108,7 +13110,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13191,8 +13193,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13222,7 +13224,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13305,8 +13307,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13336,7 +13338,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13419,8 +13421,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13450,7 +13452,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13533,8 +13535,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13564,7 +13566,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13647,8 +13649,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13678,7 +13680,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13761,8 +13763,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13792,7 +13794,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13875,8 +13877,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -13906,7 +13908,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -13989,8 +13991,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14020,7 +14022,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14103,8 +14105,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14134,7 +14136,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14217,8 +14219,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14248,7 +14250,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14331,8 +14333,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14362,7 +14364,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14445,8 +14447,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14476,7 +14478,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14559,8 +14561,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14590,7 +14592,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14673,8 +14675,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14704,7 +14706,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14787,8 +14789,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.895e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.264e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -14818,7 +14820,7 @@ Ca 4.116e-04 H(0) 2.553e-40 H2 1.277e-40 1.277e-40 -39.894 -39.894 0.000 28.61 O(0) 5.111e-13 - O2 2.556e-13 2.556e-13 -12.593 -12.592 0.000 30.40 + O2 2.555e-13 2.556e-13 -12.593 -12.592 0.000 30.40 [224Ra] 6.884e-10 [224Ra] 6.884e-10 6.886e-10 -9.162 -9.162 0.000 (0) @@ -14901,7 +14903,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.269e-18 + Electrical balance (eq) = 7.995e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 9 Total H = 1.110133e+02 @@ -15134,6 +15136,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.425e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 11 @@ -15252,6 +15255,7 @@ Solid Total alkalinity (eq/kg) = 8.235e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.183e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 13 @@ -15370,7 +15374,7 @@ Solid Total alkalinity (eq/kg) = 8.242e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.787e-16 + Electrical balance (eq) = -4.769e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 13 Total H = 1.110133e+02 @@ -15404,7 +15408,7 @@ Cl 3.415e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.438 -41.438 0.000 28.61 O(0) 6.257e-10 - O2 3.128e-10 3.130e-10 -9.505 -9.505 0.000 30.40 + O2 3.128e-10 3.130e-10 -9.505 -9.504 0.000 30.40 [224Ra] 7.521e-10 [224Ra] 7.521e-10 7.524e-10 -9.124 -9.124 0.000 (0) @@ -15488,7 +15492,7 @@ Solid Total alkalinity (eq/kg) = 8.251e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.294e-15 + Electrical balance (eq) = -1.296e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 Total H = 1.110133e+02 @@ -15878,8 +15882,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.321e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.160e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -15992,8 +15997,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.188e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.762e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16106,8 +16112,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16220,8 +16227,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16334,8 +16342,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16448,8 +16457,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16562,8 +16572,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16676,8 +16687,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16790,8 +16802,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -16904,8 +16917,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17018,8 +17032,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17132,8 +17147,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17246,8 +17262,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17360,8 +17377,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17474,8 +17492,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17588,8 +17607,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17702,8 +17722,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17816,8 +17837,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -17930,8 +17952,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18044,8 +18067,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18158,8 +18182,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18272,8 +18297,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18386,8 +18412,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18500,8 +18527,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18614,8 +18642,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18728,8 +18757,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18842,8 +18872,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -18956,8 +18987,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19070,8 +19102,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19184,8 +19217,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19298,8 +19332,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19412,8 +19447,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19526,8 +19562,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19640,8 +19677,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19754,8 +19792,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.786e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19868,8 +19907,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.922e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.521e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -19899,7 +19939,7 @@ Ca 4.116e-04 H(0) 2.485e-40 H2 1.243e-40 1.243e-40 -39.906 -39.906 0.000 28.61 O(0) 5.395e-13 - O2 2.698e-13 2.698e-13 -12.569 -12.569 0.000 30.40 + O2 2.697e-13 2.698e-13 -12.569 -12.569 0.000 30.40 [224Ra] 9.600e-10 [224Ra] 9.600e-10 9.603e-10 -9.018 -9.018 0.000 (0) @@ -20101,7 +20141,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.882e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 2.881e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 Total H = 1.110133e+02 @@ -20219,6 +20260,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.295e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 8 @@ -20337,6 +20379,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.662e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 7 @@ -20455,6 +20498,7 @@ Solid Total alkalinity (eq/kg) = 8.237e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.677e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -20573,6 +20617,7 @@ Solid Total alkalinity (eq/kg) = 8.243e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.462e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -20691,6 +20736,7 @@ Solid Total alkalinity (eq/kg) = 8.251e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.982e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -20927,7 +20973,8 @@ Solid Total alkalinity (eq/kg) = 8.261e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.352e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.368e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 20 Total H = 1.110133e+02 @@ -21199,8 +21246,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.129e-19 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.435e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21230,7 +21278,7 @@ Ca 4.116e-04 H(0) 2.453e-40 H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21313,8 +21361,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.672e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21344,7 +21393,7 @@ Ca 4.116e-04 H(0) 2.453e-40 H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21427,8 +21476,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.700e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21456,9 +21506,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21541,8 +21591,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21570,9 +21621,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21655,8 +21706,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21684,9 +21736,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21769,8 +21821,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21798,9 +21851,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21883,8 +21936,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -21912,9 +21966,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -21997,8 +22051,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22026,9 +22081,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22111,8 +22166,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22140,9 +22196,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22225,8 +22281,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22254,9 +22311,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22339,8 +22396,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22368,9 +22426,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22453,8 +22511,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22482,9 +22541,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22567,8 +22626,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22596,9 +22656,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22681,8 +22741,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22710,9 +22771,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22795,8 +22856,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22824,9 +22886,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -22909,8 +22971,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -22938,9 +23001,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23023,8 +23086,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23052,9 +23116,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23137,8 +23201,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23166,9 +23231,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23251,8 +23316,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23280,9 +23346,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23365,8 +23431,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23394,9 +23461,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23479,8 +23546,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23508,9 +23576,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23593,8 +23661,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23622,9 +23691,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23707,8 +23776,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23736,9 +23806,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23821,8 +23891,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23850,9 +23921,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -23935,8 +24006,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -23964,9 +24036,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24049,8 +24121,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24078,9 +24151,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24163,8 +24236,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24192,9 +24266,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24277,8 +24351,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24306,9 +24381,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24391,8 +24466,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24420,9 +24496,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24505,8 +24581,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24534,9 +24611,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24619,8 +24696,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24648,9 +24726,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24733,8 +24811,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.941e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24762,9 +24841,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24847,8 +24926,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.033e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.567e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -24876,9 +24956,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.453e-40 - H2 1.226e-40 1.227e-40 -39.911 -39.911 0.000 28.61 + H2 1.227e-40 1.227e-40 -39.911 -39.911 0.000 28.61 O(0) 5.537e-13 - O2 2.769e-13 2.769e-13 -12.558 -12.558 0.000 30.40 + O2 2.768e-13 2.769e-13 -12.558 -12.558 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -24962,6 +25042,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.894e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -24996,7 +25077,7 @@ Cl 4.566e-09 H(0) 2.444e-40 H2 1.222e-40 1.222e-40 -39.913 -39.913 0.000 28.61 O(0) 5.579e-13 - O2 2.790e-13 2.790e-13 -12.554 -12.554 0.000 30.40 + O2 2.789e-13 2.790e-13 -12.555 -12.554 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -25080,6 +25161,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.315e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 4 @@ -25113,7 +25195,7 @@ Cl 1.014e-07 HCl 3.354e-15 3.358e-15 -14.474 -14.474 0.001 (0) H(0) 2.141e-40 H2 1.071e-40 1.071e-40 -39.970 -39.970 0.000 28.61 -O(0) 7.268e-13 +O(0) 7.267e-13 O2 3.634e-13 3.635e-13 -12.440 -12.440 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -25198,6 +25280,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.166e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 @@ -25316,6 +25399,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.870e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -25434,7 +25518,8 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.026e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.027e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -25552,6 +25637,7 @@ Solid Total alkalinity (eq/kg) = 8.234e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.688e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -25586,7 +25672,7 @@ Cl 8.554e-05 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.095 -41.095 0.000 28.61 O(0) 1.289e-10 - O2 6.446e-11 6.448e-11 -10.191 -10.191 0.000 30.40 + O2 6.445e-11 6.447e-11 -10.191 -10.191 0.000 30.40 [224Ra] 1.194e-09 [224Ra] 1.194e-09 1.194e-09 -8.923 -8.923 0.000 (0) @@ -25670,6 +25756,7 @@ Solid Total alkalinity (eq/kg) = 8.238e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.105e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -25788,6 +25875,7 @@ Solid Total alkalinity (eq/kg) = 8.244e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.374e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -25906,6 +25994,7 @@ Solid Total alkalinity (eq/kg) = 8.250e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.622e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -26024,6 +26113,7 @@ Solid Total alkalinity (eq/kg) = 8.256e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.118e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -26142,7 +26232,7 @@ Solid Total alkalinity (eq/kg) = 8.260e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.842e-15 + Electrical balance (eq) = -3.844e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 19 Total H = 1.110133e+02 @@ -26260,7 +26350,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.458e-18 + Electrical balance (eq) = -1.455e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 20 Total H = 1.110133e+02 @@ -26532,8 +26622,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.650e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.228e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -26562,7 +26653,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -26646,8 +26737,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.385e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.950e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -26676,7 +26768,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -26760,8 +26852,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -26790,7 +26883,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -26874,8 +26967,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -26904,7 +26998,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -26988,8 +27082,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27018,7 +27113,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27102,8 +27197,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27132,7 +27228,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27216,8 +27312,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27246,7 +27343,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27330,8 +27427,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27360,7 +27458,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27444,8 +27542,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27474,7 +27573,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27558,8 +27657,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27588,7 +27688,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27672,8 +27772,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27702,7 +27803,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27786,8 +27887,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27816,7 +27918,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -27900,8 +28002,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -27930,7 +28033,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28014,8 +28117,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28044,7 +28148,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28128,8 +28232,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28158,7 +28263,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28242,8 +28347,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28272,7 +28378,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28356,8 +28462,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28386,7 +28493,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28470,8 +28577,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28500,7 +28608,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28584,8 +28692,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28614,7 +28723,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28698,8 +28807,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28728,7 +28838,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28812,8 +28922,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28842,7 +28953,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -28926,8 +29037,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -28956,7 +29068,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29040,8 +29152,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29070,7 +29183,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29154,8 +29267,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29184,7 +29298,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29268,8 +29382,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29298,7 +29413,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29382,8 +29497,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29412,7 +29528,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29496,8 +29612,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29526,7 +29643,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29610,8 +29727,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29640,7 +29758,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29724,8 +29842,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.565e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29754,7 +29873,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29838,8 +29957,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.746e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.950e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -29868,7 +29988,7 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.407e-40 H2 1.204e-40 1.204e-40 -39.920 -39.919 0.000 28.61 -O(0) 5.751e-13 +O(0) 5.750e-13 O2 2.875e-13 2.876e-13 -12.541 -12.541 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -29953,7 +30073,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.391e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.393e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -29987,7 +30108,7 @@ Cl 2.110e-10 H(0) 2.396e-40 H2 1.198e-40 1.198e-40 -39.922 -39.921 0.000 28.61 O(0) 5.805e-13 - O2 2.903e-13 2.904e-13 -12.537 -12.537 0.000 30.40 + O2 2.902e-13 2.903e-13 -12.537 -12.537 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30071,6 +30192,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.959e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 @@ -30105,7 +30227,7 @@ Cl 5.806e-09 H(0) 2.429e-40 H2 1.215e-40 1.215e-40 -39.916 -39.915 0.000 28.61 O(0) 5.647e-13 - O2 2.824e-13 2.824e-13 -12.549 -12.549 0.000 30.40 + O2 2.823e-13 2.824e-13 -12.549 -12.549 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30189,6 +30311,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.016e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 @@ -30222,8 +30345,8 @@ Cl 7.446e-08 HCl 2.463e-15 2.466e-15 -14.609 -14.608 0.001 (0) H(0) 2.287e-40 H2 1.143e-40 1.144e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.372e-13 - O2 3.186e-13 3.187e-13 -12.497 -12.497 0.000 30.40 +O(0) 6.371e-13 + O2 3.186e-13 3.186e-13 -12.497 -12.497 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30307,6 +30430,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.618e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -30322,7 +30446,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.981 -126.980 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.980 -126.980 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -30341,7 +30465,7 @@ Cl 5.927e-07 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.055 -40.055 0.000 28.61 O(0) 1.074e-12 - O2 5.368e-13 5.370e-13 -12.270 -12.270 0.000 30.40 + O2 5.368e-13 5.369e-13 -12.270 -12.270 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30425,6 +30549,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.027e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -30543,6 +30668,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.993e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -30558,7 +30684,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -129.273 -129.272 0.000 35.46 + CH4 0.000e+00 0.000e+00 -129.272 -129.272 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.893e-04 -3.086 -3.103 -0.017 24.58 CO2 1.774e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -30576,8 +30702,8 @@ Cl 1.359e-05 HCl 4.494e-13 4.499e-13 -12.347 -12.347 0.001 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.628 -40.628 0.000 28.61 -O(0) 1.503e-11 - O2 7.513e-12 7.515e-12 -11.124 -11.124 0.000 30.40 +O(0) 1.502e-11 + O2 7.509e-12 7.511e-12 -11.124 -11.124 0.000 30.40 [224Ra] 1.393e-09 [224Ra] 1.393e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30661,6 +30787,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.109e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -30779,6 +30906,7 @@ Solid Total alkalinity (eq/kg) = 8.235e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.028e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -30813,7 +30941,7 @@ Cl 1.108e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.225 -41.225 0.000 28.61 O(0) 2.346e-10 - O2 1.173e-10 1.174e-10 -9.931 -9.931 0.000 30.40 + O2 1.173e-10 1.173e-10 -9.931 -9.931 0.000 30.40 [224Ra] 1.392e-09 [224Ra] 1.392e-09 1.393e-09 -8.856 -8.856 0.000 (0) @@ -30897,6 +31025,7 @@ Solid Total alkalinity (eq/kg) = 8.239e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.865e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -31015,6 +31144,7 @@ Solid Total alkalinity (eq/kg) = 8.244e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.027e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -31133,6 +31263,7 @@ Solid Total alkalinity (eq/kg) = 8.250e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.063e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -31251,6 +31382,7 @@ Solid Total alkalinity (eq/kg) = 8.255e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.776e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -31369,6 +31501,7 @@ Solid Total alkalinity (eq/kg) = 8.259e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.369e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -31605,7 +31738,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.251e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.268e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 20 Total H = 1.110133e+02 @@ -31877,8 +32011,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.664e-18 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.164e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -31907,8 +32042,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -31991,8 +32126,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.671e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32021,8 +32157,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32105,8 +32241,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32135,8 +32272,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32219,8 +32356,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32249,8 +32387,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32333,8 +32471,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32363,8 +32502,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32447,8 +32586,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32477,8 +32617,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32561,8 +32701,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32591,8 +32732,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32675,8 +32816,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32705,8 +32847,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32789,8 +32931,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32819,8 +32962,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -32903,8 +33046,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -32933,8 +33077,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33017,8 +33161,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33047,8 +33192,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33131,8 +33276,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33161,8 +33307,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33245,8 +33391,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33275,8 +33422,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33359,8 +33506,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33389,8 +33537,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33473,8 +33621,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33503,8 +33652,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33587,8 +33736,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33617,8 +33767,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33701,8 +33851,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33731,8 +33882,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33815,8 +33966,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33845,8 +33997,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -33929,8 +34081,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -33959,8 +34112,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34043,8 +34196,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34073,8 +34227,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34157,8 +34311,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34187,8 +34342,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34271,8 +34426,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34301,8 +34457,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34385,8 +34541,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34415,8 +34572,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34499,8 +34656,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34529,8 +34687,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34613,8 +34771,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34643,8 +34802,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34727,8 +34886,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34757,8 +34917,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34841,8 +35001,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.002e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.045e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -34871,8 +35032,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.364e-40 H2 1.182e-40 1.182e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.964e-13 - O2 2.982e-13 2.983e-13 -12.526 -12.525 0.000 30.40 +O(0) 5.963e-13 + O2 2.982e-13 2.982e-13 -12.526 -12.525 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -34956,7 +35117,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.286e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.522e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -34988,9 +35150,9 @@ Cl 9.756e-12 Cl- 9.756e-12 9.378e-12 -11.011 -11.028 -0.017 18.08 HCl 3.227e-19 3.230e-19 -18.491 -18.491 0.001 (0) H(0) 2.365e-40 - H2 1.182e-40 1.183e-40 -39.927 -39.927 0.000 28.61 -O(0) 5.958e-13 - O2 2.979e-13 2.980e-13 -12.526 -12.526 0.000 30.40 + H2 1.183e-40 1.183e-40 -39.927 -39.927 0.000 28.61 +O(0) 5.957e-13 + O2 2.978e-13 2.979e-13 -12.526 -12.526 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -35074,7 +35236,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.257e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.259e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -35089,7 +35252,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.464 -126.463 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.463 -126.463 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -35105,7 +35268,7 @@ Ca 4.116e-04 Cl 3.201e-10 Cl- 3.201e-10 3.077e-10 -9.495 -9.512 -0.017 18.08 HCl 1.059e-17 1.060e-17 -16.975 -16.975 0.001 (0) -H(0) 2.372e-40 +H(0) 2.373e-40 H2 1.186e-40 1.187e-40 -39.926 -39.926 0.000 28.61 O(0) 5.920e-13 O2 2.960e-13 2.961e-13 -12.529 -12.529 0.000 30.40 @@ -35192,6 +35355,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.516e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 10 @@ -35226,7 +35390,7 @@ Cl 4.953e-09 H(0) 2.377e-40 H2 1.188e-40 1.189e-40 -39.925 -39.925 0.000 28.61 O(0) 5.899e-13 - O2 2.950e-13 2.950e-13 -12.530 -12.530 0.000 30.40 + O2 2.949e-13 2.950e-13 -12.530 -12.530 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -35310,6 +35474,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.629e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 @@ -35344,7 +35509,7 @@ Cl 4.812e-08 H(0) 2.332e-40 H2 1.166e-40 1.166e-40 -39.933 -39.933 0.000 28.61 O(0) 6.129e-13 - O2 3.065e-13 3.065e-13 -12.514 -12.514 0.000 30.40 + O2 3.064e-13 3.065e-13 -12.514 -12.514 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -35428,6 +35593,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.855e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -35462,7 +35628,7 @@ Cl 3.299e-07 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.001 -40.001 0.000 28.61 O(0) 8.381e-13 - O2 4.191e-13 4.192e-13 -12.378 -12.378 0.000 30.40 + O2 4.190e-13 4.192e-13 -12.378 -12.378 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -35546,6 +35712,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.388e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -35664,6 +35831,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.188e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -35782,6 +35950,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.168e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -35900,6 +36069,7 @@ Solid Total alkalinity (eq/kg) = 8.234e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.084e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -35934,7 +36104,7 @@ Cl 5.945e-05 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.077 -41.077 0.000 28.61 O(0) 1.187e-10 - O2 5.933e-11 5.935e-11 -10.227 -10.227 0.000 30.40 + O2 5.933e-11 5.934e-11 -10.227 -10.227 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -36018,6 +36188,7 @@ Solid Total alkalinity (eq/kg) = 8.236e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.339e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -36052,7 +36223,7 @@ Cl 1.326e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.302 -41.302 0.000 28.61 O(0) 3.351e-10 - O2 1.676e-10 1.676e-10 -9.776 -9.776 0.000 30.40 + O2 1.675e-10 1.676e-10 -9.776 -9.776 0.000 30.40 [224Ra] 1.562e-09 [224Ra] 1.562e-09 1.562e-09 -8.806 -8.806 0.000 (0) @@ -36136,6 +36307,7 @@ Solid Total alkalinity (eq/kg) = 8.239e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.205e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -36254,6 +36426,7 @@ Solid Total alkalinity (eq/kg) = 8.244e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.798e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -36372,6 +36545,7 @@ Solid Total alkalinity (eq/kg) = 8.250e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.558e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -36490,6 +36664,7 @@ Solid Total alkalinity (eq/kg) = 8.254e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.526e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -36608,7 +36783,8 @@ Solid Total alkalinity (eq/kg) = 8.258e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.544e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.545e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 Total H = 1.110133e+02 @@ -37234,8 +37410,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.441e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37264,8 +37441,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37348,8 +37525,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.441e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37378,8 +37556,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37462,8 +37640,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37492,8 +37671,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37576,8 +37755,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37606,8 +37786,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37690,8 +37870,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37720,8 +37901,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37804,8 +37985,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37834,8 +38016,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -37918,8 +38100,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -37948,8 +38131,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38032,8 +38215,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38062,8 +38246,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38146,8 +38330,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38176,8 +38361,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38260,8 +38445,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38290,8 +38476,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38374,8 +38560,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38404,8 +38591,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38488,8 +38675,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38518,8 +38706,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38602,8 +38790,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38632,8 +38821,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38716,8 +38905,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38746,8 +38936,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38830,8 +39020,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38860,8 +39051,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -38944,8 +39135,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -38974,8 +39166,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39058,8 +39250,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39088,8 +39281,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39172,8 +39365,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39202,8 +39396,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39286,8 +39480,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39316,8 +39511,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39400,8 +39595,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39430,8 +39626,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39514,8 +39710,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39544,8 +39741,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39628,8 +39825,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39658,8 +39856,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39742,8 +39940,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39772,8 +39971,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39856,8 +40055,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.436e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.153e-19 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -39886,8 +40086,8 @@ Ca 4.116e-04 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.323e-40 H2 1.161e-40 1.162e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.177e-13 - O2 3.089e-13 3.089e-13 -12.510 -12.510 0.000 30.40 +O(0) 6.176e-13 + O2 3.088e-13 3.089e-13 -12.510 -12.510 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -39971,7 +40171,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.522e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.029e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -40005,7 +40206,7 @@ Cl 4.510e-13 H(0) 2.337e-40 H2 1.169e-40 1.169e-40 -39.932 -39.932 0.000 28.61 O(0) 6.099e-13 - O2 3.050e-13 3.050e-13 -12.516 -12.516 0.000 30.40 + O2 3.049e-13 3.050e-13 -12.516 -12.516 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40089,7 +40290,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.188e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.208e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -40104,7 +40306,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.504 -126.503 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.503 -126.503 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -40121,9 +40323,9 @@ Cl 1.719e-11 Cl- 1.719e-11 1.652e-11 -10.765 -10.782 -0.017 18.08 HCl 5.685e-19 5.692e-19 -18.245 -18.245 0.001 (0) H(0) 2.318e-40 - H2 1.159e-40 1.159e-40 -39.936 -39.936 0.000 28.61 -O(0) 6.200e-13 - O2 3.100e-13 3.101e-13 -12.509 -12.509 0.000 30.40 + H2 1.159e-40 1.160e-40 -39.936 -39.936 0.000 28.61 +O(0) 6.199e-13 + O2 3.099e-13 3.100e-13 -12.509 -12.509 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40207,7 +40409,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.281e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.283e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 10 Total H = 1.110133e+02 @@ -40239,8 +40442,8 @@ Cl 3.115e-10 Cl- 3.115e-10 2.994e-10 -9.507 -9.524 -0.017 18.08 HCl 1.030e-17 1.031e-17 -16.987 -16.987 0.001 (0) H(0) 2.307e-40 - H2 1.153e-40 1.154e-40 -39.938 -39.938 0.000 28.61 -O(0) 6.261e-13 + H2 1.154e-40 1.154e-40 -39.938 -39.938 0.000 28.61 +O(0) 6.260e-13 O2 3.130e-13 3.131e-13 -12.504 -12.504 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40325,7 +40528,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.813e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.815e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 @@ -40358,7 +40562,7 @@ Cl 3.574e-09 HCl 1.182e-16 1.184e-16 -15.927 -15.927 0.001 (0) H(0) 2.343e-40 H2 1.172e-40 1.172e-40 -39.931 -39.931 0.000 28.61 -O(0) 6.069e-13 +O(0) 6.068e-13 O2 3.034e-13 3.035e-13 -12.518 -12.518 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40443,6 +40647,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.186e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -40476,7 +40681,7 @@ Cl 2.919e-08 HCl 9.655e-16 9.666e-16 -15.015 -15.015 0.001 (0) H(0) 2.340e-40 H2 1.170e-40 1.170e-40 -39.932 -39.932 0.000 28.61 -O(0) 6.086e-13 +O(0) 6.085e-13 O2 3.043e-13 3.044e-13 -12.517 -12.517 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40561,6 +40766,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.627e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -40594,8 +40800,8 @@ Cl 1.808e-07 HCl 5.979e-15 5.987e-15 -14.223 -14.223 0.001 (0) H(0) 2.146e-40 H2 1.073e-40 1.073e-40 -39.969 -39.969 0.000 28.61 -O(0) 7.238e-13 - O2 3.619e-13 3.620e-13 -12.441 -12.441 0.000 30.40 +O(0) 7.237e-13 + O2 3.618e-13 3.619e-13 -12.441 -12.441 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40679,7 +40885,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.839e-13 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.840e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -40713,7 +40920,7 @@ Cl 8.838e-07 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.118 -40.118 0.000 28.61 O(0) 1.434e-12 - O2 7.172e-13 7.174e-13 -12.144 -12.144 0.000 30.40 + O2 7.171e-13 7.174e-13 -12.144 -12.144 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -40797,7 +41004,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.352e-13 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.353e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -40915,6 +41123,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.259e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -41033,6 +41242,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.882e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -41151,6 +41361,7 @@ Solid Total alkalinity (eq/kg) = 8.234e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.504e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41185,7 +41396,7 @@ Cl 7.469e-05 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.162 -41.162 0.000 28.61 O(0) 1.755e-10 - O2 8.774e-11 8.777e-11 -10.057 -10.057 0.000 30.40 + O2 8.774e-11 8.776e-11 -10.057 -10.057 0.000 30.40 [224Ra] 1.705e-09 [224Ra] 1.705e-09 1.706e-09 -8.768 -8.768 0.000 (0) @@ -41269,6 +41480,7 @@ Solid Total alkalinity (eq/kg) = 8.236e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.693e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41387,6 +41599,7 @@ Solid Total alkalinity (eq/kg) = 8.240e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.625e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41505,6 +41718,7 @@ Solid Total alkalinity (eq/kg) = 8.244e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.821e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41623,6 +41837,7 @@ Solid Total alkalinity (eq/kg) = 8.249e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.760e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41741,6 +41956,7 @@ Solid Total alkalinity (eq/kg) = 8.254e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.005e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -41859,6 +42075,7 @@ Solid Total alkalinity (eq/kg) = 8.258e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.926e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -42095,6 +42312,7 @@ Solid Total alkalinity (eq/kg) = 8.261e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.476e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -42213,6 +42431,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.055e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 18 @@ -42603,8 +42822,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.913e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.765e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -42631,7 +42851,7 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 O(0) 6.390e-13 O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 @@ -42717,7 +42937,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.827e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.955e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110133e+02 @@ -42745,7 +42966,7 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 O(0) 6.390e-13 O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 @@ -42831,8 +43052,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.524e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -42859,10 +43081,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -42945,8 +43167,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -42973,10 +43196,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43059,8 +43282,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43087,10 +43311,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43173,8 +43397,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43201,10 +43426,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43287,8 +43512,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43315,10 +43541,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43401,8 +43627,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43429,10 +43656,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43515,8 +43742,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43543,10 +43771,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43629,8 +43857,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43657,10 +43886,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43743,8 +43972,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43771,10 +44001,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43857,8 +44087,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43885,10 +44116,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -43971,8 +44202,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -43999,10 +44231,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44085,8 +44317,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44113,10 +44346,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44199,8 +44432,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44227,10 +44461,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44313,8 +44547,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44341,10 +44576,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44427,8 +44662,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44455,10 +44691,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44541,8 +44777,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44569,10 +44806,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44655,8 +44892,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44683,10 +44921,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44769,8 +45007,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44797,10 +45036,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44883,8 +45122,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.249e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.548e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -44911,10 +45151,10 @@ Ca 4.116e-04 CaHCO3+ 1.112e-06 1.070e-06 -5.954 -5.971 -0.017 122.64 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 - O2 3.195e-13 3.196e-13 -12.495 -12.495 0.000 30.40 +O(0) 6.389e-13 + O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -44998,8 +45238,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.029e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.371e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -45029,9 +45270,9 @@ Ca 4.116e-04 Cl 2.085e-14 Cl- 2.085e-14 2.004e-14 -13.681 -13.698 -0.017 18.08 HCl 6.894e-22 6.903e-22 -21.162 -21.161 0.001 (0) -H(0) 2.283e-40 +H(0) 2.284e-40 H2 1.142e-40 1.142e-40 -39.942 -39.942 0.000 28.61 -O(0) 6.390e-13 +O(0) 6.389e-13 O2 3.195e-13 3.196e-13 -12.496 -12.495 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45116,7 +45357,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.351e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.281e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 @@ -45149,7 +45391,7 @@ Cl 9.051e-13 HCl 2.993e-20 2.997e-20 -19.524 -19.523 0.001 (0) H(0) 2.312e-40 H2 1.156e-40 1.156e-40 -39.937 -39.937 0.000 28.61 -O(0) 6.235e-13 +O(0) 6.234e-13 O2 3.117e-13 3.118e-13 -12.506 -12.506 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45223,7 +45465,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.399 Adjusted to redox equilibrium + pe = 11.400 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -45234,7 +45476,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.800e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.020e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 11 Total H = 1.110133e+02 @@ -45249,7 +45492,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.549 -126.549 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.558 -126.558 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -45265,10 +45508,10 @@ Ca 4.116e-04 Cl 1.880e-11 Cl- 1.880e-11 1.807e-11 -10.726 -10.743 -0.017 18.08 HCl 6.218e-19 6.225e-19 -18.206 -18.206 0.001 (0) -H(0) 2.259e-40 - H2 1.129e-40 1.130e-40 -39.947 -39.947 0.000 28.61 -O(0) 6.530e-13 - O2 3.265e-13 3.266e-13 -12.486 -12.486 0.000 30.40 +H(0) 2.247e-40 + H2 1.123e-40 1.124e-40 -39.949 -39.949 0.000 28.61 +O(0) 6.601e-13 + O2 3.300e-13 3.301e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45278,11 +45521,11 @@ O(0) 6.530e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.75 -126.55 -2.80 CH4 + CH4(g) -123.76 -126.56 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.85 -39.95 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.59 -12.49 -2.89 O2 + O2(g) -9.59 -12.48 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -45341,7 +45584,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.396 Adjusted to redox equilibrium + pe = 11.398 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -45352,7 +45595,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.788e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.806e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 @@ -45367,7 +45611,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.526 -126.526 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.545 -126.545 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -45383,10 +45627,10 @@ Ca 4.116e-04 Cl 2.489e-10 Cl- 2.489e-10 2.392e-10 -9.604 -9.621 -0.017 18.08 HCl 8.231e-18 8.241e-18 -17.085 -17.084 0.001 (0) -H(0) 2.289e-40 - H2 1.144e-40 1.145e-40 -39.941 -39.941 0.000 28.61 -O(0) 6.361e-13 - O2 3.180e-13 3.181e-13 -12.498 -12.497 0.000 30.40 +H(0) 2.264e-40 + H2 1.132e-40 1.132e-40 -39.946 -39.946 0.000 28.61 +O(0) 6.502e-13 + O2 3.251e-13 3.252e-13 -12.488 -12.488 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45396,11 +45640,11 @@ O(0) 6.361e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.72 -126.53 -2.80 CH4 + CH4(g) -123.74 -126.54 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 - H2(g) -36.84 -39.94 -3.10 H2 + H2(g) -36.85 -39.95 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.61 -12.50 -2.89 O2 + O2(g) -9.60 -12.49 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -45470,7 +45714,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.244e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.246e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 @@ -45503,8 +45748,8 @@ Cl 2.360e-09 HCl 7.804e-17 7.814e-17 -16.108 -16.107 0.001 (0) H(0) 2.321e-40 H2 1.160e-40 1.161e-40 -39.935 -39.935 0.000 28.61 -O(0) 6.188e-13 - O2 3.094e-13 3.095e-13 -12.510 -12.509 0.000 30.40 +O(0) 6.187e-13 + O2 3.093e-13 3.094e-13 -12.510 -12.509 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45577,7 +45822,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.393 Adjusted to redox equilibrium + pe = 11.392 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -45588,6 +45833,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.066e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -45603,7 +45849,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.504 -126.504 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.494 -126.494 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -45619,10 +45865,10 @@ Ca 4.116e-04 Cl 1.708e-08 Cl- 1.708e-08 1.642e-08 -7.767 -7.785 -0.017 18.08 HCl 5.649e-16 5.656e-16 -15.248 -15.247 0.001 (0) -H(0) 2.317e-40 - H2 1.159e-40 1.159e-40 -39.936 -39.936 0.000 28.61 -O(0) 6.205e-13 - O2 3.102e-13 3.103e-13 -12.508 -12.508 0.000 30.40 +H(0) 2.331e-40 + H2 1.165e-40 1.166e-40 -39.934 -39.933 0.000 28.61 +O(0) 6.133e-13 + O2 3.066e-13 3.067e-13 -12.513 -12.513 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45632,9 +45878,9 @@ O(0) 6.205e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.70 -126.50 -2.80 CH4 + CH4(g) -123.69 -126.49 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 - H2(g) -36.83 -39.94 -3.10 H2 + H2(g) -36.83 -39.93 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O O2(g) -9.62 -12.51 -2.89 O2 @@ -45706,6 +45952,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.541e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -45739,7 +45986,7 @@ Cl 9.824e-08 HCl 3.249e-15 3.253e-15 -14.488 -14.488 0.001 (0) H(0) 2.226e-40 H2 1.113e-40 1.113e-40 -39.953 -39.953 0.000 28.61 -O(0) 6.724e-13 +O(0) 6.723e-13 O2 3.362e-13 3.363e-13 -12.473 -12.473 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -45824,7 +46071,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.533e-13 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.534e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -45942,6 +46190,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.188e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -46060,6 +46309,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.765e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -46178,6 +46428,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.310e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -46296,6 +46547,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.030e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46330,7 +46582,7 @@ Cl 4.154e-05 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.023 -41.023 0.000 28.61 O(0) 9.250e-11 - O2 4.625e-11 4.627e-11 -10.335 -10.335 0.000 30.40 + O2 4.625e-11 4.626e-11 -10.335 -10.335 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -46414,6 +46666,7 @@ Solid Total alkalinity (eq/kg) = 8.234e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.646e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46532,6 +46785,7 @@ Solid Total alkalinity (eq/kg) = 8.237e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.535e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46547,7 +46801,7 @@ Solid H+ 1.042e-07 1.001e-07 -6.982 -7.000 -0.018 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -132.310 -132.309 0.000 35.46 + CH4 0.000e+00 0.000e+00 -132.309 -132.309 0.000 35.46 C(4) 1.000e-03 HCO3- 8.210e-04 7.869e-04 -3.086 -3.104 -0.018 24.58 CO2 1.770e-04 1.771e-04 -3.752 -3.752 0.000 34.43 @@ -46565,7 +46819,7 @@ Cl 1.677e-04 HCl 5.529e-12 5.537e-12 -11.257 -11.257 0.001 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.387 -41.387 0.000 28.61 -O(0) 4.952e-10 +O(0) 4.951e-10 O2 2.476e-10 2.477e-10 -9.606 -9.606 0.000 30.40 [224Ra] 1.828e-09 [224Ra] 1.828e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -46650,6 +46904,7 @@ Solid Total alkalinity (eq/kg) = 8.240e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.360e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46768,6 +47023,7 @@ Solid Total alkalinity (eq/kg) = 8.245e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.715e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46886,6 +47142,7 @@ Solid Total alkalinity (eq/kg) = 8.249e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.873e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -46920,7 +47177,7 @@ Cl 5.740e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.713 -41.713 0.000 28.61 O(0) 2.225e-09 - O2 1.113e-09 1.113e-09 -8.954 -8.953 0.000 30.40 + O2 1.112e-09 1.113e-09 -8.954 -8.953 0.000 30.40 [224Ra] 1.827e-09 [224Ra] 1.827e-09 1.828e-09 -8.738 -8.738 0.000 (0) @@ -47004,6 +47261,7 @@ Solid Total alkalinity (eq/kg) = 8.254e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.589e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -47122,6 +47380,7 @@ Solid Total alkalinity (eq/kg) = 8.257e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.245e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -47240,6 +47499,7 @@ Solid Total alkalinity (eq/kg) = 8.260e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.774e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -47358,6 +47618,7 @@ Solid Total alkalinity (eq/kg) = 8.261e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.020e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -47476,7 +47737,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.442e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.441e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -47594,7 +47856,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.791e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.790e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 19 Total H = 1.110133e+02 @@ -47712,7 +47975,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.735e-15 + Electrical balance (eq) = 4.737e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 20 Total H = 1.110133e+02 @@ -47745,7 +48008,7 @@ Cl 9.989e-04 HCl 3.239e-11 3.248e-11 -10.490 -10.488 0.001 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.506 -41.506 0.000 28.61 -O(0) 8.568e-10 +O(0) 8.567e-10 O2 4.284e-10 4.286e-10 -9.368 -9.368 0.000 30.40 [224Ra] 1.209e-07 [224Ra] 1.209e-07 1.210e-07 -6.917 -6.917 0.000 (0) @@ -47984,7 +48247,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.163e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = 5.964e-19 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110133e+02 @@ -48013,9 +48277,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.603e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48098,8 +48362,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.488e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.258e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48127,9 +48392,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.603e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48212,8 +48477,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.488e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.005e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48241,9 +48507,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.603e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48326,8 +48592,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48355,9 +48622,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48440,8 +48707,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48469,9 +48737,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48554,8 +48822,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48583,9 +48852,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48668,8 +48937,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48697,9 +48967,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48782,8 +49052,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48811,9 +49082,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -48896,8 +49167,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -48925,9 +49197,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49010,8 +49282,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49039,9 +49312,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49124,8 +49397,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49153,9 +49427,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49238,8 +49512,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49267,9 +49542,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49352,8 +49627,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49381,9 +49657,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49466,8 +49742,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49495,9 +49772,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49580,8 +49857,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49609,9 +49887,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49694,8 +49972,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49723,9 +50002,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49808,8 +50087,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49837,9 +50117,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -49922,8 +50202,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.412e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -6.016e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -49951,9 +50232,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50037,8 +50318,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.716e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.367e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -50069,9 +50351,9 @@ Cl 9.636e-16 Cl- 9.636e-16 9.262e-16 -15.016 -15.033 -0.017 18.08 HCl 3.187e-23 3.191e-23 -22.497 -22.496 0.001 (0) H(0) 2.246e-40 - H2 1.123e-40 1.123e-40 -39.950 -39.949 0.000 28.61 -O(0) 6.604e-13 - O2 3.302e-13 3.303e-13 -12.481 -12.481 0.000 30.40 + H2 1.123e-40 1.124e-40 -39.950 -39.949 0.000 28.61 +O(0) 6.602e-13 + O2 3.301e-13 3.302e-13 -12.481 -12.481 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50155,8 +50437,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.349e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.274e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 3 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -50188,8 +50471,8 @@ Cl 4.695e-14 HCl 1.553e-21 1.555e-21 -20.809 -20.808 0.001 (0) H(0) 2.259e-40 H2 1.129e-40 1.130e-40 -39.947 -39.947 0.000 28.61 -O(0) 6.532e-13 - O2 3.266e-13 3.267e-13 -12.486 -12.486 0.000 30.40 +O(0) 6.531e-13 + O2 3.265e-13 3.266e-13 -12.486 -12.486 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50273,7 +50556,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.412e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.775e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 11 Total H = 1.110133e+02 @@ -50306,7 +50590,7 @@ Cl 1.100e-12 HCl 3.637e-20 3.641e-20 -19.439 -19.439 0.001 (0) H(0) 2.274e-40 H2 1.137e-40 1.137e-40 -39.944 -39.944 0.000 28.61 -O(0) 6.445e-13 +O(0) 6.444e-13 O2 3.222e-13 3.223e-13 -12.492 -12.492 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50391,7 +50675,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.406e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.615e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 10 Total H = 1.110133e+02 @@ -50406,7 +50691,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.563 -126.563 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.563 -126.562 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -50423,7 +50708,7 @@ Cl 1.649e-11 Cl- 1.649e-11 1.585e-11 -10.783 -10.800 -0.017 18.08 HCl 5.455e-19 5.462e-19 -18.263 -18.263 0.001 (0) H(0) 2.241e-40 - H2 1.120e-40 1.121e-40 -39.951 -39.951 0.000 28.61 + H2 1.120e-40 1.121e-40 -39.951 -39.950 0.000 28.61 O(0) 6.636e-13 O2 3.318e-13 3.319e-13 -12.479 -12.479 0.000 30.40 [224Ra] 1.932e-09 @@ -50509,7 +50794,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.541e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.560e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 @@ -50524,7 +50810,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.575 -126.574 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.574 -126.574 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -50540,10 +50826,10 @@ Ca 4.116e-04 Cl 1.781e-10 Cl- 1.781e-10 1.712e-10 -9.749 -9.766 -0.017 18.08 HCl 5.892e-18 5.899e-18 -17.230 -17.229 0.001 (0) -H(0) 2.225e-40 +H(0) 2.226e-40 H2 1.113e-40 1.113e-40 -39.954 -39.953 0.000 28.61 -O(0) 6.728e-13 - O2 3.364e-13 3.365e-13 -12.473 -12.473 0.000 30.40 +O(0) 6.727e-13 + O2 3.363e-13 3.364e-13 -12.473 -12.473 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50616,7 +50902,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.398 Adjusted to redox equilibrium + pe = 11.401 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -50627,7 +50913,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.593e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.595e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 Total H = 1.110133e+02 @@ -50642,7 +50929,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.547 -126.547 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.566 -126.566 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -50658,10 +50945,10 @@ Ca 4.116e-04 Cl 1.476e-09 Cl- 1.476e-09 1.419e-09 -8.831 -8.848 -0.017 18.08 HCl 4.883e-17 4.889e-17 -16.311 -16.311 0.001 (0) -H(0) 2.261e-40 - H2 1.130e-40 1.131e-40 -39.947 -39.947 0.000 28.61 -O(0) 6.519e-13 - O2 3.259e-13 3.260e-13 -12.487 -12.487 0.000 30.40 +H(0) 2.237e-40 + H2 1.118e-40 1.119e-40 -39.951 -39.951 0.000 28.61 +O(0) 6.660e-13 + O2 3.330e-13 3.331e-13 -12.478 -12.477 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50671,11 +50958,11 @@ O(0) 6.519e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.75 -126.55 -2.80 CH4 + CH4(g) -123.76 -126.57 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.85 -39.95 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.59 -12.49 -2.89 O2 + O2(g) -9.59 -12.48 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -50734,7 +51021,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.394 Adjusted to redox equilibrium + pe = 11.395 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -50745,7 +51032,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.312e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -5.314e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 Total H = 1.110133e+02 @@ -50760,7 +51048,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.514 -126.514 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.524 -126.524 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -50776,10 +51064,10 @@ Ca 4.116e-04 Cl 9.774e-09 Cl- 9.774e-09 9.396e-09 -8.010 -8.027 -0.017 18.08 HCl 3.233e-16 3.237e-16 -15.490 -15.490 0.001 (0) -H(0) 2.304e-40 - H2 1.152e-40 1.153e-40 -39.938 -39.938 0.000 28.61 -O(0) 6.275e-13 - O2 3.137e-13 3.138e-13 -12.503 -12.503 0.000 30.40 +H(0) 2.292e-40 + H2 1.146e-40 1.146e-40 -39.941 -39.941 0.000 28.61 +O(0) 6.345e-13 + O2 3.172e-13 3.173e-13 -12.499 -12.498 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50789,7 +51077,7 @@ O(0) 6.275e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.71 -126.51 -2.80 CH4 + CH4(g) -123.72 -126.52 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.84 -39.94 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O @@ -50863,6 +51151,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.361e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 @@ -50896,7 +51185,7 @@ Cl 5.313e-08 HCl 1.757e-15 1.759e-15 -14.755 -14.755 0.001 (0) H(0) 2.234e-40 H2 1.117e-40 1.117e-40 -39.952 -39.952 0.000 28.61 -O(0) 6.678e-13 +O(0) 6.677e-13 O2 3.339e-13 3.340e-13 -12.476 -12.476 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -50981,6 +51270,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.738e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -51099,6 +51389,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.395e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -51132,8 +51423,8 @@ Cl 9.362e-07 HCl 3.096e-14 3.100e-14 -13.509 -13.509 0.001 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.165 -40.165 0.000 28.61 -O(0) 1.783e-12 - O2 8.913e-13 8.915e-13 -12.050 -12.050 0.000 30.40 +O(0) 1.782e-12 + O2 8.912e-13 8.915e-13 -12.050 -12.050 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -51217,6 +51508,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.807e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -51335,6 +51627,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.817e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 @@ -51453,6 +51746,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.691e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -51571,6 +51865,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.574e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -51689,6 +51984,7 @@ Solid Total alkalinity (eq/kg) = 8.235e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.841e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -51807,6 +52103,7 @@ Solid Total alkalinity (eq/kg) = 8.237e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.541e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -51925,6 +52222,7 @@ Solid Total alkalinity (eq/kg) = 8.241e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.191e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -52043,6 +52341,7 @@ Solid Total alkalinity (eq/kg) = 8.245e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.844e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -52077,7 +52376,7 @@ Cl 4.265e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.636 -41.636 0.000 28.61 O(0) 1.561e-09 - O2 7.804e-10 7.807e-10 -9.108 -9.107 0.000 30.40 + O2 7.804e-10 7.807e-10 -9.108 -9.108 0.000 30.40 [224Ra] 1.932e-09 [224Ra] 1.932e-09 1.932e-09 -8.714 -8.714 0.000 (0) @@ -52161,6 +52460,7 @@ Solid Total alkalinity (eq/kg) = 8.249e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.003e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -52279,6 +52579,7 @@ Solid Total alkalinity (eq/kg) = 8.253e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.389e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 6 @@ -52397,6 +52698,7 @@ Solid Total alkalinity (eq/kg) = 8.257e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.847e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -52515,6 +52817,7 @@ Solid Total alkalinity (eq/kg) = 8.259e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.682e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -52633,6 +52936,7 @@ Solid Total alkalinity (eq/kg) = 8.261e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.327e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -52751,6 +53055,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.224e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -52987,7 +53292,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.443e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 8.442e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 19 Total H = 1.110133e+02 @@ -53105,7 +53411,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.263e-15 + Electrical balance (eq) = 2.261e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 20 Total H = 1.110133e+02 @@ -53377,8 +53683,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.521e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.414e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53406,9 +53713,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.816e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53422,7 +53729,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -53491,8 +53798,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.683e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.424e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53520,9 +53828,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.816e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53536,7 +53844,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -53605,8 +53913,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.683e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.931e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53634,9 +53943,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.816e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53650,7 +53959,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -53719,8 +54028,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.683e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -8.291e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53748,9 +54058,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.816e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53764,7 +54074,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -53833,8 +54143,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53862,9 +54173,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53878,7 +54189,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -53947,8 +54258,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -53976,9 +54288,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -53992,7 +54304,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54061,8 +54373,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54090,9 +54403,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54106,7 +54419,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54175,8 +54488,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54204,9 +54518,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54220,7 +54534,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54289,8 +54603,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54318,9 +54633,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54334,7 +54649,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54403,8 +54718,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54432,9 +54748,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54448,7 +54764,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54517,8 +54833,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54546,9 +54863,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54562,7 +54879,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54631,8 +54948,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54660,9 +54978,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54676,7 +54994,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54745,8 +55063,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54774,9 +55093,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54790,7 +55109,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54859,8 +55178,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -54888,9 +55208,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -54904,7 +55224,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -54973,8 +55293,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.770e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.241e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -55002,9 +55323,9 @@ Ca 4.116e-04 CaCO3 2.184e-07 2.184e-07 -6.661 -6.661 0.000 -14.60 CaOH+ 6.062e-10 5.828e-10 -9.217 -9.234 -0.017 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55018,7 +55339,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -55088,8 +55409,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.095e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -9.160e-18 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -55120,9 +55442,9 @@ Cl 4.454e-17 Cl- 4.454e-17 4.282e-17 -16.351 -16.368 -0.017 18.08 HCl 1.473e-24 1.475e-24 -23.832 -23.831 0.001 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.409e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55136,7 +55458,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -55206,8 +55528,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.813e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.285e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -55238,9 +55561,9 @@ Cl 2.406e-15 Cl- 2.406e-15 2.313e-15 -14.619 -14.636 -0.017 18.08 HCl 7.958e-23 7.968e-23 -22.099 -22.099 0.001 (0) H(0) 2.211e-40 - H2 1.105e-40 1.106e-40 -39.956 -39.956 0.000 28.61 -O(0) 6.817e-13 - O2 3.408e-13 3.409e-13 -12.467 -12.467 0.000 30.40 + H2 1.106e-40 1.106e-40 -39.956 -39.956 0.000 28.61 +O(0) 6.815e-13 + O2 3.408e-13 3.409e-13 -12.468 -12.467 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55254,7 +55577,7 @@ O(0) 6.817e-13 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.86 -39.96 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.57 -12.47 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -55324,8 +55647,9 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.227e-17 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.036e-17 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 Total O = 5.550904e+01 @@ -55357,8 +55681,8 @@ Cl 6.274e-14 HCl 2.075e-21 2.077e-21 -20.683 -20.682 0.001 (0) H(0) 2.200e-40 H2 1.100e-40 1.100e-40 -39.959 -39.959 0.000 28.61 -O(0) 6.887e-13 - O2 3.444e-13 3.444e-13 -12.463 -12.463 0.000 30.40 +O(0) 6.886e-13 + O2 3.443e-13 3.444e-13 -12.463 -12.463 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55442,7 +55766,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.657e-17 + Pressure (atm) = 1.00 + Electrical balance (eq) = -4.411e-17 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 9 Total H = 1.110133e+02 @@ -55475,8 +55800,8 @@ Cl 1.052e-12 HCl 3.479e-20 3.483e-20 -19.459 -19.458 0.001 (0) H(0) 2.225e-40 H2 1.113e-40 1.113e-40 -39.954 -39.954 0.000 28.61 -O(0) 6.730e-13 - O2 3.365e-13 3.366e-13 -12.473 -12.473 0.000 30.40 +O(0) 6.729e-13 + O2 3.364e-13 3.365e-13 -12.473 -12.473 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55560,7 +55885,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.030e-16 + Pressure (atm) = 1.00 + Electrical balance (eq) = -3.257e-16 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 8 Total H = 1.110133e+02 @@ -55592,9 +55918,9 @@ Cl 1.275e-11 Cl- 1.275e-11 1.225e-11 -10.895 -10.912 -0.017 18.08 HCl 4.216e-19 4.221e-19 -18.375 -18.375 0.001 (0) H(0) 2.231e-40 - H2 1.116e-40 1.116e-40 -39.953 -39.952 0.000 28.61 + H2 1.116e-40 1.116e-40 -39.952 -39.952 0.000 28.61 O(0) 6.693e-13 - O2 3.347e-13 3.348e-13 -12.475 -12.475 0.000 30.40 + O2 3.346e-13 3.347e-13 -12.475 -12.475 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55678,7 +56004,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.838e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -1.858e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -55711,7 +56038,7 @@ Cl 1.191e-10 HCl 3.938e-18 3.943e-18 -17.405 -17.404 0.001 (0) H(0) 2.195e-40 H2 1.097e-40 1.098e-40 -39.960 -39.960 0.000 28.61 -O(0) 6.918e-13 +O(0) 6.917e-13 O2 3.459e-13 3.460e-13 -12.461 -12.461 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55785,7 +56112,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.401 Adjusted to redox equilibrium + pe = 11.402 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -55796,7 +56123,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.970e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.991e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -55811,7 +56139,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.571 -126.570 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.580 -126.579 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -55827,10 +56155,10 @@ Ca 4.116e-04 Cl 8.921e-10 Cl- 8.921e-10 8.576e-10 -9.050 -9.067 -0.017 18.08 HCl 2.951e-17 2.954e-17 -16.530 -16.530 0.001 (0) -H(0) 2.231e-40 - H2 1.115e-40 1.116e-40 -39.953 -39.952 0.000 28.61 -O(0) 6.697e-13 - O2 3.348e-13 3.349e-13 -12.475 -12.475 0.000 30.40 +H(0) 2.219e-40 + H2 1.109e-40 1.110e-40 -39.955 -39.955 0.000 28.61 +O(0) 6.767e-13 + O2 3.383e-13 3.384e-13 -12.471 -12.471 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -55840,11 +56168,11 @@ O(0) 6.697e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.77 -126.57 -2.80 CH4 + CH4(g) -123.78 -126.58 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.85 -39.95 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.58 -12.48 -2.89 O2 + O2(g) -9.58 -12.47 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -55914,7 +56242,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.685e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -2.687e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 7 Total H = 1.110133e+02 @@ -55947,7 +56276,7 @@ Cl 5.512e-09 HCl 1.823e-16 1.825e-16 -15.739 -15.739 0.001 (0) H(0) 2.292e-40 H2 1.146e-40 1.146e-40 -39.941 -39.941 0.000 28.61 -O(0) 6.343e-13 +O(0) 6.342e-13 O2 3.171e-13 3.172e-13 -12.499 -12.499 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -56021,7 +56350,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.397 Adjusted to redox equilibrium + pe = 11.398 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -56032,7 +56361,8 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.245e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = -7.247e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 Total H = 1.110133e+02 @@ -56047,7 +56377,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.533 -126.533 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.543 -126.543 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -56063,10 +56393,10 @@ Ca 4.116e-04 Cl 2.865e-08 Cl- 2.865e-08 2.754e-08 -7.543 -7.560 -0.017 18.08 HCl 9.476e-16 9.487e-16 -15.023 -15.023 0.001 (0) -H(0) 2.279e-40 - H2 1.140e-40 1.140e-40 -39.943 -39.943 0.000 28.61 -O(0) 6.415e-13 - O2 3.207e-13 3.208e-13 -12.494 -12.494 0.000 30.40 +H(0) 2.267e-40 + H2 1.133e-40 1.134e-40 -39.946 -39.946 0.000 28.61 +O(0) 6.485e-13 + O2 3.242e-13 3.243e-13 -12.489 -12.489 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -56076,9 +56406,9 @@ O(0) 6.415e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.73 -126.53 -2.80 CH4 + CH4(g) -123.74 -126.54 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 - H2(g) -36.84 -39.94 -3.10 H2 + H2(g) -36.84 -39.95 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O O2(g) -9.60 -12.49 -2.89 O2 @@ -56139,7 +56469,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.414 Adjusted to redox equilibrium + pe = 11.413 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -56150,6 +56480,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.581e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -56165,7 +56496,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -126.673 -126.673 0.000 35.46 + CH4 0.000e+00 0.000e+00 -126.665 -126.665 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -56181,10 +56512,10 @@ Ca 4.116e-04 Cl 1.272e-07 Cl- 1.272e-07 1.223e-07 -6.896 -6.913 -0.017 18.08 HCl 4.207e-15 4.212e-15 -14.376 -14.376 0.001 (0) -H(0) 2.102e-40 - H2 1.051e-40 1.051e-40 -39.978 -39.978 0.000 28.61 -O(0) 7.538e-13 - O2 3.769e-13 3.770e-13 -12.424 -12.424 0.000 30.40 +H(0) 2.112e-40 + H2 1.056e-40 1.057e-40 -39.976 -39.976 0.000 28.61 +O(0) 7.467e-13 + O2 3.733e-13 3.734e-13 -12.428 -12.428 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -56194,11 +56525,11 @@ O(0) 7.538e-13 Aragonite -1.55 -9.89 -8.34 CaCO3 Calcite -1.41 -9.89 -8.48 CaCO3 - CH4(g) -123.87 -126.67 -2.80 CH4 + CH4(g) -123.86 -126.66 -2.80 CH4 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.88 -39.98 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.53 -12.42 -2.89 O2 + O2(g) -9.54 -12.43 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -56257,7 +56588,7 @@ Solid ----------------------------Description of solution---------------------------- pH = 7.000 Charge balance - pe = 11.467 Adjusted to redox equilibrium + pe = 11.466 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 81 Density (g/cm³) = 0.99710 Volume (L) = 1.00298 @@ -56268,6 +56599,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.847e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -56283,7 +56615,7 @@ Solid H+ 1.038e-07 1.000e-07 -6.984 -7.000 -0.016 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -127.093 -127.093 0.000 35.46 + CH4 0.000e+00 0.000e+00 -127.088 -127.088 0.000 35.46 C(4) 1.000e-03 HCO3- 8.208e-04 7.895e-04 -3.086 -3.103 -0.017 24.58 CO2 1.775e-04 1.775e-04 -3.751 -3.751 0.000 34.43 @@ -56300,9 +56632,9 @@ Cl 4.880e-07 Cl- 4.880e-07 4.691e-07 -6.312 -6.329 -0.017 18.08 HCl 1.614e-14 1.616e-14 -13.792 -13.792 0.001 (0) H(0) 0.000e+00 - H2 0.000e+00 0.000e+00 -40.083 -40.083 0.000 28.61 -O(0) 1.222e-12 - O2 6.111e-13 6.112e-13 -12.214 -12.214 0.000 30.40 + H2 0.000e+00 0.000e+00 -40.082 -40.082 0.000 28.61 +O(0) 1.215e-12 + O2 6.075e-13 6.076e-13 -12.216 -12.216 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -56316,7 +56648,7 @@ O(0) 1.222e-12 CO2(g) -2.28 -3.75 -1.47 CO2 H2(g) -36.98 -40.08 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - O2(g) -9.32 -12.21 -2.89 O2 + O2(g) -9.32 -12.22 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. For ideal gases, phi = 1. @@ -56386,6 +56718,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.307e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -56504,6 +56837,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.746e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -56622,6 +56956,7 @@ Solid Total alkalinity (eq/kg) = 8.232e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.462e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -56740,6 +57075,7 @@ Solid Total alkalinity (eq/kg) = 8.233e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.642e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 @@ -56858,6 +57194,7 @@ Solid Total alkalinity (eq/kg) = 8.234e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -9.545e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 @@ -56976,6 +57313,7 @@ Solid Total alkalinity (eq/kg) = 8.235e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -8.674e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 @@ -57094,6 +57432,7 @@ Solid Total alkalinity (eq/kg) = 8.238e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -7.458e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 @@ -57212,6 +57551,7 @@ Solid Total alkalinity (eq/kg) = 8.241e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -5.460e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 5 @@ -57245,8 +57585,8 @@ Cl 3.023e-04 HCl 9.938e-12 9.955e-12 -11.003 -11.002 0.001 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.550 -41.550 0.000 28.61 -O(0) 1.050e-09 - O2 5.248e-10 5.250e-10 -9.280 -9.280 0.000 30.40 +O(0) 1.049e-09 + O2 5.247e-10 5.250e-10 -9.280 -9.280 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -57330,6 +57670,7 @@ Solid Total alkalinity (eq/kg) = 8.245e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.371e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -57364,7 +57705,7 @@ Cl 4.304e-04 H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -41.642 -41.642 0.000 28.61 O(0) 1.602e-09 - O2 8.012e-10 8.015e-10 -9.096 -9.096 0.000 30.40 + O2 8.011e-10 8.015e-10 -9.096 -9.096 0.000 30.40 [224Ra] 2.020e-09 [224Ra] 2.020e-09 2.021e-09 -8.695 -8.694 0.000 (0) @@ -57448,6 +57789,7 @@ Solid Total alkalinity (eq/kg) = 8.249e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.344e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -57566,6 +57908,7 @@ Solid Total alkalinity (eq/kg) = 8.253e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.915e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -57684,6 +58027,7 @@ Solid Total alkalinity (eq/kg) = 8.256e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.307e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -57802,6 +58146,7 @@ Solid Total alkalinity (eq/kg) = 8.259e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.238e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -57920,6 +58265,7 @@ Solid Total alkalinity (eq/kg) = 8.260e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.953e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 4 @@ -58038,6 +58384,7 @@ Solid Total alkalinity (eq/kg) = 8.261e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.762e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -58156,6 +58503,7 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.030e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -58274,7 +58622,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.532e-14 + Pressure (atm) = 1.00 + Electrical balance (eq) = 1.531e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 10 Total H = 1.110133e+02 @@ -58392,7 +58741,8 @@ Solid Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.091e-15 + Pressure (atm) = 1.00 + Electrical balance (eq) = 4.088e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 19 Total H = 1.110133e+02 @@ -58503,13 +58853,14 @@ Solid Specific Conductance (µS/cm, 25°C) = 208 Density (g/cm³) = 0.99714 Volume (L) = 1.00299 - Viscosity (mPa s) = 0.89159 + Viscosity (mPa s) = 0.89158 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.734e-03 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 8.262e-04 Total CO2 (mol/kg) = 1.000e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.104e-15 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 20 diff --git a/mytest/krest_101.sel b/mytest/krest_101.sel index 1cb7b187..a70dd052 100644 --- a/mytest/krest_101.sel +++ b/mytest/krest_101.sel @@ -1,520 +1,520 @@ Mu SC - 0.001232412974 81.3364311158 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311157 - 0.001301814488 87.2653933554 - 0.001669817758 118.5706205085 - 0.002227078224 165.5998189590 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001235621040 81.6106831937 - 0.001269641572 84.5179169734 - 0.001414559092 96.8795187333 - 0.001745163821 124.9543907241 - 0.002195378072 162.9354816718 - 0.002537095849 191.5922822942 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232561266 81.3491087535 - 0.001234920157 81.5507675264 - 0.001251296156 82.9504589009 - 0.001317081372 88.5685146740 - 0.001487888548 103.1213029992 - 0.001789098111 128.6729727136 - 0.002157580578 159.7570328101 - 0.002474080693 186.3181319064 - 0.002651709820 201.1735256618 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232419829 81.3370171267 - 0.001232565214 81.3494462666 - 0.001233962248 81.4688781991 - 0.001242037728 82.1591799455 - 0.001273476528 84.8455062222 - 0.001360841895 92.3015350279 - 0.001539866315 107.5404356355 - 0.001815424956 130.8999506817 - 0.002136718662 158.0019510488 - 0.002420389750 181.8207612021 - 0.002609291488 197.6292503340 - 0.002697983528 205.0376658820 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232413291 81.3364582102 - 0.001232421691 81.3371763590 - 0.001232524764 81.3459881298 - 0.001233302822 81.4125045670 - 0.001237354377 81.7588556475 - 0.001252817860 83.0804980357 - 0.001297671017 86.9116535336 - 0.001398827364 95.5392968556 - 0.001578799046 110.8477196866 - 0.001833581125 132.4352052750 - 0.002121748002 156.7421512703 - 0.002382026290 178.6052120595 - 0.002568646988 194.2312990943 - 0.002673893104 203.0262611552 - 0.002717714490 206.6846082719 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412989 81.3364323682 - 0.001232413455 81.3364722132 - 0.001232420411 81.3370668535 - 0.001232485223 81.3426077323 - 0.001232908299 81.3787767814 - 0.001234966507 81.5547297906 - 0.001242716309 82.2171806745 - 0.001265868350 84.1955760380 - 0.001321677388 88.9607342056 - 0.001431490629 98.3215009727 - 0.001609234683 113.4315644841 - 0.001847015041 133.5708572049 - 0.002110468810 155.7928042204 - 0.002352110012 176.0964784315 - 0.002534933693 191.4113926742 - 0.002648122473 200.8738613691 - 0.002704815074 205.6079427973 - 0.002726448856 207.4135296514 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412975 81.3364311737 - 0.001232413000 81.3364333225 - 0.001232413442 81.3364711051 - 0.001232418341 81.3368899044 - 0.001232456801 81.3401778961 - 0.001232684413 81.3596366809 - 0.001233739892 81.4498692931 - 0.001237675252 81.7862847117 - 0.001249687962 82.8130243060 - 0.001280099851 85.4112224811 - 0.001344555545 90.9125969132 - 0.001459690633 100.7221314634 - 0.001633824038 115.5180599076 - 0.001857444490 134.4523497354 - 0.002101570636 155.0437477870 - 0.002328026771 174.0761173595 - 0.002506096935 188.9983504469 - 0.002624212310 198.8761921790 - 0.002689716381 204.3474809499 - 0.002719713144 206.8514120652 - 0.002730422771 207.7451428793 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311184 - 0.001232412976 81.3364312320 - 0.001232413003 81.3364335293 - 0.001232413348 81.3364630646 - 0.001232416517 81.3367339890 - 0.001232438619 81.3386235083 - 0.001232560469 81.3490405650 - 0.001233105725 81.3956547986 - 0.001235123638 81.5681624000 - 0.001241385376 82.1034204632 - 0.001257845598 83.5101205917 - 0.001294784262 86.6651855024 - 0.001365962551 92.7381442942 - 0.001484234180 102.8104491085 - 0.001654200966 117.2464268523 - 0.001865833864 135.1613064424 - 0.002094314504 154.4328447094 - 0.002308103853 172.4042414463 - 0.002481189509 186.9133434917 - 0.002602040177 197.0231639784 - 0.002674407244 203.0691953922 - 0.002711229744 206.1433737182 - 0.002726945867 207.4550048832 - 0.002732269136 207.8992116336 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311159 - 0.001232412974 81.3364311218 - 0.001232412976 81.3364312569 - 0.001232412999 81.3364332333 - 0.001232413242 81.3364539858 - 0.001232415191 81.3366206210 - 0.001232427649 81.3376856884 - 0.001232492736 81.3432500313 - 0.001232776074 81.3674728246 - 0.001233818563 81.4565947760 - 0.001237095637 81.7367378716 - 0.001245970643 82.4953283450 - 0.001266812167 84.2762073464 - 0.001309465073 87.9184674530 - 0.001385830506 94.4317561725 - 0.001505785307 104.6433605319 - 0.001671431477 118.7074318909 - 0.001872765007 135.7469596060 - 0.002088250177 153.9222291670 - 0.002291268793 170.9911156107 - 0.002459433845 185.0915850991 - 0.002581616446 195.3157701754 - 0.002659192209 201.7985113282 - 0.002701981783 205.3714344570 - 0.002722294073 207.0668049979 - 0.002730483647 207.7502226829 - 0.002733141362 207.9719926166 - 0.002733957254 208.0400722754 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311158 - 0.001232412974 81.3364311161 - 0.001232412974 81.3364311238 - 0.001232412976 81.3364312508 - 0.001232412994 81.3364327523 - 0.001232413153 81.3364464017 - 0.001232414314 81.3365456501 - 0.001232421250 81.3371386082 - 0.001232455988 81.3401084407 - 0.001232603931 81.3527562134 - 0.001233145708 81.3990728747 - 0.001234866702 81.5461978468 - 0.001239641660 81.9543732953 - 0.001251276910 82.9488142263 - 0.001276286008 85.0854810046 - 0.001323867565 89.1476290313 - 0.001404213778 95.9982237184 - 0.001524871570 106.2660235146 - 0.001686241891 119.9628810219 - 0.001878612825 136.2410246472 - 0.002083082855 153.4871039660 - 0.002276800447 169.7763752042 - 0.002440238382 183.4837540672 - 0.002562825374 193.7444492108 - 0.002644348971 200.5586312924 - 0.002692226151 204.5570176963 - 0.002716907313 206.6172415661 - 0.002727970854 207.5405386208 - 0.002732226229 207.8956313276 - 0.002733558997 208.0068409887 - 0.002733957254 208.0400722754 + 0.001232412974 81.3364318327 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318326 + 0.001301814488 87.2653941645 + 0.001669817758 118.5706218458 + 0.002227078224 165.5998212095 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001235621040 81.6106839148 + 0.001269641572 84.5179177394 + 0.001414559092 96.8795196974 + 0.001745163821 124.9543921774 + 0.002195378072 162.9354838671 + 0.002537095849 191.5922851051 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232561266 81.3491094706 + 0.001234920157 81.5507682465 + 0.001251296156 82.9504596426 + 0.001317081372 88.5685155037 + 0.001487888548 103.1213040673 + 0.001789098111 128.6729742356 + 0.002157580578 159.7570349400 + 0.002474080693 186.3181346006 + 0.002651709820 201.1735286886 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232419829 81.3370178436 + 0.001232565214 81.3494469837 + 0.001233962248 81.4688789180 + 0.001242037728 82.1591806750 + 0.001273476528 84.8455069933 + 0.001360841895 92.3015359173 + 0.001539866315 107.5404367790 + 0.001815424956 130.8999522452 + 0.002136718662 158.0019531428 + 0.002420389750 181.8207637979 + 0.002609291488 197.6292532804 + 0.002697983528 205.0376689972 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232413291 81.3364589271 + 0.001232421691 81.3371770759 + 0.001232524764 81.3459888469 + 0.001233302822 81.4125052850 + 0.001237354377 81.7588563709 + 0.001252817860 83.0804987794 + 0.001297671017 86.9116543371 + 0.001398827364 95.5392977976 + 0.001578799046 110.8477208873 + 0.001833581125 132.4352068674 + 0.002121748002 156.7421533386 + 0.002382026290 178.6052145857 + 0.002568646988 194.2313019642 + 0.002673893104 203.0262642243 + 0.002717714490 206.6846114251 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412989 81.3364330851 + 0.001232413455 81.3364729301 + 0.001232420411 81.3370675705 + 0.001232485223 81.3426084493 + 0.001232908299 81.3787774989 + 0.001234966507 81.5547305108 + 0.001242716309 82.2171814049 + 0.001265868350 84.1955767990 + 0.001321677388 88.9607350415 + 0.001431490629 98.3215019605 + 0.001609234683 113.4315657301 + 0.001847015041 133.5708588187 + 0.002110468810 155.7928062695 + 0.002352110012 176.0964809038 + 0.002534933693 191.4113954811 + 0.002648122473 200.8738643891 + 0.002704815074 205.6079459257 + 0.002726448856 207.4135328214 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412975 81.3364318905 + 0.001232413000 81.3364340394 + 0.001232413442 81.3364718220 + 0.001232418341 81.3368906213 + 0.001232456801 81.3401786131 + 0.001232684413 81.3596373981 + 0.001233739892 81.4498700117 + 0.001237675252 81.7862854355 + 0.001249687962 82.8130250456 + 0.001280099851 85.4112232611 + 0.001344555545 90.9125977802 + 0.001459690633 100.7221324911 + 0.001633824038 115.5180611905 + 0.001857444490 134.4523513659 + 0.002101570636 155.0437498209 + 0.002328026771 174.0761197886 + 0.002506096935 188.9983532002 + 0.002624212310 198.8761951536 + 0.002689716381 204.3474840493 + 0.002719713144 206.8514152223 + 0.002730422771 207.7451460570 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318353 + 0.001232412976 81.3364319488 + 0.001232413003 81.3364342462 + 0.001232413348 81.3364637815 + 0.001232416517 81.3367347059 + 0.001232438619 81.3386242253 + 0.001232560469 81.3490412821 + 0.001233105725 81.3956555164 + 0.001235123638 81.5681631205 + 0.001241385376 82.1034211919 + 0.001257845598 83.5101213421 + 0.001294784262 86.6651863020 + 0.001365962551 92.7381451906 + 0.001484234180 102.8104501714 + 0.001654200966 117.2464281660 + 0.001865833864 135.1613080864 + 0.002094314504 154.4328467309 + 0.002308103853 172.4042438398 + 0.002481189509 186.9133461990 + 0.002602040177 197.0231669110 + 0.002674407244 203.0691984623 + 0.002711229744 206.1433768589 + 0.002726945867 207.4550080542 + 0.002732269136 207.8992148149 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318328 + 0.001232412974 81.3364318387 + 0.001232412976 81.3364319738 + 0.001232412999 81.3364339502 + 0.001232413242 81.3364547027 + 0.001232415191 81.3366213379 + 0.001232427649 81.3376864053 + 0.001232492736 81.3432507483 + 0.001232776074 81.3674735419 + 0.001233818563 81.4565954947 + 0.001237095637 81.7367385947 + 0.001245970643 82.4953290797 + 0.001266812167 84.2762081086 + 0.001309465073 87.9184682723 + 0.001385830506 94.4317570965 + 0.001505785307 104.6433616258 + 0.001671431477 118.7074332307 + 0.001872765007 135.7469612611 + 0.002088250177 153.9222311783 + 0.002291268793 170.9911179743 + 0.002459433845 185.0915877664 + 0.002581616446 195.3157730696 + 0.002659192209 201.7985143692 + 0.002701981783 205.3714375800 + 0.002722294073 207.0668081599 + 0.002730483647 207.7502258608 + 0.002733141362 207.9719957995 + 0.002733957254 208.0400754599 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318327 + 0.001232412974 81.3364318330 + 0.001232412974 81.3364318407 + 0.001232412976 81.3364319677 + 0.001232412994 81.3364334692 + 0.001232413153 81.3364471186 + 0.001232414314 81.3365463670 + 0.001232421250 81.3371393251 + 0.001232455988 81.3401091577 + 0.001232603931 81.3527569305 + 0.001233145708 81.3990735926 + 0.001234866702 81.5461985669 + 0.001239641660 81.9543740217 + 0.001251276910 82.9488149680 + 0.001276286008 85.0854817794 + 0.001323867565 89.1476298701 + 0.001404213778 95.9982246679 + 0.001524871570 106.2660246362 + 0.001686241891 119.9628823843 + 0.001878612825 136.2410263117 + 0.002083082855 153.4871059686 + 0.002276800447 169.7763775422 + 0.002440238382 183.4837566992 + 0.002562825374 193.7444520698 + 0.002644348971 200.5586343052 + 0.002692226151 204.5570208005 + 0.002716907313 206.6172447178 + 0.002727970854 207.5405417937 + 0.002732226229 207.8956345088 + 0.002733558997 208.0068441725 + 0.002733957254 208.0400754599 diff --git a/mytest/lk_phase.out b/mytest/lk_phase.out index 9e559b23..89d74e89 100644 --- a/mytest/lk_phase.out +++ b/mytest/lk_phase.out @@ -137,7 +137,7 @@ Calcite 0.00 -8.39 -8.39 1.000e+01 1.000e+01 -1.033e-04 Specific Conductance (µS/cm, 0°C) = 14 Density (g/cm³) = 0.99985 Volume (L) = 1.00016 - Viscosity (mPa s) = 1.79231 + Viscosity (mPa s) = 1.79227 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.414e-04 Mass of water (kg) = 1.000e+00 @@ -301,7 +301,7 @@ Calcite 0.00 -8.88 -8.88 1.000e+01 1.000e+01 -1.417e-04 Specific Conductance (µS/cm, 60°C) = 78 Density (g/cm³) = 0.98321 Volume (L) = 1.01710 - Viscosity (mPa s) = 0.46632 + Viscosity (mPa s) = 0.46634 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.188e-04 Mass of water (kg) = 1.000e+00 @@ -383,7 +383,7 @@ Calcite 0.00 -9.61 -9.61 1.000e+01 1.000e+01 -1.393e-04 Specific Conductance (µS/cm, 100°C) = 118 Density (g/cm³) = 0.95836 Volume (L) = 1.04346 - Viscosity (mPa s) = 0.28181 + Viscosity (mPa s) = 0.28183 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.066e-04 Mass of water (kg) = 1.000e+00 @@ -465,7 +465,7 @@ Calcite -0.00 -10.83 -10.83 1.000e+01 1.000e+01 -1.039e-04 Specific Conductance (µS/cm, 150°C) = 122 Density (g/cm³) = 0.91702 Volume (L) = 1.09050 - Viscosity (mPa s) = 0.18269 + Viscosity (mPa s) = 0.18272 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.023e-04 Mass of water (kg) = 1.000e+00 @@ -548,7 +548,7 @@ Calcite -0.00 -12.26 -12.26 1.000e+01 1.000e+01 -6.564e-05 Specific Conductance (µS/cm, 200°C) = 92 Density (g/cm³) = 0.86468 Volume (L) = 1.15651 - Viscosity (mPa s) = 0.13550 + Viscosity (mPa s) = 0.13552 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.862e-04 Mass of water (kg) = 1.000e+00 @@ -728,7 +728,7 @@ Calcite -0.00 -7.84 -7.84 1.000e+01 1.000e+01 -1.852e-04 Specific Conductance (µS/cm, 0°C) = 25 Density (g/cm³) = 1.02415 Volume (L) = 0.97643 - Viscosity (mPa s) = 1.70465 + Viscosity (mPa s) = 1.70461 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.103e-04 Mass of water (kg) = 1.000e+00 @@ -910,7 +910,7 @@ Calcite -0.00 -8.47 -8.47 1.000e+01 1.000e+01 -2.019e-04 Specific Conductance (µS/cm, 60°C) = 108 Density (g/cm³) = 1.00404 Volume (L) = 0.99600 - Viscosity (mPa s) = 0.47887 + Viscosity (mPa s) = 0.47889 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.850e-04 Mass of water (kg) = 1.000e+00 @@ -1001,7 +1001,7 @@ Calcite -0.00 -9.21 -9.21 1.000e+01 1.000e+01 -1.904e-04 Specific Conductance (µS/cm, 100°C) = 159 Density (g/cm³) = 0.98062 Volume (L) = 1.01978 - Viscosity (mPa s) = 0.29527 + Viscosity (mPa s) = 0.29530 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.508e-04 Mass of water (kg) = 1.000e+00 @@ -1092,7 +1092,7 @@ Calcite 0.00 -10.39 -10.39 1.000e+01 1.000e+01 -1.408e-04 Specific Conductance (µS/cm, 150°C) = 164 Density (g/cm³) = 0.94310 Volume (L) = 1.06035 - Viscosity (mPa s) = 0.19502 + Viscosity (mPa s) = 0.19505 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.171e-04 Mass of water (kg) = 1.000e+00 @@ -1183,7 +1183,7 @@ Calcite 0.00 -11.73 -11.73 1.000e+01 1.000e+01 -8.949e-05 Specific Conductance (µS/cm, 200°C) = 126 Density (g/cm³) = 0.89720 Volume (L) = 1.11459 - Viscosity (mPa s) = 0.14566 + Viscosity (mPa s) = 0.14569 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.636e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/lk_phase_101.sel b/mytest/lk_phase_101.sel index 9636d68d..dcf1450f 100644 --- a/mytest/lk_phase_101.sel +++ b/mytest/lk_phase_101.sel @@ -1,15 +1,15 @@ Mu SC 0.000000100661 0.0546997340 - 0.000341402254 14.2744062654 - 0.000385530171 36.1571055692 - 0.000418802728 78.9118273245 - 0.000406637211 118.9561997124 - 0.000302329471 122.1294458327 - 0.000186239934 92.8071425780 + 0.000341402254 14.2745595209 + 0.000385530171 36.1571056915 + 0.000418802728 78.9106580962 + 0.000406637211 118.9520733160 + 0.000302329471 122.1222938703 + 0.000186239934 92.8006811179 0.000000100661 0.0546997340 - 0.000610346727 25.8278239579 - 0.000597504589 54.9774574081 - 0.000585013223 108.9697293363 - 0.000550793317 159.4170607174 - 0.000417105202 164.1536491981 - 0.000263636726 126.9069911491 + 0.000610346727 25.8282292989 + 0.000597504589 54.9774576571 + 0.000585013223 108.9677666098 + 0.000550793317 159.4106281529 + 0.000417105202 164.1422251629 + 0.000263636726 126.8958916757 diff --git a/mytest/local_min_pz_102.sel b/mytest/local_min_pz_102.sel index db40c0db..fe5a1e66 100644 --- a/mytest/local_min_pz_102.sel +++ b/mytest/local_min_pz_102.sel @@ -1,3 +1,3 @@ Mu SC - 0.722276588069 52653.8993555370 - 13.278319922601 118873.4840039384 + 0.722276588069 52653.9055791994 + 13.278319922601 118873.5001999399 diff --git a/mytest/low_p_101.sel b/mytest/low_p_101.sel index 5776505b..4f30029c 100644 --- a/mytest/low_p_101.sel +++ b/mytest/low_p_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.104109243636 11249.1346151775 - 0.104045366173 10904.7063432580 - 0.103874842380 10928.0664399229 + 0.104109243636 11249.1350760083 + 0.104045366173 10904.7067581443 + 0.103874842380 10928.0668555036 diff --git a/mytest/mV1_rho.out b/mytest/mV1_rho.out index bf05f569..4ecef34a 100644 --- a/mytest/mV1_rho.out +++ b/mytest/mV1_rho.out @@ -1056,7 +1056,7 @@ Using temperature 1. Specific Conductance (µS/cm, 161°C) = 2 Density (g/cm³) = 0.90647 Volume (L) = 1.10318 - Viscosity (mPa s) = 0.16930 + Viscosity (mPa s) = 0.16931 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.715e-06 Mass of water (kg) = 1.000e+00 @@ -1188,7 +1188,7 @@ Using temperature 1. Specific Conductance (µS/cm, 184°C) = 3 Density (g/cm³) = 0.88269 Volume (L) = 1.13290 - Viscosity (mPa s) = 0.14693 + Viscosity (mPa s) = 0.14694 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.039e-06 Mass of water (kg) = 1.000e+00 diff --git a/mytest/mV1_rho_101.sel b/mytest/mV1_rho_101.sel index 68a0b0cb..01c67cf7 100644 --- a/mytest/mV1_rho_101.sel +++ b/mytest/mV1_rho_101.sel @@ -1,44 +1,44 @@ Mu SC 0.000002100779 0.3291288630 - 0.000002034005 0.1572390061 - 0.000002058045 0.2277063920 - 0.000002093307 0.3126667039 - 0.000002142375 0.4150384285 - 0.000002207574 0.5381095755 - 0.000002290729 0.6849608124 - 0.000002392948 0.8579006025 - 0.000002514450 1.0579518023 - 0.000002654443 1.2844421251 - 0.000002811111 1.5347906182 - 0.000002981682 1.8044949428 - 0.000003162274 2.0870229579 - 0.000003348276 2.3743584005 - 0.000003534488 2.6574115174 - 0.000003715386 2.9266067292 - 0.000003885412 3.1725264351 - 0.000004039287 3.3865555534 - 0.000004172331 3.5614131069 - 0.000004280757 3.6918512721 - 0.000004361954 3.7746566500 - 0.000004414724 3.8091628522 - 0.000002034005 0.0114346771 - 0.000002058045 0.0251959951 - 0.000002093307 0.0492186338 - 0.000002142375 0.0876242483 - 0.000002207574 0.1447585779 - 0.000002290729 0.2247099173 - 0.000002392948 0.3307662408 - 0.000002514450 0.4648887186 - 0.000002654443 0.6272778831 - 0.000002811111 0.8161372000 - 0.000002981682 1.0276472626 - 0.000003162274 1.2558459753 - 0.000003348276 1.4931721644 - 0.000003534488 1.7308835228 - 0.000003715386 1.9596375877 - 0.000003885412 2.1701911773 - 0.000004039287 2.3539963256 - 0.000004172331 2.5038431613 - 0.000004280757 2.6143491194 - 0.000004361954 2.6823316327 - 0.000004414724 2.7070355480 + 0.000002034005 0.1572390648 + 0.000002058045 0.2277064441 + 0.000002093307 0.3126667159 + 0.000002142375 0.4150383429 + 0.000002207574 0.5381092986 + 0.000002290729 0.6849602015 + 0.000002392948 0.8578994515 + 0.000002514450 1.0579498289 + 0.000002654443 1.2844389601 + 0.000002811111 1.5347857991 + 0.000002981682 1.8044879130 + 0.000003162274 2.0870130743 + 0.000003348276 2.3743449501 + 0.000003534488 2.6573937441 + 0.000003715386 2.9265838712 + 0.000003885412 3.1724977705 + 0.000004039287 3.3865204512 + 0.000004172331 3.5613710796 + 0.000004280757 3.6918020144 + 0.000004361954 3.7746000765 + 0.000004414724 3.8090991040 + 0.000002034005 0.0114346774 + 0.000002058045 0.0251959956 + 0.000002093307 0.0492186340 + 0.000002142375 0.0876242458 + 0.000002207574 0.1447585657 + 0.000002290729 0.2247098787 + 0.000002392948 0.3307661422 + 0.000002514450 0.4648884990 + 0.000002654443 0.6272774420 + 0.000002811111 0.8161363845 + 0.000002981682 1.0276458562 + 0.000003162274 1.2558436918 + 0.000003348276 1.4931686493 + 0.000003534488 1.7308783639 + 0.000003715386 1.9596303372 + 0.000003885412 2.1701813839 + 0.000004039287 2.3539835731 + 0.000004172331 2.5038271110 + 0.000004280757 2.6143295490 + 0.000004361954 2.6823084650 + 0.000004414724 2.7070088647 diff --git a/mytest/mV2_rho.out b/mytest/mV2_rho.out index 13cfe54c..db074a93 100644 --- a/mytest/mV2_rho.out +++ b/mytest/mV2_rho.out @@ -356,7 +356,7 @@ Using temperature 1. Specific Conductance (µS/cm, 34°C) = 1 Density (g/cm³) = 0.99420 Volume (L) = 1.00583 - Viscosity (mPa s) = 0.72639 + Viscosity (mPa s) = 0.72640 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.143e-06 Mass of water (kg) = 1.000e+00 @@ -632,7 +632,7 @@ Using temperature 1. Specific Conductance (µS/cm, 80°C) = 2 Density (g/cm³) = 0.97147 Volume (L) = 1.02936 - Viscosity (mPa s) = 0.35186 + Viscosity (mPa s) = 0.35187 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.515e-06 Mass of water (kg) = 1.000e+00 @@ -1120,7 +1120,7 @@ Using temperature 1. Specific Conductance (µS/cm, 161°C) = 4 Density (g/cm³) = 0.90647 Volume (L) = 1.10318 - Viscosity (mPa s) = 0.16931 + Viscosity (mPa s) = 0.16932 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.070e-05 Mass of water (kg) = 1.000e+00 @@ -1330,7 +1330,7 @@ Using temperature 1. Specific Conductance (µS/cm, 196°C) = 5 Density (g/cm³) = 0.86987 Volume (L) = 1.14960 - Viscosity (mPa s) = 0.13785 + Viscosity (mPa s) = 0.13786 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.113e-05 Mass of water (kg) = 1.000e+00 @@ -2141,7 +2141,7 @@ Using temperature 1. Specific Conductance (µS/cm, 80°C) = 2 Density (g/cm³) = 0.97147 Volume (L) = 1.02936 - Viscosity (mPa s) = 0.35186 + Viscosity (mPa s) = 0.35187 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.515e-06 Mass of water (kg) = 1.000e+00 @@ -2839,7 +2839,7 @@ Using temperature 1. Specific Conductance (µS/cm, 196°C) = 5 Density (g/cm³) = 0.86987 Volume (L) = 1.14960 - Viscosity (mPa s) = 0.13785 + Viscosity (mPa s) = 0.13786 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.114e-05 Mass of water (kg) = 1.000e+00 @@ -2909,7 +2909,7 @@ Using temperature 1. Specific Conductance (µS/cm, 207°C) = 6 Density (g/cm³) = 0.85638 Volume (L) = 1.16771 - Viscosity (mPa s) = 0.12982 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12983 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 1.123e-05 Mass of water (kg) = 1.000e+00 @@ -2979,7 +2979,7 @@ Using temperature 1. Specific Conductance (µS/cm, 218°C) = 6 Density (g/cm³) = 0.84216 Volume (L) = 1.18742 - Viscosity (mPa s) = 0.12266 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12267 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 1.129e-05 Mass of water (kg) = 1.000e+00 @@ -3049,7 +3049,7 @@ Using temperature 1. Specific Conductance (µS/cm, 230°C) = 6 Density (g/cm³) = 0.82717 Volume (L) = 1.20894 - Viscosity (mPa s) = 0.11621 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11622 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 1.131e-05 Mass of water (kg) = 1.000e+00 diff --git a/mytest/mV2_rho_101.sel b/mytest/mV2_rho_101.sel index 888ffbd8..15f9461a 100644 --- a/mytest/mV2_rho_101.sel +++ b/mytest/mV2_rho_101.sel @@ -1,44 +1,44 @@ Mu SC - 0.000009100906 0.8434283275 - 0.000009034042 0.4289619788 - 0.000009058118 0.6066509700 - 0.000009093425 0.8064460977 - 0.000009142549 1.0282532963 - 0.000009207809 1.2726628621 - 0.000009291019 1.5403268643 - 0.000009393267 1.8314613553 - 0.000009514739 2.1454233712 - 0.000009654589 2.4803577742 - 0.000009810926 2.8329728714 - 0.000009980868 3.1984506154 - 0.000010160378 3.5702799418 - 0.000010344627 3.9406332068 - 0.000010528117 4.3006563242 - 0.000010704918 4.6409411145 - 0.000010868925 4.9520783212 - 0.000011014139 5.2252418454 - 0.000011134943 5.4525920037 - 0.000011226383 5.6283111631 - 0.000011284460 5.7480399015 - 0.000011306462 5.8099458213 - 0.000009034042 0.4125734029 - 0.000009058118 0.5945122069 - 0.000009093425 0.8037584003 - 0.000009142549 1.0403696894 - 0.000009207809 1.3048630021 - 0.000009291019 1.5976410069 - 0.000009393267 1.9185233748 - 0.000009514739 2.2663498953 - 0.000009654589 2.6386553731 - 0.000009810926 3.0314747470 - 0.000009980869 3.4392812272 - 0.000010160380 3.8548462332 - 0.000010344632 4.2696388967 - 0.000010528132 4.6741349839 - 0.000010704955 5.0582911346 - 0.000010869010 5.4121483590 - 0.000011014323 5.7263538789 - 0.000011135318 5.9927606729 - 0.000011227108 6.2048891872 - 0.000011285787 6.3582989387 - 0.000011308749 6.4508463041 + 0.000009100906 0.8434283285 + 0.000009034042 0.4289634067 + 0.000009058118 0.6066521277 + 0.000009093425 0.8064463393 + 0.000009142549 1.0282517656 + 0.000009207809 1.2726584820 + 0.000009291019 1.5403183294 + 0.000009393267 1.8314471308 + 0.000009514739 2.1454016974 + 0.000009654589 2.4803266776 + 0.000009810926 2.8329301820 + 0.000009980868 3.1983939917 + 0.000010160378 3.5702069047 + 0.000010344627 3.9405411866 + 0.000010528117 4.3005427194 + 0.000010704918 4.6408033651 + 0.000010868925 4.9519139939 + 0.000011014139 5.2250487256 + 0.000011134943 5.4523682050 + 0.000011226383 5.6280551740 + 0.000011284460 5.7477507158 + 0.000011306462 5.8096229630 + 0.000009034042 0.4125740084 + 0.000009058118 0.5945126969 + 0.000009093425 0.8037585029 + 0.000009142549 1.0403690338 + 0.000009207809 1.3048611017 + 0.000009291019 1.5976372422 + 0.000009393267 1.9185169795 + 0.000009514739 2.2663399477 + 0.000009654589 2.6386407957 + 0.000009810926 3.0314543147 + 0.000009980869 3.4392535852 + 0.000010160380 3.8548099270 + 0.000010344632 4.2695924121 + 0.000010528132 4.6740767984 + 0.000010704955 5.0582197787 + 0.000010869010 5.4120624817 + 0.000011014323 5.7262523184 + 0.000011135318 5.9926425206 + 0.000011227108 6.2047538398 + 0.000011285787 6.3581461317 + 0.000011308749 6.4506761181 diff --git a/mytest/mV_SO4_rho.out b/mytest/mV_SO4_rho.out index ac9803b4..c56a8816 100644 --- a/mytest/mV_SO4_rho.out +++ b/mytest/mV_SO4_rho.out @@ -1434,7 +1434,7 @@ Using temperature 1. Specific Conductance (µS/cm, 225°C) = 3 Density (g/cm³) = 0.83379 Volume (L) = 1.19935 - Viscosity (mPa s) = 0.11893 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11894 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.255e-06 Mass of water (kg) = 1.000e+00 @@ -2840,7 +2840,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 3 Density (g/cm³) = 0.88470 Volume (L) = 1.13033 - Viscosity (mPa s) = 0.14151 + Viscosity (mPa s) = 0.14152 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.488e-06 Mass of water (kg) = 1.000e+00 @@ -2986,7 +2986,7 @@ Using pressure 1. Specific Conductance (µS/cm, 225°C) = 3 Density (g/cm³) = 0.85682 Volume (L) = 1.16710 - Viscosity (mPa s) = 0.12581 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.12582 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.734e-06 Mass of water (kg) = 1.000e+00 @@ -4519,7 +4519,7 @@ Using temperature 1. Specific Conductance (µS/cm, 225°C) = 3 Density (g/cm³) = 0.83379 Volume (L) = 1.19935 - Viscosity (mPa s) = 0.11893 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.11894 (solute contributions limited to 200 °C) Activity of water = 1.000 Ionic strength (mol/kgw) = 3.256e-06 Mass of water (kg) = 1.000e+00 diff --git a/mytest/mV_SO4_rho_101.sel b/mytest/mV_SO4_rho_101.sel index c4dcbc19..ef961723 100644 --- a/mytest/mV_SO4_rho_101.sel +++ b/mytest/mV_SO4_rho_101.sel @@ -1,65 +1,65 @@ Mu SC 0.000000999501 0.1268095157 - 0.000000932767 0.0484293893 - 0.000000959374 0.0806202533 + 0.000000932767 0.0484294144 + 0.000000959374 0.0806202781 0.000000999501 0.1268095157 - 0.000001056431 0.1917828664 - 0.000001133024 0.2807319431 - 0.000001231362 0.3985169516 - 0.000001352432 0.5488010154 - 0.000001495892 0.7332014335 - 0.000001659936 0.9506261916 - 0.000001841459 1.1971363348 - 0.000002035724 1.4655757640 - 0.000002236882 1.7462963945 - 0.000002438170 2.0277865344 - 0.000002632276 2.2975831137 - 0.000002811758 2.5432747700 - 0.000002969483 2.7534951438 - 0.000003099085 2.9187499673 - 0.000003195428 3.0322887298 - 0.000003255084 3.0904344554 - 0.000003276864 3.0930893552 - 0.000003262443 3.0439488124 - 0.000000937600 0.0531377501 - 0.000000967806 0.0876420667 + 0.000001056431 0.1917827930 + 0.000001133024 0.2807317156 + 0.000001231362 0.3985164487 + 0.000001352432 0.5488000657 + 0.000001495892 0.7331998040 + 0.000001659936 0.9506235751 + 0.000001841459 1.1971323396 + 0.000002035724 1.4655699107 + 0.000002236882 1.7462881230 + 0.000002438170 2.0277752093 + 0.000002632276 2.2975680941 + 0.000002811758 2.5432554324 + 0.000002969483 2.7534709469 + 0.000003099085 2.9187205100 + 0.000003195428 3.0322537936 + 0.000003255084 3.0903940303 + 0.000003276864 3.0930436345 + 0.000003262443 3.0438981561 + 0.000000937600 0.0531377787 + 0.000000967806 0.0876420945 0.000001013249 0.1375984857 - 0.000001077617 0.2084347514 - 0.000001164156 0.3060020076 - 0.000001275285 0.4357815024 - 0.000001412269 0.6019593328 - 0.000001574975 0.8065360624 - 0.000001761728 1.0486505838 - 0.000001969281 1.3242476458 - 0.000002192906 1.6261356210 - 0.000002426585 1.9444092684 - 0.000002663312 2.2671657241 - 0.000002895465 2.5814195037 - 0.000003115241 2.8741142089 - 0.000003315120 3.1331320377 - 0.000003488343 3.3482178820 - 0.000003629390 3.5116622230 - 0.000003734460 3.6191115541 - 0.000003801959 3.6695888514 - 0.000003833035 3.6659693173 - 0.000000932767 0.0489273966 - 0.000000959374 0.0809893539 + 0.000001077617 0.2084346706 + 0.000001164156 0.3060017585 + 0.000001275285 0.4357809535 + 0.000001412269 0.6019582974 + 0.000001574975 0.8065342834 + 0.000001761728 1.0486477178 + 0.000001969281 1.3242432484 + 0.000002192906 1.6261291390 + 0.000002426585 1.9444000430 + 0.000002663312 2.2671529950 + 0.000002895465 2.5814024744 + 0.000003115241 2.8740920740 + 0.000003315120 3.1331040517 + 0.000003488343 3.3481834231 + 0.000003629390 3.5116208507 + 0.000003734460 3.6190630382 + 0.000003801959 3.6695331838 + 0.000003833035 3.6659066795 + 0.000000932767 0.0489274114 + 0.000000959374 0.0809893712 0.000000999501 0.1268094180 - 0.000001056431 0.1911015839 - 0.000001133024 0.2789771220 - 0.000001231362 0.3952172873 - 0.000001352432 0.5434240175 - 0.000001495892 0.7251864358 - 0.000001659936 0.9394254822 - 0.000001841459 1.1822550114 - 0.000002035725 1.4466064209 - 0.000002236884 1.7229440475 - 0.000002438178 1.9998870702 - 0.000002632301 2.2651190165 - 0.000002811822 2.5063931065 - 0.000002969635 2.7125311290 - 0.000003099424 2.8742727912 - 0.000003196123 2.9851149113 - 0.000003256385 3.0416748202 - 0.000003279054 3.0441068678 - 0.000003265647 2.9962040164 + 0.000001056431 0.1911015226 + 0.000001133024 0.2789769226 + 0.000001231362 0.3952168320 + 0.000001352432 0.5434231384 + 0.000001495892 0.7251849037 + 0.000001659936 0.9394229951 + 0.000001841459 1.1822511839 + 0.000002035725 1.4466007812 + 0.000002236884 1.7229360449 + 0.000002438178 1.9998760817 + 0.000002632301 2.2651044130 + 0.000002811822 2.5063742794 + 0.000002969635 2.7125075546 + 0.000003099424 2.8742440900 + 0.000003196123 2.9850808927 + 0.000003256385 3.0416355106 + 0.000003279054 3.0440625053 + 0.000003265647 2.9961550128 diff --git a/mytest/mean_gammas_101.sel b/mytest/mean_gammas_101.sel index 00aec3fc..0eebe877 100644 --- a/mytest/mean_gammas_101.sel +++ b/mytest/mean_gammas_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.003808608640 296.0578097632 + 0.003808608640 296.0578130120 diff --git a/mytest/mgcl2mgso4_pz.out b/mytest/mgcl2mgso4_pz.out index d98bdd24..837ae8fd 100644 --- a/mytest/mgcl2mgso4_pz.out +++ b/mytest/mgcl2mgso4_pz.out @@ -339,7 +339,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 7.930e+00 -2.070e+00 Specific Conductance (µS/cm, 25°C) = 223883 Density (g/cm³) = 1.28659 Volume (L) = 1.18704 - Viscosity (mPa s) = 2.79177 + Viscosity (mPa s) = 2.79176 Activity of water = 0.697 Ionic strength (mol/kgw) = 1.039e+01 Mass of water (kg) = 1.000e+00 @@ -1336,7 +1336,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 8.263e+00 -1.737e+00 pH = 4.839 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 268695 + Specific Conductance (µS/cm, 25°C) = 268696 Density (g/cm³) = 1.23104 Volume (L) = 1.16408 Viscosity (mPa s) = 2.01385 @@ -3101,7 +3101,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 9.428e+00 -5.720e-01 Specific Conductance (µS/cm, 25°C) = 115533 Density (g/cm³) = 1.29808 Volume (L) = 0.80062 - Viscosity (mPa s) = 6.15234 + Viscosity (mPa s) = 6.15233 Activity of water = 0.577 Ionic strength (mol/kgw) = 1.376e+01 Mass of water (kg) = 6.976e-01 @@ -3873,7 +3873,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 9.299e+00 -7.010e-01 Specific Conductance (µS/cm, 25°C) = 111568 Density (g/cm³) = 1.29431 Volume (L) = 1.11069 - Viscosity (mPa s) = 6.92937 + Viscosity (mPa s) = 6.92936 Activity of water = 0.505 Ionic strength (mol/kgw) = 1.436e+01 Mass of water (kg) = 9.670e-01 @@ -4470,7 +4470,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 8.975e+00 -1.025e+00 Specific Conductance (µS/cm, 25°C) = 111568 Density (g/cm³) = 1.29431 Volume (L) = 1.00146 - Viscosity (mPa s) = 6.92937 + Viscosity (mPa s) = 6.92936 Activity of water = 0.505 Ionic strength (mol/kgw) = 1.436e+01 Mass of water (kg) = 8.719e-01 @@ -4674,7 +4674,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 8.016e+00 -1.984e+00 Specific Conductance (µS/cm, 25°C) = 133452 Density (g/cm³) = 1.27378 Volume (L) = 0.95046 - Viscosity (mPa s) = 5.67582 + Viscosity (mPa s) = 5.67581 Activity of water = 0.511 Ionic strength (mol/kgw) = 1.335e+01 Mass of water (kg) = 8.308e-01 @@ -4856,7 +4856,7 @@ Sylvite 0.00 0.90 0.90 1.000e+01 7.650e+00 -2.350e+00 Specific Conductance (µS/cm, 25°C) = 111568 Density (g/cm³) = 1.29431 Volume (L) = 0.89224 - Viscosity (mPa s) = 6.92937 + Viscosity (mPa s) = 6.92936 Activity of water = 0.505 Ionic strength (mol/kgw) = 1.436e+01 Mass of water (kg) = 7.768e-01 diff --git a/mytest/mgcl2mgso4_pz_101.sel b/mytest/mgcl2mgso4_pz_101.sel index 54cb278c..7b8d545f 100644 --- a/mytest/mgcl2mgso4_pz_101.sel +++ b/mytest/mgcl2mgso4_pz_101.sel @@ -1,55 +1,55 @@ Mu SC 0.000000100645 0.0546913895 - 7.196765837913 321036.2160370458 + 7.196765837913 321036.2606628119 0.000000100645 0.0546913895 - 10.391177878083 223883.7333239235 + 10.391177878083 223883.7645388856 0.000000100645 0.0546913895 - 13.532107976085 138337.2048442191 + 13.532107976085 138337.2185427385 0.000000100645 0.0546913895 - 15.652183734817 96005.4052009787 + 15.652183734817 96005.4119546040 0.000000100645 0.0546913895 - 15.652183735015 96005.4051988828 + 15.652183735015 96005.4119525081 0.000000100645 0.0546913895 - 15.652183638299 96005.4065295137 + 15.652183638299 96005.4132831392 0.000000100645 0.0546913895 - 8.301419742058 268695.9792320777 + 8.301419742058 268696.0228671025 0.000000100645 0.0546913895 - 11.487145253665 177284.9296723257 + 11.487145253665 177284.9547565717 0.000000100645 0.0546913895 - 14.049392336195 116080.9508297245 + 14.049392336195 116080.9628238457 0.000000100645 0.0546913895 - 13.803151016802 119113.8795702893 + 13.803151016802 119113.8926806445 0.000000100645 0.0546913895 - 13.538358727537 121952.0168460136 + 13.538358727537 121952.0313604974 0.000000100645 0.0546913895 - 13.468093728958 120885.7151081903 + 13.468093728958 120885.7306198931 0.000000100645 0.0546913895 - 9.540442538388 221170.2301373552 + 9.540442538388 221170.2689171864 0.000000100645 0.0546913895 - 12.788837541763 136390.2491801664 + 12.788837541763 136390.2676164763 0.000000100645 0.0546913895 - 13.459682818750 121102.3928255706 + 13.459682818750 121102.4083372242 0.000000100645 0.0546913895 - 13.760484198476 115533.2811670397 + 13.760484198476 115533.2960587005 0.000000100645 0.0546913895 - 11.069146143196 176963.4385927565 + 11.069146143196 176963.4689829641 0.000000100645 0.0546913895 - 13.973255530993 112336.3770907620 + 13.973255530993 112336.3913985495 0.000000100645 0.0546913895 - 13.048446718504 138160.5147211540 + 13.048446718504 138160.5351446739 0.000000100645 0.0546913895 - 14.364092987709 111568.8228433050 + 14.364092987709 111568.8369567419 0.000000100645 0.0546913895 - 14.364093171636 111568.8210983685 + 14.364093171636 111568.8352118049 0.000000100645 0.0546913895 - 14.364093130030 111568.8214956469 + 14.364093130030 111568.8356090834 0.000000100645 0.0546913895 - 14.364093048635 111568.8222578140 + 14.364093048635 111568.8363712507 0.000000100645 0.0546913895 - 13.351855013341 133452.7197320570 + 13.351855013341 133452.7388677703 0.000000100645 0.0546913895 - 14.364093050648 111568.8222655886 + 14.364093050648 111568.8363790253 0.000000100645 0.0546913895 - 14.364093206516 111568.8207769980 + 14.364093206516 111568.8348904344 0.000000100645 0.0546913895 - 14.364093204135 111568.8208652112 + 14.364093204135 111568.8349786476 diff --git a/mytest/millero_101.sel b/mytest/millero_101.sel index 6d90bcbd..327519b6 100644 --- a/mytest/millero_101.sel +++ b/mytest/millero_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.670775831990 52917.0877476508 - 0.001791931197 124.6370269679 - 0.003373040073 253.4473971667 - 0.009069633334 670.1586428321 - 0.002039838350 153.3122601501 + 0.670775831990 52917.0932209617 + 0.001791931197 124.6370280367 + 0.003373040073 253.4473994406 + 0.009069633334 670.1586520469 + 0.002039838350 153.3122614287 diff --git a/mytest/mix_unequal.out b/mytest/mix_unequal.out new file mode 100644 index 00000000..c3152c7f --- /dev/null +++ b/mytest/mix_unequal.out @@ -0,0 +1,359 @@ +WARNING: Database file from DATABASE keyword is used; command line argument ignored. + Input file: mix_unequal + Output file: mix_unequal.out +Database file: ../database/phreeqc.dat + +------------------ +Reading data base. +------------------ + + SOLUTION_MASTER_SPECIES + SOLUTION_SPECIES + PHASES + EXCHANGE_MASTER_SPECIES + EXCHANGE_SPECIES + SURFACE_MASTER_SPECIES + SURFACE_SPECIES + MEAN_GAMMAS + RATES + END +------------------------------------ +Reading input data for simulation 1. +------------------------------------ + + database ../database/phreeqc.dat + SELECTED_OUTPUT 101 + file mix_unequal_101.sel + USER_PUNCH 101 + headings Mu SC TC + start + 10 PUNCH STR_F$(MU, 20, 12) + 20 PUNCH STR_F$(SC, 20, 10) + 30 PUNCH STR_F$(TC, 20, 10) + end + SOLUTION 1 + temp 10 + Na 1 + Cl 1 + water 0.4 + END +------------------------------------------- +Beginning of initial solution calculations. +------------------------------------------- + +Initial solution 1. + +-----------------------------Solution composition------------------------------ + + Elements Molality Moles + + Cl 1.000e-03 4.000e-04 + Na 1.000e-03 4.000e-04 + +----------------------------Description of solution---------------------------- + + pH = 7.000 + pe = 4.000 + Specific Conductance (µS/cm, 10°C) = 86 + Density (g/cm³) = 0.99974 + Volume (L) = 0.40013 + Viscosity (mPa s) = 1.30621 + Activity of water = 1.000 + Ionic strength (mol/kgw) = 1.000e-03 + Mass of water (kg) = 4.000e-01 + Total alkalinity (eq/kg) = -7.295e-08 + Temperature (°C) = 10.00 + Electrical balance (eq) = 2.918e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 3 + Total H = 4.440497e+01 + Total O = 2.220249e+01 + +----------------------------Distribution of species---------------------------- + + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol + + H+ 1.034e-07 1.000e-07 -6.986 -7.000 -0.014 0.00 + OH- 3.046e-08 2.942e-08 -7.516 -7.531 -0.015 -5.01 + H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.02 +Cl 1.000e-03 + Cl- 1.000e-03 9.657e-04 -3.000 -3.015 -0.015 17.37 + HCl 3.648e-11 3.651e-11 -10.438 -10.438 0.000 (0) +H(0) 1.657e-25 + H2 8.283e-26 8.285e-26 -25.082 -25.082 0.000 28.63 +Na 1.000e-03 + Na+ 1.000e-03 9.660e-04 -3.000 -3.015 -0.015 -2.49 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -47.314 -47.314 0.000 28.95 + +------------------------------Saturation indices------------------------------- + + Phase SI** log IAP log K(283 K, 1 atm) + + H2(g) -22.03 -25.08 -3.05 H2 + H2O(g) -1.91 -0.00 1.91 H2O + Halite -7.59 -6.03 1.56 NaCl + O2(g) -44.55 -47.31 -2.77 O2 + +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. + +------------------ +End of simulation. +------------------ + +------------------------------------ +Reading input data for simulation 2. +------------------------------------ + + SOLUTION 2 + temp 20 + K 10 + Br 10 + water 0.6 + END +------------------------------------------- +Beginning of initial solution calculations. +------------------------------------------- + +Initial solution 2. + +-----------------------------Solution composition------------------------------ + + Elements Molality Moles + + Br 1.000e-02 6.000e-03 + K 1.000e-02 6.000e-03 + +----------------------------Description of solution---------------------------- + + pH = 7.000 + pe = 4.000 + Specific Conductance (µS/cm, 20°C) = 1291 + Density (g/cm³) = 0.99906 + Volume (L) = 0.60128 + Viscosity (mPa s) = 1.00159 + Activity of water = 1.000 + Ionic strength (mol/kgw) = 1.000e-02 + Mass of water (kg) = 6.000e-01 + Total alkalinity (eq/kg) = -3.344e-08 + Temperature (°C) = 20.00 + Electrical balance (eq) = 2.006e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 3 + Total H = 6.660746e+01 + Total O = 3.330373e+01 + +----------------------------Distribution of species---------------------------- + + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol + + H+ 1.094e-07 1.000e-07 -6.961 -7.000 -0.039 0.00 + OH- 7.597e-08 6.843e-08 -7.119 -7.165 -0.045 -4.26 + H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000 18.05 +Br 1.000e-02 + Br- 1.000e-02 8.994e-03 -2.000 -2.046 -0.046 24.37 +H(0) 1.486e-25 + H2 7.430e-26 7.447e-26 -25.129 -25.128 0.001 28.61 +K 1.000e-02 + K+ 1.000e-02 9.011e-03 -2.000 -2.045 -0.045 8.89 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -43.766 -43.765 0.001 29.98 + +------------------------------Saturation indices------------------------------- + + Phase SI** log IAP log K(293 K, 1 atm) + + H2(g) -22.04 -25.13 -3.09 H2 + H2O(g) -1.63 -0.00 1.63 H2O + O2(g) -40.91 -43.77 -2.85 O2 + +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. + +------------------ +End of simulation. +------------------ + +------------------------------------ +Reading input data for simulation 3. +------------------------------------ + + MIX 1 + 1 0.4 + 2 0.6 + END +----------------------------------------- +Beginning of batch-reaction calculations. +----------------------------------------- + +Reaction step 1. + +Using mix 1. + +Mixture 1. + + 4.000e-01 Solution 1 + 6.000e-01 Solution 2 + +-----------------------------Solution composition------------------------------ + + Elements Molality Moles + + Br 6.923e-03 3.600e-03 + Cl 3.077e-04 1.600e-04 + K 6.923e-03 3.600e-03 + Na 3.077e-04 1.600e-04 + +----------------------------Description of solution---------------------------- + + pH = 7.011 Charge balance + pe = 11.690 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 17°C) = 873 + Density (g/cm³) = 0.99940 + Volume (L) = 0.52075 + Viscosity (mPa s) = 1.08196 + Activity of water = 1.000 + Ionic strength (mol/kgw) = 7.231e-03 + Mass of water (kg) = 5.200e-01 + Total alkalinity (eq/kg) = -4.561e-08 + Temperature (°C) = 16.92 + Electrical balance (eq) = 2.372e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 7 + Total H = 5.772647e+01 + Total O = 2.886323e+01 + +----------------------------Distribution of species---------------------------- + + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol + + H+ 1.054e-07 9.742e-08 -6.977 -7.011 -0.034 0.00 + OH- 5.981e-08 5.467e-08 -7.223 -7.262 -0.039 -4.45 + H2O 5.551e+01 9.998e-01 1.744 -0.000 0.000 18.04 +Br 6.923e-03 + Br- 6.923e-03 6.321e-03 -2.160 -2.199 -0.039 24.16 +Cl 3.077e-04 + Cl- 3.077e-04 2.814e-04 -3.512 -3.551 -0.039 17.82 + HCl 9.861e-12 9.931e-12 -11.006 -11.003 0.003 (0) +H(0) 0.000e+00 + H2 0.000e+00 0.000e+00 -40.517 -40.516 0.001 28.62 +K 6.923e-03 + K+ 6.923e-03 6.330e-03 -2.160 -2.199 -0.039 8.76 +Na 3.077e-04 + Na+ 3.077e-04 2.820e-04 -3.512 -3.550 -0.038 -1.88 +O(0) 1.875e-14 + O2 9.375e-15 9.390e-15 -14.028 -14.027 0.001 29.70 + +------------------------------Saturation indices------------------------------- + + Phase SI** log IAP log K(290 K, 1 atm) + + H2(g) -37.44 -40.52 -3.08 H2 + H2O(g) -1.72 -0.00 1.72 H2O + Halite -8.66 -7.10 1.56 NaCl + O2(g) -11.20 -14.03 -2.83 O2 + Sylvite -6.61 -5.75 0.86 KCl + +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. + +------------------ +End of simulation. +------------------ + +------------------------------------ +Reading input data for simulation 4. +------------------------------------ + + MIX + 1 0.2 + 2 0.7 + END +----------------------------------------- +Beginning of batch-reaction calculations. +----------------------------------------- + +Reaction step 1. + +Using mix 1. + +Mixture 1. + + 2.000e-01 Solution 1 + 7.000e-01 Solution 2 + +-----------------------------Solution composition------------------------------ + + Elements Molality Moles + + Br 8.400e-03 4.200e-03 + Cl 1.600e-04 8.000e-05 + K 8.400e-03 4.200e-03 + Na 1.600e-04 8.000e-05 + +----------------------------Description of solution---------------------------- + + pH = 7.007 Charge balance + pe = -0.990 Adjusted to redox equilibrium + Specific Conductance (µS/cm, 18°C) = 1068 + Density (g/cm³) = 0.99925 + Volume (L) = 0.50088 + Viscosity (mPa s) = 1.04213 + Activity of water = 1.000 + Ionic strength (mol/kgw) = 8.560e-03 + Mass of water (kg) = 5.000e-01 + Total alkalinity (eq/kg) = -3.977e-08 + Temperature (°C) = 18.40 + Electrical balance (eq) = 1.988e-08 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Iterations = 6 + Total H = 5.550622e+01 + Total O = 2.775311e+01 + +----------------------------Distribution of species---------------------------- + + Log Log Log mole V + Species Molality Activity Molality Activity Gamma cm³/mol + + H+ 1.071e-07 9.842e-08 -6.970 -7.007 -0.037 0.00 + OH- 6.733e-08 6.110e-08 -7.172 -7.214 -0.042 -4.35 + H2O 5.551e+01 9.997e-01 1.744 -0.000 0.000 18.04 +Br 8.400e-03 + Br- 8.400e-03 7.612e-03 -2.076 -2.119 -0.043 24.26 +Cl 1.600e-04 + Cl- 1.600e-04 1.453e-04 -3.796 -3.838 -0.042 17.89 + HCl 5.089e-12 5.132e-12 -11.293 -11.290 0.004 (0) +H(0) 1.397e-15 + H2 6.984e-16 6.998e-16 -15.156 -15.155 0.001 28.61 +K 8.400e-03 + K+ 8.400e-03 7.624e-03 -2.076 -2.118 -0.042 8.83 +Na 1.600e-04 + Na+ 1.600e-04 1.456e-04 -3.796 -3.837 -0.041 -1.77 +O(0) 0.000e+00 + O2 0.000e+00 0.000e+00 -64.249 -64.248 0.001 29.84 + +------------------------------Saturation indices------------------------------- + + Phase SI** log IAP log K(291 K, 1 atm) + + H2(g) -12.07 -15.16 -3.08 H2 + H2O(g) -1.68 -0.00 1.68 H2O + Halite -9.24 -7.67 1.56 NaCl + O2(g) -61.41 -64.25 -2.84 O2 + Sylvite -6.82 -5.96 0.87 KCl + +**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. + For ideal gases, phi = 1. + +------------------ +End of simulation. +------------------ + +------------------------------------ +Reading input data for simulation 5. +------------------------------------ + diff --git a/mytest/mix_unequal_101.sel b/mytest/mix_unequal_101.sel index a1ad39e8..dab67d3b 100644 --- a/mytest/mix_unequal_101.sel +++ b/mytest/mix_unequal_101.sel @@ -1,5 +1,5 @@ Mu SC TC - 0.001000066900 86.7123676711 10.0000000000 - 0.010000092689 1291.7967478544 20.0000000000 - 0.007230851816 873.0591329232 16.9230769231 - 0.008560087209 1068.6105947361 18.4000000000 + 0.001000066900 86.7129298750 10.0000000000 + 0.010000092689 1291.8008500159 20.0000000000 + 0.007230851816 873.0630144059 16.9230769231 + 0.008560087209 1068.6147664997 18.4000000000 diff --git a/mytest/mixes_101.sel b/mytest/mixes_101.sel index d7117382..5d5d89c0 100644 --- a/mytest/mixes_101.sel +++ b/mytest/mixes_101.sel @@ -1,7 +1,7 @@ Mu SC - 0.001486655780 123.9793424096 - 0.001290977107 115.4045446481 - 0.001486655780 123.9793424096 - 0.001290977108 115.4045446480 - 0.001486655780 123.9793424096 - 0.001290977108 115.4045446480 + 0.001486655780 123.9793428866 + 0.001290977107 115.4045447851 + 0.001486655780 123.9793428866 + 0.001290977108 115.4045447851 + 0.001486655780 123.9793428866 + 0.001290977108 115.4045447851 diff --git a/mytest/mmb.out b/mytest/mmb.out index 7a1e6389..ae8a109a 100644 --- a/mytest/mmb.out +++ b/mytest/mmb.out @@ -229,7 +229,7 @@ Su 1.000e+06 m² for 1.000e+00 g Water in diffuse layer: 3.839e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92995 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.675e-02 V. @@ -284,7 +284,7 @@ Su 1.000e+06 m² for 1.000e+00 g Water in diffuse layer: 3.839e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92995 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.675e-02 V. @@ -384,48 +384,48 @@ Calculating transport: 1 (mobile) cells, 8 shifts, 2520 mixruns... ----------------------------------User print----------------------------------- solution = 1 -EB = 1.3000e-07 total water 1.0000e+00 7.0003e+00 Na = 1.0948e-03 Cl = 1.0957e-03 -sys_Ca = 8.6039e-03 a_Ca = 4.9860e-07 a_Na = 1.0550e-03 +EB = 1.5467e-07 total water 1.0000e+00 7.0015e+00 Na = 1.1052e-03 Cl = 1.1060e-03 +sys_Ca = 7.8593e-03 a_Ca = 4.4764e-07 a_Na = 1.0649e-03 ----------------------------------User print----------------------------------- solution = 1 -EB = 4.7364e-07 total water 1.0000e+00 7.0005e+00 Na = 1.0031e-03 Cl = 1.0043e-03 -sys_Ca = 1.3521e-02 a_Ca = 8.5209e-07 a_Na = 9.6808e-04 +EB = 5.3976e-07 total water 1.0000e+00 7.0008e+00 Na = 1.0047e-03 Cl = 1.0057e-03 +sys_Ca = 1.3398e-02 a_Ca = 8.4131e-07 a_Na = 9.6958e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 4.6256e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0005e-03 Cl = 1.0017e-03 -sys_Ca = 1.3708e-02 a_Ca = 8.6844e-07 a_Na = 9.6559e-04 +EB = 5.3822e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0007e-03 Cl = 1.0018e-03 +sys_Ca = 1.3698e-02 a_Ca = 8.6765e-07 a_Na = 9.6577e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 4.3927e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0004e-03 Cl = 1.0016e-03 -sys_Ca = 1.3715e-02 a_Ca = 8.6904e-07 a_Na = 9.6548e-04 +EB = 5.1571e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0004e-03 Cl = 1.0016e-03 +sys_Ca = 1.3715e-02 a_Ca = 8.6909e-07 a_Na = 9.6555e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 4.1549e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0003e-03 Cl = 1.0017e-03 -sys_Ca = 1.3716e-02 a_Ca = 8.6903e-07 a_Na = 9.6546e-04 +EB = 4.9198e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0004e-03 Cl = 1.0016e-03 +sys_Ca = 1.3716e-02 a_Ca = 8.6914e-07 a_Na = 9.6552e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 3.9170e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0003e-03 Cl = 1.0017e-03 -sys_Ca = 1.3716e-02 a_Ca = 8.6900e-07 a_Na = 9.6544e-04 +EB = 4.6817e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0004e-03 Cl = 1.0016e-03 +sys_Ca = 1.3716e-02 a_Ca = 8.6911e-07 a_Na = 9.6550e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 3.6791e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0003e-03 Cl = 1.0017e-03 -sys_Ca = 1.3716e-02 a_Ca = 8.6897e-07 a_Na = 9.6542e-04 +EB = 4.4437e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0004e-03 Cl = 1.0016e-03 +sys_Ca = 1.3716e-02 a_Ca = 8.6908e-07 a_Na = 9.6548e-04 ----------------------------------User print----------------------------------- solution = 1 -EB = 3.4412e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0003e-03 Cl = 1.0017e-03 -sys_Ca = 1.3716e-02 a_Ca = 8.6893e-07 a_Na = 9.6540e-04 +EB = 4.2057e-07 total water 1.0000e+00 7.0001e+00 Na = 1.0003e-03 Cl = 1.0017e-03 +sys_Ca = 1.3716e-02 a_Ca = 8.6904e-07 a_Na = 9.6546e-04 diff --git a/mytest/mmb2_pitzer.out b/mytest/mmb2_pitzer.out index ba2080bb..63b4ba71 100644 --- a/mytest/mmb2_pitzer.out +++ b/mytest/mmb2_pitzer.out @@ -72,16 +72,16 @@ Calculating transport: 1 (mobile) cells, 1 shifts, 2520 mixruns... ----------------------------------User print----------------------------------- -edl_H2O 9.8975e-01 total water 9.9974e-01 6.7203e+00 Na = 2.0557e-03 Cl = 2.0569e-03 -EB = -6.5552e-12 sys_Ca = 1.2893e-03 sol = 1 a_Na = 1.9560e-03 +edl_H2O 9.8975e-01 total water 9.9974e-01 6.5901e+00 Na = 2.9119e-03 Cl = 2.9134e-03 +EB = -6.5565e-12 sys_Ca = 6.8655e-04 sol = 1 a_Na = 2.7467e-03 ----------------------------------User print----------------------------------- -edl_H2O 0 total water 9.9974e-03 6.7203e+00 Na = 2.0557e-03 Cl = 2.0569e-03 -EB = -6.5552e-12 sys_Ca = 5.6762e-09 sol = 1 a_Na = 1.9560e-03 +edl_H2O 0 total water 9.9974e-03 6.5901e+00 Na = 2.9119e-03 Cl = 2.9134e-03 +EB = -6.5565e-12 sys_Ca = 5.9129e-09 sol = 1 a_Na = 2.7467e-03 ----------------------------------User print----------------------------------- -edl_H2O 0 total water 9.9974e-03 6.7203e+00 Na = 2.0557e-03 Cl = 2.0569e-03 -EB = -6.5552e-12 sys_Ca = 5.6762e-09 sol = 1 a_Na = 1.9560e-03 +edl_H2O 0 total water 9.9974e-03 6.5901e+00 Na = 2.9119e-03 Cl = 2.9134e-03 +EB = -6.5565e-12 sys_Ca = 5.9129e-09 sol = 1 a_Na = 2.7467e-03 diff --git a/mytest/mmb2_pitzer_101.sel b/mytest/mmb2_pitzer_101.sel index f9256355..2c8b7c0a 100644 --- a/mytest/mmb2_pitzer_101.sel +++ b/mytest/mmb2_pitzer_101.sel @@ -1,11 +1,11 @@ Mu SC - 0.001003103575 123.1921080792 - 0.500000121138 46282.9076448054 - 0.500000121135 17965.8359275788 - 0.500000121135 17965.8359275788 - 0.001003103576 123.1921080780 - 0.500000121135 17965.8359275788 - 0.001003103576 123.1921080780 - 0.002057562546 0.0250604094 - 0.002057562546 250.5444578988 - 0.002057562546 250.5444578988 + 0.001003103575 123.1921085458 + 0.500000121138 46282.9113859812 + 0.500000121135 17965.8373798072 + 0.500000121135 17965.8373798072 + 0.001003103576 123.1921085446 + 0.500000121135 17965.8373798072 + 0.001003103576 123.1921085446 + 0.002913986277 0.0353008042 + 0.002913986277 352.8890700488 + 0.002913986277 352.8890700488 diff --git a/mytest/mmb_101.sel b/mytest/mmb_101.sel index 4a0242b7..15aa9535 100644 --- a/mytest/mmb_101.sel +++ b/mytest/mmb_101.sel @@ -1,23 +1,23 @@ Mu SC - 0.001003103457 123.1921150124 - 0.500000130826 46282.9121605452 - 0.500000130835 46282.9121604910 - 0.500000137971 46282.9125730048 - 0.001003103457 123.1921150123 - 0.500000137971 46282.9125730048 - 0.001003103457 123.1921150125 - 0.001096497545 134.5725428063 - 0.001003103457 123.1921150125 - 0.001005761611 123.5068824684 - 0.001003103457 123.1921150125 - 0.001003206610 123.1948704925 - 0.001003103457 123.1921150125 - 0.001003107127 123.1832077487 - 0.001003103457 123.1921150125 - 0.001003103196 123.1832332894 - 0.001003103457 123.1921150125 - 0.001003102980 123.1837133106 - 0.001003103457 123.1921150125 - 0.001003102910 123.1842109659 - 0.001003103457 123.1921150125 - 0.001003102845 123.1847092719 + 0.001003103457 123.1921154788 + 0.500000130826 46282.9159017188 + 0.500000130835 46282.9159016647 + 0.500000137971 46282.9163141785 + 0.001003103457 123.1921154787 + 0.500000137971 46282.9163141785 + 0.001003103457 123.1921154789 + 0.001106744863 135.8211012533 + 0.001003103457 123.1921154789 + 0.001007250158 123.6875202694 + 0.001003103457 123.1921154789 + 0.001003333801 123.2088123321 + 0.001003103457 123.1921154789 + 0.001003116125 123.1826805204 + 0.001003103457 123.1921154789 + 0.001003103974 123.1817002784 + 0.001003103457 123.1921154789 + 0.001003103237 123.1821167159 + 0.001003103457 123.1921154789 + 0.001003103134 123.1826106454 + 0.001003103457 123.1921154789 + 0.001003103067 123.1831088422 diff --git a/mytest/modify_test_101.sel b/mytest/modify_test_101.sel index be453b31..98821300 100644 --- a/mytest/modify_test_101.sel +++ b/mytest/modify_test_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.001000104163 122.9135193916 + 0.001000104163 122.9135198554 diff --git a/mytest/modify_zero_101.sel b/mytest/modify_zero_101.sel index cd991455..faadbeb3 100644 --- a/mytest/modify_zero_101.sel +++ b/mytest/modify_zero_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.010000110789 1177.7202259049 - 0.014606537240 1209.2176946675 - 0.014606537240 1209.2176946675 - 0.001070096396 195.2030477552 + 0.010000110789 1177.7202399401 + 0.014606537240 1209.2177345336 + 0.014606537240 1209.2177345336 + 0.001070096396 195.2030480039 diff --git a/mytest/modifyact.dmp b/mytest/modifyact.dmp index 0763ad28..53f8a0b5 100644 --- a/mytest/modifyact.dmp +++ b/mytest/modifyact.dmp @@ -6,7 +6,8 @@ SOLUTION_RAW 1 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 1.0000000000081 @@ -35,7 +36,8 @@ SOLUTION_RAW 2 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 2 @@ -63,7 +65,8 @@ SOLUTION_RAW 3 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 2 @@ -90,7 +93,8 @@ SOLUTION_RAW 4 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 2 @@ -118,7 +122,8 @@ SOLUTION_RAW 5 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 2 @@ -147,7 +152,8 @@ SOLUTION_RAW 6 -total_o 57.50621686377 -cb 3.2214398287822e-07 -density 1.0572796369654 - -viscosity 1.1008004050125 + -viscosity 1.1008001978646 + -viscos_0 0.89002390971545 -totals H(0) 1.1675035805641e-15 Na 2 diff --git a/mytest/modifyact_101.sel b/mytest/modifyact_101.sel index 26ab0f72..ad478d25 100644 --- a/mytest/modifyact_101.sel +++ b/mytest/modifyact_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.837717745056 58282.6334406474 + 0.837717745056 58282.6370394093 diff --git a/mytest/mu_101.sel b/mytest/mu_101.sel index 47d7aba9..b1936c77 100644 --- a/mytest/mu_101.sel +++ b/mytest/mu_101.sel @@ -1,7 +1,7 @@ Mu SC - 1.370970505103 72413.4236104030 - 3.077100346054 134272.4254039640 - 0.347367538417 22066.8658192792 - 0.845779026251 27379.5837022526 - 2.356971592564 57149.7934666435 - 0.165661045718 7244.2478999713 + 1.370970505103 72413.4452008679 + 3.077100346054 134272.4762290650 + 0.347367538417 22066.8695232380 + 0.845779026251 27379.5905816154 + 2.356971592564 57149.8131041430 + 0.165661045718 7244.2487851664 diff --git a/mytest/multi_punch_101.sel b/mytest/multi_punch_101.sel index ab06f3f8..561eed80 100644 --- a/mytest/multi_punch_101.sel +++ b/mytest/multi_punch_101.sel @@ -1,7 +1,7 @@ Mu SC - 0.003959290572 313.6115857236 - 0.046822966934 2885.3481996699 - 0.046901565484 2891.9461057047 - 0.046981276156 2898.6156144143 + 0.003959290572 313.6115896227 + 0.046822966934 2885.3483062320 + 0.046901565484 2891.9462127255 + 0.046981276156 2898.6157218991 0.000000100644 0.0547821292 - 0.001000104161 122.9172139030 + 0.001000104161 122.9172143668 diff --git a/mytest/negative_user_number.dmp b/mytest/negative_user_number.dmp index 02d5467b..0cd80d66 100644 --- a/mytest/negative_user_number.dmp +++ b/mytest/negative_user_number.dmp @@ -9,7 +9,8 @@ SOLUTION_RAW 0 Solution after simulation 1. -total_o 55.506216797549 -cb -1.2165147297221e-09 -density 0.99704301397646 - -viscosity 0.89002433302999 + -viscosity 0.89002433301919 + -viscos_0 0.89002391829457 -totals O(0) 9.7002311268256e-12 -pH 7.0000004463628 @@ -32,7 +33,8 @@ SOLUTION_RAW 1 Solution after simulation 1. -total_o 55.506216797549 -cb -1.2165147297221e-09 -density 0.99704301397646 - -viscosity 0.89002433302999 + -viscosity 0.89002433301919 + -viscos_0 0.89002391829457 -totals O(0) 9.7002311268256e-12 -pH 7.0000004463628 @@ -55,7 +57,8 @@ SOLUTION_RAW 2 -total_o 55.506216797539 -cb -1.2165147297223e-09 -density 0.99704301397679 - -viscosity 0.89002433306257 + -viscosity 0.89002433305177 + -viscos_0 0.89002391829458 -totals H(0) 1.4158915035641e-25 -pH 7 @@ -78,7 +81,8 @@ SOLUTION_RAW 3 Solution after simulation 1. -total_o 66.961476207279 -cb 0.42648728822266 -density 0.99704301359428 - -viscosity 1.201116143209 + -viscosity 1.2010497022654 + -viscos_0 1.1375719656467 -totals Ca 0.021376904397603 K 0.0020375615986303 @@ -111,7 +115,8 @@ SOLUTION_RAW 4 Solution after simulation 1. -total_o 94.862091016112 -cb 0.60419032321446 -density 1.0052777174096 - -viscosity 1.201116143209 + -viscosity 1.2010497022654 + -viscos_0 1.1375719656467 -totals Ca 0.030283947808005 K 0.0028865455896146 diff --git a/mytest/negative_user_number.out b/mytest/negative_user_number.out index 9f569359..f523e5ad 100644 --- a/mytest/negative_user_number.out +++ b/mytest/negative_user_number.out @@ -146,10 +146,10 @@ Initial solution 3. pH = 6.940 pe = 14.485 Equilibrium with O2(g) - Specific Conductance (µS/cm, 15°C) = 10431 + Specific Conductance (µS/cm, 15°C) = 10432 Density (g/cm³) = 1.00786 Volume (L) = 1.20608 - Viscosity (mPa s) = 1.20112 + Viscosity (mPa s) = 1.20105 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.164e-01 Mass of water (kg) = 1.206e+00 @@ -214,10 +214,10 @@ Initial solution 4. pH = 6.940 pe = 14.485 Equilibrium with O2(g) - Specific Conductance (µS/cm, 15°C) = 10431 + Specific Conductance (µS/cm, 15°C) = 10432 Density (g/cm³) = 1.00786 Volume (L) = 1.70861 - Viscosity (mPa s) = 1.20112 + Viscosity (mPa s) = 1.20105 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.164e-01 Mass of water (kg) = 1.709e+00 @@ -292,10 +292,10 @@ Mixture 3. pH = 6.940 Charge balance pe = 14.485 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10431 + Specific Conductance (µS/cm, 15°C) = 10432 Density (g/cm³) = 1.00786 Volume (L) = 0.23780 - Viscosity (mPa s) = 1.20112 + Viscosity (mPa s) = 1.20105 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.164e-01 Mass of water (kg) = 2.379e-01 @@ -580,7 +580,8 @@ Reading input data for simulation 2. -total_o 55.506216797549 -cb -1.2165147297221e-09 -density 0.99704301397646 - -viscosity 0.89002433302999 + -viscosity 0.89002433301919 + -viscos_0 0.89002391829457 -totals O(0) 9.7002311268256e-12 -pH 7.0000004463628 @@ -603,7 +604,8 @@ Reading input data for simulation 2. -total_o 55.506216797549 -cb -1.2165147297221e-09 -density 0.99704301397646 - -viscosity 0.89002433302999 + -viscosity 0.89002433301919 + -viscos_0 0.89002391829457 -totals O(0) 9.7002311268256e-12 -pH 7.0000004463628 @@ -626,7 +628,8 @@ Reading input data for simulation 2. -total_o 55.506216797539 -cb -1.2165147297223e-09 -density 0.99704301397679 - -viscosity 0.89002433306257 + -viscosity 0.89002433305177 + -viscos_0 0.89002391829458 -totals H(0) 1.4158915035641e-25 -pH 7 @@ -649,7 +652,8 @@ Reading input data for simulation 2. -total_o 66.961476207279 -cb 0.42648728822266 -density 0.99704301359428 - -viscosity 1.201116143209 + -viscosity 1.2010497022654 + -viscos_0 1.1375719656467 -totals Ca 0.021376904397603 K 0.0020375615986303 @@ -682,7 +686,8 @@ Reading input data for simulation 2. -total_o 94.862091016112 -cb 0.60419032321446 -density 1.0052777174096 - -viscosity 1.201116143209 + -viscosity 1.2010497022654 + -viscos_0 1.1375719656467 -totals Ca 0.030283947808005 K 0.0028865455896146 diff --git a/mytest/negative_user_number_101.sel b/mytest/negative_user_number_101.sel index b4b6eaf5..455da226 100644 --- a/mytest/negative_user_number_101.sel +++ b/mytest/negative_user_number_101.sel @@ -1,7 +1,7 @@ Mu SC 0.000000100661 0.0546997340 - 0.216384405288 10431.9587262161 - 0.216384405288 10431.9587262161 - 0.216384405289 10431.9587262159 - 0.216384405289 10431.9587262159 - 0.216384405289 10431.9587262161 + 0.216384405288 10432.4321146479 + 0.216384405288 10432.4321146479 + 0.216384405289 10432.4321146478 + 0.216384405289 10432.4321146478 + 0.216384405289 10432.4321146479 diff --git a/mytest/netpathxl.out b/mytest/netpathxl.out index 3d5e2a80..bb39b0ed 100644 --- a/mytest/netpathxl.out +++ b/mytest/netpathxl.out @@ -123,7 +123,7 @@ Initial solution 1. 02S-01E-22 ABB 1 Chapman Line Camp well Specific Conductance (µS/cm, 19°C) = 545 Density (g/cm³) = 0.99891 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.04097 + Viscosity (mPa s) = 1.04094 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.869e-03 Mass of water (kg) = 1.000e+00 @@ -302,7 +302,7 @@ Initial solution 2. 01S-04E-03 ACA 1 Specific Conductance (µS/cm, 18°C) = 774 Density (g/cm³) = 0.99912 Volume (L) = 1.00168 - Viscosity (mPa s) = 1.05028 + Viscosity (mPa s) = 1.05024 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.380e-02 Mass of water (kg) = 1.000e+00 @@ -481,7 +481,7 @@ Initial solution 3. 01S-05E-27 AAB 1 Specific Conductance (µS/cm, 18°C) = 577 Density (g/cm³) = 0.99902 Volume (L) = 1.00163 - Viscosity (mPa s) = 1.05199 + Viscosity (mPa s) = 1.05196 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.088e-02 Mass of water (kg) = 1.000e+00 @@ -660,7 +660,7 @@ Initial solution 4. 01S-06E-22 BCC 1 Washington Spring Specific Conductance (µS/cm, 18°C) = 521 Density (g/cm³) = 0.99914 Volume (L) = 1.00146 - Viscosity (mPa s) = 1.07265 + Viscosity (mPa s) = 1.07261 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.023e-02 Mass of water (kg) = 1.000e+00 @@ -839,7 +839,7 @@ Initial solution 5. 01S-06E-26 ADD 1 Specific Conductance (µS/cm, 18°C) = 750 Density (g/cm³) = 0.99917 Volume (L) = 1.00175 - Viscosity (mPa s) = 1.05286 + Viscosity (mPa s) = 1.05281 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.438e-02 Mass of water (kg) = 1.000e+00 @@ -1017,7 +1017,7 @@ Initial solution 6. 01S-07E-23 BCC 1 Wood well Specific Conductance (µS/cm, 18°C) = 1256 Density (g/cm³) = 0.99924 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.04951 + Viscosity (mPa s) = 1.04948 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.752e-02 Mass of water (kg) = 1.000e+00 @@ -1188,7 +1188,7 @@ Initial solution 7. 02S-05E-08 ABB 1 Johnston County RWD 3 Well 1 Specific Conductance (µS/cm, 16°C) = 508 Density (g/cm³) = 0.99938 Volume (L) = 1.00123 - Viscosity (mPa s) = 1.11233 + Viscosity (mPa s) = 1.11228 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.023e-02 Mass of water (kg) = 1.000e+00 @@ -1366,7 +1366,7 @@ Initial solution 8. 02S-06E-11 DBC 1 Specific Conductance (µS/cm, 18°C) = 566 Density (g/cm³) = 0.99896 Volume (L) = 1.00165 - Viscosity (mPa s) = 1.04611 + Viscosity (mPa s) = 1.04608 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.053e-02 Mass of water (kg) = 1.000e+00 @@ -1541,7 +1541,7 @@ Initial solution 9. 02S-06E-18 CAA 1 Unnamed Spring Specific Conductance (µS/cm, 17°C) = 547 Density (g/cm³) = 0.99918 Volume (L) = 1.00146 - Viscosity (mPa s) = 1.07600 + Viscosity (mPa s) = 1.07596 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.083e-02 Mass of water (kg) = 1.000e+00 @@ -1720,7 +1720,7 @@ Initial solution 10. 02S-07E-05 CBA 1 Specific Conductance (µS/cm, 18°C) = 502 Density (g/cm³) = 0.99899 Volume (L) = 1.00154 - Viscosity (mPa s) = 1.05563 + Viscosity (mPa s) = 1.05560 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.400e-03 Mass of water (kg) = 1.000e+00 @@ -1899,7 +1899,7 @@ Initial solution 11. 02S-07E-17 BCB 1 Specific Conductance (µS/cm, 20°C) = 553 Density (g/cm³) = 0.99877 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.02159 + Viscosity (mPa s) = 1.02156 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.038e-02 Mass of water (kg) = 1.000e+00 @@ -2078,7 +2078,7 @@ Initial solution 12. 03S-04E-04 BCD 1 Specific Conductance (µS/cm, 20°C) = 543 Density (g/cm³) = 0.99875 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.02088 + Viscosity (mPa s) = 1.02085 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.010e-02 Mass of water (kg) = 1.000e+00 @@ -2257,7 +2257,7 @@ Initial solution 13. 01S-01E-21 CDD 1 Specific Conductance (µS/cm, 20°C) = 549 Density (g/cm³) = 0.99870 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.01414 + Viscosity (mPa s) = 1.01412 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.013e-02 Mass of water (kg) = 1.000e+00 @@ -2436,7 +2436,7 @@ Initial solution 14. 01S-03E-01 ABB 1 Antelope Spring at Sulphur, OK Specific Conductance (µS/cm, 18°C) = 527 Density (g/cm³) = 0.99907 Volume (L) = 1.00150 - Viscosity (mPa s) = 1.06431 + Viscosity (mPa s) = 1.06427 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.017e-02 Mass of water (kg) = 1.000e+00 @@ -2614,7 +2614,7 @@ Initial solution 15. 01S-03E-03 ABA 1 Vendome Well Specific Conductance (µS/cm, 20°C) = 2071 Density (g/cm³) = 0.99935 Volume (L) = 1.00208 - Viscosity (mPa s) = 1.02009 + Viscosity (mPa s) = 1.02007 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.550e-02 Mass of water (kg) = 1.000e+00 @@ -2785,7 +2785,7 @@ Initial solution 16. 01S-03E-24 BAA 1 Specific Conductance (µS/cm, 18°C) = 671 Density (g/cm³) = 0.99911 Volume (L) = 1.00162 - Viscosity (mPa s) = 1.05543 + Viscosity (mPa s) = 1.05539 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.250e-02 Mass of water (kg) = 1.000e+00 @@ -2964,7 +2964,7 @@ Initial solution 17. 01S-04E-05 DAD 1 Specific Conductance (µS/cm, 19°C) = 652 Density (g/cm³) = 0.99892 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.03253 + Viscosity (mPa s) = 1.03250 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.163e-02 Mass of water (kg) = 1.000e+00 @@ -3143,7 +3143,7 @@ Initial solution 18. 01S-04E-09 CCB 1 Specific Conductance (µS/cm, 18°C) = 714 Density (g/cm³) = 0.99912 Volume (L) = 1.00168 - Viscosity (mPa s) = 1.05318 + Viscosity (mPa s) = 1.05314 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.261e-02 Mass of water (kg) = 1.000e+00 @@ -3322,7 +3322,7 @@ Initial solution 19. 02S-01E-02 CBA 1 Specific Conductance (µS/cm, 18°C) = 545 Density (g/cm³) = 0.99909 Volume (L) = 1.00157 - Viscosity (mPa s) = 1.06314 + Viscosity (mPa s) = 1.06310 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.043e-02 Mass of water (kg) = 1.000e+00 @@ -3501,7 +3501,7 @@ Initial solution 20. 02S-01W-03 CCD 1 Specific Conductance (µS/cm, 18°C) = 531 Density (g/cm³) = 0.99905 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.05999 + Viscosity (mPa s) = 1.05995 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.002e-02 Mass of water (kg) = 1.000e+00 @@ -3680,7 +3680,7 @@ Initial solution 21. 02S-02E-18 BDB 1 Specific Conductance (µS/cm, 19°C) = 525 Density (g/cm³) = 0.99892 Volume (L) = 1.00167 - Viscosity (mPa s) = 1.04332 + Viscosity (mPa s) = 1.04329 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.794e-03 Mass of water (kg) = 1.000e+00 @@ -3859,7 +3859,7 @@ Initial solution 22. 02S-03E-10 CDD 1 Specific Conductance (µS/cm, 19°C) = 347 Density (g/cm³) = 0.99876 Volume (L) = 1.00160 - Viscosity (mPa s) = 1.04079 + Viscosity (mPa s) = 1.04077 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.215e-03 Mass of water (kg) = 1.000e+00 @@ -4038,7 +4038,7 @@ Initial solution 23. 02S-04E-09 DAB 1 Specific Conductance (µS/cm, 21°C) = 589 Density (g/cm³) = 0.99853 Volume (L) = 1.00211 - Viscosity (mPa s) = 0.99398 + Viscosity (mPa s) = 0.99396 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.022e-02 Mass of water (kg) = 1.000e+00 @@ -4217,7 +4217,7 @@ Initial solution 24. 02S-04E-28 DCB 1 Specific Conductance (µS/cm, 19°C) = 501 Density (g/cm³) = 0.99883 Volume (L) = 1.00171 - Viscosity (mPa s) = 1.03515 + Viscosity (mPa s) = 1.03512 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.299e-03 Mass of water (kg) = 1.000e+00 @@ -4394,7 +4394,7 @@ Initial solution 25. 01N-05E-22 CBB 1 Specific Conductance (µS/cm, 17°C) = 414 Density (g/cm³) = 0.99918 Volume (L) = 1.00129 - Viscosity (mPa s) = 1.09380 + Viscosity (mPa s) = 1.09376 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.066e-03 Mass of water (kg) = 1.000e+00 @@ -4566,7 +4566,7 @@ Initial solution 26. 01N-06E-07 CDC 1 Specific Conductance (µS/cm, 19°C) = 490 Density (g/cm³) = 0.99878 Volume (L) = 1.00174 - Viscosity (mPa s) = 1.02985 + Viscosity (mPa s) = 1.02982 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.198e-03 Mass of water (kg) = 1.000e+00 @@ -4745,7 +4745,7 @@ Initial solution 27. 01N-07E-30 DBB 1 Specific Conductance (µS/cm, 19°C) = 568 Density (g/cm³) = 0.99892 Volume (L) = 1.00175 - Viscosity (mPa s) = 1.03962 + Viscosity (mPa s) = 1.03958 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.053e-02 Mass of water (kg) = 1.000e+00 @@ -4924,7 +4924,7 @@ Initial solution 28. 02N-05E-17 BDD 1 Specific Conductance (µS/cm, 18°C) = 543 Density (g/cm³) = 0.99896 Volume (L) = 1.00162 - Viscosity (mPa s) = 1.04868 + Viscosity (mPa s) = 1.04865 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.010e-02 Mass of water (kg) = 1.000e+00 @@ -5103,7 +5103,7 @@ Initial solution 29. 02N-06E-32 CBC 1 Specific Conductance (µS/cm, 18°C) = 926 Density (g/cm³) = 0.99947 Volume (L) = 1.00168 - Viscosity (mPa s) = 1.07402 + Viscosity (mPa s) = 1.07397 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.812e-02 Mass of water (kg) = 1.000e+00 @@ -5281,7 +5281,7 @@ Initial solution 30. 02N-06E-34 CCD 1 Byrds Mill Spring Specific Conductance (µS/cm, 18°C) = 528 Density (g/cm³) = 0.99900 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.05370 + Viscosity (mPa s) = 1.05366 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.006e-02 Mass of water (kg) = 1.000e+00 @@ -5453,10 +5453,10 @@ Initial solution 31. 01S-02E-01 DCB 1 Harrison, Nace pH = 6.500 pe = 4.000 - Specific Conductance (µS/cm, 33°C) = 143119 + Specific Conductance (µS/cm, 33°C) = 143095 Density (g/cm³) = 1.05769 Volume (L) = 1.03617 - Viscosity (mPa s) = 0.89442 + Viscosity (mPa s) = 0.89461 Activity of water = 0.946 Ionic strength (mol/kgw) = 1.810e+00 Mass of water (kg) = 1.000e+00 @@ -5618,7 +5618,7 @@ Initial solution 32. Precipitation Specific Conductance (µS/cm, 17°C) = 38 Density (g/cm³) = 0.99879 Volume (L) = 1.00123 - Viscosity (mPa s) = 1.08020 + Viscosity (mPa s) = 1.08019 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.709e-04 Mass of water (kg) = 1.000e+00 @@ -5826,7 +5826,7 @@ O2(g) -15.00 -17.83 -2.83 1.000e+01 1.000e+01 -1.403e-13 Specific Conductance (µS/cm, 17°C) = 399 Density (g/cm³) = 0.99911 Volume (L) = 1.00129 - Viscosity (mPa s) = 1.08469 + Viscosity (mPa s) = 1.08466 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.565e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/netpathxl_101.sel b/mytest/netpathxl_101.sel index 35dc588e..949b3fd0 100644 --- a/mytest/netpathxl_101.sel +++ b/mytest/netpathxl_101.sel @@ -1,35 +1,35 @@ Mu SC - 0.009868914838 545.7036911643 - 0.013795611557 774.1395682330 - 0.010882867375 577.5629642737 - 0.010234759010 521.8024443987 - 0.014378350087 750.0482143308 - 0.017521659697 1256.1713442880 - 0.010228299701 508.0792516716 - 0.010528080124 566.0141785788 - 0.010830570588 547.7575681565 - 0.009400049429 502.0915207409 - 0.010383587177 553.5639471635 - 0.010103905489 543.3834560590 - 0.010126296347 549.9702308207 - 0.010169224988 527.9440121732 - 0.025496119670 2071.3341252904 - 0.012501575818 671.5593067897 - 0.011626839267 652.4491012511 - 0.012612057638 714.8875951443 - 0.010431140123 545.4610654879 - 0.010015816078 531.3514643422 - 0.009794188858 525.1132821075 - 0.006215463336 347.1215666949 - 0.010223648360 589.1466441776 - 0.009299211235 501.6279288523 - 0.008066120432 414.5935829817 - 0.009198281528 490.3523148604 - 0.010534086076 568.9069249584 - 0.010103975529 543.3178088438 - 0.018115711289 926.2904429455 - 0.010055564885 528.4336815745 - 1.810446335599 143119.2236087943 - 0.000570887315 38.6353214035 - 0.000001001219 0.3935262264 - 0.007564800708 399.5521059882 + 0.009868914838 545.7130058233 + 0.013795611557 774.1551973434 + 0.010882867375 577.5745974802 + 0.010234759010 521.8139967640 + 0.014378350087 750.0651471496 + 0.017521659697 1256.1946778078 + 0.010228299701 508.0923978064 + 0.010528080124 566.0247873917 + 0.010830570588 547.7702797091 + 0.009400049429 502.1008877337 + 0.010383587177 553.5731823692 + 0.010103905489 543.3924826386 + 0.010126296347 549.9787888896 + 0.010169224988 527.9551470920 + 0.025496119670 2071.3674453398 + 0.012501575818 671.5732975634 + 0.011626839267 652.4599710499 + 0.012612057638 714.9011449639 + 0.010431140123 545.4728875823 + 0.010015816078 531.3622131548 + 0.009794188858 525.1231767784 + 0.006215463336 347.1266235604 + 0.010223648360 589.1537390315 + 0.009299211235 501.6365416002 + 0.008066120432 414.6023270317 + 0.009198281528 490.3605780871 + 0.010534086076 568.9172889190 + 0.010103975529 543.3282802429 + 0.018115711289 926.3154085254 + 0.010055564885 528.4440077386 + 1.810446335599 143095.5908027566 + 0.000570887315 38.6355083902 + 0.000001001219 0.3935262265 + 0.007564800708 399.5601886182 diff --git a/mytest/no_negative_dump.dmp b/mytest/no_negative_dump.dmp index 0aee8207..394f72ac 100644 --- a/mytest/no_negative_dump.dmp +++ b/mytest/no_negative_dump.dmp @@ -7,6 +7,7 @@ SOLUTION_RAW 0 Solution after simulation 4. -cb -5.7129958810826e-10 -density 0.99762571407388 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.00050000000000001 H(0) 1.4157285341061e-25 @@ -31,30 +32,31 @@ SOLUTION_RAW 1 Solution after simulation 4. -potential 0 -total_h 111.01243360011 -total_o 55.506216800509 - -cb 2.6897191239178e-10 + -cb 2.6897191240776e-10 -density 0.99707214860954 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.00050000000096158 - Fe(2) 3.7178883306746e-17 - Fe(3) 3.8431501216137e-10 + Fe(2) 3.7178883276924e-17 + Fe(3) 3.8431501216142e-10 Na 0.00050000000095825 - O(0) 1.0476819569927e-11 - -pH 6.9989376735512 - -pe 11.700878388557 + O(0) 1.0476819603554e-11 + -pH 6.9989376735511 + -pe 11.700878388905 -mu 0.00050010295302372 -ah2o 0.99998299649885 -mass_water 1.0000000000108 -soln_vol 1.0029657579561 - -total_alkalinity 1.1533984217336e-10 + -total_alkalinity 1.1533984214142e-10 -activities Cl -3.3121822290864 - E -11.700878388557 - Fe(2) -16.474669128056 + E -11.700878388905 + Fe(2) -16.474669127939 Fe(3) -17.805790866885 - H(0) -40.549632142263 + H(0) -40.549632142029 Na -3.3120725832975 - O(0) -11.280750484653 + O(0) -11.280750485121 -gammas SOLUTION_RAW 2 Solution after simulation 4. -temp 25 @@ -62,30 +64,31 @@ SOLUTION_RAW 2 Solution after simulation 4. -potential 0 -total_h 111.01243360505 -total_o 55.506216800533 - -cb 5.1857238006344e-09 + -cb 5.1857238006442e-09 -density 0.99707214864097 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.0005000000775381 - Fe(2) 3.8964931311692e-17 - Fe(3) 3.9247152684619e-10 + Fe(2) 3.8964931298147e-17 + Fe(3) 3.9247152684622e-10 Na 0.00050000007753473 - O(0) 1.050882132572e-11 - -pH 6.9885683725686 - -pe 11.711578825404 + O(0) 1.050882134034e-11 + -pH 6.9885683725685 + -pe 11.711578825555 -mu 0.00050010306214458 -ah2o 0.99998299649514 -mass_water 1.0000000000547 -soln_vol 1.002965758 - -total_alkalinity -4.7932555610661e-09 + -total_alkalinity -4.7932555610863e-09 -activities Cl -3.3121821637815 - E -11.711578825404 - Fe(2) -16.454260290625 + E -11.711578825555 + Fe(2) -16.454260290586 Fe(3) -17.774682963932 - H(0) -40.550294541359 + H(0) -40.55029454128 Na -3.3120725179692 - O(0) -11.279425686464 + O(0) -11.279425686622 -gammas SOLUTION_RAW 3 Solution after simulation 4. -temp 25 @@ -93,30 +96,31 @@ SOLUTION_RAW 3 Solution after simulation 4. -potential 0 -total_h 111.01243362516 -total_o 55.506216800639 - -cb 2.5188325609614e-08 + -cb 2.5188325609738e-08 -density 0.99707214860752 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.0005000028408991 - Fe(2) 4.7226884755932e-17 - Fe(3) 4.2767438440701e-10 + Fe(2) 4.7226884730439e-17 + Fe(3) 4.2767438440707e-10 Na 0.00050000284089569 - O(0) 1.0556249906098e-11 - -pH 6.9465091855186 - -pe 11.75412692629 + O(0) 1.0556249928905e-11 + -pH 6.9465091855185 + -pe 11.754126926524 -mu 0.00050010656028642 -ah2o 0.9999829963762 -mass_water 1.0000000002222 -soln_vol 1.0029657581681 - -total_alkalinity -2.4760654542438e-08 + -total_alkalinity -2.4760654542472e-08 -activities Cl -3.3121798017726 - E -11.75412692629 - Fe(2) -16.370619690262 + E -11.754126926524 + Fe(2) -16.370619690225 Fe(3) -17.648505402627 - H(0) -40.551270565971 + H(0) -40.551270565897 Na -3.3120701552073 - O(0) -11.277473637344 + O(0) -11.277473637491 -gammas SOLUTION_RAW 4 Solution after simulation 4. -temp 25 @@ -124,30 +128,31 @@ SOLUTION_RAW 4 Solution after simulation 4. -potential 0 -total_h 111.01243368315 -total_o 55.506216800995 - -cb 8.2815678120995e-08 + -cb 8.2815678120465e-08 -density 0.99707214862529 -viscosity 0.89002391828723 + -viscos_0 0.89002391828723 -totals Cl 0.00050006221397114 - Fe(2) 8.0753571434184e-17 - Fe(3) 5.463058027612e-10 + Fe(2) 8.0753571377175e-17 + Fe(3) 5.4630580276129e-10 Na 0.00050006221396757 - O(0) 1.068638413019e-11 - -pH 6.8292262482632 - -pe 11.87274014519 + O(0) 1.0686384160383e-11 + -pH 6.8292262482631 + -pe 11.872740145497 -mu 0.00050017318121469 -ah2o 0.9999829941111 -mass_water 1.0000000006129 -soln_vol 1.00296575856 - -total_alkalinity -8.226937572856e-08 + -total_alkalinity -8.2269375728598e-08 -activities Cl -3.3121289607653 - E -11.87274014519 - Fe(2) -16.137368984287 + E -11.872740145497 + Fe(2) -16.137368984409 Fe(3) -17.29665658791 - H(0) -40.553932800869 + H(0) -40.553932801111 Na -3.3120192998596 - O(0) -11.272149169516 + O(0) -11.272149169031 -gammas SOLUTION_RAW 5 Solution after simulation 4. -temp 25 @@ -155,30 +160,31 @@ SOLUTION_RAW 5 Solution after simulation 4. -potential 0 -total_h 111.01243380592 -total_o 55.506216801939 - -cb 2.0464374063822e-07 + -cb 2.0464374063908e-07 -density 0.99707215176598 -viscosity 0.89002391828723 + -viscos_0 0.89002391828723 -totals Cl 0.00050090497515709 - Fe(2) 2.1208335773047e-16 - Fe(3) 8.6045407559978e-10 + Fe(2) 2.1208335794708e-16 + Fe(3) 8.6045407559962e-10 Na 0.00050090497515254 - O(0) 1.084266004789e-11 - -pH 6.6186191030532 - -pe 12.084923583819 + O(0) 1.0842660003576e-11 + -pH 6.6186191030533 + -pe 12.084923583375 -mu 0.00050105012815577 -ah2o 0.99998296429492 -mass_water 1.0000000011002 -soln_vol 1.0029657590486 - -total_alkalinity -2.0378329069182e-07 + -total_alkalinity -2.0378329069176e-07 -activities Cl -3.3114072103212 - E -12.084923583819 - Fe(2) -15.717709895955 - Fe(3) -16.664835113432 - H(0) -40.557085717845 + E -12.084923583375 + Fe(2) -15.7177098954 + Fe(3) -16.664835113433 + H(0) -40.557085716735 Na -3.3112973606529 - O(0) -11.265843361461 + O(0) -11.26584336368 -gammas SOLUTION_RAW 6 Solution after simulation 4. -temp 25 @@ -186,30 +192,31 @@ SOLUTION_RAW 6 Solution after simulation 4. -potential 0 -total_h 111.01243401955 -total_o 55.506216803864 - -cb 4.1634133563567e-07 + -cb 4.1634133563621e-07 -density 0.99707220054382 -viscosity 0.8900239182871 + -viscos_0 0.8900239182871 -totals Cl 0.00050918862083539 - Fe(2) 6.6581599930514e-16 - Fe(3) 1.4997856883048e-09 + Fe(2) 6.6581599982214e-16 + Fe(3) 1.4997856883047e-09 Na 0.00050918862082074 - O(0) 1.1225459962619e-11 - -pH 6.368370073127 - -pe 12.33893996072 + O(0) 1.1225459927743e-11 + -pH 6.3683700731271 + -pe 12.338939960382 -mu 0.00050942086964646 -ah2o 0.99998267968978 -mass_water 1.0000000014497 -soln_vol 1.0029657593988 - -total_alkalinity -4.1484156327067e-07 + -total_alkalinity -4.1484156327062e-07 -activities Cl -3.3043746380955 - E -12.33893996072 - Fe(2) -15.220921903409 + E -12.338939960382 + Fe(2) -15.220921902472 Fe(3) -15.91408765284 - H(0) -40.5646204516 + H(0) -40.564620449723 Na -3.3042629870773 - O(0) -11.250774141156 + O(0) -11.250774144909 -gammas SOLUTION_RAW 7 Solution after simulation 4. -temp 25 @@ -217,30 +224,31 @@ SOLUTION_RAW 7 Solution after simulation 4. -potential 0 -total_h 111.01243431721 -total_o 55.506216806759 - -cb 7.1105782983354e-07 + -cb 7.1105782983364e-07 -density 0.99707268316462 -viscosity 0.89002391828625 + -viscos_0 0.89002391828625 -totals Cl 0.00056660069865449 - Fe(2) 1.794179230818e-15 - Fe(3) 2.4474188990544e-09 + Fe(2) 1.7941792418766e-15 + Fe(3) 2.447418899053e-09 Na 0.00056660069852497 - O(0) 1.1686158205818e-11 - -pH 6.1520299685172 - -pe 12.559648833011 + O(0) 1.1686157917646e-11 + -pH 6.1520299685175 + -pe 12.559648830334 -mu 0.00056697088164622 -ah2o 0.99998072298954 -mass_water 1.0000000016376 -soln_vol 1.0029657595845 - -total_alkalinity -7.0861053686616e-07 + -total_alkalinity -7.0861053686573e-07 -activities Cl -3.2585802328038 - E -12.559648833011 - Fe(2) -14.792715780104 - Fe(3) -15.265064789612 - H(0) -40.573356012202 + E -12.559648830334 + Fe(2) -14.792715777718 + Fe(3) -15.265064789613 + H(0) -40.57335600743 Na -3.2584562188139 - O(0) -11.233304719559 + O(0) -11.233304729104 -gammas SOLUTION_RAW 8 Solution after simulation 4. -temp 25 @@ -248,30 +256,31 @@ SOLUTION_RAW 8 Solution after simulation 4. -potential 0 -total_h 111.01243446742 -total_o 55.506216808469 - -cb 8.5930722163814e-07 + -cb 8.5930722163737e-07 -density 0.99707602877904 -viscosity 0.89002391828215 + -viscos_0 0.89002391828215 -totals Cl 0.00084652336201594 - Fe(2) 2.6256335502102e-15 - Fe(3) 2.933913371709e-09 - Na 0.00084652336197793 - O(0) 1.156412717255e-11 - -pH 6.0747774198677 - -pe 12.635770723165 + Fe(2) 2.6256335790408e-15 + Fe(3) 2.9339133717065e-09 + Na 0.00084652336197794 + O(0) 1.1564126664557e-11 + -pH 6.074777419868 + -pe 12.635770718395 -mu 0.00084696535743839 -ah2o 0.9999712031775 -mass_water 1.0000000016927 -soln_vol 1.0029657596263 - -total_alkalinity -8.5637334101847e-07 + -total_alkalinity -8.5637334101773e-07 -activities Cl -3.0867776018954 - E -12.635770723165 - Fe(2) -14.637065320901 - Fe(3) -15.033294740159 - H(0) -40.571096287659 + E -12.635770718395 + Fe(2) -14.637065315778 + Fe(3) -15.033294740161 + H(0) -40.57109627741 Na -3.0865939216203 - O(0) -11.237832437643 + O(0) -11.237832458141 -gammas SOLUTION_RAW 9 Solution after simulation 4. -temp 25 @@ -279,30 +288,31 @@ SOLUTION_RAW 9 Solution after simulation 4. -potential 0 -total_h 111.01243417541 -total_o 55.50621680648 - -cb 5.6844183562065e-07 + -cb 5.6844183562215e-07 -density 0.99709234003226 -viscosity 0.89002391826837 + -viscos_0 0.89002391826837 -totals Cl 0.0017858563232791 - Fe(2) 1.2355180359814e-15 - Fe(3) 1.9901630252386e-09 + Fe(2) 1.2355180462855e-15 + Fe(3) 1.990163025237e-09 Na 0.0017858563230695 - O(0) 1.123698796193e-11 - -pH 6.2517859614087 - -pe 12.455676860017 + O(0) 1.1236987587e-11 + -pH 6.2517859614091 + -pe 12.455676856394 -mu 0.0017861593527457 -ah2o 0.99993927058144 -mass_water 1.0000000015741 -soln_vol 1.0029657594626 - -total_alkalinity -5.6645187978355e-07 + -total_alkalinity -5.6645187978308e-07 -activities Cl -2.7688200038874 - E -12.455676860017 - Fe(2) -14.98795495146 - Fe(3) -15.564278758469 - H(0) -40.564925645677 + E -12.455676856394 + Fe(2) -14.987954947196 + Fe(3) -15.56427875847 + H(0) -40.564925637147 Na -2.7684406634739 - O(0) -11.250201459151 + O(0) -11.25020147621 -gammas SOLUTION_RAW 10 Solution after simulation 4. -temp 25 @@ -310,30 +320,31 @@ SOLUTION_RAW 10 Solution after simulation 4. -potential 0 -total_h 111.01243383857 -total_o 55.506216805213 - -cb 2.3100605850821e-07 + -cb 2.3100605852136e-07 -density 0.99714707473511 -viscosity 0.89002391823794 + -viscos_0 0.89002391823794 -totals Cl 0.0038583123675456 - Fe(2) 2.7867582291347e-16 - Fe(3) 9.4842256906381e-10 + Fe(2) 2.7867581587245e-16 + Fe(3) 9.4842256906675e-10 Na 0.0038583123656591 - O(0) 1.1225993889741e-11 - -pH 6.5919957815209 - -pe 12.115427870534 + O(0) 1.1225995024575e-11 + -pH 6.5919957815195 + -pe 12.115427881511 -mu 0.0038584698935751 -ah2o 0.9998688120229 -mass_water 1.0000000011705 -soln_vol 1.0029657589587 - -total_alkalinity -2.3005952187262e-07 + -total_alkalinity -2.3005952187364e-07 -activities Cl -2.443398276724 - E -12.115427870534 - Fe(2) -15.668244231902 - Fe(3) -16.584816410706 - H(0) -40.564847308128 + E -12.115427881511 + Fe(2) -15.668244243103 + Fe(3) -16.584816410702 + H(0) -40.564847330537 Na -2.4426035824073 - O(0) -11.250419339647 + O(0) -11.250419294831 -gammas SOLUTION_RAW 11 Solution after simulation 4. -temp 25 @@ -341,30 +352,31 @@ SOLUTION_RAW 11 Solution after simulation 4. -potential 0 -total_h 111.01243369244 -total_o 55.506216806556 - -cb 8.1039463068883e-08 + -cb 8.1039463084116e-08 -density 0.99726783680253 -viscosity 0.89002391819708 + -viscos_0 0.89002391819708 -totals Cl 0.0066416877184974 - Fe(2) 9.5037100290755e-17 - Fe(3) 5.643810687778e-10 + Fe(2) 9.5037096138281e-17 + Fe(3) 5.6438106878114e-10 Na 0.0066416877101367 - O(0) 1.1515620037368e-11 - -pH 6.8395579259107 - -pe 11.870721493905 + O(0) 1.1515622050578e-11 + -pH 6.8395579259079 + -pe 11.870721512889 -mu 0.0066418040017396 -ah2o 0.9997741786632 -mass_water 1.0000000006006 -soln_vol 1.0029657582542 - -total_alkalinity -8.0483442521928e-08 + -total_alkalinity -8.048344252342e-08 -activities Cl -2.2160974507486 - E -11.870721493905 - Fe(2) -16.166101020887 - Fe(3) -17.327379525625 - H(0) -40.57055886422 + E -11.870721512889 + Fe(2) -16.166101041133 + Fe(3) -17.327379525617 + H(0) -40.570558904723 Na -2.2147685426048 - O(0) -11.239078439631 + O(0) -11.239078358626 -gammas SOLUTION_RAW 12 Solution after simulation 4. -temp 25 @@ -372,30 +384,31 @@ SOLUTION_RAW 12 Solution after simulation 4. -potential 0 -total_h 111.01243363909 -total_o 55.506216808081 - -cb 2.4292518923065e-08 + -cb 2.4292518914347e-08 -density 0.99743002459695 -viscosity 0.89002391816666 + -viscos_0 0.89002391816666 -totals Cl 0.0087141437890577 - Fe(2) 5.9652071520889e-17 - Fe(3) 4.5300042280413e-10 + Fe(2) 5.9652071702943e-17 + Fe(3) 4.5300042280394e-10 Na 0.0087141437720805 - O(0) 1.1621770238829e-11 - -pH 6.9490966768781 - -pe 11.762246098782 + O(0) 1.1621770096911e-11 + -pH 6.9490966768783 + -pe 11.762246097456 -mu 0.0087142545572232 -ah2o 0.9997037153443 -mass_water 1.0000000002203 -soln_vol 1.0029657577737 - -total_alkalinity -2.3856495561655e-08 + -total_alkalinity -2.3856495561555e-08 -activities Cl -2.1032445319919 - E -11.762246098782 - Fe(2) -16.386150040009 - Fe(3) -17.655903949063 - H(0) -40.572685538604 + E -11.762246097456 + Fe(2) -16.386150045279 + Fe(3) -17.655903949064 + H(0) -40.572685549147 Na -2.1015307740973 - O(0) -11.234886310506 + O(0) -11.234886289421 -gammas SOLUTION_RAW 13 Solution after simulation 4. -temp 25 @@ -406,14 +419,15 @@ SOLUTION_RAW 13 Solution after simulation 4. -cb 4.701602196585e-09 -density 0.99755078702385 -viscosity 0.89002391815287 + -viscos_0 0.89002391815287 -totals Cl 0.0096534766988285 - Fe(2) 5.0796479623876e-17 + Fe(2) 5.079647962119e-17 Fe(3) 4.2027661609183e-10 Na 0.0096534766876341 - O(0) 1.1650950203709e-11 + O(0) 1.1650950206173e-11 -pH 6.9874372223297 - -pe 11.724208239144 + -pe 11.724208239167 -mu 0.0096535872745644 -ah2o 0.99967177803191 -mass_water 1.0000000000618 @@ -421,12 +435,12 @@ SOLUTION_RAW 13 Solution after simulation 4. -total_alkalinity -4.2925199548823e-09 -activities Cl -2.0608590294599 - E -11.724208239144 - Fe(2) -16.462968340965 + E -11.724208239167 + Fe(2) -16.462968340546 Fe(3) -17.770883961825 - H(0) -40.573056713612 + H(0) -40.573056712772 Na -2.0589738452341 - O(0) -11.234171709553 + O(0) -11.234171711233 -gammas SOLUTION_RAW 14 Solution after simulation 4. -temp 25 @@ -434,30 +448,31 @@ SOLUTION_RAW 14 Solution after simulation 4. -potential 0 -total_h 111.01243361622 -total_o 55.50621680905 - -cb -6.2552344342509e-10 + -cb -6.2552344372972e-10 -density 0.99760552213346 -viscosity 0.89002391814876 + -viscos_0 0.89002391814876 -totals Cl 0.0099333993067481 - Fe(2) 4.8642811279155e-17 - Fe(3) 4.1189670057889e-10 + Fe(2) 4.8642812187091e-17 + Fe(3) 4.1189670057789e-10 Na 0.0099333993026729 - O(0) 1.1656854946384e-11 - -pH 6.9978394005048 - -pe 11.713870137957 + O(0) 1.165685407581e-11 + -pH 6.997839400506 + -pe 11.713870129847 -mu 0.0099335099922076 -ah2o 0.99966226065951 -mass_water 1.0000000000163 -soln_vol 1.0029657575108 - -total_alkalinity 1.0333450904163e-09 + -total_alkalinity 1.0333450910229e-09 -activities Cl -2.0490395339936 - E -11.713870137957 - Fe(2) -16.483946926902 - Fe(3) -17.802078092193 - H(0) -40.573417434803 + E -11.713870129847 + Fe(2) -16.483946914305 + Fe(3) -17.802078092197 + H(0) -40.573417409601 Na -2.0471035960667 - O(0) -11.233458536608 + O(0) -11.233458587012 -gammas SOLUTION_RAW 15 Solution after simulation 4. -temp 25 @@ -465,30 +480,31 @@ SOLUTION_RAW 15 Solution after simulation 4. -potential 0 -total_h 111.01243361525 -total_o 55.506216809097 - -cb -1.6872640468033e-09 + -cb -1.6872640385507e-09 -density 0.99762183327687 -viscosity 0.89002391814792 + -viscos_0 0.89002391814792 -totals Cl 0.009990811333471 - Fe(2) 4.8208698435939e-17 - Fe(3) 4.1024853694276e-10 - Na 0.0099908113341564 - O(0) 1.1673460892756e-11 - -pH 6.9999160268743 - -pe 11.711949931011 + Fe(2) 4.8208699667224e-17 + Fe(3) 4.1024853694139e-10 + Na 0.0099908113341565 + O(0) 1.167345969981e-11 + -pH 6.9999160268759 + -pe 11.711949919914 -mu 0.0099909220502784 -ah2o 0.99966030864954 -mass_water 1.0000000000071 -soln_vol 1.0029657574988 - -total_alkalinity 2.0981980806585e-09 + -total_alkalinity 2.0981980814926e-09 -activities Cl -2.0466573984723 - E -11.711949931011 - Fe(2) -16.488255335651 - Fe(3) -17.808305427199 - H(0) -40.573731903558 + E -11.711949919914 + Fe(2) -16.488255327257 + Fe(3) -17.808305427203 + H(0) -40.573731886765 Na -2.0447110690852 - O(0) -11.232831295166 + O(0) -11.232831328753 -gammas SOLUTION_RAW 16 Solution after simulation 4. -temp 25 @@ -496,30 +512,31 @@ SOLUTION_RAW 16 Solution after simulation 4. -potential 0 -total_h 111.01243361511 -total_o 55.506216809104 - -cb -1.8433803434561e-09 + -cb -1.8433803336318e-09 -density 0.99762517868654 -viscosity 0.8900239181478 + -viscos_0 0.8900239181478 -totals Cl 0.0099990950159252 - Fe(2) 4.8196196742283e-17 - Fe(3) 4.1001285773958e-10 + Fe(2) 4.8196198448289e-17 + Fe(3) 4.1001285773768e-10 Na 0.0099990950134892 - O(0) 1.1628038680528e-11 - -pH 7.0002138322475 - -pe 11.711229102673 + O(0) 1.1628037033646e-11 + -pH 7.0002138322498 + -pe 11.711229087294 -mu 0.0099992057408935 -ah2o 0.99966002700406 -mass_water 1.0000000000057 -soln_vol 1.0029657574971 - -total_alkalinity 2.2509572856014e-09 + -total_alkalinity 2.250957286758e-09 -activities Cl -2.0463148463013 - E -11.711229102673 - Fe(2) -16.488418165938 - Fe(3) -17.809198476242 - H(0) -40.572867065689 + E -11.711229087294 + Fe(2) -16.488418162218 + Fe(3) -17.809198476249 + H(0) -40.572867058249 Na -2.044367018258 - O(0) -11.234561215622 + O(0) -11.234561230503 -gammas SOLUTION_RAW 17 Solution after simulation 4. -temp 25 @@ -527,30 +544,31 @@ SOLUTION_RAW 17 Solution after simulation 4. -potential 0 -total_h 111.0124336151 -total_o 55.506216809104 - -cb -1.8608311200021e-09 + -cb -1.8608311193995e-09 -density 0.99762566137819 -viscosity 0.89002391814778 + -viscos_0 0.89002391814778 -totals Cl 0.0099999377991894 - Fe(2) 4.8199317128708e-17 - Fe(3) 4.099889151258e-10 + Fe(2) 4.8199315365395e-17 + Fe(3) 4.0998891512776e-10 Na 0.0099999377948525 - O(0) 1.1619197922462e-11 - -pH 7.0002440986772 - -pe 11.711116283989 + O(0) 1.1619199623259e-11 + -pH 7.0002440986748 + -pe 11.711116299884 -mu 0.010000048518349 -ah2o 0.99965999834962 -mass_water 1.0000000000056 -soln_vol 1.0029657574969 - -total_alkalinity 2.2664831929421e-09 + -total_alkalinity 2.2664831917489e-09 -activities Cl -2.0462800112052 - E -11.711116283989 - Fe(2) -16.488283159445 - Fe(3) -17.809289238185 - H(0) -40.5724760401 + E -11.711116299884 + Fe(2) -16.488283164732 + Fe(3) -17.809289238178 + H(0) -40.572476050678 Na -2.0443320307654 - O(0) -11.235343291697 + O(0) -11.235343270542 -gammas SOLUTION_RAW 18 Solution after simulation 4. -temp 25 @@ -558,30 +576,31 @@ SOLUTION_RAW 18 Solution after simulation 4. -potential 0 -total_h 111.0124336151 -total_o 55.506216809104 - -cb -1.8620743751965e-09 + -cb -1.862074375104e-09 -density 0.99762571048729 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.0099999971739767 - Fe(2) 4.8218985703819e-17 - Fe(3) 4.0998722868236e-10 + Fe(2) 4.821898541774e-17 + Fe(3) 4.0998722868266e-10 Na 0.0099999971694919 - O(0) 1.1599841714722e-11 - -pH 7.0002462306436 - -pe 11.710933132329 + O(0) 1.1599841990082e-11 + -pH 7.0002462306432 + -pe 11.710933134907 -mu 0.010000107893058 -ah2o 0.99965999633088 -mass_water 1.0000000000056 -soln_vol 1.0029657574969 - -total_alkalinity 2.2675768430761e-09 + -total_alkalinity 2.267576842893e-09 -activities Cl -2.0462775571571 - E -11.710933132329 - Fe(2) -16.488182040073 - Fe(3) -17.809295631453 - H(0) -40.572265278532 + E -11.710933134907 + Fe(2) -16.488182043236 + Fe(3) -17.809295631452 + H(0) -40.572265284861 Na -2.0443295659816 - O(0) -11.235764816588 + O(0) -11.23576480393 -gammas SOLUTION_RAW 19 Solution after simulation 4. -temp 25 @@ -589,30 +608,31 @@ SOLUTION_RAW 19 Solution after simulation 4. -potential 0 -total_h 111.0124336151 -total_o 55.506216809104 - -cb -1.8621300600411e-09 + -cb -1.8621300601064e-09 -density 0.99762571394707 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.0099999999373921 - Fe(2) 4.8230571347439e-17 - Fe(3) 4.099871501947e-10 + Fe(2) 4.8230571542362e-17 + Fe(3) 4.0998715019449e-10 Na 0.0099999999329025 - O(0) 1.1588680909985e-11 - -pH 7.0002463298664 - -pe 11.71082851864 + O(0) 1.1588680722588e-11 + -pH 7.0002463298667 + -pe 11.710828516884 -mu 0.010000110656473 -ah2o 0.99965999623693 -mass_water 1.0000000000056 -soln_vol 1.0029657574969 - -total_alkalinity 2.2676277421645e-09 + -total_alkalinity 2.2676277422938e-09 -activities Cl -2.0462774429414 - E -11.71082851864 - Fe(2) -16.488124450651 + E -11.710828516884 + Fe(2) -16.488124446355 Fe(3) -17.809295929 - H(0) -40.572149703038 + H(0) -40.572149694444 Na -2.0443294512661 - O(0) -11.235995967658 + O(0) -11.235995984846 -gammas SOLUTION_RAW 20 Solution after simulation 4. -temp 25 @@ -620,30 +640,31 @@ SOLUTION_RAW 20 Solution after simulation 4. -potential 0 -total_h 111.0124336151 -total_o 55.506216809104 - -cb -1.8621315927673e-09 + -cb -1.8621315928554e-09 -density 0.99762571410809 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.01000000001397 - Fe(2) 4.8231302190853e-17 - Fe(3) 4.0998714801985e-10 + Fe(2) 4.8231302450834e-17 + Fe(3) 4.0998714801956e-10 Na 0.01000000000948 - O(0) 1.1587977990092e-11 - -pH 7.0002463326159 - -pe 11.710821930081 + O(0) 1.1587977740169e-11 + -pH 7.0002463326162 + -pe 11.710821927739 -mu 0.01000011073305 -ah2o 0.99965999623432 -mass_water 1.0000000000056 -soln_vol 1.0029657574969 - -total_alkalinity 2.2676291525577e-09 + -total_alkalinity 2.2676291527323e-09 -activities Cl -2.0462774397764 - E -11.710821930081 - Fe(2) -16.488117871737 - Fe(3) -17.809295937244 - H(0) -40.57213653422 + E -11.710821927739 + Fe(2) -16.488117871151 + Fe(3) -17.809295937245 + H(0) -40.572136533048 Na -2.0443294480872 - O(0) -11.236022305295 + O(0) -11.236022307639 -gammas SOLUTION_RAW 21 Solution after simulation 4. -temp 25 @@ -654,6 +675,7 @@ SOLUTION_RAW 21 Solution after simulation 4. -cb -1.8621316069758e-09 -density 0.99762571411255 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231310339738e-17 @@ -685,6 +707,7 @@ SOLUTION_RAW 22 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -716,6 +739,7 @@ SOLUTION_RAW 23 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -747,6 +771,7 @@ SOLUTION_RAW 24 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -778,6 +803,7 @@ SOLUTION_RAW 25 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -809,6 +835,7 @@ SOLUTION_RAW 26 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -840,6 +867,7 @@ SOLUTION_RAW 27 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -871,6 +899,7 @@ SOLUTION_RAW 28 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -902,6 +931,7 @@ SOLUTION_RAW 29 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -933,6 +963,7 @@ SOLUTION_RAW 30 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -964,6 +995,7 @@ SOLUTION_RAW 31 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -995,6 +1027,7 @@ SOLUTION_RAW 32 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1026,6 +1059,7 @@ SOLUTION_RAW 33 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1057,6 +1091,7 @@ SOLUTION_RAW 34 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1088,6 +1123,7 @@ SOLUTION_RAW 35 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1119,6 +1155,7 @@ SOLUTION_RAW 36 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1150,6 +1187,7 @@ SOLUTION_RAW 37 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1181,6 +1219,7 @@ SOLUTION_RAW 38 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1212,6 +1251,7 @@ SOLUTION_RAW 39 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1243,6 +1283,7 @@ SOLUTION_RAW 40 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1274,6 +1315,7 @@ SOLUTION_RAW 41 Solution after simulation 4. -cb -1.862131605042e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309750221e-17 @@ -1305,6 +1347,7 @@ SOLUTION_RAW 42 Solution after simulation 4. -cb -1.862131606816e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309866162e-17 @@ -1336,6 +1379,7 @@ SOLUTION_RAW 43 Solution after simulation 4. -cb -1.8621316070797e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231310618791e-17 @@ -1367,6 +1411,7 @@ SOLUTION_RAW 44 Solution after simulation 4. -cb -1.8621316071381e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231310816715e-17 @@ -1398,6 +1443,7 @@ SOLUTION_RAW 45 Solution after simulation 4. -cb -1.8621316073199e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231311341393e-17 @@ -1429,6 +1475,7 @@ SOLUTION_RAW 46 Solution after simulation 4. -cb -1.8621316075012e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231311865325e-17 @@ -1460,6 +1507,7 @@ SOLUTION_RAW 47 Solution after simulation 4. -cb -1.8621316074098e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231311598809e-17 @@ -1491,6 +1539,7 @@ SOLUTION_RAW 48 Solution after simulation 4. -cb -1.8621316069023e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231310118097e-17 @@ -1522,6 +1571,7 @@ SOLUTION_RAW 49 Solution after simulation 4. -cb -1.8621316049885e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.823130959533e-17 @@ -1553,6 +1603,7 @@ SOLUTION_RAW 50 Solution after simulation 4. -cb -1.8621316049815e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 Fe(2) 4.8231309575212e-17 @@ -1584,6 +1635,7 @@ SOLUTION_RAW 51 Solution after simulation 4. -cb -2.0993536386597e-09 -density 0.99762571411261 -viscosity 0.89002391814779 + -viscos_0 0.89002391814779 -totals Cl 0.010000000014928 H(0) 1.4126350725721e-25 @@ -2667,7 +2719,7 @@ SURFACE_RAW 1 -formula_z 0 -moles 0 -la -0.11496963846296 - -charge_balance 4.5543857044081e-09 + -charge_balance 4.5543857044083e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -2682,7 +2734,7 @@ SURFACE_RAW 1 -formula_z 0 -moles 0 -la -0.11496963846296 - -charge_balance 1.8217542817632e-07 + -charge_balance 1.8217542817634e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -2696,11 +2748,11 @@ SURFACE_RAW 1 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9994517547648e-05 - -charge_balance 1.8672981388073e-07 + -charge_balance 1.8672981388075e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.54489169831709 + -la_psi 0.54489169831713 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2733,7 +2785,7 @@ SURFACE_RAW 2 -formula_z 0 -moles 0 -la -0.11497298568628 - -charge_balance 4.6170972022859e-09 + -charge_balance 4.6170972022861e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -2762,11 +2814,11 @@ SURFACE_RAW 2 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.99981243759e-05 - -charge_balance 1.8930098529371e-07 + -charge_balance 1.8930098529372e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.54993037135166 + -la_psi 0.54993037135168 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2799,7 +2851,7 @@ SURFACE_RAW 3 -formula_z 0 -moles 0 -la -0.11498738746714 - -charge_balance 4.8769128564415e-09 + -charge_balance 4.8769128564421e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -2807,14 +2859,14 @@ SURFACE_RAW 3 -master_element Hfo_s -totals H 4.048672125075e-07 - Hfo_s 3.9999029965105e-07 - O 3.9999029965105e-07 + Hfo_s 3.9999029965106e-07 + O 3.9999029965106e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 -la -0.11498738746714 - -charge_balance 1.9507651425766e-07 + -charge_balance 1.9507651425768e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -2828,11 +2880,11 @@ SURFACE_RAW 3 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9998059885146e-05 - -charge_balance 1.999534271141e-07 + -charge_balance 1.9995342711412e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.5703531957524 + -la_psi 0.57035319575243 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2865,7 +2917,7 @@ SURFACE_RAW 4 -formula_z 0 -moles 0 -la -0.11503547130623 - -charge_balance 5.6586893949892e-09 + -charge_balance 5.6586893949898e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -2873,14 +2925,14 @@ SURFACE_RAW 4 -master_element Hfo_s -totals H 4.0564905390633e-07 - Hfo_s 3.9999036451134e-07 - O 3.9999036451134e-07 + Hfo_s 3.9999036451135e-07 + O 3.9999036451135e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 -la -0.11503547130623 - -charge_balance 2.2634757579957e-07 + -charge_balance 2.2634757579959e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -2894,11 +2946,11 @@ SURFACE_RAW 4 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9998072774175e-05 - -charge_balance 2.3200626519456e-07 + -charge_balance 2.3200626519458e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.62716911279121 + -la_psi 0.62716911279124 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2931,7 +2983,7 @@ SURFACE_RAW 5 -formula_z 0 -moles 0 -la -0.11516057253456 - -charge_balance 7.3113110998974e-09 + -charge_balance 7.3113110998967e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -2946,7 +2998,7 @@ SURFACE_RAW 5 -formula_z 0 -moles 0 -la -0.11516057253456 - -charge_balance 2.924524439959e-07 + -charge_balance 2.9245244399587e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -2960,11 +3012,11 @@ SURFACE_RAW 5 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9998192490858e-05 - -charge_balance 2.997637550958e-07 + -charge_balance 2.9976375509576e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.72861459299955 + -la_psi 0.72861459299951 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2997,7 +3049,7 @@ SURFACE_RAW 6 -formula_z 0 -moles 0 -la -0.1154145615052 - -charge_balance 9.8487718701364e-09 + -charge_balance 9.8487718701359e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -3012,7 +3064,7 @@ SURFACE_RAW 6 -formula_z 0 -moles 0 -la -0.1154145615052 - -charge_balance 3.9395087480546e-07 + -charge_balance 3.9395087480543e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3026,11 +3078,11 @@ SURFACE_RAW 6 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9998460594552e-05 - -charge_balance 4.037996466756e-07 + -charge_balance 4.0379964667557e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.84781866982408 + -la_psi 0.84781866982406 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3063,7 +3115,7 @@ SURFACE_RAW 7 -formula_z 0 -moles 0 -la -0.11586334829027 - -charge_balance 1.3191640976833e-08 + -charge_balance 1.319164097683e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -3078,7 +3130,7 @@ SURFACE_RAW 7 -formula_z 0 -moles 0 -la -0.11586334829027 - -charge_balance 5.2766563907333e-07 + -charge_balance 5.2766563907319e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3092,11 +3144,11 @@ SURFACE_RAW 7 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9998878156445e-05 - -charge_balance 5.4085728005016e-07 + -charge_balance 5.4085728005002e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.94819722669669 + -la_psi 0.94819722669657 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3129,14 +3181,14 @@ SURFACE_RAW 8 -formula_z 0 -moles 0 -la -0.11658597211216 - -charge_balance 1.7269977548705e-08 + -charge_balance 1.7269977548698e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1726706935717e-07 + H 4.1726706935716e-07 Hfo_s 3.9999709180846e-07 O 3.9999709180846e-07 -component Hfo_wOH @@ -3144,25 +3196,25 @@ SURFACE_RAW 8 -formula_z 0 -moles 0 -la -0.11658597211216 - -charge_balance 6.9079910194818e-07 + -charge_balance 6.907991019479e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6690682774287e-05 + H 1.6690682774286e-05 Hfo_w 1.5999883672339e-05 O 1.5999883672339e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999418361586e-05 - -charge_balance 7.0806907949688e-07 + -charge_balance 7.080690794966e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.97733422217689 + -la_psi 0.97733422217672 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3195,14 +3247,14 @@ SURFACE_RAW 9 -formula_z 0 -moles 0 -la -0.11718406514693 - -charge_balance 2.0031908199218e-08 + -charge_balance 2.003190819921e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.2003084942768e-07 + H 4.2003084942767e-07 Hfo_s 3.9999894122846e-07 O 3.9999894122846e-07 -component Hfo_wOH @@ -3210,7 +3262,7 @@ SURFACE_RAW 9 -formula_z 0 -moles 0 -la -0.11718406514693 - -charge_balance 8.0127632796871e-07 + -charge_balance 8.0127632796842e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3224,11 +3276,11 @@ SURFACE_RAW 9 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999788246023e-05 - -charge_balance 8.2130823616793e-07 + -charge_balance 8.2130823616763e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.88241630181509 + -la_psi 0.88241630181494 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3260,41 +3312,41 @@ SURFACE_RAW 10 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.117071573441 - -charge_balance 1.9541905411227e-08 + -la -0.11707157344101 + -charge_balance 1.9541905411258e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1954049238501e-07 - Hfo_s 3.9999858697379e-07 - O 3.9999858697379e-07 + H 4.1954049238504e-07 + Hfo_s 3.9999858697378e-07 + O 3.9999858697378e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.117071573441 - -charge_balance 7.8167621644907e-07 + -la -0.11707157344101 + -charge_balance 7.8167621645031e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.67816196954e-05 + H 1.6781619695402e-05 Hfo_w 1.5999943478951e-05 O 1.5999943478951e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999717394777e-05 - -charge_balance 8.012181218603e-07 + -charge_balance 8.0121812186156e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.71344842074903 + -la_psi 0.71344842074966 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3326,41 +3378,41 @@ SURFACE_RAW 11 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11690444296532 - -charge_balance 1.8790637823915e-08 + -la -0.11690444296533 + -charge_balance 1.8790637823977e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1878871740586e-07 + H 4.1878871740592e-07 Hfo_s 3.9999807958195e-07 O 3.9999807958195e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11690444296532 - -charge_balance 7.516255129566e-07 + -la -0.11690444296533 + -charge_balance 7.5162551295908e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6751548696235e-05 + H 1.6751548696237e-05 Hfo_w 1.5999923183278e-05 O 1.5999923183278e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999615916388e-05 - -charge_balance 7.7041615078052e-07 + -charge_balance 7.7041615078305e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.59141135021127 + -la_psi 0.59141135021253 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3393,7 +3445,7 @@ SURFACE_RAW 12 -formula_z 0 -moles 0 -la -0.11686565512805 - -charge_balance 1.8612002390726e-08 + -charge_balance 1.8612002390721e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -3408,25 +3460,25 @@ SURFACE_RAW 12 -formula_z 0 -moles 0 -la -0.11686565512805 - -charge_balance 7.4448009562903e-07 + -charge_balance 7.4448009562885e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6744398749565e-05 + H 1.6744398749564e-05 Hfo_w 1.5999918653936e-05 O 1.5999918653936e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999593269678e-05 - -charge_balance 7.6309209801975e-07 + -charge_balance 7.6309209801957e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.53705678661108 + -la_psi 0.53705678661099 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3525,14 +3577,14 @@ SURFACE_RAW 14 -formula_z 0 -moles 0 -la -0.11685978678696 - -charge_balance 1.8584828353477e-08 + -charge_balance 1.858482835345e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858277850382e-07 + H 4.1858277850379e-07 Hfo_s 3.9999795015034e-07 O 3.9999795015034e-07 -component Hfo_wOH @@ -3540,25 +3592,25 @@ SURFACE_RAW 14 -formula_z 0 -moles 0 -la -0.11685978678696 - -charge_balance 7.4339313413909e-07 + -charge_balance 7.4339313413799e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6743311140153e-05 + H 1.6743311140152e-05 Hfo_w 1.5999918006014e-05 O 1.5999918006014e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590029446e-05 - -charge_balance 7.6197796249257e-07 + -charge_balance 7.6197796249144e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51274853025756 + -la_psi 0.51274853025703 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3590,41 +3642,41 @@ SURFACE_RAW 15 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975648235 - -charge_balance 1.8584687907309e-08 + -la -0.11685975648234 + -charge_balance 1.8584687907271e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858263797398e-07 + H 4.1858263797395e-07 Hfo_s 3.9999795006668e-07 O 3.9999795006668e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975648235 - -charge_balance 7.4338751629235e-07 + -la -0.11685975648234 + -charge_balance 7.4338751629084e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6743305518959e-05 + H 1.6743305518958e-05 Hfo_w 1.5999918002667e-05 O 1.5999918002667e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590013316e-05 - -charge_balance 7.6197220419966e-07 + -charge_balance 7.6197220419811e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51171054322962 + -la_psi 0.51171054322888 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3656,41 +3708,41 @@ SURFACE_RAW 16 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975543404 - -charge_balance 1.8584683405549e-08 + -la -0.11685975543403 + -charge_balance 1.8584683405497e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858263353983e-07 + H 4.1858263353978e-07 Hfo_s 3.9999795013428e-07 O 3.9999795013428e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975543404 - -charge_balance 7.4338733622198e-07 + -la -0.11685975543403 + -charge_balance 7.4338733621988e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6743305341593e-05 + H 1.6743305341591e-05 Hfo_w 1.5999918005371e-05 O 1.5999918005371e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590012812e-05 - -charge_balance 7.6197201962753e-07 + -charge_balance 7.6197201962538e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51156165100497 + -la_psi 0.51156165100396 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3722,41 +3774,41 @@ SURFACE_RAW 17 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975549012 - -charge_balance 1.8584683311388e-08 + -la -0.11685975549014 + -charge_balance 1.8584683311442e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858263337591e-07 + H 4.1858263337596e-07 Hfo_s 3.9999795006452e-07 O 3.9999795006452e-07 -component Hfo_wOH # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.11685975549012 - -charge_balance 7.433873324555e-07 + -la -0.11685975549014 + -charge_balance 7.4338733245767e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 -charge_name Hfo -master_element Hfo_w -totals - H 1.6743305335036e-05 + H 1.6743305335039e-05 Hfo_w 1.5999918002581e-05 O 1.5999918002581e-05 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590012804e-05 - -charge_balance 7.6197201576689e-07 + -charge_balance 7.6197201576911e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51154651800128 + -la_psi 0.51154651800233 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3789,14 +3841,14 @@ SURFACE_RAW 18 -formula_z 0 -moles 0 -la -0.11685975549048 - -charge_balance 1.8584683310502e-08 + -charge_balance 1.858468331051e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858263337452e-07 + H 4.1858263337453e-07 Hfo_s 3.9999795006402e-07 O 3.9999795006402e-07 -component Hfo_wOH @@ -3804,7 +3856,7 @@ SURFACE_RAW 18 -formula_z 0 -moles 0 -la -0.11685975549048 - -charge_balance 7.4338733242007e-07 + -charge_balance 7.4338733242041e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3818,11 +3870,11 @@ SURFACE_RAW 18 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590012804e-05 - -charge_balance 7.6197201573057e-07 + -charge_balance 7.6197201573092e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51154545202008 + -la_psi 0.51154545202024 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3855,7 +3907,7 @@ SURFACE_RAW 19 -formula_z 0 -moles 0 -la -0.11685975549049 - -charge_balance 1.8584683310524e-08 + -charge_balance 1.8584683310518e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -3870,7 +3922,7 @@ SURFACE_RAW 19 -formula_z 0 -moles 0 -la -0.11685975549049 - -charge_balance 7.4338733242097e-07 + -charge_balance 7.4338733242074e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3884,11 +3936,11 @@ SURFACE_RAW 19 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590012804e-05 - -charge_balance 7.619720157315e-07 + -charge_balance 7.6197201573126e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.5115454024086 + -la_psi 0.51154540240849 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -3921,14 +3973,14 @@ SURFACE_RAW 20 -formula_z 0 -moles 0 -la -0.11685975549049 - -charge_balance 1.8584683310529e-08 + -charge_balance 1.8584683310521e-08 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - H 4.1858263337455e-07 + H 4.1858263337454e-07 Hfo_s 3.9999795006402e-07 O 3.9999795006402e-07 -component Hfo_wOH @@ -3936,7 +3988,7 @@ SURFACE_RAW 20 -formula_z 0 -moles 0 -la -0.11685975549049 - -charge_balance 7.4338733242116e-07 + -charge_balance 7.4338733242084e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -3950,11 +4002,11 @@ SURFACE_RAW 20 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9999590012804e-05 - -charge_balance 7.6197201573169e-07 + -charge_balance 7.6197201573137e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.51154540103388 + -la_psi 0.51154540103373 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -5965,6 +6017,7 @@ SOLUTION_RAW 0 Solution after simulation 4. -cb -5.7129958810826e-10 -density 0.99762571407388 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.00050000000000001 H(0) 1.4157285341061e-25 @@ -5989,30 +6042,31 @@ SOLUTION_RAW 1 Solution after simulation 4. -potential 0 -total_h 111.01243360011 -total_o 55.506216800509 - -cb 2.6897191239178e-10 + -cb 2.6897191240776e-10 -density 0.99707214860954 -viscosity 0.89002391828724 + -viscos_0 0.89002391828724 -totals Cl 0.00050000000096158 - Fe(2) 3.7178883306746e-17 - Fe(3) 3.8431501216137e-10 + Fe(2) 3.7178883276924e-17 + Fe(3) 3.8431501216142e-10 Na 0.00050000000095825 - O(0) 1.0476819569927e-11 - -pH 6.9989376735512 - -pe 11.700878388557 + O(0) 1.0476819603554e-11 + -pH 6.9989376735511 + -pe 11.700878388905 -mu 0.00050010295302372 -ah2o 0.99998299649885 -mass_water 1.0000000000108 -soln_vol 1.0029657579561 - -total_alkalinity 1.1533984217336e-10 + -total_alkalinity 1.1533984214142e-10 -activities Cl -3.3121822290864 - E -11.700878388557 - Fe(2) -16.474669128056 + E -11.700878388905 + Fe(2) -16.474669127939 Fe(3) -17.805790866885 - H(0) -40.549632142263 + H(0) -40.549632142029 Na -3.3120725832975 - O(0) -11.280750484653 + O(0) -11.280750485121 -gammas EQUILIBRIUM_PHASES_RAW 1 Pure-phase assemblage after simulation 4. # EXCHANGE_MODIFY candidates; use new_def=true # @@ -6050,7 +6104,7 @@ SURFACE_RAW 1 -formula_z 0 -moles 0 -la -0.11496963846296 - -charge_balance 4.5543857044081e-09 + -charge_balance 4.5543857044083e-09 -phase_name Ferrihydrite -phase_proportion 0.005 -Dw 0 @@ -6065,7 +6119,7 @@ SURFACE_RAW 1 -formula_z 0 -moles 0 -la -0.11496963846296 - -charge_balance 1.8217542817632e-07 + -charge_balance 1.8217542817634e-07 -phase_name Ferrihydrite -phase_proportion 0.2 -Dw 0 @@ -6079,11 +6133,11 @@ SURFACE_RAW 1 # SURFACE_MODIFY candidate identifiers # -specific_area 53300 -grams 7.9994517547648e-05 - -charge_balance 1.8672981388073e-07 + -charge_balance 1.8672981388075e-07 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi 0.54489169831709 + -la_psi 0.54489169831713 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals diff --git a/mytest/no_negative_dump.out b/mytest/no_negative_dump.out index e34297c5..9ed6b2ef 100644 --- a/mytest/no_negative_dump.out +++ b/mytest/no_negative_dump.out @@ -6557,6 +6557,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.174e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.183e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 5 @@ -6632,7 +6633,7 @@ Mixture 2. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 5.479e-11 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 5.479e-11 ------------------------------Surface composition------------------------------ @@ -6683,6 +6684,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.306e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.351e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -6731,7 +6733,7 @@ O(0) 1.208e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.76 -4.17 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -13089,6 +13091,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.802e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.813e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 4 @@ -13215,6 +13218,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -3.957e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.006e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -19621,6 +19625,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.966e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.978e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 3 @@ -19696,7 +19701,7 @@ Mixture 4. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 5.398e-11 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 5.398e-11 ------------------------------Surface composition------------------------------ @@ -19795,7 +19800,7 @@ O(0) 1.177e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.87 -4.29 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -19822,7 +19827,7 @@ Mixture 5. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.141e-12 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.141e-12 ------------------------------Surface composition------------------------------ @@ -19873,6 +19878,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.411e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.822e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -19921,7 +19927,7 @@ O(0) 1.170e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.69 -4.11 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -19948,7 +19954,7 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 6.231e-15 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 6.231e-15 ------------------------------Surface composition------------------------------ @@ -19999,6 +20005,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.090e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.685e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -20047,7 +20054,7 @@ O(0) 1.160e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -25775,6 +25782,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.185e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.233e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 3 @@ -25850,7 +25858,7 @@ Mixture 2. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -3.195e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -3.195e-10 ------------------------------Surface composition------------------------------ @@ -25949,7 +25957,7 @@ O(0) 1.186e-11 Fe(OH)2.7Cl0.3 3.28 0.24 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.15 -6.57 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -26027,6 +26035,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -4.832e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.849e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 3 @@ -26102,7 +26111,7 @@ Mixture 4. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.111e-11 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.111e-11 ------------------------------Surface composition------------------------------ @@ -26153,6 +26162,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.937e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.949e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 3 @@ -26201,7 +26211,7 @@ O(0) 1.092e-11 Fe(OH)2.7Cl0.3 3.51 0.47 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -6.70 -5.12 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -26279,6 +26289,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.879e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.931e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -26405,6 +26416,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.618e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.029e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -26480,7 +26492,7 @@ Mixture 7. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.217e-14 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.217e-14 ------------------------------Surface composition------------------------------ @@ -26531,6 +26543,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.683e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.276e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -26579,7 +26592,7 @@ O(0) 1.161e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.68 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -26657,6 +26670,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.250e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.843e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -32181,6 +32195,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.478e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.521e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -32559,6 +32574,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.569e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.588e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 3 @@ -32685,6 +32701,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.837e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.848e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -32811,6 +32828,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -6.476e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.529e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -32937,6 +32955,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.943e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.351e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -33012,7 +33031,7 @@ Mixture 8. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 4.913e-14 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 4.913e-14 ------------------------------Surface composition------------------------------ @@ -33063,6 +33082,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 1.050e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -6.431e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -33111,7 +33131,7 @@ O(0) 1.162e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.68 -4.10 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -33138,7 +33158,7 @@ Mixture 9. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 4.112e-16 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 4.112e-16 ------------------------------Surface composition------------------------------ @@ -33237,7 +33257,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -33315,6 +33335,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.266e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.860e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -38965,6 +38986,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.253e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.271e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 3 @@ -39091,6 +39113,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.942e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.963e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 3 @@ -39217,6 +39240,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.717e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.728e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -39292,7 +39316,7 @@ Mixture 7. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 3.652e-11 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 3.652e-11 ------------------------------Surface composition------------------------------ @@ -39343,6 +39367,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -6.935e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.989e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -39391,7 +39416,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.96 -4.37 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -39418,7 +39443,7 @@ Mixture 8. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.456e-12 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.456e-12 ------------------------------Surface composition------------------------------ @@ -39469,6 +39494,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.223e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.263e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -39517,7 +39543,7 @@ O(0) 1.169e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.74 -4.15 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -39544,7 +39570,7 @@ Mixture 9. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 8.614e-14 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 8.614e-14 ------------------------------Surface composition------------------------------ @@ -39595,6 +39621,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.225e-10 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.841e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -39643,7 +39670,7 @@ O(0) 1.164e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.68 -4.10 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -39847,6 +39874,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.259e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.853e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -39973,6 +40001,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.267e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -44993,6 +45022,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.395e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.789e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -45119,6 +45149,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -3.784e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.830e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -45320,7 +45351,7 @@ Mixture 4. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -3.117e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -3.117e-10 ------------------------------Surface composition------------------------------ @@ -45419,7 +45450,7 @@ O(0) 1.186e-11 Fe(OH)2.7Cl0.3 3.31 0.27 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.17 -6.59 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -45446,7 +45477,7 @@ Mixture 5. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -4.988e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -4.988e-10 ------------------------------Surface composition------------------------------ @@ -45497,6 +45528,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -6.435e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.457e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.05 Iterations = 3 @@ -45545,7 +45577,7 @@ O(0) 1.169e-11 Fe(OH)2.7Cl0.3 3.42 0.38 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -7.97 -6.38 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -45623,6 +45655,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -6.061e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 6.082e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 3 @@ -45749,6 +45782,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.598e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.608e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -45824,7 +45858,7 @@ Mixture 8. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 3.206e-11 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 3.206e-11 ------------------------------Surface composition------------------------------ @@ -45875,6 +45909,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.299e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.354e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -45923,7 +45958,7 @@ O(0) 1.156e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.97 -4.39 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -45950,7 +45985,7 @@ Mixture 9. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.684e-12 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.684e-12 ------------------------------Surface composition------------------------------ @@ -46001,6 +46036,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.539e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.581e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -46049,7 +46085,7 @@ O(0) 1.166e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.75 -4.17 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -46076,7 +46112,7 @@ Mixture 10. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.309e-13 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.309e-13 ------------------------------Surface composition------------------------------ @@ -46127,6 +46163,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.608e-10 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.167e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -46175,7 +46212,7 @@ O(0) 1.165e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.69 -4.10 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -46328,7 +46365,7 @@ Mixture 12. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.887e-17 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.887e-17 ------------------------------Surface composition------------------------------ @@ -46379,6 +46416,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.243e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.835e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -46427,7 +46465,7 @@ O(0) 1.161e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -46454,7 +46492,7 @@ Mixture 13. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.220e-19 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.220e-19 ------------------------------Surface composition------------------------------ @@ -46505,6 +46543,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.267e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.861e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -46553,7 +46592,7 @@ O(0) 1.158e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -51348,7 +51387,7 @@ Mixture 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -3.855e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -3.855e-10 ------------------------------Surface composition------------------------------ @@ -51447,7 +51486,7 @@ O(0) 1.053e-11 Fe(OH)2.7Cl0.3 3.14 0.10 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.21 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -51525,6 +51564,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.959e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.001e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -51726,7 +51766,7 @@ Mixture 4. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -1.842e-10 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -1.842e-10 ------------------------------Surface composition------------------------------ @@ -51825,7 +51865,7 @@ O(0) 1.117e-11 Fe(OH)2.7Cl0.3 3.26 0.22 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.20 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -51978,7 +52018,7 @@ Mixture 6. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -4.586e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -4.586e-10 ------------------------------Surface composition------------------------------ @@ -52029,6 +52069,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.380e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.406e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.05 Iterations = 3 @@ -52077,7 +52118,7 @@ O(0) 1.164e-11 Fe(OH)2.7Cl0.3 3.44 0.40 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -7.89 -6.31 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -52230,7 +52271,7 @@ Mixture 8. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.111e-10 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.111e-10 ------------------------------Surface composition------------------------------ @@ -52281,6 +52322,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.487e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.497e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -52329,7 +52371,7 @@ O(0) 1.116e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -6.51 -4.93 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -52407,6 +52449,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.595e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.650e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -52533,6 +52576,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.839e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.882e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -52659,6 +52703,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.862e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.269e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -52911,6 +52956,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.213e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.800e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -52986,7 +53032,7 @@ Mixture 14. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 6.776e-19 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 6.776e-19 ------------------------------Surface composition------------------------------ @@ -53037,6 +53083,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.264e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.859e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -53085,7 +53132,7 @@ O(0) 1.160e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -53238,7 +53285,7 @@ Mixture 16. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.355e-20 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.355e-20 ------------------------------Surface composition------------------------------ @@ -53337,7 +53384,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -57880,7 +57927,7 @@ Mixture 2. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -8.215e-12 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -8.215e-12 ------------------------------Surface composition------------------------------ @@ -57979,7 +58026,7 @@ O(0) 1.053e-11 Fe(OH)2.7Cl0.3 3.14 0.10 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.21 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -58057,6 +58104,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -4.504e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.550e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -58309,6 +58357,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -3.162e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.174e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.03 Iterations = 2 @@ -58561,6 +58610,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.084e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.112e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.05 Iterations = 3 @@ -58636,7 +58686,7 @@ Mixture 8. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 1.032e-11 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 1.032e-11 ------------------------------Surface composition------------------------------ @@ -58735,7 +58785,7 @@ O(0) 1.119e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -7.18 -5.60 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -58813,6 +58863,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.388e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.398e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -58939,6 +58990,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.841e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.896e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -59014,7 +59066,7 @@ Mixture 11. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.949e-12 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.949e-12 ------------------------------Surface composition------------------------------ @@ -59113,7 +59165,7 @@ O(0) 1.165e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.78 -4.19 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -59191,6 +59243,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -3.049e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.457e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -59443,6 +59496,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.166e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.754e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -59518,7 +59572,7 @@ Mixture 15. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 2.670e-18 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 2.670e-18 ------------------------------Surface composition------------------------------ @@ -59569,6 +59623,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.260e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.853e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -59617,7 +59672,7 @@ O(0) 1.162e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -59695,6 +59750,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.267e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -59770,7 +59826,7 @@ Mixture 17. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 ------------------------------Surface composition------------------------------ @@ -59821,6 +59877,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.268e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -59869,7 +59926,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -59896,7 +59953,7 @@ Mixture 18. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 ------------------------------Surface composition------------------------------ @@ -59947,6 +60004,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.268e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -59995,7 +60053,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -64286,7 +64344,7 @@ Mixture 2. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -4.322e-12 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -4.322e-12 ------------------------------Surface composition------------------------------ @@ -64385,7 +64443,7 @@ O(0) 1.051e-11 Fe(OH)2.7Cl0.3 3.14 0.10 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.21 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -64412,7 +64470,7 @@ Mixture 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -1.833e-11 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -1.833e-11 ------------------------------Surface composition------------------------------ @@ -64511,7 +64569,7 @@ O(0) 1.056e-11 Fe(OH)2.7Cl0.3 3.15 0.11 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.21 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -64538,7 +64596,7 @@ Mixture 4. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 -6.031e-11 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 -6.031e-11 ------------------------------Surface composition------------------------------ @@ -64589,6 +64647,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.227e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.282e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.01 Iterations = 2 @@ -64637,7 +64696,7 @@ O(0) 1.069e-11 Fe(OH)2.7Cl0.3 3.19 0.15 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -8.21 -6.62 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -64841,6 +64900,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -4.148e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.163e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.04 Iterations = 2 @@ -65093,6 +65153,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.564e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.593e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.05 Iterations = 3 @@ -65219,6 +65280,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.665e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 5.684e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.02 Iterations = 3 @@ -65294,7 +65356,7 @@ Mixture 10. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 9.910e-11 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 9.910e-11 ------------------------------Surface composition------------------------------ @@ -65345,6 +65407,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -2.301e-07 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 2.310e-07 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -65393,7 +65456,7 @@ O(0) 1.123e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.32 3.90 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -6.47 -4.89 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -65471,6 +65534,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.048e-08 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.104e-08 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -65546,7 +65610,7 @@ Mixture 12. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 3.018e-12 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 3.018e-12 ------------------------------Surface composition------------------------------ @@ -65645,7 +65709,7 @@ O(0) 1.162e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.79 -4.20 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -65723,6 +65787,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -4.293e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 4.702e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -65975,6 +66040,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.098e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.687e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -66050,7 +66116,7 @@ Mixture 16. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 7.589e-18 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 7.589e-18 ------------------------------Surface composition------------------------------ @@ -66101,6 +66167,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.251e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.843e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -66149,7 +66216,7 @@ O(0) 1.163e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -66176,7 +66243,7 @@ Mixture 17. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 9.487e-20 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 9.487e-20 ------------------------------Surface composition------------------------------ @@ -66227,6 +66294,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.266e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.861e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -66275,7 +66343,7 @@ O(0) 1.162e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -66302,7 +66370,7 @@ Mixture 18. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 +Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 ------------------------------Surface composition------------------------------ @@ -66353,6 +66421,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.268e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -66401,7 +66470,7 @@ O(0) 1.160e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -66428,7 +66497,7 @@ Mixture 19. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Ferrihydrite -0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 +Ferrihydrite 0.00 3.19 3.19 8.000e-05 8.000e-05 0.000e+00 ------------------------------Surface composition------------------------------ @@ -66479,6 +66548,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.268e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -66527,7 +66597,7 @@ O(0) 1.159e-11 Fe(OH)2.7Cl0.3 3.52 0.48 -3.04 Fe(OH)2.7Cl0.3 Fe3(OH)8 -16.33 3.89 20.22 Fe3(OH)8 - Ferrihydrite -0.00 3.19 3.19 Fe(OH)3 + Ferrihydrite 0.00 3.19 3.19 Fe(OH)3 Goethite 2.69 3.19 0.50 FeOOH Halite -5.67 -4.09 1.58 NaCl Hematite 10.39 6.38 -4.01 Fe2O3 @@ -66605,6 +66675,7 @@ Hfo_w Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = 2.268e-09 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.862e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 diff --git a/mytest/np.test.out b/mytest/np.test.out index 7d263cc4..1eb6703f 100644 --- a/mytest/np.test.out +++ b/mytest/np.test.out @@ -1624,7 +1624,7 @@ Initial solution 1. Specific Conductance (µS/cm, 17°C) = 263 Density (g/cm³) = 0.99899 Volume (L) = 1.00128 - Viscosity (mPa s) = 1.08272 + Viscosity (mPa s) = 1.08269 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.898e-03 Mass of water (kg) = 1.000e+00 @@ -1729,7 +1729,7 @@ Initial solution 2. Specific Conductance (µS/cm, 19°C) = 503 Density (g/cm³) = 0.99879 Volume (L) = 1.00173 - Viscosity (mPa s) = 1.02994 + Viscosity (mPa s) = 1.02992 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.635e-03 Mass of water (kg) = 1.000e+00 @@ -2097,7 +2097,7 @@ Initial solution 1. Site 404, background Specific Conductance (µS/cm, 19°C) = 358 Density (g/cm³) = 0.99870 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.02979 + Viscosity (mPa s) = 1.02977 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.846e-03 Mass of water (kg) = 1.000e+00 @@ -2253,7 +2253,7 @@ Initial solution 2. Site 51, plume Specific Conductance (µS/cm, 18°C) = 9229 Density (g/cm³) = 1.01122 Volume (L) = 1.00259 - Viscosity (mPa s) = 1.08169 + Viscosity (mPa s) = 1.08153 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.026e-01 Mass of water (kg) = 1.000e+00 @@ -2469,7 +2469,7 @@ Initial solution 3. Site 402, final water Specific Conductance (µS/cm, 18°C) = 4391 Density (g/cm³) = 1.00337 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.07085 + Viscosity (mPa s) = 1.07075 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.801e-02 Mass of water (kg) = 1.000e+00 @@ -6580,7 +6580,7 @@ Initial solution 1. Recharge number 3 Specific Conductance (µS/cm, 10°C) = 278 Density (g/cm³) = 0.99999 Volume (L) = 1.00035 - Viscosity (mPa s) = 1.31409 + Viscosity (mPa s) = 1.31401 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.588e-03 Mass of water (kg) = 1.000e+00 @@ -6719,10 +6719,10 @@ Initial solution 2. Mysse pH = 6.610 pe = 0.000 - Specific Conductance (µS/cm, 63°C) = 10504 + Specific Conductance (µS/cm, 63°C) = 10503 Density (g/cm³) = 0.98521 Volume (L) = 1.01942 - Viscosity (mPa s) = 0.45631 + Viscosity (mPa s) = 0.45647 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.101e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/np.test_101.sel b/mytest/np.test_101.sel index a6ba2b12..f232625f 100644 --- a/mytest/np.test_101.sel +++ b/mytest/np.test_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.000485529673 38.1048693287 - 0.001316661388 97.4529034025 + 0.000485529673 38.1048694594 + 0.001316661388 97.4529040127 diff --git a/mytest/np.testmp.out b/mytest/np.testmp.out index d785c397..bc5aaba4 100644 --- a/mytest/np.testmp.out +++ b/mytest/np.testmp.out @@ -1516,7 +1516,7 @@ Initial solution 1. Specific Conductance (µS/cm, 17°C) = 263 Density (g/cm³) = 0.99899 Volume (L) = 1.00128 - Viscosity (mPa s) = 1.08272 + Viscosity (mPa s) = 1.08269 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.898e-03 Mass of water (kg) = 1.000e+00 @@ -1620,7 +1620,7 @@ Initial solution 2. Specific Conductance (µS/cm, 19°C) = 503 Density (g/cm³) = 0.99879 Volume (L) = 1.00173 - Viscosity (mPa s) = 1.02994 + Viscosity (mPa s) = 1.02992 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.635e-03 Mass of water (kg) = 1.000e+00 @@ -1996,7 +1996,7 @@ Initial solution 1. Site 404, background Specific Conductance (µS/cm, 19°C) = 358 Density (g/cm³) = 0.99870 Volume (L) = 1.00170 - Viscosity (mPa s) = 1.02979 + Viscosity (mPa s) = 1.02977 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.846e-03 Mass of water (kg) = 1.000e+00 @@ -2151,7 +2151,7 @@ Initial solution 2. Site 51, plume Specific Conductance (µS/cm, 18°C) = 9229 Density (g/cm³) = 1.01122 Volume (L) = 1.00259 - Viscosity (mPa s) = 1.08169 + Viscosity (mPa s) = 1.08153 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.026e-01 Mass of water (kg) = 1.000e+00 @@ -2366,7 +2366,7 @@ Initial solution 3. Site 402, final water Specific Conductance (µS/cm, 18°C) = 4391 Density (g/cm³) = 1.00337 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.07085 + Viscosity (mPa s) = 1.07075 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.801e-02 Mass of water (kg) = 1.000e+00 @@ -5899,7 +5899,7 @@ Initial solution 1. Recharge number 3 Specific Conductance (µS/cm, 10°C) = 278 Density (g/cm³) = 0.99999 Volume (L) = 1.00035 - Viscosity (mPa s) = 1.31409 + Viscosity (mPa s) = 1.31401 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.588e-03 Mass of water (kg) = 1.000e+00 @@ -6037,10 +6037,10 @@ Initial solution 2. Mysse pH = 6.610 pe = 0.000 - Specific Conductance (µS/cm, 63°C) = 10504 + Specific Conductance (µS/cm, 63°C) = 10503 Density (g/cm³) = 0.98521 Volume (L) = 1.01942 - Viscosity (mPa s) = 0.45631 + Viscosity (mPa s) = 0.45647 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.101e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/np.testmp_101.sel b/mytest/np.testmp_101.sel index e7dbf176..fc16f781 100644 --- a/mytest/np.testmp_101.sel +++ b/mytest/np.testmp_101.sel @@ -1,12 +1,12 @@ Mu SC - 0.000485529673 38.1048693287 - 0.001316661388 97.4529034025 - 0.019880553452 1725.2922181413 - 6.719799723054 215797.2666186815 - 0.004898166098 263.7585105776 - 0.006635251152 503.0948652373 - 0.005845698104 358.4517974281 - 0.202591307713 9229.2657280350 - 0.088005559915 4391.5575059210 - 0.006588098410 278.9069763583 - 0.071009410667 10504.9342400163 + 0.000485529673 38.1048694594 + 0.001316661388 97.4529040127 + 0.019880553452 1725.2922550934 + 6.719799723054 215797.2970553821 + 0.004898166098 263.7624931263 + 0.006635251152 503.0975058724 + 0.005845698104 358.4553983429 + 0.202591307713 9229.5149743677 + 0.088005559915 4391.6816348471 + 0.006588098410 278.9168296868 + 0.071009410667 10503.1643795854 diff --git a/mytest/opa_col2.out b/mytest/opa_col2.out index 24e1b14b..b99a9c1f 100644 --- a/mytest/opa_col2.out +++ b/mytest/opa_col2.out @@ -545,7 +545,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -1287,7 +1287,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -1476,7 +1476,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -1665,7 +1665,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -1854,7 +1854,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2043,7 +2043,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2232,7 +2232,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2421,7 +2421,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2610,7 +2610,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2799,7 +2799,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -2988,7 +2988,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -3177,7 +3177,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -3366,7 +3366,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -3555,7 +3555,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -3744,7 +3744,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -3933,7 +3933,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -4122,7 +4122,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -4311,7 +4311,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -4500,7 +4500,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -4689,7 +4689,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -4878,7 +4878,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -5360,30 +5360,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 9.497e-07 4.749e-07 + Hto 9.516e-07 4.758e-07 I 9.712e-07 4.856e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 9.084e-07 4.542e-07 + Nat 9.141e-07 4.570e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -1.824 Adjusted to redox equilibrium + pe = -1.781 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.181e-14 + Electrical balance (eq) = 1.185e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 Total H = 5.550745e+01 @@ -5397,8 +5397,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.763e-22 - CH4 4.763e-22 5.178e-22 -21.322 -21.286 0.036 35.46 +C(-4) 2.146e-22 + CH4 2.146e-22 2.333e-22 -21.668 -21.632 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -5422,10 +5422,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.834e-14 - H2 1.917e-14 2.084e-14 -13.717 -13.681 0.036 28.61 -Hto 9.497e-07 - Hto 9.497e-07 9.497e-07 -6.022 -6.022 0.000 (0) +H(0) 3.141e-14 + H2 1.570e-14 1.707e-14 -13.804 -13.768 0.036 28.61 +Hto 9.516e-07 + Hto 9.516e-07 9.516e-07 -6.022 -6.022 0.000 (0) I 9.712e-07 I- 9.712e-07 9.712e-07 -6.013 -6.013 -0.000 (0) K 1.540e-03 @@ -5443,15 +5443,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 9.084e-07 - Nat+ 9.084e-07 9.084e-07 -6.042 -6.042 -0.000 (0) +Nat 9.141e-07 + Nat+ 9.141e-07 9.141e-07 -6.039 -6.039 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -65.063 -65.027 0.036 30.40 -S(-2) 7.467e-19 - HS- 5.220e-19 3.437e-19 -18.282 -18.464 -0.182 21.14 - H2S 2.246e-19 2.442e-19 -18.649 -18.612 0.036 36.27 - S-2 2.118e-24 5.106e-25 -23.674 -24.292 -0.618 (0) - (H2S)2 2.891e-39 3.143e-39 -38.539 -38.503 0.036 30.09 + O2 0.000e+00 0.000e+00 -64.890 -64.853 0.036 30.40 +S(-2) 3.364e-19 + HS- 2.352e-19 1.548e-19 -18.629 -18.810 -0.182 21.14 + H2S 1.012e-19 1.100e-19 -18.995 -18.958 0.036 36.27 + S-2 9.545e-25 2.301e-25 -24.020 -24.638 -0.618 (0) + (H2S)2 5.870e-40 6.382e-40 -39.231 -39.195 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -5478,21 +5478,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -18.48 -21.29 -2.80 CH4 + CH4(g) -18.83 -21.63 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -10.58 -13.68 -3.10 H2 + H2(g) -10.67 -13.77 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -17.62 -25.55 -7.94 H2S + H2S(g) -17.96 -25.90 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -62.13 -65.03 -2.89 O2 + O2(g) -61.96 -64.85 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -12.96 -8.08 4.88 S + Sulfur -13.22 -8.34 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -5516,7 +5516,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -9.709e-14 Surface + diffuse layer charge, eq + -9.620e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -5526,7 +5526,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -5537,12 +5537,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 1.2580e-08 + Hto 1.2106e-08 I 1.4393e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8134e-08 + Nat 3.5798e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -5561,12 +5561,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.066e-07 1.256e-08 + Hto 1.026e-07 1.209e-08 I 1.222e-07 1.439e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.489e-08 7.645e-09 + Nat 6.091e-08 7.176e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -5577,7 +5577,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -5625,8 +5625,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) H(0) 4.439e-12 H2 2.219e-12 2.413e-12 -11.654 -11.617 0.036 28.61 -Hto 1.066e-07 - Hto 1.066e-07 1.066e-07 -6.972 -6.972 0.000 (0) +Hto 1.026e-07 + Hto 1.026e-07 1.026e-07 -6.989 -6.989 0.000 (0) I 1.222e-07 I- 1.222e-07 1.222e-07 -6.913 -6.913 -0.000 (0) K 1.540e-03 @@ -5644,8 +5644,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 6.489e-08 - Nat+ 6.489e-08 6.489e-08 -7.188 -7.188 -0.000 (0) +Nat 6.091e-08 + Nat+ 6.091e-08 6.091e-08 -7.215 -7.215 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.190 -69.154 0.036 30.40 S(-2) 1.342e-10 @@ -5717,7 +5717,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - 8.048e-10 Surface + diffuse layer charge, eq + 9.985e-10 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -5727,7 +5727,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -5916,7 +5916,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6029,8 +6029,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -6105,7 +6105,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6218,7 +6218,7 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.727 -16.345 -0.618 (0) + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -6294,7 +6294,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6407,8 +6407,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -6483,7 +6483,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6549,8 +6549,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.211e-14 - CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.210e-14 + CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -6597,7 +6597,7 @@ S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -6672,7 +6672,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6738,8 +6738,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.211e-14 - CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.210e-14 + CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -6785,8 +6785,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) - (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) + (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -6861,7 +6861,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -6927,8 +6927,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.210e-14 - CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.211e-14 + CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -6975,7 +6975,7 @@ S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -7050,7 +7050,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -7163,7 +7163,7 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -7239,7 +7239,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -7305,8 +7305,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.211e-14 - CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.210e-14 + CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -7352,8 +7352,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) - (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) + (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -7428,7 +7428,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -7541,7 +7541,7 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -7617,7 +7617,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -7806,7 +7806,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -7872,8 +7872,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.210e-14 - CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.211e-14 + CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -7919,8 +7919,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.514e-17 -15.727 -16.345 -0.618 (0) + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -7995,7 +7995,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -8061,8 +8061,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.211e-14 - CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.210e-14 + CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -8108,8 +8108,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) - (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) + (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -8184,7 +8184,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -8297,7 +8297,7 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.727 -16.345 -0.618 (0) + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -8373,7 +8373,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -8439,8 +8439,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.210e-14 - CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.211e-14 + CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -8486,8 +8486,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -8562,7 +8562,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -8751,7 +8751,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -8817,8 +8817,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.210e-14 - CH4 4.210e-14 4.578e-14 -13.376 -13.339 0.036 35.46 +C(-4) 4.211e-14 + CH4 4.211e-14 4.578e-14 -13.376 -13.339 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -8864,8 +8864,8 @@ O(0) 0.000e+00 S(-2) 6.601e-11 HS- 4.615e-11 3.038e-11 -10.336 -10.517 -0.182 21.14 H2S 1.986e-11 2.159e-11 -10.702 -10.666 0.036 36.27 - S-2 1.873e-16 4.514e-17 -15.728 -16.345 -0.618 (0) - (H2S)2 2.259e-23 2.456e-23 -22.646 -22.610 0.036 30.09 + S-2 1.873e-16 4.515e-17 -15.727 -16.345 -0.618 (0) + (H2S)2 2.260e-23 2.457e-23 -22.646 -22.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -8940,7 +8940,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -9129,7 +9129,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -9607,30 +9607,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 9.073e-07 4.537e-07 + Hto 9.105e-07 4.553e-07 I 9.468e-07 4.734e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 8.312e-07 4.156e-07 + Nat 8.407e-07 4.204e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.684 Adjusted to redox equilibrium + pe = -2.663 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.566e-13 + Electrical balance (eq) = -2.214e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -9644,8 +9644,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.614e-15 - CH4 3.614e-15 3.929e-15 -14.442 -14.406 0.036 35.46 +C(-4) 2.429e-15 + CH4 2.429e-15 2.641e-15 -14.615 -14.578 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -9669,10 +9669,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 2.012e-12 - H2 1.006e-12 1.094e-12 -11.997 -11.961 0.036 28.61 -Hto 9.073e-07 - Hto 9.073e-07 9.073e-07 -6.042 -6.042 0.000 (0) +H(0) 1.822e-12 + H2 9.109e-13 9.904e-13 -12.041 -12.004 0.036 28.61 +Hto 9.105e-07 + Hto 9.105e-07 9.105e-07 -6.041 -6.041 0.000 (0) I 9.468e-07 I- 9.468e-07 9.468e-07 -6.024 -6.024 -0.000 (0) K 1.540e-03 @@ -9690,15 +9690,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 8.312e-07 - Nat+ 8.312e-07 8.312e-07 -6.080 -6.080 -0.000 (0) +Nat 8.407e-07 + Nat+ 8.407e-07 8.407e-07 -6.075 -6.075 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.503 -68.467 0.036 30.40 -S(-2) 5.666e-12 - HS- 3.961e-12 2.608e-12 -11.402 -11.584 -0.182 21.14 - H2S 1.705e-12 1.853e-12 -11.768 -11.732 0.036 36.27 - S-2 1.607e-17 3.875e-18 -16.794 -17.412 -0.618 (0) - (H2S)2 1.665e-25 1.810e-25 -24.779 -24.742 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.417 -68.380 0.036 30.40 +S(-2) 3.809e-12 + HS- 2.663e-12 1.753e-12 -11.575 -11.756 -0.182 21.14 + H2S 1.146e-12 1.246e-12 -11.941 -11.905 0.036 36.27 + S-2 1.081e-17 2.605e-18 -16.966 -17.584 -0.618 (0) + (H2S)2 7.522e-26 8.178e-26 -25.124 -25.087 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -9725,21 +9725,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -11.60 -14.41 -2.80 CH4 + CH4(g) -11.78 -14.58 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.86 -11.96 -3.10 H2 + H2(g) -8.90 -12.00 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -10.74 -18.67 -7.94 H2S + H2S(g) -10.91 -18.85 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.57 -68.47 -2.89 O2 + O2(g) -65.49 -68.38 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.80 -2.92 4.88 S + Sulfur -7.93 -3.05 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -9773,7 +9773,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -9784,12 +9784,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 2.2516e-08 - I 2.5957e-20 + Hto 2.1763e-08 + I 2.5954e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.9065e-08 + Nat 6.5248e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -9808,23 +9808,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.908e-07 2.248e-08 + Hto 1.844e-07 2.173e-08 I 2.203e-07 2.595e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.175e-07 1.385e-08 + Nat 1.110e-07 1.308e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.864 Adjusted to redox equilibrium + pe = -2.865 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -9845,8 +9845,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.958e-14 - CH4 9.958e-14 1.083e-13 -13.002 -12.966 0.036 35.46 +C(-4) 9.973e-14 + CH4 9.973e-14 1.084e-13 -13.001 -12.965 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -9870,10 +9870,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.610e-12 - H2 2.305e-12 2.506e-12 -11.637 -11.601 0.036 28.61 -Hto 1.908e-07 - Hto 1.908e-07 1.908e-07 -6.719 -6.719 0.000 (0) +H(0) 4.611e-12 + H2 2.306e-12 2.507e-12 -11.637 -11.601 0.036 28.61 +Hto 1.844e-07 + Hto 1.844e-07 1.844e-07 -6.734 -6.734 0.000 (0) I 2.203e-07 I- 2.203e-07 2.203e-07 -6.657 -6.657 -0.000 (0) K 1.540e-03 @@ -9891,15 +9891,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 1.175e-07 - Nat+ 1.175e-07 1.175e-07 -6.930 -6.930 -0.000 (0) +Nat 1.110e-07 + Nat+ 1.110e-07 1.110e-07 -6.955 -6.955 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.223 -69.187 0.036 30.40 -S(-2) 1.561e-10 - HS- 1.091e-10 7.185e-11 -9.962 -10.144 -0.182 21.14 - H2S 4.697e-11 5.106e-11 -10.328 -10.292 0.036 36.27 - S-2 4.429e-16 1.068e-16 -15.354 -15.972 -0.618 (0) - (H2S)2 1.264e-22 1.374e-22 -21.898 -21.862 0.036 30.09 +S(-2) 1.563e-10 + HS- 1.093e-10 7.196e-11 -9.961 -10.143 -0.182 21.14 + H2S 4.704e-11 5.114e-11 -10.328 -10.291 0.036 36.27 + S-2 4.436e-16 1.069e-16 -15.353 -15.971 -0.618 (0) + (H2S)2 1.268e-22 1.378e-22 -21.897 -21.861 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -9926,7 +9926,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.16 -12.97 -2.80 CH4 + CH4(g) -10.16 -12.96 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -9964,7 +9964,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - 1.409e-09 Surface + diffuse layer charge, eq + 1.412e-09 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -9974,7 +9974,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -9985,12 +9985,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 6.7062e-10 - I 6.5937e-22 + Hto 6.2097e-10 + I 6.5916e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2373e-09 + Nat 1.0903e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -10009,12 +10009,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.683e-09 6.695e-10 + Hto 5.262e-09 6.200e-10 I 5.595e-09 6.592e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.105e-09 2.480e-10 + Nat 1.855e-09 2.186e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -10032,7 +10032,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.192e-09 + Electrical balance (eq) = 3.197e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (18 overall) Total H = 1.307864e+01 @@ -10046,8 +10046,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.937e-14 - CH4 7.937e-14 8.629e-14 -13.100 -13.064 0.036 35.46 +C(-4) 7.966e-14 + CH4 7.966e-14 8.661e-14 -13.099 -13.062 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -10071,10 +10071,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.356e-12 - H2 2.178e-12 2.368e-12 -11.662 -11.626 0.036 28.61 -Hto 5.683e-09 - Hto 5.683e-09 5.683e-09 -8.245 -8.245 0.000 (0) +H(0) 4.360e-12 + H2 2.180e-12 2.370e-12 -11.662 -11.625 0.036 28.61 +Hto 5.262e-09 + Hto 5.262e-09 5.262e-09 -8.279 -8.279 0.000 (0) I 5.595e-09 I- 5.595e-09 5.595e-09 -8.252 -8.252 -0.000 (0) K 1.540e-03 @@ -10092,15 +10092,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.105e-09 - Nat+ 2.105e-09 2.105e-09 -8.677 -8.677 -0.000 (0) +Nat 1.855e-09 + Nat+ 1.855e-09 1.855e-09 -8.732 -8.732 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.174 -69.137 0.036 30.40 -S(-2) 1.244e-10 - HS- 8.699e-11 5.727e-11 -10.061 -10.242 -0.182 21.14 - H2S 3.743e-11 4.070e-11 -10.427 -10.390 0.036 36.27 - S-2 3.530e-16 8.509e-17 -15.452 -16.070 -0.618 (0) - (H2S)2 8.028e-23 8.728e-23 -22.095 -22.059 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.175 -69.138 0.036 30.40 +S(-2) 1.249e-10 + HS- 8.732e-11 5.748e-11 -10.059 -10.240 -0.182 21.14 + H2S 3.757e-11 4.085e-11 -10.425 -10.389 0.036 36.27 + S-2 3.543e-16 8.541e-17 -15.451 -16.068 -0.618 (0) + (H2S)2 8.088e-23 8.794e-23 -22.092 -22.056 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -10134,7 +10134,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.52 -11.63 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.40 -17.33 -7.94 H2S + H2S(g) -9.39 -17.33 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -10175,7 +10175,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -10364,7 +10364,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -10543,7 +10543,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -8.675e-11 Surface + diffuse layer charge, eq + -8.674e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -10553,7 +10553,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -10742,7 +10742,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -10931,7 +10931,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -11110,7 +11110,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.674e-11 Surface + diffuse layer charge, eq + -8.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -11120,7 +11120,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -11309,7 +11309,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -11488,7 +11488,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -8.675e-11 Surface + diffuse layer charge, eq + -8.674e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -11498,7 +11498,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -11687,7 +11687,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -11866,7 +11866,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -8.675e-11 Surface + diffuse layer charge, eq + -8.674e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -11876,7 +11876,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -12065,7 +12065,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -12244,7 +12244,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -8.675e-11 Surface + diffuse layer charge, eq + -8.674e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -12254,7 +12254,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -12433,7 +12433,7 @@ Kinetics 18. Diffuse Double Layer Surface-Complexation Model Su - -8.674e-11 Surface + diffuse layer charge, eq + -8.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -12443,7 +12443,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -12622,7 +12622,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -8.674e-11 Surface + diffuse layer charge, eq + -8.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -12632,7 +12632,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -12811,7 +12811,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -8.674e-11 Surface + diffuse layer charge, eq + -8.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -12821,7 +12821,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -13010,7 +13010,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -13189,7 +13189,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -8.674e-11 Surface + diffuse layer charge, eq + -8.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -13199,7 +13199,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -13378,7 +13378,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -8.675e-11 Surface + diffuse layer charge, eq + -8.674e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -13388,7 +13388,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -13866,30 +13866,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 8.713e-07 4.356e-07 + Hto 8.754e-07 4.377e-07 I 9.259e-07 4.629e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 7.659e-07 3.829e-07 + Nat 7.780e-07 3.890e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.712 Adjusted to redox equilibrium + pe = -2.700 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.233e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -13903,8 +13903,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.997e-15 - CH4 5.997e-15 6.520e-15 -14.222 -14.186 0.036 35.46 +C(-4) 4.808e-15 + CH4 4.808e-15 5.228e-15 -14.318 -14.282 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -13928,10 +13928,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 2.284e-12 - H2 1.142e-12 1.241e-12 -11.942 -11.906 0.036 28.61 -Hto 8.713e-07 - Hto 8.713e-07 8.713e-07 -6.060 -6.060 0.000 (0) +H(0) 2.161e-12 + H2 1.080e-12 1.175e-12 -11.966 -11.930 0.036 28.61 +Hto 8.754e-07 + Hto 8.754e-07 8.754e-07 -6.058 -6.058 0.000 (0) I 9.259e-07 I- 9.259e-07 9.259e-07 -6.033 -6.033 -0.000 (0) K 1.540e-03 @@ -13949,15 +13949,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 7.659e-07 - Nat+ 7.659e-07 7.659e-07 -6.116 -6.116 -0.000 (0) +Nat 7.780e-07 + Nat+ 7.780e-07 7.780e-07 -6.109 -6.109 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.613 -68.577 0.036 30.40 -S(-2) 9.401e-12 - HS- 6.573e-12 4.327e-12 -11.182 -11.364 -0.182 21.14 - H2S 2.828e-12 3.075e-12 -11.548 -11.512 0.036 36.27 - S-2 2.667e-17 6.429e-18 -16.574 -17.192 -0.618 (0) - (H2S)2 4.583e-25 4.983e-25 -24.339 -24.303 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.565 -68.529 0.036 30.40 +S(-2) 7.538e-12 + HS- 5.270e-12 3.469e-12 -11.278 -11.460 -0.182 21.14 + H2S 2.268e-12 2.466e-12 -11.644 -11.608 0.036 36.27 + S-2 2.139e-17 5.155e-18 -16.670 -17.288 -0.618 (0) + (H2S)2 2.947e-25 3.204e-25 -24.531 -24.494 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -13984,21 +13984,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -11.38 -14.19 -2.80 CH4 + CH4(g) -11.48 -14.28 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.81 -11.91 -3.10 H2 + H2(g) -8.83 -11.93 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -10.52 -18.45 -7.94 H2S + H2S(g) -10.61 -18.55 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.68 -68.58 -2.89 O2 + O2(g) -65.64 -68.53 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.64 -2.76 4.88 S + Sulfur -7.71 -2.83 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -14022,7 +14022,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.039e-13 Surface + diffuse layer charge, eq + -1.046e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -14032,7 +14032,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -14043,12 +14043,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 3.0366e-08 - I 3.5251e-20 + Hto 2.9468e-08 + I 3.5258e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.4080e-08 + Nat 8.9415e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -14067,12 +14067,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.573e-07 3.032e-08 + Hto 2.497e-07 2.942e-08 I 2.992e-07 3.525e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.601e-07 1.886e-08 + Nat 1.521e-07 1.792e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -14083,7 +14083,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -14104,8 +14104,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.161e-13 - CH4 1.161e-13 1.262e-13 -12.935 -12.899 0.036 35.46 +C(-4) 1.163e-13 + CH4 1.163e-13 1.264e-13 -12.935 -12.898 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -14129,10 +14129,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.790e-12 - H2 2.395e-12 2.604e-12 -11.621 -11.584 0.036 28.61 -Hto 2.573e-07 - Hto 2.573e-07 2.573e-07 -6.589 -6.589 0.000 (0) +H(0) 4.792e-12 + H2 2.396e-12 2.605e-12 -11.621 -11.584 0.036 28.61 +Hto 2.497e-07 + Hto 2.497e-07 2.497e-07 -6.603 -6.603 0.000 (0) I 2.992e-07 I- 2.992e-07 2.992e-07 -6.524 -6.524 -0.000 (0) K 1.540e-03 @@ -14150,15 +14150,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 1.601e-07 - Nat+ 1.601e-07 1.601e-07 -6.796 -6.796 -0.000 (0) +Nat 1.521e-07 + Nat+ 1.521e-07 1.521e-07 -6.818 -6.818 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.256 -69.220 0.036 30.40 -S(-2) 1.819e-10 - HS- 1.272e-10 8.374e-11 -9.896 -10.077 -0.182 21.14 - H2S 5.474e-11 5.951e-11 -10.262 -10.225 0.036 36.27 - S-2 5.162e-16 1.244e-16 -15.287 -15.905 -0.618 (0) - (H2S)2 1.717e-22 1.866e-22 -21.765 -21.729 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.257 -69.220 0.036 30.40 +S(-2) 1.823e-10 + HS- 1.274e-10 8.389e-11 -9.895 -10.076 -0.182 21.14 + H2S 5.484e-11 5.962e-11 -10.261 -10.225 0.036 36.27 + S-2 5.171e-16 1.247e-16 -15.286 -15.904 -0.618 (0) + (H2S)2 1.723e-22 1.873e-22 -21.764 -21.727 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -14223,7 +14223,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - 1.275e-09 Surface + diffuse layer charge, eq + 1.282e-09 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -14233,7 +14233,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -14244,12 +14244,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 1.7994e-09 + Hto 1.6736e-09 I 1.7877e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3978e-09 + Nat 3.0111e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -14268,19 +14268,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.525e-08 1.797e-09 + Hto 1.418e-08 1.671e-09 I 1.517e-08 1.787e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.782e-09 6.811e-10 + Nat 5.124e-09 6.036e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.874 Adjusted to redox equilibrium + pe = -2.853 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -14291,7 +14291,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.614e-09 + Electrical balance (eq) = 3.271e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (18 overall) Total H = 1.307864e+01 @@ -14305,8 +14305,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.184e-13 - CH4 1.184e-13 1.287e-13 -12.927 -12.890 0.036 35.46 +C(-4) 8.134e-14 + CH4 8.134e-14 8.843e-14 -13.090 -13.053 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -14330,10 +14330,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.814e-12 - H2 2.407e-12 2.617e-12 -11.619 -11.582 0.036 28.61 -Hto 1.525e-08 - Hto 1.525e-08 1.525e-08 -7.817 -7.817 0.000 (0) +H(0) 4.382e-12 + H2 2.191e-12 2.382e-12 -11.659 -11.623 0.036 28.61 +Hto 1.418e-08 + Hto 1.418e-08 1.418e-08 -7.848 -7.848 0.000 (0) I 1.517e-08 I- 1.517e-08 1.517e-08 -7.819 -7.819 -0.000 (0) K 1.540e-03 @@ -14351,15 +14351,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 5.782e-09 - Nat+ 5.782e-09 5.782e-09 -8.238 -8.238 -0.000 (0) +Nat 5.124e-09 + Nat+ 5.124e-09 5.124e-09 -8.290 -8.290 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.261 -69.224 0.036 30.40 -S(-2) 1.856e-10 - HS- 1.298e-10 8.542e-11 -9.887 -10.068 -0.182 21.14 - H2S 5.584e-11 6.071e-11 -10.253 -10.217 0.036 36.27 - S-2 5.266e-16 1.269e-16 -15.279 -15.896 -0.618 (0) - (H2S)2 1.786e-22 1.942e-22 -21.748 -21.712 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.179 -69.143 0.036 30.40 +S(-2) 1.275e-10 + HS- 8.915e-11 5.869e-11 -10.050 -10.231 -0.182 21.14 + H2S 3.836e-11 4.171e-11 -10.416 -10.380 0.036 36.27 + S-2 3.618e-16 8.720e-17 -15.442 -16.059 -0.618 (0) + (H2S)2 8.431e-23 9.166e-23 -22.074 -22.038 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -14386,21 +14386,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.09 -12.89 -2.80 CH4 + CH4(g) -10.25 -13.05 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.48 -11.58 -3.10 H2 + H2(g) -8.52 -11.62 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.22 -17.16 -7.94 H2S + H2S(g) -9.39 -17.32 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.33 -69.22 -2.89 O2 + O2(g) -66.25 -69.14 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.67 -1.78 4.88 S + Sulfur -6.79 -1.91 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -14424,7 +14424,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.694e-11 Surface + diffuse layer charge, eq + -8.692e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -14434,7 +14434,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -14445,12 +14445,12 @@ Su Ca 7.1884e-02 Cl 4.6662e-10 H 1.2947e-04 - Hto 3.5749e-11 - I 3.0192e-23 + Hto 3.1853e-11 + I 3.0186e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0143e-11 + Nat 3.3206e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -14469,12 +14469,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.030e-10 3.569e-11 + Hto 2.699e-10 3.180e-11 I 2.563e-10 3.019e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.831e-11 8.047e-12 + Nat 5.650e-11 6.657e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -14485,7 +14485,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -14533,8 +14533,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) H(0) 9.855e-12 H2 4.927e-12 5.357e-12 -11.307 -11.271 0.036 28.61 -Hto 3.030e-10 - Hto 3.030e-10 3.030e-10 -9.519 -9.519 0.000 (0) +Hto 2.699e-10 + Hto 2.699e-10 2.699e-10 -9.569 -9.569 0.000 (0) I 2.563e-10 I- 2.563e-10 2.563e-10 -9.591 -9.591 -0.000 (0) K 1.540e-03 @@ -14552,8 +14552,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 6.831e-11 - Nat+ 6.831e-11 6.831e-11 -10.166 -10.166 -0.000 (0) +Nat 5.650e-11 + Nat+ 5.650e-11 5.650e-11 -10.248 -10.248 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.883 -69.847 0.036 30.40 S(-2) 3.260e-09 @@ -14625,7 +14625,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -8.703e-11 Surface + diffuse layer charge, eq + -8.704e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -14635,7 +14635,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -14680,7 +14680,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -14824,7 +14824,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -14869,7 +14869,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15013,7 +15013,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -15058,7 +15058,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15127,7 +15127,7 @@ S(-2) 3.260e-09 HS- 2.279e-09 1.500e-09 -8.642 -8.824 -0.182 21.14 H2S 9.807e-10 1.066e-09 -9.008 -8.972 0.036 36.27 S-2 9.250e-15 2.230e-15 -14.034 -14.652 -0.618 (0) - (H2S)2 5.510e-20 5.991e-20 -19.259 -19.222 0.036 30.09 + (H2S)2 5.510e-20 5.991e-20 -19.259 -19.223 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -15202,7 +15202,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -15247,7 +15247,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15381,7 +15381,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.703e-11 Surface + diffuse layer charge, eq + -8.704e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -15391,7 +15391,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -15436,7 +15436,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15505,7 +15505,7 @@ S(-2) 3.260e-09 HS- 2.279e-09 1.500e-09 -8.642 -8.824 -0.182 21.14 H2S 9.807e-10 1.066e-09 -9.008 -8.972 0.036 36.27 S-2 9.250e-15 2.230e-15 -14.034 -14.652 -0.618 (0) - (H2S)2 5.510e-20 5.991e-20 -19.259 -19.223 0.036 30.09 + (H2S)2 5.510e-20 5.991e-20 -19.259 -19.222 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -15580,7 +15580,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -15625,7 +15625,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15769,7 +15769,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -15814,7 +15814,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -15958,7 +15958,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16003,7 +16003,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -16147,7 +16147,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16192,7 +16192,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -16336,7 +16336,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16381,7 +16381,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -16450,7 +16450,7 @@ S(-2) 3.260e-09 HS- 2.279e-09 1.500e-09 -8.642 -8.824 -0.182 21.14 H2S 9.807e-10 1.066e-09 -9.008 -8.972 0.036 36.27 S-2 9.250e-15 2.230e-15 -14.034 -14.652 -0.618 (0) - (H2S)2 5.510e-20 5.991e-20 -19.259 -19.223 0.036 30.09 + (H2S)2 5.510e-20 5.991e-20 -19.259 -19.222 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -16525,7 +16525,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16570,7 +16570,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -16714,7 +16714,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16759,7 +16759,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -16903,7 +16903,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -16948,7 +16948,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -17017,7 +17017,7 @@ S(-2) 3.260e-09 HS- 2.279e-09 1.500e-09 -8.642 -8.824 -0.182 21.14 H2S 9.807e-10 1.066e-09 -9.008 -8.972 0.036 36.27 S-2 9.250e-15 2.230e-15 -14.034 -14.652 -0.618 (0) - (H2S)2 5.510e-20 5.991e-20 -19.259 -19.223 0.036 30.09 + (H2S)2 5.510e-20 5.991e-20 -19.259 -19.222 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -17092,7 +17092,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -17137,7 +17137,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -17281,7 +17281,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -17326,7 +17326,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -17470,7 +17470,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -17515,7 +17515,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -17659,7 +17659,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -17704,7 +17704,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -18137,30 +18137,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 8.404e-07 4.202e-07 + Hto 8.451e-07 4.226e-07 I 9.078e-07 4.539e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 7.104e-07 3.552e-07 + Nat 7.242e-07 3.621e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.732 Adjusted to redox equilibrium + pe = -2.724 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.233e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -18174,8 +18174,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.719e-15 - CH4 8.719e-15 9.480e-15 -14.060 -14.023 0.036 35.46 +C(-4) 7.530e-15 + CH4 7.530e-15 8.187e-15 -14.123 -14.087 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -18199,10 +18199,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 2.508e-12 - H2 1.254e-12 1.363e-12 -11.902 -11.865 0.036 28.61 -Hto 8.404e-07 - Hto 8.404e-07 8.404e-07 -6.075 -6.075 0.000 (0) +H(0) 2.417e-12 + H2 1.209e-12 1.314e-12 -11.918 -11.881 0.036 28.61 +Hto 8.451e-07 + Hto 8.451e-07 8.451e-07 -6.073 -6.073 0.000 (0) I 9.078e-07 I- 9.078e-07 9.078e-07 -6.042 -6.042 -0.000 (0) K 1.540e-03 @@ -18220,15 +18220,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 7.104e-07 - Nat+ 7.104e-07 7.104e-07 -6.148 -6.148 -0.000 (0) +Nat 7.242e-07 + Nat+ 7.242e-07 7.242e-07 -6.140 -6.140 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.694 -68.658 0.036 30.40 -S(-2) 1.367e-11 - HS- 9.557e-12 6.291e-12 -11.020 -11.201 -0.182 21.14 - H2S 4.112e-12 4.471e-12 -11.386 -11.350 0.036 36.27 - S-2 3.878e-17 9.348e-18 -16.411 -17.029 -0.618 (0) - (H2S)2 9.689e-25 1.053e-24 -24.014 -23.977 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.662 -68.626 0.036 30.40 +S(-2) 1.180e-11 + HS- 8.253e-12 5.433e-12 -11.083 -11.265 -0.182 21.14 + H2S 3.551e-12 3.861e-12 -11.450 -11.413 0.036 36.27 + S-2 3.349e-17 8.073e-18 -16.475 -17.093 -0.618 (0) + (H2S)2 7.226e-25 7.856e-25 -24.141 -24.105 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -18255,21 +18255,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -11.22 -14.02 -2.80 CH4 + CH4(g) -11.29 -14.09 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.76 -11.87 -3.10 H2 + H2(g) -8.78 -11.88 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -10.36 -18.29 -7.94 H2S + H2S(g) -10.42 -18.35 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.77 -68.66 -2.89 O2 + O2(g) -65.73 -68.63 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.52 -2.63 4.88 S + Sulfur -7.56 -2.68 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -18293,7 +18293,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.092e-13 Surface + diffuse layer charge, eq + -1.083e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -18303,7 +18303,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -18314,12 +18314,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 3.6567e-08 - I 4.2742e-20 + Hto 3.5617e-08 + I 4.2735e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1424e-07 + Nat 1.0919e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -18338,12 +18338,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.099e-07 3.651e-08 + Hto 3.018e-07 3.556e-08 I 3.628e-07 4.274e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.944e-07 2.290e-08 + Nat 1.858e-07 2.189e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -18354,7 +18354,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -18375,8 +18375,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.368e-13 - CH4 1.368e-13 1.487e-13 -12.864 -12.828 0.036 35.46 +C(-4) 1.371e-13 + CH4 1.371e-13 1.490e-13 -12.863 -12.827 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -18400,10 +18400,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.991e-12 - H2 2.495e-12 2.713e-12 -11.603 -11.567 0.036 28.61 -Hto 3.099e-07 - Hto 3.099e-07 3.099e-07 -6.509 -6.509 0.000 (0) +H(0) 4.993e-12 + H2 2.497e-12 2.714e-12 -11.603 -11.566 0.036 28.61 +Hto 3.018e-07 + Hto 3.018e-07 3.018e-07 -6.520 -6.520 0.000 (0) I 3.628e-07 I- 3.628e-07 3.628e-07 -6.440 -6.440 -0.000 (0) K 1.540e-03 @@ -18421,15 +18421,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 1.944e-07 - Nat+ 1.944e-07 1.944e-07 -6.711 -6.711 -0.000 (0) +Nat 1.858e-07 + Nat+ 1.858e-07 1.858e-07 -6.731 -6.731 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.292 -69.256 0.036 30.40 -S(-2) 2.145e-10 - HS- 1.499e-10 9.870e-11 -9.824 -10.006 -0.182 21.14 - H2S 6.452e-11 7.015e-11 -10.190 -10.154 0.036 36.27 - S-2 6.084e-16 1.467e-16 -15.216 -15.834 -0.618 (0) - (H2S)2 2.385e-22 2.593e-22 -21.623 -21.586 0.036 30.09 +S(-2) 2.149e-10 + HS- 1.502e-10 9.891e-11 -9.823 -10.005 -0.182 21.14 + H2S 6.465e-11 7.029e-11 -10.189 -10.153 0.036 36.27 + S-2 6.097e-16 1.470e-16 -15.215 -15.833 -0.618 (0) + (H2S)2 2.395e-22 2.604e-22 -21.621 -21.584 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -18456,14 +18456,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.03 -12.83 -2.80 CH4 + CH4(g) -10.02 -12.83 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.47 -11.57 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.16 -17.10 -7.94 H2S + H2S(g) -9.16 -17.09 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -18494,7 +18494,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - 2.925e-13 Surface + diffuse layer charge, eq + 8.135e-10 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -18504,7 +18504,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92733 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -18515,12 +18515,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 3.2282e-09 - I 3.2401e-21 + Hto 3.0151e-09 + I 3.2397e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2310e-09 + Nat 5.5520e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -18539,19 +18539,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.736e-08 3.223e-09 + Hto 2.555e-08 3.010e-09 I 2.750e-08 3.240e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.060e-08 1.249e-09 + Nat 9.447e-09 1.113e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.911 Adjusted to redox equilibrium + pe = -2.890 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -18562,9 +18562,9 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.009e-09 + Electrical balance (eq) = 4.670e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 - Iterations = 0 (17 overall) + Iterations = 0 (18 overall) Total H = 1.307864e+01 Total O = 6.546049e+00 @@ -18576,8 +18576,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.360e-13 - CH4 2.360e-13 2.566e-13 -12.627 -12.591 0.036 35.46 +C(-4) 1.602e-13 + CH4 1.602e-13 1.742e-13 -12.795 -12.759 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -18601,10 +18601,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.720e-12 - H2 2.860e-12 3.109e-12 -11.544 -11.507 0.036 28.61 -Hto 2.736e-08 - Hto 2.736e-08 2.736e-08 -7.563 -7.563 0.000 (0) +H(0) 5.192e-12 + H2 2.596e-12 2.822e-12 -11.586 -11.549 0.036 28.61 +Hto 2.555e-08 + Hto 2.555e-08 2.555e-08 -7.593 -7.593 0.000 (0) I 2.750e-08 I- 2.750e-08 2.750e-08 -7.561 -7.561 -0.000 (0) K 1.540e-03 @@ -18622,15 +18622,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 1.060e-08 - Nat+ 1.060e-08 1.060e-08 -7.975 -7.975 -0.000 (0) +Nat 9.447e-09 + Nat+ 9.447e-09 9.447e-09 -8.025 -8.025 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.410 -69.374 0.036 30.40 -S(-2) 3.700e-10 - HS- 2.587e-10 1.703e-10 -9.587 -9.769 -0.182 21.14 - H2S 1.113e-10 1.210e-10 -9.953 -9.917 0.036 36.27 - S-2 1.050e-15 2.531e-16 -14.979 -15.597 -0.618 (0) - (H2S)2 7.100e-22 7.719e-22 -21.149 -21.112 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.326 -69.290 0.036 30.40 +S(-2) 2.512e-10 + HS- 1.756e-10 1.156e-10 -9.755 -9.937 -0.182 21.14 + H2S 7.558e-11 8.217e-11 -10.122 -10.085 0.036 36.27 + S-2 7.128e-16 1.718e-16 -15.147 -15.765 -0.618 (0) + (H2S)2 3.273e-22 3.558e-22 -21.485 -21.449 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -18657,21 +18657,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.79 -12.59 -2.80 CH4 + CH4(g) -9.96 -12.76 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.41 -11.51 -3.10 H2 + H2(g) -8.45 -11.55 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.92 -16.86 -7.94 H2S + H2S(g) -9.09 -17.03 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.48 -69.37 -2.89 O2 + O2(g) -66.40 -69.29 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.44 -1.56 4.88 S + Sulfur -6.57 -1.69 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -18695,7 +18695,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.719e-11 Surface + diffuse layer charge, eq + -8.718e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -18705,7 +18705,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -18716,12 +18716,12 @@ Su Ca 7.1884e-02 Cl 4.6660e-10 H 1.2947e-04 - Hto 1.2786e-10 + Hto 1.1443e-10 I 1.0929e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4778e-10 + Nat 1.2289e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -18740,12 +18740,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.084e-09 1.277e-10 + Hto 9.698e-10 1.142e-10 I 9.277e-10 1.093e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.515e-10 2.962e-11 + Nat 2.091e-10 2.464e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -18756,7 +18756,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -18777,8 +18777,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.055e-12 - CH4 3.055e-12 3.322e-12 -11.515 -11.479 0.036 35.46 +C(-4) 3.056e-12 + CH4 3.056e-12 3.323e-12 -11.515 -11.479 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -18804,8 +18804,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.085e-11 H2 5.425e-12 5.898e-12 -11.266 -11.229 0.036 28.61 -Hto 1.084e-09 - Hto 1.084e-09 1.084e-09 -8.965 -8.965 0.000 (0) +Hto 9.698e-10 + Hto 9.698e-10 9.698e-10 -9.013 -9.013 0.000 (0) I 9.277e-10 I- 9.277e-10 9.277e-10 -9.033 -9.033 -0.000 (0) K 1.540e-03 @@ -18823,15 +18823,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.515e-10 - Nat+ 2.515e-10 2.515e-10 -9.600 -9.600 -0.000 (0) +Nat 2.091e-10 + Nat+ 2.091e-10 2.091e-10 -9.680 -9.680 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.966 -69.930 0.036 30.40 -S(-2) 4.789e-09 - HS- 3.348e-09 2.204e-09 -8.475 -8.657 -0.182 21.14 - H2S 1.441e-09 1.566e-09 -8.841 -8.805 0.036 36.27 - S-2 1.359e-14 3.276e-15 -13.867 -14.485 -0.618 (0) - (H2S)2 1.189e-19 1.293e-19 -18.925 -18.888 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.967 -69.930 0.036 30.40 +S(-2) 4.791e-09 + HS- 3.349e-09 2.205e-09 -8.475 -8.657 -0.182 21.14 + H2S 1.441e-09 1.567e-09 -8.841 -8.805 0.036 36.27 + S-2 1.359e-14 3.277e-15 -13.867 -14.485 -0.618 (0) + (H2S)2 1.190e-19 1.294e-19 -18.925 -18.888 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -18906,7 +18906,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -18917,12 +18917,12 @@ Su Ca 7.1884e-02 Cl 4.6660e-10 H 1.2947e-04 - Hto 1.9057e-12 - I 1.3827e-24 + Hto 1.6339e-12 + I 1.3829e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3024e-12 + Nat 1.0114e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -18941,12 +18941,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.615e-11 1.903e-12 + Hto 1.385e-11 1.631e-12 I 1.174e-11 1.383e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.216e-12 2.611e-13 + Nat 1.721e-12 2.027e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -18957,7 +18957,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -19005,8 +19005,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.089e-11 H2 5.444e-12 5.919e-12 -11.264 -11.228 0.036 28.61 -Hto 1.615e-11 - Hto 1.615e-11 1.615e-11 -10.792 -10.792 0.000 (0) +Hto 1.385e-11 + Hto 1.385e-11 1.385e-11 -10.859 -10.859 0.000 (0) I 1.174e-11 I- 1.174e-11 1.174e-11 -10.930 -10.930 -0.000 (0) K 1.540e-03 @@ -19024,8 +19024,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.216e-12 - Nat+ 2.216e-12 2.216e-12 -11.654 -11.654 -0.000 (0) +Nat 1.721e-12 + Nat+ 1.721e-12 1.721e-12 -11.764 -11.764 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.970 -69.933 0.036 30.40 S(-2) 4.857e-09 @@ -19107,7 +19107,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -19152,7 +19152,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -19296,7 +19296,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -19341,7 +19341,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -19485,7 +19485,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -19530,7 +19530,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -19674,7 +19674,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -19719,7 +19719,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -19863,7 +19863,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -19908,7 +19908,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20052,7 +20052,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -20097,7 +20097,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20241,7 +20241,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -20286,7 +20286,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20430,7 +20430,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -20475,7 +20475,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20619,7 +20619,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -20664,7 +20664,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20808,7 +20808,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -20853,7 +20853,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -20997,7 +20997,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21042,7 +21042,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -21186,7 +21186,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21231,7 +21231,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -21375,7 +21375,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21420,7 +21420,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -21564,7 +21564,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21609,7 +21609,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -21753,7 +21753,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21798,7 +21798,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -21942,7 +21942,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -21987,7 +21987,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -22420,30 +22420,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 8.138e-07 4.069e-07 + Hto 8.188e-07 4.094e-07 I 8.921e-07 4.461e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 6.632e-07 3.316e-07 + Nat 6.779e-07 3.390e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.749 Adjusted to redox equilibrium + pe = -2.743 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.569e-13 + Electrical balance (eq) = -2.233e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -22457,8 +22457,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.188e-14 - CH4 1.188e-14 1.292e-14 -13.925 -13.889 0.036 35.46 +C(-4) 1.068e-14 + CH4 1.068e-14 1.161e-14 -13.971 -13.935 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -22482,10 +22482,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 2.709e-12 - H2 1.355e-12 1.473e-12 -11.868 -11.832 0.036 28.61 -Hto 8.138e-07 - Hto 8.138e-07 8.138e-07 -6.090 -6.090 0.000 (0) +H(0) 2.638e-12 + H2 1.319e-12 1.434e-12 -11.880 -11.843 0.036 28.61 +Hto 8.188e-07 + Hto 8.188e-07 8.188e-07 -6.087 -6.087 0.000 (0) I 8.921e-07 I- 8.921e-07 8.921e-07 -6.050 -6.050 -0.000 (0) K 1.540e-03 @@ -22503,15 +22503,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 6.632e-07 - Nat+ 6.632e-07 6.632e-07 -6.178 -6.178 -0.000 (0) +Nat 6.779e-07 + Nat+ 6.779e-07 6.779e-07 -6.169 -6.169 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.761 -68.725 0.036 30.40 -S(-2) 1.863e-11 - HS- 1.302e-11 8.573e-12 -10.885 -11.067 -0.182 21.14 - H2S 5.604e-12 6.093e-12 -11.252 -11.215 0.036 36.27 - S-2 5.285e-17 1.274e-17 -16.277 -16.895 -0.618 (0) - (H2S)2 1.799e-24 1.956e-24 -23.745 -23.709 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.738 -68.702 0.036 30.40 +S(-2) 1.674e-11 + HS- 1.170e-11 7.705e-12 -10.932 -11.113 -0.182 21.14 + H2S 5.037e-12 5.476e-12 -11.298 -11.262 0.036 36.27 + S-2 4.750e-17 1.145e-17 -16.323 -16.941 -0.618 (0) + (H2S)2 1.453e-24 1.580e-24 -23.838 -23.801 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -22538,21 +22538,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -11.09 -13.89 -2.80 CH4 + CH4(g) -11.13 -13.94 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.73 -11.83 -3.10 H2 + H2(g) -8.74 -11.84 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -10.22 -18.16 -7.94 H2S + H2S(g) -10.27 -18.20 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.83 -68.73 -2.89 O2 + O2(g) -65.81 -68.70 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.42 -2.53 4.88 S + Sulfur -7.45 -2.57 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -22576,7 +22576,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.139e-13 Surface + diffuse layer charge, eq + -1.121e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -22586,7 +22586,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -22597,12 +22597,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 4.1464e-08 + Hto 4.0522e-08 I 4.8777e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3041e-07 + Nat 1.2531e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -22621,23 +22621,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.514e-07 4.140e-08 + Hto 3.434e-07 4.046e-08 I 4.140e-07 4.877e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.219e-07 2.614e-08 + Nat 2.132e-07 2.512e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.892 Adjusted to redox equilibrium + pe = -2.891 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -22658,8 +22658,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.644e-13 - CH4 1.644e-13 1.787e-13 -12.784 -12.748 0.036 35.46 +C(-4) 1.631e-13 + CH4 1.631e-13 1.773e-13 -12.788 -12.751 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -22683,10 +22683,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.225e-12 - H2 2.613e-12 2.840e-12 -11.583 -11.547 0.036 28.61 -Hto 3.514e-07 - Hto 3.514e-07 3.514e-07 -6.454 -6.454 0.000 (0) +H(0) 5.215e-12 + H2 2.607e-12 2.835e-12 -11.584 -11.547 0.036 28.61 +Hto 3.434e-07 + Hto 3.434e-07 3.434e-07 -6.464 -6.464 0.000 (0) I 4.140e-07 I- 4.140e-07 4.140e-07 -6.383 -6.383 -0.000 (0) K 1.540e-03 @@ -22704,15 +22704,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.219e-07 - Nat+ 2.219e-07 2.219e-07 -6.654 -6.654 -0.000 (0) +Nat 2.132e-07 + Nat+ 2.132e-07 2.132e-07 -6.671 -6.671 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.332 -69.296 0.036 30.40 -S(-2) 2.577e-10 - HS- 1.802e-10 1.186e-10 -9.744 -9.926 -0.182 21.14 - H2S 7.753e-11 8.429e-11 -10.111 -10.074 0.036 36.27 - S-2 7.311e-16 1.762e-16 -15.136 -15.754 -0.618 (0) - (H2S)2 3.444e-22 3.744e-22 -21.463 -21.427 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.330 -69.294 0.036 30.40 +S(-2) 2.557e-10 + HS- 1.787e-10 1.177e-10 -9.748 -9.929 -0.182 21.14 + H2S 7.691e-11 8.362e-11 -10.114 -10.078 0.036 36.27 + S-2 7.253e-16 1.748e-16 -15.139 -15.757 -0.618 (0) + (H2S)2 3.389e-22 3.685e-22 -21.470 -21.434 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -22751,7 +22751,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.40 -69.30 -2.89 O2 + O2(g) -66.40 -69.29 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -6.56 -1.68 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -22777,7 +22777,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.237e-14 Surface + diffuse layer charge, eq + 1.226e-12 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -22787,7 +22787,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -22796,14 +22796,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6665e-10 + Cl 4.6666e-10 H 1.2947e-04 - Hto 4.8401e-09 + Hto 4.5387e-09 I 4.9052e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.5379e-09 + Nat 8.5430e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -22822,30 +22822,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.102e-08 4.832e-09 + Hto 3.846e-08 4.531e-09 I 4.164e-08 4.905e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.623e-08 1.912e-09 + Nat 1.454e-08 1.713e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.940 Adjusted to redox equilibrium + pe = -2.927 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.898e-09 + Electrical balance (eq) = 5.928e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (19 overall) Total H = 1.307864e+01 @@ -22859,12 +22859,12 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.033e-13 - CH4 4.033e-13 4.384e-13 -12.394 -12.358 0.036 35.46 +C(-4) 3.136e-13 + CH4 3.136e-13 3.410e-13 -12.504 -12.467 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 - NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 + NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 @@ -22884,10 +22884,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.539e-12 - H2 3.270e-12 3.555e-12 -11.485 -11.449 0.036 28.61 -Hto 4.102e-08 - Hto 4.102e-08 4.102e-08 -7.387 -7.387 0.000 (0) +H(0) 6.141e-12 + H2 3.070e-12 3.338e-12 -11.513 -11.476 0.036 28.61 +Hto 3.846e-08 + Hto 3.846e-08 3.846e-08 -7.415 -7.415 0.000 (0) I 4.164e-08 I- 4.164e-08 4.164e-08 -7.381 -7.381 -0.000 (0) K 1.540e-03 @@ -22904,16 +22904,16 @@ Mg 1.720e-02 Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 - NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.623e-08 - Nat+ 1.623e-08 1.623e-08 -7.790 -7.790 -0.000 (0) + NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 +Nat 1.454e-08 + Nat+ 1.454e-08 1.454e-08 -7.838 -7.838 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.527 -69.490 0.036 30.40 -S(-2) 6.322e-10 - HS- 4.420e-10 2.910e-10 -9.355 -9.536 -0.182 21.14 - H2S 1.902e-10 2.068e-10 -9.721 -9.684 0.036 36.27 - S-2 1.794e-15 4.324e-16 -14.746 -15.364 -0.618 (0) - (H2S)2 2.073e-21 2.253e-21 -20.683 -20.647 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.472 -69.436 0.036 30.40 +S(-2) 4.917e-10 + HS- 3.438e-10 2.263e-10 -9.464 -9.645 -0.182 21.14 + H2S 1.479e-10 1.608e-10 -9.830 -9.794 0.036 36.27 + S-2 1.395e-15 3.363e-16 -14.855 -15.473 -0.618 (0) + (H2S)2 1.254e-21 1.363e-21 -20.902 -20.866 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -22940,21 +22940,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.56 -12.36 -2.80 CH4 + CH4(g) -9.67 -12.47 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.35 -11.45 -3.10 H2 + H2(g) -8.38 -11.48 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.69 -16.63 -7.94 H2S + H2S(g) -8.80 -16.74 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.60 -69.49 -2.89 O2 + O2(g) -66.54 -69.44 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.27 -1.39 4.88 S + Sulfur -6.35 -1.47 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -22988,7 +22988,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -22999,12 +22999,12 @@ Su Ca 7.1884e-02 Cl 4.6659e-10 H 1.2947e-04 - Hto 2.8641e-10 + Hto 2.5744e-10 I 2.4774e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4039e-10 + Nat 2.8453e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -23023,12 +23023,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.427e-09 2.860e-10 + Hto 2.182e-09 2.570e-10 I 2.103e-09 2.477e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.792e-10 6.824e-11 + Nat 4.842e-10 5.704e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -23039,7 +23039,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -23060,8 +23060,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.993e-12 - CH4 3.993e-12 4.341e-12 -11.399 -11.362 0.036 35.46 +C(-4) 3.994e-12 + CH4 3.994e-12 4.342e-12 -11.399 -11.362 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -23087,8 +23087,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.160e-11 H2 5.800e-12 6.306e-12 -11.237 -11.200 0.036 28.61 -Hto 2.427e-09 - Hto 2.427e-09 2.427e-09 -8.615 -8.615 0.000 (0) +Hto 2.182e-09 + Hto 2.182e-09 2.182e-09 -8.661 -8.661 0.000 (0) I 2.103e-09 I- 2.103e-09 2.103e-09 -8.677 -8.677 -0.000 (0) K 1.540e-03 @@ -23106,15 +23106,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 5.792e-10 - Nat+ 5.792e-10 5.792e-10 -9.237 -9.237 -0.000 (0) +Nat 4.842e-10 + Nat+ 4.842e-10 4.842e-10 -9.315 -9.315 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.025 -69.988 0.036 30.40 -S(-2) 6.259e-09 - HS- 4.376e-09 2.881e-09 -8.359 -8.540 -0.182 21.14 - H2S 1.883e-09 2.047e-09 -8.725 -8.689 0.036 36.27 - S-2 1.776e-14 4.282e-15 -13.751 -14.368 -0.618 (0) - (H2S)2 2.031e-19 2.208e-19 -18.692 -18.656 0.036 30.09 +S(-2) 6.260e-09 + HS- 4.377e-09 2.881e-09 -8.359 -8.540 -0.182 21.14 + H2S 1.883e-09 2.048e-09 -8.725 -8.689 0.036 36.27 + S-2 1.777e-14 4.282e-15 -13.750 -14.368 -0.618 (0) + (H2S)2 2.032e-19 2.209e-19 -18.692 -18.656 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -23189,7 +23189,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -23200,12 +23200,12 @@ Su Ca 7.1884e-02 Cl 4.6659e-10 H 1.2947e-04 - Hto 8.5183e-12 + Hto 7.3363e-12 I 6.2620e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0125e-12 + Nat 4.6926e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -23224,12 +23224,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.219e-11 8.505e-12 + Hto 6.217e-11 7.324e-12 I 5.315e-11 6.261e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.023e-11 1.205e-12 + Nat 7.985e-12 9.407e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -23240,7 +23240,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -23288,8 +23288,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.169e-11 H2 5.844e-12 6.354e-12 -11.233 -11.197 0.036 28.61 -Hto 7.219e-11 - Hto 7.219e-11 7.219e-11 -10.142 -10.142 0.000 (0) +Hto 6.217e-11 + Hto 6.217e-11 6.217e-11 -10.206 -10.206 0.000 (0) I 5.315e-11 I- 5.315e-11 5.315e-11 -10.275 -10.275 -0.000 (0) K 1.540e-03 @@ -23307,15 +23307,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.023e-11 - Nat+ 1.023e-11 1.023e-11 -10.990 -10.990 -0.000 (0) +Nat 7.985e-12 + Nat+ 7.985e-12 7.985e-12 -11.098 -11.098 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.031 -69.995 0.036 30.40 S(-2) 6.452e-09 HS- 4.511e-09 2.970e-09 -8.346 -8.527 -0.182 21.14 H2S 1.941e-09 2.110e-09 -8.712 -8.676 0.036 36.27 - S-2 1.831e-14 4.413e-15 -13.737 -14.355 -0.618 (0) - (H2S)2 2.158e-19 2.346e-19 -18.666 -18.630 0.036 30.09 + S-2 1.831e-14 4.414e-15 -13.737 -14.355 -0.618 (0) + (H2S)2 2.158e-19 2.347e-19 -18.666 -18.630 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -23390,7 +23390,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -23401,12 +23401,12 @@ Su Ca 7.1884e-02 Cl 4.6659e-10 H 1.2947e-04 - Hto 1.0159e-13 - I 6.3323e-26 + Hto 8.3813e-14 + I 6.3336e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2257e-14 + Nat 3.0803e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -23425,12 +23425,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.609e-13 1.014e-13 + Hto 7.103e-13 8.368e-14 I 5.375e-13 6.333e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.190e-14 8.471e-15 + Nat 5.241e-14 6.175e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -23441,7 +23441,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -23489,8 +23489,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.169e-11 H2 5.845e-12 6.355e-12 -11.233 -11.197 0.036 28.61 -Hto 8.609e-13 - Hto 8.609e-13 8.609e-13 -12.065 -12.065 0.000 (0) +Hto 7.103e-13 + Hto 7.103e-13 7.103e-13 -12.149 -12.149 0.000 (0) I 5.375e-13 I- 5.375e-13 5.375e-13 -12.270 -12.270 -0.000 (0) K 1.540e-03 @@ -23508,8 +23508,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.190e-14 - Nat+ 7.190e-14 7.190e-14 -13.143 -13.143 -0.000 (0) +Nat 5.241e-14 + Nat+ 5.241e-14 5.241e-14 -13.281 -13.281 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.031 -69.995 0.036 30.40 S(-2) 6.455e-09 @@ -23591,7 +23591,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -23636,7 +23636,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -23780,7 +23780,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -23825,7 +23825,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -23969,7 +23969,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24014,7 +24014,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -24158,7 +24158,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24203,7 +24203,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -24347,7 +24347,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24392,7 +24392,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -24536,7 +24536,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24581,7 +24581,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -24725,7 +24725,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24770,7 +24770,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -24914,7 +24914,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -24959,7 +24959,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -25103,7 +25103,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -25148,7 +25148,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -25292,7 +25292,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -25337,7 +25337,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -25481,7 +25481,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -25526,7 +25526,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -25670,7 +25670,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -25715,7 +25715,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -25859,7 +25859,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -25904,7 +25904,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -26048,7 +26048,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -26093,7 +26093,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -26237,7 +26237,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -26282,7 +26282,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -26715,30 +26715,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.905e-07 3.953e-07 + Hto 7.958e-07 3.979e-07 I 8.784e-07 4.392e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 6.228e-07 3.114e-07 + Nat 6.380e-07 3.190e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.764 Adjusted to redox equilibrium + pe = -2.759 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.569e-13 + Electrical balance (eq) = -2.233e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -26752,8 +26752,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.563e-14 - CH4 1.563e-14 1.700e-14 -13.806 -13.770 0.036 35.46 +C(-4) 1.437e-14 + CH4 1.437e-14 1.562e-14 -13.843 -13.806 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -26777,10 +26777,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 2.902e-12 - H2 1.451e-12 1.577e-12 -11.838 -11.802 0.036 28.61 -Hto 7.905e-07 - Hto 7.905e-07 7.905e-07 -6.102 -6.102 0.000 (0) +H(0) 2.841e-12 + H2 1.421e-12 1.545e-12 -11.848 -11.811 0.036 28.61 +Hto 7.958e-07 + Hto 7.958e-07 7.958e-07 -6.099 -6.099 0.000 (0) I 8.784e-07 I- 8.784e-07 8.784e-07 -6.056 -6.056 -0.000 (0) K 1.540e-03 @@ -26798,15 +26798,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 6.228e-07 - Nat+ 6.228e-07 6.228e-07 -6.206 -6.206 -0.000 (0) +Nat 6.380e-07 + Nat+ 6.380e-07 6.380e-07 -6.195 -6.195 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.821 -68.785 0.036 30.40 -S(-2) 2.451e-11 - HS- 1.714e-11 1.128e-11 -10.766 -10.948 -0.182 21.14 - H2S 7.374e-12 8.017e-12 -11.132 -11.096 0.036 36.27 - S-2 6.954e-17 1.676e-17 -16.158 -16.776 -0.618 (0) - (H2S)2 3.115e-24 3.387e-24 -23.507 -23.470 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.803 -68.766 0.036 30.40 +S(-2) 2.253e-11 + HS- 1.575e-11 1.037e-11 -10.803 -10.984 -0.182 21.14 + H2S 6.778e-12 7.369e-12 -11.169 -11.133 0.036 36.27 + S-2 6.392e-17 1.541e-17 -16.194 -16.812 -0.618 (0) + (H2S)2 2.632e-24 2.862e-24 -23.580 -23.543 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -26833,21 +26833,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.97 -13.77 -2.80 CH4 + CH4(g) -11.00 -13.81 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.70 -11.80 -3.10 H2 + H2(g) -8.71 -11.81 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -10.10 -18.04 -7.94 H2S + H2S(g) -10.14 -18.07 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.89 -68.78 -2.89 O2 + O2(g) -65.87 -68.77 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.33 -2.44 4.88 S + Sulfur -7.35 -2.47 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -26871,7 +26871,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.189e-13 Surface + diffuse layer charge, eq + -1.186e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -26881,7 +26881,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -26892,12 +26892,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 4.5329e-08 - I 5.3641e-20 + Hto 4.4431e-08 + I 5.3654e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4332e-07 + Nat 1.3839e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -26916,23 +26916,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.841e-07 4.526e-08 + Hto 3.765e-07 4.436e-08 I 4.554e-07 5.364e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.439e-07 2.873e-08 + Nat 2.355e-07 2.774e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.903 Adjusted to redox equilibrium + pe = -2.902 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -26953,8 +26953,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.015e-13 - CH4 2.015e-13 2.190e-13 -12.696 -12.660 0.036 35.46 +C(-4) 1.983e-13 + CH4 1.983e-13 2.156e-13 -12.703 -12.666 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -26978,10 +26978,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.498e-12 - H2 2.749e-12 2.989e-12 -11.561 -11.525 0.036 28.61 -Hto 3.841e-07 - Hto 3.841e-07 3.841e-07 -6.416 -6.416 0.000 (0) +H(0) 5.476e-12 + H2 2.738e-12 2.977e-12 -11.563 -11.526 0.036 28.61 +Hto 3.765e-07 + Hto 3.765e-07 3.765e-07 -6.424 -6.424 0.000 (0) I 4.554e-07 I- 4.554e-07 4.554e-07 -6.342 -6.342 -0.000 (0) K 1.540e-03 @@ -26999,15 +26999,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.439e-07 - Nat+ 2.439e-07 2.439e-07 -6.613 -6.613 -0.000 (0) +Nat 2.355e-07 + Nat+ 2.355e-07 2.355e-07 -6.628 -6.628 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.376 -69.340 0.036 30.40 -S(-2) 3.158e-10 - HS- 2.208e-10 1.454e-10 -9.656 -9.838 -0.182 21.14 - H2S 9.501e-11 1.033e-10 -10.022 -9.986 0.036 36.27 - S-2 8.960e-16 2.160e-16 -15.048 -15.666 -0.618 (0) - (H2S)2 5.172e-22 5.623e-22 -21.286 -21.250 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.373 -69.336 0.036 30.40 +S(-2) 3.108e-10 + HS- 2.173e-10 1.431e-10 -9.663 -9.844 -0.182 21.14 + H2S 9.352e-11 1.017e-10 -10.029 -9.993 0.036 36.27 + S-2 8.819e-16 2.126e-16 -15.055 -15.672 -0.618 (0) + (H2S)2 5.011e-22 5.448e-22 -21.300 -21.264 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -27034,21 +27034,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.86 -12.66 -2.80 CH4 + CH4(g) -9.86 -12.67 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.42 -11.52 -3.10 H2 + H2(g) -8.43 -11.53 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.99 -16.93 -7.94 H2S + H2S(g) -9.00 -16.93 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.45 -69.34 -2.89 O2 + O2(g) -66.44 -69.34 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.49 -1.61 4.88 S + Sulfur -6.50 -1.62 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -27072,7 +27072,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.792e-11 Surface + diffuse layer charge, eq + -8.791e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -27082,7 +27082,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -27093,12 +27093,12 @@ Su Ca 7.1884e-02 Cl 4.6665e-10 H 1.2947e-04 - Hto 6.5497e-09 + Hto 6.1648e-09 I 6.7018e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3161e-08 + Nat 1.1848e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -27117,30 +27117,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.551e-08 6.539e-09 + Hto 5.224e-08 6.155e-09 I 5.688e-08 6.701e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.240e-08 2.638e-09 + Nat 2.016e-08 2.375e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.954 Adjusted to redox equilibrium + pe = -2.940 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.964e-09 + Electrical balance (eq) = 5.931e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -27154,8 +27154,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.210e-13 - CH4 5.210e-13 5.664e-13 -12.283 -12.247 0.036 35.46 +C(-4) 4.029e-13 + CH4 4.029e-13 4.380e-13 -12.395 -12.359 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -27179,10 +27179,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.972e-12 - H2 3.486e-12 3.790e-12 -11.458 -11.421 0.036 28.61 -Hto 5.551e-08 - Hto 5.551e-08 5.551e-08 -7.256 -7.256 0.000 (0) +H(0) 6.538e-12 + H2 3.269e-12 3.554e-12 -11.486 -11.449 0.036 28.61 +Hto 5.224e-08 + Hto 5.224e-08 5.224e-08 -7.282 -7.282 0.000 (0) I 5.688e-08 I- 5.688e-08 5.688e-08 -7.245 -7.245 -0.000 (0) K 1.540e-03 @@ -27200,15 +27200,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.240e-08 - Nat+ 2.240e-08 2.240e-08 -7.650 -7.650 -0.000 (0) +Nat 2.016e-08 + Nat+ 2.016e-08 2.016e-08 -7.696 -7.696 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.582 -69.546 0.036 30.40 -S(-2) 8.167e-10 - HS- 5.710e-10 3.759e-10 -9.243 -9.425 -0.182 21.14 - H2S 2.457e-10 2.671e-10 -9.610 -9.573 0.036 36.27 - S-2 2.317e-15 5.586e-16 -14.635 -15.253 -0.618 (0) - (H2S)2 3.459e-21 3.761e-21 -20.461 -20.425 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.527 -69.490 0.036 30.40 +S(-2) 6.316e-10 + HS- 4.416e-10 2.907e-10 -9.355 -9.537 -0.182 21.14 + H2S 1.900e-10 2.066e-10 -9.721 -9.685 0.036 36.27 + S-2 1.792e-15 4.319e-16 -14.747 -15.365 -0.618 (0) + (H2S)2 2.068e-21 2.249e-21 -20.684 -20.648 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -27235,21 +27235,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.44 -12.25 -2.80 CH4 + CH4(g) -9.56 -12.36 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.32 -11.42 -3.10 H2 + H2(g) -8.35 -11.45 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.58 -16.51 -7.94 H2S + H2S(g) -8.69 -16.63 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.65 -69.55 -2.89 O2 + O2(g) -66.60 -69.49 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.18 -1.30 4.88 S + Sulfur -6.27 -1.39 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -27283,7 +27283,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -27294,12 +27294,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2948e-04 - Hto 5.1434e-10 - I 4.4993e-22 + Hto 4.6422e-10 + I 4.4999e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2796e-10 + Nat 5.2754e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -27318,12 +27318,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.359e-09 5.135e-10 + Hto 3.934e-09 4.635e-10 I 3.819e-09 4.500e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.069e-09 1.259e-10 + Nat 8.977e-10 1.058e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -27334,7 +27334,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -27355,8 +27355,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.898e-12 - CH4 4.898e-12 5.325e-12 -11.310 -11.274 0.036 35.46 +C(-4) 4.899e-12 + CH4 4.899e-12 5.327e-12 -11.310 -11.274 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -27381,9 +27381,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.221e-11 - H2 6.104e-12 6.637e-12 -11.214 -11.178 0.036 28.61 -Hto 4.359e-09 - Hto 4.359e-09 4.359e-09 -8.361 -8.361 0.000 (0) + H2 6.105e-12 6.637e-12 -11.214 -11.178 0.036 28.61 +Hto 3.934e-09 + Hto 3.934e-09 3.934e-09 -8.405 -8.405 0.000 (0) I 3.819e-09 I- 3.819e-09 3.819e-09 -8.418 -8.418 -0.000 (0) K 1.540e-03 @@ -27401,15 +27401,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.069e-09 - Nat+ 1.069e-09 1.069e-09 -8.971 -8.971 -0.000 (0) +Nat 8.977e-10 + Nat+ 8.977e-10 8.977e-10 -9.047 -9.047 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.069 -70.033 0.036 30.40 -S(-2) 7.678e-09 - HS- 5.368e-09 3.534e-09 -8.270 -8.452 -0.182 21.14 - H2S 2.310e-09 2.511e-09 -8.636 -8.600 0.036 36.27 - S-2 2.179e-14 5.252e-15 -13.662 -14.280 -0.618 (0) - (H2S)2 3.056e-19 3.323e-19 -18.515 -18.479 0.036 30.09 +S(-2) 7.680e-09 + HS- 5.370e-09 3.535e-09 -8.270 -8.452 -0.182 21.14 + H2S 2.310e-09 2.512e-09 -8.636 -8.600 0.036 36.27 + S-2 2.179e-14 5.254e-15 -13.662 -14.280 -0.618 (0) + (H2S)2 3.058e-19 3.324e-19 -18.515 -18.478 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -27484,7 +27484,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -27495,12 +27495,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2948e-04 - Hto 2.2883e-11 - I 1.7038e-23 + Hto 1.9794e-11 + I 1.7041e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6668e-11 + Nat 1.3074e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -27519,12 +27519,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.939e-10 2.285e-11 + Hto 1.677e-10 1.976e-11 I 1.446e-10 1.704e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.836e-11 3.341e-12 + Nat 2.225e-11 2.621e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -27535,7 +27535,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -27583,8 +27583,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.235e-11 H2 6.175e-12 6.714e-12 -11.209 -11.173 0.036 28.61 -Hto 1.939e-10 - Hto 1.939e-10 1.939e-10 -9.712 -9.712 0.000 (0) +Hto 1.677e-10 + Hto 1.677e-10 1.677e-10 -9.775 -9.775 0.000 (0) I 1.446e-10 I- 1.446e-10 1.446e-10 -9.840 -9.840 -0.000 (0) K 1.540e-03 @@ -27602,12 +27602,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.836e-11 - Nat+ 2.836e-11 2.836e-11 -10.547 -10.547 -0.000 (0) +Nat 2.225e-11 + Nat+ 2.225e-11 2.225e-11 -10.653 -10.653 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.079 -70.043 0.036 30.40 S(-2) 8.041e-09 - HS- 5.622e-09 3.701e-09 -8.250 -8.432 -0.182 21.14 + HS- 5.623e-09 3.701e-09 -8.250 -8.432 -0.182 21.14 H2S 2.419e-09 2.630e-09 -8.616 -8.580 0.036 36.27 S-2 2.282e-14 5.501e-15 -13.642 -14.260 -0.618 (0) (H2S)2 3.352e-19 3.645e-19 -18.475 -18.438 0.036 30.09 @@ -27685,7 +27685,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -27696,12 +27696,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2948e-04 - Hto 5.4484e-13 + Hto 4.5153e-13 I 3.4432e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3459e-13 + Nat 1.7185e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -27720,12 +27720,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.617e-12 5.440e-13 + Hto 3.827e-12 4.508e-13 I 2.922e-12 3.443e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.992e-13 4.703e-14 + Nat 2.924e-13 3.445e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -27736,7 +27736,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -27784,8 +27784,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.235e-11 H2 6.177e-12 6.716e-12 -11.209 -11.173 0.036 28.61 -Hto 4.617e-12 - Hto 4.617e-12 4.617e-12 -11.336 -11.336 0.000 (0) +Hto 3.827e-12 + Hto 3.827e-12 3.827e-12 -11.417 -11.417 0.000 (0) I 2.922e-12 I- 2.922e-12 2.922e-12 -11.534 -11.534 -0.000 (0) K 1.540e-03 @@ -27803,8 +27803,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.992e-13 - Nat+ 3.992e-13 3.992e-13 -12.399 -12.399 -0.000 (0) +Nat 2.924e-13 + Nat+ 2.924e-13 2.924e-13 -12.534 -12.534 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.079 -70.043 0.036 30.40 S(-2) 8.052e-09 @@ -27886,7 +27886,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -27897,12 +27897,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2948e-04 - Hto 5.4152e-15 - I 2.9002e-27 + Hto 4.2992e-15 + I 2.9006e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3710e-15 + Nat 9.3815e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -27921,12 +27921,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.589e-14 5.406e-15 + Hto 3.643e-14 4.292e-15 I 2.462e-14 2.900e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.333e-15 2.748e-16 + Nat 1.596e-15 1.881e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -27937,7 +27937,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -27985,8 +27985,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.235e-11 H2 6.177e-12 6.716e-12 -11.209 -11.173 0.036 28.61 -Hto 4.589e-14 - Hto 4.589e-14 4.589e-14 -13.338 -13.338 0.000 (0) +Hto 3.643e-14 + Hto 3.643e-14 3.643e-14 -13.438 -13.438 0.000 (0) I 2.462e-14 I- 2.462e-14 2.462e-14 -13.609 -13.609 -0.000 (0) K 1.540e-03 @@ -28004,8 +28004,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.333e-15 - Nat+ 2.333e-15 2.333e-15 -14.632 -14.632 -0.000 (0) +Nat 1.596e-15 + Nat+ 1.596e-15 1.596e-15 -14.797 -14.797 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.079 -70.043 0.036 30.40 S(-2) 8.053e-09 @@ -28087,7 +28087,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -28132,7 +28132,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -28276,7 +28276,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -28321,7 +28321,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -28465,7 +28465,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -28510,7 +28510,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -28654,7 +28654,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -28699,7 +28699,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -28843,7 +28843,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -28888,7 +28888,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29032,7 +29032,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -29077,7 +29077,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29221,7 +29221,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -29266,7 +29266,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29410,7 +29410,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -29455,7 +29455,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29599,7 +29599,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -29644,7 +29644,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29788,7 +29788,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -29833,7 +29833,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -29977,7 +29977,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -30022,7 +30022,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -30166,7 +30166,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -30211,7 +30211,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -30355,7 +30355,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -30400,7 +30400,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -30544,7 +30544,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -30589,7 +30589,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -31022,30 +31022,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.701e-07 3.850e-07 + Hto 7.756e-07 3.878e-07 I 8.662e-07 4.331e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 5.881e-07 2.940e-07 + Nat 6.034e-07 3.017e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.778 Adjusted to redox equilibrium + pe = -2.774 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.569e-13 + Electrical balance (eq) = -2.234e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -31059,8 +31059,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.020e-14 - CH4 2.020e-14 2.196e-14 -13.695 -13.658 0.036 35.46 +C(-4) 1.882e-14 + CH4 1.882e-14 2.046e-14 -13.725 -13.689 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -31084,10 +31084,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.094e-12 - H2 1.547e-12 1.682e-12 -11.811 -11.774 0.036 28.61 -Hto 7.701e-07 - Hto 7.701e-07 7.701e-07 -6.113 -6.113 0.000 (0) +H(0) 3.039e-12 + H2 1.520e-12 1.652e-12 -11.818 -11.782 0.036 28.61 +Hto 7.756e-07 + Hto 7.756e-07 7.756e-07 -6.110 -6.110 0.000 (0) I 8.662e-07 I- 8.662e-07 8.662e-07 -6.062 -6.062 -0.000 (0) K 1.540e-03 @@ -31105,15 +31105,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 5.881e-07 - Nat+ 5.881e-07 5.881e-07 -6.231 -6.231 -0.000 (0) +Nat 6.034e-07 + Nat+ 6.034e-07 6.034e-07 -6.219 -6.219 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.877 -68.840 0.036 30.40 -S(-2) 3.167e-11 - HS- 2.214e-11 1.458e-11 -10.655 -10.836 -0.182 21.14 - H2S 9.527e-12 1.036e-11 -11.021 -10.985 0.036 36.27 - S-2 8.985e-17 2.166e-17 -16.046 -16.664 -0.618 (0) - (H2S)2 5.200e-24 5.654e-24 -23.284 -23.248 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.861 -68.825 0.036 30.40 +S(-2) 2.950e-11 + HS- 2.063e-11 1.358e-11 -10.686 -10.867 -0.182 21.14 + H2S 8.875e-12 9.650e-12 -11.052 -11.015 0.036 36.27 + S-2 8.370e-17 2.018e-17 -16.077 -16.695 -0.618 (0) + (H2S)2 4.513e-24 4.907e-24 -23.346 -23.309 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -31140,21 +31140,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.86 -13.66 -2.80 CH4 + CH4(g) -10.89 -13.69 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.67 -11.77 -3.10 H2 + H2(g) -8.68 -11.78 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.99 -17.93 -7.94 H2S + H2S(g) -10.02 -17.96 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -65.95 -68.84 -2.89 O2 + O2(g) -65.93 -68.82 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.24 -2.36 4.88 S + Sulfur -7.27 -2.38 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -31178,7 +31178,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.270e-13 Surface + diffuse layer charge, eq + -1.262e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -31188,7 +31188,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -31199,12 +31199,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 4.8374e-08 - I 5.7592e-20 + Hto 4.7545e-08 + I 5.7585e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5354e-07 + Nat 1.4894e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -31223,23 +31223,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.099e-07 4.830e-08 + Hto 4.029e-07 4.747e-08 I 4.888e-07 5.758e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.613e-07 3.078e-08 + Nat 2.534e-07 2.986e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.916 Adjusted to redox equilibrium + pe = -2.914 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -31260,8 +31260,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.549e-13 - CH4 2.549e-13 2.771e-13 -12.594 -12.557 0.036 35.46 +C(-4) 2.459e-13 + CH4 2.459e-13 2.674e-13 -12.609 -12.573 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -31285,10 +31285,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.831e-12 - H2 2.915e-12 3.170e-12 -11.535 -11.499 0.036 28.61 -Hto 4.099e-07 - Hto 4.099e-07 4.099e-07 -6.387 -6.387 0.000 (0) +H(0) 5.779e-12 + H2 2.889e-12 3.141e-12 -11.539 -11.503 0.036 28.61 +Hto 4.029e-07 + Hto 4.029e-07 4.029e-07 -6.395 -6.395 0.000 (0) I 4.888e-07 I- 4.888e-07 4.888e-07 -6.311 -6.311 -0.000 (0) K 1.540e-03 @@ -31306,15 +31306,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.613e-07 - Nat+ 2.613e-07 2.613e-07 -6.583 -6.583 -0.000 (0) +Nat 2.534e-07 + Nat+ 2.534e-07 2.534e-07 -6.596 -6.596 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.427 -69.391 0.036 30.40 -S(-2) 3.996e-10 - HS- 2.794e-10 1.839e-10 -9.554 -9.735 -0.182 21.14 - H2S 1.202e-10 1.307e-10 -9.920 -9.884 0.036 36.27 - S-2 1.134e-15 2.733e-16 -14.945 -15.563 -0.618 (0) - (H2S)2 8.281e-22 9.003e-22 -21.082 -21.046 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.419 -69.383 0.036 30.40 +S(-2) 3.855e-10 + HS- 2.695e-10 1.774e-10 -9.569 -9.751 -0.182 21.14 + H2S 1.160e-10 1.261e-10 -9.936 -9.899 0.036 36.27 + S-2 1.094e-15 2.637e-16 -14.961 -15.579 -0.618 (0) + (H2S)2 7.707e-22 8.380e-22 -21.113 -21.077 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -31341,21 +31341,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.76 -12.56 -2.80 CH4 + CH4(g) -9.77 -12.57 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.40 -11.50 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.89 -16.83 -7.94 H2S + H2S(g) -8.90 -16.84 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.50 -69.39 -2.89 O2 + O2(g) -66.49 -69.38 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.42 -1.53 4.88 S + Sulfur -6.43 -1.55 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -31389,7 +31389,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -31400,12 +31400,12 @@ Su Ca 7.1884e-02 Cl 4.6663e-10 H 1.2947e-04 - Hto 8.2951e-09 + Hto 7.8353e-09 I 8.5646e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6978e-08 + Nat 1.5357e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -31424,30 +31424,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.030e-08 8.282e-09 + Hto 6.640e-08 7.823e-09 I 7.270e-08 8.565e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.889e-08 3.403e-09 + Nat 2.613e-08 3.079e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.018 Adjusted to redox equilibrium + pe = -3.014 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.876e-09 + Electrical balance (eq) = 5.842e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -31461,15 +31461,15 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.673e-12 - CH4 1.673e-12 1.819e-12 -11.777 -11.740 0.036 35.46 +C(-4) 1.563e-12 + CH4 1.563e-12 1.699e-12 -11.806 -11.770 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.378e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 @@ -31480,16 +31480,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.333e-12 - H2 4.666e-12 5.073e-12 -11.331 -11.295 0.036 28.61 -Hto 7.030e-08 - Hto 7.030e-08 7.030e-08 -7.153 -7.153 0.000 (0) +H(0) 9.175e-12 + H2 4.588e-12 4.988e-12 -11.338 -11.302 0.036 28.61 +Hto 6.640e-08 + Hto 6.640e-08 6.640e-08 -7.178 -7.178 0.000 (0) I 7.270e-08 I- 7.270e-08 7.270e-08 -7.138 -7.138 -0.000 (0) K 1.540e-03 @@ -31507,15 +31507,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.889e-08 - Nat+ 2.889e-08 2.889e-08 -7.539 -7.539 -0.000 (0) +Nat 2.613e-08 + Nat+ 2.613e-08 2.613e-08 -7.583 -7.583 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.836 -69.799 0.036 30.40 -S(-2) 2.623e-09 - HS- 1.834e-09 1.207e-09 -8.737 -8.918 -0.182 21.14 - H2S 7.890e-10 8.578e-10 -9.103 -9.067 0.036 36.27 - S-2 7.442e-15 1.794e-15 -14.128 -14.746 -0.618 (0) - (H2S)2 3.567e-20 3.878e-20 -19.448 -19.411 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.821 -69.785 0.036 30.40 +S(-2) 2.450e-09 + HS- 1.713e-09 1.128e-09 -8.766 -8.948 -0.182 21.14 + H2S 7.370e-10 8.013e-10 -9.133 -9.096 0.036 36.27 + S-2 6.951e-15 1.676e-15 -14.158 -14.776 -0.618 (0) + (H2S)2 3.112e-20 3.384e-20 -19.507 -19.471 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -31542,21 +31542,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.94 -11.74 -2.80 CH4 + CH4(g) -8.97 -11.77 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.19 -11.29 -3.10 H2 + H2(g) -8.20 -11.30 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.07 -16.01 -7.94 H2S + H2S(g) -8.10 -16.04 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.91 -69.80 -2.89 O2 + O2(g) -66.89 -69.78 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.80 -0.92 4.88 S + Sulfur -5.83 -0.94 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -31580,7 +31580,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.801e-11 Surface + diffuse layer charge, eq + -8.800e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -31590,7 +31590,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -31601,12 +31601,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 8.0987e-10 + Hto 7.3384e-10 I 7.1644e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0148e-09 + Nat 8.5664e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -31625,12 +31625,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.863e-09 8.086e-10 + Hto 6.219e-09 7.327e-10 I 6.081e-09 7.164e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.727e-09 2.034e-10 + Nat 1.458e-09 1.717e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -31641,7 +31641,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -31662,8 +31662,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.778e-12 - CH4 5.778e-12 6.282e-12 -11.238 -11.202 0.036 35.46 +C(-4) 5.777e-12 + CH4 5.777e-12 6.281e-12 -11.238 -11.202 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -31688,9 +31688,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.272e-11 - H2 6.362e-12 6.917e-12 -11.196 -11.160 0.036 28.61 -Hto 6.863e-09 - Hto 6.863e-09 6.863e-09 -8.163 -8.163 0.000 (0) + H2 6.361e-12 6.916e-12 -11.196 -11.160 0.036 28.61 +Hto 6.219e-09 + Hto 6.219e-09 6.219e-09 -8.206 -8.206 0.000 (0) I 6.081e-09 I- 6.081e-09 6.081e-09 -8.216 -8.216 -0.000 (0) K 1.540e-03 @@ -31708,15 +31708,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.727e-09 - Nat+ 1.727e-09 1.727e-09 -8.763 -8.763 -0.000 (0) +Nat 1.458e-09 + Nat+ 1.458e-09 1.458e-09 -8.836 -8.836 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.105 -70.069 0.036 30.40 -S(-2) 9.058e-09 - HS- 6.333e-09 4.169e-09 -8.198 -8.380 -0.182 21.14 - H2S 2.725e-09 2.962e-09 -8.565 -8.528 0.036 36.27 - S-2 2.571e-14 6.197e-15 -13.590 -14.208 -0.618 (0) - (H2S)2 4.253e-19 4.624e-19 -18.371 -18.335 0.036 30.09 +S(-2) 9.056e-09 + HS- 6.332e-09 4.168e-09 -8.198 -8.380 -0.182 21.14 + H2S 2.724e-09 2.962e-09 -8.565 -8.528 0.036 36.27 + S-2 2.570e-14 6.195e-15 -13.590 -14.208 -0.618 (0) + (H2S)2 4.251e-19 4.622e-19 -18.371 -18.335 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -31791,7 +31791,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -31802,12 +31802,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 4.7891e-11 - I 3.6099e-23 + Hto 4.1599e-11 + I 3.6105e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5968e-11 + Nat 2.8350e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -31826,12 +31826,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.059e-10 4.781e-11 + Hto 3.525e-10 4.153e-11 I 3.064e-10 3.610e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.120e-11 7.210e-12 + Nat 4.824e-11 5.683e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -31842,7 +31842,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -31863,8 +31863,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.139e-12 - CH4 6.139e-12 6.675e-12 -11.212 -11.176 0.036 35.46 +C(-4) 6.140e-12 + CH4 6.140e-12 6.675e-12 -11.212 -11.176 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -31890,8 +31890,8 @@ Cl 3.000e-01 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.292e-11 H2 6.459e-12 7.022e-12 -11.190 -11.154 0.036 28.61 -Hto 4.059e-10 - Hto 4.059e-10 4.059e-10 -9.392 -9.392 0.000 (0) +Hto 3.525e-10 + Hto 3.525e-10 3.525e-10 -9.453 -9.453 0.000 (0) I 3.064e-10 I- 3.064e-10 3.064e-10 -9.514 -9.514 -0.000 (0) K 1.540e-03 @@ -31909,15 +31909,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 6.120e-11 - Nat+ 6.120e-11 6.120e-11 -10.213 -10.213 -0.000 (0) +Nat 4.824e-11 + Nat+ 4.824e-11 4.824e-11 -10.317 -10.317 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.118 -70.082 0.036 30.40 -S(-2) 9.623e-09 - HS- 6.729e-09 4.429e-09 -8.172 -8.354 -0.182 21.14 +S(-2) 9.624e-09 + HS- 6.729e-09 4.430e-09 -8.172 -8.354 -0.182 21.14 H2S 2.895e-09 3.147e-09 -8.538 -8.502 0.036 36.27 - S-2 2.731e-14 6.583e-15 -13.564 -14.182 -0.618 (0) - (H2S)2 4.801e-19 5.219e-19 -18.319 -18.282 0.036 30.09 + S-2 2.731e-14 6.584e-15 -13.564 -14.182 -0.618 (0) + (H2S)2 4.801e-19 5.220e-19 -18.319 -18.282 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -31992,7 +31992,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -32003,12 +32003,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 1.7069e-12 - I 1.0931e-24 + Hto 1.4208e-12 + I 1.0929e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.6019e-13 + Nat 5.5959e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -32027,12 +32027,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.447e-11 1.704e-12 + Hto 1.204e-11 1.418e-12 I 9.279e-12 1.093e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.294e-12 1.524e-13 + Nat 9.522e-13 1.122e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -32043,7 +32043,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -32091,8 +32091,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.293e-11 H2 6.463e-12 7.027e-12 -11.190 -11.153 0.036 28.61 -Hto 1.447e-11 - Hto 1.447e-11 1.447e-11 -10.840 -10.840 0.000 (0) +Hto 1.204e-11 + Hto 1.204e-11 1.204e-11 -10.919 -10.919 0.000 (0) I 9.279e-12 I- 9.279e-12 9.279e-12 -11.033 -11.033 -0.000 (0) K 1.540e-03 @@ -32110,8 +32110,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.294e-12 - Nat+ 1.294e-12 1.294e-12 -11.888 -11.888 -0.000 (0) +Nat 9.522e-13 + Nat+ 9.522e-13 9.522e-13 -12.021 -12.021 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.119 -70.082 0.036 30.40 S(-2) 9.650e-09 @@ -32193,7 +32193,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -32204,12 +32204,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 3.3881e-14 + Hto 2.7020e-14 I 1.8403e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.8932e-15 + Nat 6.1150e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -32228,12 +32228,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.871e-13 3.383e-14 + Hto 2.290e-13 2.698e-14 I 1.562e-13 1.840e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.513e-14 1.783e-15 + Nat 1.041e-14 1.226e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -32244,7 +32244,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -32292,8 +32292,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.293e-11 H2 6.463e-12 7.027e-12 -11.190 -11.153 0.036 28.61 -Hto 2.871e-13 - Hto 2.871e-13 2.871e-13 -12.542 -12.542 0.000 (0) +Hto 2.290e-13 + Hto 2.290e-13 2.290e-13 -12.640 -12.640 0.000 (0) I 1.562e-13 I- 1.562e-13 1.562e-13 -12.806 -12.806 -0.000 (0) K 1.540e-03 @@ -32311,8 +32311,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.513e-14 - Nat+ 1.513e-14 1.513e-14 -13.820 -13.820 -0.000 (0) +Nat 1.041e-14 + Nat+ 1.041e-14 1.041e-14 -13.983 -13.983 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.119 -70.082 0.036 30.40 S(-2) 9.650e-09 @@ -32394,7 +32394,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -32405,12 +32405,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 2.8867e-16 - I 1.3285e-28 + Hto 2.2053e-16 + I 1.3282e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.4482e-17 + Nat 2.8573e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -32429,12 +32429,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.446e-15 2.882e-16 + Hto 1.869e-15 2.202e-16 I 1.128e-15 1.328e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.569e-17 8.917e-18 + Nat 4.862e-17 5.728e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -32445,7 +32445,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -32493,8 +32493,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.293e-11 H2 6.463e-12 7.027e-12 -11.190 -11.153 0.036 28.61 -Hto 2.446e-15 - Hto 2.446e-15 2.446e-15 -14.611 -14.611 0.000 (0) +Hto 1.869e-15 + Hto 1.869e-15 1.869e-15 -14.728 -14.728 0.000 (0) I 1.128e-15 I- 1.128e-15 1.128e-15 -14.948 -14.948 -0.000 (0) K 1.540e-03 @@ -32512,8 +32512,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.569e-17 - Nat+ 7.569e-17 7.569e-17 -16.121 -16.121 -0.000 (0) +Nat 4.862e-17 + Nat+ 4.862e-17 4.862e-17 -16.313 -16.313 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.119 -70.082 0.036 30.40 S(-2) 9.650e-09 @@ -32595,7 +32595,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -32640,7 +32640,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -32784,7 +32784,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -32829,7 +32829,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -32973,7 +32973,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33018,7 +33018,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -33162,7 +33162,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33207,7 +33207,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -33351,7 +33351,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33396,7 +33396,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -33540,7 +33540,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33585,7 +33585,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -33729,7 +33729,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33774,7 +33774,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -33918,7 +33918,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -33963,7 +33963,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -34107,7 +34107,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -34152,7 +34152,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -34296,7 +34296,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -34341,7 +34341,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -34485,7 +34485,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -34530,7 +34530,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -34674,7 +34674,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -34719,7 +34719,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -34863,7 +34863,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -34908,7 +34908,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -35341,30 +35341,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.520e-07 3.760e-07 + Hto 7.575e-07 3.788e-07 I 8.553e-07 4.277e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 5.581e-07 2.791e-07 + Nat 5.733e-07 2.867e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.792 Adjusted to redox equilibrium + pe = -2.788 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.234e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -35378,8 +35378,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.596e-14 - CH4 2.596e-14 2.823e-14 -13.586 -13.549 0.036 35.46 +C(-4) 2.430e-14 + CH4 2.430e-14 2.642e-14 -13.614 -13.578 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -35403,10 +35403,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.294e-12 - H2 1.647e-12 1.791e-12 -11.783 -11.747 0.036 28.61 -Hto 7.520e-07 - Hto 7.520e-07 7.520e-07 -6.124 -6.124 0.000 (0) +H(0) 3.240e-12 + H2 1.620e-12 1.761e-12 -11.790 -11.754 0.036 28.61 +Hto 7.575e-07 + Hto 7.575e-07 7.575e-07 -6.121 -6.121 0.000 (0) I 8.553e-07 I- 8.553e-07 8.553e-07 -6.068 -6.068 -0.000 (0) K 1.540e-03 @@ -35424,15 +35424,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 5.581e-07 - Nat+ 5.581e-07 5.581e-07 -6.253 -6.253 -0.000 (0) +Nat 5.733e-07 + Nat+ 5.733e-07 5.733e-07 -6.242 -6.242 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.931 -68.895 0.036 30.40 -S(-2) 4.070e-11 - HS- 2.846e-11 1.873e-11 -10.546 -10.727 -0.182 21.14 - H2S 1.224e-11 1.331e-11 -10.912 -10.876 0.036 36.27 - S-2 1.155e-16 2.784e-17 -15.938 -16.555 -0.618 (0) - (H2S)2 8.590e-24 9.339e-24 -23.066 -23.030 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.917 -68.880 0.036 30.40 +S(-2) 3.810e-11 + HS- 2.664e-11 1.754e-11 -10.574 -10.756 -0.182 21.14 + H2S 1.146e-11 1.246e-11 -10.941 -10.904 0.036 36.27 + S-2 1.081e-16 2.606e-17 -15.966 -16.584 -0.618 (0) + (H2S)2 7.528e-24 8.184e-24 -23.123 -23.087 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -35459,21 +35459,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.75 -13.55 -2.80 CH4 + CH4(g) -10.78 -13.58 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.65 -11.75 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.88 -17.82 -7.94 H2S + H2S(g) -9.91 -17.85 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.00 -68.89 -2.89 O2 + O2(g) -65.99 -68.88 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.16 -2.28 4.88 S + Sulfur -7.18 -2.30 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -35497,7 +35497,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.348e-13 Surface + diffuse layer charge, eq + -1.327e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -35507,7 +35507,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -35518,12 +35518,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 5.0768e-08 - I 6.0775e-20 + Hto 5.0019e-08 + I 6.0788e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6157e-07 + Nat 1.5740e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -35542,23 +35542,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.302e-07 5.069e-08 + Hto 4.239e-07 4.994e-08 I 5.158e-07 6.077e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.749e-07 3.239e-08 + Nat 2.678e-07 3.155e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.928 Adjusted to redox equilibrium + pe = -2.926 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -35579,8 +35579,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.223e-13 - CH4 3.223e-13 3.505e-13 -12.492 -12.455 0.036 35.46 +C(-4) 3.070e-13 + CH4 3.070e-13 3.338e-13 -12.513 -12.476 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -35604,10 +35604,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.183e-12 - H2 3.092e-12 3.361e-12 -11.510 -11.473 0.036 28.61 -Hto 4.302e-07 - Hto 4.302e-07 4.302e-07 -6.366 -6.366 0.000 (0) +H(0) 6.108e-12 + H2 3.054e-12 3.321e-12 -11.515 -11.479 0.036 28.61 +Hto 4.239e-07 + Hto 4.239e-07 4.239e-07 -6.373 -6.373 0.000 (0) I 5.158e-07 I- 5.158e-07 5.158e-07 -6.287 -6.287 -0.000 (0) K 1.540e-03 @@ -35625,15 +35625,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.749e-07 - Nat+ 2.749e-07 2.749e-07 -6.561 -6.561 -0.000 (0) +Nat 2.678e-07 + Nat+ 2.678e-07 2.678e-07 -6.572 -6.572 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.478 -69.442 0.036 30.40 -S(-2) 5.053e-10 - HS- 3.533e-10 2.326e-10 -9.452 -9.633 -0.182 21.14 - H2S 1.520e-10 1.653e-10 -9.818 -9.782 0.036 36.27 - S-2 1.434e-15 3.456e-16 -14.844 -15.461 -0.618 (0) - (H2S)2 1.324e-21 1.440e-21 -20.878 -20.842 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.468 -69.431 0.036 30.40 +S(-2) 4.813e-10 + HS- 3.365e-10 2.215e-10 -9.473 -9.655 -0.182 21.14 + H2S 1.448e-10 1.574e-10 -9.839 -9.803 0.036 36.27 + S-2 1.366e-15 3.292e-16 -14.865 -15.483 -0.618 (0) + (H2S)2 1.201e-21 1.306e-21 -20.920 -20.884 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -35660,21 +35660,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.65 -12.46 -2.80 CH4 + CH4(g) -9.67 -12.48 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.37 -11.47 -3.10 H2 + H2(g) -8.38 -11.48 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.79 -16.72 -7.94 H2S + H2S(g) -8.81 -16.74 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.55 -69.44 -2.89 O2 + O2(g) -66.54 -69.43 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.34 -1.46 4.88 S + Sulfur -6.36 -1.47 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -35698,7 +35698,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.829e-11 Surface + diffuse layer charge, eq + -8.827e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -35708,7 +35708,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -35719,12 +35719,12 @@ Su Ca 7.1884e-02 Cl 4.6661e-10 H 1.2947e-04 - Hto 1.0033e-08 + Hto 9.5080e-09 I 1.0452e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0890e-08 + Nat 1.8984e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -35743,30 +35743,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.502e-08 1.002e-08 + Hto 8.058e-08 9.493e-09 I 8.870e-08 1.045e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.555e-08 4.188e-09 + Nat 3.230e-08 3.806e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.047 Adjusted to redox equilibrium + pe = -3.045 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.788e-09 + Electrical balance (eq) = 5.754e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -35780,8 +35780,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.854e-12 - CH4 2.854e-12 3.103e-12 -11.544 -11.508 0.036 35.46 +C(-4) 2.750e-12 + CH4 2.750e-12 2.990e-12 -11.561 -11.524 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -35801,14 +35801,14 @@ Ca 2.590e-02 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) - CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) + CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.067e-11 - H2 5.333e-12 5.798e-12 -11.273 -11.237 0.036 28.61 -Hto 8.502e-08 - Hto 8.502e-08 8.502e-08 -7.070 -7.070 0.000 (0) +H(0) 1.057e-11 + H2 5.284e-12 5.745e-12 -11.277 -11.241 0.036 28.61 +Hto 8.058e-08 + Hto 8.058e-08 8.058e-08 -7.094 -7.094 0.000 (0) I 8.870e-08 I- 8.870e-08 8.870e-08 -7.052 -7.052 -0.000 (0) K 1.540e-03 @@ -35826,15 +35826,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.555e-08 - Nat+ 3.555e-08 3.555e-08 -7.449 -7.449 -0.000 (0) +Nat 3.230e-08 + Nat+ 3.230e-08 3.230e-08 -7.491 -7.491 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.952 -69.915 0.036 30.40 -S(-2) 4.475e-09 - HS- 3.128e-09 2.060e-09 -8.505 -8.686 -0.182 21.14 - H2S 1.346e-09 1.464e-09 -8.871 -8.835 0.036 36.27 - S-2 1.270e-14 3.061e-15 -13.896 -14.514 -0.618 (0) - (H2S)2 1.038e-19 1.129e-19 -18.984 -18.947 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.944 -69.907 0.036 30.40 +S(-2) 4.311e-09 + HS- 3.014e-09 1.984e-09 -8.521 -8.702 -0.182 21.14 + H2S 1.297e-09 1.410e-09 -8.887 -8.851 0.036 36.27 + S-2 1.223e-14 2.949e-15 -13.912 -14.530 -0.618 (0) + (H2S)2 9.637e-20 1.048e-19 -19.016 -18.980 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -35844,7 +35844,7 @@ S(6) 1.260e-02 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 HSO4- 1.309e-08 9.566e-09 -7.883 -8.019 -0.136 40.78 - CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) + CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 @@ -35861,21 +35861,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.71 -11.51 -2.80 CH4 + CH4(g) -8.72 -11.52 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.14 -11.24 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.84 -15.78 -7.94 H2S + H2S(g) -7.86 -15.79 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.02 -69.92 -2.89 O2 + O2(g) -67.01 -69.91 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.63 -0.75 4.88 S + Sulfur -5.64 -0.76 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -35899,7 +35899,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.834e-11 Surface + diffuse layer charge, eq + -8.833e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -35909,7 +35909,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -35920,12 +35920,12 @@ Su Ca 7.1884e-02 Cl 4.6654e-10 H 1.2948e-04 - Hto 1.1683e-09 + Hto 1.0626e-09 I 1.0447e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5009e-09 + Nat 1.2730e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -35944,12 +35944,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.901e-09 1.166e-09 + Hto 9.005e-09 1.061e-09 I 8.868e-09 1.045e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.554e-09 3.009e-10 + Nat 2.166e-09 2.552e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -35960,7 +35960,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -35981,8 +35981,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.631e-12 - CH4 6.631e-12 7.210e-12 -11.178 -11.142 0.036 35.46 +C(-4) 6.629e-12 + CH4 6.629e-12 7.207e-12 -11.179 -11.142 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -36007,9 +36007,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.317e-11 - H2 6.585e-12 7.159e-12 -11.181 -11.145 0.036 28.61 -Hto 9.901e-09 - Hto 9.901e-09 9.901e-09 -8.004 -8.004 0.000 (0) + H2 6.584e-12 7.158e-12 -11.182 -11.145 0.036 28.61 +Hto 9.005e-09 + Hto 9.005e-09 9.005e-09 -8.046 -8.046 0.000 (0) I 8.868e-09 I- 8.868e-09 8.868e-09 -8.052 -8.052 -0.000 (0) K 1.540e-03 @@ -36027,15 +36027,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.554e-09 - Nat+ 2.554e-09 2.554e-09 -8.593 -8.593 -0.000 (0) +Nat 2.166e-09 + Nat+ 2.166e-09 2.166e-09 -8.664 -8.664 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.135 -70.098 0.036 30.40 S(-2) 1.039e-08 - HS- 7.268e-09 4.785e-09 -8.139 -8.320 -0.182 21.14 - H2S 3.127e-09 3.399e-09 -8.505 -8.469 0.036 36.27 - S-2 2.950e-14 7.111e-15 -13.530 -14.148 -0.618 (0) - (H2S)2 5.601e-19 6.090e-19 -18.252 -18.215 0.036 30.09 + HS- 7.265e-09 4.783e-09 -8.139 -8.320 -0.182 21.14 + H2S 3.125e-09 3.398e-09 -8.505 -8.469 0.036 36.27 + S-2 2.949e-14 7.109e-15 -13.530 -14.148 -0.618 (0) + (H2S)2 5.597e-19 6.085e-19 -18.252 -18.216 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -36110,7 +36110,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -36121,12 +36121,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 8.6048e-11 + Hto 7.5047e-11 I 6.5657e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.6582e-11 + Nat 5.2730e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -36145,12 +36145,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.292e-10 8.591e-11 + Hto 6.360e-10 7.493e-11 I 5.573e-10 6.565e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.133e-10 1.335e-11 + Nat 8.973e-11 1.057e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -36161,7 +36161,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -36182,8 +36182,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.143e-12 - CH4 7.143e-12 7.766e-12 -11.146 -11.110 0.036 35.46 +C(-4) 7.144e-12 + CH4 7.144e-12 7.767e-12 -11.146 -11.110 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -36209,8 +36209,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.342e-11 H2 6.708e-12 7.293e-12 -11.173 -11.137 0.036 28.61 -Hto 7.292e-10 - Hto 7.292e-10 7.292e-10 -9.137 -9.137 0.000 (0) +Hto 6.360e-10 + Hto 6.360e-10 6.360e-10 -9.197 -9.197 0.000 (0) I 5.573e-10 I- 5.573e-10 5.573e-10 -9.254 -9.254 -0.000 (0) K 1.540e-03 @@ -36228,15 +36228,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.133e-10 - Nat+ 1.133e-10 1.133e-10 -9.946 -9.946 -0.000 (0) +Nat 8.973e-11 + Nat+ 8.973e-11 8.973e-11 -10.047 -10.047 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.151 -70.115 0.036 30.40 S(-2) 1.120e-08 - HS- 7.829e-09 5.154e-09 -8.106 -8.288 -0.182 21.14 + HS- 7.830e-09 5.154e-09 -8.106 -8.288 -0.182 21.14 H2S 3.368e-09 3.662e-09 -8.473 -8.436 0.036 36.27 S-2 3.178e-14 7.661e-15 -13.498 -14.116 -0.618 (0) - (H2S)2 6.499e-19 7.066e-19 -18.187 -18.151 0.036 30.09 + (H2S)2 6.500e-19 7.067e-19 -18.187 -18.151 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -36311,7 +36311,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -36322,12 +36322,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 4.0796e-12 - I 2.6471e-24 + Hto 3.4102e-12 + I 2.6479e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8781e-12 + Nat 1.3891e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -36346,12 +36346,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.457e-11 4.073e-12 + Hto 2.890e-11 3.405e-12 I 2.247e-11 2.647e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.196e-12 3.765e-13 + Nat 2.364e-12 2.785e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -36362,7 +36362,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -36384,7 +36384,7 @@ Su H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 7.175e-12 - CH4 7.175e-12 7.800e-12 -11.144 -11.108 0.036 35.46 + CH4 7.175e-12 7.801e-12 -11.144 -11.108 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -36410,8 +36410,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.343e-11 H2 6.716e-12 7.301e-12 -11.173 -11.137 0.036 28.61 -Hto 3.457e-11 - Hto 3.457e-11 3.457e-11 -10.461 -10.461 0.000 (0) +Hto 2.890e-11 + Hto 2.890e-11 2.890e-11 -10.539 -10.539 0.000 (0) I 2.247e-11 I- 2.247e-11 2.247e-11 -10.648 -10.648 -0.000 (0) K 1.540e-03 @@ -36429,12 +36429,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.196e-12 - Nat+ 3.196e-12 3.196e-12 -11.495 -11.495 -0.000 (0) +Nat 2.364e-12 + Nat+ 2.364e-12 2.364e-12 -11.626 -11.626 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 S(-2) 1.125e-08 - HS- 7.863e-09 5.177e-09 -8.104 -8.286 -0.182 21.14 + HS- 7.864e-09 5.177e-09 -8.104 -8.286 -0.182 21.14 H2S 3.383e-09 3.678e-09 -8.471 -8.434 0.036 36.27 S-2 3.192e-14 7.694e-15 -13.496 -14.114 -0.618 (0) (H2S)2 6.556e-19 7.128e-19 -18.183 -18.147 0.036 30.09 @@ -36512,7 +36512,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -36523,12 +36523,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 1.2127e-13 + Hto 9.7137e-14 I 6.6794e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2982e-14 + Nat 2.2787e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -36547,12 +36547,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.028e-12 1.211e-13 + Hto 8.232e-13 9.698e-14 I 5.669e-13 6.679e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.612e-14 6.612e-15 + Nat 3.877e-14 4.568e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -36563,7 +36563,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -36611,8 +36611,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.343e-11 H2 6.716e-12 7.302e-12 -11.173 -11.137 0.036 28.61 -Hto 1.028e-12 - Hto 1.028e-12 1.028e-12 -11.988 -11.988 0.000 (0) +Hto 8.232e-13 + Hto 8.232e-13 8.232e-13 -12.084 -12.084 0.000 (0) I 5.669e-13 I- 5.669e-13 5.669e-13 -12.246 -12.246 -0.000 (0) K 1.540e-03 @@ -36630,8 +36630,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 5.612e-14 - Nat+ 5.612e-14 5.612e-14 -13.251 -13.251 -0.000 (0) +Nat 3.877e-14 + Nat+ 3.877e-14 3.877e-14 -13.411 -13.411 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 S(-2) 1.125e-08 @@ -36713,7 +36713,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -36724,12 +36724,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 2.0640e-15 - I 9.6379e-28 + Hto 1.5839e-15 + I 9.6359e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3014e-16 + Nat 2.1307e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -36748,12 +36748,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.749e-14 2.061e-15 + Hto 1.342e-14 1.581e-15 I 8.179e-15 9.635e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.618e-16 6.618e-17 + Nat 3.626e-16 4.271e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -36764,7 +36764,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -36812,8 +36812,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.343e-11 H2 6.716e-12 7.302e-12 -11.173 -11.137 0.036 28.61 -Hto 1.749e-14 - Hto 1.749e-14 1.749e-14 -13.757 -13.757 0.000 (0) +Hto 1.342e-14 + Hto 1.342e-14 1.342e-14 -13.872 -13.872 0.000 (0) I 8.179e-15 I- 8.179e-15 8.179e-15 -14.087 -14.087 -0.000 (0) K 1.540e-03 @@ -36831,8 +36831,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 5.618e-16 - Nat+ 5.618e-16 5.618e-16 -15.250 -15.250 -0.000 (0) +Nat 3.626e-16 + Nat+ 3.626e-16 3.626e-16 -15.441 -15.441 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 S(-2) 1.125e-08 @@ -36914,7 +36914,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -36925,12 +36925,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 1.5388e-17 - I 6.0836e-30 + Hto 1.1312e-17 + I 6.0844e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4432e-18 + Nat 8.7024e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -36949,12 +36949,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.304e-16 1.536e-17 + Hto 9.587e-17 1.129e-17 I 5.164e-17 6.084e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.456e-18 2.893e-19 + Nat 1.481e-18 1.745e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -36965,7 +36965,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -37013,8 +37013,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) H(0) 1.343e-11 H2 6.716e-12 7.302e-12 -11.173 -11.137 0.036 28.61 -Hto 1.304e-16 - Hto 1.304e-16 1.304e-16 -15.885 -15.885 0.000 (0) +Hto 9.587e-17 + Hto 9.587e-17 9.587e-17 -16.018 -16.018 0.000 (0) I 5.164e-17 I- 5.164e-17 5.164e-17 -16.287 -16.287 -0.000 (0) K 1.540e-03 @@ -37032,13 +37032,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.456e-18 - Nat+ 2.456e-18 2.456e-18 -17.610 -17.610 -0.000 (0) +Nat 1.481e-18 + Nat+ 1.481e-18 1.481e-18 -17.830 -17.830 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 S(-2) 1.125e-08 HS- 7.865e-09 5.177e-09 -8.104 -8.286 -0.182 21.14 - H2S 3.383e-09 3.678e-09 -8.471 -8.434 0.036 36.27 + H2S 3.383e-09 3.679e-09 -8.471 -8.434 0.036 36.27 S-2 3.192e-14 7.695e-15 -13.496 -14.114 -0.618 (0) (H2S)2 6.558e-19 7.130e-19 -18.183 -18.147 0.036 30.09 S(6) 1.260e-02 @@ -37115,7 +37115,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -37160,7 +37160,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -37304,7 +37304,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -37349,7 +37349,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -37493,7 +37493,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -37538,7 +37538,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -37682,7 +37682,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -37727,7 +37727,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -37871,7 +37871,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -37916,7 +37916,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -38060,7 +38060,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -38105,7 +38105,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -38249,7 +38249,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -38294,7 +38294,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -38438,7 +38438,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -38483,7 +38483,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -38627,7 +38627,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -38672,7 +38672,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -38816,7 +38816,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -38861,7 +38861,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -39005,7 +39005,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -39050,7 +39050,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -39194,7 +39194,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -39239,7 +39239,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -39672,30 +39672,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.358e-07 3.679e-07 + Hto 7.414e-07 3.707e-07 I 8.456e-07 4.228e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 5.322e-07 2.661e-07 + Nat 5.471e-07 2.735e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.805 Adjusted to redox equilibrium + pe = -2.801 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.234e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -39709,15 +39709,15 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.323e-14 - CH4 3.323e-14 3.613e-14 -13.478 -13.442 0.036 35.46 +C(-4) 3.112e-14 + CH4 3.112e-14 3.384e-14 -13.507 -13.471 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.791e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.441 -5.404 0.036 -17.09 CO3-2 3.378e-06 8.599e-07 -5.471 -6.066 -0.594 -1.53 @@ -39728,16 +39728,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.791e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.504e-12 - H2 1.752e-12 1.905e-12 -11.757 -11.720 0.036 28.61 -Hto 7.358e-07 - Hto 7.358e-07 7.358e-07 -6.133 -6.133 0.000 (0) +H(0) 3.447e-12 + H2 1.723e-12 1.874e-12 -11.764 -11.727 0.036 28.61 +Hto 7.414e-07 + Hto 7.414e-07 7.414e-07 -6.130 -6.130 0.000 (0) I 8.456e-07 I- 8.456e-07 8.456e-07 -6.073 -6.073 -0.000 (0) K 1.540e-03 @@ -39755,15 +39755,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 5.322e-07 - Nat+ 5.322e-07 5.322e-07 -6.274 -6.274 -0.000 (0) +Nat 5.471e-07 + Nat+ 5.471e-07 5.471e-07 -6.262 -6.262 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.985 -68.948 0.036 30.40 -S(-2) 5.210e-11 - HS- 3.643e-11 2.398e-11 -10.439 -10.620 -0.182 21.14 - H2S 1.567e-11 1.704e-11 -10.805 -10.768 0.036 36.27 - S-2 1.478e-16 3.563e-17 -15.830 -16.448 -0.618 (0) - (H2S)2 1.408e-23 1.530e-23 -22.852 -22.815 0.036 30.09 + O2 0.000e+00 0.000e+00 -68.970 -68.934 0.036 30.40 +S(-2) 4.879e-11 + HS- 3.411e-11 2.246e-11 -10.467 -10.649 -0.182 21.14 + H2S 1.468e-11 1.596e-11 -10.833 -10.797 0.036 36.27 + S-2 1.384e-16 3.337e-17 -15.859 -16.477 -0.618 (0) + (H2S)2 1.234e-23 1.342e-23 -22.909 -22.872 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -39790,21 +39790,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.64 -13.44 -2.80 CH4 + CH4(g) -10.67 -13.47 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.62 -11.72 -3.10 H2 + H2(g) -8.63 -11.73 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.77 -17.71 -7.94 H2S + H2S(g) -9.80 -17.74 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.06 -68.95 -2.89 O2 + O2(g) -66.04 -68.93 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -7.08 -2.20 4.88 S + Sulfur -7.10 -2.22 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -39828,7 +39828,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -7.944e-14 Surface + diffuse layer charge, eq + -7.877e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -39838,7 +39838,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -39849,12 +39849,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 5.2644e-08 - I 6.3342e-20 + Hto 5.1980e-08 + I 6.3355e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6781e-07 + Nat 1.6412e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -39873,23 +39873,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.461e-07 5.256e-08 + Hto 4.405e-07 5.190e-08 I 5.377e-07 6.335e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.855e-07 3.364e-08 + Nat 2.793e-07 3.290e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.936 Adjusted to redox equilibrium + pe = -2.933 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -39910,8 +39910,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.689e-13 - CH4 3.689e-13 4.011e-13 -12.433 -12.397 0.036 35.46 +C(-4) 3.500e-13 + CH4 3.500e-13 3.805e-13 -12.456 -12.420 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -39935,10 +39935,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.395e-12 - H2 3.198e-12 3.477e-12 -11.495 -11.459 0.036 28.61 -Hto 4.461e-07 - Hto 4.461e-07 4.461e-07 -6.351 -6.351 0.000 (0) +H(0) 6.312e-12 + H2 3.156e-12 3.431e-12 -11.501 -11.465 0.036 28.61 +Hto 4.405e-07 + Hto 4.405e-07 4.405e-07 -6.356 -6.356 0.000 (0) I 5.377e-07 I- 5.377e-07 5.377e-07 -6.269 -6.269 -0.000 (0) K 1.540e-03 @@ -39956,15 +39956,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.855e-07 - Nat+ 2.855e-07 2.855e-07 -6.544 -6.544 -0.000 (0) +Nat 2.793e-07 + Nat+ 2.793e-07 2.793e-07 -6.554 -6.554 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.507 -69.471 0.036 30.40 -S(-2) 5.784e-10 - HS- 4.044e-10 2.662e-10 -9.393 -9.575 -0.182 21.14 - H2S 1.740e-10 1.892e-10 -9.759 -9.723 0.036 36.27 - S-2 1.641e-15 3.956e-16 -14.785 -15.403 -0.618 (0) - (H2S)2 1.735e-21 1.886e-21 -20.761 -20.724 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.496 -69.460 0.036 30.40 +S(-2) 5.487e-10 + HS- 3.836e-10 2.525e-10 -9.416 -9.598 -0.182 21.14 + H2S 1.651e-10 1.795e-10 -9.782 -9.746 0.036 36.27 + S-2 1.557e-15 3.752e-16 -14.808 -15.426 -0.618 (0) + (H2S)2 1.561e-21 1.697e-21 -20.807 -20.770 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -39991,21 +39991,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.59 -12.40 -2.80 CH4 + CH4(g) -9.62 -12.42 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.36 -11.46 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.73 -16.66 -7.94 H2S + H2S(g) -8.75 -16.69 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.58 -69.47 -2.89 O2 + O2(g) -66.57 -69.46 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.30 -1.41 4.88 S + Sulfur -6.31 -1.43 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -40029,7 +40029,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.856e-11 Surface + diffuse layer charge, eq + -8.854e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -40039,7 +40039,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -40050,12 +40050,12 @@ Su Ca 7.1884e-02 Cl 4.6659e-10 H 1.2947e-04 - Hto 1.1732e-08 + Hto 1.1153e-08 I 1.2325e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4826e-08 + Nat 2.2660e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -40074,30 +40074,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.942e-08 1.171e-08 + Hto 9.451e-08 1.113e-08 I 1.046e-07 1.232e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.224e-08 4.977e-09 + Nat 3.856e-08 4.543e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.065 Adjusted to redox equilibrium + pe = -3.063 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.700e-09 + Electrical balance (eq) = 5.666e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -40111,11 +40111,11 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.971e-12 - CH4 3.971e-12 4.318e-12 -11.401 -11.365 0.036 35.46 +C(-4) 3.873e-12 + CH4 3.873e-12 4.211e-12 -11.412 -11.376 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 - CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 + CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 @@ -40136,10 +40136,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.158e-11 - H2 5.792e-12 6.298e-12 -11.237 -11.201 0.036 28.61 -Hto 9.942e-08 - Hto 9.942e-08 9.942e-08 -7.003 -7.003 0.000 (0) +H(0) 1.151e-11 + H2 5.756e-12 6.258e-12 -11.240 -11.204 0.036 28.61 +Hto 9.451e-08 + Hto 9.451e-08 9.451e-08 -7.024 -7.024 0.000 (0) I 1.046e-07 I- 1.046e-07 1.046e-07 -6.980 -6.980 -0.000 (0) K 1.540e-03 @@ -40157,15 +40157,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 4.224e-08 - Nat+ 4.224e-08 4.224e-08 -7.374 -7.374 -0.000 (0) +Nat 3.856e-08 + Nat+ 3.856e-08 3.856e-08 -7.414 -7.414 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.023 -69.987 0.036 30.40 -S(-2) 6.225e-09 - HS- 4.352e-09 2.865e-09 -8.361 -8.543 -0.182 21.14 - H2S 1.873e-09 2.036e-09 -8.728 -8.691 0.036 36.27 - S-2 1.767e-14 4.258e-15 -13.753 -14.371 -0.618 (0) - (H2S)2 2.009e-19 2.184e-19 -18.697 -18.661 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.018 -69.982 0.036 30.40 +S(-2) 6.072e-09 + HS- 4.245e-09 2.795e-09 -8.372 -8.554 -0.182 21.14 + H2S 1.827e-09 1.986e-09 -8.738 -8.702 0.036 36.27 + S-2 1.723e-14 4.154e-15 -13.764 -14.382 -0.618 (0) + (H2S)2 1.912e-19 2.078e-19 -18.719 -18.682 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -40192,21 +40192,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.56 -11.36 -2.80 CH4 + CH4(g) -8.57 -11.38 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.10 -11.20 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.70 -15.63 -7.94 H2S + H2S(g) -7.71 -15.64 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.09 -69.99 -2.89 O2 + O2(g) -67.09 -69.98 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.52 -0.64 4.88 S + Sulfur -5.53 -0.65 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -40230,7 +40230,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.867e-11 Surface + diffuse layer charge, eq + -8.866e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -40240,7 +40240,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -40251,12 +40251,12 @@ Su Ca 7.1884e-02 Cl 4.6652e-10 H 1.2948e-04 - Hto 1.5831e-09 + Hto 1.4452e-09 I 1.4306e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0835e-09 + Nat 1.7753e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -40275,12 +40275,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.342e-08 1.581e-09 + Hto 1.225e-08 1.443e-09 I 1.214e-08 1.431e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.545e-09 4.177e-10 + Nat 3.021e-09 3.559e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -40291,7 +40291,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -40312,8 +40312,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.506e-12 - CH4 7.506e-12 8.160e-12 -11.125 -11.088 0.036 35.46 +C(-4) 7.502e-12 + CH4 7.502e-12 8.156e-12 -11.125 -11.089 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -40338,9 +40338,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.358e-11 - H2 6.792e-12 7.384e-12 -11.168 -11.132 0.036 28.61 -Hto 1.342e-08 - Hto 1.342e-08 1.342e-08 -7.872 -7.872 0.000 (0) + H2 6.791e-12 7.383e-12 -11.168 -11.132 0.036 28.61 +Hto 1.225e-08 + Hto 1.225e-08 1.225e-08 -7.912 -7.912 0.000 (0) I 1.214e-08 I- 1.214e-08 1.214e-08 -7.916 -7.916 -0.000 (0) K 1.540e-03 @@ -40358,15 +40358,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.545e-09 - Nat+ 3.545e-09 3.545e-09 -8.450 -8.450 -0.000 (0) +Nat 3.021e-09 + Nat+ 3.021e-09 3.021e-09 -8.520 -8.520 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.162 -70.125 0.036 30.40 -S(-2) 1.177e-08 - HS- 8.226e-09 5.416e-09 -8.085 -8.266 -0.182 21.14 - H2S 3.539e-09 3.848e-09 -8.451 -8.415 0.036 36.27 - S-2 3.339e-14 8.049e-15 -13.476 -14.094 -0.618 (0) - (H2S)2 7.175e-19 7.801e-19 -18.144 -18.108 0.036 30.09 +S(-2) 1.176e-08 + HS- 8.222e-09 5.413e-09 -8.085 -8.267 -0.182 21.14 + H2S 3.537e-09 3.846e-09 -8.451 -8.415 0.036 36.27 + S-2 3.338e-14 8.045e-15 -13.477 -14.094 -0.618 (0) + (H2S)2 7.167e-19 7.792e-19 -18.145 -18.108 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -40441,7 +40441,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -40452,12 +40452,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 1.3937e-10 + Hto 1.2203e-10 I 1.0760e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1102e-10 + Nat 8.8334e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -40476,12 +40476,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.181e-09 1.391e-10 + Hto 1.034e-09 1.218e-10 I 9.134e-10 1.076e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.889e-10 2.226e-11 + Nat 1.503e-10 1.771e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -40492,7 +40492,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -40513,8 +40513,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.141e-12 - CH4 8.141e-12 8.852e-12 -11.089 -11.053 0.036 35.46 +C(-4) 8.142e-12 + CH4 8.142e-12 8.853e-12 -11.089 -11.053 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -40540,8 +40540,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.386e-11 H2 6.931e-12 7.536e-12 -11.159 -11.123 0.036 28.61 -Hto 1.181e-09 - Hto 1.181e-09 1.181e-09 -8.928 -8.928 0.000 (0) +Hto 1.034e-09 + Hto 1.034e-09 1.034e-09 -8.985 -8.985 0.000 (0) I 9.134e-10 I- 9.134e-10 9.134e-10 -9.039 -9.039 -0.000 (0) K 1.540e-03 @@ -40559,15 +40559,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.889e-10 - Nat+ 1.889e-10 1.889e-10 -9.724 -9.724 -0.000 (0) +Nat 1.503e-10 + Nat+ 1.503e-10 1.503e-10 -9.823 -9.823 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.179 -70.143 0.036 30.40 S(-2) 1.276e-08 - HS- 8.923e-09 5.874e-09 -8.049 -8.231 -0.182 21.14 - H2S 3.838e-09 4.173e-09 -8.416 -8.380 0.036 36.27 - S-2 3.622e-14 8.731e-15 -13.441 -14.059 -0.618 (0) - (H2S)2 8.441e-19 9.178e-19 -18.074 -18.037 0.036 30.09 + HS- 8.924e-09 5.875e-09 -8.049 -8.231 -0.182 21.14 + H2S 3.839e-09 4.174e-09 -8.416 -8.379 0.036 36.27 + S-2 3.623e-14 8.732e-15 -13.441 -14.059 -0.618 (0) + (H2S)2 8.443e-19 9.180e-19 -18.073 -18.037 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -40601,7 +40601,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.02 -11.12 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.39 -15.32 -7.94 H2S + H2S(g) -7.38 -15.32 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -40642,7 +40642,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -40653,12 +40653,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 8.2381e-12 - I 5.4154e-24 + Hto 6.9149e-12 + I 5.4146e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9176e-12 + Nat 2.9112e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -40677,12 +40677,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.981e-11 8.225e-12 + Hto 5.860e-11 6.904e-12 I 4.596e-11 5.415e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.666e-12 7.853e-13 + Nat 4.954e-12 5.836e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -40693,7 +40693,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -40715,7 +40715,7 @@ Su H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 8.193e-12 - CH4 8.193e-12 8.907e-12 -11.087 -11.050 0.036 35.46 + CH4 8.193e-12 8.908e-12 -11.087 -11.050 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -40741,8 +40741,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.388e-11 H2 6.942e-12 7.548e-12 -11.159 -11.122 0.036 28.61 -Hto 6.981e-11 - Hto 6.981e-11 6.981e-11 -10.156 -10.156 0.000 (0) +Hto 5.860e-11 + Hto 5.860e-11 5.860e-11 -10.232 -10.232 0.000 (0) I 4.596e-11 I- 4.596e-11 4.596e-11 -10.338 -10.338 -0.000 (0) K 1.540e-03 @@ -40760,14 +40760,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 6.666e-12 - Nat+ 6.666e-12 6.666e-12 -11.176 -11.176 -0.000 (0) +Nat 4.954e-12 + Nat+ 4.954e-12 4.954e-12 -11.305 -11.305 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 S(-2) 1.284e-08 HS- 8.979e-09 5.911e-09 -8.047 -8.228 -0.182 21.14 H2S 3.863e-09 4.200e-09 -8.413 -8.377 0.036 36.27 - S-2 3.645e-14 8.786e-15 -13.438 -14.056 -0.618 (0) + S-2 3.645e-14 8.787e-15 -13.438 -14.056 -0.618 (0) (H2S)2 8.548e-19 9.294e-19 -18.068 -18.032 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -40843,7 +40843,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -40854,12 +40854,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 3.2593e-13 + Hto 2.6218e-13 I 1.8196e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1788e-14 + Nat 6.3713e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -40878,12 +40878,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.762e-12 3.254e-13 + Hto 2.222e-12 2.618e-13 I 1.544e-12 1.820e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.562e-13 1.840e-14 + Nat 1.084e-13 1.277e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -40894,7 +40894,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -40942,8 +40942,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.389e-11 H2 6.943e-12 7.548e-12 -11.158 -11.122 0.036 28.61 -Hto 2.762e-12 - Hto 2.762e-12 2.762e-12 -11.559 -11.559 0.000 (0) +Hto 2.222e-12 + Hto 2.222e-12 2.222e-12 -11.653 -11.653 0.000 (0) I 1.544e-12 I- 1.544e-12 1.544e-12 -11.811 -11.811 -0.000 (0) K 1.540e-03 @@ -40961,8 +40961,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.562e-13 - Nat+ 1.562e-13 1.562e-13 -12.806 -12.806 -0.000 (0) +Nat 1.084e-13 + Nat+ 1.084e-13 1.084e-13 -12.965 -12.965 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 S(-2) 1.285e-08 @@ -41034,7 +41034,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -8.877e-11 Surface + diffuse layer charge, eq + -8.876e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -41044,7 +41044,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -41055,12 +41055,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 8.3095e-15 - I 3.9356e-27 + Hto 6.4047e-15 + I 3.9340e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3789e-15 + Nat 8.9413e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -41079,12 +41079,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.042e-14 8.296e-15 + Hto 5.428e-14 6.394e-15 I 3.340e-14 3.934e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.346e-15 2.764e-16 + Nat 1.521e-15 1.792e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -41095,7 +41095,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -41143,8 +41143,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.389e-11 H2 6.943e-12 7.548e-12 -11.158 -11.122 0.036 28.61 -Hto 7.042e-14 - Hto 7.042e-14 7.042e-14 -13.152 -13.152 0.000 (0) +Hto 5.428e-14 + Hto 5.428e-14 5.428e-14 -13.265 -13.265 0.000 (0) I 3.340e-14 I- 3.340e-14 3.340e-14 -13.476 -13.476 -0.000 (0) K 1.540e-03 @@ -41162,8 +41162,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.346e-15 - Nat+ 2.346e-15 2.346e-15 -14.630 -14.630 -0.000 (0) +Nat 1.521e-15 + Nat+ 1.521e-15 1.521e-15 -14.818 -14.818 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 S(-2) 1.285e-08 @@ -41235,7 +41235,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.877e-11 Surface + diffuse layer charge, eq + -8.873e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -41245,7 +41245,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -41256,12 +41256,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 1.2377e-16 + Hto 9.1399e-17 I 4.9661e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2061e-17 + Nat 7.3068e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -41280,12 +41280,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.049e-15 1.236e-16 + Hto 7.746e-16 9.125e-17 I 4.215e-16 4.965e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.052e-17 2.418e-18 + Nat 1.243e-17 1.465e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -41296,14 +41296,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.599e-09 + Electrical balance (eq) = 3.156e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -41317,8 +41317,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.175e-12 - CH4 7.175e-12 7.801e-12 -11.144 -11.108 0.036 35.46 +C(-4) 7.188e-12 + CH4 7.188e-12 7.816e-12 -11.143 -11.107 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -41342,10 +41342,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.343e-11 - H2 6.716e-12 7.301e-12 -11.173 -11.137 0.036 28.61 -Hto 1.049e-15 - Hto 1.049e-15 1.049e-15 -14.979 -14.979 0.000 (0) +H(0) 1.344e-11 + H2 6.719e-12 7.305e-12 -11.173 -11.136 0.036 28.61 +Hto 7.746e-16 + Hto 7.746e-16 7.746e-16 -15.111 -15.111 0.000 (0) I 4.215e-16 I- 4.215e-16 4.215e-16 -15.375 -15.375 -0.000 (0) K 1.540e-03 @@ -41363,15 +41363,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.052e-17 - Nat+ 2.052e-17 2.052e-17 -16.688 -16.688 -0.000 (0) +Nat 1.243e-17 + Nat+ 1.243e-17 1.243e-17 -16.905 -16.905 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 -S(-2) 1.125e-08 - HS- 7.864e-09 5.177e-09 -8.104 -8.286 -0.182 21.14 - H2S 3.383e-09 3.678e-09 -8.471 -8.434 0.036 36.27 - S-2 3.192e-14 7.695e-15 -13.496 -14.114 -0.618 (0) - (H2S)2 6.557e-19 7.129e-19 -18.183 -18.147 0.036 30.09 +S(-2) 1.127e-08 + HS- 7.879e-09 5.187e-09 -8.104 -8.285 -0.182 21.14 + H2S 3.389e-09 3.685e-09 -8.470 -8.434 0.036 36.27 + S-2 3.198e-14 7.709e-15 -13.495 -14.113 -0.618 (0) + (H2S)2 6.581e-19 7.156e-19 -18.182 -18.145 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -41436,7 +41436,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.868e-11 Surface + diffuse layer charge, eq + -8.869e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -41446,7 +41446,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -41457,12 +41457,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 8.2029e-19 - I 2.7868e-31 + Hto 5.8027e-19 + I 2.7863e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6825e-20 + Nat 2.6505e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -41481,12 +41481,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.952e-18 8.190e-19 + Hto 4.918e-18 5.793e-19 I 2.365e-18 2.786e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.968e-20 9.387e-21 + Nat 4.510e-20 5.313e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -41497,7 +41497,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -41545,8 +41545,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.389e-11 H2 6.943e-12 7.548e-12 -11.158 -11.122 0.036 28.61 -Hto 6.952e-18 - Hto 6.952e-18 6.952e-18 -17.158 -17.158 0.000 (0) +Hto 4.918e-18 + Hto 4.918e-18 4.918e-18 -17.308 -17.308 0.000 (0) I 2.365e-18 I- 2.365e-18 2.365e-18 -17.626 -17.626 -0.000 (0) K 1.540e-03 @@ -41564,8 +41564,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.968e-20 - Nat+ 7.968e-20 7.968e-20 -19.099 -19.099 -0.000 (0) +Nat 4.510e-20 + Nat+ 4.510e-20 4.510e-20 -19.346 -19.346 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 S(-2) 1.285e-08 @@ -41637,7 +41637,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -8.877e-11 Surface + diffuse layer charge, eq + -8.876e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -41647,7 +41647,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -41692,7 +41692,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -41836,7 +41836,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -41881,7 +41881,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42025,7 +42025,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -42070,7 +42070,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42204,7 +42204,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -8.876e-11 Surface + diffuse layer charge, eq + -8.877e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -42214,7 +42214,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -42259,7 +42259,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42403,7 +42403,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -42448,7 +42448,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42592,7 +42592,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -42637,7 +42637,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42771,7 +42771,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -8.876e-11 Surface + diffuse layer charge, eq + -8.877e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -42781,7 +42781,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -42826,7 +42826,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -42970,7 +42970,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -43015,7 +43015,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -43149,7 +43149,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -8.877e-11 Surface + diffuse layer charge, eq + -8.876e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -43159,7 +43159,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -43204,7 +43204,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -43348,7 +43348,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -43393,7 +43393,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -43527,7 +43527,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -8.876e-11 Surface + diffuse layer charge, eq + -8.877e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -43537,7 +43537,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -43582,7 +43582,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -44015,30 +44015,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.212e-07 3.606e-07 + Hto 7.268e-07 3.634e-07 I 8.367e-07 4.184e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 5.096e-07 2.548e-07 + Nat 5.241e-07 2.620e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.820 Adjusted to redox equilibrium + pe = -2.816 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.234e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -44052,8 +44052,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.356e-14 - CH4 4.356e-14 4.736e-14 -13.361 -13.325 0.036 35.46 +C(-4) 4.077e-14 + CH4 4.077e-14 4.432e-14 -13.390 -13.353 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -44077,10 +44077,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.749e-12 - H2 1.874e-12 2.038e-12 -11.727 -11.691 0.036 28.61 -Hto 7.212e-07 - Hto 7.212e-07 7.212e-07 -6.142 -6.142 0.000 (0) +H(0) 3.687e-12 + H2 1.844e-12 2.004e-12 -11.734 -11.698 0.036 28.61 +Hto 7.268e-07 + Hto 7.268e-07 7.268e-07 -6.139 -6.139 0.000 (0) I 8.367e-07 I- 8.367e-07 8.367e-07 -6.077 -6.077 -0.000 (0) K 1.540e-03 @@ -44098,15 +44098,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 5.096e-07 - Nat+ 5.096e-07 5.096e-07 -6.293 -6.293 -0.000 (0) +Nat 5.241e-07 + Nat+ 5.241e-07 5.241e-07 -6.281 -6.281 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.043 -69.007 0.036 30.40 -S(-2) 6.829e-11 - HS- 4.774e-11 3.143e-11 -10.321 -10.503 -0.182 21.14 - H2S 2.054e-11 2.234e-11 -10.687 -10.651 0.036 36.27 - S-2 1.937e-16 4.670e-17 -15.713 -16.331 -0.618 (0) - (H2S)2 2.418e-23 2.629e-23 -22.617 -22.580 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.029 -68.993 0.036 30.40 +S(-2) 6.391e-11 + HS- 4.468e-11 2.941e-11 -10.350 -10.531 -0.182 21.14 + H2S 1.923e-11 2.090e-11 -10.716 -10.680 0.036 36.27 + S-2 1.813e-16 4.371e-17 -15.742 -16.359 -0.618 (0) + (H2S)2 2.118e-23 2.303e-23 -22.674 -22.638 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -44133,21 +44133,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.52 -13.32 -2.80 CH4 + CH4(g) -10.55 -13.35 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.59 -11.69 -3.10 H2 + H2(g) -8.60 -11.70 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.66 -17.59 -7.94 H2S + H2S(g) -9.69 -17.62 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.11 -69.01 -2.89 O2 + O2(g) -66.10 -68.99 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.99 -2.11 4.88 S + Sulfur -7.01 -2.13 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -44171,7 +44171,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -8.366e-14 Surface + diffuse layer charge, eq + -8.477e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -44181,7 +44181,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -44192,12 +44192,12 @@ Su Ca 7.1884e-02 Cl 4.6666e-10 H 1.2947e-04 - Hto 5.4107e-08 + Hto 5.3528e-08 I 6.5447e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7258e-07 + Nat 1.6940e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -44216,30 +44216,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.585e-07 5.402e-08 + Hto 4.536e-07 5.344e-08 I 5.555e-07 6.544e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.937e-07 3.460e-08 + Nat 2.883e-07 3.396e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.947 Adjusted to redox equilibrium + pe = -2.953 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.745e-09 + Electrical balance (eq) = 1.736e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -44253,8 +44253,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.581e-13 - CH4 4.581e-13 4.981e-13 -12.339 -12.303 0.036 35.46 +C(-4) 5.059e-13 + CH4 5.059e-13 5.500e-13 -12.296 -12.260 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -44278,10 +44278,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.751e-12 - H2 3.376e-12 3.670e-12 -11.472 -11.435 0.036 28.61 -Hto 4.585e-07 - Hto 4.585e-07 4.585e-07 -6.339 -6.339 0.000 (0) +H(0) 6.921e-12 + H2 3.460e-12 3.762e-12 -11.461 -11.425 0.036 28.61 +Hto 4.536e-07 + Hto 4.536e-07 4.536e-07 -6.343 -6.343 0.000 (0) I 5.555e-07 I- 5.555e-07 5.555e-07 -6.255 -6.255 -0.000 (0) K 1.540e-03 @@ -44299,15 +44299,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.937e-07 - Nat+ 2.937e-07 2.937e-07 -6.532 -6.532 -0.000 (0) +Nat 2.883e-07 + Nat+ 2.883e-07 2.883e-07 -6.540 -6.540 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.554 -69.518 0.036 30.40 -S(-2) 7.182e-10 - HS- 5.021e-10 3.305e-10 -9.299 -9.481 -0.182 21.14 - H2S 2.161e-10 2.349e-10 -9.665 -9.629 0.036 36.27 - S-2 2.038e-15 4.912e-16 -14.691 -15.309 -0.618 (0) - (H2S)2 2.675e-21 2.908e-21 -20.573 -20.536 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.576 -69.540 0.036 30.40 +S(-2) 7.930e-10 + HS- 5.545e-10 3.650e-10 -9.256 -9.438 -0.182 21.14 + H2S 2.386e-10 2.594e-10 -9.622 -9.586 0.036 36.27 + S-2 2.250e-15 5.424e-16 -14.648 -15.266 -0.618 (0) + (H2S)2 3.261e-21 3.546e-21 -20.487 -20.450 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -44334,21 +44334,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.50 -12.30 -2.80 CH4 + CH4(g) -9.46 -12.26 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.33 -11.44 -3.10 H2 + H2(g) -8.32 -11.42 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.63 -16.57 -7.94 H2S + H2S(g) -8.59 -16.53 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.63 -69.52 -2.89 O2 + O2(g) -66.65 -69.54 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.23 -1.34 4.88 S + Sulfur -6.19 -1.31 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -44372,7 +44372,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.882e-11 Surface + diffuse layer charge, eq + -8.881e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -44382,7 +44382,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -44393,12 +44393,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2947e-04 - Hto 1.3371e-08 - I 1.4163e-20 + Hto 1.2749e-08 + I 1.4166e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8727e-08 + Nat 2.6332e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -44417,30 +44417,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.133e-07 1.335e-08 + Hto 1.080e-07 1.273e-08 I 1.202e-07 1.416e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.888e-08 5.759e-09 + Nat 4.481e-08 5.279e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.078 Adjusted to redox equilibrium + pe = -3.077 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.611e-09 + Electrical balance (eq) = 5.577e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -44454,8 +44454,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.032e-12 - CH4 5.032e-12 5.471e-12 -11.298 -11.262 0.036 35.46 +C(-4) 4.941e-12 + CH4 4.941e-12 5.372e-12 -11.306 -11.270 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -44467,7 +44467,7 @@ C(4) 2.744e-03 MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -44479,10 +44479,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.229e-11 - H2 6.146e-12 6.682e-12 -11.211 -11.175 0.036 28.61 -Hto 1.133e-07 - Hto 1.133e-07 1.133e-07 -6.946 -6.946 0.000 (0) +H(0) 1.224e-11 + H2 6.118e-12 6.651e-12 -11.213 -11.177 0.036 28.61 +Hto 1.080e-07 + Hto 1.080e-07 1.080e-07 -6.966 -6.966 0.000 (0) I 1.202e-07 I- 1.202e-07 1.202e-07 -6.920 -6.920 -0.000 (0) K 1.540e-03 @@ -44500,15 +44500,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 4.888e-08 - Nat+ 4.888e-08 4.888e-08 -7.311 -7.311 -0.000 (0) +Nat 4.481e-08 + Nat+ 4.481e-08 4.481e-08 -7.349 -7.349 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.075 -70.039 0.036 30.40 -S(-2) 7.888e-09 - HS- 5.515e-09 3.631e-09 -8.258 -8.440 -0.182 21.14 - H2S 2.373e-09 2.580e-09 -8.625 -8.588 0.036 36.27 - S-2 2.239e-14 5.396e-15 -13.650 -14.268 -0.618 (0) - (H2S)2 3.226e-19 3.507e-19 -18.491 -18.455 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.071 -70.035 0.036 30.40 +S(-2) 7.746e-09 + HS- 5.416e-09 3.565e-09 -8.266 -8.448 -0.182 21.14 + H2S 2.330e-09 2.533e-09 -8.633 -8.596 0.036 36.27 + S-2 2.198e-14 5.299e-15 -13.658 -14.276 -0.618 (0) + (H2S)2 3.110e-19 3.382e-19 -18.507 -18.471 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -44523,7 +44523,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -44535,21 +44535,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.46 -11.26 -2.80 CH4 + CH4(g) -8.47 -11.27 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.07 -11.18 -3.10 H2 + H2(g) -8.08 -11.18 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.59 -15.53 -7.94 H2S + H2S(g) -7.60 -15.54 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.15 -70.04 -2.89 O2 + O2(g) -67.14 -70.03 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.45 -0.56 4.88 S + Sulfur -5.45 -0.57 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -44583,7 +44583,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -44594,12 +44594,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 2.0471e-09 - I 1.8694e-21 + Hto 1.8752e-09 + I 1.8690e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.7573e-09 + Nat 2.3600e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -44618,12 +44618,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.735e-08 2.044e-09 + Hto 1.589e-08 1.872e-09 I 1.586e-08 1.869e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.692e-09 5.528e-10 + Nat 4.016e-09 4.731e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -44634,7 +44634,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -44655,8 +44655,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.396e-12 - CH4 8.396e-12 9.129e-12 -11.076 -11.040 0.036 35.46 +C(-4) 8.391e-12 + CH4 8.391e-12 9.123e-12 -11.076 -11.040 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -44681,9 +44681,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.397e-11 - H2 6.985e-12 7.594e-12 -11.156 -11.120 0.036 28.61 -Hto 1.735e-08 - Hto 1.735e-08 1.735e-08 -7.761 -7.761 0.000 (0) + H2 6.984e-12 7.593e-12 -11.156 -11.120 0.036 28.61 +Hto 1.589e-08 + Hto 1.589e-08 1.589e-08 -7.799 -7.799 0.000 (0) I 1.586e-08 I- 1.586e-08 1.586e-08 -7.800 -7.800 -0.000 (0) K 1.540e-03 @@ -44701,15 +44701,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 4.692e-09 - Nat+ 4.692e-09 4.692e-09 -8.329 -8.329 -0.000 (0) +Nat 4.016e-09 + Nat+ 4.016e-09 4.016e-09 -8.396 -8.396 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.186 -70.150 0.036 30.40 -S(-2) 1.316e-08 - HS- 9.203e-09 6.058e-09 -8.036 -8.218 -0.182 21.14 - H2S 3.959e-09 4.304e-09 -8.402 -8.366 0.036 36.27 - S-2 3.736e-14 9.005e-15 -13.428 -14.046 -0.618 (0) - (H2S)2 8.978e-19 9.762e-19 -18.047 -18.010 0.036 30.09 +S(-2) 1.315e-08 + HS- 9.197e-09 6.054e-09 -8.036 -8.218 -0.182 21.14 + H2S 3.956e-09 4.301e-09 -8.403 -8.366 0.036 36.27 + S-2 3.733e-14 8.999e-15 -13.428 -14.046 -0.618 (0) + (H2S)2 8.967e-19 9.749e-19 -18.047 -18.011 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -44774,7 +44774,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -8.909e-11 Surface + diffuse layer charge, eq + -8.910e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -44784,7 +44784,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -44795,12 +44795,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 2.0934e-10 - I 1.6355e-22 + Hto 1.8400e-10 + I 1.6352e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7154e-10 + Nat 1.3711e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -44819,12 +44819,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.774e-09 2.090e-10 + Hto 1.559e-09 1.837e-10 I 1.388e-09 1.635e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.919e-10 3.439e-11 + Nat 2.333e-10 2.749e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -44835,7 +44835,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -44856,8 +44856,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.135e-12 - CH4 9.135e-12 9.932e-12 -11.039 -11.003 0.036 35.46 +C(-4) 9.136e-12 + CH4 9.136e-12 9.933e-12 -11.039 -11.003 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -44883,8 +44883,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.427e-11 H2 7.134e-12 7.756e-12 -11.147 -11.110 0.036 28.61 -Hto 1.774e-09 - Hto 1.774e-09 1.774e-09 -8.751 -8.751 0.000 (0) +Hto 1.559e-09 + Hto 1.559e-09 1.559e-09 -8.807 -8.807 0.000 (0) I 1.388e-09 I- 1.388e-09 1.388e-09 -8.858 -8.858 -0.000 (0) K 1.540e-03 @@ -44902,15 +44902,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.919e-10 - Nat+ 2.919e-10 2.919e-10 -9.535 -9.535 -0.000 (0) +Nat 2.333e-10 + Nat+ 2.333e-10 2.333e-10 -9.632 -9.632 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.204 -70.168 0.036 30.40 S(-2) 1.432e-08 - HS- 1.001e-08 6.591e-09 -7.999 -8.181 -0.182 21.14 - H2S 4.307e-09 4.682e-09 -8.366 -8.330 0.036 36.27 - S-2 4.064e-14 9.797e-15 -13.391 -14.009 -0.618 (0) - (H2S)2 1.063e-18 1.155e-18 -17.974 -17.937 0.036 30.09 + HS- 1.001e-08 6.592e-09 -7.999 -8.181 -0.182 21.14 + H2S 4.307e-09 4.683e-09 -8.366 -8.329 0.036 36.27 + S-2 4.065e-14 9.799e-15 -13.391 -14.009 -0.618 (0) + (H2S)2 1.063e-18 1.156e-18 -17.973 -17.937 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -44944,7 +44944,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.01 -11.11 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.34 -15.27 -7.94 H2S + H2S(g) -7.33 -15.27 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -44985,7 +44985,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -44996,12 +44996,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 1.4806e-11 - I 9.8567e-24 + Hto 1.2478e-11 + I 9.8551e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2684e-12 + Nat 5.4262e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -45020,12 +45020,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.255e-10 1.478e-11 + Hto 1.057e-10 1.246e-11 I 8.366e-11 9.855e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.237e-11 1.457e-12 + Nat 9.233e-12 1.088e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -45036,7 +45036,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -45084,8 +45084,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.430e-11 H2 7.148e-12 7.772e-12 -11.146 -11.109 0.036 28.61 -Hto 1.255e-10 - Hto 1.255e-10 1.255e-10 -9.901 -9.901 0.000 (0) +Hto 1.057e-10 + Hto 1.057e-10 1.057e-10 -9.976 -9.976 0.000 (0) I 8.366e-11 I- 8.366e-11 8.366e-11 -10.078 -10.078 -0.000 (0) K 1.540e-03 @@ -45103,8 +45103,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.237e-11 - Nat+ 1.237e-11 1.237e-11 -10.908 -10.908 -0.000 (0) +Nat 9.233e-12 + Nat+ 9.233e-12 9.233e-12 -11.035 -11.035 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.206 -70.170 0.036 30.40 S(-2) 1.444e-08 @@ -45186,7 +45186,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -45197,12 +45197,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 7.3077e-13 - I 4.1354e-25 + Hto 5.9032e-13 + I 4.1344e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1298e-13 + Nat 1.4853e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -45221,12 +45221,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.193e-12 7.296e-13 + Hto 5.003e-12 5.894e-13 I 3.510e-12 4.135e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.624e-13 4.270e-14 + Nat 2.527e-13 2.977e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -45237,7 +45237,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -45285,8 +45285,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.430e-11 H2 7.149e-12 7.773e-12 -11.146 -11.109 0.036 28.61 -Hto 6.193e-12 - Hto 6.193e-12 6.193e-12 -11.208 -11.208 0.000 (0) +Hto 5.003e-12 + Hto 5.003e-12 5.003e-12 -11.301 -11.301 0.000 (0) I 3.510e-12 I- 3.510e-12 3.510e-12 -11.455 -11.455 -0.000 (0) K 1.540e-03 @@ -45304,8 +45304,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.624e-13 - Nat+ 3.624e-13 3.624e-13 -12.441 -12.441 -0.000 (0) +Nat 2.527e-13 + Nat+ 2.527e-13 2.527e-13 -12.597 -12.597 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.206 -70.170 0.036 30.40 S(-2) 1.444e-08 @@ -45387,7 +45387,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -45398,12 +45398,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 2.4804e-14 - I 1.1912e-26 + Hto 1.9201e-14 + I 1.1909e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2678e-15 + Nat 2.7804e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -45422,12 +45422,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.102e-13 2.476e-14 + Hto 1.627e-13 1.917e-14 I 1.011e-13 1.191e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.262e-15 8.556e-16 + Nat 4.731e-15 5.574e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -45438,7 +45438,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -45486,8 +45486,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.430e-11 H2 7.149e-12 7.773e-12 -11.146 -11.109 0.036 28.61 -Hto 2.102e-13 - Hto 2.102e-13 2.102e-13 -12.677 -12.677 0.000 (0) +Hto 1.627e-13 + Hto 1.627e-13 1.627e-13 -12.789 -12.789 0.000 (0) I 1.011e-13 I- 1.011e-13 1.011e-13 -12.995 -12.995 -0.000 (0) K 1.540e-03 @@ -45505,8 +45505,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.262e-15 - Nat+ 7.262e-15 7.262e-15 -14.139 -14.139 -0.000 (0) +Nat 4.731e-15 + Nat+ 4.731e-15 4.731e-15 -14.325 -14.325 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.206 -70.170 0.036 30.40 S(-2) 1.444e-08 @@ -45578,7 +45578,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.887e-11 Surface + diffuse layer charge, eq + -8.890e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -45588,7 +45588,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -45599,12 +45599,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 5.5357e-16 + Hto 4.1059e-16 I 2.2532e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.6016e-17 + Nat 3.4095e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -45623,12 +45623,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.691e-15 5.527e-16 + Hto 3.480e-15 4.099e-16 I 1.913e-15 2.253e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.532e-17 1.123e-17 + Nat 5.802e-17 6.835e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -45639,14 +45639,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.510e-09 + Electrical balance (eq) = 3.068e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -45660,8 +45660,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.195e-12 - CH4 8.195e-12 8.910e-12 -11.086 -11.050 0.036 35.46 +C(-4) 8.208e-12 + CH4 8.208e-12 8.924e-12 -11.086 -11.049 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -45686,9 +45686,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.389e-11 - H2 6.943e-12 7.548e-12 -11.158 -11.122 0.036 28.61 -Hto 4.691e-15 - Hto 4.691e-15 4.691e-15 -14.329 -14.329 0.000 (0) + H2 6.945e-12 7.551e-12 -11.158 -11.122 0.036 28.61 +Hto 3.480e-15 + Hto 3.480e-15 3.480e-15 -14.458 -14.458 0.000 (0) I 1.913e-15 I- 1.913e-15 1.913e-15 -14.718 -14.718 -0.000 (0) K 1.540e-03 @@ -45706,15 +45706,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 9.532e-17 - Nat+ 9.532e-17 9.532e-17 -16.021 -16.021 -0.000 (0) +Nat 5.802e-17 + Nat+ 5.802e-17 5.802e-17 -16.236 -16.236 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 -S(-2) 1.285e-08 - HS- 8.982e-09 5.913e-09 -8.047 -8.228 -0.182 21.14 - H2S 3.864e-09 4.201e-09 -8.413 -8.377 0.036 36.27 - S-2 3.646e-14 8.789e-15 -13.438 -14.056 -0.618 (0) - (H2S)2 8.553e-19 9.299e-19 -18.068 -18.032 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.181 -70.145 0.036 30.40 +S(-2) 1.287e-08 + HS- 8.996e-09 5.922e-09 -8.046 -8.228 -0.182 21.14 + H2S 3.870e-09 4.207e-09 -8.412 -8.376 0.036 36.27 + S-2 3.652e-14 8.803e-15 -13.437 -14.055 -0.618 (0) + (H2S)2 8.580e-19 9.328e-19 -18.067 -18.030 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -45779,7 +45779,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.897e-11 Surface + diffuse layer charge, eq + -8.899e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -45789,7 +45789,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -45800,12 +45800,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 7.3308e-18 - I 2.5272e-30 + Hto 5.2091e-18 + I 2.5276e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3509e-19 + Nat 2.4743e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -45824,12 +45824,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.213e-17 7.319e-18 + Hto 4.415e-17 5.201e-18 I 2.145e-17 2.527e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.404e-19 8.722e-20 + Nat 4.210e-19 4.960e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -45840,14 +45840,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.559e-09 + Electrical balance (eq) = 1.475e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -45861,8 +45861,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.196e-12 - CH4 8.196e-12 8.911e-12 -11.086 -11.050 0.036 35.46 +C(-4) 8.195e-12 + CH4 8.195e-12 8.910e-12 -11.086 -11.050 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -45888,8 +45888,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.389e-11 H2 6.943e-12 7.548e-12 -11.158 -11.122 0.036 28.61 -Hto 6.213e-17 - Hto 6.213e-17 6.213e-17 -16.207 -16.207 0.000 (0) +Hto 4.415e-17 + Hto 4.415e-17 4.415e-17 -16.355 -16.355 0.000 (0) I 2.145e-17 I- 2.145e-17 2.145e-17 -16.669 -16.669 -0.000 (0) K 1.540e-03 @@ -45907,15 +45907,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.404e-19 - Nat+ 7.404e-19 7.404e-19 -18.131 -18.131 -0.000 (0) +Nat 4.210e-19 + Nat+ 4.210e-19 4.210e-19 -18.376 -18.376 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.181 -70.144 0.036 30.40 S(-2) 1.285e-08 - HS- 8.983e-09 5.913e-09 -8.047 -8.228 -0.182 21.14 + HS- 8.982e-09 5.913e-09 -8.047 -8.228 -0.182 21.14 H2S 3.864e-09 4.201e-09 -8.413 -8.377 0.036 36.27 - S-2 3.646e-14 8.790e-15 -13.438 -14.056 -0.618 (0) - (H2S)2 8.554e-19 9.300e-19 -18.068 -18.031 0.036 30.09 + S-2 3.646e-14 8.789e-15 -13.438 -14.056 -0.618 (0) + (H2S)2 8.554e-19 9.300e-19 -18.068 -18.032 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -45990,7 +45990,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46001,12 +46001,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 4.3727e-20 + Hto 2.9765e-20 I 1.2764e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5192e-21 + Nat 8.0725e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -46025,12 +46025,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.706e-19 4.366e-20 + Hto 2.522e-19 2.972e-20 I 1.083e-19 1.276e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.585e-21 3.046e-22 + Nat 1.374e-21 1.618e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -46041,7 +46041,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -46089,8 +46089,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.430e-11 H2 7.149e-12 7.773e-12 -11.146 -11.109 0.036 28.61 -Hto 3.706e-19 - Hto 3.706e-19 3.706e-19 -18.431 -18.431 0.000 (0) +Hto 2.522e-19 + Hto 2.522e-19 2.522e-19 -18.598 -18.598 0.000 (0) I 1.083e-19 I- 1.083e-19 1.083e-19 -18.965 -18.965 -0.000 (0) K 1.540e-03 @@ -46108,8 +46108,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.585e-21 - Nat+ 2.585e-21 2.585e-21 -20.588 -20.588 -0.000 (0) +Nat 1.374e-21 + Nat+ 1.374e-21 1.374e-21 -20.862 -20.862 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.206 -70.170 0.036 30.40 S(-2) 1.444e-08 @@ -46181,7 +46181,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -8.906e-11 Surface + diffuse layer charge, eq + -8.905e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -46191,7 +46191,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46236,7 +46236,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -46370,7 +46370,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -8.905e-11 Surface + diffuse layer charge, eq + -8.906e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -46380,7 +46380,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46425,7 +46425,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -46559,7 +46559,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -8.906e-11 Surface + diffuse layer charge, eq + -8.905e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -46569,7 +46569,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46614,7 +46614,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -46758,7 +46758,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46803,7 +46803,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -46947,7 +46947,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -46992,7 +46992,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -47126,7 +47126,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -8.905e-11 Surface + diffuse layer charge, eq + -8.906e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -47136,7 +47136,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -47181,7 +47181,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -47315,7 +47315,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -8.906e-11 Surface + diffuse layer charge, eq + -8.905e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -47325,7 +47325,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -47370,7 +47370,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -47514,7 +47514,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -47559,7 +47559,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -47703,7 +47703,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -47748,7 +47748,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -47892,7 +47892,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -47937,7 +47937,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -48370,30 +48370,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 7.080e-07 3.540e-07 + Hto 7.136e-07 3.568e-07 I 8.286e-07 4.143e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.899e-07 2.449e-07 + Nat 5.038e-07 2.519e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.834 Adjusted to redox equilibrium + pe = -2.832 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.234e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -48407,8 +48407,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.631e-14 - CH4 5.631e-14 6.122e-14 -13.249 -13.213 0.036 35.46 +C(-4) 5.484e-14 + CH4 5.484e-14 5.962e-14 -13.261 -13.225 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -48432,10 +48432,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 3.997e-12 - H2 1.999e-12 2.173e-12 -11.699 -11.663 0.036 28.61 -Hto 7.080e-07 - Hto 7.080e-07 7.080e-07 -6.150 -6.150 0.000 (0) +H(0) 3.971e-12 + H2 1.986e-12 2.159e-12 -11.702 -11.666 0.036 28.61 +Hto 7.136e-07 + Hto 7.136e-07 7.136e-07 -6.147 -6.147 0.000 (0) I 8.286e-07 I- 8.286e-07 8.286e-07 -6.082 -6.082 -0.000 (0) K 1.540e-03 @@ -48453,15 +48453,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.899e-07 - Nat+ 4.899e-07 4.899e-07 -6.310 -6.310 -0.000 (0) +Nat 5.038e-07 + Nat+ 5.038e-07 5.038e-07 -6.298 -6.298 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.099 -69.063 0.036 30.40 -S(-2) 8.828e-11 - HS- 6.172e-11 4.063e-11 -10.210 -10.391 -0.182 21.14 - H2S 2.656e-11 2.888e-11 -10.576 -10.539 0.036 36.27 - S-2 2.505e-16 6.038e-17 -15.601 -16.219 -0.618 (0) - (H2S)2 4.041e-23 4.394e-23 -22.393 -22.357 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.093 -69.057 0.036 30.40 +S(-2) 8.597e-11 + HS- 6.011e-11 3.957e-11 -10.221 -10.403 -0.182 21.14 + H2S 2.586e-11 2.812e-11 -10.587 -10.551 0.036 36.27 + S-2 2.439e-16 5.880e-17 -15.613 -16.231 -0.618 (0) + (H2S)2 3.833e-23 4.167e-23 -22.417 -22.380 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -48488,21 +48488,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.41 -13.21 -2.80 CH4 + CH4(g) -10.42 -13.22 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.56 -11.66 -3.10 H2 + H2(g) -8.56 -11.67 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.54 -17.48 -7.94 H2S + H2S(g) -9.56 -17.49 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.17 -69.06 -2.89 O2 + O2(g) -66.16 -69.06 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.91 -2.03 4.88 S + Sulfur -6.92 -2.04 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -48526,7 +48526,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -8.854e-14 Surface + diffuse layer charge, eq + -8.871e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -48536,7 +48536,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -48547,12 +48547,12 @@ Su Ca 7.1884e-02 Cl 4.6665e-10 H 1.2947e-04 - Hto 5.5240e-08 + Hto 5.4743e-08 I 6.7154e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7615e-07 + Nat 1.7348e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -48571,30 +48571,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.681e-07 5.515e-08 + Hto 4.639e-07 5.465e-08 I 5.699e-07 6.714e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.997e-07 3.531e-08 + Nat 2.952e-07 3.478e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.961 Adjusted to redox equilibrium + pe = -2.964 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.743e-09 + Electrical balance (eq) = 1.734e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -48608,8 +48608,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.844e-13 - CH4 5.844e-13 6.354e-13 -12.233 -12.197 0.036 35.46 +C(-4) 6.199e-13 + CH4 6.199e-13 6.740e-13 -12.208 -12.171 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -48633,10 +48633,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.175e-12 - H2 3.587e-12 3.900e-12 -11.445 -11.409 0.036 28.61 -Hto 4.681e-07 - Hto 4.681e-07 4.681e-07 -6.330 -6.330 0.000 (0) +H(0) 7.281e-12 + H2 3.641e-12 3.958e-12 -11.439 -11.402 0.036 28.61 +Hto 4.639e-07 + Hto 4.639e-07 4.639e-07 -6.334 -6.334 0.000 (0) I 5.699e-07 I- 5.699e-07 5.699e-07 -6.244 -6.244 -0.000 (0) K 1.540e-03 @@ -48654,15 +48654,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 2.997e-07 - Nat+ 2.997e-07 2.997e-07 -6.523 -6.523 -0.000 (0) +Nat 2.952e-07 + Nat+ 2.952e-07 2.952e-07 -6.530 -6.530 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.607 -69.571 0.036 30.40 -S(-2) 9.161e-10 - HS- 6.405e-10 4.217e-10 -9.193 -9.375 -0.182 21.14 - H2S 2.756e-10 2.997e-10 -9.560 -9.523 0.036 36.27 - S-2 2.599e-15 6.266e-16 -14.585 -15.203 -0.618 (0) - (H2S)2 4.352e-21 4.732e-21 -20.361 -20.325 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.620 -69.584 0.036 30.40 +S(-2) 9.719e-10 + HS- 6.795e-10 4.473e-10 -9.168 -9.349 -0.182 21.14 + H2S 2.924e-10 3.179e-10 -9.534 -9.498 0.036 36.27 + S-2 2.757e-15 6.647e-16 -14.560 -15.177 -0.618 (0) + (H2S)2 4.898e-21 5.325e-21 -20.310 -20.274 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -48689,21 +48689,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.40 -12.20 -2.80 CH4 + CH4(g) -9.37 -12.17 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.31 -11.41 -3.10 H2 + H2(g) -8.30 -11.40 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.53 -16.47 -7.94 H2S + H2S(g) -8.50 -16.44 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.68 -69.57 -2.89 O2 + O2(g) -66.69 -69.58 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.15 -1.26 4.88 S + Sulfur -6.13 -1.25 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -48727,7 +48727,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.907e-11 Surface + diffuse layer charge, eq + -8.906e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -48737,7 +48737,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -48748,12 +48748,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2948e-04 - Hto 1.4939e-08 + Hto 1.4283e-08 I 1.5948e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2552e-08 + Nat 2.9960e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -48772,12 +48772,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.266e-07 1.492e-08 + Hto 1.210e-07 1.426e-08 I 1.354e-07 1.595e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.539e-08 6.526e-09 + Nat 5.098e-08 6.006e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -48788,14 +48788,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.523e-09 + Electrical balance (eq) = 5.489e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -48809,8 +48809,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.043e-12 - CH4 6.043e-12 6.570e-12 -11.219 -11.182 0.036 35.46 +C(-4) 5.962e-12 + CH4 5.962e-12 6.482e-12 -11.225 -11.188 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -48834,10 +48834,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.287e-11 - H2 6.433e-12 6.994e-12 -11.192 -11.155 0.036 28.61 -Hto 1.266e-07 - Hto 1.266e-07 1.266e-07 -6.898 -6.898 0.000 (0) +H(0) 1.282e-11 + H2 6.412e-12 6.971e-12 -11.193 -11.157 0.036 28.61 +Hto 1.210e-07 + Hto 1.210e-07 1.210e-07 -6.917 -6.917 0.000 (0) I 1.354e-07 I- 1.354e-07 1.354e-07 -6.868 -6.868 -0.000 (0) K 1.540e-03 @@ -48855,15 +48855,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 5.539e-08 - Nat+ 5.539e-08 5.539e-08 -7.257 -7.257 -0.000 (0) +Nat 5.098e-08 + Nat+ 5.098e-08 5.098e-08 -7.293 -7.293 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.115 -70.078 0.036 30.40 -S(-2) 9.472e-09 - HS- 6.623e-09 4.360e-09 -8.179 -8.361 -0.182 21.14 - H2S 2.849e-09 3.098e-09 -8.545 -8.509 0.036 36.27 - S-2 2.688e-14 6.480e-15 -13.571 -14.188 -0.618 (0) - (H2S)2 4.651e-19 5.057e-19 -18.332 -18.296 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.112 -70.075 0.036 30.40 +S(-2) 9.345e-09 + HS- 6.534e-09 4.301e-09 -8.185 -8.366 -0.182 21.14 + H2S 2.811e-09 3.056e-09 -8.551 -8.515 0.036 36.27 + S-2 2.652e-14 6.393e-15 -13.576 -14.194 -0.618 (0) + (H2S)2 4.527e-19 4.922e-19 -18.344 -18.308 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -48890,21 +48890,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.38 -11.18 -2.80 CH4 + CH4(g) -8.39 -11.19 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.05 -11.16 -3.10 H2 + H2(g) -8.06 -11.16 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.51 -15.45 -7.94 H2S + H2S(g) -7.52 -15.46 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.19 -70.08 -2.89 O2 + O2(g) -67.18 -70.08 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.39 -0.50 4.88 S + Sulfur -5.39 -0.51 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -48938,7 +48938,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -48949,12 +48949,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 2.5528e-09 - I 2.3537e-21 + Hto 2.3463e-09 + I 2.3546e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5160e-09 + Nat 3.0224e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -48973,12 +48973,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.163e-08 2.549e-09 + Hto 1.988e-08 2.342e-09 I 1.998e-08 2.354e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.983e-09 7.048e-10 + Nat 5.143e-09 6.059e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -48989,14 +48989,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.108e-10 + Electrical balance (eq) = 9.109e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -49010,8 +49010,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.299e-12 - CH4 9.299e-12 1.011e-11 -11.032 -10.995 0.036 35.46 +C(-4) 9.293e-12 + CH4 9.293e-12 1.010e-11 -11.032 -10.996 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -49036,9 +49036,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.433e-11 - H2 7.166e-12 7.791e-12 -11.145 -11.108 0.036 28.61 -Hto 2.163e-08 - Hto 2.163e-08 2.163e-08 -7.665 -7.665 0.000 (0) + H2 7.164e-12 7.789e-12 -11.145 -11.109 0.036 28.61 +Hto 1.988e-08 + Hto 1.988e-08 1.988e-08 -7.702 -7.702 0.000 (0) I 1.998e-08 I- 1.998e-08 1.998e-08 -7.699 -7.699 -0.000 (0) K 1.540e-03 @@ -49056,15 +49056,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 5.983e-09 - Nat+ 5.983e-09 5.983e-09 -8.223 -8.223 -0.000 (0) +Nat 5.143e-09 + Nat+ 5.143e-09 5.143e-09 -8.289 -8.289 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.208 -70.172 0.036 30.40 -S(-2) 1.458e-08 - HS- 1.019e-08 6.710e-09 -7.992 -8.173 -0.182 21.14 - H2S 4.384e-09 4.767e-09 -8.358 -8.322 0.036 36.27 - S-2 4.138e-14 9.974e-15 -13.383 -14.001 -0.618 (0) - (H2S)2 1.101e-18 1.197e-18 -17.958 -17.922 0.036 30.09 +S(-2) 1.457e-08 + HS- 1.019e-08 6.705e-09 -7.992 -8.174 -0.182 21.14 + H2S 4.381e-09 4.763e-09 -8.358 -8.322 0.036 36.27 + S-2 4.135e-14 9.967e-15 -13.384 -14.001 -0.618 (0) + (H2S)2 1.100e-18 1.196e-18 -17.959 -17.922 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -49139,7 +49139,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -49150,12 +49150,12 @@ Su Ca 7.1884e-02 Cl 4.6648e-10 H 1.2948e-04 - Hto 2.9694e-10 + Hto 2.6195e-10 I 2.3461e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5011e-10 + Nat 2.0080e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -49174,12 +49174,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.516e-09 2.965e-10 + Hto 2.220e-09 2.615e-10 I 1.991e-09 2.346e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.256e-10 5.014e-11 + Nat 3.417e-10 4.025e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -49190,7 +49190,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -49237,9 +49237,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.464e-11 - H2 7.320e-12 7.958e-12 -11.136 -11.099 0.036 28.61 -Hto 2.516e-09 - Hto 2.516e-09 2.516e-09 -8.599 -8.599 0.000 (0) + H2 7.320e-12 7.958e-12 -11.135 -11.099 0.036 28.61 +Hto 2.220e-09 + Hto 2.220e-09 2.220e-09 -8.654 -8.654 0.000 (0) I 1.991e-09 I- 1.991e-09 1.991e-09 -8.701 -8.701 -0.000 (0) K 1.540e-03 @@ -49257,15 +49257,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 4.256e-10 - Nat+ 4.256e-10 4.256e-10 -9.371 -9.371 -0.000 (0) +Nat 3.417e-10 + Nat+ 3.417e-10 3.417e-10 -9.466 -9.466 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.227 -70.190 0.036 30.40 S(-2) 1.587e-08 - HS- 1.110e-08 7.305e-09 -7.955 -8.136 -0.182 21.14 - H2S 4.773e-09 5.190e-09 -8.321 -8.285 0.036 36.27 - S-2 4.505e-14 1.086e-14 -13.346 -13.964 -0.618 (0) - (H2S)2 1.305e-18 1.419e-18 -17.884 -17.848 0.036 30.09 + HS- 1.110e-08 7.306e-09 -7.955 -8.136 -0.182 21.14 + H2S 4.774e-09 5.191e-09 -8.321 -8.285 0.036 36.27 + S-2 4.506e-14 1.086e-14 -13.346 -13.964 -0.618 (0) + (H2S)2 1.306e-18 1.420e-18 -17.884 -17.848 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -49330,7 +49330,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -8.935e-11 Surface + diffuse layer charge, eq + -8.936e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -49340,7 +49340,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -49351,12 +49351,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 2.4426e-11 + Hto 2.0667e-11 I 1.6463e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2369e-11 + Nat 9.2761e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -49375,12 +49375,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.070e-10 2.439e-11 + Hto 1.751e-10 2.063e-11 I 1.397e-10 1.646e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.105e-11 2.480e-12 + Nat 1.578e-11 1.860e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -49391,7 +49391,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -49439,8 +49439,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.468e-11 H2 7.338e-12 7.978e-12 -11.134 -11.098 0.036 28.61 -Hto 2.070e-10 - Hto 2.070e-10 2.070e-10 -9.684 -9.684 0.000 (0) +Hto 1.751e-10 + Hto 1.751e-10 1.751e-10 -9.757 -9.757 0.000 (0) I 1.397e-10 I- 1.397e-10 1.397e-10 -9.855 -9.855 -0.000 (0) K 1.540e-03 @@ -49458,8 +49458,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.105e-11 - Nat+ 2.105e-11 2.105e-11 -10.677 -10.677 -0.000 (0) +Nat 1.578e-11 + Nat+ 1.578e-11 1.578e-11 -10.802 -10.802 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 S(-2) 1.603e-08 @@ -49541,7 +49541,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -49552,12 +49552,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 1.4435e-12 + Hto 1.1708e-12 I 8.2748e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3512e-13 + Nat 3.0483e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -49576,12 +49576,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.223e-11 1.441e-12 + Hto 9.922e-12 1.169e-12 I 7.024e-12 8.275e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.404e-13 8.723e-14 + Nat 5.187e-13 6.111e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -49592,7 +49592,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -49640,8 +49640,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.468e-11 H2 7.339e-12 7.980e-12 -11.134 -11.098 0.036 28.61 -Hto 1.223e-11 - Hto 1.223e-11 1.223e-11 -10.912 -10.912 0.000 (0) +Hto 9.922e-12 + Hto 9.922e-12 9.922e-12 -11.003 -11.003 0.000 (0) I 7.024e-12 I- 7.024e-12 7.024e-12 -11.153 -11.153 -0.000 (0) K 1.540e-03 @@ -49659,8 +49659,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.404e-13 - Nat+ 7.404e-13 7.404e-13 -12.131 -12.131 -0.000 (0) +Nat 5.187e-13 + Nat+ 5.187e-13 5.187e-13 -12.285 -12.285 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 S(-2) 1.604e-08 @@ -49742,7 +49742,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -49753,12 +49753,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 6.1144e-14 + Hto 4.7533e-14 I 2.9768e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0903e-14 + Nat 7.1357e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -49777,12 +49777,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.182e-13 6.105e-14 + Hto 4.028e-13 4.746e-14 I 2.527e-13 2.977e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.855e-14 2.186e-15 + Nat 1.214e-14 1.430e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -49793,7 +49793,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -49815,7 +49815,7 @@ Su H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.019e-11 - CH4 1.019e-11 1.108e-11 -10.992 -10.956 0.036 35.46 + CH4 1.019e-11 1.108e-11 -10.992 -10.955 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -49840,9 +49840,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.466e-11 - H2 7.331e-12 7.971e-12 -11.135 -11.099 0.036 28.61 -Hto 5.182e-13 - Hto 5.182e-13 5.182e-13 -12.286 -12.286 0.000 (0) + H2 7.331e-12 7.971e-12 -11.135 -11.098 0.036 28.61 +Hto 4.028e-13 + Hto 4.028e-13 4.028e-13 -12.395 -12.395 0.000 (0) I 2.527e-13 I- 2.527e-13 2.527e-13 -12.597 -12.597 -0.000 (0) K 1.540e-03 @@ -49860,15 +49860,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.855e-14 - Nat+ 1.855e-14 1.855e-14 -13.732 -13.732 -0.000 (0) +Nat 1.214e-14 + Nat+ 1.214e-14 1.214e-14 -13.916 -13.916 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.228 -70.192 0.036 30.40 S(-2) 1.597e-08 - HS- 1.117e-08 7.352e-09 -7.952 -8.134 -0.182 21.14 + HS- 1.117e-08 7.353e-09 -7.952 -8.134 -0.182 21.14 H2S 4.804e-09 5.223e-09 -8.318 -8.282 0.036 36.27 - S-2 4.534e-14 1.093e-14 -13.344 -13.961 -0.618 (0) - (H2S)2 1.322e-18 1.437e-18 -17.879 -17.842 0.036 30.09 + S-2 4.534e-14 1.093e-14 -13.343 -13.961 -0.618 (0) + (H2S)2 1.322e-18 1.438e-18 -17.879 -17.842 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -49933,7 +49933,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.916e-11 Surface + diffuse layer charge, eq + -8.919e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -49943,7 +49943,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -49954,12 +49954,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 1.8172e-15 - I 7.5021e-28 + Hto 1.3537e-15 + I 7.5040e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9086e-16 + Nat 1.1671e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -49978,12 +49978,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.540e-14 1.814e-15 + Hto 1.147e-14 1.351e-15 I 6.368e-15 7.502e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.248e-16 3.826e-17 + Nat 1.986e-16 2.340e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -49994,14 +49994,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.421e-09 + Electrical balance (eq) = 2.979e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -50015,8 +50015,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.305e-12 - CH4 9.305e-12 1.012e-11 -11.031 -10.995 0.036 35.46 +C(-4) 9.315e-12 + CH4 9.315e-12 1.013e-11 -11.031 -10.994 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -50040,10 +50040,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.433e-11 - H2 7.167e-12 7.792e-12 -11.145 -11.108 0.036 28.61 -Hto 1.540e-14 - Hto 1.540e-14 1.540e-14 -13.812 -13.812 0.000 (0) +H(0) 1.434e-11 + H2 7.169e-12 7.794e-12 -11.145 -11.108 0.036 28.61 +Hto 1.147e-14 + Hto 1.147e-14 1.147e-14 -13.940 -13.940 0.000 (0) I 6.368e-15 I- 6.368e-15 6.368e-15 -14.196 -14.196 -0.000 (0) K 1.540e-03 @@ -50061,15 +50061,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.248e-16 - Nat+ 3.248e-16 3.248e-16 -15.488 -15.488 -0.000 (0) +Nat 1.986e-16 + Nat+ 1.986e-16 1.986e-16 -15.702 -15.702 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.208 -70.172 0.036 30.40 -S(-2) 1.459e-08 - HS- 1.020e-08 6.714e-09 -7.991 -8.173 -0.182 21.14 - H2S 4.387e-09 4.770e-09 -8.358 -8.322 0.036 36.27 - S-2 4.140e-14 9.980e-15 -13.383 -14.001 -0.618 (0) - (H2S)2 1.103e-18 1.199e-18 -17.958 -17.921 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.209 -70.172 0.036 30.40 +S(-2) 1.460e-08 + HS- 1.021e-08 6.721e-09 -7.991 -8.173 -0.182 21.14 + H2S 4.392e-09 4.775e-09 -8.357 -8.321 0.036 36.27 + S-2 4.145e-14 9.991e-15 -13.383 -14.000 -0.618 (0) + (H2S)2 1.105e-18 1.201e-18 -17.957 -17.920 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -50110,7 +50110,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.28 -70.17 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.25 -0.36 4.88 S + Sulfur -5.24 -0.36 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -50134,7 +50134,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.907e-11 Surface + diffuse layer charge, eq + -8.908e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -50144,7 +50144,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -50155,12 +50155,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 3.6061e-17 - I 1.2616e-29 + Hto 2.5737e-17 + I 1.2619e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2243e-18 + Nat 1.2708e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -50179,12 +50179,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.056e-16 3.600e-17 + Hto 2.181e-16 2.570e-17 I 1.071e-16 1.262e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.785e-18 4.459e-19 + Nat 2.162e-18 2.548e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -50195,14 +50195,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.470e-09 + Electrical balance (eq) = 1.386e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -50216,8 +50216,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.170e-12 - CH4 9.170e-12 9.970e-12 -11.038 -11.001 0.036 35.46 +C(-4) 9.171e-12 + CH4 9.171e-12 9.971e-12 -11.038 -11.001 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -50242,9 +50242,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.428e-11 - H2 7.141e-12 7.763e-12 -11.146 -11.110 0.036 28.61 -Hto 3.056e-16 - Hto 3.056e-16 3.056e-16 -15.515 -15.515 0.000 (0) + H2 7.141e-12 7.764e-12 -11.146 -11.110 0.036 28.61 +Hto 2.181e-16 + Hto 2.181e-16 2.181e-16 -15.661 -15.661 0.000 (0) I 1.071e-16 I- 1.071e-16 1.071e-16 -15.970 -15.970 -0.000 (0) K 1.540e-03 @@ -50262,15 +50262,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.785e-18 - Nat+ 3.785e-18 3.785e-18 -17.422 -17.422 -0.000 (0) +Nat 2.162e-18 + Nat+ 2.162e-18 2.162e-18 -17.665 -17.665 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.205 -70.169 0.036 30.40 -S(-2) 1.437e-08 - HS- 1.005e-08 6.616e-09 -7.998 -8.179 -0.182 21.14 - H2S 4.323e-09 4.700e-09 -8.364 -8.328 0.036 36.27 - S-2 4.080e-14 9.835e-15 -13.389 -14.007 -0.618 (0) - (H2S)2 1.071e-18 1.164e-18 -17.970 -17.934 0.036 30.09 +S(-2) 1.438e-08 + HS- 1.005e-08 6.617e-09 -7.998 -8.179 -0.182 21.14 + H2S 4.324e-09 4.701e-09 -8.364 -8.328 0.036 36.27 + S-2 4.081e-14 9.836e-15 -13.389 -14.007 -0.618 (0) + (H2S)2 1.071e-18 1.165e-18 -17.970 -17.934 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -50345,7 +50345,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -50356,12 +50356,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 4.2985e-19 + Hto 2.9392e-19 I 1.2735e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5537e-20 + Nat 8.2940e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -50380,12 +50380,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.643e-18 4.292e-19 + Hto 2.491e-18 2.934e-19 I 1.081e-18 1.273e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.644e-20 3.115e-21 + Nat 1.411e-20 1.663e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -50396,14 +50396,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.014e-09 + Electrical balance (eq) = 1.012e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -50444,8 +50444,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.430e-11 H2 7.149e-12 7.773e-12 -11.146 -11.109 0.036 28.61 -Hto 3.643e-18 - Hto 3.643e-18 3.643e-18 -17.439 -17.439 0.000 (0) +Hto 2.491e-18 + Hto 2.491e-18 2.491e-18 -17.604 -17.604 0.000 (0) I 1.081e-18 I- 1.081e-18 1.081e-18 -17.966 -17.966 -0.000 (0) K 1.540e-03 @@ -50463,8 +50463,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.644e-20 - Nat+ 2.644e-20 2.644e-20 -19.578 -19.578 -0.000 (0) +Nat 1.411e-20 + Nat+ 1.411e-20 1.411e-20 -19.850 -19.850 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.206 -70.170 0.036 30.40 S(-2) 1.444e-08 @@ -50546,7 +50546,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -50557,12 +50557,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 2.3310e-21 - I 5.8455e-34 + Hto 1.5268e-21 + I 5.8446e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9291e-23 + Nat 2.4586e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -50581,12 +50581,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.975e-20 2.327e-21 + Hto 1.294e-20 1.524e-21 I 4.961e-21 5.845e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.387e-23 9.881e-24 + Nat 4.184e-23 4.929e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -50597,7 +50597,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -50645,8 +50645,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.468e-11 H2 7.339e-12 7.980e-12 -11.134 -11.098 0.036 28.61 -Hto 1.975e-20 - Hto 1.975e-20 1.975e-20 -19.704 -19.704 0.000 (0) +Hto 1.294e-20 + Hto 1.294e-20 1.294e-20 -19.888 -19.888 0.000 (0) I 4.961e-21 I- 4.961e-21 4.961e-21 -20.304 -20.304 -0.000 (0) K 1.540e-03 @@ -50664,8 +50664,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 8.387e-23 - Nat+ 8.387e-23 8.387e-23 -22.076 -22.076 -0.000 (0) +Nat 4.184e-23 + Nat+ 4.184e-23 4.184e-23 -22.378 -22.378 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 S(-2) 1.604e-08 @@ -50747,7 +50747,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -50792,7 +50792,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -50936,7 +50936,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -50981,7 +50981,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -51125,7 +51125,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -51170,7 +51170,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -51314,7 +51314,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -51359,7 +51359,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -51503,7 +51503,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -51548,7 +51548,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -51692,7 +51692,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -51737,7 +51737,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -51881,7 +51881,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -51926,7 +51926,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -52070,7 +52070,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -52115,7 +52115,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -52259,7 +52259,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -52304,7 +52304,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -52737,12 +52737,12 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.960e-07 3.480e-07 + Hto 7.015e-07 3.508e-07 I 8.212e-07 4.106e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.725e-07 2.362e-07 + Nat 4.859e-07 2.429e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 @@ -52753,14 +52753,14 @@ Kinetics 3. Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -52774,8 +52774,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.256e-14 - CH4 7.256e-14 7.889e-14 -13.139 -13.103 0.036 35.46 +C(-4) 7.193e-14 + CH4 7.193e-14 7.821e-14 -13.143 -13.107 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -52799,10 +52799,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.259e-12 - H2 2.129e-12 2.315e-12 -11.672 -11.635 0.036 28.61 -Hto 6.960e-07 - Hto 6.960e-07 6.960e-07 -6.157 -6.157 0.000 (0) +H(0) 4.250e-12 + H2 2.125e-12 2.310e-12 -11.673 -11.636 0.036 28.61 +Hto 7.015e-07 + Hto 7.015e-07 7.015e-07 -6.154 -6.154 0.000 (0) I 8.212e-07 I- 8.212e-07 8.212e-07 -6.086 -6.086 -0.000 (0) K 1.540e-03 @@ -52820,15 +52820,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.725e-07 - Nat+ 4.725e-07 4.725e-07 -6.326 -6.326 -0.000 (0) +Nat 4.859e-07 + Nat+ 4.859e-07 4.859e-07 -6.313 -6.313 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.154 -69.118 0.036 30.40 -S(-2) 1.137e-10 - HS- 7.953e-11 5.235e-11 -10.099 -10.281 -0.182 21.14 - H2S 3.422e-11 3.721e-11 -10.466 -10.429 0.036 36.27 - S-2 3.227e-16 7.779e-17 -15.491 -16.109 -0.618 (0) - (H2S)2 6.710e-23 7.295e-23 -22.173 -22.137 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.152 -69.116 0.036 30.40 +S(-2) 1.128e-10 + HS- 7.884e-11 5.190e-11 -10.103 -10.285 -0.182 21.14 + H2S 3.393e-11 3.689e-11 -10.469 -10.433 0.036 36.27 + S-2 3.199e-16 7.712e-17 -15.495 -16.113 -0.618 (0) + (H2S)2 6.594e-23 7.169e-23 -22.181 -22.145 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -52855,21 +52855,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.30 -13.10 -2.80 CH4 + CH4(g) -10.30 -13.11 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.53 -11.64 -3.10 H2 + H2(g) -8.54 -11.64 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.43 -17.37 -7.94 H2S + H2S(g) -9.44 -17.37 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.23 -69.12 -2.89 O2 + O2(g) -66.22 -69.12 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.83 -1.94 4.88 S + Sulfur -6.83 -1.95 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -52893,7 +52893,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -9.387e-14 Surface + diffuse layer charge, eq + -9.404e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -52903,7 +52903,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -52914,12 +52914,12 @@ Su Ca 7.1884e-02 Cl 4.6665e-10 H 1.2947e-04 - Hto 5.6110e-08 - I 6.8530e-20 + Hto 5.5690e-08 + I 6.8517e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7874e-07 + Nat 1.7658e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -52938,30 +52938,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.755e-07 5.602e-08 + Hto 4.720e-07 5.560e-08 I 5.816e-07 6.852e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.041e-07 3.583e-08 + Nat 3.005e-07 3.540e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.973 Adjusted to redox equilibrium + pe = -2.975 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.742e-09 + Electrical balance (eq) = 1.733e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -52975,8 +52975,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.413e-13 - CH4 7.413e-13 8.060e-13 -12.130 -12.094 0.036 35.46 +C(-4) 7.660e-13 + CH4 7.660e-13 8.329e-13 -12.116 -12.079 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -53000,10 +53000,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.614e-12 - H2 3.807e-12 4.139e-12 -11.419 -11.383 0.036 28.61 -Hto 4.755e-07 - Hto 4.755e-07 4.755e-07 -6.323 -6.323 0.000 (0) +H(0) 7.677e-12 + H2 3.839e-12 4.173e-12 -11.416 -11.380 0.036 28.61 +Hto 4.720e-07 + Hto 4.720e-07 4.720e-07 -6.326 -6.326 0.000 (0) I 5.816e-07 I- 5.816e-07 5.816e-07 -6.235 -6.235 -0.000 (0) K 1.540e-03 @@ -53021,15 +53021,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.041e-07 - Nat+ 3.041e-07 3.041e-07 -6.517 -6.517 -0.000 (0) +Nat 3.005e-07 + Nat+ 3.005e-07 3.005e-07 -6.522 -6.522 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.659 -69.623 0.036 30.40 -S(-2) 1.162e-09 - HS- 8.125e-10 5.349e-10 -9.090 -9.272 -0.182 21.14 - H2S 3.496e-10 3.801e-10 -9.456 -9.420 0.036 36.27 - S-2 3.297e-15 7.948e-16 -14.482 -15.100 -0.618 (0) - (H2S)2 7.003e-21 7.614e-21 -20.155 -20.118 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.666 -69.630 0.036 30.40 +S(-2) 1.201e-09 + HS- 8.396e-10 5.527e-10 -9.076 -9.257 -0.182 21.14 + H2S 3.613e-10 3.928e-10 -9.442 -9.406 0.036 36.27 + S-2 3.407e-15 8.213e-16 -14.468 -15.085 -0.618 (0) + (H2S)2 7.479e-21 8.131e-21 -20.126 -20.090 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -53056,21 +53056,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.29 -12.09 -2.80 CH4 + CH4(g) -9.28 -12.08 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.28 -11.38 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.43 -16.36 -7.94 H2S + H2S(g) -8.41 -16.35 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.73 -69.62 -2.89 O2 + O2(g) -66.74 -69.63 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.07 -1.19 4.88 S + Sulfur -6.06 -1.18 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -53094,7 +53094,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.933e-11 Surface + diffuse layer charge, eq + -8.931e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -53104,7 +53104,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -53113,14 +53113,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6653e-10 + Cl 4.6654e-10 H 1.2948e-04 - Hto 1.6427e-08 - I 1.7672e-20 + Hto 1.5746e-08 + I 1.7669e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6268e-08 + Nat 3.3510e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -53139,30 +53139,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.392e-07 1.640e-08 + Hto 1.334e-07 1.572e-08 I 1.500e-07 1.767e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.171e-08 7.271e-09 + Nat 5.702e-08 6.718e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.096 Adjusted to redox equilibrium + pe = -3.095 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.433e-09 + Electrical balance (eq) = 5.400e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -53176,8 +53176,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.009e-12 - CH4 7.009e-12 7.620e-12 -11.154 -11.118 0.036 35.46 +C(-4) 6.937e-12 + CH4 6.937e-12 7.542e-12 -11.159 -11.122 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -53201,10 +53201,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.335e-11 - H2 6.676e-12 7.259e-12 -11.175 -11.139 0.036 28.61 -Hto 1.392e-07 - Hto 1.392e-07 1.392e-07 -6.856 -6.856 0.000 (0) +H(0) 1.332e-11 + H2 6.659e-12 7.240e-12 -11.177 -11.140 0.036 28.61 +Hto 1.334e-07 + Hto 1.334e-07 1.334e-07 -6.875 -6.875 0.000 (0) I 1.500e-07 I- 1.500e-07 1.500e-07 -6.824 -6.824 -0.000 (0) K 1.540e-03 @@ -53222,15 +53222,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 6.171e-08 - Nat+ 6.171e-08 6.171e-08 -7.210 -7.210 -0.000 (0) +Nat 5.702e-08 + Nat+ 5.702e-08 5.702e-08 -7.244 -7.244 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.147 -70.111 0.036 30.40 -S(-2) 1.099e-08 - HS- 7.682e-09 5.057e-09 -8.115 -8.296 -0.182 21.14 - H2S 3.305e-09 3.593e-09 -8.481 -8.445 0.036 36.27 - S-2 3.118e-14 7.516e-15 -13.506 -14.124 -0.618 (0) - (H2S)2 6.257e-19 6.803e-19 -18.204 -18.167 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.145 -70.108 0.036 30.40 +S(-2) 1.087e-08 + HS- 7.603e-09 5.005e-09 -8.119 -8.301 -0.182 21.14 + H2S 3.271e-09 3.556e-09 -8.485 -8.449 0.036 36.27 + S-2 3.086e-14 7.440e-15 -13.511 -14.128 -0.618 (0) + (H2S)2 6.130e-19 6.664e-19 -18.213 -18.176 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -53295,7 +53295,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.963e-11 Surface + diffuse layer charge, eq + -8.962e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -53305,7 +53305,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -53316,12 +53316,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 3.0929e-09 - I 2.8794e-21 + Hto 2.8517e-09 + I 2.8798e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3521e-09 + Nat 3.7569e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -53340,12 +53340,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.621e-08 3.088e-09 + Hto 2.417e-08 2.847e-09 I 2.444e-08 2.879e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.406e-09 8.725e-10 + Nat 6.393e-09 7.531e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -53356,14 +53356,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.215e-10 + Electrical balance (eq) = 8.216e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -53377,12 +53377,12 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.021e-11 - CH4 1.021e-11 1.110e-11 -10.991 -10.955 0.036 35.46 +C(-4) 1.020e-11 + CH4 1.020e-11 1.109e-11 -10.991 -10.955 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 - NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 + NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.010e-06 9.796e-06 -5.045 -5.009 0.036 -14.60 @@ -53403,9 +53403,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.467e-11 - H2 7.335e-12 7.975e-12 -11.135 -11.098 0.036 28.61 -Hto 2.621e-08 - Hto 2.621e-08 2.621e-08 -7.582 -7.582 0.000 (0) + H2 7.334e-12 7.974e-12 -11.135 -11.098 0.036 28.61 +Hto 2.417e-08 + Hto 2.417e-08 2.417e-08 -7.617 -7.617 0.000 (0) I 2.444e-08 I- 2.444e-08 2.444e-08 -7.612 -7.612 -0.000 (0) K 1.540e-03 @@ -53422,16 +53422,16 @@ Mg 1.720e-02 Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 - NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.406e-09 - Nat+ 7.406e-09 7.406e-09 -8.130 -8.130 -0.000 (0) + NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 +Nat 6.393e-09 + Nat+ 6.393e-09 6.393e-09 -8.194 -8.194 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.229 -70.192 0.036 30.40 -S(-2) 1.601e-08 - HS- 1.119e-08 7.367e-09 -7.951 -8.133 -0.182 21.14 - H2S 4.814e-09 5.234e-09 -8.318 -8.281 0.036 36.27 - S-2 4.543e-14 1.095e-14 -13.343 -13.961 -0.618 (0) - (H2S)2 1.328e-18 1.443e-18 -17.877 -17.841 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.228 -70.192 0.036 30.40 +S(-2) 1.599e-08 + HS- 1.118e-08 7.362e-09 -7.951 -8.133 -0.182 21.14 + H2S 4.810e-09 5.230e-09 -8.318 -8.281 0.036 36.27 + S-2 4.540e-14 1.094e-14 -13.343 -13.961 -0.618 (0) + (H2S)2 1.326e-18 1.441e-18 -17.878 -17.841 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -53472,7 +53472,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.30 -70.19 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.21 -0.33 4.88 S + Sulfur -5.22 -0.33 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -53506,7 +53506,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -53517,12 +53517,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 4.0266e-10 - I 3.2162e-22 + Hto 3.5649e-10 + I 3.2167e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4836e-10 + Nat 2.8091e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -53541,12 +53541,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.412e-09 4.020e-10 + Hto 3.021e-09 3.559e-10 I 2.730e-09 3.217e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.928e-10 6.983e-11 + Nat 4.780e-10 5.631e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -53557,7 +53557,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -53605,8 +53605,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.498e-11 H2 7.492e-12 8.146e-12 -11.125 -11.089 0.036 28.61 -Hto 3.412e-09 - Hto 3.412e-09 3.412e-09 -8.467 -8.467 0.000 (0) +Hto 3.021e-09 + Hto 3.021e-09 3.021e-09 -8.520 -8.520 0.000 (0) I 2.730e-09 I- 2.730e-09 2.730e-09 -8.564 -8.564 -0.000 (0) K 1.540e-03 @@ -53624,15 +53624,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.928e-10 - Nat+ 5.928e-10 5.928e-10 -9.227 -9.227 -0.000 (0) +Nat 4.780e-10 + Nat+ 4.780e-10 4.780e-10 -9.321 -9.321 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.247 -70.211 0.036 30.40 S(-2) 1.742e-08 - HS- 1.218e-08 8.018e-09 -7.914 -8.096 -0.182 21.14 - H2S 5.239e-09 5.696e-09 -8.281 -8.244 0.036 36.27 + HS- 1.218e-08 8.019e-09 -7.914 -8.096 -0.182 21.14 + H2S 5.240e-09 5.697e-09 -8.281 -8.244 0.036 36.27 S-2 4.945e-14 1.192e-14 -13.306 -13.924 -0.618 (0) - (H2S)2 1.572e-18 1.709e-18 -17.803 -17.767 0.036 30.09 + (H2S)2 1.573e-18 1.710e-18 -17.803 -17.767 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -53707,7 +53707,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -53718,12 +53718,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 3.7728e-11 + Hto 3.2043e-11 I 2.5733e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9695e-11 + Nat 1.4836e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -53742,12 +53742,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.197e-10 3.767e-11 + Hto 2.716e-10 3.199e-11 I 2.184e-10 2.574e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.351e-11 3.948e-12 + Nat 2.525e-11 2.974e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -53758,7 +53758,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -53806,8 +53806,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.503e-11 H2 7.514e-12 8.169e-12 -11.124 -11.088 0.036 28.61 -Hto 3.197e-10 - Hto 3.197e-10 3.197e-10 -9.495 -9.495 0.000 (0) +Hto 2.716e-10 + Hto 2.716e-10 2.716e-10 -9.566 -9.566 0.000 (0) I 2.184e-10 I- 2.184e-10 2.184e-10 -9.661 -9.661 -0.000 (0) K 1.540e-03 @@ -53825,12 +53825,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.351e-11 - Nat+ 3.351e-11 3.351e-11 -10.475 -10.475 -0.000 (0) +Nat 2.525e-11 + Nat+ 2.525e-11 2.525e-11 -10.598 -10.598 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.249 -70.213 0.036 30.40 S(-2) 1.762e-08 - HS- 1.232e-08 8.111e-09 -7.909 -8.091 -0.182 21.14 + HS- 1.232e-08 8.112e-09 -7.909 -8.091 -0.182 21.14 H2S 5.300e-09 5.762e-09 -8.276 -8.239 0.036 36.27 S-2 5.002e-14 1.206e-14 -13.301 -13.919 -0.618 (0) (H2S)2 1.609e-18 1.750e-18 -17.793 -17.757 0.036 30.09 @@ -53908,7 +53908,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -53919,12 +53919,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 2.5949e-12 - I 1.5073e-24 + Hto 2.1133e-12 + I 1.5071e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.0856e-13 + Nat 5.6900e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -53943,12 +53943,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.199e-11 2.591e-12 + Hto 1.791e-11 2.110e-12 I 1.279e-11 1.507e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.376e-12 1.621e-13 + Nat 9.682e-13 1.141e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -53959,7 +53959,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -54007,8 +54007,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.503e-11 H2 7.515e-12 8.171e-12 -11.124 -11.088 0.036 28.61 -Hto 2.199e-11 - Hto 2.199e-11 2.199e-11 -10.658 -10.658 0.000 (0) +Hto 1.791e-11 + Hto 1.791e-11 1.791e-11 -10.747 -10.747 0.000 (0) I 1.279e-11 I- 1.279e-11 1.279e-11 -10.893 -10.893 -0.000 (0) K 1.540e-03 @@ -54026,14 +54026,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.376e-12 - Nat+ 1.376e-12 1.376e-12 -11.861 -11.861 -0.000 (0) +Nat 9.682e-13 + Nat+ 9.682e-13 9.682e-13 -12.014 -12.014 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.250 -70.213 0.036 30.40 S(-2) 1.764e-08 HS- 1.233e-08 8.118e-09 -7.909 -8.091 -0.182 21.14 H2S 5.304e-09 5.767e-09 -8.275 -8.239 0.036 36.27 - S-2 5.006e-14 1.207e-14 -13.300 -13.918 -0.618 (0) + S-2 5.007e-14 1.207e-14 -13.300 -13.918 -0.618 (0) (H2S)2 1.612e-18 1.752e-18 -17.793 -17.756 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -54099,7 +54099,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -8.962e-11 Surface + diffuse layer charge, eq + -8.963e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -54109,7 +54109,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -54120,12 +54120,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 1.3167e-13 + Hto 1.0278e-13 I 6.4977e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4319e-14 + Nat 1.5989e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -54144,12 +54144,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.116e-12 1.315e-13 + Hto 8.711e-13 1.026e-13 I 5.515e-13 6.497e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.138e-14 4.875e-15 + Nat 2.721e-14 3.205e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -54160,7 +54160,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -54182,7 +54182,7 @@ Su H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.117e-11 - CH4 1.117e-11 1.215e-11 -10.952 -10.916 0.036 35.46 + CH4 1.117e-11 1.215e-11 -10.952 -10.915 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -54207,9 +54207,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.500e-11 - H2 7.502e-12 8.156e-12 -11.125 -11.089 0.036 28.61 -Hto 1.116e-12 - Hto 1.116e-12 1.116e-12 -11.952 -11.952 0.000 (0) + H2 7.502e-12 8.157e-12 -11.125 -11.088 0.036 28.61 +Hto 8.711e-13 + Hto 8.711e-13 8.711e-13 -12.060 -12.060 0.000 (0) I 5.515e-13 I- 5.515e-13 5.515e-13 -12.258 -12.258 -0.000 (0) K 1.540e-03 @@ -54227,15 +54227,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.138e-14 - Nat+ 4.138e-14 4.138e-14 -13.383 -13.383 -0.000 (0) +Nat 2.721e-14 + Nat+ 2.721e-14 2.721e-14 -13.565 -13.565 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.248 -70.212 0.036 30.40 S(-2) 1.751e-08 - HS- 1.224e-08 8.060e-09 -7.912 -8.094 -0.182 21.14 - H2S 5.266e-09 5.726e-09 -8.278 -8.242 0.036 36.27 - S-2 4.971e-14 1.198e-14 -13.304 -13.921 -0.618 (0) - (H2S)2 1.589e-18 1.728e-18 -17.799 -17.763 0.036 30.09 + HS- 1.225e-08 8.062e-09 -7.912 -8.094 -0.182 21.14 + H2S 5.268e-09 5.727e-09 -8.278 -8.242 0.036 36.27 + S-2 4.972e-14 1.199e-14 -13.303 -13.921 -0.618 (0) + (H2S)2 1.590e-18 1.728e-18 -17.799 -17.762 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -54300,7 +54300,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.945e-11 Surface + diffuse layer charge, eq + -8.949e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -54310,7 +54310,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -54321,12 +54321,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 4.8848e-15 - I 2.0459e-27 + Hto 3.6543e-15 + I 2.0455e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3229e-16 + Nat 3.2697e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -54345,12 +54345,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.140e-14 4.877e-15 + Hto 3.097e-14 3.648e-15 I 1.736e-14 2.045e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.058e-16 1.067e-16 + Nat 5.564e-16 6.555e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -54361,14 +54361,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.332e-09 + Electrical balance (eq) = 2.889e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -54382,8 +54382,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.036e-11 - CH4 1.036e-11 1.126e-11 -10.985 -10.948 0.036 35.46 +C(-4) 1.037e-11 + CH4 1.037e-11 1.127e-11 -10.984 -10.948 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -54407,10 +54407,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.472e-11 - H2 7.361e-12 8.004e-12 -11.133 -11.097 0.036 28.61 -Hto 4.140e-14 - Hto 4.140e-14 4.140e-14 -13.383 -13.383 0.000 (0) +H(0) 1.473e-11 + H2 7.363e-12 8.005e-12 -11.133 -11.097 0.036 28.61 +Hto 3.097e-14 + Hto 3.097e-14 3.097e-14 -13.509 -13.509 0.000 (0) I 1.736e-14 I- 1.736e-14 1.736e-14 -13.760 -13.760 -0.000 (0) K 1.540e-03 @@ -54428,15 +54428,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 9.058e-16 - Nat+ 9.058e-16 9.058e-16 -15.043 -15.043 -0.000 (0) +Nat 5.564e-16 + Nat+ 5.564e-16 5.564e-16 -15.255 -15.255 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.232 -70.195 0.036 30.40 -S(-2) 1.624e-08 - HS- 1.135e-08 7.473e-09 -7.945 -8.126 -0.182 21.14 - H2S 4.883e-09 5.309e-09 -8.311 -8.275 0.036 36.27 - S-2 4.609e-14 1.111e-14 -13.336 -13.954 -0.618 (0) - (H2S)2 1.366e-18 1.485e-18 -17.865 -17.828 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.232 -70.196 0.036 30.40 +S(-2) 1.625e-08 + HS- 1.136e-08 7.480e-09 -7.945 -8.126 -0.182 21.14 + H2S 4.887e-09 5.314e-09 -8.311 -8.275 0.036 36.27 + S-2 4.613e-14 1.112e-14 -13.336 -13.954 -0.618 (0) + (H2S)2 1.368e-18 1.488e-18 -17.864 -17.827 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -54501,7 +54501,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.936e-11 Surface + diffuse layer charge, eq + -8.938e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -54511,7 +54511,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -54522,12 +54522,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 1.2911e-16 + Hto 9.2549e-17 I 4.5828e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.2730e-18 + Nat 4.7482e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -54546,12 +54546,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.094e-15 1.289e-16 + Hto 7.843e-16 9.240e-17 I 3.890e-16 4.583e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.408e-17 1.658e-18 + Nat 8.080e-18 9.518e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -54562,14 +54562,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.381e-09 + Electrical balance (eq) = 1.297e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -54610,8 +54610,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.468e-11 H2 7.341e-12 7.981e-12 -11.134 -11.098 0.036 28.61 -Hto 1.094e-15 - Hto 1.094e-15 1.094e-15 -14.961 -14.961 0.000 (0) +Hto 7.843e-16 + Hto 7.843e-16 7.843e-16 -15.106 -15.106 0.000 (0) I 3.890e-16 I- 3.890e-16 3.890e-16 -15.410 -15.410 -0.000 (0) K 1.540e-03 @@ -54629,15 +54629,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.408e-17 - Nat+ 1.408e-17 1.408e-17 -16.851 -16.851 -0.000 (0) +Nat 8.080e-18 + Nat+ 8.080e-18 8.080e-18 -17.093 -17.093 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 S(-2) 1.606e-08 - HS- 1.123e-08 7.390e-09 -7.950 -8.131 -0.182 21.14 + HS- 1.123e-08 7.391e-09 -7.950 -8.131 -0.182 21.14 H2S 4.829e-09 5.250e-09 -8.316 -8.280 0.036 36.27 S-2 4.558e-14 1.099e-14 -13.341 -13.959 -0.618 (0) - (H2S)2 1.336e-18 1.452e-18 -17.874 -17.838 0.036 30.09 + (H2S)2 1.336e-18 1.453e-18 -17.874 -17.838 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -54712,7 +54712,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -54723,12 +54723,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 2.3064e-18 - I 6.9343e-31 + Hto 1.5841e-18 + I 6.9353e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.6699e-20 + Nat 4.6494e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -54747,12 +54747,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.955e-17 2.303e-18 + Hto 1.342e-17 1.582e-18 I 5.887e-18 6.935e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.475e-19 1.738e-20 + Nat 7.911e-20 9.320e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -54763,14 +54763,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.250e-10 + Electrical balance (eq) = 9.225e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -54811,8 +54811,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) H(0) 1.466e-11 H2 7.331e-12 7.970e-12 -11.135 -11.099 0.036 28.61 -Hto 1.955e-17 - Hto 1.955e-17 1.955e-17 -16.709 -16.709 0.000 (0) +Hto 1.342e-17 + Hto 1.342e-17 1.342e-17 -16.872 -16.872 0.000 (0) I 5.887e-18 I- 5.887e-18 5.887e-18 -17.230 -17.230 -0.000 (0) K 1.540e-03 @@ -54830,15 +54830,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 1.475e-19 - Nat+ 1.475e-19 1.475e-19 -18.831 -18.831 -0.000 (0) +Nat 7.911e-20 + Nat+ 7.911e-20 7.911e-20 -19.102 -19.102 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.228 -70.192 0.036 30.40 S(-2) 1.597e-08 - HS- 1.116e-08 7.350e-09 -7.952 -8.134 -0.182 21.14 - H2S 4.802e-09 5.221e-09 -8.319 -8.282 0.036 36.27 + HS- 1.117e-08 7.351e-09 -7.952 -8.134 -0.182 21.14 + H2S 4.803e-09 5.222e-09 -8.318 -8.282 0.036 36.27 S-2 4.533e-14 1.093e-14 -13.344 -13.962 -0.618 (0) - (H2S)2 1.321e-18 1.437e-18 -17.879 -17.843 0.036 30.09 + (H2S)2 1.322e-18 1.437e-18 -17.879 -17.843 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -54913,7 +54913,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -54924,12 +54924,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 2.4996e-20 + Hto 1.6447e-20 I 6.3638e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5019e-22 + Nat 2.7570e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -54948,12 +54948,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.118e-19 2.496e-20 + Hto 1.394e-19 1.642e-20 I 5.401e-20 6.363e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.362e-22 1.103e-22 + Nat 4.691e-22 5.527e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -54964,14 +54964,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.108e-10 + Electrical balance (eq) = 9.107e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -55012,8 +55012,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.468e-11 H2 7.339e-12 7.979e-12 -11.134 -11.098 0.036 28.61 -Hto 2.118e-19 - Hto 2.118e-19 2.118e-19 -18.674 -18.674 0.000 (0) +Hto 1.394e-19 + Hto 1.394e-19 1.394e-19 -18.856 -18.856 0.000 (0) I 5.401e-20 I- 5.401e-20 5.401e-20 -19.268 -19.268 -0.000 (0) K 1.540e-03 @@ -55031,8 +55031,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 9.362e-22 - Nat+ 9.362e-22 9.362e-22 -21.029 -21.029 -0.000 (0) +Nat 4.691e-22 + Nat+ 4.691e-22 4.691e-22 -21.329 -21.329 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 S(-2) 1.604e-08 @@ -55114,7 +55114,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -55125,12 +55125,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 1.2426e-22 - I 2.6778e-35 + Hto 7.8320e-23 + I 2.6772e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5992e-24 + Nat 7.4881e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -55149,12 +55149,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.053e-21 1.241e-22 + Hto 6.637e-22 7.819e-23 I 2.272e-22 2.677e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.721e-24 3.206e-25 + Nat 1.274e-24 1.501e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -55165,7 +55165,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -55213,8 +55213,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.503e-11 H2 7.516e-12 8.171e-12 -11.124 -11.088 0.036 28.61 -Hto 1.053e-21 - Hto 1.053e-21 1.053e-21 -20.978 -20.978 0.000 (0) +Hto 6.637e-22 + Hto 6.637e-22 6.637e-22 -21.178 -21.178 0.000 (0) I 2.272e-22 I- 2.272e-22 2.272e-22 -21.644 -21.644 -0.000 (0) K 1.540e-03 @@ -55232,8 +55232,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.721e-24 - Nat+ 2.721e-24 2.721e-24 -23.565 -23.565 -0.000 (0) +Nat 1.274e-24 + Nat+ 1.274e-24 1.274e-24 -23.895 -23.895 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.250 -70.213 0.036 30.40 S(-2) 1.764e-08 @@ -55315,7 +55315,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -55360,7 +55360,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -55504,7 +55504,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -55549,7 +55549,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -55693,7 +55693,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -55738,7 +55738,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -55882,7 +55882,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -55927,7 +55927,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -56071,7 +56071,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -56116,7 +56116,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -56260,7 +56260,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -56305,7 +56305,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -56449,7 +56449,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -56494,7 +56494,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -56638,7 +56638,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -56683,7 +56683,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -57116,12 +57116,12 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.849e-07 3.424e-07 + Hto 6.904e-07 3.452e-07 I 8.143e-07 4.071e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.570e-07 2.285e-07 + Nat 4.699e-07 2.350e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 @@ -57132,14 +57132,14 @@ Kinetics 3. Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.569e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -57153,8 +57153,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.313e-14 - CH4 9.313e-14 1.012e-13 -13.031 -12.995 0.036 35.46 +C(-4) 9.292e-14 + CH4 9.292e-14 1.010e-13 -13.032 -12.996 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -57178,10 +57178,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.533e-12 - H2 2.267e-12 2.464e-12 -11.645 -11.608 0.036 28.61 -Hto 6.849e-07 - Hto 6.849e-07 6.849e-07 -6.164 -6.164 0.000 (0) +H(0) 4.531e-12 + H2 2.265e-12 2.463e-12 -11.645 -11.609 0.036 28.61 +Hto 6.904e-07 + Hto 6.904e-07 6.904e-07 -6.161 -6.161 0.000 (0) I 8.143e-07 I- 8.143e-07 8.143e-07 -6.089 -6.089 -0.000 (0) K 1.540e-03 @@ -57199,15 +57199,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.570e-07 - Nat+ 4.570e-07 4.570e-07 -6.340 -6.340 -0.000 (0) +Nat 4.699e-07 + Nat+ 4.699e-07 4.699e-07 -6.328 -6.328 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.208 -69.172 0.036 30.40 -S(-2) 1.460e-10 - HS- 1.021e-10 6.719e-11 -9.991 -10.173 -0.182 21.14 - H2S 4.392e-11 4.775e-11 -10.357 -10.321 0.036 36.27 - S-2 4.142e-16 9.985e-17 -15.383 -16.001 -0.618 (0) - (H2S)2 1.105e-22 1.202e-22 -21.957 -21.920 0.036 30.09 +S(-2) 1.457e-10 + HS- 1.018e-10 6.704e-11 -9.992 -10.174 -0.182 21.14 + H2S 4.382e-11 4.765e-11 -10.358 -10.322 0.036 36.27 + S-2 4.133e-16 9.962e-17 -15.384 -16.002 -0.618 (0) + (H2S)2 1.100e-22 1.196e-22 -21.958 -21.922 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -57234,7 +57234,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -10.19 -12.99 -2.80 CH4 + CH4(g) -10.19 -13.00 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -57248,7 +57248,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.28 -69.17 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.74 -1.86 4.88 S + Sulfur -6.75 -1.86 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -57272,7 +57272,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -9.920e-14 Surface + diffuse layer charge, eq + -9.970e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -57282,7 +57282,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -57293,12 +57293,12 @@ Su Ca 7.1884e-02 Cl 4.6665e-10 H 1.2947e-04 - Hto 5.6768e-08 + Hto 5.6421e-08 I 6.9655e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8053e-07 + Nat 1.7886e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -57317,30 +57317,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.811e-07 5.668e-08 + Hto 4.781e-07 5.633e-08 I 5.911e-07 6.964e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.072e-07 3.619e-08 + Nat 3.043e-07 3.585e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.985 Adjusted to redox equilibrium + pe = -2.986 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.740e-09 + Electrical balance (eq) = 1.730e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -57354,8 +57354,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.236e-13 - CH4 9.236e-13 1.004e-12 -12.035 -11.998 0.036 35.46 +C(-4) 9.388e-13 + CH4 9.388e-13 1.021e-12 -12.027 -11.991 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -57379,10 +57379,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.045e-12 - H2 4.022e-12 4.373e-12 -11.396 -11.359 0.036 28.61 -Hto 4.811e-07 - Hto 4.811e-07 4.811e-07 -6.318 -6.318 0.000 (0) +H(0) 8.078e-12 + H2 4.039e-12 4.391e-12 -11.394 -11.357 0.036 28.61 +Hto 4.781e-07 + Hto 4.781e-07 4.781e-07 -6.320 -6.320 0.000 (0) I 5.911e-07 I- 5.911e-07 5.911e-07 -6.228 -6.228 -0.000 (0) K 1.540e-03 @@ -57400,15 +57400,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.072e-07 - Nat+ 3.072e-07 3.072e-07 -6.513 -6.513 -0.000 (0) +Nat 3.043e-07 + Nat+ 3.043e-07 3.043e-07 -6.517 -6.517 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.707 -69.670 0.036 30.40 -S(-2) 1.448e-09 - HS- 1.012e-09 6.664e-10 -8.995 -9.176 -0.182 21.14 - H2S 4.356e-10 4.736e-10 -9.361 -9.325 0.036 36.27 - S-2 4.108e-15 9.903e-16 -14.386 -15.004 -0.618 (0) - (H2S)2 1.087e-20 1.182e-20 -19.964 -19.927 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.710 -69.674 0.036 30.40 +S(-2) 1.472e-09 + HS- 1.029e-09 6.774e-10 -8.988 -9.169 -0.182 21.14 + H2S 4.428e-10 4.814e-10 -9.354 -9.317 0.036 36.27 + S-2 4.176e-15 1.007e-15 -14.379 -14.997 -0.618 (0) + (H2S)2 1.123e-20 1.221e-20 -19.950 -19.913 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -57435,21 +57435,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.20 -12.00 -2.80 CH4 + CH4(g) -9.19 -11.99 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.26 -11.36 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.33 -16.27 -7.94 H2S + H2S(g) -8.32 -16.26 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.78 -69.67 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.00 -1.12 4.88 S + Sulfur -5.99 -1.11 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -57473,7 +57473,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.956e-11 Surface + diffuse layer charge, eq + -8.955e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -57483,7 +57483,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -57494,12 +57494,12 @@ Su Ca 7.1884e-02 Cl 4.6652e-10 H 1.2948e-04 - Hto 1.7832e-08 + Hto 1.7134e-08 I 1.9323e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9855e-08 + Nat 3.6962e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -57518,12 +57518,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.511e-07 1.780e-08 + Hto 1.452e-07 1.711e-08 I 1.640e-07 1.932e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.782e-08 7.990e-09 + Nat 6.289e-08 7.410e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -57534,14 +57534,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.344e-09 + Electrical balance (eq) = 5.310e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -57555,8 +57555,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.937e-12 - CH4 7.937e-12 8.629e-12 -11.100 -11.064 0.036 35.46 +C(-4) 7.874e-12 + CH4 7.874e-12 8.561e-12 -11.104 -11.067 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -57580,10 +57580,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.377e-11 - H2 6.887e-12 7.488e-12 -11.162 -11.126 0.036 28.61 -Hto 1.511e-07 - Hto 1.511e-07 1.511e-07 -6.821 -6.821 0.000 (0) +H(0) 1.375e-11 + H2 6.873e-12 7.473e-12 -11.163 -11.126 0.036 28.61 +Hto 1.452e-07 + Hto 1.452e-07 1.452e-07 -6.838 -6.838 0.000 (0) I 1.640e-07 I- 1.640e-07 1.640e-07 -6.785 -6.785 -0.000 (0) K 1.540e-03 @@ -57601,15 +57601,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 6.782e-08 - Nat+ 6.782e-08 6.782e-08 -7.169 -7.169 -0.000 (0) +Nat 6.289e-08 + Nat+ 6.289e-08 6.289e-08 -7.201 -7.201 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.174 -70.138 0.036 30.40 -S(-2) 1.244e-08 - HS- 8.699e-09 5.726e-09 -8.061 -8.242 -0.182 21.14 - H2S 3.742e-09 4.068e-09 -8.427 -8.391 0.036 36.27 - S-2 3.531e-14 8.512e-15 -13.452 -14.070 -0.618 (0) - (H2S)2 8.022e-19 8.722e-19 -18.096 -18.059 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.172 -70.136 0.036 30.40 +S(-2) 1.234e-08 + HS- 8.630e-09 5.681e-09 -8.064 -8.246 -0.182 21.14 + H2S 3.712e-09 4.036e-09 -8.430 -8.394 0.036 36.27 + S-2 3.503e-14 8.444e-15 -13.456 -14.073 -0.618 (0) + (H2S)2 7.896e-19 8.585e-19 -18.103 -18.066 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -57636,21 +57636,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.26 -11.06 -2.80 CH4 + CH4(g) -8.27 -11.07 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.02 -11.13 -3.10 H2 + H2(g) -8.03 -11.13 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.40 -15.33 -7.94 H2S + H2S(g) -7.40 -15.34 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.25 -70.14 -2.89 O2 + O2(g) -67.24 -70.14 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.30 -0.41 4.88 S + Sulfur -5.30 -0.42 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -57674,7 +57674,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -8.994e-11 Surface + diffuse layer charge, eq + -8.993e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -57684,7 +57684,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -57695,12 +57695,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 3.6603e-09 + Hto 3.3851e-09 I 3.4402e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2577e-09 + Nat 4.5572e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -57719,12 +57719,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.102e-08 3.654e-09 + Hto 2.869e-08 3.380e-09 I 2.920e-08 3.440e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.947e-09 1.054e-09 + Nat 7.755e-09 9.136e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -57735,7 +57735,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -57756,8 +57756,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.113e-11 - CH4 1.113e-11 1.210e-11 -10.954 -10.917 0.036 35.46 +C(-4) 1.112e-11 + CH4 1.112e-11 1.209e-11 -10.954 -10.918 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -57782,9 +57782,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.499e-11 - H2 7.495e-12 8.149e-12 -11.125 -11.089 0.036 28.61 -Hto 3.102e-08 - Hto 3.102e-08 3.102e-08 -7.508 -7.508 0.000 (0) + H2 7.493e-12 8.147e-12 -11.125 -11.089 0.036 28.61 +Hto 2.869e-08 + Hto 2.869e-08 2.869e-08 -7.542 -7.542 0.000 (0) I 2.920e-08 I- 2.920e-08 2.920e-08 -7.535 -7.535 -0.000 (0) K 1.540e-03 @@ -57802,15 +57802,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.947e-09 - Nat+ 8.947e-09 8.947e-09 -8.048 -8.048 -0.000 (0) +Nat 7.755e-09 + Nat+ 7.755e-09 7.755e-09 -8.110 -8.110 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.247 -70.211 0.036 30.40 -S(-2) 1.744e-08 - HS- 1.220e-08 8.029e-09 -7.914 -8.095 -0.182 21.14 - H2S 5.246e-09 5.704e-09 -8.280 -8.244 0.036 36.27 - S-2 4.952e-14 1.194e-14 -13.305 -13.923 -0.618 (0) - (H2S)2 1.577e-18 1.714e-18 -17.802 -17.766 0.036 30.09 +S(-2) 1.743e-08 + HS- 1.219e-08 8.024e-09 -7.914 -8.096 -0.182 21.14 + H2S 5.243e-09 5.700e-09 -8.280 -8.244 0.036 36.27 + S-2 4.948e-14 1.193e-14 -13.306 -13.923 -0.618 (0) + (H2S)2 1.575e-18 1.712e-18 -17.803 -17.766 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -57851,7 +57851,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.32 -70.21 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.19 -0.30 4.88 S + Sulfur -5.19 -0.31 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -57885,7 +57885,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -57896,12 +57896,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 5.2662e-10 - I 4.2522e-22 + Hto 4.6784e-10 + I 4.2538e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6759e-10 + Nat 3.7867e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -57920,12 +57920,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.463e-09 5.258e-10 + Hto 3.965e-09 4.671e-10 I 3.610e-09 4.253e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.957e-10 9.374e-11 + Nat 6.443e-10 7.591e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -57936,7 +57936,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -57958,7 +57958,7 @@ Su H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.210e-11 - CH4 1.210e-11 1.315e-11 -10.917 -10.881 0.036 35.46 + CH4 1.210e-11 1.316e-11 -10.917 -10.881 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -57984,8 +57984,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.531e-11 H2 7.653e-12 8.321e-12 -11.116 -11.080 0.036 28.61 -Hto 4.463e-09 - Hto 4.463e-09 4.463e-09 -8.350 -8.350 0.000 (0) +Hto 3.965e-09 + Hto 3.965e-09 3.965e-09 -8.402 -8.402 0.000 (0) I 3.610e-09 I- 3.610e-09 3.610e-09 -8.443 -8.443 -0.000 (0) K 1.540e-03 @@ -58003,15 +58003,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.957e-10 - Nat+ 7.957e-10 7.957e-10 -9.099 -9.099 -0.000 (0) +Nat 6.443e-10 + Nat+ 6.443e-10 6.443e-10 -9.191 -9.191 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.265 -70.229 0.036 30.40 -S(-2) 1.896e-08 - HS- 1.326e-08 8.729e-09 -7.877 -8.059 -0.182 21.14 - H2S 5.703e-09 6.201e-09 -8.244 -8.208 0.036 36.27 - S-2 5.383e-14 1.298e-14 -13.269 -13.887 -0.618 (0) - (H2S)2 1.863e-18 2.026e-18 -17.730 -17.693 0.036 30.09 +S(-2) 1.897e-08 + HS- 1.326e-08 8.730e-09 -7.877 -8.059 -0.182 21.14 + H2S 5.704e-09 6.202e-09 -8.244 -8.208 0.036 36.27 + S-2 5.384e-14 1.298e-14 -13.269 -13.887 -0.618 (0) + (H2S)2 1.864e-18 2.027e-18 -17.730 -17.693 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -58086,7 +58086,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -58097,12 +58097,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 5.5309e-11 + Hto 4.7151e-11 I 3.8186e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9746e-11 + Nat 2.2505e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -58121,12 +58121,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.687e-10 5.522e-11 + Hto 3.996e-10 4.707e-11 I 3.241e-10 3.818e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.062e-11 5.963e-12 + Nat 3.830e-11 4.512e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -58137,7 +58137,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -58185,8 +58185,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.536e-11 H2 7.678e-12 8.348e-12 -11.115 -11.078 0.036 28.61 -Hto 4.687e-10 - Hto 4.687e-10 4.687e-10 -9.329 -9.329 0.000 (0) +Hto 3.996e-10 + Hto 3.996e-10 3.996e-10 -9.398 -9.398 0.000 (0) I 3.241e-10 I- 3.241e-10 3.241e-10 -9.489 -9.489 -0.000 (0) K 1.540e-03 @@ -58204,15 +58204,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.062e-11 - Nat+ 5.062e-11 5.062e-11 -10.296 -10.296 -0.000 (0) +Nat 3.830e-11 + Nat+ 3.830e-11 3.830e-11 -10.417 -10.417 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.268 -70.232 0.036 30.40 S(-2) 1.921e-08 - HS- 1.343e-08 8.843e-09 -7.872 -8.053 -0.182 21.14 + HS- 1.343e-08 8.844e-09 -7.872 -8.053 -0.182 21.14 H2S 5.778e-09 6.282e-09 -8.238 -8.202 0.036 36.27 S-2 5.454e-14 1.315e-14 -13.263 -13.881 -0.618 (0) - (H2S)2 1.913e-18 2.079e-18 -17.718 -17.682 0.036 30.09 + (H2S)2 1.913e-18 2.080e-18 -17.718 -17.682 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -58287,7 +58287,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -58298,12 +58298,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 4.3364e-12 + Hto 3.5454e-12 I 2.5506e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3959e-12 + Nat 9.8668e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -58322,12 +58322,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.675e-11 4.329e-12 + Hto 3.005e-11 3.540e-12 I 2.165e-11 2.551e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.375e-12 2.798e-13 + Nat 1.679e-12 1.978e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -58338,7 +58338,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -58385,9 +58385,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.536e-11 - H2 7.680e-12 8.349e-12 -11.115 -11.078 0.036 28.61 -Hto 3.675e-11 - Hto 3.675e-11 3.675e-11 -10.435 -10.435 0.000 (0) + H2 7.680e-12 8.350e-12 -11.115 -11.078 0.036 28.61 +Hto 3.005e-11 + Hto 3.005e-11 3.005e-11 -10.522 -10.522 0.000 (0) I 2.165e-11 I- 2.165e-11 2.165e-11 -10.665 -10.665 -0.000 (0) K 1.540e-03 @@ -58405,12 +58405,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.375e-12 - Nat+ 2.375e-12 2.375e-12 -11.624 -11.624 -0.000 (0) +Nat 1.679e-12 + Nat+ 1.679e-12 1.679e-12 -11.775 -11.775 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.268 -70.232 0.036 30.40 S(-2) 1.923e-08 - HS- 1.344e-08 8.851e-09 -7.871 -8.053 -0.182 21.14 + HS- 1.345e-08 8.851e-09 -7.871 -8.053 -0.182 21.14 H2S 5.783e-09 6.287e-09 -8.238 -8.202 0.036 36.27 S-2 5.459e-14 1.316e-14 -13.263 -13.881 -0.618 (0) (H2S)2 1.916e-18 2.083e-18 -17.718 -17.681 0.036 30.09 @@ -58488,7 +58488,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -58499,12 +58499,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 2.5622e-13 + Hto 2.0083e-13 I 1.2814e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8992e-14 + Nat 3.2354e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -58523,12 +58523,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.171e-12 2.558e-13 + Hto 1.702e-12 2.005e-13 I 1.088e-12 1.281e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.336e-14 9.821e-15 + Nat 5.505e-14 6.486e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -58539,7 +58539,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -58586,9 +58586,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.533e-11 - H2 7.663e-12 8.331e-12 -11.116 -11.079 0.036 28.61 -Hto 2.171e-12 - Hto 2.171e-12 2.171e-12 -11.663 -11.663 0.000 (0) + H2 7.663e-12 8.332e-12 -11.116 -11.079 0.036 28.61 +Hto 1.702e-12 + Hto 1.702e-12 1.702e-12 -11.769 -11.769 0.000 (0) I 1.088e-12 I- 1.088e-12 1.088e-12 -11.964 -11.964 -0.000 (0) K 1.540e-03 @@ -58606,15 +58606,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.336e-14 - Nat+ 8.336e-14 8.336e-14 -13.079 -13.079 -0.000 (0) +Nat 5.505e-14 + Nat+ 5.505e-14 5.505e-14 -13.259 -13.259 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.266 -70.230 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.267 -70.230 0.036 30.40 S(-2) 1.906e-08 - HS- 1.333e-08 8.773e-09 -7.875 -8.057 -0.182 21.14 - H2S 5.732e-09 6.232e-09 -8.242 -8.205 0.036 36.27 - S-2 5.410e-14 1.304e-14 -13.267 -13.885 -0.618 (0) - (H2S)2 1.882e-18 2.046e-18 -17.725 -17.689 0.036 30.09 + HS- 1.333e-08 8.775e-09 -7.875 -8.057 -0.182 21.14 + H2S 5.733e-09 6.233e-09 -8.242 -8.205 0.036 36.27 + S-2 5.412e-14 1.305e-14 -13.267 -13.885 -0.618 (0) + (H2S)2 1.883e-18 2.047e-18 -17.725 -17.689 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -58679,7 +58679,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -8.974e-11 Surface + diffuse layer charge, eq + -8.978e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -58689,7 +58689,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -58700,12 +58700,12 @@ Su Ca 7.1884e-02 Cl 4.6645e-10 H 1.2948e-04 - Hto 1.1390e-14 + Hto 8.5566e-15 I 4.8365e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2870e-15 + Nat 7.9415e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -58724,12 +58724,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.652e-14 1.137e-14 + Hto 7.251e-14 8.543e-15 I 4.105e-14 4.836e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.190e-15 2.580e-16 + Nat 1.351e-15 1.592e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -58740,14 +58740,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.243e-09 + Electrical balance (eq) = 2.800e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -58761,8 +58761,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.141e-11 - CH4 1.141e-11 1.240e-11 -10.943 -10.906 0.036 35.46 +C(-4) 1.142e-11 + CH4 1.142e-11 1.241e-11 -10.942 -10.906 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -58786,10 +58786,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.508e-11 - H2 7.541e-12 8.199e-12 -11.123 -11.086 0.036 28.61 -Hto 9.652e-14 - Hto 9.652e-14 9.652e-14 -13.015 -13.015 0.000 (0) +H(0) 1.509e-11 + H2 7.543e-12 8.201e-12 -11.122 -11.086 0.036 28.61 +Hto 7.251e-14 + Hto 7.251e-14 7.251e-14 -13.140 -13.140 0.000 (0) I 4.105e-14 I- 4.105e-14 4.105e-14 -13.387 -13.387 -0.000 (0) K 1.540e-03 @@ -58807,15 +58807,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.190e-15 - Nat+ 2.190e-15 2.190e-15 -14.660 -14.660 -0.000 (0) +Nat 1.351e-15 + Nat+ 1.351e-15 1.351e-15 -14.869 -14.869 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.253 -70.216 0.036 30.40 -S(-2) 1.788e-08 - HS- 1.250e-08 8.231e-09 -7.903 -8.085 -0.182 21.14 - H2S 5.378e-09 5.847e-09 -8.269 -8.233 0.036 36.27 - S-2 5.076e-14 1.224e-14 -13.294 -13.912 -0.618 (0) - (H2S)2 1.657e-18 1.802e-18 -17.781 -17.744 0.036 30.09 +S(-2) 1.789e-08 + HS- 1.251e-08 8.237e-09 -7.903 -8.084 -0.182 21.14 + H2S 5.382e-09 5.851e-09 -8.269 -8.233 0.036 36.27 + S-2 5.080e-14 1.224e-14 -13.294 -13.912 -0.618 (0) + (H2S)2 1.659e-18 1.804e-18 -17.780 -17.744 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -58880,7 +58880,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.965e-11 Surface + diffuse layer charge, eq + -8.967e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -58890,7 +58890,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -58901,12 +58901,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 3.7586e-16 + Hto 2.7059e-16 I 1.3534e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5009e-17 + Nat 1.4419e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -58925,12 +58925,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.185e-15 3.753e-16 + Hto 2.293e-15 2.702e-16 I 1.149e-15 1.353e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.256e-17 5.013e-18 + Nat 2.454e-17 2.890e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -58941,14 +58941,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.292e-09 + Electrical balance (eq) = 1.207e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -58988,9 +58988,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.504e-11 - H2 7.518e-12 8.173e-12 -11.124 -11.088 0.036 28.61 -Hto 3.185e-15 - Hto 3.185e-15 3.185e-15 -14.497 -14.497 0.000 (0) + H2 7.518e-12 8.174e-12 -11.124 -11.088 0.036 28.61 +Hto 2.293e-15 + Hto 2.293e-15 2.293e-15 -14.640 -14.640 0.000 (0) I 1.149e-15 I- 1.149e-15 1.149e-15 -14.940 -14.940 -0.000 (0) K 1.540e-03 @@ -59008,12 +59008,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.256e-17 - Nat+ 4.256e-17 4.256e-17 -16.371 -16.371 -0.000 (0) +Nat 2.454e-17 + Nat+ 2.454e-17 2.454e-17 -16.610 -16.610 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.250 -70.214 0.036 30.40 S(-2) 1.766e-08 - HS- 1.235e-08 8.128e-09 -7.908 -8.090 -0.182 21.14 + HS- 1.235e-08 8.129e-09 -7.908 -8.090 -0.182 21.14 H2S 5.311e-09 5.774e-09 -8.275 -8.239 0.036 36.27 S-2 5.013e-14 1.208e-14 -13.300 -13.918 -0.618 (0) (H2S)2 1.616e-18 1.757e-18 -17.792 -17.755 0.036 30.09 @@ -59091,7 +59091,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -59102,12 +59102,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 8.9442e-18 - I 2.7298e-30 + Hto 6.1697e-18 + I 2.7290e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4951e-19 + Nat 1.8828e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -59126,12 +59126,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.580e-17 8.930e-18 + Hto 5.229e-17 6.160e-18 I 2.317e-17 2.729e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.947e-19 7.006e-20 + Nat 3.204e-19 3.774e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -59142,14 +59142,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.356e-10 + Electrical balance (eq) = 8.332e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -59190,8 +59190,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.503e-11 H2 7.516e-12 8.172e-12 -11.124 -11.088 0.036 28.61 -Hto 7.580e-17 - Hto 7.580e-17 7.580e-17 -16.120 -16.120 0.000 (0) +Hto 5.229e-17 + Hto 5.229e-17 5.229e-17 -16.282 -16.282 0.000 (0) I 2.317e-17 I- 2.317e-17 2.317e-17 -16.635 -16.635 -0.000 (0) K 1.540e-03 @@ -59209,12 +59209,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.947e-19 - Nat+ 5.947e-19 5.947e-19 -18.226 -18.226 -0.000 (0) +Nat 3.204e-19 + Nat+ 3.204e-19 3.204e-19 -18.494 -18.494 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.250 -70.213 0.036 30.40 S(-2) 1.764e-08 - HS- 1.234e-08 8.122e-09 -7.909 -8.090 -0.182 21.14 + HS- 1.234e-08 8.121e-09 -7.909 -8.090 -0.182 21.14 H2S 5.306e-09 5.769e-09 -8.275 -8.239 0.036 36.27 S-2 5.009e-14 1.207e-14 -13.300 -13.918 -0.618 (0) (H2S)2 1.613e-18 1.754e-18 -17.792 -17.756 0.036 30.09 @@ -59292,7 +59292,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -59303,12 +59303,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 1.4529e-19 - I 3.7544e-32 + Hto 9.6019e-20 + I 3.7550e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3275e-21 + Nat 1.6750e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -59327,12 +59327,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.231e-18 1.451e-19 + Hto 8.137e-19 9.586e-20 I 3.187e-19 3.754e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.662e-21 6.670e-22 + Nat 2.850e-21 3.358e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -59343,14 +59343,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.213e-10 + Electrical balance (eq) = 8.212e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -59365,7 +59365,7 @@ Su H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.121e-11 - CH4 1.121e-11 1.218e-11 -10.951 -10.914 0.036 35.46 + CH4 1.121e-11 1.218e-11 -10.950 -10.914 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -59391,8 +59391,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.502e-11 H2 7.508e-12 8.163e-12 -11.124 -11.088 0.036 28.61 -Hto 1.231e-18 - Hto 1.231e-18 1.231e-18 -17.910 -17.910 0.000 (0) +Hto 8.137e-19 + Hto 8.137e-19 8.137e-19 -18.090 -18.090 0.000 (0) I 3.187e-19 I- 3.187e-19 3.187e-19 -18.497 -18.497 -0.000 (0) K 1.540e-03 @@ -59410,15 +59410,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.662e-21 - Nat+ 5.662e-21 5.662e-21 -20.247 -20.247 -0.000 (0) +Nat 2.850e-21 + Nat+ 2.850e-21 2.850e-21 -20.545 -20.545 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.249 -70.212 0.036 30.40 -S(-2) 1.756e-08 - HS- 1.228e-08 8.085e-09 -7.911 -8.092 -0.182 21.14 +S(-2) 1.757e-08 + HS- 1.228e-08 8.086e-09 -7.911 -8.092 -0.182 21.14 H2S 5.283e-09 5.744e-09 -8.277 -8.241 0.036 36.27 - S-2 4.986e-14 1.202e-14 -13.302 -13.920 -0.618 (0) - (H2S)2 1.599e-18 1.738e-18 -17.796 -17.760 0.036 30.09 + S-2 4.987e-14 1.202e-14 -13.302 -13.920 -0.618 (0) + (H2S)2 1.599e-18 1.739e-18 -17.796 -17.760 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -59493,7 +59493,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -59504,12 +59504,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 1.4435e-21 + Hto 9.1393e-22 I 3.1578e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9346e-23 + Nat 9.1001e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -59528,12 +59528,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.223e-20 1.441e-21 + Hto 7.745e-21 9.125e-22 I 2.680e-21 3.157e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.292e-23 3.878e-24 + Nat 1.548e-23 1.824e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -59544,14 +59544,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.314e-09 + Electrical balance (eq) = 2.146e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -59592,8 +59592,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) H(0) 1.503e-11 H2 7.516e-12 8.171e-12 -11.124 -11.088 0.036 28.61 -Hto 1.223e-20 - Hto 1.223e-20 1.223e-20 -19.912 -19.912 0.000 (0) +Hto 7.745e-21 + Hto 7.745e-21 7.745e-21 -20.111 -20.111 0.000 (0) I 2.680e-21 I- 2.680e-21 2.680e-21 -20.572 -20.572 -0.000 (0) K 1.540e-03 @@ -59611,8 +59611,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.292e-23 - Nat+ 3.292e-23 3.292e-23 -22.483 -22.483 -0.000 (0) +Nat 1.548e-23 + Nat+ 1.548e-23 1.548e-23 -22.810 -22.810 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.250 -70.213 0.036 30.40 S(-2) 1.764e-08 @@ -59694,7 +59694,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -59705,8 +59705,8 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 6.6237e-24 - I 1.2258e-36 + Hto 4.0175e-24 + I 1.2260e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -59728,7 +59728,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.613e-23 6.613e-24 + Hto 3.405e-23 4.011e-24 I 1.041e-23 1.226e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -59743,7 +59743,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -59791,8 +59791,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.536e-11 H2 7.681e-12 8.351e-12 -11.115 -11.078 0.036 28.61 -Hto 5.613e-23 - Hto 5.613e-23 5.613e-23 -22.251 -22.251 0.000 (0) +Hto 3.405e-23 + Hto 3.405e-23 3.405e-23 -22.468 -22.468 0.000 (0) I 1.041e-23 I- 1.041e-23 1.041e-23 -22.983 -22.983 -0.000 (0) K 1.540e-03 @@ -59891,7 +59891,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -59936,7 +59936,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -60080,7 +60080,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -60125,7 +60125,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -60269,7 +60269,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -60314,7 +60314,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -60458,7 +60458,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -60503,7 +60503,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -60647,7 +60647,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -60692,7 +60692,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -60836,7 +60836,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -60881,7 +60881,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -61025,7 +61025,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -61070,7 +61070,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -61503,12 +61503,12 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.746e-07 3.373e-07 + Hto 6.801e-07 3.401e-07 I 8.078e-07 4.039e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.433e-07 2.217e-07 + Nat 4.557e-07 2.278e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 @@ -61519,14 +61519,14 @@ Kinetics 3. Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -61540,8 +61540,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.187e-13 - CH4 1.187e-13 1.290e-13 -12.926 -12.889 0.036 35.46 +C(-4) 1.185e-13 + CH4 1.185e-13 1.288e-13 -12.926 -12.890 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -61565,10 +61565,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 4.816e-12 - H2 2.408e-12 2.618e-12 -11.618 -11.582 0.036 28.61 -Hto 6.746e-07 - Hto 6.746e-07 6.746e-07 -6.171 -6.171 0.000 (0) +H(0) 4.815e-12 + H2 2.407e-12 2.617e-12 -11.618 -11.582 0.036 28.61 +Hto 6.801e-07 + Hto 6.801e-07 6.801e-07 -6.167 -6.167 0.000 (0) I 8.078e-07 I- 8.078e-07 8.078e-07 -6.093 -6.093 -0.000 (0) K 1.540e-03 @@ -61586,15 +61586,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.433e-07 - Nat+ 4.433e-07 4.433e-07 -6.353 -6.353 -0.000 (0) +Nat 4.557e-07 + Nat+ 4.557e-07 4.557e-07 -6.341 -6.341 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.261 -69.225 0.036 30.40 -S(-2) 1.860e-10 - HS- 1.301e-10 8.562e-11 -9.886 -10.067 -0.182 21.14 - H2S 5.597e-11 6.085e-11 -10.252 -10.216 0.036 36.27 - S-2 5.278e-16 1.272e-16 -15.278 -15.895 -0.618 (0) - (H2S)2 1.795e-22 1.951e-22 -21.746 -21.710 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.261 -69.224 0.036 30.40 +S(-2) 1.858e-10 + HS- 1.299e-10 8.550e-11 -9.886 -10.068 -0.182 21.14 + H2S 5.589e-11 6.076e-11 -10.253 -10.216 0.036 36.27 + S-2 5.271e-16 1.270e-16 -15.278 -15.896 -0.618 (0) + (H2S)2 1.789e-22 1.946e-22 -21.747 -21.711 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -61659,7 +61659,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.049e-13 Surface + diffuse layer charge, eq + -1.039e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -61669,7 +61669,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -61680,12 +61680,12 @@ Su Ca 7.1884e-02 Cl 4.6664e-10 H 1.2947e-04 - Hto 5.7256e-08 - I 7.0555e-20 + Hto 5.6975e-08 + I 7.0568e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8168e-07 + Nat 1.8046e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -61704,30 +61704,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.852e-07 5.716e-08 + Hto 4.828e-07 5.688e-08 I 5.988e-07 7.055e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.092e-07 3.642e-08 + Nat 3.071e-07 3.618e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.996 Adjusted to redox equilibrium + pe = -2.997 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.737e-09 + Electrical balance (eq) = 1.728e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -61741,8 +61741,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.127e-12 - CH4 1.127e-12 1.225e-12 -11.948 -11.912 0.036 35.46 +C(-4) 1.134e-12 + CH4 1.134e-12 1.233e-12 -11.945 -11.909 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -61766,10 +61766,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.455e-12 - H2 4.227e-12 4.596e-12 -11.374 -11.338 0.036 28.61 -Hto 4.852e-07 - Hto 4.852e-07 4.852e-07 -6.314 -6.314 0.000 (0) +H(0) 8.468e-12 + H2 4.234e-12 4.603e-12 -11.373 -11.337 0.036 28.61 +Hto 4.828e-07 + Hto 4.828e-07 4.828e-07 -6.316 -6.316 0.000 (0) I 5.988e-07 I- 5.988e-07 5.988e-07 -6.223 -6.223 -0.000 (0) K 1.540e-03 @@ -61787,15 +61787,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.092e-07 - Nat+ 3.092e-07 3.092e-07 -6.510 -6.510 -0.000 (0) +Nat 3.071e-07 + Nat+ 3.071e-07 3.071e-07 -6.513 -6.513 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.750 -69.714 0.036 30.40 -S(-2) 1.767e-09 - HS- 1.235e-09 8.131e-10 -8.908 -9.090 -0.182 21.14 - H2S 5.315e-10 5.779e-10 -9.274 -9.238 0.036 36.27 - S-2 5.013e-15 1.208e-15 -14.300 -14.918 -0.618 (0) - (H2S)2 1.618e-20 1.760e-20 -19.791 -19.755 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.751 -69.715 0.036 30.40 +S(-2) 1.778e-09 + HS- 1.243e-09 8.181e-10 -8.906 -9.087 -0.182 21.14 + H2S 5.348e-10 5.814e-10 -9.272 -9.236 0.036 36.27 + S-2 5.044e-15 1.216e-15 -14.297 -14.915 -0.618 (0) + (H2S)2 1.638e-20 1.781e-20 -19.786 -19.749 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -61860,7 +61860,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -8.980e-11 Surface + diffuse layer charge, eq + -8.978e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -61870,7 +61870,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -61881,12 +61881,12 @@ Su Ca 7.1884e-02 Cl 4.6650e-10 H 1.2948e-04 - Hto 1.9152e-08 + Hto 1.8444e-08 I 2.0901e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3297e-08 + Nat 4.0296e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -61905,12 +61905,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.623e-07 1.912e-08 + Hto 1.563e-07 1.841e-08 I 1.774e-07 2.090e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.367e-08 8.680e-09 + Nat 6.857e-08 8.078e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -61921,14 +61921,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.254e-09 + Electrical balance (eq) = 5.221e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -61942,8 +61942,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.831e-12 - CH4 8.831e-12 9.601e-12 -11.054 -11.018 0.036 35.46 +C(-4) 8.776e-12 + CH4 8.776e-12 9.542e-12 -11.057 -11.020 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -61967,10 +61967,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.415e-11 - H2 7.074e-12 7.691e-12 -11.150 -11.114 0.036 28.61 -Hto 1.623e-07 - Hto 1.623e-07 1.623e-07 -6.790 -6.790 0.000 (0) +H(0) 1.413e-11 + H2 7.063e-12 7.679e-12 -11.151 -11.115 0.036 28.61 +Hto 1.563e-07 + Hto 1.563e-07 1.563e-07 -6.806 -6.806 0.000 (0) I 1.774e-07 I- 1.774e-07 1.774e-07 -6.751 -6.751 -0.000 (0) K 1.540e-03 @@ -61983,20 +61983,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 - MgOH+ 2.897e-07 2.125e-07 -6.538 -6.673 -0.134 (0) + MgOH+ 2.896e-07 2.125e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.367e-08 - Nat+ 7.367e-08 7.367e-08 -7.133 -7.133 -0.000 (0) +Nat 6.857e-08 + Nat+ 6.857e-08 6.857e-08 -7.164 -7.164 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.197 -70.161 0.036 30.40 -S(-2) 1.384e-08 - HS- 9.679e-09 6.372e-09 -8.014 -8.196 -0.182 21.14 - H2S 4.163e-09 4.527e-09 -8.381 -8.344 0.036 36.27 - S-2 3.929e-14 9.471e-15 -13.406 -14.024 -0.618 (0) - (H2S)2 9.931e-19 1.080e-18 -18.003 -17.967 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.196 -70.159 0.036 30.40 +S(-2) 1.376e-08 + HS- 9.619e-09 6.332e-09 -8.017 -8.198 -0.182 21.14 + H2S 4.138e-09 4.499e-09 -8.383 -8.347 0.036 36.27 + S-2 3.905e-14 9.412e-15 -13.408 -14.026 -0.618 (0) + (H2S)2 9.808e-19 1.066e-18 -18.008 -17.972 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -62061,7 +62061,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.025e-11 Surface + diffuse layer charge, eq + -9.024e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -62071,7 +62071,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -62082,12 +62082,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 4.2487e-09 - I 4.0300e-21 + Hto 3.9407e-09 + I 4.0292e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2248e-09 + Nat 5.4169e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -62106,12 +62106,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.601e-08 4.242e-09 + Hto 3.340e-08 3.934e-09 I 3.420e-08 4.029e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.059e-08 1.248e-09 + Nat 9.217e-09 1.086e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -62122,14 +62122,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.419e-10 + Electrical balance (eq) = 6.420e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -62143,8 +62143,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.205e-11 - CH4 1.205e-11 1.310e-11 -10.919 -10.883 0.036 35.46 +C(-4) 1.204e-11 + CH4 1.204e-11 1.309e-11 -10.919 -10.883 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -62169,9 +62169,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.529e-11 - H2 7.645e-12 8.312e-12 -11.117 -11.080 0.036 28.61 -Hto 3.601e-08 - Hto 3.601e-08 3.601e-08 -7.444 -7.444 0.000 (0) + H2 7.644e-12 8.311e-12 -11.117 -11.080 0.036 28.61 +Hto 3.340e-08 + Hto 3.340e-08 3.340e-08 -7.476 -7.476 0.000 (0) I 3.420e-08 I- 3.420e-08 3.420e-08 -7.466 -7.466 -0.000 (0) K 1.540e-03 @@ -62189,15 +62189,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.059e-08 - Nat+ 1.059e-08 1.059e-08 -7.975 -7.975 -0.000 (0) +Nat 9.217e-09 + Nat+ 9.217e-09 9.217e-09 -8.035 -8.035 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.265 -70.228 0.036 30.40 -S(-2) 1.889e-08 - HS- 1.321e-08 8.694e-09 -7.879 -8.061 -0.182 21.14 - H2S 5.680e-09 6.176e-09 -8.246 -8.209 0.036 36.27 - S-2 5.362e-14 1.292e-14 -13.271 -13.889 -0.618 (0) - (H2S)2 1.849e-18 2.010e-18 -17.733 -17.697 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.264 -70.228 0.036 30.40 +S(-2) 1.887e-08 + HS- 1.320e-08 8.688e-09 -7.879 -8.061 -0.182 21.14 + H2S 5.677e-09 6.172e-09 -8.246 -8.210 0.036 36.27 + S-2 5.358e-14 1.292e-14 -13.271 -13.889 -0.618 (0) + (H2S)2 1.846e-18 2.007e-18 -17.734 -17.697 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -62231,7 +62231,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.98 -11.08 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.21 -15.15 -7.94 H2S + H2S(g) -7.22 -15.15 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -62262,7 +62262,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.029e-11 Surface + diffuse layer charge, eq + -9.030e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -62272,7 +62272,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -62283,12 +62283,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 6.6854e-10 - I 5.4573e-22 + Hto 5.9590e-10 + I 5.4553e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0880e-10 + Nat 4.9509e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -62307,12 +62307,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.666e-09 6.675e-10 + Hto 5.050e-09 5.949e-10 I 4.631e-09 5.456e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.036e-09 1.220e-10 + Nat 8.424e-10 9.925e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -62323,7 +62323,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -62345,7 +62345,7 @@ Su H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.308e-11 - CH4 1.308e-11 1.422e-11 -10.883 -10.847 0.036 35.46 + CH4 1.308e-11 1.423e-11 -10.883 -10.847 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -62371,8 +62371,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.561e-11 H2 7.804e-12 8.485e-12 -11.108 -11.071 0.036 28.61 -Hto 5.666e-09 - Hto 5.666e-09 5.666e-09 -8.247 -8.247 0.000 (0) +Hto 5.050e-09 + Hto 5.050e-09 5.050e-09 -8.297 -8.297 0.000 (0) I 4.631e-09 I- 4.631e-09 4.631e-09 -8.334 -8.334 -0.000 (0) K 1.540e-03 @@ -62390,14 +62390,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.036e-09 - Nat+ 1.036e-09 1.036e-09 -8.985 -8.985 -0.000 (0) +Nat 8.424e-10 + Nat+ 8.424e-10 8.424e-10 -9.074 -9.074 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.282 -70.246 0.036 30.40 -S(-2) 2.050e-08 - HS- 1.434e-08 9.439e-09 -7.844 -8.025 -0.182 21.14 - H2S 6.167e-09 6.705e-09 -8.210 -8.174 0.036 36.27 - S-2 5.821e-14 1.403e-14 -13.235 -13.853 -0.618 (0) +S(-2) 2.051e-08 + HS- 1.434e-08 9.440e-09 -7.843 -8.025 -0.182 21.14 + H2S 6.168e-09 6.706e-09 -8.210 -8.174 0.036 36.27 + S-2 5.822e-14 1.403e-14 -13.235 -13.853 -0.618 (0) (H2S)2 2.179e-18 2.369e-18 -17.662 -17.625 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -62473,7 +62473,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -62484,12 +62484,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 7.7715e-11 - I 5.4277e-23 + Hto 6.6494e-11 + I 5.4271e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3032e-11 + Nat 3.2697e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -62508,12 +62508,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.586e-10 7.759e-11 + Hto 5.635e-10 6.639e-11 I 4.607e-10 5.428e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.322e-11 8.626e-12 + Nat 5.564e-11 6.555e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -62524,7 +62524,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -62572,8 +62572,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.566e-11 H2 7.832e-12 8.515e-12 -11.106 -11.070 0.036 28.61 -Hto 6.586e-10 - Hto 6.586e-10 6.586e-10 -9.181 -9.181 0.000 (0) +Hto 5.635e-10 + Hto 5.635e-10 5.635e-10 -9.249 -9.249 0.000 (0) I 4.607e-10 I- 4.607e-10 4.607e-10 -9.337 -9.337 -0.000 (0) K 1.540e-03 @@ -62591,12 +62591,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.322e-11 - Nat+ 7.322e-11 7.322e-11 -10.135 -10.135 -0.000 (0) +Nat 5.564e-11 + Nat+ 5.564e-11 5.564e-11 -10.255 -10.255 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.285 -70.249 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.286 -70.249 0.036 30.40 S(-2) 2.080e-08 - HS- 1.454e-08 9.574e-09 -7.837 -8.019 -0.182 21.14 + HS- 1.454e-08 9.575e-09 -7.837 -8.019 -0.182 21.14 H2S 6.255e-09 6.801e-09 -8.204 -8.167 0.036 36.27 S-2 5.905e-14 1.423e-14 -13.229 -13.847 -0.618 (0) (H2S)2 2.242e-18 2.437e-18 -17.649 -17.613 0.036 30.09 @@ -62674,7 +62674,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -62685,12 +62685,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 6.8361e-12 - I 4.0713e-24 + Hto 5.6106e-12 + I 4.0721e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2720e-12 + Nat 1.6130e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -62709,12 +62709,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.793e-11 6.825e-12 + Hto 4.755e-11 5.602e-12 I 3.456e-11 4.071e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.866e-12 4.555e-13 + Nat 2.745e-12 3.234e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -62725,7 +62725,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -62773,8 +62773,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.834e-12 8.517e-12 -11.106 -11.070 0.036 28.61 -Hto 5.793e-11 - Hto 5.793e-11 5.793e-11 -10.237 -10.237 0.000 (0) +Hto 4.755e-11 + Hto 4.755e-11 4.755e-11 -10.323 -10.323 0.000 (0) I 3.456e-11 I- 3.456e-11 3.456e-11 -10.461 -10.461 -0.000 (0) K 1.540e-03 @@ -62792,14 +62792,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.866e-12 - Nat+ 3.866e-12 3.866e-12 -11.413 -11.413 -0.000 (0) +Nat 2.745e-12 + Nat+ 2.745e-12 2.745e-12 -11.562 -11.562 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.249 0.036 30.40 S(-2) 2.082e-08 - HS- 1.456e-08 9.583e-09 -7.837 -8.019 -0.182 21.14 + HS- 1.456e-08 9.583e-09 -7.837 -8.018 -0.182 21.14 H2S 6.261e-09 6.807e-09 -8.203 -8.167 0.036 36.27 - S-2 5.910e-14 1.425e-14 -13.228 -13.846 -0.618 (0) + S-2 5.911e-14 1.425e-14 -13.228 -13.846 -0.618 (0) (H2S)2 2.246e-18 2.442e-18 -17.649 -17.612 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -62865,7 +62865,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.020e-11 Surface + diffuse layer charge, eq + -9.019e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -62875,7 +62875,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -62886,12 +62886,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 4.6067e-13 - I 2.3350e-25 + Hto 3.6253e-13 + I 2.3340e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1144e-14 + Nat 6.0459e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -62910,12 +62910,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.904e-12 4.599e-13 + Hto 3.072e-12 3.619e-13 I 1.981e-12 2.334e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.551e-13 1.827e-14 + Nat 1.029e-13 1.212e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -62926,7 +62926,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -62973,9 +62973,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.563e-11 - H2 7.814e-12 8.496e-12 -11.107 -11.071 0.036 28.61 -Hto 3.904e-12 - Hto 3.904e-12 3.904e-12 -11.408 -11.408 0.000 (0) + H2 7.815e-12 8.496e-12 -11.107 -11.071 0.036 28.61 +Hto 3.072e-12 + Hto 3.072e-12 3.072e-12 -11.513 -11.513 0.000 (0) I 1.981e-12 I- 1.981e-12 1.981e-12 -11.703 -11.703 -0.000 (0) K 1.540e-03 @@ -62993,15 +62993,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.551e-13 - Nat+ 1.551e-13 1.551e-13 -12.809 -12.809 -0.000 (0) +Nat 1.029e-13 + Nat+ 1.029e-13 1.029e-13 -12.988 -12.988 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.284 -70.247 0.036 30.40 -S(-2) 2.061e-08 - HS- 1.441e-08 9.488e-09 -7.841 -8.023 -0.182 21.14 - H2S 6.199e-09 6.739e-09 -8.208 -8.171 0.036 36.27 - S-2 5.852e-14 1.411e-14 -13.233 -13.851 -0.618 (0) - (H2S)2 2.201e-18 2.393e-18 -17.657 -17.621 0.036 30.09 +S(-2) 2.062e-08 + HS- 1.442e-08 9.491e-09 -7.841 -8.023 -0.182 21.14 + H2S 6.201e-09 6.741e-09 -8.208 -8.171 0.036 36.27 + S-2 5.853e-14 1.411e-14 -13.233 -13.850 -0.618 (0) + (H2S)2 2.203e-18 2.395e-18 -17.657 -17.621 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -63066,7 +63066,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.003e-11 Surface + diffuse layer charge, eq + -9.007e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -63076,7 +63076,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -63087,12 +63087,12 @@ Su Ca 7.1884e-02 Cl 4.6643e-10 H 1.2948e-04 - Hto 2.3854e-14 + Hto 1.7994e-14 I 1.0268e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.7939e-15 + Nat 1.7316e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -63111,12 +63111,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.022e-13 2.382e-14 + Hto 1.525e-13 1.797e-14 I 8.715e-14 1.027e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.754e-15 5.601e-16 + Nat 2.947e-15 3.471e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -63127,14 +63127,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.153e-09 + Electrical balance (eq) = 2.710e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -63149,7 +63149,7 @@ Su H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.246e-11 - CH4 1.246e-11 1.354e-11 -10.905 -10.868 0.036 35.46 + CH4 1.246e-11 1.355e-11 -10.904 -10.868 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -63174,9 +63174,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.542e-11 - H2 7.709e-12 8.381e-12 -11.113 -11.077 0.036 28.61 -Hto 2.022e-13 - Hto 2.022e-13 2.022e-13 -12.694 -12.694 0.000 (0) + H2 7.710e-12 8.382e-12 -11.113 -11.077 0.036 28.61 +Hto 1.525e-13 + Hto 1.525e-13 1.525e-13 -12.817 -12.817 0.000 (0) I 8.715e-14 I- 8.715e-14 8.715e-14 -13.060 -13.060 -0.000 (0) K 1.540e-03 @@ -63194,15 +63194,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.754e-15 - Nat+ 4.754e-15 4.754e-15 -14.323 -14.323 -0.000 (0) +Nat 2.947e-15 + Nat+ 2.947e-15 2.947e-15 -14.531 -14.531 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.272 -70.235 0.036 30.40 -S(-2) 1.952e-08 - HS- 1.365e-08 8.987e-09 -7.865 -8.046 -0.182 21.14 - H2S 5.871e-09 6.384e-09 -8.231 -8.195 0.036 36.27 - S-2 5.542e-14 1.336e-14 -13.256 -13.874 -0.618 (0) - (H2S)2 1.975e-18 2.147e-18 -17.704 -17.668 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.272 -70.236 0.036 30.40 +S(-2) 1.953e-08 + HS- 1.366e-08 8.991e-09 -7.865 -8.046 -0.182 21.14 + H2S 5.874e-09 6.387e-09 -8.231 -8.195 0.036 36.27 + S-2 5.545e-14 1.337e-14 -13.256 -13.874 -0.618 (0) + (H2S)2 1.977e-18 2.150e-18 -17.704 -17.668 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -63267,7 +63267,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -8.994e-11 Surface + diffuse layer charge, eq + -8.996e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -63277,7 +63277,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -63288,12 +63288,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 9.4342e-16 - I 3.4449e-28 + Hto 6.8206e-16 + I 3.4463e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.5155e-17 + Nat 3.7734e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -63312,12 +63312,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.995e-15 9.419e-16 + Hto 5.780e-15 6.810e-16 I 2.925e-15 3.445e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.109e-16 1.306e-17 + Nat 6.421e-17 7.564e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -63328,14 +63328,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.202e-09 + Electrical balance (eq) = 1.118e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -63375,9 +63375,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.537e-11 - H2 7.683e-12 8.353e-12 -11.114 -11.078 0.036 28.61 -Hto 7.995e-15 - Hto 7.995e-15 7.995e-15 -14.097 -14.097 0.000 (0) + H2 7.683e-12 8.354e-12 -11.114 -11.078 0.036 28.61 +Hto 5.780e-15 + Hto 5.780e-15 5.780e-15 -14.238 -14.238 0.000 (0) I 2.925e-15 I- 2.925e-15 2.925e-15 -14.534 -14.534 -0.000 (0) K 1.540e-03 @@ -63395,15 +63395,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.109e-16 - Nat+ 1.109e-16 1.109e-16 -15.955 -15.955 -0.000 (0) +Nat 6.421e-17 + Nat+ 6.421e-17 6.421e-17 -16.192 -16.192 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.269 -70.233 0.036 30.40 -S(-2) 1.926e-08 - HS- 1.347e-08 8.868e-09 -7.871 -8.052 -0.182 21.14 - H2S 5.794e-09 6.299e-09 -8.237 -8.201 0.036 36.27 - S-2 5.469e-14 1.318e-14 -13.262 -13.880 -0.618 (0) - (H2S)2 1.923e-18 2.091e-18 -17.716 -17.680 0.036 30.09 +S(-2) 1.927e-08 + HS- 1.347e-08 8.869e-09 -7.871 -8.052 -0.182 21.14 + H2S 5.794e-09 6.300e-09 -8.237 -8.201 0.036 36.27 + S-2 5.470e-14 1.318e-14 -13.262 -13.880 -0.618 (0) + (H2S)2 1.924e-18 2.091e-18 -17.716 -17.680 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -63478,7 +63478,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -63489,12 +63489,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 2.8034e-17 - I 8.6806e-30 + Hto 1.9422e-17 + I 8.6790e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1383e-18 + Nat 6.1601e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -63513,12 +63513,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.376e-16 2.799e-17 + Hto 1.646e-16 1.939e-17 I 7.367e-17 8.679e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.937e-18 2.282e-19 + Nat 1.048e-18 1.235e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -63529,14 +63529,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.460e-10 + Electrical balance (eq) = 7.435e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -63577,8 +63577,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.536e-11 H2 7.681e-12 8.351e-12 -11.115 -11.078 0.036 28.61 -Hto 2.376e-16 - Hto 2.376e-16 2.376e-16 -15.624 -15.624 0.000 (0) +Hto 1.646e-16 + Hto 1.646e-16 1.646e-16 -15.784 -15.784 0.000 (0) I 7.367e-17 I- 7.367e-17 7.367e-17 -16.133 -16.133 -0.000 (0) K 1.540e-03 @@ -63596,8 +63596,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.937e-18 - Nat+ 1.937e-18 1.937e-18 -17.713 -17.713 -0.000 (0) +Nat 1.048e-18 + Nat+ 1.048e-18 1.048e-18 -17.980 -17.980 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.269 -70.232 0.036 30.40 S(-2) 1.924e-08 @@ -63679,7 +63679,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -63690,12 +63690,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 6.0666e-19 + Hto 4.0270e-19 I 1.5913e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4452e-20 + Nat 7.3078e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -63714,12 +63714,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.141e-18 6.057e-19 + Hto 3.413e-18 4.020e-19 I 1.351e-18 1.591e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.459e-20 2.897e-21 + Nat 1.243e-20 1.465e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -63730,14 +63730,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.316e-10 + Electrical balance (eq) = 7.315e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -63778,8 +63778,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.536e-11 H2 7.681e-12 8.351e-12 -11.115 -11.078 0.036 28.61 -Hto 5.141e-18 - Hto 5.141e-18 5.141e-18 -17.289 -17.289 0.000 (0) +Hto 3.413e-18 + Hto 3.413e-18 3.413e-18 -17.467 -17.467 0.000 (0) I 1.351e-18 I- 1.351e-18 1.351e-18 -17.869 -17.869 -0.000 (0) K 1.540e-03 @@ -63797,13 +63797,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.459e-20 - Nat+ 2.459e-20 2.459e-20 -19.609 -19.609 -0.000 (0) +Nat 1.243e-20 + Nat+ 1.243e-20 1.243e-20 -19.905 -19.905 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.269 -70.232 0.036 30.40 S(-2) 1.924e-08 HS- 1.345e-08 8.857e-09 -7.871 -8.053 -0.182 21.14 - H2S 5.787e-09 6.292e-09 -8.238 -8.201 0.036 36.27 + H2S 5.787e-09 6.291e-09 -8.238 -8.201 0.036 36.27 S-2 5.462e-14 1.317e-14 -13.263 -13.881 -0.618 (0) (H2S)2 1.918e-18 2.086e-18 -17.717 -17.681 0.036 30.09 S(6) 1.260e-02 @@ -63880,7 +63880,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -63891,12 +63891,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 9.0348e-21 + Hto 5.7457e-21 I 2.0064e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2605e-22 + Nat 5.9560e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -63915,12 +63915,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.657e-20 9.020e-21 + Hto 4.869e-20 5.736e-21 I 1.703e-20 2.006e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.145e-22 2.527e-23 + Nat 1.013e-22 1.194e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -63931,14 +63931,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.224e-09 + Electrical balance (eq) = 2.057e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -63979,8 +63979,8 @@ Cl 3.000e-01 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.535e-11 H2 7.673e-12 8.343e-12 -11.115 -11.079 0.036 28.61 -Hto 7.657e-20 - Hto 7.657e-20 7.657e-20 -19.116 -19.116 0.000 (0) +Hto 4.869e-20 + Hto 4.869e-20 4.869e-20 -19.313 -19.313 0.000 (0) I 1.703e-20 I- 1.703e-20 1.703e-20 -19.769 -19.769 -0.000 (0) K 1.540e-03 @@ -63998,15 +63998,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.145e-22 - Nat+ 2.145e-22 2.145e-22 -21.669 -21.669 -0.000 (0) +Nat 1.013e-22 + Nat+ 1.013e-22 1.013e-22 -21.994 -21.994 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.268 -70.231 0.036 30.40 -S(-2) 1.916e-08 +S(-2) 1.917e-08 HS- 1.340e-08 8.822e-09 -7.873 -8.054 -0.182 21.14 - H2S 5.764e-09 6.266e-09 -8.239 -8.203 0.036 36.27 - S-2 5.441e-14 1.311e-14 -13.264 -13.882 -0.618 (0) - (H2S)2 1.903e-18 2.069e-18 -17.721 -17.684 0.036 30.09 + H2S 5.764e-09 6.267e-09 -8.239 -8.203 0.036 36.27 + S-2 5.441e-14 1.312e-14 -13.264 -13.882 -0.618 (0) + (H2S)2 1.903e-18 2.070e-18 -17.720 -17.684 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -64081,7 +64081,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -64092,12 +64092,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 8.2866e-23 + Hto 5.0486e-23 I 1.5575e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2769e-25 + Nat 2.3088e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -64116,12 +64116,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.023e-22 8.273e-23 + Hto 4.278e-22 5.040e-23 I 1.322e-22 1.557e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.068e-24 1.258e-25 + Nat 3.929e-25 4.628e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -64132,7 +64132,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -64180,8 +64180,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.835e-12 8.519e-12 -11.106 -11.070 0.036 28.61 -Hto 7.023e-22 - Hto 7.023e-22 7.023e-22 -21.154 -21.154 0.000 (0) +Hto 4.278e-22 + Hto 4.278e-22 4.278e-22 -21.369 -21.369 0.000 (0) I 1.322e-22 I- 1.322e-22 1.322e-22 -21.879 -21.879 -0.000 (0) K 1.540e-03 @@ -64199,8 +64199,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.068e-24 - Nat+ 1.068e-24 1.068e-24 -23.971 -23.971 -0.000 (0) +Nat 3.929e-25 + Nat+ 3.929e-25 3.929e-25 -24.406 -24.406 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.250 0.036 30.40 S(-2) 2.084e-08 @@ -64282,7 +64282,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -64293,7 +64293,7 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 3.5309e-25 + Hto 2.0608e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -64315,7 +64315,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.992e-24 3.525e-25 + Hto 1.746e-24 2.057e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -64329,7 +64329,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -64377,8 +64377,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.835e-12 8.519e-12 -11.106 -11.070 0.036 28.61 -Hto 2.992e-24 - Hto 2.992e-24 2.992e-24 -23.524 -23.524 0.000 (0) +Hto 1.746e-24 + Hto 1.746e-24 1.746e-24 -23.758 -23.758 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -64475,7 +64475,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -64520,7 +64520,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -64664,7 +64664,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -64709,7 +64709,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -64853,7 +64853,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -64898,7 +64898,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -65042,7 +65042,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -65087,7 +65087,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -65231,7 +65231,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -65276,7 +65276,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -65420,7 +65420,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -65465,7 +65465,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -65898,30 +65898,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.651e-07 3.325e-07 + Hto 6.706e-07 3.353e-07 I 8.018e-07 4.009e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.310e-07 2.155e-07 + Nat 4.429e-07 2.215e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.887 Adjusted to redox equilibrium + pe = -2.886 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -65935,8 +65935,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.497e-13 - CH4 1.497e-13 1.627e-13 -12.825 -12.789 0.036 35.46 +C(-4) 1.492e-13 + CH4 1.492e-13 1.622e-13 -12.826 -12.790 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -65960,10 +65960,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.104e-12 - H2 2.552e-12 2.775e-12 -11.593 -11.557 0.036 28.61 -Hto 6.651e-07 - Hto 6.651e-07 6.651e-07 -6.177 -6.177 0.000 (0) +H(0) 5.100e-12 + H2 2.550e-12 2.772e-12 -11.593 -11.557 0.036 28.61 +Hto 6.706e-07 + Hto 6.706e-07 6.706e-07 -6.174 -6.174 0.000 (0) I 8.018e-07 I- 8.018e-07 8.018e-07 -6.096 -6.096 -0.000 (0) K 1.540e-03 @@ -65981,15 +65981,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.310e-07 - Nat+ 4.310e-07 4.310e-07 -6.365 -6.365 -0.000 (0) +Nat 4.429e-07 + Nat+ 4.429e-07 4.429e-07 -6.354 -6.354 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.312 -69.275 0.036 30.40 -S(-2) 2.346e-10 - HS- 1.640e-10 1.080e-10 -9.785 -9.967 -0.182 21.14 - H2S 7.059e-11 7.675e-11 -10.151 -10.115 0.036 36.27 - S-2 6.657e-16 1.605e-16 -15.177 -15.795 -0.618 (0) - (H2S)2 2.855e-22 3.104e-22 -21.544 -21.508 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.311 -69.275 0.036 30.40 +S(-2) 2.339e-10 + HS- 1.635e-10 1.076e-10 -9.786 -9.968 -0.182 21.14 + H2S 7.036e-11 7.650e-11 -10.153 -10.116 0.036 36.27 + S-2 6.636e-16 1.600e-16 -15.178 -15.796 -0.618 (0) + (H2S)2 2.837e-22 3.084e-22 -21.547 -21.511 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -66028,7 +66028,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.38 -69.28 -2.89 O2 + O2(g) -66.38 -69.27 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -6.59 -1.71 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -66064,7 +66064,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -66075,12 +66075,12 @@ Su Ca 7.1884e-02 Cl 4.6664e-10 H 1.2947e-04 - Hto 5.7607e-08 + Hto 5.7387e-08 I 7.1296e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8231e-07 + Nat 1.8151e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -66099,12 +66099,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.882e-07 5.751e-08 + Hto 4.863e-07 5.729e-08 I 6.051e-07 7.128e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.102e-07 3.655e-08 + Nat 3.089e-07 3.639e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -66115,14 +66115,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.734e-09 + Electrical balance (eq) = 1.725e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -66161,10 +66161,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.842e-12 - H2 4.421e-12 4.807e-12 -11.354 -11.318 0.036 28.61 -Hto 4.882e-07 - Hto 4.882e-07 4.882e-07 -6.311 -6.311 0.000 (0) +H(0) 8.841e-12 + H2 4.421e-12 4.806e-12 -11.355 -11.318 0.036 28.61 +Hto 4.863e-07 + Hto 4.863e-07 4.863e-07 -6.313 -6.313 0.000 (0) I 6.051e-07 I- 6.051e-07 6.051e-07 -6.218 -6.218 -0.000 (0) K 1.540e-03 @@ -66182,15 +66182,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.102e-07 - Nat+ 3.102e-07 3.102e-07 -6.508 -6.508 -0.000 (0) +Nat 3.089e-07 + Nat+ 3.089e-07 3.089e-07 -6.510 -6.510 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -69.789 -69.752 0.036 30.40 S(-2) 2.113e-09 - HS- 1.477e-09 9.726e-10 -8.831 -9.012 -0.182 21.14 - H2S 6.357e-10 6.912e-10 -9.197 -9.160 0.036 36.27 - S-2 5.996e-15 1.445e-15 -14.222 -14.840 -0.618 (0) - (H2S)2 2.315e-20 2.517e-20 -19.635 -19.599 0.036 30.09 + HS- 1.477e-09 9.723e-10 -8.831 -9.012 -0.182 21.14 + H2S 6.356e-10 6.910e-10 -9.197 -9.161 0.036 36.27 + S-2 5.994e-15 1.445e-15 -14.222 -14.840 -0.618 (0) + (H2S)2 2.314e-20 2.516e-20 -19.636 -19.599 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -66199,7 +66199,7 @@ S(6) 1.260e-02 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - HSO4- 1.309e-08 9.566e-09 -7.883 -8.019 -0.136 40.78 + HSO4- 1.309e-08 9.567e-09 -7.883 -8.019 -0.136 40.78 CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 @@ -66255,7 +66255,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.003e-11 Surface + diffuse layer charge, eq + -9.000e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -66265,7 +66265,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -66274,14 +66274,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6648e-10 + Cl 4.6649e-10 H 1.2948e-04 - Hto 2.0389e-08 - I 2.2403e-20 + Hto 1.9676e-08 + I 2.2400e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6584e-08 + Nat 4.3503e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -66300,12 +66300,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.728e-07 2.036e-08 + Hto 1.667e-07 1.964e-08 I 1.901e-07 2.240e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.927e-08 9.339e-09 + Nat 7.403e-08 8.721e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -66316,14 +66316,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.165e-09 + Electrical balance (eq) = 5.131e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -66337,8 +66337,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.695e-12 - CH4 9.695e-12 1.054e-11 -11.013 -10.977 0.036 35.46 +C(-4) 9.648e-12 + CH4 9.648e-12 1.049e-11 -11.016 -10.979 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -66362,10 +66362,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.448e-11 - H2 7.241e-12 7.872e-12 -11.140 -11.104 0.036 28.61 -Hto 1.728e-07 - Hto 1.728e-07 1.728e-07 -6.762 -6.762 0.000 (0) +H(0) 1.446e-11 + H2 7.232e-12 7.863e-12 -11.141 -11.104 0.036 28.61 +Hto 1.667e-07 + Hto 1.667e-07 1.667e-07 -6.778 -6.778 0.000 (0) I 1.901e-07 I- 1.901e-07 1.901e-07 -6.721 -6.721 -0.000 (0) K 1.540e-03 @@ -66383,15 +66383,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 7.927e-08 - Nat+ 7.927e-08 7.927e-08 -7.101 -7.101 -0.000 (0) +Nat 7.403e-08 + Nat+ 7.403e-08 7.403e-08 -7.131 -7.131 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.217 -70.181 0.036 30.40 -S(-2) 1.520e-08 - HS- 1.063e-08 6.995e-09 -7.974 -8.155 -0.182 21.14 - H2S 4.571e-09 4.970e-09 -8.340 -8.304 0.036 36.27 - S-2 4.314e-14 1.040e-14 -13.365 -13.983 -0.618 (0) - (H2S)2 1.197e-18 1.301e-18 -17.922 -17.886 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.216 -70.180 0.036 30.40 +S(-2) 1.512e-08 + HS- 1.057e-08 6.961e-09 -7.976 -8.157 -0.182 21.14 + H2S 4.549e-09 4.946e-09 -8.342 -8.306 0.036 36.27 + S-2 4.293e-14 1.035e-14 -13.367 -13.985 -0.618 (0) + (H2S)2 1.185e-18 1.289e-18 -17.926 -17.890 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -66456,7 +66456,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.056e-11 Surface + diffuse layer charge, eq + -9.055e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -66466,7 +66466,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -66477,12 +66477,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 4.8523e-09 - I 4.6421e-21 + Hto 4.5131e-09 + I 4.6430e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2454e-09 + Nat 6.3293e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -66501,12 +66501,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.112e-08 4.844e-09 + Hto 3.825e-08 4.506e-09 I 3.940e-08 4.642e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.233e-08 1.452e-09 + Nat 1.077e-08 1.269e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -66517,7 +66517,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -66563,10 +66563,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) -H(0) 1.558e-11 - H2 7.788e-12 8.467e-12 -11.109 -11.072 0.036 28.61 -Hto 4.112e-08 - Hto 4.112e-08 4.112e-08 -7.386 -7.386 0.000 (0) +H(0) 1.557e-11 + H2 7.787e-12 8.466e-12 -11.109 -11.072 0.036 28.61 +Hto 3.825e-08 + Hto 3.825e-08 3.825e-08 -7.417 -7.417 0.000 (0) I 3.940e-08 I- 3.940e-08 3.940e-08 -7.404 -7.404 -0.000 (0) K 1.540e-03 @@ -66584,15 +66584,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.233e-08 - Nat+ 1.233e-08 1.233e-08 -7.909 -7.909 -0.000 (0) +Nat 1.077e-08 + Nat+ 1.077e-08 1.077e-08 -7.968 -7.968 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.281 -70.244 0.036 30.40 -S(-2) 2.033e-08 - HS- 1.422e-08 9.360e-09 -7.847 -8.029 -0.182 21.14 - H2S 6.115e-09 6.648e-09 -8.214 -8.177 0.036 36.27 - S-2 5.773e-14 1.391e-14 -13.239 -13.857 -0.618 (0) - (H2S)2 2.142e-18 2.329e-18 -17.669 -17.633 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.280 -70.244 0.036 30.40 +S(-2) 2.032e-08 + HS- 1.421e-08 9.354e-09 -7.847 -8.029 -0.182 21.14 + H2S 6.111e-09 6.645e-09 -8.214 -8.178 0.036 36.27 + S-2 5.769e-14 1.391e-14 -13.239 -13.857 -0.618 (0) + (H2S)2 2.140e-18 2.327e-18 -17.670 -17.633 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -66667,7 +66667,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -66678,12 +66678,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 8.2789e-10 + Hto 7.4032e-10 I 6.8273e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.7266e-10 + Nat 6.3091e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -66702,23 +66702,23 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.016e-09 8.266e-10 + Hto 6.274e-09 7.391e-10 I 5.794e-09 6.826e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.315e-09 1.549e-10 + Nat 1.074e-09 1.265e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.133 Adjusted to redox equilibrium + pe = -3.134 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -66739,8 +66739,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.406e-11 - CH4 1.406e-11 1.529e-11 -10.852 -10.816 0.036 35.46 +C(-4) 1.407e-11 + CH4 1.407e-11 1.529e-11 -10.852 -10.815 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -66766,8 +66766,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.589e-11 H2 7.947e-12 8.640e-12 -11.100 -11.063 0.036 28.61 -Hto 7.016e-09 - Hto 7.016e-09 7.016e-09 -8.154 -8.154 0.000 (0) +Hto 6.274e-09 + Hto 6.274e-09 6.274e-09 -8.202 -8.202 0.000 (0) I 5.794e-09 I- 5.794e-09 5.794e-09 -8.237 -8.237 -0.000 (0) K 1.540e-03 @@ -66785,15 +66785,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.315e-09 - Nat+ 1.315e-09 1.315e-09 -8.881 -8.881 -0.000 (0) +Nat 1.074e-09 + Nat+ 1.074e-09 1.074e-09 -8.969 -8.969 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.298 -70.262 0.036 30.40 -S(-2) 2.204e-08 - HS- 1.541e-08 1.015e-08 -7.812 -7.994 -0.182 21.14 - H2S 6.629e-09 7.208e-09 -8.179 -8.142 0.036 36.27 - S-2 6.259e-14 1.509e-14 -13.204 -13.821 -0.618 (0) - (H2S)2 2.518e-18 2.738e-18 -17.599 -17.563 0.036 30.09 +S(-2) 2.205e-08 + HS- 1.542e-08 1.015e-08 -7.812 -7.994 -0.182 21.14 + H2S 6.631e-09 7.209e-09 -8.178 -8.142 0.036 36.27 + S-2 6.260e-14 1.509e-14 -13.203 -13.821 -0.618 (0) + (H2S)2 2.519e-18 2.738e-18 -17.599 -17.562 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -66868,7 +66868,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -66879,12 +66879,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 1.0543e-10 - I 7.4498e-23 + Hto 9.0527e-11 + I 7.4485e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0066e-11 + Nat 4.5834e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -66903,12 +66903,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.935e-10 1.053e-10 + Hto 7.672e-10 9.038e-11 I 6.322e-10 7.448e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.022e-10 1.204e-11 + Nat 7.799e-11 9.188e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -66919,7 +66919,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -66967,8 +66967,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.595e-11 H2 7.977e-12 8.673e-12 -11.098 -11.062 0.036 28.61 -Hto 8.935e-10 - Hto 8.935e-10 8.935e-10 -9.049 -9.049 0.000 (0) +Hto 7.672e-10 + Hto 7.672e-10 7.672e-10 -9.115 -9.115 0.000 (0) I 6.322e-10 I- 6.322e-10 6.322e-10 -9.199 -9.199 -0.000 (0) K 1.540e-03 @@ -66986,15 +66986,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.022e-10 - Nat+ 1.022e-10 1.022e-10 -9.991 -9.991 -0.000 (0) +Nat 7.799e-11 + Nat+ 7.799e-11 7.799e-11 -10.108 -10.108 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.301 -70.265 0.036 30.40 -S(-2) 2.238e-08 - HS- 1.565e-08 1.030e-08 -7.805 -7.987 -0.182 21.14 - H2S 6.732e-09 7.319e-09 -8.172 -8.136 0.036 36.27 +S(-2) 2.239e-08 + HS- 1.565e-08 1.031e-08 -7.805 -7.987 -0.182 21.14 + H2S 6.732e-09 7.320e-09 -8.172 -8.136 0.036 36.27 S-2 6.356e-14 1.532e-14 -13.197 -13.815 -0.618 (0) - (H2S)2 2.596e-18 2.823e-18 -17.586 -17.549 0.036 30.09 + (H2S)2 2.597e-18 2.823e-18 -17.586 -17.549 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -67069,7 +67069,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -67080,12 +67080,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 1.0275e-11 - I 6.1966e-24 + Hto 8.4645e-12 + I 6.1958e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5237e-12 + Nat 2.5125e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -67104,12 +67104,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.707e-11 1.026e-11 + Hto 7.173e-11 8.451e-12 I 5.258e-11 6.195e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.996e-12 7.064e-13 + Nat 4.275e-12 5.037e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -67120,14 +67120,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.510e-10 + Electrical balance (eq) = 5.509e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -67168,8 +67168,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.596e-11 H2 7.979e-12 8.675e-12 -11.098 -11.062 0.036 28.61 -Hto 8.707e-11 - Hto 8.707e-11 8.707e-11 -10.060 -10.060 0.000 (0) +Hto 7.173e-11 + Hto 7.173e-11 7.173e-11 -10.144 -10.144 0.000 (0) I 5.258e-11 I- 5.258e-11 5.258e-11 -10.279 -10.279 -0.000 (0) K 1.540e-03 @@ -67187,15 +67187,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.996e-12 - Nat+ 5.996e-12 5.996e-12 -11.222 -11.222 -0.000 (0) +Nat 4.275e-12 + Nat+ 4.275e-12 4.275e-12 -11.369 -11.369 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.302 -70.265 0.036 30.40 S(-2) 2.241e-08 HS- 1.567e-08 1.031e-08 -7.805 -7.987 -0.182 21.14 - H2S 6.738e-09 7.326e-09 -8.171 -8.135 0.036 36.27 - S-2 6.362e-14 1.533e-14 -13.196 -13.814 -0.618 (0) - (H2S)2 2.601e-18 2.828e-18 -17.585 -17.548 0.036 30.09 + H2S 6.739e-09 7.326e-09 -8.171 -8.135 0.036 36.27 + S-2 6.362e-14 1.534e-14 -13.196 -13.814 -0.618 (0) + (H2S)2 2.602e-18 2.828e-18 -17.585 -17.548 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -67270,7 +67270,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -67281,12 +67281,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 7.7724e-13 + Hto 6.1406e-13 I 3.9905e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5903e-13 + Nat 1.0596e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -67305,12 +67305,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.587e-12 7.760e-13 + Hto 5.204e-12 6.131e-13 I 3.387e-12 3.990e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.706e-13 3.188e-14 + Nat 1.803e-13 2.124e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -67321,7 +67321,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -67368,9 +67368,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.592e-11 - H2 7.958e-12 8.652e-12 -11.099 -11.063 0.036 28.61 -Hto 6.587e-12 - Hto 6.587e-12 6.587e-12 -11.181 -11.181 0.000 (0) + H2 7.959e-12 8.653e-12 -11.099 -11.063 0.036 28.61 +Hto 5.204e-12 + Hto 5.204e-12 5.204e-12 -11.284 -11.284 0.000 (0) I 3.387e-12 I- 3.387e-12 3.387e-12 -11.470 -11.470 -0.000 (0) K 1.540e-03 @@ -67388,15 +67388,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.706e-13 - Nat+ 2.706e-13 2.706e-13 -12.568 -12.568 -0.000 (0) +Nat 1.803e-13 + Nat+ 1.803e-13 1.803e-13 -12.744 -12.744 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.299 -70.263 0.036 30.40 -S(-2) 2.217e-08 - HS- 1.550e-08 1.021e-08 -7.810 -7.991 -0.182 21.14 - H2S 6.667e-09 7.249e-09 -8.176 -8.140 0.036 36.27 - S-2 6.295e-14 1.517e-14 -13.201 -13.819 -0.618 (0) - (H2S)2 2.547e-18 2.769e-18 -17.594 -17.558 0.036 30.09 +S(-2) 2.218e-08 + HS- 1.551e-08 1.021e-08 -7.809 -7.991 -0.182 21.14 + H2S 6.669e-09 7.251e-09 -8.176 -8.140 0.036 36.27 + S-2 6.297e-14 1.518e-14 -13.201 -13.819 -0.618 (0) + (H2S)2 2.548e-18 2.771e-18 -17.594 -17.557 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -67461,7 +67461,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.032e-11 Surface + diffuse layer charge, eq + -9.036e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -67471,7 +67471,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -67482,12 +67482,12 @@ Su Ca 7.1884e-02 Cl 4.6641e-10 H 1.2948e-04 - Hto 4.5918e-14 - I 2.0037e-26 + Hto 3.4779e-14 + I 2.0034e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5718e-15 + Nat 3.4687e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -67506,12 +67506,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.891e-13 4.584e-14 + Hto 2.947e-13 3.472e-14 I 1.701e-13 2.003e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.481e-15 1.117e-15 + Nat 5.902e-15 6.954e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -67522,14 +67522,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.063e-09 + Electrical balance (eq) = 2.620e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -67569,9 +67569,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.573e-11 - H2 7.866e-12 8.552e-12 -11.104 -11.068 0.036 28.61 -Hto 3.891e-13 - Hto 3.891e-13 3.891e-13 -12.410 -12.410 0.000 (0) + H2 7.866e-12 8.553e-12 -11.104 -11.068 0.036 28.61 +Hto 2.947e-13 + Hto 2.947e-13 2.947e-13 -12.531 -12.531 0.000 (0) I 1.701e-13 I- 1.701e-13 1.701e-13 -12.769 -12.769 -0.000 (0) K 1.540e-03 @@ -67589,15 +67589,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.481e-15 - Nat+ 9.481e-15 9.481e-15 -14.023 -14.023 -0.000 (0) +Nat 5.902e-15 + Nat+ 5.902e-15 5.902e-15 -14.229 -14.229 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.289 -70.253 0.036 30.40 -S(-2) 2.116e-08 - HS- 1.479e-08 9.739e-09 -7.830 -8.011 -0.182 21.14 - H2S 6.363e-09 6.918e-09 -8.196 -8.160 0.036 36.27 - S-2 6.007e-14 1.448e-14 -13.221 -13.839 -0.618 (0) - (H2S)2 2.320e-18 2.522e-18 -17.635 -17.598 0.036 30.09 +S(-2) 2.117e-08 + HS- 1.480e-08 9.744e-09 -7.830 -8.011 -0.182 21.14 + H2S 6.366e-09 6.921e-09 -8.196 -8.160 0.036 36.27 + S-2 6.009e-14 1.449e-14 -13.221 -13.839 -0.618 (0) + (H2S)2 2.322e-18 2.524e-18 -17.634 -17.598 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -67662,7 +67662,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.023e-11 Surface + diffuse layer charge, eq + -9.025e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -67672,7 +67672,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -67683,12 +67683,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 2.1159e-15 - I 7.8373e-28 + Hto 1.5361e-15 + I 7.8363e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5161e-16 + Nat 8.8194e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -67707,12 +67707,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.793e-14 2.112e-15 + Hto 1.302e-14 1.534e-15 I 6.652e-15 7.836e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.580e-16 3.039e-17 + Nat 1.501e-16 1.768e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -67723,14 +67723,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.112e-09 + Electrical balance (eq) = 1.028e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -67771,8 +67771,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.568e-11 H2 7.839e-12 8.523e-12 -11.106 -11.069 0.036 28.61 -Hto 1.793e-14 - Hto 1.793e-14 1.793e-14 -13.746 -13.746 0.000 (0) +Hto 1.302e-14 + Hto 1.302e-14 1.302e-14 -13.885 -13.885 0.000 (0) I 6.652e-15 I- 6.652e-15 6.652e-15 -14.177 -14.177 -0.000 (0) K 1.540e-03 @@ -67790,14 +67790,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.580e-16 - Nat+ 2.580e-16 2.580e-16 -15.588 -15.588 -0.000 (0) +Nat 1.501e-16 + Nat+ 1.501e-16 1.501e-16 -15.824 -15.824 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.250 0.036 30.40 S(-2) 2.087e-08 - HS- 1.460e-08 9.608e-09 -7.836 -8.017 -0.182 21.14 - H2S 6.277e-09 6.825e-09 -8.202 -8.166 0.036 36.27 - S-2 5.926e-14 1.429e-14 -13.227 -13.845 -0.618 (0) + HS- 1.460e-08 9.609e-09 -7.836 -8.017 -0.182 21.14 + H2S 6.278e-09 6.826e-09 -8.202 -8.166 0.036 36.27 + S-2 5.927e-14 1.429e-14 -13.227 -13.845 -0.618 (0) (H2S)2 2.258e-18 2.455e-18 -17.646 -17.610 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -67863,7 +67863,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -9.021e-11 Surface + diffuse layer charge, eq + -9.022e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -67873,7 +67873,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -67884,12 +67884,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 7.5369e-17 - I 2.3675e-29 + Hto 5.2436e-17 + I 2.3672e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1789e-18 + Nat 1.7280e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -67908,12 +67908,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.387e-16 7.525e-17 + Hto 4.444e-16 5.235e-17 I 2.009e-16 2.367e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.409e-18 6.373e-19 + Nat 2.940e-18 3.464e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -67924,14 +67924,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.560e-10 + Electrical balance (eq) = 6.536e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -67972,8 +67972,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.836e-12 8.519e-12 -11.106 -11.070 0.036 28.61 -Hto 6.387e-16 - Hto 6.387e-16 6.387e-16 -15.195 -15.195 0.000 (0) +Hto 4.444e-16 + Hto 4.444e-16 4.444e-16 -15.352 -15.352 0.000 (0) I 2.009e-16 I- 2.009e-16 2.009e-16 -15.697 -15.697 -0.000 (0) K 1.540e-03 @@ -67991,8 +67991,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.409e-18 - Nat+ 5.409e-18 5.409e-18 -17.267 -17.267 -0.000 (0) +Nat 2.940e-18 + Nat+ 2.940e-18 2.940e-18 -17.532 -17.532 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.250 0.036 30.40 S(-2) 2.084e-08 @@ -68074,7 +68074,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -68085,12 +68085,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 2.0369e-18 + Hto 1.3579e-18 I 5.4225e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0452e-20 + Nat 2.5626e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -68109,12 +68109,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.726e-17 2.034e-18 + Hto 1.151e-17 1.356e-18 I 4.602e-18 5.421e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.585e-20 1.011e-20 + Nat 4.361e-20 5.137e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -68125,14 +68125,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.417e-10 + Electrical balance (eq) = 6.416e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -68173,8 +68173,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.835e-12 8.519e-12 -11.106 -11.070 0.036 28.61 -Hto 1.726e-17 - Hto 1.726e-17 1.726e-17 -16.763 -16.763 0.000 (0) +Hto 1.151e-17 + Hto 1.151e-17 1.151e-17 -16.939 -16.939 0.000 (0) I 4.602e-18 I- 4.602e-18 4.602e-18 -17.337 -17.337 -0.000 (0) K 1.540e-03 @@ -68192,8 +68192,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.585e-20 - Nat+ 8.585e-20 8.585e-20 -19.066 -19.066 -0.000 (0) +Nat 4.361e-20 + Nat+ 4.361e-20 4.361e-20 -19.360 -19.360 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.250 0.036 30.40 S(-2) 2.084e-08 @@ -68265,7 +68265,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.024e-11 Surface + diffuse layer charge, eq + -9.023e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -68275,7 +68275,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -68286,12 +68286,12 @@ Su Ca 7.1884e-02 Cl 4.6642e-10 H 1.2948e-04 - Hto 4.0415e-20 - I 9.1090e-33 + Hto 2.5815e-20 + I 9.1121e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8678e-22 + Nat 2.7851e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -68310,12 +68310,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.425e-19 4.035e-20 + Hto 2.188e-19 2.577e-20 I 7.733e-20 9.111e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.985e-22 1.176e-22 + Nat 4.739e-22 5.583e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -68326,14 +68326,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.134e-09 + Electrical balance (eq) = 1.967e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -68374,8 +68374,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.567e-11 H2 7.836e-12 8.519e-12 -11.106 -11.070 0.036 28.61 -Hto 3.425e-19 - Hto 3.425e-19 3.425e-19 -18.465 -18.465 0.000 (0) +Hto 2.188e-19 + Hto 2.188e-19 2.188e-19 -18.660 -18.660 0.000 (0) I 7.733e-20 I- 7.733e-20 7.733e-20 -19.112 -19.112 -0.000 (0) K 1.540e-03 @@ -68393,8 +68393,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.985e-22 - Nat+ 9.985e-22 9.985e-22 -21.001 -21.001 -0.000 (0) +Nat 4.739e-22 + Nat+ 4.739e-22 4.739e-22 -21.324 -21.324 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.286 -70.250 0.036 30.40 S(-2) 2.084e-08 @@ -68466,7 +68466,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.042e-11 Surface + diffuse layer charge, eq + -9.041e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -68476,7 +68476,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -68487,12 +68487,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 5.5567e-22 + Hto 3.4005e-22 I 1.0605e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6766e-24 + Nat 2.0280e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -68511,12 +68511,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.709e-21 5.548e-22 + Hto 2.882e-21 3.395e-22 I 9.001e-22 1.060e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.958e-24 9.375e-25 + Nat 3.451e-24 4.065e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -68527,7 +68527,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -68575,8 +68575,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.595e-11 H2 7.975e-12 8.671e-12 -11.098 -11.062 0.036 28.61 -Hto 4.709e-21 - Hto 4.709e-21 4.709e-21 -20.327 -20.327 0.000 (0) +Hto 2.882e-21 + Hto 2.882e-21 2.882e-21 -20.540 -20.540 0.000 (0) I 9.001e-22 I- 9.001e-22 9.001e-22 -21.046 -21.046 -0.000 (0) K 1.540e-03 @@ -68594,13 +68594,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.958e-24 - Nat+ 7.958e-24 7.958e-24 -23.099 -23.099 -0.000 (0) +Nat 3.451e-24 + Nat+ 3.451e-24 3.451e-24 -23.462 -23.462 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.301 -70.265 0.036 30.40 S(-2) 2.236e-08 HS- 1.564e-08 1.029e-08 -7.806 -7.987 -0.182 21.14 - H2S 6.725e-09 7.311e-09 -8.172 -8.136 0.036 36.27 + H2S 6.725e-09 7.312e-09 -8.172 -8.136 0.036 36.27 S-2 6.349e-14 1.530e-14 -13.197 -13.815 -0.618 (0) (H2S)2 2.591e-18 2.817e-18 -17.587 -17.550 0.036 30.09 S(6) 1.260e-02 @@ -68667,7 +68667,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -9.050e-11 Surface + diffuse layer charge, eq + -9.049e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -68677,7 +68677,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -68688,7 +68688,7 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 4.7328e-24 + Hto 2.7747e-24 I 7.1338e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -68711,7 +68711,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.011e-23 4.725e-24 + Hto 2.351e-23 2.770e-24 I 6.055e-24 7.133e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -68726,7 +68726,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -68774,8 +68774,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.596e-11 H2 7.982e-12 8.678e-12 -11.098 -11.062 0.036 28.61 -Hto 4.011e-23 - Hto 4.011e-23 4.011e-23 -22.397 -22.397 0.000 (0) +Hto 2.351e-23 + Hto 2.351e-23 2.351e-23 -22.629 -22.629 0.000 (0) I 6.055e-24 I- 6.055e-24 6.055e-24 -23.218 -23.218 -0.000 (0) K 1.540e-03 @@ -68874,7 +68874,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -68919,7 +68919,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -69053,7 +69053,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.050e-11 Surface + diffuse layer charge, eq + -9.049e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -69063,7 +69063,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -69108,7 +69108,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -69252,7 +69252,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -69297,7 +69297,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -69441,7 +69441,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -69486,7 +69486,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -69630,7 +69630,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -69675,7 +69675,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -69819,7 +69819,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -69864,7 +69864,7 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 @@ -70297,30 +70297,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.562e-07 3.281e-07 + Hto 6.617e-07 3.308e-07 I 7.962e-07 3.981e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.200e-07 2.100e-07 + Nat 4.314e-07 2.157e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.899 Adjusted to redox equilibrium + pe = -2.898 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -70334,8 +70334,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.865e-13 - CH4 1.865e-13 2.028e-13 -12.729 -12.693 0.036 35.46 +C(-4) 1.854e-13 + CH4 1.854e-13 2.016e-13 -12.732 -12.696 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -70359,10 +70359,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.393e-12 - H2 2.696e-12 2.932e-12 -11.569 -11.533 0.036 28.61 -Hto 6.562e-07 - Hto 6.562e-07 6.562e-07 -6.183 -6.183 0.000 (0) +H(0) 5.385e-12 + H2 2.692e-12 2.927e-12 -11.570 -11.534 0.036 28.61 +Hto 6.617e-07 + Hto 6.617e-07 6.617e-07 -6.179 -6.179 0.000 (0) I 7.962e-07 I- 7.962e-07 7.962e-07 -6.099 -6.099 -0.000 (0) K 1.540e-03 @@ -70380,15 +70380,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.200e-07 - Nat+ 4.200e-07 4.200e-07 -6.377 -6.377 -0.000 (0) +Nat 4.314e-07 + Nat+ 4.314e-07 4.314e-07 -6.365 -6.365 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.359 -69.323 0.036 30.40 -S(-2) 2.924e-10 - HS- 2.044e-10 1.346e-10 -9.689 -9.871 -0.182 21.14 - H2S 8.797e-11 9.564e-11 -10.056 -10.019 0.036 36.27 - S-2 8.296e-16 2.000e-16 -15.081 -15.699 -0.618 (0) - (H2S)2 4.433e-22 4.820e-22 -21.353 -21.317 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.358 -69.322 0.036 30.40 +S(-2) 2.907e-10 + HS- 2.032e-10 1.338e-10 -9.692 -9.874 -0.182 21.14 + H2S 8.745e-11 9.508e-11 -10.058 -10.022 0.036 36.27 + S-2 8.247e-16 1.988e-16 -15.084 -15.702 -0.618 (0) + (H2S)2 4.381e-22 4.763e-22 -21.358 -21.322 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -70415,14 +70415,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.89 -12.69 -2.80 CH4 + CH4(g) -9.89 -12.70 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.43 -11.53 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -9.02 -16.96 -7.94 H2S + H2S(g) -9.03 -16.96 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -70453,7 +70453,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.129e-13 Surface + diffuse layer charge, eq + -1.112e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -70463,7 +70463,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -70474,12 +70474,12 @@ Su Ca 7.1884e-02 Cl 4.6664e-10 H 1.2947e-04 - Hto 5.7849e-08 - I 7.1865e-20 + Hto 5.7683e-08 + I 7.1892e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8251e-07 + Nat 1.8211e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -70498,30 +70498,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.902e-07 5.776e-08 + Hto 4.888e-07 5.759e-08 I 6.101e-07 7.187e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.106e-07 3.659e-08 + Nat 3.099e-07 3.651e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.015 Adjusted to redox equilibrium + pe = -3.014 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.730e-09 + Electrical balance (eq) = 1.721e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -70535,8 +70535,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.584e-12 - CH4 1.584e-12 1.722e-12 -11.800 -11.764 0.036 35.46 +C(-4) 1.577e-12 + CH4 1.577e-12 1.715e-12 -11.802 -11.766 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -70560,10 +70560,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.206e-12 - H2 4.603e-12 5.004e-12 -11.337 -11.301 0.036 28.61 -Hto 4.902e-07 - Hto 4.902e-07 4.902e-07 -6.310 -6.310 0.000 (0) +H(0) 9.196e-12 + H2 4.598e-12 4.999e-12 -11.337 -11.301 0.036 28.61 +Hto 4.888e-07 + Hto 4.888e-07 4.888e-07 -6.311 -6.311 0.000 (0) I 6.101e-07 I- 6.101e-07 6.101e-07 -6.215 -6.215 -0.000 (0) K 1.540e-03 @@ -70581,15 +70581,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.106e-07 - Nat+ 3.106e-07 3.106e-07 -6.508 -6.508 -0.000 (0) +Nat 3.099e-07 + Nat+ 3.099e-07 3.099e-07 -6.509 -6.509 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.824 -69.787 0.036 30.40 -S(-2) 2.483e-09 - HS- 1.736e-09 1.143e-09 -8.761 -8.942 -0.182 21.14 - H2S 7.469e-10 8.120e-10 -9.127 -9.090 0.036 36.27 - S-2 7.044e-15 1.698e-15 -14.152 -14.770 -0.618 (0) - (H2S)2 3.196e-20 3.475e-20 -19.495 -19.459 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.823 -69.787 0.036 30.40 +S(-2) 2.472e-09 + HS- 1.728e-09 1.138e-09 -8.762 -8.944 -0.182 21.14 + H2S 7.437e-10 8.086e-10 -9.129 -9.092 0.036 36.27 + S-2 7.015e-15 1.691e-15 -14.154 -14.772 -0.618 (0) + (H2S)2 3.169e-20 3.446e-20 -19.499 -19.463 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -70616,7 +70616,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.96 -11.76 -2.80 CH4 + CH4(g) -8.96 -11.77 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -70628,7 +70628,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.90 -69.79 -2.89 O2 + O2(g) -66.89 -69.79 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.82 -0.94 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -70654,7 +70654,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.025e-11 Surface + diffuse layer charge, eq + -9.023e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -70664,7 +70664,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -70675,12 +70675,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 2.1545e-08 - I 2.3829e-20 + Hto 2.0833e-08 + I 2.3826e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9711e-08 + Nat 4.6574e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -70699,12 +70699,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.826e-07 2.151e-08 + Hto 1.765e-07 2.080e-08 I 2.022e-07 2.383e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.459e-08 9.965e-09 + Nat 7.925e-08 9.337e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -70715,14 +70715,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.075e-09 + Electrical balance (eq) = 5.041e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -70736,8 +70736,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.053e-11 - CH4 1.053e-11 1.145e-11 -10.977 -10.941 0.036 35.46 +C(-4) 1.049e-11 + CH4 1.049e-11 1.141e-11 -10.979 -10.943 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -70749,7 +70749,7 @@ C(4) 2.744e-03 MgCO3 3.628e-06 3.945e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.380e-06 8.603e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.733e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.532e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.277e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -70761,10 +70761,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.478e-11 - H2 7.392e-12 8.037e-12 -11.131 -11.095 0.036 28.61 -Hto 1.826e-07 - Hto 1.826e-07 1.826e-07 -6.739 -6.739 0.000 (0) +H(0) 1.477e-11 + H2 7.385e-12 8.030e-12 -11.132 -11.095 0.036 28.61 +Hto 1.765e-07 + Hto 1.765e-07 1.765e-07 -6.753 -6.753 0.000 (0) I 2.022e-07 I- 2.022e-07 2.022e-07 -6.694 -6.694 -0.000 (0) K 1.540e-03 @@ -70782,15 +70782,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 8.459e-08 - Nat+ 8.459e-08 8.459e-08 -7.073 -7.073 -0.000 (0) +Nat 7.925e-08 + Nat+ 7.925e-08 7.925e-08 -7.101 -7.101 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.235 -70.199 0.036 30.40 -S(-2) 1.651e-08 - HS- 1.154e-08 7.600e-09 -7.938 -8.119 -0.182 21.14 - H2S 4.966e-09 5.399e-09 -8.304 -8.268 0.036 36.27 - S-2 4.687e-14 1.130e-14 -13.329 -13.947 -0.618 (0) - (H2S)2 1.413e-18 1.536e-18 -17.850 -17.814 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.235 -70.198 0.036 30.40 +S(-2) 1.645e-08 + HS- 1.150e-08 7.571e-09 -7.939 -8.121 -0.182 21.14 + H2S 4.947e-09 5.379e-09 -8.306 -8.269 0.036 36.27 + S-2 4.669e-14 1.126e-14 -13.331 -13.949 -0.618 (0) + (H2S)2 1.402e-18 1.525e-18 -17.853 -17.817 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -70805,7 +70805,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.532e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 SrOH+ 1.153e-10 8.080e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -70822,7 +70822,7 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -7.99 -11.09 -3.10 H2 + H2(g) -7.99 -11.10 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O H2S(g) -7.27 -15.21 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl @@ -70831,7 +70831,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.31 -70.20 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.20 -0.32 4.88 S + Sulfur -5.21 -0.32 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -70855,7 +70855,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.086e-11 Surface + diffuse layer charge, eq + -9.085e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -70865,7 +70865,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -70876,12 +70876,12 @@ Su Ca 7.1884e-02 Cl 4.6641e-10 H 1.2948e-04 - Hto 5.4659e-09 - I 5.2741e-21 + Hto 5.0973e-09 + I 5.2749e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.3118e-09 + Nat 7.2879e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -70900,12 +70900,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.632e-08 5.457e-09 + Hto 4.320e-08 5.089e-09 I 4.477e-08 5.274e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.414e-08 1.666e-09 + Nat 1.240e-08 1.461e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -70923,7 +70923,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.611e-10 + Electrical balance (eq) = 4.612e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -70937,8 +70937,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.390e-11 - CH4 1.390e-11 1.511e-11 -10.857 -10.821 0.036 35.46 +C(-4) 1.389e-11 + CH4 1.389e-11 1.510e-11 -10.857 -10.821 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -70962,10 +70962,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) -H(0) 1.585e-11 - H2 7.923e-12 8.614e-12 -11.101 -11.065 0.036 28.61 -Hto 4.632e-08 - Hto 4.632e-08 4.632e-08 -7.334 -7.334 0.000 (0) +H(0) 1.584e-11 + H2 7.922e-12 8.613e-12 -11.101 -11.065 0.036 28.61 +Hto 4.320e-08 + Hto 4.320e-08 4.320e-08 -7.365 -7.365 0.000 (0) I 4.477e-08 I- 4.477e-08 4.477e-08 -7.349 -7.349 -0.000 (0) K 1.540e-03 @@ -70983,15 +70983,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.414e-08 - Nat+ 1.414e-08 1.414e-08 -7.849 -7.849 -0.000 (0) +Nat 1.240e-08 + Nat+ 1.240e-08 1.240e-08 -7.907 -7.907 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.295 -70.259 0.036 30.40 -S(-2) 2.178e-08 - HS- 1.523e-08 1.003e-08 -7.817 -7.999 -0.182 21.14 - H2S 6.550e-09 7.121e-09 -8.184 -8.147 0.036 36.27 - S-2 6.184e-14 1.491e-14 -13.209 -13.827 -0.618 (0) - (H2S)2 2.458e-18 2.672e-18 -17.609 -17.573 0.036 30.09 +S(-2) 2.177e-08 + HS- 1.522e-08 1.002e-08 -7.818 -7.999 -0.182 21.14 + H2S 6.547e-09 7.118e-09 -8.184 -8.148 0.036 36.27 + S-2 6.180e-14 1.490e-14 -13.209 -13.827 -0.618 (0) + (H2S)2 2.455e-18 2.670e-18 -17.610 -17.574 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -71066,7 +71066,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -71077,12 +71077,12 @@ Su Ca 7.1884e-02 Cl 4.6639e-10 H 1.2948e-04 - Hto 1.0039e-09 - I 8.3618e-22 + Hto 9.0051e-10 + I 8.3607e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.5954e-10 + Nat 7.8664e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -71101,12 +71101,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.508e-09 1.002e-09 + Hto 7.631e-09 8.991e-10 I 7.097e-09 8.361e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.633e-09 1.924e-10 + Nat 1.339e-09 1.577e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -71165,8 +71165,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.616e-11 H2 8.082e-12 8.787e-12 -11.092 -11.056 0.036 28.61 -Hto 8.508e-09 - Hto 8.508e-09 8.508e-09 -8.070 -8.070 0.000 (0) +Hto 7.631e-09 + Hto 7.631e-09 7.631e-09 -8.117 -8.117 0.000 (0) I 7.097e-09 I- 7.097e-09 7.097e-09 -8.149 -8.149 -0.000 (0) K 1.540e-03 @@ -71184,15 +71184,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.633e-09 - Nat+ 1.633e-09 1.633e-09 -8.787 -8.787 -0.000 (0) +Nat 1.339e-09 + Nat+ 1.339e-09 1.339e-09 -8.873 -8.873 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.313 -70.276 0.036 30.40 -S(-2) 2.358e-08 +S(-2) 2.359e-08 HS- 1.649e-08 1.086e-08 -7.783 -7.964 -0.182 21.14 - H2S 7.092e-09 7.710e-09 -8.149 -8.113 0.036 36.27 - S-2 6.696e-14 1.614e-14 -13.174 -13.792 -0.618 (0) - (H2S)2 2.881e-18 3.133e-18 -17.540 -17.504 0.036 30.09 + H2S 7.093e-09 7.712e-09 -8.149 -8.113 0.036 36.27 + S-2 6.697e-14 1.614e-14 -13.174 -13.792 -0.618 (0) + (H2S)2 2.882e-18 3.134e-18 -17.540 -17.504 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -71267,7 +71267,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -71278,12 +71278,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 1.3887e-10 - I 9.9223e-23 + Hto 1.1965e-10 + I 9.9210e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1351e-11 + Nat 6.2334e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -71302,12 +71302,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.177e-09 1.386e-10 + Hto 1.014e-09 1.195e-10 I 8.421e-10 9.920e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.384e-10 1.631e-11 + Nat 1.061e-10 1.250e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -71340,7 +71340,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.529e-11 - CH4 1.529e-11 1.663e-11 -10.816 -10.779 0.036 35.46 + CH4 1.529e-11 1.663e-11 -10.815 -10.779 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -71366,8 +71366,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.623e-11 H2 8.115e-12 8.823e-12 -11.091 -11.054 0.036 28.61 -Hto 1.177e-09 - Hto 1.177e-09 1.177e-09 -8.929 -8.929 0.000 (0) +Hto 1.014e-09 + Hto 1.014e-09 1.014e-09 -8.994 -8.994 0.000 (0) I 8.421e-10 I- 8.421e-10 8.421e-10 -9.075 -9.075 -0.000 (0) K 1.540e-03 @@ -71385,15 +71385,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.384e-10 - Nat+ 1.384e-10 1.384e-10 -9.859 -9.859 -0.000 (0) +Nat 1.061e-10 + Nat+ 1.061e-10 1.061e-10 -9.974 -9.974 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.316 -70.280 0.036 30.40 S(-2) 2.397e-08 HS- 1.676e-08 1.103e-08 -7.776 -7.957 -0.182 21.14 - H2S 7.208e-09 7.837e-09 -8.142 -8.106 0.036 36.27 + H2S 7.209e-09 7.837e-09 -8.142 -8.106 0.036 36.27 S-2 6.806e-14 1.641e-14 -13.167 -13.785 -0.618 (0) - (H2S)2 2.977e-18 3.236e-18 -17.526 -17.490 0.036 30.09 + (H2S)2 2.977e-18 3.237e-18 -17.526 -17.490 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -71468,7 +71468,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -71479,12 +71479,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 1.4841e-11 - I 9.0602e-24 + Hto 1.2271e-11 + I 9.0586e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2490e-12 + Nat 3.7586e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -71503,12 +71503,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.258e-10 1.482e-11 + Hto 1.040e-10 1.225e-11 I 7.688e-11 9.057e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.932e-12 1.052e-12 + Nat 6.396e-12 7.535e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -71567,8 +71567,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.623e-11 H2 8.117e-12 8.825e-12 -11.091 -11.054 0.036 28.61 -Hto 1.258e-10 - Hto 1.258e-10 1.258e-10 -9.900 -9.900 0.000 (0) +Hto 1.040e-10 + Hto 1.040e-10 1.040e-10 -9.983 -9.983 0.000 (0) I 7.688e-11 I- 7.688e-11 7.688e-11 -10.114 -10.114 -0.000 (0) K 1.540e-03 @@ -71586,14 +71586,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.932e-12 - Nat+ 8.932e-12 8.932e-12 -11.049 -11.049 -0.000 (0) +Nat 6.396e-12 + Nat+ 6.396e-12 6.396e-12 -11.194 -11.194 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.317 -70.280 0.036 30.40 S(-2) 2.399e-08 - HS- 1.678e-08 1.104e-08 -7.775 -7.957 -0.182 21.14 - H2S 7.215e-09 7.845e-09 -8.142 -8.105 0.036 36.27 - S-2 6.812e-14 1.642e-14 -13.167 -13.785 -0.618 (0) + HS- 1.678e-08 1.105e-08 -7.775 -7.957 -0.182 21.14 + H2S 7.216e-09 7.845e-09 -8.142 -8.105 0.036 36.27 + S-2 6.813e-14 1.642e-14 -13.167 -13.785 -0.618 (0) (H2S)2 2.983e-18 3.243e-18 -17.525 -17.489 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -71659,7 +71659,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.076e-11 Surface + diffuse layer charge, eq + -9.077e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -71669,7 +71669,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -71680,12 +71680,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 1.2445e-12 - I 6.4714e-25 + Hto 9.8704e-13 + I 6.4724e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6322e-13 + Nat 1.7613e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -71704,12 +71704,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.055e-11 1.243e-12 + Hto 8.365e-12 9.854e-13 I 5.493e-12 6.471e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.479e-13 5.277e-14 + Nat 2.997e-13 3.531e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -71741,8 +71741,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.514e-11 - CH4 1.514e-11 1.646e-11 -10.820 -10.783 0.036 35.46 +C(-4) 1.515e-11 + CH4 1.515e-11 1.647e-11 -10.820 -10.783 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -71767,9 +71767,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.619e-11 - H2 8.095e-12 8.801e-12 -11.092 -11.055 0.036 28.61 -Hto 1.055e-11 - Hto 1.055e-11 1.055e-11 -10.977 -10.977 0.000 (0) + H2 8.096e-12 8.802e-12 -11.092 -11.055 0.036 28.61 +Hto 8.365e-12 + Hto 8.365e-12 8.365e-12 -11.078 -11.078 0.000 (0) I 5.493e-12 I- 5.493e-12 5.493e-12 -11.260 -11.260 -0.000 (0) K 1.540e-03 @@ -71787,15 +71787,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.479e-13 - Nat+ 4.479e-13 4.479e-13 -12.349 -12.349 -0.000 (0) +Nat 2.997e-13 + Nat+ 2.997e-13 2.997e-13 -12.523 -12.523 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.314 -70.278 0.036 30.40 -S(-2) 2.373e-08 - HS- 1.660e-08 1.093e-08 -7.780 -7.962 -0.182 21.14 - H2S 7.137e-09 7.760e-09 -8.146 -8.110 0.036 36.27 - S-2 6.739e-14 1.624e-14 -13.171 -13.789 -0.618 (0) - (H2S)2 2.919e-18 3.173e-18 -17.535 -17.498 0.036 30.09 +S(-2) 2.374e-08 + HS- 1.660e-08 1.093e-08 -7.780 -7.961 -0.182 21.14 + H2S 7.140e-09 7.763e-09 -8.146 -8.110 0.036 36.27 + S-2 6.741e-14 1.625e-14 -13.171 -13.789 -0.618 (0) + (H2S)2 2.920e-18 3.175e-18 -17.535 -17.498 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -71860,7 +71860,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.061e-11 Surface + diffuse layer charge, eq + -9.065e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -71870,7 +71870,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -71881,12 +71881,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 8.2567e-14 - I 3.6508e-26 + Hto 6.2789e-14 + I 3.6502e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0375e-14 + Nat 6.4872e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -71905,12 +71905,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.997e-13 8.243e-14 + Hto 5.321e-13 6.269e-14 I 3.099e-13 3.651e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.765e-14 2.080e-15 + Nat 1.104e-14 1.300e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -71921,14 +71921,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.726e-10 + Electrical balance (eq) = 2.530e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -71968,9 +71968,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.603e-11 - H2 8.013e-12 8.712e-12 -11.096 -11.060 0.036 28.61 -Hto 6.997e-13 - Hto 6.997e-13 6.997e-13 -12.155 -12.155 0.000 (0) + H2 8.014e-12 8.713e-12 -11.096 -11.060 0.036 28.61 +Hto 5.321e-13 + Hto 5.321e-13 5.321e-13 -12.274 -12.274 0.000 (0) I 3.099e-13 I- 3.099e-13 3.099e-13 -12.509 -12.509 -0.000 (0) K 1.540e-03 @@ -71988,15 +71988,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.765e-14 - Nat+ 1.765e-14 1.765e-14 -13.753 -13.753 -0.000 (0) +Nat 1.104e-14 + Nat+ 1.104e-14 1.104e-14 -13.957 -13.957 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.305 -70.269 0.036 30.40 -S(-2) 2.279e-08 - HS- 1.593e-08 1.049e-08 -7.798 -7.979 -0.182 21.14 - H2S 6.853e-09 7.451e-09 -8.164 -8.128 0.036 36.27 - S-2 6.470e-14 1.560e-14 -13.189 -13.807 -0.618 (0) - (H2S)2 2.691e-18 2.925e-18 -17.570 -17.534 0.036 30.09 +S(-2) 2.280e-08 + HS- 1.594e-08 1.049e-08 -7.797 -7.979 -0.182 21.14 + H2S 6.856e-09 7.454e-09 -8.164 -8.128 0.036 36.27 + S-2 6.472e-14 1.560e-14 -13.189 -13.807 -0.618 (0) + (H2S)2 2.693e-18 2.928e-18 -17.570 -17.534 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -72061,7 +72061,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.052e-11 Surface + diffuse layer charge, eq + -9.053e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -72071,7 +72071,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -72082,12 +72082,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 4.3421e-15 - I 1.6306e-27 + Hto 3.1652e-15 + I 1.6308e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2265e-16 + Nat 1.8852e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -72106,12 +72106,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.680e-14 4.335e-15 + Hto 2.682e-14 3.160e-15 I 1.384e-14 1.630e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.490e-16 6.468e-17 + Nat 3.208e-16 3.779e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -72122,14 +72122,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.022e-09 + Electrical balance (eq) = 9.375e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -72143,8 +72143,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.434e-11 - CH4 1.434e-11 1.560e-11 -10.843 -10.807 0.036 35.46 +C(-4) 1.435e-11 + CH4 1.435e-11 1.560e-11 -10.843 -10.807 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -72170,8 +72170,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.597e-11 H2 7.986e-12 8.683e-12 -11.098 -11.061 0.036 28.61 -Hto 3.680e-14 - Hto 3.680e-14 3.680e-14 -13.434 -13.434 0.000 (0) +Hto 2.682e-14 + Hto 2.682e-14 2.682e-14 -13.571 -13.571 0.000 (0) I 1.384e-14 I- 1.384e-14 1.384e-14 -13.859 -13.859 -0.000 (0) K 1.540e-03 @@ -72189,15 +72189,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.490e-16 - Nat+ 5.490e-16 5.490e-16 -15.260 -15.260 -0.000 (0) +Nat 3.208e-16 + Nat+ 3.208e-16 3.208e-16 -15.494 -15.494 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.302 -70.266 0.036 30.40 S(-2) 2.248e-08 - HS- 1.572e-08 1.035e-08 -7.804 -7.985 -0.182 21.14 - H2S 6.761e-09 7.351e-09 -8.170 -8.134 0.036 36.27 - S-2 6.383e-14 1.539e-14 -13.195 -13.813 -0.618 (0) - (H2S)2 2.619e-18 2.848e-18 -17.582 -17.546 0.036 30.09 + HS- 1.572e-08 1.035e-08 -7.803 -7.985 -0.182 21.14 + H2S 6.762e-09 7.352e-09 -8.170 -8.134 0.036 36.27 + S-2 6.384e-14 1.539e-14 -13.195 -13.813 -0.618 (0) + (H2S)2 2.619e-18 2.848e-18 -17.582 -17.545 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -72262,7 +72262,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -9.050e-11 Surface + diffuse layer charge, eq + -9.051e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -72272,7 +72272,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -72283,12 +72283,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 1.8023e-16 + Hto 1.2592e-16 I 5.7427e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.8932e-18 + Nat 4.3096e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -72307,12 +72307,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.527e-15 1.799e-16 + Hto 1.067e-15 1.257e-16 I 4.874e-16 5.742e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.343e-17 1.582e-18 + Nat 7.333e-18 8.639e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -72323,14 +72323,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.658e-10 + Electrical balance (eq) = 5.634e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -72371,8 +72371,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.596e-11 H2 7.982e-12 8.678e-12 -11.098 -11.062 0.036 28.61 -Hto 1.527e-15 - Hto 1.527e-15 1.527e-15 -14.816 -14.816 0.000 (0) +Hto 1.067e-15 + Hto 1.067e-15 1.067e-15 -14.972 -14.972 0.000 (0) I 4.874e-16 I- 4.874e-16 4.874e-16 -15.312 -15.312 -0.000 (0) K 1.540e-03 @@ -72390,13 +72390,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.343e-17 - Nat+ 1.343e-17 1.343e-17 -16.872 -16.872 -0.000 (0) +Nat 7.333e-18 + Nat+ 7.333e-18 7.333e-18 -17.135 -17.135 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.302 -70.266 0.036 30.40 S(-2) 2.244e-08 HS- 1.569e-08 1.033e-08 -7.804 -7.986 -0.182 21.14 - H2S 6.748e-09 7.336e-09 -8.171 -8.135 0.036 36.27 + H2S 6.748e-09 7.337e-09 -8.171 -8.135 0.036 36.27 S-2 6.371e-14 1.536e-14 -13.196 -13.814 -0.618 (0) (H2S)2 2.609e-18 2.836e-18 -17.584 -17.547 0.036 30.09 S(6) 1.260e-02 @@ -72473,7 +72473,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -72484,12 +72484,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 5.8396e-18 + Hto 3.9097e-18 I 1.5771e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5034e-19 + Nat 7.6702e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -72508,12 +72508,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.949e-17 5.830e-18 + Hto 3.313e-17 3.903e-18 I 1.339e-17 1.577e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.558e-19 3.014e-20 + Nat 1.305e-19 1.538e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -72524,14 +72524,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.515e-10 + Electrical balance (eq) = 5.514e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -72572,8 +72572,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.596e-11 H2 7.982e-12 8.678e-12 -11.098 -11.062 0.036 28.61 -Hto 4.949e-17 - Hto 4.949e-17 4.949e-17 -16.306 -16.306 0.000 (0) +Hto 3.313e-17 + Hto 3.313e-17 3.313e-17 -16.480 -16.480 0.000 (0) I 1.339e-17 I- 1.339e-17 1.339e-17 -16.873 -16.873 -0.000 (0) K 1.540e-03 @@ -72591,8 +72591,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.558e-19 - Nat+ 2.558e-19 2.558e-19 -18.592 -18.592 -0.000 (0) +Nat 1.305e-19 + Nat+ 1.305e-19 1.305e-19 -18.884 -18.884 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.302 -70.266 0.036 30.40 S(-2) 2.243e-08 @@ -72674,7 +72674,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -72685,12 +72685,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 1.4472e-19 - I 3.3120e-32 + Hto 9.2840e-20 + I 3.3114e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1857e-21 + Nat 1.0421e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -72709,12 +72709,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.226e-18 1.445e-19 + Hto 7.868e-19 9.269e-20 I 2.810e-19 3.311e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.719e-21 4.382e-22 + Nat 1.773e-21 2.089e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -72725,14 +72725,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.044e-09 + Electrical balance (eq) = 1.876e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -72773,8 +72773,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.598e-11 H2 7.988e-12 8.685e-12 -11.098 -11.061 0.036 28.61 -Hto 1.226e-18 - Hto 1.226e-18 1.226e-18 -17.911 -17.911 0.000 (0) +Hto 7.868e-19 + Hto 7.868e-19 7.868e-19 -18.104 -18.104 0.000 (0) I 2.810e-19 I- 2.810e-19 2.810e-19 -18.551 -18.551 -0.000 (0) K 1.540e-03 @@ -72792,14 +72792,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.719e-21 - Nat+ 3.719e-21 3.719e-21 -20.430 -20.430 -0.000 (0) +Nat 1.773e-21 + Nat+ 1.773e-21 1.773e-21 -20.751 -20.751 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.303 -70.266 0.036 30.40 -S(-2) 2.251e-08 +S(-2) 2.250e-08 HS- 1.574e-08 1.036e-08 -7.803 -7.985 -0.182 21.14 - H2S 6.768e-09 7.359e-09 -8.170 -8.133 0.036 36.27 - S-2 6.390e-14 1.540e-14 -13.195 -13.812 -0.618 (0) + H2S 6.768e-09 7.358e-09 -8.170 -8.133 0.036 36.27 + S-2 6.389e-14 1.540e-14 -13.195 -13.812 -0.618 (0) (H2S)2 2.624e-18 2.853e-18 -17.581 -17.545 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -72875,7 +72875,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -72886,12 +72886,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 2.6511e-21 + Hto 1.6295e-21 I 5.1364e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3411e-23 + Nat 1.0387e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -72910,12 +72910,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.247e-20 2.647e-21 + Hto 1.381e-20 1.627e-21 I 4.360e-21 5.136e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.984e-23 4.693e-24 + Nat 1.767e-23 2.082e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -72948,7 +72948,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.525e-11 - CH4 1.525e-11 1.658e-11 -10.817 -10.781 0.036 35.46 + CH4 1.525e-11 1.658e-11 -10.817 -10.780 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -72974,8 +72974,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.622e-11 H2 8.109e-12 8.816e-12 -11.091 -11.055 0.036 28.61 -Hto 2.247e-20 - Hto 2.247e-20 2.247e-20 -19.648 -19.648 0.000 (0) +Hto 1.381e-20 + Hto 1.381e-20 1.381e-20 -19.860 -19.860 0.000 (0) I 4.360e-21 I- 4.360e-21 4.360e-21 -20.361 -20.361 -0.000 (0) K 1.540e-03 @@ -72993,15 +72993,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.984e-23 - Nat+ 3.984e-23 3.984e-23 -22.400 -22.400 -0.000 (0) +Nat 1.767e-23 + Nat+ 1.767e-23 1.767e-23 -22.753 -22.753 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.316 -70.279 0.036 30.40 -S(-2) 2.389e-08 +S(-2) 2.390e-08 HS- 1.671e-08 1.100e-08 -7.777 -7.959 -0.182 21.14 - H2S 7.186e-09 7.812e-09 -8.144 -8.107 0.036 36.27 - S-2 6.785e-14 1.635e-14 -13.168 -13.786 -0.618 (0) - (H2S)2 2.958e-18 3.216e-18 -17.529 -17.493 0.036 30.09 + H2S 7.186e-09 7.813e-09 -8.143 -8.107 0.036 36.27 + S-2 6.785e-14 1.636e-14 -13.168 -13.786 -0.618 (0) + (H2S)2 2.959e-18 3.217e-18 -17.529 -17.493 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -73076,7 +73076,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -73087,12 +73087,11 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 3.3849e-23 + Hto 1.9933e-23 I 5.5043e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2639e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -73111,12 +73110,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.869e-22 3.379e-23 + Hto 1.689e-22 1.990e-23 I 4.672e-23 5.504e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.151e-25 2.534e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -73175,8 +73173,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.624e-11 H2 8.120e-12 8.828e-12 -11.090 -11.054 0.036 28.61 -Hto 2.869e-22 - Hto 2.869e-22 2.869e-22 -21.542 -21.542 0.000 (0) +Hto 1.689e-22 + Hto 1.689e-22 1.689e-22 -21.772 -21.772 0.000 (0) I 4.672e-23 I- 4.672e-23 4.672e-23 -22.330 -22.330 -0.000 (0) K 1.540e-03 @@ -73194,8 +73192,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.151e-25 - Nat+ 2.151e-25 2.151e-25 -24.667 -24.667 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.317 -70.281 0.036 30.40 S(-2) 2.403e-08 @@ -73277,7 +73273,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -73288,7 +73284,7 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 2.5229e-25 + Hto 1.4233e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -73310,7 +73306,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.138e-24 2.519e-25 + Hto 1.206e-24 1.421e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -73372,8 +73368,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.624e-11 H2 8.120e-12 8.829e-12 -11.090 -11.054 0.036 28.61 -Hto 2.138e-24 - Hto 2.138e-24 2.138e-24 -23.670 -23.670 0.000 (0) +Hto 1.206e-24 + Hto 1.206e-24 1.206e-24 -23.919 -23.919 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -73460,7 +73456,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.079e-11 Surface + diffuse layer charge, eq + -9.078e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -73470,7 +73466,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -73649,7 +73645,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -9.078e-11 Surface + diffuse layer charge, eq + -9.079e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -73659,7 +73655,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -73848,7 +73844,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -74027,7 +74023,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.079e-11 Surface + diffuse layer charge, eq + -9.078e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -74037,7 +74033,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -74226,7 +74222,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -74704,30 +74700,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.479e-07 3.239e-07 + Hto 6.533e-07 3.267e-07 I 7.908e-07 3.954e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.100e-07 2.050e-07 + Nat 4.210e-07 2.105e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.910 Adjusted to redox equilibrium + pe = -2.909 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -74741,8 +74737,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.295e-13 - CH4 2.295e-13 2.495e-13 -12.639 -12.603 0.036 35.46 +C(-4) 2.275e-13 + CH4 2.275e-13 2.473e-13 -12.643 -12.607 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -74766,10 +74762,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.679e-12 - H2 2.840e-12 3.087e-12 -11.547 -11.510 0.036 28.61 -Hto 6.479e-07 - Hto 6.479e-07 6.479e-07 -6.189 -6.189 0.000 (0) +H(0) 5.667e-12 + H2 2.834e-12 3.081e-12 -11.548 -11.511 0.036 28.61 +Hto 6.533e-07 + Hto 6.533e-07 6.533e-07 -6.185 -6.185 0.000 (0) I 7.908e-07 I- 7.908e-07 7.908e-07 -6.102 -6.102 -0.000 (0) K 1.540e-03 @@ -74787,15 +74783,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.100e-07 - Nat+ 4.100e-07 4.100e-07 -6.387 -6.387 -0.000 (0) +Nat 4.210e-07 + Nat+ 4.210e-07 4.210e-07 -6.376 -6.376 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.404 -69.368 0.036 30.40 -S(-2) 3.597e-10 - HS- 2.515e-10 1.656e-10 -9.599 -9.781 -0.182 21.14 - H2S 1.082e-10 1.177e-10 -9.966 -9.929 0.036 36.27 - S-2 1.021e-15 2.460e-16 -14.991 -15.609 -0.618 (0) - (H2S)2 6.710e-22 7.295e-22 -21.173 -21.137 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.402 -69.366 0.036 30.40 +S(-2) 3.566e-10 + HS- 2.493e-10 1.641e-10 -9.603 -9.785 -0.182 21.14 + H2S 1.073e-10 1.166e-10 -9.969 -9.933 0.036 36.27 + S-2 1.012e-15 2.439e-16 -14.995 -15.613 -0.618 (0) + (H2S)2 6.593e-22 7.169e-22 -21.181 -21.145 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -74822,19 +74818,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.80 -12.60 -2.80 CH4 + CH4(g) -9.80 -12.61 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.41 -11.51 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.93 -16.87 -7.94 H2S + H2S(g) -8.94 -16.87 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.48 -69.37 -2.89 O2 + O2(g) -66.47 -69.37 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -6.45 -1.57 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -74860,7 +74856,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.181e-13 Surface + diffuse layer charge, eq + -1.169e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -74870,7 +74866,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -74881,12 +74877,12 @@ Su Ca 7.1884e-02 Cl 4.6663e-10 H 1.2947e-04 - Hto 5.8001e-08 + Hto 5.7886e-08 I 7.2355e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8238e-07 + Nat 1.8233e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -74905,30 +74901,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.915e-07 5.791e-08 + Hto 4.906e-07 5.779e-08 I 6.141e-07 7.235e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.103e-07 3.656e-08 + Nat 3.103e-07 3.655e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.023 Adjusted to redox equilibrium + pe = -3.022 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.725e-09 + Electrical balance (eq) = 1.716e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -74942,8 +74938,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.832e-12 - CH4 1.832e-12 1.992e-12 -11.737 -11.701 0.036 35.46 +C(-4) 1.820e-12 + CH4 1.820e-12 1.978e-12 -11.740 -11.704 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -74967,10 +74963,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.547e-12 - H2 4.773e-12 5.190e-12 -11.321 -11.285 0.036 28.61 -Hto 4.915e-07 - Hto 4.915e-07 4.915e-07 -6.308 -6.308 0.000 (0) +H(0) 9.531e-12 + H2 4.766e-12 5.181e-12 -11.322 -11.286 0.036 28.61 +Hto 4.906e-07 + Hto 4.906e-07 4.906e-07 -6.309 -6.309 0.000 (0) I 6.141e-07 I- 6.141e-07 6.141e-07 -6.212 -6.212 -0.000 (0) K 1.540e-03 @@ -74991,12 +74987,12 @@ Na 2.390e-01 Nat 3.103e-07 Nat+ 3.103e-07 3.103e-07 -6.508 -6.508 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.855 -69.819 0.036 30.40 -S(-2) 2.872e-09 - HS- 2.008e-09 1.322e-09 -8.697 -8.879 -0.182 21.14 - H2S 8.640e-10 9.393e-10 -9.064 -9.027 0.036 36.27 - S-2 8.149e-15 1.964e-15 -14.089 -14.707 -0.618 (0) - (H2S)2 4.277e-20 4.650e-20 -19.369 -19.333 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.854 -69.818 0.036 30.40 +S(-2) 2.853e-09 + HS- 1.994e-09 1.313e-09 -8.700 -8.882 -0.182 21.14 + H2S 8.582e-10 9.331e-10 -9.066 -9.030 0.036 36.27 + S-2 8.094e-15 1.951e-15 -14.092 -14.710 -0.618 (0) + (H2S)2 4.220e-20 4.588e-20 -19.375 -19.338 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -75028,16 +75024,16 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.18 -11.28 -3.10 H2 + H2(g) -8.18 -11.29 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.03 -15.97 -7.94 H2S + H2S(g) -8.04 -15.97 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.93 -69.82 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.77 -0.89 4.88 S + Sulfur -5.78 -0.89 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -75061,7 +75057,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.047e-11 Surface + diffuse layer charge, eq + -9.045e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -75071,7 +75067,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -75082,12 +75078,12 @@ Su Ca 7.1884e-02 Cl 4.6645e-10 H 1.2948e-04 - Hto 2.2623e-08 + Hto 2.1916e-08 I 2.5176e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2677e-08 + Nat 4.9506e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -75106,12 +75102,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.917e-07 2.259e-08 + Hto 1.857e-07 2.188e-08 I 2.137e-07 2.518e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.964e-08 1.056e-08 + Nat 8.424e-08 9.924e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -75122,14 +75118,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.984e-09 + Electrical balance (eq) = 4.951e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -75143,8 +75139,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.135e-11 - CH4 1.135e-11 1.234e-11 -10.945 -10.909 0.036 35.46 +C(-4) 1.132e-11 + CH4 1.132e-11 1.230e-11 -10.946 -10.910 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -75168,10 +75164,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.506e-11 - H2 7.532e-12 8.188e-12 -11.123 -11.087 0.036 28.61 -Hto 1.917e-07 - Hto 1.917e-07 1.917e-07 -6.717 -6.717 0.000 (0) +H(0) 1.505e-11 + H2 7.526e-12 8.183e-12 -11.123 -11.087 0.036 28.61 +Hto 1.857e-07 + Hto 1.857e-07 1.857e-07 -6.731 -6.731 0.000 (0) I 2.137e-07 I- 2.137e-07 2.137e-07 -6.670 -6.670 -0.000 (0) K 1.540e-03 @@ -75189,15 +75185,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.964e-08 - Nat+ 8.964e-08 8.964e-08 -7.048 -7.048 -0.000 (0) +Nat 8.424e-08 + Nat+ 8.424e-08 8.424e-08 -7.074 -7.074 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.252 -70.215 0.036 30.40 -S(-2) 1.779e-08 - HS- 1.244e-08 8.188e-09 -7.905 -8.087 -0.182 21.14 - H2S 5.350e-09 5.817e-09 -8.272 -8.235 0.036 36.27 - S-2 5.050e-14 1.217e-14 -13.297 -13.915 -0.618 (0) - (H2S)2 1.640e-18 1.783e-18 -17.785 -17.749 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.251 -70.215 0.036 30.40 +S(-2) 1.774e-08 + HS- 1.240e-08 8.165e-09 -7.907 -8.088 -0.182 21.14 + H2S 5.335e-09 5.800e-09 -8.273 -8.237 0.036 36.27 + S-2 5.035e-14 1.214e-14 -13.298 -13.916 -0.618 (0) + (H2S)2 1.630e-18 1.773e-18 -17.788 -17.751 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -75236,7 +75232,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.32 -70.22 -2.89 O2 + O2(g) -67.32 -70.21 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.18 -0.30 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -75262,7 +75258,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.116e-11 Surface + diffuse layer charge, eq + -9.115e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -75272,7 +75268,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -75283,12 +75279,12 @@ Su Ca 7.1884e-02 Cl 4.6639e-10 H 1.2948e-04 - Hto 6.0852e-09 - I 5.9210e-21 + Hto 5.6892e-09 + I 5.9201e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.4164e-09 + Nat 8.2865e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -75307,12 +75303,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.157e-08 6.075e-09 + Hto 4.821e-08 5.680e-09 I 5.025e-08 5.920e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.602e-08 1.888e-09 + Nat 1.410e-08 1.661e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -75330,7 +75326,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.702e-10 + Electrical balance (eq) = 3.703e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -75344,8 +75340,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.482e-11 - CH4 1.482e-11 1.611e-11 -10.829 -10.793 0.036 35.46 +C(-4) 1.481e-11 + CH4 1.481e-11 1.610e-11 -10.829 -10.793 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -75370,9 +75366,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.610e-11 - H2 8.051e-12 8.753e-12 -11.094 -11.058 0.036 28.61 -Hto 5.157e-08 - Hto 5.157e-08 5.157e-08 -7.288 -7.288 0.000 (0) + H2 8.050e-12 8.752e-12 -11.094 -11.058 0.036 28.61 +Hto 4.821e-08 + Hto 4.821e-08 4.821e-08 -7.317 -7.317 0.000 (0) I 5.025e-08 I- 5.025e-08 5.025e-08 -7.299 -7.299 -0.000 (0) K 1.540e-03 @@ -75390,15 +75386,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.602e-08 - Nat+ 1.602e-08 1.602e-08 -7.795 -7.795 -0.000 (0) +Nat 1.410e-08 + Nat+ 1.410e-08 1.410e-08 -7.851 -7.851 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.309 -70.273 0.036 30.40 -S(-2) 2.322e-08 - HS- 1.624e-08 1.069e-08 -7.789 -7.971 -0.182 21.14 - H2S 6.984e-09 7.593e-09 -8.156 -8.120 0.036 36.27 - S-2 6.594e-14 1.589e-14 -13.181 -13.799 -0.618 (0) - (H2S)2 2.794e-18 3.038e-18 -17.554 -17.517 0.036 30.09 +S(-2) 2.321e-08 + HS- 1.623e-08 1.069e-08 -7.790 -7.971 -0.182 21.14 + H2S 6.981e-09 7.590e-09 -8.156 -8.120 0.036 36.27 + S-2 6.591e-14 1.589e-14 -13.181 -13.799 -0.618 (0) + (H2S)2 2.792e-18 3.036e-18 -17.554 -17.518 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -75473,7 +75469,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -75484,12 +75480,12 @@ Su Ca 7.1884e-02 Cl 4.6637e-10 H 1.2948e-04 - Hto 1.1956e-09 - I 1.0056e-21 + Hto 1.0757e-09 + I 1.0059e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1696e-09 + Nat 9.6259e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -75508,12 +75504,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.013e-08 1.194e-09 + Hto 9.116e-09 1.074e-09 I 8.536e-09 1.006e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.990e-09 2.345e-10 + Nat 1.638e-09 1.930e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -75546,7 +75542,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.603e-11 - CH4 1.603e-11 1.742e-11 -10.795 -10.759 0.036 35.46 + CH4 1.603e-11 1.743e-11 -10.795 -10.759 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -75571,9 +75567,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.642e-11 - H2 8.210e-12 8.927e-12 -11.086 -11.049 0.036 28.61 -Hto 1.013e-08 - Hto 1.013e-08 1.013e-08 -7.994 -7.994 0.000 (0) + H2 8.211e-12 8.927e-12 -11.086 -11.049 0.036 28.61 +Hto 9.116e-09 + Hto 9.116e-09 9.116e-09 -8.040 -8.040 0.000 (0) I 8.536e-09 I- 8.536e-09 8.536e-09 -8.069 -8.069 -0.000 (0) K 1.540e-03 @@ -75591,15 +75587,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.990e-09 - Nat+ 1.990e-09 1.990e-09 -8.701 -8.701 -0.000 (0) +Nat 1.638e-09 + Nat+ 1.638e-09 1.638e-09 -8.786 -8.786 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.326 -70.290 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.327 -70.290 0.036 30.40 S(-2) 2.512e-08 - HS- 1.756e-08 1.156e-08 -7.755 -7.937 -0.182 21.14 - H2S 7.553e-09 8.212e-09 -8.122 -8.086 0.036 36.27 - S-2 7.132e-14 1.719e-14 -13.147 -13.765 -0.618 (0) - (H2S)2 3.269e-18 3.554e-18 -17.486 -17.449 0.036 30.09 + HS- 1.757e-08 1.156e-08 -7.755 -7.937 -0.182 21.14 + H2S 7.555e-09 8.214e-09 -8.122 -8.085 0.036 36.27 + S-2 7.133e-14 1.719e-14 -13.147 -13.765 -0.618 (0) + (H2S)2 3.270e-18 3.555e-18 -17.485 -17.449 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -75674,7 +75670,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -75685,12 +75681,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 1.7837e-10 - I 1.2881e-22 + Hto 1.5420e-10 + I 1.2883e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0737e-10 + Nat 8.2610e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -75709,12 +75705,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.512e-09 1.781e-10 + Hto 1.307e-09 1.539e-10 I 1.093e-09 1.288e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.827e-10 2.153e-11 + Nat 1.406e-10 1.656e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -75773,8 +75769,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.649e-11 H2 8.246e-12 8.965e-12 -11.084 -11.047 0.036 28.61 -Hto 1.512e-09 - Hto 1.512e-09 1.512e-09 -8.821 -8.821 0.000 (0) +Hto 1.307e-09 + Hto 1.307e-09 1.307e-09 -8.884 -8.884 0.000 (0) I 1.093e-09 I- 1.093e-09 1.093e-09 -8.961 -8.961 -0.000 (0) K 1.540e-03 @@ -75792,15 +75788,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.827e-10 - Nat+ 1.827e-10 1.827e-10 -9.738 -9.738 -0.000 (0) +Nat 1.406e-10 + Nat+ 1.406e-10 1.406e-10 -9.852 -9.852 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.330 -70.294 0.036 30.40 S(-2) 2.555e-08 - HS- 1.787e-08 1.176e-08 -7.748 -7.930 -0.182 21.14 - H2S 7.684e-09 8.354e-09 -8.114 -8.078 0.036 36.27 - S-2 7.255e-14 1.749e-14 -13.139 -13.757 -0.618 (0) - (H2S)2 3.382e-18 3.678e-18 -17.471 -17.434 0.036 30.09 + HS- 1.787e-08 1.176e-08 -7.748 -7.929 -0.182 21.14 + H2S 7.684e-09 8.355e-09 -8.114 -8.078 0.036 36.27 + S-2 7.256e-14 1.749e-14 -13.139 -13.757 -0.618 (0) + (H2S)2 3.383e-18 3.678e-18 -17.471 -17.434 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -75875,7 +75871,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -75886,12 +75882,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 2.0728e-11 - I 1.2802e-23 + Hto 1.7200e-11 + I 1.2804e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5564e-12 + Nat 5.4335e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -75910,12 +75906,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.757e-10 2.069e-11 + Hto 1.458e-10 1.717e-11 I 1.087e-10 1.280e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.286e-11 1.515e-12 + Nat 9.246e-12 1.089e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -75948,7 +75944,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.632e-11 - CH4 1.632e-11 1.774e-11 -10.787 -10.751 0.036 35.46 + CH4 1.632e-11 1.775e-11 -10.787 -10.751 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -75973,9 +75969,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.650e-11 - H2 8.248e-12 8.967e-12 -11.084 -11.047 0.036 28.61 -Hto 1.757e-10 - Hto 1.757e-10 1.757e-10 -9.755 -9.755 0.000 (0) + H2 8.248e-12 8.968e-12 -11.084 -11.047 0.036 28.61 +Hto 1.458e-10 + Hto 1.458e-10 1.458e-10 -9.836 -9.836 0.000 (0) I 1.087e-10 I- 1.087e-10 1.087e-10 -9.964 -9.964 -0.000 (0) K 1.540e-03 @@ -75993,15 +75989,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.286e-11 - Nat+ 1.286e-11 1.286e-11 -10.891 -10.891 -0.000 (0) +Nat 9.246e-12 + Nat+ 9.246e-12 9.246e-12 -11.034 -11.034 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.330 -70.294 0.036 30.40 S(-2) 2.558e-08 - HS- 1.789e-08 1.177e-08 -7.747 -7.929 -0.182 21.14 - H2S 7.692e-09 8.363e-09 -8.114 -8.078 0.036 36.27 - S-2 7.263e-14 1.751e-14 -13.139 -13.757 -0.618 (0) - (H2S)2 3.390e-18 3.685e-18 -17.470 -17.434 0.036 30.09 + HS- 1.789e-08 1.178e-08 -7.747 -7.929 -0.182 21.14 + H2S 7.693e-09 8.364e-09 -8.114 -8.078 0.036 36.27 + S-2 7.264e-14 1.751e-14 -13.139 -13.757 -0.618 (0) + (H2S)2 3.390e-18 3.686e-18 -17.470 -17.433 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -76076,7 +76072,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -76087,12 +76083,12 @@ Su Ca 7.1884e-02 Cl 4.6637e-10 H 1.2948e-04 - Hto 1.9074e-12 - I 1.0043e-24 + Hto 1.5185e-12 + I 1.0047e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1678e-13 + Nat 2.8007e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -76111,12 +76107,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.616e-11 1.904e-12 + Hto 1.287e-11 1.516e-12 I 8.525e-12 1.004e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.092e-13 8.355e-14 + Nat 4.766e-13 5.614e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -76148,8 +76144,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.614e-11 - CH4 1.614e-11 1.755e-11 -10.792 -10.756 0.036 35.46 +C(-4) 1.615e-11 + CH4 1.615e-11 1.756e-11 -10.792 -10.756 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -76174,9 +76170,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.645e-11 - H2 8.226e-12 8.943e-12 -11.085 -11.049 0.036 28.61 -Hto 1.616e-11 - Hto 1.616e-11 1.616e-11 -10.791 -10.791 0.000 (0) + H2 8.226e-12 8.944e-12 -11.085 -11.048 0.036 28.61 +Hto 1.287e-11 + Hto 1.287e-11 1.287e-11 -10.890 -10.890 0.000 (0) I 8.525e-12 I- 8.525e-12 8.525e-12 -11.069 -11.069 -0.000 (0) K 1.540e-03 @@ -76194,15 +76190,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.092e-13 - Nat+ 7.092e-13 7.092e-13 -12.149 -12.149 -0.000 (0) +Nat 4.766e-13 + Nat+ 4.766e-13 4.766e-13 -12.322 -12.322 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.328 -70.292 0.036 30.40 -S(-2) 2.530e-08 - HS- 1.769e-08 1.165e-08 -7.752 -7.934 -0.182 21.14 - H2S 7.609e-09 8.272e-09 -8.119 -8.082 0.036 36.27 - S-2 7.185e-14 1.732e-14 -13.144 -13.761 -0.618 (0) - (H2S)2 3.317e-18 3.606e-18 -17.479 -17.443 0.036 30.09 +S(-2) 2.531e-08 + HS- 1.770e-08 1.165e-08 -7.752 -7.934 -0.182 21.14 + H2S 7.611e-09 8.275e-09 -8.119 -8.082 0.036 36.27 + S-2 7.187e-14 1.732e-14 -13.143 -13.761 -0.618 (0) + (H2S)2 3.319e-18 3.608e-18 -17.479 -17.443 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -76218,7 +76214,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.533e-08 7.103e-08 -7.185 -7.149 0.036 -14.13 - SrOH+ 1.153e-10 8.082e-11 -9.938 -10.093 -0.154 (0) + SrOH+ 1.153e-10 8.082e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -76267,7 +76263,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.090e-11 Surface + diffuse layer charge, eq + -9.094e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -76277,7 +76273,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -76288,12 +76284,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 1.4034e-13 - I 6.2882e-26 + Hto 1.0714e-13 + I 6.2869e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8252e-14 + Nat 1.1462e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -76312,12 +76308,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.189e-12 1.401e-13 + Hto 9.080e-13 1.070e-13 I 5.337e-13 6.288e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.106e-14 3.659e-15 + Nat 1.950e-14 2.298e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -76335,7 +76331,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.819e-10 + Electrical balance (eq) = 2.439e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -76374,10 +76370,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) -H(0) 1.630e-11 - H2 8.152e-12 8.864e-12 -11.089 -11.052 0.036 28.61 -Hto 1.189e-12 - Hto 1.189e-12 1.189e-12 -11.925 -11.925 0.000 (0) +H(0) 1.631e-11 + H2 8.153e-12 8.864e-12 -11.089 -11.052 0.036 28.61 +Hto 9.080e-13 + Hto 9.080e-13 9.080e-13 -12.042 -12.042 0.000 (0) I 5.337e-13 I- 5.337e-13 5.337e-13 -12.273 -12.273 -0.000 (0) K 1.540e-03 @@ -76395,15 +76391,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.106e-14 - Nat+ 3.106e-14 3.106e-14 -13.508 -13.508 -0.000 (0) +Nat 1.950e-14 + Nat+ 1.950e-14 1.950e-14 -13.710 -13.710 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.320 -70.284 0.036 30.40 -S(-2) 2.441e-08 - HS- 1.707e-08 1.124e-08 -7.768 -7.949 -0.182 21.14 - H2S 7.342e-09 7.983e-09 -8.134 -8.098 0.036 36.27 - S-2 6.932e-14 1.671e-14 -13.159 -13.777 -0.618 (0) - (H2S)2 3.088e-18 3.358e-18 -17.510 -17.474 0.036 30.09 +S(-2) 2.442e-08 + HS- 1.708e-08 1.124e-08 -7.768 -7.949 -0.182 21.14 + H2S 7.344e-09 7.985e-09 -8.134 -8.098 0.036 36.27 + S-2 6.934e-14 1.672e-14 -13.159 -13.777 -0.618 (0) + (H2S)2 3.090e-18 3.360e-18 -17.510 -17.474 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -76468,7 +76464,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.081e-11 Surface + diffuse layer charge, eq + -9.083e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -76478,7 +76474,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -76489,12 +76485,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 8.2902e-15 - I 3.1562e-27 + Hto 6.0677e-15 + I 3.1558e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3859e-16 + Nat 3.7474e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -76513,12 +76509,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.026e-14 8.277e-15 + Hto 5.142e-14 6.058e-15 I 2.679e-14 3.156e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.087e-15 1.280e-16 + Nat 6.377e-16 7.512e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -76536,7 +76532,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.317e-10 + Electrical balance (eq) = 8.470e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -76577,8 +76573,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.625e-11 H2 8.125e-12 8.834e-12 -11.090 -11.054 0.036 28.61 -Hto 7.026e-14 - Hto 7.026e-14 7.026e-14 -13.153 -13.153 0.000 (0) +Hto 5.142e-14 + Hto 5.142e-14 5.142e-14 -13.289 -13.289 0.000 (0) I 2.679e-14 I- 2.679e-14 2.679e-14 -13.572 -13.572 -0.000 (0) K 1.540e-03 @@ -76596,15 +76592,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.087e-15 - Nat+ 1.087e-15 1.087e-15 -14.964 -14.964 -0.000 (0) +Nat 6.377e-16 + Nat+ 6.377e-16 6.377e-16 -15.195 -15.195 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.317 -70.281 0.036 30.40 S(-2) 2.409e-08 HS- 1.685e-08 1.109e-08 -7.773 -7.955 -0.182 21.14 - H2S 7.245e-09 7.877e-09 -8.140 -8.104 0.036 36.27 + H2S 7.246e-09 7.878e-09 -8.140 -8.104 0.036 36.27 S-2 6.841e-14 1.649e-14 -13.165 -13.783 -0.618 (0) - (H2S)2 3.007e-18 3.270e-18 -17.522 -17.485 0.036 30.09 + (H2S)2 3.008e-18 3.270e-18 -17.522 -17.485 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -76679,7 +76675,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -76690,12 +76686,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 3.9279e-16 - I 1.2691e-28 + Hto 2.7557e-16 + I 1.2693e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7854e-17 + Nat 9.7911e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -76714,12 +76710,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.329e-15 3.922e-16 + Hto 2.335e-15 2.751e-16 I 1.077e-15 1.269e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.038e-17 3.579e-18 + Nat 1.666e-17 1.963e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -76737,7 +76733,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.753e-10 + Electrical balance (eq) = 4.729e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -76752,7 +76748,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.534e-11 - CH4 1.534e-11 1.667e-11 -10.814 -10.778 0.036 35.46 + CH4 1.534e-11 1.668e-11 -10.814 -10.778 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -76778,8 +76774,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.624e-11 H2 8.121e-12 8.829e-12 -11.090 -11.054 0.036 28.61 -Hto 3.329e-15 - Hto 3.329e-15 3.329e-15 -14.478 -14.478 0.000 (0) +Hto 2.335e-15 + Hto 2.335e-15 2.335e-15 -14.632 -14.632 0.000 (0) I 1.077e-15 I- 1.077e-15 1.077e-15 -14.968 -14.968 -0.000 (0) K 1.540e-03 @@ -76797,8 +76793,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.038e-17 - Nat+ 3.038e-17 3.038e-17 -16.517 -16.517 -0.000 (0) +Nat 1.666e-17 + Nat+ 1.666e-17 1.666e-17 -16.778 -16.778 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.317 -70.281 0.036 30.40 S(-2) 2.404e-08 @@ -76880,7 +76876,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -76891,12 +76887,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 1.4832e-17 - I 4.0637e-30 + Hto 9.9726e-18 + I 4.0645e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9675e-19 + Nat 2.0332e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -76915,12 +76911,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.257e-16 1.481e-17 + Hto 8.451e-17 9.957e-18 I 3.449e-17 4.064e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.751e-19 7.953e-20 + Nat 3.460e-19 4.076e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -76938,7 +76934,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.610e-10 + Electrical balance (eq) = 4.609e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -76979,8 +76975,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.624e-11 H2 8.121e-12 8.829e-12 -11.090 -11.054 0.036 28.61 -Hto 1.257e-16 - Hto 1.257e-16 1.257e-16 -15.901 -15.901 0.000 (0) +Hto 8.451e-17 + Hto 8.451e-17 8.451e-17 -16.073 -16.073 0.000 (0) I 3.449e-17 I- 3.449e-17 3.449e-17 -16.462 -16.462 -0.000 (0) K 1.540e-03 @@ -76998,8 +76994,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.751e-19 - Nat+ 6.751e-19 6.751e-19 -18.171 -18.171 -0.000 (0) +Nat 3.460e-19 + Nat+ 3.460e-19 3.460e-19 -18.461 -18.461 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.317 -70.281 0.036 30.40 S(-2) 2.404e-08 @@ -77081,7 +77077,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -77092,12 +77088,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 4.4072e-19 + Hto 2.8395e-19 I 1.0234e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.9223e-21 + Nat 3.3150e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -77116,19 +77112,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.735e-18 4.400e-19 + Hto 2.406e-18 2.835e-19 I 8.686e-19 1.023e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.178e-20 1.388e-21 + Nat 5.641e-21 6.645e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.139 Adjusted to redox equilibrium + pe = -3.138 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -77139,7 +77135,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.953e-09 + Electrical balance (eq) = 1.786e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -77153,8 +77149,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.542e-11 - CH4 1.542e-11 1.676e-11 -10.812 -10.776 0.036 35.46 +C(-4) 1.541e-11 + CH4 1.541e-11 1.676e-11 -10.812 -10.776 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -77179,9 +77175,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.626e-11 - H2 8.131e-12 8.841e-12 -11.090 -11.054 0.036 28.61 -Hto 3.735e-18 - Hto 3.735e-18 3.735e-18 -17.428 -17.428 0.000 (0) + H2 8.131e-12 8.840e-12 -11.090 -11.054 0.036 28.61 +Hto 2.406e-18 + Hto 2.406e-18 2.406e-18 -17.619 -17.619 0.000 (0) I 8.686e-19 I- 8.686e-19 8.686e-19 -18.061 -18.061 -0.000 (0) K 1.540e-03 @@ -77199,15 +77195,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.178e-20 - Nat+ 1.178e-20 1.178e-20 -19.929 -19.929 -0.000 (0) +Nat 5.641e-21 + Nat+ 5.641e-21 5.641e-21 -20.249 -20.249 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.318 -70.282 0.036 30.40 S(-2) 2.416e-08 - HS- 1.690e-08 1.112e-08 -7.772 -7.954 -0.182 21.14 - H2S 7.266e-09 7.900e-09 -8.139 -8.102 0.036 36.27 - S-2 6.861e-14 1.654e-14 -13.164 -13.782 -0.618 (0) - (H2S)2 3.025e-18 3.289e-18 -17.519 -17.483 0.036 30.09 + HS- 1.689e-08 1.112e-08 -7.772 -7.954 -0.182 21.14 + H2S 7.266e-09 7.899e-09 -8.139 -8.102 0.036 36.27 + S-2 6.860e-14 1.654e-14 -13.164 -13.782 -0.618 (0) + (H2S)2 3.024e-18 3.288e-18 -17.519 -17.483 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -77272,7 +77268,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.099e-11 Surface + diffuse layer charge, eq + -9.098e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -77282,7 +77278,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -77293,12 +77289,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 1.0085e-20 - I 1.9831e-33 + Hto 6.2256e-21 + I 1.9835e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2813e-23 + Nat 4.1493e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -77317,12 +77313,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.546e-20 1.007e-20 + Hto 5.276e-20 6.216e-21 I 1.683e-20 1.983e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.579e-22 1.861e-23 + Nat 7.061e-23 8.318e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -77381,8 +77377,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.647e-11 H2 8.237e-12 8.955e-12 -11.084 -11.048 0.036 28.61 -Hto 8.546e-20 - Hto 8.546e-20 8.546e-20 -19.068 -19.068 0.000 (0) +Hto 5.276e-20 + Hto 5.276e-20 5.276e-20 -19.278 -19.278 0.000 (0) I 1.683e-20 I- 1.683e-20 1.683e-20 -19.774 -19.774 -0.000 (0) K 1.540e-03 @@ -77400,15 +77396,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.579e-22 - Nat+ 1.579e-22 1.579e-22 -21.802 -21.802 -0.000 (0) +Nat 7.061e-23 + Nat+ 7.061e-23 7.061e-23 -22.151 -22.151 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.329 -70.293 0.036 30.40 S(-2) 2.544e-08 HS- 1.779e-08 1.171e-08 -7.750 -7.931 -0.182 21.14 - H2S 7.649e-09 8.317e-09 -8.116 -8.080 0.036 36.27 - S-2 7.223e-14 1.741e-14 -13.141 -13.759 -0.618 (0) - (H2S)2 3.352e-18 3.645e-18 -17.475 -17.438 0.036 30.09 + H2S 7.650e-09 8.318e-09 -8.116 -8.080 0.036 36.27 + S-2 7.224e-14 1.741e-14 -13.141 -13.759 -0.618 (0) + (H2S)2 3.353e-18 3.646e-18 -17.475 -17.438 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -77483,7 +77479,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -77494,12 +77490,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 1.7158e-22 - I 2.8523e-35 + Hto 1.0148e-22 + I 2.8529e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.7612e-25 + Nat 2.6353e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -77518,12 +77514,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.454e-21 1.713e-22 + Hto 8.600e-22 1.013e-22 I 2.421e-22 2.852e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.491e-24 1.756e-25 + Nat 4.484e-25 5.283e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -77582,8 +77578,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.650e-11 H2 8.251e-12 8.971e-12 -11.083 -11.047 0.036 28.61 -Hto 1.454e-21 - Hto 1.454e-21 1.454e-21 -20.837 -20.837 0.000 (0) +Hto 8.600e-22 + Hto 8.600e-22 8.600e-22 -21.065 -21.065 0.000 (0) I 2.421e-22 I- 2.421e-22 2.421e-22 -21.616 -21.616 -0.000 (0) K 1.540e-03 @@ -77601,12 +77597,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.491e-24 - Nat+ 1.491e-24 1.491e-24 -23.827 -23.827 -0.000 (0) +Nat 4.484e-25 + Nat+ 4.484e-25 4.484e-25 -24.348 -24.348 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.331 -70.294 0.036 30.40 S(-2) 2.562e-08 - HS- 1.792e-08 1.179e-08 -7.747 -7.928 -0.182 21.14 + HS- 1.792e-08 1.180e-08 -7.747 -7.928 -0.182 21.14 H2S 7.705e-09 8.377e-09 -8.113 -8.077 0.036 36.27 S-2 7.276e-14 1.754e-14 -13.138 -13.756 -0.618 (0) (H2S)2 3.401e-18 3.698e-18 -17.468 -17.432 0.036 30.09 @@ -77684,7 +77680,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -77695,7 +77691,7 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 2.0298e-24 + Hto 1.1502e-24 I 2.5209e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -77718,7 +77714,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.720e-23 2.027e-24 + Hto 9.747e-24 1.148e-24 I 2.140e-24 2.521e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -77781,8 +77777,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.650e-11 H2 8.252e-12 8.972e-12 -11.083 -11.047 0.036 28.61 -Hto 1.720e-23 - Hto 1.720e-23 1.720e-23 -22.764 -22.764 0.000 (0) +Hto 9.747e-24 + Hto 9.747e-24 9.747e-24 -23.011 -23.011 0.000 (0) I 2.140e-24 I- 2.140e-24 2.140e-24 -23.670 -23.670 -0.000 (0) K 1.540e-03 @@ -77871,7 +77867,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.107e-11 Surface + diffuse layer charge, eq + -9.108e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -77881,7 +77877,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -78070,7 +78066,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -78259,7 +78255,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -78448,7 +78444,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -78637,7 +78633,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -79115,12 +79111,12 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.400e-07 3.200e-07 + Hto 6.454e-07 3.227e-07 I 7.857e-07 3.929e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 4.008e-07 2.004e-07 + Nat 4.114e-07 2.057e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 @@ -79131,14 +79127,14 @@ Kinetics 3. Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -79152,8 +79148,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.787e-13 - CH4 2.787e-13 3.030e-13 -12.555 -12.519 0.036 35.46 +C(-4) 2.756e-13 + CH4 2.756e-13 2.996e-13 -12.560 -12.523 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -79177,10 +79173,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 5.962e-12 - H2 2.981e-12 3.241e-12 -11.526 -11.489 0.036 28.61 -Hto 6.400e-07 - Hto 6.400e-07 6.400e-07 -6.194 -6.194 0.000 (0) +H(0) 5.945e-12 + H2 2.973e-12 3.232e-12 -11.527 -11.491 0.036 28.61 +Hto 6.454e-07 + Hto 6.454e-07 6.454e-07 -6.190 -6.190 0.000 (0) I 7.857e-07 I- 7.857e-07 7.857e-07 -6.105 -6.105 -0.000 (0) K 1.540e-03 @@ -79198,15 +79194,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 4.008e-07 - Nat+ 4.008e-07 4.008e-07 -6.397 -6.397 -0.000 (0) +Nat 4.114e-07 + Nat+ 4.114e-07 4.114e-07 -6.386 -6.386 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.447 -69.410 0.036 30.40 -S(-2) 4.369e-10 - HS- 3.055e-10 2.011e-10 -9.515 -9.697 -0.182 21.14 - H2S 1.314e-10 1.429e-10 -9.881 -9.845 0.036 36.27 - S-2 1.240e-15 2.988e-16 -14.907 -15.525 -0.618 (0) - (H2S)2 9.899e-22 1.076e-21 -21.004 -20.968 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.444 -69.408 0.036 30.40 +S(-2) 4.320e-10 + HS- 3.020e-10 1.988e-10 -9.520 -9.702 -0.182 21.14 + H2S 1.300e-10 1.413e-10 -9.886 -9.850 0.036 36.27 + S-2 1.226e-15 2.954e-16 -14.912 -15.530 -0.618 (0) + (H2S)2 9.677e-22 1.052e-21 -21.014 -20.978 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -79240,7 +79236,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.39 -11.49 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.85 -16.79 -7.94 H2S + H2S(g) -8.86 -16.79 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -79271,7 +79267,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.215e-13 Surface + diffuse layer charge, eq + -1.211e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -79281,7 +79277,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -79292,12 +79288,12 @@ Su Ca 7.1884e-02 Cl 4.6663e-10 H 1.2947e-04 - Hto 5.8082e-08 - I 7.2739e-20 + Hto 5.8011e-08 + I 7.2752e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8197e-07 + Nat 1.8225e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -79316,30 +79312,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.922e-07 5.799e-08 + Hto 4.916e-07 5.792e-08 I 6.174e-07 7.273e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.096e-07 3.648e-08 + Nat 3.101e-07 3.653e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.030 Adjusted to redox equilibrium + pe = -3.029 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.720e-09 + Electrical balance (eq) = 1.711e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -79353,8 +79349,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.091e-12 - CH4 2.091e-12 2.273e-12 -11.680 -11.643 0.036 35.46 +C(-4) 2.074e-12 + CH4 2.074e-12 2.255e-12 -11.683 -11.647 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -79378,10 +79374,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.868e-12 - H2 4.934e-12 5.364e-12 -11.307 -11.270 0.036 28.61 -Hto 4.922e-07 - Hto 4.922e-07 4.922e-07 -6.308 -6.308 0.000 (0) +H(0) 9.848e-12 + H2 4.924e-12 5.353e-12 -11.308 -11.271 0.036 28.61 +Hto 4.916e-07 + Hto 4.916e-07 4.916e-07 -6.308 -6.308 0.000 (0) I 6.174e-07 I- 6.174e-07 6.174e-07 -6.209 -6.209 -0.000 (0) K 1.540e-03 @@ -79399,15 +79395,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.096e-07 - Nat+ 3.096e-07 3.096e-07 -6.509 -6.509 -0.000 (0) +Nat 3.101e-07 + Nat+ 3.101e-07 3.101e-07 -6.508 -6.508 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.884 -69.848 0.036 30.40 -S(-2) 3.278e-09 - HS- 2.292e-09 1.509e-09 -8.640 -8.821 -0.182 21.14 - H2S 9.861e-10 1.072e-09 -9.006 -8.970 0.036 36.27 - S-2 9.300e-15 2.242e-15 -14.032 -14.649 -0.618 (0) - (H2S)2 5.571e-20 6.056e-20 -19.254 -19.218 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.882 -69.846 0.036 30.40 +S(-2) 3.251e-09 + HS- 2.273e-09 1.496e-09 -8.643 -8.825 -0.182 21.14 + H2S 9.780e-10 1.063e-09 -9.010 -8.973 0.036 36.27 + S-2 9.224e-15 2.224e-15 -14.035 -14.653 -0.618 (0) + (H2S)2 5.480e-20 5.958e-20 -19.261 -19.225 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -79434,19 +79430,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.84 -11.64 -2.80 CH4 + CH4(g) -8.85 -11.65 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.17 -11.27 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.98 -15.91 -7.94 H2S + H2S(g) -7.98 -15.92 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.96 -69.85 -2.89 O2 + O2(g) -66.95 -69.85 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.73 -0.85 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -79472,7 +79468,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.068e-11 Surface + diffuse layer charge, eq + -9.066e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -79482,7 +79478,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -79493,12 +79489,12 @@ Su Ca 7.1884e-02 Cl 4.6644e-10 H 1.2948e-04 - Hto 2.3627e-08 - I 2.6457e-20 + Hto 2.2929e-08 + I 2.6463e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5481e-08 + Nat 5.2296e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -79517,12 +79513,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.002e-07 2.359e-08 + Hto 1.943e-07 2.289e-08 I 2.246e-07 2.646e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.441e-08 1.112e-08 + Nat 8.899e-08 1.048e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -79540,7 +79536,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.894e-09 + Electrical balance (eq) = 4.860e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -79554,8 +79550,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.214e-11 - CH4 1.214e-11 1.320e-11 -10.916 -10.879 0.036 35.46 +C(-4) 1.212e-11 + CH4 1.212e-11 1.317e-11 -10.917 -10.880 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -79579,10 +79575,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.642e-09 -8.403 -8.249 0.155 (0) -H(0) 1.532e-11 - H2 7.660e-12 8.328e-12 -11.116 -11.079 0.036 28.61 -Hto 2.002e-07 - Hto 2.002e-07 2.002e-07 -6.698 -6.698 0.000 (0) +H(0) 1.531e-11 + H2 7.656e-12 8.324e-12 -11.116 -11.080 0.036 28.61 +Hto 1.943e-07 + Hto 1.943e-07 1.943e-07 -6.712 -6.712 0.000 (0) I 2.246e-07 I- 2.246e-07 2.246e-07 -6.649 -6.649 -0.000 (0) K 1.540e-03 @@ -79600,15 +79596,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.441e-08 - Nat+ 9.441e-08 9.441e-08 -7.025 -7.025 -0.000 (0) +Nat 8.899e-08 + Nat+ 8.899e-08 8.899e-08 -7.051 -7.051 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.266 -70.230 0.036 30.40 -S(-2) 1.903e-08 - HS- 1.331e-08 8.761e-09 -7.876 -8.057 -0.182 21.14 - H2S 5.724e-09 6.224e-09 -8.242 -8.206 0.036 36.27 - S-2 5.403e-14 1.302e-14 -13.267 -13.885 -0.618 (0) - (H2S)2 1.877e-18 2.041e-18 -17.726 -17.690 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.266 -70.229 0.036 30.40 +S(-2) 1.899e-08 + HS- 1.328e-08 8.742e-09 -7.877 -8.058 -0.182 21.14 + H2S 5.712e-09 6.210e-09 -8.243 -8.207 0.036 36.27 + S-2 5.392e-14 1.300e-14 -13.268 -13.886 -0.618 (0) + (H2S)2 1.869e-18 2.032e-18 -17.728 -17.692 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -79673,7 +79669,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.146e-11 Surface + diffuse layer charge, eq + -9.145e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -79683,7 +79679,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -79694,12 +79690,12 @@ Su Ca 7.1884e-02 Cl 4.6637e-10 H 1.2948e-04 - Hto 6.7061e-09 + Hto 6.2849e-09 I 6.5777e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0552e-08 + Nat 9.3188e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -79718,12 +79714,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.683e-08 6.695e-09 + Hto 5.326e-08 6.275e-09 I 5.583e-08 6.577e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.796e-08 2.115e-09 + Nat 1.586e-08 1.868e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -79741,7 +79737,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.791e-10 + Electrical balance (eq) = 2.792e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -79755,8 +79751,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.574e-11 - CH4 1.574e-11 1.711e-11 -10.803 -10.767 0.036 35.46 +C(-4) 1.573e-11 + CH4 1.573e-11 1.710e-11 -10.803 -10.767 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -79782,8 +79778,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.635e-11 H2 8.173e-12 8.886e-12 -11.088 -11.051 0.036 28.61 -Hto 5.683e-08 - Hto 5.683e-08 5.683e-08 -7.245 -7.245 0.000 (0) +Hto 5.326e-08 + Hto 5.326e-08 5.326e-08 -7.274 -7.274 0.000 (0) I 5.583e-08 I- 5.583e-08 5.583e-08 -7.253 -7.253 -0.000 (0) K 1.540e-03 @@ -79801,15 +79797,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.796e-08 - Nat+ 1.796e-08 1.796e-08 -7.746 -7.746 -0.000 (0) +Nat 1.586e-08 + Nat+ 1.586e-08 1.586e-08 -7.800 -7.800 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.323 -70.286 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.322 -70.286 0.036 30.40 S(-2) 2.466e-08 - HS- 1.725e-08 1.135e-08 -7.763 -7.945 -0.182 21.14 - H2S 7.417e-09 8.064e-09 -8.130 -8.093 0.036 36.27 - S-2 7.003e-14 1.688e-14 -13.155 -13.773 -0.618 (0) - (H2S)2 3.152e-18 3.427e-18 -17.501 -17.465 0.036 30.09 + HS- 1.724e-08 1.135e-08 -7.763 -7.945 -0.182 21.14 + H2S 7.415e-09 8.062e-09 -8.130 -8.094 0.036 36.27 + S-2 7.001e-14 1.688e-14 -13.155 -13.773 -0.618 (0) + (H2S)2 3.150e-18 3.425e-18 -17.502 -17.465 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -79836,7 +79832,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.96 -10.77 -2.80 CH4 + CH4(g) -7.97 -10.77 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -79884,7 +79880,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -79895,12 +79891,12 @@ Su Ca 7.1884e-02 Cl 4.6635e-10 H 1.2948e-04 - Hto 1.4021e-09 - I 1.1905e-21 + Hto 1.2651e-09 + I 1.1909e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4027e-09 + Nat 1.1589e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -79919,12 +79915,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.188e-08 1.400e-09 + Hto 1.072e-08 1.263e-09 I 1.011e-08 1.191e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.387e-09 2.812e-10 + Nat 1.972e-09 2.323e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -79956,8 +79952,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.700e-11 - CH4 1.700e-11 1.849e-11 -10.769 -10.733 0.036 35.46 +C(-4) 1.701e-11 + CH4 1.701e-11 1.849e-11 -10.769 -10.733 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -79982,9 +79978,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.667e-11 - H2 8.333e-12 9.060e-12 -11.079 -11.043 0.036 28.61 -Hto 1.188e-08 - Hto 1.188e-08 1.188e-08 -7.925 -7.925 0.000 (0) + H2 8.334e-12 9.060e-12 -11.079 -11.043 0.036 28.61 +Hto 1.072e-08 + Hto 1.072e-08 1.072e-08 -7.970 -7.970 0.000 (0) I 1.011e-08 I- 1.011e-08 1.011e-08 -7.995 -7.995 -0.000 (0) K 1.540e-03 @@ -80002,15 +79998,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.387e-09 - Nat+ 2.387e-09 2.387e-09 -8.622 -8.622 -0.000 (0) +Nat 1.972e-09 + Nat+ 1.972e-09 1.972e-09 -8.705 -8.705 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.339 -70.303 0.036 30.40 -S(-2) 2.665e-08 +S(-2) 2.666e-08 HS- 1.864e-08 1.227e-08 -7.730 -7.911 -0.182 21.14 - H2S 8.014e-09 8.713e-09 -8.096 -8.060 0.036 36.27 - S-2 7.568e-14 1.824e-14 -13.121 -13.739 -0.618 (0) - (H2S)2 3.680e-18 4.001e-18 -17.434 -17.398 0.036 30.09 + H2S 8.016e-09 8.715e-09 -8.096 -8.060 0.036 36.27 + S-2 7.569e-14 1.825e-14 -13.121 -13.739 -0.618 (0) + (H2S)2 3.681e-18 4.002e-18 -17.434 -17.398 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -80075,7 +80071,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -9.142e-11 Surface + diffuse layer charge, eq + -9.141e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -80085,7 +80081,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -80096,12 +80092,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 2.2420e-10 - I 1.6368e-22 + Hto 1.9444e-10 + I 1.6365e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3860e-10 + Nat 1.0706e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -80120,12 +80116,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.900e-09 2.238e-10 + Hto 1.648e-09 1.941e-10 I 1.389e-09 1.637e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.358e-10 2.778e-11 + Nat 1.822e-10 2.146e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -80184,8 +80180,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.674e-11 H2 8.371e-12 9.101e-12 -11.077 -11.041 0.036 28.61 -Hto 1.900e-09 - Hto 1.900e-09 1.900e-09 -8.721 -8.721 0.000 (0) +Hto 1.648e-09 + Hto 1.648e-09 1.648e-09 -8.783 -8.783 0.000 (0) I 1.389e-09 I- 1.389e-09 1.389e-09 -8.857 -8.857 -0.000 (0) K 1.540e-03 @@ -80203,15 +80199,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.358e-10 - Nat+ 2.358e-10 2.358e-10 -9.627 -9.627 -0.000 (0) +Nat 1.822e-10 + Nat+ 1.822e-10 1.822e-10 -9.740 -9.740 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.343 -70.307 0.036 30.40 S(-2) 2.713e-08 HS- 1.897e-08 1.249e-08 -7.722 -7.903 -0.182 21.14 - H2S 8.159e-09 8.870e-09 -8.088 -8.052 0.036 36.27 + H2S 8.160e-09 8.871e-09 -8.088 -8.052 0.036 36.27 S-2 7.705e-14 1.857e-14 -13.113 -13.731 -0.618 (0) - (H2S)2 3.814e-18 4.146e-18 -17.419 -17.382 0.036 30.09 + (H2S)2 3.814e-18 4.147e-18 -17.419 -17.382 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -80286,7 +80282,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -80297,12 +80293,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 2.8128e-11 + Hto 2.3423e-11 I 1.7574e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0563e-11 + Nat 7.6271e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -80321,12 +80317,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.384e-10 2.808e-11 + Hto 1.985e-10 2.339e-11 I 1.492e-10 1.757e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.797e-11 2.118e-12 + Nat 1.298e-11 1.529e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -80359,7 +80355,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.733e-11 - CH4 1.733e-11 1.884e-11 -10.761 -10.725 0.036 35.46 + CH4 1.733e-11 1.885e-11 -10.761 -10.725 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -80384,9 +80380,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.675e-11 - H2 8.373e-12 9.103e-12 -11.077 -11.041 0.036 28.61 -Hto 2.384e-10 - Hto 2.384e-10 2.384e-10 -9.623 -9.623 0.000 (0) + H2 8.373e-12 9.104e-12 -11.077 -11.041 0.036 28.61 +Hto 1.985e-10 + Hto 1.985e-10 1.985e-10 -9.702 -9.702 0.000 (0) I 1.492e-10 I- 1.492e-10 1.492e-10 -9.826 -9.826 -0.000 (0) K 1.540e-03 @@ -80404,15 +80400,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.797e-11 - Nat+ 1.797e-11 1.797e-11 -10.745 -10.745 -0.000 (0) +Nat 1.298e-11 + Nat+ 1.298e-11 1.298e-11 -10.887 -10.887 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.344 -70.307 0.036 30.40 -S(-2) 2.716e-08 - HS- 1.900e-08 1.250e-08 -7.721 -7.903 -0.182 21.14 - H2S 8.168e-09 8.881e-09 -8.088 -8.052 0.036 36.27 - S-2 7.714e-14 1.859e-14 -13.113 -13.731 -0.618 (0) - (H2S)2 3.823e-18 4.156e-18 -17.418 -17.381 0.036 30.09 +S(-2) 2.717e-08 + HS- 1.900e-08 1.251e-08 -7.721 -7.903 -0.182 21.14 + H2S 8.169e-09 8.882e-09 -8.088 -8.051 0.036 36.27 + S-2 7.714e-14 1.860e-14 -13.113 -13.731 -0.618 (0) + (H2S)2 3.823e-18 4.157e-18 -17.418 -17.381 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -80487,7 +80483,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -80498,12 +80494,12 @@ Su Ca 7.1884e-02 Cl 4.6635e-10 H 1.2948e-04 - Hto 2.8164e-12 - I 1.5013e-24 + Hto 2.2505e-12 + I 1.5019e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3549e-13 + Nat 4.2885e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -80522,12 +80518,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.387e-11 2.812e-12 + Hto 1.907e-11 2.247e-12 I 1.274e-11 1.501e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.081e-12 1.274e-13 + Nat 7.297e-13 8.597e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -80560,7 +80556,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.715e-11 - CH4 1.715e-11 1.864e-11 -10.766 -10.729 0.036 35.46 + CH4 1.715e-11 1.865e-11 -10.766 -10.729 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -80585,9 +80581,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.670e-11 - H2 8.350e-12 9.079e-12 -11.078 -11.042 0.036 28.61 -Hto 2.387e-11 - Hto 2.387e-11 2.387e-11 -10.622 -10.622 0.000 (0) + H2 8.351e-12 9.080e-12 -11.078 -11.042 0.036 28.61 +Hto 1.907e-11 + Hto 1.907e-11 1.907e-11 -10.720 -10.720 0.000 (0) I 1.274e-11 I- 1.274e-11 1.274e-11 -10.895 -10.895 -0.000 (0) K 1.540e-03 @@ -80605,15 +80601,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.081e-12 - Nat+ 1.081e-12 1.081e-12 -11.966 -11.966 -0.000 (0) +Nat 7.297e-13 + Nat+ 7.297e-13 7.297e-13 -12.137 -12.137 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.341 -70.305 0.036 30.40 -S(-2) 2.687e-08 - HS- 1.879e-08 1.237e-08 -7.726 -7.908 -0.182 21.14 - H2S 8.081e-09 8.786e-09 -8.093 -8.056 0.036 36.27 - S-2 7.631e-14 1.839e-14 -13.117 -13.735 -0.618 (0) - (H2S)2 3.741e-18 4.068e-18 -17.427 -17.391 0.036 30.09 +S(-2) 2.688e-08 + HS- 1.880e-08 1.237e-08 -7.726 -7.907 -0.182 21.14 + H2S 8.083e-09 8.789e-09 -8.092 -8.056 0.036 36.27 + S-2 7.633e-14 1.840e-14 -13.117 -13.735 -0.618 (0) + (H2S)2 3.744e-18 4.070e-18 -17.427 -17.390 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -80678,7 +80674,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.119e-11 Surface + diffuse layer charge, eq + -9.123e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -80688,7 +80684,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -80699,12 +80695,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 2.2749e-13 - I 1.0325e-25 + Hto 1.7435e-13 + I 1.0327e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0611e-14 + Nat 1.9305e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -80723,12 +80719,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.928e-12 2.271e-13 + Hto 1.478e-12 1.741e-13 I 8.765e-13 1.033e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.209e-14 6.136e-15 + Nat 3.285e-14 3.870e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -80746,7 +80742,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.910e-10 + Electrical balance (eq) = 2.348e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -80760,8 +80756,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.661e-11 - CH4 1.661e-11 1.806e-11 -10.780 -10.743 0.036 35.46 +C(-4) 1.662e-11 + CH4 1.662e-11 1.807e-11 -10.779 -10.743 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -80787,8 +80783,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.657e-11 H2 8.285e-12 9.008e-12 -11.082 -11.045 0.036 28.61 -Hto 1.928e-12 - Hto 1.928e-12 1.928e-12 -11.715 -11.715 0.000 (0) +Hto 1.478e-12 + Hto 1.478e-12 1.478e-12 -11.830 -11.830 0.000 (0) I 8.765e-13 I- 8.765e-13 8.765e-13 -12.057 -12.057 -0.000 (0) K 1.540e-03 @@ -80806,15 +80802,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.209e-14 - Nat+ 5.209e-14 5.209e-14 -13.283 -13.283 -0.000 (0) +Nat 3.285e-14 + Nat+ 3.285e-14 3.285e-14 -13.483 -13.483 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.334 -70.298 0.036 30.40 S(-2) 2.604e-08 HS- 1.821e-08 1.199e-08 -7.740 -7.921 -0.182 21.14 - H2S 7.830e-09 8.513e-09 -8.106 -8.070 0.036 36.27 - S-2 7.394e-14 1.782e-14 -13.131 -13.749 -0.618 (0) - (H2S)2 3.513e-18 3.819e-18 -17.454 -17.418 0.036 30.09 + H2S 7.832e-09 8.515e-09 -8.106 -8.070 0.036 36.27 + S-2 7.396e-14 1.783e-14 -13.131 -13.749 -0.618 (0) + (H2S)2 3.514e-18 3.821e-18 -17.454 -17.418 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -80879,7 +80875,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.110e-11 Surface + diffuse layer charge, eq + -9.111e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -80889,7 +80885,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -80900,12 +80896,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 1.4908e-14 + Hto 1.0955e-14 I 5.7524e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1899e-15 + Nat 7.0131e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -80924,12 +80920,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.263e-13 1.488e-14 + Hto 9.284e-14 1.094e-14 I 4.883e-14 5.752e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.025e-15 2.385e-16 + Nat 1.193e-15 1.406e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -80947,7 +80943,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.408e-10 + Electrical balance (eq) = 7.562e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -80988,8 +80984,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.652e-11 H2 8.258e-12 8.978e-12 -11.083 -11.047 0.036 28.61 -Hto 1.263e-13 - Hto 1.263e-13 1.263e-13 -12.898 -12.898 0.000 (0) +Hto 9.284e-14 + Hto 9.284e-14 9.284e-14 -13.032 -13.032 0.000 (0) I 4.883e-14 I- 4.883e-14 4.883e-14 -13.311 -13.311 -0.000 (0) K 1.540e-03 @@ -81007,15 +81003,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.025e-15 - Nat+ 2.025e-15 2.025e-15 -14.694 -14.694 -0.000 (0) +Nat 1.193e-15 + Nat+ 1.193e-15 1.193e-15 -14.923 -14.923 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.331 -70.295 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.332 -70.295 0.036 30.40 S(-2) 2.570e-08 HS- 1.797e-08 1.183e-08 -7.745 -7.927 -0.182 21.14 - H2S 7.729e-09 8.404e-09 -8.112 -8.076 0.036 36.27 - S-2 7.298e-14 1.759e-14 -13.137 -13.755 -0.618 (0) - (H2S)2 3.423e-18 3.721e-18 -17.466 -17.429 0.036 30.09 + H2S 7.730e-09 8.404e-09 -8.112 -8.076 0.036 36.27 + S-2 7.299e-14 1.759e-14 -13.137 -13.755 -0.618 (0) + (H2S)2 3.423e-18 3.722e-18 -17.466 -17.429 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -81090,7 +81086,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -81101,12 +81097,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 7.9363e-16 - I 2.6008e-28 + Hto 5.5906e-16 + I 2.6003e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7427e-17 + Nat 2.0614e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -81125,12 +81121,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.726e-15 7.924e-16 + Hto 4.738e-15 5.582e-16 I 2.207e-15 2.600e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.369e-17 7.503e-18 + Nat 3.508e-17 4.132e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -81148,7 +81144,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.845e-10 + Electrical balance (eq) = 3.821e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -81189,8 +81185,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.651e-11 H2 8.253e-12 8.973e-12 -11.083 -11.047 0.036 28.61 -Hto 6.726e-15 - Hto 6.726e-15 6.726e-15 -14.172 -14.172 0.000 (0) +Hto 4.738e-15 + Hto 4.738e-15 4.738e-15 -14.324 -14.324 0.000 (0) I 2.207e-15 I- 2.207e-15 2.207e-15 -14.656 -14.656 -0.000 (0) K 1.540e-03 @@ -81208,8 +81204,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.369e-17 - Nat+ 6.369e-17 6.369e-17 -16.196 -16.196 -0.000 (0) +Nat 3.508e-17 + Nat+ 3.508e-17 3.508e-17 -16.455 -16.455 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.331 -70.295 0.036 30.40 S(-2) 2.564e-08 @@ -81291,7 +81287,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -81302,12 +81298,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 3.4213e-17 - I 9.5110e-30 + Hto 2.3099e-17 + I 9.5079e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.5050e-19 + Nat 4.8924e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -81326,12 +81322,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.899e-16 3.416e-17 + Hto 1.958e-16 2.306e-17 I 8.071e-17 9.508e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.617e-18 1.905e-19 + Nat 8.325e-19 9.808e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -81349,7 +81345,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.702e-10 + Electrical balance (eq) = 3.701e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -81371,7 +81367,7 @@ C(4) 2.744e-03 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.012e-06 9.799e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.012e-06 9.798e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.629e-06 3.946e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.381e-06 8.605e-07 -5.471 -6.065 -0.594 -1.53 @@ -81382,7 +81378,7 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.012e-06 9.799e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.012e-06 9.798e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.876e-08 1.371e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.791e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 @@ -81390,8 +81386,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.651e-11 H2 8.253e-12 8.973e-12 -11.083 -11.047 0.036 28.61 -Hto 2.899e-16 - Hto 2.899e-16 2.899e-16 -15.538 -15.538 0.000 (0) +Hto 1.958e-16 + Hto 1.958e-16 1.958e-16 -15.708 -15.708 0.000 (0) I 8.071e-17 I- 8.071e-17 8.071e-17 -16.093 -16.093 -0.000 (0) K 1.540e-03 @@ -81409,14 +81405,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.617e-18 - Nat+ 1.617e-18 1.617e-18 -17.791 -17.791 -0.000 (0) +Nat 8.325e-19 + Nat+ 8.325e-19 8.325e-19 -18.080 -18.080 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.331 -70.295 0.036 30.40 S(-2) 2.564e-08 HS- 1.793e-08 1.180e-08 -7.746 -7.928 -0.182 21.14 H2S 7.710e-09 8.383e-09 -8.113 -8.077 0.036 36.27 - S-2 7.281e-14 1.755e-14 -13.138 -13.756 -0.618 (0) + S-2 7.280e-14 1.755e-14 -13.138 -13.756 -0.618 (0) (H2S)2 3.406e-18 3.703e-18 -17.468 -17.431 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -81482,7 +81478,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.112e-11 Surface + diffuse layer charge, eq + -9.111e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -81492,7 +81488,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -81503,12 +81499,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 1.1849e-18 - I 2.7921e-31 + Hto 7.6669e-19 + I 2.7916e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9348e-20 + Nat 9.3067e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -81527,12 +81523,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.004e-17 1.183e-18 + Hto 6.497e-18 7.655e-19 I 2.370e-18 2.792e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.292e-20 3.879e-21 + Nat 1.584e-20 1.866e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -81550,7 +81546,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.863e-09 + Electrical balance (eq) = 1.695e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -81565,7 +81561,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.647e-11 - CH4 1.647e-11 1.791e-11 -10.783 -10.747 0.036 35.46 + CH4 1.647e-11 1.790e-11 -10.783 -10.747 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -81590,9 +81586,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.653e-11 - H2 8.267e-12 8.988e-12 -11.083 -11.046 0.036 28.61 -Hto 1.004e-17 - Hto 1.004e-17 1.004e-17 -16.998 -16.998 0.000 (0) + H2 8.266e-12 8.988e-12 -11.083 -11.046 0.036 28.61 +Hto 6.497e-18 + Hto 6.497e-18 6.497e-18 -17.187 -17.187 0.000 (0) I 2.370e-18 I- 2.370e-18 2.370e-18 -17.625 -17.625 -0.000 (0) K 1.540e-03 @@ -81610,15 +81606,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.292e-20 - Nat+ 3.292e-20 3.292e-20 -19.482 -19.482 -0.000 (0) +Nat 1.584e-20 + Nat+ 1.584e-20 1.584e-20 -19.800 -19.800 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.332 -70.296 0.036 30.40 S(-2) 2.581e-08 HS- 1.805e-08 1.188e-08 -7.744 -7.925 -0.182 21.14 - H2S 7.762e-09 8.439e-09 -8.110 -8.074 0.036 36.27 + H2S 7.761e-09 8.438e-09 -8.110 -8.074 0.036 36.27 S-2 7.329e-14 1.767e-14 -13.135 -13.753 -0.618 (0) - (H2S)2 3.452e-18 3.753e-18 -17.462 -17.426 0.036 30.09 + (H2S)2 3.451e-18 3.752e-18 -17.462 -17.426 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -81693,7 +81689,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -81704,12 +81700,12 @@ Su Ca 7.1884e-02 Cl 4.6635e-10 H 1.2948e-04 - Hto 3.2512e-20 - I 6.4902e-33 + Hto 2.0157e-20 + I 6.4895e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1141e-22 + Nat 1.3994e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -81728,12 +81724,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.755e-19 3.246e-20 + Hto 1.708e-19 2.012e-20 I 5.508e-20 6.490e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.299e-22 6.243e-23 + Nat 2.381e-22 2.805e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -81791,9 +81787,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.672e-11 - H2 8.359e-12 9.089e-12 -11.078 -11.042 0.036 28.61 -Hto 2.755e-19 - Hto 2.755e-19 2.755e-19 -18.560 -18.560 0.000 (0) + H2 8.360e-12 9.089e-12 -11.078 -11.041 0.036 28.61 +Hto 1.708e-19 + Hto 1.708e-19 1.708e-19 -18.767 -18.767 0.000 (0) I 5.508e-20 I- 5.508e-20 5.508e-20 -19.259 -19.259 -0.000 (0) K 1.540e-03 @@ -81811,15 +81807,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.299e-22 - Nat+ 5.299e-22 5.299e-22 -21.276 -21.276 -0.000 (0) +Nat 2.381e-22 + Nat+ 2.381e-22 2.381e-22 -21.623 -21.623 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.342 -70.306 0.036 30.40 S(-2) 2.699e-08 - HS- 1.887e-08 1.242e-08 -7.724 -7.906 -0.182 21.14 - H2S 8.115e-09 8.823e-09 -8.091 -8.054 0.036 36.27 - S-2 7.663e-14 1.847e-14 -13.116 -13.733 -0.618 (0) - (H2S)2 3.773e-18 4.102e-18 -17.423 -17.387 0.036 30.09 + HS- 1.887e-08 1.243e-08 -7.724 -7.906 -0.182 21.14 + H2S 8.117e-09 8.825e-09 -8.091 -8.054 0.036 36.27 + S-2 7.665e-14 1.848e-14 -13.116 -13.733 -0.618 (0) + (H2S)2 3.774e-18 4.103e-18 -17.423 -17.387 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -81894,7 +81890,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -81905,12 +81901,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 6.9097e-22 + Hto 4.1048e-22 I 1.1677e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8306e-24 + Nat 1.5080e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -81929,12 +81925,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.856e-21 6.899e-22 + Hto 3.479e-21 4.098e-22 I 9.910e-22 1.168e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.518e-24 7.679e-25 + Nat 2.566e-24 3.023e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -81992,9 +81988,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.675e-11 - H2 8.377e-12 9.107e-12 -11.077 -11.041 0.036 28.61 -Hto 5.856e-21 - Hto 5.856e-21 5.856e-21 -20.232 -20.232 0.000 (0) + H2 8.377e-12 9.108e-12 -11.077 -11.041 0.036 28.61 +Hto 3.479e-21 + Hto 3.479e-21 3.479e-21 -20.459 -20.459 0.000 (0) I 9.910e-22 I- 9.910e-22 9.910e-22 -21.004 -21.004 -0.000 (0) K 1.540e-03 @@ -82012,15 +82008,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.518e-24 - Nat+ 6.518e-24 6.518e-24 -23.186 -23.186 -0.000 (0) +Nat 2.566e-24 + Nat+ 2.566e-24 2.566e-24 -23.591 -23.591 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.344 -70.308 0.036 30.40 S(-2) 2.721e-08 HS- 1.903e-08 1.253e-08 -7.721 -7.902 -0.182 21.14 H2S 8.183e-09 8.897e-09 -8.087 -8.051 0.036 36.27 S-2 7.728e-14 1.863e-14 -13.112 -13.730 -0.618 (0) - (H2S)2 3.836e-18 4.171e-18 -17.416 -17.380 0.036 30.09 + (H2S)2 3.837e-18 4.171e-18 -17.416 -17.380 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -82095,7 +82091,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -82106,8 +82102,8 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 1.0960e-23 - I 1.5355e-36 + Hto 6.2378e-24 + I 1.5357e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -82129,7 +82125,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.288e-23 1.094e-23 + Hto 5.286e-23 6.228e-24 I 1.303e-23 1.535e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -82192,8 +82188,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.676e-11 H2 8.378e-12 9.109e-12 -11.077 -11.041 0.036 28.61 -Hto 9.288e-23 - Hto 9.288e-23 9.288e-23 -22.032 -22.032 0.000 (0) +Hto 5.286e-23 + Hto 5.286e-23 5.286e-23 -22.277 -22.277 0.000 (0) I 1.303e-23 I- 1.303e-23 1.303e-23 -22.885 -22.885 -0.000 (0) K 1.540e-03 @@ -82292,7 +82288,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -82303,7 +82299,6 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 1.0820e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -82325,7 +82320,6 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.170e-25 1.080e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -82387,8 +82381,6 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.676e-11 H2 8.378e-12 9.109e-12 -11.077 -11.041 0.036 28.61 -Hto 9.170e-25 - Hto 9.170e-25 9.170e-25 -24.038 -24.038 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -82485,7 +82477,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -82674,7 +82666,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -82863,7 +82855,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -83052,7 +83044,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -83530,12 +83522,12 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.326e-07 3.163e-07 + Hto 6.380e-07 3.190e-07 I 7.809e-07 3.904e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.925e-07 1.962e-07 + Nat 4.027e-07 2.014e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 @@ -83546,14 +83538,14 @@ Kinetics 3. Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -83567,8 +83559,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.344e-13 - CH4 3.344e-13 3.636e-13 -12.476 -12.439 0.036 35.46 +C(-4) 3.299e-13 + CH4 3.299e-13 3.587e-13 -12.482 -12.445 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -83592,10 +83584,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.240e-12 - H2 3.120e-12 3.392e-12 -11.506 -11.470 0.036 28.61 -Hto 6.326e-07 - Hto 6.326e-07 6.326e-07 -6.199 -6.199 0.000 (0) +H(0) 6.219e-12 + H2 3.110e-12 3.381e-12 -11.507 -11.471 0.036 28.61 +Hto 6.380e-07 + Hto 6.380e-07 6.380e-07 -6.195 -6.195 0.000 (0) I 7.809e-07 I- 7.809e-07 7.809e-07 -6.107 -6.107 -0.000 (0) K 1.540e-03 @@ -83613,15 +83605,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.925e-07 - Nat+ 3.925e-07 3.925e-07 -6.406 -6.406 -0.000 (0) +Nat 4.027e-07 + Nat+ 4.027e-07 4.027e-07 -6.395 -6.395 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.486 -69.450 0.036 30.40 -S(-2) 5.242e-10 - HS- 3.665e-10 2.413e-10 -9.436 -9.617 -0.182 21.14 - H2S 1.577e-10 1.715e-10 -9.802 -9.766 0.036 36.27 - S-2 1.487e-15 3.585e-16 -14.828 -15.445 -0.618 (0) - (H2S)2 1.425e-21 1.549e-21 -20.846 -20.810 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.483 -69.447 0.036 30.40 +S(-2) 5.171e-10 + HS- 3.616e-10 2.380e-10 -9.442 -9.623 -0.182 21.14 + H2S 1.556e-10 1.692e-10 -9.808 -9.772 0.036 36.27 + S-2 1.467e-15 3.537e-16 -14.833 -15.451 -0.618 (0) + (H2S)2 1.387e-21 1.508e-21 -20.858 -20.822 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -83648,19 +83640,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.64 -12.44 -2.80 CH4 + CH4(g) -9.64 -12.45 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.37 -11.47 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.77 -16.71 -7.94 H2S + H2S(g) -8.78 -16.71 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.56 -69.45 -2.89 O2 + O2(g) -66.55 -69.45 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -6.33 -1.45 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -83686,7 +83678,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.242e-13 Surface + diffuse layer charge, eq + -1.250e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -83696,7 +83688,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -83707,12 +83699,12 @@ Su Ca 7.1884e-02 Cl 4.6662e-10 H 1.2947e-04 - Hto 5.8105e-08 - I 7.3057e-20 + Hto 5.8074e-08 + I 7.3043e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8134e-07 + Nat 1.8192e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -83731,12 +83723,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.924e-07 5.801e-08 + Hto 4.921e-07 5.798e-08 I 6.200e-07 7.304e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.086e-07 3.635e-08 + Nat 3.096e-07 3.647e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -83747,14 +83739,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.714e-09 + Electrical balance (eq) = 1.705e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -83768,8 +83760,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.359e-12 - CH4 2.359e-12 2.565e-12 -11.627 -11.591 0.036 35.46 +C(-4) 2.338e-12 + CH4 2.338e-12 2.541e-12 -11.631 -11.595 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -83793,10 +83785,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.017e-11 - H2 5.085e-12 5.528e-12 -11.294 -11.257 0.036 28.61 -Hto 4.924e-07 - Hto 4.924e-07 4.924e-07 -6.308 -6.308 0.000 (0) +H(0) 1.015e-11 + H2 5.073e-12 5.516e-12 -11.295 -11.258 0.036 28.61 +Hto 4.921e-07 + Hto 4.921e-07 4.921e-07 -6.308 -6.308 0.000 (0) I 6.200e-07 I- 6.200e-07 6.200e-07 -6.208 -6.208 -0.000 (0) K 1.540e-03 @@ -83814,15 +83806,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.086e-07 - Nat+ 3.086e-07 3.086e-07 -6.511 -6.511 -0.000 (0) +Nat 3.096e-07 + Nat+ 3.096e-07 3.096e-07 -6.509 -6.509 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.910 -69.874 0.036 30.40 -S(-2) 3.698e-09 - HS- 2.585e-09 1.702e-09 -8.587 -8.769 -0.182 21.14 - H2S 1.112e-09 1.209e-09 -8.954 -8.917 0.036 36.27 - S-2 1.049e-14 2.529e-15 -13.979 -14.597 -0.618 (0) - (H2S)2 7.090e-20 7.708e-20 -19.149 -19.113 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.908 -69.872 0.036 30.40 +S(-2) 3.664e-09 + HS- 2.562e-09 1.687e-09 -8.591 -8.773 -0.182 21.14 + H2S 1.102e-09 1.199e-09 -8.958 -8.921 0.036 36.27 + S-2 1.040e-14 2.506e-15 -13.983 -14.601 -0.618 (0) + (H2S)2 6.963e-20 7.570e-20 -19.157 -19.121 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -83856,7 +83848,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.16 -11.26 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.92 -15.86 -7.94 H2S + H2S(g) -7.93 -15.86 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -83887,7 +83879,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.089e-11 Surface + diffuse layer charge, eq + -9.087e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -83897,7 +83889,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -83906,14 +83898,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6642e-10 + Cl 4.6643e-10 H 1.2948e-04 - Hto 2.4562e-08 - I 2.7661e-20 + Hto 2.3874e-08 + I 2.7668e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8128e-08 + Nat 5.4945e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -83932,12 +83924,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.082e-07 2.452e-08 + Hto 2.023e-07 2.384e-08 I 2.348e-07 2.766e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.891e-08 1.165e-08 + Nat 9.349e-08 1.101e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -83955,7 +83947,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.803e-09 + Electrical balance (eq) = 4.769e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -83969,8 +83961,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.292e-11 - CH4 1.292e-11 1.405e-11 -10.889 -10.852 0.036 35.46 +C(-4) 1.290e-11 + CH4 1.290e-11 1.402e-11 -10.889 -10.853 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -83994,10 +83986,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) -H(0) 1.556e-11 - H2 7.780e-12 8.458e-12 -11.109 -11.073 0.036 28.61 -Hto 2.082e-07 - Hto 2.082e-07 2.082e-07 -6.682 -6.682 0.000 (0) +H(0) 1.555e-11 + H2 7.777e-12 8.455e-12 -11.109 -11.073 0.036 28.61 +Hto 2.023e-07 + Hto 2.023e-07 2.023e-07 -6.694 -6.694 0.000 (0) I 2.348e-07 I- 2.348e-07 2.348e-07 -6.629 -6.629 -0.000 (0) K 1.540e-03 @@ -84015,15 +84007,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.891e-08 - Nat+ 9.891e-08 9.891e-08 -7.005 -7.005 -0.000 (0) +Nat 9.349e-08 + Nat+ 9.349e-08 9.349e-08 -7.029 -7.029 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.280 -70.243 0.036 30.40 -S(-2) 2.025e-08 - HS- 1.416e-08 9.321e-09 -7.849 -8.031 -0.182 21.14 - H2S 6.090e-09 6.621e-09 -8.215 -8.179 0.036 36.27 - S-2 5.749e-14 1.386e-14 -13.240 -13.858 -0.618 (0) - (H2S)2 2.125e-18 2.310e-18 -17.673 -17.636 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.279 -70.243 0.036 30.40 +S(-2) 2.022e-08 + HS- 1.414e-08 9.307e-09 -7.850 -8.031 -0.182 21.14 + H2S 6.080e-09 6.611e-09 -8.216 -8.180 0.036 36.27 + S-2 5.740e-14 1.384e-14 -13.241 -13.859 -0.618 (0) + (H2S)2 2.118e-18 2.303e-18 -17.674 -17.638 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -84057,7 +84049,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.97 -11.07 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.18 -15.12 -7.94 H2S + H2S(g) -7.19 -15.12 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -84098,7 +84090,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -84107,14 +84099,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6636e-10 + Cl 4.6635e-10 H 1.2948e-04 - Hto 7.3254e-09 - I 7.2428e-21 + Hto 6.8812e-09 + I 7.2420e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1713e-08 + Nat 1.0379e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -84133,12 +84125,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.208e-08 7.314e-09 + Hto 5.832e-08 6.870e-09 I 6.146e-08 7.241e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.993e-08 2.348e-09 + Nat 1.766e-08 2.081e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -84156,7 +84148,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.876e-10 + Electrical balance (eq) = 1.877e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -84171,7 +84163,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.665e-11 - CH4 1.665e-11 1.811e-11 -10.778 -10.742 0.036 35.46 + CH4 1.665e-11 1.810e-11 -10.779 -10.742 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -84196,9 +84188,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.658e-11 - H2 8.290e-12 9.013e-12 -11.081 -11.045 0.036 28.61 -Hto 6.208e-08 - Hto 6.208e-08 6.208e-08 -7.207 -7.207 0.000 (0) + H2 8.289e-12 9.012e-12 -11.081 -11.045 0.036 28.61 +Hto 5.832e-08 + Hto 5.832e-08 5.832e-08 -7.234 -7.234 0.000 (0) I 6.146e-08 I- 6.146e-08 6.146e-08 -7.211 -7.211 -0.000 (0) K 1.540e-03 @@ -84216,15 +84208,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.993e-08 - Nat+ 1.993e-08 1.993e-08 -7.700 -7.700 -0.000 (0) +Nat 1.766e-08 + Nat+ 1.766e-08 1.766e-08 -7.753 -7.753 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.335 -70.299 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.335 -70.298 0.036 30.40 S(-2) 2.610e-08 - HS- 1.825e-08 1.202e-08 -7.739 -7.920 -0.182 21.14 - H2S 7.849e-09 8.534e-09 -8.105 -8.069 0.036 36.27 - S-2 7.412e-14 1.787e-14 -13.130 -13.748 -0.618 (0) - (H2S)2 3.530e-18 3.837e-18 -17.452 -17.416 0.036 30.09 + HS- 1.825e-08 1.201e-08 -7.739 -7.920 -0.182 21.14 + H2S 7.847e-09 8.532e-09 -8.105 -8.069 0.036 36.27 + S-2 7.410e-14 1.786e-14 -13.130 -13.748 -0.618 (0) + (H2S)2 3.528e-18 3.836e-18 -17.452 -17.416 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -84299,7 +84291,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -84310,12 +84302,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 1.6220e-09 - I 1.3905e-21 + Hto 1.4677e-09 + I 1.3903e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6585e-09 + Nat 1.3753e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -84334,12 +84326,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.375e-08 1.619e-09 + Hto 1.244e-08 1.465e-09 I 1.180e-08 1.390e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.822e-09 3.325e-10 + Nat 2.340e-09 2.757e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -84371,8 +84363,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.798e-11 - CH4 1.798e-11 1.955e-11 -10.745 -10.709 0.036 35.46 +C(-4) 1.799e-11 + CH4 1.799e-11 1.955e-11 -10.745 -10.709 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -84397,9 +84389,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.690e-11 - H2 8.450e-12 9.188e-12 -11.073 -11.037 0.036 28.61 -Hto 1.375e-08 - Hto 1.375e-08 1.375e-08 -7.862 -7.862 0.000 (0) + H2 8.451e-12 9.188e-12 -11.073 -11.037 0.036 28.61 +Hto 1.244e-08 + Hto 1.244e-08 1.244e-08 -7.905 -7.905 0.000 (0) I 1.180e-08 I- 1.180e-08 1.180e-08 -7.928 -7.928 -0.000 (0) K 1.540e-03 @@ -84417,15 +84409,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.822e-09 - Nat+ 2.822e-09 2.822e-09 -8.549 -8.549 -0.000 (0) +Nat 2.340e-09 + Nat+ 2.340e-09 2.340e-09 -8.631 -8.631 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.352 -70.315 0.036 30.40 -S(-2) 2.818e-08 - HS- 1.971e-08 1.297e-08 -7.705 -7.887 -0.182 21.14 - H2S 8.475e-09 9.214e-09 -8.072 -8.036 0.036 36.27 - S-2 8.003e-14 1.929e-14 -13.097 -13.715 -0.618 (0) - (H2S)2 4.115e-18 4.473e-18 -17.386 -17.349 0.036 30.09 +S(-2) 2.819e-08 + HS- 1.971e-08 1.298e-08 -7.705 -7.887 -0.182 21.14 + H2S 8.476e-09 9.216e-09 -8.072 -8.035 0.036 36.27 + S-2 8.005e-14 1.930e-14 -13.097 -13.715 -0.618 (0) + (H2S)2 4.116e-18 4.475e-18 -17.385 -17.349 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -84500,7 +84492,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -84511,12 +84503,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 2.7653e-10 - I 2.0400e-22 + Hto 2.4059e-10 + I 2.0403e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7546e-10 + Nat 1.3607e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -84535,12 +84527,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.344e-09 2.761e-10 + Hto 2.039e-09 2.402e-10 I 1.732e-09 2.040e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.986e-10 3.517e-11 + Nat 2.315e-10 2.728e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -84598,9 +84590,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.698e-11 - H2 8.490e-12 9.230e-12 -11.071 -11.035 0.036 28.61 -Hto 2.344e-09 - Hto 2.344e-09 2.344e-09 -8.630 -8.630 0.000 (0) + H2 8.490e-12 9.231e-12 -11.071 -11.035 0.036 28.61 +Hto 2.039e-09 + Hto 2.039e-09 2.039e-09 -8.691 -8.691 0.000 (0) I 1.732e-09 I- 1.732e-09 1.732e-09 -8.762 -8.762 -0.000 (0) K 1.540e-03 @@ -84618,15 +84610,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.986e-10 - Nat+ 2.986e-10 2.986e-10 -9.525 -9.525 -0.000 (0) +Nat 2.315e-10 + Nat+ 2.315e-10 2.315e-10 -9.635 -9.635 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.356 -70.319 0.036 30.40 S(-2) 2.871e-08 HS- 2.008e-08 1.322e-08 -7.697 -7.879 -0.182 21.14 - H2S 8.633e-09 9.386e-09 -8.064 -8.028 0.036 36.27 - S-2 8.153e-14 1.965e-14 -13.089 -13.707 -0.618 (0) - (H2S)2 4.270e-18 4.643e-18 -17.370 -17.333 0.036 30.09 + H2S 8.634e-09 9.387e-09 -8.064 -8.027 0.036 36.27 + S-2 8.154e-14 1.966e-14 -13.089 -13.707 -0.618 (0) + (H2S)2 4.271e-18 4.644e-18 -17.369 -17.333 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -84701,7 +84693,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -84712,12 +84704,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 3.7231e-11 + Hto 3.1110e-11 I 2.3533e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4395e-11 + Nat 1.0436e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -84736,12 +84728,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.155e-10 3.717e-11 + Hto 2.636e-10 3.106e-11 I 1.997e-10 2.353e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.450e-11 2.886e-12 + Nat 1.776e-11 2.092e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -84773,8 +84765,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.834e-11 - CH4 1.834e-11 1.994e-11 -10.737 -10.700 0.036 35.46 +C(-4) 1.835e-11 + CH4 1.835e-11 1.995e-11 -10.736 -10.700 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -84799,9 +84791,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.699e-11 - H2 8.493e-12 9.233e-12 -11.071 -11.035 0.036 28.61 -Hto 3.155e-10 - Hto 3.155e-10 3.155e-10 -9.501 -9.501 0.000 (0) + H2 8.493e-12 9.234e-12 -11.071 -11.035 0.036 28.61 +Hto 2.636e-10 + Hto 2.636e-10 2.636e-10 -9.579 -9.579 0.000 (0) I 1.997e-10 I- 1.997e-10 1.997e-10 -9.700 -9.700 -0.000 (0) K 1.540e-03 @@ -84819,15 +84811,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.450e-11 - Nat+ 2.450e-11 2.450e-11 -10.611 -10.611 -0.000 (0) +Nat 1.776e-11 + Nat+ 1.776e-11 1.776e-11 -10.751 -10.751 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.356 -70.320 0.036 30.40 S(-2) 2.875e-08 - HS- 2.010e-08 1.323e-08 -7.697 -7.878 -0.182 21.14 - H2S 8.644e-09 9.399e-09 -8.063 -8.027 0.036 36.27 - S-2 8.164e-14 1.968e-14 -13.088 -13.706 -0.618 (0) - (H2S)2 4.281e-18 4.655e-18 -17.368 -17.332 0.036 30.09 + HS- 2.011e-08 1.324e-08 -7.697 -7.878 -0.182 21.14 + H2S 8.645e-09 9.400e-09 -8.063 -8.027 0.036 36.27 + S-2 8.165e-14 1.968e-14 -13.088 -13.706 -0.618 (0) + (H2S)2 4.282e-18 4.656e-18 -17.368 -17.332 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -84892,7 +84884,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.162e-11 Surface + diffuse layer charge, eq + -9.163e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -84902,7 +84894,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -84913,12 +84905,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 4.0277e-12 + Hto 3.2300e-12 I 2.1738e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.3797e-13 + Nat 6.3561e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -84937,12 +84929,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.413e-11 4.021e-12 + Hto 2.737e-11 3.225e-12 I 1.845e-11 2.174e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.596e-12 1.880e-13 + Nat 1.082e-12 1.274e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -84974,8 +84966,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.815e-11 - CH4 1.815e-11 1.973e-11 -10.741 -10.705 0.036 35.46 +C(-4) 1.816e-11 + CH4 1.816e-11 1.974e-11 -10.741 -10.705 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -85000,9 +84992,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.694e-11 - H2 8.470e-12 9.209e-12 -11.072 -11.036 0.036 28.61 -Hto 3.413e-11 - Hto 3.413e-11 3.413e-11 -10.467 -10.467 0.000 (0) + H2 8.471e-12 9.210e-12 -11.072 -11.036 0.036 28.61 +Hto 2.737e-11 + Hto 2.737e-11 2.737e-11 -10.563 -10.563 0.000 (0) I 1.845e-11 I- 1.845e-11 1.845e-11 -10.734 -10.734 -0.000 (0) K 1.540e-03 @@ -85020,15 +85012,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.596e-12 - Nat+ 1.596e-12 1.596e-12 -11.797 -11.797 -0.000 (0) +Nat 1.082e-12 + Nat+ 1.082e-12 1.082e-12 -11.966 -11.966 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.354 -70.317 0.036 30.40 -S(-2) 2.845e-08 - HS- 1.989e-08 1.310e-08 -7.701 -7.883 -0.182 21.14 - H2S 8.554e-09 9.300e-09 -8.068 -8.031 0.036 36.27 - S-2 8.079e-14 1.947e-14 -13.093 -13.711 -0.618 (0) - (H2S)2 4.192e-18 4.558e-18 -17.378 -17.341 0.036 30.09 +S(-2) 2.846e-08 + HS- 1.990e-08 1.310e-08 -7.701 -7.883 -0.182 21.14 + H2S 8.557e-09 9.303e-09 -8.068 -8.031 0.036 36.27 + S-2 8.081e-14 1.948e-14 -13.093 -13.710 -0.618 (0) + (H2S)2 4.195e-18 4.561e-18 -17.377 -17.341 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -85093,7 +85085,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.148e-11 Surface + diffuse layer charge, eq + -9.152e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -85103,7 +85095,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -85114,12 +85106,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 3.5417e-13 + Hto 2.7246e-13 I 1.6282e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9282e-14 + Nat 3.1212e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -85138,12 +85130,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.001e-12 3.536e-13 + Hto 2.309e-12 2.720e-13 I 1.382e-12 1.628e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.386e-14 9.879e-15 + Nat 5.311e-14 6.257e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -85161,7 +85153,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.999e-10 + Electrical balance (eq) = 2.257e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -85202,8 +85194,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.682e-11 H2 8.411e-12 9.145e-12 -11.075 -11.039 0.036 28.61 -Hto 3.001e-12 - Hto 3.001e-12 3.001e-12 -11.523 -11.523 0.000 (0) +Hto 2.309e-12 + Hto 2.309e-12 2.309e-12 -11.637 -11.637 0.000 (0) I 1.382e-12 I- 1.382e-12 1.382e-12 -11.859 -11.859 -0.000 (0) K 1.540e-03 @@ -85221,15 +85213,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.386e-14 - Nat+ 8.386e-14 8.386e-14 -13.076 -13.076 -0.000 (0) +Nat 5.311e-14 + Nat+ 5.311e-14 5.311e-14 -13.275 -13.275 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.347 -70.311 0.036 30.40 S(-2) 2.766e-08 - HS- 1.934e-08 1.273e-08 -7.714 -7.895 -0.182 21.14 - H2S 8.317e-09 9.043e-09 -8.080 -8.044 0.036 36.27 - S-2 7.854e-14 1.893e-14 -13.105 -13.723 -0.618 (0) - (H2S)2 3.963e-18 4.309e-18 -17.402 -17.366 0.036 30.09 + HS- 1.935e-08 1.274e-08 -7.713 -7.895 -0.182 21.14 + H2S 8.319e-09 9.045e-09 -8.080 -8.044 0.036 36.27 + S-2 7.856e-14 1.894e-14 -13.105 -13.723 -0.618 (0) + (H2S)2 3.965e-18 4.311e-18 -17.402 -17.365 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -85294,7 +85286,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.139e-11 Surface + diffuse layer charge, eq + -9.140e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -85304,7 +85296,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -85315,12 +85307,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 2.5488e-14 - I 9.9665e-27 + Hto 1.8803e-14 + I 9.9680e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1071e-15 + Nat 1.2472e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -85339,12 +85331,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.160e-13 2.545e-14 + Hto 1.594e-13 1.877e-14 I 8.460e-14 9.966e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.585e-15 4.224e-16 + Nat 2.122e-15 2.500e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -85362,7 +85354,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.497e-10 + Electrical balance (eq) = 6.651e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -85402,9 +85394,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.677e-11 - H2 8.384e-12 9.116e-12 -11.077 -11.040 0.036 28.61 -Hto 2.160e-13 - Hto 2.160e-13 2.160e-13 -12.666 -12.666 0.000 (0) + H2 8.385e-12 9.116e-12 -11.077 -11.040 0.036 28.61 +Hto 1.594e-13 + Hto 1.594e-13 1.594e-13 -12.798 -12.798 0.000 (0) I 8.460e-14 I- 8.460e-14 8.460e-14 -13.073 -13.073 -0.000 (0) K 1.540e-03 @@ -85422,15 +85414,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.585e-15 - Nat+ 3.585e-15 3.585e-15 -14.445 -14.445 -0.000 (0) +Nat 2.122e-15 + Nat+ 2.122e-15 2.122e-15 -14.673 -14.673 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.345 -70.308 0.036 30.40 S(-2) 2.731e-08 HS- 1.910e-08 1.257e-08 -7.719 -7.901 -0.182 21.14 - H2S 8.213e-09 8.930e-09 -8.085 -8.049 0.036 36.27 - S-2 7.756e-14 1.870e-14 -13.110 -13.728 -0.618 (0) - (H2S)2 3.865e-18 4.202e-18 -17.413 -17.377 0.036 30.09 + H2S 8.214e-09 8.930e-09 -8.085 -8.049 0.036 36.27 + S-2 7.757e-14 1.870e-14 -13.110 -13.728 -0.618 (0) + (H2S)2 3.865e-18 4.202e-18 -17.413 -17.376 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -85505,7 +85497,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -85516,12 +85508,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 1.5056e-15 - I 5.0014e-28 + Hto 1.0648e-15 + I 5.0024e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.3636e-17 + Nat 4.0733e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -85540,12 +85532,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.276e-14 1.503e-15 + Hto 9.024e-15 1.063e-15 I 4.245e-15 5.001e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.253e-16 1.476e-17 + Nat 6.931e-17 8.166e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -85563,7 +85555,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.935e-10 + Electrical balance (eq) = 2.910e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -85604,8 +85596,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.676e-11 H2 8.379e-12 9.110e-12 -11.077 -11.040 0.036 28.61 -Hto 1.276e-14 - Hto 1.276e-14 1.276e-14 -13.894 -13.894 0.000 (0) +Hto 9.024e-15 + Hto 9.024e-15 9.024e-15 -14.045 -14.045 0.000 (0) I 4.245e-15 I- 4.245e-15 4.245e-15 -14.372 -14.372 -0.000 (0) K 1.540e-03 @@ -85623,15 +85615,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.253e-16 - Nat+ 1.253e-16 1.253e-16 -15.902 -15.902 -0.000 (0) +Nat 6.931e-17 + Nat+ 6.931e-17 6.931e-17 -16.159 -16.159 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.344 -70.308 0.036 30.40 S(-2) 2.724e-08 HS- 1.905e-08 1.254e-08 -7.720 -7.902 -0.182 21.14 H2S 8.191e-09 8.906e-09 -8.087 -8.050 0.036 36.27 S-2 7.735e-14 1.865e-14 -13.112 -13.729 -0.618 (0) - (H2S)2 3.844e-18 4.179e-18 -17.415 -17.379 0.036 30.09 + (H2S)2 3.844e-18 4.180e-18 -17.415 -17.379 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -85706,7 +85698,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -85717,12 +85709,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 7.2935e-17 - I 2.0557e-29 + Hto 4.9446e-17 + I 2.0560e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1038e-18 + Nat 1.0876e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -85741,12 +85733,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.181e-16 7.282e-17 + Hto 4.190e-16 4.937e-17 I 1.745e-16 2.056e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.580e-18 4.217e-19 + Nat 1.851e-18 2.180e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -85805,8 +85797,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.676e-11 H2 8.379e-12 9.110e-12 -11.077 -11.040 0.036 28.61 -Hto 6.181e-16 - Hto 6.181e-16 6.181e-16 -15.209 -15.209 0.000 (0) +Hto 4.190e-16 + Hto 4.190e-16 4.190e-16 -15.378 -15.378 0.000 (0) I 1.745e-16 I- 1.745e-16 1.745e-16 -15.758 -15.758 -0.000 (0) K 1.540e-03 @@ -85824,8 +85816,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.580e-18 - Nat+ 3.580e-18 3.580e-18 -17.446 -17.446 -0.000 (0) +Nat 1.851e-18 + Nat+ 1.851e-18 1.851e-18 -17.733 -17.733 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.344 -70.308 0.036 30.40 S(-2) 2.725e-08 @@ -85897,7 +85889,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.141e-11 Surface + diffuse layer charge, eq + -9.140e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -85907,7 +85899,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -85918,12 +85910,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 2.8841e-18 - I 6.8948e-31 + Hto 1.8740e-18 + I 6.8939e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8942e-20 + Nat 2.3645e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -85942,12 +85934,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.444e-17 2.879e-18 + Hto 1.588e-17 1.871e-18 I 5.852e-18 6.894e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.328e-20 9.811e-21 + Nat 4.023e-20 4.740e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -85965,7 +85957,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.771e-09 + Electrical balance (eq) = 1.604e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -85980,7 +85972,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.752e-11 - CH4 1.752e-11 1.905e-11 -10.757 -10.720 0.036 35.46 + CH4 1.752e-11 1.904e-11 -10.757 -10.720 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -86005,9 +85997,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.679e-11 - H2 8.395e-12 9.128e-12 -11.076 -11.040 0.036 28.61 -Hto 2.444e-17 - Hto 2.444e-17 2.444e-17 -16.612 -16.612 0.000 (0) + H2 8.395e-12 9.127e-12 -11.076 -11.040 0.036 28.61 +Hto 1.588e-17 + Hto 1.588e-17 1.588e-17 -16.799 -16.799 0.000 (0) I 5.852e-18 I- 5.852e-18 5.852e-18 -17.233 -17.233 -0.000 (0) K 1.540e-03 @@ -86025,15 +86017,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.328e-20 - Nat+ 8.328e-20 8.328e-20 -19.079 -19.079 -0.000 (0) +Nat 4.023e-20 + Nat+ 4.023e-20 4.023e-20 -19.395 -19.395 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.346 -70.310 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.346 -70.309 0.036 30.40 S(-2) 2.745e-08 HS- 1.920e-08 1.264e-08 -7.717 -7.898 -0.182 21.14 - H2S 8.256e-09 8.976e-09 -8.083 -8.047 0.036 36.27 - S-2 7.796e-14 1.879e-14 -13.108 -13.726 -0.618 (0) - (H2S)2 3.905e-18 4.246e-18 -17.408 -17.372 0.036 30.09 + H2S 8.255e-09 8.975e-09 -8.083 -8.047 0.036 36.27 + S-2 7.795e-14 1.879e-14 -13.108 -13.726 -0.618 (0) + (H2S)2 3.904e-18 4.244e-18 -17.408 -17.372 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -86108,7 +86100,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -86119,12 +86111,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 9.2248e-20 + Hto 5.7438e-20 I 1.8688e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1908e-22 + Nat 4.1491e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -86143,12 +86135,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.818e-19 9.210e-20 + Hto 4.868e-19 5.735e-20 I 1.586e-19 1.869e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.564e-21 1.842e-22 + Nat 7.060e-22 8.318e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -86166,7 +86158,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.877e-10 + Electrical balance (eq) = 1.878e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -86180,8 +86172,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.821e-11 - CH4 1.821e-11 1.980e-11 -10.740 -10.703 0.036 35.46 +C(-4) 1.822e-11 + CH4 1.822e-11 1.980e-11 -10.740 -10.703 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -86205,10 +86197,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) -H(0) 1.695e-11 - H2 8.477e-12 9.217e-12 -11.072 -11.035 0.036 28.61 -Hto 7.818e-19 - Hto 7.818e-19 7.818e-19 -18.107 -18.107 0.000 (0) +H(0) 1.696e-11 + H2 8.478e-12 9.217e-12 -11.072 -11.035 0.036 28.61 +Hto 4.868e-19 + Hto 4.868e-19 4.868e-19 -18.313 -18.313 0.000 (0) I 1.586e-19 I- 1.586e-19 1.586e-19 -18.800 -18.800 -0.000 (0) K 1.540e-03 @@ -86226,15 +86218,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.564e-21 - Nat+ 1.564e-21 1.564e-21 -20.806 -20.806 -0.000 (0) +Nat 7.060e-22 + Nat+ 7.060e-22 7.060e-22 -21.151 -21.151 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.354 -70.318 0.036 30.40 -S(-2) 2.854e-08 +S(-2) 2.855e-08 HS- 1.996e-08 1.314e-08 -7.700 -7.881 -0.182 21.14 - H2S 8.583e-09 9.332e-09 -8.066 -8.030 0.036 36.27 - S-2 8.106e-14 1.954e-14 -13.091 -13.709 -0.618 (0) - (H2S)2 4.221e-18 4.589e-18 -17.375 -17.338 0.036 30.09 + H2S 8.584e-09 9.333e-09 -8.066 -8.030 0.036 36.27 + S-2 8.107e-14 1.954e-14 -13.091 -13.709 -0.618 (0) + (H2S)2 4.222e-18 4.590e-18 -17.374 -17.338 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -86309,7 +86301,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -86320,12 +86312,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2948e-04 - Hto 2.3510e-21 - I 4.0343e-34 + Hto 1.4027e-21 + I 4.0334e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3686e-23 + Nat 5.6783e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -86344,12 +86336,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.992e-20 2.347e-21 + Hto 1.189e-20 1.400e-21 I 3.424e-21 4.033e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.329e-23 2.744e-24 + Nat 9.662e-24 1.138e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -86408,8 +86400,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.699e-11 H2 8.497e-12 9.238e-12 -11.071 -11.034 0.036 28.61 -Hto 1.992e-20 - Hto 1.992e-20 1.992e-20 -19.701 -19.701 0.000 (0) +Hto 1.189e-20 + Hto 1.189e-20 1.189e-20 -19.925 -19.925 0.000 (0) I 3.424e-21 I- 3.424e-21 3.424e-21 -20.466 -20.466 -0.000 (0) K 1.540e-03 @@ -86427,15 +86419,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.329e-23 - Nat+ 2.329e-23 2.329e-23 -22.633 -22.633 -0.000 (0) +Nat 9.662e-24 + Nat+ 9.662e-24 9.662e-24 -23.015 -23.015 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.356 -70.320 0.036 30.40 S(-2) 2.880e-08 HS- 2.014e-08 1.326e-08 -7.696 -7.877 -0.182 21.14 - H2S 8.661e-09 9.416e-09 -8.062 -8.026 0.036 36.27 - S-2 8.179e-14 1.972e-14 -13.087 -13.705 -0.618 (0) - (H2S)2 4.297e-18 4.672e-18 -17.367 -17.330 0.036 30.09 + H2S 8.661e-09 9.417e-09 -8.062 -8.026 0.036 36.27 + S-2 8.180e-14 1.972e-14 -13.087 -13.705 -0.618 (0) + (H2S)2 4.298e-18 4.673e-18 -17.367 -17.330 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -86510,7 +86502,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -86521,12 +86513,11 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 4.6631e-23 + Hto 2.6657e-23 I 6.7415e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0353e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -86545,12 +86536,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.952e-22 4.656e-23 + Hto 2.259e-22 2.661e-23 I 5.723e-23 6.742e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.762e-25 2.075e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -86609,8 +86599,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.700e-11 H2 8.498e-12 9.240e-12 -11.071 -11.034 0.036 28.61 -Hto 3.952e-22 - Hto 3.952e-22 3.952e-22 -21.403 -21.403 0.000 (0) +Hto 2.259e-22 + Hto 2.259e-22 2.259e-22 -21.646 -21.646 0.000 (0) I 5.723e-23 I- 5.723e-23 5.723e-23 -22.242 -22.242 -0.000 (0) K 1.540e-03 @@ -86628,8 +86618,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.762e-25 - Nat+ 1.762e-25 1.762e-25 -24.754 -24.754 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.356 -70.320 0.036 30.40 S(-2) 2.883e-08 @@ -86711,7 +86699,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -86722,7 +86710,7 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 6.8089e-25 + Hto 3.4344e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -86744,7 +86732,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.770e-24 6.798e-25 + Hto 2.911e-24 3.429e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -86806,8 +86794,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.700e-11 H2 8.499e-12 9.240e-12 -11.071 -11.034 0.036 28.61 -Hto 5.770e-24 - Hto 5.770e-24 5.770e-24 -23.239 -23.239 0.000 (0) +Hto 2.911e-24 + Hto 2.911e-24 2.911e-24 -23.536 -23.536 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -86904,7 +86892,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -87093,7 +87081,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -87145,7 +87133,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.873e-10 + Electrical balance (eq) = 1.872e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -87282,7 +87270,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -87334,7 +87322,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.872e-10 + Electrical balance (eq) = 1.873e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -87471,7 +87459,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -87949,30 +87937,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.255e-07 3.128e-07 + Hto 6.309e-07 3.155e-07 I 7.762e-07 3.881e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.848e-07 1.924e-07 + Nat 3.947e-07 1.974e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.940 Adjusted to redox equilibrium + pe = -2.939 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -87986,8 +87974,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.966e-13 - CH4 3.966e-13 4.312e-13 -12.402 -12.365 0.036 35.46 +C(-4) 3.905e-13 + CH4 3.905e-13 4.246e-13 -12.408 -12.372 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -88011,10 +87999,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.512e-12 - H2 3.256e-12 3.540e-12 -11.487 -11.451 0.036 28.61 -Hto 6.255e-07 - Hto 6.255e-07 6.255e-07 -6.204 -6.204 0.000 (0) +H(0) 6.487e-12 + H2 3.243e-12 3.526e-12 -11.489 -11.453 0.036 28.61 +Hto 6.309e-07 + Hto 6.309e-07 6.309e-07 -6.200 -6.200 0.000 (0) I 7.762e-07 I- 7.762e-07 7.762e-07 -6.110 -6.110 -0.000 (0) K 1.540e-03 @@ -88032,15 +88020,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.848e-07 - Nat+ 3.848e-07 3.848e-07 -6.415 -6.415 -0.000 (0) +Nat 3.947e-07 + Nat+ 3.947e-07 3.947e-07 -6.404 -6.404 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.523 -69.487 0.036 30.40 -S(-2) 6.217e-10 - HS- 4.347e-10 2.861e-10 -9.362 -9.543 -0.182 21.14 - H2S 1.870e-10 2.034e-10 -9.728 -9.692 0.036 36.27 - S-2 1.764e-15 4.252e-16 -14.754 -15.371 -0.618 (0) - (H2S)2 2.004e-21 2.179e-21 -20.698 -20.662 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.520 -69.483 0.036 30.40 +S(-2) 6.122e-10 + HS- 4.280e-10 2.818e-10 -9.369 -9.550 -0.182 21.14 + H2S 1.842e-10 2.002e-10 -9.735 -9.698 0.036 36.27 + S-2 1.737e-15 4.187e-16 -14.760 -15.378 -0.618 (0) + (H2S)2 1.943e-21 2.113e-21 -20.711 -20.675 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -88067,21 +88055,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.56 -12.37 -2.80 CH4 + CH4(g) -9.57 -12.37 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.35 -11.45 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.70 -16.63 -7.94 H2S + H2S(g) -8.70 -16.64 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.59 -69.49 -2.89 O2 + O2(g) -66.59 -69.48 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.27 -1.39 4.88 S + Sulfur -6.28 -1.40 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -88105,7 +88093,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.280e-13 Surface + diffuse layer charge, eq + -1.270e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -88115,7 +88103,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -88126,12 +88114,12 @@ Su Ca 7.1884e-02 Cl 4.6662e-10 H 1.2947e-04 - Hto 5.8080e-08 - I 7.3268e-20 + Hto 5.8085e-08 + I 7.3295e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8054e-07 + Nat 1.8139e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -88155,7 +88143,7 @@ Su K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.072e-07 3.619e-08 + Nat 3.086e-07 3.636e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -88166,14 +88154,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.707e-09 + Electrical balance (eq) = 1.698e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -88187,8 +88175,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.635e-12 - CH4 2.635e-12 2.865e-12 -11.579 -11.543 0.036 35.46 +C(-4) 2.610e-12 + CH4 2.610e-12 2.837e-12 -11.583 -11.547 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -88212,8 +88200,8 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.046e-11 - H2 5.228e-12 5.684e-12 -11.282 -11.245 0.036 28.61 +H(0) 1.043e-11 + H2 5.215e-12 5.670e-12 -11.283 -11.246 0.036 28.61 Hto 4.922e-07 Hto 4.922e-07 4.922e-07 -6.308 -6.308 0.000 (0) I 6.220e-07 @@ -88233,15 +88221,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.072e-07 - Nat+ 3.072e-07 3.072e-07 -6.513 -6.513 -0.000 (0) +Nat 3.086e-07 + Nat+ 3.086e-07 3.086e-07 -6.511 -6.511 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.934 -69.898 0.036 30.40 -S(-2) 4.130e-09 - HS- 2.888e-09 1.901e-09 -8.539 -8.721 -0.182 21.14 - H2S 1.243e-09 1.351e-09 -8.906 -8.869 0.036 36.27 - S-2 1.172e-14 2.825e-15 -13.931 -14.549 -0.618 (0) - (H2S)2 8.845e-20 9.617e-20 -19.053 -19.017 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.932 -69.896 0.036 30.40 +S(-2) 4.091e-09 + HS- 2.860e-09 1.883e-09 -8.544 -8.725 -0.182 21.14 + H2S 1.231e-09 1.338e-09 -8.910 -8.874 0.036 36.27 + S-2 1.161e-14 2.798e-15 -13.935 -14.553 -0.618 (0) + (H2S)2 8.678e-20 9.435e-20 -19.062 -19.025 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -88268,21 +88256,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.74 -11.54 -2.80 CH4 + CH4(g) -8.75 -11.55 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.14 -11.25 -3.10 H2 + H2(g) -8.15 -11.25 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.87 -15.81 -7.94 H2S + H2S(g) -7.88 -15.82 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.01 -69.90 -2.89 O2 + O2(g) -67.00 -69.90 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.66 -0.77 4.88 S + Sulfur -5.66 -0.78 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -88306,7 +88294,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.109e-11 Surface + diffuse layer charge, eq + -9.107e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -88316,7 +88304,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -88327,12 +88315,12 @@ Su Ca 7.1884e-02 Cl 4.6641e-10 H 1.2948e-04 - Hto 2.5431e-08 + Hto 2.4757e-08 I 2.8809e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0619e-08 + Nat 5.7455e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -88351,12 +88339,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.155e-07 2.539e-08 + Hto 2.098e-07 2.472e-08 I 2.445e-07 2.881e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.032e-07 1.215e-08 + Nat 9.777e-08 1.152e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -88374,7 +88362,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.712e-09 + Electrical balance (eq) = 4.678e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -88388,8 +88376,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.368e-11 - CH4 1.368e-11 1.487e-11 -10.864 -10.828 0.036 35.46 +C(-4) 1.366e-11 + CH4 1.366e-11 1.486e-11 -10.864 -10.828 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -88414,9 +88402,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.578e-11 - H2 7.892e-12 8.580e-12 -11.103 -11.067 0.036 28.61 -Hto 2.155e-07 - Hto 2.155e-07 2.155e-07 -6.667 -6.667 0.000 (0) + H2 7.890e-12 8.578e-12 -11.103 -11.067 0.036 28.61 +Hto 2.098e-07 + Hto 2.098e-07 2.098e-07 -6.678 -6.678 0.000 (0) I 2.445e-07 I- 2.445e-07 2.445e-07 -6.612 -6.612 -0.000 (0) K 1.540e-03 @@ -88434,15 +88422,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.032e-07 - Nat+ 1.032e-07 1.032e-07 -6.987 -6.987 -0.000 (0) +Nat 9.777e-08 + Nat+ 9.777e-08 9.777e-08 -7.010 -7.010 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.292 -70.256 0.036 30.40 -S(-2) 2.144e-08 - HS- 1.499e-08 9.869e-09 -7.824 -8.006 -0.182 21.14 - H2S 6.448e-09 7.010e-09 -8.191 -8.154 0.036 36.27 - S-2 6.087e-14 1.467e-14 -13.216 -13.833 -0.618 (0) - (H2S)2 2.382e-18 2.589e-18 -17.623 -17.587 0.036 30.09 +S(-2) 2.142e-08 + HS- 1.498e-08 9.859e-09 -7.825 -8.006 -0.182 21.14 + H2S 6.441e-09 7.003e-09 -8.191 -8.155 0.036 36.27 + S-2 6.081e-14 1.466e-14 -13.216 -13.834 -0.618 (0) + (H2S)2 2.377e-18 2.584e-18 -17.624 -17.588 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -88517,7 +88505,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -88528,12 +88516,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 7.9402e-09 - I 7.9095e-21 + Hto 7.4752e-09 + I 7.9078e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2893e-08 + Nat 1.1462e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -88552,12 +88540,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.729e-08 7.927e-09 + Hto 6.335e-08 7.463e-09 I 6.713e-08 7.908e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.194e-08 2.585e-09 + Nat 1.950e-08 2.298e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -88575,7 +88563,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.587e-11 + Electrical balance (eq) = 9.599e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -88616,8 +88604,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.680e-11 H2 8.401e-12 9.134e-12 -11.076 -11.039 0.036 28.61 -Hto 6.729e-08 - Hto 6.729e-08 6.729e-08 -7.172 -7.172 0.000 (0) +Hto 6.335e-08 + Hto 6.335e-08 6.335e-08 -7.198 -7.198 0.000 (0) I 6.713e-08 I- 6.713e-08 6.713e-08 -7.173 -7.173 -0.000 (0) K 1.540e-03 @@ -88635,15 +88623,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.194e-08 - Nat+ 2.194e-08 2.194e-08 -7.659 -7.659 -0.000 (0) +Nat 1.950e-08 + Nat+ 1.950e-08 1.950e-08 -7.710 -7.710 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.346 -70.310 0.036 30.40 S(-2) 2.753e-08 HS- 1.925e-08 1.267e-08 -7.716 -7.897 -0.182 21.14 - H2S 8.279e-09 9.001e-09 -8.082 -8.046 0.036 36.27 - S-2 7.818e-14 1.885e-14 -13.107 -13.725 -0.618 (0) - (H2S)2 3.927e-18 4.270e-18 -17.406 -17.370 0.036 30.09 + H2S 8.278e-09 9.001e-09 -8.082 -8.046 0.036 36.27 + S-2 7.818e-14 1.884e-14 -13.107 -13.725 -0.618 (0) + (H2S)2 3.926e-18 4.269e-18 -17.406 -17.370 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -88708,7 +88696,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.211e-11 Surface + diffuse layer charge, eq + -9.210e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -88718,7 +88706,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -88729,12 +88717,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 1.8543e-09 + Hto 1.6824e-09 I 1.6039e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9366e-09 + Nat 1.6118e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -88753,12 +88741,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.571e-08 1.851e-09 + Hto 1.426e-08 1.680e-09 I 1.361e-08 1.604e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.295e-09 3.882e-10 + Nat 2.743e-09 3.231e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -88776,7 +88764,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.444e-11 + Electrical balance (eq) = 9.445e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -88791,7 +88779,7 @@ Su H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.896e-11 - CH4 1.896e-11 2.061e-11 -10.722 -10.686 0.036 35.46 + CH4 1.896e-11 2.062e-11 -10.722 -10.686 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -88817,8 +88805,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.713e-11 H2 8.563e-12 9.310e-12 -11.067 -11.031 0.036 28.61 -Hto 1.571e-08 - Hto 1.571e-08 1.571e-08 -7.804 -7.804 0.000 (0) +Hto 1.426e-08 + Hto 1.426e-08 1.426e-08 -7.846 -7.846 0.000 (0) I 1.361e-08 I- 1.361e-08 1.361e-08 -7.866 -7.866 -0.000 (0) K 1.540e-03 @@ -88836,15 +88824,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.295e-09 - Nat+ 3.295e-09 3.295e-09 -8.482 -8.482 -0.000 (0) +Nat 2.743e-09 + Nat+ 2.743e-09 2.743e-09 -8.562 -8.562 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.363 -70.327 0.036 30.40 -S(-2) 2.971e-08 +S(-2) 2.972e-08 HS- 2.078e-08 1.368e-08 -7.682 -7.864 -0.182 21.14 - H2S 8.934e-09 9.714e-09 -8.049 -8.013 0.036 36.27 - S-2 8.438e-14 2.034e-14 -13.074 -13.692 -0.618 (0) - (H2S)2 4.573e-18 4.972e-18 -17.340 -17.303 0.036 30.09 + H2S 8.936e-09 9.716e-09 -8.049 -8.013 0.036 36.27 + S-2 8.440e-14 2.034e-14 -13.074 -13.692 -0.618 (0) + (H2S)2 4.575e-18 4.974e-18 -17.340 -17.303 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -88919,7 +88907,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -88930,12 +88918,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 3.3550e-10 - I 2.5007e-22 + Hto 2.9279e-10 + I 2.5012e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1835e-10 + Nat 1.6998e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -88954,12 +88942,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.843e-09 3.350e-10 + Hto 2.481e-09 2.923e-10 I 2.123e-09 2.501e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.715e-10 4.377e-11 + Nat 2.892e-10 3.408e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -88977,7 +88965,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.521e-11 + Electrical balance (eq) = 9.523e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -88992,7 +88980,7 @@ Su H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.933e-11 - CH4 1.933e-11 2.101e-11 -10.714 -10.678 0.036 35.46 + CH4 1.933e-11 2.101e-11 -10.714 -10.677 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -89018,8 +89006,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.721e-11 H2 8.604e-12 9.355e-12 -11.065 -11.029 0.036 28.61 -Hto 2.843e-09 - Hto 2.843e-09 2.843e-09 -8.546 -8.546 0.000 (0) +Hto 2.481e-09 + Hto 2.481e-09 2.481e-09 -8.605 -8.605 0.000 (0) I 2.123e-09 I- 2.123e-09 2.123e-09 -8.673 -8.673 -0.000 (0) K 1.540e-03 @@ -89037,15 +89025,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.715e-10 - Nat+ 3.715e-10 3.715e-10 -9.430 -9.430 -0.000 (0) +Nat 2.892e-10 + Nat+ 2.892e-10 2.892e-10 -9.539 -9.539 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.367 -70.331 0.036 30.40 S(-2) 3.029e-08 HS- 2.118e-08 1.394e-08 -7.674 -7.856 -0.182 21.14 - H2S 9.107e-09 9.902e-09 -8.041 -8.004 0.036 36.27 - S-2 8.601e-14 2.073e-14 -13.065 -13.683 -0.618 (0) - (H2S)2 4.752e-18 5.166e-18 -17.323 -17.287 0.036 30.09 + H2S 9.108e-09 9.903e-09 -8.041 -8.004 0.036 36.27 + S-2 8.602e-14 2.074e-14 -13.065 -13.683 -0.618 (0) + (H2S)2 4.753e-18 5.167e-18 -17.323 -17.287 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -89120,7 +89108,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -89131,12 +89119,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 4.8217e-11 + Hto 4.0425e-11 I 3.0819e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9184e-11 + Nat 1.3964e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -89155,12 +89143,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.086e-10 4.814e-11 + Hto 3.426e-10 4.036e-11 I 2.616e-10 3.082e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.264e-11 3.846e-12 + Nat 2.376e-11 2.799e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -89192,8 +89180,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.935e-11 - CH4 1.935e-11 2.104e-11 -10.713 -10.677 0.036 35.46 +C(-4) 1.936e-11 + CH4 1.936e-11 2.104e-11 -10.713 -10.677 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -89217,10 +89205,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) -H(0) 1.721e-11 - H2 8.607e-12 9.358e-12 -11.065 -11.029 0.036 28.61 -Hto 4.086e-10 - Hto 4.086e-10 4.086e-10 -9.389 -9.389 0.000 (0) +H(0) 1.722e-11 + H2 8.608e-12 9.358e-12 -11.065 -11.029 0.036 28.61 +Hto 3.426e-10 + Hto 3.426e-10 3.426e-10 -9.465 -9.465 0.000 (0) I 2.616e-10 I- 2.616e-10 2.616e-10 -9.582 -9.582 -0.000 (0) K 1.540e-03 @@ -89238,15 +89226,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.264e-11 - Nat+ 3.264e-11 3.264e-11 -10.486 -10.486 -0.000 (0) +Nat 2.376e-11 + Nat+ 2.376e-11 2.376e-11 -10.624 -10.624 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.367 -70.331 0.036 30.40 -S(-2) 3.033e-08 + O2 0.000e+00 0.000e+00 -70.368 -70.331 0.036 30.40 +S(-2) 3.034e-08 HS- 2.121e-08 1.396e-08 -7.673 -7.855 -0.182 21.14 - H2S 9.120e-09 9.916e-09 -8.040 -8.004 0.036 36.27 - S-2 8.614e-14 2.076e-14 -13.065 -13.683 -0.618 (0) - (H2S)2 4.766e-18 5.181e-18 -17.322 -17.286 0.036 30.09 + H2S 9.122e-09 9.917e-09 -8.040 -8.004 0.036 36.27 + S-2 8.615e-14 2.077e-14 -13.065 -13.683 -0.618 (0) + (H2S)2 4.767e-18 5.183e-18 -17.322 -17.285 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -89273,7 +89261,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.88 -10.68 -2.80 CH4 + CH4(g) -7.87 -10.68 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -89321,7 +89309,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -89332,12 +89320,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 5.6018e-12 + Hto 4.5084e-12 I 3.0599e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3458e-12 + Nat 9.1570e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -89356,12 +89344,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.747e-11 5.593e-12 + Hto 3.821e-11 4.501e-12 I 2.597e-11 3.059e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.290e-12 2.698e-13 + Nat 1.558e-12 1.836e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -89379,7 +89367,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.574e-11 + Electrical balance (eq) = 9.573e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -89419,9 +89407,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.717e-11 - H2 8.585e-12 9.334e-12 -11.066 -11.030 0.036 28.61 -Hto 4.747e-11 - Hto 4.747e-11 4.747e-11 -10.324 -10.324 0.000 (0) + H2 8.586e-12 9.335e-12 -11.066 -11.030 0.036 28.61 +Hto 3.821e-11 + Hto 3.821e-11 3.821e-11 -10.418 -10.418 0.000 (0) I 2.597e-11 I- 2.597e-11 2.597e-11 -10.586 -10.586 -0.000 (0) K 1.540e-03 @@ -89439,15 +89427,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.290e-12 - Nat+ 2.290e-12 2.290e-12 -11.640 -11.640 -0.000 (0) +Nat 1.558e-12 + Nat+ 1.558e-12 1.558e-12 -11.807 -11.807 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.365 -70.329 0.036 30.40 -S(-2) 3.002e-08 - HS- 2.100e-08 1.382e-08 -7.678 -7.859 -0.182 21.14 - H2S 9.028e-09 9.816e-09 -8.044 -8.008 0.036 36.27 - S-2 8.527e-14 2.055e-14 -13.069 -13.687 -0.618 (0) - (H2S)2 4.670e-18 5.077e-18 -17.331 -17.294 0.036 30.09 +S(-2) 3.003e-08 + HS- 2.100e-08 1.383e-08 -7.678 -7.859 -0.182 21.14 + H2S 9.031e-09 9.818e-09 -8.044 -8.008 0.036 36.27 + S-2 8.529e-14 2.056e-14 -13.069 -13.687 -0.618 (0) + (H2S)2 4.672e-18 5.080e-18 -17.330 -17.294 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -89512,7 +89500,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.177e-11 Surface + diffuse layer charge, eq + -9.181e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -89522,7 +89510,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -89533,12 +89521,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 5.3247e-13 + Hto 4.1116e-13 I 2.4794e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.6585e-14 + Nat 4.8707e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -89557,12 +89545,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.512e-12 5.316e-13 + Hto 3.484e-12 4.105e-13 I 2.104e-12 2.479e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.303e-13 1.535e-14 + Nat 8.288e-14 9.764e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -89580,7 +89568,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.084e-10 + Electrical balance (eq) = 2.165e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -89620,9 +89608,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.706e-11 - H2 8.531e-12 9.276e-12 -11.069 -11.033 0.036 28.61 -Hto 4.512e-12 - Hto 4.512e-12 4.512e-12 -11.346 -11.346 0.000 (0) + H2 8.532e-12 9.276e-12 -11.069 -11.033 0.036 28.61 +Hto 3.484e-12 + Hto 3.484e-12 3.484e-12 -11.458 -11.458 0.000 (0) I 2.104e-12 I- 2.104e-12 2.104e-12 -11.677 -11.677 -0.000 (0) K 1.540e-03 @@ -89640,15 +89628,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.303e-13 - Nat+ 1.303e-13 1.303e-13 -12.885 -12.885 -0.000 (0) +Nat 8.288e-14 + Nat+ 8.288e-14 8.288e-14 -13.082 -13.082 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.360 -70.323 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.360 -70.324 0.036 30.40 S(-2) 2.928e-08 - HS- 2.047e-08 1.348e-08 -7.689 -7.870 -0.182 21.14 - H2S 8.804e-09 9.572e-09 -8.055 -8.019 0.036 36.27 - S-2 8.314e-14 2.004e-14 -13.080 -13.698 -0.618 (0) - (H2S)2 4.440e-18 4.828e-18 -17.353 -17.316 0.036 30.09 + HS- 2.048e-08 1.348e-08 -7.689 -7.870 -0.182 21.14 + H2S 8.805e-09 9.573e-09 -8.055 -8.019 0.036 36.27 + S-2 8.316e-14 2.005e-14 -13.080 -13.698 -0.618 (0) + (H2S)2 4.442e-18 4.829e-18 -17.352 -17.316 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -89713,7 +89701,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.168e-11 Surface + diffuse layer charge, eq + -9.170e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -89723,7 +89711,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -89734,12 +89722,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 4.1731e-14 - I 1.6538e-26 + Hto 3.0905e-14 + I 1.6535e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5717e-15 + Nat 2.1231e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -89758,12 +89746,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.537e-13 4.166e-14 + Hto 2.619e-13 3.086e-14 I 1.403e-13 1.653e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.078e-15 7.160e-16 + Nat 3.613e-15 4.256e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -89781,7 +89769,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.583e-10 + Electrical balance (eq) = 5.736e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -89822,8 +89810,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.701e-11 H2 8.506e-12 9.248e-12 -11.070 -11.034 0.036 28.61 -Hto 3.537e-13 - Hto 3.537e-13 3.537e-13 -12.451 -12.451 0.000 (0) +Hto 2.619e-13 + Hto 2.619e-13 2.619e-13 -12.582 -12.582 0.000 (0) I 1.403e-13 I- 1.403e-13 1.403e-13 -12.853 -12.853 -0.000 (0) K 1.540e-03 @@ -89841,13 +89829,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.078e-15 - Nat+ 6.078e-15 6.078e-15 -14.216 -14.216 -0.000 (0) +Nat 3.613e-15 + Nat+ 3.613e-15 3.613e-15 -14.442 -14.442 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.357 -70.321 0.036 30.40 -S(-2) 2.892e-08 +S(-2) 2.893e-08 HS- 2.023e-08 1.332e-08 -7.694 -7.876 -0.182 21.14 - H2S 8.697e-09 9.456e-09 -8.061 -8.024 0.036 36.27 + H2S 8.698e-09 9.457e-09 -8.061 -8.024 0.036 36.27 S-2 8.214e-14 1.980e-14 -13.085 -13.703 -0.618 (0) (H2S)2 4.334e-18 4.712e-18 -17.363 -17.327 0.036 30.09 S(6) 1.260e-02 @@ -89924,7 +89912,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -89935,12 +89923,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 2.7076e-15 - I 9.1192e-28 + Hto 1.9227e-15 + I 9.1173e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3729e-16 + Nat 7.6271e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -89959,12 +89947,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.295e-14 2.703e-15 + Hto 1.629e-14 1.920e-15 I 7.738e-15 9.117e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.336e-16 2.752e-17 + Nat 1.298e-16 1.529e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -89982,7 +89970,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.021e-10 + Electrical balance (eq) = 1.996e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -90023,8 +90011,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.700e-11 H2 8.500e-12 9.241e-12 -11.071 -11.034 0.036 28.61 -Hto 2.295e-14 - Hto 2.295e-14 2.295e-14 -13.639 -13.639 0.000 (0) +Hto 1.629e-14 + Hto 1.629e-14 1.629e-14 -13.788 -13.788 0.000 (0) I 7.738e-15 I- 7.738e-15 7.738e-15 -14.111 -14.111 -0.000 (0) K 1.540e-03 @@ -90042,8 +90030,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.336e-16 - Nat+ 2.336e-16 2.336e-16 -15.631 -15.631 -0.000 (0) +Nat 1.298e-16 + Nat+ 1.298e-16 1.298e-16 -15.887 -15.887 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.357 -70.320 0.036 30.40 S(-2) 2.884e-08 @@ -90115,7 +90103,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -9.165e-11 Surface + diffuse layer charge, eq + -9.166e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -90125,7 +90113,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -90136,12 +90124,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 1.4557e-16 - I 4.1606e-29 + Hto 9.9091e-17 + I 4.1612e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3580e-18 + Nat 2.2626e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -90160,12 +90148,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.234e-15 1.453e-16 + Hto 8.398e-16 9.893e-17 I 3.532e-16 4.161e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.416e-18 8.736e-19 + Nat 3.850e-18 4.536e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -90183,7 +90171,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.878e-10 + Electrical balance (eq) = 1.877e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -90224,8 +90212,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.700e-11 H2 8.500e-12 9.242e-12 -11.071 -11.034 0.036 28.61 -Hto 1.234e-15 - Hto 1.234e-15 1.234e-15 -14.909 -14.909 0.000 (0) +Hto 8.398e-16 + Hto 8.398e-16 8.398e-16 -15.076 -15.076 0.000 (0) I 3.532e-16 I- 3.532e-16 3.532e-16 -15.452 -15.452 -0.000 (0) K 1.540e-03 @@ -90243,15 +90231,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.416e-18 - Nat+ 7.416e-18 7.416e-18 -17.130 -17.130 -0.000 (0) +Nat 3.850e-18 + Nat+ 3.850e-18 3.850e-18 -17.415 -17.415 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.357 -70.320 0.036 30.40 S(-2) 2.885e-08 HS- 2.018e-08 1.328e-08 -7.695 -7.877 -0.182 21.14 H2S 8.676e-09 9.433e-09 -8.062 -8.025 0.036 36.27 S-2 8.194e-14 1.975e-14 -13.087 -13.704 -0.618 (0) - (H2S)2 4.313e-18 4.689e-18 -17.365 -17.329 0.036 30.09 + (H2S)2 4.312e-18 4.689e-18 -17.365 -17.329 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -90316,7 +90304,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.170e-11 Surface + diffuse layer charge, eq + -9.169e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -90326,7 +90314,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -90337,12 +90325,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2948e-04 - Hto 6.4695e-18 - I 1.5685e-30 + Hto 4.2210e-18 + I 1.5691e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1405e-19 + Nat 5.5341e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -90361,12 +90349,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.483e-17 6.459e-18 + Hto 3.577e-17 4.214e-18 I 1.332e-17 1.569e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.941e-19 2.286e-20 + Nat 9.417e-20 1.109e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -90384,7 +90372,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.513e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -90425,8 +90413,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.704e-11 H2 8.518e-12 9.261e-12 -11.070 -11.033 0.036 28.61 -Hto 5.483e-17 - Hto 5.483e-17 5.483e-17 -16.261 -16.261 0.000 (0) +Hto 3.577e-17 + Hto 3.577e-17 3.577e-17 -16.446 -16.446 0.000 (0) I 1.332e-17 I- 1.332e-17 1.332e-17 -16.876 -16.876 -0.000 (0) K 1.540e-03 @@ -90444,15 +90432,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.941e-19 - Nat+ 1.941e-19 1.941e-19 -18.712 -18.712 -0.000 (0) +Nat 9.417e-20 + Nat+ 9.417e-20 9.417e-20 -19.026 -19.026 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.358 -70.322 0.036 30.40 S(-2) 2.909e-08 HS- 2.034e-08 1.339e-08 -7.692 -7.873 -0.182 21.14 - H2S 8.748e-09 9.511e-09 -8.058 -8.022 0.036 36.27 - S-2 8.262e-14 1.992e-14 -13.083 -13.701 -0.618 (0) - (H2S)2 4.384e-18 4.767e-18 -17.358 -17.322 0.036 30.09 + H2S 8.747e-09 9.510e-09 -8.058 -8.022 0.036 36.27 + S-2 8.261e-14 1.991e-14 -13.083 -13.701 -0.618 (0) + (H2S)2 4.383e-18 4.766e-18 -17.358 -17.322 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -90517,7 +90505,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.185e-11 Surface + diffuse layer charge, eq + -9.184e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -90527,7 +90515,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -90538,12 +90526,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 2.3628e-19 - I 4.8570e-32 + Hto 1.4774e-19 + I 4.8564e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4478e-21 + Nat 1.1100e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -90562,12 +90550,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.002e-18 2.359e-19 + Hto 1.252e-18 1.475e-19 I 4.122e-19 4.857e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.165e-21 4.907e-22 + Nat 1.889e-21 2.225e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -90585,7 +90573,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.619e-11 + Electrical balance (eq) = 9.620e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -90625,9 +90613,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.718e-11 - H2 8.591e-12 9.341e-12 -11.066 -11.030 0.036 28.61 -Hto 2.002e-18 - Hto 2.002e-18 2.002e-18 -17.698 -17.698 0.000 (0) + H2 8.592e-12 9.341e-12 -11.066 -11.030 0.036 28.61 +Hto 1.252e-18 + Hto 1.252e-18 1.252e-18 -17.902 -17.902 0.000 (0) I 4.122e-19 I- 4.122e-19 4.122e-19 -18.385 -18.385 -0.000 (0) K 1.540e-03 @@ -90645,15 +90633,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.165e-21 - Nat+ 4.165e-21 4.165e-21 -20.380 -20.380 -0.000 (0) +Nat 1.889e-21 + Nat+ 1.889e-21 1.889e-21 -20.724 -20.724 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.366 -70.330 0.036 30.40 -S(-2) 3.010e-08 - HS- 2.105e-08 1.386e-08 -7.677 -7.858 -0.182 21.14 - H2S 9.052e-09 9.842e-09 -8.043 -8.007 0.036 36.27 - S-2 8.550e-14 2.061e-14 -13.068 -13.686 -0.618 (0) - (H2S)2 4.695e-18 5.104e-18 -17.328 -17.292 0.036 30.09 +S(-2) 3.011e-08 + HS- 2.106e-08 1.386e-08 -7.677 -7.858 -0.182 21.14 + H2S 9.054e-09 9.844e-09 -8.043 -8.007 0.036 36.27 + S-2 8.551e-14 2.061e-14 -13.068 -13.686 -0.618 (0) + (H2S)2 4.696e-18 5.106e-18 -17.328 -17.292 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -90728,7 +90716,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -90739,12 +90727,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 7.0203e-21 + Hto 4.2065e-21 I 1.2225e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2621e-23 + Nat 1.7969e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -90763,12 +90751,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.949e-20 7.009e-21 + Hto 3.565e-20 4.200e-21 I 1.038e-20 1.223e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.252e-23 8.544e-24 + Nat 3.058e-23 3.602e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -90826,9 +90814,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.722e-11 - H2 8.611e-12 9.363e-12 -11.065 -11.029 0.036 28.61 -Hto 5.949e-20 - Hto 5.949e-20 5.949e-20 -19.226 -19.226 0.000 (0) + H2 8.612e-12 9.363e-12 -11.065 -11.029 0.036 28.61 +Hto 3.565e-20 + Hto 3.565e-20 3.565e-20 -19.448 -19.448 0.000 (0) I 1.038e-20 I- 1.038e-20 1.038e-20 -19.984 -19.984 -0.000 (0) K 1.540e-03 @@ -90846,15 +90834,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.252e-23 - Nat+ 7.252e-23 7.252e-23 -22.140 -22.140 -0.000 (0) +Nat 3.058e-23 + Nat+ 3.058e-23 3.058e-23 -22.515 -22.515 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.368 -70.332 0.036 30.40 S(-2) 3.039e-08 HS- 2.125e-08 1.399e-08 -7.673 -7.854 -0.182 21.14 - H2S 9.138e-09 9.935e-09 -8.039 -8.003 0.036 36.27 - S-2 8.631e-14 2.080e-14 -13.064 -13.682 -0.618 (0) - (H2S)2 4.784e-18 5.201e-18 -17.320 -17.284 0.036 30.09 + H2S 9.138e-09 9.936e-09 -8.039 -8.003 0.036 36.27 + S-2 8.631e-14 2.081e-14 -13.064 -13.682 -0.618 (0) + (H2S)2 4.784e-18 5.202e-18 -17.320 -17.284 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -90929,7 +90917,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -90940,12 +90928,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 1.6702e-22 - I 2.4597e-35 + Hto 9.5891e-23 + I 2.4600e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3949e-25 + Nat 1.4406e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -90964,12 +90952,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.415e-21 1.668e-22 + Hto 8.126e-22 9.574e-23 I 2.088e-22 2.460e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.180e-25 1.081e-25 + Nat 2.451e-25 2.888e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -91028,8 +91016,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.723e-11 H2 8.614e-12 9.365e-12 -11.065 -11.028 0.036 28.61 -Hto 1.415e-21 - Hto 1.415e-21 1.415e-21 -20.849 -20.849 0.000 (0) +Hto 8.126e-22 + Hto 8.126e-22 8.126e-22 -21.090 -21.090 0.000 (0) I 2.088e-22 I- 2.088e-22 2.088e-22 -21.680 -21.680 -0.000 (0) K 1.540e-03 @@ -91047,8 +91035,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.180e-25 - Nat+ 9.180e-25 9.180e-25 -24.037 -24.037 -0.000 (0) +Nat 2.451e-25 + Nat+ 2.451e-25 2.451e-25 -24.611 -24.611 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.368 -70.332 0.036 30.40 S(-2) 3.042e-08 @@ -91130,7 +91118,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -91141,7 +91129,7 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 3.0940e-24 + Hto 1.6756e-24 I 3.0884e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -91164,7 +91152,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.622e-23 3.089e-24 + Hto 1.420e-23 1.673e-24 I 2.621e-24 3.088e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -91227,8 +91215,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.723e-11 H2 8.614e-12 9.365e-12 -11.065 -11.028 0.036 28.61 -Hto 2.622e-23 - Hto 2.622e-23 2.622e-23 -22.581 -22.581 0.000 (0) +Hto 1.420e-23 + Hto 1.420e-23 1.420e-23 -22.848 -22.848 0.000 (0) I 2.621e-24 I- 2.621e-24 2.621e-24 -23.582 -23.582 -0.000 (0) K 1.540e-03 @@ -91327,7 +91315,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -91516,7 +91504,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -91568,7 +91556,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.560e-11 + Electrical balance (eq) = 9.559e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -91705,7 +91693,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -91757,7 +91745,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.559e-11 + Electrical balance (eq) = 9.561e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -91894,7 +91882,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -92372,30 +92360,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.188e-07 3.094e-07 + Hto 6.242e-07 3.121e-07 I 7.718e-07 3.859e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.777e-07 1.889e-07 + Nat 3.873e-07 1.937e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.948 Adjusted to redox equilibrium + pe = -2.947 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -92409,8 +92397,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.653e-13 - CH4 4.653e-13 5.059e-13 -12.332 -12.296 0.036 35.46 +C(-4) 4.575e-13 + CH4 4.575e-13 4.974e-13 -12.340 -12.303 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -92434,10 +92422,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 6.778e-12 - H2 3.389e-12 3.684e-12 -11.470 -11.434 0.036 28.61 -Hto 6.188e-07 - Hto 6.188e-07 6.188e-07 -6.208 -6.208 0.000 (0) +H(0) 6.749e-12 + H2 3.374e-12 3.669e-12 -11.472 -11.435 0.036 28.61 +Hto 6.242e-07 + Hto 6.242e-07 6.242e-07 -6.205 -6.205 0.000 (0) I 7.718e-07 I- 7.718e-07 7.718e-07 -6.112 -6.112 -0.000 (0) K 1.540e-03 @@ -92455,15 +92443,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.777e-07 - Nat+ 3.777e-07 3.777e-07 -6.423 -6.423 -0.000 (0) +Nat 3.873e-07 + Nat+ 3.873e-07 3.873e-07 -6.412 -6.412 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.558 -69.522 0.036 30.40 -S(-2) 7.295e-10 - HS- 5.100e-10 3.357e-10 -9.292 -9.474 -0.182 21.14 - H2S 2.195e-10 2.386e-10 -9.659 -9.622 0.036 36.27 - S-2 2.070e-15 4.989e-16 -14.684 -15.302 -0.618 (0) - (H2S)2 2.759e-21 3.000e-21 -20.559 -20.523 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.554 -69.518 0.036 30.40 +S(-2) 7.172e-10 + HS- 5.014e-10 3.301e-10 -9.300 -9.481 -0.182 21.14 + H2S 2.158e-10 2.346e-10 -9.666 -9.630 0.036 36.27 + S-2 2.035e-15 4.905e-16 -14.691 -15.309 -0.618 (0) + (H2S)2 2.667e-21 2.900e-21 -20.574 -20.538 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -92490,21 +92478,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.49 -12.30 -2.80 CH4 + CH4(g) -9.50 -12.30 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.33 -11.43 -3.10 H2 + H2(g) -8.33 -11.44 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.63 -16.56 -7.94 H2S + H2S(g) -8.64 -16.57 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.63 -69.52 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.22 -1.34 4.88 S + Sulfur -6.23 -1.34 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -92528,7 +92516,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -1.310e-13 Surface + diffuse layer charge, eq + -1.320e-13 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -92538,7 +92526,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -92547,14 +92535,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6661e-10 + Cl 4.6662e-10 H 1.2947e-04 - Hto 5.8017e-08 - I 7.3467e-20 + Hto 5.8054e-08 + I 7.3454e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7961e-07 + Nat 1.8069e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -92573,30 +92561,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.917e-07 5.792e-08 + Hto 4.920e-07 5.796e-08 I 6.235e-07 7.346e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.056e-07 3.601e-08 + Nat 3.075e-07 3.622e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.048 Adjusted to redox equilibrium + pe = -3.047 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.699e-09 + Electrical balance (eq) = 1.690e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (21 overall) Total H = 1.307864e+01 @@ -92610,8 +92598,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.917e-12 - CH4 2.917e-12 3.172e-12 -11.535 -11.499 0.036 35.46 +C(-4) 2.889e-12 + CH4 2.889e-12 3.141e-12 -11.539 -11.503 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -92635,10 +92623,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.072e-11 - H2 5.362e-12 5.830e-12 -11.271 -11.234 0.036 28.61 -Hto 4.917e-07 - Hto 4.917e-07 4.917e-07 -6.308 -6.308 0.000 (0) +H(0) 1.070e-11 + H2 5.349e-12 5.816e-12 -11.272 -11.235 0.036 28.61 +Hto 4.920e-07 + Hto 4.920e-07 4.920e-07 -6.308 -6.308 0.000 (0) I 6.235e-07 I- 6.235e-07 6.235e-07 -6.205 -6.205 -0.000 (0) K 1.540e-03 @@ -92656,15 +92644,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.056e-07 - Nat+ 3.056e-07 3.056e-07 -6.515 -6.515 -0.000 (0) +Nat 3.075e-07 + Nat+ 3.075e-07 3.075e-07 -6.512 -6.512 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.956 -69.920 0.036 30.40 -S(-2) 4.574e-09 - HS- 3.198e-09 2.105e-09 -8.495 -8.677 -0.182 21.14 - H2S 1.376e-09 1.496e-09 -8.861 -8.825 0.036 36.27 - S-2 1.298e-14 3.128e-15 -13.887 -14.505 -0.618 (0) - (H2S)2 1.085e-19 1.179e-19 -18.965 -18.928 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.954 -69.918 0.036 30.40 +S(-2) 4.529e-09 + HS- 3.167e-09 2.085e-09 -8.499 -8.681 -0.182 21.14 + H2S 1.363e-09 1.481e-09 -8.866 -8.829 0.036 36.27 + S-2 1.285e-14 3.098e-15 -13.891 -14.509 -0.618 (0) + (H2S)2 1.064e-19 1.156e-19 -18.973 -18.937 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -92696,7 +92684,7 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.13 -11.23 -3.10 H2 + H2(g) -8.13 -11.24 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O H2S(g) -7.83 -15.77 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl @@ -92705,7 +92693,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.03 -69.92 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.62 -0.74 4.88 S + Sulfur -5.63 -0.74 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -92729,7 +92717,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.130e-11 Surface + diffuse layer charge, eq + -9.127e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -92739,7 +92727,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -92750,12 +92738,12 @@ Su Ca 7.1884e-02 Cl 4.6640e-10 H 1.2948e-04 - Hto 2.6239e-08 + Hto 2.5580e-08 I 2.9884e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2962e-08 + Nat 5.9828e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -92774,12 +92762,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.224e-07 2.620e-08 + Hto 2.168e-07 2.554e-08 I 2.537e-07 2.989e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.071e-07 1.262e-08 + Nat 1.018e-07 1.199e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -92797,7 +92785,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.621e-09 + Electrical balance (eq) = 4.587e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -92811,8 +92799,8 @@ Su OH- 1.874e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.124e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.442e-11 - CH4 1.442e-11 1.568e-11 -10.841 -10.805 0.036 35.46 +C(-4) 1.441e-11 + CH4 1.441e-11 1.567e-11 -10.841 -10.805 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -92837,9 +92825,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.599e-11 - H2 7.997e-12 8.695e-12 -11.097 -11.061 0.036 28.61 -Hto 2.224e-07 - Hto 2.224e-07 2.224e-07 -6.653 -6.653 0.000 (0) + H2 7.996e-12 8.693e-12 -11.097 -11.061 0.036 28.61 +Hto 2.168e-07 + Hto 2.168e-07 2.168e-07 -6.664 -6.664 0.000 (0) I 2.537e-07 I- 2.537e-07 2.537e-07 -6.596 -6.596 -0.000 (0) K 1.540e-03 @@ -92857,15 +92845,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.071e-07 - Nat+ 1.071e-07 1.071e-07 -6.970 -6.970 -0.000 (0) +Nat 1.018e-07 + Nat+ 1.018e-07 1.018e-07 -6.992 -6.992 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.304 -70.267 0.036 30.40 -S(-2) 2.261e-08 - HS- 1.581e-08 1.041e-08 -7.801 -7.983 -0.182 21.14 - H2S 6.798e-09 7.391e-09 -8.168 -8.131 0.036 36.27 - S-2 6.418e-14 1.547e-14 -13.193 -13.810 -0.618 (0) - (H2S)2 2.648e-18 2.879e-18 -17.577 -17.541 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.303 -70.267 0.036 30.40 +S(-2) 2.259e-08 + HS- 1.580e-08 1.040e-08 -7.801 -7.983 -0.182 21.14 + H2S 6.794e-09 7.387e-09 -8.168 -8.132 0.036 36.27 + S-2 6.415e-14 1.546e-14 -13.193 -13.811 -0.618 (0) + (H2S)2 2.645e-18 2.875e-18 -17.578 -17.541 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -92940,7 +92928,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -92951,12 +92939,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2949e-04 - Hto 8.5481e-09 + Hto 8.0645e-09 I 8.5779e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4086e-08 + Nat 1.2563e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -92975,12 +92963,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.244e-08 8.534e-09 + Hto 6.834e-08 8.052e-09 I 7.280e-08 8.577e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.397e-08 2.824e-09 + Nat 2.138e-08 2.518e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -92998,7 +92986,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.830e-12 + Electrical balance (eq) = 3.950e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -93039,8 +93027,8 @@ Cl 3.000e-01 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.702e-11 H2 8.508e-12 9.250e-12 -11.070 -11.034 0.036 28.61 -Hto 7.244e-08 - Hto 7.244e-08 7.244e-08 -7.140 -7.140 0.000 (0) +Hto 6.834e-08 + Hto 6.834e-08 6.834e-08 -7.165 -7.165 0.000 (0) I 7.280e-08 I- 7.280e-08 7.280e-08 -7.138 -7.138 -0.000 (0) K 1.540e-03 @@ -93058,14 +93046,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.397e-08 - Nat+ 2.397e-08 2.397e-08 -7.620 -7.620 -0.000 (0) +Nat 2.138e-08 + Nat+ 2.138e-08 2.138e-08 -7.670 -7.670 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.357 -70.321 0.036 30.40 S(-2) 2.896e-08 HS- 2.025e-08 1.333e-08 -7.694 -7.875 -0.182 21.14 H2S 8.707e-09 9.467e-09 -8.060 -8.024 0.036 36.27 - S-2 8.223e-14 1.982e-14 -13.085 -13.703 -0.618 (0) + S-2 8.224e-14 1.982e-14 -13.085 -13.703 -0.618 (0) (H2S)2 4.344e-18 4.723e-18 -17.362 -17.326 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -93141,7 +93129,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -93152,12 +93140,12 @@ Su Ca 7.1884e-02 Cl 4.6630e-10 H 1.2949e-04 - Hto 2.0978e-09 + Hto 1.9083e-09 I 1.8308e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2364e-09 + Nat 1.8679e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -93176,12 +93164,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.778e-08 2.094e-09 + Hto 1.617e-08 1.905e-09 I 1.554e-08 1.831e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.805e-09 4.483e-10 + Nat 3.178e-09 3.745e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -93199,7 +93187,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.333e-12 + Electrical balance (eq) = 2.345e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -93213,8 +93201,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.993e-11 - CH4 1.993e-11 2.167e-11 -10.700 -10.664 0.036 35.46 +C(-4) 1.994e-11 + CH4 1.994e-11 2.168e-11 -10.700 -10.664 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -93239,9 +93227,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.734e-11 - H2 8.671e-12 9.427e-12 -11.062 -11.026 0.036 28.61 -Hto 1.778e-08 - Hto 1.778e-08 1.778e-08 -7.750 -7.750 0.000 (0) + H2 8.672e-12 9.428e-12 -11.062 -11.026 0.036 28.61 +Hto 1.617e-08 + Hto 1.617e-08 1.617e-08 -7.791 -7.791 0.000 (0) I 1.554e-08 I- 1.554e-08 1.554e-08 -7.809 -7.809 -0.000 (0) K 1.540e-03 @@ -93259,15 +93247,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.805e-09 - Nat+ 3.805e-09 3.805e-09 -8.420 -8.420 -0.000 (0) +Nat 3.178e-09 + Nat+ 3.178e-09 3.178e-09 -8.498 -8.498 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.374 -70.338 0.036 30.40 -S(-2) 3.124e-08 +S(-2) 3.125e-08 HS- 2.185e-08 1.438e-08 -7.661 -7.842 -0.182 21.14 - H2S 9.393e-09 1.021e-08 -8.027 -7.991 0.036 36.27 - S-2 8.872e-14 2.139e-14 -13.052 -13.670 -0.618 (0) - (H2S)2 5.055e-18 5.496e-18 -17.296 -17.260 0.036 30.09 + H2S 9.396e-09 1.022e-08 -8.027 -7.991 0.036 36.27 + S-2 8.874e-14 2.139e-14 -13.052 -13.670 -0.618 (0) + (H2S)2 5.057e-18 5.499e-18 -17.296 -17.260 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -93342,7 +93330,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -93353,12 +93341,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 4.0115e-10 + Hto 3.5113e-10 I 3.0208e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6764e-10 + Nat 2.0915e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -93377,12 +93365,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.400e-09 4.005e-10 + Hto 2.976e-09 3.506e-10 I 2.564e-09 3.020e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.554e-10 5.365e-11 + Nat 3.559e-10 4.193e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -93400,7 +93388,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.203e-12 + Electrical balance (eq) = 3.217e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -93415,7 +93403,7 @@ Su H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.033e-11 - CH4 2.033e-11 2.210e-11 -10.692 -10.656 0.036 35.46 + CH4 2.033e-11 2.211e-11 -10.692 -10.655 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -93441,8 +93429,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.743e-11 H2 8.714e-12 9.474e-12 -11.060 -11.023 0.036 28.61 -Hto 3.400e-09 - Hto 3.400e-09 3.400e-09 -8.469 -8.469 0.000 (0) +Hto 2.976e-09 + Hto 2.976e-09 2.976e-09 -8.526 -8.526 0.000 (0) I 2.564e-09 I- 2.564e-09 2.564e-09 -8.591 -8.591 -0.000 (0) K 1.540e-03 @@ -93460,15 +93448,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.554e-10 - Nat+ 4.554e-10 4.554e-10 -9.342 -9.342 -0.000 (0) +Nat 3.559e-10 + Nat+ 3.559e-10 3.559e-10 -9.449 -9.449 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.378 -70.342 0.036 30.40 -S(-2) 3.186e-08 +S(-2) 3.187e-08 HS- 2.228e-08 1.467e-08 -7.652 -7.834 -0.182 21.14 - H2S 9.580e-09 1.042e-08 -8.019 -7.982 0.036 36.27 - S-2 9.049e-14 2.181e-14 -13.043 -13.661 -0.618 (0) - (H2S)2 5.258e-18 5.717e-18 -17.279 -17.243 0.036 30.09 + H2S 9.582e-09 1.042e-08 -8.019 -7.982 0.036 36.27 + S-2 9.050e-14 2.182e-14 -13.043 -13.661 -0.618 (0) + (H2S)2 5.260e-18 5.719e-18 -17.279 -17.243 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -93543,7 +93531,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -93554,12 +93542,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 6.1260e-11 - I 3.9588e-23 + Hto 5.1528e-11 + I 3.9595e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5068e-11 + Nat 1.8319e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -93578,12 +93566,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.191e-10 6.116e-11 + Hto 4.367e-10 5.144e-11 I 3.360e-10 3.959e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.266e-11 5.025e-12 + Nat 3.117e-11 3.672e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -93601,7 +93589,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.578e-12 + Electrical balance (eq) = 3.577e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -93615,8 +93603,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.036e-11 - CH4 2.036e-11 2.214e-11 -10.691 -10.655 0.036 35.46 +C(-4) 2.037e-11 + CH4 2.037e-11 2.214e-11 -10.691 -10.655 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -93642,8 +93630,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.744e-11 H2 8.718e-12 9.478e-12 -11.060 -11.023 0.036 28.61 -Hto 5.191e-10 - Hto 5.191e-10 5.191e-10 -9.285 -9.285 0.000 (0) +Hto 4.367e-10 + Hto 4.367e-10 4.367e-10 -9.360 -9.360 0.000 (0) I 3.360e-10 I- 3.360e-10 3.360e-10 -9.474 -9.474 -0.000 (0) K 1.540e-03 @@ -93661,15 +93649,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.266e-11 - Nat+ 4.266e-11 4.266e-11 -10.370 -10.370 -0.000 (0) +Nat 3.117e-11 + Nat+ 3.117e-11 3.117e-11 -10.506 -10.506 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.379 -70.342 0.036 30.40 -S(-2) 3.191e-08 +S(-2) 3.192e-08 HS- 2.232e-08 1.469e-08 -7.651 -7.833 -0.182 21.14 - H2S 9.596e-09 1.043e-08 -8.018 -7.982 0.036 36.27 - S-2 9.064e-14 2.185e-14 -13.043 -13.661 -0.618 (0) - (H2S)2 5.276e-18 5.736e-18 -17.278 -17.241 0.036 30.09 + H2S 9.597e-09 1.043e-08 -8.018 -7.982 0.036 36.27 + S-2 9.065e-14 2.185e-14 -13.043 -13.661 -0.618 (0) + (H2S)2 5.277e-18 5.738e-18 -17.278 -17.241 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -93744,7 +93732,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -93755,12 +93743,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 7.6033e-12 - I 4.2029e-24 + Hto 6.1406e-12 + I 4.2021e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8834e-12 + Nat 1.2867e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -93779,12 +93767,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.443e-11 7.591e-12 + Hto 5.204e-11 6.131e-12 I 3.567e-11 4.202e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.205e-12 3.775e-13 + Nat 2.189e-12 2.579e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -93802,7 +93790,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.829e-12 + Electrical balance (eq) = 3.818e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -93817,7 +93805,7 @@ Su H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.017e-11 - CH4 2.017e-11 2.192e-11 -10.695 -10.659 0.036 35.46 + CH4 2.017e-11 2.193e-11 -10.695 -10.659 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -93842,9 +93830,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.739e-11 - H2 8.696e-12 9.455e-12 -11.061 -11.024 0.036 28.61 -Hto 6.443e-11 - Hto 6.443e-11 6.443e-11 -10.191 -10.191 0.000 (0) + H2 8.697e-12 9.455e-12 -11.061 -11.024 0.036 28.61 +Hto 5.204e-11 + Hto 5.204e-11 5.204e-11 -10.284 -10.284 0.000 (0) I 3.567e-11 I- 3.567e-11 3.567e-11 -10.448 -10.448 -0.000 (0) K 1.540e-03 @@ -93862,15 +93850,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.205e-12 - Nat+ 3.205e-12 3.205e-12 -11.494 -11.494 -0.000 (0) +Nat 2.189e-12 + Nat+ 2.189e-12 2.189e-12 -11.660 -11.660 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.376 -70.340 0.036 30.40 -S(-2) 3.160e-08 - HS- 2.210e-08 1.455e-08 -7.656 -7.837 -0.182 21.14 - H2S 9.503e-09 1.033e-08 -8.022 -7.986 0.036 36.27 - S-2 8.976e-14 2.164e-14 -13.047 -13.665 -0.618 (0) - (H2S)2 5.174e-18 5.625e-18 -17.286 -17.250 0.036 30.09 +S(-2) 3.161e-08 + HS- 2.211e-08 1.455e-08 -7.655 -7.837 -0.182 21.14 + H2S 9.505e-09 1.033e-08 -8.022 -7.986 0.036 36.27 + S-2 8.978e-14 2.164e-14 -13.047 -13.665 -0.618 (0) + (H2S)2 5.176e-18 5.628e-18 -17.286 -17.250 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -93935,7 +93923,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.206e-11 Surface + diffuse layer charge, eq + -9.210e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -93945,7 +93933,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -93956,12 +93944,12 @@ Su Ca 7.1884e-02 Cl 4.6630e-10 H 1.2949e-04 - Hto 7.7655e-13 - I 3.6618e-25 + Hto 6.0183e-13 + I 3.6608e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1539e-13 + Nat 7.3694e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -93980,12 +93968,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.581e-12 7.753e-13 + Hto 5.100e-12 6.009e-13 I 3.107e-12 3.661e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.964e-13 2.313e-14 + Nat 1.254e-13 1.477e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -94003,7 +93991,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.166e-10 + Electrical balance (eq) = 2.074e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -94017,8 +94005,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.971e-11 - CH4 1.971e-11 2.143e-11 -10.705 -10.669 0.036 35.46 +C(-4) 1.972e-11 + CH4 1.972e-11 2.144e-11 -10.705 -10.669 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -94043,9 +94031,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.729e-11 - H2 8.647e-12 9.401e-12 -11.063 -11.027 0.036 28.61 -Hto 6.581e-12 - Hto 6.581e-12 6.581e-12 -11.182 -11.182 0.000 (0) + H2 8.647e-12 9.402e-12 -11.063 -11.027 0.036 28.61 +Hto 5.100e-12 + Hto 5.100e-12 5.100e-12 -11.292 -11.292 0.000 (0) I 3.107e-12 I- 3.107e-12 3.107e-12 -11.508 -11.508 -0.000 (0) K 1.540e-03 @@ -94063,15 +94051,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.964e-13 - Nat+ 1.964e-13 1.964e-13 -12.707 -12.707 -0.000 (0) +Nat 1.254e-13 + Nat+ 1.254e-13 1.254e-13 -12.902 -12.902 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.371 -70.335 0.036 30.40 -S(-2) 3.089e-08 - HS- 2.160e-08 1.422e-08 -7.665 -7.847 -0.182 21.14 - H2S 9.289e-09 1.010e-08 -8.032 -7.996 0.036 36.27 - S-2 8.774e-14 2.115e-14 -13.057 -13.675 -0.618 (0) - (H2S)2 4.944e-18 5.375e-18 -17.306 -17.270 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.372 -70.335 0.036 30.40 +S(-2) 3.090e-08 + HS- 2.161e-08 1.422e-08 -7.665 -7.847 -0.182 21.14 + H2S 9.291e-09 1.010e-08 -8.032 -7.996 0.036 36.27 + S-2 8.775e-14 2.115e-14 -13.057 -13.675 -0.618 (0) + (H2S)2 4.945e-18 5.377e-18 -17.306 -17.269 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -94136,7 +94124,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.197e-11 Surface + diffuse layer charge, eq + -9.198e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -94146,7 +94134,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -94157,12 +94145,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 6.5811e-14 + Hto 4.8924e-14 I 2.6421e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8292e-15 + Nat 3.4796e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -94181,12 +94169,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.577e-13 6.570e-14 + Hto 4.146e-13 4.885e-14 I 2.242e-13 2.642e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.919e-15 1.169e-15 + Nat 5.921e-15 6.975e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -94204,7 +94192,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.667e-10 + Electrical balance (eq) = 4.820e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -94245,8 +94233,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.724e-11 H2 8.622e-12 9.374e-12 -11.064 -11.028 0.036 28.61 -Hto 5.577e-13 - Hto 5.577e-13 5.577e-13 -12.254 -12.254 0.000 (0) +Hto 4.146e-13 + Hto 4.146e-13 4.146e-13 -12.382 -12.382 0.000 (0) I 2.242e-13 I- 2.242e-13 2.242e-13 -12.649 -12.649 -0.000 (0) K 1.540e-03 @@ -94264,13 +94252,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.919e-15 - Nat+ 9.919e-15 9.919e-15 -14.004 -14.004 -0.000 (0) +Nat 5.921e-15 + Nat+ 5.921e-15 5.921e-15 -14.228 -14.228 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.369 -70.333 0.036 30.40 -S(-2) 3.053e-08 +S(-2) 3.054e-08 HS- 2.135e-08 1.406e-08 -7.671 -7.852 -0.182 21.14 - H2S 9.181e-09 9.982e-09 -8.037 -8.001 0.036 36.27 + H2S 9.182e-09 9.983e-09 -8.037 -8.001 0.036 36.27 S-2 8.672e-14 2.090e-14 -13.062 -13.680 -0.618 (0) (H2S)2 4.830e-18 5.251e-18 -17.316 -17.280 0.036 30.09 S(6) 1.260e-02 @@ -94347,7 +94335,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -94358,12 +94346,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 4.6513e-15 + Hto 3.3158e-15 I 1.5874e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4441e-16 + Nat 1.3636e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -94382,12 +94370,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.942e-14 4.644e-15 + Hto 2.810e-14 3.310e-15 I 1.347e-14 1.587e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.159e-16 4.900e-17 + Nat 2.320e-16 2.733e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -94405,7 +94393,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.104e-10 + Electrical balance (eq) = 1.080e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -94446,8 +94434,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.723e-11 H2 8.615e-12 9.367e-12 -11.065 -11.028 0.036 28.61 -Hto 3.942e-14 - Hto 3.942e-14 3.942e-14 -13.404 -13.404 0.000 (0) +Hto 2.810e-14 + Hto 2.810e-14 2.810e-14 -13.551 -13.551 0.000 (0) I 1.347e-14 I- 1.347e-14 1.347e-14 -13.871 -13.871 -0.000 (0) K 1.540e-03 @@ -94465,8 +94453,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.159e-16 - Nat+ 4.159e-16 4.159e-16 -15.381 -15.381 -0.000 (0) +Nat 2.320e-16 + Nat+ 2.320e-16 2.320e-16 -15.634 -15.634 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.368 -70.332 0.036 30.40 S(-2) 3.044e-08 @@ -94548,7 +94536,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -94559,12 +94547,12 @@ Su Ca 7.1884e-02 Cl 4.6631e-10 H 1.2949e-04 - Hto 2.7473e-16 + Hto 1.8777e-16 I 7.9638e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.5332e-18 + Nat 4.4495e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -94583,12 +94571,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.328e-15 2.743e-16 + Hto 1.591e-15 1.875e-16 I 6.759e-16 7.962e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.452e-17 1.711e-18 + Nat 7.571e-18 8.920e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -94606,7 +94594,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.612e-11 + Electrical balance (eq) = 9.603e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -94646,9 +94634,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.723e-11 - H2 8.617e-12 9.368e-12 -11.065 -11.028 0.036 28.61 -Hto 2.328e-15 - Hto 2.328e-15 2.328e-15 -14.633 -14.633 0.000 (0) + H2 8.616e-12 9.368e-12 -11.065 -11.028 0.036 28.61 +Hto 1.591e-15 + Hto 1.591e-15 1.591e-15 -14.798 -14.798 0.000 (0) I 6.759e-16 I- 6.759e-16 6.759e-16 -15.170 -15.170 -0.000 (0) K 1.540e-03 @@ -94666,15 +94654,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.452e-17 - Nat+ 1.452e-17 1.452e-17 -16.838 -16.838 -0.000 (0) +Nat 7.571e-18 + Nat+ 7.571e-18 7.571e-18 -17.121 -17.121 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.368 -70.332 0.036 30.40 S(-2) 3.046e-08 HS- 2.130e-08 1.402e-08 -7.672 -7.853 -0.182 21.14 - H2S 9.160e-09 9.959e-09 -8.038 -8.002 0.036 36.27 + H2S 9.159e-09 9.958e-09 -8.038 -8.002 0.036 36.27 S-2 8.651e-14 2.085e-14 -13.063 -13.681 -0.618 (0) - (H2S)2 4.807e-18 5.226e-18 -17.318 -17.282 0.036 30.09 + (H2S)2 4.806e-18 5.226e-18 -17.318 -17.282 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -94749,7 +94737,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -94760,12 +94748,12 @@ Su Ca 7.1884e-02 Cl 4.6630e-10 H 1.2949e-04 - Hto 1.3552e-17 - I 3.3334e-30 + Hto 8.8785e-18 + I 3.3330e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4812e-19 + Nat 1.2092e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -94784,12 +94772,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.148e-16 1.353e-17 + Hto 7.524e-17 8.864e-18 I 2.829e-17 3.333e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.222e-19 4.974e-20 + Nat 2.058e-19 2.424e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -94807,7 +94795,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.588e-09 + Electrical balance (eq) = 1.421e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -94821,8 +94809,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.961e-11 - CH4 1.961e-11 2.132e-11 -10.708 -10.671 0.036 35.46 +C(-4) 1.960e-11 + CH4 1.960e-11 2.131e-11 -10.708 -10.671 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -94848,8 +94836,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.727e-11 H2 8.635e-12 9.388e-12 -11.064 -11.027 0.036 28.61 -Hto 1.148e-16 - Hto 1.148e-16 1.148e-16 -15.940 -15.940 0.000 (0) +Hto 7.524e-17 + Hto 7.524e-17 7.524e-17 -16.124 -16.124 0.000 (0) I 2.829e-17 I- 2.829e-17 2.829e-17 -16.548 -16.548 -0.000 (0) K 1.540e-03 @@ -94867,15 +94855,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.222e-19 - Nat+ 4.222e-19 4.222e-19 -18.374 -18.374 -0.000 (0) +Nat 2.058e-19 + Nat+ 2.058e-19 2.058e-19 -18.687 -18.687 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.370 -70.334 0.036 30.40 -S(-2) 3.073e-08 - HS- 2.149e-08 1.414e-08 -7.668 -7.849 -0.182 21.14 - H2S 9.239e-09 1.004e-08 -8.034 -7.998 0.036 36.27 - S-2 8.726e-14 2.103e-14 -13.059 -13.677 -0.618 (0) - (H2S)2 4.890e-18 5.317e-18 -17.311 -17.274 0.036 30.09 +S(-2) 3.072e-08 + HS- 2.148e-08 1.414e-08 -7.668 -7.849 -0.182 21.14 + H2S 9.238e-09 1.004e-08 -8.034 -7.998 0.036 36.27 + S-2 8.725e-14 2.103e-14 -13.059 -13.677 -0.618 (0) + (H2S)2 4.889e-18 5.315e-18 -17.311 -17.274 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -94950,7 +94938,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -94961,12 +94949,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 5.5634e-19 - I 1.1604e-31 + Hto 3.4932e-19 + I 1.1601e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.9908e-21 + Nat 2.7284e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -94985,12 +94973,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.715e-18 5.554e-19 + Hto 2.960e-18 3.488e-19 I 9.848e-19 1.160e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.019e-20 1.201e-21 + Nat 4.643e-21 5.469e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -95008,7 +94996,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.339e-12 + Electrical balance (eq) = 4.356e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -95023,7 +95011,7 @@ Su H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.021e-11 - CH4 2.021e-11 2.197e-11 -10.694 -10.658 0.036 35.46 + CH4 2.021e-11 2.198e-11 -10.694 -10.658 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -95049,8 +95037,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.740e-11 H2 8.701e-12 9.460e-12 -11.060 -11.024 0.036 28.61 -Hto 4.715e-18 - Hto 4.715e-18 4.715e-18 -17.327 -17.327 0.000 (0) +Hto 2.960e-18 + Hto 2.960e-18 2.960e-18 -17.529 -17.529 0.000 (0) I 9.848e-19 I- 9.848e-19 9.848e-19 -18.007 -18.007 -0.000 (0) K 1.540e-03 @@ -95068,15 +95056,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.019e-20 - Nat+ 1.019e-20 1.019e-20 -19.992 -19.992 -0.000 (0) +Nat 4.643e-21 + Nat+ 4.643e-21 4.643e-21 -20.333 -20.333 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.377 -70.341 0.036 30.40 -S(-2) 3.167e-08 +S(-2) 3.168e-08 HS- 2.215e-08 1.458e-08 -7.655 -7.836 -0.182 21.14 - H2S 9.523e-09 1.035e-08 -8.021 -7.985 0.036 36.27 - S-2 8.995e-14 2.168e-14 -13.046 -13.664 -0.618 (0) - (H2S)2 5.196e-18 5.649e-18 -17.284 -17.248 0.036 30.09 + H2S 9.525e-09 1.036e-08 -8.021 -7.985 0.036 36.27 + S-2 8.996e-14 2.169e-14 -13.046 -13.664 -0.618 (0) + (H2S)2 5.197e-18 5.651e-18 -17.284 -17.248 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -95151,7 +95139,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -95162,12 +95150,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 1.8876e-20 - I 3.3358e-33 + Hto 1.1358e-20 + I 3.3361e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1929e-22 + Nat 5.0686e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -95186,12 +95174,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.600e-19 1.885e-20 + Hto 9.626e-20 1.134e-20 I 2.832e-20 3.336e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.030e-22 2.391e-23 + Nat 8.625e-23 1.016e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -95209,7 +95197,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.699e-12 + Electrical balance (eq) = 3.702e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -95223,8 +95211,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.040e-11 - CH4 2.040e-11 2.218e-11 -10.690 -10.654 0.036 35.46 +C(-4) 2.041e-11 + CH4 2.041e-11 2.219e-11 -10.690 -10.654 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -95250,8 +95238,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.744e-11 H2 8.722e-12 9.483e-12 -11.059 -11.023 0.036 28.61 -Hto 1.600e-19 - Hto 1.600e-19 1.600e-19 -18.796 -18.796 0.000 (0) +Hto 9.626e-20 + Hto 9.626e-20 9.626e-20 -19.017 -19.017 0.000 (0) I 2.832e-20 I- 2.832e-20 2.832e-20 -19.548 -19.548 -0.000 (0) K 1.540e-03 @@ -95269,13 +95257,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.030e-22 - Nat+ 2.030e-22 2.030e-22 -21.693 -21.693 -0.000 (0) +Nat 8.625e-23 + Nat+ 8.625e-23 8.625e-23 -22.064 -22.064 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.379 -70.343 0.036 30.40 S(-2) 3.198e-08 HS- 2.236e-08 1.472e-08 -7.650 -7.832 -0.182 21.14 - H2S 9.615e-09 1.045e-08 -8.017 -7.981 0.036 36.27 + H2S 9.616e-09 1.045e-08 -8.017 -7.981 0.036 36.27 S-2 9.082e-14 2.189e-14 -13.042 -13.660 -0.618 (0) (H2S)2 5.297e-18 5.759e-18 -17.276 -17.240 0.036 30.09 S(6) 1.260e-02 @@ -95352,7 +95340,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -95363,12 +95351,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 5.2361e-22 - I 7.8358e-35 + Hto 3.0191e-22 + I 7.8370e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8873e-24 + Nat 6.8082e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -95387,12 +95375,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.437e-21 5.228e-22 + Hto 2.559e-21 3.014e-22 I 6.651e-22 7.835e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.211e-24 3.783e-25 + Nat 1.158e-24 1.365e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -95410,7 +95398,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.657e-12 + Electrical balance (eq) = 3.654e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -95451,8 +95439,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.745e-11 H2 8.725e-12 9.486e-12 -11.059 -11.023 0.036 28.61 -Hto 4.437e-21 - Hto 4.437e-21 4.437e-21 -20.353 -20.353 0.000 (0) +Hto 2.559e-21 + Hto 2.559e-21 2.559e-21 -20.592 -20.592 0.000 (0) I 6.651e-22 I- 6.651e-22 6.651e-22 -21.177 -21.177 -0.000 (0) K 1.540e-03 @@ -95470,8 +95458,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.211e-24 - Nat+ 3.211e-24 3.211e-24 -23.493 -23.493 -0.000 (0) +Nat 1.158e-24 + Nat+ 1.158e-24 1.158e-24 -23.936 -23.936 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.379 -70.343 0.036 30.40 S(-2) 3.202e-08 @@ -95553,7 +95541,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -95564,8 +95552,8 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 1.1668e-23 - I 1.4071e-36 + Hto 6.4224e-24 + I 1.4069e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -95587,7 +95575,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.888e-23 1.165e-23 + Hto 5.443e-23 6.412e-24 I 1.194e-23 1.407e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -95609,7 +95597,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.663e-12 + Electrical balance (eq) = 3.662e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -95650,8 +95638,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.745e-11 H2 8.725e-12 9.486e-12 -11.059 -11.023 0.036 28.61 -Hto 9.888e-23 - Hto 9.888e-23 9.888e-23 -22.005 -22.005 0.000 (0) +Hto 5.443e-23 + Hto 5.443e-23 5.443e-23 -22.264 -22.264 0.000 (0) I 1.194e-23 I- 1.194e-23 1.194e-23 -22.923 -22.923 -0.000 (0) K 1.540e-03 @@ -95750,7 +95738,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -95761,7 +95749,6 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 1.6493e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -95783,7 +95770,6 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.398e-24 1.647e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -95804,7 +95790,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.660e-12 + Electrical balance (eq) = 3.665e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -95845,8 +95831,6 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.745e-11 H2 8.725e-12 9.486e-12 -11.059 -11.023 0.036 28.61 -Hto 1.398e-24 - Hto 1.398e-24 1.398e-24 -23.855 -23.855 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -95943,7 +95927,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -95995,7 +95979,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.664e-12 + Electrical balance (eq) = 3.650e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -96132,7 +96116,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -96184,7 +96168,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.655e-12 + Electrical balance (eq) = 3.666e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -96321,7 +96305,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -96373,7 +96357,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.655e-12 + Electrical balance (eq) = 3.653e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -96799,30 +96783,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.124e-07 3.062e-07 + Hto 6.178e-07 3.089e-07 I 7.675e-07 3.838e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.711e-07 1.856e-07 + Nat 3.805e-07 1.902e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.956 Adjusted to redox equilibrium + pe = -2.955 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.568e-13 + Electrical balance (eq) = -2.235e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -96836,8 +96820,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.406e-13 - CH4 5.406e-13 5.878e-13 -12.267 -12.231 0.036 35.46 +C(-4) 5.309e-13 + CH4 5.309e-13 5.772e-13 -12.275 -12.239 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -96861,10 +96845,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.036e-12 - H2 3.518e-12 3.825e-12 -11.454 -11.417 0.036 28.61 -Hto 6.124e-07 - Hto 6.124e-07 6.124e-07 -6.213 -6.213 0.000 (0) +H(0) 7.005e-12 + H2 3.502e-12 3.808e-12 -11.456 -11.419 0.036 28.61 +Hto 6.178e-07 + Hto 6.178e-07 6.178e-07 -6.209 -6.209 0.000 (0) I 7.675e-07 I- 7.675e-07 7.675e-07 -6.115 -6.115 -0.000 (0) K 1.540e-03 @@ -96882,15 +96866,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.711e-07 - Nat+ 3.711e-07 3.711e-07 -6.431 -6.431 -0.000 (0) +Nat 3.805e-07 + Nat+ 3.805e-07 3.805e-07 -6.420 -6.420 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.590 -69.554 0.036 30.40 -S(-2) 8.475e-10 - HS- 5.925e-10 3.901e-10 -9.227 -9.409 -0.182 21.14 - H2S 2.550e-10 2.772e-10 -9.594 -9.557 0.036 36.27 - S-2 2.405e-15 5.796e-16 -14.619 -15.237 -0.618 (0) - (H2S)2 3.724e-21 4.049e-21 -20.429 -20.393 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.586 -69.550 0.036 30.40 +S(-2) 8.323e-10 + HS- 5.819e-10 3.831e-10 -9.235 -9.417 -0.182 21.14 + H2S 2.504e-10 2.722e-10 -9.601 -9.565 0.036 36.27 + S-2 2.361e-15 5.692e-16 -14.627 -15.245 -0.618 (0) + (H2S)2 3.592e-21 3.905e-21 -20.445 -20.408 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -96917,21 +96901,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.43 -12.23 -2.80 CH4 + CH4(g) -9.44 -12.24 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.32 -11.42 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.56 -16.50 -7.94 H2S + H2S(g) -8.57 -16.51 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.66 -69.55 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.17 -1.29 4.88 S + Sulfur -6.18 -1.30 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -96955,7 +96939,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -3.997e-14 Surface + diffuse layer charge, eq + -4.058e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -96965,7 +96949,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -96976,12 +96960,12 @@ Su Ca 7.1884e-02 Cl 4.6661e-10 H 1.2947e-04 - Hto 5.7922e-08 - I 7.3599e-20 + Hto 5.7990e-08 + I 7.3586e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7858e-07 + Nat 1.7987e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -97000,30 +96984,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.909e-07 5.783e-08 + Hto 4.914e-07 5.790e-08 I 6.247e-07 7.360e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.039e-07 3.580e-08 + Nat 3.061e-07 3.606e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.052 Adjusted to redox equilibrium + pe = -3.051 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.700e-09 + Electrical balance (eq) = 1.691e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -97037,8 +97021,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.131e-12 - CH4 3.131e-12 3.404e-12 -11.504 -11.468 0.036 35.46 +C(-4) 3.100e-12 + CH4 3.100e-12 3.371e-12 -11.509 -11.472 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -97062,10 +97046,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.092e-11 - H2 5.458e-12 5.934e-12 -11.263 -11.227 0.036 28.61 -Hto 4.909e-07 - Hto 4.909e-07 4.909e-07 -6.309 -6.309 0.000 (0) +H(0) 1.089e-11 + H2 5.445e-12 5.920e-12 -11.264 -11.228 0.036 28.61 +Hto 4.914e-07 + Hto 4.914e-07 4.914e-07 -6.309 -6.309 0.000 (0) I 6.247e-07 I- 6.247e-07 6.247e-07 -6.204 -6.204 -0.000 (0) K 1.540e-03 @@ -97083,15 +97067,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.039e-07 - Nat+ 3.039e-07 3.039e-07 -6.517 -6.517 -0.000 (0) +Nat 3.061e-07 + Nat+ 3.061e-07 3.061e-07 -6.514 -6.514 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.972 -69.935 0.036 30.40 -S(-2) 4.908e-09 - HS- 3.432e-09 2.259e-09 -8.465 -8.646 -0.182 21.14 - H2S 1.476e-09 1.605e-09 -8.831 -8.794 0.036 36.27 - S-2 1.393e-14 3.357e-15 -13.856 -14.474 -0.618 (0) - (H2S)2 1.249e-19 1.358e-19 -18.903 -18.867 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.970 -69.933 0.036 30.40 +S(-2) 4.860e-09 + HS- 3.398e-09 2.237e-09 -8.469 -8.650 -0.182 21.14 + H2S 1.462e-09 1.590e-09 -8.835 -8.799 0.036 36.27 + S-2 1.379e-14 3.325e-15 -13.860 -14.478 -0.618 (0) + (H2S)2 1.225e-19 1.332e-19 -18.912 -18.876 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -97130,7 +97114,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.04 -69.94 -2.89 O2 + O2(g) -67.04 -69.93 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.60 -0.72 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -97156,7 +97140,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.149e-11 Surface + diffuse layer charge, eq + -9.147e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -97166,7 +97150,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -97177,12 +97161,12 @@ Su Ca 7.1884e-02 Cl 4.6638e-10 H 1.2948e-04 - Hto 2.6990e-08 + Hto 2.6347e-08 I 3.0910e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.5161e-08 + Nat 6.2070e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -97201,12 +97185,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.287e-07 2.695e-08 + Hto 2.233e-07 2.630e-08 I 2.623e-07 3.091e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.109e-07 1.306e-08 + Nat 1.056e-07 1.244e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -97224,7 +97208,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.530e-09 + Electrical balance (eq) = 4.496e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -97239,7 +97223,7 @@ Su H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.515e-11 - CH4 1.515e-11 1.648e-11 -10.819 -10.783 0.036 35.46 + CH4 1.515e-11 1.647e-11 -10.820 -10.783 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -97264,9 +97248,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.619e-11 - H2 8.096e-12 8.803e-12 -11.092 -11.055 0.036 28.61 -Hto 2.287e-07 - Hto 2.287e-07 2.287e-07 -6.641 -6.641 0.000 (0) + H2 8.096e-12 8.802e-12 -11.092 -11.055 0.036 28.61 +Hto 2.233e-07 + Hto 2.233e-07 2.233e-07 -6.651 -6.651 0.000 (0) I 2.623e-07 I- 2.623e-07 2.623e-07 -6.581 -6.581 -0.000 (0) K 1.540e-03 @@ -97284,15 +97268,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.109e-07 - Nat+ 1.109e-07 1.109e-07 -6.955 -6.955 -0.000 (0) +Nat 1.056e-07 + Nat+ 1.056e-07 1.056e-07 -6.976 -6.976 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.314 -70.278 0.036 30.40 S(-2) 2.375e-08 HS- 1.661e-08 1.093e-08 -7.780 -7.961 -0.182 21.14 - H2S 7.143e-09 7.766e-09 -8.146 -8.110 0.036 36.27 - S-2 6.744e-14 1.626e-14 -13.171 -13.789 -0.618 (0) - (H2S)2 2.923e-18 3.178e-18 -17.534 -17.498 0.036 30.09 + H2S 7.141e-09 7.764e-09 -8.146 -8.110 0.036 36.27 + S-2 6.742e-14 1.625e-14 -13.171 -13.789 -0.618 (0) + (H2S)2 2.922e-18 3.176e-18 -17.534 -17.498 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -97367,7 +97351,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -97378,12 +97362,12 @@ Su Ca 7.1884e-02 Cl 4.6630e-10 H 1.2949e-04 - Hto 9.1473e-09 + Hto 8.6472e-09 I 9.2462e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5287e-08 + Nat 1.3677e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -97402,12 +97386,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.752e-08 9.133e-09 + Hto 7.328e-08 8.633e-09 I 7.846e-08 9.244e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.601e-08 3.065e-09 + Nat 2.327e-08 2.742e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -97425,7 +97409,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.850e-11 + Electrical balance (eq) = -8.838e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -97440,7 +97424,7 @@ Su H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 1.938e-11 - CH4 1.938e-11 2.107e-11 -10.713 -10.676 0.036 35.46 + CH4 1.938e-11 2.108e-11 -10.713 -10.676 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -97465,9 +97449,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.722e-11 - H2 8.610e-12 9.362e-12 -11.065 -11.029 0.036 28.61 -Hto 7.752e-08 - Hto 7.752e-08 7.752e-08 -7.111 -7.111 0.000 (0) + H2 8.611e-12 9.362e-12 -11.065 -11.029 0.036 28.61 +Hto 7.328e-08 + Hto 7.328e-08 7.328e-08 -7.135 -7.135 0.000 (0) I 7.846e-08 I- 7.846e-08 7.846e-08 -7.105 -7.105 -0.000 (0) K 1.540e-03 @@ -97485,15 +97469,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.601e-08 - Nat+ 2.601e-08 2.601e-08 -7.585 -7.585 -0.000 (0) +Nat 2.327e-08 + Nat+ 2.327e-08 2.327e-08 -7.633 -7.633 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.368 -70.331 0.036 30.40 -S(-2) 3.037e-08 - HS- 2.124e-08 1.398e-08 -7.673 -7.854 -0.182 21.14 - H2S 9.134e-09 9.930e-09 -8.039 -8.003 0.036 36.27 - S-2 8.626e-14 2.079e-14 -13.064 -13.682 -0.618 (0) - (H2S)2 4.779e-18 5.196e-18 -17.321 -17.284 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.368 -70.332 0.036 30.40 +S(-2) 3.038e-08 + HS- 2.124e-08 1.399e-08 -7.673 -7.854 -0.182 21.14 + H2S 9.135e-09 9.931e-09 -8.039 -8.003 0.036 36.27 + S-2 8.628e-14 2.080e-14 -13.064 -13.682 -0.618 (0) + (H2S)2 4.780e-18 5.197e-18 -17.321 -17.284 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -97568,7 +97552,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -97579,12 +97563,12 @@ Su Ca 7.1884e-02 Cl 4.6628e-10 H 1.2949e-04 - Hto 2.3512e-09 + Hto 2.1442e-09 I 2.0696e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5570e-09 + Nat 2.1431e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -97603,12 +97587,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.993e-08 2.347e-09 + Hto 1.817e-08 2.141e-09 I 1.757e-08 2.070e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.351e-09 5.126e-10 + Nat 3.647e-09 4.296e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -97626,7 +97610,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.007e-11 + Electrical balance (eq) = -9.006e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -97641,7 +97625,7 @@ Su H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.091e-11 - CH4 2.091e-11 2.273e-11 -10.680 -10.643 0.036 35.46 + CH4 2.091e-11 2.274e-11 -10.680 -10.643 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -97666,9 +97650,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.755e-11 - H2 8.775e-12 9.541e-12 -11.057 -11.020 0.036 28.61 -Hto 1.993e-08 - Hto 1.993e-08 1.993e-08 -7.701 -7.701 0.000 (0) + H2 8.776e-12 9.541e-12 -11.057 -11.020 0.036 28.61 +Hto 1.817e-08 + Hto 1.817e-08 1.817e-08 -7.741 -7.741 0.000 (0) I 1.757e-08 I- 1.757e-08 1.757e-08 -7.755 -7.755 -0.000 (0) K 1.540e-03 @@ -97686,15 +97670,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.351e-09 - Nat+ 4.351e-09 4.351e-09 -8.361 -8.361 -0.000 (0) +Nat 3.647e-09 + Nat+ 3.647e-09 3.647e-09 -8.438 -8.438 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.384 -70.348 0.036 30.40 -S(-2) 3.276e-08 - HS- 2.291e-08 1.508e-08 -7.640 -7.821 -0.182 21.14 - H2S 9.852e-09 1.071e-08 -8.006 -7.970 0.036 36.27 - S-2 9.306e-14 2.243e-14 -13.031 -13.649 -0.618 (0) - (H2S)2 5.560e-18 6.045e-18 -17.255 -17.219 0.036 30.09 +S(-2) 3.277e-08 + HS- 2.292e-08 1.509e-08 -7.640 -7.821 -0.182 21.14 + H2S 9.854e-09 1.071e-08 -8.006 -7.970 0.036 36.27 + S-2 9.308e-14 2.244e-14 -13.031 -13.649 -0.618 (0) + (H2S)2 5.563e-18 6.048e-18 -17.255 -17.218 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -97769,7 +97753,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -97780,12 +97764,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 4.7347e-10 - I 3.6008e-22 + Hto 4.1563e-10 + I 3.6003e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2364e-10 + Nat 2.5386e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -97804,12 +97788,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.012e-09 4.727e-10 + Hto 3.522e-09 4.150e-10 I 3.056e-09 3.600e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.507e-10 6.488e-11 + Nat 4.320e-10 5.089e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -97827,7 +97811,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.911e-11 + Electrical balance (eq) = -8.909e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -97868,8 +97852,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.764e-11 H2 8.820e-12 9.589e-12 -11.055 -11.018 0.036 28.61 -Hto 4.012e-09 - Hto 4.012e-09 4.012e-09 -8.397 -8.397 0.000 (0) +Hto 3.522e-09 + Hto 3.522e-09 3.522e-09 -8.453 -8.453 0.000 (0) I 3.056e-09 I- 3.056e-09 3.056e-09 -8.515 -8.515 -0.000 (0) K 1.540e-03 @@ -97887,15 +97871,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.507e-10 - Nat+ 5.507e-10 5.507e-10 -9.259 -9.259 -0.000 (0) +Nat 4.320e-10 + Nat+ 4.320e-10 4.320e-10 -9.365 -9.365 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.389 -70.352 0.036 30.40 S(-2) 3.344e-08 - HS- 2.338e-08 1.539e-08 -7.631 -7.813 -0.182 21.14 + HS- 2.339e-08 1.539e-08 -7.631 -7.813 -0.182 21.14 H2S 1.005e-08 1.093e-08 -7.998 -7.961 0.036 36.27 - S-2 9.497e-14 2.289e-14 -13.022 -13.640 -0.618 (0) - (H2S)2 5.790e-18 6.295e-18 -17.237 -17.201 0.036 30.09 + S-2 9.498e-14 2.289e-14 -13.022 -13.640 -0.618 (0) + (H2S)2 5.792e-18 6.297e-18 -17.237 -17.201 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -97960,7 +97944,7 @@ Kinetics 9. Diffuse Double Layer Surface-Complexation Model Su - -9.254e-11 Surface + diffuse layer charge, eq + -9.253e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -97970,7 +97954,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -97981,12 +97965,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 7.6518e-11 - I 4.9999e-23 + Hto 6.4567e-11 + I 4.9986e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2186e-11 + Nat 2.3612e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -98005,12 +97989,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.485e-10 7.639e-11 + Hto 5.472e-10 6.446e-11 I 4.243e-10 4.999e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.477e-11 6.452e-12 + Nat 4.018e-11 4.733e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -98042,8 +98026,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.137e-11 - CH4 2.137e-11 2.324e-11 -10.670 -10.634 0.036 35.46 +C(-4) 2.138e-11 + CH4 2.138e-11 2.324e-11 -10.670 -10.634 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -98069,8 +98053,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.765e-11 H2 8.824e-12 9.594e-12 -11.054 -11.018 0.036 28.61 -Hto 6.485e-10 - Hto 6.485e-10 6.485e-10 -9.188 -9.188 0.000 (0) +Hto 5.472e-10 + Hto 5.472e-10 5.472e-10 -9.262 -9.262 0.000 (0) I 4.243e-10 I- 4.243e-10 4.243e-10 -9.372 -9.372 -0.000 (0) K 1.540e-03 @@ -98088,15 +98072,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.477e-11 - Nat+ 5.477e-11 5.477e-11 -10.261 -10.261 -0.000 (0) +Nat 4.018e-11 + Nat+ 4.018e-11 4.018e-11 -10.396 -10.396 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.389 -70.353 0.036 30.40 S(-2) 3.350e-08 HS- 2.343e-08 1.542e-08 -7.630 -7.812 -0.182 21.14 H2S 1.007e-08 1.095e-08 -7.997 -7.961 0.036 36.27 - S-2 9.514e-14 2.293e-14 -13.022 -13.640 -0.618 (0) - (H2S)2 5.812e-18 6.319e-18 -17.236 -17.199 0.036 30.09 + S-2 9.515e-14 2.294e-14 -13.022 -13.639 -0.618 (0) + (H2S)2 5.813e-18 6.320e-18 -17.236 -17.199 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -98161,7 +98145,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.248e-11 Surface + diffuse layer charge, eq + -9.249e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -98171,7 +98155,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -98182,12 +98166,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.0100e-11 + Hto 8.1846e-12 I 5.6465e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5782e-12 + Nat 1.7685e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -98206,12 +98190,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.559e-11 1.008e-11 + Hto 6.936e-11 8.171e-12 I 4.793e-11 5.647e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.387e-12 5.168e-13 + Nat 3.009e-12 3.545e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -98229,7 +98213,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.837e-11 + Electrical balance (eq) = -8.838e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -98243,8 +98227,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.117e-11 - CH4 2.117e-11 2.302e-11 -10.674 -10.638 0.036 35.46 +C(-4) 2.118e-11 + CH4 2.118e-11 2.303e-11 -10.674 -10.638 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -98269,9 +98253,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.761e-11 - H2 8.803e-12 9.571e-12 -11.055 -11.019 0.036 28.61 -Hto 8.559e-11 - Hto 8.559e-11 8.559e-11 -10.068 -10.068 0.000 (0) + H2 8.804e-12 9.572e-12 -11.055 -11.019 0.036 28.61 +Hto 6.936e-11 + Hto 6.936e-11 6.936e-11 -10.159 -10.159 0.000 (0) I 4.793e-11 I- 4.793e-11 4.793e-11 -10.319 -10.319 -0.000 (0) K 1.540e-03 @@ -98289,15 +98273,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.387e-12 - Nat+ 4.387e-12 4.387e-12 -11.358 -11.358 -0.000 (0) +Nat 3.009e-12 + Nat+ 3.009e-12 3.009e-12 -11.522 -11.522 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.387 -70.351 0.036 30.40 -S(-2) 3.318e-08 +S(-2) 3.319e-08 HS- 2.321e-08 1.528e-08 -7.634 -7.816 -0.182 21.14 - H2S 9.978e-09 1.085e-08 -8.001 -7.965 0.036 36.27 - S-2 9.425e-14 2.272e-14 -13.026 -13.644 -0.618 (0) - (H2S)2 5.704e-18 6.201e-18 -17.244 -17.208 0.036 30.09 + H2S 9.980e-09 1.085e-08 -8.001 -7.965 0.036 36.27 + S-2 9.428e-14 2.273e-14 -13.026 -13.643 -0.618 (0) + (H2S)2 5.707e-18 6.204e-18 -17.244 -17.207 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -98362,7 +98346,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.235e-11 Surface + diffuse layer charge, eq + -9.239e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -98372,7 +98356,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -98383,12 +98367,12 @@ Su Ca 7.1884e-02 Cl 4.6628e-10 H 1.2949e-04 - Hto 1.1026e-12 + Hto 8.5758e-13 I 5.2628e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6920e-13 + Nat 1.0850e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -98407,12 +98391,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.344e-12 1.101e-12 + Hto 7.268e-12 8.562e-13 I 4.467e-12 5.262e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.879e-13 3.392e-14 + Nat 1.846e-13 2.175e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -98430,7 +98414,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.245e-10 + Electrical balance (eq) = 1.982e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -98444,8 +98428,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.074e-11 - CH4 2.074e-11 2.255e-11 -10.683 -10.647 0.036 35.46 +C(-4) 2.075e-11 + CH4 2.075e-11 2.256e-11 -10.683 -10.647 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -98471,8 +98455,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.752e-11 H2 8.758e-12 9.522e-12 -11.058 -11.021 0.036 28.61 -Hto 9.344e-12 - Hto 9.344e-12 9.344e-12 -11.029 -11.029 0.000 (0) +Hto 7.268e-12 + Hto 7.268e-12 7.268e-12 -11.139 -11.139 0.000 (0) I 4.467e-12 I- 4.467e-12 4.467e-12 -11.350 -11.350 -0.000 (0) K 1.540e-03 @@ -98490,15 +98474,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.879e-13 - Nat+ 2.879e-13 2.879e-13 -12.541 -12.541 -0.000 (0) +Nat 1.846e-13 + Nat+ 1.846e-13 1.846e-13 -12.734 -12.734 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.383 -70.346 0.036 30.40 S(-2) 3.251e-08 - HS- 2.273e-08 1.497e-08 -7.643 -7.825 -0.182 21.14 - H2S 9.774e-09 1.063e-08 -8.010 -7.974 0.036 36.27 - S-2 9.233e-14 2.226e-14 -13.035 -13.653 -0.618 (0) - (H2S)2 5.474e-18 5.951e-18 -17.262 -17.225 0.036 30.09 + HS- 2.274e-08 1.497e-08 -7.643 -7.825 -0.182 21.14 + H2S 9.776e-09 1.063e-08 -8.010 -7.974 0.036 36.27 + S-2 9.234e-14 2.226e-14 -13.035 -13.652 -0.618 (0) + (H2S)2 5.475e-18 5.953e-18 -17.262 -17.225 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -98563,7 +98547,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.226e-11 Surface + diffuse layer charge, eq + -9.227e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -98573,7 +98557,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -98584,12 +98568,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 1.0044e-13 - I 4.0838e-26 + Hto 7.4946e-14 + I 4.0844e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2028e-15 + Nat 5.5162e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -98608,12 +98592,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.512e-13 1.003e-13 + Hto 6.351e-13 7.483e-14 I 3.466e-13 4.083e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.566e-14 1.845e-15 + Nat 9.386e-15 1.106e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -98631,7 +98615,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.747e-10 + Electrical balance (eq) = 3.900e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -98672,8 +98656,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.747e-11 H2 8.733e-12 9.495e-12 -11.059 -11.022 0.036 28.61 -Hto 8.512e-13 - Hto 8.512e-13 8.512e-13 -12.070 -12.070 0.000 (0) +Hto 6.351e-13 + Hto 6.351e-13 6.351e-13 -12.197 -12.197 0.000 (0) I 3.466e-13 I- 3.466e-13 3.466e-13 -12.460 -12.460 -0.000 (0) K 1.540e-03 @@ -98691,15 +98675,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.566e-14 - Nat+ 1.566e-14 1.566e-14 -13.805 -13.805 -0.000 (0) +Nat 9.386e-15 + Nat+ 9.386e-15 9.386e-15 -14.027 -14.027 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.380 -70.344 0.036 30.40 S(-2) 3.215e-08 HS- 2.248e-08 1.480e-08 -7.648 -7.830 -0.182 21.14 H2S 9.666e-09 1.051e-08 -8.015 -7.978 0.036 36.27 S-2 9.130e-14 2.201e-14 -13.040 -13.657 -0.618 (0) - (H2S)2 5.352e-18 5.819e-18 -17.271 -17.235 0.036 30.09 + (H2S)2 5.353e-18 5.820e-18 -17.271 -17.235 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -98774,7 +98758,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -98785,12 +98769,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 7.6782e-15 - I 2.6557e-27 + Hto 5.4948e-15 + I 2.6553e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1795e-16 + Nat 2.3416e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -98809,12 +98793,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.507e-14 7.666e-15 + Hto 4.657e-14 5.486e-15 I 2.254e-14 2.655e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.112e-16 8.378e-17 + Nat 3.985e-16 4.694e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -98832,7 +98816,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.848e-11 + Electrical balance (eq) = 1.603e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -98873,8 +98857,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.745e-11 H2 8.727e-12 9.488e-12 -11.059 -11.023 0.036 28.61 -Hto 6.507e-14 - Hto 6.507e-14 6.507e-14 -13.187 -13.187 0.000 (0) +Hto 4.657e-14 + Hto 4.657e-14 4.657e-14 -13.332 -13.332 0.000 (0) I 2.254e-14 I- 2.254e-14 2.254e-14 -13.647 -13.647 -0.000 (0) K 1.540e-03 @@ -98892,8 +98876,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.112e-16 - Nat+ 7.112e-16 7.112e-16 -15.148 -15.148 -0.000 (0) +Nat 3.985e-16 + Nat+ 3.985e-16 3.985e-16 -15.400 -15.400 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.379 -70.343 0.036 30.40 S(-2) 3.205e-08 @@ -98975,7 +98959,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -98986,12 +98970,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 4.9411e-16 + Hto 3.3904e-16 I 1.4520e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5917e-17 + Nat 8.3351e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -99010,12 +98994,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.187e-15 4.933e-16 + Hto 2.873e-15 3.385e-16 I 1.232e-15 1.452e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.709e-17 3.191e-18 + Nat 1.418e-17 1.671e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -99033,7 +99017,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.178e-12 + Electrical balance (eq) = 4.089e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -99074,8 +99058,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.746e-11 H2 8.728e-12 9.490e-12 -11.059 -11.023 0.036 28.61 -Hto 4.187e-15 - Hto 4.187e-15 4.187e-15 -14.378 -14.378 0.000 (0) +Hto 2.873e-15 + Hto 2.873e-15 2.873e-15 -14.542 -14.542 0.000 (0) I 1.232e-15 I- 1.232e-15 1.232e-15 -14.909 -14.909 -0.000 (0) K 1.540e-03 @@ -99093,15 +99077,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.709e-17 - Nat+ 2.709e-17 2.709e-17 -16.567 -16.567 -0.000 (0) +Nat 1.418e-17 + Nat+ 1.418e-17 1.418e-17 -16.848 -16.848 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.380 -70.343 0.036 30.40 S(-2) 3.207e-08 HS- 2.243e-08 1.476e-08 -7.649 -7.831 -0.182 21.14 H2S 9.643e-09 1.048e-08 -8.016 -7.979 0.036 36.27 - S-2 9.109e-14 2.196e-14 -13.041 -13.658 -0.618 (0) - (H2S)2 5.328e-18 5.793e-18 -17.273 -17.237 0.036 30.09 + S-2 9.108e-14 2.196e-14 -13.041 -13.658 -0.618 (0) + (H2S)2 5.327e-18 5.792e-18 -17.273 -17.237 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -99176,7 +99160,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -99187,12 +99171,12 @@ Su Ca 7.1884e-02 Cl 4.6628e-10 H 1.2949e-04 - Hto 2.6782e-17 - I 6.6807e-30 + Hto 1.7617e-17 + I 6.6799e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0908e-19 + Nat 2.4915e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -99211,12 +99195,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.270e-16 2.674e-17 + Hto 1.493e-16 1.759e-17 I 5.670e-17 6.680e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.663e-19 1.021e-19 + Nat 4.240e-19 4.995e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -99234,7 +99218,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.496e-09 + Electrical balance (eq) = 1.329e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -99249,7 +99233,7 @@ Su H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.064e-11 - CH4 2.064e-11 2.245e-11 -10.685 -10.649 0.036 35.46 + CH4 2.064e-11 2.244e-11 -10.685 -10.649 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -99274,9 +99258,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.749e-11 - H2 8.747e-12 9.511e-12 -11.058 -11.022 0.036 28.61 -Hto 2.270e-16 - Hto 2.270e-16 2.270e-16 -15.644 -15.644 0.000 (0) + H2 8.747e-12 9.510e-12 -11.058 -11.022 0.036 28.61 +Hto 1.493e-16 + Hto 1.493e-16 1.493e-16 -15.826 -15.826 0.000 (0) I 5.670e-17 I- 5.670e-17 5.670e-17 -16.246 -16.246 -0.000 (0) K 1.540e-03 @@ -99294,15 +99278,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.663e-19 - Nat+ 8.663e-19 8.663e-19 -18.062 -18.062 -0.000 (0) +Nat 4.240e-19 + Nat+ 4.240e-19 4.240e-19 -18.373 -18.373 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.382 -70.345 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.381 -70.345 0.036 30.40 S(-2) 3.235e-08 - HS- 2.263e-08 1.489e-08 -7.645 -7.827 -0.182 21.14 - H2S 9.728e-09 1.058e-08 -8.012 -7.976 0.036 36.27 - S-2 9.189e-14 2.215e-14 -13.037 -13.655 -0.618 (0) - (H2S)2 5.422e-18 5.895e-18 -17.266 -17.230 0.036 30.09 + HS- 2.262e-08 1.489e-08 -7.645 -7.827 -0.182 21.14 + H2S 9.727e-09 1.058e-08 -8.012 -7.976 0.036 36.27 + S-2 9.188e-14 2.215e-14 -13.037 -13.655 -0.618 (0) + (H2S)2 5.421e-18 5.894e-18 -17.266 -17.230 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -99377,7 +99361,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -99388,12 +99372,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.2205e-18 + Hto 7.6949e-19 I 2.5822e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3656e-20 + Nat 6.2465e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -99412,12 +99396,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.034e-17 1.218e-18 + Hto 6.521e-18 7.683e-19 I 2.192e-18 2.582e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.324e-20 2.738e-21 + Nat 1.063e-20 1.252e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -99435,7 +99419,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.779e-11 + Electrical balance (eq) = -8.777e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -99450,7 +99434,7 @@ Su H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.121e-11 - CH4 2.121e-11 2.306e-11 -10.673 -10.637 0.036 35.46 + CH4 2.121e-11 2.307e-11 -10.673 -10.637 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -99475,9 +99459,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.761e-11 - H2 8.807e-12 9.575e-12 -11.055 -11.019 0.036 28.61 -Hto 1.034e-17 - Hto 1.034e-17 1.034e-17 -16.985 -16.985 0.000 (0) + H2 8.807e-12 9.576e-12 -11.055 -11.019 0.036 28.61 +Hto 6.521e-18 + Hto 6.521e-18 6.521e-18 -17.186 -17.186 0.000 (0) I 2.192e-18 I- 2.192e-18 2.192e-18 -17.659 -17.659 -0.000 (0) K 1.540e-03 @@ -99495,15 +99479,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.324e-20 - Nat+ 2.324e-20 2.324e-20 -19.634 -19.634 -0.000 (0) +Nat 1.063e-20 + Nat+ 1.063e-20 1.063e-20 -19.974 -19.974 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.387 -70.351 0.036 30.40 -S(-2) 3.324e-08 - HS- 2.325e-08 1.530e-08 -7.634 -7.815 -0.182 21.14 - H2S 9.995e-09 1.087e-08 -8.000 -7.964 0.036 36.27 - S-2 9.441e-14 2.276e-14 -13.025 -13.643 -0.618 (0) - (H2S)2 5.723e-18 6.223e-18 -17.242 -17.206 0.036 30.09 +S(-2) 3.325e-08 + HS- 2.325e-08 1.531e-08 -7.634 -7.815 -0.182 21.14 + H2S 9.996e-09 1.087e-08 -8.000 -7.964 0.036 36.27 + S-2 9.443e-14 2.276e-14 -13.025 -13.643 -0.618 (0) + (H2S)2 5.725e-18 6.224e-18 -17.242 -17.206 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -99544,7 +99528,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.46 -70.35 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.98 -0.10 4.88 S + Sulfur -4.98 -0.09 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -99578,7 +99562,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -99589,12 +99573,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 4.6548e-20 - I 8.3492e-33 + Hto 2.8127e-20 + I 8.3477e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0598e-22 + Nat 1.3072e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -99613,12 +99597,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.945e-19 4.647e-20 + Hto 2.384e-19 2.808e-20 I 7.086e-20 8.348e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.207e-22 6.134e-23 + Nat 2.224e-22 2.620e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -99636,7 +99620,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.852e-11 + Electrical balance (eq) = -8.851e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -99676,9 +99660,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.766e-11 - H2 8.828e-12 9.598e-12 -11.054 -11.018 0.036 28.61 -Hto 3.945e-19 - Hto 3.945e-19 3.945e-19 -18.404 -18.404 0.000 (0) + H2 8.828e-12 9.599e-12 -11.054 -11.018 0.036 28.61 +Hto 2.384e-19 + Hto 2.384e-19 2.384e-19 -18.623 -18.623 0.000 (0) I 7.086e-20 I- 7.086e-20 7.086e-20 -19.150 -19.150 -0.000 (0) K 1.540e-03 @@ -99696,15 +99680,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.207e-22 - Nat+ 5.207e-22 5.207e-22 -21.283 -21.283 -0.000 (0) +Nat 2.224e-22 + Nat+ 2.224e-22 2.224e-22 -21.653 -21.653 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.390 -70.353 0.036 30.40 -S(-2) 3.356e-08 +S(-2) 3.357e-08 HS- 2.347e-08 1.545e-08 -7.629 -7.811 -0.182 21.14 H2S 1.009e-08 1.097e-08 -7.996 -7.960 0.036 36.27 - S-2 9.533e-14 2.298e-14 -13.021 -13.639 -0.618 (0) - (H2S)2 5.835e-18 6.344e-18 -17.234 -17.198 0.036 30.09 + S-2 9.534e-14 2.298e-14 -13.021 -13.639 -0.618 (0) + (H2S)2 5.836e-18 6.345e-18 -17.234 -17.198 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -99779,7 +99763,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -99790,12 +99774,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.4746e-21 - I 2.2400e-34 + Hto 8.5391e-22 + I 2.2405e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.6352e-24 + Nat 2.1831e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -99814,12 +99798,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.250e-20 1.472e-21 + Hto 7.236e-21 8.525e-22 I 1.902e-21 2.240e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.589e-24 1.130e-24 + Nat 3.715e-24 4.376e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -99878,8 +99862,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.766e-11 H2 8.832e-12 9.602e-12 -11.054 -11.018 0.036 28.61 -Hto 1.250e-20 - Hto 1.250e-20 1.250e-20 -19.903 -19.903 0.000 (0) +Hto 7.236e-21 + Hto 7.236e-21 7.236e-21 -20.140 -20.140 0.000 (0) I 1.902e-21 I- 1.902e-21 1.902e-21 -20.721 -20.721 -0.000 (0) K 1.540e-03 @@ -99897,8 +99881,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.589e-24 - Nat+ 9.589e-24 9.589e-24 -23.018 -23.018 -0.000 (0) +Nat 3.715e-24 + Nat+ 3.715e-24 3.715e-24 -23.430 -23.430 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.390 -70.354 0.036 30.40 S(-2) 3.362e-08 @@ -99980,7 +99964,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -99991,8 +99975,8 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 3.8344e-23 - I 4.8673e-36 + Hto 2.1255e-23 + I 4.8665e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -100014,7 +99998,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.250e-22 3.828e-23 + Hto 1.801e-22 2.122e-23 I 4.131e-23 4.867e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -100036,7 +100020,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.857e-11 + Electrical balance (eq) = -8.856e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -100077,8 +100061,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.766e-11 H2 8.832e-12 9.603e-12 -11.054 -11.018 0.036 28.61 -Hto 3.250e-22 - Hto 3.250e-22 3.250e-22 -21.488 -21.488 0.000 (0) +Hto 1.801e-22 + Hto 1.801e-22 1.801e-22 -21.744 -21.744 0.000 (0) I 4.131e-23 I- 4.131e-23 4.131e-23 -22.384 -22.384 -0.000 (0) K 1.540e-03 @@ -100177,7 +100161,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -100188,7 +100172,7 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 7.6931e-25 + Hto 3.6363e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -100210,7 +100194,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.520e-24 7.681e-25 + Hto 3.082e-24 3.630e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -100231,7 +100215,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.857e-11 + Electrical balance (eq) = -8.856e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -100272,8 +100256,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.766e-11 H2 8.832e-12 9.603e-12 -11.054 -11.018 0.036 28.61 -Hto 6.520e-24 - Hto 6.520e-24 6.520e-24 -23.186 -23.186 0.000 (0) +Hto 3.082e-24 + Hto 3.082e-24 3.082e-24 -23.511 -23.511 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -100370,7 +100354,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -100422,7 +100406,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.856e-11 + Electrical balance (eq) = -8.858e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -100549,7 +100533,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.251e-11 Surface + diffuse layer charge, eq + -9.252e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -100559,7 +100543,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -100611,7 +100595,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.857e-11 + Electrical balance (eq) = -8.856e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -100748,7 +100732,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -101226,30 +101210,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.063e-07 3.032e-07 + Hto 6.117e-07 3.059e-07 I 7.634e-07 3.817e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.649e-07 1.825e-07 + Nat 3.741e-07 1.870e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.964 Adjusted to redox equilibrium + pe = -2.963 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.735e-13 + Electrical balance (eq) = -2.236e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -101263,8 +101247,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.225e-13 - CH4 6.225e-13 6.768e-13 -12.206 -12.170 0.036 35.46 +C(-4) 6.107e-13 + CH4 6.107e-13 6.640e-13 -12.214 -12.178 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -101288,10 +101272,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.289e-12 - H2 3.644e-12 3.962e-12 -11.438 -11.402 0.036 28.61 -Hto 6.063e-07 - Hto 6.063e-07 6.063e-07 -6.217 -6.217 0.000 (0) +H(0) 7.254e-12 + H2 3.627e-12 3.944e-12 -11.440 -11.404 0.036 28.61 +Hto 6.117e-07 + Hto 6.117e-07 6.117e-07 -6.213 -6.213 0.000 (0) I 7.634e-07 I- 7.634e-07 7.634e-07 -6.117 -6.117 -0.000 (0) K 1.540e-03 @@ -101309,15 +101293,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.649e-07 - Nat+ 3.649e-07 3.649e-07 -6.438 -6.438 -0.000 (0) +Nat 3.741e-07 + Nat+ 3.741e-07 3.741e-07 -6.427 -6.427 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.621 -69.585 0.036 30.40 -S(-2) 9.758e-10 - HS- 6.822e-10 4.491e-10 -9.166 -9.348 -0.182 21.14 - H2S 2.936e-10 3.192e-10 -9.532 -9.496 0.036 36.27 - S-2 2.769e-15 6.674e-16 -14.558 -15.176 -0.618 (0) - (H2S)2 4.938e-21 5.368e-21 -20.306 -20.270 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.617 -69.581 0.036 30.40 +S(-2) 9.574e-10 + HS- 6.694e-10 4.406e-10 -9.174 -9.356 -0.182 21.14 + H2S 2.880e-10 3.132e-10 -9.541 -9.504 0.036 36.27 + S-2 2.716e-15 6.548e-16 -14.566 -15.184 -0.618 (0) + (H2S)2 4.753e-21 5.167e-21 -20.323 -20.287 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -101344,21 +101328,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.37 -12.17 -2.80 CH4 + CH4(g) -9.38 -12.18 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.30 -11.40 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.50 -16.44 -7.94 H2S + H2S(g) -8.51 -16.45 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.69 -69.58 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.13 -1.24 4.88 S + Sulfur -6.13 -1.25 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -101382,7 +101366,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.091e-14 Surface + diffuse layer charge, eq + -4.086e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -101392,7 +101376,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -101401,14 +101385,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6660e-10 + Cl 4.6661e-10 H 1.2947e-04 - Hto 5.7803e-08 + Hto 5.7897e-08 I 7.3692e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7746e-07 + Nat 1.7895e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -101427,12 +101411,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.899e-07 5.771e-08 + Hto 4.907e-07 5.780e-08 I 6.256e-07 7.370e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.020e-07 3.557e-08 + Nat 3.045e-07 3.587e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -101443,14 +101427,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.692e-09 + Electrical balance (eq) = 1.683e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -101464,8 +101448,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.418e-12 - CH4 3.418e-12 3.717e-12 -11.466 -11.430 0.036 35.46 +C(-4) 3.386e-12 + CH4 3.386e-12 3.681e-12 -11.470 -11.434 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -101489,10 +101473,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.116e-11 - H2 5.579e-12 6.066e-12 -11.253 -11.217 0.036 28.61 -Hto 4.899e-07 - Hto 4.899e-07 4.899e-07 -6.310 -6.310 0.000 (0) +H(0) 1.113e-11 + H2 5.566e-12 6.051e-12 -11.254 -11.218 0.036 28.61 +Hto 4.907e-07 + Hto 4.907e-07 4.907e-07 -6.309 -6.309 0.000 (0) I 6.256e-07 I- 6.256e-07 6.256e-07 -6.204 -6.204 -0.000 (0) K 1.540e-03 @@ -101510,15 +101494,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.020e-07 - Nat+ 3.020e-07 3.020e-07 -6.520 -6.520 -0.000 (0) +Nat 3.045e-07 + Nat+ 3.045e-07 3.045e-07 -6.516 -6.516 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.991 -69.955 0.036 30.40 -S(-2) 5.359e-09 - HS- 3.747e-09 2.466e-09 -8.426 -8.608 -0.182 21.14 - H2S 1.612e-09 1.753e-09 -8.793 -8.756 0.036 36.27 - S-2 1.521e-14 3.665e-15 -13.818 -14.436 -0.618 (0) - (H2S)2 1.489e-19 1.619e-19 -18.827 -18.791 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.989 -69.952 0.036 30.40 +S(-2) 5.307e-09 + HS- 3.711e-09 2.443e-09 -8.431 -8.612 -0.182 21.14 + H2S 1.597e-09 1.736e-09 -8.797 -8.760 0.036 36.27 + S-2 1.506e-14 3.630e-15 -13.822 -14.440 -0.618 (0) + (H2S)2 1.460e-19 1.588e-19 -18.836 -18.799 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -101534,7 +101518,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 - SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) + SrOH+ 1.153e-10 8.077e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -101552,7 +101536,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.12 -11.22 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.76 -15.70 -7.94 H2S + H2S(g) -7.77 -15.70 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -101583,7 +101567,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.169e-11 Surface + diffuse layer charge, eq + -9.167e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -101593,7 +101577,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -101604,12 +101588,12 @@ Su Ca 7.1884e-02 Cl 4.6637e-10 H 1.2948e-04 - Hto 2.7688e-08 + Hto 2.7063e-08 I 3.1870e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.7222e-08 + Nat 6.4184e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -101628,12 +101612,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.346e-07 2.764e-08 + Hto 2.293e-07 2.702e-08 I 2.705e-07 3.187e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.144e-07 1.348e-08 + Nat 1.092e-07 1.287e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -101651,7 +101635,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.438e-09 + Electrical balance (eq) = 4.405e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307864e+01 @@ -101691,9 +101675,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.642e-09 -8.403 -8.249 0.155 (0) H(0) 1.638e-11 - H2 8.191e-12 8.905e-12 -11.087 -11.050 0.036 28.61 -Hto 2.346e-07 - Hto 2.346e-07 2.346e-07 -6.630 -6.630 0.000 (0) + H2 8.191e-12 8.906e-12 -11.087 -11.050 0.036 28.61 +Hto 2.293e-07 + Hto 2.293e-07 2.293e-07 -6.640 -6.640 0.000 (0) I 2.705e-07 I- 2.705e-07 2.705e-07 -6.568 -6.568 -0.000 (0) K 1.540e-03 @@ -101711,15 +101695,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.144e-07 - Nat+ 1.144e-07 1.144e-07 -6.942 -6.942 -0.000 (0) +Nat 1.092e-07 + Nat+ 1.092e-07 1.092e-07 -6.962 -6.962 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.324 -70.288 0.036 30.40 S(-2) 2.488e-08 - HS- 1.740e-08 1.145e-08 -7.760 -7.941 -0.182 21.14 - H2S 7.481e-09 8.134e-09 -8.126 -8.090 0.036 36.27 - S-2 7.064e-14 1.703e-14 -13.151 -13.769 -0.618 (0) - (H2S)2 3.207e-18 3.486e-18 -17.494 -17.458 0.036 30.09 + HS- 1.740e-08 1.145e-08 -7.759 -7.941 -0.182 21.14 + H2S 7.482e-09 8.135e-09 -8.126 -8.090 0.036 36.27 + S-2 7.065e-14 1.703e-14 -13.151 -13.769 -0.618 (0) + (H2S)2 3.207e-18 3.487e-18 -17.494 -17.458 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -101784,7 +101768,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.291e-11 Surface + diffuse layer charge, eq + -9.290e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -101794,7 +101778,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -101805,12 +101789,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 9.7362e-09 - I 9.9080e-21 + Hto 9.2216e-09 + I 9.9096e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6492e-08 + Nat 1.4800e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -101829,12 +101813,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.251e-08 9.720e-09 + Hto 7.815e-08 9.207e-09 I 8.410e-08 9.907e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.806e-08 3.306e-09 + Nat 2.518e-08 2.967e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -101852,7 +101836,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.811e-10 + Electrical balance (eq) = -1.810e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -101866,8 +101850,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.028e-11 - CH4 2.028e-11 2.205e-11 -10.693 -10.657 0.036 35.46 +C(-4) 2.029e-11 + CH4 2.029e-11 2.206e-11 -10.693 -10.656 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -101892,9 +101876,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.742e-11 - H2 8.709e-12 9.468e-12 -11.060 -11.024 0.036 28.61 -Hto 8.251e-08 - Hto 8.251e-08 8.251e-08 -7.083 -7.083 0.000 (0) + H2 8.709e-12 9.469e-12 -11.060 -11.024 0.036 28.61 +Hto 7.815e-08 + Hto 7.815e-08 7.815e-08 -7.107 -7.107 0.000 (0) I 8.410e-08 I- 8.410e-08 8.410e-08 -7.075 -7.075 -0.000 (0) K 1.540e-03 @@ -101912,15 +101896,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.806e-08 - Nat+ 2.806e-08 2.806e-08 -7.552 -7.552 -0.000 (0) +Nat 2.518e-08 + Nat+ 2.518e-08 2.518e-08 -7.599 -7.599 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.378 -70.341 0.036 30.40 S(-2) 3.179e-08 - HS- 2.223e-08 1.463e-08 -7.653 -7.835 -0.182 21.14 - H2S 9.557e-09 1.039e-08 -8.020 -7.983 0.036 36.27 - S-2 9.028e-14 2.176e-14 -13.044 -13.662 -0.618 (0) - (H2S)2 5.233e-18 5.690e-18 -17.281 -17.245 0.036 30.09 + HS- 2.223e-08 1.464e-08 -7.653 -7.835 -0.182 21.14 + H2S 9.560e-09 1.039e-08 -8.020 -7.983 0.036 36.27 + S-2 9.030e-14 2.177e-14 -13.044 -13.662 -0.618 (0) + (H2S)2 5.236e-18 5.692e-18 -17.281 -17.245 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -101954,7 +101938,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.92 -11.02 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.99 -14.93 -7.94 H2S + H2S(g) -6.99 -14.92 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -101995,7 +101979,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -102006,12 +101990,12 @@ Su Ca 7.1884e-02 Cl 4.6626e-10 H 1.2949e-04 - Hto 2.6134e-09 - I 2.3198e-21 + Hto 2.3891e-09 + I 2.3202e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8975e-09 + Nat 2.4369e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -102030,12 +102014,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.215e-08 2.609e-09 + Hto 2.025e-08 2.385e-09 I 1.969e-08 2.320e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.930e-09 5.809e-10 + Nat 4.147e-09 4.885e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -102093,9 +102077,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.775e-11 - H2 8.875e-12 9.650e-12 -11.052 -11.015 0.036 28.61 -Hto 2.215e-08 - Hto 2.215e-08 2.215e-08 -7.655 -7.655 0.000 (0) + H2 8.876e-12 9.650e-12 -11.052 -11.015 0.036 28.61 +Hto 2.025e-08 + Hto 2.025e-08 2.025e-08 -7.694 -7.694 0.000 (0) I 1.969e-08 I- 1.969e-08 1.969e-08 -7.706 -7.706 -0.000 (0) K 1.540e-03 @@ -102113,15 +102097,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.930e-09 - Nat+ 4.930e-09 4.930e-09 -8.307 -8.307 -0.000 (0) +Nat 4.147e-09 + Nat+ 4.147e-09 4.147e-09 -8.382 -8.382 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.394 -70.358 0.036 30.40 -S(-2) 3.429e-08 - HS- 2.398e-08 1.578e-08 -7.620 -7.802 -0.182 21.14 +S(-2) 3.430e-08 + HS- 2.398e-08 1.579e-08 -7.620 -7.802 -0.182 21.14 H2S 1.031e-08 1.121e-08 -7.987 -7.950 0.036 36.27 - S-2 9.739e-14 2.348e-14 -13.012 -13.629 -0.618 (0) - (H2S)2 6.089e-18 6.620e-18 -17.215 -17.179 0.036 30.09 + S-2 9.741e-14 2.348e-14 -13.011 -13.629 -0.618 (0) + (H2S)2 6.092e-18 6.624e-18 -17.215 -17.179 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -102186,7 +102170,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -9.290e-11 Surface + diffuse layer charge, eq + -9.289e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -102196,7 +102180,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -102207,12 +102191,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 5.5241e-10 - I 4.2419e-22 + Hto 4.8629e-10 + I 4.2409e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8665e-10 + Nat 3.0438e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -102231,12 +102215,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.681e-09 5.515e-10 + Hto 4.121e-09 4.855e-10 I 3.600e-09 4.241e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.579e-10 7.751e-11 + Nat 5.179e-10 6.102e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -102295,8 +102279,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.784e-11 H2 8.922e-12 9.700e-12 -11.050 -11.013 0.036 28.61 -Hto 4.681e-09 - Hto 4.681e-09 4.681e-09 -8.330 -8.330 0.000 (0) +Hto 4.121e-09 + Hto 4.121e-09 4.121e-09 -8.385 -8.385 0.000 (0) I 3.600e-09 I- 3.600e-09 3.600e-09 -8.444 -8.444 -0.000 (0) K 1.540e-03 @@ -102314,15 +102298,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.579e-10 - Nat+ 6.579e-10 6.579e-10 -9.182 -9.182 -0.000 (0) +Nat 5.179e-10 + Nat+ 5.179e-10 5.179e-10 -9.286 -9.286 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.399 -70.362 0.036 30.40 S(-2) 3.501e-08 - HS- 2.448e-08 1.612e-08 -7.611 -7.793 -0.182 21.14 - H2S 1.053e-08 1.144e-08 -7.978 -7.941 0.036 36.27 - S-2 9.943e-14 2.397e-14 -13.002 -13.620 -0.618 (0) - (H2S)2 6.347e-18 6.901e-18 -17.197 -17.161 0.036 30.09 + HS- 2.449e-08 1.612e-08 -7.611 -7.793 -0.182 21.14 + H2S 1.053e-08 1.145e-08 -7.978 -7.941 0.036 36.27 + S-2 9.945e-14 2.397e-14 -13.002 -13.620 -0.618 (0) + (H2S)2 6.349e-18 6.903e-18 -17.197 -17.161 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -102387,7 +102371,7 @@ Kinetics 9. Diffuse Double Layer Surface-Complexation Model Su - -9.282e-11 Surface + diffuse layer charge, eq + -9.283e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -102397,7 +102381,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -102408,12 +102392,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 9.4138e-11 + Hto 7.9683e-11 I 6.2155e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0681e-11 + Nat 2.9959e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -102432,12 +102416,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.978e-10 9.399e-11 + Hto 6.753e-10 7.955e-11 I 5.276e-10 6.216e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.922e-11 8.155e-12 + Nat 5.098e-11 6.006e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -102469,8 +102453,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.238e-11 - CH4 2.238e-11 2.434e-11 -10.650 -10.614 0.036 35.46 +C(-4) 2.239e-11 + CH4 2.239e-11 2.434e-11 -10.650 -10.614 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -102495,9 +102479,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.785e-11 - H2 8.926e-12 9.705e-12 -11.049 -11.013 0.036 28.61 -Hto 7.978e-10 - Hto 7.978e-10 7.978e-10 -9.098 -9.098 0.000 (0) + H2 8.927e-12 9.705e-12 -11.049 -11.013 0.036 28.61 +Hto 6.753e-10 + Hto 6.753e-10 6.753e-10 -9.171 -9.171 0.000 (0) I 5.276e-10 I- 5.276e-10 5.276e-10 -9.278 -9.278 -0.000 (0) K 1.540e-03 @@ -102515,15 +102499,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.922e-11 - Nat+ 6.922e-11 6.922e-11 -10.160 -10.160 -0.000 (0) +Nat 5.098e-11 + Nat+ 5.098e-11 5.098e-11 -10.293 -10.293 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.399 -70.363 0.036 30.40 S(-2) 3.508e-08 - HS- 2.453e-08 1.615e-08 -7.610 -7.792 -0.182 21.14 - H2S 1.055e-08 1.147e-08 -7.977 -7.941 0.036 36.27 - S-2 9.964e-14 2.402e-14 -13.002 -13.619 -0.618 (0) - (H2S)2 6.373e-18 6.929e-18 -17.196 -17.159 0.036 30.09 + HS- 2.454e-08 1.615e-08 -7.610 -7.792 -0.182 21.14 + H2S 1.055e-08 1.147e-08 -7.977 -7.940 0.036 36.27 + S-2 9.965e-14 2.402e-14 -13.002 -13.619 -0.618 (0) + (H2S)2 6.375e-18 6.931e-18 -17.196 -17.159 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -102598,7 +102582,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -102609,12 +102593,12 @@ Su Ca 7.1884e-02 Cl 4.6626e-10 H 1.2949e-04 - Hto 1.3161e-11 - I 7.4430e-24 + Hto 1.0701e-11 + I 7.4446e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4606e-12 + Nat 2.3832e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -102633,12 +102617,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.115e-10 1.314e-11 + Hto 9.069e-11 1.068e-11 I 6.318e-11 7.443e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.889e-12 6.937e-13 + Nat 4.055e-12 4.778e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -102671,7 +102655,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.219e-11 - CH4 2.219e-11 2.412e-11 -10.654 -10.618 0.036 35.46 + CH4 2.219e-11 2.413e-11 -10.654 -10.618 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -102696,9 +102680,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.781e-11 - H2 8.906e-12 9.683e-12 -11.050 -11.014 0.036 28.61 -Hto 1.115e-10 - Hto 1.115e-10 1.115e-10 -9.953 -9.953 0.000 (0) + H2 8.907e-12 9.684e-12 -11.050 -11.014 0.036 28.61 +Hto 9.069e-11 + Hto 9.069e-11 9.069e-11 -10.042 -10.042 0.000 (0) I 6.318e-11 I- 6.318e-11 6.318e-11 -10.199 -10.199 -0.000 (0) K 1.540e-03 @@ -102716,15 +102700,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.889e-12 - Nat+ 5.889e-12 5.889e-12 -11.230 -11.230 -0.000 (0) +Nat 4.055e-12 + Nat+ 4.055e-12 4.055e-12 -11.392 -11.392 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.397 -70.361 0.036 30.40 -S(-2) 3.477e-08 - HS- 2.431e-08 1.601e-08 -7.614 -7.796 -0.182 21.14 - H2S 1.045e-08 1.137e-08 -7.981 -7.944 0.036 36.27 - S-2 9.875e-14 2.380e-14 -13.005 -13.623 -0.618 (0) - (H2S)2 6.260e-18 6.807e-18 -17.203 -17.167 0.036 30.09 +S(-2) 3.478e-08 + HS- 2.432e-08 1.601e-08 -7.614 -7.796 -0.182 21.14 + H2S 1.046e-08 1.137e-08 -7.981 -7.944 0.036 36.27 + S-2 9.878e-14 2.381e-14 -13.005 -13.623 -0.618 (0) + (H2S)2 6.263e-18 6.810e-18 -17.203 -17.167 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -102789,7 +102773,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.264e-11 Surface + diffuse layer charge, eq + -9.268e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -102799,7 +102783,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -102810,12 +102794,12 @@ Su Ca 7.1884e-02 Cl 4.6626e-10 H 1.2949e-04 - Hto 1.5288e-12 - I 7.3873e-25 + Hto 1.1933e-12 + I 7.3863e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4217e-13 + Nat 1.5592e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -102834,12 +102818,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.296e-11 1.526e-12 + Hto 1.011e-11 1.191e-12 I 6.269e-12 7.385e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.121e-13 4.855e-14 + Nat 2.653e-13 3.126e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -102857,7 +102841,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.322e-10 + Electrical balance (eq) = 1.889e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -102871,8 +102855,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.177e-11 - CH4 2.177e-11 2.367e-11 -10.662 -10.626 0.036 35.46 +C(-4) 2.178e-11 + CH4 2.178e-11 2.367e-11 -10.662 -10.626 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -102898,8 +102882,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.773e-11 H2 8.865e-12 9.638e-12 -11.052 -11.016 0.036 28.61 -Hto 1.296e-11 - Hto 1.296e-11 1.296e-11 -10.888 -10.888 0.000 (0) +Hto 1.011e-11 + Hto 1.011e-11 1.011e-11 -10.995 -10.995 0.000 (0) I 6.269e-12 I- 6.269e-12 6.269e-12 -11.203 -11.203 -0.000 (0) K 1.540e-03 @@ -102917,15 +102901,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.121e-13 - Nat+ 4.121e-13 4.121e-13 -12.385 -12.385 -0.000 (0) +Nat 2.653e-13 + Nat+ 2.653e-13 2.653e-13 -12.576 -12.576 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.393 -70.357 0.036 30.40 S(-2) 3.412e-08 HS- 2.386e-08 1.571e-08 -7.622 -7.804 -0.182 21.14 - H2S 1.026e-08 1.115e-08 -7.989 -7.953 0.036 36.27 - S-2 9.691e-14 2.336e-14 -13.014 -13.632 -0.618 (0) - (H2S)2 6.030e-18 6.556e-18 -17.220 -17.183 0.036 30.09 + H2S 1.026e-08 1.116e-08 -7.989 -7.953 0.036 36.27 + S-2 9.693e-14 2.336e-14 -13.014 -13.631 -0.618 (0) + (H2S)2 6.031e-18 6.558e-18 -17.220 -17.183 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -102990,7 +102974,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.255e-11 Surface + diffuse layer charge, eq + -9.256e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -103000,7 +102984,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -103011,12 +102995,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.4891e-13 + Hto 1.1153e-13 I 6.1317e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4109e-14 + Nat 8.4919e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -103035,12 +103019,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.262e-12 1.487e-13 + Hto 9.452e-13 1.113e-13 I 5.205e-13 6.132e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.401e-14 2.828e-15 + Nat 1.445e-14 1.702e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -103058,7 +103042,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.824e-10 + Electrical balance (eq) = 2.977e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -103099,8 +103083,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.768e-11 H2 8.841e-12 9.612e-12 -11.054 -11.017 0.036 28.61 -Hto 1.262e-12 - Hto 1.262e-12 1.262e-12 -11.899 -11.899 0.000 (0) +Hto 9.452e-13 + Hto 9.452e-13 9.452e-13 -12.024 -12.024 0.000 (0) I 5.205e-13 I- 5.205e-13 5.205e-13 -12.284 -12.284 -0.000 (0) K 1.540e-03 @@ -103118,13 +103102,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.401e-14 - Nat+ 2.401e-14 2.401e-14 -13.620 -13.620 -0.000 (0) +Nat 1.445e-14 + Nat+ 1.445e-14 1.445e-14 -13.840 -13.840 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.391 -70.354 0.036 30.40 S(-2) 3.376e-08 HS- 2.361e-08 1.554e-08 -7.627 -7.809 -0.182 21.14 - H2S 1.015e-08 1.103e-08 -7.994 -7.957 0.036 36.27 + H2S 1.015e-08 1.104e-08 -7.994 -7.957 0.036 36.27 S-2 9.588e-14 2.311e-14 -13.018 -13.636 -0.618 (0) (H2S)2 5.902e-18 6.417e-18 -17.229 -17.193 0.036 30.09 S(6) 1.260e-02 @@ -103201,7 +103185,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -103212,12 +103196,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.2240e-14 - I 4.2898e-27 + Hto 8.7929e-15 + I 4.2890e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.8993e-16 + Nat 3.8816e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -103236,12 +103220,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.037e-13 1.222e-14 + Hto 7.452e-14 8.779e-15 I 3.641e-14 4.289e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.174e-15 1.383e-16 + Nat 6.605e-16 7.781e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -103259,7 +103243,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.375e-11 + Electrical balance (eq) = -7.621e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -103300,8 +103284,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.767e-11 H2 8.834e-12 9.605e-12 -11.054 -11.018 0.036 28.61 -Hto 1.037e-13 - Hto 1.037e-13 1.037e-13 -12.984 -12.984 0.000 (0) +Hto 7.452e-14 + Hto 7.452e-14 7.452e-14 -13.128 -13.128 0.000 (0) I 3.641e-14 I- 3.641e-14 3.641e-14 -13.439 -13.439 -0.000 (0) K 1.540e-03 @@ -103319,8 +103303,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.174e-15 - Nat+ 1.174e-15 1.174e-15 -14.930 -14.930 -0.000 (0) +Nat 6.605e-16 + Nat+ 6.605e-16 6.605e-16 -15.180 -15.180 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.390 -70.354 0.036 30.40 S(-2) 3.365e-08 @@ -103402,7 +103386,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -103413,12 +103397,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 8.5216e-16 - I 2.5377e-28 + Hto 5.8703e-16 + I 2.5382e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8461e-17 + Nat 1.4967e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -103437,12 +103421,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.222e-15 8.508e-16 + Hto 4.975e-15 5.861e-16 I 2.154e-15 2.538e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.843e-17 5.706e-18 + Nat 2.547e-17 3.000e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -103460,7 +103444,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.805e-11 + Electrical balance (eq) = -8.814e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -103501,8 +103485,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.767e-11 H2 8.836e-12 9.607e-12 -11.054 -11.017 0.036 28.61 -Hto 7.222e-15 - Hto 7.222e-15 7.222e-15 -14.141 -14.141 0.000 (0) +Hto 4.975e-15 + Hto 4.975e-15 4.975e-15 -14.303 -14.303 0.000 (0) I 2.154e-15 I- 2.154e-15 2.154e-15 -14.667 -14.667 -0.000 (0) K 1.540e-03 @@ -103520,15 +103504,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.843e-17 - Nat+ 4.843e-17 4.843e-17 -16.315 -16.315 -0.000 (0) +Nat 2.547e-17 + Nat+ 2.547e-17 2.547e-17 -16.594 -16.594 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.390 -70.354 0.036 30.40 S(-2) 3.368e-08 - HS- 2.355e-08 1.551e-08 -7.628 -7.809 -0.182 21.14 + HS- 2.355e-08 1.551e-08 -7.628 -7.810 -0.182 21.14 H2S 1.013e-08 1.101e-08 -7.995 -7.958 0.036 36.27 - S-2 9.567e-14 2.306e-14 -13.019 -13.637 -0.618 (0) - (H2S)2 5.876e-18 6.389e-18 -17.231 -17.195 0.036 30.09 + S-2 9.566e-14 2.306e-14 -13.019 -13.637 -0.618 (0) + (H2S)2 5.875e-18 6.388e-18 -17.231 -17.195 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -103603,7 +103587,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -103614,12 +103598,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 5.0331e-17 - I 1.2728e-29 + Hto 3.3241e-17 + I 1.2733e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.9292e-19 + Nat 4.8802e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -103638,12 +103622,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.265e-16 5.025e-17 + Hto 2.817e-16 3.319e-17 I 1.080e-16 1.273e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.690e-18 1.990e-19 + Nat 8.304e-19 9.783e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -103661,7 +103645,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.404e-09 + Electrical balance (eq) = 1.237e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -103702,8 +103686,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.771e-11 H2 8.855e-12 9.628e-12 -11.053 -11.016 0.036 28.61 -Hto 4.265e-16 - Hto 4.265e-16 4.265e-16 -15.370 -15.370 0.000 (0) +Hto 2.817e-16 + Hto 2.817e-16 2.817e-16 -15.550 -15.550 0.000 (0) I 1.080e-16 I- 1.080e-16 1.080e-16 -15.966 -15.966 -0.000 (0) K 1.540e-03 @@ -103721,15 +103705,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.690e-18 - Nat+ 1.690e-18 1.690e-18 -17.772 -17.772 -0.000 (0) +Nat 8.304e-19 + Nat+ 8.304e-19 8.304e-19 -18.081 -18.081 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.392 -70.356 0.036 30.40 S(-2) 3.398e-08 HS- 2.376e-08 1.564e-08 -7.624 -7.806 -0.182 21.14 H2S 1.022e-08 1.111e-08 -7.991 -7.954 0.036 36.27 - S-2 9.651e-14 2.326e-14 -13.015 -13.633 -0.618 (0) - (H2S)2 5.980e-18 6.502e-18 -17.223 -17.187 0.036 30.09 + S-2 9.650e-14 2.326e-14 -13.015 -13.633 -0.618 (0) + (H2S)2 5.979e-18 6.500e-18 -17.223 -17.187 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -103804,7 +103788,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -103815,12 +103799,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 2.5205e-18 - I 5.4090e-31 + Hto 1.5957e-18 + I 5.4080e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9297e-20 + Nat 1.3458e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -103839,12 +103823,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.136e-17 2.516e-18 + Hto 1.352e-17 1.593e-18 I 4.591e-18 5.408e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.985e-20 5.873e-21 + Nat 2.290e-20 2.698e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -103877,7 +103861,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.222e-11 - CH4 2.222e-11 2.415e-11 -10.653 -10.617 0.036 35.46 + CH4 2.222e-11 2.416e-11 -10.653 -10.617 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -103902,9 +103886,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.782e-11 - H2 8.909e-12 9.687e-12 -11.050 -11.014 0.036 28.61 -Hto 2.136e-17 - Hto 2.136e-17 2.136e-17 -16.670 -16.670 0.000 (0) + H2 8.910e-12 9.687e-12 -11.050 -11.014 0.036 28.61 +Hto 1.352e-17 + Hto 1.352e-17 1.352e-17 -16.869 -16.869 0.000 (0) I 4.591e-18 I- 4.591e-18 4.591e-18 -17.338 -17.338 -0.000 (0) K 1.540e-03 @@ -103922,15 +103906,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.985e-20 - Nat+ 4.985e-20 4.985e-20 -19.302 -19.302 -0.000 (0) +Nat 2.290e-20 + Nat+ 2.290e-20 2.290e-20 -19.640 -19.640 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.397 -70.361 0.036 30.40 S(-2) 3.482e-08 - HS- 2.435e-08 1.603e-08 -7.614 -7.795 -0.182 21.14 + HS- 2.435e-08 1.603e-08 -7.613 -7.795 -0.182 21.14 H2S 1.047e-08 1.138e-08 -7.980 -7.944 0.036 36.27 - S-2 9.889e-14 2.384e-14 -13.005 -13.623 -0.618 (0) - (H2S)2 6.278e-18 6.825e-18 -17.202 -17.166 0.036 30.09 + S-2 9.890e-14 2.384e-14 -13.005 -13.623 -0.618 (0) + (H2S)2 6.280e-18 6.827e-18 -17.202 -17.166 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -104005,7 +103989,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -104016,12 +104000,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 1.0672e-19 - I 1.9416e-32 + Hto 6.4757e-20 + I 1.9419e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2938e-22 + Nat 3.1307e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -104040,12 +104024,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.044e-19 1.066e-19 + Hto 5.488e-19 6.465e-20 I 1.648e-19 1.942e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.241e-21 1.462e-22 + Nat 5.327e-22 6.276e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -104104,8 +104088,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.786e-11 H2 8.931e-12 9.710e-12 -11.049 -11.013 0.036 28.61 -Hto 9.044e-19 - Hto 9.044e-19 9.044e-19 -18.044 -18.044 0.000 (0) +Hto 5.488e-19 + Hto 5.488e-19 5.488e-19 -18.261 -18.261 0.000 (0) I 1.648e-19 I- 1.648e-19 1.648e-19 -18.783 -18.783 -0.000 (0) K 1.540e-03 @@ -104123,15 +104107,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.241e-21 - Nat+ 1.241e-21 1.241e-21 -20.906 -20.906 -0.000 (0) +Nat 5.327e-22 + Nat+ 5.327e-22 5.327e-22 -21.274 -21.274 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.400 -70.363 0.036 30.40 S(-2) 3.515e-08 HS- 2.458e-08 1.618e-08 -7.609 -7.791 -0.182 21.14 H2S 1.057e-08 1.149e-08 -7.976 -7.940 0.036 36.27 - S-2 9.984e-14 2.407e-14 -13.001 -13.619 -0.618 (0) - (H2S)2 6.400e-18 6.958e-18 -17.194 -17.158 0.036 30.09 + S-2 9.985e-14 2.407e-14 -13.001 -13.619 -0.618 (0) + (H2S)2 6.400e-18 6.959e-18 -17.194 -17.157 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -104206,7 +104190,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -104217,12 +104201,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 3.8008e-21 - I 5.8615e-34 + Hto 2.2102e-21 + I 5.8605e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5197e-23 + Nat 6.0313e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -104241,12 +104225,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.221e-20 3.795e-21 + Hto 1.873e-20 2.207e-21 I 4.974e-21 5.860e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.586e-23 3.046e-24 + Nat 1.026e-23 1.209e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -104305,8 +104289,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.787e-11 H2 8.935e-12 9.714e-12 -11.049 -11.013 0.036 28.61 -Hto 3.221e-20 - Hto 3.221e-20 3.221e-20 -19.492 -19.492 0.000 (0) +Hto 1.873e-20 + Hto 1.873e-20 1.873e-20 -19.727 -19.727 0.000 (0) I 4.974e-21 I- 4.974e-21 4.974e-21 -20.303 -20.303 -0.000 (0) K 1.540e-03 @@ -104324,8 +104308,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.586e-23 - Nat+ 2.586e-23 2.586e-23 -22.587 -22.587 -0.000 (0) +Nat 1.026e-23 + Nat+ 1.026e-23 1.026e-23 -22.989 -22.989 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.400 -70.364 0.036 30.40 S(-2) 3.522e-08 @@ -104407,7 +104391,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -104418,12 +104402,11 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 1.1291e-22 - I 1.4682e-35 + Hto 6.2894e-23 + I 1.4679e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5230e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -104442,12 +104425,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.568e-22 1.127e-22 + Hto 5.330e-22 6.279e-23 I 1.246e-22 1.468e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.592e-25 3.053e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -104506,8 +104488,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.787e-11 H2 8.935e-12 9.715e-12 -11.049 -11.013 0.036 28.61 -Hto 9.568e-22 - Hto 9.568e-22 9.568e-22 -21.019 -21.019 0.000 (0) +Hto 5.330e-22 + Hto 5.330e-22 5.330e-22 -21.273 -21.273 0.000 (0) I 1.246e-22 I- 1.246e-22 1.246e-22 -21.904 -21.904 -0.000 (0) K 1.540e-03 @@ -104525,8 +104507,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.592e-25 - Nat+ 2.592e-25 2.592e-25 -24.586 -24.586 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.400 -70.364 0.036 30.40 S(-2) 3.522e-08 @@ -104598,7 +104578,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -9.280e-11 Surface + diffuse layer charge, eq + -9.281e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -104608,7 +104588,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -104619,8 +104599,8 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 2.7313e-24 - I 2.2288e-37 + Hto 1.4166e-24 + I 2.2293e-37 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -104642,7 +104622,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.315e-23 2.727e-24 + Hto 1.201e-23 1.414e-24 I 1.892e-24 2.229e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -104705,8 +104685,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.787e-11 H2 8.935e-12 9.715e-12 -11.049 -11.013 0.036 28.61 -Hto 2.315e-23 - Hto 2.315e-23 2.315e-23 -22.636 -22.636 0.000 (0) +Hto 1.201e-23 + Hto 1.201e-23 1.201e-23 -22.921 -22.921 0.000 (0) I 1.892e-24 I- 1.892e-24 1.892e-24 -23.723 -23.723 -0.000 (0) K 1.540e-03 @@ -104795,7 +104775,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -9.281e-11 Surface + diffuse layer charge, eq + -9.280e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -104805,7 +104785,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -104984,7 +104964,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.280e-11 Surface + diffuse layer charge, eq + -9.281e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -104994,7 +104974,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -105173,7 +105153,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -9.280e-11 Surface + diffuse layer charge, eq + -9.281e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -105183,7 +105163,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -105661,30 +105641,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 6.005e-07 3.002e-07 + Hto 6.059e-07 3.029e-07 I 7.595e-07 3.797e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.592e-07 1.796e-07 + Nat 3.681e-07 1.840e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.971 Adjusted to redox equilibrium + pe = -2.970 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.885e-13 + Electrical balance (eq) = -2.378e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -105698,8 +105678,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.108e-13 - CH4 7.108e-13 7.728e-13 -12.148 -12.112 0.036 35.46 +C(-4) 6.969e-13 + CH4 6.969e-13 7.577e-13 -12.157 -12.121 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -105723,10 +105703,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.535e-12 - H2 3.767e-12 4.096e-12 -11.424 -11.388 0.036 28.61 -Hto 6.005e-07 - Hto 6.005e-07 6.005e-07 -6.222 -6.222 0.000 (0) +H(0) 7.498e-12 + H2 3.749e-12 4.076e-12 -11.426 -11.390 0.036 28.61 +Hto 6.059e-07 + Hto 6.059e-07 6.059e-07 -6.218 -6.218 0.000 (0) I 7.595e-07 I- 7.595e-07 7.595e-07 -6.119 -6.119 -0.000 (0) K 1.540e-03 @@ -105744,15 +105724,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.592e-07 - Nat+ 3.592e-07 3.592e-07 -6.445 -6.445 -0.000 (0) +Nat 3.681e-07 + Nat+ 3.681e-07 3.681e-07 -6.434 -6.434 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.650 -69.614 0.036 30.40 -S(-2) 1.114e-09 - HS- 7.791e-10 5.129e-10 -9.108 -9.290 -0.182 21.14 - H2S 3.352e-10 3.645e-10 -9.475 -9.438 0.036 36.27 - S-2 3.162e-15 7.621e-16 -14.500 -15.118 -0.618 (0) - (H2S)2 6.439e-21 7.000e-21 -20.191 -20.155 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.646 -69.609 0.036 30.40 +S(-2) 1.093e-09 + HS- 7.638e-10 5.028e-10 -9.117 -9.299 -0.182 21.14 + H2S 3.287e-10 3.573e-10 -9.483 -9.447 0.036 36.27 + S-2 3.100e-15 7.472e-16 -14.509 -15.127 -0.618 (0) + (H2S)2 6.189e-21 6.729e-21 -20.208 -20.172 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -105779,21 +105759,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.31 -12.11 -2.80 CH4 + CH4(g) -9.32 -12.12 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.29 -11.39 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.44 -16.38 -7.94 H2S + H2S(g) -8.45 -16.39 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.72 -69.61 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.08 -1.20 4.88 S + Sulfur -6.09 -1.21 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -105817,7 +105797,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.197e-14 Surface + diffuse layer charge, eq + -4.180e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -105827,7 +105807,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -105838,12 +105818,12 @@ Su Ca 7.1884e-02 Cl 4.6660e-10 H 1.2947e-04 - Hto 5.7662e-08 - I 7.3785e-20 + Hto 5.7781e-08 + I 7.3758e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7628e-07 + Nat 1.7794e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -105862,30 +105842,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.887e-07 5.757e-08 + Hto 4.897e-07 5.769e-08 I 6.261e-07 7.377e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.000e-07 3.534e-08 + Nat 3.028e-07 3.567e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.061 Adjusted to redox equilibrium + pe = -3.060 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.682e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -105899,8 +105879,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.711e-12 - CH4 3.711e-12 4.034e-12 -11.431 -11.394 0.036 35.46 +C(-4) 3.676e-12 + CH4 3.676e-12 3.996e-12 -11.435 -11.398 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -105924,10 +105904,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.139e-11 - H2 5.695e-12 6.192e-12 -11.245 -11.208 0.036 28.61 -Hto 4.887e-07 - Hto 4.887e-07 4.887e-07 -6.311 -6.311 0.000 (0) +H(0) 1.136e-11 + H2 5.681e-12 6.177e-12 -11.246 -11.209 0.036 28.61 +Hto 4.897e-07 + Hto 4.897e-07 4.897e-07 -6.310 -6.310 0.000 (0) I 6.261e-07 I- 6.261e-07 6.261e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -105945,15 +105925,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.000e-07 - Nat+ 3.000e-07 3.000e-07 -6.523 -6.523 -0.000 (0) +Nat 3.028e-07 + Nat+ 3.028e-07 3.028e-07 -6.519 -6.519 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.009 -69.972 0.036 30.40 -S(-2) 5.817e-09 - HS- 4.067e-09 2.677e-09 -8.391 -8.572 -0.182 21.14 - H2S 1.750e-09 1.903e-09 -8.757 -8.721 0.036 36.27 - S-2 1.651e-14 3.979e-15 -13.782 -14.400 -0.618 (0) - (H2S)2 1.754e-19 1.907e-19 -18.756 -18.720 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.007 -69.970 0.036 30.40 +S(-2) 5.762e-09 + HS- 4.029e-09 2.652e-09 -8.395 -8.576 -0.182 21.14 + H2S 1.733e-09 1.885e-09 -8.761 -8.725 0.036 36.27 + S-2 1.635e-14 3.941e-15 -13.786 -14.404 -0.618 (0) + (H2S)2 1.721e-19 1.872e-19 -18.764 -18.728 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -105980,21 +105960,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.59 -11.39 -2.80 CH4 + CH4(g) -8.60 -11.40 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.11 -11.21 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.73 -15.66 -7.94 H2S + H2S(g) -7.73 -15.67 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.08 -69.97 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.54 -0.66 4.88 S + Sulfur -5.55 -0.67 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -106018,7 +105998,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.189e-11 Surface + diffuse layer charge, eq + -9.187e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -106028,7 +106008,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -106039,12 +106019,12 @@ Su Ca 7.1884e-02 Cl 4.6636e-10 H 1.2948e-04 - Hto 2.8336e-08 + Hto 2.7729e-08 I 3.2776e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.9153e-08 + Nat 6.6175e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -106063,12 +106043,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.401e-07 2.829e-08 + Hto 2.350e-07 2.768e-08 I 2.782e-07 3.278e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.177e-07 1.386e-08 + Nat 1.126e-07 1.327e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -106086,7 +106066,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.347e-09 + Electrical balance (eq) = 4.313e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -106100,8 +106080,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.658e-11 - CH4 1.658e-11 1.803e-11 -10.780 -10.744 0.036 35.46 +C(-4) 1.659e-11 + CH4 1.659e-11 1.803e-11 -10.780 -10.744 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -106126,9 +106106,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.656e-11 - H2 8.281e-12 9.003e-12 -11.082 -11.046 0.036 28.61 -Hto 2.401e-07 - Hto 2.401e-07 2.401e-07 -6.620 -6.620 0.000 (0) + H2 8.282e-12 9.004e-12 -11.082 -11.046 0.036 28.61 +Hto 2.350e-07 + Hto 2.350e-07 2.350e-07 -6.629 -6.629 0.000 (0) I 2.782e-07 I- 2.782e-07 2.782e-07 -6.556 -6.556 -0.000 (0) K 1.540e-03 @@ -106146,15 +106126,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.177e-07 - Nat+ 1.177e-07 1.177e-07 -6.929 -6.929 -0.000 (0) +Nat 1.126e-07 + Nat+ 1.126e-07 1.126e-07 -6.948 -6.948 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.334 -70.298 0.036 30.40 -S(-2) 2.599e-08 - HS- 1.817e-08 1.196e-08 -7.741 -7.922 -0.182 21.14 - H2S 7.815e-09 8.497e-09 -8.107 -8.071 0.036 36.27 - S-2 7.379e-14 1.779e-14 -13.132 -13.750 -0.618 (0) - (H2S)2 3.499e-18 3.804e-18 -17.456 -17.420 0.036 30.09 +S(-2) 2.600e-08 + HS- 1.818e-08 1.197e-08 -7.740 -7.922 -0.182 21.14 + H2S 7.818e-09 8.500e-09 -8.107 -8.071 0.036 36.27 + S-2 7.382e-14 1.779e-14 -13.132 -13.750 -0.618 (0) + (H2S)2 3.502e-18 3.807e-18 -17.456 -17.419 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -106219,7 +106199,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.319e-11 Surface + diffuse layer charge, eq + -9.318e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -106229,7 +106209,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -106240,12 +106220,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 1.0313e-08 + Hto 9.7863e-09 I 1.0566e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7697e-08 + Nat 1.5927e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -106264,12 +106244,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.740e-08 1.030e-08 + Hto 8.293e-08 9.770e-09 I 8.968e-08 1.057e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.011e-08 3.548e-09 + Nat 2.710e-08 3.193e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -106287,7 +106267,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.740e-10 + Electrical balance (eq) = -2.739e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -106327,9 +106307,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.761e-11 - H2 8.803e-12 9.571e-12 -11.055 -11.019 0.036 28.61 -Hto 8.740e-08 - Hto 8.740e-08 8.740e-08 -7.058 -7.058 0.000 (0) + H2 8.804e-12 9.572e-12 -11.055 -11.019 0.036 28.61 +Hto 8.293e-08 + Hto 8.293e-08 8.293e-08 -7.081 -7.081 0.000 (0) I 8.968e-08 I- 8.968e-08 8.968e-08 -7.047 -7.047 -0.000 (0) K 1.540e-03 @@ -106347,15 +106327,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.011e-08 - Nat+ 3.011e-08 3.011e-08 -7.521 -7.521 -0.000 (0) +Nat 2.710e-08 + Nat+ 2.710e-08 2.710e-08 -7.567 -7.567 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.387 -70.351 0.036 30.40 -S(-2) 3.319e-08 - HS- 2.321e-08 1.528e-08 -7.634 -7.816 -0.182 21.14 - H2S 9.979e-09 1.085e-08 -8.001 -7.965 0.036 36.27 - S-2 9.426e-14 2.272e-14 -13.026 -13.644 -0.618 (0) - (H2S)2 5.705e-18 6.203e-18 -17.244 -17.207 0.036 30.09 +S(-2) 3.320e-08 + HS- 2.322e-08 1.528e-08 -7.634 -7.816 -0.182 21.14 + H2S 9.982e-09 1.085e-08 -8.001 -7.964 0.036 36.27 + S-2 9.430e-14 2.273e-14 -13.026 -13.643 -0.618 (0) + (H2S)2 5.709e-18 6.207e-18 -17.243 -17.207 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -106430,7 +106410,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -106441,12 +106421,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 2.8832e-09 - I 2.5812e-21 + Hto 2.6420e-09 + I 2.5808e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2571e-09 + Nat 2.7485e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -106465,12 +106445,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.443e-08 2.879e-09 + Hto 2.239e-08 2.638e-09 I 2.190e-08 2.581e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.542e-09 6.529e-10 + Nat 4.677e-09 5.510e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -106502,8 +106482,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.285e-11 - CH4 2.285e-11 2.484e-11 -10.641 -10.605 0.036 35.46 +C(-4) 2.286e-11 + CH4 2.286e-11 2.485e-11 -10.641 -10.605 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -106527,10 +106507,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.794e-11 - H2 8.972e-12 9.755e-12 -11.047 -11.011 0.036 28.61 -Hto 2.443e-08 - Hto 2.443e-08 2.443e-08 -7.612 -7.612 0.000 (0) +H(0) 1.795e-11 + H2 8.973e-12 9.756e-12 -11.047 -11.011 0.036 28.61 +Hto 2.239e-08 + Hto 2.239e-08 2.239e-08 -7.650 -7.650 0.000 (0) I 2.190e-08 I- 2.190e-08 2.190e-08 -7.659 -7.659 -0.000 (0) K 1.540e-03 @@ -106548,15 +106528,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.542e-09 - Nat+ 5.542e-09 5.542e-09 -8.256 -8.256 -0.000 (0) +Nat 4.677e-09 + Nat+ 4.677e-09 4.677e-09 -8.330 -8.330 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.404 -70.367 0.036 30.40 -S(-2) 3.581e-08 - HS- 2.504e-08 1.648e-08 -7.601 -7.783 -0.182 21.14 - H2S 1.077e-08 1.170e-08 -7.968 -7.932 0.036 36.27 - S-2 1.017e-13 2.452e-14 -12.993 -13.611 -0.618 (0) - (H2S)2 6.640e-18 7.219e-18 -17.178 -17.142 0.036 30.09 +S(-2) 3.582e-08 + HS- 2.505e-08 1.649e-08 -7.601 -7.783 -0.182 21.14 + H2S 1.077e-08 1.171e-08 -7.968 -7.932 0.036 36.27 + S-2 1.017e-13 2.452e-14 -12.993 -13.610 -0.618 (0) + (H2S)2 6.644e-18 7.224e-18 -17.178 -17.141 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -106631,7 +106611,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -106642,12 +106622,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 6.3784e-10 - I 4.9434e-22 + Hto 5.6304e-10 + I 4.9445e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5689e-10 + Nat 3.6098e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -106666,12 +106646,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.405e-09 6.368e-10 + Hto 4.772e-09 5.621e-10 I 4.196e-09 4.944e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.774e-10 9.159e-11 + Nat 6.142e-10 7.236e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -106704,7 +106684,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.334e-11 - CH4 2.334e-11 2.538e-11 -10.632 -10.596 0.036 35.46 + CH4 2.334e-11 2.538e-11 -10.632 -10.595 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -106729,9 +106709,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.804e-11 - H2 9.020e-12 9.807e-12 -11.045 -11.008 0.036 28.61 -Hto 5.405e-09 - Hto 5.405e-09 5.405e-09 -8.267 -8.267 0.000 (0) + H2 9.021e-12 9.808e-12 -11.045 -11.008 0.036 28.61 +Hto 4.772e-09 + Hto 4.772e-09 4.772e-09 -8.321 -8.321 0.000 (0) I 4.196e-09 I- 4.196e-09 4.196e-09 -8.377 -8.377 -0.000 (0) K 1.540e-03 @@ -106749,15 +106729,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.774e-10 - Nat+ 7.774e-10 7.774e-10 -9.109 -9.109 -0.000 (0) +Nat 6.142e-10 + Nat+ 6.142e-10 6.142e-10 -9.212 -9.212 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.408 -70.372 0.036 30.40 S(-2) 3.658e-08 HS- 2.558e-08 1.684e-08 -7.592 -7.774 -0.182 21.14 H2S 1.100e-08 1.196e-08 -7.959 -7.922 0.036 36.27 S-2 1.039e-13 2.505e-14 -12.983 -13.601 -0.618 (0) - (H2S)2 6.929e-18 7.533e-18 -17.159 -17.123 0.036 30.09 + (H2S)2 6.931e-18 7.536e-18 -17.159 -17.123 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -106822,7 +106802,7 @@ Kinetics 9. Diffuse Double Layer Surface-Complexation Model Su - -9.311e-11 Surface + diffuse layer charge, eq + -9.312e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -106832,7 +106812,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -106843,12 +106823,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 1.1425e-10 + Hto 9.7002e-11 I 7.6230e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0698e-11 + Nat 3.7477e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -106867,12 +106847,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.682e-10 1.141e-10 + Hto 8.221e-10 9.685e-11 I 6.470e-10 7.623e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.627e-11 1.016e-11 + Nat 6.377e-11 7.513e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -106904,8 +106884,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.339e-11 - CH4 2.339e-11 2.543e-11 -10.631 -10.595 0.036 35.46 +C(-4) 2.340e-11 + CH4 2.340e-11 2.544e-11 -10.631 -10.595 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -106930,9 +106910,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.805e-11 - H2 9.025e-12 9.813e-12 -11.045 -11.008 0.036 28.61 -Hto 9.682e-10 - Hto 9.682e-10 9.682e-10 -9.014 -9.014 0.000 (0) + H2 9.026e-12 9.813e-12 -11.045 -11.008 0.036 28.61 +Hto 8.221e-10 + Hto 8.221e-10 8.221e-10 -9.085 -9.085 0.000 (0) I 6.470e-10 I- 6.470e-10 6.470e-10 -9.189 -9.189 -0.000 (0) K 1.540e-03 @@ -106950,15 +106930,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.627e-11 - Nat+ 8.627e-11 8.627e-11 -10.064 -10.064 -0.000 (0) +Nat 6.377e-11 + Nat+ 6.377e-11 6.377e-11 -10.195 -10.195 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.409 -70.372 0.036 30.40 -S(-2) 3.666e-08 +S(-2) 3.667e-08 HS- 2.564e-08 1.688e-08 -7.591 -7.773 -0.182 21.14 - H2S 1.102e-08 1.198e-08 -7.958 -7.921 0.036 36.27 - S-2 1.041e-13 2.510e-14 -12.982 -13.600 -0.618 (0) - (H2S)2 6.961e-18 7.568e-18 -17.157 -17.121 0.036 30.09 + H2S 1.102e-08 1.199e-08 -7.958 -7.921 0.036 36.27 + S-2 1.042e-13 2.511e-14 -12.982 -13.600 -0.618 (0) + (H2S)2 6.963e-18 7.570e-18 -17.157 -17.121 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -107033,7 +107013,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -107044,12 +107024,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 1.6857e-11 - I 9.6434e-24 + Hto 1.3752e-11 + I 9.6418e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5638e-12 + Nat 3.1552e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -107068,12 +107048,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.429e-10 1.683e-11 + Hto 1.165e-10 1.373e-11 I 8.184e-11 9.642e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.766e-12 9.149e-13 + Nat 5.369e-12 6.325e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -107106,7 +107086,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.320e-11 - CH4 2.320e-11 2.522e-11 -10.635 -10.598 0.036 35.46 + CH4 2.320e-11 2.523e-11 -10.634 -10.598 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -107131,9 +107111,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.801e-11 - H2 9.006e-12 9.792e-12 -11.045 -11.009 0.036 28.61 -Hto 1.429e-10 - Hto 1.429e-10 1.429e-10 -9.845 -9.845 0.000 (0) + H2 9.007e-12 9.792e-12 -11.045 -11.009 0.036 28.61 +Hto 1.165e-10 + Hto 1.165e-10 1.165e-10 -9.934 -9.934 0.000 (0) I 8.184e-11 I- 8.184e-11 8.184e-11 -10.087 -10.087 -0.000 (0) K 1.540e-03 @@ -107151,15 +107131,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.766e-12 - Nat+ 7.766e-12 7.766e-12 -11.110 -11.110 -0.000 (0) +Nat 5.369e-12 + Nat+ 5.369e-12 5.369e-12 -11.270 -11.270 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.407 -70.371 0.036 30.40 -S(-2) 3.635e-08 - HS- 2.542e-08 1.674e-08 -7.595 -7.776 -0.182 21.14 - H2S 1.093e-08 1.188e-08 -7.961 -7.925 0.036 36.27 - S-2 1.033e-13 2.489e-14 -12.986 -13.604 -0.618 (0) - (H2S)2 6.843e-18 7.440e-18 -17.165 -17.128 0.036 30.09 +S(-2) 3.636e-08 + HS- 2.543e-08 1.674e-08 -7.595 -7.776 -0.182 21.14 + H2S 1.093e-08 1.189e-08 -7.961 -7.925 0.036 36.27 + S-2 1.033e-13 2.490e-14 -12.986 -13.604 -0.618 (0) + (H2S)2 6.847e-18 7.444e-18 -17.165 -17.128 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -107224,7 +107204,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.293e-11 Surface + diffuse layer charge, eq + -9.297e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -107234,7 +107214,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -107245,12 +107225,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 2.0753e-12 - I 1.0146e-24 + Hto 1.6255e-12 + I 1.0144e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3919e-13 + Nat 2.1927e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -107269,12 +107249,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.759e-11 2.072e-12 + Hto 1.378e-11 1.623e-12 I 8.612e-12 1.015e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.772e-13 6.800e-14 + Nat 3.731e-13 4.396e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -107292,7 +107272,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.395e-10 + Electrical balance (eq) = 1.796e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -107333,8 +107313,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.794e-11 H2 8.968e-12 9.750e-12 -11.047 -11.011 0.036 28.61 -Hto 1.759e-11 - Hto 1.759e-11 1.759e-11 -10.755 -10.755 0.000 (0) +Hto 1.378e-11 + Hto 1.378e-11 1.378e-11 -10.861 -10.861 0.000 (0) I 8.612e-12 I- 8.612e-12 8.612e-12 -11.065 -11.065 -0.000 (0) K 1.540e-03 @@ -107352,15 +107332,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.772e-13 - Nat+ 5.772e-13 5.772e-13 -12.239 -12.239 -0.000 (0) +Nat 3.731e-13 + Nat+ 3.731e-13 3.731e-13 -12.428 -12.428 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.403 -70.367 0.036 30.40 -S(-2) 3.573e-08 +S(-2) 3.574e-08 HS- 2.499e-08 1.645e-08 -7.602 -7.784 -0.182 21.14 - H2S 1.074e-08 1.168e-08 -7.969 -7.933 0.036 36.27 + H2S 1.074e-08 1.168e-08 -7.969 -7.932 0.036 36.27 S-2 1.015e-13 2.447e-14 -12.994 -13.611 -0.618 (0) - (H2S)2 6.612e-18 7.189e-18 -17.180 -17.143 0.036 30.09 + (H2S)2 6.614e-18 7.191e-18 -17.180 -17.143 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -107425,7 +107405,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.284e-11 Surface + diffuse layer charge, eq + -9.285e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -107435,7 +107415,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -107446,12 +107426,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 2.1518e-13 - I 8.9741e-26 + Hto 1.6175e-13 + I 8.9716e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1073e-14 + Nat 1.2735e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -107470,12 +107450,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.824e-12 2.148e-13 + Hto 1.371e-12 1.615e-13 I 7.616e-13 8.972e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.586e-14 4.224e-15 + Nat 2.167e-14 2.553e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -107493,7 +107473,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.899e-10 + Electrical balance (eq) = 2.051e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -107534,8 +107514,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.789e-11 H2 8.945e-12 9.725e-12 -11.048 -11.012 0.036 28.61 -Hto 1.824e-12 - Hto 1.824e-12 1.824e-12 -11.739 -11.739 0.000 (0) +Hto 1.371e-12 + Hto 1.371e-12 1.371e-12 -11.863 -11.863 0.000 (0) I 7.616e-13 I- 7.616e-13 7.616e-13 -12.118 -12.118 -0.000 (0) K 1.540e-03 @@ -107553,14 +107533,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.586e-14 - Nat+ 3.586e-14 3.586e-14 -13.445 -13.445 -0.000 (0) +Nat 2.167e-14 + Nat+ 2.167e-14 2.167e-14 -13.664 -13.664 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.401 -70.365 0.036 30.40 S(-2) 3.537e-08 HS- 2.473e-08 1.628e-08 -7.607 -7.788 -0.182 21.14 H2S 1.063e-08 1.156e-08 -7.973 -7.937 0.036 36.27 - S-2 1.005e-13 2.421e-14 -12.998 -13.616 -0.618 (0) + S-2 1.005e-13 2.422e-14 -12.998 -13.616 -0.618 (0) (H2S)2 6.478e-18 7.043e-18 -17.189 -17.152 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -107636,7 +107616,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -107647,12 +107627,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 1.8919e-14 + Hto 1.3642e-14 I 6.7172e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1038e-15 + Nat 6.2361e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -107671,12 +107651,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.603e-13 1.889e-14 + Hto 1.156e-13 1.362e-14 I 5.701e-14 6.716e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.878e-15 2.213e-16 + Nat 1.061e-15 1.250e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -107694,7 +107674,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.663e-10 + Electrical balance (eq) = -1.687e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -107735,8 +107715,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.788e-11 H2 8.938e-12 9.717e-12 -11.049 -11.012 0.036 28.61 -Hto 1.603e-13 - Hto 1.603e-13 1.603e-13 -12.795 -12.795 0.000 (0) +Hto 1.156e-13 + Hto 1.156e-13 1.156e-13 -12.937 -12.937 0.000 (0) I 5.701e-14 I- 5.701e-14 5.701e-14 -13.244 -13.244 -0.000 (0) K 1.540e-03 @@ -107754,15 +107734,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.878e-15 - Nat+ 1.878e-15 1.878e-15 -14.726 -14.726 -0.000 (0) +Nat 1.061e-15 + Nat+ 1.061e-15 1.061e-15 -14.974 -14.974 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.400 -70.364 0.036 30.40 S(-2) 3.526e-08 HS- 2.466e-08 1.623e-08 -7.608 -7.790 -0.182 21.14 H2S 1.060e-08 1.153e-08 -7.975 -7.938 0.036 36.27 S-2 1.001e-13 2.414e-14 -12.999 -13.617 -0.618 (0) - (H2S)2 6.438e-18 7.000e-18 -17.191 -17.155 0.036 30.09 + (H2S)2 6.438e-18 6.999e-18 -17.191 -17.155 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -107837,7 +107817,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -107848,12 +107828,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 1.4165e-15 + Hto 9.7954e-16 I 4.2761e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9031e-17 + Nat 2.5892e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -107872,12 +107852,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.200e-14 1.414e-15 + Hto 8.301e-15 9.780e-16 I 3.629e-15 4.276e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.343e-17 9.829e-18 + Nat 4.406e-17 5.190e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -107895,7 +107875,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.806e-10 + Electrical balance (eq) = -1.807e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -107910,7 +107890,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.252e-11 - CH4 2.252e-11 2.449e-11 -10.647 -10.611 0.036 35.46 + CH4 2.252e-11 2.448e-11 -10.647 -10.611 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -107936,8 +107916,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.788e-11 H2 8.940e-12 9.720e-12 -11.049 -11.012 0.036 28.61 -Hto 1.200e-14 - Hto 1.200e-14 1.200e-14 -13.921 -13.921 0.000 (0) +Hto 8.301e-15 + Hto 8.301e-15 8.301e-15 -14.081 -14.081 0.000 (0) I 3.629e-15 I- 3.629e-15 3.629e-15 -14.440 -14.440 -0.000 (0) K 1.540e-03 @@ -107955,15 +107935,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.343e-17 - Nat+ 8.343e-17 8.343e-17 -16.079 -16.079 -0.000 (0) +Nat 4.406e-17 + Nat+ 4.406e-17 4.406e-17 -16.356 -16.356 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.400 -70.364 0.036 30.40 S(-2) 3.529e-08 HS- 2.468e-08 1.625e-08 -7.608 -7.789 -0.182 21.14 H2S 1.061e-08 1.154e-08 -7.974 -7.938 0.036 36.27 S-2 1.002e-13 2.416e-14 -12.999 -13.617 -0.618 (0) - (H2S)2 6.451e-18 7.014e-18 -17.190 -17.154 0.036 30.09 + (H2S)2 6.450e-18 7.013e-18 -17.190 -17.154 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -108038,7 +108018,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -108049,12 +108029,12 @@ Su Ca 7.1884e-02 Cl 4.6625e-10 H 1.2949e-04 - Hto 9.0525e-17 + Hto 6.0024e-17 I 2.3213e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8529e-18 + Nat 9.1454e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -108073,12 +108053,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.672e-16 9.038e-17 + Hto 5.087e-16 5.993e-17 I 1.970e-16 2.321e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.153e-18 3.714e-19 + Nat 1.556e-18 1.833e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -108096,7 +108076,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.311e-09 + Electrical balance (eq) = 1.144e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -108137,8 +108117,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.792e-11 H2 8.959e-12 9.741e-12 -11.048 -11.011 0.036 28.61 -Hto 7.672e-16 - Hto 7.672e-16 7.672e-16 -15.115 -15.115 0.000 (0) +Hto 5.087e-16 + Hto 5.087e-16 5.087e-16 -15.294 -15.294 0.000 (0) I 1.970e-16 I- 1.970e-16 1.970e-16 -15.705 -15.705 -0.000 (0) K 1.540e-03 @@ -108156,15 +108136,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.153e-18 - Nat+ 3.153e-18 3.153e-18 -17.501 -17.501 -0.000 (0) +Nat 1.556e-18 + Nat+ 1.556e-18 1.556e-18 -17.808 -17.808 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.402 -70.366 0.036 30.40 S(-2) 3.560e-08 - HS- 2.490e-08 1.639e-08 -7.604 -7.785 -0.182 21.14 + HS- 2.489e-08 1.639e-08 -7.604 -7.785 -0.182 21.14 H2S 1.070e-08 1.164e-08 -7.970 -7.934 0.036 36.27 - S-2 1.011e-13 2.438e-14 -12.995 -13.613 -0.618 (0) - (H2S)2 6.565e-18 7.137e-18 -17.183 -17.146 0.036 30.09 + S-2 1.011e-13 2.437e-14 -12.995 -13.613 -0.618 (0) + (H2S)2 6.563e-18 7.136e-18 -17.183 -17.147 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -108239,7 +108219,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -108250,12 +108230,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 4.9404e-18 + Hto 3.1404e-18 I 1.0752e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.9635e-20 + Nat 2.7512e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -108274,12 +108254,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.187e-17 4.932e-18 + Hto 2.661e-17 3.135e-18 I 9.126e-18 1.075e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.015e-19 1.195e-20 + Nat 4.681e-20 5.515e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -108311,8 +108291,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.322e-11 - CH4 2.322e-11 2.525e-11 -10.634 -10.598 0.036 35.46 +C(-4) 2.323e-11 + CH4 2.323e-11 2.525e-11 -10.634 -10.598 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -108338,8 +108318,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.802e-11 H2 9.009e-12 9.795e-12 -11.045 -11.009 0.036 28.61 -Hto 4.187e-17 - Hto 4.187e-17 4.187e-17 -16.378 -16.378 0.000 (0) +Hto 2.661e-17 + Hto 2.661e-17 2.661e-17 -16.575 -16.575 0.000 (0) I 9.126e-18 I- 9.126e-18 9.126e-18 -17.040 -17.040 -0.000 (0) K 1.540e-03 @@ -108357,15 +108337,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.015e-19 - Nat+ 1.015e-19 1.015e-19 -18.994 -18.994 -0.000 (0) +Nat 4.681e-20 + Nat+ 4.681e-20 4.681e-20 -19.330 -19.330 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.407 -70.371 0.036 30.40 -S(-2) 3.639e-08 - HS- 2.545e-08 1.675e-08 -7.594 -7.776 -0.182 21.14 +S(-2) 3.640e-08 + HS- 2.545e-08 1.676e-08 -7.594 -7.776 -0.182 21.14 H2S 1.094e-08 1.190e-08 -7.961 -7.925 0.036 36.27 S-2 1.034e-13 2.492e-14 -12.986 -13.603 -0.618 (0) - (H2S)2 6.859e-18 7.457e-18 -17.164 -17.127 0.036 30.09 + (H2S)2 6.861e-18 7.459e-18 -17.164 -17.127 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -108440,7 +108420,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -108451,12 +108431,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 2.2991e-19 + Hto 1.4008e-19 I 4.2443e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6331e-21 + Nat 7.0408e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -108475,12 +108455,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.948e-18 2.295e-19 + Hto 1.187e-18 1.399e-19 I 3.602e-19 4.244e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.779e-21 3.274e-22 + Nat 1.198e-21 1.411e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -108539,8 +108519,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.806e-11 H2 9.030e-12 9.818e-12 -11.044 -11.008 0.036 28.61 -Hto 1.948e-18 - Hto 1.948e-18 1.948e-18 -17.710 -17.710 0.000 (0) +Hto 1.187e-18 + Hto 1.187e-18 1.187e-18 -17.926 -17.926 0.000 (0) I 3.602e-19 I- 3.602e-19 3.602e-19 -18.443 -18.443 -0.000 (0) K 1.540e-03 @@ -108558,15 +108538,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.779e-21 - Nat+ 2.779e-21 2.779e-21 -20.556 -20.556 -0.000 (0) +Nat 1.198e-21 + Nat+ 1.198e-21 1.198e-21 -20.922 -20.922 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.409 -70.373 0.036 30.40 S(-2) 3.674e-08 HS- 2.569e-08 1.691e-08 -7.590 -7.772 -0.182 21.14 H2S 1.105e-08 1.201e-08 -7.957 -7.920 0.036 36.27 S-2 1.044e-13 2.516e-14 -12.981 -13.599 -0.618 (0) - (H2S)2 6.990e-18 7.600e-18 -17.156 -17.119 0.036 30.09 + (H2S)2 6.991e-18 7.601e-18 -17.155 -17.119 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -108641,7 +108621,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -108652,12 +108632,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 9.0907e-21 - I 1.4223e-33 + Hto 5.3084e-21 + I 1.4224e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7881e-23 + Nat 1.5199e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -108676,12 +108656,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.704e-20 9.076e-21 + Hto 4.499e-20 5.300e-21 I 1.207e-20 1.422e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.446e-23 7.594e-24 + Nat 2.586e-23 3.047e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -108740,8 +108720,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.807e-11 H2 9.035e-12 9.823e-12 -11.044 -11.008 0.036 28.61 -Hto 7.704e-20 - Hto 7.704e-20 7.704e-20 -19.113 -19.113 0.000 (0) +Hto 4.499e-20 + Hto 4.499e-20 4.499e-20 -19.347 -19.347 0.000 (0) I 1.207e-20 I- 1.207e-20 1.207e-20 -19.918 -19.918 -0.000 (0) K 1.540e-03 @@ -108759,14 +108739,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.446e-23 - Nat+ 6.446e-23 6.446e-23 -22.191 -22.191 -0.000 (0) +Nat 2.586e-23 + Nat+ 2.586e-23 2.586e-23 -22.587 -22.587 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.410 -70.373 0.036 30.40 S(-2) 3.681e-08 HS- 2.574e-08 1.695e-08 -7.589 -7.771 -0.182 21.14 H2S 1.107e-08 1.203e-08 -7.956 -7.920 0.036 36.27 - S-2 1.046e-13 2.521e-14 -12.981 -13.599 -0.618 (0) + S-2 1.046e-13 2.521e-14 -12.981 -13.598 -0.618 (0) (H2S)2 7.018e-18 7.630e-18 -17.154 -17.117 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -108842,7 +108822,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -108853,12 +108833,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 3.0362e-22 - I 4.0190e-35 + Hto 1.6989e-22 + I 4.0196e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3350e-25 + Nat 1.5302e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -108877,12 +108857,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.573e-21 3.031e-22 + Hto 1.440e-21 1.696e-22 I 3.411e-22 4.019e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.078e-24 1.270e-25 + Nat 2.604e-25 3.068e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -108941,8 +108921,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.807e-11 H2 9.035e-12 9.823e-12 -11.044 -11.008 0.036 28.61 -Hto 2.573e-21 - Hto 2.573e-21 2.573e-21 -20.590 -20.590 0.000 (0) +Hto 1.440e-21 + Hto 1.440e-21 1.440e-21 -20.842 -20.842 0.000 (0) I 3.411e-22 I- 3.411e-22 3.411e-22 -21.467 -21.467 -0.000 (0) K 1.540e-03 @@ -108960,8 +108940,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.078e-24 - Nat+ 1.078e-24 1.078e-24 -23.967 -23.967 -0.000 (0) +Nat 2.604e-25 + Nat+ 2.604e-25 2.604e-25 -24.584 -24.584 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.410 -70.373 0.036 30.40 S(-2) 3.682e-08 @@ -109043,7 +109023,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -109054,7 +109034,7 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 8.4588e-24 + Hto 4.4975e-24 I 8.7501e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -109077,7 +109057,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.168e-23 8.445e-24 + Hto 3.811e-23 4.490e-24 I 7.426e-24 8.749e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -109140,8 +109120,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.807e-11 H2 9.035e-12 9.823e-12 -11.044 -11.008 0.036 28.61 -Hto 7.168e-23 - Hto 7.168e-23 7.168e-23 -22.145 -22.145 0.000 (0) +Hto 3.811e-23 + Hto 3.811e-23 3.811e-23 -22.419 -22.419 0.000 (0) I 7.426e-24 I- 7.426e-24 7.426e-24 -23.129 -23.129 -0.000 (0) K 1.540e-03 @@ -109240,7 +109220,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -109251,7 +109231,6 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 1.4560e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -109273,7 +109252,6 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.234e-24 1.454e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -109335,8 +109313,6 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.807e-11 H2 9.035e-12 9.823e-12 -11.044 -11.008 0.036 28.61 -Hto 1.234e-24 - Hto 1.234e-24 1.234e-24 -23.909 -23.909 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -109433,7 +109409,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -109622,7 +109598,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -110100,30 +110076,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.948e-07 2.974e-07 + Hto 6.002e-07 3.001e-07 I 7.556e-07 3.778e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.538e-07 1.769e-07 + Nat 3.625e-07 1.812e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.978 Adjusted to redox equilibrium + pe = -2.977 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.020e-13 + Electrical balance (eq) = -2.507e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -110137,8 +110113,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.056e-13 - CH4 8.056e-13 8.759e-13 -12.094 -12.058 0.036 35.46 +C(-4) 7.894e-13 + CH4 7.894e-13 8.583e-13 -12.103 -12.066 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -110162,10 +110138,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 7.774e-12 - H2 3.887e-12 4.226e-12 -11.410 -11.374 0.036 28.61 -Hto 5.948e-07 - Hto 5.948e-07 5.948e-07 -6.226 -6.226 0.000 (0) +H(0) 7.735e-12 + H2 3.868e-12 4.205e-12 -11.413 -11.376 0.036 28.61 +Hto 6.002e-07 + Hto 6.002e-07 6.002e-07 -6.222 -6.222 0.000 (0) I 7.556e-07 I- 7.556e-07 7.556e-07 -6.122 -6.122 -0.000 (0) K 1.540e-03 @@ -110183,15 +110159,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.658 0.073 31.73 -Nat 3.538e-07 - Nat+ 3.538e-07 3.538e-07 -6.451 -6.451 -0.000 (0) +Nat 3.625e-07 + Nat+ 3.625e-07 3.625e-07 -6.441 -6.441 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.677 -69.641 0.036 30.40 -S(-2) 1.263e-09 - HS- 8.830e-10 5.813e-10 -9.054 -9.236 -0.182 21.14 - H2S 3.799e-10 4.131e-10 -9.420 -9.384 0.036 36.27 - S-2 3.583e-15 8.637e-16 -14.446 -15.064 -0.618 (0) - (H2S)2 8.270e-21 8.992e-21 -20.082 -20.046 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.673 -69.636 0.036 30.40 +S(-2) 1.238e-09 + HS- 8.652e-10 5.696e-10 -9.063 -9.244 -0.182 21.14 + H2S 3.723e-10 4.048e-10 -9.429 -9.393 0.036 36.27 + S-2 3.511e-15 8.464e-16 -14.455 -15.072 -0.618 (0) + (H2S)2 7.942e-21 8.634e-21 -20.100 -20.064 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -110218,21 +110194,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.26 -12.06 -2.80 CH4 + CH4(g) -9.26 -12.07 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.27 -11.37 -3.10 H2 + H2(g) -8.28 -11.38 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.39 -16.33 -7.94 H2S + H2S(g) -8.40 -16.33 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.75 -69.64 -2.89 O2 + O2(g) -66.74 -69.64 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.04 -1.16 4.88 S + Sulfur -6.05 -1.17 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -110256,7 +110232,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.291e-14 Surface + diffuse layer charge, eq + -4.263e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -110266,7 +110242,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -110275,14 +110251,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6659e-10 + Cl 4.6660e-10 H 1.2947e-04 - Hto 5.7505e-08 + Hto 5.7646e-08 I 7.3811e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7507e-07 + Nat 1.7687e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -110301,12 +110277,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.873e-07 5.741e-08 + Hto 4.885e-07 5.755e-08 I 6.265e-07 7.381e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.979e-07 3.510e-08 + Nat 3.010e-07 3.546e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -110317,14 +110293,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.682e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -110338,8 +110314,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.929e-12 - CH4 3.929e-12 4.271e-12 -11.406 -11.369 0.036 35.46 +C(-4) 3.892e-12 + CH4 3.892e-12 4.232e-12 -11.410 -11.373 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -110363,10 +110339,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.155e-11 - H2 5.777e-12 6.281e-12 -11.238 -11.202 0.036 28.61 -Hto 4.873e-07 - Hto 4.873e-07 4.873e-07 -6.312 -6.312 0.000 (0) +H(0) 1.153e-11 + H2 5.763e-12 6.266e-12 -11.239 -11.203 0.036 28.61 +Hto 4.885e-07 + Hto 4.885e-07 4.885e-07 -6.311 -6.311 0.000 (0) I 6.265e-07 I- 6.265e-07 6.265e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -110384,15 +110360,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.979e-07 - Nat+ 2.979e-07 2.979e-07 -6.526 -6.526 -0.000 (0) +Nat 3.010e-07 + Nat+ 3.010e-07 3.010e-07 -6.521 -6.521 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.021 -69.985 0.036 30.40 -S(-2) 6.159e-09 - HS- 4.306e-09 2.835e-09 -8.366 -8.548 -0.182 21.14 - H2S 1.853e-09 2.014e-09 -8.732 -8.696 0.036 36.27 - S-2 1.748e-14 4.213e-15 -13.758 -14.375 -0.618 (0) - (H2S)2 1.966e-19 2.138e-19 -18.706 -18.670 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.019 -69.983 0.036 30.40 +S(-2) 6.102e-09 + HS- 4.266e-09 2.809e-09 -8.370 -8.552 -0.182 21.14 + H2S 1.836e-09 1.996e-09 -8.736 -8.700 0.036 36.27 + S-2 1.732e-14 4.174e-15 -13.762 -14.379 -0.618 (0) + (H2S)2 1.930e-19 2.099e-19 -18.714 -18.678 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -110426,14 +110402,14 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.10 -11.20 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.70 -15.64 -7.94 H2S + H2S(g) -7.71 -15.64 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.09 -69.98 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.53 -0.64 4.88 S + Sulfur -5.53 -0.65 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -110457,7 +110433,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.208e-11 Surface + diffuse layer charge, eq + -9.206e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -110467,7 +110443,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -110478,12 +110454,12 @@ Su Ca 7.1884e-02 Cl 4.6634e-10 H 1.2948e-04 - Hto 2.8939e-08 - I 3.3636e-20 + Hto 2.8350e-08 + I 3.3643e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.0959e-08 + Nat 6.8049e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -110502,12 +110478,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.452e-07 2.889e-08 + Hto 2.403e-07 2.830e-08 I 2.855e-07 3.364e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.207e-07 1.422e-08 + Nat 1.158e-07 1.364e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -110525,7 +110501,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.255e-09 + Electrical balance (eq) = 4.221e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -110539,8 +110515,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.728e-11 - CH4 1.728e-11 1.879e-11 -10.762 -10.726 0.036 35.46 +C(-4) 1.729e-11 + CH4 1.729e-11 1.880e-11 -10.762 -10.726 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -110564,10 +110540,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) -H(0) 1.673e-11 - H2 8.367e-12 9.096e-12 -11.077 -11.041 0.036 28.61 -Hto 2.452e-07 - Hto 2.452e-07 2.452e-07 -6.610 -6.610 0.000 (0) +H(0) 1.674e-11 + H2 8.368e-12 9.098e-12 -11.077 -11.041 0.036 28.61 +Hto 2.403e-07 + Hto 2.403e-07 2.403e-07 -6.619 -6.619 0.000 (0) I 2.855e-07 I- 2.855e-07 2.855e-07 -6.544 -6.544 -0.000 (0) K 1.540e-03 @@ -110585,15 +110561,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.207e-07 - Nat+ 1.207e-07 1.207e-07 -6.918 -6.918 -0.000 (0) +Nat 1.158e-07 + Nat+ 1.158e-07 1.158e-07 -6.936 -6.936 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.343 -70.307 0.036 30.40 -S(-2) 2.708e-08 - HS- 1.894e-08 1.247e-08 -7.723 -7.904 -0.182 21.14 - H2S 8.143e-09 8.854e-09 -8.089 -8.053 0.036 36.27 - S-2 7.690e-14 1.854e-14 -13.114 -13.732 -0.618 (0) - (H2S)2 3.799e-18 4.131e-18 -17.420 -17.384 0.036 30.09 +S(-2) 2.710e-08 + HS- 1.895e-08 1.247e-08 -7.722 -7.904 -0.182 21.14 + H2S 8.149e-09 8.859e-09 -8.089 -8.053 0.036 36.27 + S-2 7.695e-14 1.855e-14 -13.114 -13.732 -0.618 (0) + (H2S)2 3.804e-18 4.136e-18 -17.420 -17.383 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -110668,7 +110644,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -110677,14 +110653,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6626e-10 + Cl 4.6625e-10 H 1.2949e-04 - Hto 1.0878e-08 + Hto 1.0340e-08 I 1.1217e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8898e-08 + Nat 1.7056e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -110703,12 +110679,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.219e-08 1.086e-08 + Hto 8.763e-08 1.032e-08 I 9.522e-08 1.122e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.216e-08 3.788e-09 + Nat 2.902e-08 3.419e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -110726,7 +110702,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.672e-10 + Electrical balance (eq) = -3.671e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -110740,8 +110716,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.207e-11 - CH4 2.207e-11 2.399e-11 -10.656 -10.620 0.036 35.46 +C(-4) 2.208e-11 + CH4 2.208e-11 2.400e-11 -10.656 -10.620 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -110766,9 +110742,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.779e-11 - H2 8.895e-12 9.671e-12 -11.051 -11.015 0.036 28.61 -Hto 9.219e-08 - Hto 9.219e-08 9.219e-08 -7.035 -7.035 0.000 (0) + H2 8.896e-12 9.672e-12 -11.051 -11.015 0.036 28.61 +Hto 8.763e-08 + Hto 8.763e-08 8.763e-08 -7.057 -7.057 0.000 (0) I 9.522e-08 I- 9.522e-08 9.522e-08 -7.021 -7.021 -0.000 (0) K 1.540e-03 @@ -110786,15 +110762,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.216e-08 - Nat+ 3.216e-08 3.216e-08 -7.493 -7.493 -0.000 (0) +Nat 2.902e-08 + Nat+ 2.902e-08 2.902e-08 -7.537 -7.537 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.396 -70.360 0.036 30.40 -S(-2) 3.458e-08 - HS- 2.419e-08 1.592e-08 -7.616 -7.798 -0.182 21.14 +S(-2) 3.460e-08 + HS- 2.420e-08 1.593e-08 -7.616 -7.798 -0.182 21.14 H2S 1.040e-08 1.131e-08 -7.983 -7.947 0.036 36.27 - S-2 9.823e-14 2.368e-14 -13.008 -13.626 -0.618 (0) - (H2S)2 6.195e-18 6.735e-18 -17.208 -17.172 0.036 30.09 + S-2 9.827e-14 2.369e-14 -13.008 -13.625 -0.618 (0) + (H2S)2 6.200e-18 6.741e-18 -17.208 -17.171 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -110869,7 +110845,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -110880,12 +110856,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 3.1596e-09 + Hto 2.9018e-09 I 2.8509e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6348e-09 + Nat 3.0771e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -110904,12 +110880,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.678e-08 3.154e-09 + Hto 2.459e-08 2.897e-09 I 2.420e-08 2.851e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.185e-09 7.287e-10 + Nat 5.236e-09 6.169e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -110942,7 +110918,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.382e-11 - CH4 2.382e-11 2.589e-11 -10.623 -10.587 0.036 35.46 + CH4 2.382e-11 2.590e-11 -10.623 -10.587 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -110967,9 +110943,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.813e-11 - H2 9.066e-12 9.857e-12 -11.043 -11.006 0.036 28.61 -Hto 2.678e-08 - Hto 2.678e-08 2.678e-08 -7.572 -7.572 0.000 (0) + H2 9.067e-12 9.858e-12 -11.043 -11.006 0.036 28.61 +Hto 2.459e-08 + Hto 2.459e-08 2.459e-08 -7.609 -7.609 0.000 (0) I 2.420e-08 I- 2.420e-08 2.420e-08 -7.616 -7.616 -0.000 (0) K 1.540e-03 @@ -110987,15 +110963,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.185e-09 - Nat+ 6.185e-09 6.185e-09 -8.209 -8.209 -0.000 (0) +Nat 5.236e-09 + Nat+ 5.236e-09 5.236e-09 -8.281 -8.281 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.413 -70.376 0.036 30.40 -S(-2) 3.732e-08 - HS- 2.610e-08 1.718e-08 -7.583 -7.765 -0.182 21.14 - H2S 1.122e-08 1.220e-08 -7.950 -7.914 0.036 36.27 - S-2 1.060e-13 2.556e-14 -12.975 -13.592 -0.618 (0) - (H2S)2 7.214e-18 7.844e-18 -17.142 -17.105 0.036 30.09 +S(-2) 3.734e-08 + HS- 2.611e-08 1.719e-08 -7.583 -7.765 -0.182 21.14 + H2S 1.123e-08 1.220e-08 -7.950 -7.913 0.036 36.27 + S-2 1.061e-13 2.557e-14 -12.974 -13.592 -0.618 (0) + (H2S)2 7.219e-18 7.849e-18 -17.142 -17.105 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -111070,7 +111046,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -111081,12 +111057,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 7.2962e-10 + Hto 6.4578e-10 I 5.7075e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3456e-10 + Nat 4.2384e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -111105,12 +111081,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.183e-09 7.284e-10 + Hto 5.473e-09 6.447e-10 I 4.845e-09 5.708e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.096e-10 1.072e-10 + Nat 7.212e-10 8.497e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -111142,8 +111118,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.434e-11 - CH4 2.434e-11 2.647e-11 -10.614 -10.577 0.036 35.46 +C(-4) 2.435e-11 + CH4 2.435e-11 2.647e-11 -10.614 -10.577 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -111169,8 +111145,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.823e-11 H2 9.116e-12 9.911e-12 -11.040 -11.004 0.036 28.61 -Hto 6.183e-09 - Hto 6.183e-09 6.183e-09 -8.209 -8.209 0.000 (0) +Hto 5.473e-09 + Hto 5.473e-09 5.473e-09 -8.262 -8.262 0.000 (0) I 4.845e-09 I- 4.845e-09 4.845e-09 -8.315 -8.315 -0.000 (0) K 1.540e-03 @@ -111188,15 +111164,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.096e-10 - Nat+ 9.096e-10 9.096e-10 -9.041 -9.041 -0.000 (0) +Nat 7.212e-10 + Nat+ 7.212e-10 7.212e-10 -9.142 -9.142 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.417 -70.381 0.036 30.40 S(-2) 3.815e-08 HS- 2.668e-08 1.756e-08 -7.574 -7.755 -0.182 21.14 H2S 1.147e-08 1.247e-08 -7.940 -7.904 0.036 36.27 - S-2 1.084e-13 2.612e-14 -12.965 -13.583 -0.618 (0) - (H2S)2 7.535e-18 8.193e-18 -17.123 -17.087 0.036 30.09 + S-2 1.084e-13 2.613e-14 -12.965 -13.583 -0.618 (0) + (H2S)2 7.538e-18 8.196e-18 -17.123 -17.086 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -111271,7 +111247,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -111280,14 +111256,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6622e-10 + Cl 4.6621e-10 H 1.2949e-04 - Hto 1.3697e-10 + Hto 1.1664e-10 I 9.2321e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2380e-11 + Nat 4.6285e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -111306,12 +111282,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.161e-09 1.367e-10 + Hto 9.885e-10 1.164e-10 I 7.837e-10 9.233e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.061e-10 1.251e-11 + Nat 7.876e-11 9.279e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -111343,8 +111319,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.440e-11 - CH4 2.440e-11 2.653e-11 -10.613 -10.576 0.036 35.46 +C(-4) 2.441e-11 + CH4 2.441e-11 2.654e-11 -10.612 -10.576 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -111369,9 +111345,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.824e-11 - H2 9.121e-12 9.917e-12 -11.040 -11.004 0.036 28.61 -Hto 1.161e-09 - Hto 1.161e-09 1.161e-09 -8.935 -8.935 0.000 (0) + H2 9.122e-12 9.917e-12 -11.040 -11.004 0.036 28.61 +Hto 9.885e-10 + Hto 9.885e-10 9.885e-10 -9.005 -9.005 0.000 (0) I 7.837e-10 I- 7.837e-10 7.837e-10 -9.106 -9.106 -0.000 (0) K 1.540e-03 @@ -111389,15 +111365,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.061e-10 - Nat+ 1.061e-10 1.061e-10 -9.974 -9.974 -0.000 (0) +Nat 7.876e-11 + Nat+ 7.876e-11 7.876e-11 -10.104 -10.104 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.418 -70.382 0.036 30.40 -S(-2) 3.824e-08 - HS- 2.674e-08 1.761e-08 -7.573 -7.754 -0.182 21.14 +S(-2) 3.825e-08 + HS- 2.675e-08 1.761e-08 -7.573 -7.754 -0.182 21.14 H2S 1.150e-08 1.250e-08 -7.939 -7.903 0.036 36.27 - S-2 1.086e-13 2.619e-14 -12.964 -13.582 -0.618 (0) - (H2S)2 7.574e-18 8.234e-18 -17.121 -17.084 0.036 30.09 + S-2 1.087e-13 2.619e-14 -12.964 -13.582 -0.618 (0) + (H2S)2 7.576e-18 8.237e-18 -17.121 -17.084 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -111472,7 +111448,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -111483,12 +111459,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 2.1261e-11 + Hto 1.7400e-11 I 1.2298e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.9236e-12 + Nat 4.1112e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -111507,12 +111483,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.802e-10 2.123e-11 + Hto 1.475e-10 1.737e-11 I 1.044e-10 1.230e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.008e-11 1.187e-12 + Nat 6.996e-12 8.241e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -111545,7 +111521,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.421e-11 - CH4 2.421e-11 2.632e-11 -10.616 -10.580 0.036 35.46 + CH4 2.421e-11 2.633e-11 -10.616 -10.580 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -111570,9 +111546,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.821e-11 - H2 9.103e-12 9.897e-12 -11.041 -11.004 0.036 28.61 -Hto 1.802e-10 - Hto 1.802e-10 1.802e-10 -9.744 -9.744 0.000 (0) + H2 9.103e-12 9.898e-12 -11.041 -11.004 0.036 28.61 +Hto 1.475e-10 + Hto 1.475e-10 1.475e-10 -9.831 -9.831 0.000 (0) I 1.044e-10 I- 1.044e-10 1.044e-10 -9.981 -9.981 -0.000 (0) K 1.540e-03 @@ -111590,15 +111566,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.008e-11 - Nat+ 1.008e-11 1.008e-11 -10.997 -10.997 -0.000 (0) +Nat 6.996e-12 + Nat+ 6.996e-12 6.996e-12 -11.155 -11.155 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.416 -70.380 0.036 30.40 S(-2) 3.794e-08 - HS- 2.653e-08 1.747e-08 -7.576 -7.758 -0.182 21.14 - H2S 1.141e-08 1.240e-08 -7.943 -7.907 0.036 36.27 - S-2 1.078e-13 2.598e-14 -12.968 -13.585 -0.618 (0) - (H2S)2 7.453e-18 8.103e-18 -17.128 -17.091 0.036 30.09 + HS- 2.654e-08 1.747e-08 -7.576 -7.758 -0.182 21.14 + H2S 1.141e-08 1.240e-08 -7.943 -7.906 0.036 36.27 + S-2 1.078e-13 2.598e-14 -12.967 -13.585 -0.618 (0) + (H2S)2 7.456e-18 8.107e-18 -17.127 -17.091 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -111663,7 +111639,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.322e-11 Surface + diffuse layer charge, eq + -9.326e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -111673,7 +111649,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -111684,12 +111660,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 2.7641e-12 - I 1.3674e-24 + Hto 2.1724e-12 + I 1.3676e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6594e-13 + Nat 3.0240e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -111708,12 +111684,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.342e-11 2.760e-12 + Hto 1.841e-11 2.169e-12 I 1.161e-11 1.367e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.928e-13 9.340e-14 + Nat 5.146e-13 6.062e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -111731,7 +111707,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.466e-10 + Electrical balance (eq) = 1.703e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -111772,8 +111748,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.813e-11 H2 9.067e-12 9.858e-12 -11.043 -11.006 0.036 28.61 -Hto 2.342e-11 - Hto 2.342e-11 2.342e-11 -10.630 -10.630 0.000 (0) +Hto 1.841e-11 + Hto 1.841e-11 1.841e-11 -10.735 -10.735 0.000 (0) I 1.161e-11 I- 1.161e-11 1.161e-11 -10.935 -10.935 -0.000 (0) K 1.540e-03 @@ -111791,15 +111767,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.928e-13 - Nat+ 7.928e-13 7.928e-13 -12.101 -12.101 -0.000 (0) +Nat 5.146e-13 + Nat+ 5.146e-13 5.146e-13 -12.289 -12.289 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.413 -70.376 0.036 30.40 -S(-2) 3.734e-08 - HS- 2.611e-08 1.719e-08 -7.583 -7.765 -0.182 21.14 +S(-2) 3.735e-08 + HS- 2.612e-08 1.719e-08 -7.583 -7.765 -0.182 21.14 H2S 1.123e-08 1.221e-08 -7.950 -7.913 0.036 36.27 S-2 1.061e-13 2.557e-14 -12.974 -13.592 -0.618 (0) - (H2S)2 7.221e-18 7.851e-18 -17.141 -17.105 0.036 30.09 + (H2S)2 7.223e-18 7.853e-18 -17.141 -17.105 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -111864,7 +111840,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.313e-11 Surface + diffuse layer charge, eq + -9.314e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -111874,7 +111850,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -111885,12 +111861,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 3.0388e-13 + Hto 2.2924e-13 I 1.2829e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0746e-14 + Nat 1.8657e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -111909,12 +111885,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.575e-12 3.034e-13 + Hto 1.943e-12 2.289e-13 I 1.089e-12 1.283e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.232e-14 6.164e-15 + Nat 3.175e-14 3.740e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -111932,7 +111908,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.970e-10 + Electrical balance (eq) = 1.123e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -111973,8 +111949,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.809e-11 H2 9.045e-12 9.834e-12 -11.044 -11.007 0.036 28.61 -Hto 2.575e-12 - Hto 2.575e-12 2.575e-12 -11.589 -11.589 0.000 (0) +Hto 1.943e-12 + Hto 1.943e-12 1.943e-12 -11.712 -11.712 0.000 (0) I 1.089e-12 I- 1.089e-12 1.089e-12 -11.963 -11.963 -0.000 (0) K 1.540e-03 @@ -111992,15 +111968,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.232e-14 - Nat+ 5.232e-14 5.232e-14 -13.281 -13.281 -0.000 (0) +Nat 3.175e-14 + Nat+ 3.175e-14 3.175e-14 -13.498 -13.498 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.411 -70.374 0.036 30.40 S(-2) 3.698e-08 HS- 2.586e-08 1.702e-08 -7.587 -7.769 -0.182 21.14 H2S 1.112e-08 1.209e-08 -7.954 -7.918 0.036 36.27 S-2 1.050e-13 2.532e-14 -12.979 -13.597 -0.618 (0) - (H2S)2 7.081e-18 7.698e-18 -17.150 -17.114 0.036 30.09 + (H2S)2 7.081e-18 7.699e-18 -17.150 -17.114 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -112075,7 +112051,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -112086,12 +112062,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 2.8448e-14 - I 1.0230e-26 + Hto 2.0590e-14 + I 1.0232e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7175e-15 + Nat 9.7429e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -112110,12 +112086,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.411e-13 2.840e-14 + Hto 1.745e-13 2.056e-14 I 8.683e-14 1.023e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.923e-15 3.443e-16 + Nat 1.658e-15 1.953e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -112133,7 +112109,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.591e-10 + Electrical balance (eq) = -2.615e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -112174,8 +112150,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.808e-11 H2 9.038e-12 9.826e-12 -11.044 -11.008 0.036 28.61 -Hto 2.411e-13 - Hto 2.411e-13 2.411e-13 -12.618 -12.618 0.000 (0) +Hto 1.745e-13 + Hto 1.745e-13 1.745e-13 -12.758 -12.758 0.000 (0) I 8.683e-14 I- 8.683e-14 8.683e-14 -13.061 -13.061 -0.000 (0) K 1.540e-03 @@ -112193,8 +112169,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.923e-15 - Nat+ 2.923e-15 2.923e-15 -14.534 -14.534 -0.000 (0) +Nat 1.658e-15 + Nat+ 1.658e-15 1.658e-15 -14.780 -14.780 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.410 -70.374 0.036 30.40 S(-2) 3.686e-08 @@ -112276,7 +112252,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -112287,12 +112263,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 2.2788e-15 - I 6.9706e-28 + Hto 1.5819e-15 + I 6.9716e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1723e-17 + Nat 4.3336e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -112311,12 +112287,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.931e-14 2.275e-15 + Hto 1.341e-14 1.579e-15 I 5.917e-15 6.971e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.391e-16 1.638e-17 + Nat 7.374e-17 8.687e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -112334,7 +112310,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.734e-10 + Electrical balance (eq) = -2.735e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -112374,9 +112350,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.808e-11 - H2 9.040e-12 9.829e-12 -11.044 -11.007 0.036 28.61 -Hto 1.931e-14 - Hto 1.931e-14 1.931e-14 -13.714 -13.714 0.000 (0) + H2 9.040e-12 9.829e-12 -11.044 -11.008 0.036 28.61 +Hto 1.341e-14 + Hto 1.341e-14 1.341e-14 -13.873 -13.873 0.000 (0) I 5.917e-15 I- 5.917e-15 5.917e-15 -14.228 -14.228 -0.000 (0) K 1.540e-03 @@ -112394,15 +112370,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.391e-16 - Nat+ 1.391e-16 1.391e-16 -15.857 -15.857 -0.000 (0) +Nat 7.374e-17 + Nat+ 7.374e-17 7.374e-17 -16.132 -16.132 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.410 -70.374 0.036 30.40 S(-2) 3.690e-08 HS- 2.581e-08 1.699e-08 -7.588 -7.770 -0.182 21.14 - H2S 1.110e-08 1.206e-08 -7.955 -7.919 0.036 36.27 + H2S 1.109e-08 1.206e-08 -7.955 -7.919 0.036 36.27 S-2 1.048e-13 2.527e-14 -12.980 -13.597 -0.618 (0) - (H2S)2 7.053e-18 7.668e-18 -17.152 -17.115 0.036 30.09 + (H2S)2 7.052e-18 7.667e-18 -17.152 -17.115 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -112467,7 +112443,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.316e-11 Surface + diffuse layer charge, eq + -9.315e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -112477,7 +112453,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -112488,12 +112464,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 1.5664e-16 - I 4.0725e-29 + Hto 1.0427e-16 + I 4.0719e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3254e-18 + Nat 1.6483e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -112512,12 +112488,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.327e-15 1.564e-16 + Hto 8.837e-16 1.041e-16 I 3.456e-16 4.072e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.658e-18 6.666e-19 + Nat 2.805e-18 3.304e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -112535,7 +112511,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.219e-09 + Electrical balance (eq) = 1.051e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -112576,8 +112552,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.812e-11 H2 9.060e-12 9.850e-12 -11.043 -11.007 0.036 28.61 -Hto 1.327e-15 - Hto 1.327e-15 1.327e-15 -14.877 -14.877 0.000 (0) +Hto 8.837e-16 + Hto 8.837e-16 8.837e-16 -15.054 -15.054 0.000 (0) I 3.456e-16 I- 3.456e-16 3.456e-16 -15.461 -15.461 -0.000 (0) K 1.540e-03 @@ -112595,15 +112571,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.658e-18 - Nat+ 5.658e-18 5.658e-18 -17.247 -17.247 -0.000 (0) +Nat 2.805e-18 + Nat+ 2.805e-18 2.805e-18 -17.552 -17.552 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.412 -70.376 0.036 30.40 S(-2) 3.722e-08 - HS- 2.603e-08 1.714e-08 -7.585 -7.766 -0.182 21.14 + HS- 2.603e-08 1.713e-08 -7.585 -7.766 -0.182 21.14 H2S 1.119e-08 1.217e-08 -7.951 -7.915 0.036 36.27 - S-2 1.057e-13 2.549e-14 -12.976 -13.594 -0.618 (0) - (H2S)2 7.175e-18 7.801e-18 -17.144 -17.108 0.036 30.09 + S-2 1.057e-13 2.548e-14 -12.976 -13.594 -0.618 (0) + (H2S)2 7.174e-18 7.800e-18 -17.144 -17.108 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -112678,7 +112654,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -112689,12 +112665,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 9.2516e-18 - I 2.0419e-30 + Hto 5.9044e-18 + I 2.0423e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1593e-19 + Nat 5.3711e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -112713,12 +112689,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.840e-17 9.237e-18 + Hto 5.004e-17 5.895e-18 I 1.733e-17 2.042e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.973e-19 2.324e-20 + Nat 9.140e-20 1.077e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -112751,7 +112727,7 @@ Su H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.423e-11 - CH4 2.423e-11 2.634e-11 -10.616 -10.579 0.036 35.46 + CH4 2.423e-11 2.635e-11 -10.616 -10.579 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -112776,9 +112752,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.821e-11 - H2 9.105e-12 9.899e-12 -11.041 -11.004 0.036 28.61 -Hto 7.840e-17 - Hto 7.840e-17 7.840e-17 -16.106 -16.106 0.000 (0) + H2 9.105e-12 9.900e-12 -11.041 -11.004 0.036 28.61 +Hto 5.004e-17 + Hto 5.004e-17 5.004e-17 -16.301 -16.301 0.000 (0) I 1.733e-17 I- 1.733e-17 1.733e-17 -16.761 -16.761 -0.000 (0) K 1.540e-03 @@ -112796,15 +112772,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.973e-19 - Nat+ 1.973e-19 1.973e-19 -18.705 -18.705 -0.000 (0) +Nat 9.140e-20 + Nat+ 9.140e-20 9.140e-20 -19.039 -19.039 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.416 -70.380 0.036 30.40 -S(-2) 3.797e-08 - HS- 2.655e-08 1.748e-08 -7.576 -7.757 -0.182 21.14 +S(-2) 3.798e-08 + HS- 2.656e-08 1.748e-08 -7.576 -7.757 -0.182 21.14 H2S 1.142e-08 1.241e-08 -7.942 -7.906 0.036 36.27 S-2 1.079e-13 2.600e-14 -12.967 -13.585 -0.618 (0) - (H2S)2 7.467e-18 8.118e-18 -17.127 -17.091 0.036 30.09 + (H2S)2 7.468e-18 8.120e-18 -17.127 -17.090 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -112879,7 +112855,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -112890,12 +112866,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 4.6924e-19 - I 8.7859e-32 + Hto 2.8707e-19 + I 8.7871e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4632e-21 + Nat 1.4996e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -112914,12 +112890,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.977e-18 4.685e-19 + Hto 2.433e-18 2.866e-19 I 7.458e-19 8.786e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.893e-21 6.942e-22 + Nat 2.552e-21 3.006e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -112977,9 +112953,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.825e-11 - H2 9.126e-12 9.922e-12 -11.040 -11.003 0.036 28.61 -Hto 3.977e-18 - Hto 3.977e-18 3.977e-18 -17.400 -17.400 0.000 (0) + H2 9.126e-12 9.923e-12 -11.040 -11.003 0.036 28.61 +Hto 2.433e-18 + Hto 2.433e-18 2.433e-18 -17.614 -17.614 0.000 (0) I 7.458e-19 I- 7.458e-19 7.458e-19 -18.127 -18.127 -0.000 (0) K 1.540e-03 @@ -112997,15 +112973,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.893e-21 - Nat+ 5.893e-21 5.893e-21 -20.230 -20.230 -0.000 (0) +Nat 2.552e-21 + Nat+ 2.552e-21 2.552e-21 -20.593 -20.593 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.418 -70.382 0.036 30.40 -S(-2) 3.832e-08 - HS- 2.680e-08 1.764e-08 -7.572 -7.753 -0.182 21.14 +S(-2) 3.833e-08 + HS- 2.680e-08 1.765e-08 -7.572 -7.753 -0.182 21.14 H2S 1.152e-08 1.253e-08 -7.938 -7.902 0.036 36.27 - S-2 1.089e-13 2.624e-14 -12.963 -13.581 -0.618 (0) - (H2S)2 7.606e-18 8.270e-18 -17.119 -17.083 0.036 30.09 + S-2 1.089e-13 2.625e-14 -12.963 -13.581 -0.618 (0) + (H2S)2 7.607e-18 8.271e-18 -17.119 -17.082 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -113080,7 +113056,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -113091,12 +113067,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 2.0393e-20 + Hto 1.1958e-20 I 3.2380e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.8429e-23 + Nat 3.5723e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -113115,12 +113091,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.728e-19 2.036e-20 + Hto 1.013e-19 1.194e-20 I 2.748e-20 3.238e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.505e-22 1.773e-23 + Nat 6.079e-23 7.161e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -113179,8 +113155,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.826e-11 H2 9.131e-12 9.928e-12 -11.039 -11.003 0.036 28.61 -Hto 1.728e-19 - Hto 1.728e-19 1.728e-19 -18.762 -18.762 0.000 (0) +Hto 1.013e-19 + Hto 1.013e-19 1.013e-19 -18.994 -18.994 0.000 (0) I 2.748e-20 I- 2.748e-20 2.748e-20 -19.561 -19.561 -0.000 (0) K 1.540e-03 @@ -113198,8 +113174,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.505e-22 - Nat+ 1.505e-22 1.505e-22 -21.823 -21.823 -0.000 (0) +Nat 6.079e-23 + Nat+ 6.079e-23 6.079e-23 -22.216 -22.216 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.419 -70.382 0.036 30.40 S(-2) 3.841e-08 @@ -113281,7 +113257,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -113292,12 +113268,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 7.5630e-22 - I 1.0170e-34 + Hto 4.2499e-22 + I 1.0169e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8215e-24 + Nat 6.0474e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -113316,12 +113292,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.409e-21 7.551e-22 + Hto 3.602e-21 4.243e-22 I 8.632e-22 1.017e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.099e-24 3.651e-25 + Nat 1.029e-24 1.212e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -113380,8 +113356,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.826e-11 H2 9.132e-12 9.928e-12 -11.039 -11.003 0.036 28.61 -Hto 6.409e-21 - Hto 6.409e-21 6.409e-21 -20.193 -20.193 0.000 (0) +Hto 3.602e-21 + Hto 3.602e-21 3.602e-21 -20.444 -20.444 0.000 (0) I 8.632e-22 I- 8.632e-22 8.632e-22 -21.064 -21.064 -0.000 (0) K 1.540e-03 @@ -113399,8 +113375,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.099e-24 - Nat+ 3.099e-24 3.099e-24 -23.509 -23.509 -0.000 (0) +Nat 1.029e-24 + Nat+ 1.029e-24 1.029e-24 -23.988 -23.988 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.419 -70.383 0.036 30.40 S(-2) 3.842e-08 @@ -113482,7 +113458,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -113493,8 +113469,8 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 2.3750e-23 - I 2.6353e-36 + Hto 1.2754e-23 + I 2.6357e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -113516,7 +113492,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.013e-22 2.371e-23 + Hto 1.081e-22 1.273e-23 I 2.237e-23 2.635e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -113579,8 +113555,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.826e-11 H2 9.132e-12 9.929e-12 -11.039 -11.003 0.036 28.61 -Hto 2.013e-22 - Hto 2.013e-22 2.013e-22 -21.696 -21.696 0.000 (0) +Hto 1.081e-22 + Hto 1.081e-22 1.081e-22 -21.966 -21.966 0.000 (0) I 2.237e-23 I- 2.237e-23 2.237e-23 -22.650 -22.650 -0.000 (0) K 1.540e-03 @@ -113679,7 +113655,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -113690,7 +113666,7 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 5.8099e-25 + Hto 2.5961e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -113712,7 +113688,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.924e-24 5.801e-25 + Hto 2.200e-24 2.592e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -113774,8 +113750,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.826e-11 H2 9.132e-12 9.929e-12 -11.039 -11.003 0.036 28.61 -Hto 4.924e-24 - Hto 4.924e-24 4.924e-24 -23.308 -23.308 0.000 (0) +Hto 2.200e-24 + Hto 2.200e-24 2.200e-24 -23.658 -23.658 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -113872,7 +113848,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -114061,7 +114037,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -114539,30 +114515,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.894e-07 2.947e-07 + Hto 5.948e-07 2.974e-07 I 7.519e-07 3.760e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.486e-07 1.743e-07 + Nat 3.572e-07 1.786e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.984 Adjusted to redox equilibrium + pe = -2.983 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.131e-13 + Electrical balance (eq) = -2.612e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -114576,8 +114552,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.043e-13 - CH4 9.043e-13 9.831e-13 -12.044 -12.007 0.036 35.46 +C(-4) 8.858e-13 + CH4 8.858e-13 9.631e-13 -12.053 -12.016 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -114601,10 +114577,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.002e-12 - H2 4.001e-12 4.350e-12 -11.398 -11.361 0.036 28.61 -Hto 5.894e-07 - Hto 5.894e-07 5.894e-07 -6.230 -6.230 0.000 (0) +H(0) 7.961e-12 + H2 3.981e-12 4.328e-12 -11.400 -11.364 0.036 28.61 +Hto 5.948e-07 + Hto 5.948e-07 5.948e-07 -6.226 -6.226 0.000 (0) I 7.519e-07 I- 7.519e-07 7.519e-07 -6.124 -6.124 -0.000 (0) K 1.540e-03 @@ -114622,15 +114598,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.486e-07 - Nat+ 3.486e-07 3.486e-07 -6.458 -6.458 -0.000 (0) +Nat 3.572e-07 + Nat+ 3.572e-07 3.572e-07 -6.447 -6.447 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.702 -69.666 0.036 30.40 -S(-2) 1.418e-09 - HS- 9.911e-10 6.525e-10 -9.004 -9.185 -0.182 21.14 - H2S 4.265e-10 4.637e-10 -9.370 -9.334 0.036 36.27 - S-2 4.022e-15 9.695e-16 -14.396 -15.013 -0.618 (0) - (H2S)2 1.042e-20 1.133e-20 -19.982 -19.946 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.698 -69.661 0.036 30.40 +S(-2) 1.389e-09 + HS- 9.709e-10 6.391e-10 -9.013 -9.194 -0.182 21.14 + H2S 4.178e-10 4.542e-10 -9.379 -9.343 0.036 36.27 + S-2 3.940e-15 9.497e-16 -14.405 -15.022 -0.618 (0) + (H2S)2 9.999e-21 1.087e-20 -20.000 -19.964 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -114657,21 +114633,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.21 -12.01 -2.80 CH4 + CH4(g) -9.21 -12.02 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.26 -11.36 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.34 -16.28 -7.94 H2S + H2S(g) -8.35 -16.28 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.77 -69.67 -2.89 O2 + O2(g) -66.77 -69.66 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -6.00 -1.12 4.88 S + Sulfur -6.01 -1.13 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -114695,7 +114671,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.219e-14 Surface + diffuse layer charge, eq + -4.202e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -114705,7 +114681,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -114716,12 +114692,12 @@ Su Ca 7.1884e-02 Cl 4.6659e-10 H 1.2947e-04 - Hto 5.7335e-08 + Hto 5.7496e-08 I 7.3824e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7382e-07 + Nat 1.7576e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -114740,12 +114716,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.859e-07 5.724e-08 + Hto 4.873e-07 5.740e-08 I 6.267e-07 7.383e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.958e-07 3.484e-08 + Nat 2.991e-07 3.523e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -114756,14 +114732,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.682e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -114777,8 +114753,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.155e-12 - CH4 4.155e-12 4.518e-12 -11.381 -11.345 0.036 35.46 +C(-4) 4.118e-12 + CH4 4.118e-12 4.477e-12 -11.385 -11.349 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -114787,7 +114763,7 @@ C(4) 2.744e-03 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.600e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 @@ -114802,10 +114778,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.172e-11 - H2 5.858e-12 6.369e-12 -11.232 -11.196 0.036 28.61 -Hto 4.859e-07 - Hto 4.859e-07 4.859e-07 -6.313 -6.313 0.000 (0) +H(0) 1.169e-11 + H2 5.845e-12 6.355e-12 -11.233 -11.197 0.036 28.61 +Hto 4.873e-07 + Hto 4.873e-07 4.873e-07 -6.312 -6.312 0.000 (0) I 6.267e-07 I- 6.267e-07 6.267e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -114817,21 +114793,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.896e-07 2.125e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.958e-07 - Nat+ 2.958e-07 2.958e-07 -6.529 -6.529 -0.000 (0) +Nat 2.991e-07 + Nat+ 2.991e-07 2.991e-07 -6.524 -6.524 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.033 -69.997 0.036 30.40 -S(-2) 6.514e-09 - HS- 4.554e-09 2.998e-09 -8.342 -8.523 -0.182 21.14 - H2S 1.960e-09 2.130e-09 -8.708 -8.672 0.036 36.27 - S-2 1.848e-14 4.456e-15 -13.733 -14.351 -0.618 (0) - (H2S)2 2.200e-19 2.392e-19 -18.658 -18.621 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.031 -69.995 0.036 30.40 +S(-2) 6.455e-09 + HS- 4.513e-09 2.971e-09 -8.345 -8.527 -0.182 21.14 + H2S 1.942e-09 2.111e-09 -8.712 -8.675 0.036 36.27 + S-2 1.832e-14 4.416e-15 -13.737 -14.355 -0.618 (0) + (H2S)2 2.160e-19 2.349e-19 -18.665 -18.629 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -114858,19 +114834,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.54 -11.35 -2.80 CH4 + CH4(g) -8.55 -11.35 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.09 -11.20 -3.10 H2 + H2(g) -8.10 -11.20 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.68 -15.61 -7.94 H2S + H2S(g) -7.68 -15.62 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.10 -70.00 -2.89 O2 + O2(g) -67.10 -69.99 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.51 -0.63 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -114896,7 +114872,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.227e-11 Surface + diffuse layer charge, eq + -9.225e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -114906,7 +114882,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -114917,12 +114893,12 @@ Su Ca 7.1884e-02 Cl 4.6633e-10 H 1.2949e-04 - Hto 2.9499e-08 + Hto 2.8929e-08 I 3.4450e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2648e-08 + Nat 6.9810e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -114941,12 +114917,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.500e-07 2.945e-08 + Hto 2.452e-07 2.888e-08 I 2.924e-07 3.445e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.236e-07 1.456e-08 + Nat 1.188e-07 1.399e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -114964,7 +114940,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.163e-09 + Electrical balance (eq) = 4.129e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -114978,8 +114954,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.123e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.796e-11 - CH4 1.796e-11 1.953e-11 -10.746 -10.709 0.036 35.46 +C(-4) 1.798e-11 + CH4 1.798e-11 1.955e-11 -10.745 -10.709 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -115004,9 +114980,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.690e-11 - H2 8.448e-12 9.185e-12 -11.073 -11.037 0.036 28.61 -Hto 2.500e-07 - Hto 2.500e-07 2.500e-07 -6.602 -6.602 0.000 (0) + H2 8.450e-12 9.187e-12 -11.073 -11.037 0.036 28.61 +Hto 2.452e-07 + Hto 2.452e-07 2.452e-07 -6.611 -6.611 0.000 (0) I 2.924e-07 I- 2.924e-07 2.924e-07 -6.534 -6.534 -0.000 (0) K 1.540e-03 @@ -115024,15 +115000,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.236e-07 - Nat+ 1.236e-07 1.236e-07 -6.908 -6.908 -0.000 (0) +Nat 1.188e-07 + Nat+ 1.188e-07 1.188e-07 -6.925 -6.925 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.351 -70.315 0.036 30.40 -S(-2) 2.815e-08 - HS- 1.969e-08 1.296e-08 -7.706 -7.887 -0.182 21.14 - H2S 8.466e-09 9.205e-09 -8.072 -8.036 0.036 36.27 - S-2 7.995e-14 1.927e-14 -13.097 -13.715 -0.618 (0) - (H2S)2 4.106e-18 4.465e-18 -17.387 -17.350 0.036 30.09 +S(-2) 2.818e-08 + HS- 1.970e-08 1.297e-08 -7.705 -7.887 -0.182 21.14 + H2S 8.473e-09 9.212e-09 -8.072 -8.036 0.036 36.27 + S-2 8.002e-14 1.929e-14 -13.097 -13.715 -0.618 (0) + (H2S)2 4.113e-18 4.472e-18 -17.386 -17.349 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -115071,7 +115047,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.42 -70.31 -2.89 O2 + O2(g) -67.42 -70.32 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.03 -0.15 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -115107,7 +115083,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -115118,12 +115094,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 1.1429e-08 - I 1.1862e-20 + Hto 1.0882e-08 + I 1.1860e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0092e-08 + Nat 1.8183e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -115142,12 +115118,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.686e-08 1.141e-08 + Hto 9.222e-08 1.086e-08 I 1.007e-07 1.186e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.419e-08 4.028e-09 + Nat 3.094e-08 3.645e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -115165,7 +115141,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.607e-10 + Electrical balance (eq) = -4.605e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -115179,8 +115155,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.295e-11 - CH4 2.295e-11 2.496e-11 -10.639 -10.603 0.036 35.46 +C(-4) 2.297e-11 + CH4 2.297e-11 2.497e-11 -10.639 -10.603 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -115205,9 +115181,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.797e-11 - H2 8.983e-12 9.766e-12 -11.047 -11.010 0.036 28.61 -Hto 9.686e-08 - Hto 9.686e-08 9.686e-08 -7.014 -7.014 0.000 (0) + H2 8.984e-12 9.768e-12 -11.047 -11.010 0.036 28.61 +Hto 9.222e-08 + Hto 9.222e-08 9.222e-08 -7.035 -7.035 0.000 (0) I 1.007e-07 I- 1.007e-07 1.007e-07 -6.997 -6.997 -0.000 (0) K 1.540e-03 @@ -115225,15 +115201,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.419e-08 - Nat+ 3.419e-08 3.419e-08 -7.466 -7.466 -0.000 (0) +Nat 3.094e-08 + Nat+ 3.094e-08 3.094e-08 -7.509 -7.509 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.405 -70.368 0.036 30.40 -S(-2) 3.597e-08 - HS- 2.516e-08 1.656e-08 -7.599 -7.781 -0.182 21.14 - H2S 1.082e-08 1.176e-08 -7.966 -7.930 0.036 36.27 - S-2 1.022e-13 2.463e-14 -12.991 -13.609 -0.618 (0) - (H2S)2 6.701e-18 7.286e-18 -17.174 -17.138 0.036 30.09 +S(-2) 3.599e-08 + HS- 2.517e-08 1.657e-08 -7.599 -7.781 -0.182 21.14 + H2S 1.082e-08 1.176e-08 -7.966 -7.929 0.036 36.27 + S-2 1.022e-13 2.464e-14 -12.990 -13.608 -0.618 (0) + (H2S)2 6.708e-18 7.294e-18 -17.173 -17.137 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -115267,7 +115243,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.91 -11.01 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.94 -14.87 -7.94 H2S + H2S(g) -6.93 -14.87 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -115308,7 +115284,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -115319,12 +115295,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 3.4415e-09 - I 3.1301e-21 + Hto 3.1676e-09 + I 3.1296e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0294e-09 + Nat 3.4221e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -115343,12 +115319,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.917e-08 3.436e-09 + Hto 2.684e-08 3.163e-09 I 2.656e-08 3.129e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.857e-09 8.078e-10 + Nat 5.823e-09 6.860e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -115380,8 +115356,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.478e-11 - CH4 2.478e-11 2.695e-11 -10.606 -10.570 0.036 35.46 +C(-4) 2.479e-11 + CH4 2.479e-11 2.696e-11 -10.606 -10.569 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -115406,9 +115382,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.831e-11 - H2 9.157e-12 9.955e-12 -11.038 -11.002 0.036 28.61 -Hto 2.917e-08 - Hto 2.917e-08 2.917e-08 -7.535 -7.535 0.000 (0) + H2 9.157e-12 9.956e-12 -11.038 -11.002 0.036 28.61 +Hto 2.684e-08 + Hto 2.684e-08 2.684e-08 -7.571 -7.571 0.000 (0) I 2.656e-08 I- 2.656e-08 2.656e-08 -7.576 -7.576 -0.000 (0) K 1.540e-03 @@ -115426,15 +115402,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.857e-09 - Nat+ 6.857e-09 6.857e-09 -8.164 -8.164 -0.000 (0) +Nat 5.823e-09 + Nat+ 5.823e-09 5.823e-09 -8.235 -8.235 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.421 -70.385 0.036 30.40 -S(-2) 3.884e-08 - HS- 2.716e-08 1.788e-08 -7.566 -7.748 -0.182 21.14 - H2S 1.168e-08 1.269e-08 -7.933 -7.896 0.036 36.27 - S-2 1.103e-13 2.659e-14 -12.957 -13.575 -0.618 (0) - (H2S)2 7.811e-18 8.492e-18 -17.107 -17.071 0.036 30.09 +S(-2) 3.885e-08 + HS- 2.717e-08 1.789e-08 -7.566 -7.747 -0.182 21.14 + H2S 1.168e-08 1.270e-08 -7.933 -7.896 0.036 36.27 + S-2 1.104e-13 2.660e-14 -12.957 -13.575 -0.618 (0) + (H2S)2 7.816e-18 8.498e-18 -17.107 -17.071 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -115499,7 +115475,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -9.379e-11 Surface + diffuse layer charge, eq + -9.378e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -115509,7 +115485,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -115520,12 +115496,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 8.2757e-10 - I 6.5337e-22 + Hto 7.3436e-10 + I 6.5347e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.1983e-10 + Nat 4.9315e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -115544,12 +115520,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.013e-09 8.262e-10 + Hto 6.223e-09 7.332e-10 I 5.545e-09 6.533e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.055e-09 1.243e-10 + Nat 8.391e-10 9.886e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -115581,8 +115557,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.534e-11 - CH4 2.534e-11 2.755e-11 -10.596 -10.560 0.036 35.46 +C(-4) 2.535e-11 + CH4 2.535e-11 2.756e-11 -10.596 -10.560 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -115607,9 +115583,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.842e-11 - H2 9.208e-12 1.001e-11 -11.036 -11.000 0.036 28.61 -Hto 7.013e-09 - Hto 7.013e-09 7.013e-09 -8.154 -8.154 0.000 (0) + H2 9.208e-12 1.001e-11 -11.036 -10.999 0.036 28.61 +Hto 6.223e-09 + Hto 6.223e-09 6.223e-09 -8.206 -8.206 0.000 (0) I 5.545e-09 I- 5.545e-09 5.545e-09 -8.256 -8.256 -0.000 (0) K 1.540e-03 @@ -115627,15 +115603,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.055e-09 - Nat+ 1.055e-09 1.055e-09 -8.977 -8.977 -0.000 (0) +Nat 8.391e-10 + Nat+ 8.391e-10 8.391e-10 -9.076 -9.076 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.426 -70.390 0.036 30.40 -S(-2) 3.971e-08 - HS- 2.777e-08 1.828e-08 -7.556 -7.738 -0.182 21.14 +S(-2) 3.972e-08 + HS- 2.778e-08 1.829e-08 -7.556 -7.738 -0.182 21.14 H2S 1.194e-08 1.298e-08 -7.923 -7.887 0.036 36.27 - S-2 1.128e-13 2.719e-14 -12.948 -13.566 -0.618 (0) - (H2S)2 8.167e-18 8.879e-18 -17.088 -17.052 0.036 30.09 + S-2 1.128e-13 2.720e-14 -12.948 -13.565 -0.618 (0) + (H2S)2 8.170e-18 8.883e-18 -17.088 -17.051 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -115710,7 +115686,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -115721,12 +115697,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 1.6239e-10 + Hto 1.3869e-10 I 1.1058e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5868e-11 + Nat 5.6499e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -115745,12 +115721,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.376e-09 1.621e-10 + Hto 1.175e-09 1.385e-10 I 9.386e-10 1.106e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.291e-10 1.521e-11 + Nat 9.614e-11 1.133e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -115782,8 +115758,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.541e-11 - CH4 2.541e-11 2.763e-11 -10.595 -10.559 0.036 35.46 +C(-4) 2.542e-11 + CH4 2.542e-11 2.763e-11 -10.595 -10.559 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -115808,9 +115784,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.843e-11 - H2 9.214e-12 1.002e-11 -11.036 -10.999 0.036 28.61 -Hto 1.376e-09 - Hto 1.376e-09 1.376e-09 -8.861 -8.861 0.000 (0) + H2 9.215e-12 1.002e-11 -11.036 -10.999 0.036 28.61 +Hto 1.175e-09 + Hto 1.175e-09 1.175e-09 -8.930 -8.930 0.000 (0) I 9.386e-10 I- 9.386e-10 9.386e-10 -9.028 -9.028 -0.000 (0) K 1.540e-03 @@ -115828,15 +115804,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.291e-10 - Nat+ 1.291e-10 1.291e-10 -9.889 -9.889 -0.000 (0) +Nat 9.614e-11 + Nat+ 9.614e-11 9.614e-11 -10.017 -10.017 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.427 -70.390 0.036 30.40 -S(-2) 3.982e-08 - HS- 2.785e-08 1.833e-08 -7.555 -7.737 -0.182 21.14 +S(-2) 3.983e-08 + HS- 2.786e-08 1.834e-08 -7.555 -7.737 -0.182 21.14 H2S 1.197e-08 1.302e-08 -7.922 -7.885 0.036 36.27 - S-2 1.131e-13 2.727e-14 -12.946 -13.564 -0.618 (0) - (H2S)2 8.212e-18 8.929e-18 -17.086 -17.049 0.036 30.09 + S-2 1.132e-13 2.728e-14 -12.946 -13.564 -0.618 (0) + (H2S)2 8.215e-18 8.932e-18 -17.085 -17.049 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -115911,7 +115887,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -115922,12 +115898,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 2.6443e-11 - I 1.5458e-23 + Hto 2.1709e-11 + I 1.5461e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5782e-12 + Nat 5.2796e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -115946,12 +115922,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.241e-10 2.640e-11 + Hto 1.840e-10 2.167e-11 I 1.312e-10 1.546e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.290e-11 1.519e-12 + Nat 8.984e-12 1.058e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -115969,7 +115945,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.600e-10 + Electrical balance (eq) = -4.601e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -115983,8 +115959,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.522e-11 - CH4 2.522e-11 2.742e-11 -10.598 -10.562 0.036 35.46 +C(-4) 2.523e-11 + CH4 2.523e-11 2.743e-11 -10.598 -10.562 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -116009,9 +115985,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.839e-11 - H2 9.197e-12 9.999e-12 -11.036 -11.000 0.036 28.61 -Hto 2.241e-10 - Hto 2.241e-10 2.241e-10 -9.650 -9.650 0.000 (0) + H2 9.197e-12 1.000e-11 -11.036 -11.000 0.036 28.61 +Hto 1.840e-10 + Hto 1.840e-10 1.840e-10 -9.735 -9.735 0.000 (0) I 1.312e-10 I- 1.312e-10 1.312e-10 -9.882 -9.882 -0.000 (0) K 1.540e-03 @@ -116029,15 +116005,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.290e-11 - Nat+ 1.290e-11 1.290e-11 -10.890 -10.890 -0.000 (0) +Nat 8.984e-12 + Nat+ 8.984e-12 8.984e-12 -11.047 -11.047 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.425 -70.389 0.036 30.40 -S(-2) 3.952e-08 - HS- 2.764e-08 1.820e-08 -7.558 -7.740 -0.182 21.14 +S(-2) 3.953e-08 + HS- 2.765e-08 1.820e-08 -7.558 -7.740 -0.182 21.14 H2S 1.188e-08 1.292e-08 -7.925 -7.889 0.036 36.27 - S-2 1.123e-13 2.706e-14 -12.950 -13.568 -0.618 (0) - (H2S)2 8.089e-18 8.794e-18 -17.092 -17.056 0.036 30.09 + S-2 1.123e-13 2.707e-14 -12.950 -13.568 -0.618 (0) + (H2S)2 8.092e-18 8.798e-18 -17.092 -17.056 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -116102,7 +116078,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.351e-11 Surface + diffuse layer charge, eq + -9.354e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -116112,7 +116088,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -116123,12 +116099,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 3.6189e-12 + Hto 2.8539e-12 I 1.8113e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2889e-13 + Nat 4.0976e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -116147,12 +116123,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.067e-11 3.613e-12 + Hto 2.419e-11 2.849e-12 I 1.537e-11 1.811e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.070e-12 1.261e-13 + Nat 6.972e-13 8.214e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -116170,7 +116146,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.339e-11 + Electrical balance (eq) = 1.610e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -116185,7 +116161,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.486e-11 - CH4 2.486e-11 2.702e-11 -10.605 -10.568 0.036 35.46 + CH4 2.486e-11 2.703e-11 -10.605 -10.568 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -116210,9 +116186,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.833e-11 - H2 9.163e-12 9.963e-12 -11.038 -11.002 0.036 28.61 -Hto 3.067e-11 - Hto 3.067e-11 3.067e-11 -10.513 -10.513 0.000 (0) + H2 9.164e-12 9.963e-12 -11.038 -11.002 0.036 28.61 +Hto 2.419e-11 + Hto 2.419e-11 2.419e-11 -10.616 -10.616 0.000 (0) I 1.537e-11 I- 1.537e-11 1.537e-11 -10.813 -10.813 -0.000 (0) K 1.540e-03 @@ -116230,15 +116206,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.070e-12 - Nat+ 1.070e-12 1.070e-12 -11.971 -11.971 -0.000 (0) +Nat 6.972e-13 + Nat+ 6.972e-13 6.972e-13 -12.157 -12.157 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.422 -70.386 0.036 30.40 S(-2) 3.895e-08 HS- 2.724e-08 1.793e-08 -7.565 -7.746 -0.182 21.14 H2S 1.171e-08 1.273e-08 -7.931 -7.895 0.036 36.27 - S-2 1.106e-13 2.667e-14 -12.956 -13.574 -0.618 (0) - (H2S)2 7.857e-18 8.542e-18 -17.105 -17.068 0.036 30.09 + S-2 1.107e-13 2.667e-14 -12.956 -13.574 -0.618 (0) + (H2S)2 7.858e-18 8.544e-18 -17.105 -17.068 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -116303,7 +116279,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.342e-11 Surface + diffuse layer charge, eq + -9.343e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -116313,7 +116289,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -116324,12 +116300,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 4.2034e-13 - I 1.7966e-25 + Hto 3.1821e-13 + I 1.7961e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3924e-14 + Nat 2.6760e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -116348,12 +116324,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.562e-12 4.197e-13 + Hto 2.697e-12 3.177e-13 I 1.525e-12 1.796e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.474e-14 8.805e-15 + Nat 4.554e-14 5.364e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -116371,7 +116347,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.039e-10 + Electrical balance (eq) = 1.914e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -116412,8 +116388,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.828e-11 H2 9.142e-12 9.939e-12 -11.039 -11.003 0.036 28.61 -Hto 3.562e-12 - Hto 3.562e-12 3.562e-12 -11.448 -11.448 0.000 (0) +Hto 2.697e-12 + Hto 2.697e-12 2.697e-12 -11.569 -11.569 0.000 (0) I 1.525e-12 I- 1.525e-12 1.525e-12 -11.817 -11.817 -0.000 (0) K 1.540e-03 @@ -116431,15 +116407,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.474e-14 - Nat+ 7.474e-14 7.474e-14 -13.126 -13.126 -0.000 (0) +Nat 4.554e-14 + Nat+ 4.554e-14 4.554e-14 -13.342 -13.342 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.420 -70.383 0.036 30.40 S(-2) 3.859e-08 HS- 2.699e-08 1.776e-08 -7.569 -7.750 -0.182 21.14 - H2S 1.160e-08 1.261e-08 -7.936 -7.899 0.036 36.27 + H2S 1.160e-08 1.261e-08 -7.935 -7.899 0.036 36.27 S-2 1.096e-13 2.642e-14 -12.960 -13.578 -0.618 (0) - (H2S)2 7.710e-18 8.383e-18 -17.113 -17.077 0.036 30.09 + (H2S)2 7.711e-18 8.383e-18 -17.113 -17.077 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -116514,7 +116490,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -116525,12 +116501,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 4.1735e-14 + Hto 3.0317e-14 I 1.5203e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6063e-15 + Nat 1.4845e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -116549,12 +116525,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.537e-13 4.167e-14 + Hto 2.569e-13 3.027e-14 I 1.290e-13 1.520e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.435e-15 5.225e-16 + Nat 2.526e-15 2.976e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -116572,7 +116548,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.522e-10 + Electrical balance (eq) = -3.546e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -116613,8 +116589,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.827e-11 H2 9.135e-12 9.932e-12 -11.039 -11.003 0.036 28.61 -Hto 3.537e-13 - Hto 3.537e-13 3.537e-13 -12.451 -12.451 0.000 (0) +Hto 2.569e-13 + Hto 2.569e-13 2.569e-13 -12.590 -12.590 0.000 (0) I 1.290e-13 I- 1.290e-13 1.290e-13 -12.889 -12.889 -0.000 (0) K 1.540e-03 @@ -116632,15 +116608,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.435e-15 - Nat+ 4.435e-15 4.435e-15 -14.353 -14.353 -0.000 (0) +Nat 2.526e-15 + Nat+ 2.526e-15 2.526e-15 -14.598 -14.598 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.419 -70.383 0.036 30.40 S(-2) 3.847e-08 HS- 2.690e-08 1.771e-08 -7.570 -7.752 -0.182 21.14 H2S 1.157e-08 1.257e-08 -7.937 -7.901 0.036 36.27 S-2 1.093e-13 2.634e-14 -12.961 -13.579 -0.618 (0) - (H2S)2 7.663e-18 8.332e-18 -17.116 -17.079 0.036 30.09 + (H2S)2 7.663e-18 8.331e-18 -17.116 -17.079 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -116715,7 +116691,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -116726,12 +116702,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 3.5606e-15 - I 1.1036e-27 + Hto 2.4811e-15 + I 1.1034e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3225e-16 + Nat 7.0420e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -116750,12 +116726,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.017e-14 3.555e-15 + Hto 2.103e-14 2.477e-15 I 9.368e-15 1.104e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.250e-16 2.651e-17 + Nat 1.198e-16 1.412e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -116773,7 +116749,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.665e-10 + Electrical balance (eq) = -3.666e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -116812,10 +116788,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.828e-11 - H2 9.138e-12 9.935e-12 -11.039 -11.003 0.036 28.61 -Hto 3.017e-14 - Hto 3.017e-14 3.017e-14 -13.520 -13.520 0.000 (0) +H(0) 1.827e-11 + H2 9.137e-12 9.934e-12 -11.039 -11.003 0.036 28.61 +Hto 2.103e-14 + Hto 2.103e-14 2.103e-14 -13.677 -13.677 0.000 (0) I 9.368e-15 I- 9.368e-15 9.368e-15 -14.028 -14.028 -0.000 (0) K 1.540e-03 @@ -116833,15 +116809,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.250e-16 - Nat+ 2.250e-16 2.250e-16 -15.648 -15.648 -0.000 (0) +Nat 1.198e-16 + Nat+ 1.198e-16 1.198e-16 -15.921 -15.921 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.419 -70.383 0.036 30.40 S(-2) 3.851e-08 - HS- 2.694e-08 1.773e-08 -7.570 -7.751 -0.182 21.14 + HS- 2.693e-08 1.773e-08 -7.570 -7.751 -0.182 21.14 H2S 1.158e-08 1.259e-08 -7.936 -7.900 0.036 36.27 S-2 1.094e-13 2.637e-14 -12.961 -13.579 -0.618 (0) - (H2S)2 7.682e-18 8.352e-18 -17.115 -17.078 0.036 30.09 + (H2S)2 7.681e-18 8.351e-18 -17.115 -17.078 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -116906,7 +116882,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.345e-11 Surface + diffuse layer charge, eq + -9.344e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -116916,7 +116892,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -116927,12 +116903,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 2.6191e-16 - I 6.9013e-29 + Hto 1.7502e-16 + I 6.9025e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.7648e-18 + Nat 2.8694e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -116951,12 +116927,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.220e-15 2.615e-16 + Hto 1.483e-15 1.747e-16 I 5.857e-16 6.901e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.810e-18 1.156e-18 + Nat 4.883e-18 5.752e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -116974,7 +116950,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.125e-09 + Electrical balance (eq) = 9.580e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -116988,8 +116964,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.479e-11 - CH4 2.479e-11 2.695e-11 -10.606 -10.569 0.036 35.46 +C(-4) 2.478e-11 + CH4 2.478e-11 2.694e-11 -10.606 -10.570 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -117014,9 +116990,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.831e-11 - H2 9.157e-12 9.956e-12 -11.038 -11.002 0.036 28.61 -Hto 2.220e-15 - Hto 2.220e-15 2.220e-15 -14.654 -14.654 0.000 (0) + H2 9.157e-12 9.955e-12 -11.038 -11.002 0.036 28.61 +Hto 1.483e-15 + Hto 1.483e-15 1.483e-15 -14.829 -14.829 0.000 (0) I 5.857e-16 I- 5.857e-16 5.857e-16 -15.232 -15.232 -0.000 (0) K 1.540e-03 @@ -117034,15 +117010,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.810e-18 - Nat+ 9.810e-18 9.810e-18 -17.008 -17.008 -0.000 (0) +Nat 4.883e-18 + Nat+ 4.883e-18 4.883e-18 -17.311 -17.311 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.421 -70.385 0.036 30.40 S(-2) 3.884e-08 HS- 2.716e-08 1.788e-08 -7.566 -7.748 -0.182 21.14 - H2S 1.168e-08 1.270e-08 -7.933 -7.896 0.036 36.27 - S-2 1.103e-13 2.660e-14 -12.957 -13.575 -0.618 (0) - (H2S)2 7.812e-18 8.494e-18 -17.107 -17.071 0.036 30.09 + H2S 1.168e-08 1.269e-08 -7.933 -7.896 0.036 36.27 + S-2 1.103e-13 2.659e-14 -12.957 -13.575 -0.618 (0) + (H2S)2 7.811e-18 8.492e-18 -17.107 -17.071 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -117117,7 +117093,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -117128,12 +117104,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 1.6641e-17 + Hto 1.0662e-17 I 3.7240e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1641e-19 + Nat 1.0069e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -117152,12 +117128,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.410e-16 1.661e-17 + Hto 9.036e-17 1.064e-17 I 3.161e-17 3.724e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.683e-19 4.338e-20 + Nat 1.713e-19 2.018e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -117216,8 +117192,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.840e-11 H2 9.199e-12 1.000e-11 -11.036 -11.000 0.036 28.61 -Hto 1.410e-16 - Hto 1.410e-16 1.410e-16 -15.851 -15.851 0.000 (0) +Hto 9.036e-17 + Hto 9.036e-17 9.036e-17 -16.044 -16.044 0.000 (0) I 3.161e-17 I- 3.161e-17 3.161e-17 -16.500 -16.500 -0.000 (0) K 1.540e-03 @@ -117235,15 +117211,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.683e-19 - Nat+ 3.683e-19 3.683e-19 -18.434 -18.434 -0.000 (0) +Nat 1.713e-19 + Nat+ 1.713e-19 1.713e-19 -18.766 -18.766 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.425 -70.389 0.036 30.40 -S(-2) 3.955e-08 +S(-2) 3.956e-08 HS- 2.766e-08 1.821e-08 -7.558 -7.740 -0.182 21.14 H2S 1.189e-08 1.293e-08 -7.925 -7.888 0.036 36.27 - S-2 1.124e-13 2.708e-14 -12.949 -13.567 -0.618 (0) - (H2S)2 8.101e-18 8.808e-18 -17.091 -17.055 0.036 30.09 + S-2 1.124e-13 2.709e-14 -12.949 -13.567 -0.618 (0) + (H2S)2 8.103e-18 8.810e-18 -17.091 -17.055 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -117318,7 +117294,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -117329,12 +117305,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 9.1347e-19 - I 1.7348e-31 + Hto 5.6110e-19 + I 1.7350e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.0027e-21 + Nat 3.0452e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -117353,12 +117329,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.741e-18 9.120e-19 + Hto 4.755e-18 5.602e-19 I 1.472e-18 1.735e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.192e-20 1.404e-21 + Nat 5.182e-21 6.105e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -117376,7 +117352,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.603e-10 + Electrical balance (eq) = -4.602e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -117416,9 +117392,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.844e-11 - H2 9.219e-12 1.002e-11 -11.035 -10.999 0.036 28.61 -Hto 7.741e-18 - Hto 7.741e-18 7.741e-18 -17.111 -17.111 0.000 (0) + H2 9.220e-12 1.002e-11 -11.035 -10.999 0.036 28.61 +Hto 4.755e-18 + Hto 4.755e-18 4.755e-18 -17.323 -17.323 0.000 (0) I 1.472e-18 I- 1.472e-18 1.472e-18 -17.832 -17.832 -0.000 (0) K 1.540e-03 @@ -117436,15 +117412,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.192e-20 - Nat+ 1.192e-20 1.192e-20 -19.924 -19.924 -0.000 (0) +Nat 5.182e-21 + Nat+ 5.182e-21 5.182e-21 -20.286 -20.286 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.427 -70.391 0.036 30.40 S(-2) 3.991e-08 - HS- 2.791e-08 1.837e-08 -7.554 -7.736 -0.182 21.14 - H2S 1.200e-08 1.305e-08 -7.921 -7.885 0.036 36.27 + HS- 2.791e-08 1.838e-08 -7.554 -7.736 -0.182 21.14 + H2S 1.200e-08 1.305e-08 -7.921 -7.884 0.036 36.27 S-2 1.134e-13 2.733e-14 -12.945 -13.563 -0.618 (0) - (H2S)2 8.249e-18 8.968e-18 -17.084 -17.047 0.036 30.09 + (H2S)2 8.250e-18 8.970e-18 -17.084 -17.047 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -117519,7 +117495,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -117530,12 +117506,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 4.3273e-20 - I 6.9710e-33 + Hto 2.5478e-20 + I 6.9695e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9511e-22 + Nat 7.9237e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -117554,12 +117530,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.667e-19 4.320e-20 + Hto 2.159e-19 2.544e-20 I 5.916e-20 6.969e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.320e-22 3.911e-23 + Nat 1.348e-22 1.588e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -117592,7 +117568,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.553e-11 - CH4 2.553e-11 2.775e-11 -10.593 -10.557 0.036 35.46 + CH4 2.553e-11 2.776e-11 -10.593 -10.557 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -117618,8 +117594,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.845e-11 H2 9.225e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 3.667e-19 - Hto 3.667e-19 3.667e-19 -18.436 -18.436 0.000 (0) +Hto 2.159e-19 + Hto 2.159e-19 2.159e-19 -18.666 -18.666 0.000 (0) I 5.916e-20 I- 5.916e-20 5.916e-20 -19.228 -19.228 -0.000 (0) K 1.540e-03 @@ -117637,8 +117613,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.320e-22 - Nat+ 3.320e-22 3.320e-22 -21.479 -21.479 -0.000 (0) +Nat 1.348e-22 + Nat+ 1.348e-22 1.348e-22 -21.870 -21.870 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.428 -70.391 0.036 30.40 S(-2) 4.000e-08 @@ -117720,7 +117696,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -117731,12 +117707,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 1.7640e-21 + Hto 9.9543e-22 I 2.4084e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5723e-24 + Nat 1.6559e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -117755,12 +117731,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.495e-20 1.761e-21 + Hto 8.436e-21 9.938e-22 I 2.044e-21 2.408e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.780e-24 9.166e-25 + Nat 2.818e-24 3.320e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -117819,8 +117795,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.845e-11 H2 9.226e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 1.495e-20 - Hto 1.495e-20 1.495e-20 -19.825 -19.825 0.000 (0) +Hto 8.436e-21 + Hto 8.436e-21 8.436e-21 -20.074 -20.074 0.000 (0) I 2.044e-21 I- 2.044e-21 2.044e-21 -20.690 -20.690 -0.000 (0) K 1.540e-03 @@ -117838,8 +117814,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.780e-24 - Nat+ 7.780e-24 7.780e-24 -23.109 -23.109 -0.000 (0) +Nat 2.818e-24 + Nat+ 2.818e-24 2.818e-24 -23.550 -23.550 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.428 -70.391 0.036 30.40 S(-2) 4.002e-08 @@ -117921,7 +117897,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -117932,8 +117908,8 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 6.1565e-23 - I 7.0515e-36 + Hto 3.3259e-23 + I 7.0530e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -117955,7 +117931,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.217e-22 6.147e-23 + Hto 2.819e-22 3.321e-23 I 5.985e-23 7.051e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -118018,8 +117994,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.845e-11 H2 9.226e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 5.217e-22 - Hto 5.217e-22 5.217e-22 -21.283 -21.283 0.000 (0) +Hto 2.819e-22 + Hto 2.819e-22 2.819e-22 -21.550 -21.550 0.000 (0) I 5.985e-23 I- 5.985e-23 5.985e-23 -22.223 -22.223 -0.000 (0) K 1.540e-03 @@ -118118,7 +118094,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -118129,7 +118105,7 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 1.7851e-24 + Hto 8.8721e-25 I 1.2072e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -118152,7 +118128,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.513e-23 1.782e-24 + Hto 7.519e-24 8.858e-25 I 1.024e-24 1.207e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -118215,8 +118191,8 @@ Cl 3.000e-01 HCl 3.951e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.845e-11 H2 9.226e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 1.513e-23 - Hto 1.513e-23 1.513e-23 -22.820 -22.820 0.000 (0) +Hto 7.519e-24 + Hto 7.519e-24 7.519e-24 -23.124 -23.124 0.000 (0) I 1.024e-24 I- 1.024e-24 1.024e-24 -23.989 -23.989 -0.000 (0) K 1.540e-03 @@ -118315,7 +118291,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -118504,7 +118480,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -118982,30 +118958,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.842e-07 2.921e-07 + Hto 5.896e-07 2.948e-07 I 7.483e-07 3.741e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.438e-07 1.719e-07 + Nat 3.522e-07 1.761e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.990 Adjusted to redox equilibrium + pe = -2.989 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.222e-13 + Electrical balance (eq) = -2.701e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -119019,8 +118995,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.007e-12 - CH4 1.007e-12 1.095e-12 -11.997 -11.961 0.036 35.46 +C(-4) 9.862e-13 + CH4 9.862e-13 1.072e-12 -12.006 -11.970 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -119044,10 +119020,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.220e-12 - H2 4.110e-12 4.469e-12 -11.386 -11.350 0.036 28.61 -Hto 5.842e-07 - Hto 5.842e-07 5.842e-07 -6.233 -6.233 0.000 (0) +H(0) 8.178e-12 + H2 4.089e-12 4.445e-12 -11.388 -11.352 0.036 28.61 +Hto 5.896e-07 + Hto 5.896e-07 5.896e-07 -6.229 -6.229 0.000 (0) I 7.483e-07 I- 7.483e-07 7.483e-07 -6.126 -6.126 -0.000 (0) K 1.540e-03 @@ -119065,15 +119041,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.438e-07 - Nat+ 3.438e-07 3.438e-07 -6.464 -6.464 -0.000 (0) +Nat 3.522e-07 + Nat+ 3.522e-07 3.522e-07 -6.453 -6.453 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.725 -69.689 0.036 30.40 -S(-2) 1.579e-09 - HS- 1.104e-09 7.266e-10 -8.957 -9.139 -0.182 21.14 - H2S 4.749e-10 5.163e-10 -9.323 -9.287 0.036 36.27 - S-2 4.479e-15 1.080e-15 -14.349 -14.967 -0.618 (0) - (H2S)2 1.292e-20 1.405e-20 -19.889 -19.852 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.721 -69.685 0.036 30.40 +S(-2) 1.546e-09 + HS- 1.081e-09 7.116e-10 -8.966 -9.148 -0.182 21.14 + H2S 4.651e-10 5.057e-10 -9.332 -9.296 0.036 36.27 + S-2 4.387e-15 1.057e-15 -14.358 -14.976 -0.618 (0) + (H2S)2 1.239e-20 1.347e-20 -19.907 -19.870 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -119100,21 +119076,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.16 -11.96 -2.80 CH4 + CH4(g) -9.17 -11.97 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.25 -11.35 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.29 -16.23 -7.94 H2S + H2S(g) -8.30 -16.24 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.80 -69.69 -2.89 O2 + O2(g) -66.79 -69.68 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.97 -1.09 4.88 S + Sulfur -5.98 -1.09 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -119138,7 +119114,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.313e-14 Surface + diffuse layer charge, eq + -4.369e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -119148,7 +119124,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -119157,14 +119133,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6658e-10 + Cl 4.6659e-10 H 1.2947e-04 - Hto 5.7154e-08 - I 7.3837e-20 + Hto 5.7333e-08 + I 7.3824e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7255e-07 + Nat 1.7462e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -119183,12 +119159,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.844e-07 5.706e-08 + Hto 4.859e-07 5.724e-08 I 6.266e-07 7.383e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.936e-07 3.459e-08 + Nat 2.971e-07 3.500e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -119199,14 +119175,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.682e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -119220,8 +119196,8 @@ Su OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.389e-12 - CH4 4.389e-12 4.772e-12 -11.358 -11.321 0.036 35.46 +C(-4) 4.350e-12 + CH4 4.350e-12 4.730e-12 -11.361 -11.325 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -119245,10 +119221,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.188e-11 - H2 5.939e-12 6.457e-12 -11.226 -11.190 0.036 28.61 -Hto 4.844e-07 - Hto 4.844e-07 4.844e-07 -6.315 -6.315 0.000 (0) +H(0) 1.185e-11 + H2 5.926e-12 6.443e-12 -11.227 -11.191 0.036 28.61 +Hto 4.859e-07 + Hto 4.859e-07 4.859e-07 -6.313 -6.313 0.000 (0) I 6.266e-07 I- 6.266e-07 6.266e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -119266,15 +119242,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.936e-07 - Nat+ 2.936e-07 2.936e-07 -6.532 -6.532 -0.000 (0) +Nat 2.971e-07 + Nat+ 2.971e-07 2.971e-07 -6.527 -6.527 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.045 -70.009 0.036 30.40 -S(-2) 6.881e-09 - HS- 4.811e-09 3.167e-09 -8.318 -8.499 -0.182 21.14 - H2S 2.070e-09 2.250e-09 -8.684 -8.648 0.036 36.27 - S-2 1.953e-14 4.707e-15 -13.709 -14.327 -0.618 (0) - (H2S)2 2.454e-19 2.668e-19 -18.610 -18.574 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.043 -70.007 0.036 30.40 +S(-2) 6.820e-09 + HS- 4.768e-09 3.139e-09 -8.322 -8.503 -0.182 21.14 + H2S 2.052e-09 2.231e-09 -8.688 -8.652 0.036 36.27 + S-2 1.935e-14 4.665e-15 -13.713 -14.331 -0.618 (0) + (H2S)2 2.411e-19 2.622e-19 -18.618 -18.581 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -119301,19 +119277,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.52 -11.32 -2.80 CH4 + CH4(g) -8.52 -11.33 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.09 -11.19 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.65 -15.59 -7.94 H2S + H2S(g) -7.66 -15.59 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.12 -70.01 -2.89 O2 + O2(g) -67.11 -70.01 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.49 -0.61 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -119339,7 +119315,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.245e-11 Surface + diffuse layer charge, eq + -9.243e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -119349,7 +119325,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -119360,12 +119336,12 @@ Su Ca 7.1884e-02 Cl 4.6632e-10 H 1.2949e-04 - Hto 3.0019e-08 - I 3.5218e-20 + Hto 2.9469e-08 + I 3.5225e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.4225e-08 + Nat 7.1465e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -119384,12 +119360,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.544e-07 2.997e-08 + Hto 2.497e-07 2.942e-08 I 2.990e-07 3.522e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.263e-07 1.488e-08 + Nat 1.216e-07 1.433e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -119407,7 +119383,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.070e-09 + Electrical balance (eq) = 4.037e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -119421,8 +119397,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.864e-11 - CH4 1.864e-11 2.026e-11 -10.730 -10.693 0.036 35.46 +C(-4) 1.866e-11 + CH4 1.866e-11 2.029e-11 -10.729 -10.693 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -119446,10 +119422,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.952e-09 5.641e-09 -8.403 -8.249 0.155 (0) -H(0) 1.705e-11 - H2 8.527e-12 9.270e-12 -11.069 -11.033 0.036 28.61 -Hto 2.544e-07 - Hto 2.544e-07 2.544e-07 -6.594 -6.594 0.000 (0) +H(0) 1.706e-11 + H2 8.529e-12 9.273e-12 -11.069 -11.033 0.036 28.61 +Hto 2.497e-07 + Hto 2.497e-07 2.497e-07 -6.603 -6.603 0.000 (0) I 2.990e-07 I- 2.990e-07 2.990e-07 -6.524 -6.524 -0.000 (0) K 1.540e-03 @@ -119467,15 +119443,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.263e-07 - Nat+ 1.263e-07 1.263e-07 -6.899 -6.899 -0.000 (0) +Nat 1.216e-07 + Nat+ 1.216e-07 1.216e-07 -6.915 -6.915 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.359 -70.323 0.036 30.40 -S(-2) 2.921e-08 - HS- 2.043e-08 1.345e-08 -7.690 -7.871 -0.182 21.14 - H2S 8.783e-09 9.550e-09 -8.056 -8.020 0.036 36.27 - S-2 8.295e-14 2.000e-14 -13.081 -13.699 -0.618 (0) - (H2S)2 4.420e-18 4.805e-18 -17.355 -17.318 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.360 -70.323 0.036 30.40 +S(-2) 2.924e-08 + HS- 2.045e-08 1.346e-08 -7.689 -7.871 -0.182 21.14 + H2S 8.793e-09 9.560e-09 -8.056 -8.020 0.036 36.27 + S-2 8.304e-14 2.002e-14 -13.081 -13.699 -0.618 (0) + (H2S)2 4.429e-18 4.816e-18 -17.354 -17.317 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -119550,7 +119526,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -119561,12 +119537,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 1.1967e-08 + Hto 1.1412e-08 I 1.2497e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1276e-08 + Nat 1.9306e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -119585,12 +119561,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.014e-07 1.195e-08 + Hto 9.672e-08 1.139e-08 I 1.061e-07 1.250e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.620e-08 4.265e-09 + Nat 3.285e-08 3.870e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -119608,7 +119584,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.544e-10 + Electrical balance (eq) = -5.543e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -119622,8 +119598,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.383e-11 - CH4 2.383e-11 2.591e-11 -10.623 -10.586 0.036 35.46 +C(-4) 2.385e-11 + CH4 2.385e-11 2.593e-11 -10.623 -10.586 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -119635,7 +119611,7 @@ C(4) 2.744e-03 MgCO3 3.630e-06 3.947e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.382e-06 8.608e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.733e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.535e-08 7.105e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.535e-08 7.106e-08 -7.185 -7.148 0.036 -14.13 (CO2)2 1.276e-09 1.387e-09 -8.894 -8.858 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -119648,9 +119624,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.814e-11 - H2 9.068e-12 9.859e-12 -11.043 -11.006 0.036 28.61 -Hto 1.014e-07 - Hto 1.014e-07 1.014e-07 -6.994 -6.994 0.000 (0) + H2 9.069e-12 9.860e-12 -11.042 -11.006 0.036 28.61 +Hto 9.672e-08 + Hto 9.672e-08 9.672e-08 -7.015 -7.015 0.000 (0) I 1.061e-07 I- 1.061e-07 1.061e-07 -6.974 -6.974 -0.000 (0) K 1.540e-03 @@ -119668,15 +119644,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.620e-08 - Nat+ 3.620e-08 3.620e-08 -7.441 -7.441 -0.000 (0) +Nat 3.285e-08 + Nat+ 3.285e-08 3.285e-08 -7.483 -7.483 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.413 -70.376 0.036 30.40 -S(-2) 3.735e-08 - HS- 2.612e-08 1.720e-08 -7.583 -7.765 -0.182 21.14 - H2S 1.123e-08 1.221e-08 -7.950 -7.913 0.036 36.27 - S-2 1.061e-13 2.558e-14 -12.974 -13.592 -0.618 (0) - (H2S)2 7.225e-18 7.855e-18 -17.141 -17.105 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.413 -70.377 0.036 30.40 +S(-2) 3.737e-08 + HS- 2.614e-08 1.721e-08 -7.583 -7.764 -0.182 21.14 + H2S 1.124e-08 1.222e-08 -7.949 -7.913 0.036 36.27 + S-2 1.062e-13 2.559e-14 -12.974 -13.592 -0.618 (0) + (H2S)2 7.234e-18 7.865e-18 -17.141 -17.104 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -119691,7 +119667,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.535e-08 7.105e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.535e-08 7.106e-08 -7.185 -7.148 0.036 -14.13 SrOH+ 1.154e-10 8.084e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -119741,7 +119717,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.419e-11 Surface + diffuse layer charge, eq + -9.418e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -119751,7 +119727,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -119762,12 +119738,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 3.7280e-09 - I 3.4163e-21 + Hto 3.4386e-09 + I 3.4167e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.4400e-09 + Nat 3.7824e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -119786,12 +119762,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.159e-08 3.722e-09 + Hto 2.914e-08 3.433e-09 I 2.900e-08 3.416e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.555e-09 8.901e-10 + Nat 6.436e-09 7.583e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -119809,7 +119785,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.566e-10 + Electrical balance (eq) = -5.565e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -119823,8 +119799,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.575e-11 - CH4 2.575e-11 2.799e-11 -10.589 -10.553 0.036 35.46 +C(-4) 2.576e-11 + CH4 2.576e-11 2.800e-11 -10.589 -10.553 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -119850,8 +119826,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.849e-11 H2 9.245e-12 1.005e-11 -11.034 -10.998 0.036 28.61 -Hto 3.159e-08 - Hto 3.159e-08 3.159e-08 -7.500 -7.500 0.000 (0) +Hto 2.914e-08 + Hto 2.914e-08 2.914e-08 -7.536 -7.536 0.000 (0) I 2.900e-08 I- 2.900e-08 2.900e-08 -7.538 -7.538 -0.000 (0) K 1.540e-03 @@ -119869,15 +119845,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.555e-09 - Nat+ 7.555e-09 7.555e-09 -8.122 -8.122 -0.000 (0) +Nat 6.436e-09 + Nat+ 6.436e-09 6.436e-09 -8.191 -8.191 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.430 -70.393 0.036 30.40 -S(-2) 4.035e-08 - HS- 2.822e-08 1.858e-08 -7.549 -7.731 -0.182 21.14 +S(-2) 4.036e-08 + HS- 2.823e-08 1.858e-08 -7.549 -7.731 -0.182 21.14 H2S 1.213e-08 1.319e-08 -7.916 -7.880 0.036 36.27 - S-2 1.146e-13 2.763e-14 -12.941 -13.559 -0.618 (0) - (H2S)2 8.430e-18 9.165e-18 -17.074 -17.038 0.036 30.09 + S-2 1.147e-13 2.764e-14 -12.941 -13.558 -0.618 (0) + (H2S)2 8.436e-18 9.172e-18 -17.074 -17.038 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -119952,7 +119928,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -119963,12 +119939,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 9.3145e-10 + Hto 8.2862e-10 I 7.4188e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.1280e-10 + Nat 5.6906e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -119987,12 +119963,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.894e-09 9.299e-10 + Hto 7.022e-09 8.273e-10 I 6.297e-09 7.418e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.213e-09 1.429e-10 + Nat 9.683e-10 1.141e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -120024,8 +120000,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.634e-11 - CH4 2.634e-11 2.864e-11 -10.579 -10.543 0.036 35.46 +C(-4) 2.635e-11 + CH4 2.635e-11 2.865e-11 -10.579 -10.543 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -120049,10 +120025,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.859e-11 - H2 9.297e-12 1.011e-11 -11.032 -10.995 0.036 28.61 -Hto 7.894e-09 - Hto 7.894e-09 7.894e-09 -8.103 -8.103 0.000 (0) +H(0) 1.860e-11 + H2 9.298e-12 1.011e-11 -11.032 -10.995 0.036 28.61 +Hto 7.022e-09 + Hto 7.022e-09 7.022e-09 -8.154 -8.154 0.000 (0) I 6.297e-09 I- 6.297e-09 6.297e-09 -8.201 -8.201 -0.000 (0) K 1.540e-03 @@ -120070,15 +120046,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.213e-09 - Nat+ 1.213e-09 1.213e-09 -8.916 -8.916 -0.000 (0) +Nat 9.683e-10 + Nat+ 9.683e-10 9.683e-10 -9.014 -9.014 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.434 -70.398 0.036 30.40 -S(-2) 4.128e-08 - HS- 2.887e-08 1.900e-08 -7.540 -7.721 -0.182 21.14 + O2 0.000e+00 0.000e+00 -70.435 -70.398 0.036 30.40 +S(-2) 4.129e-08 + HS- 2.887e-08 1.901e-08 -7.539 -7.721 -0.182 21.14 H2S 1.241e-08 1.349e-08 -7.906 -7.870 0.036 36.27 S-2 1.173e-13 2.827e-14 -12.931 -13.549 -0.618 (0) - (H2S)2 8.823e-18 9.592e-18 -17.054 -17.018 0.036 30.09 + (H2S)2 8.826e-18 9.596e-18 -17.054 -17.018 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -120153,7 +120129,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -120164,12 +120140,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 1.9061e-10 - I 1.3108e-22 + Hto 1.6324e-10 + I 1.3106e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1301e-11 + Nat 6.8238e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -120188,12 +120164,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.615e-09 1.903e-10 + Hto 1.383e-09 1.630e-10 I 1.113e-09 1.311e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.554e-10 1.830e-11 + Nat 1.161e-10 1.368e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -120225,8 +120201,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.642e-11 - CH4 2.642e-11 2.873e-11 -10.578 -10.542 0.036 35.46 +C(-4) 2.643e-11 + CH4 2.643e-11 2.873e-11 -10.578 -10.542 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -120252,8 +120228,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.861e-11 H2 9.305e-12 1.012e-11 -11.031 -10.995 0.036 28.61 -Hto 1.615e-09 - Hto 1.615e-09 1.615e-09 -8.792 -8.792 0.000 (0) +Hto 1.383e-09 + Hto 1.383e-09 1.383e-09 -8.859 -8.859 0.000 (0) I 1.113e-09 I- 1.113e-09 1.113e-09 -8.954 -8.954 -0.000 (0) K 1.540e-03 @@ -120271,15 +120247,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.554e-10 - Nat+ 1.554e-10 1.554e-10 -9.809 -9.809 -0.000 (0) +Nat 1.161e-10 + Nat+ 1.161e-10 1.161e-10 -9.935 -9.935 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.435 -70.399 0.036 30.40 -S(-2) 4.140e-08 - HS- 2.896e-08 1.906e-08 -7.538 -7.720 -0.182 21.14 - H2S 1.245e-08 1.353e-08 -7.905 -7.869 0.036 36.27 - S-2 1.176e-13 2.835e-14 -12.929 -13.547 -0.618 (0) - (H2S)2 8.877e-18 9.651e-18 -17.052 -17.015 0.036 30.09 +S(-2) 4.141e-08 + HS- 2.896e-08 1.907e-08 -7.538 -7.720 -0.182 21.14 + H2S 1.245e-08 1.354e-08 -7.905 -7.869 0.036 36.27 + S-2 1.176e-13 2.836e-14 -12.929 -13.547 -0.618 (0) + (H2S)2 8.880e-18 9.654e-18 -17.052 -17.015 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -120354,7 +120330,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -120365,12 +120341,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 3.2473e-11 + Hto 2.6743e-11 I 1.9190e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.5684e-12 + Nat 6.6913e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -120389,12 +120365,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.752e-10 3.242e-11 + Hto 2.266e-10 2.670e-11 I 1.629e-10 1.919e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.628e-11 1.918e-12 + Nat 1.139e-11 1.341e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -120426,8 +120402,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.623e-11 - CH4 2.623e-11 2.852e-11 -10.581 -10.545 0.036 35.46 +C(-4) 2.624e-11 + CH4 2.624e-11 2.853e-11 -10.581 -10.545 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -120453,8 +120429,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.858e-11 H2 9.288e-12 1.010e-11 -11.032 -10.996 0.036 28.61 -Hto 2.752e-10 - Hto 2.752e-10 2.752e-10 -9.560 -9.560 0.000 (0) +Hto 2.266e-10 + Hto 2.266e-10 2.266e-10 -9.645 -9.645 0.000 (0) I 1.629e-10 I- 1.629e-10 1.629e-10 -9.788 -9.788 -0.000 (0) K 1.540e-03 @@ -120472,15 +120448,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.628e-11 - Nat+ 1.628e-11 1.628e-11 -10.788 -10.788 -0.000 (0) +Nat 1.139e-11 + Nat+ 1.139e-11 1.139e-11 -10.944 -10.944 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.434 -70.397 0.036 30.40 -S(-2) 4.111e-08 - HS- 2.875e-08 1.893e-08 -7.541 -7.723 -0.182 21.14 +S(-2) 4.112e-08 + HS- 2.876e-08 1.893e-08 -7.541 -7.723 -0.182 21.14 H2S 1.236e-08 1.344e-08 -7.908 -7.872 0.036 36.27 - S-2 1.168e-13 2.815e-14 -12.933 -13.550 -0.618 (0) - (H2S)2 8.751e-18 9.514e-18 -17.058 -17.022 0.036 30.09 + S-2 1.168e-13 2.816e-14 -12.933 -13.550 -0.618 (0) + (H2S)2 8.754e-18 9.518e-18 -17.058 -17.021 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -120545,7 +120521,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.380e-11 Surface + diffuse layer charge, eq + -9.383e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -120555,7 +120531,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -120566,12 +120542,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 4.6651e-12 + Hto 3.6910e-12 I 2.3620e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.3538e-13 + Nat 5.4641e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -120590,12 +120566,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.953e-11 4.658e-12 + Hto 3.128e-11 3.685e-12 I 2.005e-11 2.362e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.421e-12 1.675e-13 + Nat 9.298e-13 1.095e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -120613,8 +120589,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.012e-11 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.517e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -120654,8 +120630,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.851e-11 H2 9.257e-12 1.006e-11 -11.034 -10.997 0.036 28.61 -Hto 3.953e-11 - Hto 3.953e-11 3.953e-11 -10.403 -10.403 0.000 (0) +Hto 3.128e-11 + Hto 3.128e-11 3.128e-11 -10.505 -10.505 0.000 (0) I 2.005e-11 I- 2.005e-11 2.005e-11 -10.698 -10.698 -0.000 (0) K 1.540e-03 @@ -120673,15 +120649,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.421e-12 - Nat+ 1.421e-12 1.421e-12 -11.847 -11.847 -0.000 (0) +Nat 9.298e-13 + Nat+ 9.298e-13 9.298e-13 -12.032 -12.032 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.431 -70.394 0.036 30.40 S(-2) 4.056e-08 HS- 2.837e-08 1.867e-08 -7.547 -7.729 -0.182 21.14 H2S 1.219e-08 1.326e-08 -7.914 -7.878 0.036 36.27 - S-2 1.152e-13 2.777e-14 -12.938 -13.556 -0.618 (0) - (H2S)2 8.518e-18 9.261e-18 -17.070 -17.033 0.036 30.09 + S-2 1.152e-13 2.778e-14 -12.938 -13.556 -0.618 (0) + (H2S)2 8.520e-18 9.263e-18 -17.070 -17.033 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -120746,7 +120722,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.371e-11 Surface + diffuse layer charge, eq + -9.372e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -120756,7 +120732,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -120767,12 +120743,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 5.7067e-13 - I 2.4688e-25 + Hto 4.3351e-13 + I 2.4683e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.1563e-14 + Nat 3.7655e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -120791,12 +120767,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.836e-12 5.697e-13 + Hto 3.674e-12 4.328e-13 I 2.095e-12 2.468e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.048e-13 1.234e-14 + Nat 6.407e-14 7.549e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -120814,8 +120790,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.047e-11 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -7.430e-11 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -120855,8 +120831,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.847e-11 H2 9.236e-12 1.004e-11 -11.035 -10.998 0.036 28.61 -Hto 4.836e-12 - Hto 4.836e-12 4.836e-12 -11.316 -11.316 0.000 (0) +Hto 3.674e-12 + Hto 3.674e-12 3.674e-12 -11.435 -11.435 0.000 (0) I 2.095e-12 I- 2.095e-12 2.095e-12 -11.679 -11.679 -0.000 (0) K 1.540e-03 @@ -120874,8 +120850,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.048e-13 - Nat+ 1.048e-13 1.048e-13 -12.980 -12.980 -0.000 (0) +Nat 6.407e-14 + Nat+ 6.407e-14 6.407e-14 -13.193 -13.193 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.429 -70.392 0.036 30.40 S(-2) 4.020e-08 @@ -120957,7 +120933,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -120968,12 +120944,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 5.9882e-14 + Hto 4.3657e-14 I 2.2088e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8665e-15 + Nat 2.2112e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -120992,12 +120968,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.075e-13 5.979e-14 + Hto 3.700e-13 4.359e-14 I 1.875e-13 2.208e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.579e-15 7.751e-16 + Nat 3.763e-15 4.433e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -121015,7 +120991,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.456e-10 + Electrical balance (eq) = -4.480e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -121056,8 +121032,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.846e-11 H2 9.229e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 5.075e-13 - Hto 5.075e-13 5.075e-13 -12.295 -12.295 0.000 (0) +Hto 3.700e-13 + Hto 3.700e-13 3.700e-13 -12.432 -12.432 0.000 (0) I 1.875e-13 I- 1.875e-13 1.875e-13 -12.727 -12.727 -0.000 (0) K 1.540e-03 @@ -121075,8 +121051,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.579e-15 - Nat+ 6.579e-15 6.579e-15 -14.182 -14.182 -0.000 (0) +Nat 3.763e-15 + Nat+ 3.763e-15 3.763e-15 -14.425 -14.425 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.428 -70.392 0.036 30.40 S(-2) 4.007e-08 @@ -121158,7 +121134,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -121169,12 +121145,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 5.4197e-15 + Hto 3.7907e-15 I 1.7018e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0842e-16 + Nat 1.1143e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -121193,12 +121169,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.593e-14 5.411e-15 + Hto 3.212e-14 3.785e-15 I 1.445e-14 1.702e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.546e-16 4.178e-17 + Nat 1.896e-16 2.234e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -121216,7 +121192,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.599e-10 + Electrical balance (eq) = -4.600e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -121230,8 +121206,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.561e-11 - CH4 2.561e-11 2.784e-11 -10.592 -10.555 0.036 35.46 +C(-4) 2.560e-11 + CH4 2.560e-11 2.784e-11 -10.592 -10.555 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -121257,8 +121233,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.846e-11 H2 9.232e-12 1.004e-11 -11.035 -10.998 0.036 28.61 -Hto 4.593e-14 - Hto 4.593e-14 4.593e-14 -13.338 -13.338 0.000 (0) +Hto 3.212e-14 + Hto 3.212e-14 3.212e-14 -13.493 -13.493 0.000 (0) I 1.445e-14 I- 1.445e-14 1.445e-14 -13.840 -13.840 -0.000 (0) K 1.540e-03 @@ -121276,15 +121252,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.546e-16 - Nat+ 3.546e-16 3.546e-16 -15.450 -15.450 -0.000 (0) +Nat 1.896e-16 + Nat+ 1.896e-16 1.896e-16 -15.722 -15.722 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.428 -70.392 0.036 30.40 -S(-2) 4.013e-08 +S(-2) 4.012e-08 HS- 2.806e-08 1.847e-08 -7.552 -7.733 -0.182 21.14 - H2S 1.206e-08 1.312e-08 -7.919 -7.882 0.036 36.27 + H2S 1.206e-08 1.311e-08 -7.919 -7.882 0.036 36.27 S-2 1.140e-13 2.748e-14 -12.943 -13.561 -0.618 (0) - (H2S)2 8.338e-18 9.065e-18 -17.079 -17.043 0.036 30.09 + (H2S)2 8.336e-18 9.064e-18 -17.079 -17.043 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -121349,7 +121325,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.374e-11 Surface + diffuse layer charge, eq + -9.373e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -121359,7 +121335,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -121370,12 +121346,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 4.2468e-16 - I 1.1342e-28 + Hto 2.8488e-16 + I 1.1340e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.6887e-18 + Nat 4.8424e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -121394,12 +121370,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.599e-15 4.240e-16 + Hto 2.414e-15 2.844e-16 I 9.626e-16 1.134e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.649e-17 1.942e-18 + Nat 8.240e-18 9.707e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -121417,7 +121393,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.032e-09 + Electrical balance (eq) = 8.645e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -121431,8 +121407,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.582e-11 - CH4 2.582e-11 2.807e-11 -10.588 -10.552 0.036 35.46 +C(-4) 2.581e-11 + CH4 2.581e-11 2.807e-11 -10.588 -10.552 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -121458,8 +121434,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.850e-11 H2 9.251e-12 1.006e-11 -11.034 -10.998 0.036 28.61 -Hto 3.599e-15 - Hto 3.599e-15 3.599e-15 -14.444 -14.444 0.000 (0) +Hto 2.414e-15 + Hto 2.414e-15 2.414e-15 -14.617 -14.617 0.000 (0) I 9.626e-16 I- 9.626e-16 9.626e-16 -15.017 -15.017 -0.000 (0) K 1.540e-03 @@ -121477,15 +121453,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.649e-17 - Nat+ 1.649e-17 1.649e-17 -16.783 -16.783 -0.000 (0) +Nat 8.240e-18 + Nat+ 8.240e-18 8.240e-18 -17.084 -17.084 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.430 -70.394 0.036 30.40 -S(-2) 4.046e-08 - HS- 2.829e-08 1.863e-08 -7.548 -7.730 -0.182 21.14 +S(-2) 4.045e-08 + HS- 2.829e-08 1.862e-08 -7.548 -7.730 -0.182 21.14 H2S 1.216e-08 1.322e-08 -7.915 -7.879 0.036 36.27 S-2 1.149e-13 2.770e-14 -12.940 -13.557 -0.618 (0) - (H2S)2 8.475e-18 9.215e-18 -17.072 -17.036 0.036 30.09 + (H2S)2 8.474e-18 9.213e-18 -17.072 -17.036 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -121560,7 +121536,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -121571,12 +121547,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 2.8877e-17 - I 6.5520e-30 + Hto 1.8575e-17 + I 6.5512e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8964e-19 + Nat 1.8204e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -121595,12 +121571,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.447e-16 2.883e-17 + Hto 1.574e-16 1.855e-17 I 5.561e-17 6.551e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.630e-19 7.811e-20 + Nat 3.098e-19 3.649e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -121618,7 +121594,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.528e-10 + Electrical balance (eq) = -5.527e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -121633,7 +121609,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.625e-11 - CH4 2.625e-11 2.854e-11 -10.581 -10.545 0.036 35.46 + CH4 2.625e-11 2.854e-11 -10.581 -10.544 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -121658,9 +121634,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.858e-11 - H2 9.289e-12 1.010e-11 -11.032 -10.996 0.036 28.61 -Hto 2.447e-16 - Hto 2.447e-16 2.447e-16 -15.611 -15.611 0.000 (0) + H2 9.290e-12 1.010e-11 -11.032 -10.996 0.036 28.61 +Hto 1.574e-16 + Hto 1.574e-16 1.574e-16 -15.803 -15.803 0.000 (0) I 5.561e-17 I- 5.561e-17 5.561e-17 -16.255 -16.255 -0.000 (0) K 1.540e-03 @@ -121678,15 +121654,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.630e-19 - Nat+ 6.630e-19 6.630e-19 -18.178 -18.178 -0.000 (0) +Nat 3.098e-19 + Nat+ 3.098e-19 3.098e-19 -18.509 -18.509 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.434 -70.397 0.036 30.40 S(-2) 4.114e-08 HS- 2.877e-08 1.894e-08 -7.541 -7.723 -0.182 21.14 H2S 1.237e-08 1.345e-08 -7.908 -7.871 0.036 36.27 S-2 1.169e-13 2.817e-14 -12.932 -13.550 -0.618 (0) - (H2S)2 8.762e-18 9.527e-18 -17.057 -17.021 0.036 30.09 + (H2S)2 8.764e-18 9.529e-18 -17.057 -17.021 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -121761,7 +121737,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -121772,12 +121748,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 1.7054e-18 + Hto 1.0518e-18 I 3.2847e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3576e-20 + Nat 5.9287e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -121796,12 +121772,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.445e-17 1.703e-18 + Hto 8.913e-18 1.050e-18 I 2.788e-18 3.284e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.310e-20 2.722e-21 + Nat 1.009e-20 1.188e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -121860,8 +121836,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.862e-11 H2 9.310e-12 1.012e-11 -11.031 -10.995 0.036 28.61 -Hto 1.445e-17 - Hto 1.445e-17 1.445e-17 -16.840 -16.840 0.000 (0) +Hto 8.913e-18 + Hto 8.913e-18 8.913e-18 -17.050 -17.050 0.000 (0) I 2.788e-18 I- 2.788e-18 2.788e-18 -17.555 -17.555 -0.000 (0) K 1.540e-03 @@ -121879,15 +121855,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.310e-20 - Nat+ 2.310e-20 2.310e-20 -19.636 -19.636 -0.000 (0) +Nat 1.009e-20 + Nat+ 1.009e-20 1.009e-20 -19.996 -19.996 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.436 -70.399 0.036 30.40 S(-2) 4.150e-08 HS- 2.902e-08 1.911e-08 -7.537 -7.719 -0.182 21.14 - H2S 1.248e-08 1.356e-08 -7.904 -7.868 0.036 36.27 + H2S 1.248e-08 1.357e-08 -7.904 -7.868 0.036 36.27 S-2 1.179e-13 2.842e-14 -12.928 -13.546 -0.618 (0) - (H2S)2 8.917e-18 9.695e-18 -17.050 -17.013 0.036 30.09 + (H2S)2 8.919e-18 9.697e-18 -17.050 -17.013 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -121962,7 +121938,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -121973,12 +121949,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 8.7448e-20 + Hto 5.1697e-20 I 1.4288e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0980e-22 + Nat 1.6721e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -121997,12 +121973,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.411e-19 8.731e-20 + Hto 4.381e-19 5.161e-20 I 1.213e-19 1.429e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.973e-22 8.215e-23 + Nat 2.845e-22 3.352e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -122060,9 +122036,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.863e-11 - H2 9.315e-12 1.013e-11 -11.031 -10.994 0.036 28.61 -Hto 7.411e-19 - Hto 7.411e-19 7.411e-19 -18.130 -18.130 0.000 (0) + H2 9.316e-12 1.013e-11 -11.031 -10.994 0.036 28.61 +Hto 4.381e-19 + Hto 4.381e-19 4.381e-19 -18.358 -18.358 0.000 (0) I 1.213e-19 I- 1.213e-19 1.213e-19 -18.916 -18.916 -0.000 (0) K 1.540e-03 @@ -122080,15 +122056,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.973e-22 - Nat+ 6.973e-22 6.973e-22 -21.157 -21.157 -0.000 (0) +Nat 2.845e-22 + Nat+ 2.845e-22 2.845e-22 -21.546 -21.546 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.436 -70.400 0.036 30.40 S(-2) 4.160e-08 HS- 2.909e-08 1.915e-08 -7.536 -7.718 -0.182 21.14 H2S 1.251e-08 1.360e-08 -7.903 -7.867 0.036 36.27 S-2 1.182e-13 2.849e-14 -12.927 -13.545 -0.618 (0) - (H2S)2 8.960e-18 9.742e-18 -17.048 -17.011 0.036 30.09 + (H2S)2 8.961e-18 9.742e-18 -17.048 -17.011 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -122163,7 +122139,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -122174,12 +122150,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 3.8860e-21 + Hto 2.2019e-21 I 5.3828e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0606e-23 + Nat 3.9683e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -122198,12 +122174,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.293e-20 3.880e-21 + Hto 1.866e-20 2.198e-21 I 4.569e-21 5.382e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.805e-23 2.126e-24 + Nat 6.753e-24 7.955e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -122262,8 +122238,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.863e-11 H2 9.316e-12 1.013e-11 -11.031 -10.994 0.036 28.61 -Hto 3.293e-20 - Hto 3.293e-20 3.293e-20 -19.482 -19.482 0.000 (0) +Hto 1.866e-20 + Hto 1.866e-20 1.866e-20 -19.729 -19.729 0.000 (0) I 4.569e-21 I- 4.569e-21 4.569e-21 -20.340 -20.340 -0.000 (0) K 1.540e-03 @@ -122281,8 +122257,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.805e-23 - Nat+ 1.805e-23 1.805e-23 -22.744 -22.744 -0.000 (0) +Nat 6.753e-24 + Nat+ 6.753e-24 6.753e-24 -23.171 -23.171 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.436 -70.400 0.036 30.40 S(-2) 4.162e-08 @@ -122364,7 +122340,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -122375,12 +122351,11 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 1.4913e-22 + Hto 8.0954e-23 I 1.7441e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2357e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -122399,12 +122374,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.264e-21 1.489e-22 + Hto 6.861e-22 8.082e-23 I 1.480e-22 1.744e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.103e-25 2.477e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -122463,8 +122437,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.863e-11 H2 9.317e-12 1.013e-11 -11.031 -10.994 0.036 28.61 -Hto 1.264e-21 - Hto 1.264e-21 1.264e-21 -20.898 -20.898 0.000 (0) +Hto 6.861e-22 + Hto 6.861e-22 6.861e-22 -21.164 -21.164 0.000 (0) I 1.480e-22 I- 1.480e-22 1.480e-22 -21.830 -21.830 -0.000 (0) K 1.540e-03 @@ -122482,8 +122456,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.103e-25 - Nat+ 2.103e-25 2.103e-25 -24.677 -24.677 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.436 -70.400 0.036 30.40 S(-2) 4.162e-08 @@ -122565,7 +122537,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -122576,8 +122548,8 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 4.8766e-24 - I 4.3264e-37 + Hto 2.5022e-24 + I 4.3255e-37 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -122599,7 +122571,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.133e-23 4.869e-24 + Hto 2.121e-23 2.498e-24 I 3.672e-24 4.326e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -122662,8 +122634,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.863e-11 H2 9.317e-12 1.013e-11 -11.031 -10.994 0.036 28.61 -Hto 4.133e-23 - Hto 4.133e-23 4.133e-23 -22.384 -22.384 0.000 (0) +Hto 2.121e-23 + Hto 2.121e-23 2.121e-23 -22.674 -22.674 0.000 (0) I 3.672e-24 I- 3.672e-24 3.672e-24 -23.435 -23.435 -0.000 (0) K 1.540e-03 @@ -122762,7 +122734,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -122951,7 +122923,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -123429,30 +123401,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.792e-07 2.896e-07 + Hto 5.846e-07 2.923e-07 I 7.448e-07 3.724e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.392e-07 1.696e-07 + Nat 3.475e-07 1.737e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -2.996 Adjusted to redox equilibrium + pe = -2.994 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.299e-13 + Electrical balance (eq) = -2.776e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -123466,8 +123438,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.114e-12 - CH4 1.114e-12 1.211e-12 -11.953 -11.917 0.036 35.46 +C(-4) 1.091e-12 + CH4 1.091e-12 1.186e-12 -11.962 -11.926 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -123491,10 +123463,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.430e-12 - H2 4.215e-12 4.583e-12 -11.375 -11.339 0.036 28.61 -Hto 5.792e-07 - Hto 5.792e-07 5.792e-07 -6.237 -6.237 0.000 (0) +H(0) 8.386e-12 + H2 4.193e-12 4.559e-12 -11.377 -11.341 0.036 28.61 +Hto 5.846e-07 + Hto 5.846e-07 5.846e-07 -6.233 -6.233 0.000 (0) I 7.448e-07 I- 7.448e-07 7.448e-07 -6.128 -6.128 -0.000 (0) K 1.540e-03 @@ -123512,15 +123484,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.392e-07 - Nat+ 3.392e-07 3.392e-07 -6.470 -6.470 -0.000 (0) +Nat 3.475e-07 + Nat+ 3.475e-07 3.475e-07 -6.459 -6.459 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.747 -69.711 0.036 30.40 -S(-2) 1.746e-09 - HS- 1.221e-09 8.037e-10 -8.913 -9.095 -0.182 21.14 - H2S 5.253e-10 5.711e-10 -9.280 -9.243 0.036 36.27 - S-2 4.954e-15 1.194e-15 -14.305 -14.923 -0.618 (0) - (H2S)2 1.581e-20 1.719e-20 -19.801 -19.765 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.743 -69.706 0.036 30.40 +S(-2) 1.710e-09 + HS- 1.195e-09 7.869e-10 -8.922 -9.104 -0.182 21.14 + H2S 5.144e-10 5.593e-10 -9.289 -9.252 0.036 36.27 + S-2 4.851e-15 1.169e-15 -14.314 -14.932 -0.618 (0) + (H2S)2 1.516e-20 1.648e-20 -19.819 -19.783 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -123547,21 +123519,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.11 -11.92 -2.80 CH4 + CH4(g) -9.12 -11.93 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.24 -11.34 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.25 -16.18 -7.94 H2S + H2S(g) -8.26 -16.19 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.82 -69.71 -2.89 O2 + O2(g) -66.81 -69.71 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.94 -1.05 4.88 S + Sulfur -5.94 -1.06 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -123585,7 +123557,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.458e-14 Surface + diffuse layer charge, eq + -4.313e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -123595,7 +123567,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -123606,12 +123578,12 @@ Su Ca 7.1884e-02 Cl 4.6658e-10 H 1.2947e-04 - Hto 5.6964e-08 - I 7.3811e-20 + Hto 5.7159e-08 + I 7.3798e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7128e-07 + Nat 1.7345e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -123630,12 +123602,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.827e-07 5.687e-08 + Hto 4.844e-07 5.707e-08 I 6.265e-07 7.381e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.914e-07 3.434e-08 + Nat 2.951e-07 3.477e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -123646,14 +123618,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.682e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -123667,8 +123639,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.629e-12 - CH4 4.629e-12 5.033e-12 -11.335 -11.298 0.036 35.46 +C(-4) 4.589e-12 + CH4 4.589e-12 4.989e-12 -11.338 -11.302 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -123692,10 +123664,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.204e-11 - H2 6.019e-12 6.544e-12 -11.221 -11.184 0.036 28.61 -Hto 4.827e-07 - Hto 4.827e-07 4.827e-07 -6.316 -6.316 0.000 (0) +H(0) 1.201e-11 + H2 6.006e-12 6.529e-12 -11.221 -11.185 0.036 28.61 +Hto 4.844e-07 + Hto 4.844e-07 4.844e-07 -6.315 -6.315 0.000 (0) I 6.265e-07 I- 6.265e-07 6.265e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -123713,15 +123685,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.914e-07 - Nat+ 2.914e-07 2.914e-07 -6.535 -6.535 -0.000 (0) +Nat 2.951e-07 + Nat+ 2.951e-07 2.951e-07 -6.530 -6.530 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.057 -70.020 0.036 30.40 -S(-2) 7.257e-09 - HS- 5.074e-09 3.340e-09 -8.295 -8.476 -0.182 21.14 - H2S 2.183e-09 2.373e-09 -8.661 -8.625 0.036 36.27 - S-2 2.059e-14 4.964e-15 -13.686 -14.304 -0.618 (0) - (H2S)2 2.730e-19 2.968e-19 -18.564 -18.528 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.055 -70.019 0.036 30.40 +S(-2) 7.194e-09 + HS- 5.030e-09 3.311e-09 -8.298 -8.480 -0.182 21.14 + H2S 2.164e-09 2.353e-09 -8.665 -8.628 0.036 36.27 + S-2 2.042e-14 4.921e-15 -13.690 -14.308 -0.618 (0) + (H2S)2 2.683e-19 2.917e-19 -18.571 -18.535 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -123753,7 +123725,7 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.08 -11.18 -3.10 H2 + H2(g) -8.08 -11.19 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O H2S(g) -7.63 -15.57 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl @@ -123762,7 +123734,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.13 -70.02 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.47 -0.59 4.88 S + Sulfur -5.48 -0.59 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -123786,7 +123758,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.264e-11 Surface + diffuse layer charge, eq + -9.262e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -123796,7 +123768,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -123807,12 +123779,12 @@ Su Ca 7.1884e-02 Cl 4.6630e-10 H 1.2949e-04 - Hto 3.0503e-08 - I 3.5946e-20 + Hto 2.9972e-08 + I 3.5953e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5698e-08 + Nat 7.3018e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -123831,12 +123803,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.585e-07 3.045e-08 + Hto 2.540e-07 2.992e-08 I 3.051e-07 3.595e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.288e-07 1.517e-08 + Nat 1.242e-07 1.464e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -123854,7 +123826,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.978e-09 + Electrical balance (eq) = 3.944e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -123868,8 +123840,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.930e-11 - CH4 1.930e-11 2.099e-11 -10.714 -10.678 0.036 35.46 +C(-4) 1.933e-11 + CH4 1.933e-11 2.101e-11 -10.714 -10.678 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -123893,10 +123865,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) -H(0) 1.720e-11 - H2 8.601e-12 9.352e-12 -11.065 -11.029 0.036 28.61 -Hto 2.585e-07 - Hto 2.585e-07 2.585e-07 -6.588 -6.588 0.000 (0) +H(0) 1.721e-11 + H2 8.604e-12 9.355e-12 -11.065 -11.029 0.036 28.61 +Hto 2.540e-07 + Hto 2.540e-07 2.540e-07 -6.595 -6.595 0.000 (0) I 3.051e-07 I- 3.051e-07 3.051e-07 -6.516 -6.516 -0.000 (0) K 1.540e-03 @@ -123914,15 +123886,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.288e-07 - Nat+ 1.288e-07 1.288e-07 -6.890 -6.890 -0.000 (0) +Nat 1.242e-07 + Nat+ 1.242e-07 1.242e-07 -6.906 -6.906 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.367 -70.331 0.036 30.40 -S(-2) 3.025e-08 - HS- 2.115e-08 1.393e-08 -7.675 -7.856 -0.182 21.14 - H2S 9.096e-09 9.889e-09 -8.041 -8.005 0.036 36.27 - S-2 8.591e-14 2.071e-14 -13.066 -13.684 -0.618 (0) - (H2S)2 4.740e-18 5.153e-18 -17.324 -17.288 0.036 30.09 +S(-2) 3.029e-08 + HS- 2.118e-08 1.394e-08 -7.674 -7.856 -0.182 21.14 + H2S 9.107e-09 9.901e-09 -8.041 -8.004 0.036 36.27 + S-2 8.601e-14 2.073e-14 -13.065 -13.683 -0.618 (0) + (H2S)2 4.752e-18 5.166e-18 -17.323 -17.287 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -123997,7 +123969,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -124008,12 +123980,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 1.2490e-08 - I 1.3121e-20 + Hto 1.1930e-08 + I 1.3119e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2448e-08 + Nat 2.0422e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -124032,12 +124004,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.058e-07 1.247e-08 + Hto 1.011e-07 1.191e-08 I 1.114e-07 1.312e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.820e-08 4.500e-09 + Nat 3.475e-08 4.094e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -124055,7 +124027,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.484e-10 + Electrical balance (eq) = -6.483e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -124069,8 +124041,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.471e-11 - CH4 2.471e-11 2.686e-11 -10.607 -10.571 0.036 35.46 +C(-4) 2.473e-11 + CH4 2.473e-11 2.688e-11 -10.607 -10.571 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -124095,9 +124067,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.830e-11 - H2 9.150e-12 9.948e-12 -11.039 -11.002 0.036 28.61 -Hto 1.058e-07 - Hto 1.058e-07 1.058e-07 -6.975 -6.975 0.000 (0) + H2 9.151e-12 9.950e-12 -11.039 -11.002 0.036 28.61 +Hto 1.011e-07 + Hto 1.011e-07 1.011e-07 -6.995 -6.995 0.000 (0) I 1.114e-07 I- 1.114e-07 1.114e-07 -6.953 -6.953 -0.000 (0) K 1.540e-03 @@ -124115,15 +124087,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.820e-08 - Nat+ 3.820e-08 3.820e-08 -7.418 -7.418 -0.000 (0) +Nat 3.475e-08 + Nat+ 3.475e-08 3.475e-08 -7.459 -7.459 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.421 -70.384 0.036 30.40 -S(-2) 3.872e-08 - HS- 2.708e-08 1.783e-08 -7.567 -7.749 -0.182 21.14 - H2S 1.164e-08 1.266e-08 -7.934 -7.898 0.036 36.27 - S-2 1.100e-13 2.652e-14 -12.959 -13.577 -0.618 (0) - (H2S)2 7.764e-18 8.442e-18 -17.110 -17.074 0.036 30.09 +S(-2) 3.875e-08 + HS- 2.710e-08 1.784e-08 -7.567 -7.749 -0.182 21.14 + H2S 1.165e-08 1.267e-08 -7.934 -7.897 0.036 36.27 + S-2 1.101e-13 2.653e-14 -12.958 -13.576 -0.618 (0) + (H2S)2 7.775e-18 8.454e-18 -17.109 -17.073 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -124198,7 +124170,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -124209,12 +124181,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 4.0181e-09 + Hto 3.7137e-09 I 3.7099e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8653e-09 + Nat 4.1574e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -124233,12 +124205,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.405e-08 4.012e-09 + Hto 3.147e-08 3.708e-09 I 3.149e-08 3.709e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.279e-09 9.753e-10 + Nat 7.074e-09 8.334e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -124270,8 +124242,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.671e-11 - CH4 2.671e-11 2.904e-11 -10.573 -10.537 0.036 35.46 +C(-4) 2.672e-11 + CH4 2.672e-11 2.905e-11 -10.573 -10.537 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -124296,9 +124268,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.866e-11 - H2 9.330e-12 1.014e-11 -11.030 -10.994 0.036 28.61 -Hto 3.405e-08 - Hto 3.405e-08 3.405e-08 -7.468 -7.468 0.000 (0) + H2 9.331e-12 1.014e-11 -11.030 -10.994 0.036 28.61 +Hto 3.147e-08 + Hto 3.147e-08 3.147e-08 -7.502 -7.502 0.000 (0) I 3.149e-08 I- 3.149e-08 3.149e-08 -7.502 -7.502 -0.000 (0) K 1.540e-03 @@ -124316,15 +124288,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.279e-09 - Nat+ 8.279e-09 8.279e-09 -8.082 -8.082 -0.000 (0) +Nat 7.074e-09 + Nat+ 7.074e-09 7.074e-09 -8.150 -8.150 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.437 -70.401 0.036 30.40 -S(-2) 4.185e-08 - HS- 2.927e-08 1.927e-08 -7.534 -7.715 -0.182 21.14 - H2S 1.258e-08 1.368e-08 -7.900 -7.864 0.036 36.27 - S-2 1.189e-13 2.866e-14 -12.925 -13.543 -0.618 (0) - (H2S)2 9.071e-18 9.862e-18 -17.042 -17.006 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.438 -70.401 0.036 30.40 +S(-2) 4.187e-08 + HS- 2.928e-08 1.928e-08 -7.533 -7.715 -0.182 21.14 + H2S 1.259e-08 1.369e-08 -7.900 -7.864 0.036 36.27 + S-2 1.190e-13 2.868e-14 -12.925 -13.542 -0.618 (0) + (H2S)2 9.079e-18 9.870e-18 -17.042 -17.006 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -124351,7 +124323,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.74 -10.54 -2.80 CH4 + CH4(g) -7.73 -10.54 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -124399,7 +124371,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -124410,12 +124382,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.0410e-09 - I 8.3649e-22 + Hto 9.2837e-10 + I 8.3638e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1357e-10 + Nat 6.5167e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -124434,12 +124406,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.822e-09 1.039e-09 + Hto 7.868e-09 9.269e-10 I 7.099e-09 8.363e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.384e-09 1.631e-10 + Nat 1.109e-09 1.306e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -124471,8 +124443,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.734e-11 - CH4 2.734e-11 2.972e-11 -10.563 -10.527 0.036 35.46 +C(-4) 2.735e-11 + CH4 2.735e-11 2.973e-11 -10.563 -10.527 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -124497,9 +124469,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.877e-11 - H2 9.384e-12 1.020e-11 -11.028 -10.991 0.036 28.61 -Hto 8.822e-09 - Hto 8.822e-09 8.822e-09 -8.054 -8.054 0.000 (0) + H2 9.385e-12 1.020e-11 -11.028 -10.991 0.036 28.61 +Hto 7.868e-09 + Hto 7.868e-09 7.868e-09 -8.104 -8.104 0.000 (0) I 7.099e-09 I- 7.099e-09 7.099e-09 -8.149 -8.149 -0.000 (0) K 1.540e-03 @@ -124517,15 +124489,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.384e-09 - Nat+ 1.384e-09 1.384e-09 -8.859 -8.859 -0.000 (0) +Nat 1.109e-09 + Nat+ 1.109e-09 1.109e-09 -8.955 -8.955 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.443 -70.406 0.036 30.40 -S(-2) 4.284e-08 - HS- 2.996e-08 1.972e-08 -7.523 -7.705 -0.182 21.14 - H2S 1.288e-08 1.400e-08 -7.890 -7.854 0.036 36.27 - S-2 1.217e-13 2.934e-14 -12.915 -13.533 -0.618 (0) - (H2S)2 9.503e-18 1.033e-17 -17.022 -16.986 0.036 30.09 +S(-2) 4.285e-08 + HS- 2.997e-08 1.973e-08 -7.523 -7.705 -0.182 21.14 + H2S 1.288e-08 1.401e-08 -7.890 -7.854 0.036 36.27 + S-2 1.217e-13 2.935e-14 -12.915 -13.532 -0.618 (0) + (H2S)2 9.507e-18 1.034e-17 -17.022 -16.986 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -124552,7 +124524,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.73 -10.53 -2.80 CH4 + CH4(g) -7.72 -10.53 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -124600,7 +124572,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -124611,12 +124583,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 2.2167e-10 - I 1.5393e-22 + Hto 1.9037e-10 + I 1.5396e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0881e-10 + Nat 8.1617e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -124635,12 +124607,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.879e-09 2.213e-10 + Hto 1.613e-09 1.901e-10 I 1.307e-09 1.539e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.852e-10 2.181e-11 + Nat 1.389e-10 1.636e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -124672,8 +124644,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.743e-11 - CH4 2.743e-11 2.982e-11 -10.562 -10.525 0.036 35.46 +C(-4) 2.744e-11 + CH4 2.744e-11 2.983e-11 -10.562 -10.525 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -124697,10 +124669,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.878e-11 - H2 9.392e-12 1.021e-11 -11.027 -10.991 0.036 28.61 -Hto 1.879e-09 - Hto 1.879e-09 1.879e-09 -8.726 -8.726 0.000 (0) +H(0) 1.879e-11 + H2 9.393e-12 1.021e-11 -11.027 -10.991 0.036 28.61 +Hto 1.613e-09 + Hto 1.613e-09 1.613e-09 -8.792 -8.792 0.000 (0) I 1.307e-09 I- 1.307e-09 1.307e-09 -8.884 -8.884 -0.000 (0) K 1.540e-03 @@ -124718,15 +124690,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.852e-10 - Nat+ 1.852e-10 1.852e-10 -9.732 -9.732 -0.000 (0) +Nat 1.389e-10 + Nat+ 1.389e-10 1.389e-10 -9.857 -9.857 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.443 -70.407 0.036 30.40 -S(-2) 4.298e-08 - HS- 3.006e-08 1.979e-08 -7.522 -7.704 -0.182 21.14 +S(-2) 4.299e-08 + HS- 3.007e-08 1.979e-08 -7.522 -7.703 -0.182 21.14 H2S 1.292e-08 1.405e-08 -7.889 -7.852 0.036 36.27 S-2 1.221e-13 2.944e-14 -12.913 -13.531 -0.618 (0) - (H2S)2 9.567e-18 1.040e-17 -17.019 -16.983 0.036 30.09 + (H2S)2 9.570e-18 1.040e-17 -17.019 -16.983 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -124801,7 +124773,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -124812,12 +124784,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 3.9421e-11 + Hto 3.2562e-11 I 2.3546e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1937e-11 + Nat 8.3787e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -124836,12 +124808,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.341e-10 3.936e-11 + Hto 2.760e-10 3.251e-11 I 1.999e-10 2.355e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.031e-11 2.393e-12 + Nat 1.426e-11 1.680e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -124874,7 +124846,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.725e-11 - CH4 2.725e-11 2.962e-11 -10.565 -10.528 0.036 35.46 + CH4 2.725e-11 2.963e-11 -10.565 -10.528 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -124899,9 +124871,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.875e-11 - H2 9.376e-12 1.019e-11 -11.028 -10.992 0.036 28.61 -Hto 3.341e-10 - Hto 3.341e-10 3.341e-10 -9.476 -9.476 0.000 (0) + H2 9.377e-12 1.019e-11 -11.028 -10.992 0.036 28.61 +Hto 2.760e-10 + Hto 2.760e-10 2.760e-10 -9.559 -9.559 0.000 (0) I 1.999e-10 I- 1.999e-10 1.999e-10 -9.699 -9.699 -0.000 (0) K 1.540e-03 @@ -124919,15 +124891,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.031e-11 - Nat+ 2.031e-11 2.031e-11 -10.692 -10.692 -0.000 (0) +Nat 1.426e-11 + Nat+ 1.426e-11 1.426e-11 -10.846 -10.846 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.442 -70.405 0.036 30.40 -S(-2) 4.270e-08 - HS- 2.986e-08 1.966e-08 -7.525 -7.706 -0.182 21.14 - H2S 1.284e-08 1.396e-08 -7.892 -7.855 0.036 36.27 - S-2 1.213e-13 2.924e-14 -12.916 -13.534 -0.618 (0) - (H2S)2 9.439e-18 1.026e-17 -17.025 -16.989 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.442 -70.406 0.036 30.40 +S(-2) 4.271e-08 + HS- 2.987e-08 1.966e-08 -7.525 -7.706 -0.182 21.14 + H2S 1.284e-08 1.396e-08 -7.891 -7.855 0.036 36.27 + S-2 1.213e-13 2.925e-14 -12.916 -13.534 -0.618 (0) + (H2S)2 9.443e-18 1.027e-17 -17.025 -16.989 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -124992,7 +124964,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.409e-11 Surface + diffuse layer charge, eq + -9.412e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -125002,7 +124974,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -125013,12 +124985,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 5.9292e-12 - I 3.0357e-24 + Hto 4.7064e-12 + I 3.0353e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0936e-12 + Nat 7.1807e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -125037,12 +125009,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.025e-11 5.920e-12 + Hto 3.988e-11 4.699e-12 I 2.577e-11 3.036e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.861e-12 2.192e-13 + Nat 1.222e-12 1.439e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -125060,8 +125032,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.339e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.423e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -125084,7 +125056,7 @@ C(4) 2.744e-03 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.016e-06 9.803e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.631e-06 3.947e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.631e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.382e-06 8.609e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.733e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.536e-08 7.106e-08 -7.185 -7.148 0.036 -14.13 @@ -125101,8 +125073,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.869e-11 H2 9.347e-12 1.016e-11 -11.029 -10.993 0.036 28.61 -Hto 5.025e-11 - Hto 5.025e-11 5.025e-11 -10.299 -10.299 0.000 (0) +Hto 3.988e-11 + Hto 3.988e-11 3.988e-11 -10.399 -10.399 0.000 (0) I 2.577e-11 I- 2.577e-11 2.577e-11 -10.589 -10.589 -0.000 (0) K 1.540e-03 @@ -125114,21 +125086,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.631e-06 3.947e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.631e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.899e-07 2.127e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.861e-12 - Nat+ 1.861e-12 1.861e-12 -11.730 -11.730 -0.000 (0) +Nat 1.222e-12 + Nat+ 1.222e-12 1.222e-12 -11.913 -11.913 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.439 -70.403 0.036 30.40 S(-2) 4.217e-08 HS- 2.949e-08 1.941e-08 -7.530 -7.712 -0.182 21.14 H2S 1.268e-08 1.378e-08 -7.897 -7.861 0.036 36.27 S-2 1.198e-13 2.888e-14 -12.922 -13.539 -0.618 (0) - (H2S)2 9.206e-18 1.001e-17 -17.036 -17.000 0.036 30.09 + (H2S)2 9.208e-18 1.001e-17 -17.036 -17.000 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -125193,7 +125165,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.400e-11 Surface + diffuse layer charge, eq + -9.401e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -125203,7 +125175,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -125214,12 +125186,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 7.6170e-13 - I 3.3337e-25 + Hto 5.8061e-13 + I 3.3342e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.4797e-14 + Nat 5.2071e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -125238,12 +125210,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.455e-12 7.605e-13 + Hto 4.920e-12 5.797e-13 I 2.830e-12 3.334e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.443e-13 1.700e-14 + Nat 8.860e-14 1.044e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -125261,7 +125233,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.324e-11 + Electrical balance (eq) = -1.680e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -125302,8 +125274,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.865e-11 H2 9.327e-12 1.014e-11 -11.030 -10.994 0.036 28.61 -Hto 6.455e-12 - Hto 6.455e-12 6.455e-12 -11.190 -11.190 0.000 (0) +Hto 4.920e-12 + Hto 4.920e-12 4.920e-12 -11.308 -11.308 0.000 (0) I 2.830e-12 I- 2.830e-12 2.830e-12 -11.548 -11.548 -0.000 (0) K 1.540e-03 @@ -125321,8 +125293,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.443e-13 - Nat+ 1.443e-13 1.443e-13 -12.841 -12.841 -0.000 (0) +Nat 8.860e-14 + Nat+ 8.860e-14 8.860e-14 -13.053 -13.053 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.437 -70.401 0.036 30.40 S(-2) 4.181e-08 @@ -125404,7 +125376,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -125415,12 +125387,12 @@ Su Ca 7.1884e-02 Cl 4.6618e-10 H 1.2949e-04 - Hto 8.4207e-14 - I 3.1453e-26 + Hto 6.1610e-14 + I 3.1447e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.6198e-15 + Nat 3.2268e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -125439,12 +125411,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.136e-13 8.407e-14 + Hto 5.221e-13 6.151e-14 I 2.669e-13 3.144e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.563e-15 1.127e-15 + Nat 5.491e-15 6.469e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -125462,7 +125434,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.393e-10 + Electrical balance (eq) = -5.417e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -125503,8 +125475,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.864e-11 H2 9.320e-12 1.013e-11 -11.031 -10.994 0.036 28.61 -Hto 7.136e-13 - Hto 7.136e-13 7.136e-13 -12.147 -12.147 0.000 (0) +Hto 5.221e-13 + Hto 5.221e-13 5.221e-13 -12.282 -12.282 0.000 (0) I 2.669e-13 I- 2.669e-13 2.669e-13 -12.574 -12.574 -0.000 (0) K 1.540e-03 @@ -125522,15 +125494,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.563e-15 - Nat+ 9.563e-15 9.563e-15 -14.019 -14.019 -0.000 (0) +Nat 5.491e-15 + Nat+ 5.491e-15 5.491e-15 -14.260 -14.260 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.437 -70.400 0.036 30.40 S(-2) 4.168e-08 HS- 2.915e-08 1.919e-08 -7.535 -7.717 -0.182 21.14 H2S 1.253e-08 1.362e-08 -7.902 -7.866 0.036 36.27 S-2 1.184e-13 2.854e-14 -12.927 -13.544 -0.618 (0) - (H2S)2 8.996e-18 9.780e-18 -17.046 -17.010 0.036 30.09 + (H2S)2 8.995e-18 9.780e-18 -17.046 -17.010 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -125605,7 +125577,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -125616,12 +125588,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 8.0567e-15 - I 2.5626e-27 + Hto 5.6558e-15 + I 2.5622e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2066e-16 + Nat 1.7214e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -125640,12 +125612,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.828e-14 8.044e-15 + Hto 4.793e-14 5.647e-15 I 2.175e-14 2.563e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.456e-16 6.428e-17 + Nat 2.929e-16 3.451e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -125663,7 +125635,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.535e-10 + Electrical balance (eq) = -5.536e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -125704,8 +125676,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.865e-11 H2 9.323e-12 1.014e-11 -11.030 -10.994 0.036 28.61 -Hto 6.828e-14 - Hto 6.828e-14 6.828e-14 -13.166 -13.166 0.000 (0) +Hto 4.793e-14 + Hto 4.793e-14 4.793e-14 -13.319 -13.319 0.000 (0) I 2.175e-14 I- 2.175e-14 2.175e-14 -13.663 -13.663 -0.000 (0) K 1.540e-03 @@ -125723,15 +125695,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.456e-16 - Nat+ 5.456e-16 5.456e-16 -15.263 -15.263 -0.000 (0) +Nat 2.929e-16 + Nat+ 2.929e-16 2.929e-16 -15.533 -15.533 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.437 -70.401 0.036 30.40 -S(-2) 4.174e-08 - HS- 2.919e-08 1.922e-08 -7.535 -7.716 -0.182 21.14 +S(-2) 4.173e-08 + HS- 2.919e-08 1.921e-08 -7.535 -7.716 -0.182 21.14 H2S 1.255e-08 1.364e-08 -7.901 -7.865 0.036 36.27 S-2 1.186e-13 2.858e-14 -12.926 -13.544 -0.618 (0) - (H2S)2 9.020e-18 9.807e-18 -17.045 -17.008 0.036 30.09 + (H2S)2 9.019e-18 9.806e-18 -17.045 -17.009 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -125796,7 +125768,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.403e-11 Surface + diffuse layer charge, eq + -9.402e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -125806,7 +125778,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -125817,12 +125789,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 6.6985e-16 - I 1.8124e-28 + Hto 4.5106e-16 + I 1.8127e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5835e-17 + Nat 7.9468e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -125841,12 +125813,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.677e-15 6.688e-16 + Hto 3.823e-15 4.503e-16 I 1.539e-15 1.813e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.694e-17 3.174e-18 + Nat 1.352e-17 1.593e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -125864,7 +125836,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 9.382e-10 + Electrical balance (eq) = 7.708e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -125905,8 +125877,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.868e-11 H2 9.342e-12 1.016e-11 -11.030 -10.993 0.036 28.61 -Hto 5.677e-15 - Hto 5.677e-15 5.677e-15 -14.246 -14.246 0.000 (0) +Hto 3.823e-15 + Hto 3.823e-15 3.823e-15 -14.418 -14.418 0.000 (0) I 1.539e-15 I- 1.539e-15 1.539e-15 -14.813 -14.813 -0.000 (0) K 1.540e-03 @@ -125924,15 +125896,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.694e-17 - Nat+ 2.694e-17 2.694e-17 -16.570 -16.570 -0.000 (0) +Nat 1.352e-17 + Nat+ 1.352e-17 1.352e-17 -16.869 -16.869 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.439 -70.402 0.036 30.40 S(-2) 4.207e-08 HS- 2.942e-08 1.937e-08 -7.531 -7.713 -0.182 21.14 H2S 1.265e-08 1.375e-08 -7.898 -7.862 0.036 36.27 S-2 1.195e-13 2.881e-14 -12.923 -13.540 -0.618 (0) - (H2S)2 9.165e-18 9.964e-18 -17.038 -17.002 0.036 30.09 + (H2S)2 9.163e-18 9.963e-18 -17.038 -17.002 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -126007,7 +125979,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -126018,12 +125990,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 4.8527e-17 - I 1.1163e-29 + Hto 3.1337e-17 + I 1.1161e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.7914e-19 + Nat 3.1861e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -126042,12 +126014,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.112e-16 4.845e-17 + Hto 2.656e-16 3.129e-17 I 9.473e-17 1.116e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.156e-18 1.361e-19 + Nat 5.422e-19 6.387e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -126079,8 +126051,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.726e-11 - CH4 2.726e-11 2.964e-11 -10.564 -10.528 0.036 35.46 +C(-4) 2.727e-11 + CH4 2.727e-11 2.964e-11 -10.564 -10.528 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -126106,8 +126078,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.876e-11 H2 9.378e-12 1.020e-11 -11.028 -10.992 0.036 28.61 -Hto 4.112e-16 - Hto 4.112e-16 4.112e-16 -15.386 -15.386 0.000 (0) +Hto 2.656e-16 + Hto 2.656e-16 2.656e-16 -15.576 -15.576 0.000 (0) I 9.473e-17 I- 9.473e-17 9.473e-17 -16.024 -16.024 -0.000 (0) K 1.540e-03 @@ -126125,15 +126097,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.156e-18 - Nat+ 1.156e-18 1.156e-18 -17.937 -17.937 -0.000 (0) +Nat 5.422e-19 + Nat+ 5.422e-19 5.422e-19 -18.266 -18.266 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.442 -70.406 0.036 30.40 S(-2) 4.272e-08 HS- 2.988e-08 1.967e-08 -7.525 -7.706 -0.182 21.14 H2S 1.284e-08 1.396e-08 -7.891 -7.855 0.036 36.27 S-2 1.214e-13 2.926e-14 -12.916 -13.534 -0.618 (0) - (H2S)2 9.450e-18 1.027e-17 -17.025 -16.988 0.036 30.09 + (H2S)2 9.452e-18 1.028e-17 -17.024 -16.988 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -126198,7 +126170,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -9.422e-11 Surface + diffuse layer charge, eq + -9.423e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -126208,7 +126180,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -126219,12 +126191,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 3.0676e-18 - I 5.9916e-31 + Hto 1.8993e-18 + I 5.9906e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5350e-20 + Nat 1.1117e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -126243,12 +126215,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.600e-17 3.063e-18 + Hto 1.610e-17 1.896e-18 I 5.085e-18 5.990e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.314e-20 5.082e-21 + Nat 1.892e-20 2.229e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -126281,7 +126253,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.750e-11 - CH4 2.750e-11 2.989e-11 -10.561 -10.524 0.036 35.46 + CH4 2.750e-11 2.990e-11 -10.561 -10.524 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -126307,8 +126279,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.880e-11 H2 9.398e-12 1.022e-11 -11.027 -10.991 0.036 28.61 -Hto 2.600e-17 - Hto 2.600e-17 2.600e-17 -16.585 -16.585 0.000 (0) +Hto 1.610e-17 + Hto 1.610e-17 1.610e-17 -16.793 -16.793 0.000 (0) I 5.085e-18 I- 5.085e-18 5.085e-18 -17.294 -17.294 -0.000 (0) K 1.540e-03 @@ -126326,15 +126298,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.314e-20 - Nat+ 4.314e-20 4.314e-20 -19.365 -19.365 -0.000 (0) +Nat 1.892e-20 + Nat+ 1.892e-20 1.892e-20 -19.723 -19.723 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.444 -70.407 0.036 30.40 S(-2) 4.309e-08 - HS- 3.013e-08 1.984e-08 -7.521 -7.703 -0.182 21.14 + HS- 3.014e-08 1.984e-08 -7.521 -7.702 -0.182 21.14 H2S 1.295e-08 1.408e-08 -7.888 -7.851 0.036 36.27 S-2 1.224e-13 2.951e-14 -12.912 -13.530 -0.618 (0) - (H2S)2 9.612e-18 1.045e-17 -17.017 -16.981 0.036 30.09 + (H2S)2 9.614e-18 1.045e-17 -17.017 -16.981 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -126409,7 +126381,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -126420,12 +126392,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.6924e-19 - I 2.8052e-32 + Hto 1.0046e-19 + I 2.8058e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.2403e-22 + Nat 3.3771e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -126444,12 +126416,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.434e-18 1.690e-19 + Hto 8.513e-19 1.003e-19 I 2.381e-19 2.805e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.402e-21 1.652e-22 + Nat 5.747e-22 6.770e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -126508,8 +126480,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.881e-11 H2 9.404e-12 1.022e-11 -11.027 -10.990 0.036 28.61 -Hto 1.434e-18 - Hto 1.434e-18 1.434e-18 -17.843 -17.843 0.000 (0) +Hto 8.513e-19 + Hto 8.513e-19 8.513e-19 -18.070 -18.070 0.000 (0) I 2.381e-19 I- 2.381e-19 2.381e-19 -18.623 -18.623 -0.000 (0) K 1.540e-03 @@ -126527,15 +126499,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.402e-21 - Nat+ 1.402e-21 1.402e-21 -20.853 -20.853 -0.000 (0) +Nat 5.747e-22 + Nat+ 5.747e-22 5.747e-22 -21.241 -21.241 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.444 -70.408 0.036 30.40 -S(-2) 4.319e-08 +S(-2) 4.320e-08 HS- 3.021e-08 1.989e-08 -7.520 -7.701 -0.182 21.14 H2S 1.299e-08 1.412e-08 -7.887 -7.850 0.036 36.27 S-2 1.227e-13 2.958e-14 -12.911 -13.529 -0.618 (0) - (H2S)2 9.660e-18 1.050e-17 -17.015 -16.979 0.036 30.09 + (H2S)2 9.661e-18 1.050e-17 -17.015 -16.979 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -126610,7 +126582,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -126621,12 +126593,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 8.1413e-21 - I 1.1443e-33 + Hto 4.6320e-21 + I 1.1441e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3218e-23 + Nat 8.8192e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -126645,12 +126617,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.899e-20 8.128e-21 + Hto 3.925e-20 4.625e-21 I 9.711e-21 1.144e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.951e-23 4.655e-24 + Nat 1.501e-23 1.768e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -126709,8 +126681,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.881e-11 H2 9.405e-12 1.023e-11 -11.027 -10.990 0.036 28.61 -Hto 6.899e-20 - Hto 6.899e-20 6.899e-20 -19.161 -19.161 0.000 (0) +Hto 3.925e-20 + Hto 3.925e-20 3.925e-20 -19.406 -19.406 0.000 (0) I 9.711e-21 I- 9.711e-21 9.711e-21 -20.013 -20.013 -0.000 (0) K 1.540e-03 @@ -126728,15 +126700,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.951e-23 - Nat+ 3.951e-23 3.951e-23 -22.403 -22.403 -0.000 (0) +Nat 1.501e-23 + Nat+ 1.501e-23 1.501e-23 -22.824 -22.824 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.444 -70.408 0.036 30.40 S(-2) 4.321e-08 HS- 3.022e-08 1.990e-08 -7.520 -7.701 -0.182 21.14 H2S 1.299e-08 1.412e-08 -7.886 -7.850 0.036 36.27 S-2 1.228e-13 2.960e-14 -12.911 -13.529 -0.618 (0) - (H2S)2 9.669e-18 1.051e-17 -17.015 -16.978 0.036 30.09 + (H2S)2 9.670e-18 1.051e-17 -17.015 -16.978 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -126801,7 +126773,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -9.424e-11 Surface + diffuse layer charge, eq + -9.425e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -126811,7 +126783,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -126822,12 +126794,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 3.4064e-22 + Hto 1.8573e-22 I 4.0513e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8157e-25 + Nat 1.0068e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -126846,12 +126818,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.887e-21 3.401e-22 + Hto 1.574e-21 1.854e-22 I 3.439e-22 4.051e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.493e-25 7.649e-26 + Nat 1.713e-25 2.018e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -126910,8 +126882,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.881e-11 H2 9.405e-12 1.023e-11 -11.027 -10.990 0.036 28.61 -Hto 2.887e-21 - Hto 2.887e-21 2.887e-21 -20.540 -20.540 0.000 (0) +Hto 1.574e-21 + Hto 1.574e-21 1.574e-21 -20.803 -20.803 0.000 (0) I 3.439e-22 I- 3.439e-22 3.439e-22 -21.464 -21.464 -0.000 (0) K 1.540e-03 @@ -126929,8 +126901,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.493e-25 - Nat+ 6.493e-25 6.493e-25 -24.188 -24.188 -0.000 (0) +Nat 1.713e-25 + Nat+ 1.713e-25 1.713e-25 -24.766 -24.766 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.444 -70.408 0.036 30.40 S(-2) 4.322e-08 @@ -127002,7 +126974,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -9.424e-11 Surface + diffuse layer charge, eq + -9.425e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -127012,7 +126984,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -127023,7 +126995,7 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.2312e-23 + Hto 6.3981e-24 I 1.1918e-36 K 8.9156e-04 Mg 4.6365e-02 @@ -127046,7 +127018,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.043e-22 1.229e-23 + Hto 5.422e-23 6.388e-24 I 1.011e-23 1.192e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -127109,8 +127081,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.881e-11 H2 9.405e-12 1.023e-11 -11.027 -10.990 0.036 28.61 -Hto 1.043e-22 - Hto 1.043e-22 1.043e-22 -21.982 -21.982 0.000 (0) +Hto 5.422e-23 + Hto 5.422e-23 5.422e-23 -22.266 -22.266 0.000 (0) I 1.011e-23 I- 1.011e-23 1.011e-23 -22.995 -22.995 -0.000 (0) K 1.540e-03 @@ -127199,7 +127171,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.424e-11 Surface + diffuse layer charge, eq + -9.425e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -127209,7 +127181,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -127220,7 +127192,7 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 2.9743e-25 + Hto 1.2835e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -127242,7 +127214,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.521e-24 2.969e-25 + Hto 1.088e-24 1.281e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -127304,8 +127276,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.881e-11 H2 9.405e-12 1.023e-11 -11.027 -10.990 0.036 28.61 -Hto 2.521e-24 - Hto 2.521e-24 2.521e-24 -23.598 -23.598 0.000 (0) +Hto 1.088e-24 + Hto 1.088e-24 1.088e-24 -23.963 -23.963 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -127392,7 +127364,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -9.424e-11 Surface + diffuse layer charge, eq + -9.425e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -127402,7 +127374,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -127880,30 +127852,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.744e-07 2.872e-07 + Hto 5.798e-07 2.899e-07 I 7.414e-07 3.707e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.348e-07 1.674e-07 + Nat 3.430e-07 1.715e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.001 Adjusted to redox equilibrium + pe = -3.000 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.366e-13 + Electrical balance (eq) = -2.841e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -127917,8 +127889,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.225e-12 - CH4 1.225e-12 1.332e-12 -11.912 -11.876 0.036 35.46 +C(-4) 1.199e-12 + CH4 1.199e-12 1.304e-12 -11.921 -11.885 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -127942,10 +127914,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.633e-12 - H2 4.316e-12 4.693e-12 -11.365 -11.329 0.036 28.61 -Hto 5.744e-07 - Hto 5.744e-07 5.744e-07 -6.241 -6.241 0.000 (0) +H(0) 8.588e-12 + H2 4.294e-12 4.668e-12 -11.367 -11.331 0.036 28.61 +Hto 5.798e-07 + Hto 5.798e-07 5.798e-07 -6.237 -6.237 0.000 (0) I 7.414e-07 I- 7.414e-07 7.414e-07 -6.130 -6.130 -0.000 (0) K 1.540e-03 @@ -127963,15 +127935,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.348e-07 - Nat+ 3.348e-07 3.348e-07 -6.475 -6.475 -0.000 (0) +Nat 3.430e-07 + Nat+ 3.430e-07 3.430e-07 -6.465 -6.465 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.768 -69.732 0.036 30.40 -S(-2) 1.920e-09 - HS- 1.343e-09 8.838e-10 -8.872 -9.054 -0.182 21.14 - H2S 5.777e-10 6.281e-10 -9.238 -9.202 0.036 36.27 - S-2 5.448e-15 1.313e-15 -14.264 -14.882 -0.618 (0) - (H2S)2 1.912e-20 2.079e-20 -19.719 -19.682 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.763 -69.727 0.036 30.40 +S(-2) 1.880e-09 + HS- 1.314e-09 8.653e-10 -8.881 -9.063 -0.182 21.14 + H2S 5.656e-10 6.150e-10 -9.247 -9.211 0.036 36.27 + S-2 5.335e-15 1.286e-15 -14.273 -14.891 -0.618 (0) + (H2S)2 1.833e-20 1.993e-20 -19.737 -19.701 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -127998,21 +127970,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.07 -11.88 -2.80 CH4 + CH4(g) -9.08 -11.88 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.23 -11.33 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.21 -16.14 -7.94 H2S + H2S(g) -8.22 -16.15 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.84 -69.73 -2.89 O2 + O2(g) -66.83 -69.73 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.91 -1.02 4.88 S + Sulfur -5.91 -1.03 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -128036,7 +128008,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.413e-14 Surface + diffuse layer charge, eq + -4.446e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -128046,7 +128018,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -128055,14 +128027,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6657e-10 + Cl 4.6658e-10 H 1.2947e-04 - Hto 5.6767e-08 + Hto 5.6978e-08 I 7.3771e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7000e-07 + Nat 1.7226e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -128081,30 +128053,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.811e-07 5.668e-08 + Hto 4.829e-07 5.689e-08 I 6.262e-07 7.378e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.893e-07 3.408e-08 + Nat 2.931e-07 3.453e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.076 Adjusted to redox equilibrium + pe = -3.075 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.681e-09 + Electrical balance (eq) = 1.673e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -128118,8 +128090,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.874e-12 - CH4 4.874e-12 5.299e-12 -11.312 -11.276 0.036 35.46 +C(-4) 4.833e-12 + CH4 4.833e-12 5.255e-12 -11.316 -11.279 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -128143,10 +128115,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.219e-11 - H2 6.097e-12 6.629e-12 -11.215 -11.179 0.036 28.61 -Hto 4.811e-07 - Hto 4.811e-07 4.811e-07 -6.318 -6.318 0.000 (0) +H(0) 1.217e-11 + H2 6.084e-12 6.614e-12 -11.216 -11.180 0.036 28.61 +Hto 4.829e-07 + Hto 4.829e-07 4.829e-07 -6.316 -6.316 0.000 (0) I 6.262e-07 I- 6.262e-07 6.262e-07 -6.203 -6.203 -0.000 (0) K 1.540e-03 @@ -128164,15 +128136,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.893e-07 - Nat+ 2.893e-07 2.893e-07 -6.539 -6.539 -0.000 (0) +Nat 2.931e-07 + Nat+ 2.931e-07 2.931e-07 -6.533 -6.533 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.068 -70.032 0.036 30.40 -S(-2) 7.641e-09 - HS- 5.342e-09 3.517e-09 -8.272 -8.454 -0.182 21.14 - H2S 2.298e-09 2.499e-09 -8.639 -8.602 0.036 36.27 - S-2 2.168e-14 5.227e-15 -13.664 -14.282 -0.618 (0) - (H2S)2 3.027e-19 3.291e-19 -18.519 -18.483 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.066 -70.030 0.036 30.40 +S(-2) 7.576e-09 + HS- 5.297e-09 3.487e-09 -8.276 -8.458 -0.182 21.14 + H2S 2.279e-09 2.478e-09 -8.642 -8.606 0.036 36.27 + S-2 2.150e-14 5.183e-15 -13.668 -14.285 -0.618 (0) + (H2S)2 2.976e-19 3.235e-19 -18.526 -18.490 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -128199,21 +128171,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.47 -11.28 -2.80 CH4 + CH4(g) -8.48 -11.28 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.08 -11.18 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.61 -15.54 -7.94 H2S + H2S(g) -7.61 -15.55 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.14 -70.03 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.46 -0.57 4.88 S + Sulfur -5.46 -0.58 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -128237,7 +128209,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.282e-11 Surface + diffuse layer charge, eq + -9.280e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -128247,7 +128219,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -128258,12 +128230,12 @@ Su Ca 7.1884e-02 Cl 4.6629e-10 H 1.2949e-04 - Hto 3.0954e-08 - I 3.6647e-20 + Hto 3.0441e-08 + I 3.6641e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.7071e-08 + Nat 7.4475e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -128282,12 +128254,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.623e-07 3.090e-08 + Hto 2.580e-07 3.039e-08 I 3.110e-07 3.664e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.311e-07 1.545e-08 + Nat 1.267e-07 1.493e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -128305,7 +128277,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.885e-09 + Electrical balance (eq) = 3.852e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -128319,8 +128291,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.996e-11 - CH4 1.996e-11 2.170e-11 -10.700 -10.664 0.036 35.46 +C(-4) 1.998e-11 + CH4 1.998e-11 2.173e-11 -10.699 -10.663 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -128345,9 +128317,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.735e-11 - H2 8.673e-12 9.430e-12 -11.062 -11.025 0.036 28.61 -Hto 2.623e-07 - Hto 2.623e-07 2.623e-07 -6.581 -6.581 0.000 (0) + H2 8.677e-12 9.433e-12 -11.062 -11.025 0.036 28.61 +Hto 2.580e-07 + Hto 2.580e-07 2.580e-07 -6.588 -6.588 0.000 (0) I 3.110e-07 I- 3.110e-07 3.110e-07 -6.507 -6.507 -0.000 (0) K 1.540e-03 @@ -128365,15 +128337,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.311e-07 - Nat+ 1.311e-07 1.311e-07 -6.882 -6.882 -0.000 (0) +Nat 1.267e-07 + Nat+ 1.267e-07 1.267e-07 -6.897 -6.897 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.374 -70.338 0.036 30.40 -S(-2) 3.127e-08 - HS- 2.187e-08 1.440e-08 -7.660 -7.842 -0.182 21.14 - H2S 9.404e-09 1.022e-08 -8.027 -7.990 0.036 36.27 - S-2 8.882e-14 2.141e-14 -13.051 -13.669 -0.618 (0) - (H2S)2 5.066e-18 5.508e-18 -17.295 -17.259 0.036 30.09 +S(-2) 3.132e-08 + HS- 2.190e-08 1.442e-08 -7.660 -7.841 -0.182 21.14 + H2S 9.417e-09 1.024e-08 -8.026 -7.990 0.036 36.27 + S-2 8.895e-14 2.144e-14 -13.051 -13.669 -0.618 (0) + (H2S)2 5.080e-18 5.524e-18 -17.294 -17.258 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -128448,7 +128420,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -128459,12 +128431,12 @@ Su Ca 7.1884e-02 Cl 4.6619e-10 H 1.2949e-04 - Hto 1.2999e-08 + Hto 1.2434e-08 I 1.3738e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3605e-08 + Nat 2.1529e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -128483,12 +128455,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.102e-07 1.298e-08 + Hto 1.054e-07 1.241e-08 I 1.166e-07 1.374e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.017e-08 4.732e-09 + Nat 3.663e-08 4.316e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -128506,7 +128478,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.427e-10 + Electrical balance (eq) = -7.426e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -128520,8 +128492,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.558e-11 - CH4 2.558e-11 2.781e-11 -10.592 -10.556 0.036 35.46 +C(-4) 2.560e-11 + CH4 2.560e-11 2.783e-11 -10.592 -10.555 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -128546,9 +128518,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.846e-11 - H2 9.229e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 1.102e-07 - Hto 1.102e-07 1.102e-07 -6.958 -6.958 0.000 (0) + H2 9.231e-12 1.004e-11 -11.035 -10.998 0.036 28.61 +Hto 1.054e-07 + Hto 1.054e-07 1.054e-07 -6.977 -6.977 0.000 (0) I 1.166e-07 I- 1.166e-07 1.166e-07 -6.933 -6.933 -0.000 (0) K 1.540e-03 @@ -128566,15 +128538,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.017e-08 - Nat+ 4.017e-08 4.017e-08 -7.396 -7.396 -0.000 (0) +Nat 3.663e-08 + Nat+ 3.663e-08 3.663e-08 -7.436 -7.436 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.428 -70.392 0.036 30.40 -S(-2) 4.008e-08 - HS- 2.803e-08 1.845e-08 -7.552 -7.734 -0.182 21.14 - H2S 1.205e-08 1.310e-08 -7.919 -7.883 0.036 36.27 - S-2 1.139e-13 2.745e-14 -12.944 -13.561 -0.618 (0) - (H2S)2 8.320e-18 9.045e-18 -17.080 -17.044 0.036 30.09 +S(-2) 4.012e-08 + HS- 2.806e-08 1.847e-08 -7.552 -7.734 -0.182 21.14 + H2S 1.206e-08 1.311e-08 -7.919 -7.882 0.036 36.27 + S-2 1.140e-13 2.747e-14 -12.943 -13.561 -0.618 (0) + (H2S)2 8.333e-18 9.060e-18 -17.079 -17.043 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -128649,7 +128621,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -128660,12 +128632,12 @@ Su Ca 7.1884e-02 Cl 4.6615e-10 H 1.2949e-04 - Hto 4.3110e-09 + Hto 3.9923e-09 I 4.0093e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3043e-09 + Nat 4.5460e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -128684,19 +128656,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.653e-08 4.304e-09 + Hto 3.383e-08 3.986e-09 I 3.403e-08 4.009e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.026e-09 1.063e-09 + Nat 7.735e-09 9.113e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.170 Adjusted to redox equilibrium + pe = -3.171 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -128721,8 +128693,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.767e-11 - CH4 2.767e-11 3.008e-11 -10.558 -10.522 0.036 35.46 +C(-4) 2.768e-11 + CH4 2.768e-11 3.010e-11 -10.558 -10.521 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -128747,9 +128719,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.883e-11 - H2 9.413e-12 1.023e-11 -11.026 -10.990 0.036 28.61 -Hto 3.653e-08 - Hto 3.653e-08 3.653e-08 -7.437 -7.437 0.000 (0) + H2 9.414e-12 1.023e-11 -11.026 -10.990 0.036 28.61 +Hto 3.383e-08 + Hto 3.383e-08 3.383e-08 -7.471 -7.471 0.000 (0) I 3.403e-08 I- 3.403e-08 3.403e-08 -7.468 -7.468 -0.000 (0) K 1.540e-03 @@ -128767,15 +128739,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.026e-09 - Nat+ 9.026e-09 9.026e-09 -8.045 -8.045 -0.000 (0) +Nat 7.735e-09 + Nat+ 7.735e-09 7.735e-09 -8.112 -8.112 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.445 -70.409 0.036 30.40 -S(-2) 4.336e-08 - HS- 3.032e-08 1.996e-08 -7.518 -7.700 -0.182 21.14 - H2S 1.303e-08 1.417e-08 -7.885 -7.849 0.036 36.27 - S-2 1.232e-13 2.970e-14 -12.909 -13.527 -0.618 (0) - (H2S)2 9.734e-18 1.058e-17 -17.012 -16.975 0.036 30.09 +S(-2) 4.338e-08 + HS- 3.034e-08 1.997e-08 -7.518 -7.700 -0.182 21.14 + H2S 1.304e-08 1.418e-08 -7.885 -7.848 0.036 36.27 + S-2 1.232e-13 2.971e-14 -12.909 -13.527 -0.618 (0) + (H2S)2 9.743e-18 1.059e-17 -17.011 -16.975 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -128850,7 +128822,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -128861,12 +128833,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.1561e-09 + Hto 1.0334e-09 I 9.3678e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2216e-10 + Nat 7.4108e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -128885,12 +128857,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.797e-09 1.154e-09 + Hto 8.758e-09 1.032e-09 I 7.951e-09 9.367e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.569e-09 1.849e-10 + Nat 1.261e-09 1.486e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -128923,7 +128895,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.834e-11 - CH4 2.834e-11 3.081e-11 -10.548 -10.511 0.036 35.46 + CH4 2.834e-11 3.082e-11 -10.548 -10.511 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -128948,9 +128920,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.894e-11 - H2 9.469e-12 1.029e-11 -11.024 -10.987 0.036 28.61 -Hto 9.797e-09 - Hto 9.797e-09 9.797e-09 -8.009 -8.009 0.000 (0) + H2 9.469e-12 1.030e-11 -11.024 -10.987 0.036 28.61 +Hto 8.758e-09 + Hto 8.758e-09 8.758e-09 -8.058 -8.058 0.000 (0) I 7.951e-09 I- 7.951e-09 7.951e-09 -8.100 -8.100 -0.000 (0) K 1.540e-03 @@ -128968,14 +128940,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.569e-09 - Nat+ 1.569e-09 1.569e-09 -8.804 -8.804 -0.000 (0) +Nat 1.261e-09 + Nat+ 1.261e-09 1.261e-09 -8.899 -8.899 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.450 -70.414 0.036 30.40 -S(-2) 4.440e-08 - HS- 3.105e-08 2.044e-08 -7.508 -7.689 -0.182 21.14 - H2S 1.335e-08 1.451e-08 -7.875 -7.838 0.036 36.27 - S-2 1.262e-13 3.041e-14 -12.899 -13.517 -0.618 (0) +S(-2) 4.441e-08 + HS- 3.106e-08 2.045e-08 -7.508 -7.689 -0.182 21.14 + H2S 1.335e-08 1.452e-08 -7.874 -7.838 0.036 36.27 + S-2 1.262e-13 3.042e-14 -12.899 -13.517 -0.618 (0) (H2S)2 1.021e-17 1.110e-17 -16.991 -16.955 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -129051,7 +129023,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -129062,12 +129034,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 2.5563e-10 + Hto 2.2013e-10 I 1.7921e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2854e-10 + Nat 9.6748e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -129086,12 +129058,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.166e-09 2.552e-10 + Hto 1.866e-09 2.198e-10 I 1.521e-09 1.792e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.187e-10 2.577e-11 + Nat 1.646e-10 1.939e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -129109,7 +129081,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.425e-10 + Electrical balance (eq) = -7.426e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -129123,8 +129095,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.844e-11 - CH4 2.844e-11 3.092e-11 -10.546 -10.510 0.036 35.46 +C(-4) 2.845e-11 + CH4 2.845e-11 3.093e-11 -10.546 -10.510 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -129148,10 +129120,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.895e-11 - H2 9.477e-12 1.030e-11 -11.023 -10.987 0.036 28.61 -Hto 2.166e-09 - Hto 2.166e-09 2.166e-09 -8.664 -8.664 0.000 (0) +H(0) 1.896e-11 + H2 9.478e-12 1.030e-11 -11.023 -10.987 0.036 28.61 +Hto 1.866e-09 + Hto 1.866e-09 1.866e-09 -8.729 -8.729 0.000 (0) I 1.521e-09 I- 1.521e-09 1.521e-09 -8.818 -8.818 -0.000 (0) K 1.540e-03 @@ -129169,15 +129141,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.187e-10 - Nat+ 2.187e-10 2.187e-10 -9.660 -9.660 -0.000 (0) +Nat 1.646e-10 + Nat+ 1.646e-10 1.646e-10 -9.783 -9.783 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.451 -70.415 0.036 30.40 -S(-2) 4.456e-08 +S(-2) 4.457e-08 HS- 3.117e-08 2.052e-08 -7.506 -7.688 -0.182 21.14 H2S 1.340e-08 1.457e-08 -7.873 -7.837 0.036 36.27 - S-2 1.266e-13 3.052e-14 -12.897 -13.515 -0.618 (0) - (H2S)2 1.028e-17 1.118e-17 -16.988 -16.952 0.036 30.09 + S-2 1.266e-13 3.053e-14 -12.897 -13.515 -0.618 (0) + (H2S)2 1.029e-17 1.118e-17 -16.988 -16.951 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -129252,7 +129224,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -129263,12 +129235,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 4.7350e-11 - I 2.8577e-23 + Hto 3.9228e-11 + I 2.8580e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4728e-11 + Nat 1.0376e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -129287,12 +129259,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.013e-10 4.727e-11 + Hto 3.324e-10 3.917e-11 I 2.426e-10 2.858e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.506e-11 2.953e-12 + Nat 1.766e-11 2.080e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -129324,8 +129296,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.826e-11 - CH4 2.826e-11 3.073e-11 -10.549 -10.512 0.036 35.46 +C(-4) 2.827e-11 + CH4 2.827e-11 3.073e-11 -10.549 -10.512 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -129351,8 +129323,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.893e-11 H2 9.463e-12 1.029e-11 -11.024 -10.988 0.036 28.61 -Hto 4.013e-10 - Hto 4.013e-10 4.013e-10 -9.397 -9.397 0.000 (0) +Hto 3.324e-10 + Hto 3.324e-10 3.324e-10 -9.478 -9.478 0.000 (0) I 2.426e-10 I- 2.426e-10 2.426e-10 -9.615 -9.615 -0.000 (0) K 1.540e-03 @@ -129370,15 +129342,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.506e-11 - Nat+ 2.506e-11 2.506e-11 -10.601 -10.601 -0.000 (0) +Nat 1.766e-11 + Nat+ 1.766e-11 1.766e-11 -10.753 -10.753 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.450 -70.413 0.036 30.40 S(-2) 4.429e-08 - HS- 3.097e-08 2.039e-08 -7.509 -7.691 -0.182 21.14 - H2S 1.331e-08 1.447e-08 -7.876 -7.839 0.036 36.27 - S-2 1.258e-13 3.033e-14 -12.900 -13.518 -0.618 (0) - (H2S)2 1.015e-17 1.104e-17 -16.993 -16.957 0.036 30.09 + HS- 3.098e-08 2.039e-08 -7.509 -7.691 -0.182 21.14 + H2S 1.332e-08 1.448e-08 -7.876 -7.839 0.036 36.27 + S-2 1.258e-13 3.034e-14 -12.900 -13.518 -0.618 (0) + (H2S)2 1.016e-17 1.104e-17 -16.993 -16.957 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -129443,7 +129415,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.438e-11 Surface + diffuse layer charge, eq + -9.441e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -129453,7 +129425,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -129464,12 +129436,12 @@ Su Ca 7.1884e-02 Cl 4.6615e-10 H 1.2949e-04 - Hto 7.4391e-12 + Hto 5.9236e-12 I 3.8516e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4127e-12 + Nat 9.3110e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -129488,12 +129460,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.304e-11 7.427e-12 + Hto 5.020e-11 5.914e-12 I 3.269e-11 3.851e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.404e-12 2.832e-13 + Nat 1.584e-12 1.867e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -129511,8 +129483,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.280e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.329e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -129525,8 +129497,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.793e-11 - CH4 2.793e-11 3.037e-11 -10.554 -10.518 0.036 35.46 +C(-4) 2.794e-11 + CH4 2.794e-11 3.037e-11 -10.554 -10.518 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -129552,8 +129524,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.887e-11 H2 9.435e-12 1.026e-11 -11.025 -10.989 0.036 28.61 -Hto 6.304e-11 - Hto 6.304e-11 6.304e-11 -10.200 -10.200 0.000 (0) +Hto 5.020e-11 + Hto 5.020e-11 5.020e-11 -10.299 -10.299 0.000 (0) I 3.269e-11 I- 3.269e-11 3.269e-11 -10.486 -10.486 -0.000 (0) K 1.540e-03 @@ -129571,15 +129543,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.404e-12 - Nat+ 2.404e-12 2.404e-12 -11.619 -11.619 -0.000 (0) +Nat 1.584e-12 + Nat+ 1.584e-12 1.584e-12 -11.800 -11.800 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.447 -70.411 0.036 30.40 -S(-2) 4.377e-08 - HS- 3.061e-08 2.015e-08 -7.514 -7.696 -0.182 21.14 +S(-2) 4.378e-08 + HS- 3.062e-08 2.015e-08 -7.514 -7.696 -0.182 21.14 H2S 1.316e-08 1.431e-08 -7.881 -7.844 0.036 36.27 S-2 1.244e-13 2.998e-14 -12.905 -13.523 -0.618 (0) - (H2S)2 9.921e-18 1.079e-17 -17.003 -16.967 0.036 30.09 + (H2S)2 9.922e-18 1.079e-17 -17.003 -16.967 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -129644,7 +129616,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.429e-11 Surface + diffuse layer charge, eq + -9.430e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -129654,7 +129626,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -129665,12 +129637,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.0011e-12 - I 4.4338e-25 + Hto 7.6562e-13 + I 4.4328e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1496e-13 + Nat 7.0867e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -129689,12 +129661,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.483e-12 9.994e-13 + Hto 6.488e-12 7.644e-13 I 3.763e-12 4.433e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.956e-13 2.305e-14 + Nat 1.206e-13 1.421e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -129712,7 +129684,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.772e-10 + Electrical balance (eq) = -2.620e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -129753,8 +129725,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.883e-11 H2 9.416e-12 1.024e-11 -11.026 -10.990 0.036 28.61 -Hto 8.483e-12 - Hto 8.483e-12 8.483e-12 -11.071 -11.071 0.000 (0) +Hto 6.488e-12 + Hto 6.488e-12 6.488e-12 -11.188 -11.188 0.000 (0) I 3.763e-12 I- 3.763e-12 3.763e-12 -11.424 -11.424 -0.000 (0) K 1.540e-03 @@ -129772,15 +129744,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.956e-13 - Nat+ 1.956e-13 1.956e-13 -12.709 -12.709 -0.000 (0) +Nat 1.206e-13 + Nat+ 1.206e-13 1.206e-13 -12.919 -12.919 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.445 -70.409 0.036 30.40 S(-2) 4.342e-08 HS- 3.036e-08 1.999e-08 -7.518 -7.699 -0.182 21.14 H2S 1.305e-08 1.419e-08 -7.884 -7.848 0.036 36.27 S-2 1.234e-13 2.973e-14 -12.909 -13.527 -0.618 (0) - (H2S)2 9.759e-18 1.061e-17 -17.011 -16.974 0.036 30.09 + (H2S)2 9.760e-18 1.061e-17 -17.011 -16.974 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -129855,7 +129827,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -129866,12 +129838,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.1626e-13 + Hto 8.5362e-14 I 4.3949e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.0168e-15 + Nat 4.6214e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -129890,12 +129862,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.853e-13 1.161e-13 + Hto 7.234e-13 8.522e-14 I 3.730e-13 4.395e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.364e-14 1.607e-15 + Nat 7.864e-15 9.264e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -129913,7 +129885,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.332e-10 + Electrical balance (eq) = -6.357e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -129954,8 +129926,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.882e-11 H2 9.409e-12 1.023e-11 -11.026 -10.990 0.036 28.61 -Hto 9.853e-13 - Hto 9.853e-13 9.853e-13 -12.006 -12.006 0.000 (0) +Hto 7.234e-13 + Hto 7.234e-13 7.234e-13 -12.141 -12.141 0.000 (0) I 3.730e-13 I- 3.730e-13 3.730e-13 -12.428 -12.428 -0.000 (0) K 1.540e-03 @@ -129973,12 +129945,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.364e-14 - Nat+ 1.364e-14 1.364e-14 -13.865 -13.865 -0.000 (0) +Nat 7.864e-15 + Nat+ 7.864e-15 7.864e-15 -14.104 -14.104 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.445 -70.408 0.036 30.40 S(-2) 4.329e-08 - HS- 3.027e-08 1.993e-08 -7.519 -7.700 -0.182 21.14 + HS- 3.027e-08 1.993e-08 -7.519 -7.701 -0.182 21.14 H2S 1.301e-08 1.415e-08 -7.886 -7.849 0.036 36.27 S-2 1.230e-13 2.965e-14 -12.910 -13.528 -0.618 (0) (H2S)2 9.702e-18 1.055e-17 -17.013 -16.977 0.036 30.09 @@ -130046,7 +130018,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -9.425e-11 Surface + diffuse layer charge, eq + -9.426e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -130056,7 +130028,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -130067,12 +130039,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.1722e-14 - I 3.7763e-27 + Hto 8.2590e-15 + I 3.7771e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8270e-16 + Nat 2.6017e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -130091,12 +130063,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.934e-14 1.170e-14 + Hto 6.999e-14 8.246e-15 I 3.205e-14 3.776e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.214e-16 9.676e-17 + Nat 4.427e-16 5.216e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -130114,7 +130086,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.475e-10 + Electrical balance (eq) = -6.476e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -130129,7 +130101,7 @@ Su H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.766e-11 - CH4 2.766e-11 3.008e-11 -10.558 -10.522 0.036 35.46 + CH4 2.766e-11 3.007e-11 -10.558 -10.522 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -130155,8 +130127,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.882e-11 H2 9.412e-12 1.023e-11 -11.026 -10.990 0.036 28.61 -Hto 9.934e-14 - Hto 9.934e-14 9.934e-14 -13.003 -13.003 0.000 (0) +Hto 6.999e-14 + Hto 6.999e-14 6.999e-14 -13.155 -13.155 0.000 (0) I 3.205e-14 I- 3.205e-14 3.205e-14 -13.494 -13.494 -0.000 (0) K 1.540e-03 @@ -130174,15 +130146,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.214e-16 - Nat+ 8.214e-16 8.214e-16 -15.085 -15.085 -0.000 (0) +Nat 4.427e-16 + Nat+ 4.427e-16 4.427e-16 -15.354 -15.354 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.445 -70.409 0.036 30.40 S(-2) 4.335e-08 - HS- 3.032e-08 1.996e-08 -7.518 -7.700 -0.182 21.14 + HS- 3.031e-08 1.996e-08 -7.518 -7.700 -0.182 21.14 H2S 1.303e-08 1.417e-08 -7.885 -7.849 0.036 36.27 S-2 1.232e-13 2.969e-14 -12.910 -13.527 -0.618 (0) - (H2S)2 9.730e-18 1.058e-17 -17.012 -16.976 0.036 30.09 + (H2S)2 9.728e-18 1.058e-17 -17.012 -16.976 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -130247,7 +130219,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.432e-11 Surface + diffuse layer charge, eq + -9.431e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -130257,7 +130229,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -130268,12 +130240,12 @@ Su Ca 7.1884e-02 Cl 4.6615e-10 H 1.2949e-04 - Hto 1.0305e-15 - I 2.8256e-28 + Hto 6.9651e-16 + I 2.8251e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5233e-17 + Nat 1.2715e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -130292,12 +130264,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.733e-15 1.029e-15 + Hto 5.903e-15 6.954e-16 I 2.398e-15 2.825e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.294e-17 5.058e-18 + Nat 2.164e-17 2.549e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -130315,7 +130287,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.442e-10 + Electrical balance (eq) = 6.768e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -130356,8 +130328,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.886e-11 H2 9.430e-12 1.025e-11 -11.025 -10.989 0.036 28.61 -Hto 8.733e-15 - Hto 8.733e-15 8.733e-15 -14.059 -14.059 0.000 (0) +Hto 5.903e-15 + Hto 5.903e-15 5.903e-15 -14.229 -14.229 0.000 (0) I 2.398e-15 I- 2.398e-15 2.398e-15 -14.620 -14.620 -0.000 (0) K 1.540e-03 @@ -130375,15 +130347,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.294e-17 - Nat+ 4.294e-17 4.294e-17 -16.367 -16.367 -0.000 (0) +Nat 2.164e-17 + Nat+ 2.164e-17 2.164e-17 -16.665 -16.665 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.447 -70.410 0.036 30.40 S(-2) 4.368e-08 HS- 3.055e-08 2.011e-08 -7.515 -7.697 -0.182 21.14 H2S 1.313e-08 1.428e-08 -7.882 -7.845 0.036 36.27 S-2 1.241e-13 2.992e-14 -12.906 -13.524 -0.618 (0) - (H2S)2 9.881e-18 1.074e-17 -17.005 -16.969 0.036 30.09 + (H2S)2 9.879e-18 1.074e-17 -17.005 -16.969 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -130458,7 +130430,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -130469,12 +130441,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 7.9225e-17 - I 1.8467e-29 + Hto 5.1356e-17 + I 1.8470e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1496e-18 + Nat 5.4158e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -130493,12 +130465,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.714e-16 7.910e-17 + Hto 4.352e-16 5.127e-17 I 1.567e-16 1.847e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.956e-18 2.305e-19 + Nat 9.216e-19 1.086e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -130516,7 +130488,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.408e-10 + Electrical balance (eq) = -7.407e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -130531,7 +130503,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.828e-11 - CH4 2.828e-11 3.074e-11 -10.549 -10.512 0.036 35.46 + CH4 2.828e-11 3.075e-11 -10.549 -10.512 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -130557,8 +130529,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.893e-11 H2 9.464e-12 1.029e-11 -11.024 -10.988 0.036 28.61 -Hto 6.714e-16 - Hto 6.714e-16 6.714e-16 -15.173 -15.173 0.000 (0) +Hto 4.352e-16 + Hto 4.352e-16 4.352e-16 -15.361 -15.361 0.000 (0) I 1.567e-16 I- 1.567e-16 1.567e-16 -15.805 -15.805 -0.000 (0) K 1.540e-03 @@ -130576,15 +130548,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.956e-18 - Nat+ 1.956e-18 1.956e-18 -17.709 -17.709 -0.000 (0) +Nat 9.216e-19 + Nat+ 9.216e-19 9.216e-19 -18.035 -18.035 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.450 -70.414 0.036 30.40 S(-2) 4.431e-08 HS- 3.099e-08 2.040e-08 -7.509 -7.690 -0.182 21.14 - H2S 1.332e-08 1.448e-08 -7.876 -7.839 0.036 36.27 + H2S 1.332e-08 1.448e-08 -7.875 -7.839 0.036 36.27 S-2 1.259e-13 3.035e-14 -12.900 -13.518 -0.618 (0) - (H2S)2 1.016e-17 1.105e-17 -16.993 -16.957 0.036 30.09 + (H2S)2 1.017e-17 1.105e-17 -16.993 -16.957 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -130659,7 +130631,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -130670,12 +130642,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 5.3364e-18 + Hto 3.3171e-18 I 1.0568e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5767e-20 + Nat 2.0154e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -130694,12 +130666,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.522e-17 5.328e-18 + Hto 2.811e-17 3.312e-18 I 8.968e-18 1.057e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.788e-20 9.175e-21 + Nat 3.429e-20 4.040e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -130758,8 +130730,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.897e-11 H2 9.483e-12 1.031e-11 -11.023 -10.987 0.036 28.61 -Hto 4.522e-17 - Hto 4.522e-17 4.522e-17 -16.345 -16.345 0.000 (0) +Hto 2.811e-17 + Hto 2.811e-17 2.811e-17 -16.551 -16.551 0.000 (0) I 8.968e-18 I- 8.968e-18 8.968e-18 -17.047 -17.047 -0.000 (0) K 1.540e-03 @@ -130777,15 +130749,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.788e-20 - Nat+ 7.788e-20 7.788e-20 -19.109 -19.109 -0.000 (0) +Nat 3.429e-20 + Nat+ 3.429e-20 3.429e-20 -19.465 -19.465 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.452 -70.415 0.036 30.40 -S(-2) 4.467e-08 - HS- 3.124e-08 2.057e-08 -7.505 -7.687 -0.182 21.14 +S(-2) 4.468e-08 + HS- 3.125e-08 2.057e-08 -7.505 -7.687 -0.182 21.14 H2S 1.343e-08 1.460e-08 -7.872 -7.836 0.036 36.27 S-2 1.269e-13 3.060e-14 -12.896 -13.514 -0.618 (0) - (H2S)2 1.033e-17 1.123e-17 -16.986 -16.949 0.036 30.09 + (H2S)2 1.033e-17 1.124e-17 -16.986 -16.949 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -130860,7 +130832,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -130871,12 +130843,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 3.1516e-19 - I 5.2963e-32 + Hto 1.8782e-19 + I 5.2969e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5938e-21 + Nat 6.5599e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -130895,12 +130867,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.671e-18 3.147e-19 + Hto 1.592e-18 1.875e-19 I 4.496e-19 5.296e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.712e-21 3.195e-22 + Nat 1.116e-21 1.315e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -130959,8 +130931,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.898e-11 H2 9.489e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 2.671e-18 - Hto 2.671e-18 2.671e-18 -17.573 -17.573 0.000 (0) +Hto 1.592e-18 + Hto 1.592e-18 1.592e-18 -17.798 -17.798 0.000 (0) I 4.496e-19 I- 4.496e-19 4.496e-19 -18.347 -18.347 -0.000 (0) K 1.540e-03 @@ -130978,12 +130950,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.712e-21 - Nat+ 2.712e-21 2.712e-21 -20.567 -20.567 -0.000 (0) +Nat 1.116e-21 + Nat+ 1.116e-21 1.116e-21 -20.952 -20.952 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.452 -70.416 0.036 30.40 S(-2) 4.479e-08 - HS- 3.132e-08 2.062e-08 -7.504 -7.686 -0.182 21.14 + HS- 3.133e-08 2.062e-08 -7.504 -7.686 -0.182 21.14 H2S 1.346e-08 1.464e-08 -7.871 -7.834 0.036 36.27 S-2 1.273e-13 3.068e-14 -12.895 -13.513 -0.618 (0) (H2S)2 1.039e-17 1.129e-17 -16.984 -16.947 0.036 30.09 @@ -131051,7 +131023,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.453e-11 Surface + diffuse layer charge, eq + -9.454e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -131061,7 +131033,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -131072,12 +131044,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.6313e-20 - I 2.3254e-33 + Hto 9.3194e-21 + I 2.3258e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8462e-23 + Nat 1.8571e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -131096,12 +131068,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.382e-19 1.629e-20 + Hto 7.898e-20 9.304e-21 I 1.974e-20 2.326e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.246e-23 9.715e-24 + Nat 3.160e-23 3.723e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -131160,8 +131132,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.898e-11 H2 9.491e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 1.382e-19 - Hto 1.382e-19 1.382e-19 -18.859 -18.859 0.000 (0) +Hto 7.898e-20 + Hto 7.898e-20 7.898e-20 -19.102 -19.102 0.000 (0) I 1.974e-20 I- 1.974e-20 1.974e-20 -19.705 -19.705 -0.000 (0) K 1.540e-03 @@ -131179,8 +131151,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.246e-23 - Nat+ 8.246e-23 8.246e-23 -22.084 -22.084 -0.000 (0) +Nat 3.160e-23 + Nat+ 3.160e-23 3.160e-23 -22.500 -22.500 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.452 -70.416 0.036 30.40 S(-2) 4.481e-08 @@ -131252,7 +131224,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -9.453e-11 Surface + diffuse layer charge, eq + -9.454e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -131262,7 +131234,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -131273,12 +131245,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 7.3897e-22 + Hto 4.0460e-22 I 8.9255e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1052e-24 + Nat 3.0148e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -131297,12 +131269,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.262e-21 7.378e-22 + Hto 3.429e-21 4.040e-22 I 7.576e-22 8.925e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.881e-24 2.215e-25 + Nat 5.130e-25 6.044e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -131361,8 +131333,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.898e-11 H2 9.491e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 6.262e-21 - Hto 6.262e-21 6.262e-21 -20.203 -20.203 0.000 (0) +Hto 3.429e-21 + Hto 3.429e-21 3.429e-21 -20.465 -20.465 0.000 (0) I 7.576e-22 I- 7.576e-22 7.576e-22 -21.121 -21.121 -0.000 (0) K 1.540e-03 @@ -131380,8 +131352,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.881e-24 - Nat+ 1.881e-24 1.881e-24 -23.726 -23.726 -0.000 (0) +Nat 5.130e-25 + Nat+ 5.130e-25 5.130e-25 -24.290 -24.290 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.452 -70.416 0.036 30.40 S(-2) 4.482e-08 @@ -131463,7 +131435,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -131474,8 +131446,8 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 2.9174e-23 - I 2.9380e-36 + Hto 1.5275e-23 + I 2.9384e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -131497,7 +131469,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.472e-22 2.913e-23 + Hto 1.295e-22 1.525e-23 I 2.494e-23 2.938e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -131560,8 +131532,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.898e-11 H2 9.491e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 2.472e-22 - Hto 2.472e-22 2.472e-22 -21.607 -21.607 0.000 (0) +Hto 1.295e-22 + Hto 1.295e-22 1.295e-22 -21.888 -21.888 0.000 (0) I 2.494e-23 I- 2.494e-23 2.494e-23 -22.603 -22.603 -0.000 (0) K 1.540e-03 @@ -131650,7 +131622,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.453e-11 Surface + diffuse layer charge, eq + -9.454e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -131660,7 +131632,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -131671,7 +131643,7 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 9.2201e-25 + Hto 4.4338e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -131693,7 +131665,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.814e-24 9.205e-25 + Hto 3.757e-24 4.427e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -131755,8 +131727,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.898e-11 H2 9.491e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 7.814e-24 - Hto 7.814e-24 7.814e-24 -23.107 -23.107 0.000 (0) +Hto 3.757e-24 + Hto 3.757e-24 3.757e-24 -23.425 -23.425 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -131853,7 +131825,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -132331,30 +132303,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.697e-07 2.848e-07 + Hto 5.751e-07 2.875e-07 I 7.381e-07 3.690e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.307e-07 1.653e-07 + Nat 3.387e-07 1.693e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.006 Adjusted to redox equilibrium + pe = -3.004 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.425e-13 + Electrical balance (eq) = -2.898e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -132368,8 +132340,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.340e-12 - CH4 1.340e-12 1.457e-12 -11.873 -11.837 0.036 35.46 +C(-4) 1.312e-12 + CH4 1.312e-12 1.427e-12 -11.882 -11.846 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -132393,10 +132365,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 8.829e-12 - H2 4.415e-12 4.800e-12 -11.355 -11.319 0.036 28.61 -Hto 5.697e-07 - Hto 5.697e-07 5.697e-07 -6.244 -6.244 0.000 (0) +H(0) 8.783e-12 + H2 4.391e-12 4.774e-12 -11.357 -11.321 0.036 28.61 +Hto 5.751e-07 + Hto 5.751e-07 5.751e-07 -6.240 -6.240 0.000 (0) I 7.381e-07 I- 7.381e-07 7.381e-07 -6.132 -6.132 -0.000 (0) K 1.540e-03 @@ -132414,15 +132386,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.307e-07 - Nat+ 3.307e-07 3.307e-07 -6.481 -6.481 -0.000 (0) +Nat 3.387e-07 + Nat+ 3.387e-07 3.387e-07 -6.470 -6.470 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.788 -69.751 0.036 30.40 -S(-2) 2.101e-09 - HS- 1.469e-09 9.670e-10 -8.833 -9.015 -0.182 21.14 - H2S 6.320e-10 6.872e-10 -9.199 -9.163 0.036 36.27 - S-2 5.961e-15 1.437e-15 -14.225 -14.843 -0.618 (0) - (H2S)2 2.289e-20 2.488e-20 -19.640 -19.604 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.783 -69.747 0.036 30.40 +S(-2) 2.057e-09 + HS- 1.438e-09 9.468e-10 -8.842 -9.024 -0.182 21.14 + H2S 6.188e-10 6.728e-10 -9.208 -9.172 0.036 36.27 + S-2 5.837e-15 1.407e-15 -14.234 -14.852 -0.618 (0) + (H2S)2 2.194e-20 2.385e-20 -19.659 -19.622 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -132449,21 +132421,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.03 -11.84 -2.80 CH4 + CH4(g) -9.04 -11.85 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.22 -11.32 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.17 -16.10 -7.94 H2S + H2S(g) -8.18 -16.11 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.86 -69.75 -2.89 O2 + O2(g) -66.85 -69.75 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.88 -0.99 4.88 S + Sulfur -5.88 -1.00 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -132487,7 +132459,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.496e-14 Surface + diffuse layer charge, eq + -4.524e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -132497,7 +132469,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -132508,12 +132480,12 @@ Su Ca 7.1884e-02 Cl 4.6657e-10 H 1.2947e-04 - Hto 5.6564e-08 - I 7.3732e-20 + Hto 5.6790e-08 + I 7.3745e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6872e-07 + Nat 1.7107e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -132532,30 +132504,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.794e-07 5.647e-08 + Hto 4.813e-07 5.670e-08 I 6.259e-07 7.373e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.871e-07 3.382e-08 + Nat 2.911e-07 3.429e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.079 Adjusted to redox equilibrium + pe = -3.078 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.681e-09 + Electrical balance (eq) = 1.672e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -132569,8 +132541,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.124e-12 - CH4 5.124e-12 5.571e-12 -11.290 -11.254 0.036 35.46 +C(-4) 5.081e-12 + CH4 5.081e-12 5.524e-12 -11.294 -11.258 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -132582,7 +132554,7 @@ C(4) 2.744e-03 MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -132594,10 +132566,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.235e-11 - H2 6.173e-12 6.712e-12 -11.209 -11.173 0.036 28.61 -Hto 4.794e-07 - Hto 4.794e-07 4.794e-07 -6.319 -6.319 0.000 (0) +H(0) 1.232e-11 + H2 6.160e-12 6.698e-12 -11.210 -11.174 0.036 28.61 +Hto 4.813e-07 + Hto 4.813e-07 4.813e-07 -6.318 -6.318 0.000 (0) I 6.259e-07 I- 6.259e-07 6.259e-07 -6.204 -6.204 -0.000 (0) K 1.540e-03 @@ -132615,15 +132587,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.871e-07 - Nat+ 2.871e-07 2.871e-07 -6.542 -6.542 -0.000 (0) +Nat 2.911e-07 + Nat+ 2.911e-07 2.911e-07 -6.536 -6.536 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.079 -70.042 0.036 30.40 -S(-2) 8.032e-09 - HS- 5.616e-09 3.697e-09 -8.251 -8.432 -0.182 21.14 - H2S 2.416e-09 2.627e-09 -8.617 -8.581 0.036 36.27 - S-2 2.279e-14 5.494e-15 -13.642 -14.260 -0.618 (0) - (H2S)2 3.344e-19 3.636e-19 -18.476 -18.439 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.077 -70.041 0.036 30.40 +S(-2) 7.965e-09 + HS- 5.569e-09 3.666e-09 -8.254 -8.436 -0.182 21.14 + H2S 2.396e-09 2.605e-09 -8.621 -8.584 0.036 36.27 + S-2 2.260e-14 5.449e-15 -13.646 -14.264 -0.618 (0) + (H2S)2 3.289e-19 3.576e-19 -18.483 -18.447 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -132638,7 +132610,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -132650,14 +132622,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.45 -11.25 -2.80 CH4 + CH4(g) -8.46 -11.26 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.07 -11.17 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.59 -15.52 -7.94 H2S + H2S(g) -7.59 -15.53 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -132688,7 +132660,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.300e-11 Surface + diffuse layer charge, eq + -9.298e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -132698,7 +132670,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -132709,12 +132681,12 @@ Su Ca 7.1884e-02 Cl 4.6628e-10 H 1.2949e-04 - Hto 3.1373e-08 + Hto 3.0878e-08 I 3.7296e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.8351e-08 + Nat 7.5840e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -132733,12 +132705,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.659e-07 3.132e-08 + Hto 2.617e-07 3.083e-08 I 3.165e-07 3.729e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.333e-07 1.571e-08 + Nat 1.291e-07 1.520e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -132756,7 +132728,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.792e-09 + Electrical balance (eq) = 3.759e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -132770,8 +132742,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.122e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.060e-11 - CH4 2.060e-11 2.240e-11 -10.686 -10.650 0.036 35.46 +C(-4) 2.063e-11 + CH4 2.063e-11 2.243e-11 -10.685 -10.649 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -132796,9 +132768,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.641e-09 -8.403 -8.249 0.155 (0) H(0) 1.749e-11 - H2 8.743e-12 9.505e-12 -11.058 -11.022 0.036 28.61 -Hto 2.659e-07 - Hto 2.659e-07 2.659e-07 -6.575 -6.575 0.000 (0) + H2 8.746e-12 9.509e-12 -11.058 -11.022 0.036 28.61 +Hto 2.617e-07 + Hto 2.617e-07 2.617e-07 -6.582 -6.582 0.000 (0) I 3.165e-07 I- 3.165e-07 3.165e-07 -6.500 -6.500 -0.000 (0) K 1.540e-03 @@ -132816,15 +132788,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.333e-07 - Nat+ 1.333e-07 1.333e-07 -6.875 -6.875 -0.000 (0) +Nat 1.291e-07 + Nat+ 1.291e-07 1.291e-07 -6.889 -6.889 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.381 -70.345 0.036 30.40 -S(-2) 3.228e-08 - HS- 2.258e-08 1.486e-08 -7.646 -7.828 -0.182 21.14 - H2S 9.708e-09 1.055e-08 -8.013 -7.977 0.036 36.27 - S-2 9.170e-14 2.210e-14 -13.038 -13.656 -0.618 (0) - (H2S)2 5.399e-18 5.870e-18 -17.268 -17.231 0.036 30.09 +S(-2) 3.234e-08 + HS- 2.261e-08 1.489e-08 -7.646 -7.827 -0.182 21.14 + H2S 9.723e-09 1.057e-08 -8.012 -7.976 0.036 36.27 + S-2 9.184e-14 2.214e-14 -13.037 -13.655 -0.618 (0) + (H2S)2 5.416e-18 5.888e-18 -17.266 -17.230 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -132863,7 +132835,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.45 -70.34 -2.89 O2 + O2(g) -67.45 -70.35 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.99 -0.10 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -132899,7 +132871,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -132910,12 +132882,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 1.3493e-08 + Hto 1.2924e-08 I 1.4338e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4746e-08 + Nat 2.2624e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -132934,12 +132906,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.143e-07 1.347e-08 + Hto 1.095e-07 1.290e-08 I 1.217e-07 1.434e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.211e-08 4.961e-09 + Nat 3.850e-08 4.535e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -132957,7 +132929,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.373e-10 + Electrical balance (eq) = -8.371e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -132971,8 +132943,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.644e-11 - CH4 2.644e-11 2.875e-11 -10.578 -10.541 0.036 35.46 +C(-4) 2.647e-11 + CH4 2.647e-11 2.878e-11 -10.577 -10.541 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -132996,10 +132968,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.861e-11 - H2 9.306e-12 1.012e-11 -11.031 -10.995 0.036 28.61 -Hto 1.143e-07 - Hto 1.143e-07 1.143e-07 -6.942 -6.942 0.000 (0) +H(0) 1.862e-11 + H2 9.308e-12 1.012e-11 -11.031 -10.995 0.036 28.61 +Hto 1.095e-07 + Hto 1.095e-07 1.095e-07 -6.960 -6.960 0.000 (0) I 1.217e-07 I- 1.217e-07 1.217e-07 -6.915 -6.915 -0.000 (0) K 1.540e-03 @@ -133017,15 +132989,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.211e-08 - Nat+ 4.211e-08 4.211e-08 -7.376 -7.376 -0.000 (0) +Nat 3.850e-08 + Nat+ 3.850e-08 3.850e-08 -7.415 -7.415 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.435 -70.399 0.036 30.40 -S(-2) 4.144e-08 - HS- 2.898e-08 1.908e-08 -7.538 -7.719 -0.182 21.14 - H2S 1.246e-08 1.354e-08 -7.905 -7.868 0.036 36.27 - S-2 1.177e-13 2.838e-14 -12.929 -13.547 -0.618 (0) - (H2S)2 8.891e-18 9.666e-18 -17.051 -17.015 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.436 -70.399 0.036 30.40 +S(-2) 4.147e-08 + HS- 2.901e-08 1.909e-08 -7.538 -7.719 -0.182 21.14 + H2S 1.247e-08 1.356e-08 -7.904 -7.868 0.036 36.27 + S-2 1.178e-13 2.840e-14 -12.929 -13.547 -0.618 (0) + (H2S)2 8.907e-18 9.683e-18 -17.050 -17.014 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -133090,7 +133062,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.506e-11 Surface + diffuse layer charge, eq + -9.507e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -133100,7 +133072,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -133111,12 +133083,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 4.6059e-09 + Hto 4.2735e-09 I 4.3137e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.7559e-09 + Nat 4.9473e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -133135,12 +133107,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.903e-08 4.598e-09 + Hto 3.622e-08 4.267e-09 I 3.661e-08 4.314e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.794e-09 1.154e-09 + Nat 8.418e-09 9.918e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -133172,8 +133144,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.863e-11 - CH4 2.863e-11 3.113e-11 -10.543 -10.507 0.036 35.46 +C(-4) 2.864e-11 + CH4 2.864e-11 3.114e-11 -10.543 -10.507 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -133198,9 +133170,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.899e-11 - H2 9.493e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 3.903e-08 - Hto 3.903e-08 3.903e-08 -7.409 -7.409 0.000 (0) + H2 9.494e-12 1.032e-11 -11.023 -10.986 0.036 28.61 +Hto 3.622e-08 + Hto 3.622e-08 3.622e-08 -7.441 -7.441 0.000 (0) I 3.661e-08 I- 3.661e-08 3.661e-08 -7.436 -7.436 -0.000 (0) K 1.540e-03 @@ -133218,15 +133190,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.794e-09 - Nat+ 9.794e-09 9.794e-09 -8.009 -8.009 -0.000 (0) +Nat 8.418e-09 + Nat+ 8.418e-09 8.418e-09 -8.075 -8.075 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.453 -70.416 0.036 30.40 -S(-2) 4.486e-08 - HS- 3.137e-08 2.065e-08 -7.503 -7.685 -0.182 21.14 - H2S 1.349e-08 1.466e-08 -7.870 -7.834 0.036 36.27 - S-2 1.275e-13 3.072e-14 -12.895 -13.513 -0.618 (0) - (H2S)2 1.042e-17 1.133e-17 -16.982 -16.946 0.036 30.09 +S(-2) 4.488e-08 + HS- 3.139e-08 2.066e-08 -7.503 -7.685 -0.182 21.14 + H2S 1.349e-08 1.467e-08 -7.870 -7.834 0.036 36.27 + S-2 1.275e-13 3.074e-14 -12.894 -13.512 -0.618 (0) + (H2S)2 1.043e-17 1.134e-17 -16.982 -16.945 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -133253,7 +133225,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.71 -10.51 -2.80 CH4 + CH4(g) -7.70 -10.51 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -133301,7 +133273,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -133312,12 +133284,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 1.2762e-09 - I 1.0429e-21 + Hto 1.1434e-09 + I 1.0427e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0386e-09 + Nat 8.3734e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -133336,12 +133308,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.082e-08 1.274e-09 + Hto 9.690e-09 1.142e-09 I 8.850e-09 1.043e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.767e-09 2.082e-10 + Nat 1.425e-09 1.679e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -133373,8 +133345,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.933e-11 - CH4 2.933e-11 3.189e-11 -10.533 -10.496 0.036 35.46 +C(-4) 2.934e-11 + CH4 2.934e-11 3.190e-11 -10.533 -10.496 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -133399,9 +133371,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.910e-11 - H2 9.551e-12 1.038e-11 -11.020 -10.984 0.036 28.61 -Hto 1.082e-08 - Hto 1.082e-08 1.082e-08 -7.966 -7.966 0.000 (0) + H2 9.552e-12 1.038e-11 -11.020 -10.984 0.036 28.61 +Hto 9.690e-09 + Hto 9.690e-09 9.690e-09 -8.014 -8.014 0.000 (0) I 8.850e-09 I- 8.850e-09 8.850e-09 -8.053 -8.053 -0.000 (0) K 1.540e-03 @@ -133419,15 +133391,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.767e-09 - Nat+ 1.767e-09 1.767e-09 -8.753 -8.753 -0.000 (0) +Nat 1.425e-09 + Nat+ 1.425e-09 1.425e-09 -8.846 -8.846 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.458 -70.422 0.036 30.40 -S(-2) 4.596e-08 - HS- 3.215e-08 2.116e-08 -7.493 -7.674 -0.182 21.14 - H2S 1.382e-08 1.502e-08 -7.860 -7.823 0.036 36.27 - S-2 1.306e-13 3.148e-14 -12.884 -13.502 -0.618 (0) - (H2S)2 1.094e-17 1.189e-17 -16.961 -16.925 0.036 30.09 +S(-2) 4.597e-08 + HS- 3.215e-08 2.117e-08 -7.493 -7.674 -0.182 21.14 + H2S 1.382e-08 1.503e-08 -7.859 -7.823 0.036 36.27 + S-2 1.306e-13 3.149e-14 -12.884 -13.502 -0.618 (0) + (H2S)2 1.094e-17 1.190e-17 -16.961 -16.925 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -133502,7 +133474,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -133513,12 +133485,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 2.9253e-10 + Hto 2.5257e-10 I 2.0703e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5059e-10 + Nat 1.1374e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -133537,12 +133509,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.479e-09 2.921e-10 + Hto 2.140e-09 2.522e-10 I 1.757e-09 2.070e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.563e-10 3.019e-11 + Nat 1.935e-10 2.280e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -133600,9 +133572,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.912e-11 - H2 9.560e-12 1.039e-11 -11.020 -10.983 0.036 28.61 -Hto 2.479e-09 - Hto 2.479e-09 2.479e-09 -8.606 -8.606 0.000 (0) + H2 9.561e-12 1.039e-11 -11.020 -10.983 0.036 28.61 +Hto 2.140e-09 + Hto 2.140e-09 2.140e-09 -8.669 -8.669 0.000 (0) I 1.757e-09 I- 1.757e-09 1.757e-09 -8.755 -8.755 -0.000 (0) K 1.540e-03 @@ -133620,15 +133592,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.563e-10 - Nat+ 2.563e-10 2.563e-10 -9.591 -9.591 -0.000 (0) +Nat 1.935e-10 + Nat+ 1.935e-10 1.935e-10 -9.713 -9.713 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.459 -70.422 0.036 30.40 -S(-2) 4.614e-08 - HS- 3.227e-08 2.125e-08 -7.491 -7.673 -0.182 21.14 - H2S 1.387e-08 1.508e-08 -7.858 -7.822 0.036 36.27 +S(-2) 4.615e-08 + HS- 3.228e-08 2.125e-08 -7.491 -7.673 -0.182 21.14 + H2S 1.387e-08 1.508e-08 -7.858 -7.821 0.036 36.27 S-2 1.311e-13 3.161e-14 -12.882 -13.500 -0.618 (0) - (H2S)2 1.102e-17 1.199e-17 -16.958 -16.921 0.036 30.09 + (H2S)2 1.103e-17 1.199e-17 -16.958 -16.921 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -133703,7 +133675,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -133714,12 +133686,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 5.6326e-11 + Hto 4.6800e-11 I 3.4347e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7989e-11 + Nat 1.2719e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -133738,12 +133710,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.773e-10 5.623e-11 + Hto 3.966e-10 4.672e-11 I 2.915e-10 3.434e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.061e-11 3.606e-12 + Nat 2.164e-11 2.550e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -133776,7 +133748,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.928e-11 - CH4 2.928e-11 3.183e-11 -10.533 -10.497 0.036 35.46 + CH4 2.928e-11 3.184e-11 -10.533 -10.497 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -133801,9 +133773,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.909e-11 - H2 9.546e-12 1.038e-11 -11.020 -10.984 0.036 28.61 -Hto 4.773e-10 - Hto 4.773e-10 4.773e-10 -9.321 -9.321 0.000 (0) + H2 9.547e-12 1.038e-11 -11.020 -10.984 0.036 28.61 +Hto 3.966e-10 + Hto 3.966e-10 3.966e-10 -9.402 -9.402 0.000 (0) I 2.915e-10 I- 2.915e-10 2.915e-10 -9.535 -9.535 -0.000 (0) K 1.540e-03 @@ -133821,14 +133793,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.061e-11 - Nat+ 3.061e-11 3.061e-11 -10.514 -10.514 -0.000 (0) +Nat 2.164e-11 + Nat+ 2.164e-11 2.164e-11 -10.665 -10.665 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.457 -70.421 0.036 30.40 -S(-2) 4.587e-08 - HS- 3.208e-08 2.112e-08 -7.494 -7.675 -0.182 21.14 - H2S 1.379e-08 1.499e-08 -7.860 -7.824 0.036 36.27 - S-2 1.303e-13 3.142e-14 -12.885 -13.503 -0.618 (0) +S(-2) 4.588e-08 + HS- 3.209e-08 2.112e-08 -7.494 -7.675 -0.182 21.14 + H2S 1.379e-08 1.500e-08 -7.860 -7.824 0.036 36.27 + S-2 1.304e-13 3.143e-14 -12.885 -13.503 -0.618 (0) (H2S)2 1.090e-17 1.185e-17 -16.963 -16.926 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -133894,7 +133866,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.467e-11 Surface + diffuse layer charge, eq + -9.470e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -133904,7 +133876,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -133915,12 +133887,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 9.2234e-12 - I 4.8282e-24 + Hto 7.3674e-12 + I 4.8274e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8026e-12 + Nat 1.1926e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -133939,12 +133911,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.816e-11 9.209e-12 + Hto 6.244e-11 7.356e-12 I 4.098e-11 4.828e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.067e-12 3.614e-13 + Nat 2.029e-12 2.391e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -133962,8 +133934,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.224e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.234e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -134003,8 +133975,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.904e-11 H2 9.521e-12 1.035e-11 -11.021 -10.985 0.036 28.61 -Hto 7.816e-11 - Hto 7.816e-11 7.816e-11 -10.107 -10.107 0.000 (0) +Hto 6.244e-11 + Hto 6.244e-11 6.244e-11 -10.205 -10.205 0.000 (0) I 4.098e-11 I- 4.098e-11 4.098e-11 -10.387 -10.387 -0.000 (0) K 1.540e-03 @@ -134022,14 +133994,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.067e-12 - Nat+ 3.067e-12 3.067e-12 -11.513 -11.513 -0.000 (0) +Nat 2.029e-12 + Nat+ 2.029e-12 2.029e-12 -11.693 -11.693 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.455 -70.419 0.036 30.40 S(-2) 4.538e-08 HS- 3.174e-08 2.089e-08 -7.498 -7.680 -0.182 21.14 H2S 1.364e-08 1.483e-08 -7.865 -7.829 0.036 36.27 - S-2 1.289e-13 3.108e-14 -12.890 -13.508 -0.618 (0) + S-2 1.289e-13 3.108e-14 -12.890 -13.507 -0.618 (0) (H2S)2 1.066e-17 1.159e-17 -16.972 -16.936 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -134095,7 +134067,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.458e-11 Surface + diffuse layer charge, eq + -9.459e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -134105,7 +134077,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -134116,12 +134088,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.2971e-12 - I 5.8121e-25 + Hto 9.9531e-13 + I 5.8101e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5359e-13 + Nat 9.5050e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -134140,12 +134112,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.099e-11 1.295e-12 + Hto 8.435e-12 9.937e-13 I 4.932e-12 5.811e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.614e-13 3.079e-14 + Nat 1.617e-13 1.905e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -134163,7 +134135,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.715e-10 + Electrical balance (eq) = -3.563e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -134204,8 +134176,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.900e-11 H2 9.502e-12 1.033e-11 -11.022 -10.986 0.036 28.61 -Hto 1.099e-11 - Hto 1.099e-11 1.099e-11 -10.959 -10.959 0.000 (0) +Hto 8.435e-12 + Hto 8.435e-12 8.435e-12 -11.074 -11.074 0.000 (0) I 4.932e-12 I- 4.932e-12 4.932e-12 -11.307 -11.307 -0.000 (0) K 1.540e-03 @@ -134223,8 +134195,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.614e-13 - Nat+ 2.614e-13 2.614e-13 -12.583 -12.583 -0.000 (0) +Nat 1.617e-13 + Nat+ 1.617e-13 1.617e-13 -12.791 -12.791 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.453 -70.417 0.036 30.40 S(-2) 4.502e-08 @@ -134306,7 +134278,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -134317,12 +134289,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.5786e-13 - I 6.0420e-26 + Hto 1.1630e-13 + I 6.0395e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1242e-14 + Nat 6.5062e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -134341,12 +134313,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.338e-12 1.576e-13 + Hto 9.856e-13 1.161e-13 I 5.127e-13 6.040e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.913e-14 2.254e-15 + Nat 1.107e-14 1.304e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -134364,7 +134336,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.275e-10 + Electrical balance (eq) = -7.299e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -134405,8 +134377,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.899e-11 H2 9.495e-12 1.032e-11 -11.023 -10.986 0.036 28.61 -Hto 1.338e-12 - Hto 1.338e-12 1.338e-12 -11.874 -11.874 0.000 (0) +Hto 9.856e-13 + Hto 9.856e-13 9.856e-13 -12.006 -12.006 0.000 (0) I 5.127e-13 I- 5.127e-13 5.127e-13 -12.290 -12.290 -0.000 (0) K 1.540e-03 @@ -134424,15 +134396,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.913e-14 - Nat+ 1.913e-14 1.913e-14 -13.718 -13.718 -0.000 (0) +Nat 1.107e-14 + Nat+ 1.107e-14 1.107e-14 -13.956 -13.956 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.453 -70.416 0.036 30.40 -S(-2) 4.490e-08 +S(-2) 4.489e-08 HS- 3.140e-08 2.067e-08 -7.503 -7.685 -0.182 21.14 H2S 1.350e-08 1.467e-08 -7.870 -7.833 0.036 36.27 S-2 1.276e-13 3.075e-14 -12.894 -13.512 -0.618 (0) - (H2S)2 1.044e-17 1.135e-17 -16.981 -16.945 0.036 30.09 + (H2S)2 1.044e-17 1.135e-17 -16.982 -16.945 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -134507,7 +134479,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -134518,12 +134490,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.6725e-14 - I 5.4573e-27 + Hto 1.1826e-14 + I 5.4566e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.1229e-16 + Nat 3.8546e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -134542,12 +134514,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.417e-13 1.670e-14 + Hto 1.002e-13 1.181e-14 I 4.631e-14 5.456e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.212e-15 1.428e-16 + Nat 6.559e-16 7.727e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -134565,7 +134537,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.418e-10 + Electrical balance (eq) = -7.419e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -134580,7 +134552,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.869e-11 - CH4 2.869e-11 3.120e-11 -10.542 -10.506 0.036 35.46 + CH4 2.869e-11 3.119e-11 -10.542 -10.506 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -134606,8 +134578,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.900e-11 H2 9.498e-12 1.033e-11 -11.022 -10.986 0.036 28.61 -Hto 1.417e-13 - Hto 1.417e-13 1.417e-13 -12.849 -12.849 0.000 (0) +Hto 1.002e-13 + Hto 1.002e-13 1.002e-13 -12.999 -12.999 0.000 (0) I 4.631e-14 I- 4.631e-14 4.631e-14 -13.334 -13.334 -0.000 (0) K 1.540e-03 @@ -134625,15 +134597,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.212e-15 - Nat+ 1.212e-15 1.212e-15 -14.916 -14.916 -0.000 (0) +Nat 6.559e-16 + Nat+ 6.559e-16 6.559e-16 -15.183 -15.183 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.453 -70.417 0.036 30.40 S(-2) 4.496e-08 HS- 3.144e-08 2.070e-08 -7.502 -7.684 -0.182 21.14 - H2S 1.352e-08 1.469e-08 -7.869 -7.833 0.036 36.27 + H2S 1.351e-08 1.469e-08 -7.869 -7.833 0.036 36.27 S-2 1.277e-13 3.079e-14 -12.894 -13.512 -0.618 (0) - (H2S)2 1.047e-17 1.138e-17 -16.980 -16.944 0.036 30.09 + (H2S)2 1.046e-17 1.138e-17 -16.980 -16.944 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -134708,7 +134680,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -134719,12 +134691,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 1.5497e-15 + Hto 1.0513e-15 I 4.3047e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9294e-17 + Nat 1.9881e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -134743,12 +134715,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.313e-14 1.547e-15 + Hto 8.910e-15 1.050e-15 I 3.654e-15 4.304e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.686e-17 7.877e-18 + Nat 3.383e-17 3.985e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -134766,7 +134738,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 7.499e-10 + Electrical balance (eq) = 5.825e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -134780,8 +134752,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.891e-11 - CH4 2.891e-11 3.143e-11 -10.539 -10.503 0.036 35.46 +C(-4) 2.890e-11 + CH4 2.890e-11 3.143e-11 -10.539 -10.503 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -134807,8 +134779,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.903e-11 H2 9.516e-12 1.035e-11 -11.022 -10.985 0.036 28.61 -Hto 1.313e-14 - Hto 1.313e-14 1.313e-14 -13.882 -13.882 0.000 (0) +Hto 8.910e-15 + Hto 8.910e-15 8.910e-15 -14.050 -14.050 0.000 (0) I 3.654e-15 I- 3.654e-15 3.654e-15 -14.437 -14.437 -0.000 (0) K 1.540e-03 @@ -134826,15 +134798,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.686e-17 - Nat+ 6.686e-17 6.686e-17 -16.175 -16.175 -0.000 (0) +Nat 3.383e-17 + Nat+ 3.383e-17 3.383e-17 -16.471 -16.471 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.455 -70.418 0.036 30.40 -S(-2) 4.530e-08 +S(-2) 4.529e-08 HS- 3.168e-08 2.085e-08 -7.499 -7.681 -0.182 21.14 H2S 1.362e-08 1.480e-08 -7.866 -7.830 0.036 36.27 S-2 1.287e-13 3.102e-14 -12.890 -13.508 -0.618 (0) - (H2S)2 1.062e-17 1.155e-17 -16.974 -16.937 0.036 30.09 + (H2S)2 1.062e-17 1.155e-17 -16.974 -16.938 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -134899,7 +134871,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.472e-11 Surface + diffuse layer charge, eq + -9.471e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -134909,7 +134881,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -134920,12 +134892,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 1.2600e-16 - I 2.9761e-29 + Hto 8.1986e-17 + I 2.9767e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8952e-18 + Nat 8.9646e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -134944,12 +134916,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.068e-15 1.258e-16 + Hto 6.948e-16 8.185e-17 I 2.526e-16 2.976e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.225e-18 3.799e-19 + Nat 1.525e-18 1.797e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -134982,7 +134954,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.929e-11 - CH4 2.929e-11 3.184e-11 -10.533 -10.497 0.036 35.46 + CH4 2.929e-11 3.185e-11 -10.533 -10.497 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -135008,8 +134980,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.910e-11 H2 9.548e-12 1.038e-11 -11.020 -10.984 0.036 28.61 -Hto 1.068e-15 - Hto 1.068e-15 1.068e-15 -14.972 -14.972 0.000 (0) +Hto 6.948e-16 + Hto 6.948e-16 6.948e-16 -15.158 -15.158 0.000 (0) I 2.526e-16 I- 2.526e-16 2.526e-16 -15.598 -15.598 -0.000 (0) K 1.540e-03 @@ -135027,14 +134999,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.225e-18 - Nat+ 3.225e-18 3.225e-18 -17.491 -17.491 -0.000 (0) +Nat 1.525e-18 + Nat+ 1.525e-18 1.525e-18 -17.817 -17.817 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.458 -70.421 0.036 30.40 -S(-2) 4.589e-08 - HS- 3.210e-08 2.113e-08 -7.494 -7.675 -0.182 21.14 +S(-2) 4.590e-08 + HS- 3.210e-08 2.113e-08 -7.493 -7.675 -0.182 21.14 H2S 1.380e-08 1.500e-08 -7.860 -7.824 0.036 36.27 - S-2 1.304e-13 3.143e-14 -12.885 -13.503 -0.618 (0) + S-2 1.304e-13 3.144e-14 -12.885 -13.503 -0.618 (0) (H2S)2 1.091e-17 1.186e-17 -16.962 -16.926 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -135110,7 +135082,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -135121,12 +135093,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 9.0075e-18 + Hto 5.6208e-18 I 1.8081e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.0149e-20 + Nat 3.5441e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -135145,12 +135117,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.634e-17 8.993e-18 + Hto 4.763e-17 5.612e-18 I 1.535e-17 1.808e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.364e-19 1.607e-20 + Nat 6.031e-20 7.105e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -135182,8 +135154,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.952e-11 - CH4 2.952e-11 3.210e-11 -10.530 -10.494 0.036 35.46 +C(-4) 2.953e-11 + CH4 2.953e-11 3.210e-11 -10.530 -10.493 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -135209,8 +135181,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.913e-11 H2 9.567e-12 1.040e-11 -11.019 -10.983 0.036 28.61 -Hto 7.634e-17 - Hto 7.634e-17 7.634e-17 -16.117 -16.117 0.000 (0) +Hto 4.763e-17 + Hto 4.763e-17 4.763e-17 -16.322 -16.322 0.000 (0) I 1.535e-17 I- 1.535e-17 1.535e-17 -16.814 -16.814 -0.000 (0) K 1.540e-03 @@ -135228,12 +135200,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.364e-19 - Nat+ 1.364e-19 1.364e-19 -18.865 -18.865 -0.000 (0) +Nat 6.031e-20 + Nat+ 6.031e-20 6.031e-20 -19.220 -19.220 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.459 -70.423 0.036 30.40 -S(-2) 4.626e-08 - HS- 3.235e-08 2.130e-08 -7.490 -7.672 -0.182 21.14 +S(-2) 4.627e-08 + HS- 3.236e-08 2.130e-08 -7.490 -7.672 -0.182 21.14 H2S 1.391e-08 1.512e-08 -7.857 -7.820 0.036 36.27 S-2 1.315e-13 3.169e-14 -12.881 -13.499 -0.618 (0) (H2S)2 1.108e-17 1.205e-17 -16.955 -16.919 0.036 30.09 @@ -135311,7 +135283,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -135322,12 +135294,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 5.6690e-19 + Hto 3.3918e-19 I 9.6609e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9768e-21 + Nat 1.2304e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -135346,12 +135318,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.804e-18 5.660e-19 + Hto 2.874e-18 3.386e-19 I 8.200e-19 9.661e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.065e-21 5.968e-22 + Nat 2.094e-21 2.467e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -135384,7 +135356,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 2.960e-11 - CH4 2.960e-11 3.218e-11 -10.529 -10.492 0.036 35.46 + CH4 2.960e-11 3.219e-11 -10.529 -10.492 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -135410,8 +135382,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.915e-11 H2 9.573e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 4.804e-18 - Hto 4.804e-18 4.804e-18 -17.318 -17.318 0.000 (0) +Hto 2.874e-18 + Hto 2.874e-18 2.874e-18 -17.541 -17.541 0.000 (0) I 8.200e-19 I- 8.200e-19 8.200e-19 -18.086 -18.086 -0.000 (0) K 1.540e-03 @@ -135429,11 +135401,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.065e-21 - Nat+ 5.065e-21 5.065e-21 -20.295 -20.295 -0.000 (0) +Nat 2.094e-21 + Nat+ 2.094e-21 2.094e-21 -20.679 -20.679 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.460 -70.424 0.036 30.40 -S(-2) 4.638e-08 +S(-2) 4.639e-08 HS- 3.244e-08 2.136e-08 -7.489 -7.670 -0.182 21.14 H2S 1.394e-08 1.516e-08 -7.856 -7.819 0.036 36.27 S-2 1.318e-13 3.177e-14 -12.880 -13.498 -0.618 (0) @@ -135512,7 +135484,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -135523,12 +135495,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 3.1414e-20 - I 4.5432e-33 + Hto 1.8018e-20 + I 4.5425e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.7064e-23 + Nat 3.7430e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -135547,12 +135519,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.662e-19 3.136e-20 + Hto 1.527e-19 1.799e-20 I 3.856e-20 4.542e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.652e-22 1.946e-23 + Nat 6.369e-23 7.504e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -135611,8 +135583,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.915e-11 H2 9.574e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 2.662e-19 - Hto 2.662e-19 2.662e-19 -18.575 -18.575 0.000 (0) +Hto 1.527e-19 + Hto 1.527e-19 1.527e-19 -18.816 -18.816 0.000 (0) I 3.856e-20 I- 3.856e-20 3.856e-20 -19.414 -19.414 -0.000 (0) K 1.540e-03 @@ -135630,8 +135602,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.652e-22 - Nat+ 1.652e-22 1.652e-22 -21.782 -21.782 -0.000 (0) +Nat 6.369e-23 + Nat+ 6.369e-23 6.369e-23 -22.196 -22.196 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.460 -70.424 0.036 30.40 S(-2) 4.641e-08 @@ -135713,7 +135685,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -135724,12 +135696,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 1.5314e-21 - I 1.8775e-34 + Hto 8.4192e-22 + I 1.8777e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6058e-24 + Nat 8.4506e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -135748,12 +135720,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.298e-20 1.529e-21 + Hto 7.135e-21 8.406e-22 I 1.593e-21 1.877e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.434e-24 5.224e-25 + Nat 1.438e-24 1.694e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -135812,8 +135784,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.915e-11 H2 9.574e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 1.298e-20 - Hto 1.298e-20 1.298e-20 -19.887 -19.887 0.000 (0) +Hto 7.135e-21 + Hto 7.135e-21 7.135e-21 -20.147 -20.147 0.000 (0) I 1.593e-21 I- 1.593e-21 1.593e-21 -20.798 -20.798 -0.000 (0) K 1.540e-03 @@ -135831,8 +135803,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.434e-24 - Nat+ 4.434e-24 4.434e-24 -23.353 -23.353 -0.000 (0) +Nat 1.438e-24 + Nat+ 1.438e-24 1.438e-24 -23.842 -23.842 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.460 -70.424 0.036 30.40 S(-2) 4.642e-08 @@ -135904,7 +135876,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -9.483e-11 Surface + diffuse layer charge, eq + -9.482e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -135914,7 +135886,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -135925,7 +135897,7 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 6.5504e-23 + Hto 3.4485e-23 I 6.7576e-36 K 8.9156e-04 Mg 4.6365e-02 @@ -135948,7 +135920,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.551e-22 6.540e-23 + Hto 2.922e-22 3.443e-23 I 5.735e-23 6.757e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -136011,8 +135983,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.915e-11 H2 9.575e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 5.551e-22 - Hto 5.551e-22 5.551e-22 -21.256 -21.256 0.000 (0) +Hto 2.922e-22 + Hto 2.922e-22 2.922e-22 -21.534 -21.534 0.000 (0) I 5.735e-23 I- 5.735e-23 5.735e-23 -22.241 -22.241 -0.000 (0) K 1.540e-03 @@ -136111,7 +136083,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -136122,8 +136094,8 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 2.3789e-24 - I 1.3458e-37 + Hto 1.1814e-24 + I 1.3454e-37 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -136145,7 +136117,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.016e-23 2.375e-24 + Hto 1.001e-23 1.180e-24 I 1.142e-24 1.346e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -136208,8 +136180,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.915e-11 H2 9.575e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 2.016e-23 - Hto 2.016e-23 2.016e-23 -22.696 -22.696 0.000 (0) +Hto 1.001e-23 + Hto 1.001e-23 1.001e-23 -22.999 -22.999 0.000 (0) I 1.142e-24 I- 1.142e-24 1.142e-24 -23.942 -23.942 -0.000 (0) K 1.540e-03 @@ -136308,7 +136280,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -136786,30 +136758,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.651e-07 2.826e-07 + Hto 5.705e-07 2.853e-07 I 7.348e-07 3.674e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.267e-07 1.633e-07 + Nat 3.346e-07 1.673e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.010 Adjusted to redox equilibrium + pe = -3.009 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.476e-13 + Electrical balance (eq) = -2.949e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -136823,8 +136795,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.460e-12 - CH4 1.460e-12 1.587e-12 -11.836 -11.799 0.036 35.46 +C(-4) 1.429e-12 + CH4 1.429e-12 1.554e-12 -11.845 -11.809 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -136834,7 +136806,7 @@ C(4) 2.744e-03 CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.378e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 + CO3-2 3.378e-06 8.599e-07 -5.471 -6.066 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.529e-08 7.098e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.893 -8.857 0.036 68.87 @@ -136848,10 +136820,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.020e-12 - H2 4.510e-12 4.903e-12 -11.346 -11.310 0.036 28.61 -Hto 5.651e-07 - Hto 5.651e-07 5.651e-07 -6.248 -6.248 0.000 (0) +H(0) 8.972e-12 + H2 4.486e-12 4.878e-12 -11.348 -11.312 0.036 28.61 +Hto 5.705e-07 + Hto 5.705e-07 5.705e-07 -6.244 -6.244 0.000 (0) I 7.348e-07 I- 7.348e-07 7.348e-07 -6.134 -6.134 -0.000 (0) K 1.540e-03 @@ -136869,15 +136841,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.267e-07 - Nat+ 3.267e-07 3.267e-07 -6.486 -6.486 -0.000 (0) +Nat 3.346e-07 + Nat+ 3.346e-07 3.346e-07 -6.475 -6.475 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.806 -69.770 0.036 30.40 -S(-2) 2.288e-09 - HS- 1.600e-09 1.053e-09 -8.796 -8.977 -0.182 21.14 - H2S 6.884e-10 7.485e-10 -9.162 -9.126 0.036 36.27 - S-2 6.493e-15 1.565e-15 -14.188 -14.805 -0.618 (0) - (H2S)2 2.715e-20 2.952e-20 -19.566 -19.530 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.802 -69.765 0.036 30.40 +S(-2) 2.240e-09 + HS- 1.566e-09 1.031e-09 -8.805 -8.987 -0.182 21.14 + H2S 6.740e-10 7.328e-10 -9.171 -9.135 0.036 36.27 + S-2 6.357e-15 1.532e-15 -14.197 -14.815 -0.618 (0) + (H2S)2 2.603e-20 2.830e-20 -19.585 -19.548 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -136904,21 +136876,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -9.00 -11.80 -2.80 CH4 + CH4(g) -9.01 -11.81 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.21 -11.31 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.13 -16.07 -7.94 H2S + H2S(g) -8.14 -16.08 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.88 -69.77 -2.89 O2 + O2(g) -66.87 -69.77 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.85 -0.97 4.88 S + Sulfur -5.86 -0.97 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -136942,7 +136914,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.402e-14 Surface + diffuse layer charge, eq + -4.624e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -136952,7 +136924,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -136961,14 +136933,14 @@ Su Element Moles C 1.6145e-04 Ca 7.1884e-02 - Cl 4.6656e-10 + Cl 4.6657e-10 H 1.2947e-04 - Hto 5.6357e-08 + Hto 5.6596e-08 I 7.3692e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6745e-07 + Nat 1.6987e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -136987,14 +136959,14 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.776e-07 5.627e-08 + Hto 4.796e-07 5.650e-08 I 6.254e-07 7.368e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.849e-07 3.357e-08 + Nat 2.891e-07 3.405e-08 S 1.260e-02 1.484e-03 - Sr 5.000e-04 5.891e-05 + Sr 5.000e-04 5.890e-05 ----------------------------Description of solution---------------------------- @@ -137003,14 +136975,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.681e-09 + Electrical balance (eq) = 1.672e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -137024,8 +136996,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.377e-12 - CH4 5.377e-12 5.846e-12 -11.269 -11.233 0.036 35.46 +C(-4) 5.333e-12 + CH4 5.333e-12 5.798e-12 -11.273 -11.237 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -137049,10 +137021,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.250e-11 - H2 6.248e-12 6.793e-12 -11.204 -11.168 0.036 28.61 -Hto 4.776e-07 - Hto 4.776e-07 4.776e-07 -6.321 -6.321 0.000 (0) +H(0) 1.247e-11 + H2 6.235e-12 6.779e-12 -11.205 -11.169 0.036 28.61 +Hto 4.796e-07 + Hto 4.796e-07 4.796e-07 -6.319 -6.319 0.000 (0) I 6.254e-07 I- 6.254e-07 6.254e-07 -6.204 -6.204 -0.000 (0) K 1.540e-03 @@ -137070,15 +137042,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.849e-07 - Nat+ 2.849e-07 2.849e-07 -6.545 -6.545 -0.000 (0) +Nat 2.891e-07 + Nat+ 2.891e-07 2.891e-07 -6.539 -6.539 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.089 -70.053 0.036 30.40 -S(-2) 8.429e-09 - HS- 5.893e-09 3.880e-09 -8.230 -8.411 -0.182 21.14 - H2S 2.535e-09 2.757e-09 -8.596 -8.560 0.036 36.27 - S-2 2.392e-14 5.766e-15 -13.621 -14.239 -0.618 (0) - (H2S)2 3.683e-19 4.004e-19 -18.434 -18.397 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.087 -70.051 0.036 30.40 +S(-2) 8.360e-09 + HS- 5.845e-09 3.848e-09 -8.233 -8.415 -0.182 21.14 + H2S 2.515e-09 2.734e-09 -8.599 -8.563 0.036 36.27 + S-2 2.373e-14 5.719e-15 -13.625 -14.243 -0.618 (0) + (H2S)2 3.623e-19 3.939e-19 -18.441 -18.405 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -137105,7 +137077,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.43 -11.23 -2.80 CH4 + CH4(g) -8.43 -11.24 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -137119,7 +137091,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.16 -70.05 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.42 -0.54 4.88 S + Sulfur -5.43 -0.54 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -137143,7 +137115,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.317e-11 Surface + diffuse layer charge, eq + -9.316e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -137153,7 +137125,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -137164,12 +137136,12 @@ Su Ca 7.1884e-02 Cl 4.6627e-10 H 1.2949e-04 - Hto 3.1762e-08 + Hto 3.1287e-08 I 3.7911e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.9544e-08 + Nat 7.7120e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -137188,12 +137160,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.692e-07 3.171e-08 + Hto 2.651e-07 3.124e-08 I 3.218e-07 3.791e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.354e-07 1.595e-08 + Nat 1.312e-07 1.546e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -137211,7 +137183,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.699e-09 + Electrical balance (eq) = 3.666e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -137225,8 +137197,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.124e-11 - CH4 2.124e-11 2.309e-11 -10.673 -10.637 0.036 35.46 +C(-4) 2.127e-11 + CH4 2.127e-11 2.313e-11 -10.672 -10.636 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -137250,10 +137222,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.762e-11 - H2 8.810e-12 9.578e-12 -11.055 -11.019 0.036 28.61 -Hto 2.692e-07 - Hto 2.692e-07 2.692e-07 -6.570 -6.570 0.000 (0) +H(0) 1.763e-11 + H2 8.814e-12 9.582e-12 -11.055 -11.019 0.036 28.61 +Hto 2.651e-07 + Hto 2.651e-07 2.651e-07 -6.577 -6.577 0.000 (0) I 3.218e-07 I- 3.218e-07 3.218e-07 -6.492 -6.492 -0.000 (0) K 1.540e-03 @@ -137271,15 +137243,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.354e-07 - Nat+ 1.354e-07 1.354e-07 -6.869 -6.869 -0.000 (0) +Nat 1.312e-07 + Nat+ 1.312e-07 1.312e-07 -6.882 -6.882 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.388 -70.351 0.036 30.40 -S(-2) 3.328e-08 - HS- 2.328e-08 1.532e-08 -7.633 -7.815 -0.182 21.14 - H2S 1.001e-08 1.088e-08 -8.000 -7.963 0.036 36.27 - S-2 9.454e-14 2.279e-14 -13.024 -13.642 -0.618 (0) - (H2S)2 5.738e-18 6.238e-18 -17.241 -17.205 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.388 -70.352 0.036 30.40 +S(-2) 3.334e-08 + HS- 2.332e-08 1.535e-08 -7.632 -7.814 -0.182 21.14 + H2S 1.002e-08 1.090e-08 -7.999 -7.963 0.036 36.27 + S-2 9.470e-14 2.283e-14 -13.024 -13.642 -0.618 (0) + (H2S)2 5.757e-18 6.260e-18 -17.240 -17.203 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -137313,7 +137285,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.92 -11.02 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.97 -14.91 -7.94 H2S + H2S(g) -6.97 -14.90 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -137354,7 +137326,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -137365,12 +137337,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 1.3972e-08 + Hto 1.3402e-08 I 1.4932e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5869e-08 + Nat 2.3706e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -137389,12 +137361,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.184e-07 1.395e-08 + Hto 1.136e-07 1.338e-08 I 1.267e-07 1.493e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.402e-08 5.186e-09 + Nat 4.034e-08 4.752e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -137412,7 +137384,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.321e-10 + Electrical balance (eq) = -9.319e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -137426,8 +137398,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.730e-11 - CH4 2.730e-11 2.968e-11 -10.564 -10.527 0.036 35.46 +C(-4) 2.733e-11 + CH4 2.733e-11 2.971e-11 -10.563 -10.527 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -137451,10 +137423,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.876e-11 - H2 9.381e-12 1.020e-11 -11.028 -10.991 0.036 28.61 -Hto 1.184e-07 - Hto 1.184e-07 1.184e-07 -6.927 -6.927 0.000 (0) +H(0) 1.877e-11 + H2 9.383e-12 1.020e-11 -11.028 -10.991 0.036 28.61 +Hto 1.136e-07 + Hto 1.136e-07 1.136e-07 -6.945 -6.945 0.000 (0) I 1.267e-07 I- 1.267e-07 1.267e-07 -6.897 -6.897 -0.000 (0) K 1.540e-03 @@ -137472,15 +137444,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.402e-08 - Nat+ 4.402e-08 4.402e-08 -7.356 -7.356 -0.000 (0) +Nat 4.034e-08 + Nat+ 4.034e-08 4.034e-08 -7.394 -7.394 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.442 -70.406 0.036 30.40 -S(-2) 4.278e-08 - HS- 2.992e-08 1.970e-08 -7.524 -7.706 -0.182 21.14 - H2S 1.286e-08 1.398e-08 -7.891 -7.854 0.036 36.27 - S-2 1.215e-13 2.930e-14 -12.915 -13.533 -0.618 (0) - (H2S)2 9.477e-18 1.030e-17 -17.023 -16.987 0.036 30.09 +S(-2) 4.282e-08 + HS- 2.995e-08 1.972e-08 -7.524 -7.705 -0.182 21.14 + H2S 1.287e-08 1.400e-08 -7.890 -7.854 0.036 36.27 + S-2 1.217e-13 2.933e-14 -12.915 -13.533 -0.618 (0) + (H2S)2 9.495e-18 1.032e-17 -17.022 -16.986 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -137555,7 +137527,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -137566,12 +137538,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 4.9021e-09 - I 4.6231e-21 + Hto 4.5567e-09 + I 4.6239e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2189e-09 + Nat 5.3605e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -137590,12 +137562,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.154e-08 4.894e-09 + Hto 3.862e-08 4.549e-09 I 3.924e-08 4.623e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.058e-08 1.247e-09 + Nat 9.122e-09 1.075e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -137613,7 +137585,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.351e-10 + Electrical balance (eq) = -9.350e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -137627,8 +137599,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.958e-11 - CH4 2.958e-11 3.216e-11 -10.529 -10.493 0.036 35.46 +C(-4) 2.960e-11 + CH4 2.960e-11 3.218e-11 -10.529 -10.492 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -137652,10 +137624,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.914e-11 - H2 9.571e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 4.154e-08 - Hto 4.154e-08 4.154e-08 -7.381 -7.381 0.000 (0) +H(0) 1.915e-11 + H2 9.573e-12 1.041e-11 -11.019 -10.983 0.036 28.61 +Hto 3.862e-08 + Hto 3.862e-08 3.862e-08 -7.413 -7.413 0.000 (0) I 3.924e-08 I- 3.924e-08 3.924e-08 -7.406 -7.406 -0.000 (0) K 1.540e-03 @@ -137673,15 +137645,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.058e-08 - Nat+ 1.058e-08 1.058e-08 -7.975 -7.975 -0.000 (0) +Nat 9.122e-09 + Nat+ 9.122e-09 9.122e-09 -8.040 -8.040 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.460 -70.423 0.036 30.40 -S(-2) 4.636e-08 - HS- 3.242e-08 2.134e-08 -7.489 -7.671 -0.182 21.14 - H2S 1.393e-08 1.515e-08 -7.856 -7.820 0.036 36.27 - S-2 1.317e-13 3.175e-14 -12.880 -13.498 -0.618 (0) - (H2S)2 1.112e-17 1.210e-17 -16.954 -16.917 0.036 30.09 +S(-2) 4.638e-08 + HS- 3.244e-08 2.135e-08 -7.489 -7.671 -0.182 21.14 + H2S 1.394e-08 1.516e-08 -7.856 -7.819 0.036 36.27 + S-2 1.318e-13 3.177e-14 -12.880 -13.498 -0.618 (0) + (H2S)2 1.114e-17 1.211e-17 -16.953 -16.917 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -137715,7 +137687,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.88 -10.98 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.83 -14.76 -7.94 H2S + H2S(g) -6.82 -14.76 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -137756,7 +137728,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -137767,12 +137739,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 1.4013e-09 - I 1.1543e-21 + Hto 1.2583e-09 + I 1.1541e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1628e-09 + Nat 9.4048e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -137791,12 +137763,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.188e-08 1.399e-09 + Hto 1.066e-08 1.256e-09 I 9.797e-09 1.154e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.979e-09 2.331e-10 + Nat 1.600e-09 1.885e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -137828,8 +137800,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.033e-11 - CH4 3.033e-11 3.297e-11 -10.518 -10.482 0.036 35.46 +C(-4) 3.034e-11 + CH4 3.034e-11 3.298e-11 -10.518 -10.482 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -137854,9 +137826,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.926e-11 - H2 9.631e-12 1.047e-11 -11.016 -10.980 0.036 28.61 -Hto 1.188e-08 - Hto 1.188e-08 1.188e-08 -7.925 -7.925 0.000 (0) + H2 9.632e-12 1.047e-11 -11.016 -10.980 0.036 28.61 +Hto 1.066e-08 + Hto 1.066e-08 1.066e-08 -7.972 -7.972 0.000 (0) I 9.797e-09 I- 9.797e-09 9.797e-09 -8.009 -8.009 -0.000 (0) K 1.540e-03 @@ -137874,15 +137846,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.979e-09 - Nat+ 1.979e-09 1.979e-09 -8.704 -8.704 -0.000 (0) +Nat 1.600e-09 + Nat+ 1.600e-09 1.600e-09 -8.796 -8.796 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.465 -70.429 0.036 30.40 -S(-2) 4.752e-08 - HS- 3.324e-08 2.188e-08 -7.478 -7.660 -0.182 21.14 - H2S 1.428e-08 1.553e-08 -7.845 -7.809 0.036 36.27 - S-2 1.350e-13 3.255e-14 -12.870 -13.487 -0.618 (0) - (H2S)2 1.169e-17 1.271e-17 -16.932 -16.896 0.036 30.09 +S(-2) 4.753e-08 + HS- 3.324e-08 2.189e-08 -7.478 -7.660 -0.182 21.14 + H2S 1.429e-08 1.554e-08 -7.845 -7.809 0.036 36.27 + S-2 1.351e-13 3.256e-14 -12.869 -13.487 -0.618 (0) + (H2S)2 1.170e-17 1.272e-17 -16.932 -16.896 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -137957,7 +137929,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -137968,12 +137940,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 3.3237e-10 - I 2.3735e-22 + Hto 2.8771e-10 + I 2.3740e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7510e-10 + Nat 1.3270e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -137992,12 +137964,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.817e-09 3.318e-10 + Hto 2.438e-09 2.872e-10 I 2.015e-09 2.374e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.980e-10 3.510e-11 + Nat 2.258e-10 2.660e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -138030,7 +138002,7 @@ Su H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.046e-11 - CH4 3.046e-11 3.311e-11 -10.516 -10.480 0.036 35.46 + CH4 3.046e-11 3.312e-11 -10.516 -10.480 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -138055,9 +138027,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.928e-11 - H2 9.641e-12 1.048e-11 -11.016 -10.980 0.036 28.61 -Hto 2.817e-09 - Hto 2.817e-09 2.817e-09 -8.550 -8.550 0.000 (0) + H2 9.642e-12 1.048e-11 -11.016 -10.980 0.036 28.61 +Hto 2.438e-09 + Hto 2.438e-09 2.438e-09 -8.613 -8.613 0.000 (0) I 2.015e-09 I- 2.015e-09 2.015e-09 -8.696 -8.696 -0.000 (0) K 1.540e-03 @@ -138075,12 +138047,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.980e-10 - Nat+ 2.980e-10 2.980e-10 -9.526 -9.526 -0.000 (0) +Nat 2.258e-10 + Nat+ 2.258e-10 2.258e-10 -9.646 -9.646 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.466 -70.430 0.036 30.40 -S(-2) 4.772e-08 - HS- 3.338e-08 2.197e-08 -7.477 -7.658 -0.182 21.14 +S(-2) 4.773e-08 + HS- 3.338e-08 2.198e-08 -7.476 -7.658 -0.182 21.14 H2S 1.435e-08 1.560e-08 -7.843 -7.807 0.036 36.27 S-2 1.356e-13 3.269e-14 -12.868 -13.486 -0.618 (0) (H2S)2 1.179e-17 1.282e-17 -16.928 -16.892 0.036 30.09 @@ -138148,7 +138120,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.507e-11 Surface + diffuse layer charge, eq + -9.508e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -138158,7 +138130,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -138169,12 +138141,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 6.6406e-11 - I 4.0894e-23 + Hto 5.5332e-11 + I 4.0907e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1766e-11 + Nat 1.5445e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -138193,12 +138165,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.628e-10 6.630e-11 + Hto 4.689e-10 5.524e-11 I 3.472e-10 4.090e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.704e-11 4.363e-12 + Nat 2.628e-11 3.096e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -138230,8 +138202,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.029e-11 - CH4 3.029e-11 3.293e-11 -10.519 -10.482 0.036 35.46 +C(-4) 3.030e-11 + CH4 3.030e-11 3.294e-11 -10.519 -10.482 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -138256,9 +138228,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.926e-11 - H2 9.628e-12 1.047e-11 -11.016 -10.980 0.036 28.61 -Hto 5.628e-10 - Hto 5.628e-10 5.628e-10 -9.250 -9.250 0.000 (0) + H2 9.629e-12 1.047e-11 -11.016 -10.980 0.036 28.61 +Hto 4.689e-10 + Hto 4.689e-10 4.689e-10 -9.329 -9.329 0.000 (0) I 3.472e-10 I- 3.472e-10 3.472e-10 -9.459 -9.459 -0.000 (0) K 1.540e-03 @@ -138276,15 +138248,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.704e-11 - Nat+ 3.704e-11 3.704e-11 -10.431 -10.431 -0.000 (0) +Nat 2.628e-11 + Nat+ 2.628e-11 2.628e-11 -10.580 -10.580 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.465 -70.429 0.036 30.40 -S(-2) 4.746e-08 - HS- 3.320e-08 2.185e-08 -7.479 -7.660 -0.182 21.14 +S(-2) 4.747e-08 + HS- 3.320e-08 2.186e-08 -7.479 -7.660 -0.182 21.14 H2S 1.427e-08 1.551e-08 -7.846 -7.809 0.036 36.27 - S-2 1.349e-13 3.251e-14 -12.870 -13.488 -0.618 (0) - (H2S)2 1.166e-17 1.268e-17 -16.933 -16.897 0.036 30.09 + S-2 1.349e-13 3.252e-14 -12.870 -13.488 -0.618 (0) + (H2S)2 1.167e-17 1.268e-17 -16.933 -16.897 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -138349,7 +138321,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.496e-11 Surface + diffuse layer charge, eq + -9.499e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -138359,7 +138331,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -138370,12 +138342,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 1.1312e-11 + Hto 9.0633e-12 I 5.9849e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2743e-12 + Nat 1.5102e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -138394,12 +138366,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.586e-11 1.129e-11 + Hto 7.681e-11 9.049e-12 I 5.080e-11 5.985e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.870e-12 4.559e-13 + Nat 2.570e-12 3.027e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -138417,8 +138389,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.171e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.140e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -138431,8 +138403,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.998e-11 - CH4 2.998e-11 3.260e-11 -10.523 -10.487 0.036 35.46 +C(-4) 2.999e-11 + CH4 2.999e-11 3.260e-11 -10.523 -10.487 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -138458,8 +138430,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.921e-11 H2 9.604e-12 1.044e-11 -11.018 -10.981 0.036 28.61 -Hto 9.586e-11 - Hto 9.586e-11 9.586e-11 -10.018 -10.018 0.000 (0) +Hto 7.681e-11 + Hto 7.681e-11 7.681e-11 -10.115 -10.115 0.000 (0) I 5.080e-11 I- 5.080e-11 5.080e-11 -10.294 -10.294 -0.000 (0) K 1.540e-03 @@ -138477,11 +138449,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.870e-12 - Nat+ 3.870e-12 3.870e-12 -11.412 -11.412 -0.000 (0) +Nat 2.570e-12 + Nat+ 2.570e-12 2.570e-12 -11.590 -11.590 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.463 -70.426 0.036 30.40 -S(-2) 4.698e-08 +S(-2) 4.699e-08 HS- 3.286e-08 2.163e-08 -7.483 -7.665 -0.182 21.14 H2S 1.412e-08 1.536e-08 -7.850 -7.814 0.036 36.27 S-2 1.335e-13 3.218e-14 -12.874 -13.492 -0.618 (0) @@ -138550,7 +138522,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.487e-11 Surface + diffuse layer charge, eq + -9.488e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -138560,7 +138532,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -138571,12 +138543,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 1.6589e-12 - I 7.5175e-25 + Hto 1.2771e-12 + I 7.5195e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0248e-13 + Nat 1.2578e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -138595,12 +138567,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.406e-11 1.656e-12 + Hto 1.082e-11 1.275e-12 I 6.381e-12 7.517e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.445e-13 4.059e-14 + Nat 2.140e-13 2.521e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -138618,7 +138590,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.661e-10 + Electrical balance (eq) = -4.509e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -138659,8 +138631,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.917e-11 H2 9.586e-12 1.042e-11 -11.018 -10.982 0.036 28.61 -Hto 1.406e-11 - Hto 1.406e-11 1.406e-11 -10.852 -10.852 0.000 (0) +Hto 1.082e-11 + Hto 1.082e-11 1.082e-11 -10.966 -10.966 0.000 (0) I 6.381e-12 I- 6.381e-12 6.381e-12 -11.195 -11.195 -0.000 (0) K 1.540e-03 @@ -138678,8 +138650,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.445e-13 - Nat+ 3.445e-13 3.445e-13 -12.463 -12.463 -0.000 (0) +Nat 2.140e-13 + Nat+ 2.140e-13 2.140e-13 -12.670 -12.670 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.461 -70.425 0.036 30.40 S(-2) 4.663e-08 @@ -138751,7 +138723,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -9.483e-11 Surface + diffuse layer charge, eq + -9.484e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -138761,7 +138733,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -138772,12 +138744,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 2.1106e-13 - I 8.1751e-26 + Hto 1.5603e-13 + I 8.1739e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5519e-14 + Nat 9.0165e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -138796,12 +138768,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.789e-12 2.107e-13 + Hto 1.322e-12 1.558e-13 I 6.937e-13 8.173e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.641e-14 3.111e-15 + Nat 1.534e-14 1.808e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -138819,7 +138791,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.220e-10 + Electrical balance (eq) = -8.245e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -138860,8 +138832,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.916e-11 H2 9.579e-12 1.041e-11 -11.019 -10.982 0.036 28.61 -Hto 1.789e-12 - Hto 1.789e-12 1.789e-12 -11.747 -11.747 0.000 (0) +Hto 1.322e-12 + Hto 1.322e-12 1.322e-12 -11.879 -11.879 0.000 (0) I 6.937e-13 I- 6.937e-13 6.937e-13 -12.159 -12.159 -0.000 (0) K 1.540e-03 @@ -138879,8 +138851,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.641e-14 - Nat+ 2.641e-14 2.641e-14 -13.578 -13.578 -0.000 (0) +Nat 1.534e-14 + Nat+ 1.534e-14 1.534e-14 -13.814 -13.814 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.460 -70.424 0.036 30.40 S(-2) 4.650e-08 @@ -138962,7 +138934,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -138973,12 +138945,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 2.3439e-14 - I 7.7435e-27 + Hto 1.6633e-14 + I 7.7419e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0321e-15 + Nat 5.6074e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -138997,12 +138969,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.986e-13 2.340e-14 + Hto 1.410e-13 1.661e-14 I 6.572e-14 7.742e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.756e-15 2.069e-16 + Nat 9.542e-16 1.124e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -139020,7 +138992,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.363e-10 + Electrical balance (eq) = -8.364e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -139059,10 +139031,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.917e-11 - H2 9.583e-12 1.042e-11 -11.019 -10.982 0.036 28.61 -Hto 1.986e-13 - Hto 1.986e-13 1.986e-13 -12.702 -12.702 0.000 (0) +H(0) 1.916e-11 + H2 9.582e-12 1.042e-11 -11.019 -10.982 0.036 28.61 +Hto 1.410e-13 + Hto 1.410e-13 1.410e-13 -12.851 -12.851 0.000 (0) I 6.572e-14 I- 6.572e-14 6.572e-14 -13.182 -13.182 -0.000 (0) K 1.540e-03 @@ -139080,8 +139052,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.756e-15 - Nat+ 1.756e-15 1.756e-15 -14.755 -14.755 -0.000 (0) +Nat 9.542e-16 + Nat+ 9.542e-16 9.542e-16 -15.020 -15.020 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.461 -70.424 0.036 30.40 S(-2) 4.657e-08 @@ -139153,7 +139125,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.490e-11 Surface + diffuse layer charge, eq + -9.489e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -139163,7 +139135,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -139174,12 +139146,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 2.2828e-15 + Hto 1.5543e-15 I 6.4233e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.9916e-17 + Nat 3.0437e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -139198,12 +139170,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.935e-14 2.279e-15 + Hto 1.317e-14 1.552e-15 I 5.452e-15 6.423e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.020e-16 1.201e-17 + Nat 5.179e-17 6.102e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -139221,7 +139193,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.553e-10 + Electrical balance (eq) = 4.879e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -139235,8 +139207,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.994e-11 - CH4 2.994e-11 3.255e-11 -10.524 -10.487 0.036 35.46 +C(-4) 2.993e-11 + CH4 2.993e-11 3.254e-11 -10.524 -10.488 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -139262,8 +139234,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.920e-11 H2 9.600e-12 1.044e-11 -11.018 -10.981 0.036 28.61 -Hto 1.935e-14 - Hto 1.935e-14 1.935e-14 -13.713 -13.713 0.000 (0) +Hto 1.317e-14 + Hto 1.317e-14 1.317e-14 -13.880 -13.880 0.000 (0) I 5.452e-15 I- 5.452e-15 5.452e-15 -14.263 -14.263 -0.000 (0) K 1.540e-03 @@ -139281,15 +139253,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.020e-16 - Nat+ 1.020e-16 1.020e-16 -15.992 -15.992 -0.000 (0) +Nat 5.179e-17 + Nat+ 5.179e-17 5.179e-17 -16.286 -16.286 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.462 -70.426 0.036 30.40 -S(-2) 4.691e-08 - HS- 3.281e-08 2.160e-08 -7.484 -7.666 -0.182 21.14 +S(-2) 4.690e-08 + HS- 3.280e-08 2.160e-08 -7.484 -7.666 -0.182 21.14 H2S 1.410e-08 1.533e-08 -7.851 -7.814 0.036 36.27 S-2 1.333e-13 3.213e-14 -12.875 -13.493 -0.618 (0) - (H2S)2 1.139e-17 1.238e-17 -16.943 -16.907 0.036 30.09 + (H2S)2 1.139e-17 1.238e-17 -16.944 -16.907 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -139364,7 +139336,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -139375,12 +139347,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 1.9566e-16 + Hto 1.2779e-16 I 4.6839e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0497e-18 + Nat 1.4484e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -139399,12 +139371,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.658e-15 1.953e-16 + Hto 1.083e-15 1.276e-16 I 3.975e-16 4.683e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.189e-18 6.114e-19 + Nat 2.465e-18 2.904e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -139436,8 +139408,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.030e-11 - CH4 3.030e-11 3.295e-11 -10.519 -10.482 0.036 35.46 +C(-4) 3.031e-11 + CH4 3.031e-11 3.295e-11 -10.518 -10.482 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -139463,8 +139435,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.926e-11 H2 9.629e-12 1.047e-11 -11.016 -10.980 0.036 28.61 -Hto 1.658e-15 - Hto 1.658e-15 1.658e-15 -14.780 -14.780 0.000 (0) +Hto 1.083e-15 + Hto 1.083e-15 1.083e-15 -14.965 -14.965 0.000 (0) I 3.975e-16 I- 3.975e-16 3.975e-16 -15.401 -15.401 -0.000 (0) K 1.540e-03 @@ -139482,15 +139454,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.189e-18 - Nat+ 5.189e-18 5.189e-18 -17.285 -17.285 -0.000 (0) +Nat 2.465e-18 + Nat+ 2.465e-18 2.465e-18 -17.608 -17.608 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.465 -70.429 0.036 30.40 -S(-2) 4.748e-08 +S(-2) 4.749e-08 HS- 3.321e-08 2.186e-08 -7.479 -7.660 -0.182 21.14 H2S 1.427e-08 1.552e-08 -7.845 -7.809 0.036 36.27 - S-2 1.349e-13 3.252e-14 -12.870 -13.488 -0.618 (0) - (H2S)2 1.167e-17 1.269e-17 -16.933 -16.897 0.036 30.09 + S-2 1.349e-13 3.253e-14 -12.870 -13.488 -0.618 (0) + (H2S)2 1.167e-17 1.269e-17 -16.933 -16.896 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -139555,7 +139527,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -9.509e-11 Surface + diffuse layer charge, eq + -9.508e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -139565,7 +139537,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -139576,12 +139548,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 1.4794e-17 + Hto 9.2670e-18 I 3.0102e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3653e-19 + Nat 6.0623e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -139600,12 +139572,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.254e-16 1.477e-17 + Hto 7.853e-17 9.252e-18 I 2.555e-17 3.010e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.323e-19 2.737e-20 + Nat 1.032e-19 1.215e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -139664,8 +139636,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.930e-11 H2 9.648e-12 1.049e-11 -11.016 -10.979 0.036 28.61 -Hto 1.254e-16 - Hto 1.254e-16 1.254e-16 -15.902 -15.902 0.000 (0) +Hto 7.853e-17 + Hto 7.853e-17 7.853e-17 -16.105 -16.105 0.000 (0) I 2.555e-17 I- 2.555e-17 2.555e-17 -16.593 -16.593 -0.000 (0) K 1.540e-03 @@ -139683,15 +139655,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.323e-19 - Nat+ 2.323e-19 2.323e-19 -18.634 -18.634 -0.000 (0) +Nat 1.032e-19 + Nat+ 1.032e-19 1.032e-19 -18.987 -18.987 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.467 -70.430 0.036 30.40 S(-2) 4.785e-08 HS- 3.347e-08 2.203e-08 -7.475 -7.657 -0.182 21.14 H2S 1.438e-08 1.564e-08 -7.842 -7.806 0.036 36.27 S-2 1.360e-13 3.278e-14 -12.867 -13.484 -0.618 (0) - (H2S)2 1.185e-17 1.289e-17 -16.926 -16.890 0.036 30.09 + (H2S)2 1.186e-17 1.289e-17 -16.926 -16.890 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -139766,7 +139738,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -139777,12 +139749,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 9.8830e-19 - I 1.7081e-31 + Hto 5.9362e-19 + I 1.7078e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3872e-21 + Nat 2.2360e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -139801,12 +139773,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.375e-18 9.867e-19 + Hto 5.031e-18 5.927e-19 I 1.450e-18 1.708e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.167e-21 1.080e-21 + Nat 3.805e-21 4.482e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -139865,8 +139837,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.654e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 8.375e-18 - Hto 8.375e-18 8.375e-18 -17.077 -17.077 0.000 (0) +Hto 5.031e-18 + Hto 5.031e-18 5.031e-18 -17.298 -17.298 0.000 (0) I 1.450e-18 I- 1.450e-18 1.450e-18 -17.839 -17.839 -0.000 (0) K 1.540e-03 @@ -139884,14 +139856,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.167e-21 - Nat+ 9.167e-21 9.167e-21 -20.038 -20.038 -0.000 (0) +Nat 3.805e-21 + Nat+ 3.805e-21 3.805e-21 -20.420 -20.420 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.467 -70.431 0.036 30.40 S(-2) 4.798e-08 HS- 3.356e-08 2.209e-08 -7.474 -7.656 -0.182 21.14 H2S 1.442e-08 1.568e-08 -7.841 -7.805 0.036 36.27 - S-2 1.363e-13 3.286e-14 -12.865 -13.483 -0.618 (0) + S-2 1.363e-13 3.287e-14 -12.865 -13.483 -0.618 (0) (H2S)2 1.192e-17 1.296e-17 -16.924 -16.887 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -139967,7 +139939,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -139978,12 +139950,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 5.8366e-20 + Hto 3.3611e-20 I 8.5599e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8743e-22 + Nat 7.2651e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -140002,12 +139974,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.946e-19 5.827e-20 + Hto 2.848e-19 3.356e-20 I 7.266e-20 8.560e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.189e-22 3.757e-23 + Nat 1.236e-22 1.456e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -140066,8 +140038,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.656e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 4.946e-19 - Hto 4.946e-19 4.946e-19 -18.306 -18.306 0.000 (0) +Hto 2.848e-19 + Hto 2.848e-19 2.848e-19 -18.545 -18.545 0.000 (0) I 7.266e-20 I- 7.266e-20 7.266e-20 -19.139 -19.139 -0.000 (0) K 1.540e-03 @@ -140085,8 +140057,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.189e-22 - Nat+ 3.189e-22 3.189e-22 -21.496 -21.496 -0.000 (0) +Nat 1.236e-22 + Nat+ 1.236e-22 1.236e-22 -21.908 -21.908 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.467 -70.431 0.036 30.40 S(-2) 4.801e-08 @@ -140168,7 +140140,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -140179,12 +140151,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 3.0462e-21 - I 3.7893e-34 + Hto 1.6816e-21 + I 3.7889e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5859e-24 + Nat 1.9336e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -140203,12 +140175,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.581e-20 3.041e-21 + Hto 1.425e-20 1.679e-21 I 3.216e-21 3.789e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.505e-24 1.120e-24 + Nat 3.290e-24 3.876e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -140267,8 +140239,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.656e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 2.581e-20 - Hto 2.581e-20 2.581e-20 -19.588 -19.588 0.000 (0) +Hto 1.425e-20 + Hto 1.425e-20 1.425e-20 -19.846 -19.846 0.000 (0) I 3.216e-21 I- 3.216e-21 3.216e-21 -20.493 -20.493 -0.000 (0) K 1.540e-03 @@ -140286,8 +140258,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.505e-24 - Nat+ 9.505e-24 9.505e-24 -23.022 -23.022 -0.000 (0) +Nat 3.290e-24 + Nat+ 3.290e-24 3.290e-24 -23.483 -23.483 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.467 -70.431 0.036 30.40 S(-2) 4.801e-08 @@ -140369,7 +140341,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -140380,8 +140352,8 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 1.4028e-22 - I 1.4741e-35 + Hto 7.4195e-23 + I 1.4744e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -140403,7 +140375,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.189e-21 1.401e-22 + Hto 6.288e-22 7.408e-23 I 1.251e-22 1.474e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -140466,8 +140438,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.656e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 1.189e-21 - Hto 1.189e-21 1.189e-21 -20.925 -20.925 0.000 (0) +Hto 6.288e-22 + Hto 6.288e-22 6.288e-22 -21.202 -21.202 0.000 (0) I 1.251e-22 I- 1.251e-22 1.251e-22 -21.903 -21.903 -0.000 (0) K 1.540e-03 @@ -140566,7 +140538,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -140577,8 +140549,8 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 5.6171e-24 - I 4.3181e-37 + Hto 2.8292e-24 + I 4.3172e-37 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -140600,7 +140572,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.760e-23 5.608e-24 + Hto 2.398e-23 2.825e-24 I 3.664e-24 4.317e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -140663,8 +140635,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.656e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 4.760e-23 - Hto 4.760e-23 4.760e-23 -22.322 -22.322 0.000 (0) +Hto 2.398e-23 + Hto 2.398e-23 2.398e-23 -22.620 -22.620 0.000 (0) I 3.664e-24 I- 3.664e-24 3.664e-24 -23.436 -23.436 -0.000 (0) K 1.540e-03 @@ -140763,7 +140735,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -140774,7 +140746,6 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 1.2681e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -140796,7 +140767,6 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.075e-24 1.266e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -140858,8 +140828,6 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.931e-11 H2 9.656e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 1.075e-24 - Hto 1.075e-24 1.075e-24 -23.969 -23.969 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -141245,30 +141213,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.607e-07 2.804e-07 + Hto 5.661e-07 2.831e-07 I 7.317e-07 3.658e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.229e-07 1.614e-07 + Nat 3.307e-07 1.653e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.015 Adjusted to redox equilibrium + pe = -3.014 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.523e-13 + Electrical balance (eq) = -2.994e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -141282,15 +141250,15 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.583e-12 - CH4 1.583e-12 1.722e-12 -11.800 -11.764 0.036 35.46 +C(-4) 1.550e-12 + CH4 1.550e-12 1.686e-12 -11.810 -11.773 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 - CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 + CO2 2.604e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.378e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 @@ -141301,16 +141269,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.006e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.205e-12 - H2 4.603e-12 5.004e-12 -11.337 -11.301 0.036 28.61 -Hto 5.607e-07 - Hto 5.607e-07 5.607e-07 -6.251 -6.251 0.000 (0) +H(0) 9.157e-12 + H2 4.578e-12 4.978e-12 -11.339 -11.303 0.036 28.61 +Hto 5.661e-07 + Hto 5.661e-07 5.661e-07 -6.247 -6.247 0.000 (0) I 7.317e-07 I- 7.317e-07 7.317e-07 -6.136 -6.136 -0.000 (0) K 1.540e-03 @@ -141328,15 +141296,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.229e-07 - Nat+ 3.229e-07 3.229e-07 -6.491 -6.491 -0.000 (0) +Nat 3.307e-07 + Nat+ 3.307e-07 3.307e-07 -6.481 -6.481 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.824 -69.787 0.036 30.40 -S(-2) 2.482e-09 - HS- 1.735e-09 1.142e-09 -8.761 -8.942 -0.182 21.14 - H2S 7.468e-10 8.119e-10 -9.127 -9.090 0.036 36.27 - S-2 7.043e-15 1.698e-15 -14.152 -14.770 -0.618 (0) - (H2S)2 3.195e-20 3.474e-20 -19.496 -19.459 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.819 -69.783 0.036 30.40 +S(-2) 2.431e-09 + HS- 1.699e-09 1.119e-09 -8.770 -8.951 -0.182 21.14 + H2S 7.312e-10 7.950e-10 -9.136 -9.100 0.036 36.27 + S-2 6.896e-15 1.662e-15 -14.161 -14.779 -0.618 (0) + (H2S)2 3.063e-20 3.330e-20 -19.514 -19.478 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -141363,21 +141331,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.96 -11.76 -2.80 CH4 + CH4(g) -8.97 -11.77 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.20 -11.30 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.10 -16.03 -7.94 H2S + H2S(g) -8.11 -16.04 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.90 -69.79 -2.89 O2 + O2(g) -66.89 -69.78 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.82 -0.94 4.88 S + Sulfur -5.83 -0.95 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -141411,7 +141379,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -141422,12 +141390,12 @@ Su Ca 7.1884e-02 Cl 4.6656e-10 H 1.2947e-04 - Hto 5.6147e-08 + Hto 5.6398e-08 I 7.3626e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6619e-07 + Nat 1.6867e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -141446,30 +141414,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.758e-07 5.606e-08 + Hto 4.780e-07 5.631e-08 I 6.249e-07 7.362e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.828e-07 3.332e-08 + Nat 2.870e-07 3.381e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.084 Adjusted to redox equilibrium + pe = -3.083 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.681e-09 + Electrical balance (eq) = 1.672e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -141483,8 +141451,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.634e-12 - CH4 5.634e-12 6.125e-12 -11.249 -11.213 0.036 35.46 +C(-4) 5.588e-12 + CH4 5.588e-12 6.076e-12 -11.253 -11.216 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -141508,10 +141476,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.264e-11 - H2 6.322e-12 6.873e-12 -11.199 -11.163 0.036 28.61 -Hto 4.758e-07 - Hto 4.758e-07 4.758e-07 -6.323 -6.323 0.000 (0) +H(0) 1.262e-11 + H2 6.309e-12 6.859e-12 -11.200 -11.164 0.036 28.61 +Hto 4.780e-07 + Hto 4.780e-07 4.780e-07 -6.321 -6.321 0.000 (0) I 6.249e-07 I- 6.249e-07 6.249e-07 -6.204 -6.204 -0.000 (0) K 1.540e-03 @@ -141529,15 +141497,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.828e-07 - Nat+ 2.828e-07 2.828e-07 -6.549 -6.549 -0.000 (0) +Nat 2.870e-07 + Nat+ 2.870e-07 2.870e-07 -6.542 -6.542 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.099 -70.063 0.036 30.40 -S(-2) 8.831e-09 - HS- 6.175e-09 4.065e-09 -8.209 -8.391 -0.182 21.14 - H2S 2.656e-09 2.888e-09 -8.576 -8.539 0.036 36.27 - S-2 2.506e-14 6.041e-15 -13.601 -14.219 -0.618 (0) - (H2S)2 4.043e-19 4.396e-19 -18.393 -18.357 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.098 -70.061 0.036 30.40 +S(-2) 8.760e-09 + HS- 6.125e-09 4.032e-09 -8.213 -8.394 -0.182 21.14 + H2S 2.635e-09 2.865e-09 -8.579 -8.543 0.036 36.27 + S-2 2.486e-14 5.993e-15 -13.604 -14.222 -0.618 (0) + (H2S)2 3.978e-19 4.325e-19 -18.400 -18.364 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -141564,14 +141532,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.41 -11.21 -2.80 CH4 + CH4(g) -8.41 -11.22 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.06 -11.16 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.54 -15.48 -7.94 H2S + H2S(g) -7.55 -15.48 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -141602,7 +141570,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.335e-11 Surface + diffuse layer charge, eq + -9.333e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -141612,7 +141580,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -141621,14 +141589,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6626e-10 + Cl 4.6625e-10 H 1.2949e-04 - Hto 3.2125e-08 + Hto 3.1667e-08 I 3.8494e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.0655e-08 + Nat 7.8318e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -141647,12 +141615,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.722e-07 3.207e-08 + Hto 2.684e-07 3.162e-08 I 3.267e-07 3.849e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.372e-07 1.617e-08 + Nat 1.333e-07 1.570e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -141670,7 +141638,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.606e-09 + Electrical balance (eq) = 3.573e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -141684,8 +141652,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.187e-11 - CH4 2.187e-11 2.378e-11 -10.660 -10.624 0.036 35.46 +C(-4) 2.191e-11 + CH4 2.191e-11 2.382e-11 -10.659 -10.623 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -141709,10 +141677,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.775e-11 - H2 8.874e-12 9.649e-12 -11.052 -11.016 0.036 28.61 -Hto 2.722e-07 - Hto 2.722e-07 2.722e-07 -6.565 -6.565 0.000 (0) +H(0) 1.776e-11 + H2 8.879e-12 9.653e-12 -11.052 -11.015 0.036 28.61 +Hto 2.684e-07 + Hto 2.684e-07 2.684e-07 -6.571 -6.571 0.000 (0) I 3.267e-07 I- 3.267e-07 3.267e-07 -6.486 -6.486 -0.000 (0) K 1.540e-03 @@ -141730,15 +141698,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.372e-07 - Nat+ 1.372e-07 1.372e-07 -6.863 -6.863 -0.000 (0) +Nat 1.333e-07 + Nat+ 1.333e-07 1.333e-07 -6.875 -6.875 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.394 -70.358 0.036 30.40 -S(-2) 3.427e-08 - HS- 2.397e-08 1.578e-08 -7.620 -7.802 -0.182 21.14 - H2S 1.030e-08 1.120e-08 -7.987 -7.951 0.036 36.27 - S-2 9.734e-14 2.346e-14 -13.012 -13.630 -0.618 (0) - (H2S)2 6.083e-18 6.614e-18 -17.216 -17.180 0.036 30.09 +S(-2) 3.433e-08 + HS- 2.401e-08 1.581e-08 -7.620 -7.801 -0.182 21.14 + H2S 1.032e-08 1.122e-08 -7.986 -7.950 0.036 36.27 + S-2 9.752e-14 2.351e-14 -13.011 -13.629 -0.618 (0) + (H2S)2 6.105e-18 6.638e-18 -17.214 -17.178 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -141779,7 +141747,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.47 -70.36 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.97 -0.09 4.88 S + Sulfur -4.97 -0.08 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -141803,7 +141771,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.538e-11 Surface + diffuse layer charge, eq + -9.537e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -141813,7 +141781,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -141824,12 +141792,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 1.4437e-08 + Hto 1.3865e-08 I 1.5511e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6973e-08 + Nat 2.4774e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -141848,12 +141816,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.223e-07 1.441e-08 + Hto 1.175e-07 1.384e-08 I 1.317e-07 1.551e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.590e-08 5.407e-09 + Nat 4.216e-08 4.966e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -141885,8 +141853,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.815e-11 - CH4 2.815e-11 3.061e-11 -10.550 -10.514 0.036 35.46 +C(-4) 2.818e-11 + CH4 2.818e-11 3.064e-11 -10.550 -10.514 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -141911,9 +141879,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.891e-11 - H2 9.454e-12 1.028e-11 -11.024 -10.988 0.036 28.61 -Hto 1.223e-07 - Hto 1.223e-07 1.223e-07 -6.912 -6.912 0.000 (0) + H2 9.456e-12 1.028e-11 -11.024 -10.988 0.036 28.61 +Hto 1.175e-07 + Hto 1.175e-07 1.175e-07 -6.930 -6.930 0.000 (0) I 1.317e-07 I- 1.317e-07 1.317e-07 -6.881 -6.881 -0.000 (0) K 1.540e-03 @@ -141931,15 +141899,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.590e-08 - Nat+ 4.590e-08 4.590e-08 -7.338 -7.338 -0.000 (0) +Nat 4.216e-08 + Nat+ 4.216e-08 4.216e-08 -7.375 -7.375 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.449 -70.413 0.036 30.40 -S(-2) 4.412e-08 - HS- 3.085e-08 2.031e-08 -7.511 -7.692 -0.182 21.14 - H2S 1.326e-08 1.442e-08 -7.877 -7.841 0.036 36.27 - S-2 1.253e-13 3.022e-14 -12.902 -13.520 -0.618 (0) - (H2S)2 1.008e-17 1.096e-17 -16.997 -16.960 0.036 30.09 +S(-2) 4.416e-08 + HS- 3.089e-08 2.033e-08 -7.510 -7.692 -0.182 21.14 + H2S 1.328e-08 1.443e-08 -7.877 -7.841 0.036 36.27 + S-2 1.255e-13 3.025e-14 -12.901 -13.519 -0.618 (0) + (H2S)2 1.010e-17 1.098e-17 -16.996 -16.959 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -142014,7 +141982,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -142025,12 +141993,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 5.1990e-09 + Hto 4.8412e-09 I 4.9366e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.6924e-09 + Nat 5.7847e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -142049,12 +142017,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.406e-08 5.191e-09 + Hto 4.103e-08 4.833e-09 I 4.190e-08 4.936e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.139e-08 1.342e-09 + Nat 9.843e-09 1.160e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -142086,8 +142054,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.054e-11 - CH4 3.054e-11 3.320e-11 -10.515 -10.479 0.036 35.46 +C(-4) 3.055e-11 + CH4 3.055e-11 3.322e-11 -10.515 -10.479 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -142112,9 +142080,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.930e-11 - H2 9.648e-12 1.049e-11 -11.016 -10.979 0.036 28.61 -Hto 4.406e-08 - Hto 4.406e-08 4.406e-08 -7.356 -7.356 0.000 (0) + H2 9.649e-12 1.049e-11 -11.016 -10.979 0.036 28.61 +Hto 4.103e-08 + Hto 4.103e-08 4.103e-08 -7.387 -7.387 0.000 (0) I 4.190e-08 I- 4.190e-08 4.190e-08 -7.378 -7.378 -0.000 (0) K 1.540e-03 @@ -142132,15 +142100,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.139e-08 - Nat+ 1.139e-08 1.139e-08 -7.944 -7.944 -0.000 (0) +Nat 9.843e-09 + Nat+ 9.843e-09 9.843e-09 -8.007 -8.007 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.467 -70.430 0.036 30.40 -S(-2) 4.785e-08 - HS- 3.346e-08 2.203e-08 -7.475 -7.657 -0.182 21.14 - H2S 1.438e-08 1.564e-08 -7.842 -7.806 0.036 36.27 - S-2 1.360e-13 3.277e-14 -12.867 -13.484 -0.618 (0) - (H2S)2 1.185e-17 1.289e-17 -16.926 -16.890 0.036 30.09 +S(-2) 4.787e-08 + HS- 3.348e-08 2.204e-08 -7.475 -7.657 -0.182 21.14 + H2S 1.439e-08 1.565e-08 -7.842 -7.806 0.036 36.27 + S-2 1.360e-13 3.279e-14 -12.866 -13.484 -0.618 (0) + (H2S)2 1.186e-17 1.290e-17 -16.926 -16.889 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -142215,7 +142183,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -142226,12 +142194,12 @@ Su Ca 7.1884e-02 Cl 4.6609e-10 H 1.2949e-04 - Hto 1.5309e-09 - I 1.2712e-21 + Hto 1.3777e-09 + I 1.2710e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2948e-09 + Nat 1.0505e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -142250,12 +142218,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.297e-08 1.528e-09 + Hto 1.168e-08 1.375e-09 I 1.079e-08 1.271e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.203e-09 2.596e-10 + Nat 1.788e-09 2.106e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -142287,8 +142255,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.132e-11 - CH4 3.132e-11 3.405e-11 -10.504 -10.468 0.036 35.46 +C(-4) 3.133e-11 + CH4 3.133e-11 3.406e-11 -10.504 -10.468 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -142313,9 +142281,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.942e-11 - H2 9.709e-12 1.056e-11 -11.013 -10.976 0.036 28.61 -Hto 1.297e-08 - Hto 1.297e-08 1.297e-08 -7.887 -7.887 0.000 (0) + H2 9.710e-12 1.056e-11 -11.013 -10.976 0.036 28.61 +Hto 1.168e-08 + Hto 1.168e-08 1.168e-08 -7.933 -7.933 0.000 (0) I 1.079e-08 I- 1.079e-08 1.079e-08 -7.967 -7.967 -0.000 (0) K 1.540e-03 @@ -142333,15 +142301,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.203e-09 - Nat+ 2.203e-09 2.203e-09 -8.657 -8.657 -0.000 (0) +Nat 1.788e-09 + Nat+ 1.788e-09 1.788e-09 -8.748 -8.748 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.472 -70.436 0.036 30.40 -S(-2) 4.908e-08 - HS- 3.432e-08 2.260e-08 -7.464 -7.646 -0.182 21.14 - H2S 1.475e-08 1.604e-08 -7.831 -7.795 0.036 36.27 - S-2 1.395e-13 3.362e-14 -12.856 -13.473 -0.618 (0) - (H2S)2 1.247e-17 1.356e-17 -16.904 -16.868 0.036 30.09 +S(-2) 4.909e-08 + HS- 3.433e-08 2.260e-08 -7.464 -7.646 -0.182 21.14 + H2S 1.476e-08 1.604e-08 -7.831 -7.795 0.036 36.27 + S-2 1.395e-13 3.363e-14 -12.855 -13.473 -0.618 (0) + (H2S)2 1.248e-17 1.356e-17 -16.904 -16.868 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -142416,7 +142384,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -142427,12 +142395,12 @@ Su Ca 7.1884e-02 Cl 4.6609e-10 H 1.2949e-04 - Hto 3.7518e-10 - I 2.7044e-22 + Hto 3.2558e-10 + I 2.7033e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0217e-10 + Nat 1.5373e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -142451,12 +142419,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.179e-09 3.746e-10 + Hto 2.759e-09 3.251e-10 I 2.295e-09 2.704e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.440e-10 4.053e-11 + Nat 2.616e-10 3.082e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -142488,8 +142456,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.146e-11 - CH4 3.146e-11 3.421e-11 -10.502 -10.466 0.036 35.46 +C(-4) 3.147e-11 + CH4 3.147e-11 3.422e-11 -10.502 -10.466 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -142514,9 +142482,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.944e-11 - H2 9.720e-12 1.057e-11 -11.012 -10.976 0.036 28.61 -Hto 3.179e-09 - Hto 3.179e-09 3.179e-09 -8.498 -8.498 0.000 (0) + H2 9.721e-12 1.057e-11 -11.012 -10.976 0.036 28.61 +Hto 2.759e-09 + Hto 2.759e-09 2.759e-09 -8.559 -8.559 0.000 (0) I 2.295e-09 I- 2.295e-09 2.295e-09 -8.639 -8.639 -0.000 (0) K 1.540e-03 @@ -142534,15 +142502,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.440e-10 - Nat+ 3.440e-10 3.440e-10 -9.463 -9.463 -0.000 (0) +Nat 2.616e-10 + Nat+ 2.616e-10 2.616e-10 -9.582 -9.582 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.473 -70.437 0.036 30.40 -S(-2) 4.930e-08 - HS- 3.448e-08 2.270e-08 -7.462 -7.644 -0.182 21.14 - H2S 1.482e-08 1.611e-08 -7.829 -7.793 0.036 36.27 - S-2 1.401e-13 3.377e-14 -12.854 -13.471 -0.618 (0) - (H2S)2 1.258e-17 1.368e-17 -16.900 -16.864 0.036 30.09 +S(-2) 4.931e-08 + HS- 3.449e-08 2.270e-08 -7.462 -7.644 -0.182 21.14 + H2S 1.482e-08 1.612e-08 -7.829 -7.793 0.036 36.27 + S-2 1.401e-13 3.378e-14 -12.853 -13.471 -0.618 (0) + (H2S)2 1.259e-17 1.369e-17 -16.900 -16.864 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -142558,7 +142526,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 - SrOH+ 1.154e-10 8.086e-11 -9.938 -10.092 -0.154 (0) + SrOH+ 1.154e-10 8.087e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -142607,7 +142575,7 @@ Kinetics 10. Diffuse Double Layer Surface-Complexation Model Su - -9.536e-11 Surface + diffuse layer charge, eq + -9.537e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -142617,7 +142585,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -142628,12 +142596,12 @@ Su Ca 7.1884e-02 Cl 4.6609e-10 H 1.2949e-04 - Hto 7.7647e-11 + Hto 6.4879e-11 I 4.8300e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6108e-11 + Nat 1.8592e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -142652,12 +142620,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.580e-10 7.752e-11 + Hto 5.498e-10 6.477e-11 I 4.100e-10 4.830e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.443e-11 5.234e-12 + Nat 3.164e-11 3.727e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -142715,9 +142683,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.942e-11 - H2 9.708e-12 1.055e-11 -11.013 -10.977 0.036 28.61 -Hto 6.580e-10 - Hto 6.580e-10 6.580e-10 -9.182 -9.182 0.000 (0) + H2 9.708e-12 1.056e-11 -11.013 -10.977 0.036 28.61 +Hto 5.498e-10 + Hto 5.498e-10 5.498e-10 -9.260 -9.260 0.000 (0) I 4.100e-10 I- 4.100e-10 4.100e-10 -9.387 -9.387 -0.000 (0) K 1.540e-03 @@ -142735,15 +142703,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.443e-11 - Nat+ 4.443e-11 4.443e-11 -10.352 -10.352 -0.000 (0) +Nat 3.164e-11 + Nat+ 3.164e-11 3.164e-11 -10.500 -10.500 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.472 -70.436 0.036 30.40 -S(-2) 4.905e-08 - HS- 3.431e-08 2.258e-08 -7.465 -7.646 -0.182 21.14 - H2S 1.474e-08 1.603e-08 -7.831 -7.795 0.036 36.27 - S-2 1.394e-13 3.360e-14 -12.856 -13.474 -0.618 (0) - (H2S)2 1.246e-17 1.354e-17 -16.905 -16.868 0.036 30.09 +S(-2) 4.906e-08 + HS- 3.431e-08 2.259e-08 -7.465 -7.646 -0.182 21.14 + H2S 1.475e-08 1.603e-08 -7.831 -7.795 0.036 36.27 + S-2 1.394e-13 3.361e-14 -12.856 -13.474 -0.618 (0) + (H2S)2 1.246e-17 1.355e-17 -16.904 -16.868 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -142808,7 +142776,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.525e-11 Surface + diffuse layer charge, eq + -9.528e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -142818,7 +142786,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -142829,12 +142797,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 1.3734e-11 + Hto 1.1037e-11 I 7.3445e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8394e-12 + Nat 1.8924e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -142853,12 +142821,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.164e-10 1.371e-11 + Hto 9.354e-11 1.102e-11 I 6.234e-11 7.344e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.832e-12 5.692e-13 + Nat 3.220e-12 3.794e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -142876,8 +142844,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.120e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.045e-09 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -142891,7 +142859,7 @@ Su H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.101e-11 - CH4 3.101e-11 3.371e-11 -10.509 -10.472 0.036 35.46 + CH4 3.101e-11 3.372e-11 -10.508 -10.472 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -142917,8 +142885,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.937e-11 H2 9.685e-12 1.053e-11 -11.014 -10.978 0.036 28.61 -Hto 1.164e-10 - Hto 1.164e-10 1.164e-10 -9.934 -9.934 0.000 (0) +Hto 9.354e-11 + Hto 9.354e-11 9.354e-11 -10.029 -10.029 0.000 (0) I 6.234e-11 I- 6.234e-11 6.234e-11 -10.205 -10.205 -0.000 (0) K 1.540e-03 @@ -142936,15 +142904,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.832e-12 - Nat+ 4.832e-12 4.832e-12 -11.316 -11.316 -0.000 (0) +Nat 3.220e-12 + Nat+ 3.220e-12 3.220e-12 -11.492 -11.492 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.470 -70.434 0.036 30.40 S(-2) 4.859e-08 - HS- 3.398e-08 2.237e-08 -7.469 -7.650 -0.182 21.14 + HS- 3.399e-08 2.237e-08 -7.469 -7.650 -0.182 21.14 H2S 1.461e-08 1.588e-08 -7.835 -7.799 0.036 36.27 - S-2 1.381e-13 3.328e-14 -12.860 -13.478 -0.618 (0) - (H2S)2 1.222e-17 1.329e-17 -16.913 -16.877 0.036 30.09 + S-2 1.381e-13 3.329e-14 -12.860 -13.478 -0.618 (0) + (H2S)2 1.222e-17 1.329e-17 -16.913 -16.876 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -143009,7 +142977,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.516e-11 Surface + diffuse layer charge, eq + -9.517e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -143019,7 +142987,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -143030,12 +142998,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 2.0963e-12 - I 9.6067e-25 + Hto 1.6190e-12 + I 9.6087e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6363e-13 + Nat 1.6439e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -143054,12 +143022,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.776e-11 2.093e-12 + Hto 1.372e-11 1.616e-12 I 8.155e-12 9.607e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.486e-13 5.285e-14 + Nat 2.797e-13 3.295e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -143077,7 +143045,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.610e-10 + Electrical balance (eq) = -5.458e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -143118,8 +143086,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.934e-11 H2 9.668e-12 1.051e-11 -11.015 -10.978 0.036 28.61 -Hto 1.776e-11 - Hto 1.776e-11 1.776e-11 -10.750 -10.750 0.000 (0) +Hto 1.372e-11 + Hto 1.372e-11 1.372e-11 -10.863 -10.863 0.000 (0) I 8.155e-12 I- 8.155e-12 8.155e-12 -11.089 -11.089 -0.000 (0) K 1.540e-03 @@ -143137,8 +143105,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.486e-13 - Nat+ 4.486e-13 4.486e-13 -12.348 -12.348 -0.000 (0) +Nat 2.797e-13 + Nat+ 2.797e-13 2.797e-13 -12.553 -12.553 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.468 -70.432 0.036 30.40 S(-2) 4.824e-08 @@ -143220,7 +143188,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -143231,12 +143199,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 2.7824e-13 - I 1.0904e-25 + Hto 2.0639e-13 + I 1.0903e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1115e-14 + Nat 1.2315e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -143255,12 +143223,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.358e-12 2.778e-13 + Hto 1.749e-12 2.061e-13 I 9.255e-13 1.090e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.593e-14 4.233e-15 + Nat 2.096e-14 2.469e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -143278,7 +143246,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.169e-10 + Electrical balance (eq) = -9.193e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -143319,8 +143287,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.932e-11 H2 9.661e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 2.358e-12 - Hto 2.358e-12 2.358e-12 -11.627 -11.627 0.000 (0) +Hto 1.749e-12 + Hto 1.749e-12 1.749e-12 -11.757 -11.757 0.000 (0) I 9.255e-13 I- 9.255e-13 9.255e-13 -12.034 -12.034 -0.000 (0) K 1.540e-03 @@ -143338,8 +143306,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.593e-14 - Nat+ 3.593e-14 3.593e-14 -13.445 -13.445 -0.000 (0) +Nat 2.096e-14 + Nat+ 2.096e-14 2.096e-14 -13.679 -13.679 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.468 -70.431 0.036 30.40 S(-2) 4.811e-08 @@ -143421,7 +143389,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -143432,12 +143400,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 3.2313e-14 - I 1.0806e-26 + Hto 2.3010e-14 + I 1.0807e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4706e-15 + Nat 8.0213e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -143456,12 +143424,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.738e-13 3.226e-14 + Hto 1.950e-13 2.297e-14 I 9.172e-14 1.081e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.502e-15 2.948e-16 + Nat 1.365e-15 1.608e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -143479,7 +143447,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.311e-10 + Electrical balance (eq) = -9.312e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -143519,9 +143487,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.933e-11 - H2 9.664e-12 1.051e-11 -11.015 -10.978 0.036 28.61 -Hto 2.738e-13 - Hto 2.738e-13 2.738e-13 -12.563 -12.563 0.000 (0) + H2 9.664e-12 1.051e-11 -11.015 -10.979 0.036 28.61 +Hto 1.950e-13 + Hto 1.950e-13 1.950e-13 -12.710 -12.710 0.000 (0) I 9.172e-14 I- 9.172e-14 9.172e-14 -13.038 -13.038 -0.000 (0) K 1.540e-03 @@ -143539,15 +143507,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.502e-15 - Nat+ 2.502e-15 2.502e-15 -14.602 -14.602 -0.000 (0) +Nat 1.365e-15 + Nat+ 1.365e-15 1.365e-15 -14.865 -14.865 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.468 -70.432 0.036 30.40 S(-2) 4.818e-08 HS- 3.370e-08 2.218e-08 -7.472 -7.654 -0.182 21.14 H2S 1.448e-08 1.575e-08 -7.839 -7.803 0.036 36.27 S-2 1.369e-13 3.300e-14 -12.864 -13.481 -0.618 (0) - (H2S)2 1.202e-17 1.307e-17 -16.920 -16.884 0.036 30.09 + (H2S)2 1.202e-17 1.306e-17 -16.920 -16.884 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -143622,7 +143590,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -143633,12 +143601,12 @@ Su Ca 7.1884e-02 Cl 4.6610e-10 H 1.2949e-04 - Hto 3.2993e-15 + Hto 2.2546e-15 I 9.4032e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9613e-17 + Nat 4.5706e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -143657,12 +143625,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.796e-14 3.294e-15 + Hto 1.911e-14 2.251e-15 I 7.980e-15 9.402e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.525e-16 1.796e-17 + Nat 7.777e-17 9.162e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -143680,7 +143648,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 5.604e-10 + Electrical balance (eq) = 3.930e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -143721,8 +143689,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.936e-11 H2 9.681e-12 1.053e-11 -11.014 -10.978 0.036 28.61 -Hto 2.796e-14 - Hto 2.796e-14 2.796e-14 -13.553 -13.553 0.000 (0) +Hto 1.911e-14 + Hto 1.911e-14 1.911e-14 -13.719 -13.719 0.000 (0) I 7.980e-15 I- 7.980e-15 7.980e-15 -14.098 -14.098 -0.000 (0) K 1.540e-03 @@ -143740,15 +143708,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.525e-16 - Nat+ 1.525e-16 1.525e-16 -15.817 -15.817 -0.000 (0) +Nat 7.777e-17 + Nat+ 7.777e-17 7.777e-17 -16.109 -16.109 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.470 -70.433 0.036 30.40 -S(-2) 4.852e-08 +S(-2) 4.851e-08 HS- 3.393e-08 2.234e-08 -7.469 -7.651 -0.182 21.14 H2S 1.458e-08 1.586e-08 -7.836 -7.800 0.036 36.27 S-2 1.379e-13 3.323e-14 -12.861 -13.478 -0.618 (0) - (H2S)2 1.219e-17 1.325e-17 -16.914 -16.878 0.036 30.09 + (H2S)2 1.218e-17 1.325e-17 -16.914 -16.878 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -143823,7 +143791,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -143834,12 +143802,12 @@ Su Ca 7.1884e-02 Cl 4.6609e-10 H 1.2949e-04 - Hto 2.9727e-16 - I 7.2107e-29 + Hto 1.9489e-16 + I 7.2094e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8002e-18 + Nat 2.2891e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -143858,12 +143826,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.519e-15 2.968e-16 + Hto 1.652e-15 1.946e-16 I 6.120e-16 7.210e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.168e-18 9.623e-19 + Nat 3.895e-18 4.589e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -143921,9 +143889,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.942e-11 - H2 9.709e-12 1.056e-11 -11.013 -10.977 0.036 28.61 -Hto 2.519e-15 - Hto 2.519e-15 2.519e-15 -14.599 -14.599 0.000 (0) + H2 9.709e-12 1.056e-11 -11.013 -10.976 0.036 28.61 +Hto 1.652e-15 + Hto 1.652e-15 1.652e-15 -14.782 -14.782 0.000 (0) I 6.120e-16 I- 6.120e-16 6.120e-16 -15.213 -15.213 -0.000 (0) K 1.540e-03 @@ -143941,15 +143909,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.168e-18 - Nat+ 8.168e-18 8.168e-18 -17.088 -17.088 -0.000 (0) +Nat 3.895e-18 + Nat+ 3.895e-18 3.895e-18 -17.409 -17.409 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.472 -70.436 0.036 30.40 -S(-2) 4.907e-08 - HS- 3.432e-08 2.259e-08 -7.464 -7.646 -0.182 21.14 +S(-2) 4.908e-08 + HS- 3.432e-08 2.260e-08 -7.464 -7.646 -0.182 21.14 H2S 1.475e-08 1.604e-08 -7.831 -7.795 0.036 36.27 S-2 1.395e-13 3.362e-14 -12.856 -13.473 -0.618 (0) - (H2S)2 1.247e-17 1.355e-17 -16.904 -16.868 0.036 30.09 + (H2S)2 1.247e-17 1.356e-17 -16.904 -16.868 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -144024,7 +143992,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -144035,12 +144003,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 2.3699e-17 + Hto 1.4902e-17 I 4.8872e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2680e-19 + Nat 1.0111e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -144059,12 +144027,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.008e-16 2.366e-17 + Hto 1.263e-16 1.488e-17 I 4.148e-17 4.887e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.859e-19 4.546e-20 + Nat 1.721e-19 2.027e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -144097,7 +144065,7 @@ Su H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.155e-11 - CH4 3.155e-11 3.430e-11 -10.501 -10.465 0.036 35.46 + CH4 3.155e-11 3.431e-11 -10.501 -10.465 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -144123,8 +144091,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.945e-11 H2 9.727e-12 1.058e-11 -11.012 -10.976 0.036 28.61 -Hto 2.008e-16 - Hto 2.008e-16 2.008e-16 -15.697 -15.697 0.000 (0) +Hto 1.263e-16 + Hto 1.263e-16 1.263e-16 -15.899 -15.899 0.000 (0) I 4.148e-17 I- 4.148e-17 4.148e-17 -16.382 -16.382 -0.000 (0) K 1.540e-03 @@ -144142,8 +144110,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.859e-19 - Nat+ 3.859e-19 3.859e-19 -18.414 -18.414 -0.000 (0) +Nat 1.721e-19 + Nat+ 1.721e-19 1.721e-19 -18.764 -18.764 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.474 -70.437 0.036 30.40 S(-2) 4.944e-08 @@ -144225,7 +144193,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -144236,12 +144204,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 1.6747e-18 - I 2.9342e-31 + Hto 1.0098e-18 + I 2.9337e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.4735e-21 + Nat 3.9484e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -144260,12 +144228,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.419e-17 1.672e-18 + Hto 8.558e-18 1.008e-18 I 2.490e-18 2.934e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.612e-20 1.899e-21 + Nat 6.719e-21 7.915e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -144324,8 +144292,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.734e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 1.419e-17 - Hto 1.419e-17 1.419e-17 -16.848 -16.848 0.000 (0) +Hto 8.558e-18 + Hto 8.558e-18 8.558e-18 -17.068 -17.068 0.000 (0) I 2.490e-18 I- 2.490e-18 2.490e-18 -17.604 -17.604 -0.000 (0) K 1.540e-03 @@ -144343,11 +144311,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.612e-20 - Nat+ 1.612e-20 1.612e-20 -19.793 -19.793 -0.000 (0) +Nat 6.719e-21 + Nat+ 6.719e-21 6.719e-21 -20.173 -20.173 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.474 -70.438 0.036 30.40 -S(-2) 4.957e-08 +S(-2) 4.958e-08 HS- 3.467e-08 2.283e-08 -7.460 -7.642 -0.182 21.14 H2S 1.490e-08 1.620e-08 -7.827 -7.790 0.036 36.27 S-2 1.409e-13 3.396e-14 -12.851 -13.469 -0.618 (0) @@ -144426,7 +144394,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -144437,12 +144405,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 1.0499e-19 - I 1.5615e-32 + Hto 6.0699e-20 + I 1.5618e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5024e-22 + Nat 1.3639e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -144461,12 +144429,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.897e-19 1.048e-19 + Hto 5.144e-19 6.060e-20 I 1.325e-19 1.561e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.960e-22 7.021e-23 + Nat 2.321e-22 2.734e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -144525,8 +144493,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.735e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 8.897e-19 - Hto 8.897e-19 8.897e-19 -18.051 -18.051 0.000 (0) +Hto 5.144e-19 + Hto 5.144e-19 5.144e-19 -18.289 -18.289 0.000 (0) I 1.325e-19 I- 1.325e-19 1.325e-19 -18.878 -18.878 -0.000 (0) K 1.540e-03 @@ -144544,8 +144512,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.960e-22 - Nat+ 5.960e-22 5.960e-22 -21.225 -21.225 -0.000 (0) +Nat 2.321e-22 + Nat+ 2.321e-22 2.321e-22 -21.634 -21.634 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.474 -70.438 0.036 30.40 S(-2) 4.961e-08 @@ -144627,7 +144595,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -144638,12 +144606,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 5.8402e-21 - I 7.3699e-34 + Hto 3.2370e-21 + I 7.3689e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1307e-23 + Nat 4.0285e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -144662,12 +144630,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.949e-20 5.831e-21 + Hto 2.743e-20 3.232e-21 I 6.255e-21 7.369e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.924e-23 2.267e-24 + Nat 6.855e-24 8.076e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -144726,8 +144694,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.736e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 4.949e-20 - Hto 4.949e-20 4.949e-20 -19.305 -19.305 0.000 (0) +Hto 2.743e-20 + Hto 2.743e-20 2.743e-20 -19.562 -19.562 0.000 (0) I 6.255e-21 I- 6.255e-21 6.255e-21 -20.204 -20.204 -0.000 (0) K 1.540e-03 @@ -144745,8 +144713,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.924e-23 - Nat+ 1.924e-23 1.924e-23 -22.716 -22.716 -0.000 (0) +Nat 6.855e-24 + Nat+ 6.855e-24 6.855e-24 -23.164 -23.164 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.474 -70.438 0.036 30.40 S(-2) 4.961e-08 @@ -144828,7 +144796,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -144839,12 +144807,11 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 2.8800e-22 - I 3.0769e-35 + Hto 1.5299e-22 + I 3.0763e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0507e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -144863,12 +144830,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.441e-21 2.875e-22 + Hto 1.296e-21 1.527e-22 I 2.611e-22 3.076e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.489e-25 4.111e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -144927,8 +144893,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.736e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 2.441e-21 - Hto 2.441e-21 2.441e-21 -20.612 -20.612 0.000 (0) +Hto 1.296e-21 + Hto 1.296e-21 1.296e-21 -20.887 -20.887 0.000 (0) I 2.611e-22 I- 2.611e-22 2.611e-22 -21.583 -21.583 -0.000 (0) K 1.540e-03 @@ -144946,8 +144912,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.489e-25 - Nat+ 3.489e-25 3.489e-25 -24.457 -24.457 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.474 -70.438 0.036 30.40 S(-2) 4.961e-08 @@ -145029,7 +144993,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -145040,8 +145004,8 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 1.2503e-23 - I 1.0675e-36 + Hto 6.3479e-24 + I 1.0673e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -145063,7 +145027,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.060e-22 1.248e-23 + Hto 5.380e-23 6.338e-24 I 9.059e-24 1.067e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -145126,8 +145090,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.736e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 1.060e-22 - Hto 1.060e-22 1.060e-22 -21.975 -21.975 0.000 (0) +Hto 5.380e-23 + Hto 5.380e-23 5.380e-23 -22.269 -22.269 0.000 (0) I 9.059e-24 I- 9.059e-24 9.059e-24 -23.043 -23.043 -0.000 (0) K 1.540e-03 @@ -145226,7 +145190,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -145237,7 +145201,7 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 4.1948e-25 + Hto 1.7234e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -145259,7 +145223,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.555e-24 4.188e-25 + Hto 1.461e-24 1.721e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -145321,8 +145285,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.947e-11 H2 9.736e-12 1.058e-11 -11.012 -10.975 0.036 28.61 -Hto 3.555e-24 - Hto 3.555e-24 3.555e-24 -23.449 -23.449 0.000 (0) +Hto 1.461e-24 + Hto 1.461e-24 1.461e-24 -23.835 -23.835 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -145708,30 +145672,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.565e-07 2.782e-07 + Hto 5.619e-07 2.809e-07 I 7.286e-07 3.643e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.192e-07 1.596e-07 + Nat 3.269e-07 1.635e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.019 Adjusted to redox equilibrium + pe = -3.018 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.564e-13 + Electrical balance (eq) = -3.035e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -145745,8 +145709,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.711e-12 - CH4 1.711e-12 1.861e-12 -11.767 -11.730 0.036 35.46 +C(-4) 1.676e-12 + CH4 1.676e-12 1.822e-12 -11.776 -11.739 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -145770,10 +145734,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.386e-12 - H2 4.693e-12 5.102e-12 -11.329 -11.292 0.036 28.61 -Hto 5.565e-07 - Hto 5.565e-07 5.565e-07 -6.255 -6.255 0.000 (0) +H(0) 9.337e-12 + H2 4.668e-12 5.076e-12 -11.331 -11.295 0.036 28.61 +Hto 5.619e-07 + Hto 5.619e-07 5.619e-07 -6.250 -6.250 0.000 (0) I 7.286e-07 I- 7.286e-07 7.286e-07 -6.137 -6.137 -0.000 (0) K 1.540e-03 @@ -145791,15 +145755,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.192e-07 - Nat+ 3.192e-07 3.192e-07 -6.496 -6.496 -0.000 (0) +Nat 3.269e-07 + Nat+ 3.269e-07 3.269e-07 -6.486 -6.486 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.841 -69.804 0.036 30.40 -S(-2) 2.683e-09 - HS- 1.876e-09 1.235e-09 -8.727 -8.908 -0.182 21.14 - H2S 8.071e-10 8.775e-10 -9.093 -9.057 0.036 36.27 - S-2 7.612e-15 1.835e-15 -14.118 -14.736 -0.618 (0) - (H2S)2 3.732e-20 4.057e-20 -19.428 -19.392 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.836 -69.800 0.036 30.40 +S(-2) 2.627e-09 + HS- 1.837e-09 1.209e-09 -8.736 -8.918 -0.182 21.14 + H2S 7.903e-10 8.593e-10 -9.102 -9.066 0.036 36.27 + S-2 7.454e-15 1.797e-15 -14.128 -14.745 -0.618 (0) + (H2S)2 3.579e-20 3.891e-20 -19.446 -19.410 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -145826,21 +145790,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.93 -11.73 -2.80 CH4 + CH4(g) -8.94 -11.74 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.19 -11.29 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.06 -16.00 -7.94 H2S + H2S(g) -8.07 -16.01 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -66.91 -69.80 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.80 -0.91 4.88 S + Sulfur -5.80 -0.92 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -145864,7 +145828,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.663e-14 Surface + diffuse layer charge, eq + -4.685e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -145874,7 +145838,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -145885,12 +145849,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2947e-04 - Hto 5.5935e-08 - I 7.3533e-20 + Hto 5.6197e-08 + I 7.3560e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6494e-07 + Nat 1.6749e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -145909,12 +145873,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.740e-07 5.584e-08 + Hto 4.762e-07 5.611e-08 I 6.243e-07 7.354e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.807e-07 3.307e-08 + Nat 2.850e-07 3.358e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -145925,14 +145889,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.681e-09 + Electrical balance (eq) = 1.672e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -145946,8 +145910,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 5.893e-12 - CH4 5.893e-12 6.407e-12 -11.230 -11.193 0.036 35.46 +C(-4) 5.847e-12 + CH4 5.847e-12 6.357e-12 -11.233 -11.197 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -145971,10 +145935,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.279e-11 - H2 6.393e-12 6.951e-12 -11.194 -11.158 0.036 28.61 -Hto 4.740e-07 - Hto 4.740e-07 4.740e-07 -6.324 -6.324 0.000 (0) +H(0) 1.276e-11 + H2 6.380e-12 6.937e-12 -11.195 -11.159 0.036 28.61 +Hto 4.762e-07 + Hto 4.762e-07 4.762e-07 -6.322 -6.322 0.000 (0) I 6.243e-07 I- 6.243e-07 6.243e-07 -6.205 -6.205 -0.000 (0) K 1.540e-03 @@ -145992,15 +145956,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.807e-07 - Nat+ 2.807e-07 2.807e-07 -6.552 -6.552 -0.000 (0) +Nat 2.850e-07 + Nat+ 2.850e-07 2.850e-07 -6.545 -6.545 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.109 -70.073 0.036 30.40 -S(-2) 9.238e-09 - HS- 6.459e-09 4.252e-09 -8.190 -8.371 -0.182 21.14 - H2S 2.779e-09 3.021e-09 -8.556 -8.520 0.036 36.27 - S-2 2.622e-14 6.320e-15 -13.581 -14.199 -0.618 (0) - (H2S)2 4.424e-19 4.810e-19 -18.354 -18.318 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.107 -70.071 0.036 30.40 +S(-2) 9.165e-09 + HS- 6.408e-09 4.219e-09 -8.193 -8.375 -0.182 21.14 + H2S 2.757e-09 2.997e-09 -8.560 -8.523 0.036 36.27 + S-2 2.601e-14 6.270e-15 -13.585 -14.203 -0.618 (0) + (H2S)2 4.355e-19 4.734e-19 -18.361 -18.325 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -146027,7 +145991,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.39 -11.19 -2.80 CH4 + CH4(g) -8.39 -11.20 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -146041,7 +146005,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.18 -70.07 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.39 -0.51 4.88 S + Sulfur -5.40 -0.51 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -146065,7 +146029,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.352e-11 Surface + diffuse layer charge, eq + -9.351e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -146075,7 +146039,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -146086,12 +146050,12 @@ Su Ca 7.1884e-02 Cl 4.6624e-10 H 1.2949e-04 - Hto 3.2463e-08 - I 3.9050e-20 + Hto 3.2023e-08 + I 3.9056e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1688e-08 + Nat 7.9439e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -146110,12 +146074,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.751e-07 3.241e-08 + Hto 2.714e-07 3.197e-08 I 3.315e-07 3.905e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.390e-07 1.638e-08 + Nat 1.352e-07 1.592e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -146133,7 +146097,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.513e-09 + Electrical balance (eq) = 3.479e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -146147,8 +146111,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.249e-11 - CH4 2.249e-11 2.445e-11 -10.648 -10.612 0.036 35.46 +C(-4) 2.254e-11 + CH4 2.254e-11 2.450e-11 -10.647 -10.611 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -146172,10 +146136,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.787e-11 - H2 8.937e-12 9.717e-12 -11.049 -11.012 0.036 28.61 -Hto 2.751e-07 - Hto 2.751e-07 2.751e-07 -6.560 -6.560 0.000 (0) +H(0) 1.788e-11 + H2 8.941e-12 9.721e-12 -11.049 -11.012 0.036 28.61 +Hto 2.714e-07 + Hto 2.714e-07 2.714e-07 -6.566 -6.566 0.000 (0) I 3.315e-07 I- 3.315e-07 3.315e-07 -6.480 -6.480 -0.000 (0) K 1.540e-03 @@ -146193,15 +146157,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.390e-07 - Nat+ 1.390e-07 1.390e-07 -6.857 -6.857 -0.000 (0) +Nat 1.352e-07 + Nat+ 1.352e-07 1.352e-07 -6.869 -6.869 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.400 -70.364 0.036 30.40 -S(-2) 3.525e-08 - HS- 2.465e-08 1.623e-08 -7.608 -7.790 -0.182 21.14 - H2S 1.060e-08 1.152e-08 -7.975 -7.938 0.036 36.27 - S-2 1.001e-13 2.413e-14 -12.999 -13.617 -0.618 (0) - (H2S)2 6.435e-18 6.996e-18 -17.191 -17.155 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.401 -70.364 0.036 30.40 +S(-2) 3.532e-08 + HS- 2.470e-08 1.626e-08 -7.607 -7.789 -0.182 21.14 + H2S 1.062e-08 1.154e-08 -7.974 -7.938 0.036 36.27 + S-2 1.003e-13 2.418e-14 -12.999 -13.617 -0.618 (0) + (H2S)2 6.460e-18 7.023e-18 -17.190 -17.153 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -146266,7 +146230,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.564e-11 Surface + diffuse layer charge, eq + -9.563e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -146276,7 +146240,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -146287,12 +146251,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 1.4887e-08 + Hto 1.4316e-08 I 1.6080e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8057e-08 + Nat 2.5827e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -146311,12 +146275,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.262e-07 1.486e-08 + Hto 1.213e-07 1.429e-08 I 1.365e-07 1.608e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.774e-08 5.624e-09 + Nat 4.395e-08 5.177e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -146334,7 +146298,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.123e-09 + Electrical balance (eq) = -1.122e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -146348,15 +146312,15 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.900e-11 - CH4 2.900e-11 3.153e-11 -10.538 -10.501 0.036 35.46 +C(-4) 2.904e-11 + CH4 2.904e-11 3.157e-11 -10.537 -10.501 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.017e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.631e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.610e-07 -5.471 -6.065 -0.594 -1.53 @@ -146367,16 +146331,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.017e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) H(0) 1.905e-11 - H2 9.524e-12 1.035e-11 -11.021 -10.985 0.036 28.61 -Hto 1.262e-07 - Hto 1.262e-07 1.262e-07 -6.899 -6.899 0.000 (0) + H2 9.527e-12 1.036e-11 -11.021 -10.985 0.036 28.61 +Hto 1.213e-07 + Hto 1.213e-07 1.213e-07 -6.916 -6.916 0.000 (0) I 1.365e-07 I- 1.365e-07 1.365e-07 -6.865 -6.865 -0.000 (0) K 1.540e-03 @@ -146394,15 +146358,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.774e-08 - Nat+ 4.774e-08 4.774e-08 -7.321 -7.321 -0.000 (0) +Nat 4.395e-08 + Nat+ 4.395e-08 4.395e-08 -7.357 -7.357 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.455 -70.419 0.036 30.40 -S(-2) 4.545e-08 - HS- 3.178e-08 2.092e-08 -7.498 -7.679 -0.182 21.14 - H2S 1.366e-08 1.485e-08 -7.865 -7.828 0.036 36.27 - S-2 1.291e-13 3.113e-14 -12.889 -13.507 -0.618 (0) - (H2S)2 1.069e-17 1.163e-17 -16.971 -16.935 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.456 -70.419 0.036 30.40 +S(-2) 4.550e-08 + HS- 3.182e-08 2.095e-08 -7.497 -7.679 -0.182 21.14 + H2S 1.368e-08 1.487e-08 -7.864 -7.828 0.036 36.27 + S-2 1.293e-13 3.116e-14 -12.888 -13.506 -0.618 (0) + (H2S)2 1.072e-17 1.165e-17 -16.970 -16.934 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -146443,7 +146407,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.53 -70.42 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.88 0.01 4.88 S + Sulfur -4.87 0.01 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -146477,7 +146441,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -146488,12 +146452,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 5.4959e-09 + Hto 5.1264e-09 I 5.2534e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.1753e-09 + Nat 6.2188e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -146512,12 +146476,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.658e-08 5.487e-09 + Hto 4.344e-08 5.118e-09 I 4.459e-08 5.253e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.221e-08 1.438e-09 + Nat 1.058e-08 1.247e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -146549,8 +146513,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.149e-11 - CH4 3.149e-11 3.423e-11 -10.502 -10.466 0.036 35.46 +C(-4) 3.151e-11 + CH4 3.151e-11 3.425e-11 -10.502 -10.465 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -146574,10 +146538,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.944e-11 - H2 9.722e-12 1.057e-11 -11.012 -10.976 0.036 28.61 -Hto 4.658e-08 - Hto 4.658e-08 4.658e-08 -7.332 -7.332 0.000 (0) +H(0) 1.945e-11 + H2 9.723e-12 1.057e-11 -11.012 -10.976 0.036 28.61 +Hto 4.344e-08 + Hto 4.344e-08 4.344e-08 -7.362 -7.362 0.000 (0) I 4.459e-08 I- 4.459e-08 4.459e-08 -7.351 -7.351 -0.000 (0) K 1.540e-03 @@ -146595,15 +146559,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.221e-08 - Nat+ 1.221e-08 1.221e-08 -7.913 -7.913 -0.000 (0) +Nat 1.058e-08 + Nat+ 1.058e-08 1.058e-08 -7.975 -7.975 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.473 -70.437 0.036 30.40 -S(-2) 4.934e-08 - HS- 3.451e-08 2.272e-08 -7.462 -7.644 -0.182 21.14 - H2S 1.483e-08 1.612e-08 -7.829 -7.793 0.036 36.27 - S-2 1.402e-13 3.380e-14 -12.853 -13.471 -0.618 (0) - (H2S)2 1.260e-17 1.370e-17 -16.900 -16.863 0.036 30.09 +S(-2) 4.936e-08 + HS- 3.453e-08 2.273e-08 -7.462 -7.643 -0.182 21.14 + H2S 1.484e-08 1.613e-08 -7.829 -7.792 0.036 36.27 + S-2 1.403e-13 3.382e-14 -12.853 -13.471 -0.618 (0) + (H2S)2 1.261e-17 1.372e-17 -16.899 -16.863 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -146678,7 +146642,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -146689,12 +146653,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2949e-04 - Hto 1.6649e-09 + Hto 1.5014e-09 I 1.3932e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4345e-09 + Nat 1.1674e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -146713,12 +146677,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.411e-08 1.662e-09 + Hto 1.272e-08 1.499e-09 I 1.182e-08 1.393e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.441e-09 2.876e-10 + Nat 1.986e-09 2.340e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -146750,8 +146714,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.231e-11 - CH4 3.231e-11 3.513e-11 -10.491 -10.454 0.036 35.46 +C(-4) 3.232e-11 + CH4 3.232e-11 3.514e-11 -10.490 -10.454 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -146776,9 +146740,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.957e-11 - H2 9.785e-12 1.064e-11 -11.009 -10.973 0.036 28.61 -Hto 1.411e-08 - Hto 1.411e-08 1.411e-08 -7.851 -7.851 0.000 (0) + H2 9.786e-12 1.064e-11 -11.009 -10.973 0.036 28.61 +Hto 1.272e-08 + Hto 1.272e-08 1.272e-08 -7.895 -7.895 0.000 (0) I 1.182e-08 I- 1.182e-08 1.182e-08 -7.927 -7.927 -0.000 (0) K 1.540e-03 @@ -146796,15 +146760,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.441e-09 - Nat+ 2.441e-09 2.441e-09 -8.612 -8.612 -0.000 (0) +Nat 1.986e-09 + Nat+ 1.986e-09 1.986e-09 -8.702 -8.702 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.479 -70.443 0.036 30.40 -S(-2) 5.063e-08 - HS- 3.541e-08 2.331e-08 -7.451 -7.632 -0.182 21.14 - H2S 1.522e-08 1.655e-08 -7.818 -7.781 0.036 36.27 - S-2 1.439e-13 3.468e-14 -12.842 -13.460 -0.618 (0) - (H2S)2 1.327e-17 1.443e-17 -16.877 -16.841 0.036 30.09 +S(-2) 5.065e-08 + HS- 3.542e-08 2.332e-08 -7.451 -7.632 -0.182 21.14 + H2S 1.522e-08 1.655e-08 -7.817 -7.781 0.036 36.27 + S-2 1.439e-13 3.469e-14 -12.842 -13.460 -0.618 (0) + (H2S)2 1.328e-17 1.444e-17 -16.877 -16.841 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -146869,7 +146833,7 @@ Kinetics 9. Diffuse Double Layer Surface-Complexation Model Su - -9.574e-11 Surface + diffuse layer charge, eq + -9.575e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -146879,7 +146843,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -146890,12 +146854,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2949e-04 - Hto 4.2093e-10 - I 3.0601e-22 + Hto 3.6618e-10 + I 3.0606e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3191e-10 + Nat 1.7693e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -146914,12 +146878,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.567e-09 4.202e-10 + Hto 3.103e-09 3.656e-10 I 2.598e-09 3.060e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.946e-10 4.649e-11 + Nat 3.011e-10 3.547e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -146951,8 +146915,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.247e-11 - CH4 3.247e-11 3.531e-11 -10.488 -10.452 0.036 35.46 +C(-4) 3.248e-11 + CH4 3.248e-11 3.531e-11 -10.488 -10.452 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -146976,10 +146940,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.959e-11 - H2 9.797e-12 1.065e-11 -11.009 -10.973 0.036 28.61 -Hto 3.567e-09 - Hto 3.567e-09 3.567e-09 -8.448 -8.448 0.000 (0) +H(0) 1.960e-11 + H2 9.798e-12 1.065e-11 -11.009 -10.973 0.036 28.61 +Hto 3.103e-09 + Hto 3.103e-09 3.103e-09 -8.508 -8.508 0.000 (0) I 2.598e-09 I- 2.598e-09 2.598e-09 -8.585 -8.585 -0.000 (0) K 1.540e-03 @@ -146997,15 +146961,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.946e-10 - Nat+ 3.946e-10 3.946e-10 -9.404 -9.404 -0.000 (0) +Nat 3.011e-10 + Nat+ 3.011e-10 3.011e-10 -9.521 -9.521 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.480 -70.444 0.036 30.40 -S(-2) 5.088e-08 +S(-2) 5.089e-08 HS- 3.559e-08 2.343e-08 -7.449 -7.630 -0.182 21.14 - H2S 1.529e-08 1.663e-08 -7.815 -7.779 0.036 36.27 - S-2 1.446e-13 3.485e-14 -12.840 -13.458 -0.618 (0) - (H2S)2 1.340e-17 1.457e-17 -16.873 -16.837 0.036 30.09 + H2S 1.530e-08 1.663e-08 -7.815 -7.779 0.036 36.27 + S-2 1.446e-13 3.486e-14 -12.840 -13.458 -0.618 (0) + (H2S)2 1.341e-17 1.458e-17 -16.873 -16.836 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -147080,7 +147044,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -147091,12 +147055,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2949e-04 - Hto 9.0100e-11 - I 5.6591e-23 + Hto 7.5490e-11 + I 5.6604e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1066e-11 + Nat 2.2199e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -147115,12 +147079,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.636e-10 8.995e-11 + Hto 6.397e-10 7.537e-11 I 4.804e-10 5.659e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.286e-11 6.228e-12 + Nat 3.777e-11 4.450e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -147152,8 +147116,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.232e-11 - CH4 3.232e-11 3.514e-11 -10.491 -10.454 0.036 35.46 +C(-4) 3.233e-11 + CH4 3.233e-11 3.515e-11 -10.490 -10.454 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -147179,8 +147143,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.957e-11 H2 9.786e-12 1.064e-11 -11.009 -10.973 0.036 28.61 -Hto 7.636e-10 - Hto 7.636e-10 7.636e-10 -9.117 -9.117 0.000 (0) +Hto 6.397e-10 + Hto 6.397e-10 6.397e-10 -9.194 -9.194 0.000 (0) I 4.804e-10 I- 4.804e-10 4.804e-10 -9.318 -9.318 -0.000 (0) K 1.540e-03 @@ -147198,15 +147162,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.286e-11 - Nat+ 5.286e-11 5.286e-11 -10.277 -10.277 -0.000 (0) +Nat 3.777e-11 + Nat+ 3.777e-11 3.777e-11 -10.423 -10.423 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.479 -70.443 0.036 30.40 -S(-2) 5.064e-08 - HS- 3.542e-08 2.332e-08 -7.451 -7.632 -0.182 21.14 - H2S 1.522e-08 1.655e-08 -7.818 -7.781 0.036 36.27 - S-2 1.439e-13 3.469e-14 -12.842 -13.460 -0.618 (0) - (H2S)2 1.328e-17 1.443e-17 -16.877 -16.841 0.036 30.09 +S(-2) 5.065e-08 + HS- 3.543e-08 2.332e-08 -7.451 -7.632 -0.182 21.14 + H2S 1.522e-08 1.655e-08 -7.817 -7.781 0.036 36.27 + S-2 1.439e-13 3.470e-14 -12.842 -13.460 -0.618 (0) + (H2S)2 1.328e-17 1.444e-17 -16.877 -16.840 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -147271,7 +147235,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.554e-11 Surface + diffuse layer charge, eq + -9.557e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -147281,7 +147245,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -147292,12 +147256,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 1.6521e-11 + Hto 1.3316e-11 I 8.9277e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5108e-12 + Nat 2.3484e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -147316,14 +147280,14 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.400e-10 1.649e-11 + Hto 1.128e-10 1.329e-11 I 7.578e-11 8.928e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.974e-12 7.038e-13 + Nat 3.996e-12 4.708e-13 S 1.260e-02 1.484e-03 - Sr 5.000e-04 5.890e-05 + Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- @@ -147339,8 +147303,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.073e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 9.494e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -147353,8 +147317,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.203e-11 - CH4 3.203e-11 3.483e-11 -10.494 -10.458 0.036 35.46 +C(-4) 3.204e-11 + CH4 3.204e-11 3.483e-11 -10.494 -10.458 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -147380,8 +147344,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.953e-11 H2 9.764e-12 1.062e-11 -11.010 -10.974 0.036 28.61 -Hto 1.400e-10 - Hto 1.400e-10 1.400e-10 -9.854 -9.854 0.000 (0) +Hto 1.128e-10 + Hto 1.128e-10 1.128e-10 -9.948 -9.948 0.000 (0) I 7.578e-11 I- 7.578e-11 7.578e-11 -10.120 -10.120 -0.000 (0) K 1.540e-03 @@ -147399,14 +147363,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.974e-12 - Nat+ 5.974e-12 5.974e-12 -11.224 -11.224 -0.000 (0) +Nat 3.996e-12 + Nat+ 3.996e-12 3.996e-12 -11.398 -11.398 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.477 -70.441 0.036 30.40 -S(-2) 5.019e-08 +S(-2) 5.020e-08 HS- 3.511e-08 2.311e-08 -7.455 -7.636 -0.182 21.14 H2S 1.509e-08 1.640e-08 -7.821 -7.785 0.036 36.27 - S-2 1.426e-13 3.438e-14 -12.846 -13.464 -0.618 (0) + S-2 1.427e-13 3.439e-14 -12.846 -13.464 -0.618 (0) (H2S)2 1.304e-17 1.418e-17 -16.885 -16.848 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -147472,7 +147436,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.545e-11 Surface + diffuse layer charge, eq + -9.546e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -147482,7 +147446,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -147493,12 +147457,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 2.6197e-12 - I 1.2139e-24 + Hto 2.0296e-12 + I 1.2143e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3933e-13 + Nat 2.1239e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -147517,12 +147481,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.220e-11 2.616e-12 + Hto 1.720e-11 2.026e-12 I 1.031e-11 1.214e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.774e-13 6.803e-14 + Nat 3.614e-13 4.258e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -147540,7 +147504,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.562e-10 + Electrical balance (eq) = -6.410e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -147581,8 +147545,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.949e-11 H2 9.747e-12 1.060e-11 -11.011 -10.975 0.036 28.61 -Hto 2.220e-11 - Hto 2.220e-11 2.220e-11 -10.654 -10.654 0.000 (0) +Hto 1.720e-11 + Hto 1.720e-11 1.720e-11 -10.764 -10.764 0.000 (0) I 1.031e-11 I- 1.031e-11 1.031e-11 -10.987 -10.987 -0.000 (0) K 1.540e-03 @@ -147600,8 +147564,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.774e-13 - Nat+ 5.774e-13 5.774e-13 -12.239 -12.239 -0.000 (0) +Nat 3.614e-13 + Nat+ 3.614e-13 3.614e-13 -12.442 -12.442 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.476 -70.439 0.036 30.40 S(-2) 4.985e-08 @@ -147683,7 +147647,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -147694,12 +147658,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 3.6204e-13 + Hto 2.6944e-13 I 1.4353e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8346e-14 + Nat 1.6596e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -147718,12 +147682,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.068e-12 3.615e-13 + Hto 2.283e-12 2.690e-13 I 1.218e-12 1.435e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.823e-14 5.682e-15 + Nat 2.824e-14 3.327e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -147741,7 +147705,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.012e-09 + Electrical balance (eq) = -1.014e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -147782,8 +147746,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.948e-11 H2 9.741e-12 1.059e-11 -11.011 -10.975 0.036 28.61 -Hto 3.068e-12 - Hto 3.068e-12 3.068e-12 -11.513 -11.513 0.000 (0) +Hto 2.283e-12 + Hto 2.283e-12 2.283e-12 -11.641 -11.641 0.000 (0) I 1.218e-12 I- 1.218e-12 1.218e-12 -11.914 -11.914 -0.000 (0) K 1.540e-03 @@ -147801,13 +147765,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.823e-14 - Nat+ 4.823e-14 4.823e-14 -13.317 -13.317 -0.000 (0) +Nat 2.824e-14 + Nat+ 2.824e-14 2.824e-14 -13.549 -13.549 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.475 -70.439 0.036 30.40 S(-2) 4.972e-08 HS- 3.477e-08 2.289e-08 -7.459 -7.640 -0.182 21.14 - H2S 1.495e-08 1.625e-08 -7.825 -7.789 0.036 36.27 + H2S 1.494e-08 1.625e-08 -7.826 -7.789 0.036 36.27 S-2 1.413e-13 3.406e-14 -12.850 -13.468 -0.618 (0) (H2S)2 1.280e-17 1.391e-17 -16.893 -16.857 0.036 30.09 S(6) 1.260e-02 @@ -147884,7 +147848,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -147895,12 +147859,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 4.3876e-14 - I 1.4856e-26 + Hto 3.1351e-14 + I 1.4853e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0631e-15 + Nat 1.1297e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -147919,12 +147883,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.718e-13 4.381e-14 + Hto 2.657e-13 3.130e-14 I 1.261e-13 1.485e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.511e-15 4.136e-16 + Nat 1.922e-15 2.265e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.890e-05 @@ -147983,8 +147947,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.949e-11 H2 9.744e-12 1.059e-11 -11.011 -10.975 0.036 28.61 -Hto 3.718e-13 - Hto 3.718e-13 3.718e-13 -12.430 -12.430 0.000 (0) +Hto 2.657e-13 + Hto 2.657e-13 2.657e-13 -12.576 -12.576 0.000 (0) I 1.261e-13 I- 1.261e-13 1.261e-13 -12.899 -12.899 -0.000 (0) K 1.540e-03 @@ -148002,12 +147966,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.511e-15 - Nat+ 3.511e-15 3.511e-15 -14.455 -14.455 -0.000 (0) +Nat 1.922e-15 + Nat+ 1.922e-15 1.922e-15 -14.716 -14.716 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.475 -70.439 0.036 30.40 S(-2) 4.979e-08 - HS- 3.483e-08 2.293e-08 -7.458 -7.640 -0.182 21.14 + HS- 3.482e-08 2.292e-08 -7.458 -7.640 -0.182 21.14 H2S 1.497e-08 1.627e-08 -7.825 -7.789 0.036 36.27 S-2 1.415e-13 3.411e-14 -12.849 -13.467 -0.618 (0) (H2S)2 1.283e-17 1.395e-17 -16.892 -16.855 0.036 30.09 @@ -148085,7 +148049,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -148096,12 +148060,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2949e-04 - Hto 4.6859e-15 - I 1.3521e-27 + Hto 3.2136e-15 + I 1.3525e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3167e-16 + Nat 6.7422e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -148120,12 +148084,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.971e-14 4.678e-15 + Hto 2.723e-14 3.208e-15 I 1.148e-14 1.352e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.240e-16 2.639e-17 + Nat 1.147e-16 1.352e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -148143,7 +148107,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 4.652e-10 + Electrical balance (eq) = 2.978e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -148165,7 +148129,7 @@ C(4) 2.744e-03 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.632e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.611e-07 -5.471 -6.065 -0.594 -1.53 @@ -148176,7 +148140,7 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 @@ -148184,8 +148148,8 @@ Cl 3.000e-01 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.952e-11 H2 9.761e-12 1.061e-11 -11.011 -10.974 0.036 28.61 -Hto 3.971e-14 - Hto 3.971e-14 3.971e-14 -13.401 -13.401 0.000 (0) +Hto 2.723e-14 + Hto 2.723e-14 2.723e-14 -13.565 -13.565 0.000 (0) I 1.148e-14 I- 1.148e-14 1.148e-14 -13.940 -13.940 -0.000 (0) K 1.540e-03 @@ -148203,15 +148167,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.240e-16 - Nat+ 2.240e-16 2.240e-16 -15.650 -15.650 -0.000 (0) +Nat 1.147e-16 + Nat+ 1.147e-16 1.147e-16 -15.940 -15.940 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.477 -70.440 0.036 30.40 -S(-2) 5.013e-08 +S(-2) 5.012e-08 HS- 3.506e-08 2.308e-08 -7.455 -7.637 -0.182 21.14 H2S 1.507e-08 1.638e-08 -7.822 -7.786 0.036 36.27 S-2 1.424e-13 3.434e-14 -12.846 -13.464 -0.618 (0) - (H2S)2 1.301e-17 1.414e-17 -16.886 -16.850 0.036 30.09 + (H2S)2 1.300e-17 1.414e-17 -16.886 -16.850 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -148286,7 +148250,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -148297,12 +148261,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2949e-04 - Hto 4.4272e-16 + Hto 2.9131e-16 I 1.0878e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.4035e-18 + Nat 3.5448e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -148321,12 +148285,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.752e-15 4.420e-16 + Hto 2.469e-15 2.908e-16 I 9.233e-16 1.088e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.260e-17 1.484e-18 + Nat 6.032e-18 7.106e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -148358,8 +148322,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.233e-11 - CH4 3.233e-11 3.516e-11 -10.490 -10.454 0.036 35.46 +C(-4) 3.234e-11 + CH4 3.234e-11 3.516e-11 -10.490 -10.454 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -148385,8 +148349,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.957e-11 H2 9.787e-12 1.064e-11 -11.009 -10.973 0.036 28.61 -Hto 3.752e-15 - Hto 3.752e-15 3.752e-15 -14.426 -14.426 0.000 (0) +Hto 2.469e-15 + Hto 2.469e-15 2.469e-15 -14.608 -14.608 0.000 (0) I 9.233e-16 I- 9.233e-16 9.233e-16 -15.035 -15.035 -0.000 (0) K 1.540e-03 @@ -148404,11 +148368,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.260e-17 - Nat+ 1.260e-17 1.260e-17 -16.900 -16.900 -0.000 (0) +Nat 6.032e-18 + Nat+ 6.032e-18 6.032e-18 -17.220 -17.220 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.479 -70.443 0.036 30.40 -S(-2) 5.066e-08 +S(-2) 5.067e-08 HS- 3.544e-08 2.333e-08 -7.451 -7.632 -0.182 21.14 H2S 1.523e-08 1.656e-08 -7.817 -7.781 0.036 36.27 S-2 1.440e-13 3.471e-14 -12.842 -13.460 -0.618 (0) @@ -148487,7 +148451,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -148498,12 +148462,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2949e-04 - Hto 3.7108e-17 - I 7.7561e-30 + Hto 2.3422e-17 + I 7.7546e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6813e-19 + Nat 1.6479e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -148522,12 +148486,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.145e-16 3.705e-17 + Hto 1.985e-16 2.338e-17 I 6.582e-17 7.755e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.264e-19 7.380e-20 + Nat 2.804e-19 3.304e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -148585,9 +148549,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.961e-11 - H2 9.804e-12 1.066e-11 -11.009 -10.972 0.036 28.61 -Hto 3.145e-16 - Hto 3.145e-16 3.145e-16 -15.502 -15.502 0.000 (0) + H2 9.805e-12 1.066e-11 -11.009 -10.972 0.036 28.61 +Hto 1.985e-16 + Hto 1.985e-16 1.985e-16 -15.702 -15.702 0.000 (0) I 6.582e-17 I- 6.582e-17 6.582e-17 -16.182 -16.182 -0.000 (0) K 1.540e-03 @@ -148605,15 +148569,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.264e-19 - Nat+ 6.264e-19 6.264e-19 -18.203 -18.203 -0.000 (0) +Nat 2.804e-19 + Nat+ 2.804e-19 2.804e-19 -18.552 -18.552 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.481 -70.444 0.036 30.40 S(-2) 5.103e-08 - HS- 3.569e-08 2.349e-08 -7.447 -7.629 -0.182 21.14 + HS- 3.569e-08 2.350e-08 -7.447 -7.629 -0.182 21.14 H2S 1.534e-08 1.668e-08 -7.814 -7.778 0.036 36.27 S-2 1.450e-13 3.496e-14 -12.839 -13.456 -0.618 (0) - (H2S)2 1.348e-17 1.465e-17 -16.870 -16.834 0.036 30.09 + (H2S)2 1.348e-17 1.466e-17 -16.870 -16.834 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -148688,7 +148652,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -148699,12 +148663,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 2.7650e-18 - I 4.9102e-31 + Hto 1.6737e-18 + I 4.9111e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6229e-20 + Nat 6.7916e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -148723,12 +148687,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.343e-17 2.761e-18 + Hto 1.418e-17 1.671e-18 I 4.168e-18 4.910e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.761e-20 3.253e-21 + Nat 1.156e-20 1.361e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -148787,8 +148751,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.962e-11 H2 9.811e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 2.343e-17 - Hto 2.343e-17 2.343e-17 -16.630 -16.630 0.000 (0) +Hto 1.418e-17 + Hto 1.418e-17 1.418e-17 -16.848 -16.848 0.000 (0) I 4.168e-18 I- 4.168e-18 4.168e-18 -17.380 -17.380 -0.000 (0) K 1.540e-03 @@ -148806,8 +148770,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.761e-20 - Nat+ 2.761e-20 2.761e-20 -19.559 -19.559 -0.000 (0) +Nat 1.156e-20 + Nat+ 1.156e-20 1.156e-20 -19.937 -19.937 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.481 -70.445 0.036 30.40 S(-2) 5.117e-08 @@ -148889,7 +148853,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -148900,12 +148864,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 1.8338e-19 - I 2.7655e-32 + Hto 1.0644e-19 + I 2.7661e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3524e-22 + Nat 2.4846e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -148924,12 +148888,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.554e-18 1.831e-19 + Hto 9.020e-19 1.063e-19 I 2.347e-19 2.765e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.081e-21 1.273e-22 + Nat 4.228e-22 4.981e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -148988,8 +148952,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.963e-11 H2 9.813e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 1.554e-18 - Hto 1.554e-18 1.554e-18 -17.809 -17.809 0.000 (0) +Hto 9.020e-19 + Hto 9.020e-19 9.020e-19 -18.045 -18.045 0.000 (0) I 2.347e-19 I- 2.347e-19 2.347e-19 -18.629 -18.629 -0.000 (0) K 1.540e-03 @@ -149007,8 +148971,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.081e-21 - Nat+ 1.081e-21 1.081e-21 -20.966 -20.966 -0.000 (0) +Nat 4.228e-22 + Nat+ 4.228e-22 4.228e-22 -21.374 -21.374 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.481 -70.445 0.036 30.40 S(-2) 5.121e-08 @@ -149090,7 +149054,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -149101,12 +149065,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 1.0830e-20 + Hto 6.0263e-21 I 1.3860e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1945e-23 + Nat 7.9370e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -149125,12 +149089,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.178e-20 1.081e-20 + Hto 5.107e-20 6.017e-21 I 1.176e-20 1.386e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.734e-23 4.399e-24 + Nat 1.351e-23 1.591e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -149189,8 +149153,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.963e-11 H2 9.813e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 9.178e-20 - Hto 9.178e-20 9.178e-20 -19.037 -19.037 0.000 (0) +Hto 5.107e-20 + Hto 5.107e-20 5.107e-20 -19.292 -19.292 0.000 (0) I 1.176e-20 I- 1.176e-20 1.176e-20 -19.929 -19.929 -0.000 (0) K 1.540e-03 @@ -149208,8 +149172,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.734e-23 - Nat+ 3.734e-23 3.734e-23 -22.428 -22.428 -0.000 (0) +Nat 1.351e-23 + Nat+ 1.351e-23 1.351e-23 -22.869 -22.869 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.481 -70.445 0.036 30.40 S(-2) 5.121e-08 @@ -149291,7 +149255,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -149302,12 +149266,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 5.6929e-22 + Hto 3.0366e-22 I 6.1749e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5596e-25 + Nat 1.0221e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -149326,12 +149290,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.824e-21 5.684e-22 + Hto 2.573e-21 3.032e-22 I 5.241e-22 6.174e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.460e-25 1.115e-25 + Nat 1.739e-25 2.049e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -149390,8 +149354,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.963e-11 H2 9.813e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 4.824e-21 - Hto 4.824e-21 4.824e-21 -20.317 -20.317 0.000 (0) +Hto 2.573e-21 + Hto 2.573e-21 2.573e-21 -20.589 -20.589 0.000 (0) I 5.241e-22 I- 5.241e-22 5.241e-22 -21.281 -21.281 -0.000 (0) K 1.540e-03 @@ -149409,8 +149373,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.460e-25 - Nat+ 9.460e-25 9.460e-25 -24.024 -24.024 -0.000 (0) +Nat 1.739e-25 + Nat+ 1.739e-25 1.739e-25 -24.760 -24.760 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.481 -70.445 0.036 30.40 S(-2) 5.121e-08 @@ -149492,7 +149456,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -149503,8 +149467,8 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 2.6545e-23 - I 2.3785e-36 + Hto 1.3553e-23 + I 2.3789e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -149526,7 +149490,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.250e-22 2.650e-23 + Hto 1.149e-22 1.353e-23 I 2.019e-23 2.378e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -149589,8 +149553,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.963e-11 H2 9.813e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 2.250e-22 - Hto 2.250e-22 2.250e-22 -21.648 -21.648 0.000 (0) +Hto 1.149e-22 + Hto 1.149e-22 1.149e-22 -21.940 -21.940 0.000 (0) I 2.019e-23 I- 2.019e-23 2.019e-23 -22.695 -22.695 -0.000 (0) K 1.540e-03 @@ -149689,7 +149653,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -149700,7 +149664,7 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 1.0636e-24 + Hto 4.8912e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -149722,7 +149686,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.014e-24 1.062e-24 + Hto 4.145e-24 4.883e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 @@ -149784,8 +149748,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.963e-11 H2 9.813e-12 1.067e-11 -11.008 -10.972 0.036 28.61 -Hto 9.014e-24 - Hto 9.014e-24 9.014e-24 -23.045 -23.045 0.000 (0) +Hto 4.145e-24 + Hto 4.145e-24 4.145e-24 -23.382 -23.382 0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 @@ -150171,30 +150135,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.523e-07 2.762e-07 + Hto 5.577e-07 2.789e-07 I 7.256e-07 3.628e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.157e-07 1.578e-07 + Nat 3.233e-07 1.617e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.023 Adjusted to redox equilibrium + pe = -3.022 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.602e-13 + Electrical balance (eq) = -3.072e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -150208,8 +150172,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.843e-12 - CH4 1.843e-12 2.004e-12 -11.734 -11.698 0.036 35.46 +C(-4) 1.805e-12 + CH4 1.805e-12 1.963e-12 -11.743 -11.707 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -150219,7 +150183,7 @@ C(4) 2.744e-03 CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.379e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 + CO3-2 3.378e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 @@ -150233,10 +150197,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.562e-12 - H2 4.781e-12 5.198e-12 -11.320 -11.284 0.036 28.61 -Hto 5.523e-07 - Hto 5.523e-07 5.523e-07 -6.258 -6.258 0.000 (0) +H(0) 9.512e-12 + H2 4.756e-12 5.171e-12 -11.323 -11.286 0.036 28.61 +Hto 5.577e-07 + Hto 5.577e-07 5.577e-07 -6.254 -6.254 0.000 (0) I 7.256e-07 I- 7.256e-07 7.256e-07 -6.139 -6.139 -0.000 (0) K 1.540e-03 @@ -150254,15 +150218,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.157e-07 - Nat+ 3.157e-07 3.157e-07 -6.501 -6.501 -0.000 (0) +Nat 3.233e-07 + Nat+ 3.233e-07 3.233e-07 -6.490 -6.490 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.857 -69.820 0.036 30.40 -S(-2) 2.890e-09 - HS- 2.020e-09 1.330e-09 -8.695 -8.876 -0.182 21.14 - H2S 8.694e-10 9.452e-10 -9.061 -9.024 0.036 36.27 - S-2 8.200e-15 1.977e-15 -14.086 -14.704 -0.618 (0) - (H2S)2 4.330e-20 4.708e-20 -19.363 -19.327 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.852 -69.816 0.036 30.40 +S(-2) 2.830e-09 + HS- 1.979e-09 1.303e-09 -8.704 -8.885 -0.182 21.14 + H2S 8.514e-10 9.257e-10 -9.070 -9.034 0.036 36.27 + S-2 8.030e-15 1.936e-15 -14.095 -14.713 -0.618 (0) + (H2S)2 4.153e-20 4.515e-20 -19.382 -19.345 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -150289,21 +150253,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.90 -11.70 -2.80 CH4 + CH4(g) -8.91 -11.71 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.18 -11.28 -3.10 H2 + H2(g) -8.19 -11.29 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.03 -15.97 -7.94 H2S + H2S(g) -8.04 -15.98 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.93 -69.82 -2.89 O2 + O2(g) -66.92 -69.82 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.77 -0.89 4.88 S + Sulfur -5.78 -0.90 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -150327,7 +150291,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.763e-14 Surface + diffuse layer charge, eq + -4.752e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -150337,7 +150301,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -150348,12 +150312,12 @@ Su Ca 7.1884e-02 Cl 4.6655e-10 H 1.2947e-04 - Hto 5.5721e-08 + Hto 5.5994e-08 I 7.3467e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6371e-07 + Nat 1.6630e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -150372,12 +150336,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.722e-07 5.563e-08 + Hto 4.745e-07 5.590e-08 I 6.236e-07 7.347e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.786e-07 3.282e-08 + Nat 2.830e-07 3.334e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -150388,14 +150352,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.672e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -150409,8 +150373,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.155e-12 - CH4 6.155e-12 6.692e-12 -11.211 -11.174 0.036 35.46 +C(-4) 6.108e-12 + CH4 6.108e-12 6.641e-12 -11.214 -11.178 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -150423,7 +150387,7 @@ C(4) 2.744e-03 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 - (CO2)2 1.277e-09 1.389e-09 -8.894 -8.857 0.036 68.87 + (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 @@ -150433,11 +150397,11 @@ Ca 2.590e-02 CaHSO4+ 1.067e-09 7.794e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 - HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.293e-11 - H2 6.463e-12 7.027e-12 -11.190 -11.153 0.036 28.61 -Hto 4.722e-07 - Hto 4.722e-07 4.722e-07 -6.326 -6.326 0.000 (0) + HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) +H(0) 1.290e-11 + H2 6.451e-12 7.013e-12 -11.190 -11.154 0.036 28.61 +Hto 4.745e-07 + Hto 4.745e-07 4.745e-07 -6.324 -6.324 0.000 (0) I 6.236e-07 I- 6.236e-07 6.236e-07 -6.205 -6.205 -0.000 (0) K 1.540e-03 @@ -150455,15 +150419,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.786e-07 - Nat+ 2.786e-07 2.786e-07 -6.555 -6.555 -0.000 (0) +Nat 2.830e-07 + Nat+ 2.830e-07 2.830e-07 -6.548 -6.548 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.119 -70.082 0.036 30.40 -S(-2) 9.649e-09 - HS- 6.747e-09 4.441e-09 -8.171 -8.352 -0.182 21.14 - H2S 2.902e-09 3.156e-09 -8.537 -8.501 0.036 36.27 - S-2 2.738e-14 6.601e-15 -13.562 -14.180 -0.618 (0) - (H2S)2 4.826e-19 5.247e-19 -18.316 -18.280 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.117 -70.081 0.036 30.40 +S(-2) 9.574e-09 + HS- 6.694e-09 4.407e-09 -8.174 -8.356 -0.182 21.14 + H2S 2.880e-09 3.131e-09 -8.541 -8.504 0.036 36.27 + S-2 2.717e-14 6.550e-15 -13.566 -14.184 -0.618 (0) + (H2S)2 4.752e-19 5.166e-19 -18.323 -18.287 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -150479,7 +150443,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 - SrOH+ 1.153e-10 8.079e-11 -9.938 -10.093 -0.154 (0) + SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -150490,14 +150454,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.37 -11.17 -2.80 CH4 + CH4(g) -8.38 -11.18 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.05 -11.15 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.51 -15.44 -7.94 H2S + H2S(g) -7.51 -15.45 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -150528,7 +150492,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.369e-11 Surface + diffuse layer charge, eq + -9.368e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -150538,7 +150502,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -150549,12 +150513,12 @@ Su Ca 7.1884e-02 Cl 4.6623e-10 H 1.2949e-04 - Hto 3.2777e-08 - I 3.9586e-20 + Hto 3.2355e-08 + I 3.9579e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.2649e-08 + Nat 8.0488e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -150573,12 +150537,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.778e-07 3.272e-08 + Hto 2.742e-07 3.230e-08 I 3.359e-07 3.958e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.406e-07 1.657e-08 + Nat 1.370e-07 1.614e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -150596,7 +150560,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.419e-09 + Electrical balance (eq) = 3.386e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -150610,8 +150574,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.311e-11 - CH4 2.311e-11 2.513e-11 -10.636 -10.600 0.036 35.46 +C(-4) 2.316e-11 + CH4 2.316e-11 2.518e-11 -10.635 -10.599 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -150636,9 +150600,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) H(0) 1.800e-11 - H2 8.998e-12 9.783e-12 -11.046 -11.010 0.036 28.61 -Hto 2.778e-07 - Hto 2.778e-07 2.778e-07 -6.556 -6.556 0.000 (0) + H2 9.002e-12 9.788e-12 -11.046 -11.009 0.036 28.61 +Hto 2.742e-07 + Hto 2.742e-07 2.742e-07 -6.562 -6.562 0.000 (0) I 3.359e-07 I- 3.359e-07 3.359e-07 -6.474 -6.474 -0.000 (0) K 1.540e-03 @@ -150656,15 +150620,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.406e-07 - Nat+ 1.406e-07 1.406e-07 -6.852 -6.852 -0.000 (0) +Nat 1.370e-07 + Nat+ 1.370e-07 1.370e-07 -6.863 -6.863 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.406 -70.370 0.036 30.40 -S(-2) 3.622e-08 - HS- 2.533e-08 1.667e-08 -7.596 -7.778 -0.182 21.14 - H2S 1.089e-08 1.184e-08 -7.963 -7.927 0.036 36.27 - S-2 1.029e-13 2.480e-14 -12.988 -13.606 -0.618 (0) - (H2S)2 6.793e-18 7.385e-18 -17.168 -17.132 0.036 30.09 +S(-2) 3.629e-08 + HS- 2.538e-08 1.671e-08 -7.596 -7.777 -0.182 21.14 + H2S 1.091e-08 1.186e-08 -7.962 -7.926 0.036 36.27 + S-2 1.031e-13 2.485e-14 -12.987 -13.605 -0.618 (0) + (H2S)2 6.820e-18 7.415e-18 -17.166 -17.130 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -150739,7 +150703,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -150750,12 +150714,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2949e-04 - Hto 1.5324e-08 - I 1.6640e-20 + Hto 1.4753e-08 + I 1.6636e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9119e-08 + Nat 2.6862e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -150774,12 +150738,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.299e-07 1.530e-08 + Hto 1.250e-07 1.473e-08 I 1.412e-07 1.664e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.955e-08 5.837e-09 + Nat 4.571e-08 5.385e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -150811,15 +150775,15 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.984e-11 - CH4 2.984e-11 3.245e-11 -10.525 -10.489 0.036 35.46 +C(-4) 2.988e-11 + CH4 2.988e-11 3.249e-11 -10.525 -10.488 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.018e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.631e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.610e-07 -5.471 -6.065 -0.594 -1.53 @@ -150830,16 +150794,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.018e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.919e-11 - H2 9.593e-12 1.043e-11 -11.018 -10.982 0.036 28.61 -Hto 1.299e-07 - Hto 1.299e-07 1.299e-07 -6.887 -6.887 0.000 (0) + H2 9.595e-12 1.043e-11 -11.018 -10.982 0.036 28.61 +Hto 1.250e-07 + Hto 1.250e-07 1.250e-07 -6.903 -6.903 0.000 (0) I 1.412e-07 I- 1.412e-07 1.412e-07 -6.850 -6.850 -0.000 (0) K 1.540e-03 @@ -150857,15 +150821,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.955e-08 - Nat+ 4.955e-08 4.955e-08 -7.305 -7.305 -0.000 (0) +Nat 4.571e-08 + Nat+ 4.571e-08 4.571e-08 -7.340 -7.340 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.462 -70.425 0.036 30.40 -S(-2) 4.676e-08 - HS- 3.271e-08 2.153e-08 -7.485 -7.667 -0.182 21.14 - H2S 1.406e-08 1.528e-08 -7.852 -7.816 0.036 36.27 - S-2 1.329e-13 3.203e-14 -12.877 -13.494 -0.618 (0) - (H2S)2 1.132e-17 1.231e-17 -16.946 -16.910 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.462 -70.426 0.036 30.40 +S(-2) 4.682e-08 + HS- 3.275e-08 2.156e-08 -7.485 -7.666 -0.182 21.14 + H2S 1.407e-08 1.530e-08 -7.852 -7.815 0.036 36.27 + S-2 1.330e-13 3.207e-14 -12.876 -13.494 -0.618 (0) + (H2S)2 1.135e-17 1.234e-17 -16.945 -16.909 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -150940,7 +150904,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -150951,12 +150915,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2950e-04 - Hto 5.7923e-09 - I 5.5727e-21 + Hto 5.4119e-09 + I 5.5719e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.6665e-09 + Nat 6.6622e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -150975,12 +150939,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.909e-08 5.783e-09 + Hto 4.586e-08 5.403e-09 I 4.729e-08 5.572e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.305e-08 1.537e-09 + Nat 1.134e-08 1.336e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -151012,17 +150976,17 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.243e-11 - CH4 3.243e-11 3.526e-11 -10.489 -10.453 0.036 35.46 +C(-4) 3.245e-11 + CH4 3.245e-11 3.529e-11 -10.489 -10.452 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.019e-06 9.806e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.632e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.611e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.733e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 @@ -151031,16 +150995,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.019e-06 9.806e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.786e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.959e-11 - H2 9.794e-12 1.065e-11 -11.009 -10.973 0.036 28.61 -Hto 4.909e-08 - Hto 4.909e-08 4.909e-08 -7.309 -7.309 0.000 (0) + H2 9.796e-12 1.065e-11 -11.009 -10.973 0.036 28.61 +Hto 4.586e-08 + Hto 4.586e-08 4.586e-08 -7.339 -7.339 0.000 (0) I 4.729e-08 I- 4.729e-08 4.729e-08 -7.325 -7.325 -0.000 (0) K 1.540e-03 @@ -151052,21 +151016,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.632e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.899e-07 2.127e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.305e-08 - Nat+ 1.305e-08 1.305e-08 -7.885 -7.885 -0.000 (0) +Nat 1.134e-08 + Nat+ 1.134e-08 1.134e-08 -7.946 -7.946 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.480 -70.443 0.036 30.40 -S(-2) 5.082e-08 - HS- 3.554e-08 2.340e-08 -7.449 -7.631 -0.182 21.14 - H2S 1.528e-08 1.661e-08 -7.816 -7.780 0.036 36.27 - S-2 1.444e-13 3.481e-14 -12.840 -13.458 -0.618 (0) - (H2S)2 1.337e-17 1.454e-17 -16.874 -16.838 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.480 -70.444 0.036 30.40 +S(-2) 5.085e-08 + HS- 3.557e-08 2.341e-08 -7.449 -7.631 -0.182 21.14 + H2S 1.529e-08 1.662e-08 -7.816 -7.779 0.036 36.27 + S-2 1.445e-13 3.484e-14 -12.840 -13.458 -0.618 (0) + (H2S)2 1.339e-17 1.455e-17 -16.873 -16.837 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -151100,7 +151064,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.87 -10.97 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.79 -14.72 -7.94 H2S + H2S(g) -6.78 -14.72 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -151141,7 +151105,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -151152,12 +151116,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 1.8028e-09 - I 1.5202e-21 + Hto 1.6291e-09 + I 1.5204e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5817e-09 + Nat 1.2911e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -151176,12 +151140,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.528e-08 1.800e-09 + Hto 1.381e-08 1.626e-09 I 1.290e-08 1.520e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.692e-09 3.171e-10 + Nat 2.197e-09 2.588e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -151213,8 +151177,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.331e-11 - CH4 3.331e-11 3.621e-11 -10.477 -10.441 0.036 35.46 +C(-4) 3.332e-11 + CH4 3.332e-11 3.622e-11 -10.477 -10.441 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -151240,8 +151204,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.972e-11 H2 9.860e-12 1.072e-11 -11.006 -10.970 0.036 28.61 -Hto 1.528e-08 - Hto 1.528e-08 1.528e-08 -7.816 -7.816 0.000 (0) +Hto 1.381e-08 + Hto 1.381e-08 1.381e-08 -7.860 -7.860 0.000 (0) I 1.290e-08 I- 1.290e-08 1.290e-08 -7.889 -7.889 -0.000 (0) K 1.540e-03 @@ -151259,15 +151223,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.692e-09 - Nat+ 2.692e-09 2.692e-09 -8.570 -8.570 -0.000 (0) +Nat 2.197e-09 + Nat+ 2.197e-09 2.197e-09 -8.658 -8.658 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.485 -70.449 0.036 30.40 -S(-2) 5.218e-08 - HS- 3.650e-08 2.403e-08 -7.438 -7.619 -0.182 21.14 - H2S 1.569e-08 1.705e-08 -7.804 -7.768 0.036 36.27 - S-2 1.483e-13 3.575e-14 -12.829 -13.447 -0.618 (0) - (H2S)2 1.410e-17 1.533e-17 -16.851 -16.815 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.486 -70.449 0.036 30.40 +S(-2) 5.220e-08 + HS- 3.651e-08 2.404e-08 -7.438 -7.619 -0.182 21.14 + H2S 1.569e-08 1.706e-08 -7.804 -7.768 0.036 36.27 + S-2 1.484e-13 3.576e-14 -12.829 -13.447 -0.618 (0) + (H2S)2 1.410e-17 1.534e-17 -16.851 -16.814 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -151342,7 +151306,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -151353,12 +151317,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 4.6960e-10 + Hto 4.0950e-10 I 3.4442e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6441e-10 + Nat 2.0238e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -151377,12 +151341,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.980e-09 4.688e-10 + Hto 3.470e-09 4.088e-10 I 2.923e-09 3.444e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.499e-10 5.301e-11 + Nat 3.444e-10 4.057e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -151414,8 +151378,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.348e-11 - CH4 3.348e-11 3.640e-11 -10.475 -10.439 0.036 35.46 +C(-4) 3.349e-11 + CH4 3.349e-11 3.641e-11 -10.475 -10.439 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -151439,10 +151403,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.974e-11 - H2 9.872e-12 1.073e-11 -11.006 -10.969 0.036 28.61 -Hto 3.980e-09 - Hto 3.980e-09 3.980e-09 -8.400 -8.400 0.000 (0) +H(0) 1.975e-11 + H2 9.873e-12 1.073e-11 -11.006 -10.969 0.036 28.61 +Hto 3.470e-09 + Hto 3.470e-09 3.470e-09 -8.460 -8.460 0.000 (0) I 2.923e-09 I- 2.923e-09 2.923e-09 -8.534 -8.534 -0.000 (0) K 1.540e-03 @@ -151460,15 +151424,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.499e-10 - Nat+ 4.499e-10 4.499e-10 -9.347 -9.347 -0.000 (0) +Nat 3.444e-10 + Nat+ 3.444e-10 3.444e-10 -9.463 -9.463 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.487 -70.450 0.036 30.40 -S(-2) 5.246e-08 - HS- 3.669e-08 2.415e-08 -7.435 -7.617 -0.182 21.14 - H2S 1.577e-08 1.714e-08 -7.802 -7.766 0.036 36.27 - S-2 1.491e-13 3.594e-14 -12.827 -13.444 -0.618 (0) - (H2S)2 1.424e-17 1.549e-17 -16.846 -16.810 0.036 30.09 +S(-2) 5.247e-08 + HS- 3.670e-08 2.416e-08 -7.435 -7.617 -0.182 21.14 + H2S 1.577e-08 1.715e-08 -7.802 -7.766 0.036 36.27 + S-2 1.491e-13 3.594e-14 -12.826 -13.444 -0.618 (0) + (H2S)2 1.425e-17 1.549e-17 -16.846 -16.810 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -151543,7 +151507,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -151554,12 +151518,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 1.0381e-10 + Hto 8.7212e-11 I 6.5838e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6688e-11 + Nat 2.6307e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -151578,12 +151542,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.798e-10 1.036e-10 + Hto 7.391e-10 8.707e-11 I 5.588e-10 6.583e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.243e-11 7.355e-12 + Nat 4.476e-11 5.274e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -151616,7 +151580,7 @@ Su H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.334e-11 - CH4 3.334e-11 3.624e-11 -10.477 -10.441 0.036 35.46 + CH4 3.334e-11 3.625e-11 -10.477 -10.441 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -151642,8 +151606,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.972e-11 H2 9.862e-12 1.072e-11 -11.006 -10.970 0.036 28.61 -Hto 8.798e-10 - Hto 8.798e-10 8.798e-10 -9.056 -9.056 0.000 (0) +Hto 7.391e-10 + Hto 7.391e-10 7.391e-10 -9.131 -9.131 0.000 (0) I 5.588e-10 I- 5.588e-10 5.588e-10 -9.253 -9.253 -0.000 (0) K 1.540e-03 @@ -151661,15 +151625,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.243e-11 - Nat+ 6.243e-11 6.243e-11 -10.205 -10.205 -0.000 (0) +Nat 4.476e-11 + Nat+ 4.476e-11 4.476e-11 -10.349 -10.349 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.486 -70.449 0.036 30.40 -S(-2) 5.223e-08 - HS- 3.653e-08 2.405e-08 -7.437 -7.619 -0.182 21.14 +S(-2) 5.224e-08 + HS- 3.654e-08 2.405e-08 -7.437 -7.619 -0.182 21.14 H2S 1.570e-08 1.707e-08 -7.804 -7.768 0.036 36.27 - S-2 1.484e-13 3.578e-14 -12.828 -13.446 -0.618 (0) - (H2S)2 1.412e-17 1.535e-17 -16.850 -16.814 0.036 30.09 + S-2 1.485e-13 3.579e-14 -12.828 -13.446 -0.618 (0) + (H2S)2 1.413e-17 1.536e-17 -16.850 -16.814 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -151734,7 +151698,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.583e-11 Surface + diffuse layer charge, eq + -9.586e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -151744,7 +151708,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -151755,12 +151719,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 1.9702e-11 + Hto 1.5926e-11 I 1.0760e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3019e-12 + Nat 2.8879e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -151779,12 +151743,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.670e-10 1.967e-11 + Hto 1.350e-10 1.590e-11 I 9.131e-11 1.076e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.320e-12 8.624e-13 + Nat 4.914e-12 5.789e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -151802,8 +151766,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.028e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 8.538e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -151843,8 +151807,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.968e-11 H2 9.841e-12 1.070e-11 -11.007 -10.971 0.036 28.61 -Hto 1.670e-10 - Hto 1.670e-10 1.670e-10 -9.777 -9.777 0.000 (0) +Hto 1.350e-10 + Hto 1.350e-10 1.350e-10 -9.870 -9.870 0.000 (0) I 9.131e-11 I- 9.131e-11 9.131e-11 -10.039 -10.039 -0.000 (0) K 1.540e-03 @@ -151862,17 +151826,17 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.320e-12 - Nat+ 7.320e-12 7.320e-12 -11.135 -11.135 -0.000 (0) +Nat 4.914e-12 + Nat+ 4.914e-12 4.914e-12 -11.309 -11.309 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.484 -70.448 0.036 30.40 S(-2) 5.180e-08 - HS- 3.623e-08 2.385e-08 -7.441 -7.623 -0.182 21.14 + HS- 3.623e-08 2.385e-08 -7.441 -7.622 -0.182 21.14 H2S 1.557e-08 1.693e-08 -7.808 -7.771 0.036 36.27 - S-2 1.472e-13 3.548e-14 -12.832 -13.450 -0.618 (0) + S-2 1.472e-13 3.549e-14 -12.832 -13.450 -0.618 (0) (H2S)2 1.389e-17 1.510e-17 -16.857 -16.821 0.036 30.09 S(6) 1.260e-02 - SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 + SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 @@ -151935,7 +151899,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.574e-11 Surface + diffuse layer charge, eq + -9.575e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -151945,7 +151909,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -151956,12 +151920,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 3.2404e-12 + Hto 2.5183e-12 I 1.5184e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3214e-13 + Nat 2.7148e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -151980,12 +151944,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.746e-11 3.235e-12 + Hto 2.134e-11 2.514e-12 I 1.289e-11 1.518e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.353e-13 8.663e-14 + Nat 4.620e-13 5.442e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -152003,7 +151967,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.516e-10 + Electrical balance (eq) = -7.364e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -152044,8 +152008,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.965e-11 H2 9.825e-12 1.068e-11 -11.008 -10.971 0.036 28.61 -Hto 2.746e-11 - Hto 2.746e-11 2.746e-11 -10.561 -10.561 0.000 (0) +Hto 2.134e-11 + Hto 2.134e-11 2.134e-11 -10.671 -10.671 0.000 (0) I 1.289e-11 I- 1.289e-11 1.289e-11 -10.890 -10.890 -0.000 (0) K 1.540e-03 @@ -152058,13 +152022,13 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 - MgOH+ 2.899e-07 2.128e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.899e-07 2.127e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.353e-13 - Nat+ 7.353e-13 7.353e-13 -12.134 -12.134 -0.000 (0) +Nat 4.620e-13 + Nat+ 4.620e-13 4.620e-13 -12.335 -12.335 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.482 -70.446 0.036 30.40 S(-2) 5.146e-08 @@ -152146,7 +152110,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -152157,12 +152121,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 4.6543e-13 + Hto 3.4752e-13 I 1.8670e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7583e-14 + Nat 2.2088e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -152181,12 +152145,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.944e-12 4.647e-13 + Hto 2.945e-12 3.470e-13 I 1.585e-12 1.867e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.395e-14 7.534e-15 + Nat 3.759e-14 4.428e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -152204,7 +152168,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.107e-09 + Electrical balance (eq) = -1.110e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -152219,7 +152183,7 @@ Su H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.276e-11 - CH4 3.276e-11 3.562e-11 -10.485 -10.448 0.036 35.46 + CH4 3.276e-11 3.561e-11 -10.485 -10.448 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -152245,8 +152209,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.964e-11 H2 9.819e-12 1.068e-11 -11.008 -10.972 0.036 28.61 -Hto 3.944e-12 - Hto 3.944e-12 3.944e-12 -11.404 -11.404 0.000 (0) +Hto 2.945e-12 + Hto 2.945e-12 2.945e-12 -11.531 -11.531 0.000 (0) I 1.585e-12 I- 1.585e-12 1.585e-12 -11.800 -11.800 -0.000 (0) K 1.540e-03 @@ -152264,8 +152228,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.395e-14 - Nat+ 6.395e-14 6.395e-14 -13.194 -13.194 -0.000 (0) +Nat 3.759e-14 + Nat+ 3.759e-14 3.759e-14 -13.425 -13.425 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.482 -70.446 0.036 30.40 S(-2) 5.133e-08 @@ -152347,7 +152311,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -152358,12 +152322,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 5.8747e-14 - I 2.0132e-26 + Hto 4.2121e-14 + I 2.0129e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8532e-15 + Nat 1.5684e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -152382,12 +152346,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.979e-13 5.865e-14 + Hto 3.570e-13 4.205e-14 I 1.708e-13 2.013e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.855e-15 5.720e-16 + Nat 2.669e-15 3.144e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -152419,8 +152383,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.281e-11 - CH4 3.281e-11 3.567e-11 -10.484 -10.448 0.036 35.46 +C(-4) 3.280e-11 + CH4 3.280e-11 3.567e-11 -10.484 -10.448 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -152446,8 +152410,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.964e-11 H2 9.822e-12 1.068e-11 -11.008 -10.971 0.036 28.61 -Hto 4.979e-13 - Hto 4.979e-13 4.979e-13 -12.303 -12.303 0.000 (0) +Hto 3.570e-13 + Hto 3.570e-13 3.570e-13 -12.447 -12.447 0.000 (0) I 1.708e-13 I- 1.708e-13 1.708e-13 -12.767 -12.767 -0.000 (0) K 1.540e-03 @@ -152465,8 +152429,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.855e-15 - Nat+ 4.855e-15 4.855e-15 -14.314 -14.314 -0.000 (0) +Nat 2.669e-15 + Nat+ 2.669e-15 2.669e-15 -14.574 -14.574 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.482 -70.446 0.036 30.40 S(-2) 5.140e-08 @@ -152538,7 +152502,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.577e-11 Surface + diffuse layer charge, eq + -9.576e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -152548,7 +152512,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -152559,12 +152523,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 6.5488e-15 - I 1.9134e-27 + Hto 4.5070e-15 + I 1.9138e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9030e-16 + Nat 9.7831e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -152583,12 +152547,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.550e-14 6.538e-15 + Hto 3.820e-14 4.500e-15 I 1.624e-14 1.914e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.238e-16 3.815e-17 + Nat 1.665e-16 1.961e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -152606,7 +152570,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.697e-10 + Electrical balance (eq) = 2.023e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -152647,8 +152611,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.968e-11 H2 9.838e-12 1.070e-11 -11.007 -10.971 0.036 28.61 -Hto 5.550e-14 - Hto 5.550e-14 5.550e-14 -13.256 -13.256 0.000 (0) +Hto 3.820e-14 + Hto 3.820e-14 3.820e-14 -13.418 -13.418 0.000 (0) I 1.624e-14 I- 1.624e-14 1.624e-14 -13.789 -13.789 -0.000 (0) K 1.540e-03 @@ -152666,14 +152630,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.238e-16 - Nat+ 3.238e-16 3.238e-16 -15.490 -15.490 -0.000 (0) +Nat 1.665e-16 + Nat+ 1.665e-16 1.665e-16 -15.779 -15.779 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.484 -70.447 0.036 30.40 S(-2) 5.173e-08 - HS- 3.618e-08 2.382e-08 -7.441 -7.623 -0.182 21.14 + HS- 3.618e-08 2.382e-08 -7.442 -7.623 -0.182 21.14 H2S 1.555e-08 1.691e-08 -7.808 -7.772 0.036 36.27 - S-2 1.470e-13 3.544e-14 -12.833 -13.450 -0.618 (0) + S-2 1.470e-13 3.544e-14 -12.833 -13.451 -0.618 (0) (H2S)2 1.385e-17 1.506e-17 -16.858 -16.822 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 @@ -152739,7 +152703,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.587e-11 Surface + diffuse layer charge, eq + -9.586e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -152749,7 +152713,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -152760,12 +152724,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 6.4729e-16 + Hto 4.2747e-16 I 1.6112e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1207e-17 + Nat 5.3873e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -152784,12 +152748,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.486e-15 6.462e-16 + Hto 3.623e-15 4.268e-16 I 1.367e-15 1.611e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.907e-17 2.247e-18 + Nat 9.167e-18 1.080e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -152848,8 +152812,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.973e-11 H2 9.863e-12 1.072e-11 -11.006 -10.970 0.036 28.61 -Hto 5.486e-15 - Hto 5.486e-15 5.486e-15 -14.261 -14.261 0.000 (0) +Hto 3.623e-15 + Hto 3.623e-15 3.623e-15 -14.441 -14.441 0.000 (0) I 1.367e-15 I- 1.367e-15 1.367e-15 -14.864 -14.864 -0.000 (0) K 1.540e-03 @@ -152867,15 +152831,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.907e-17 - Nat+ 1.907e-17 1.907e-17 -16.720 -16.720 -0.000 (0) +Nat 9.167e-18 + Nat+ 9.167e-18 9.167e-18 -17.038 -17.038 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.486 -70.449 0.036 30.40 S(-2) 5.226e-08 HS- 3.655e-08 2.406e-08 -7.437 -7.619 -0.182 21.14 H2S 1.571e-08 1.708e-08 -7.804 -7.768 0.036 36.27 S-2 1.485e-13 3.580e-14 -12.828 -13.446 -0.618 (0) - (H2S)2 1.413e-17 1.537e-17 -16.850 -16.813 0.036 30.09 + (H2S)2 1.414e-17 1.537e-17 -16.850 -16.813 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.54 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -152950,7 +152914,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -152961,12 +152925,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 5.6900e-17 - I 1.2052e-29 + Hto 3.6048e-17 + I 1.2049e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8497e-19 + Nat 2.6292e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -152985,12 +152949,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.822e-16 5.681e-17 + Hto 3.055e-16 3.599e-17 I 1.023e-16 1.205e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.954e-19 1.173e-19 + Nat 4.474e-19 5.271e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -153049,8 +153013,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.976e-11 H2 9.880e-12 1.074e-11 -11.005 -10.969 0.036 28.61 -Hto 4.822e-16 - Hto 4.822e-16 4.822e-16 -15.317 -15.317 0.000 (0) +Hto 3.055e-16 + Hto 3.055e-16 3.055e-16 -15.515 -15.515 0.000 (0) I 1.023e-16 I- 1.023e-16 1.023e-16 -15.990 -15.990 -0.000 (0) K 1.540e-03 @@ -153068,14 +153032,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.954e-19 - Nat+ 9.954e-19 9.954e-19 -18.002 -18.002 -0.000 (0) +Nat 4.474e-19 + Nat+ 4.474e-19 4.474e-19 -18.349 -18.349 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.487 -70.451 0.036 30.40 S(-2) 5.262e-08 HS- 3.680e-08 2.423e-08 -7.434 -7.616 -0.182 21.14 H2S 1.582e-08 1.720e-08 -7.801 -7.765 0.036 36.27 - S-2 1.495e-13 3.605e-14 -12.825 -13.443 -0.618 (0) + S-2 1.496e-13 3.605e-14 -12.825 -13.443 -0.618 (0) (H2S)2 1.433e-17 1.558e-17 -16.844 -16.807 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -153151,7 +153115,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -153162,12 +153126,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 4.4582e-18 + Hto 2.7089e-18 I 8.0244e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.7140e-20 + Nat 1.1405e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -153186,12 +153150,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.778e-17 4.451e-18 + Hto 2.296e-17 2.705e-18 I 6.812e-18 8.025e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.618e-20 5.441e-21 + Nat 1.941e-20 2.286e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -153250,8 +153214,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.977e-11 H2 9.887e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 3.778e-17 - Hto 3.778e-17 3.778e-17 -16.423 -16.423 0.000 (0) +Hto 2.296e-17 + Hto 2.296e-17 2.296e-17 -16.639 -16.639 0.000 (0) I 6.812e-18 I- 6.812e-18 6.812e-18 -17.167 -17.167 -0.000 (0) K 1.540e-03 @@ -153269,12 +153233,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.618e-20 - Nat+ 4.618e-20 4.618e-20 -19.336 -19.336 -0.000 (0) +Nat 1.941e-20 + Nat+ 1.941e-20 1.941e-20 -19.712 -19.712 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.488 -70.452 0.036 30.40 -S(-2) 5.276e-08 - HS- 3.690e-08 2.429e-08 -7.433 -7.614 -0.182 21.14 +S(-2) 5.277e-08 + HS- 3.691e-08 2.430e-08 -7.433 -7.614 -0.182 21.14 H2S 1.586e-08 1.724e-08 -7.800 -7.763 0.036 36.27 S-2 1.500e-13 3.615e-14 -12.824 -13.442 -0.618 (0) (H2S)2 1.441e-17 1.567e-17 -16.841 -16.805 0.036 30.09 @@ -153342,7 +153306,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.598e-11 Surface + diffuse layer charge, eq + -9.597e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -153352,7 +153316,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -153363,12 +153327,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 3.1180e-19 + Hto 1.8168e-19 I 4.7685e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1213e-21 + Nat 4.4042e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -153387,12 +153351,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.642e-18 3.113e-19 + Hto 1.540e-18 1.814e-19 I 4.047e-19 4.767e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.908e-21 2.248e-22 + Nat 7.494e-22 8.829e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -153451,8 +153415,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.978e-11 H2 9.889e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 2.642e-18 - Hto 2.642e-18 2.642e-18 -17.578 -17.578 0.000 (0) +Hto 1.540e-18 + Hto 1.540e-18 1.540e-18 -17.813 -17.813 0.000 (0) I 4.047e-19 I- 4.047e-19 4.047e-19 -18.393 -18.393 -0.000 (0) K 1.540e-03 @@ -153470,14 +153434,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.908e-21 - Nat+ 1.908e-21 1.908e-21 -20.719 -20.719 -0.000 (0) +Nat 7.494e-22 + Nat+ 7.494e-22 7.494e-22 -21.125 -21.125 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.488 -70.452 0.036 30.40 S(-2) 5.280e-08 HS- 3.693e-08 2.431e-08 -7.433 -7.614 -0.182 21.14 H2S 1.587e-08 1.726e-08 -7.799 -7.763 0.036 36.27 - S-2 1.501e-13 3.617e-14 -12.824 -13.442 -0.618 (0) + S-2 1.501e-13 3.618e-14 -12.824 -13.442 -0.618 (0) (H2S)2 1.443e-17 1.569e-17 -16.841 -16.804 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -153553,7 +153517,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -153564,12 +153528,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 1.9481e-20 - I 2.5285e-33 + Hto 1.0883e-20 + I 2.5282e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1149e-23 + Nat 1.5024e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -153588,12 +153552,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.651e-19 1.945e-20 + Hto 9.223e-20 1.087e-20 I 2.146e-20 2.528e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.002e-23 8.249e-24 + Nat 2.557e-23 3.012e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -153652,8 +153616,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.978e-11 H2 9.889e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 1.651e-19 - Hto 1.651e-19 1.651e-19 -18.782 -18.782 0.000 (0) +Hto 9.223e-20 + Hto 9.223e-20 9.223e-20 -19.035 -19.035 0.000 (0) I 2.146e-20 I- 2.146e-20 2.146e-20 -19.668 -19.668 -0.000 (0) K 1.540e-03 @@ -153671,8 +153635,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.002e-23 - Nat+ 7.002e-23 7.002e-23 -22.155 -22.155 -0.000 (0) +Nat 2.557e-23 + Nat+ 2.557e-23 2.557e-23 -22.592 -22.592 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.488 -70.452 0.036 30.40 S(-2) 5.281e-08 @@ -153754,7 +153718,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -153765,12 +153729,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 1.0873e-21 - I 1.1969e-34 + Hto 5.8233e-22 + I 1.1967e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2319e-24 + Nat 2.8028e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -153789,12 +153753,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.214e-21 1.086e-21 + Hto 4.935e-21 5.814e-22 I 1.016e-21 1.197e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.096e-24 2.470e-25 + Nat 4.769e-25 5.619e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -153853,8 +153817,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.978e-11 H2 9.889e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 9.214e-21 - Hto 9.214e-21 9.214e-21 -20.036 -20.036 0.000 (0) +Hto 4.935e-21 + Hto 4.935e-21 4.935e-21 -20.307 -20.307 0.000 (0) I 1.016e-21 I- 1.016e-21 1.016e-21 -20.993 -20.993 -0.000 (0) K 1.540e-03 @@ -153872,8 +153836,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.096e-24 - Nat+ 2.096e-24 2.096e-24 -23.679 -23.679 -0.000 (0) +Nat 4.769e-25 + Nat+ 4.769e-25 4.769e-25 -24.322 -24.322 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.488 -70.452 0.036 30.40 S(-2) 5.281e-08 @@ -153945,7 +153909,7 @@ Kinetics 22. Diffuse Double Layer Surface-Complexation Model Su - -9.597e-11 Surface + diffuse layer charge, eq + -9.598e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -153955,7 +153919,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -153966,8 +153930,8 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 5.4118e-23 - I 4.9892e-36 + Hto 2.7764e-23 + I 4.9885e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -153989,7 +153953,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.586e-22 5.403e-23 + Hto 2.353e-22 2.772e-23 I 4.234e-23 4.988e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -154052,8 +154016,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.978e-11 H2 9.889e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 4.586e-22 - Hto 4.586e-22 4.586e-22 -21.339 -21.339 0.000 (0) +Hto 2.353e-22 + Hto 2.353e-22 2.353e-22 -21.628 -21.628 0.000 (0) I 4.234e-23 I- 4.234e-23 4.234e-23 -22.373 -22.373 -0.000 (0) K 1.540e-03 @@ -154142,7 +154106,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -9.598e-11 Surface + diffuse layer charge, eq + -9.597e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -154152,7 +154116,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -154163,7 +154127,7 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 2.4219e-24 + Hto 1.1592e-24 I 1.0894e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -154186,7 +154150,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.052e-23 2.418e-24 + Hto 9.824e-24 1.157e-24 I 9.247e-25 1.089e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -154249,8 +154213,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.978e-11 H2 9.889e-12 1.075e-11 -11.005 -10.969 0.036 28.61 -Hto 2.052e-23 - Hto 2.052e-23 2.052e-23 -22.688 -22.688 0.000 (0) +Hto 9.824e-24 + Hto 9.824e-24 9.824e-24 -23.008 -23.008 0.000 (0) I 9.247e-25 I- 9.247e-25 9.247e-25 -24.034 -24.034 -0.000 (0) K 1.540e-03 @@ -154638,30 +154602,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.483e-07 2.741e-07 + Hto 5.537e-07 2.769e-07 I 7.227e-07 3.613e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.123e-07 1.561e-07 + Nat 3.199e-07 1.599e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.027 Adjusted to redox equilibrium + pe = -3.026 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.636e-13 + Electrical balance (eq) = -3.105e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -154675,8 +154639,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.980e-12 - CH4 1.980e-12 2.152e-12 -11.703 -11.667 0.036 35.46 +C(-4) 1.939e-12 + CH4 1.939e-12 2.108e-12 -11.712 -11.676 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -154700,10 +154664,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.734e-12 - H2 4.867e-12 5.292e-12 -11.313 -11.276 0.036 28.61 -Hto 5.483e-07 - Hto 5.483e-07 5.483e-07 -6.261 -6.261 0.000 (0) +H(0) 9.683e-12 + H2 4.842e-12 5.264e-12 -11.315 -11.279 0.036 28.61 +Hto 5.537e-07 + Hto 5.537e-07 5.537e-07 -6.257 -6.257 0.000 (0) I 7.227e-07 I- 7.227e-07 7.227e-07 -6.141 -6.141 -0.000 (0) K 1.540e-03 @@ -154721,15 +154685,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.123e-07 - Nat+ 3.123e-07 3.123e-07 -6.505 -6.505 -0.000 (0) +Nat 3.199e-07 + Nat+ 3.199e-07 3.199e-07 -6.495 -6.495 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.872 -69.836 0.036 30.40 -S(-2) 3.103e-09 - HS- 2.170e-09 1.428e-09 -8.664 -8.845 -0.182 21.14 - H2S 9.336e-10 1.015e-09 -9.030 -8.994 0.036 36.27 - S-2 8.806e-15 2.123e-15 -14.055 -14.673 -0.618 (0) - (H2S)2 4.994e-20 5.429e-20 -19.302 -19.265 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.868 -69.831 0.036 30.40 +S(-2) 3.040e-09 + HS- 2.125e-09 1.399e-09 -8.673 -8.854 -0.182 21.14 + H2S 9.144e-10 9.942e-10 -9.039 -9.003 0.036 36.27 + S-2 8.625e-15 2.079e-15 -14.064 -14.682 -0.618 (0) + (H2S)2 4.790e-20 5.208e-20 -19.320 -19.283 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -154756,21 +154720,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.87 -11.67 -2.80 CH4 + CH4(g) -8.87 -11.68 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.18 -11.28 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -8.00 -15.94 -7.94 H2S + H2S(g) -8.01 -15.94 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.94 -69.84 -2.89 O2 + O2(g) -66.94 -69.83 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.75 -0.87 4.88 S + Sulfur -5.76 -0.87 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -154794,7 +154758,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.746e-14 Surface + diffuse layer charge, eq + -4.691e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -154804,7 +154768,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -154815,12 +154779,12 @@ Su Ca 7.1884e-02 Cl 4.6654e-10 H 1.2947e-04 - Hto 5.5505e-08 - I 7.3387e-20 + Hto 5.5788e-08 + I 7.3401e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6249e-07 + Nat 1.6513e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -154839,30 +154803,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.704e-07 5.542e-08 + Hto 4.728e-07 5.570e-08 I 6.229e-07 7.338e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.765e-07 3.257e-08 + Nat 2.810e-07 3.310e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.091 Adjusted to redox equilibrium + pe = -3.090 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.671e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -154876,8 +154840,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.420e-12 - CH4 6.420e-12 6.980e-12 -11.192 -11.156 0.036 35.46 +C(-4) 6.371e-12 + CH4 6.371e-12 6.927e-12 -11.196 -11.159 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -154886,7 +154850,7 @@ C(4) 2.744e-03 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.008e-06 9.794e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.100e-08 -7.185 -7.149 0.036 -14.13 @@ -154901,10 +154865,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.306e-11 - H2 6.532e-12 7.101e-12 -11.185 -11.149 0.036 28.61 -Hto 4.704e-07 - Hto 4.704e-07 4.704e-07 -6.328 -6.328 0.000 (0) +H(0) 1.304e-11 + H2 6.519e-12 7.088e-12 -11.186 -11.149 0.036 28.61 +Hto 4.728e-07 + Hto 4.728e-07 4.728e-07 -6.325 -6.325 0.000 (0) I 6.229e-07 I- 6.229e-07 6.229e-07 -6.206 -6.206 -0.000 (0) K 1.540e-03 @@ -154916,21 +154880,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.896e-07 2.125e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.765e-07 - Nat+ 2.765e-07 2.765e-07 -6.558 -6.558 -0.000 (0) +Nat 2.810e-07 + Nat+ 2.810e-07 2.810e-07 -6.551 -6.551 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.128 -70.091 0.036 30.40 -S(-2) 1.006e-08 - HS- 7.037e-09 4.632e-09 -8.153 -8.334 -0.182 21.14 - H2S 3.027e-09 3.291e-09 -8.519 -8.483 0.036 36.27 - S-2 2.856e-14 6.885e-15 -13.544 -14.162 -0.618 (0) - (H2S)2 5.250e-19 5.708e-19 -18.280 -18.243 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.126 -70.090 0.036 30.40 +S(-2) 9.987e-09 + HS- 6.983e-09 4.597e-09 -8.156 -8.338 -0.182 21.14 + H2S 3.004e-09 3.266e-09 -8.522 -8.486 0.036 36.27 + S-2 2.834e-14 6.832e-15 -13.548 -14.165 -0.618 (0) + (H2S)2 5.170e-19 5.621e-19 -18.286 -18.250 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -154939,7 +154903,7 @@ S(6) 1.260e-02 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - HSO4- 1.309e-08 9.564e-09 -7.883 -8.019 -0.136 40.78 + HSO4- 1.309e-08 9.565e-09 -7.883 -8.019 -0.136 40.78 CaHSO4+ 1.067e-09 7.794e-10 -8.972 -9.108 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 @@ -154957,21 +154921,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.35 -11.16 -2.80 CH4 + CH4(g) -8.36 -11.16 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.05 -11.15 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.49 -15.42 -7.94 H2S + H2S(g) -7.49 -15.43 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.20 -70.09 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.37 -0.48 4.88 S + Sulfur -5.37 -0.49 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -154995,7 +154959,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.386e-11 Surface + diffuse layer charge, eq + -9.385e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -155005,7 +154969,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -155016,12 +154980,12 @@ Su Ca 7.1884e-02 Cl 4.6622e-10 H 1.2949e-04 - Hto 3.3070e-08 + Hto 3.2664e-08 I 4.0082e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.3542e-08 + Nat 8.1468e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -155040,12 +155004,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.803e-07 3.302e-08 + Hto 2.768e-07 3.261e-08 I 3.402e-07 4.008e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.422e-07 1.675e-08 + Nat 1.386e-07 1.633e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -155063,7 +155027,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.325e-09 + Electrical balance (eq) = 3.292e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -155077,15 +155041,15 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.121e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.372e-11 - CH4 2.372e-11 2.579e-11 -10.625 -10.589 0.036 35.46 +C(-4) 2.377e-11 + CH4 2.377e-11 2.585e-11 -10.624 -10.588 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.602e-04 2.749e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.015e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.016e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.630e-06 3.947e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.382e-06 8.608e-07 -5.471 -6.065 -0.594 -1.53 @@ -155096,16 +155060,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.015e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.016e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.371e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.789e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.811e-11 - H2 9.057e-12 9.847e-12 -11.043 -11.007 0.036 28.61 -Hto 2.803e-07 - Hto 2.803e-07 2.803e-07 -6.552 -6.552 0.000 (0) +H(0) 1.812e-11 + H2 9.062e-12 9.852e-12 -11.043 -11.006 0.036 28.61 +Hto 2.768e-07 + Hto 2.768e-07 2.768e-07 -6.558 -6.558 0.000 (0) I 3.402e-07 I- 3.402e-07 3.402e-07 -6.468 -6.468 -0.000 (0) K 1.540e-03 @@ -155123,15 +155087,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.422e-07 - Nat+ 1.422e-07 1.422e-07 -6.847 -6.847 -0.000 (0) +Nat 1.386e-07 + Nat+ 1.386e-07 1.386e-07 -6.858 -6.858 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.412 -70.375 0.036 30.40 -S(-2) 3.717e-08 - HS- 2.600e-08 1.711e-08 -7.585 -7.767 -0.182 21.14 - H2S 1.118e-08 1.215e-08 -7.952 -7.915 0.036 36.27 - S-2 1.056e-13 2.545e-14 -12.976 -13.594 -0.618 (0) - (H2S)2 7.157e-18 7.781e-18 -17.145 -17.109 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.412 -70.376 0.036 30.40 +S(-2) 3.725e-08 + HS- 2.605e-08 1.715e-08 -7.584 -7.766 -0.182 21.14 + H2S 1.120e-08 1.218e-08 -7.951 -7.914 0.036 36.27 + S-2 1.058e-13 2.551e-14 -12.975 -13.593 -0.618 (0) + (H2S)2 7.187e-18 7.814e-18 -17.143 -17.107 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -155206,7 +155170,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -155215,14 +155179,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6610e-10 + Cl 4.6609e-10 H 1.2949e-04 - Hto 1.5746e-08 - I 1.7179e-20 + Hto 1.5176e-08 + I 1.7182e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0160e-08 + Nat 2.7880e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -155241,12 +155205,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.334e-07 1.572e-08 + Hto 1.286e-07 1.515e-08 I 1.458e-07 1.718e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.132e-08 6.046e-09 + Nat 4.744e-08 5.589e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -155278,8 +155242,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.068e-11 - CH4 3.068e-11 3.336e-11 -10.513 -10.477 0.036 35.46 +C(-4) 3.072e-11 + CH4 3.072e-11 3.340e-11 -10.513 -10.476 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -155304,9 +155268,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.932e-11 - H2 9.659e-12 1.050e-11 -11.015 -10.979 0.036 28.61 -Hto 1.334e-07 - Hto 1.334e-07 1.334e-07 -6.875 -6.875 0.000 (0) + H2 9.662e-12 1.051e-11 -11.015 -10.979 0.036 28.61 +Hto 1.286e-07 + Hto 1.286e-07 1.286e-07 -6.891 -6.891 0.000 (0) I 1.458e-07 I- 1.458e-07 1.458e-07 -6.836 -6.836 -0.000 (0) K 1.540e-03 @@ -155324,15 +155288,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.132e-08 - Nat+ 5.132e-08 5.132e-08 -7.290 -7.290 -0.000 (0) +Nat 4.744e-08 + Nat+ 4.744e-08 4.744e-08 -7.324 -7.324 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.468 -70.431 0.036 30.40 -S(-2) 4.808e-08 - HS- 3.362e-08 2.213e-08 -7.473 -7.655 -0.182 21.14 - H2S 1.445e-08 1.571e-08 -7.840 -7.804 0.036 36.27 - S-2 1.366e-13 3.293e-14 -12.865 -13.482 -0.618 (0) - (H2S)2 1.196e-17 1.301e-17 -16.922 -16.886 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.468 -70.432 0.036 30.40 +S(-2) 4.814e-08 + HS- 3.367e-08 2.216e-08 -7.473 -7.654 -0.182 21.14 + H2S 1.447e-08 1.573e-08 -7.840 -7.803 0.036 36.27 + S-2 1.368e-13 3.297e-14 -12.864 -13.482 -0.618 (0) + (H2S)2 1.200e-17 1.304e-17 -16.921 -16.885 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -155366,14 +155330,14 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.88 -10.98 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.81 -14.75 -7.94 H2S + H2S(g) -6.81 -14.74 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.54 -70.43 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.86 0.02 4.88 S + Sulfur -4.86 0.03 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -155407,7 +155371,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -155418,12 +155382,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 6.0877e-09 + Hto 5.6970e-09 I 5.8928e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1651e-09 + Nat 7.1138e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -155442,12 +155406,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.159e-08 6.078e-09 + Hto 4.828e-08 5.688e-09 I 5.002e-08 5.893e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.389e-08 1.637e-09 + Nat 1.210e-08 1.426e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -155479,8 +155443,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.338e-11 - CH4 3.338e-11 3.629e-11 -10.477 -10.440 0.036 35.46 +C(-4) 3.340e-11 + CH4 3.340e-11 3.632e-11 -10.476 -10.440 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -155505,9 +155469,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.973e-11 - H2 9.865e-12 1.073e-11 -11.006 -10.970 0.036 28.61 -Hto 5.159e-08 - Hto 5.159e-08 5.159e-08 -7.287 -7.287 0.000 (0) + H2 9.867e-12 1.073e-11 -11.006 -10.970 0.036 28.61 +Hto 4.828e-08 + Hto 4.828e-08 4.828e-08 -7.316 -7.316 0.000 (0) I 5.002e-08 I- 5.002e-08 5.002e-08 -7.301 -7.301 -0.000 (0) K 1.540e-03 @@ -155525,15 +155489,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.389e-08 - Nat+ 1.389e-08 1.389e-08 -7.857 -7.857 -0.000 (0) +Nat 1.210e-08 + Nat+ 1.210e-08 1.210e-08 -7.917 -7.917 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.486 -70.450 0.036 30.40 -S(-2) 5.230e-08 - HS- 3.658e-08 2.408e-08 -7.437 -7.618 -0.182 21.14 - H2S 1.572e-08 1.709e-08 -7.804 -7.767 0.036 36.27 - S-2 1.486e-13 3.583e-14 -12.828 -13.446 -0.618 (0) - (H2S)2 1.416e-17 1.539e-17 -16.849 -16.813 0.036 30.09 +S(-2) 5.233e-08 + HS- 3.660e-08 2.410e-08 -7.436 -7.618 -0.182 21.14 + H2S 1.573e-08 1.710e-08 -7.803 -7.767 0.036 36.27 + S-2 1.487e-13 3.585e-14 -12.828 -13.445 -0.618 (0) + (H2S)2 1.418e-17 1.541e-17 -16.848 -16.812 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -155608,7 +155572,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -155619,12 +155583,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 1.9444e-09 + Hto 1.7606e-09 I 1.6521e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7364e-09 + Nat 1.4215e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -155643,12 +155607,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.648e-08 1.941e-09 + Hto 1.492e-08 1.758e-09 I 1.402e-08 1.652e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.955e-09 3.481e-10 + Nat 2.419e-09 2.850e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -155680,8 +155644,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.430e-11 - CH4 3.430e-11 3.729e-11 -10.465 -10.428 0.036 35.46 +C(-4) 3.431e-11 + CH4 3.431e-11 3.730e-11 -10.465 -10.428 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -155705,10 +155669,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.986e-11 - H2 9.932e-12 1.080e-11 -11.003 -10.967 0.036 28.61 -Hto 1.648e-08 - Hto 1.648e-08 1.648e-08 -7.783 -7.783 0.000 (0) +H(0) 1.987e-11 + H2 9.933e-12 1.080e-11 -11.003 -10.967 0.036 28.61 +Hto 1.492e-08 + Hto 1.492e-08 1.492e-08 -7.826 -7.826 0.000 (0) I 1.402e-08 I- 1.402e-08 1.402e-08 -7.853 -7.853 -0.000 (0) K 1.540e-03 @@ -155726,15 +155690,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.955e-09 - Nat+ 2.955e-09 2.955e-09 -8.529 -8.529 -0.000 (0) +Nat 2.419e-09 + Nat+ 2.419e-09 2.419e-09 -8.616 -8.616 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.492 -70.456 0.036 30.40 -S(-2) 5.374e-08 - HS- 3.758e-08 2.474e-08 -7.425 -7.607 -0.182 21.14 - H2S 1.615e-08 1.756e-08 -7.792 -7.755 0.036 36.27 - S-2 1.527e-13 3.681e-14 -12.816 -13.434 -0.618 (0) - (H2S)2 1.495e-17 1.625e-17 -16.825 -16.789 0.036 30.09 +S(-2) 5.375e-08 + HS- 3.760e-08 2.475e-08 -7.425 -7.606 -0.182 21.14 + H2S 1.616e-08 1.757e-08 -7.792 -7.755 0.036 36.27 + S-2 1.528e-13 3.683e-14 -12.816 -13.434 -0.618 (0) + (H2S)2 1.496e-17 1.626e-17 -16.825 -16.789 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -155809,7 +155773,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -155820,12 +155784,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 5.2117e-10 - I 3.8547e-22 + Hto 4.5553e-10 + I 3.8552e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9976e-10 + Nat 2.3018e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -155844,12 +155808,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.417e-09 5.203e-10 + Hto 3.860e-09 4.548e-10 I 3.272e-09 3.855e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.101e-10 6.009e-11 + Nat 3.917e-10 4.614e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -155907,9 +155871,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.404 -8.249 0.155 (0) H(0) 1.989e-11 - H2 9.946e-12 1.081e-11 -11.002 -10.966 0.036 28.61 -Hto 4.417e-09 - Hto 4.417e-09 4.417e-09 -8.355 -8.355 0.000 (0) + H2 9.947e-12 1.081e-11 -11.002 -10.966 0.036 28.61 +Hto 3.860e-09 + Hto 3.860e-09 3.860e-09 -8.413 -8.413 0.000 (0) I 3.272e-09 I- 3.272e-09 3.272e-09 -8.485 -8.485 -0.000 (0) K 1.540e-03 @@ -155927,15 +155891,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.101e-10 - Nat+ 5.101e-10 5.101e-10 -9.292 -9.292 -0.000 (0) +Nat 3.917e-10 + Nat+ 3.917e-10 3.917e-10 -9.407 -9.407 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.493 -70.457 0.036 30.40 -S(-2) 5.404e-08 - HS- 3.779e-08 2.488e-08 -7.423 -7.604 -0.182 21.14 +S(-2) 5.405e-08 + HS- 3.780e-08 2.489e-08 -7.422 -7.604 -0.182 21.14 H2S 1.624e-08 1.766e-08 -7.789 -7.753 0.036 36.27 - S-2 1.536e-13 3.702e-14 -12.814 -13.432 -0.618 (0) - (H2S)2 1.511e-17 1.643e-17 -16.821 -16.784 0.036 30.09 + S-2 1.536e-13 3.703e-14 -12.814 -13.431 -0.618 (0) + (H2S)2 1.512e-17 1.644e-17 -16.820 -16.784 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -156010,7 +155974,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -156021,12 +155985,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 1.1883e-10 - I 7.6062e-23 + Hto 1.0009e-10 + I 7.6075e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3026e-11 + Nat 3.0957e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -156045,12 +156009,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.007e-09 1.186e-10 + Hto 8.482e-10 9.993e-11 I 6.457e-10 7.607e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.321e-11 8.625e-12 + Nat 5.268e-11 6.206e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -156082,8 +156046,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.435e-11 - CH4 3.435e-11 3.735e-11 -10.464 -10.428 0.036 35.46 +C(-4) 3.436e-11 + CH4 3.436e-11 3.735e-11 -10.464 -10.428 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -156108,9 +156072,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.987e-11 - H2 9.936e-12 1.080e-11 -11.003 -10.966 0.036 28.61 -Hto 1.007e-09 - Hto 1.007e-09 1.007e-09 -8.997 -8.997 0.000 (0) + H2 9.937e-12 1.080e-11 -11.003 -10.966 0.036 28.61 +Hto 8.482e-10 + Hto 8.482e-10 8.482e-10 -9.072 -9.072 0.000 (0) I 6.457e-10 I- 6.457e-10 6.457e-10 -9.190 -9.190 -0.000 (0) K 1.540e-03 @@ -156128,15 +156092,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.321e-11 - Nat+ 7.321e-11 7.321e-11 -10.135 -10.135 -0.000 (0) +Nat 5.268e-11 + Nat+ 5.268e-11 5.268e-11 -10.278 -10.278 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.492 -70.456 0.036 30.40 -S(-2) 5.382e-08 - HS- 3.764e-08 2.478e-08 -7.424 -7.606 -0.182 21.14 +S(-2) 5.383e-08 + HS- 3.765e-08 2.479e-08 -7.424 -7.606 -0.182 21.14 H2S 1.618e-08 1.759e-08 -7.791 -7.755 0.036 36.27 - S-2 1.530e-13 3.687e-14 -12.815 -13.433 -0.618 (0) - (H2S)2 1.499e-17 1.630e-17 -16.824 -16.788 0.036 30.09 + S-2 1.530e-13 3.688e-14 -12.815 -13.433 -0.618 (0) + (H2S)2 1.500e-17 1.631e-17 -16.824 -16.788 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -156201,7 +156165,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.612e-11 Surface + diffuse layer charge, eq + -9.615e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -156211,7 +156175,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -156222,12 +156186,12 @@ Su Ca 7.1884e-02 Cl 4.6604e-10 H 1.2950e-04 - Hto 2.3308e-11 - I 1.2858e-23 + Hto 1.8895e-11 + I 1.2855e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2272e-12 + Nat 3.5215e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -156246,12 +156210,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.975e-10 2.327e-11 + Hto 1.601e-10 1.886e-11 I 1.091e-10 1.286e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.895e-12 1.048e-12 + Nat 5.992e-12 7.059e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -156269,8 +156233,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.986e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 7.579e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -156310,8 +156274,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.983e-11 H2 9.917e-12 1.078e-11 -11.004 -10.967 0.036 28.61 -Hto 1.975e-10 - Hto 1.975e-10 1.975e-10 -9.704 -9.704 0.000 (0) +Hto 1.601e-10 + Hto 1.601e-10 1.601e-10 -9.796 -9.796 0.000 (0) I 1.091e-10 I- 1.091e-10 1.091e-10 -9.962 -9.962 -0.000 (0) K 1.540e-03 @@ -156329,14 +156293,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.895e-12 - Nat+ 8.895e-12 8.895e-12 -11.051 -11.051 -0.000 (0) +Nat 5.992e-12 + Nat+ 5.992e-12 5.992e-12 -11.222 -11.222 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.490 -70.454 0.036 30.40 S(-2) 5.340e-08 HS- 3.735e-08 2.459e-08 -7.428 -7.609 -0.182 21.14 H2S 1.605e-08 1.745e-08 -7.794 -7.758 0.036 36.27 - S-2 1.518e-13 3.658e-14 -12.819 -13.437 -0.618 (0) + S-2 1.518e-13 3.659e-14 -12.819 -13.437 -0.618 (0) (H2S)2 1.476e-17 1.605e-17 -16.831 -16.795 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -156402,7 +156366,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.603e-11 Surface + diffuse layer charge, eq + -9.604e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -156412,7 +156376,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -156423,12 +156387,12 @@ Su Ca 7.1884e-02 Cl 4.6604e-10 H 1.2950e-04 - Hto 3.9700e-12 + Hto 3.0947e-12 I 1.8805e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.4490e-13 + Nat 3.4357e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -156447,12 +156411,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.364e-11 3.964e-12 + Hto 2.623e-11 3.090e-12 I 1.596e-11 1.880e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.272e-13 1.092e-13 + Nat 5.846e-13 6.887e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -156470,7 +156434,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.473e-10 + Electrical balance (eq) = -8.322e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -156511,8 +156475,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.980e-11 H2 9.901e-12 1.076e-11 -11.004 -10.968 0.036 28.61 -Hto 3.364e-11 - Hto 3.364e-11 3.364e-11 -10.473 -10.473 0.000 (0) +Hto 2.623e-11 + Hto 2.623e-11 2.623e-11 -10.581 -10.581 0.000 (0) I 1.596e-11 I- 1.596e-11 1.596e-11 -10.797 -10.797 -0.000 (0) K 1.540e-03 @@ -156530,8 +156494,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.272e-13 - Nat+ 9.272e-13 9.272e-13 -12.033 -12.033 -0.000 (0) +Nat 5.846e-13 + Nat+ 5.846e-13 5.846e-13 -12.233 -12.233 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.489 -70.453 0.036 30.40 S(-2) 5.307e-08 @@ -156613,7 +156577,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -156624,12 +156588,12 @@ Su Ca 7.1884e-02 Cl 4.6604e-10 H 1.2950e-04 - Hto 5.9168e-13 + Hto 4.4320e-13 I 2.4007e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9258e-14 + Nat 2.9059e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -156648,12 +156612,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.014e-12 5.907e-13 + Hto 3.756e-12 4.425e-13 I 2.037e-12 2.400e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.382e-14 9.874e-15 + Nat 4.945e-14 5.825e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -156671,7 +156635,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.203e-09 + Electrical balance (eq) = -1.206e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -156685,8 +156649,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.379e-11 - CH4 3.379e-11 3.673e-11 -10.471 -10.435 0.036 35.46 +C(-4) 3.378e-11 + CH4 3.378e-11 3.673e-11 -10.471 -10.435 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -156712,8 +156676,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.979e-11 H2 9.895e-12 1.076e-11 -11.005 -10.968 0.036 28.61 -Hto 5.014e-12 - Hto 5.014e-12 5.014e-12 -11.300 -11.300 0.000 (0) +Hto 3.756e-12 + Hto 3.756e-12 3.756e-12 -11.425 -11.425 0.000 (0) I 2.037e-12 I- 2.037e-12 2.037e-12 -11.691 -11.691 -0.000 (0) K 1.540e-03 @@ -156731,15 +156695,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.382e-14 - Nat+ 8.382e-14 8.382e-14 -13.077 -13.077 -0.000 (0) +Nat 4.945e-14 + Nat+ 4.945e-14 4.945e-14 -13.306 -13.306 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.489 -70.452 0.036 30.40 -S(-2) 5.294e-08 - HS- 3.703e-08 2.437e-08 -7.432 -7.613 -0.182 21.14 +S(-2) 5.293e-08 + HS- 3.702e-08 2.437e-08 -7.432 -7.613 -0.182 21.14 H2S 1.591e-08 1.730e-08 -7.798 -7.762 0.036 36.27 - S-2 1.504e-13 3.627e-14 -12.823 -13.441 -0.618 (0) - (H2S)2 1.450e-17 1.577e-17 -16.838 -16.802 0.036 30.09 + S-2 1.504e-13 3.626e-14 -12.823 -13.441 -0.618 (0) + (H2S)2 1.450e-17 1.577e-17 -16.839 -16.802 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -156814,7 +156778,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -156825,12 +156789,12 @@ Su Ca 7.1884e-02 Cl 4.6604e-10 H 1.2950e-04 - Hto 7.7644e-14 + Hto 5.5857e-14 I 2.6922e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8936e-15 + Nat 2.1486e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -156849,12 +156813,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.580e-13 7.752e-14 + Hto 4.734e-13 5.577e-14 I 2.285e-13 2.692e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.625e-15 7.805e-16 + Nat 3.656e-15 4.307e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -156886,8 +156850,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.384e-11 - CH4 3.384e-11 3.679e-11 -10.471 -10.434 0.036 35.46 +C(-4) 3.383e-11 + CH4 3.383e-11 3.678e-11 -10.471 -10.434 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -156912,9 +156876,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.980e-11 - H2 9.899e-12 1.076e-11 -11.004 -10.968 0.036 28.61 -Hto 6.580e-13 - Hto 6.580e-13 6.580e-13 -12.182 -12.182 0.000 (0) + H2 9.898e-12 1.076e-11 -11.004 -10.968 0.036 28.61 +Hto 4.734e-13 + Hto 4.734e-13 4.734e-13 -12.325 -12.325 0.000 (0) I 2.285e-13 I- 2.285e-13 2.285e-13 -12.641 -12.641 -0.000 (0) K 1.540e-03 @@ -156932,15 +156896,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.625e-15 - Nat+ 6.625e-15 6.625e-15 -14.179 -14.179 -0.000 (0) +Nat 3.656e-15 + Nat+ 3.656e-15 3.656e-15 -14.437 -14.437 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.489 -70.453 0.036 30.40 S(-2) 5.301e-08 HS- 3.708e-08 2.441e-08 -7.431 -7.612 -0.182 21.14 H2S 1.593e-08 1.732e-08 -7.798 -7.761 0.036 36.27 S-2 1.507e-13 3.632e-14 -12.822 -13.440 -0.618 (0) - (H2S)2 1.455e-17 1.582e-17 -16.837 -16.801 0.036 30.09 + (H2S)2 1.455e-17 1.581e-17 -16.837 -16.801 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -157005,7 +156969,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.606e-11 Surface + diffuse layer charge, eq + -9.605e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -157015,7 +156979,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -157026,12 +156990,12 @@ Su Ca 7.1884e-02 Cl 4.6604e-10 H 1.2950e-04 - Hto 9.0168e-15 - I 2.6679e-27 + Hto 6.2272e-15 + I 2.6675e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.7089e-16 + Nat 1.3981e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -157050,12 +157014,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.641e-14 9.002e-15 + Hto 5.277e-14 6.217e-15 I 2.264e-14 2.668e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.609e-16 5.430e-17 + Nat 2.379e-16 2.803e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -157073,7 +157037,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.740e-10 + Electrical balance (eq) = 1.065e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -157114,8 +157078,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.983e-11 H2 9.914e-12 1.078e-11 -11.004 -10.967 0.036 28.61 -Hto 7.641e-14 - Hto 7.641e-14 7.641e-14 -13.117 -13.117 0.000 (0) +Hto 5.277e-14 + Hto 5.277e-14 5.277e-14 -13.278 -13.278 0.000 (0) I 2.264e-14 I- 2.264e-14 2.264e-14 -13.645 -13.645 -0.000 (0) K 1.540e-03 @@ -157133,8 +157097,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.609e-16 - Nat+ 4.609e-16 4.609e-16 -15.336 -15.336 -0.000 (0) +Nat 2.379e-16 + Nat+ 2.379e-16 2.379e-16 -15.624 -15.624 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.490 -70.454 0.036 30.40 S(-2) 5.334e-08 @@ -157216,7 +157180,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -157227,12 +157191,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 9.3041e-16 + Hto 6.1665e-16 I 2.3454e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6673e-17 + Nat 8.0468e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -157251,12 +157215,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.885e-15 9.289e-16 + Hto 5.226e-15 6.157e-16 I 1.991e-15 2.345e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.837e-17 3.342e-18 + Nat 1.369e-17 1.613e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -157289,7 +157253,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.437e-11 - CH4 3.437e-11 3.737e-11 -10.464 -10.428 0.036 35.46 + CH4 3.437e-11 3.737e-11 -10.464 -10.427 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -157313,10 +157277,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.987e-11 - H2 9.937e-12 1.080e-11 -11.003 -10.966 0.036 28.61 -Hto 7.885e-15 - Hto 7.885e-15 7.885e-15 -14.103 -14.103 0.000 (0) +H(0) 1.988e-11 + H2 9.938e-12 1.080e-11 -11.003 -10.966 0.036 28.61 +Hto 5.226e-15 + Hto 5.226e-15 5.226e-15 -14.282 -14.282 0.000 (0) I 1.991e-15 I- 1.991e-15 1.991e-15 -14.701 -14.701 -0.000 (0) K 1.540e-03 @@ -157334,14 +157298,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.837e-17 - Nat+ 2.837e-17 2.837e-17 -16.547 -16.547 -0.000 (0) +Nat 1.369e-17 + Nat+ 1.369e-17 1.369e-17 -16.864 -16.864 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.492 -70.456 0.036 30.40 S(-2) 5.385e-08 - HS- 3.766e-08 2.479e-08 -7.424 -7.606 -0.182 21.14 + HS- 3.767e-08 2.480e-08 -7.424 -7.606 -0.182 21.14 H2S 1.619e-08 1.760e-08 -7.791 -7.755 0.036 36.27 - S-2 1.530e-13 3.689e-14 -12.815 -13.433 -0.618 (0) + S-2 1.531e-13 3.689e-14 -12.815 -13.433 -0.618 (0) (H2S)2 1.501e-17 1.632e-17 -16.824 -16.787 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -157417,7 +157381,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -157428,12 +157392,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 8.5576e-17 - I 1.8366e-29 + Hto 5.4415e-17 + I 1.8363e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1150e-19 + Nat 4.1134e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -157452,12 +157416,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.252e-16 8.544e-17 + Hto 4.611e-16 5.433e-17 I 1.558e-16 1.836e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.551e-18 1.827e-19 + Nat 6.999e-19 8.246e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -157516,8 +157480,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.991e-11 H2 9.954e-12 1.082e-11 -11.002 -10.966 0.036 28.61 -Hto 7.252e-16 - Hto 7.252e-16 7.252e-16 -15.140 -15.140 0.000 (0) +Hto 4.611e-16 + Hto 4.611e-16 4.611e-16 -15.336 -15.336 0.000 (0) I 1.558e-16 I- 1.558e-16 1.558e-16 -15.807 -15.807 -0.000 (0) K 1.540e-03 @@ -157535,13 +157499,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.551e-18 - Nat+ 1.551e-18 1.551e-18 -17.809 -17.809 -0.000 (0) +Nat 6.999e-19 + Nat+ 6.999e-19 6.999e-19 -18.155 -18.155 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.494 -70.457 0.036 30.40 S(-2) 5.421e-08 - HS- 3.791e-08 2.496e-08 -7.421 -7.603 -0.182 21.14 - H2S 1.629e-08 1.771e-08 -7.788 -7.752 0.036 36.27 + HS- 3.792e-08 2.496e-08 -7.421 -7.603 -0.182 21.14 + H2S 1.629e-08 1.772e-08 -7.788 -7.752 0.036 36.27 S-2 1.541e-13 3.714e-14 -12.812 -13.430 -0.618 (0) (H2S)2 1.521e-17 1.654e-17 -16.818 -16.782 0.036 30.09 S(6) 1.260e-02 @@ -157618,7 +157582,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -157629,12 +157593,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 7.0326e-18 + Hto 4.2894e-18 I 1.2831e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.4394e-20 + Nat 1.8731e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -157653,12 +157617,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.960e-17 7.021e-18 + Hto 3.635e-17 4.282e-18 I 1.089e-17 1.283e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.554e-20 8.900e-21 + Nat 3.187e-20 3.755e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -157690,8 +157654,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.469e-11 - CH4 3.469e-11 3.772e-11 -10.460 -10.423 0.036 35.46 +C(-4) 3.470e-11 + CH4 3.470e-11 3.772e-11 -10.460 -10.423 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -157717,8 +157681,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.992e-11 H2 9.961e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 5.960e-17 - Hto 5.960e-17 5.960e-17 -16.225 -16.225 0.000 (0) +Hto 3.635e-17 + Hto 3.635e-17 3.635e-17 -16.439 -16.439 0.000 (0) I 1.089e-17 I- 1.089e-17 1.089e-17 -16.963 -16.963 -0.000 (0) K 1.540e-03 @@ -157736,8 +157700,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.554e-20 - Nat+ 7.554e-20 7.554e-20 -19.122 -19.122 -0.000 (0) +Nat 3.187e-20 + Nat+ 3.187e-20 3.187e-20 -19.497 -19.497 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.494 -70.458 0.036 30.40 S(-2) 5.436e-08 @@ -157819,7 +157783,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -157830,12 +157794,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 5.1725e-19 + Hto 3.0256e-19 I 8.0179e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9304e-21 + Nat 7.6139e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -157854,12 +157818,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.383e-18 5.164e-19 + Hto 2.564e-18 3.021e-19 I 6.806e-19 8.018e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.285e-21 3.870e-22 + Nat 1.296e-21 1.526e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -157918,8 +157882,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.993e-11 H2 9.963e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 4.383e-18 - Hto 4.383e-18 4.383e-18 -17.358 -17.358 0.000 (0) +Hto 2.564e-18 + Hto 2.564e-18 2.564e-18 -17.591 -17.591 0.000 (0) I 6.806e-19 I- 6.806e-19 6.806e-19 -18.167 -18.167 -0.000 (0) K 1.540e-03 @@ -157937,8 +157901,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.285e-21 - Nat+ 3.285e-21 3.285e-21 -20.483 -20.483 -0.000 (0) +Nat 1.296e-21 + Nat+ 1.296e-21 1.296e-21 -20.888 -20.888 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.458 0.036 30.40 S(-2) 5.440e-08 @@ -158020,7 +157984,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -158031,12 +157995,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 3.4083e-20 - I 4.4861e-33 + Hto 1.9116e-20 + I 4.4853e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.4899e-23 + Nat 2.7533e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -158055,12 +158019,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.888e-19 3.403e-20 + Hto 1.620e-19 1.909e-20 I 3.808e-20 4.486e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.274e-22 1.501e-23 + Nat 4.685e-23 5.519e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -158119,8 +158083,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.993e-11 H2 9.963e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 2.888e-19 - Hto 2.888e-19 2.888e-19 -18.539 -18.539 0.000 (0) +Hto 1.620e-19 + Hto 1.620e-19 1.620e-19 -18.790 -18.790 0.000 (0) I 3.808e-20 I- 3.808e-20 3.808e-20 -19.419 -19.419 -0.000 (0) K 1.540e-03 @@ -158138,8 +158102,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.274e-22 - Nat+ 1.274e-22 1.274e-22 -21.895 -21.895 -0.000 (0) +Nat 4.685e-23 + Nat+ 4.685e-23 4.685e-23 -22.329 -22.329 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.458 0.036 30.40 S(-2) 5.441e-08 @@ -158221,7 +158185,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -158232,12 +158196,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 2.0127e-21 - I 2.2480e-34 + Hto 1.0823e-21 + I 2.2475e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4870e-24 + Nat 7.1738e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -158256,12 +158220,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.706e-20 2.009e-21 + Hto 9.172e-21 1.081e-21 I 1.908e-21 2.247e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.232e-24 4.986e-25 + Nat 1.221e-24 1.438e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -158320,8 +158284,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.993e-11 H2 9.963e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 1.706e-20 - Hto 1.706e-20 1.706e-20 -19.768 -19.768 0.000 (0) +Hto 9.172e-21 + Hto 9.172e-21 9.172e-21 -20.038 -20.038 0.000 (0) I 1.908e-21 I- 1.908e-21 1.908e-21 -20.720 -20.720 -0.000 (0) K 1.540e-03 @@ -158339,8 +158303,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.232e-24 - Nat+ 4.232e-24 4.232e-24 -23.373 -23.373 -0.000 (0) +Nat 1.221e-24 + Nat+ 1.221e-24 1.221e-24 -23.913 -23.913 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.458 0.036 30.40 S(-2) 5.441e-08 @@ -158422,7 +158386,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -158433,8 +158397,8 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 1.0644e-22 - I 1.0017e-35 + Hto 5.4846e-23 + I 1.0018e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -158456,7 +158420,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.020e-22 1.063e-22 + Hto 4.648e-22 5.476e-23 I 8.503e-23 1.002e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -158519,8 +158483,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.993e-11 H2 9.963e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 9.020e-22 - Hto 9.020e-22 9.020e-22 -21.045 -21.045 0.000 (0) +Hto 4.648e-22 + Hto 4.648e-22 4.648e-22 -21.333 -21.333 0.000 (0) I 8.503e-23 I- 8.503e-23 8.503e-23 -22.070 -22.070 -0.000 (0) K 1.540e-03 @@ -158619,7 +158583,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -158630,8 +158594,8 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 5.1777e-24 - I 3.3249e-37 + Hto 2.5239e-24 + I 3.3244e-37 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -158653,7 +158617,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.388e-23 5.169e-24 + Hto 2.139e-23 2.520e-24 I 2.822e-24 3.324e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -158716,8 +158680,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.993e-11 H2 9.963e-12 1.083e-11 -11.002 -10.965 0.036 28.61 -Hto 4.388e-23 - Hto 4.388e-23 4.388e-23 -22.358 -22.358 0.000 (0) +Hto 2.139e-23 + Hto 2.139e-23 2.139e-23 -22.670 -22.670 0.000 (0) I 2.822e-24 I- 2.822e-24 2.822e-24 -23.550 -23.550 -0.000 (0) K 1.540e-03 @@ -159105,30 +159069,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.444e-07 2.722e-07 + Hto 5.498e-07 2.749e-07 I 7.198e-07 3.599e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.090e-07 1.545e-07 + Nat 3.165e-07 1.583e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.031 Adjusted to redox equilibrium + pe = -3.029 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.667e-13 + Electrical balance (eq) = -3.137e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -159142,8 +159106,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.120e-12 - CH4 2.120e-12 2.305e-12 -11.674 -11.637 0.036 35.46 +C(-4) 2.077e-12 + CH4 2.077e-12 2.258e-12 -11.683 -11.646 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -159167,10 +159131,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 9.902e-12 - H2 4.951e-12 5.383e-12 -11.305 -11.269 0.036 28.61 -Hto 5.444e-07 - Hto 5.444e-07 5.444e-07 -6.264 -6.264 0.000 (0) +H(0) 9.851e-12 + H2 4.925e-12 5.355e-12 -11.308 -11.271 0.036 28.61 +Hto 5.498e-07 + Hto 5.498e-07 5.498e-07 -6.260 -6.260 0.000 (0) I 7.198e-07 I- 7.198e-07 7.198e-07 -6.143 -6.143 -0.000 (0) K 1.540e-03 @@ -159188,15 +159152,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.090e-07 - Nat+ 3.090e-07 3.090e-07 -6.510 -6.510 -0.000 (0) +Nat 3.165e-07 + Nat+ 3.165e-07 3.165e-07 -6.500 -6.500 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.887 -69.851 0.036 30.40 -S(-2) 3.323e-09 - HS- 2.323e-09 1.530e-09 -8.634 -8.815 -0.182 21.14 - H2S 9.997e-10 1.087e-09 -9.000 -8.964 0.036 36.27 - S-2 9.430e-15 2.273e-15 -14.025 -14.643 -0.618 (0) - (H2S)2 5.726e-20 6.226e-20 -19.242 -19.206 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.883 -69.846 0.036 30.40 +S(-2) 3.255e-09 + HS- 2.276e-09 1.498e-09 -8.643 -8.824 -0.182 21.14 + H2S 9.793e-10 1.065e-09 -9.009 -8.973 0.036 36.27 + S-2 9.237e-15 2.227e-15 -14.034 -14.652 -0.618 (0) + (H2S)2 5.494e-20 5.974e-20 -19.260 -19.224 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -159223,21 +159187,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.84 -11.64 -2.80 CH4 + CH4(g) -8.84 -11.65 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.17 -11.27 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.97 -15.91 -7.94 H2S + H2S(g) -7.98 -15.91 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.96 -69.85 -2.89 O2 + O2(g) -66.95 -69.85 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.73 -0.84 4.88 S + Sulfur -5.73 -0.85 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -159261,7 +159225,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.663e-14 Surface + diffuse layer charge, eq + -4.735e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -159271,23 +159235,23 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 4.980e+00 (= c_DL / c_free if z is +1). Element Moles - C 1.6144e-04 + C 1.6145e-04 Ca 7.1884e-02 Cl 4.6654e-10 H 1.2947e-04 - Hto 5.5289e-08 - I 7.3295e-20 + Hto 5.5582e-08 + I 7.3282e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6130e-07 + Nat 1.6398e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -159306,12 +159270,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.686e-07 5.520e-08 + Hto 4.710e-07 5.549e-08 I 6.221e-07 7.329e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.745e-07 3.233e-08 + Nat 2.790e-07 3.287e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -159322,14 +159286,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.671e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -159343,8 +159307,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.687e-12 - CH4 6.687e-12 7.270e-12 -11.175 -11.138 0.036 35.46 +C(-4) 6.637e-12 + CH4 6.637e-12 7.216e-12 -11.178 -11.142 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -159368,10 +159332,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.320e-11 - H2 6.598e-12 7.174e-12 -11.181 -11.144 0.036 28.61 -Hto 4.686e-07 - Hto 4.686e-07 4.686e-07 -6.329 -6.329 0.000 (0) +H(0) 1.317e-11 + H2 6.586e-12 7.160e-12 -11.181 -11.145 0.036 28.61 +Hto 4.710e-07 + Hto 4.710e-07 4.710e-07 -6.327 -6.327 0.000 (0) I 6.221e-07 I- 6.221e-07 6.221e-07 -6.206 -6.206 -0.000 (0) K 1.540e-03 @@ -159389,15 +159353,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.745e-07 - Nat+ 2.745e-07 2.745e-07 -6.562 -6.562 -0.000 (0) +Nat 2.790e-07 + Nat+ 2.790e-07 2.790e-07 -6.554 -6.554 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.137 -70.100 0.036 30.40 -S(-2) 1.048e-08 - HS- 7.329e-09 4.825e-09 -8.135 -8.317 -0.182 21.14 - H2S 3.153e-09 3.428e-09 -8.501 -8.465 0.036 36.27 - S-2 2.975e-14 7.171e-15 -13.527 -14.144 -0.618 (0) - (H2S)2 5.696e-19 6.193e-19 -18.244 -18.208 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.135 -70.099 0.036 30.40 +S(-2) 1.040e-08 + HS- 7.274e-09 4.789e-09 -8.138 -8.320 -0.182 21.14 + H2S 3.129e-09 3.402e-09 -8.505 -8.468 0.036 36.27 + S-2 2.953e-14 7.117e-15 -13.530 -14.148 -0.618 (0) + (H2S)2 5.610e-19 6.100e-19 -18.251 -18.215 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -159429,7 +159393,7 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.04 -11.14 -3.10 H2 + H2(g) -8.04 -11.15 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O H2S(g) -7.47 -15.41 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl @@ -159438,7 +159402,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.21 -70.10 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.35 -0.47 4.88 S + Sulfur -5.36 -0.47 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -159462,7 +159426,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.403e-11 Surface + diffuse layer charge, eq + -9.401e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -159472,7 +159436,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -159483,12 +159447,12 @@ Su Ca 7.1884e-02 Cl 4.6621e-10 H 1.2949e-04 - Hto 3.3342e-08 - I 4.0552e-20 + Hto 3.2953e-08 + I 4.0565e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.4372e-08 + Nat 8.2384e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -159507,19 +159471,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.826e-07 3.329e-08 + Hto 2.793e-07 3.290e-08 I 3.442e-07 4.055e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.436e-07 1.691e-08 + Nat 1.402e-07 1.652e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.163 Adjusted to redox equilibrium + pe = -3.164 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -159530,7 +159494,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.232e-09 + Electrical balance (eq) = 3.198e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -159544,8 +159508,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.433e-11 - CH4 2.433e-11 2.645e-11 -10.614 -10.578 0.036 35.46 +C(-4) 2.438e-11 + CH4 2.438e-11 2.651e-11 -10.613 -10.577 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -159569,10 +159533,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.823e-11 - H2 9.114e-12 9.909e-12 -11.040 -11.004 0.036 28.61 -Hto 2.826e-07 - Hto 2.826e-07 2.826e-07 -6.549 -6.549 0.000 (0) +H(0) 1.824e-11 + H2 9.119e-12 9.915e-12 -11.040 -11.004 0.036 28.61 +Hto 2.793e-07 + Hto 2.793e-07 2.793e-07 -6.554 -6.554 0.000 (0) I 3.442e-07 I- 3.442e-07 3.442e-07 -6.463 -6.463 -0.000 (0) K 1.540e-03 @@ -159590,15 +159554,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.436e-07 - Nat+ 1.436e-07 1.436e-07 -6.843 -6.843 -0.000 (0) +Nat 1.402e-07 + Nat+ 1.402e-07 1.402e-07 -6.853 -6.853 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.417 -70.381 0.036 30.40 -S(-2) 3.812e-08 - HS- 2.666e-08 1.755e-08 -7.574 -7.756 -0.182 21.14 - H2S 1.146e-08 1.246e-08 -7.941 -7.904 0.036 36.27 - S-2 1.083e-13 2.611e-14 -12.965 -13.583 -0.618 (0) - (H2S)2 7.527e-18 8.183e-18 -17.123 -17.087 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.418 -70.381 0.036 30.40 +S(-2) 3.821e-08 + HS- 2.672e-08 1.759e-08 -7.573 -7.755 -0.182 21.14 + H2S 1.149e-08 1.249e-08 -7.940 -7.903 0.036 36.27 + S-2 1.085e-13 2.616e-14 -12.964 -13.582 -0.618 (0) + (H2S)2 7.560e-18 8.220e-18 -17.121 -17.085 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -159625,7 +159589,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.78 -10.58 -2.80 CH4 + CH4(g) -7.77 -10.58 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -159673,7 +159637,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -159684,12 +159648,12 @@ Su Ca 7.1884e-02 Cl 4.6608e-10 H 1.2950e-04 - Hto 1.6155e-08 - I 1.7715e-20 + Hto 1.5587e-08 + I 1.7712e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1178e-08 + Nat 2.8880e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -159708,12 +159672,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.369e-07 1.613e-08 + Hto 1.321e-07 1.556e-08 I 1.503e-07 1.771e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.305e-08 6.250e-09 + Nat 4.914e-08 5.789e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -159745,8 +159709,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.151e-11 - CH4 3.151e-11 3.426e-11 -10.501 -10.465 0.036 35.46 +C(-4) 3.156e-11 + CH4 3.156e-11 3.431e-11 -10.501 -10.465 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -159771,9 +159735,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.945e-11 - H2 9.724e-12 1.057e-11 -11.012 -10.976 0.036 28.61 -Hto 1.369e-07 - Hto 1.369e-07 1.369e-07 -6.864 -6.864 0.000 (0) + H2 9.727e-12 1.058e-11 -11.012 -10.976 0.036 28.61 +Hto 1.321e-07 + Hto 1.321e-07 1.321e-07 -6.879 -6.879 0.000 (0) I 1.503e-07 I- 1.503e-07 1.503e-07 -6.823 -6.823 -0.000 (0) K 1.540e-03 @@ -159791,15 +159755,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.305e-08 - Nat+ 5.305e-08 5.305e-08 -7.275 -7.275 -0.000 (0) +Nat 4.914e-08 + Nat+ 4.914e-08 4.914e-08 -7.309 -7.309 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.473 -70.437 0.036 30.40 -S(-2) 4.938e-08 - HS- 3.454e-08 2.274e-08 -7.462 -7.643 -0.182 21.14 - H2S 1.484e-08 1.614e-08 -7.828 -7.792 0.036 36.27 - S-2 1.403e-13 3.382e-14 -12.853 -13.471 -0.618 (0) - (H2S)2 1.262e-17 1.372e-17 -16.899 -16.863 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.474 -70.437 0.036 30.40 +S(-2) 4.945e-08 + HS- 3.458e-08 2.277e-08 -7.461 -7.643 -0.182 21.14 + H2S 1.486e-08 1.616e-08 -7.828 -7.792 0.036 36.27 + S-2 1.405e-13 3.387e-14 -12.852 -13.470 -0.618 (0) + (H2S)2 1.266e-17 1.376e-17 -16.898 -16.861 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -159826,7 +159790,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.66 -10.47 -2.80 CH4 + CH4(g) -7.66 -10.46 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -159838,7 +159802,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.54 -70.44 -2.89 O2 + O2(g) -67.55 -70.44 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.85 0.03 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -159874,7 +159838,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -159885,12 +159849,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 6.3817e-09 + Hto 5.9813e-09 I 6.2163e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.6702e-09 + Nat 7.5729e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -159909,12 +159873,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.408e-08 6.371e-09 + Hto 5.069e-08 5.972e-09 I 5.276e-08 6.215e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.475e-08 1.738e-09 + Nat 1.289e-08 1.518e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -159946,8 +159910,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.432e-11 - CH4 3.432e-11 3.732e-11 -10.464 -10.428 0.036 35.46 +C(-4) 3.435e-11 + CH4 3.435e-11 3.734e-11 -10.464 -10.428 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -159972,9 +159936,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) H(0) 1.987e-11 - H2 9.934e-12 1.080e-11 -11.003 -10.967 0.036 28.61 -Hto 5.408e-08 - Hto 5.408e-08 5.408e-08 -7.267 -7.267 0.000 (0) + H2 9.936e-12 1.080e-11 -11.003 -10.966 0.036 28.61 +Hto 5.069e-08 + Hto 5.069e-08 5.069e-08 -7.295 -7.295 0.000 (0) I 5.276e-08 I- 5.276e-08 5.276e-08 -7.278 -7.278 -0.000 (0) K 1.540e-03 @@ -159992,15 +159956,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.475e-08 - Nat+ 1.475e-08 1.475e-08 -7.831 -7.831 -0.000 (0) +Nat 1.289e-08 + Nat+ 1.289e-08 1.289e-08 -7.890 -7.890 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.492 -70.456 0.036 30.40 -S(-2) 5.378e-08 - HS- 3.761e-08 2.476e-08 -7.425 -7.606 -0.182 21.14 - H2S 1.616e-08 1.757e-08 -7.791 -7.755 0.036 36.27 - S-2 1.528e-13 3.684e-14 -12.816 -13.434 -0.618 (0) - (H2S)2 1.497e-17 1.627e-17 -16.825 -16.789 0.036 30.09 +S(-2) 5.381e-08 + HS- 3.764e-08 2.478e-08 -7.424 -7.606 -0.182 21.14 + H2S 1.617e-08 1.759e-08 -7.791 -7.755 0.036 36.27 + S-2 1.529e-13 3.687e-14 -12.815 -13.433 -0.618 (0) + (H2S)2 1.499e-17 1.630e-17 -16.824 -16.788 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -160065,7 +160029,7 @@ Kinetics 8. Diffuse Double Layer Surface-Complexation Model Su - -9.674e-11 Surface + diffuse layer charge, eq + -9.675e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -160075,7 +160039,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -160086,12 +160050,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 2.0894e-09 - I 1.7880e-21 + Hto 1.8956e-09 + I 1.7882e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8984e-09 + Nat 1.5586e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -160110,12 +160074,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.771e-08 2.086e-09 + Hto 1.606e-08 1.893e-09 I 1.518e-08 1.788e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.230e-09 3.806e-10 + Nat 2.652e-09 3.124e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -160147,11 +160111,11 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.529e-11 - CH4 3.529e-11 3.836e-11 -10.452 -10.416 0.036 35.46 +C(-4) 3.530e-11 + CH4 3.530e-11 3.838e-11 -10.452 -10.416 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 - CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 + CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 @@ -160174,8 +160138,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.001e-11 H2 1.000e-11 1.088e-11 -11.000 -10.964 0.036 28.61 -Hto 1.771e-08 - Hto 1.771e-08 1.771e-08 -7.752 -7.752 0.000 (0) +Hto 1.606e-08 + Hto 1.606e-08 1.606e-08 -7.794 -7.794 0.000 (0) I 1.518e-08 I- 1.518e-08 1.518e-08 -7.819 -7.819 -0.000 (0) K 1.540e-03 @@ -160193,15 +160157,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.230e-09 - Nat+ 3.230e-09 3.230e-09 -8.491 -8.491 -0.000 (0) +Nat 2.652e-09 + Nat+ 2.652e-09 2.652e-09 -8.576 -8.576 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.498 -70.462 0.036 30.40 -S(-2) 5.528e-08 - HS- 3.867e-08 2.546e-08 -7.413 -7.594 -0.182 21.14 +S(-2) 5.530e-08 + HS- 3.868e-08 2.546e-08 -7.412 -7.594 -0.182 21.14 H2S 1.662e-08 1.807e-08 -7.779 -7.743 0.036 36.27 - S-2 1.571e-13 3.788e-14 -12.804 -13.422 -0.618 (0) - (H2S)2 1.582e-17 1.720e-17 -16.801 -16.765 0.036 30.09 + S-2 1.572e-13 3.789e-14 -12.804 -13.421 -0.618 (0) + (H2S)2 1.583e-17 1.721e-17 -16.801 -16.764 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -160276,7 +160240,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -160287,12 +160251,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 5.7559e-10 + Hto 5.0424e-10 I 4.2936e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3805e-10 + Nat 2.6039e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -160311,12 +160275,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.878e-09 5.747e-10 + Hto 4.273e-09 5.034e-10 I 3.644e-09 4.293e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.752e-10 6.777e-11 + Nat 4.431e-10 5.220e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -160348,8 +160312,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.549e-11 - CH4 3.549e-11 3.859e-11 -10.450 -10.414 0.036 35.46 +C(-4) 3.550e-11 + CH4 3.550e-11 3.860e-11 -10.450 -10.413 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -160375,8 +160339,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.004e-11 H2 1.002e-11 1.089e-11 -10.999 -10.963 0.036 28.61 -Hto 4.878e-09 - Hto 4.878e-09 4.878e-09 -8.312 -8.312 0.000 (0) +Hto 4.273e-09 + Hto 4.273e-09 4.273e-09 -8.369 -8.369 0.000 (0) I 3.644e-09 I- 3.644e-09 3.644e-09 -8.438 -8.438 -0.000 (0) K 1.540e-03 @@ -160394,15 +160358,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.752e-10 - Nat+ 5.752e-10 5.752e-10 -9.240 -9.240 -0.000 (0) +Nat 4.431e-10 + Nat+ 4.431e-10 4.431e-10 -9.354 -9.354 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.499 -70.463 0.036 30.40 -S(-2) 5.561e-08 - HS- 3.890e-08 2.561e-08 -7.410 -7.592 -0.182 21.14 - H2S 1.671e-08 1.817e-08 -7.777 -7.741 0.036 36.27 - S-2 1.581e-13 3.810e-14 -12.801 -13.419 -0.618 (0) - (H2S)2 1.601e-17 1.740e-17 -16.796 -16.759 0.036 30.09 +S(-2) 5.562e-08 + HS- 3.891e-08 2.561e-08 -7.410 -7.592 -0.182 21.14 + H2S 1.672e-08 1.818e-08 -7.777 -7.740 0.036 36.27 + S-2 1.581e-13 3.811e-14 -12.801 -13.419 -0.618 (0) + (H2S)2 1.601e-17 1.741e-17 -16.796 -16.759 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -160477,7 +160441,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -160488,12 +160452,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 1.3518e-10 + Hto 1.1415e-10 I 8.7345e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0129e-11 + Nat 3.6189e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -160512,12 +160476,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.146e-09 1.350e-10 + Hto 9.674e-10 1.140e-10 I 7.414e-10 8.734e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.530e-11 1.005e-11 + Nat 6.158e-11 7.255e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -160550,7 +160514,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.537e-11 - CH4 3.537e-11 3.845e-11 -10.451 -10.415 0.036 35.46 + CH4 3.537e-11 3.846e-11 -10.451 -10.415 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -160576,8 +160540,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.002e-11 H2 1.001e-11 1.088e-11 -11.000 -10.963 0.036 28.61 -Hto 1.146e-09 - Hto 1.146e-09 1.146e-09 -8.941 -8.941 0.000 (0) +Hto 9.674e-10 + Hto 9.674e-10 9.674e-10 -9.014 -9.014 0.000 (0) I 7.414e-10 I- 7.414e-10 7.414e-10 -9.130 -9.130 -0.000 (0) K 1.540e-03 @@ -160595,15 +160559,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.530e-11 - Nat+ 8.530e-11 8.530e-11 -10.069 -10.069 -0.000 (0) +Nat 6.158e-11 + Nat+ 6.158e-11 6.158e-11 -10.211 -10.211 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.499 -70.462 0.036 30.40 -S(-2) 5.541e-08 - HS- 3.876e-08 2.551e-08 -7.412 -7.593 -0.182 21.14 - H2S 1.665e-08 1.811e-08 -7.778 -7.742 0.036 36.27 +S(-2) 5.542e-08 + HS- 3.876e-08 2.552e-08 -7.412 -7.593 -0.182 21.14 + H2S 1.666e-08 1.811e-08 -7.778 -7.742 0.036 36.27 S-2 1.575e-13 3.797e-14 -12.803 -13.421 -0.618 (0) - (H2S)2 1.589e-17 1.728e-17 -16.799 -16.762 0.036 30.09 + (H2S)2 1.590e-17 1.728e-17 -16.799 -16.762 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -160668,7 +160632,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.641e-11 Surface + diffuse layer charge, eq + -9.644e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -160678,7 +160642,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -160689,12 +160653,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 2.7369e-11 + Hto 2.2249e-11 I 1.5251e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3016e-12 + Nat 4.2603e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -160713,12 +160677,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.319e-10 2.733e-11 + Hto 1.886e-10 2.221e-11 I 1.294e-10 1.525e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.072e-11 1.263e-12 + Nat 7.249e-12 8.540e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -160736,8 +160700,8 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.947e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 6.618e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -160776,9 +160740,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.998e-11 - H2 9.990e-12 1.086e-11 -11.000 -10.964 0.036 28.61 -Hto 2.319e-10 - Hto 2.319e-10 2.319e-10 -9.635 -9.635 0.000 (0) + H2 9.991e-12 1.086e-11 -11.000 -10.964 0.036 28.61 +Hto 1.886e-10 + Hto 1.886e-10 1.886e-10 -9.725 -9.725 0.000 (0) I 1.294e-10 I- 1.294e-10 1.294e-10 -9.888 -9.888 -0.000 (0) K 1.540e-03 @@ -160796,13 +160760,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.072e-11 - Nat+ 1.072e-11 1.072e-11 -10.970 -10.970 -0.000 (0) +Nat 7.249e-12 + Nat+ 7.249e-12 7.249e-12 -11.140 -11.140 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.497 -70.461 0.036 30.40 -S(-2) 5.500e-08 +S(-2) 5.501e-08 HS- 3.847e-08 2.533e-08 -7.415 -7.596 -0.182 21.14 - H2S 1.653e-08 1.797e-08 -7.782 -7.745 0.036 36.27 + H2S 1.653e-08 1.798e-08 -7.782 -7.745 0.036 36.27 S-2 1.563e-13 3.769e-14 -12.806 -13.424 -0.618 (0) (H2S)2 1.566e-17 1.703e-17 -16.805 -16.769 0.036 30.09 S(6) 1.260e-02 @@ -160869,7 +160833,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.632e-11 Surface + diffuse layer charge, eq + -9.633e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -160879,7 +160843,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -160890,12 +160854,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 4.8208e-12 + Hto 3.7692e-12 I 2.3083e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.8073e-13 + Nat 4.3078e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -160914,12 +160878,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.085e-11 4.813e-12 + Hto 3.194e-11 3.763e-12 I 1.959e-11 2.308e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.158e-12 1.365e-13 + Nat 7.330e-13 8.636e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -160937,7 +160901,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.434e-10 + Electrical balance (eq) = -9.282e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -160978,8 +160942,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.995e-11 H2 9.975e-12 1.085e-11 -11.001 -10.965 0.036 28.61 -Hto 4.085e-11 - Hto 4.085e-11 4.085e-11 -10.389 -10.389 0.000 (0) +Hto 3.194e-11 + Hto 3.194e-11 3.194e-11 -10.496 -10.496 0.000 (0) I 1.959e-11 I- 1.959e-11 1.959e-11 -10.708 -10.708 -0.000 (0) K 1.540e-03 @@ -160997,8 +160961,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.158e-12 - Nat+ 1.158e-12 1.158e-12 -11.936 -11.936 -0.000 (0) +Nat 7.330e-13 + Nat+ 7.330e-13 7.330e-13 -12.135 -12.135 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.496 -70.459 0.036 30.40 S(-2) 5.468e-08 @@ -161080,7 +161044,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -161091,12 +161055,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 7.4436e-13 - I 3.0545e-25 + Hto 5.5934e-13 + I 3.0540e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3867e-14 + Nat 3.7818e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -161115,12 +161079,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.308e-12 7.432e-13 + Hto 4.740e-12 5.584e-13 I 2.592e-12 3.054e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.087e-13 1.280e-14 + Nat 6.435e-14 7.581e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -161138,7 +161102,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.299e-09 + Electrical balance (eq) = -1.302e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -161179,8 +161143,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.994e-11 H2 9.969e-12 1.084e-11 -11.001 -10.965 0.036 28.61 -Hto 6.308e-12 - Hto 6.308e-12 6.308e-12 -11.200 -11.200 0.000 (0) +Hto 4.740e-12 + Hto 4.740e-12 4.740e-12 -11.324 -11.324 0.000 (0) I 2.592e-12 I- 2.592e-12 2.592e-12 -11.586 -11.586 -0.000 (0) K 1.540e-03 @@ -161198,12 +161162,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.087e-13 - Nat+ 1.087e-13 1.087e-13 -12.964 -12.964 -0.000 (0) +Nat 6.435e-14 + Nat+ 6.435e-14 6.435e-14 -13.191 -13.191 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.459 0.036 30.40 -S(-2) 5.455e-08 - HS- 3.815e-08 2.511e-08 -7.418 -7.600 -0.182 21.14 +S(-2) 5.454e-08 + HS- 3.815e-08 2.511e-08 -7.419 -7.600 -0.182 21.14 H2S 1.639e-08 1.782e-08 -7.785 -7.749 0.036 36.27 S-2 1.550e-13 3.737e-14 -12.810 -13.427 -0.618 (0) (H2S)2 1.540e-17 1.674e-17 -16.813 -16.776 0.036 30.09 @@ -161271,7 +161235,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -9.627e-11 Surface + diffuse layer charge, eq + -9.628e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -161281,7 +161245,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -161292,12 +161256,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 1.0139e-13 + Hto 7.3180e-14 I 3.5574e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2479e-15 + Nat 2.9070e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -161316,12 +161280,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.592e-13 1.012e-13 + Hto 6.202e-13 7.306e-14 I 3.019e-13 3.557e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.930e-15 1.052e-15 + Nat 4.947e-15 5.828e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -161354,7 +161318,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.486e-11 - CH4 3.486e-11 3.791e-11 -10.458 -10.421 0.036 35.46 + CH4 3.486e-11 3.790e-11 -10.458 -10.421 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -161380,8 +161344,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.995e-11 H2 9.973e-12 1.084e-11 -11.001 -10.965 0.036 28.61 -Hto 8.592e-13 - Hto 8.592e-13 8.592e-13 -12.066 -12.066 0.000 (0) +Hto 6.202e-13 + Hto 6.202e-13 6.202e-13 -12.207 -12.207 0.000 (0) I 3.019e-13 I- 3.019e-13 3.019e-13 -12.520 -12.520 -0.000 (0) K 1.540e-03 @@ -161399,14 +161363,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.930e-15 - Nat+ 8.930e-15 8.930e-15 -14.049 -14.049 -0.000 (0) +Nat 4.947e-15 + Nat+ 4.947e-15 4.947e-15 -14.306 -14.306 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.459 0.036 30.40 -S(-2) 5.463e-08 - HS- 3.821e-08 2.515e-08 -7.418 -7.599 -0.182 21.14 +S(-2) 5.462e-08 + HS- 3.820e-08 2.515e-08 -7.418 -7.599 -0.182 21.14 H2S 1.642e-08 1.785e-08 -7.785 -7.748 0.036 36.27 - S-2 1.553e-13 3.742e-14 -12.809 -13.427 -0.618 (0) + S-2 1.552e-13 3.742e-14 -12.809 -13.427 -0.618 (0) (H2S)2 1.544e-17 1.679e-17 -16.811 -16.775 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -161482,7 +161446,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -161493,12 +161457,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 1.2244e-14 + Hto 8.4852e-15 I 3.6674e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8018e-16 + Nat 1.9697e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -161517,12 +161481,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.038e-13 1.222e-14 + Hto 7.191e-14 8.471e-15 I 3.113e-14 3.667e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.469e-16 7.621e-17 + Nat 3.352e-16 3.949e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -161540,7 +161504,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.779e-10 + Electrical balance (eq) = 1.048e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -161581,8 +161545,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.998e-11 H2 9.988e-12 1.086e-11 -11.001 -10.964 0.036 28.61 -Hto 1.038e-13 - Hto 1.038e-13 1.038e-13 -12.984 -12.984 0.000 (0) +Hto 7.191e-14 + Hto 7.191e-14 7.191e-14 -13.143 -13.143 0.000 (0) I 3.113e-14 I- 3.113e-14 3.113e-14 -13.507 -13.507 -0.000 (0) K 1.540e-03 @@ -161600,8 +161564,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.469e-16 - Nat+ 6.469e-16 6.469e-16 -15.189 -15.189 -0.000 (0) +Nat 3.352e-16 + Nat+ 3.352e-16 3.352e-16 -15.475 -15.475 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.497 -70.460 0.036 30.40 S(-2) 5.495e-08 @@ -161683,7 +161647,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -161694,12 +161658,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 1.3164e-15 - I 3.3610e-28 + Hto 8.7561e-16 + I 3.3615e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4409e-17 + Nat 1.1827e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -161718,12 +161682,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.116e-14 1.314e-15 + Hto 7.420e-15 8.742e-16 I 2.853e-15 3.361e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.154e-17 4.893e-18 + Nat 2.013e-17 2.371e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -161782,8 +161746,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.002e-11 H2 1.001e-11 1.088e-11 -11.000 -10.963 0.036 28.61 -Hto 1.116e-14 - Hto 1.116e-14 1.116e-14 -13.952 -13.952 0.000 (0) +Hto 7.420e-15 + Hto 7.420e-15 7.420e-15 -14.130 -14.130 0.000 (0) I 2.853e-15 I- 2.853e-15 2.853e-15 -14.545 -14.545 -0.000 (0) K 1.540e-03 @@ -161801,8 +161765,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.154e-17 - Nat+ 4.154e-17 4.154e-17 -16.382 -16.382 -0.000 (0) +Nat 2.013e-17 + Nat+ 2.013e-17 2.013e-17 -16.696 -16.696 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.499 -70.462 0.036 30.40 S(-2) 5.544e-08 @@ -161884,7 +161848,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -161895,12 +161859,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 1.2642e-16 + Hto 8.0684e-17 I 2.7481e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3947e-18 + Nat 6.3193e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -161919,12 +161883,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.071e-15 1.262e-16 + Hto 6.838e-16 8.055e-17 I 2.332e-16 2.748e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.373e-18 2.796e-19 + Nat 1.075e-18 1.267e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -161956,8 +161920,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.561e-11 - CH4 3.561e-11 3.872e-11 -10.448 -10.412 0.036 35.46 +C(-4) 3.562e-11 + CH4 3.562e-11 3.872e-11 -10.448 -10.412 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -161983,8 +161947,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.005e-11 H2 1.003e-11 1.090e-11 -10.999 -10.963 0.036 28.61 -Hto 1.071e-15 - Hto 1.071e-15 1.071e-15 -14.970 -14.970 0.000 (0) +Hto 6.838e-16 + Hto 6.838e-16 6.838e-16 -15.165 -15.165 0.000 (0) I 2.332e-16 I- 2.332e-16 2.332e-16 -15.632 -15.632 -0.000 (0) K 1.540e-03 @@ -162002,15 +161966,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.373e-18 - Nat+ 2.373e-18 2.373e-18 -17.625 -17.625 -0.000 (0) +Nat 1.075e-18 + Nat+ 1.075e-18 1.075e-18 -17.968 -17.968 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.500 -70.464 0.036 30.40 S(-2) 5.580e-08 HS- 3.903e-08 2.569e-08 -7.409 -7.590 -0.182 21.14 H2S 1.677e-08 1.823e-08 -7.775 -7.739 0.036 36.27 S-2 1.586e-13 3.823e-14 -12.800 -13.418 -0.618 (0) - (H2S)2 1.611e-17 1.752e-17 -16.793 -16.756 0.036 30.09 + (H2S)2 1.612e-17 1.752e-17 -16.793 -16.756 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -162085,7 +162049,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -162096,12 +162060,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 1.0872e-17 - I 2.0099e-30 + Hto 6.6561e-18 + I 2.0103e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.1150e-20 + Nat 3.0141e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -162120,12 +162084,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.214e-17 1.085e-17 + Hto 5.641e-17 6.645e-18 I 1.706e-17 2.010e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.211e-19 1.426e-20 + Nat 5.129e-20 6.042e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -162184,8 +162148,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.003e-11 1.091e-11 -10.999 -10.962 0.036 28.61 -Hto 9.214e-17 - Hto 9.214e-17 9.214e-17 -16.036 -16.036 0.000 (0) +Hto 5.641e-17 + Hto 5.641e-17 5.641e-17 -16.249 -16.249 0.000 (0) I 1.706e-17 I- 1.706e-17 1.706e-17 -16.768 -16.768 -0.000 (0) K 1.540e-03 @@ -162203,11 +162167,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.211e-19 - Nat+ 1.211e-19 1.211e-19 -18.917 -18.917 -0.000 (0) +Nat 5.129e-20 + Nat+ 5.129e-20 5.129e-20 -19.290 -19.290 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.501 -70.464 0.036 30.40 -S(-2) 5.595e-08 +S(-2) 5.596e-08 HS- 3.914e-08 2.576e-08 -7.407 -7.589 -0.182 21.14 H2S 1.682e-08 1.828e-08 -7.774 -7.738 0.036 36.27 S-2 1.590e-13 3.834e-14 -12.798 -13.416 -0.618 (0) @@ -162286,7 +162250,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -162297,12 +162261,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 8.3881e-19 + Hto 4.9252e-19 I 1.3181e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2479e-21 + Nat 1.2863e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -162321,12 +162285,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.109e-18 8.375e-19 + Hto 4.174e-18 4.917e-19 I 1.119e-18 1.318e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.527e-21 6.511e-22 + Nat 2.189e-21 2.579e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -162385,8 +162349,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.004e-11 1.091e-11 -10.998 -10.962 0.036 28.61 -Hto 7.109e-18 - Hto 7.109e-18 7.109e-18 -17.148 -17.148 0.000 (0) +Hto 4.174e-18 + Hto 4.174e-18 4.174e-18 -17.379 -17.379 0.000 (0) I 1.119e-18 I- 1.119e-18 1.119e-18 -17.951 -17.951 -0.000 (0) K 1.540e-03 @@ -162404,12 +162368,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.527e-21 - Nat+ 5.527e-21 5.527e-21 -20.258 -20.258 -0.000 (0) +Nat 2.189e-21 + Nat+ 2.189e-21 2.189e-21 -20.660 -20.660 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.501 -70.464 0.036 30.40 S(-2) 5.600e-08 - HS- 3.917e-08 2.578e-08 -7.407 -7.589 -0.182 21.14 + HS- 3.917e-08 2.579e-08 -7.407 -7.589 -0.182 21.14 H2S 1.683e-08 1.830e-08 -7.774 -7.738 0.036 36.27 S-2 1.592e-13 3.837e-14 -12.798 -13.416 -0.618 (0) (H2S)2 1.623e-17 1.765e-17 -16.790 -16.753 0.036 30.09 @@ -162487,7 +162451,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -162498,12 +162462,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 5.8129e-20 + Hto 3.2730e-20 I 7.7579e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3275e-22 + Nat 4.9067e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -162522,12 +162486,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.926e-19 5.804e-20 + Hto 2.774e-19 3.268e-20 I 6.584e-20 7.757e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.259e-22 2.661e-23 + Nat 8.349e-23 9.836e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -162586,8 +162550,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.004e-11 1.091e-11 -10.998 -10.962 0.036 28.61 -Hto 4.926e-19 - Hto 4.926e-19 4.926e-19 -18.307 -18.307 0.000 (0) +Hto 2.774e-19 + Hto 2.774e-19 2.774e-19 -18.557 -18.557 0.000 (0) I 6.584e-20 I- 6.584e-20 6.584e-20 -19.181 -19.181 -0.000 (0) K 1.540e-03 @@ -162605,8 +162569,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.259e-22 - Nat+ 2.259e-22 2.259e-22 -21.646 -21.646 -0.000 (0) +Nat 8.349e-23 + Nat+ 8.349e-23 8.349e-23 -22.078 -22.078 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.501 -70.465 0.036 30.40 S(-2) 5.601e-08 @@ -162688,7 +162652,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -162699,12 +162663,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 3.6207e-21 - I 4.1006e-34 + Hto 1.9546e-21 + I 4.1011e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.7557e-24 + Nat 1.5123e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -162723,12 +162687,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.068e-20 3.615e-21 + Hto 1.656e-20 1.951e-21 I 3.481e-21 4.100e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.092e-24 9.534e-25 + Nat 2.573e-24 3.032e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -162787,8 +162751,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.004e-11 1.091e-11 -10.998 -10.962 0.036 28.61 -Hto 3.068e-20 - Hto 3.068e-20 3.068e-20 -19.513 -19.513 0.000 (0) +Hto 1.656e-20 + Hto 1.656e-20 1.656e-20 -19.781 -19.781 0.000 (0) I 3.481e-21 I- 3.481e-21 3.481e-21 -20.458 -20.458 -0.000 (0) K 1.540e-03 @@ -162806,8 +162770,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.092e-24 - Nat+ 8.092e-24 8.092e-24 -23.092 -23.092 -0.000 (0) +Nat 2.573e-24 + Nat+ 2.573e-24 2.573e-24 -23.590 -23.590 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.501 -70.465 0.036 30.40 S(-2) 5.601e-08 @@ -162889,7 +162853,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -162900,8 +162864,8 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 2.0266e-22 - I 1.9413e-35 + Hto 1.0486e-22 + I 1.9407e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -162923,7 +162887,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.717e-21 2.023e-22 + Hto 8.887e-22 1.047e-22 I 1.647e-22 1.941e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -162986,8 +162950,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.004e-11 1.091e-11 -10.998 -10.962 0.036 28.61 -Hto 1.717e-21 - Hto 1.717e-21 1.717e-21 -20.765 -20.765 0.000 (0) +Hto 8.887e-22 + Hto 8.887e-22 8.887e-22 -21.051 -21.051 0.000 (0) I 1.647e-22 I- 1.647e-22 1.647e-22 -21.783 -21.783 -0.000 (0) K 1.540e-03 @@ -163086,7 +163050,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -163097,7 +163061,7 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 1.0576e-23 + Hto 5.2078e-24 I 7.7610e-37 K 8.9156e-04 Mg 4.6365e-02 @@ -163120,7 +163084,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.962e-23 1.056e-23 + Hto 4.413e-23 5.199e-24 I 6.587e-24 7.760e-25 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -163183,8 +163147,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.007e-11 H2 1.004e-11 1.091e-11 -10.998 -10.962 0.036 28.61 -Hto 8.962e-23 - Hto 8.962e-23 8.962e-23 -22.048 -22.048 0.000 (0) +Hto 4.413e-23 + Hto 4.413e-23 4.413e-23 -22.355 -22.355 0.000 (0) I 6.587e-24 I- 6.587e-24 6.587e-24 -23.181 -23.181 -0.000 (0) K 1.540e-03 @@ -163572,30 +163536,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.406e-07 2.703e-07 + Hto 5.460e-07 2.730e-07 I 7.170e-07 3.585e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.058e-07 1.529e-07 + Nat 3.133e-07 1.566e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.034 Adjusted to redox equilibrium + pe = -3.033 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.696e-13 + Electrical balance (eq) = -3.165e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -163609,8 +163573,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.264e-12 - CH4 2.264e-12 2.462e-12 -11.645 -11.609 0.036 35.46 +C(-4) 2.218e-12 + CH4 2.218e-12 2.412e-12 -11.654 -11.618 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -163634,10 +163598,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.007e-11 - H2 5.033e-12 5.472e-12 -11.298 -11.262 0.036 28.61 -Hto 5.406e-07 - Hto 5.406e-07 5.406e-07 -6.267 -6.267 0.000 (0) +H(0) 1.001e-11 + H2 5.007e-12 5.444e-12 -11.300 -11.264 0.036 28.61 +Hto 5.460e-07 + Hto 5.460e-07 5.460e-07 -6.263 -6.263 0.000 (0) I 7.170e-07 I- 7.170e-07 7.170e-07 -6.144 -6.144 -0.000 (0) K 1.540e-03 @@ -163655,15 +163619,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.058e-07 - Nat+ 3.058e-07 3.058e-07 -6.515 -6.515 -0.000 (0) +Nat 3.133e-07 + Nat+ 3.133e-07 3.133e-07 -6.504 -6.504 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.901 -69.865 0.036 30.40 -S(-2) 3.549e-09 - HS- 2.482e-09 1.634e-09 -8.605 -8.787 -0.182 21.14 - H2S 1.068e-09 1.161e-09 -8.972 -8.935 0.036 36.27 - S-2 1.007e-14 2.428e-15 -13.997 -14.615 -0.618 (0) - (H2S)2 6.532e-20 7.102e-20 -19.185 -19.149 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.897 -69.861 0.036 30.40 +S(-2) 3.477e-09 + HS- 2.431e-09 1.600e-09 -8.614 -8.796 -0.182 21.14 + H2S 1.046e-09 1.137e-09 -8.980 -8.944 0.036 36.27 + S-2 9.867e-15 2.378e-15 -14.006 -14.624 -0.618 (0) + (H2S)2 6.269e-20 6.816e-20 -19.203 -19.166 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -163690,21 +163654,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.81 -11.61 -2.80 CH4 + CH4(g) -8.82 -11.62 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.16 -11.26 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.94 -15.88 -7.94 H2S + H2S(g) -7.95 -15.89 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.97 -69.87 -2.89 O2 + O2(g) -66.97 -69.86 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.71 -0.82 4.88 S + Sulfur -5.71 -0.83 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -163728,7 +163692,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.741e-14 Surface + diffuse layer charge, eq + -4.680e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -163738,7 +163702,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -163749,12 +163713,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 5.5073e-08 + Hto 5.5374e-08 I 7.3202e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6012e-07 + Nat 1.6283e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -163773,12 +163737,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.667e-07 5.498e-08 + Hto 4.693e-07 5.529e-08 I 6.213e-07 7.320e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.725e-07 3.210e-08 + Nat 2.771e-07 3.264e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -163789,14 +163753,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.671e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -163810,8 +163774,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 6.956e-12 - CH4 6.956e-12 7.563e-12 -11.158 -11.121 0.036 35.46 +C(-4) 6.904e-12 + CH4 6.904e-12 7.507e-12 -11.161 -11.125 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -163835,10 +163799,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.333e-11 - H2 6.664e-12 7.245e-12 -11.176 -11.140 0.036 28.61 -Hto 4.667e-07 - Hto 4.667e-07 4.667e-07 -6.331 -6.331 0.000 (0) +H(0) 1.330e-11 + H2 6.651e-12 7.232e-12 -11.177 -11.141 0.036 28.61 +Hto 4.693e-07 + Hto 4.693e-07 4.693e-07 -6.329 -6.329 0.000 (0) I 6.213e-07 I- 6.213e-07 6.213e-07 -6.207 -6.207 -0.000 (0) K 1.540e-03 @@ -163856,15 +163820,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.725e-07 - Nat+ 2.725e-07 2.725e-07 -6.565 -6.565 -0.000 (0) +Nat 2.771e-07 + Nat+ 2.771e-07 2.771e-07 -6.557 -6.557 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.145 -70.109 0.036 30.40 -S(-2) 1.090e-08 - HS- 7.624e-09 5.019e-09 -8.118 -8.299 -0.182 21.14 - H2S 3.280e-09 3.566e-09 -8.484 -8.448 0.036 36.27 - S-2 3.095e-14 7.460e-15 -13.509 -14.127 -0.618 (0) - (H2S)2 6.163e-19 6.701e-19 -18.210 -18.174 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.144 -70.107 0.036 30.40 +S(-2) 1.082e-08 + HS- 7.567e-09 4.982e-09 -8.121 -8.303 -0.182 21.14 + H2S 3.255e-09 3.539e-09 -8.487 -8.451 0.036 36.27 + S-2 3.072e-14 7.404e-15 -13.513 -14.131 -0.618 (0) + (H2S)2 6.072e-19 6.602e-19 -18.217 -18.180 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -163898,12 +163862,12 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.04 -11.14 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.45 -15.39 -7.94 H2S + H2S(g) -7.46 -15.39 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.22 -70.11 -2.89 O2 + O2(g) -67.21 -70.11 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.34 -0.46 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -163929,7 +163893,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.419e-11 Surface + diffuse layer charge, eq + -9.418e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -163939,7 +163903,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -163950,12 +163914,12 @@ Su Ca 7.1884e-02 Cl 4.6620e-10 H 1.2949e-04 - Hto 3.3596e-08 + Hto 3.3223e-08 I 4.1008e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.5142e-08 + Nat 8.3240e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -163974,12 +163938,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.847e-07 3.354e-08 + Hto 2.816e-07 3.317e-08 I 3.481e-07 4.101e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.449e-07 1.707e-08 + Nat 1.416e-07 1.669e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -163997,7 +163961,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.137e-09 + Electrical balance (eq) = 3.104e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -164011,15 +163975,15 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.493e-11 - CH4 2.493e-11 2.710e-11 -10.603 -10.567 0.036 35.46 +C(-4) 2.499e-11 + CH4 2.499e-11 2.717e-11 -10.602 -10.566 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.016e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.016e-06 9.803e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.631e-06 3.947e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.382e-06 8.609e-07 -5.471 -6.065 -0.594 -1.53 @@ -164030,16 +163994,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.016e-06 9.802e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.016e-06 9.803e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.371e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.789e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.951e-09 5.640e-09 -8.403 -8.249 0.155 (0) -H(0) 1.834e-11 - H2 9.170e-12 9.970e-12 -11.038 -11.001 0.036 28.61 -Hto 2.847e-07 - Hto 2.847e-07 2.847e-07 -6.546 -6.546 0.000 (0) +H(0) 1.835e-11 + H2 9.175e-12 9.976e-12 -11.037 -11.001 0.036 28.61 +Hto 2.816e-07 + Hto 2.816e-07 2.816e-07 -6.550 -6.550 0.000 (0) I 3.481e-07 I- 3.481e-07 3.481e-07 -6.458 -6.458 -0.000 (0) K 1.540e-03 @@ -164057,15 +164021,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.449e-07 - Nat+ 1.449e-07 1.449e-07 -6.839 -6.839 -0.000 (0) +Nat 1.416e-07 + Nat+ 1.416e-07 1.416e-07 -6.849 -6.849 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.423 -70.386 0.036 30.40 -S(-2) 3.907e-08 - HS- 2.732e-08 1.799e-08 -7.564 -7.745 -0.182 21.14 - H2S 1.174e-08 1.277e-08 -7.930 -7.894 0.036 36.27 - S-2 1.110e-13 2.675e-14 -12.955 -13.573 -0.618 (0) - (H2S)2 7.903e-18 8.592e-18 -17.102 -17.066 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.423 -70.387 0.036 30.40 +S(-2) 3.916e-08 + HS- 2.738e-08 1.803e-08 -7.563 -7.744 -0.182 21.14 + H2S 1.177e-08 1.280e-08 -7.929 -7.893 0.036 36.27 + S-2 1.112e-13 2.681e-14 -12.954 -13.572 -0.618 (0) + (H2S)2 7.939e-18 8.632e-18 -17.100 -17.064 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -164092,14 +164056,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.77 -10.57 -2.80 CH4 + CH4(g) -7.76 -10.57 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.90 -11.00 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.90 -14.84 -7.94 H2S + H2S(g) -6.90 -14.83 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -164140,7 +164104,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -164149,14 +164113,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6607e-10 + Cl 4.6606e-10 H 1.2950e-04 - Hto 1.6550e-08 - I 1.8231e-20 + Hto 1.5985e-08 + I 1.8234e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2174e-08 + Nat 2.9861e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -164175,12 +164139,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.403e-07 1.652e-08 + Hto 1.355e-07 1.596e-08 I 1.547e-07 1.823e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.475e-08 6.450e-09 + Nat 5.081e-08 5.986e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -164198,7 +164162,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.507e-09 + Electrical balance (eq) = -1.506e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -164212,8 +164176,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.234e-11 - CH4 3.234e-11 3.516e-11 -10.490 -10.454 0.036 35.46 +C(-4) 3.239e-11 + CH4 3.239e-11 3.521e-11 -10.490 -10.453 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -164237,10 +164201,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.957e-11 - H2 9.787e-12 1.064e-11 -11.009 -10.973 0.036 28.61 -Hto 1.403e-07 - Hto 1.403e-07 1.403e-07 -6.853 -6.853 0.000 (0) +H(0) 1.958e-11 + H2 9.791e-12 1.064e-11 -11.009 -10.973 0.036 28.61 +Hto 1.355e-07 + Hto 1.355e-07 1.355e-07 -6.868 -6.868 0.000 (0) I 1.547e-07 I- 1.547e-07 1.547e-07 -6.810 -6.810 -0.000 (0) K 1.540e-03 @@ -164258,15 +164222,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.475e-08 - Nat+ 5.475e-08 5.475e-08 -7.262 -7.262 -0.000 (0) +Nat 5.081e-08 + Nat+ 5.081e-08 5.081e-08 -7.294 -7.294 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.479 -70.443 0.036 30.40 -S(-2) 5.067e-08 - HS- 3.544e-08 2.333e-08 -7.450 -7.632 -0.182 21.14 - H2S 1.523e-08 1.656e-08 -7.817 -7.781 0.036 36.27 - S-2 1.440e-13 3.471e-14 -12.842 -13.460 -0.618 (0) - (H2S)2 1.329e-17 1.445e-17 -16.876 -16.840 0.036 30.09 +S(-2) 5.075e-08 + HS- 3.549e-08 2.337e-08 -7.450 -7.631 -0.182 21.14 + H2S 1.525e-08 1.658e-08 -7.817 -7.780 0.036 36.27 + S-2 1.442e-13 3.476e-14 -12.841 -13.459 -0.618 (0) + (H2S)2 1.333e-17 1.449e-17 -16.875 -16.839 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -164341,7 +164305,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -164352,12 +164316,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 6.6739e-09 + Hto 6.2644e-09 I 6.5397e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1807e-09 + Nat 8.0387e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -164376,12 +164340,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.656e-08 6.663e-09 + Hto 5.309e-08 6.254e-09 I 5.551e-08 6.539e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.562e-08 1.840e-09 + Nat 1.368e-08 1.611e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -164413,11 +164377,11 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.526e-11 - CH4 3.526e-11 3.834e-11 -10.453 -10.416 0.036 35.46 +C(-4) 3.529e-11 + CH4 3.529e-11 3.837e-11 -10.452 -10.416 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 - CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 + CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 @@ -164434,14 +164398,14 @@ Ca 2.590e-02 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.020e-06 9.807e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.726 -7.863 -0.136 (0) - CaHSO4+ 1.065e-09 7.786e-10 -8.972 -9.109 -0.136 (0) + CaHSO4+ 1.065e-09 7.785e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.000e-11 - H2 1.000e-11 1.087e-11 -11.000 -10.964 0.036 28.61 -Hto 5.656e-08 - Hto 5.656e-08 5.656e-08 -7.248 -7.248 0.000 (0) +H(0) 2.001e-11 + H2 1.000e-11 1.088e-11 -11.000 -10.964 0.036 28.61 +Hto 5.309e-08 + Hto 5.309e-08 5.309e-08 -7.275 -7.275 0.000 (0) I 5.551e-08 I- 5.551e-08 5.551e-08 -7.256 -7.256 -0.000 (0) K 1.540e-03 @@ -164459,15 +164423,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.562e-08 - Nat+ 1.562e-08 1.562e-08 -7.806 -7.806 -0.000 (0) +Nat 1.368e-08 + Nat+ 1.368e-08 1.368e-08 -7.864 -7.864 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.498 -70.462 0.036 30.40 -S(-2) 5.525e-08 - HS- 3.864e-08 2.544e-08 -7.413 -7.595 -0.182 21.14 - H2S 1.661e-08 1.805e-08 -7.780 -7.743 0.036 36.27 - S-2 1.570e-13 3.785e-14 -12.804 -13.422 -0.618 (0) - (H2S)2 1.580e-17 1.718e-17 -16.801 -16.765 0.036 30.09 +S(-2) 5.529e-08 + HS- 3.867e-08 2.546e-08 -7.413 -7.594 -0.182 21.14 + H2S 1.662e-08 1.807e-08 -7.779 -7.743 0.036 36.27 + S-2 1.571e-13 3.788e-14 -12.804 -13.422 -0.618 (0) + (H2S)2 1.582e-17 1.720e-17 -16.801 -16.764 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -164477,7 +164441,7 @@ S(6) 1.260e-02 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 HSO4- 1.307e-08 9.554e-09 -7.884 -8.020 -0.136 40.78 - CaHSO4+ 1.065e-09 7.786e-10 -8.972 -9.109 -0.136 (0) + CaHSO4+ 1.065e-09 7.785e-10 -8.972 -9.109 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 @@ -164501,7 +164465,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.86 -10.96 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.75 -14.69 -7.94 H2S + H2S(g) -6.75 -14.68 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -164542,7 +164506,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -164553,12 +164517,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 2.2375e-09 + Hto 2.0338e-09 I 1.9290e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0675e-09 + Nat 1.7022e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -164577,12 +164541,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.896e-08 2.234e-09 + Hto 1.724e-08 2.031e-09 I 1.637e-08 1.929e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.518e-09 4.145e-10 + Nat 2.897e-09 3.412e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -164614,8 +164578,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.627e-11 - CH4 3.627e-11 3.944e-11 -10.440 -10.404 0.036 35.46 +C(-4) 3.629e-11 + CH4 3.629e-11 3.945e-11 -10.440 -10.404 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -164639,10 +164603,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.014e-11 +H(0) 2.015e-11 H2 1.007e-11 1.095e-11 -10.997 -10.961 0.036 28.61 -Hto 1.896e-08 - Hto 1.896e-08 1.896e-08 -7.722 -7.722 0.000 (0) +Hto 1.724e-08 + Hto 1.724e-08 1.724e-08 -7.764 -7.764 0.000 (0) I 1.637e-08 I- 1.637e-08 1.637e-08 -7.786 -7.786 -0.000 (0) K 1.540e-03 @@ -164660,15 +164624,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.518e-09 - Nat+ 3.518e-09 3.518e-09 -8.454 -8.454 -0.000 (0) +Nat 2.897e-09 + Nat+ 2.897e-09 2.897e-09 -8.538 -8.538 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.504 -70.468 0.036 30.40 -S(-2) 5.683e-08 - HS- 3.975e-08 2.617e-08 -7.401 -7.582 -0.182 21.14 - H2S 1.708e-08 1.857e-08 -7.767 -7.731 0.036 36.27 - S-2 1.615e-13 3.894e-14 -12.792 -13.410 -0.618 (0) - (H2S)2 1.672e-17 1.817e-17 -16.777 -16.741 0.036 30.09 +S(-2) 5.685e-08 + HS- 3.977e-08 2.618e-08 -7.400 -7.582 -0.182 21.14 + H2S 1.709e-08 1.858e-08 -7.767 -7.731 0.036 36.27 + S-2 1.616e-13 3.895e-14 -12.792 -13.409 -0.618 (0) + (H2S)2 1.673e-17 1.819e-17 -16.777 -16.740 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -164743,7 +164707,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -164754,12 +164718,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 6.3281e-10 - I 4.7584e-22 + Hto 5.5560e-10 + I 4.7594e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7933e-10 + Nat 2.9310e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -164778,12 +164742,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.363e-09 6.318e-10 + Hto 4.708e-09 5.547e-10 I 4.039e-09 4.759e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.455e-10 7.604e-11 + Nat 4.987e-10 5.876e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -164815,8 +164779,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.650e-11 - CH4 3.650e-11 3.969e-11 -10.438 -10.401 0.036 35.46 +C(-4) 3.651e-11 + CH4 3.651e-11 3.969e-11 -10.438 -10.401 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -164842,8 +164806,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.018e-11 H2 1.009e-11 1.097e-11 -10.996 -10.960 0.036 28.61 -Hto 5.363e-09 - Hto 5.363e-09 5.363e-09 -8.271 -8.271 0.000 (0) +Hto 4.708e-09 + Hto 4.708e-09 4.708e-09 -8.327 -8.327 0.000 (0) I 4.039e-09 I- 4.039e-09 4.039e-09 -8.394 -8.394 -0.000 (0) K 1.540e-03 @@ -164861,15 +164825,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.455e-10 - Nat+ 6.455e-10 6.455e-10 -9.190 -9.190 -0.000 (0) +Nat 4.987e-10 + Nat+ 4.987e-10 4.987e-10 -9.302 -9.302 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.505 -70.469 0.036 30.40 -S(-2) 5.719e-08 - HS- 4.000e-08 2.633e-08 -7.398 -7.580 -0.182 21.14 +S(-2) 5.720e-08 + HS- 4.001e-08 2.634e-08 -7.398 -7.579 -0.182 21.14 H2S 1.719e-08 1.869e-08 -7.765 -7.728 0.036 36.27 - S-2 1.626e-13 3.918e-14 -12.789 -13.407 -0.618 (0) - (H2S)2 1.693e-17 1.840e-17 -16.771 -16.735 0.036 30.09 + S-2 1.626e-13 3.919e-14 -12.789 -13.407 -0.618 (0) + (H2S)2 1.693e-17 1.841e-17 -16.771 -16.735 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -164944,7 +164908,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -164955,12 +164919,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 1.5291e-10 - I 9.9714e-23 + Hto 1.2945e-10 + I 9.9701e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8049e-11 + Nat 4.2045e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -164979,12 +164943,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.296e-09 1.527e-10 + Hto 1.097e-09 1.292e-10 I 8.463e-10 9.970e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.878e-11 1.164e-11 + Nat 7.154e-11 8.429e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -165016,8 +164980,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.638e-11 - CH4 3.638e-11 3.956e-11 -10.439 -10.403 0.036 35.46 +C(-4) 3.639e-11 + CH4 3.639e-11 3.956e-11 -10.439 -10.403 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -165043,8 +165007,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.016e-11 H2 1.008e-11 1.096e-11 -10.997 -10.960 0.036 28.61 -Hto 1.296e-09 - Hto 1.296e-09 1.296e-09 -8.887 -8.887 0.000 (0) +Hto 1.097e-09 + Hto 1.097e-09 1.097e-09 -8.960 -8.960 0.000 (0) I 8.463e-10 I- 8.463e-10 8.463e-10 -9.072 -9.072 -0.000 (0) K 1.540e-03 @@ -165062,15 +165026,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.878e-11 - Nat+ 9.878e-11 9.878e-11 -10.005 -10.005 -0.000 (0) +Nat 7.154e-11 + Nat+ 7.154e-11 7.154e-11 -10.145 -10.145 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.505 -70.468 0.036 30.40 -S(-2) 5.700e-08 - HS- 3.987e-08 2.625e-08 -7.399 -7.581 -0.182 21.14 - H2S 1.713e-08 1.863e-08 -7.766 -7.730 0.036 36.27 - S-2 1.620e-13 3.906e-14 -12.790 -13.408 -0.618 (0) - (H2S)2 1.682e-17 1.828e-17 -16.774 -16.738 0.036 30.09 +S(-2) 5.701e-08 + HS- 3.988e-08 2.625e-08 -7.399 -7.581 -0.182 21.14 + H2S 1.714e-08 1.863e-08 -7.766 -7.730 0.036 36.27 + S-2 1.621e-13 3.906e-14 -12.790 -13.408 -0.618 (0) + (H2S)2 1.682e-17 1.829e-17 -16.774 -16.738 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -165135,7 +165099,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.670e-11 Surface + diffuse layer charge, eq + -9.673e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -165145,7 +165109,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -165156,12 +165120,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 3.1915e-11 + Hto 2.6016e-11 I 1.7959e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5412e-12 + Nat 5.1161e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -165180,12 +165144,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.705e-10 3.186e-11 + Hto 2.205e-10 2.597e-11 I 1.524e-10 1.796e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.283e-11 1.512e-12 + Nat 8.706e-12 1.026e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -165203,8 +165167,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.912e-10 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 5.653e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -165244,8 +165208,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.013e-11 H2 1.006e-11 1.094e-11 -10.997 -10.961 0.036 28.61 -Hto 2.705e-10 - Hto 2.705e-10 2.705e-10 -9.568 -9.568 0.000 (0) +Hto 2.205e-10 + Hto 2.205e-10 2.205e-10 -9.657 -9.657 0.000 (0) I 1.524e-10 I- 1.524e-10 1.524e-10 -9.817 -9.817 -0.000 (0) K 1.540e-03 @@ -165263,15 +165227,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.283e-11 - Nat+ 1.283e-11 1.283e-11 -10.892 -10.892 -0.000 (0) +Nat 8.706e-12 + Nat+ 8.706e-12 8.706e-12 -11.060 -11.060 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.503 -70.467 0.036 30.40 S(-2) 5.661e-08 - HS- 3.959e-08 2.607e-08 -7.402 -7.584 -0.182 21.14 + HS- 3.960e-08 2.607e-08 -7.402 -7.584 -0.182 21.14 H2S 1.701e-08 1.850e-08 -7.769 -7.733 0.036 36.27 S-2 1.609e-13 3.879e-14 -12.793 -13.411 -0.618 (0) - (H2S)2 1.658e-17 1.803e-17 -16.780 -16.744 0.036 30.09 + (H2S)2 1.659e-17 1.803e-17 -16.780 -16.744 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -165336,7 +165300,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.661e-11 Surface + diffuse layer charge, eq + -9.662e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -165346,7 +165310,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -165357,12 +165321,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 5.8055e-12 + Hto 4.5525e-12 I 2.8091e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.4308e-13 + Nat 5.3545e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -165381,12 +165345,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.920e-11 5.796e-12 + Hto 3.858e-11 4.545e-12 I 2.384e-11 2.809e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.435e-12 1.690e-13 + Nat 9.111e-13 1.073e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -165404,7 +165368,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.397e-10 + Electrical balance (eq) = -1.025e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -165445,8 +165409,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.010e-11 H2 1.005e-11 1.092e-11 -10.998 -10.962 0.036 28.61 -Hto 4.920e-11 - Hto 4.920e-11 4.920e-11 -10.308 -10.308 0.000 (0) +Hto 3.858e-11 + Hto 3.858e-11 3.858e-11 -10.414 -10.414 0.000 (0) I 2.384e-11 I- 2.384e-11 2.384e-11 -10.623 -10.623 -0.000 (0) K 1.540e-03 @@ -165464,11 +165428,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.435e-12 - Nat+ 1.435e-12 1.435e-12 -11.843 -11.843 -0.000 (0) +Nat 9.111e-13 + Nat+ 9.111e-13 9.111e-13 -12.040 -12.040 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.502 -70.466 0.036 30.40 -S(-2) 5.629e-08 +S(-2) 5.628e-08 HS- 3.937e-08 2.592e-08 -7.405 -7.586 -0.182 21.14 H2S 1.692e-08 1.839e-08 -7.772 -7.735 0.036 36.27 S-2 1.600e-13 3.856e-14 -12.796 -13.414 -0.618 (0) @@ -165547,7 +165511,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -165558,12 +165522,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 9.2739e-13 - I 3.8481e-25 + Hto 6.9906e-13 + I 3.8476e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1979e-14 + Nat 4.8724e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -165582,12 +165546,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.859e-12 9.259e-13 + Hto 5.924e-12 6.979e-13 I 3.266e-12 3.848e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.395e-13 1.643e-14 + Nat 8.291e-14 9.767e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -165605,7 +165569,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.395e-09 + Electrical balance (eq) = -1.398e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -165646,8 +165610,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.008e-11 H2 1.004e-11 1.092e-11 -10.998 -10.962 0.036 28.61 -Hto 7.859e-12 - Hto 7.859e-12 7.859e-12 -11.105 -11.105 0.000 (0) +Hto 5.924e-12 + Hto 5.924e-12 5.924e-12 -11.227 -11.227 0.000 (0) I 3.266e-12 I- 3.266e-12 3.266e-12 -11.486 -11.486 -0.000 (0) K 1.540e-03 @@ -165665,12 +165629,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.395e-13 - Nat+ 1.395e-13 1.395e-13 -12.855 -12.855 -0.000 (0) +Nat 8.291e-14 + Nat+ 8.291e-14 8.291e-14 -13.081 -13.081 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.501 -70.465 0.036 30.40 S(-2) 5.615e-08 - HS- 3.928e-08 2.586e-08 -7.406 -7.587 -0.182 21.14 + HS- 3.927e-08 2.585e-08 -7.406 -7.587 -0.182 21.14 H2S 1.688e-08 1.835e-08 -7.773 -7.736 0.036 36.27 S-2 1.596e-13 3.847e-14 -12.797 -13.415 -0.618 (0) (H2S)2 1.632e-17 1.774e-17 -16.787 -16.751 0.036 30.09 @@ -165748,7 +165712,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -165759,12 +165723,12 @@ Su Ca 7.1884e-02 Cl 4.6601e-10 H 1.2950e-04 - Hto 1.3091e-13 + Hto 9.4800e-14 I 4.6467e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.9918e-15 + Nat 3.8878e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -165783,12 +165747,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.109e-12 1.307e-13 + Hto 8.034e-13 9.465e-14 I 3.944e-13 4.647e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.190e-14 1.402e-15 + Nat 6.616e-15 7.794e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -165847,8 +165811,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.009e-11 H2 1.005e-11 1.092e-11 -10.998 -10.962 0.036 28.61 -Hto 1.109e-12 - Hto 1.109e-12 1.109e-12 -11.955 -11.955 0.000 (0) +Hto 8.034e-13 + Hto 8.034e-13 8.034e-13 -12.095 -12.095 0.000 (0) I 3.944e-13 I- 3.944e-13 3.944e-13 -12.404 -12.404 -0.000 (0) K 1.540e-03 @@ -165866,15 +165830,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.190e-14 - Nat+ 1.190e-14 1.190e-14 -13.925 -13.925 -0.000 (0) +Nat 6.616e-15 + Nat+ 6.616e-15 6.616e-15 -14.179 -14.179 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.502 -70.465 0.036 30.40 -S(-2) 5.624e-08 +S(-2) 5.623e-08 HS- 3.933e-08 2.589e-08 -7.405 -7.587 -0.182 21.14 H2S 1.690e-08 1.838e-08 -7.772 -7.736 0.036 36.27 S-2 1.598e-13 3.853e-14 -12.796 -13.414 -0.618 (0) - (H2S)2 1.637e-17 1.779e-17 -16.786 -16.750 0.036 30.09 + (H2S)2 1.636e-17 1.779e-17 -16.786 -16.750 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -165949,7 +165913,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -165960,12 +165924,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 1.6413e-14 - I 4.9753e-27 + Hto 1.1413e-14 + I 4.9761e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2657e-16 + Nat 2.7388e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -165984,12 +165948,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.391e-13 1.639e-14 + Hto 9.672e-14 1.140e-14 I 4.223e-14 4.976e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.960e-16 1.056e-16 + Nat 4.660e-16 5.490e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -166007,8 +165971,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 8.155e-11 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 + Electrical balance (eq) = -8.587e-11 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -166022,7 +165986,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.610e-11 - CH4 3.610e-11 3.925e-11 -10.443 -10.406 0.036 35.46 + CH4 3.610e-11 3.924e-11 -10.443 -10.406 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -166048,8 +166012,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.012e-11 H2 1.006e-11 1.094e-11 -10.997 -10.961 0.036 28.61 -Hto 1.391e-13 - Hto 1.391e-13 1.391e-13 -12.857 -12.857 0.000 (0) +Hto 9.672e-14 + Hto 9.672e-14 9.672e-14 -13.014 -13.014 0.000 (0) I 4.223e-14 I- 4.223e-14 4.223e-14 -13.374 -13.374 -0.000 (0) K 1.540e-03 @@ -166067,14 +166031,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.960e-16 - Nat+ 8.960e-16 8.960e-16 -15.048 -15.048 -0.000 (0) +Nat 4.660e-16 + Nat+ 4.660e-16 4.660e-16 -15.332 -15.332 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.503 -70.467 0.036 30.40 -S(-2) 5.656e-08 +S(-2) 5.655e-08 HS- 3.956e-08 2.604e-08 -7.403 -7.584 -0.182 21.14 H2S 1.700e-08 1.848e-08 -7.770 -7.733 0.036 36.27 - S-2 1.608e-13 3.875e-14 -12.794 -13.412 -0.618 (0) + S-2 1.607e-13 3.875e-14 -12.794 -13.412 -0.618 (0) (H2S)2 1.655e-17 1.800e-17 -16.781 -16.745 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -166150,7 +166114,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -166161,12 +166125,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 1.8355e-15 - I 4.7450e-28 + Hto 1.2252e-15 + I 4.7460e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5206e-17 + Nat 1.7125e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -166185,12 +166149,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.556e-14 1.833e-15 + Hto 1.038e-14 1.223e-15 I 4.028e-15 4.745e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.991e-17 7.058e-18 + Nat 2.914e-17 3.433e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -166222,8 +166186,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.640e-11 - CH4 3.640e-11 3.958e-11 -10.439 -10.403 0.036 35.46 +C(-4) 3.641e-11 + CH4 3.641e-11 3.958e-11 -10.439 -10.403 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -166249,8 +166213,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.016e-11 H2 1.008e-11 1.096e-11 -10.996 -10.960 0.036 28.61 -Hto 1.556e-14 - Hto 1.556e-14 1.556e-14 -13.808 -13.808 0.000 (0) +Hto 1.038e-14 + Hto 1.038e-14 1.038e-14 -13.984 -13.984 0.000 (0) I 4.028e-15 I- 4.028e-15 4.028e-15 -14.395 -14.395 -0.000 (0) K 1.540e-03 @@ -166268,15 +166232,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.991e-17 - Nat+ 5.991e-17 5.991e-17 -16.223 -16.223 -0.000 (0) +Nat 2.914e-17 + Nat+ 2.914e-17 2.914e-17 -16.536 -16.536 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.505 -70.468 0.036 30.40 S(-2) 5.704e-08 HS- 3.989e-08 2.626e-08 -7.399 -7.581 -0.182 21.14 H2S 1.714e-08 1.864e-08 -7.766 -7.730 0.036 36.27 S-2 1.621e-13 3.908e-14 -12.790 -13.408 -0.618 (0) - (H2S)2 1.684e-17 1.830e-17 -16.774 -16.737 0.036 30.09 + (H2S)2 1.684e-17 1.831e-17 -16.774 -16.737 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -166351,7 +166315,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -166362,12 +166326,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.8370e-16 + Hto 1.1766e-16 I 4.0454e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0985e-18 + Nat 9.5457e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -166386,12 +166350,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.557e-15 1.834e-16 + Hto 9.971e-16 1.175e-16 I 3.433e-16 4.045e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.571e-18 4.207e-19 + Nat 1.624e-18 1.914e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -166424,7 +166388,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.663e-11 - CH4 3.663e-11 3.982e-11 -10.436 -10.400 0.036 35.46 + CH4 3.663e-11 3.983e-11 -10.436 -10.400 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -166450,8 +166414,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.019e-11 H2 1.010e-11 1.098e-11 -10.996 -10.959 0.036 28.61 -Hto 1.557e-15 - Hto 1.557e-15 1.557e-15 -14.808 -14.808 0.000 (0) +Hto 9.971e-16 + Hto 9.971e-16 9.971e-16 -15.001 -15.001 0.000 (0) I 3.433e-16 I- 3.433e-16 3.433e-16 -15.464 -15.464 -0.000 (0) K 1.540e-03 @@ -166469,15 +166433,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.571e-18 - Nat+ 3.571e-18 3.571e-18 -17.447 -17.447 -0.000 (0) +Nat 1.624e-18 + Nat+ 1.624e-18 1.624e-18 -17.789 -17.789 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.506 -70.470 0.036 30.40 S(-2) 5.739e-08 - HS- 4.014e-08 2.642e-08 -7.396 -7.578 -0.182 21.14 + HS- 4.014e-08 2.643e-08 -7.396 -7.578 -0.182 21.14 H2S 1.725e-08 1.875e-08 -7.763 -7.727 0.036 36.27 S-2 1.631e-13 3.932e-14 -12.787 -13.405 -0.618 (0) - (H2S)2 1.704e-17 1.853e-17 -16.768 -16.732 0.036 30.09 + (H2S)2 1.705e-17 1.853e-17 -16.768 -16.732 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -166552,7 +166516,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -166563,12 +166527,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.6497e-17 - I 3.0911e-30 + Hto 1.0137e-17 + I 3.0907e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1189e-19 + Nat 4.7591e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -166587,12 +166551,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.398e-16 1.647e-17 + Hto 8.591e-17 1.012e-17 I 2.623e-17 3.090e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.904e-19 2.243e-20 + Nat 8.098e-20 9.540e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -166625,7 +166589,7 @@ Su H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.673e-11 - CH4 3.673e-11 3.993e-11 -10.435 -10.399 0.036 35.46 + CH4 3.673e-11 3.994e-11 -10.435 -10.399 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -166650,9 +166614,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 - H2 1.010e-11 1.099e-11 -10.996 -10.959 0.036 28.61 -Hto 1.398e-16 - Hto 1.398e-16 1.398e-16 -15.854 -15.854 0.000 (0) + H2 1.010e-11 1.099e-11 -10.995 -10.959 0.036 28.61 +Hto 8.591e-17 + Hto 8.591e-17 8.591e-17 -16.066 -16.066 0.000 (0) I 2.623e-17 I- 2.623e-17 2.623e-17 -16.581 -16.581 -0.000 (0) K 1.540e-03 @@ -166670,15 +166634,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.904e-19 - Nat+ 1.904e-19 1.904e-19 -18.720 -18.720 -0.000 (0) +Nat 8.098e-20 + Nat+ 8.098e-20 8.098e-20 -19.092 -19.092 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.507 -70.470 0.036 30.40 S(-2) 5.755e-08 HS- 4.025e-08 2.650e-08 -7.395 -7.577 -0.182 21.14 - H2S 1.730e-08 1.880e-08 -7.762 -7.726 0.036 36.27 + H2S 1.730e-08 1.881e-08 -7.762 -7.726 0.036 36.27 S-2 1.636e-13 3.943e-14 -12.786 -13.404 -0.618 (0) - (H2S)2 1.714e-17 1.863e-17 -16.766 -16.730 0.036 30.09 + (H2S)2 1.714e-17 1.864e-17 -16.766 -16.730 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -166753,7 +166717,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -166764,12 +166728,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.3320e-18 - I 2.1217e-31 + Hto 7.8510e-19 + I 2.1219e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3499e-21 + Nat 2.1275e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -166788,12 +166752,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.129e-17 1.330e-18 + Hto 6.653e-18 7.838e-19 I 1.801e-18 2.121e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.103e-21 1.072e-21 + Nat 3.620e-21 4.265e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -166852,8 +166816,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 H2 1.011e-11 1.099e-11 -10.995 -10.959 0.036 28.61 -Hto 1.129e-17 - Hto 1.129e-17 1.129e-17 -16.947 -16.947 0.000 (0) +Hto 6.653e-18 + Hto 6.653e-18 6.653e-18 -17.177 -17.177 0.000 (0) I 1.801e-18 I- 1.801e-18 1.801e-18 -17.745 -17.745 -0.000 (0) K 1.540e-03 @@ -166871,8 +166835,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.103e-21 - Nat+ 9.103e-21 9.103e-21 -20.041 -20.041 -0.000 (0) +Nat 3.620e-21 + Nat+ 3.620e-21 3.620e-21 -20.441 -20.441 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.507 -70.471 0.036 30.40 S(-2) 5.760e-08 @@ -166954,7 +166918,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -166965,12 +166929,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 9.6839e-20 - I 1.3104e-32 + Hto 5.4737e-20 + I 1.3102e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2967e-22 + Nat 8.5302e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -166989,12 +166953,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.207e-19 9.668e-20 + Hto 4.639e-19 5.465e-20 I 1.112e-19 1.310e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.908e-22 4.604e-23 + Nat 1.452e-22 1.710e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -167053,8 +167017,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 H2 1.011e-11 1.099e-11 -10.995 -10.959 0.036 28.61 -Hto 8.207e-19 - Hto 8.207e-19 8.207e-19 -18.086 -18.086 0.000 (0) +Hto 4.639e-19 + Hto 4.639e-19 4.639e-19 -18.334 -18.334 0.000 (0) I 1.112e-19 I- 1.112e-19 1.112e-19 -18.954 -18.954 -0.000 (0) K 1.540e-03 @@ -167072,8 +167036,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.908e-22 - Nat+ 3.908e-22 3.908e-22 -21.408 -21.408 -0.000 (0) +Nat 1.452e-22 + Nat+ 1.452e-22 1.452e-22 -21.838 -21.838 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.507 -70.471 0.036 30.40 S(-2) 5.761e-08 @@ -167155,7 +167119,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -167166,12 +167130,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 6.3441e-21 + Hto 3.4384e-21 I 7.2871e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.7542e-24 + Nat 2.9146e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -167190,12 +167154,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.376e-20 6.334e-21 + Hto 2.914e-20 3.433e-21 I 6.185e-21 7.286e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.490e-23 1.755e-24 + Nat 4.959e-24 5.843e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -167254,8 +167218,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 H2 1.011e-11 1.099e-11 -10.995 -10.959 0.036 28.61 -Hto 5.376e-20 - Hto 5.376e-20 5.376e-20 -19.270 -19.270 0.000 (0) +Hto 2.914e-20 + Hto 2.914e-20 2.914e-20 -19.536 -19.536 0.000 (0) I 6.185e-21 I- 6.185e-21 6.185e-21 -20.209 -20.209 -0.000 (0) K 1.540e-03 @@ -167273,8 +167237,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.490e-23 - Nat+ 1.490e-23 1.490e-23 -22.827 -22.827 -0.000 (0) +Nat 4.959e-24 + Nat+ 4.959e-24 4.959e-24 -23.305 -23.305 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.507 -70.471 0.036 30.40 S(-2) 5.761e-08 @@ -167356,7 +167320,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -167367,12 +167331,11 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 3.7462e-22 + Hto 1.9464e-22 I 3.6452e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2853e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -167391,12 +167354,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.175e-21 3.740e-22 + Hto 1.649e-21 1.943e-22 I 3.094e-22 3.645e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.187e-25 2.577e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -167455,8 +167417,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 H2 1.011e-11 1.099e-11 -10.995 -10.959 0.036 28.61 -Hto 3.175e-21 - Hto 3.175e-21 3.175e-21 -20.498 -20.498 0.000 (0) +Hto 1.649e-21 + Hto 1.649e-21 1.649e-21 -20.783 -20.783 0.000 (0) I 3.094e-22 I- 3.094e-22 3.094e-22 -21.510 -21.510 -0.000 (0) K 1.540e-03 @@ -167474,8 +167436,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.187e-25 - Nat+ 2.187e-25 2.187e-25 -24.660 -24.660 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.507 -70.471 0.036 30.40 S(-2) 5.761e-08 @@ -167557,7 +167517,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -167568,8 +167528,8 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 2.0815e-23 - I 1.6293e-36 + Hto 1.0320e-23 + I 1.6297e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -167591,7 +167551,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.764e-22 2.078e-23 + Hto 8.746e-23 1.030e-23 I 1.383e-23 1.629e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -167654,8 +167614,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.021e-11 H2 1.011e-11 1.099e-11 -10.995 -10.959 0.036 28.61 -Hto 1.764e-22 - Hto 1.764e-22 1.764e-22 -21.754 -21.754 0.000 (0) +Hto 8.746e-23 + Hto 8.746e-23 8.746e-23 -22.058 -22.058 0.000 (0) I 1.383e-23 I- 1.383e-23 1.383e-23 -22.859 -22.859 -0.000 (0) K 1.540e-03 @@ -168043,30 +168003,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.368e-07 2.684e-07 + Hto 5.423e-07 2.711e-07 I 7.142e-07 3.571e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 3.028e-07 1.514e-07 + Nat 3.102e-07 1.551e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.038 Adjusted to redox equilibrium + pe = -3.036 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.722e-13 + Electrical balance (eq) = -3.191e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -168078,17 +168038,17 @@ Kinetics 3. Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 - H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 + H+ 1.048e-07 8.128e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.412e-12 - CH4 2.412e-12 2.623e-12 -11.618 -11.581 0.036 35.46 +C(-4) 2.364e-12 + CH4 2.364e-12 2.570e-12 -11.626 -11.590 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 @@ -168099,16 +168059,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.007e-06 9.792e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.796e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) -H(0) 1.023e-11 - H2 5.114e-12 5.560e-12 -11.291 -11.255 0.036 28.61 -Hto 5.368e-07 - Hto 5.368e-07 5.368e-07 -6.270 -6.270 0.000 (0) +H(0) 1.018e-11 + H2 5.088e-12 5.531e-12 -11.293 -11.257 0.036 28.61 +Hto 5.423e-07 + Hto 5.423e-07 5.423e-07 -6.266 -6.266 0.000 (0) I 7.142e-07 I- 7.142e-07 7.142e-07 -6.146 -6.146 -0.000 (0) K 1.540e-03 @@ -168126,15 +168086,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 3.028e-07 - Nat+ 3.028e-07 3.028e-07 -6.519 -6.519 -0.000 (0) +Nat 3.102e-07 + Nat+ 3.102e-07 3.102e-07 -6.508 -6.508 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.915 -69.879 0.036 30.40 -S(-2) 3.782e-09 - HS- 2.644e-09 1.741e-09 -8.578 -8.759 -0.182 21.14 - H2S 1.138e-09 1.237e-09 -8.944 -8.908 0.036 36.27 - S-2 1.073e-14 2.587e-15 -13.969 -14.587 -0.618 (0) - (H2S)2 7.415e-20 8.062e-20 -19.130 -19.094 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.911 -69.874 0.036 30.40 +S(-2) 3.705e-09 + HS- 2.591e-09 1.705e-09 -8.587 -8.768 -0.182 21.14 + H2S 1.115e-09 1.212e-09 -8.953 -8.917 0.036 36.27 + S-2 1.051e-14 2.534e-15 -13.978 -14.596 -0.618 (0) + (H2S)2 7.119e-20 7.739e-20 -19.148 -19.111 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -168161,21 +168121,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.78 -11.58 -2.80 CH4 + CH4(g) -8.79 -11.59 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.15 -11.25 -3.10 H2 + H2(g) -8.16 -11.26 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.91 -15.85 -7.94 H2S + H2S(g) -7.92 -15.86 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -66.99 -69.88 -2.89 O2 + O2(g) -66.98 -69.87 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.68 -0.80 4.88 S + Sulfur -5.69 -0.81 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -168199,7 +168159,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.841e-14 Surface + diffuse layer charge, eq + -4.924e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -168209,7 +168169,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -168220,12 +168180,12 @@ Su Ca 7.1884e-02 Cl 4.6653e-10 H 1.2948e-04 - Hto 5.4857e-08 + Hto 5.5167e-08 I 7.3110e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5896e-07 + Nat 1.6171e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -168244,12 +168204,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.649e-07 5.477e-08 + Hto 4.675e-07 5.508e-08 I 6.205e-07 7.310e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.705e-07 3.187e-08 + Nat 2.752e-07 3.242e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -168260,14 +168220,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.680e-09 + Electrical balance (eq) = 1.671e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -168281,15 +168241,15 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.227e-12 - CH4 7.227e-12 7.857e-12 -11.141 -11.105 0.036 35.46 +C(-4) 7.174e-12 + CH4 7.174e-12 7.800e-12 -11.144 -11.108 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.009e-06 9.794e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.602e-07 -5.471 -6.065 -0.594 -1.53 @@ -168300,16 +168260,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.009e-06 9.794e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.794e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 - HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.346e-11 - H2 6.728e-12 7.315e-12 -11.172 -11.136 0.036 28.61 -Hto 4.649e-07 - Hto 4.649e-07 4.649e-07 -6.333 -6.333 0.000 (0) + HCl 3.953e-09 5.644e-09 -8.403 -8.248 0.155 (0) +H(0) 1.343e-11 + H2 6.715e-12 7.301e-12 -11.173 -11.137 0.036 28.61 +Hto 4.675e-07 + Hto 4.675e-07 4.675e-07 -6.330 -6.330 0.000 (0) I 6.205e-07 I- 6.205e-07 6.205e-07 -6.207 -6.207 -0.000 (0) K 1.540e-03 @@ -168327,15 +168287,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.705e-07 - Nat+ 2.705e-07 2.705e-07 -6.568 -6.568 -0.000 (0) +Nat 2.752e-07 + Nat+ 2.752e-07 2.752e-07 -6.560 -6.560 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.153 -70.117 0.036 30.40 -S(-2) 1.133e-08 - HS- 7.921e-09 5.214e-09 -8.101 -8.283 -0.182 21.14 - H2S 3.408e-09 3.705e-09 -8.468 -8.431 0.036 36.27 - S-2 3.215e-14 7.751e-15 -13.493 -14.111 -0.618 (0) - (H2S)2 6.652e-19 7.233e-19 -18.177 -18.141 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.152 -70.116 0.036 30.40 +S(-2) 1.125e-08 + HS- 7.863e-09 5.176e-09 -8.104 -8.286 -0.182 21.14 + H2S 3.383e-09 3.678e-09 -8.471 -8.434 0.036 36.27 + S-2 3.192e-14 7.694e-15 -13.496 -14.114 -0.618 (0) + (H2S)2 6.555e-19 7.127e-19 -18.183 -18.147 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -168362,14 +168322,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.30 -11.10 -2.80 CH4 + CH4(g) -8.31 -11.11 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.03 -11.14 -3.10 H2 + H2(g) -8.04 -11.14 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.44 -15.37 -7.94 H2S + H2S(g) -7.44 -15.38 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -168400,7 +168360,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.436e-11 Surface + diffuse layer charge, eq + -9.434e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -168410,7 +168370,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -168419,14 +168379,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6619e-10 + Cl 4.6618e-10 H 1.2949e-04 - Hto 3.3832e-08 - I 4.1438e-20 + Hto 3.3475e-08 + I 4.1445e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.5856e-08 + Nat 8.4038e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -168445,12 +168405,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.867e-07 3.378e-08 + Hto 2.837e-07 3.342e-08 I 3.517e-07 4.144e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.461e-07 1.721e-08 + Nat 1.430e-07 1.685e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -168468,7 +168428,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 3.043e-09 + Electrical balance (eq) = 3.010e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -168482,8 +168442,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.553e-11 - CH4 2.553e-11 2.775e-11 -10.593 -10.557 0.036 35.46 +C(-4) 2.559e-11 + CH4 2.559e-11 2.782e-11 -10.592 -10.556 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -168507,10 +168467,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.845e-11 - H2 9.225e-12 1.003e-11 -11.035 -10.999 0.036 28.61 -Hto 2.867e-07 - Hto 2.867e-07 2.867e-07 -6.543 -6.543 0.000 (0) +H(0) 1.846e-11 + H2 9.230e-12 1.004e-11 -11.035 -10.998 0.036 28.61 +Hto 2.837e-07 + Hto 2.837e-07 2.837e-07 -6.547 -6.547 0.000 (0) I 3.517e-07 I- 3.517e-07 3.517e-07 -6.454 -6.454 -0.000 (0) K 1.540e-03 @@ -168528,15 +168488,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.461e-07 - Nat+ 1.461e-07 1.461e-07 -6.835 -6.835 -0.000 (0) +Nat 1.430e-07 + Nat+ 1.430e-07 1.430e-07 -6.845 -6.845 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.428 -70.391 0.036 30.40 -S(-2) 4.000e-08 - HS- 2.797e-08 1.842e-08 -7.553 -7.735 -0.182 21.14 - H2S 1.203e-08 1.307e-08 -7.920 -7.884 0.036 36.27 - S-2 1.136e-13 2.739e-14 -12.944 -13.562 -0.618 (0) - (H2S)2 8.285e-18 9.008e-18 -17.082 -17.045 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.428 -70.392 0.036 30.40 +S(-2) 4.010e-08 + HS- 2.804e-08 1.846e-08 -7.552 -7.734 -0.182 21.14 + H2S 1.205e-08 1.311e-08 -7.919 -7.883 0.036 36.27 + S-2 1.139e-13 2.746e-14 -12.943 -13.561 -0.618 (0) + (H2S)2 8.325e-18 9.051e-18 -17.080 -17.043 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -168570,7 +168530,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.90 -11.00 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.89 -14.83 -7.94 H2S + H2S(g) -6.89 -14.82 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -168611,7 +168571,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -168622,12 +168582,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 1.6932e-08 - I 1.8741e-20 + Hto 1.6371e-08 + I 1.8744e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3146e-08 + Nat 3.0822e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -168646,19 +168606,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.435e-07 1.690e-08 + Hto 1.387e-07 1.634e-08 I 1.591e-07 1.874e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.640e-08 6.645e-09 + Nat 5.245e-08 6.179e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.091 Charge balance - pe = -3.180 Adjusted to redox equilibrium + pe = -3.181 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -168683,8 +168643,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.316e-11 - CH4 3.316e-11 3.606e-11 -10.479 -10.443 0.036 35.46 +C(-4) 3.321e-11 + CH4 3.321e-11 3.611e-11 -10.479 -10.442 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -168696,7 +168656,7 @@ C(4) 2.744e-03 MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.612e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.733e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.538e-08 7.109e-08 -7.185 -7.148 0.036 -14.13 (CO2)2 1.275e-09 1.386e-09 -8.894 -8.858 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -168708,10 +168668,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.970e-11 - H2 9.849e-12 1.071e-11 -11.007 -10.970 0.036 28.61 -Hto 1.435e-07 - Hto 1.435e-07 1.435e-07 -6.843 -6.843 0.000 (0) +H(0) 1.971e-11 + H2 9.853e-12 1.071e-11 -11.006 -10.970 0.036 28.61 +Hto 1.387e-07 + Hto 1.387e-07 1.387e-07 -6.858 -6.858 0.000 (0) I 1.591e-07 I- 1.591e-07 1.591e-07 -6.798 -6.798 -0.000 (0) K 1.540e-03 @@ -168729,15 +168689,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.640e-08 - Nat+ 5.640e-08 5.640e-08 -7.249 -7.249 -0.000 (0) +Nat 5.245e-08 + Nat+ 5.245e-08 5.245e-08 -7.280 -7.280 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.485 -70.448 0.036 30.40 -S(-2) 5.196e-08 - HS- 3.634e-08 2.392e-08 -7.440 -7.621 -0.182 21.14 - H2S 1.562e-08 1.698e-08 -7.806 -7.770 0.036 36.27 - S-2 1.477e-13 3.560e-14 -12.831 -13.449 -0.618 (0) - (H2S)2 1.397e-17 1.519e-17 -16.855 -16.818 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.485 -70.449 0.036 30.40 +S(-2) 5.204e-08 + HS- 3.640e-08 2.396e-08 -7.439 -7.621 -0.182 21.14 + H2S 1.564e-08 1.701e-08 -7.806 -7.769 0.036 36.27 + S-2 1.479e-13 3.565e-14 -12.830 -13.448 -0.618 (0) + (H2S)2 1.402e-17 1.524e-17 -16.853 -16.817 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -168752,7 +168712,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.538e-08 7.109e-08 -7.185 -7.148 0.036 -14.13 SrOH+ 1.154e-10 8.087e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -168771,7 +168731,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.87 -10.97 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.78 -14.71 -7.94 H2S + H2S(g) -6.77 -14.71 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -168812,7 +168772,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -168823,12 +168783,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 6.9638e-09 + Hto 6.5461e-09 I 6.8631e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.6960e-09 + Nat 8.5103e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -168847,12 +168807,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.902e-08 6.953e-09 + Hto 5.548e-08 6.536e-09 I 5.826e-08 6.863e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.650e-08 1.944e-09 + Nat 1.448e-08 1.706e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -168884,8 +168844,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.620e-11 - CH4 3.620e-11 3.936e-11 -10.441 -10.405 0.036 35.46 +C(-4) 3.623e-11 + CH4 3.623e-11 3.939e-11 -10.441 -10.405 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -168909,10 +168869,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.013e-11 +H(0) 2.014e-11 H2 1.007e-11 1.095e-11 -10.997 -10.961 0.036 28.61 -Hto 5.902e-08 - Hto 5.902e-08 5.902e-08 -7.229 -7.229 0.000 (0) +Hto 5.548e-08 + Hto 5.548e-08 5.548e-08 -7.256 -7.256 0.000 (0) I 5.826e-08 I- 5.826e-08 5.826e-08 -7.235 -7.235 -0.000 (0) K 1.540e-03 @@ -168930,15 +168890,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.650e-08 - Nat+ 1.650e-08 1.650e-08 -7.783 -7.783 -0.000 (0) +Nat 1.448e-08 + Nat+ 1.448e-08 1.448e-08 -7.839 -7.839 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.504 -70.467 0.036 30.40 -S(-2) 5.671e-08 - HS- 3.967e-08 2.611e-08 -7.402 -7.583 -0.182 21.14 - H2S 1.705e-08 1.853e-08 -7.768 -7.732 0.036 36.27 - S-2 1.612e-13 3.886e-14 -12.793 -13.411 -0.618 (0) - (H2S)2 1.665e-17 1.810e-17 -16.779 -16.742 0.036 30.09 +S(-2) 5.676e-08 + HS- 3.970e-08 2.613e-08 -7.401 -7.583 -0.182 21.14 + H2S 1.706e-08 1.855e-08 -7.768 -7.732 0.036 36.27 + S-2 1.613e-13 3.889e-14 -12.792 -13.410 -0.618 (0) + (H2S)2 1.667e-17 1.813e-17 -16.778 -16.742 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -168977,7 +168937,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.57 -70.47 -2.89 O2 + O2(g) -67.58 -70.47 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.80 0.08 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -169013,7 +168973,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -169024,12 +168984,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 2.3884e-09 + Hto 2.1750e-09 I 2.0737e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2435e-09 + Nat 1.8523e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -169048,12 +169008,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.024e-08 2.385e-09 + Hto 1.843e-08 2.171e-09 I 1.760e-08 2.073e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.818e-09 4.497e-10 + Nat 3.152e-09 3.713e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -169082,11 +169042,11 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 + OH- 1.875e-07 1.235e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.726e-11 - CH4 3.726e-11 4.051e-11 -10.429 -10.392 0.036 35.46 +C(-4) 3.727e-11 + CH4 3.727e-11 4.053e-11 -10.429 -10.392 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -169111,9 +169071,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.028e-11 - H2 1.014e-11 1.102e-11 -10.994 -10.958 0.036 28.61 -Hto 2.024e-08 - Hto 2.024e-08 2.024e-08 -7.694 -7.694 0.000 (0) + H2 1.014e-11 1.103e-11 -10.994 -10.958 0.036 28.61 +Hto 1.843e-08 + Hto 1.843e-08 1.843e-08 -7.734 -7.734 0.000 (0) I 1.760e-08 I- 1.760e-08 1.760e-08 -7.755 -7.755 -0.000 (0) K 1.540e-03 @@ -169131,15 +169091,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.818e-09 - Nat+ 3.818e-09 3.818e-09 -8.418 -8.418 -0.000 (0) +Nat 3.152e-09 + Nat+ 3.152e-09 3.152e-09 -8.501 -8.501 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.510 -70.474 0.036 30.40 -S(-2) 5.838e-08 - HS- 4.083e-08 2.688e-08 -7.389 -7.571 -0.182 21.14 - H2S 1.755e-08 1.908e-08 -7.756 -7.720 0.036 36.27 - S-2 1.659e-13 4.000e-14 -12.780 -13.398 -0.618 (0) - (H2S)2 1.764e-17 1.917e-17 -16.754 -16.717 0.036 30.09 +S(-2) 5.840e-08 + HS- 4.085e-08 2.689e-08 -7.389 -7.570 -0.182 21.14 + H2S 1.755e-08 1.908e-08 -7.756 -7.719 0.036 36.27 + S-2 1.660e-13 4.002e-14 -12.780 -13.398 -0.618 (0) + (H2S)2 1.765e-17 1.919e-17 -16.753 -16.717 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -169173,7 +169133,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.86 -10.96 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.73 -14.66 -7.94 H2S + H2S(g) -6.72 -14.66 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -169214,7 +169174,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -169225,12 +169185,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 6.9277e-10 - I 5.2526e-22 + Hto 6.0956e-10 + I 5.2516e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2368e-10 + Nat 3.2837e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -169249,12 +169209,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.871e-09 6.916e-10 + Hto 5.166e-09 6.086e-10 I 4.458e-09 5.252e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.209e-10 8.493e-11 + Nat 5.588e-10 6.583e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -169286,8 +169246,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.751e-11 - CH4 3.751e-11 4.078e-11 -10.426 -10.390 0.036 35.46 +C(-4) 3.752e-11 + CH4 3.752e-11 4.079e-11 -10.426 -10.389 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -169311,10 +169271,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.031e-11 +H(0) 2.032e-11 H2 1.016e-11 1.104e-11 -10.993 -10.957 0.036 28.61 -Hto 5.871e-09 - Hto 5.871e-09 5.871e-09 -8.231 -8.231 0.000 (0) +Hto 5.166e-09 + Hto 5.166e-09 5.166e-09 -8.287 -8.287 0.000 (0) I 4.458e-09 I- 4.458e-09 4.458e-09 -8.351 -8.351 -0.000 (0) K 1.540e-03 @@ -169332,15 +169292,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.209e-10 - Nat+ 7.209e-10 7.209e-10 -9.142 -9.142 -0.000 (0) +Nat 5.588e-10 + Nat+ 5.588e-10 5.588e-10 -9.253 -9.253 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.511 -70.475 0.036 30.40 -S(-2) 5.876e-08 - HS- 4.110e-08 2.706e-08 -7.386 -7.568 -0.182 21.14 - H2S 1.766e-08 1.920e-08 -7.753 -7.717 0.036 36.27 - S-2 1.670e-13 4.027e-14 -12.777 -13.395 -0.618 (0) - (H2S)2 1.787e-17 1.943e-17 -16.748 -16.712 0.036 30.09 +S(-2) 5.878e-08 + HS- 4.111e-08 2.706e-08 -7.386 -7.568 -0.182 21.14 + H2S 1.767e-08 1.921e-08 -7.753 -7.717 0.036 36.27 + S-2 1.671e-13 4.027e-14 -12.777 -13.395 -0.618 (0) + (H2S)2 1.788e-17 1.944e-17 -16.748 -16.711 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -169379,7 +169339,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.58 -70.47 -2.89 O2 + O2(g) -67.58 -70.48 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.79 0.09 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -169415,7 +169375,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -169426,12 +169386,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 1.7204e-10 - I 1.1319e-22 + Hto 1.4600e-10 + I 1.1321e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.6834e-11 + Nat 4.8567e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -169450,12 +169410,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.458e-09 1.718e-10 + Hto 1.237e-09 1.458e-10 I 9.608e-10 1.132e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.137e-10 1.340e-11 + Nat 8.264e-11 9.736e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -169488,7 +169448,7 @@ Su H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.740e-11 - CH4 3.740e-11 4.066e-11 -10.427 -10.391 0.036 35.46 + CH4 3.740e-11 4.067e-11 -10.427 -10.391 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -169514,8 +169474,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.030e-11 H2 1.015e-11 1.104e-11 -10.994 -10.957 0.036 28.61 -Hto 1.458e-09 - Hto 1.458e-09 1.458e-09 -8.836 -8.836 0.000 (0) +Hto 1.237e-09 + Hto 1.237e-09 1.237e-09 -8.908 -8.908 0.000 (0) I 9.608e-10 I- 9.608e-10 9.608e-10 -9.017 -9.017 -0.000 (0) K 1.540e-03 @@ -169533,12 +169493,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.137e-10 - Nat+ 1.137e-10 1.137e-10 -9.944 -9.944 -0.000 (0) +Nat 8.264e-11 + Nat+ 8.264e-11 8.264e-11 -10.083 -10.083 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.511 -70.474 0.036 30.40 -S(-2) 5.859e-08 - HS- 4.098e-08 2.698e-08 -7.387 -7.569 -0.182 21.14 +S(-2) 5.860e-08 + HS- 4.099e-08 2.698e-08 -7.387 -7.569 -0.182 21.14 H2S 1.761e-08 1.915e-08 -7.754 -7.718 0.036 36.27 S-2 1.666e-13 4.015e-14 -12.778 -13.396 -0.618 (0) (H2S)2 1.777e-17 1.932e-17 -16.750 -16.714 0.036 30.09 @@ -169606,7 +169566,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.699e-11 Surface + diffuse layer charge, eq + -9.702e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -169616,7 +169576,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -169627,12 +169587,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 3.6973e-11 - I 2.1012e-23 + Hto 3.0221e-11 + I 2.1006e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9626e-12 + Nat 6.1013e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -169651,12 +169611,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.133e-10 3.691e-11 + Hto 2.561e-10 3.017e-11 I 1.783e-10 2.101e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.525e-11 1.797e-12 + Nat 1.038e-11 1.223e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -169674,8 +169634,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.088e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 4.686e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -169688,8 +169648,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.715e-11 - CH4 3.715e-11 4.040e-11 -10.430 -10.394 0.036 35.46 +C(-4) 3.716e-11 + CH4 3.716e-11 4.040e-11 -10.430 -10.394 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -169715,8 +169675,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.027e-11 H2 1.013e-11 1.102e-11 -10.994 -10.958 0.036 28.61 -Hto 3.133e-10 - Hto 3.133e-10 3.133e-10 -9.504 -9.504 0.000 (0) +Hto 2.561e-10 + Hto 2.561e-10 2.561e-10 -9.592 -9.592 0.000 (0) I 1.783e-10 I- 1.783e-10 1.783e-10 -9.749 -9.749 -0.000 (0) K 1.540e-03 @@ -169734,8 +169694,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.525e-11 - Nat+ 1.525e-11 1.525e-11 -10.817 -10.817 -0.000 (0) +Nat 1.038e-11 + Nat+ 1.038e-11 1.038e-11 -10.984 -10.984 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.509 -70.473 0.036 30.40 S(-2) 5.821e-08 @@ -169807,7 +169767,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.690e-11 Surface + diffuse layer charge, eq + -9.691e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -169817,23 +169777,23 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 4.980e+00 (= c_DL / c_free if z is +1). Element Moles - C 1.6143e-04 + C 1.6144e-04 Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 6.9372e-12 - I 3.3919e-24 + Hto 5.4558e-12 + I 3.3923e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0357e-12 + Nat 6.6014e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -169852,12 +169812,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.879e-11 6.926e-12 + Hto 4.624e-11 5.447e-12 I 2.879e-11 3.392e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.762e-12 2.076e-13 + Nat 1.123e-12 1.323e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -169875,7 +169835,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.036e-09 + Electrical balance (eq) = -1.121e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -169916,8 +169876,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.024e-11 H2 1.012e-11 1.100e-11 -10.995 -10.959 0.036 28.61 -Hto 5.879e-11 - Hto 5.879e-11 5.879e-11 -10.231 -10.231 0.000 (0) +Hto 4.624e-11 + Hto 4.624e-11 4.624e-11 -10.335 -10.335 0.000 (0) I 2.879e-11 I- 2.879e-11 2.879e-11 -10.541 -10.541 -0.000 (0) K 1.540e-03 @@ -169935,15 +169895,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.762e-12 - Nat+ 1.762e-12 1.762e-12 -11.754 -11.754 -0.000 (0) +Nat 1.123e-12 + Nat+ 1.123e-12 1.123e-12 -11.950 -11.950 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.508 -70.472 0.036 30.40 S(-2) 5.789e-08 HS- 4.049e-08 2.666e-08 -7.393 -7.574 -0.182 21.14 H2S 1.740e-08 1.892e-08 -7.759 -7.723 0.036 36.27 S-2 1.646e-13 3.967e-14 -12.784 -13.402 -0.618 (0) - (H2S)2 1.735e-17 1.886e-17 -16.761 -16.724 0.036 30.09 + (H2S)2 1.734e-17 1.886e-17 -16.761 -16.725 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -170018,7 +169978,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -170029,12 +169989,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.1450e-12 - I 4.8033e-25 + Hto 8.6572e-13 + I 4.8023e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0424e-13 + Nat 6.2182e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -170053,12 +170013,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.703e-12 1.143e-12 + Hto 7.337e-12 8.643e-13 I 4.077e-12 4.803e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.774e-13 2.090e-14 + Nat 1.058e-13 1.247e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -170076,7 +170036,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.492e-09 + Electrical balance (eq) = -1.494e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -170117,8 +170077,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.023e-11 H2 1.011e-11 1.100e-11 -10.995 -10.959 0.036 28.61 -Hto 9.703e-12 - Hto 9.703e-12 9.703e-12 -11.013 -11.013 0.000 (0) +Hto 7.337e-12 + Hto 7.337e-12 7.337e-12 -11.135 -11.135 0.000 (0) I 4.077e-12 I- 4.077e-12 4.077e-12 -11.390 -11.390 -0.000 (0) K 1.540e-03 @@ -170136,13 +170096,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.774e-13 - Nat+ 1.774e-13 1.774e-13 -12.751 -12.751 -0.000 (0) +Nat 1.058e-13 + Nat+ 1.058e-13 1.058e-13 -12.975 -12.975 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.508 -70.471 0.036 30.40 S(-2) 5.776e-08 HS- 4.040e-08 2.660e-08 -7.394 -7.575 -0.182 21.14 - H2S 1.736e-08 1.888e-08 -7.760 -7.724 0.036 36.27 + H2S 1.736e-08 1.887e-08 -7.760 -7.724 0.036 36.27 S-2 1.642e-13 3.958e-14 -12.785 -13.403 -0.618 (0) (H2S)2 1.727e-17 1.877e-17 -16.763 -16.726 0.036 30.09 S(6) 1.260e-02 @@ -170219,7 +170179,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -170230,12 +170190,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.6726e-13 + Hto 1.2152e-13 I 6.0067e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2150e-15 + Nat 5.1433e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -170254,12 +170214,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.417e-12 1.670e-13 + Hto 1.030e-12 1.213e-13 I 5.098e-13 6.006e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.568e-14 1.847e-15 + Nat 8.752e-15 1.031e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -170318,8 +170278,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.023e-11 H2 1.012e-11 1.100e-11 -10.995 -10.959 0.036 28.61 -Hto 1.417e-12 - Hto 1.417e-12 1.417e-12 -11.848 -11.848 0.000 (0) +Hto 1.030e-12 + Hto 1.030e-12 1.030e-12 -11.987 -11.987 0.000 (0) I 5.098e-13 I- 5.098e-13 5.098e-13 -12.293 -12.293 -0.000 (0) K 1.540e-03 @@ -170337,15 +170297,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.568e-14 - Nat+ 1.568e-14 1.568e-14 -13.805 -13.805 -0.000 (0) +Nat 8.752e-15 + Nat+ 8.752e-15 8.752e-15 -14.058 -14.058 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.508 -70.472 0.036 30.40 -S(-2) 5.785e-08 - HS- 4.046e-08 2.664e-08 -7.393 -7.575 -0.182 21.14 - H2S 1.739e-08 1.890e-08 -7.760 -7.723 0.036 36.27 - S-2 1.644e-13 3.964e-14 -12.784 -13.402 -0.618 (0) - (H2S)2 1.732e-17 1.883e-17 -16.762 -16.725 0.036 30.09 +S(-2) 5.784e-08 + HS- 4.046e-08 2.663e-08 -7.393 -7.575 -0.182 21.14 + H2S 1.738e-08 1.890e-08 -7.760 -7.724 0.036 36.27 + S-2 1.644e-13 3.963e-14 -12.784 -13.402 -0.618 (0) + (H2S)2 1.731e-17 1.882e-17 -16.762 -16.725 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -170410,7 +170370,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.693e-11 Surface + diffuse layer charge, eq + -9.692e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -170420,7 +170380,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -170431,12 +170391,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 2.1740e-14 - I 6.6698e-27 + Hto 1.5168e-14 + I 6.6706e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2039e-16 + Nat 3.7612e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -170455,12 +170415,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.842e-13 2.170e-14 + Hto 1.285e-13 1.514e-14 I 5.661e-14 6.670e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.226e-15 1.444e-16 + Nat 6.400e-16 7.540e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -170478,7 +170438,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.509e-11 + Electrical balance (eq) = -1.825e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -170519,8 +170479,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.026e-11 H2 1.013e-11 1.101e-11 -10.994 -10.958 0.036 28.61 -Hto 1.842e-13 - Hto 1.842e-13 1.842e-13 -12.735 -12.735 0.000 (0) +Hto 1.285e-13 + Hto 1.285e-13 1.285e-13 -12.891 -12.891 0.000 (0) I 5.661e-14 I- 5.661e-14 5.661e-14 -13.247 -13.247 -0.000 (0) K 1.540e-03 @@ -170538,15 +170498,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.226e-15 - Nat+ 1.226e-15 1.226e-15 -14.912 -14.912 -0.000 (0) +Nat 6.400e-16 + Nat+ 6.400e-16 6.400e-16 -15.194 -15.194 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.509 -70.473 0.036 30.40 S(-2) 5.816e-08 HS- 4.068e-08 2.678e-08 -7.391 -7.572 -0.182 21.14 - H2S 1.748e-08 1.901e-08 -7.757 -7.721 0.036 36.27 + H2S 1.748e-08 1.900e-08 -7.757 -7.721 0.036 36.27 S-2 1.653e-13 3.985e-14 -12.782 -13.400 -0.618 (0) - (H2S)2 1.751e-17 1.903e-17 -16.757 -16.720 0.036 30.09 + (H2S)2 1.751e-17 1.903e-17 -16.757 -16.721 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -170611,7 +170571,7 @@ Kinetics 16. Diffuse Double Layer Surface-Complexation Model Su - -9.702e-11 Surface + diffuse layer charge, eq + -9.701e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -170621,7 +170581,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -170632,12 +170592,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 2.5246e-15 - I 6.6067e-28 + Hto 1.6910e-15 + I 6.6077e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0073e-17 + Nat 2.4452e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -170656,12 +170616,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.139e-14 2.521e-15 + Hto 1.433e-14 1.688e-15 I 5.609e-15 6.608e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.521e-17 1.004e-17 + Nat 4.161e-17 4.902e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -170720,8 +170680,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.030e-11 H2 1.015e-11 1.104e-11 -10.993 -10.957 0.036 28.61 -Hto 2.139e-14 - Hto 2.139e-14 2.139e-14 -13.670 -13.670 0.000 (0) +Hto 1.433e-14 + Hto 1.433e-14 1.433e-14 -13.844 -13.844 0.000 (0) I 5.609e-15 I- 5.609e-15 5.609e-15 -14.251 -14.251 -0.000 (0) K 1.540e-03 @@ -170739,15 +170699,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.521e-17 - Nat+ 8.521e-17 8.521e-17 -16.070 -16.070 -0.000 (0) +Nat 4.161e-17 + Nat+ 4.161e-17 4.161e-17 -16.381 -16.381 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.511 -70.474 0.036 30.40 S(-2) 5.863e-08 HS- 4.101e-08 2.700e-08 -7.387 -7.569 -0.182 21.14 H2S 1.762e-08 1.916e-08 -7.754 -7.718 0.036 36.27 - S-2 1.667e-13 4.017e-14 -12.778 -13.396 -0.618 (0) - (H2S)2 1.779e-17 1.934e-17 -16.750 -16.714 0.036 30.09 + S-2 1.667e-13 4.018e-14 -12.778 -13.396 -0.618 (0) + (H2S)2 1.779e-17 1.934e-17 -16.750 -16.713 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -170822,7 +170782,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -170833,12 +170793,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 2.6284e-16 + Hto 1.6896e-16 I 5.8622e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1082e-18 + Nat 1.4195e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -170857,12 +170817,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.227e-15 2.624e-16 + Hto 1.432e-15 1.687e-16 I 4.975e-16 5.861e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.289e-18 6.231e-19 + Nat 2.415e-18 2.846e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -170920,9 +170880,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.033e-11 - H2 1.017e-11 1.105e-11 -10.993 -10.957 0.036 28.61 -Hto 2.227e-15 - Hto 2.227e-15 2.227e-15 -14.652 -14.652 0.000 (0) + H2 1.017e-11 1.105e-11 -10.993 -10.956 0.036 28.61 +Hto 1.432e-15 + Hto 1.432e-15 1.432e-15 -14.844 -14.844 0.000 (0) I 4.975e-16 I- 4.975e-16 4.975e-16 -15.303 -15.303 -0.000 (0) K 1.540e-03 @@ -170940,14 +170900,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.289e-18 - Nat+ 5.289e-18 5.289e-18 -17.277 -17.277 -0.000 (0) +Nat 2.415e-18 + Nat+ 2.415e-18 2.415e-18 -17.617 -17.617 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.512 -70.476 0.036 30.40 S(-2) 5.898e-08 - HS- 4.125e-08 2.716e-08 -7.385 -7.566 -0.182 21.14 + HS- 4.126e-08 2.716e-08 -7.385 -7.566 -0.182 21.14 H2S 1.773e-08 1.927e-08 -7.751 -7.715 0.036 36.27 - S-2 1.677e-13 4.041e-14 -12.776 -13.393 -0.618 (0) + S-2 1.677e-13 4.042e-14 -12.776 -13.393 -0.618 (0) (H2S)2 1.800e-17 1.957e-17 -16.745 -16.708 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -171023,7 +170983,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -171034,12 +170994,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 2.4602e-17 + Hto 1.5173e-17 I 4.6700e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7289e-19 + Nat 7.3830e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -171058,12 +171018,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.085e-16 2.456e-17 - I 3.964e-17 4.669e-18 + Hto 1.286e-16 1.515e-17 + I 3.964e-17 4.670e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.942e-19 3.466e-20 + Nat 1.256e-19 1.480e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -171122,8 +171082,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.017e-11 1.106e-11 -10.993 -10.956 0.036 28.61 -Hto 2.085e-16 - Hto 2.085e-16 2.085e-16 -15.681 -15.681 0.000 (0) +Hto 1.286e-16 + Hto 1.286e-16 1.286e-16 -15.891 -15.891 0.000 (0) I 3.964e-17 I- 3.964e-17 3.964e-17 -16.402 -16.402 -0.000 (0) K 1.540e-03 @@ -171141,13 +171101,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.942e-19 - Nat+ 2.942e-19 2.942e-19 -18.531 -18.531 -0.000 (0) +Nat 1.256e-19 + Nat+ 1.256e-19 1.256e-19 -18.901 -18.901 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.513 -70.476 0.036 30.40 -S(-2) 5.914e-08 +S(-2) 5.915e-08 HS- 4.137e-08 2.723e-08 -7.383 -7.565 -0.182 21.14 - H2S 1.777e-08 1.933e-08 -7.750 -7.714 0.036 36.27 + H2S 1.778e-08 1.933e-08 -7.750 -7.714 0.036 36.27 S-2 1.681e-13 4.053e-14 -12.774 -13.392 -0.618 (0) (H2S)2 1.810e-17 1.968e-17 -16.742 -16.706 0.036 30.09 S(6) 1.260e-02 @@ -171224,7 +171184,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -171235,12 +171195,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 2.0746e-18 - I 3.3482e-31 + Hto 1.2274e-18 + I 3.3487e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.6405e-21 + Nat 3.4500e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -171259,12 +171219,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.758e-17 2.071e-18 + Hto 1.040e-17 1.225e-18 I 2.842e-18 3.349e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.470e-20 1.732e-21 + Nat 5.870e-21 6.916e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -171323,8 +171283,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.018e-11 1.106e-11 -10.992 -10.956 0.036 28.61 -Hto 1.758e-17 - Hto 1.758e-17 1.758e-17 -16.755 -16.755 0.000 (0) +Hto 1.040e-17 + Hto 1.040e-17 1.040e-17 -16.983 -16.983 0.000 (0) I 2.842e-18 I- 2.842e-18 2.842e-18 -17.546 -17.546 -0.000 (0) K 1.540e-03 @@ -171342,12 +171302,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.470e-20 - Nat+ 1.470e-20 1.470e-20 -19.833 -19.833 -0.000 (0) +Nat 5.870e-21 + Nat+ 5.870e-21 5.870e-21 -20.231 -20.231 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.513 -70.477 0.036 30.40 S(-2) 5.920e-08 - HS- 4.140e-08 2.726e-08 -7.383 -7.565 -0.182 21.14 + HS- 4.141e-08 2.726e-08 -7.383 -7.565 -0.182 21.14 H2S 1.779e-08 1.934e-08 -7.750 -7.713 0.036 36.27 S-2 1.683e-13 4.056e-14 -12.774 -13.392 -0.618 (0) (H2S)2 1.813e-17 1.972e-17 -16.742 -16.705 0.036 30.09 @@ -171425,7 +171385,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -171436,12 +171396,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 1.5786e-19 - I 2.1658e-32 + Hto 8.9570e-20 + I 2.1652e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8863e-22 + Nat 1.4499e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -171460,12 +171420,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.338e-18 1.576e-19 + Hto 7.591e-19 8.943e-20 I 1.838e-19 2.165e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.613e-22 7.791e-23 + Nat 2.467e-22 2.907e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -171524,8 +171484,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.018e-11 1.106e-11 -10.992 -10.956 0.036 28.61 -Hto 1.338e-18 - Hto 1.338e-18 1.338e-18 -17.874 -17.874 0.000 (0) +Hto 7.591e-19 + Hto 7.591e-19 7.591e-19 -18.120 -18.120 0.000 (0) I 1.838e-19 I- 1.838e-19 1.838e-19 -18.736 -18.736 -0.000 (0) K 1.540e-03 @@ -171543,8 +171503,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.613e-22 - Nat+ 6.613e-22 6.613e-22 -21.180 -21.180 -0.000 (0) +Nat 2.467e-22 + Nat+ 2.467e-22 2.467e-22 -21.608 -21.608 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.513 -70.477 0.036 30.40 S(-2) 5.921e-08 @@ -171626,7 +171586,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -171637,12 +171597,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 1.0850e-20 + Hto 5.9034e-21 I 1.2639e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5643e-23 + Nat 5.3351e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -171661,12 +171621,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.195e-20 1.083e-20 + Hto 5.003e-20 5.894e-21 I 1.073e-20 1.264e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.662e-23 3.136e-24 + Nat 9.078e-24 1.070e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -171725,8 +171685,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.018e-11 1.106e-11 -10.992 -10.956 0.036 28.61 -Hto 9.195e-20 - Hto 9.195e-20 9.195e-20 -19.036 -19.036 0.000 (0) +Hto 5.003e-20 + Hto 5.003e-20 5.003e-20 -19.301 -19.301 0.000 (0) I 1.073e-20 I- 1.073e-20 1.073e-20 -19.970 -19.970 -0.000 (0) K 1.540e-03 @@ -171744,8 +171704,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.662e-23 - Nat+ 2.662e-23 2.662e-23 -22.575 -22.575 -0.000 (0) +Nat 9.078e-24 + Nat+ 9.078e-24 9.078e-24 -23.042 -23.042 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.513 -70.477 0.036 30.40 S(-2) 5.921e-08 @@ -171827,7 +171787,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -171838,12 +171798,11 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 6.7398e-22 + Hto 3.5157e-22 I 6.6556e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3533e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -171862,12 +171821,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.712e-21 6.729e-22 + Hto 2.979e-21 3.510e-22 I 5.649e-22 6.655e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.706e-25 6.722e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -171926,8 +171884,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.018e-11 1.106e-11 -10.992 -10.956 0.036 28.61 -Hto 5.712e-21 - Hto 5.712e-21 5.712e-21 -20.243 -20.243 0.000 (0) +Hto 2.979e-21 + Hto 2.979e-21 2.979e-21 -20.526 -20.526 0.000 (0) I 5.649e-22 I- 5.649e-22 5.649e-22 -21.248 -21.248 -0.000 (0) K 1.540e-03 @@ -171945,8 +171903,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.706e-25 - Nat+ 5.706e-25 5.706e-25 -24.244 -24.244 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.513 -70.477 0.036 30.40 S(-2) 5.921e-08 @@ -172028,7 +171984,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -172039,8 +171995,8 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 3.9675e-23 - I 3.2242e-36 + Hto 1.9775e-23 + I 3.2238e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -172062,7 +172018,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.362e-22 3.961e-23 + Hto 1.676e-22 1.974e-23 I 2.737e-23 3.224e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -172125,8 +172081,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.035e-11 H2 1.018e-11 1.106e-11 -10.992 -10.956 0.036 28.61 -Hto 3.362e-22 - Hto 3.362e-22 3.362e-22 -21.473 -21.473 0.000 (0) +Hto 1.676e-22 + Hto 1.676e-22 1.676e-22 -21.776 -21.776 0.000 (0) I 2.737e-23 I- 2.737e-23 2.737e-23 -22.563 -22.563 -0.000 (0) K 1.540e-03 @@ -172514,30 +172470,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.332e-07 2.666e-07 + Hto 5.386e-07 2.693e-07 I 7.115e-07 3.558e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.998e-07 1.499e-07 + Nat 3.072e-07 1.536e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.041 Adjusted to redox equilibrium + pe = -3.040 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.746e-13 + Electrical balance (eq) = -3.215e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -172551,8 +172507,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.564e-12 - CH4 2.564e-12 2.788e-12 -11.591 -11.555 0.036 35.46 +C(-4) 2.513e-12 + CH4 2.513e-12 2.732e-12 -11.600 -11.563 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -172575,11 +172531,11 @@ Ca 2.590e-02 CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 - HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.038e-11 - H2 5.192e-12 5.645e-12 -11.285 -11.248 0.036 28.61 -Hto 5.332e-07 - Hto 5.332e-07 5.332e-07 -6.273 -6.273 0.000 (0) + HCl 3.954e-09 5.645e-09 -8.403 -8.248 0.155 (0) +H(0) 1.033e-11 + H2 5.166e-12 5.617e-12 -11.287 -11.251 0.036 28.61 +Hto 5.386e-07 + Hto 5.386e-07 5.386e-07 -6.269 -6.269 0.000 (0) I 7.115e-07 I- 7.115e-07 7.115e-07 -6.148 -6.148 -0.000 (0) K 1.540e-03 @@ -172597,15 +172553,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.998e-07 - Nat+ 2.998e-07 2.998e-07 -6.523 -6.523 -0.000 (0) +Nat 3.072e-07 + Nat+ 3.072e-07 3.072e-07 -6.513 -6.513 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.928 -69.892 0.036 30.40 -S(-2) 4.020e-09 - HS- 2.811e-09 1.850e-09 -8.551 -8.733 -0.182 21.14 - H2S 1.209e-09 1.315e-09 -8.917 -8.881 0.036 36.27 - S-2 1.141e-14 2.750e-15 -13.943 -14.561 -0.618 (0) - (H2S)2 8.379e-20 9.110e-20 -19.077 -19.040 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.924 -69.888 0.036 30.40 +S(-2) 3.939e-09 + HS- 2.754e-09 1.813e-09 -8.560 -8.742 -0.182 21.14 + H2S 1.185e-09 1.288e-09 -8.926 -8.890 0.036 36.27 + S-2 1.118e-14 2.695e-15 -13.952 -14.570 -0.618 (0) + (H2S)2 8.046e-20 8.748e-20 -19.094 -19.058 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -172632,21 +172588,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.75 -11.55 -2.80 CH4 + CH4(g) -8.76 -11.56 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.15 -11.25 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.89 -15.82 -7.94 H2S + H2S(g) -7.90 -15.83 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.00 -69.89 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.66 -0.78 4.88 S + Sulfur -5.67 -0.79 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -172670,7 +172626,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.907e-14 Surface + diffuse layer charge, eq + -4.841e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -172680,7 +172636,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -172691,12 +172647,12 @@ Su Ca 7.1884e-02 Cl 4.6652e-10 H 1.2948e-04 - Hto 5.4641e-08 - I 7.3004e-20 + Hto 5.4959e-08 + I 7.3017e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5782e-07 + Nat 1.6059e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -172715,12 +172671,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.631e-07 5.455e-08 + Hto 4.658e-07 5.487e-08 I 6.196e-07 7.300e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.685e-07 3.164e-08 + Nat 2.733e-07 3.219e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -172731,14 +172687,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.679e-09 + Electrical balance (eq) = 1.670e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -172752,8 +172708,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.500e-12 - CH4 7.500e-12 8.154e-12 -11.125 -11.089 0.036 35.46 +C(-4) 7.446e-12 + CH4 7.446e-12 8.095e-12 -11.128 -11.092 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -172777,10 +172733,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.358e-11 - H2 6.790e-12 7.383e-12 -11.168 -11.132 0.036 28.61 -Hto 4.631e-07 - Hto 4.631e-07 4.631e-07 -6.334 -6.334 0.000 (0) +H(0) 1.356e-11 + H2 6.778e-12 7.369e-12 -11.169 -11.133 0.036 28.61 +Hto 4.658e-07 + Hto 4.658e-07 4.658e-07 -6.332 -6.332 0.000 (0) I 6.196e-07 I- 6.196e-07 6.196e-07 -6.208 -6.208 -0.000 (0) K 1.540e-03 @@ -172798,15 +172754,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.685e-07 - Nat+ 2.685e-07 2.685e-07 -6.571 -6.571 -0.000 (0) +Nat 2.733e-07 + Nat+ 2.733e-07 2.733e-07 -6.563 -6.563 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.162 -70.125 0.036 30.40 -S(-2) 1.176e-08 - HS- 8.220e-09 5.411e-09 -8.085 -8.267 -0.182 21.14 - H2S 3.536e-09 3.845e-09 -8.451 -8.415 0.036 36.27 - S-2 3.337e-14 8.043e-15 -13.477 -14.095 -0.618 (0) - (H2S)2 7.164e-19 7.789e-19 -18.145 -18.109 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.160 -70.124 0.036 30.40 +S(-2) 1.167e-08 + HS- 8.160e-09 5.372e-09 -8.088 -8.270 -0.182 21.14 + H2S 3.511e-09 3.817e-09 -8.455 -8.418 0.036 36.27 + S-2 3.313e-14 7.985e-15 -13.480 -14.098 -0.618 (0) + (H2S)2 7.061e-19 7.676e-19 -18.151 -18.115 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -172845,9 +172801,9 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.23 -70.13 -2.89 O2 + O2(g) -67.23 -70.12 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.32 -0.43 4.88 S + Sulfur -5.32 -0.44 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -172871,7 +172827,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.452e-11 Surface + diffuse layer charge, eq + -9.451e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -172881,7 +172837,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -172892,12 +172848,12 @@ Su Ca 7.1884e-02 Cl 4.6617e-10 H 1.2949e-04 - Hto 3.4052e-08 + Hto 3.3711e-08 I 4.1855e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.6517e-08 + Nat 8.4783e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -172916,12 +172872,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.886e-07 3.400e-08 + Hto 2.857e-07 3.366e-08 I 3.552e-07 4.185e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.472e-07 1.734e-08 + Nat 1.443e-07 1.700e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -172939,7 +172895,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.949e-09 + Electrical balance (eq) = 2.915e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -172953,8 +172909,8 @@ Su OH- 1.874e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.612e-11 - CH4 2.612e-11 2.840e-11 -10.583 -10.547 0.036 35.46 +C(-4) 2.618e-11 + CH4 2.618e-11 2.847e-11 -10.582 -10.546 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -172978,10 +172934,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.856e-11 - H2 9.278e-12 1.009e-11 -11.033 -10.996 0.036 28.61 -Hto 2.886e-07 - Hto 2.886e-07 2.886e-07 -6.540 -6.540 0.000 (0) +H(0) 1.857e-11 + H2 9.283e-12 1.009e-11 -11.032 -10.996 0.036 28.61 +Hto 2.857e-07 + Hto 2.857e-07 2.857e-07 -6.544 -6.544 0.000 (0) I 3.552e-07 I- 3.552e-07 3.552e-07 -6.449 -6.449 -0.000 (0) K 1.540e-03 @@ -172999,15 +172955,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.472e-07 - Nat+ 1.472e-07 1.472e-07 -6.832 -6.832 -0.000 (0) +Nat 1.443e-07 + Nat+ 1.443e-07 1.443e-07 -6.841 -6.841 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.433 -70.396 0.036 30.40 -S(-2) 4.093e-08 - HS- 2.862e-08 1.884e-08 -7.543 -7.725 -0.182 21.14 - H2S 1.230e-08 1.338e-08 -7.910 -7.874 0.036 36.27 - S-2 1.163e-13 2.803e-14 -12.935 -13.552 -0.618 (0) - (H2S)2 8.674e-18 9.430e-18 -17.062 -17.025 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.433 -70.397 0.036 30.40 +S(-2) 4.103e-08 + HS- 2.869e-08 1.889e-08 -7.542 -7.724 -0.182 21.14 + H2S 1.233e-08 1.341e-08 -7.909 -7.873 0.036 36.27 + S-2 1.166e-13 2.810e-14 -12.933 -13.551 -0.618 (0) + (H2S)2 8.716e-18 9.476e-18 -17.060 -17.023 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -173039,9 +172995,9 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -7.90 -11.00 -3.10 H2 + H2(g) -7.89 -11.00 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.88 -14.82 -7.94 H2S + H2S(g) -6.88 -14.81 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -173082,7 +173038,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -173093,12 +173049,12 @@ Su Ca 7.1884e-02 Cl 4.6603e-10 H 1.2950e-04 - Hto 1.7302e-08 + Hto 1.6744e-08 I 1.9234e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4096e-08 + Nat 3.1763e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -173117,12 +173073,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.466e-07 1.727e-08 + Hto 1.419e-07 1.672e-08 I 1.633e-07 1.923e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.802e-08 6.835e-09 + Nat 5.405e-08 6.367e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -173154,8 +173110,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.398e-11 - CH4 3.398e-11 3.694e-11 -10.469 -10.432 0.036 35.46 +C(-4) 3.403e-11 + CH4 3.403e-11 3.700e-11 -10.468 -10.432 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -173179,10 +173135,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.982e-11 - H2 9.909e-12 1.077e-11 -11.004 -10.968 0.036 28.61 -Hto 1.466e-07 - Hto 1.466e-07 1.466e-07 -6.834 -6.834 0.000 (0) +H(0) 1.983e-11 + H2 9.913e-12 1.078e-11 -11.004 -10.967 0.036 28.61 +Hto 1.419e-07 + Hto 1.419e-07 1.419e-07 -6.848 -6.848 0.000 (0) I 1.633e-07 I- 1.633e-07 1.633e-07 -6.787 -6.787 -0.000 (0) K 1.540e-03 @@ -173200,15 +173156,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.802e-08 - Nat+ 5.802e-08 5.802e-08 -7.236 -7.236 -0.000 (0) +Nat 5.405e-08 + Nat+ 5.405e-08 5.405e-08 -7.267 -7.267 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.490 -70.453 0.036 30.40 -S(-2) 5.324e-08 - HS- 3.724e-08 2.451e-08 -7.429 -7.611 -0.182 21.14 - H2S 1.600e-08 1.740e-08 -7.796 -7.759 0.036 36.27 - S-2 1.513e-13 3.647e-14 -12.820 -13.438 -0.618 (0) - (H2S)2 1.467e-17 1.595e-17 -16.834 -16.797 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.490 -70.454 0.036 30.40 +S(-2) 5.332e-08 + HS- 3.730e-08 2.455e-08 -7.428 -7.610 -0.182 21.14 + H2S 1.603e-08 1.743e-08 -7.795 -7.759 0.036 36.27 + S-2 1.516e-13 3.653e-14 -12.819 -13.437 -0.618 (0) + (H2S)2 1.472e-17 1.600e-17 -16.832 -16.796 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -173242,7 +173198,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.87 -10.97 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.77 -14.70 -7.94 H2S + H2S(g) -6.76 -14.70 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -173283,7 +173239,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -173294,12 +173250,12 @@ Su Ca 7.1884e-02 Cl 4.6598e-10 H 1.2950e-04 - Hto 7.2513e-09 - I 7.1882e-21 + Hto 6.8258e-09 + I 7.1874e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0215e-08 + Nat 8.9871e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -173318,12 +173274,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.145e-08 7.240e-09 + Hto 5.785e-08 6.815e-09 I 6.101e-08 7.188e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.738e-08 2.048e-09 + Nat 1.529e-08 1.802e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -173352,11 +173308,11 @@ Su Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 + OH- 1.875e-07 1.235e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.713e-11 - CH4 3.713e-11 4.037e-11 -10.430 -10.394 0.036 35.46 +C(-4) 3.716e-11 + CH4 3.716e-11 4.040e-11 -10.430 -10.394 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -173380,10 +173336,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.026e-11 +H(0) 2.027e-11 H2 1.013e-11 1.102e-11 -10.994 -10.958 0.036 28.61 -Hto 6.145e-08 - Hto 6.145e-08 6.145e-08 -7.211 -7.211 0.000 (0) +Hto 5.785e-08 + Hto 5.785e-08 5.785e-08 -7.238 -7.238 0.000 (0) I 6.101e-08 I- 6.101e-08 6.101e-08 -7.215 -7.215 -0.000 (0) K 1.540e-03 @@ -173401,15 +173357,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.738e-08 - Nat+ 1.738e-08 1.738e-08 -7.760 -7.760 -0.000 (0) +Nat 1.529e-08 + Nat+ 1.529e-08 1.529e-08 -7.816 -7.816 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.509 -70.473 0.036 30.40 -S(-2) 5.818e-08 - HS- 4.069e-08 2.679e-08 -7.390 -7.572 -0.182 21.14 - H2S 1.748e-08 1.901e-08 -7.757 -7.721 0.036 36.27 - S-2 1.654e-13 3.986e-14 -12.782 -13.399 -0.618 (0) - (H2S)2 1.751e-17 1.904e-17 -16.757 -16.720 0.036 30.09 +S(-2) 5.822e-08 + HS- 4.072e-08 2.681e-08 -7.390 -7.572 -0.182 21.14 + H2S 1.750e-08 1.903e-08 -7.757 -7.721 0.036 36.27 + S-2 1.655e-13 3.990e-14 -12.781 -13.399 -0.618 (0) + (H2S)2 1.754e-17 1.907e-17 -16.756 -16.720 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -173450,7 +173406,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.58 -70.47 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.80 0.09 4.88 S + Sulfur -4.79 0.09 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -173484,7 +173440,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -173495,12 +173451,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 2.5419e-09 - I 2.2222e-21 + Hto 2.3189e-09 + I 2.2214e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4262e-09 + Nat 2.0087e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -173519,12 +173475,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.154e-08 2.538e-09 + Hto 1.965e-08 2.315e-09 I 1.886e-08 2.222e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.129e-09 4.864e-10 + Nat 3.418e-09 4.027e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -173556,8 +173512,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.825e-11 - CH4 3.825e-11 4.158e-11 -10.417 -10.381 0.036 35.46 +C(-4) 3.826e-11 + CH4 3.826e-11 4.160e-11 -10.417 -10.381 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -173581,10 +173537,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.041e-11 +H(0) 2.042e-11 H2 1.021e-11 1.110e-11 -10.991 -10.955 0.036 28.61 -Hto 2.154e-08 - Hto 2.154e-08 2.154e-08 -7.667 -7.667 0.000 (0) +Hto 1.965e-08 + Hto 1.965e-08 1.965e-08 -7.707 -7.707 0.000 (0) I 1.886e-08 I- 1.886e-08 1.886e-08 -7.724 -7.724 -0.000 (0) K 1.540e-03 @@ -173602,15 +173558,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.129e-09 - Nat+ 4.129e-09 4.129e-09 -8.384 -8.384 -0.000 (0) +Nat 3.418e-09 + Nat+ 3.418e-09 3.418e-09 -8.466 -8.466 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.516 -70.479 0.036 30.40 -S(-2) 5.992e-08 - HS- 4.191e-08 2.759e-08 -7.378 -7.559 -0.182 21.14 - H2S 1.801e-08 1.958e-08 -7.745 -7.708 0.036 36.27 - S-2 1.703e-13 4.106e-14 -12.769 -13.387 -0.618 (0) - (H2S)2 1.858e-17 2.020e-17 -16.731 -16.695 0.036 30.09 +S(-2) 5.994e-08 + HS- 4.193e-08 2.760e-08 -7.377 -7.559 -0.182 21.14 + H2S 1.802e-08 1.959e-08 -7.744 -7.708 0.036 36.27 + S-2 1.704e-13 4.108e-14 -12.769 -13.386 -0.618 (0) + (H2S)2 1.859e-17 2.022e-17 -16.731 -16.694 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -173685,7 +173641,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -173696,12 +173652,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 7.5540e-10 - I 5.7717e-22 + Hto 6.6608e-10 + I 5.7727e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.7114e-10 + Nat 3.6627e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -173720,12 +173676,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.402e-09 7.542e-10 + Hto 5.645e-09 6.650e-10 I 4.899e-09 5.772e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.017e-10 9.445e-11 + Nat 6.232e-10 7.342e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -173757,8 +173713,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.851e-11 - CH4 3.851e-11 4.187e-11 -10.414 -10.378 0.036 35.46 +C(-4) 3.852e-11 + CH4 3.852e-11 4.188e-11 -10.414 -10.378 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -173783,9 +173739,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.045e-11 - H2 1.022e-11 1.112e-11 -10.990 -10.954 0.036 28.61 -Hto 6.402e-09 - Hto 6.402e-09 6.402e-09 -8.194 -8.194 0.000 (0) + H2 1.023e-11 1.112e-11 -10.990 -10.954 0.036 28.61 +Hto 5.645e-09 + Hto 5.645e-09 5.645e-09 -8.248 -8.248 0.000 (0) I 4.899e-09 I- 4.899e-09 4.899e-09 -8.310 -8.310 -0.000 (0) K 1.540e-03 @@ -173803,15 +173759,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.017e-10 - Nat+ 8.017e-10 8.017e-10 -9.096 -9.096 -0.000 (0) +Nat 6.232e-10 + Nat+ 6.232e-10 6.232e-10 -9.205 -9.205 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.517 -70.481 0.036 30.40 -S(-2) 6.034e-08 - HS- 4.220e-08 2.778e-08 -7.375 -7.556 -0.182 21.14 - H2S 1.813e-08 1.972e-08 -7.742 -7.705 0.036 36.27 - S-2 1.715e-13 4.135e-14 -12.766 -13.384 -0.618 (0) - (H2S)2 1.884e-17 2.048e-17 -16.725 -16.689 0.036 30.09 +S(-2) 6.035e-08 + HS- 4.221e-08 2.779e-08 -7.375 -7.556 -0.182 21.14 + H2S 1.814e-08 1.972e-08 -7.741 -7.705 0.036 36.27 + S-2 1.716e-13 4.136e-14 -12.766 -13.383 -0.618 (0) + (H2S)2 1.885e-17 2.049e-17 -16.725 -16.688 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -173886,7 +173842,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -173897,12 +173853,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 1.9260e-10 - I 1.2783e-22 + Hto 1.6384e-10 + I 1.2785e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.6534e-11 + Nat 5.5795e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -173921,19 +173877,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.632e-09 1.923e-10 + Hto 1.389e-09 1.636e-10 I 1.085e-09 1.278e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.302e-10 1.534e-11 + Nat 9.494e-11 1.119e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.091 Charge balance - pe = -3.188 Adjusted to redox equilibrium + pe = -3.189 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -173958,8 +173914,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.841e-11 - CH4 3.841e-11 4.177e-11 -10.416 -10.379 0.036 35.46 +C(-4) 3.842e-11 + CH4 3.842e-11 4.177e-11 -10.415 -10.379 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -173985,8 +173941,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.044e-11 H2 1.022e-11 1.111e-11 -10.991 -10.954 0.036 28.61 -Hto 1.632e-09 - Hto 1.632e-09 1.632e-09 -8.787 -8.787 0.000 (0) +Hto 1.389e-09 + Hto 1.389e-09 1.389e-09 -8.857 -8.857 0.000 (0) I 1.085e-09 I- 1.085e-09 1.085e-09 -8.965 -8.965 -0.000 (0) K 1.540e-03 @@ -174004,15 +173960,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.302e-10 - Nat+ 1.302e-10 1.302e-10 -9.885 -9.885 -0.000 (0) +Nat 9.494e-11 + Nat+ 9.494e-11 9.494e-11 -10.023 -10.023 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.516 -70.480 0.036 30.40 -S(-2) 6.018e-08 - HS- 4.210e-08 2.771e-08 -7.376 -7.557 -0.182 21.14 + O2 0.000e+00 0.000e+00 -70.517 -70.480 0.036 30.40 +S(-2) 6.019e-08 + HS- 4.210e-08 2.772e-08 -7.376 -7.557 -0.182 21.14 H2S 1.809e-08 1.967e-08 -7.743 -7.706 0.036 36.27 - S-2 1.711e-13 4.124e-14 -12.767 -13.385 -0.618 (0) - (H2S)2 1.874e-17 2.038e-17 -16.727 -16.691 0.036 30.09 + S-2 1.711e-13 4.125e-14 -12.767 -13.385 -0.618 (0) + (H2S)2 1.875e-17 2.038e-17 -16.727 -16.691 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -174077,7 +174033,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.727e-11 Surface + diffuse layer charge, eq + -9.731e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -174087,7 +174043,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -174098,12 +174054,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 4.2572e-11 - I 2.4428e-23 + Hto 3.4889e-11 + I 2.4424e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0583e-11 + Nat 7.2290e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -174122,12 +174078,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.608e-10 4.250e-11 + Hto 2.957e-10 3.483e-11 I 2.073e-10 2.442e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.801e-11 2.122e-12 + Nat 1.230e-11 1.449e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -174145,8 +174101,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.185e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 3.716e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -174186,8 +174142,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.040e-11 H2 1.020e-11 1.109e-11 -10.991 -10.955 0.036 28.61 -Hto 3.608e-10 - Hto 3.608e-10 3.608e-10 -9.443 -9.443 0.000 (0) +Hto 2.957e-10 + Hto 2.957e-10 2.957e-10 -9.529 -9.529 0.000 (0) I 2.073e-10 I- 2.073e-10 2.073e-10 -9.683 -9.683 -0.000 (0) K 1.540e-03 @@ -174205,15 +174161,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.801e-11 - Nat+ 1.801e-11 1.801e-11 -10.745 -10.745 -0.000 (0) +Nat 1.230e-11 + Nat+ 1.230e-11 1.230e-11 -10.910 -10.910 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.515 -70.479 0.036 30.40 -S(-2) 5.981e-08 +S(-2) 5.982e-08 HS- 4.184e-08 2.754e-08 -7.378 -7.560 -0.182 21.14 - H2S 1.798e-08 1.954e-08 -7.745 -7.709 0.036 36.27 + H2S 1.798e-08 1.955e-08 -7.745 -7.709 0.036 36.27 S-2 1.700e-13 4.099e-14 -12.769 -13.387 -0.618 (0) - (H2S)2 1.851e-17 2.013e-17 -16.733 -16.696 0.036 30.09 + (H2S)2 1.852e-17 2.013e-17 -16.732 -16.696 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -174278,7 +174234,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.719e-11 Surface + diffuse layer charge, eq + -9.720e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -174288,7 +174244,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -174299,12 +174255,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 8.2296e-12 + Hto 6.4907e-12 I 4.0656e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2627e-12 + Nat 8.0765e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -174323,12 +174279,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.974e-11 8.216e-12 + Hto 5.501e-11 6.480e-12 I 3.451e-11 4.065e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.149e-12 2.531e-13 + Nat 1.374e-12 1.619e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -174346,7 +174302,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.133e-09 + Electrical balance (eq) = -1.218e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -174387,8 +174343,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.038e-11 H2 1.019e-11 1.108e-11 -10.992 -10.956 0.036 28.61 -Hto 6.974e-11 - Hto 6.974e-11 6.974e-11 -10.157 -10.157 0.000 (0) +Hto 5.501e-11 + Hto 5.501e-11 5.501e-11 -10.260 -10.260 0.000 (0) I 3.451e-11 I- 3.451e-11 3.451e-11 -10.462 -10.462 -0.000 (0) K 1.540e-03 @@ -174406,8 +174362,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.149e-12 - Nat+ 2.149e-12 2.149e-12 -11.668 -11.668 -0.000 (0) +Nat 1.374e-12 + Nat+ 1.374e-12 1.374e-12 -11.862 -11.862 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.514 -70.478 0.036 30.40 S(-2) 5.950e-08 @@ -174479,7 +174435,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -9.715e-11 Surface + diffuse layer charge, eq + -9.714e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -174489,7 +174445,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -174500,12 +174456,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 1.4016e-12 + Hto 1.0630e-12 I 5.9444e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3138e-13 + Nat 7.8657e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -174524,12 +174480,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.188e-11 1.399e-12 + Hto 9.008e-12 1.061e-12 I 5.045e-12 5.944e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.236e-13 2.634e-14 + Nat 1.338e-13 1.577e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -174547,7 +174503,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.589e-09 + Electrical balance (eq) = -1.591e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -174561,8 +174517,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.790e-11 - CH4 3.790e-11 4.120e-11 -10.421 -10.385 0.036 35.46 +C(-4) 3.789e-11 + CH4 3.789e-11 4.120e-11 -10.421 -10.385 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -174588,8 +174544,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.037e-11 H2 1.018e-11 1.107e-11 -10.992 -10.956 0.036 28.61 -Hto 1.188e-11 - Hto 1.188e-11 1.188e-11 -10.925 -10.925 0.000 (0) +Hto 9.008e-12 + Hto 9.008e-12 9.008e-12 -11.045 -11.045 0.000 (0) I 5.045e-12 I- 5.045e-12 5.045e-12 -11.297 -11.297 -0.000 (0) K 1.540e-03 @@ -174607,8 +174563,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.236e-13 - Nat+ 2.236e-13 2.236e-13 -12.651 -12.651 -0.000 (0) +Nat 1.338e-13 + Nat+ 1.338e-13 1.338e-13 -12.873 -12.873 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.514 -70.477 0.036 30.40 S(-2) 5.937e-08 @@ -174690,7 +174646,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -174701,12 +174657,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 2.1163e-13 - I 7.6879e-26 + Hto 1.5424e-13 + I 7.6867e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2022e-14 + Nat 6.7353e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -174725,12 +174681,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.793e-12 2.113e-13 + Hto 1.307e-12 1.540e-13 I 6.524e-13 7.686e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.046e-14 2.410e-15 + Nat 1.146e-14 1.350e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -174763,7 +174719,7 @@ Su H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.795e-11 - CH4 3.795e-11 4.126e-11 -10.421 -10.384 0.036 35.46 + CH4 3.795e-11 4.126e-11 -10.421 -10.385 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -174789,8 +174745,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.037e-11 H2 1.019e-11 1.108e-11 -10.992 -10.956 0.036 28.61 -Hto 1.793e-12 - Hto 1.793e-12 1.793e-12 -11.746 -11.746 0.000 (0) +Hto 1.307e-12 + Hto 1.307e-12 1.307e-12 -11.884 -11.884 0.000 (0) I 6.524e-13 I- 6.524e-13 6.524e-13 -12.185 -12.185 -0.000 (0) K 1.540e-03 @@ -174808,12 +174764,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.046e-14 - Nat+ 2.046e-14 2.046e-14 -13.689 -13.689 -0.000 (0) +Nat 1.146e-14 + Nat+ 1.146e-14 1.146e-14 -13.941 -13.941 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.514 -70.478 0.036 30.40 -S(-2) 5.946e-08 - HS- 4.159e-08 2.738e-08 -7.381 -7.563 -0.182 21.14 +S(-2) 5.945e-08 + HS- 4.158e-08 2.738e-08 -7.381 -7.563 -0.182 21.14 H2S 1.787e-08 1.943e-08 -7.748 -7.712 0.036 36.27 S-2 1.690e-13 4.074e-14 -12.772 -13.390 -0.618 (0) (H2S)2 1.829e-17 1.989e-17 -16.738 -16.701 0.036 30.09 @@ -174881,7 +174837,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.722e-11 Surface + diffuse layer charge, eq + -9.721e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -174891,7 +174847,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -174902,12 +174858,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 2.8473e-14 - I 8.8416e-27 + Hto 1.9932e-14 + I 8.8400e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.7425e-16 + Nat 5.1060e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -174926,12 +174882,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.413e-13 2.843e-14 + Hto 1.689e-13 1.990e-14 I 7.503e-14 8.840e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.658e-15 1.953e-16 + Nat 8.689e-16 1.024e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -174949,7 +174905,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.120e-10 + Electrical balance (eq) = -2.794e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -174990,8 +174946,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.040e-11 H2 1.020e-11 1.109e-11 -10.991 -10.955 0.036 28.61 -Hto 2.413e-13 - Hto 2.413e-13 2.413e-13 -12.617 -12.617 0.000 (0) +Hto 1.689e-13 + Hto 1.689e-13 1.689e-13 -12.772 -12.772 0.000 (0) I 7.503e-14 I- 7.503e-14 7.503e-14 -13.125 -13.125 -0.000 (0) K 1.540e-03 @@ -175009,15 +174965,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.658e-15 - Nat+ 1.658e-15 1.658e-15 -14.780 -14.780 -0.000 (0) +Nat 8.689e-16 + Nat+ 8.689e-16 8.689e-16 -15.061 -15.061 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.515 -70.479 0.036 30.40 S(-2) 5.977e-08 - HS- 4.181e-08 2.752e-08 -7.379 -7.560 -0.182 21.14 + HS- 4.180e-08 2.752e-08 -7.379 -7.560 -0.182 21.14 H2S 1.796e-08 1.953e-08 -7.746 -7.709 0.036 36.27 - S-2 1.699e-13 4.096e-14 -12.770 -13.388 -0.618 (0) - (H2S)2 1.849e-17 2.010e-17 -16.733 -16.697 0.036 30.09 + S-2 1.699e-13 4.095e-14 -12.770 -13.388 -0.618 (0) + (H2S)2 1.848e-17 2.010e-17 -16.733 -16.697 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -175092,7 +175048,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -175103,12 +175059,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 3.4283e-15 - I 9.0837e-28 + Hto 2.3042e-15 + I 9.0857e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.0298e-17 + Nat 3.4462e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -175127,12 +175083,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.905e-14 3.423e-15 + Hto 1.953e-14 2.301e-15 I 7.711e-15 9.084e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.196e-16 1.409e-17 + Nat 5.864e-17 6.908e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -175191,8 +175147,8 @@ Cl 3.000e-01 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.044e-11 H2 1.022e-11 1.111e-11 -10.991 -10.954 0.036 28.61 -Hto 2.905e-14 - Hto 2.905e-14 2.905e-14 -13.537 -13.537 0.000 (0) +Hto 1.953e-14 + Hto 1.953e-14 1.953e-14 -13.709 -13.709 0.000 (0) I 7.711e-15 I- 7.711e-15 7.711e-15 -14.113 -14.113 -0.000 (0) K 1.540e-03 @@ -175210,12 +175166,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.196e-16 - Nat+ 1.196e-16 1.196e-16 -15.922 -15.922 -0.000 (0) +Nat 5.864e-17 + Nat+ 5.864e-17 5.864e-17 -16.232 -16.232 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.517 -70.480 0.036 30.40 -S(-2) 6.022e-08 - HS- 4.212e-08 2.773e-08 -7.375 -7.557 -0.182 21.14 +S(-2) 6.023e-08 + HS- 4.213e-08 2.773e-08 -7.375 -7.557 -0.182 21.14 H2S 1.810e-08 1.968e-08 -7.742 -7.706 0.036 36.27 S-2 1.712e-13 4.127e-14 -12.766 -13.384 -0.618 (0) (H2S)2 1.877e-17 2.041e-17 -16.727 -16.690 0.036 30.09 @@ -175293,7 +175249,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -175304,12 +175260,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 3.7071e-16 + Hto 2.3914e-16 I 8.3730e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5367e-18 + Nat 2.0800e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -175328,12 +175284,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.142e-15 3.701e-16 + Hto 2.027e-15 2.388e-16 I 7.106e-16 8.372e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.720e-18 9.095e-19 + Nat 3.539e-18 4.170e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -175366,7 +175322,7 @@ Su H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.866e-11 - CH4 3.866e-11 4.203e-11 -10.413 -10.376 0.036 35.46 + CH4 3.866e-11 4.204e-11 -10.413 -10.376 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -175392,8 +175348,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.047e-11 H2 1.023e-11 1.113e-11 -10.990 -10.954 0.036 28.61 -Hto 3.142e-15 - Hto 3.142e-15 3.142e-15 -14.503 -14.503 0.000 (0) +Hto 2.027e-15 + Hto 2.027e-15 2.027e-15 -14.693 -14.693 0.000 (0) I 7.106e-16 I- 7.106e-16 7.106e-16 -15.148 -15.148 -0.000 (0) K 1.540e-03 @@ -175411,15 +175367,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.720e-18 - Nat+ 7.720e-18 7.720e-18 -17.112 -17.112 -0.000 (0) +Nat 3.539e-18 + Nat+ 3.539e-18 3.539e-18 -17.451 -17.451 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.518 -70.482 0.036 30.40 -S(-2) 6.057e-08 +S(-2) 6.058e-08 HS- 4.237e-08 2.789e-08 -7.373 -7.555 -0.182 21.14 - H2S 1.820e-08 1.979e-08 -7.740 -7.704 0.036 36.27 + H2S 1.820e-08 1.979e-08 -7.740 -7.703 0.036 36.27 S-2 1.722e-13 4.151e-14 -12.764 -13.382 -0.618 (0) - (H2S)2 1.898e-17 2.064e-17 -16.722 -16.685 0.036 30.09 + (H2S)2 1.899e-17 2.064e-17 -16.722 -16.685 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -175494,7 +175450,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -175505,12 +175461,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 3.6101e-17 - I 6.9441e-30 + Hto 2.2346e-17 + I 6.9426e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6280e-19 + Nat 1.1267e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -175529,12 +175485,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.059e-16 3.604e-17 + Hto 1.894e-16 2.231e-17 I 5.892e-17 6.942e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.472e-19 5.268e-20 + Nat 1.917e-19 2.259e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -175592,9 +175548,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.048e-11 - H2 1.024e-11 1.113e-11 -10.990 -10.953 0.036 28.61 -Hto 3.059e-16 - Hto 3.059e-16 3.059e-16 -15.514 -15.514 0.000 (0) + H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 +Hto 1.894e-16 + Hto 1.894e-16 1.894e-16 -15.723 -15.723 0.000 (0) I 5.892e-17 I- 5.892e-17 5.892e-17 -16.230 -16.230 -0.000 (0) K 1.540e-03 @@ -175612,15 +175568,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.472e-19 - Nat+ 4.472e-19 4.472e-19 -18.350 -18.350 -0.000 (0) +Nat 1.917e-19 + Nat+ 1.917e-19 1.917e-19 -18.717 -18.717 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.518 -70.482 0.036 30.40 S(-2) 6.074e-08 - HS- 4.248e-08 2.797e-08 -7.372 -7.553 -0.182 21.14 + HS- 4.249e-08 2.797e-08 -7.372 -7.553 -0.182 21.14 H2S 1.825e-08 1.985e-08 -7.739 -7.702 0.036 36.27 S-2 1.727e-13 4.162e-14 -12.763 -13.381 -0.618 (0) - (H2S)2 1.909e-17 2.075e-17 -16.719 -16.683 0.036 30.09 + (H2S)2 1.909e-17 2.076e-17 -16.719 -16.683 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -175695,7 +175651,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -175706,12 +175662,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 3.1733e-18 - I 5.1894e-31 + Hto 1.8844e-18 + I 5.1904e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3702e-20 + Nat 5.4928e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -175730,12 +175686,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.689e-17 3.168e-18 + Hto 1.597e-17 1.881e-18 I 4.406e-18 5.190e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.332e-20 2.747e-21 + Nat 9.347e-21 1.101e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -175794,8 +175750,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.049e-11 H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 2.689e-17 - Hto 2.689e-17 2.689e-17 -16.570 -16.570 0.000 (0) +Hto 1.597e-17 + Hto 1.597e-17 1.597e-17 -16.797 -16.797 0.000 (0) I 4.406e-18 I- 4.406e-18 4.406e-18 -17.356 -17.356 -0.000 (0) K 1.540e-03 @@ -175813,15 +175769,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.332e-20 - Nat+ 2.332e-20 2.332e-20 -19.632 -19.632 -0.000 (0) +Nat 9.347e-21 + Nat+ 9.347e-21 9.347e-21 -20.029 -20.029 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.519 -70.482 0.036 30.40 S(-2) 6.079e-08 HS- 4.252e-08 2.799e-08 -7.371 -7.553 -0.182 21.14 H2S 1.827e-08 1.986e-08 -7.738 -7.702 0.036 36.27 S-2 1.728e-13 4.166e-14 -12.762 -13.380 -0.618 (0) - (H2S)2 1.912e-17 2.079e-17 -16.718 -16.682 0.036 30.09 + (H2S)2 1.913e-17 2.079e-17 -16.718 -16.682 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -175886,7 +175842,7 @@ Kinetics 20. Diffuse Double Layer Surface-Complexation Model Su - -9.742e-11 Surface + diffuse layer charge, eq + -9.741e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -175896,7 +175852,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -175907,12 +175863,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 2.5220e-19 - I 3.5070e-32 + Hto 1.4364e-19 + I 3.5064e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.4425e-22 + Nat 2.4140e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -175931,12 +175887,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.137e-18 2.518e-19 + Hto 1.217e-18 1.434e-19 I 2.976e-19 3.506e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.096e-21 1.292e-22 + Nat 4.108e-22 4.839e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -175995,8 +175951,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.049e-11 H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 2.137e-18 - Hto 2.137e-18 2.137e-18 -17.670 -17.670 0.000 (0) +Hto 1.217e-18 + Hto 1.217e-18 1.217e-18 -17.915 -17.915 0.000 (0) I 2.976e-19 I- 2.976e-19 2.976e-19 -18.526 -18.526 -0.000 (0) K 1.540e-03 @@ -176014,8 +175970,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.096e-21 - Nat+ 1.096e-21 1.096e-21 -20.960 -20.960 -0.000 (0) +Nat 4.108e-22 + Nat+ 4.108e-22 4.108e-22 -21.386 -21.386 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.519 -70.482 0.036 30.40 S(-2) 6.081e-08 @@ -176097,7 +176053,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -176108,12 +176064,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 1.8144e-20 + Hto 9.9104e-21 I 2.1426e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.7250e-23 + Nat 9.4288e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -176132,12 +176088,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.538e-19 1.811e-20 + Hto 8.399e-20 9.894e-21 I 1.819e-20 2.143e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.637e-23 5.463e-24 + Nat 1.604e-23 1.890e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -176196,8 +176152,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.049e-11 H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 1.538e-19 - Hto 1.538e-19 1.538e-19 -18.813 -18.813 0.000 (0) +Hto 8.399e-20 + Hto 8.399e-20 8.399e-20 -19.076 -19.076 0.000 (0) I 1.819e-20 I- 1.819e-20 1.819e-20 -19.740 -19.740 -0.000 (0) K 1.540e-03 @@ -176215,8 +176171,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.637e-23 - Nat+ 4.637e-23 4.637e-23 -22.334 -22.334 -0.000 (0) +Nat 1.604e-23 + Nat+ 1.604e-23 1.604e-23 -22.795 -22.795 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.519 -70.482 0.036 30.40 S(-2) 6.081e-08 @@ -176298,7 +176254,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -176309,12 +176265,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 1.1826e-21 + Hto 6.1934e-22 I 1.1849e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.1673e-25 + Nat 1.9245e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -176333,12 +176289,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.002e-20 1.181e-21 + Hto 5.249e-21 6.183e-22 I 1.006e-21 1.185e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.390e-24 1.637e-25 + Nat 3.275e-25 3.858e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -176397,8 +176353,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.049e-11 H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 1.002e-20 - Hto 1.002e-20 1.002e-20 -19.999 -19.999 0.000 (0) +Hto 5.249e-21 + Hto 5.249e-21 5.249e-21 -20.280 -20.280 0.000 (0) I 1.006e-21 I- 1.006e-21 1.006e-21 -20.998 -20.998 -0.000 (0) K 1.540e-03 @@ -176416,8 +176372,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.390e-24 - Nat+ 1.390e-24 1.390e-24 -23.857 -23.857 -0.000 (0) +Nat 3.275e-25 + Nat+ 3.275e-25 3.275e-25 -24.485 -24.485 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.519 -70.482 0.036 30.40 S(-2) 6.081e-08 @@ -176499,7 +176455,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -176510,8 +176466,8 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 7.3488e-23 - I 6.1243e-36 + Hto 3.6794e-23 + I 6.1258e-36 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -176533,7 +176489,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.228e-22 7.337e-23 + Hto 3.118e-22 3.674e-23 I 5.199e-23 6.124e-24 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -176596,8 +176552,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.049e-11 H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 6.228e-22 - Hto 6.228e-22 6.228e-22 -21.206 -21.206 0.000 (0) +Hto 3.118e-22 + Hto 3.118e-22 3.118e-22 -21.506 -21.506 0.000 (0) I 5.199e-23 I- 5.199e-23 5.199e-23 -22.284 -22.284 -0.000 (0) K 1.540e-03 @@ -176985,30 +176941,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.297e-07 2.648e-07 + Hto 5.351e-07 2.676e-07 I 7.089e-07 3.544e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.970e-07 1.485e-07 + Nat 3.043e-07 1.521e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.044 Adjusted to redox equilibrium + pe = -3.043 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.768e-13 + Electrical balance (eq) = -3.236e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -177022,8 +176978,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.720e-12 - CH4 2.720e-12 2.958e-12 -11.565 -11.529 0.036 35.46 +C(-4) 2.666e-12 + CH4 2.666e-12 2.899e-12 -11.574 -11.538 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -177033,7 +176989,7 @@ C(4) 2.744e-03 CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.379e-06 8.600e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.379e-06 8.600e-07 -5.471 -6.066 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 @@ -177047,10 +177003,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.054e-11 - H2 5.269e-12 5.729e-12 -11.278 -11.242 0.036 28.61 -Hto 5.297e-07 - Hto 5.297e-07 5.297e-07 -6.276 -6.276 0.000 (0) +H(0) 1.049e-11 + H2 5.243e-12 5.700e-12 -11.280 -11.244 0.036 28.61 +Hto 5.351e-07 + Hto 5.351e-07 5.351e-07 -6.272 -6.272 0.000 (0) I 7.089e-07 I- 7.089e-07 7.089e-07 -6.149 -6.149 -0.000 (0) K 1.540e-03 @@ -177068,15 +177024,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.970e-07 - Nat+ 2.970e-07 2.970e-07 -6.527 -6.527 -0.000 (0) +Nat 3.043e-07 + Nat+ 3.043e-07 3.043e-07 -6.517 -6.517 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.941 -69.905 0.036 30.40 -S(-2) 4.264e-09 - HS- 2.982e-09 1.963e-09 -8.526 -8.707 -0.182 21.14 - H2S 1.283e-09 1.395e-09 -8.892 -8.856 0.036 36.27 - S-2 1.210e-14 2.917e-15 -13.917 -14.535 -0.618 (0) - (H2S)2 9.428e-20 1.025e-19 -19.026 -18.989 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.937 -69.901 0.036 30.40 +S(-2) 4.180e-09 + HS- 2.922e-09 1.924e-09 -8.534 -8.716 -0.182 21.14 + H2S 1.257e-09 1.367e-09 -8.901 -8.864 0.036 36.27 + S-2 1.186e-14 2.859e-15 -13.926 -14.544 -0.618 (0) + (H2S)2 9.057e-20 9.847e-20 -19.043 -19.007 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -177092,7 +177048,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 - SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) + SrOH+ 1.153e-10 8.077e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -177103,21 +177059,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.73 -11.53 -2.80 CH4 + CH4(g) -8.74 -11.54 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.14 -11.24 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.86 -15.80 -7.94 H2S + H2S(g) -7.87 -15.81 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.01 -69.90 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.65 -0.76 4.88 S + Sulfur -5.65 -0.77 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -177141,7 +177097,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.007e-14 Surface + diffuse layer charge, eq + -4.824e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -177151,7 +177107,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -177160,14 +177116,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6651e-10 + Cl 4.6652e-10 H 1.2948e-04 - Hto 5.4426e-08 + Hto 5.4751e-08 I 7.2898e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5670e-07 + Nat 1.5950e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -177186,12 +177142,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.612e-07 5.434e-08 + Hto 4.640e-07 5.466e-08 I 6.188e-07 7.290e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.666e-07 3.141e-08 + Nat 2.714e-07 3.197e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -177202,14 +177158,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.679e-09 + Electrical balance (eq) = 1.670e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -177223,8 +177179,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 7.774e-12 - CH4 7.774e-12 8.453e-12 -11.109 -11.073 0.036 35.46 +C(-4) 7.719e-12 + CH4 7.719e-12 8.392e-12 -11.112 -11.076 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -177248,10 +177204,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.370e-11 - H2 6.852e-12 7.449e-12 -11.164 -11.128 0.036 28.61 -Hto 4.612e-07 - Hto 4.612e-07 4.612e-07 -6.336 -6.336 0.000 (0) +H(0) 1.368e-11 + H2 6.839e-12 7.436e-12 -11.165 -11.129 0.036 28.61 +Hto 4.640e-07 + Hto 4.640e-07 4.640e-07 -6.333 -6.333 0.000 (0) I 6.188e-07 I- 6.188e-07 6.188e-07 -6.208 -6.208 -0.000 (0) K 1.540e-03 @@ -177269,15 +177225,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.666e-07 - Nat+ 2.666e-07 2.666e-07 -6.574 -6.574 -0.000 (0) +Nat 2.714e-07 + Nat+ 2.714e-07 2.714e-07 -6.566 -6.566 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.169 -70.133 0.036 30.40 -S(-2) 1.219e-08 - HS- 8.521e-09 5.609e-09 -8.070 -8.251 -0.182 21.14 - H2S 3.666e-09 3.985e-09 -8.436 -8.400 0.036 36.27 - S-2 3.459e-14 8.338e-15 -13.461 -14.079 -0.618 (0) - (H2S)2 7.698e-19 8.369e-19 -18.114 -18.077 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.168 -70.131 0.036 30.40 +S(-2) 1.210e-08 + HS- 8.460e-09 5.569e-09 -8.073 -8.254 -0.182 21.14 + H2S 3.639e-09 3.957e-09 -8.439 -8.403 0.036 36.27 + S-2 3.434e-14 8.278e-15 -13.464 -14.082 -0.618 (0) + (H2S)2 7.588e-19 8.250e-19 -18.120 -18.084 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -177304,7 +177260,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.27 -11.07 -2.80 CH4 + CH4(g) -8.27 -11.08 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -177318,7 +177274,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.24 -70.13 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.30 -0.42 4.88 S + Sulfur -5.31 -0.42 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -177342,7 +177298,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.468e-11 Surface + diffuse layer charge, eq + -9.467e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -177352,7 +177308,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -177363,12 +177319,12 @@ Su Ca 7.1884e-02 Cl 4.6616e-10 H 1.2949e-04 - Hto 3.4257e-08 - I 4.2246e-20 + Hto 3.3930e-08 + I 4.2233e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.7130e-08 + Nat 8.5477e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -177387,12 +177343,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.903e-07 3.420e-08 + Hto 2.875e-07 3.388e-08 I 3.585e-07 4.224e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.483e-07 1.747e-08 + Nat 1.454e-07 1.714e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -177410,7 +177366,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.854e-09 + Electrical balance (eq) = 2.821e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -177424,8 +177380,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.120e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.671e-11 - CH4 2.671e-11 2.904e-11 -10.573 -10.537 0.036 35.46 +C(-4) 2.677e-11 + CH4 2.677e-11 2.911e-11 -10.572 -10.536 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -177449,10 +177405,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.866e-11 - H2 9.330e-12 1.014e-11 -11.030 -10.994 0.036 28.61 -Hto 2.903e-07 - Hto 2.903e-07 2.903e-07 -6.537 -6.537 0.000 (0) +H(0) 1.867e-11 + H2 9.335e-12 1.015e-11 -11.030 -10.994 0.036 28.61 +Hto 2.875e-07 + Hto 2.875e-07 2.875e-07 -6.541 -6.541 0.000 (0) I 3.585e-07 I- 3.585e-07 3.585e-07 -6.445 -6.445 -0.000 (0) K 1.540e-03 @@ -177470,15 +177426,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.483e-07 - Nat+ 1.483e-07 1.483e-07 -6.829 -6.829 -0.000 (0) +Nat 1.454e-07 + Nat+ 1.454e-07 1.454e-07 -6.837 -6.837 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.437 -70.401 0.036 30.40 -S(-2) 4.185e-08 - HS- 2.927e-08 1.927e-08 -7.534 -7.715 -0.182 21.14 - H2S 1.258e-08 1.368e-08 -7.900 -7.864 0.036 36.27 - S-2 1.189e-13 2.866e-14 -12.925 -13.543 -0.618 (0) - (H2S)2 9.068e-18 9.859e-18 -17.042 -17.006 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.438 -70.402 0.036 30.40 +S(-2) 4.195e-08 + HS- 2.934e-08 1.932e-08 -7.533 -7.714 -0.182 21.14 + H2S 1.261e-08 1.371e-08 -7.899 -7.863 0.036 36.27 + S-2 1.192e-13 2.873e-14 -12.924 -13.542 -0.618 (0) + (H2S)2 9.113e-18 9.908e-18 -17.040 -17.004 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -177505,14 +177461,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.74 -10.54 -2.80 CH4 + CH4(g) -7.73 -10.54 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.89 -10.99 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.87 -14.81 -7.94 H2S + H2S(g) -6.87 -14.80 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -177553,7 +177509,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -177564,12 +177520,12 @@ Su Ca 7.1884e-02 Cl 4.6602e-10 H 1.2950e-04 - Hto 1.7659e-08 - I 1.9717e-20 + Hto 1.7106e-08 + I 1.9720e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5022e-08 + Nat 3.2684e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -177588,12 +177544,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.497e-07 1.763e-08 + Hto 1.450e-07 1.708e-08 I 1.674e-07 1.972e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.959e-08 7.021e-09 + Nat 5.562e-08 6.552e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -177625,8 +177581,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.479e-11 - CH4 3.479e-11 3.783e-11 -10.459 -10.422 0.036 35.46 +C(-4) 3.485e-11 + CH4 3.485e-11 3.789e-11 -10.458 -10.421 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -177651,9 +177607,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 1.994e-11 - H2 9.968e-12 1.084e-11 -11.001 -10.965 0.036 28.61 -Hto 1.497e-07 - Hto 1.497e-07 1.497e-07 -6.825 -6.825 0.000 (0) + H2 9.972e-12 1.084e-11 -11.001 -10.965 0.036 28.61 +Hto 1.450e-07 + Hto 1.450e-07 1.450e-07 -6.839 -6.839 0.000 (0) I 1.674e-07 I- 1.674e-07 1.674e-07 -6.776 -6.776 -0.000 (0) K 1.540e-03 @@ -177666,20 +177622,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 - MgOH+ 2.899e-07 2.128e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.900e-07 2.128e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.959e-08 - Nat+ 5.959e-08 5.959e-08 -7.225 -7.225 -0.000 (0) +Nat 5.562e-08 + Nat+ 5.562e-08 5.562e-08 -7.255 -7.255 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.495 -70.459 0.036 30.40 -S(-2) 5.451e-08 - HS- 3.813e-08 2.510e-08 -7.419 -7.600 -0.182 21.14 - H2S 1.638e-08 1.781e-08 -7.786 -7.749 0.036 36.27 - S-2 1.549e-13 3.735e-14 -12.810 -13.428 -0.618 (0) - (H2S)2 1.538e-17 1.672e-17 -16.813 -16.777 0.036 30.09 +S(-2) 5.460e-08 + HS- 3.819e-08 2.514e-08 -7.418 -7.600 -0.182 21.14 + H2S 1.641e-08 1.784e-08 -7.785 -7.749 0.036 36.27 + S-2 1.552e-13 3.741e-14 -12.809 -13.427 -0.618 (0) + (H2S)2 1.543e-17 1.678e-17 -16.812 -16.775 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -177711,7 +177667,7 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -7.86 -10.97 -3.10 H2 + H2(g) -7.86 -10.96 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O H2S(g) -6.75 -14.69 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl @@ -177754,7 +177710,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -177765,12 +177721,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 7.5360e-09 + Hto 7.1034e-09 I 7.5125e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0737e-08 + Nat 9.4682e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -177789,12 +177745,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.386e-08 7.524e-09 + Hto 6.020e-08 7.092e-09 I 6.377e-08 7.512e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.827e-08 2.152e-09 + Nat 1.611e-08 1.898e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -177826,8 +177782,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.806e-11 - CH4 3.806e-11 4.138e-11 -10.419 -10.383 0.036 35.46 +C(-4) 3.810e-11 + CH4 3.810e-11 4.142e-11 -10.419 -10.383 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -177852,9 +177808,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.039e-11 - H2 1.019e-11 1.108e-11 -10.992 -10.955 0.036 28.61 -Hto 6.386e-08 - Hto 6.386e-08 6.386e-08 -7.195 -7.195 0.000 (0) + H2 1.020e-11 1.109e-11 -10.992 -10.955 0.036 28.61 +Hto 6.020e-08 + Hto 6.020e-08 6.020e-08 -7.220 -7.220 0.000 (0) I 6.377e-08 I- 6.377e-08 6.377e-08 -7.195 -7.195 -0.000 (0) K 1.540e-03 @@ -177872,15 +177828,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.827e-08 - Nat+ 1.827e-08 1.827e-08 -7.738 -7.738 -0.000 (0) +Nat 1.611e-08 + Nat+ 1.611e-08 1.611e-08 -7.793 -7.793 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.514 -70.478 0.036 30.40 -S(-2) 5.963e-08 - HS- 4.171e-08 2.746e-08 -7.380 -7.561 -0.182 21.14 - H2S 1.792e-08 1.949e-08 -7.747 -7.710 0.036 36.27 - S-2 1.695e-13 4.086e-14 -12.771 -13.389 -0.618 (0) - (H2S)2 1.840e-17 2.001e-17 -16.735 -16.699 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.515 -70.478 0.036 30.40 +S(-2) 5.968e-08 + HS- 4.175e-08 2.748e-08 -7.379 -7.561 -0.182 21.14 + H2S 1.794e-08 1.950e-08 -7.746 -7.710 0.036 36.27 + S-2 1.697e-13 4.090e-14 -12.770 -13.388 -0.618 (0) + (H2S)2 1.843e-17 2.004e-17 -16.734 -16.698 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -177955,7 +177911,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -177966,12 +177922,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 2.6978e-09 - I 2.3740e-21 + Hto 2.4653e-09 + I 2.3744e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6155e-09 + Nat 2.1712e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -177990,12 +177946,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.286e-08 2.693e-09 + Hto 2.089e-08 2.461e-09 I 2.015e-08 2.374e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.451e-09 5.243e-10 + Nat 3.694e-09 4.352e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -178027,8 +177983,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.923e-11 - CH4 3.923e-11 4.265e-11 -10.406 -10.370 0.036 35.46 +C(-4) 3.925e-11 + CH4 3.925e-11 4.267e-11 -10.406 -10.370 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -178052,10 +178008,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.054e-11 +H(0) 2.055e-11 H2 1.027e-11 1.117e-11 -10.988 -10.952 0.036 28.61 -Hto 2.286e-08 - Hto 2.286e-08 2.286e-08 -7.641 -7.641 0.000 (0) +Hto 2.089e-08 + Hto 2.089e-08 2.089e-08 -7.680 -7.680 0.000 (0) I 2.015e-08 I- 2.015e-08 2.015e-08 -7.696 -7.696 -0.000 (0) K 1.540e-03 @@ -178073,15 +178029,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.451e-09 - Nat+ 4.451e-09 4.451e-09 -8.352 -8.352 -0.000 (0) +Nat 3.694e-09 + Nat+ 3.694e-09 3.694e-09 -8.432 -8.432 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.521 -70.485 0.036 30.40 -S(-2) 6.146e-08 - HS- 4.299e-08 2.830e-08 -7.367 -7.548 -0.182 21.14 - H2S 1.847e-08 2.008e-08 -7.734 -7.697 0.036 36.27 - S-2 1.747e-13 4.212e-14 -12.758 -13.376 -0.618 (0) - (H2S)2 1.955e-17 2.125e-17 -16.709 -16.673 0.036 30.09 +S(-2) 6.149e-08 + HS- 4.301e-08 2.831e-08 -7.366 -7.548 -0.182 21.14 + H2S 1.848e-08 2.009e-08 -7.733 -7.697 0.036 36.27 + S-2 1.748e-13 4.214e-14 -12.757 -13.375 -0.618 (0) + (H2S)2 1.956e-17 2.127e-17 -16.709 -16.672 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -178156,7 +178112,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -178167,12 +178123,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 8.2063e-10 - I 6.3217e-22 + Hto 7.2510e-10 + I 6.3197e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.2177e-10 + Nat 4.0683e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -178191,12 +178147,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.955e-09 8.193e-10 + Hto 6.145e-09 7.239e-10 I 5.364e-09 6.319e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.879e-10 1.046e-10 + Nat 6.923e-10 8.156e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -178228,8 +178184,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.952e-11 - CH4 3.952e-11 4.297e-11 -10.403 -10.367 0.036 35.46 +C(-4) 3.953e-11 + CH4 3.953e-11 4.298e-11 -10.403 -10.367 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -178255,8 +178211,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.058e-11 H2 1.029e-11 1.119e-11 -10.988 -10.951 0.036 28.61 -Hto 6.955e-09 - Hto 6.955e-09 6.955e-09 -8.158 -8.158 0.000 (0) +Hto 6.145e-09 + Hto 6.145e-09 6.145e-09 -8.211 -8.211 0.000 (0) I 5.364e-09 I- 5.364e-09 5.364e-09 -8.271 -8.271 -0.000 (0) K 1.540e-03 @@ -178274,15 +178230,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.879e-10 - Nat+ 8.879e-10 8.879e-10 -9.052 -9.052 -0.000 (0) +Nat 6.923e-10 + Nat+ 6.923e-10 6.923e-10 -9.160 -9.160 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.523 -70.486 0.036 30.40 -S(-2) 6.191e-08 - HS- 4.331e-08 2.851e-08 -7.363 -7.545 -0.182 21.14 +S(-2) 6.193e-08 + HS- 4.332e-08 2.852e-08 -7.363 -7.545 -0.182 21.14 H2S 1.861e-08 2.023e-08 -7.730 -7.694 0.036 36.27 - S-2 1.760e-13 4.243e-14 -12.754 -13.372 -0.618 (0) - (H2S)2 1.983e-17 2.156e-17 -16.703 -16.666 0.036 30.09 + S-2 1.761e-13 4.244e-14 -12.754 -13.372 -0.618 (0) + (H2S)2 1.984e-17 2.158e-17 -16.702 -16.666 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -178309,7 +178265,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.57 -10.37 -2.80 CH4 + CH4(g) -7.56 -10.37 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -178357,7 +178313,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -178368,12 +178324,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 2.1461e-10 + Hto 1.8299e-10 I 1.4370e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.7197e-11 + Nat 6.3772e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -178392,12 +178348,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.819e-09 2.143e-10 + Hto 1.551e-09 1.827e-10 I 1.220e-09 1.437e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.484e-10 1.748e-11 + Nat 1.085e-10 1.278e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -178429,8 +178385,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.943e-11 - CH4 3.943e-11 4.287e-11 -10.404 -10.368 0.036 35.46 +C(-4) 3.944e-11 + CH4 3.944e-11 4.288e-11 -10.404 -10.368 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -178456,8 +178412,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.057e-11 H2 1.029e-11 1.118e-11 -10.988 -10.951 0.036 28.61 -Hto 1.819e-09 - Hto 1.819e-09 1.819e-09 -8.740 -8.740 0.000 (0) +Hto 1.551e-09 + Hto 1.551e-09 1.551e-09 -8.809 -8.809 0.000 (0) I 1.220e-09 I- 1.220e-09 1.220e-09 -8.914 -8.914 -0.000 (0) K 1.540e-03 @@ -178475,15 +178431,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.484e-10 - Nat+ 1.484e-10 1.484e-10 -9.829 -9.829 -0.000 (0) +Nat 1.085e-10 + Nat+ 1.085e-10 1.085e-10 -9.965 -9.965 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.522 -70.486 0.036 30.40 -S(-2) 6.177e-08 - HS- 4.321e-08 2.844e-08 -7.364 -7.546 -0.182 21.14 - H2S 1.856e-08 2.018e-08 -7.731 -7.695 0.036 36.27 - S-2 1.756e-13 4.233e-14 -12.755 -13.373 -0.618 (0) - (H2S)2 1.975e-17 2.147e-17 -16.705 -16.668 0.036 30.09 +S(-2) 6.178e-08 + HS- 4.322e-08 2.845e-08 -7.364 -7.546 -0.182 21.14 + H2S 1.857e-08 2.019e-08 -7.731 -7.695 0.036 36.27 + S-2 1.756e-13 4.234e-14 -12.755 -13.373 -0.618 (0) + (H2S)2 1.975e-17 2.147e-17 -16.704 -16.668 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -178548,7 +178504,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.756e-11 Surface + diffuse layer charge, eq + -9.760e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -178558,7 +178514,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -178569,12 +178525,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 4.8739e-11 - I 2.8224e-23 + Hto 4.0047e-11 + I 2.8231e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2420e-11 + Nat 8.5126e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -178593,12 +178549,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.130e-10 4.866e-11 + Hto 3.394e-10 3.998e-11 I 2.396e-10 2.823e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.113e-11 2.490e-12 + Nat 1.449e-11 1.706e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -178616,8 +178572,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.282e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 2.743e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -178657,8 +178613,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.054e-11 H2 1.027e-11 1.117e-11 -10.988 -10.952 0.036 28.61 -Hto 4.130e-10 - Hto 4.130e-10 4.130e-10 -9.384 -9.384 0.000 (0) +Hto 3.394e-10 + Hto 3.394e-10 3.394e-10 -9.469 -9.469 0.000 (0) I 2.396e-10 I- 2.396e-10 2.396e-10 -9.621 -9.621 -0.000 (0) K 1.540e-03 @@ -178676,13 +178632,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.113e-11 - Nat+ 2.113e-11 2.113e-11 -10.675 -10.675 -0.000 (0) +Nat 1.449e-11 + Nat+ 1.449e-11 1.449e-11 -10.839 -10.839 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.521 -70.485 0.036 30.40 S(-2) 6.142e-08 - HS- 4.296e-08 2.828e-08 -7.367 -7.549 -0.182 21.14 - H2S 1.846e-08 2.007e-08 -7.734 -7.698 0.036 36.27 + HS- 4.296e-08 2.828e-08 -7.367 -7.548 -0.182 21.14 + H2S 1.846e-08 2.007e-08 -7.734 -7.697 0.036 36.27 S-2 1.746e-13 4.209e-14 -12.758 -13.376 -0.618 (0) (H2S)2 1.952e-17 2.122e-17 -16.710 -16.673 0.036 30.09 S(6) 1.260e-02 @@ -178749,7 +178705,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.748e-11 Surface + diffuse layer charge, eq + -9.749e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -178759,7 +178715,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -178770,12 +178726,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 9.6963e-12 - I 4.8395e-24 + Hto 7.6690e-12 + I 4.8387e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5284e-12 + Nat 9.8102e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -178794,12 +178750,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.217e-11 9.681e-12 + Hto 6.499e-11 7.657e-12 I 4.107e-11 4.839e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.601e-12 3.064e-13 + Nat 1.669e-12 1.967e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -178817,7 +178773,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.230e-09 + Electrical balance (eq) = -1.315e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -178831,8 +178787,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.901e-11 - CH4 3.901e-11 4.241e-11 -10.409 -10.373 0.036 35.46 +C(-4) 3.900e-11 + CH4 3.900e-11 4.241e-11 -10.409 -10.373 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -178858,8 +178814,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.051e-11 H2 1.026e-11 1.115e-11 -10.989 -10.953 0.036 28.61 -Hto 8.217e-11 - Hto 8.217e-11 8.217e-11 -10.085 -10.085 0.000 (0) +Hto 6.499e-11 + Hto 6.499e-11 6.499e-11 -10.187 -10.187 0.000 (0) I 4.107e-11 I- 4.107e-11 4.107e-11 -10.386 -10.386 -0.000 (0) K 1.540e-03 @@ -178877,8 +178833,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.601e-12 - Nat+ 2.601e-12 2.601e-12 -11.585 -11.585 -0.000 (0) +Nat 1.669e-12 + Nat+ 1.669e-12 1.669e-12 -11.777 -11.777 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.520 -70.483 0.036 30.40 S(-2) 6.111e-08 @@ -178960,7 +178916,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -178971,12 +178927,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 1.7022e-12 + Hto 1.2948e-12 I 7.2964e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6421e-13 + Nat 9.8669e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -178995,12 +178951,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.443e-11 1.699e-12 + Hto 1.097e-11 1.293e-12 I 6.194e-12 7.297e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.794e-13 3.292e-14 + Nat 1.679e-13 1.978e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -179018,7 +178974,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.686e-09 + Electrical balance (eq) = -1.688e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -179059,8 +179015,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.050e-11 H2 1.025e-11 1.115e-11 -10.989 -10.953 0.036 28.61 -Hto 1.443e-11 - Hto 1.443e-11 1.443e-11 -10.841 -10.841 0.000 (0) +Hto 1.097e-11 + Hto 1.097e-11 1.097e-11 -10.960 -10.960 0.000 (0) I 6.194e-12 I- 6.194e-12 6.194e-12 -11.208 -11.208 -0.000 (0) K 1.540e-03 @@ -179078,13 +179034,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.794e-13 - Nat+ 2.794e-13 2.794e-13 -12.554 -12.554 -0.000 (0) +Nat 1.679e-13 + Nat+ 1.679e-13 1.679e-13 -12.775 -12.775 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.519 -70.483 0.036 30.40 S(-2) 6.098e-08 HS- 4.265e-08 2.808e-08 -7.370 -7.552 -0.182 21.14 - H2S 1.833e-08 1.993e-08 -7.737 -7.701 0.036 36.27 + H2S 1.833e-08 1.992e-08 -7.737 -7.701 0.036 36.27 S-2 1.734e-13 4.179e-14 -12.761 -13.379 -0.618 (0) (H2S)2 1.924e-17 2.092e-17 -16.716 -16.679 0.036 30.09 S(6) 1.260e-02 @@ -179161,7 +179117,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -179172,12 +179128,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 2.6530e-13 + Hto 1.9396e-13 I 9.7453e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5536e-14 + Nat 8.7362e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -179196,12 +179152,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.248e-12 2.649e-13 + Hto 1.644e-12 1.937e-13 I 8.272e-13 9.745e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.644e-14 3.115e-15 + Nat 1.487e-14 1.751e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -179233,8 +179189,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.898e-11 - CH4 3.898e-11 4.238e-11 -10.409 -10.373 0.036 35.46 +C(-4) 3.897e-11 + CH4 3.897e-11 4.237e-11 -10.409 -10.373 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -179260,8 +179216,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) H(0) 2.051e-11 H2 1.026e-11 1.115e-11 -10.989 -10.953 0.036 28.61 -Hto 2.248e-12 - Hto 2.248e-12 2.248e-12 -11.648 -11.648 0.000 (0) +Hto 1.644e-12 + Hto 1.644e-12 1.644e-12 -11.784 -11.784 0.000 (0) I 8.272e-13 I- 8.272e-13 8.272e-13 -12.082 -12.082 -0.000 (0) K 1.540e-03 @@ -179279,15 +179235,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.644e-14 - Nat+ 2.644e-14 2.644e-14 -13.578 -13.578 -0.000 (0) +Nat 1.487e-14 + Nat+ 1.487e-14 1.487e-14 -13.828 -13.828 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.520 -70.483 0.036 30.40 -S(-2) 6.107e-08 +S(-2) 6.106e-08 HS- 4.271e-08 2.812e-08 -7.369 -7.551 -0.182 21.14 H2S 1.835e-08 1.995e-08 -7.736 -7.700 0.036 36.27 - S-2 1.736e-13 4.185e-14 -12.760 -13.378 -0.618 (0) - (H2S)2 1.930e-17 2.098e-17 -16.715 -16.678 0.036 30.09 + S-2 1.736e-13 4.184e-14 -12.760 -13.378 -0.618 (0) + (H2S)2 1.929e-17 2.098e-17 -16.715 -16.678 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -179352,7 +179308,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.751e-11 Surface + diffuse layer charge, eq + -9.750e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -179362,7 +179318,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -179373,12 +179329,12 @@ Su Ca 7.1884e-02 Cl 4.6595e-10 H 1.2950e-04 - Hto 3.6901e-14 + Hto 2.5917e-14 I 1.1592e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3034e-15 + Nat 6.8569e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -179397,12 +179353,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.127e-13 3.684e-14 + Hto 2.196e-13 2.588e-14 I 9.840e-14 1.159e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.218e-15 2.613e-16 + Nat 1.167e-15 1.375e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -179420,7 +179376,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.092e-10 + Electrical balance (eq) = -3.766e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -179434,8 +179390,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.918e-11 - CH4 3.918e-11 4.259e-11 -10.407 -10.371 0.036 35.46 +C(-4) 3.917e-11 + CH4 3.917e-11 4.259e-11 -10.407 -10.371 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -179460,9 +179416,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.054e-11 - H2 1.027e-11 1.116e-11 -10.988 -10.952 0.036 28.61 -Hto 3.127e-13 - Hto 3.127e-13 3.127e-13 -12.505 -12.505 0.000 (0) + H2 1.027e-11 1.116e-11 -10.989 -10.952 0.036 28.61 +Hto 2.196e-13 + Hto 2.196e-13 2.196e-13 -12.658 -12.658 0.000 (0) I 9.840e-14 I- 9.840e-14 9.840e-14 -13.007 -13.007 -0.000 (0) K 1.540e-03 @@ -179480,13 +179436,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.218e-15 - Nat+ 2.218e-15 2.218e-15 -14.654 -14.654 -0.000 (0) +Nat 1.167e-15 + Nat+ 1.167e-15 1.167e-15 -14.933 -14.933 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.521 -70.484 0.036 30.40 -S(-2) 6.138e-08 +S(-2) 6.137e-08 HS- 4.293e-08 2.826e-08 -7.367 -7.549 -0.182 21.14 - H2S 1.845e-08 2.005e-08 -7.734 -7.698 0.036 36.27 + H2S 1.844e-08 2.005e-08 -7.734 -7.698 0.036 36.27 S-2 1.745e-13 4.206e-14 -12.758 -13.376 -0.618 (0) (H2S)2 1.949e-17 2.119e-17 -16.710 -16.674 0.036 30.09 S(6) 1.260e-02 @@ -179563,7 +179519,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -179574,12 +179530,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 4.6004e-15 - I 1.2340e-27 + Hto 3.1025e-15 + I 1.2338e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.7493e-17 + Nat 4.7977e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -179598,12 +179554,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.899e-14 4.593e-15 + Hto 2.629e-14 3.098e-15 I 1.047e-14 1.234e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.659e-16 1.954e-17 + Nat 8.164e-17 9.618e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -179662,8 +179618,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.057e-11 H2 1.029e-11 1.118e-11 -10.988 -10.951 0.036 28.61 -Hto 3.899e-14 - Hto 3.899e-14 3.899e-14 -13.409 -13.409 0.000 (0) +Hto 2.629e-14 + Hto 2.629e-14 2.629e-14 -13.580 -13.580 0.000 (0) I 1.047e-14 I- 1.047e-14 1.047e-14 -13.980 -13.980 -0.000 (0) K 1.540e-03 @@ -179681,15 +179637,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.659e-16 - Nat+ 1.659e-16 1.659e-16 -15.780 -15.780 -0.000 (0) +Nat 8.164e-17 + Nat+ 8.164e-17 8.164e-17 -16.088 -16.088 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.522 -70.486 0.036 30.40 S(-2) 6.182e-08 HS- 4.324e-08 2.847e-08 -7.364 -7.546 -0.182 21.14 H2S 1.858e-08 2.020e-08 -7.731 -7.695 0.036 36.27 - S-2 1.757e-13 4.236e-14 -12.755 -13.373 -0.618 (0) - (H2S)2 1.977e-17 2.150e-17 -16.704 -16.668 0.036 30.09 + S-2 1.758e-13 4.237e-14 -12.755 -13.373 -0.618 (0) + (H2S)2 1.978e-17 2.150e-17 -16.704 -16.668 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -179764,7 +179720,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -179775,12 +179731,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 5.1586e-16 + Hto 3.3395e-16 I 1.1798e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.5317e-18 + Nat 3.0063e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -179799,12 +179755,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.372e-15 5.150e-16 + Hto 2.830e-15 3.334e-16 I 1.001e-15 1.180e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.111e-17 1.309e-18 + Nat 5.116e-18 6.027e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -179863,8 +179819,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.060e-11 H2 1.030e-11 1.120e-11 -10.987 -10.951 0.036 28.61 -Hto 4.372e-15 - Hto 4.372e-15 4.372e-15 -14.359 -14.359 0.000 (0) +Hto 2.830e-15 + Hto 2.830e-15 2.830e-15 -14.548 -14.548 0.000 (0) I 1.001e-15 I- 1.001e-15 1.001e-15 -14.999 -14.999 -0.000 (0) K 1.540e-03 @@ -179882,15 +179838,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.111e-17 - Nat+ 1.111e-17 1.111e-17 -16.954 -16.954 -0.000 (0) +Nat 5.116e-18 + Nat+ 5.116e-18 5.116e-18 -17.291 -17.291 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.487 0.036 30.40 -S(-2) 6.216e-08 - HS- 4.348e-08 2.862e-08 -7.362 -7.543 -0.182 21.14 +S(-2) 6.217e-08 + HS- 4.348e-08 2.863e-08 -7.362 -7.543 -0.182 21.14 H2S 1.868e-08 2.031e-08 -7.729 -7.692 0.036 36.27 S-2 1.767e-13 4.260e-14 -12.753 -13.371 -0.618 (0) - (H2S)2 1.999e-17 2.174e-17 -16.699 -16.663 0.036 30.09 + (H2S)2 2.000e-17 2.174e-17 -16.699 -16.663 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -179965,7 +179921,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -179976,12 +179932,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 5.2182e-17 + Hto 3.2417e-17 I 1.0164e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9338e-19 + Nat 1.6932e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -180000,12 +179956,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.422e-16 5.210e-17 + Hto 2.747e-16 3.237e-17 I 8.627e-17 1.016e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.694e-19 7.886e-20 + Nat 2.881e-19 3.394e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -180064,8 +180020,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 4.422e-16 - Hto 4.422e-16 4.422e-16 -15.354 -15.354 0.000 (0) +Hto 2.747e-16 + Hto 2.747e-16 2.747e-16 -15.561 -15.561 0.000 (0) I 8.627e-17 I- 8.627e-17 8.627e-17 -16.064 -16.064 -0.000 (0) K 1.540e-03 @@ -180083,15 +180039,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.694e-19 - Nat+ 6.694e-19 6.694e-19 -18.174 -18.174 -0.000 (0) +Nat 2.881e-19 + Nat+ 2.881e-19 2.881e-19 -18.540 -18.540 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.488 0.036 30.40 -S(-2) 6.233e-08 - HS- 4.360e-08 2.870e-08 -7.361 -7.542 -0.182 21.14 +S(-2) 6.234e-08 + HS- 4.360e-08 2.870e-08 -7.360 -7.542 -0.182 21.14 H2S 1.873e-08 2.037e-08 -7.727 -7.691 0.036 36.27 S-2 1.772e-13 4.272e-14 -12.752 -13.369 -0.618 (0) - (H2S)2 2.010e-17 2.186e-17 -16.697 -16.660 0.036 30.09 + (H2S)2 2.011e-17 2.186e-17 -16.697 -16.660 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -180166,7 +180122,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -180177,12 +180133,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 4.7728e-18 + Hto 2.8447e-18 I 7.9108e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1360e-20 + Nat 8.5972e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -180201,12 +180157,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.045e-17 4.765e-18 + Hto 2.411e-17 2.840e-18 I 6.714e-18 7.910e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.635e-20 4.282e-21 + Nat 1.463e-20 1.723e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -180265,8 +180221,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 4.045e-17 - Hto 4.045e-17 4.045e-17 -16.393 -16.393 0.000 (0) +Hto 2.411e-17 + Hto 2.411e-17 2.411e-17 -16.618 -16.618 0.000 (0) I 6.714e-18 I- 6.714e-18 6.714e-18 -17.173 -17.173 -0.000 (0) K 1.540e-03 @@ -180284,8 +180240,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.635e-20 - Nat+ 3.635e-20 3.635e-20 -19.440 -19.440 -0.000 (0) +Nat 1.463e-20 + Nat+ 1.463e-20 1.463e-20 -19.835 -19.835 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.488 0.036 30.40 S(-2) 6.239e-08 @@ -180367,7 +180323,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -180378,12 +180334,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 3.9544e-19 + Hto 2.2607e-19 I 5.5720e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0479e-21 + Nat 3.9427e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -180402,12 +180358,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.351e-18 3.948e-19 + Hto 1.916e-18 2.257e-19 I 4.730e-19 5.572e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.783e-21 2.101e-22 + Nat 6.709e-22 7.904e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -180466,8 +180422,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 3.351e-18 - Hto 3.351e-18 3.351e-18 -17.475 -17.475 0.000 (0) +Hto 1.916e-18 + Hto 1.916e-18 1.916e-18 -17.718 -17.718 0.000 (0) I 4.730e-19 I- 4.730e-19 4.730e-19 -18.325 -18.325 -0.000 (0) K 1.540e-03 @@ -180485,8 +180441,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.783e-21 - Nat+ 1.783e-21 1.783e-21 -20.749 -20.749 -0.000 (0) +Nat 6.709e-22 + Nat+ 6.709e-22 6.709e-22 -21.173 -21.173 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.488 0.036 30.40 S(-2) 6.241e-08 @@ -180558,7 +180514,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -9.771e-11 Surface + diffuse layer charge, eq + -9.770e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -180568,7 +180524,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -180579,12 +180535,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 2.9717e-20 + Hto 1.6294e-20 I 3.5577e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6411e-23 + Nat 1.6214e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -180603,12 +180559,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.518e-19 2.967e-20 + Hto 1.381e-19 1.627e-20 I 3.020e-20 3.558e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.897e-23 9.304e-24 + Nat 2.759e-23 3.250e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -180667,8 +180623,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 2.518e-19 - Hto 2.518e-19 2.518e-19 -18.599 -18.599 0.000 (0) +Hto 1.381e-19 + Hto 1.381e-19 1.381e-19 -18.860 -18.860 0.000 (0) I 3.020e-20 I- 3.020e-20 3.020e-20 -19.520 -19.520 -0.000 (0) K 1.540e-03 @@ -180686,8 +180642,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.897e-23 - Nat+ 7.897e-23 7.897e-23 -22.103 -22.103 -0.000 (0) +Nat 2.759e-23 + Nat+ 2.759e-23 2.759e-23 -22.559 -22.559 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.488 0.036 30.40 S(-2) 6.241e-08 @@ -180769,7 +180725,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -180780,12 +180736,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 2.0277e-21 - I 2.0606e-34 + Hto 1.0660e-21 + I 2.0604e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6478e-24 + Nat 3.8780e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -180804,12 +180760,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.718e-20 2.024e-21 + Hto 9.034e-21 1.064e-21 I 1.749e-21 2.060e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.804e-24 3.303e-25 + Nat 6.599e-25 7.774e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -180868,8 +180824,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 1.718e-20 - Hto 1.718e-20 1.718e-20 -19.765 -19.765 0.000 (0) +Hto 9.034e-21 + Hto 9.034e-21 9.034e-21 -20.044 -20.044 0.000 (0) I 1.749e-21 I- 1.749e-21 1.749e-21 -20.757 -20.757 -0.000 (0) K 1.540e-03 @@ -180887,8 +180843,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.804e-24 - Nat+ 2.804e-24 2.804e-24 -23.552 -23.552 -0.000 (0) +Nat 6.599e-25 + Nat+ 6.599e-25 6.599e-25 -24.181 -24.181 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.524 -70.488 0.036 30.40 S(-2) 6.241e-08 @@ -180960,7 +180916,7 @@ Kinetics 23. Diffuse Double Layer Surface-Complexation Model Su - -9.771e-11 Surface + diffuse layer charge, eq + -9.770e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -180970,7 +180926,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -180981,8 +180937,8 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 1.3261e-22 - I 1.1272e-35 + Hto 6.6676e-23 + I 1.1269e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -181004,7 +180960,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.124e-21 1.324e-22 + Hto 5.651e-22 6.657e-23 I 9.566e-23 1.127e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -181067,8 +181023,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.062e-11 H2 1.031e-11 1.121e-11 -10.987 -10.950 0.036 28.61 -Hto 1.124e-21 - Hto 1.124e-21 1.124e-21 -20.949 -20.949 0.000 (0) +Hto 5.651e-22 + Hto 5.651e-22 5.651e-22 -21.248 -21.248 0.000 (0) I 9.566e-23 I- 9.566e-23 9.566e-23 -22.019 -22.019 -0.000 (0) K 1.540e-03 @@ -181456,30 +181412,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.263e-07 2.631e-07 + Hto 5.317e-07 2.658e-07 I 7.063e-07 3.532e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.942e-07 1.471e-07 + Nat 3.014e-07 1.507e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.047 Adjusted to redox equilibrium + pe = -3.046 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.787e-13 + Electrical balance (eq) = -3.256e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -181493,8 +181449,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.880e-12 - CH4 2.880e-12 3.131e-12 -11.541 -11.504 0.036 35.46 +C(-4) 2.823e-12 + CH4 2.823e-12 3.069e-12 -11.549 -11.513 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -181518,10 +181474,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.069e-11 - H2 5.345e-12 5.811e-12 -11.272 -11.236 0.036 28.61 -Hto 5.263e-07 - Hto 5.263e-07 5.263e-07 -6.279 -6.279 0.000 (0) +H(0) 1.064e-11 + H2 5.319e-12 5.782e-12 -11.274 -11.238 0.036 28.61 +Hto 5.317e-07 + Hto 5.317e-07 5.317e-07 -6.274 -6.274 0.000 (0) I 7.063e-07 I- 7.063e-07 7.063e-07 -6.151 -6.151 -0.000 (0) K 1.540e-03 @@ -181539,15 +181495,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.942e-07 - Nat+ 2.942e-07 2.942e-07 -6.531 -6.531 -0.000 (0) +Nat 3.014e-07 + Nat+ 3.014e-07 3.014e-07 -6.521 -6.521 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.954 -69.917 0.036 30.40 -S(-2) 4.515e-09 - HS- 3.156e-09 2.078e-09 -8.501 -8.682 -0.182 21.14 - H2S 1.358e-09 1.477e-09 -8.867 -8.831 0.036 36.27 - S-2 1.281e-14 3.088e-15 -13.892 -14.510 -0.618 (0) - (H2S)2 1.057e-19 1.149e-19 -18.976 -18.940 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.949 -69.913 0.036 30.40 +S(-2) 4.425e-09 + HS- 3.094e-09 2.037e-09 -8.509 -8.691 -0.182 21.14 + H2S 1.331e-09 1.447e-09 -8.876 -8.839 0.036 36.27 + S-2 1.256e-14 3.027e-15 -13.901 -14.519 -0.618 (0) + (H2S)2 1.015e-19 1.104e-19 -18.993 -18.957 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -181574,19 +181530,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.70 -11.50 -2.80 CH4 + CH4(g) -8.71 -11.51 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.13 -11.24 -3.10 H2 + H2(g) -8.14 -11.24 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.84 -15.77 -7.94 H2S + H2S(g) -7.84 -15.78 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.02 -69.92 -2.89 O2 + O2(g) -67.02 -69.91 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.63 -0.75 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -181612,7 +181568,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.902e-14 Surface + diffuse layer charge, eq + -4.807e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -181622,7 +181578,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -181633,12 +181589,12 @@ Su Ca 7.1884e-02 Cl 4.6651e-10 H 1.2948e-04 - Hto 5.4212e-08 + Hto 5.4544e-08 I 7.2792e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5559e-07 + Nat 1.5842e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -181657,12 +181613,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.594e-07 5.413e-08 + Hto 4.622e-07 5.446e-08 I 6.179e-07 7.279e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.648e-07 3.119e-08 + Nat 2.696e-07 3.176e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -181673,14 +181629,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.679e-09 + Electrical balance (eq) = 1.670e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -181694,8 +181650,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.051e-12 - CH4 8.051e-12 8.753e-12 -11.094 -11.058 0.036 35.46 +C(-4) 7.994e-12 + CH4 7.994e-12 8.691e-12 -11.097 -11.061 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -181719,10 +181675,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.382e-11 - H2 6.912e-12 7.515e-12 -11.160 -11.124 0.036 28.61 -Hto 4.594e-07 - Hto 4.594e-07 4.594e-07 -6.338 -6.338 0.000 (0) +H(0) 1.380e-11 + H2 6.900e-12 7.501e-12 -11.161 -11.125 0.036 28.61 +Hto 4.622e-07 + Hto 4.622e-07 4.622e-07 -6.335 -6.335 0.000 (0) I 6.179e-07 I- 6.179e-07 6.179e-07 -6.209 -6.209 -0.000 (0) K 1.540e-03 @@ -181740,15 +181696,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.648e-07 - Nat+ 2.648e-07 2.648e-07 -6.577 -6.577 -0.000 (0) +Nat 2.696e-07 + Nat+ 2.696e-07 2.696e-07 -6.569 -6.569 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.177 -70.141 0.036 30.40 -S(-2) 1.262e-08 - HS- 8.824e-09 5.809e-09 -8.054 -8.236 -0.182 21.14 - H2S 3.796e-09 4.127e-09 -8.421 -8.384 0.036 36.27 - S-2 3.582e-14 8.634e-15 -13.446 -14.064 -0.618 (0) - (H2S)2 8.255e-19 8.975e-19 -18.083 -18.047 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.175 -70.139 0.036 30.40 +S(-2) 1.253e-08 + HS- 8.761e-09 5.768e-09 -8.057 -8.239 -0.182 21.14 + H2S 3.769e-09 4.098e-09 -8.424 -8.387 0.036 36.27 + S-2 3.557e-14 8.573e-15 -13.449 -14.067 -0.618 (0) + (H2S)2 8.138e-19 8.848e-19 -18.089 -18.053 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -181813,7 +181769,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.484e-11 Surface + diffuse layer charge, eq + -9.483e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -181823,7 +181779,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -181834,12 +181790,12 @@ Su Ca 7.1884e-02 Cl 4.6615e-10 H 1.2949e-04 - Hto 3.4447e-08 + Hto 3.4135e-08 I 4.2623e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.7696e-08 + Nat 8.6124e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -181858,12 +181814,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.919e-07 3.439e-08 + Hto 2.893e-07 3.408e-08 I 3.617e-07 4.261e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.492e-07 1.758e-08 + Nat 1.465e-07 1.726e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -181881,7 +181837,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.760e-09 + Electrical balance (eq) = 2.726e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -181895,8 +181851,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.729e-11 - CH4 2.729e-11 2.967e-11 -10.564 -10.528 0.036 35.46 +C(-4) 2.736e-11 + CH4 2.736e-11 2.975e-11 -10.563 -10.527 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -181920,10 +181876,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.876e-11 - H2 9.380e-12 1.020e-11 -11.028 -10.991 0.036 28.61 -Hto 2.919e-07 - Hto 2.919e-07 2.919e-07 -6.535 -6.535 0.000 (0) +H(0) 1.877e-11 + H2 9.386e-12 1.020e-11 -11.028 -10.991 0.036 28.61 +Hto 2.893e-07 + Hto 2.893e-07 2.893e-07 -6.539 -6.539 0.000 (0) I 3.617e-07 I- 3.617e-07 3.617e-07 -6.442 -6.442 -0.000 (0) K 1.540e-03 @@ -181941,15 +181897,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.492e-07 - Nat+ 1.492e-07 1.492e-07 -6.826 -6.826 -0.000 (0) +Nat 1.465e-07 + Nat+ 1.465e-07 1.465e-07 -6.834 -6.834 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.442 -70.406 0.036 30.40 -S(-2) 4.276e-08 - HS- 2.991e-08 1.969e-08 -7.524 -7.706 -0.182 21.14 - H2S 1.286e-08 1.398e-08 -7.891 -7.855 0.036 36.27 - S-2 1.215e-13 2.929e-14 -12.915 -13.533 -0.618 (0) - (H2S)2 9.469e-18 1.029e-17 -17.024 -16.987 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.443 -70.406 0.036 30.40 +S(-2) 4.287e-08 + HS- 2.998e-08 1.974e-08 -7.523 -7.705 -0.182 21.14 + H2S 1.289e-08 1.401e-08 -7.890 -7.853 0.036 36.27 + S-2 1.218e-13 2.936e-14 -12.914 -13.532 -0.618 (0) + (H2S)2 9.517e-18 1.035e-17 -17.022 -16.985 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -181976,7 +181932,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.73 -10.53 -2.80 CH4 + CH4(g) -7.72 -10.53 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -181990,7 +181946,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.51 -70.41 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.90 -0.01 4.88 S + Sulfur -4.89 -0.01 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -182024,7 +181980,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -182035,12 +181991,12 @@ Su Ca 7.1884e-02 Cl 4.6600e-10 H 1.2950e-04 - Hto 1.8004e-08 - I 2.0193e-20 + Hto 1.7456e-08 + I 2.0190e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.5924e-08 + Nat 3.3585e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -182059,12 +182015,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.526e-07 1.797e-08 + Hto 1.479e-07 1.743e-08 I 1.714e-07 2.019e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.113e-08 7.202e-09 + Nat 5.715e-08 6.733e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -182096,8 +182052,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.560e-11 - CH4 3.560e-11 3.871e-11 -10.449 -10.412 0.036 35.46 +C(-4) 3.566e-11 + CH4 3.566e-11 3.877e-11 -10.448 -10.411 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -182106,7 +182062,7 @@ C(4) 2.744e-03 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.020e-06 9.807e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.632e-06 3.949e-06 -5.440 -5.403 0.036 -17.09 CO3-2 3.384e-06 8.613e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.733e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.539e-08 7.109e-08 -7.184 -7.148 0.036 -14.13 @@ -182121,10 +182077,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.005e-11 - H2 1.003e-11 1.090e-11 -10.999 -10.963 0.036 28.61 -Hto 1.526e-07 - Hto 1.526e-07 1.526e-07 -6.817 -6.817 0.000 (0) +H(0) 2.006e-11 + H2 1.003e-11 1.090e-11 -10.999 -10.962 0.036 28.61 +Hto 1.479e-07 + Hto 1.479e-07 1.479e-07 -6.830 -6.830 0.000 (0) I 1.714e-07 I- 1.714e-07 1.714e-07 -6.766 -6.766 -0.000 (0) K 1.540e-03 @@ -182136,21 +182092,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.632e-06 3.949e-06 -5.440 -5.403 0.036 -17.09 MgOH+ 2.900e-07 2.128e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.113e-08 - Nat+ 6.113e-08 6.113e-08 -7.214 -7.214 -0.000 (0) +Nat 5.715e-08 + Nat+ 5.715e-08 5.715e-08 -7.243 -7.243 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.500 -70.464 0.036 30.40 -S(-2) 5.578e-08 - HS- 3.901e-08 2.568e-08 -7.409 -7.590 -0.182 21.14 - H2S 1.676e-08 1.823e-08 -7.776 -7.739 0.036 36.27 - S-2 1.585e-13 3.822e-14 -12.800 -13.418 -0.618 (0) - (H2S)2 1.610e-17 1.751e-17 -16.793 -16.757 0.036 30.09 +S(-2) 5.587e-08 + HS- 3.908e-08 2.573e-08 -7.408 -7.590 -0.182 21.14 + H2S 1.679e-08 1.826e-08 -7.775 -7.739 0.036 36.27 + S-2 1.588e-13 3.828e-14 -12.799 -13.417 -0.618 (0) + (H2S)2 1.616e-17 1.757e-17 -16.792 -16.755 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -182215,7 +182171,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.825e-11 Surface + diffuse layer charge, eq + -9.824e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -182225,7 +182181,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -182234,14 +182190,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6595e-10 + Cl 4.6594e-10 H 1.2950e-04 - Hto 7.8177e-09 - I 7.8384e-21 + Hto 7.3786e-09 + I 7.8367e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1262e-08 + Nat 9.9531e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -182260,12 +182216,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.625e-08 7.805e-09 + Hto 6.253e-08 7.367e-09 I 6.651e-08 7.836e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.916e-08 2.258e-09 + Nat 1.694e-08 1.995e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -182297,8 +182253,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.899e-11 - CH4 3.899e-11 4.239e-11 -10.409 -10.373 0.036 35.46 +C(-4) 3.903e-11 + CH4 3.903e-11 4.243e-11 -10.409 -10.372 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -182322,10 +182278,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.051e-11 +H(0) 2.052e-11 H2 1.026e-11 1.115e-11 -10.989 -10.953 0.036 28.61 -Hto 6.625e-08 - Hto 6.625e-08 6.625e-08 -7.179 -7.179 0.000 (0) +Hto 6.253e-08 + Hto 6.253e-08 6.253e-08 -7.204 -7.204 0.000 (0) I 6.651e-08 I- 6.651e-08 6.651e-08 -7.177 -7.177 -0.000 (0) K 1.540e-03 @@ -182343,15 +182299,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.916e-08 - Nat+ 1.916e-08 1.916e-08 -7.718 -7.718 -0.000 (0) +Nat 1.694e-08 + Nat+ 1.694e-08 1.694e-08 -7.771 -7.771 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.520 -70.483 0.036 30.40 -S(-2) 6.109e-08 - HS- 4.273e-08 2.813e-08 -7.369 -7.551 -0.182 21.14 - H2S 1.836e-08 1.996e-08 -7.736 -7.700 0.036 36.27 - S-2 1.737e-13 4.186e-14 -12.760 -13.378 -0.618 (0) - (H2S)2 1.931e-17 2.099e-17 -16.714 -16.678 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.520 -70.484 0.036 30.40 +S(-2) 6.114e-08 + HS- 4.277e-08 2.815e-08 -7.369 -7.550 -0.182 21.14 + H2S 1.837e-08 1.998e-08 -7.736 -7.699 0.036 36.27 + S-2 1.738e-13 4.190e-14 -12.760 -13.378 -0.618 (0) + (H2S)2 1.934e-17 2.103e-17 -16.713 -16.677 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -182385,7 +182341,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.85 -10.95 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.71 -14.64 -7.94 H2S + H2S(g) -6.70 -14.64 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -182426,7 +182382,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -182437,12 +182393,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 2.8556e-09 + Hto 2.6139e-09 I 2.5295e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.8111e-09 + Nat 2.3397e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -182461,12 +182417,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.420e-08 2.851e-09 + Hto 2.215e-08 2.610e-09 I 2.147e-08 2.529e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.783e-09 5.635e-10 + Nat 3.981e-09 4.690e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -182498,8 +182454,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.021e-11 - CH4 4.021e-11 4.372e-11 -10.396 -10.359 0.036 35.46 +C(-4) 4.023e-11 + CH4 4.023e-11 4.374e-11 -10.395 -10.359 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -182525,8 +182481,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.067e-11 H2 1.034e-11 1.124e-11 -10.986 -10.949 0.036 28.61 -Hto 2.420e-08 - Hto 2.420e-08 2.420e-08 -7.616 -7.616 0.000 (0) +Hto 2.215e-08 + Hto 2.215e-08 2.215e-08 -7.655 -7.655 0.000 (0) I 2.147e-08 I- 2.147e-08 2.147e-08 -7.668 -7.668 -0.000 (0) K 1.540e-03 @@ -182544,15 +182500,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.783e-09 - Nat+ 4.783e-09 4.783e-09 -8.320 -8.320 -0.000 (0) +Nat 3.981e-09 + Nat+ 3.981e-09 3.981e-09 -8.400 -8.400 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.526 -70.490 0.036 30.40 -S(-2) 6.300e-08 - HS- 4.407e-08 2.901e-08 -7.356 -7.537 -0.182 21.14 - H2S 1.893e-08 2.058e-08 -7.723 -7.686 0.036 36.27 - S-2 1.791e-13 4.317e-14 -12.747 -13.365 -0.618 (0) - (H2S)2 2.054e-17 2.233e-17 -16.687 -16.651 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.527 -70.490 0.036 30.40 +S(-2) 6.303e-08 + HS- 4.409e-08 2.902e-08 -7.356 -7.537 -0.182 21.14 + H2S 1.894e-08 2.059e-08 -7.723 -7.686 0.036 36.27 + S-2 1.792e-13 4.319e-14 -12.747 -13.365 -0.618 (0) + (H2S)2 2.055e-17 2.235e-17 -16.687 -16.651 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -182627,7 +182583,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -182638,12 +182594,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 8.8839e-10 - I 6.8946e-22 + Hto 7.8656e-10 + I 6.8925e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.7560e-10 + Nat 4.5012e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -182662,12 +182618,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.529e-09 8.870e-10 + Hto 6.666e-09 7.853e-10 I 5.851e-09 6.894e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.795e-10 1.154e-10 + Nat 7.659e-10 9.023e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -182699,8 +182655,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.052e-11 - CH4 4.052e-11 4.406e-11 -10.392 -10.356 0.036 35.46 +C(-4) 4.053e-11 + CH4 4.053e-11 4.407e-11 -10.392 -10.356 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -182726,8 +182682,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.071e-11 H2 1.036e-11 1.126e-11 -10.985 -10.948 0.036 28.61 -Hto 7.529e-09 - Hto 7.529e-09 7.529e-09 -8.123 -8.123 0.000 (0) +Hto 6.666e-09 + Hto 6.666e-09 6.666e-09 -8.176 -8.176 0.000 (0) I 5.851e-09 I- 5.851e-09 5.851e-09 -8.233 -8.233 -0.000 (0) K 1.540e-03 @@ -182745,15 +182701,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.795e-10 - Nat+ 9.795e-10 9.795e-10 -9.009 -9.009 -0.000 (0) +Nat 7.659e-10 + Nat+ 7.659e-10 7.659e-10 -9.116 -9.116 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.528 -70.492 0.036 30.40 -S(-2) 6.349e-08 - HS- 4.441e-08 2.923e-08 -7.353 -7.534 -0.182 21.14 - H2S 1.908e-08 2.074e-08 -7.719 -7.683 0.036 36.27 - S-2 1.805e-13 4.351e-14 -12.744 -13.361 -0.618 (0) - (H2S)2 2.085e-17 2.267e-17 -16.681 -16.644 0.036 30.09 +S(-2) 6.350e-08 + HS- 4.442e-08 2.924e-08 -7.352 -7.534 -0.182 21.14 + H2S 1.908e-08 2.075e-08 -7.719 -7.683 0.036 36.27 + S-2 1.805e-13 4.352e-14 -12.743 -13.361 -0.618 (0) + (H2S)2 2.086e-17 2.268e-17 -16.681 -16.644 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -182828,7 +182784,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -182839,12 +182795,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 2.3807e-10 - I 1.6076e-22 + Hto 2.0347e-10 + I 1.6078e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.8871e-11 + Nat 7.2537e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -182863,12 +182819,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.018e-09 2.377e-10 + Hto 1.724e-09 2.031e-10 I 1.365e-09 1.608e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.682e-10 1.982e-11 + Nat 1.234e-10 1.454e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -182901,7 +182857,7 @@ Su H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.045e-11 - CH4 4.045e-11 4.397e-11 -10.393 -10.357 0.036 35.46 + CH4 4.045e-11 4.398e-11 -10.393 -10.357 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -182927,8 +182883,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.070e-11 H2 1.035e-11 1.125e-11 -10.985 -10.949 0.036 28.61 -Hto 2.018e-09 - Hto 2.018e-09 2.018e-09 -8.695 -8.695 0.000 (0) +Hto 1.724e-09 + Hto 1.724e-09 1.724e-09 -8.763 -8.763 0.000 (0) I 1.365e-09 I- 1.365e-09 1.365e-09 -8.865 -8.865 -0.000 (0) K 1.540e-03 @@ -182946,15 +182902,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.682e-10 - Nat+ 1.682e-10 1.682e-10 -9.774 -9.774 -0.000 (0) +Nat 1.234e-10 + Nat+ 1.234e-10 1.234e-10 -9.909 -9.909 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.528 -70.491 0.036 30.40 -S(-2) 6.336e-08 - HS- 4.432e-08 2.918e-08 -7.353 -7.535 -0.182 21.14 - H2S 1.904e-08 2.070e-08 -7.720 -7.684 0.036 36.27 - S-2 1.801e-13 4.342e-14 -12.744 -13.362 -0.618 (0) - (H2S)2 2.077e-17 2.259e-17 -16.682 -16.646 0.036 30.09 +S(-2) 6.337e-08 + HS- 4.433e-08 2.918e-08 -7.353 -7.535 -0.182 21.14 + H2S 1.904e-08 2.071e-08 -7.720 -7.684 0.036 36.27 + S-2 1.802e-13 4.343e-14 -12.744 -13.362 -0.618 (0) + (H2S)2 2.078e-17 2.259e-17 -16.682 -16.646 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -183019,7 +182975,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.785e-11 Surface + diffuse layer charge, eq + -9.789e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -183029,7 +182985,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -183040,12 +182996,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 5.5500e-11 + Hto 4.5719e-11 I 3.2447e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4493e-11 + Nat 9.9662e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -183064,12 +183020,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.703e-10 5.541e-11 + Hto 3.874e-10 4.565e-11 I 2.754e-10 3.244e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.466e-11 2.905e-12 + Nat 1.696e-11 1.998e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -183087,8 +183043,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.380e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 1.767e-10 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -183101,8 +183057,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.022e-11 - CH4 4.022e-11 4.373e-11 -10.396 -10.359 0.036 35.46 +C(-4) 4.023e-11 + CH4 4.023e-11 4.374e-11 -10.395 -10.359 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -183128,8 +183084,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.067e-11 H2 1.034e-11 1.124e-11 -10.986 -10.949 0.036 28.61 -Hto 4.703e-10 - Hto 4.703e-10 4.703e-10 -9.328 -9.328 0.000 (0) +Hto 3.874e-10 + Hto 3.874e-10 3.874e-10 -9.412 -9.412 0.000 (0) I 2.754e-10 I- 2.754e-10 2.754e-10 -9.560 -9.560 -0.000 (0) K 1.540e-03 @@ -183147,10 +183103,10 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.466e-11 - Nat+ 2.466e-11 2.466e-11 -10.608 -10.608 -0.000 (0) +Nat 1.696e-11 + Nat+ 1.696e-11 1.696e-11 -10.771 -10.771 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.526 -70.490 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.527 -70.490 0.036 30.40 S(-2) 6.302e-08 HS- 4.408e-08 2.902e-08 -7.356 -7.537 -0.182 21.14 H2S 1.894e-08 2.059e-08 -7.723 -7.686 0.036 36.27 @@ -183230,7 +183186,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -183241,12 +183197,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 1.1351e-11 - I 5.7232e-24 + Hto 9.0029e-12 + I 5.7224e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8375e-12 + Nat 1.1835e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -183265,12 +183221,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.620e-11 1.133e-11 + Hto 7.630e-11 8.988e-12 I 4.857e-11 5.722e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.127e-12 3.684e-13 + Nat 2.014e-12 2.373e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -183288,7 +183244,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.328e-09 + Electrical balance (eq) = -1.413e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -183329,8 +183285,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.065e-11 H2 1.032e-11 1.122e-11 -10.986 -10.950 0.036 28.61 -Hto 9.620e-11 - Hto 9.620e-11 9.620e-11 -10.017 -10.017 0.000 (0) +Hto 7.630e-11 + Hto 7.630e-11 7.630e-11 -10.117 -10.117 0.000 (0) I 4.857e-11 I- 4.857e-11 4.857e-11 -10.314 -10.314 -0.000 (0) K 1.540e-03 @@ -183348,8 +183304,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.127e-12 - Nat+ 3.127e-12 3.127e-12 -11.505 -11.505 -0.000 (0) +Nat 2.014e-12 + Nat+ 2.014e-12 2.014e-12 -11.696 -11.696 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.525 -70.489 0.036 30.40 S(-2) 6.272e-08 @@ -183431,7 +183387,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -183442,12 +183398,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 2.0517e-12 + Hto 1.5653e-12 I 8.8888e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0365e-13 + Nat 1.2280e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -183466,12 +183422,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.739e-11 2.048e-12 + Hto 1.327e-11 1.563e-12 I 7.545e-12 8.889e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.465e-13 4.082e-14 + Nat 2.090e-13 2.462e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -183489,7 +183445,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.783e-09 + Electrical balance (eq) = -1.786e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -183504,7 +183460,7 @@ Su H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 3.995e-11 - CH4 3.995e-11 4.344e-11 -10.398 -10.362 0.036 35.46 + CH4 3.995e-11 4.343e-11 -10.398 -10.362 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -183530,8 +183486,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.064e-11 H2 1.032e-11 1.122e-11 -10.986 -10.950 0.036 28.61 -Hto 1.739e-11 - Hto 1.739e-11 1.739e-11 -10.760 -10.760 0.000 (0) +Hto 1.327e-11 + Hto 1.327e-11 1.327e-11 -10.877 -10.877 0.000 (0) I 7.545e-12 I- 7.545e-12 7.545e-12 -11.122 -11.122 -0.000 (0) K 1.540e-03 @@ -183549,8 +183505,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.465e-13 - Nat+ 3.465e-13 3.465e-13 -12.460 -12.460 -0.000 (0) +Nat 2.090e-13 + Nat+ 2.090e-13 2.090e-13 -12.680 -12.680 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.525 -70.489 0.036 30.40 S(-2) 6.259e-08 @@ -183632,7 +183588,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -183643,12 +183599,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 3.2972e-13 + Hto 2.4181e-13 I 1.2248e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9898e-14 + Nat 1.1230e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -183667,12 +183623,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.794e-12 3.292e-13 + Hto 2.049e-12 2.414e-13 I 1.040e-12 1.225e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.386e-14 3.989e-15 + Nat 1.911e-14 2.251e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -183704,8 +183660,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.001e-11 - CH4 4.001e-11 4.350e-11 -10.398 -10.362 0.036 35.46 +C(-4) 4.000e-11 + CH4 4.000e-11 4.349e-11 -10.398 -10.362 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -183731,8 +183687,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.064e-11 H2 1.032e-11 1.122e-11 -10.986 -10.950 0.036 28.61 -Hto 2.794e-12 - Hto 2.794e-12 2.794e-12 -11.554 -11.554 0.000 (0) +Hto 2.049e-12 + Hto 2.049e-12 2.049e-12 -11.688 -11.688 0.000 (0) I 1.040e-12 I- 1.040e-12 1.040e-12 -11.983 -11.983 -0.000 (0) K 1.540e-03 @@ -183750,15 +183706,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.386e-14 - Nat+ 3.386e-14 3.386e-14 -13.470 -13.470 -0.000 (0) +Nat 1.911e-14 + Nat+ 1.911e-14 1.911e-14 -13.719 -13.719 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.525 -70.489 0.036 30.40 -S(-2) 6.268e-08 +S(-2) 6.267e-08 HS- 4.384e-08 2.886e-08 -7.358 -7.540 -0.182 21.14 - H2S 1.884e-08 2.048e-08 -7.725 -7.689 0.036 36.27 + H2S 1.883e-08 2.048e-08 -7.725 -7.689 0.036 36.27 S-2 1.782e-13 4.295e-14 -12.749 -13.367 -0.618 (0) - (H2S)2 2.033e-17 2.210e-17 -16.692 -16.656 0.036 30.09 + (H2S)2 2.032e-17 2.210e-17 -16.692 -16.656 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -183823,7 +183779,7 @@ Kinetics 15. Diffuse Double Layer Surface-Complexation Model Su - -9.780e-11 Surface + diffuse layer charge, eq + -9.779e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -183833,7 +183789,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -183844,12 +183800,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 4.7354e-14 + Hto 3.3367e-14 I 1.5051e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7260e-15 + Nat 9.1146e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -183868,12 +183824,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.013e-13 4.728e-14 + Hto 2.828e-13 3.331e-14 I 1.277e-13 1.505e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.937e-15 3.460e-16 + Nat 1.551e-15 1.827e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -183891,7 +183847,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -3.067e-10 + Electrical balance (eq) = -4.741e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -183931,9 +183887,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.067e-11 - H2 1.034e-11 1.124e-11 -10.986 -10.949 0.036 28.61 -Hto 4.013e-13 - Hto 4.013e-13 4.013e-13 -12.397 -12.397 0.000 (0) + H2 1.033e-11 1.124e-11 -10.986 -10.949 0.036 28.61 +Hto 2.828e-13 + Hto 2.828e-13 2.828e-13 -12.549 -12.549 0.000 (0) I 1.277e-13 I- 1.277e-13 1.277e-13 -12.894 -12.894 -0.000 (0) K 1.540e-03 @@ -183951,14 +183907,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.937e-15 - Nat+ 2.937e-15 2.937e-15 -14.532 -14.532 -0.000 (0) +Nat 1.551e-15 + Nat+ 1.551e-15 1.551e-15 -14.809 -14.809 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.526 -70.490 0.036 30.40 S(-2) 6.298e-08 HS- 4.405e-08 2.900e-08 -7.356 -7.538 -0.182 21.14 H2S 1.893e-08 2.058e-08 -7.723 -7.687 0.036 36.27 - S-2 1.791e-13 4.316e-14 -12.747 -13.365 -0.618 (0) + S-2 1.790e-13 4.316e-14 -12.747 -13.365 -0.618 (0) (H2S)2 2.052e-17 2.231e-17 -16.688 -16.651 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -184034,7 +183990,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -184045,12 +184001,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 6.1045e-15 - I 1.6572e-27 + Hto 4.1308e-15 + I 1.6574e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3367e-16 + Nat 6.6030e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -184069,12 +184025,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.173e-14 6.095e-15 + Hto 3.501e-14 4.124e-15 I 1.407e-14 1.657e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.274e-16 2.680e-17 + Nat 1.124e-16 1.324e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -184133,8 +184089,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.071e-11 H2 1.035e-11 1.126e-11 -10.985 -10.949 0.036 28.61 -Hto 5.173e-14 - Hto 5.173e-14 5.173e-14 -13.286 -13.286 0.000 (0) +Hto 3.501e-14 + Hto 3.501e-14 3.501e-14 -13.456 -13.456 0.000 (0) I 1.407e-14 I- 1.407e-14 1.407e-14 -13.852 -13.852 -0.000 (0) K 1.540e-03 @@ -184152,11 +184108,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.274e-16 - Nat+ 2.274e-16 2.274e-16 -15.643 -15.643 -0.000 (0) +Nat 1.124e-16 + Nat+ 1.124e-16 1.124e-16 -15.949 -15.949 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.528 -70.492 0.036 30.40 -S(-2) 6.341e-08 +S(-2) 6.342e-08 HS- 4.436e-08 2.920e-08 -7.353 -7.535 -0.182 21.14 H2S 1.906e-08 2.072e-08 -7.720 -7.684 0.036 36.27 S-2 1.803e-13 4.346e-14 -12.744 -13.362 -0.618 (0) @@ -184235,7 +184191,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -184246,12 +184202,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 7.0888e-16 - I 1.6418e-28 + Hto 4.6050e-16 + I 1.6416e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2837e-18 + Nat 4.2896e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -184270,12 +184226,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.007e-15 7.077e-16 + Hto 3.903e-15 4.598e-16 I 1.393e-15 1.641e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.580e-17 1.861e-18 + Nat 7.299e-18 8.599e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -184308,7 +184264,7 @@ Su H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.070e-11 - CH4 4.070e-11 4.424e-11 -10.390 -10.354 0.036 35.46 + CH4 4.070e-11 4.425e-11 -10.390 -10.354 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -184334,8 +184290,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.073e-11 H2 1.037e-11 1.127e-11 -10.984 -10.948 0.036 28.61 -Hto 6.007e-15 - Hto 6.007e-15 6.007e-15 -14.221 -14.221 0.000 (0) +Hto 3.903e-15 + Hto 3.903e-15 3.903e-15 -14.409 -14.409 0.000 (0) I 1.393e-15 I- 1.393e-15 1.393e-15 -14.856 -14.856 -0.000 (0) K 1.540e-03 @@ -184353,14 +184309,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.580e-17 - Nat+ 1.580e-17 1.580e-17 -16.801 -16.801 -0.000 (0) +Nat 7.299e-18 + Nat+ 7.299e-18 7.299e-18 -17.137 -17.137 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.529 -70.493 0.036 30.40 -S(-2) 6.375e-08 +S(-2) 6.376e-08 HS- 4.460e-08 2.936e-08 -7.351 -7.532 -0.182 21.14 H2S 1.916e-08 2.083e-08 -7.718 -7.681 0.036 36.27 - S-2 1.813e-13 4.369e-14 -12.742 -13.360 -0.618 (0) + S-2 1.813e-13 4.370e-14 -12.742 -13.360 -0.618 (0) (H2S)2 2.103e-17 2.287e-17 -16.677 -16.641 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -184436,7 +184392,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -184447,12 +184403,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 7.4372e-17 + Hto 4.6368e-17 I 1.4674e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.8047e-19 + Nat 2.5083e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -184471,12 +184427,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.303e-16 7.425e-17 + Hto 3.929e-16 4.629e-17 I 1.245e-16 1.467e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.877e-19 1.164e-19 + Nat 4.268e-19 5.028e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -184509,7 +184465,7 @@ Su H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.081e-11 - CH4 4.081e-11 4.436e-11 -10.389 -10.353 0.036 35.46 + CH4 4.081e-11 4.437e-11 -10.389 -10.353 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -184535,8 +184491,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.037e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 6.303e-16 - Hto 6.303e-16 6.303e-16 -15.200 -15.200 0.000 (0) +Hto 3.929e-16 + Hto 3.929e-16 3.929e-16 -15.406 -15.406 0.000 (0) I 1.245e-16 I- 1.245e-16 1.245e-16 -15.905 -15.905 -0.000 (0) K 1.540e-03 @@ -184554,15 +184510,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.877e-19 - Nat+ 9.877e-19 9.877e-19 -18.005 -18.005 -0.000 (0) +Nat 4.268e-19 + Nat+ 4.268e-19 4.268e-19 -18.370 -18.370 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.530 -70.493 0.036 30.40 S(-2) 6.393e-08 HS- 4.472e-08 2.944e-08 -7.350 -7.531 -0.182 21.14 H2S 1.921e-08 2.089e-08 -7.716 -7.680 0.036 36.27 S-2 1.818e-13 4.381e-14 -12.741 -13.358 -0.618 (0) - (H2S)2 2.114e-17 2.299e-17 -16.675 -16.638 0.036 30.09 + (H2S)2 2.115e-17 2.299e-17 -16.675 -16.638 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -184637,7 +184593,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -184648,12 +184604,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 7.0668e-18 + Hto 4.2273e-18 I 1.1868e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2771e-20 + Nat 1.3243e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -184672,12 +184628,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.989e-17 7.055e-18 + Hto 3.582e-17 4.220e-18 I 1.007e-17 1.187e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.576e-20 6.569e-21 + Nat 2.253e-20 2.655e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -184709,8 +184665,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.084e-11 - CH4 4.084e-11 4.441e-11 -10.389 -10.353 0.036 35.46 +C(-4) 4.085e-11 + CH4 4.085e-11 4.441e-11 -10.389 -10.353 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -184736,8 +184692,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 5.989e-17 - Hto 5.989e-17 5.989e-17 -16.223 -16.223 0.000 (0) +Hto 3.582e-17 + Hto 3.582e-17 3.582e-17 -16.446 -16.446 0.000 (0) I 1.007e-17 I- 1.007e-17 1.007e-17 -16.997 -16.997 -0.000 (0) K 1.540e-03 @@ -184755,8 +184711,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.576e-20 - Nat+ 5.576e-20 5.576e-20 -19.254 -19.254 -0.000 (0) +Nat 2.253e-20 + Nat+ 2.253e-20 2.253e-20 -19.647 -19.647 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.530 -70.494 0.036 30.40 S(-2) 6.399e-08 @@ -184838,7 +184794,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -184849,12 +184805,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 6.0929e-19 - I 8.7004e-32 + Hto 3.4964e-19 + I 8.7016e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6744e-21 + Nat 6.3259e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -184873,12 +184829,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.163e-18 6.083e-19 + Hto 2.963e-18 3.491e-19 I 7.385e-19 8.701e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.849e-21 3.357e-22 + Nat 1.076e-21 1.268e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -184937,8 +184893,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 5.163e-18 - Hto 5.163e-18 5.163e-18 -17.287 -17.287 0.000 (0) +Hto 2.963e-18 + Hto 2.963e-18 2.963e-18 -17.528 -17.528 0.000 (0) I 7.385e-19 I- 7.385e-19 7.385e-19 -18.132 -18.132 -0.000 (0) K 1.540e-03 @@ -184956,13 +184912,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.849e-21 - Nat+ 2.849e-21 2.849e-21 -20.545 -20.545 -0.000 (0) +Nat 1.076e-21 + Nat+ 1.076e-21 1.076e-21 -20.968 -20.968 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.530 -70.494 0.036 30.40 S(-2) 6.401e-08 HS- 4.477e-08 2.947e-08 -7.349 -7.531 -0.182 21.14 - H2S 1.923e-08 2.091e-08 -7.716 -7.680 0.036 36.27 + H2S 1.924e-08 2.091e-08 -7.716 -7.680 0.036 36.27 S-2 1.820e-13 4.387e-14 -12.740 -13.358 -0.618 (0) (H2S)2 2.120e-17 2.305e-17 -16.674 -16.637 0.036 30.09 S(6) 1.260e-02 @@ -185039,7 +184995,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -185050,12 +185006,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 4.7736e-20 - I 5.7936e-33 + Hto 2.6273e-20 + I 5.7943e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.7451e-23 + Nat 2.7248e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -185074,12 +185030,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.045e-19 4.766e-20 + Hto 2.227e-19 2.623e-20 I 4.917e-20 5.793e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.318e-22 1.553e-23 + Nat 4.637e-23 5.462e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -185138,8 +185094,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 4.045e-19 - Hto 4.045e-19 4.045e-19 -18.393 -18.393 0.000 (0) +Hto 2.227e-19 + Hto 2.227e-19 2.227e-19 -18.652 -18.652 0.000 (0) I 4.917e-20 I- 4.917e-20 4.917e-20 -19.308 -19.308 -0.000 (0) K 1.540e-03 @@ -185157,8 +185113,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.318e-22 - Nat+ 1.318e-22 1.318e-22 -21.880 -21.880 -0.000 (0) +Nat 4.637e-23 + Nat+ 4.637e-23 4.637e-23 -22.334 -22.334 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.530 -70.494 0.036 30.40 S(-2) 6.401e-08 @@ -185240,7 +185196,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -185251,12 +185207,12 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 3.4027e-21 + Hto 1.7959e-21 I 3.5067e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0467e-24 + Nat 8.5326e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -185275,12 +185231,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.884e-20 3.397e-21 + Hto 1.522e-20 1.793e-21 I 2.976e-21 3.506e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.184e-24 6.108e-25 + Nat 1.452e-24 1.710e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -185339,8 +185295,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 2.884e-20 - Hto 2.884e-20 2.884e-20 -19.540 -19.540 0.000 (0) +Hto 1.522e-20 + Hto 1.522e-20 1.522e-20 -19.818 -19.818 0.000 (0) I 2.976e-21 I- 2.976e-21 2.976e-21 -20.526 -20.526 -0.000 (0) K 1.540e-03 @@ -185358,8 +185314,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.184e-24 - Nat+ 5.184e-24 5.184e-24 -23.285 -23.285 -0.000 (0) +Nat 1.452e-24 + Nat+ 1.452e-24 1.452e-24 -23.838 -23.838 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.530 -70.494 0.036 30.40 S(-2) 6.401e-08 @@ -185441,7 +185397,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -185452,8 +185408,8 @@ Su Ca 7.1884e-02 Cl 4.6592e-10 H 1.2950e-04 - Hto 2.3363e-22 - I 2.0192e-35 + Hto 1.1794e-22 + I 2.0195e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -185475,7 +185431,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.980e-21 2.333e-22 + Hto 9.995e-22 1.177e-22 I 1.714e-22 2.019e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -185538,8 +185494,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.075e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 1.980e-21 - Hto 1.980e-21 1.980e-21 -20.703 -20.703 0.000 (0) +Hto 9.995e-22 + Hto 9.995e-22 9.995e-22 -21.000 -21.000 0.000 (0) I 1.714e-22 I- 1.714e-22 1.714e-22 -21.766 -21.766 -0.000 (0) K 1.540e-03 @@ -185927,30 +185883,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.229e-07 2.614e-07 + Hto 5.283e-07 2.642e-07 I 7.038e-07 3.519e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.915e-07 1.457e-07 + Nat 2.987e-07 1.493e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.050 Adjusted to redox equilibrium + pe = -3.049 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.806e-13 + Electrical balance (eq) = -3.275e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -185964,8 +185920,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.043e-12 - CH4 3.043e-12 3.309e-12 -11.517 -11.480 0.036 35.46 +C(-4) 2.984e-12 + CH4 2.984e-12 3.244e-12 -11.525 -11.489 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 @@ -185989,10 +185945,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.084e-11 - H2 5.419e-12 5.892e-12 -11.266 -11.230 0.036 28.61 -Hto 5.229e-07 - Hto 5.229e-07 5.229e-07 -6.282 -6.282 0.000 (0) +H(0) 1.079e-11 + H2 5.393e-12 5.863e-12 -11.268 -11.232 0.036 28.61 +Hto 5.283e-07 + Hto 5.283e-07 5.283e-07 -6.277 -6.277 0.000 (0) I 7.038e-07 I- 7.038e-07 7.038e-07 -6.153 -6.153 -0.000 (0) K 1.540e-03 @@ -186010,15 +185966,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.915e-07 - Nat+ 2.915e-07 2.915e-07 -6.535 -6.535 -0.000 (0) +Nat 2.987e-07 + Nat+ 2.987e-07 2.987e-07 -6.525 -6.525 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.966 -69.929 0.036 30.40 -S(-2) 4.771e-09 - HS- 3.335e-09 2.196e-09 -8.477 -8.658 -0.182 21.14 - H2S 1.435e-09 1.560e-09 -8.843 -8.807 0.036 36.27 - S-2 1.354e-14 3.263e-15 -13.868 -14.486 -0.618 (0) - (H2S)2 1.180e-19 1.283e-19 -18.928 -18.892 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.961 -69.925 0.036 30.40 +S(-2) 4.677e-09 + HS- 3.270e-09 2.153e-09 -8.485 -8.667 -0.182 21.14 + H2S 1.407e-09 1.530e-09 -8.852 -8.815 0.036 36.27 + S-2 1.327e-14 3.199e-15 -13.877 -14.495 -0.618 (0) + (H2S)2 1.134e-19 1.233e-19 -18.945 -18.909 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -186045,21 +186001,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.68 -11.48 -2.80 CH4 + CH4(g) -8.69 -11.49 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.13 -11.23 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.81 -15.75 -7.94 H2S + H2S(g) -7.82 -15.76 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.04 -69.93 -2.89 O2 + O2(g) -67.03 -69.93 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.61 -0.73 4.88 S + Sulfur -5.62 -0.73 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -186083,7 +186039,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.074e-14 Surface + diffuse layer charge, eq + -4.963e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -186093,7 +186049,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -186102,14 +186058,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6650e-10 + Cl 4.6651e-10 H 1.2948e-04 - Hto 5.4000e-08 + Hto 5.4338e-08 I 7.2673e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5451e-07 + Nat 1.5736e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -186128,12 +186084,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.576e-07 5.391e-08 + Hto 4.605e-07 5.425e-08 I 6.169e-07 7.268e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.629e-07 3.097e-08 + Nat 2.678e-07 3.155e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -186144,14 +186100,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.678e-09 + Electrical balance (eq) = 1.670e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -186165,8 +186121,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.329e-12 - CH4 8.329e-12 9.055e-12 -11.079 -11.043 0.036 35.46 +C(-4) 8.270e-12 + CH4 8.270e-12 8.992e-12 -11.082 -11.046 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -186186,14 +186142,14 @@ Ca 2.590e-02 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) - CaHSO4+ 1.066e-09 7.794e-10 -8.972 -9.108 -0.136 (0) + CaHSO4+ 1.067e-09 7.794e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.394e-11 - H2 6.971e-12 7.579e-12 -11.157 -11.120 0.036 28.61 -Hto 4.576e-07 - Hto 4.576e-07 4.576e-07 -6.339 -6.339 0.000 (0) +H(0) 1.392e-11 + H2 6.959e-12 7.566e-12 -11.157 -11.121 0.036 28.61 +Hto 4.605e-07 + Hto 4.605e-07 4.605e-07 -6.337 -6.337 0.000 (0) I 6.169e-07 I- 6.169e-07 6.169e-07 -6.210 -6.210 -0.000 (0) K 1.540e-03 @@ -186211,15 +186167,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.629e-07 - Nat+ 2.629e-07 2.629e-07 -6.580 -6.580 -0.000 (0) +Nat 2.678e-07 + Nat+ 2.678e-07 2.678e-07 -6.572 -6.572 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.184 -70.148 0.036 30.40 -S(-2) 1.306e-08 - HS- 9.129e-09 6.009e-09 -8.040 -8.221 -0.182 21.14 - H2S 3.927e-09 4.269e-09 -8.406 -8.370 0.036 36.27 - S-2 3.706e-14 8.933e-15 -13.431 -14.049 -0.618 (0) - (H2S)2 8.834e-19 9.605e-19 -18.054 -18.018 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.183 -70.146 0.036 30.40 +S(-2) 1.296e-08 + HS- 9.065e-09 5.967e-09 -8.043 -8.224 -0.182 21.14 + H2S 3.899e-09 4.239e-09 -8.409 -8.373 0.036 36.27 + S-2 3.680e-14 8.870e-15 -13.434 -14.052 -0.618 (0) + (H2S)2 8.711e-19 9.471e-19 -18.060 -18.024 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -186229,7 +186185,7 @@ S(6) 1.260e-02 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 HSO4- 1.309e-08 9.564e-09 -7.883 -8.019 -0.136 40.78 - CaHSO4+ 1.066e-09 7.794e-10 -8.972 -9.108 -0.136 (0) + CaHSO4+ 1.067e-09 7.794e-10 -8.972 -9.108 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 @@ -186246,7 +186202,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.24 -11.04 -2.80 CH4 + CH4(g) -8.24 -11.05 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -186258,7 +186214,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.26 -70.15 -2.89 O2 + O2(g) -67.25 -70.15 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.28 -0.40 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -186284,7 +186240,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.500e-11 Surface + diffuse layer charge, eq + -9.499e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -186294,7 +186250,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -186305,12 +186261,12 @@ Su Ca 7.1884e-02 Cl 4.6614e-10 H 1.2949e-04 - Hto 3.4624e-08 - I 4.2974e-20 + Hto 3.4327e-08 + I 4.2967e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.8220e-08 + Nat 8.6726e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -186329,12 +186285,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.934e-07 3.457e-08 + Hto 2.909e-07 3.427e-08 I 3.647e-07 4.297e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.501e-07 1.769e-08 + Nat 1.476e-07 1.739e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -186352,7 +186308,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.665e-09 + Electrical balance (eq) = 2.631e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -186366,8 +186322,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.787e-11 - CH4 2.787e-11 3.030e-11 -10.555 -10.519 0.036 35.46 +C(-4) 2.794e-11 + CH4 2.794e-11 3.038e-11 -10.554 -10.517 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -186377,7 +186333,7 @@ C(4) 2.744e-03 CaCO3 9.017e-06 9.804e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.631e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.382e-06 8.610e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.383e-06 8.610e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.733e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.537e-08 7.107e-08 -7.185 -7.148 0.036 -14.13 (CO2)2 1.276e-09 1.387e-09 -8.894 -8.858 0.036 68.87 @@ -186391,10 +186347,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.886e-11 - H2 9.430e-12 1.025e-11 -11.026 -10.989 0.036 28.61 -Hto 2.934e-07 - Hto 2.934e-07 2.934e-07 -6.533 -6.533 0.000 (0) +H(0) 1.887e-11 + H2 9.436e-12 1.026e-11 -11.025 -10.989 0.036 28.61 +Hto 2.909e-07 + Hto 2.909e-07 2.909e-07 -6.536 -6.536 0.000 (0) I 3.647e-07 I- 3.647e-07 3.647e-07 -6.438 -6.438 -0.000 (0) K 1.540e-03 @@ -186412,15 +186368,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.501e-07 - Nat+ 1.501e-07 1.501e-07 -6.824 -6.824 -0.000 (0) +Nat 1.476e-07 + Nat+ 1.476e-07 1.476e-07 -6.831 -6.831 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.447 -70.410 0.036 30.40 -S(-2) 4.367e-08 - HS- 3.054e-08 2.011e-08 -7.515 -7.697 -0.182 21.14 - H2S 1.313e-08 1.427e-08 -7.882 -7.845 0.036 36.27 - S-2 1.241e-13 2.991e-14 -12.906 -13.524 -0.618 (0) - (H2S)2 9.875e-18 1.074e-17 -17.005 -16.969 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.447 -70.411 0.036 30.40 +S(-2) 4.379e-08 + HS- 3.062e-08 2.016e-08 -7.514 -7.696 -0.182 21.14 + H2S 1.316e-08 1.431e-08 -7.881 -7.844 0.036 36.27 + S-2 1.244e-13 2.999e-14 -12.905 -13.523 -0.618 (0) + (H2S)2 9.926e-18 1.079e-17 -17.003 -16.967 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -186495,7 +186451,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -186506,12 +186462,12 @@ Su Ca 7.1884e-02 Cl 4.6599e-10 H 1.2950e-04 - Hto 1.8337e-08 - I 2.0650e-20 + Hto 1.7794e-08 + I 2.0653e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6804e-08 + Nat 3.4465e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -186530,12 +186486,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.554e-07 1.831e-08 + Hto 1.508e-07 1.777e-08 I 1.753e-07 2.065e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.263e-08 7.378e-09 + Nat 5.865e-08 6.909e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -186567,8 +186523,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.117e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.640e-11 - CH4 3.640e-11 3.958e-11 -10.439 -10.403 0.036 35.46 +C(-4) 3.647e-11 + CH4 3.647e-11 3.965e-11 -10.438 -10.402 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -186592,10 +186548,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.016e-11 - H2 1.008e-11 1.096e-11 -10.996 -10.960 0.036 28.61 -Hto 1.554e-07 - Hto 1.554e-07 1.554e-07 -6.809 -6.809 0.000 (0) +H(0) 2.017e-11 + H2 1.009e-11 1.097e-11 -10.996 -10.960 0.036 28.61 +Hto 1.508e-07 + Hto 1.508e-07 1.508e-07 -6.822 -6.822 0.000 (0) I 1.753e-07 I- 1.753e-07 1.753e-07 -6.756 -6.756 -0.000 (0) K 1.540e-03 @@ -186613,15 +186569,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.263e-08 - Nat+ 6.263e-08 6.263e-08 -7.203 -7.203 -0.000 (0) +Nat 5.865e-08 + Nat+ 5.865e-08 5.865e-08 -7.232 -7.232 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.505 -70.468 0.036 30.40 -S(-2) 5.703e-08 - HS- 3.989e-08 2.626e-08 -7.399 -7.581 -0.182 21.14 - H2S 1.714e-08 1.864e-08 -7.766 -7.730 0.036 36.27 - S-2 1.621e-13 3.908e-14 -12.790 -13.408 -0.618 (0) - (H2S)2 1.683e-17 1.830e-17 -16.774 -16.737 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.505 -70.469 0.036 30.40 +S(-2) 5.714e-08 + HS- 3.996e-08 2.631e-08 -7.398 -7.580 -0.182 21.14 + H2S 1.717e-08 1.867e-08 -7.765 -7.729 0.036 36.27 + S-2 1.624e-13 3.915e-14 -12.789 -13.407 -0.618 (0) + (H2S)2 1.689e-17 1.837e-17 -16.772 -16.736 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -186655,7 +186611,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.86 -10.96 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.74 -14.67 -7.94 H2S + H2S(g) -6.73 -14.67 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -186696,7 +186652,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -186707,12 +186663,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 8.0962e-09 - I 8.1593e-21 + Hto 7.6511e-09 + I 8.1610e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1788e-08 + Nat 1.0441e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -186731,12 +186687,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.861e-08 8.083e-09 + Hto 6.484e-08 7.639e-09 I 6.925e-08 8.159e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.006e-08 2.363e-09 + Nat 1.777e-08 2.093e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -186768,8 +186724,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.992e-11 - CH4 3.992e-11 4.340e-11 -10.399 -10.363 0.036 35.46 +C(-4) 3.995e-11 + CH4 3.995e-11 4.344e-11 -10.398 -10.362 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -186793,10 +186749,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.063e-11 +H(0) 2.064e-11 H2 1.032e-11 1.122e-11 -10.986 -10.950 0.036 28.61 -Hto 6.861e-08 - Hto 6.861e-08 6.861e-08 -7.164 -7.164 0.000 (0) +Hto 6.484e-08 + Hto 6.484e-08 6.484e-08 -7.188 -7.188 0.000 (0) I 6.925e-08 I- 6.925e-08 6.925e-08 -7.160 -7.160 -0.000 (0) K 1.540e-03 @@ -186814,15 +186770,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.006e-08 - Nat+ 2.006e-08 2.006e-08 -7.698 -7.698 -0.000 (0) +Nat 1.777e-08 + Nat+ 1.777e-08 1.777e-08 -7.750 -7.750 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.525 -70.489 0.036 30.40 -S(-2) 6.254e-08 - HS- 4.374e-08 2.880e-08 -7.359 -7.541 -0.182 21.14 - H2S 1.879e-08 2.043e-08 -7.726 -7.690 0.036 36.27 - S-2 1.778e-13 4.286e-14 -12.750 -13.368 -0.618 (0) - (H2S)2 2.024e-17 2.200e-17 -16.694 -16.658 0.036 30.09 +S(-2) 6.259e-08 + HS- 4.378e-08 2.882e-08 -7.359 -7.540 -0.182 21.14 + H2S 1.881e-08 2.045e-08 -7.726 -7.689 0.036 36.27 + S-2 1.780e-13 4.290e-14 -12.750 -13.368 -0.618 (0) + (H2S)2 2.027e-17 2.204e-17 -16.693 -16.657 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -186856,7 +186812,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.85 -10.95 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.70 -14.63 -7.94 H2S + H2S(g) -6.69 -14.63 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -186897,7 +186853,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -186908,12 +186864,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 3.0153e-09 + Hto 2.7646e-09 I 2.6883e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0127e-09 + Nat 2.5140e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -186932,12 +186888,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.555e-08 3.010e-09 + Hto 2.343e-08 2.760e-09 I 2.282e-08 2.688e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.126e-09 6.040e-10 + Nat 4.278e-09 5.040e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -186969,8 +186925,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.119e-11 - CH4 4.119e-11 4.479e-11 -10.385 -10.349 0.036 35.46 +C(-4) 4.121e-11 + CH4 4.121e-11 4.481e-11 -10.385 -10.349 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -186996,8 +186952,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.080e-11 H2 1.040e-11 1.131e-11 -10.983 -10.947 0.036 28.61 -Hto 2.555e-08 - Hto 2.555e-08 2.555e-08 -7.593 -7.593 0.000 (0) +Hto 2.343e-08 + Hto 2.343e-08 2.343e-08 -7.630 -7.630 0.000 (0) I 2.282e-08 I- 2.282e-08 2.282e-08 -7.642 -7.642 -0.000 (0) K 1.540e-03 @@ -187015,15 +186971,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.126e-09 - Nat+ 5.126e-09 5.126e-09 -8.290 -8.290 -0.000 (0) +Nat 4.278e-09 + Nat+ 4.278e-09 4.278e-09 -8.369 -8.369 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.532 -70.495 0.036 30.40 -S(-2) 6.454e-08 - HS- 4.514e-08 2.972e-08 -7.345 -7.527 -0.182 21.14 - H2S 1.939e-08 2.109e-08 -7.712 -7.676 0.036 36.27 - S-2 1.835e-13 4.423e-14 -12.736 -13.354 -0.618 (0) - (H2S)2 2.155e-17 2.343e-17 -16.667 -16.630 0.036 30.09 +S(-2) 6.457e-08 + HS- 4.516e-08 2.973e-08 -7.345 -7.527 -0.182 21.14 + H2S 1.940e-08 2.110e-08 -7.712 -7.676 0.036 36.27 + S-2 1.836e-13 4.425e-14 -12.736 -13.354 -0.618 (0) + (H2S)2 2.157e-17 2.345e-17 -16.666 -16.630 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -187098,7 +187054,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -187109,12 +187065,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 9.5859e-10 - I 7.4953e-22 + Hto 8.5039e-10 + I 7.4963e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3267e-10 + Nat 4.9617e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -187133,12 +187089,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.124e-09 9.570e-10 + Hto 7.207e-09 8.490e-10 I 6.361e-09 7.494e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.077e-09 1.268e-10 + Nat 8.443e-10 9.947e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -187170,8 +187126,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.153e-11 - CH4 4.153e-11 4.515e-11 -10.382 -10.345 0.036 35.46 +C(-4) 4.154e-11 + CH4 4.154e-11 4.516e-11 -10.382 -10.345 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -187197,8 +187153,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.084e-11 H2 1.042e-11 1.133e-11 -10.982 -10.946 0.036 28.61 -Hto 8.124e-09 - Hto 8.124e-09 8.124e-09 -8.090 -8.090 0.000 (0) +Hto 7.207e-09 + Hto 7.207e-09 7.207e-09 -8.142 -8.142 0.000 (0) I 6.361e-09 I- 6.361e-09 6.361e-09 -8.196 -8.196 -0.000 (0) K 1.540e-03 @@ -187216,15 +187172,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.077e-09 - Nat+ 1.077e-09 1.077e-09 -8.968 -8.968 -0.000 (0) +Nat 8.443e-10 + Nat+ 8.443e-10 8.443e-10 -9.074 -9.074 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.533 -70.497 0.036 30.40 -S(-2) 6.506e-08 - HS- 4.551e-08 2.996e-08 -7.342 -7.523 -0.182 21.14 - H2S 1.955e-08 2.126e-08 -7.709 -7.673 0.036 36.27 - S-2 1.850e-13 4.459e-14 -12.733 -13.351 -0.618 (0) - (H2S)2 2.190e-17 2.381e-17 -16.660 -16.623 0.036 30.09 +S(-2) 6.508e-08 + HS- 4.552e-08 2.997e-08 -7.342 -7.523 -0.182 21.14 + H2S 1.956e-08 2.126e-08 -7.709 -7.672 0.036 36.27 + S-2 1.850e-13 4.460e-14 -12.733 -13.351 -0.618 (0) + (H2S)2 2.191e-17 2.382e-17 -16.659 -16.623 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -187299,7 +187255,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -187310,12 +187266,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 2.6300e-10 - I 1.7906e-22 + Hto 2.2529e-10 + I 1.7911e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1160e-10 + Nat 8.2132e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -187334,12 +187290,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.229e-09 2.626e-10 + Hto 1.909e-09 2.249e-10 I 1.520e-09 1.791e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.899e-10 2.237e-11 + Nat 1.398e-10 1.646e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -187371,8 +187327,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.146e-11 - CH4 4.146e-11 4.508e-11 -10.382 -10.346 0.036 35.46 +C(-4) 4.147e-11 + CH4 4.147e-11 4.508e-11 -10.382 -10.346 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -187398,8 +187354,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.083e-11 H2 1.042e-11 1.132e-11 -10.982 -10.946 0.036 28.61 -Hto 2.229e-09 - Hto 2.229e-09 2.229e-09 -8.652 -8.652 0.000 (0) +Hto 1.909e-09 + Hto 1.909e-09 1.909e-09 -8.719 -8.719 0.000 (0) I 1.520e-09 I- 1.520e-09 1.520e-09 -8.818 -8.818 -0.000 (0) K 1.540e-03 @@ -187417,15 +187373,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.899e-10 - Nat+ 1.899e-10 1.899e-10 -9.721 -9.721 -0.000 (0) +Nat 1.398e-10 + Nat+ 1.398e-10 1.398e-10 -9.855 -9.855 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.533 -70.497 0.036 30.40 -S(-2) 6.495e-08 - HS- 4.543e-08 2.991e-08 -7.343 -7.524 -0.182 21.14 - H2S 1.952e-08 2.122e-08 -7.710 -7.673 0.036 36.27 +S(-2) 6.496e-08 + HS- 4.544e-08 2.991e-08 -7.343 -7.524 -0.182 21.14 + H2S 1.952e-08 2.123e-08 -7.709 -7.673 0.036 36.27 S-2 1.847e-13 4.452e-14 -12.734 -13.351 -0.618 (0) - (H2S)2 2.183e-17 2.373e-17 -16.661 -16.625 0.036 30.09 + (H2S)2 2.183e-17 2.374e-17 -16.661 -16.625 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -187490,7 +187446,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.814e-11 Surface + diffuse layer charge, eq + -9.818e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -187500,7 +187456,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -187511,12 +187467,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 6.2878e-11 + Hto 5.1927e-11 I 3.7100e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.6820e-11 + Nat 1.1604e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -187535,12 +187491,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.329e-10 6.278e-11 + Hto 4.401e-10 5.184e-11 I 3.149e-10 3.710e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.862e-11 3.372e-12 + Nat 1.975e-11 2.326e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -187558,8 +187514,8 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.478e-09 - Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 + Electrical balance (eq) = 7.878e-11 + Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 Total O = 6.546049e+00 @@ -187599,8 +187555,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.080e-11 H2 1.040e-11 1.131e-11 -10.983 -10.947 0.036 28.61 -Hto 5.329e-10 - Hto 5.329e-10 5.329e-10 -9.273 -9.273 0.000 (0) +Hto 4.401e-10 + Hto 4.401e-10 4.401e-10 -9.356 -9.356 0.000 (0) I 3.149e-10 I- 3.149e-10 3.149e-10 -9.502 -9.502 -0.000 (0) K 1.540e-03 @@ -187618,15 +187574,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.862e-11 - Nat+ 2.862e-11 2.862e-11 -10.543 -10.543 -0.000 (0) +Nat 1.975e-11 + Nat+ 1.975e-11 1.975e-11 -10.705 -10.705 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.532 -70.496 0.036 30.40 S(-2) 6.462e-08 HS- 4.520e-08 2.976e-08 -7.345 -7.526 -0.182 21.14 H2S 1.942e-08 2.111e-08 -7.712 -7.675 0.036 36.27 S-2 1.837e-13 4.429e-14 -12.736 -13.354 -0.618 (0) - (H2S)2 2.160e-17 2.349e-17 -16.665 -16.629 0.036 30.09 + (H2S)2 2.161e-17 2.349e-17 -16.665 -16.629 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -187691,7 +187647,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.806e-11 Surface + diffuse layer charge, eq + -9.807e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -187701,7 +187657,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -187712,12 +187668,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 1.3209e-11 + Hto 1.0505e-11 I 6.7249e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1951e-12 + Nat 1.4187e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -187736,12 +187692,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.119e-10 1.319e-11 + Hto 8.902e-11 1.049e-11 I 5.708e-11 6.724e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.735e-12 4.400e-13 + Nat 2.414e-12 2.844e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -187759,7 +187715,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.426e-09 + Electrical balance (eq) = -1.511e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -187800,8 +187756,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.078e-11 H2 1.039e-11 1.130e-11 -10.983 -10.947 0.036 28.61 -Hto 1.119e-10 - Hto 1.119e-10 1.119e-10 -9.951 -9.951 0.000 (0) +Hto 8.902e-11 + Hto 8.902e-11 8.902e-11 -10.050 -10.050 0.000 (0) I 5.708e-11 I- 5.708e-11 5.708e-11 -10.244 -10.244 -0.000 (0) K 1.540e-03 @@ -187819,15 +187775,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.735e-12 - Nat+ 3.735e-12 3.735e-12 -11.428 -11.428 -0.000 (0) +Nat 2.414e-12 + Nat+ 2.414e-12 2.414e-12 -11.617 -11.617 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.531 -70.495 0.036 30.40 S(-2) 6.432e-08 HS- 4.499e-08 2.962e-08 -7.347 -7.528 -0.182 21.14 H2S 1.933e-08 2.102e-08 -7.714 -7.677 0.036 36.27 S-2 1.829e-13 4.408e-14 -12.738 -13.356 -0.618 (0) - (H2S)2 2.141e-17 2.328e-17 -16.669 -16.633 0.036 30.09 + (H2S)2 2.141e-17 2.327e-17 -16.669 -16.633 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -187902,7 +187858,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -187913,12 +187869,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 2.4556e-12 + Hto 1.8789e-12 I 1.0752e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5069e-13 + Nat 1.5171e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -187937,12 +187893,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.081e-11 2.452e-12 + Hto 1.592e-11 1.876e-12 I 9.126e-12 1.075e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.266e-13 5.026e-14 + Nat 2.582e-13 3.041e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -187960,7 +187916,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.881e-09 + Electrical balance (eq) = -1.884e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -188001,8 +187957,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.077e-11 H2 1.038e-11 1.129e-11 -10.984 -10.947 0.036 28.61 -Hto 2.081e-11 - Hto 2.081e-11 2.081e-11 -10.682 -10.682 0.000 (0) +Hto 1.592e-11 + Hto 1.592e-11 1.592e-11 -10.798 -10.798 0.000 (0) I 9.126e-12 I- 9.126e-12 9.126e-12 -11.040 -11.040 -0.000 (0) K 1.540e-03 @@ -188020,15 +187976,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.266e-13 - Nat+ 4.266e-13 4.266e-13 -12.370 -12.370 -0.000 (0) +Nat 2.582e-13 + Nat+ 2.582e-13 2.582e-13 -12.588 -12.588 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.531 -70.494 0.036 30.40 S(-2) 6.420e-08 - HS- 4.491e-08 2.956e-08 -7.348 -7.529 -0.182 21.14 + HS- 4.490e-08 2.956e-08 -7.348 -7.529 -0.182 21.14 H2S 1.929e-08 2.098e-08 -7.715 -7.678 0.036 36.27 S-2 1.825e-13 4.400e-14 -12.739 -13.357 -0.618 (0) - (H2S)2 2.133e-17 2.319e-17 -16.671 -16.635 0.036 30.09 + (H2S)2 2.132e-17 2.318e-17 -16.671 -16.635 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -188103,7 +188059,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -188114,12 +188070,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 4.0646e-13 + Hto 2.9901e-13 I 1.5265e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5270e-14 + Nat 1.4314e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -188138,12 +188094,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.445e-12 4.058e-13 + Hto 2.534e-12 2.985e-13 I 1.296e-12 1.527e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.300e-14 5.066e-15 + Nat 2.436e-14 2.869e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -188202,8 +188158,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.078e-11 H2 1.039e-11 1.129e-11 -10.983 -10.947 0.036 28.61 -Hto 3.445e-12 - Hto 3.445e-12 3.445e-12 -11.463 -11.463 0.000 (0) +Hto 2.534e-12 + Hto 2.534e-12 2.534e-12 -11.596 -11.596 0.000 (0) I 1.296e-12 I- 1.296e-12 1.296e-12 -11.887 -11.887 -0.000 (0) K 1.540e-03 @@ -188221,15 +188177,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.300e-14 - Nat+ 4.300e-14 4.300e-14 -13.367 -13.367 -0.000 (0) +Nat 2.436e-14 + Nat+ 2.436e-14 2.436e-14 -13.613 -13.613 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.531 -70.495 0.036 30.40 -S(-2) 6.429e-08 - HS- 4.497e-08 2.960e-08 -7.347 -7.529 -0.182 21.14 + O2 0.000e+00 0.000e+00 -70.531 -70.494 0.036 30.40 +S(-2) 6.428e-08 + HS- 4.496e-08 2.960e-08 -7.347 -7.529 -0.182 21.14 H2S 1.932e-08 2.100e-08 -7.714 -7.678 0.036 36.27 - S-2 1.828e-13 4.406e-14 -12.738 -13.356 -0.618 (0) - (H2S)2 2.138e-17 2.325e-17 -16.670 -16.634 0.036 30.09 + S-2 1.828e-13 4.405e-14 -12.738 -13.356 -0.618 (0) + (H2S)2 2.138e-17 2.324e-17 -16.670 -16.634 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -188304,7 +188260,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -188315,12 +188271,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 6.0207e-14 - I 1.9355e-26 + Hto 4.2559e-14 + I 1.9359e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2640e-15 + Nat 1.2000e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -188339,12 +188295,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.102e-13 6.011e-14 + Hto 3.607e-13 4.249e-14 I 1.643e-13 1.936e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.852e-15 4.538e-16 + Nat 2.042e-15 2.406e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -188362,7 +188318,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -4.045e-10 + Electrical balance (eq) = -5.719e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -188376,8 +188332,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.123e-11 - CH4 4.123e-11 4.482e-11 -10.385 -10.349 0.036 35.46 +C(-4) 4.122e-11 + CH4 4.122e-11 4.482e-11 -10.385 -10.349 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -188403,8 +188359,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.080e-11 H2 1.040e-11 1.131e-11 -10.983 -10.947 0.036 28.61 -Hto 5.102e-13 - Hto 5.102e-13 5.102e-13 -12.292 -12.292 0.000 (0) +Hto 3.607e-13 + Hto 3.607e-13 3.607e-13 -12.443 -12.443 0.000 (0) I 1.643e-13 I- 1.643e-13 1.643e-13 -12.784 -12.784 -0.000 (0) K 1.540e-03 @@ -188422,15 +188378,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.852e-15 - Nat+ 3.852e-15 3.852e-15 -14.414 -14.414 -0.000 (0) +Nat 2.042e-15 + Nat+ 2.042e-15 2.042e-15 -14.690 -14.690 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.532 -70.496 0.036 30.40 -S(-2) 6.459e-08 +S(-2) 6.458e-08 HS- 4.518e-08 2.974e-08 -7.345 -7.527 -0.182 21.14 H2S 1.941e-08 2.110e-08 -7.712 -7.676 0.036 36.27 S-2 1.836e-13 4.426e-14 -12.736 -13.354 -0.618 (0) - (H2S)2 2.158e-17 2.347e-17 -16.666 -16.630 0.036 30.09 + (H2S)2 2.158e-17 2.346e-17 -16.666 -16.630 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -188505,7 +188461,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -188516,12 +188472,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 8.0158e-15 - I 2.2017e-27 + Hto 5.4422e-15 + I 2.2025e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8129e-16 + Nat 8.9899e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -188540,12 +188496,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.793e-14 8.003e-15 + Hto 4.612e-14 5.433e-15 I 1.869e-14 2.202e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.085e-16 3.634e-17 + Nat 1.530e-16 1.802e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -188602,10 +188558,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.083e-11 +H(0) 2.084e-11 H2 1.042e-11 1.133e-11 -10.982 -10.946 0.036 28.61 -Hto 6.793e-14 - Hto 6.793e-14 6.793e-14 -13.168 -13.168 0.000 (0) +Hto 4.612e-14 + Hto 4.612e-14 4.612e-14 -13.336 -13.336 0.000 (0) I 1.869e-14 I- 1.869e-14 1.869e-14 -13.728 -13.728 -0.000 (0) K 1.540e-03 @@ -188623,15 +188579,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.085e-16 - Nat+ 3.085e-16 3.085e-16 -15.511 -15.511 -0.000 (0) +Nat 1.530e-16 + Nat+ 1.530e-16 1.530e-16 -15.815 -15.815 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.533 -70.497 0.036 30.40 S(-2) 6.501e-08 - HS- 4.547e-08 2.994e-08 -7.342 -7.524 -0.182 21.14 + HS- 4.548e-08 2.994e-08 -7.342 -7.524 -0.182 21.14 H2S 1.954e-08 2.124e-08 -7.709 -7.673 0.036 36.27 - S-2 1.848e-13 4.455e-14 -12.733 -13.351 -0.618 (0) - (H2S)2 2.187e-17 2.377e-17 -16.660 -16.624 0.036 30.09 + S-2 1.848e-13 4.456e-14 -12.733 -13.351 -0.618 (0) + (H2S)2 2.187e-17 2.378e-17 -16.660 -16.624 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -188706,7 +188662,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -188717,12 +188673,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 9.6268e-16 + Hto 6.2753e-16 I 2.2571e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3037e-17 + Nat 6.0470e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -188741,12 +188697,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.158e-15 9.611e-16 + Hto 5.318e-15 6.265e-16 I 1.916e-15 2.257e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.218e-17 2.613e-18 + Nat 1.029e-17 1.212e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -188805,8 +188761,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.086e-11 H2 1.043e-11 1.134e-11 -10.982 -10.945 0.036 28.61 -Hto 8.158e-15 - Hto 8.158e-15 8.158e-15 -14.088 -14.088 0.000 (0) +Hto 5.318e-15 + Hto 5.318e-15 5.318e-15 -14.274 -14.274 0.000 (0) I 1.916e-15 I- 1.916e-15 1.916e-15 -14.718 -14.718 -0.000 (0) K 1.540e-03 @@ -188824,15 +188780,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.218e-17 - Nat+ 2.218e-17 2.218e-17 -16.654 -16.654 -0.000 (0) +Nat 1.029e-17 + Nat+ 1.029e-17 1.029e-17 -16.988 -16.988 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.534 -70.498 0.036 30.40 S(-2) 6.535e-08 HS- 4.571e-08 3.009e-08 -7.340 -7.522 -0.182 21.14 H2S 1.964e-08 2.135e-08 -7.707 -7.671 0.036 36.27 S-2 1.858e-13 4.479e-14 -12.731 -13.349 -0.618 (0) - (H2S)2 2.209e-17 2.402e-17 -16.656 -16.619 0.036 30.09 + (H2S)2 2.210e-17 2.402e-17 -16.656 -16.619 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -188907,7 +188863,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -188918,12 +188874,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 1.0461e-16 - I 2.0902e-29 + Hto 6.5449e-17 + I 2.0905e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.4507e-19 + Nat 3.6660e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -188942,12 +188898,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.865e-16 1.044e-16 + Hto 5.547e-16 6.534e-17 I 1.774e-16 2.090e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.438e-18 1.694e-19 + Nat 6.238e-19 7.349e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -188979,8 +188935,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.182e-11 - CH4 4.182e-11 4.547e-11 -10.379 -10.342 0.036 35.46 +C(-4) 4.183e-11 + CH4 4.183e-11 4.547e-11 -10.379 -10.342 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -189006,8 +188962,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 8.865e-16 - Hto 8.865e-16 8.865e-16 -15.052 -15.052 0.000 (0) +Hto 5.547e-16 + Hto 5.547e-16 5.547e-16 -15.256 -15.256 0.000 (0) I 1.774e-16 I- 1.774e-16 1.774e-16 -15.751 -15.751 -0.000 (0) K 1.540e-03 @@ -189025,11 +188981,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.438e-18 - Nat+ 1.438e-18 1.438e-18 -17.842 -17.842 -0.000 (0) +Nat 6.238e-19 + Nat+ 6.238e-19 6.238e-19 -18.205 -18.205 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 -S(-2) 6.552e-08 +S(-2) 6.553e-08 HS- 4.583e-08 3.017e-08 -7.339 -7.520 -0.182 21.14 H2S 1.969e-08 2.141e-08 -7.706 -7.669 0.036 36.27 S-2 1.863e-13 4.491e-14 -12.730 -13.348 -0.618 (0) @@ -189108,7 +189064,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -189119,12 +189075,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 1.0310e-17 + Hto 6.1900e-18 I 1.7541e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9532e-20 + Nat 2.0095e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -189143,12 +189099,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.738e-17 1.029e-17 + Hto 5.246e-17 6.180e-18 I 1.489e-17 1.754e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.428e-20 9.930e-21 + Nat 3.419e-20 4.028e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -189207,8 +189163,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 8.738e-17 - Hto 8.738e-17 8.738e-17 -16.059 -16.059 0.000 (0) +Hto 5.246e-17 + Hto 5.246e-17 5.246e-17 -16.280 -16.280 0.000 (0) I 1.489e-17 I- 1.489e-17 1.489e-17 -16.827 -16.827 -0.000 (0) K 1.540e-03 @@ -189226,8 +189182,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.428e-20 - Nat+ 8.428e-20 8.428e-20 -19.074 -19.074 -0.000 (0) +Nat 3.419e-20 + Nat+ 3.419e-20 3.419e-20 -19.466 -19.466 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 S(-2) 6.559e-08 @@ -189309,7 +189265,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -189320,12 +189276,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 9.2358e-19 - I 1.3364e-31 + Hto 5.3196e-19 + I 1.3366e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6315e-21 + Nat 9.9821e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -189344,12 +189300,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.827e-18 9.221e-19 + Hto 4.508e-18 5.311e-19 I 1.134e-18 1.336e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.478e-21 5.275e-22 + Nat 1.699e-21 2.001e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -189408,8 +189364,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 7.827e-18 - Hto 7.827e-18 7.827e-18 -17.106 -17.106 0.000 (0) +Hto 4.508e-18 + Hto 4.508e-18 4.508e-18 -17.346 -17.346 0.000 (0) I 1.134e-18 I- 1.134e-18 1.134e-18 -17.945 -17.945 -0.000 (0) K 1.540e-03 @@ -189427,8 +189383,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.478e-21 - Nat+ 4.478e-21 4.478e-21 -20.349 -20.349 -0.000 (0) +Nat 1.699e-21 + Nat+ 1.699e-21 1.699e-21 -20.770 -20.770 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 S(-2) 6.561e-08 @@ -189510,7 +189466,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -189521,12 +189477,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 7.5307e-20 - I 9.2640e-33 + Hto 4.1605e-20 + I 9.2625e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2685e-22 + Nat 4.4881e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -189545,12 +189501,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.382e-19 7.519e-20 + Hto 3.526e-19 4.154e-20 I 7.863e-20 9.263e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.158e-22 2.543e-23 + Nat 7.637e-23 8.997e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -189609,8 +189565,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 6.382e-19 - Hto 6.382e-19 6.382e-19 -18.195 -18.195 0.000 (0) +Hto 3.526e-19 + Hto 3.526e-19 3.526e-19 -18.453 -18.453 0.000 (0) I 7.863e-20 I- 7.863e-20 7.863e-20 -19.104 -19.104 -0.000 (0) K 1.540e-03 @@ -189628,8 +189584,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.158e-22 - Nat+ 2.158e-22 2.158e-22 -21.666 -21.666 -0.000 (0) +Nat 7.637e-23 + Nat+ 7.637e-23 7.637e-23 -22.117 -22.117 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 S(-2) 6.561e-08 @@ -189711,7 +189667,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -189722,12 +189678,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 5.5970e-21 + Hto 2.9654e-21 I 5.8474e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3619e-24 + Nat 1.6312e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -189746,12 +189702,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.743e-20 5.588e-21 + Hto 2.513e-20 2.961e-21 I 4.963e-21 5.847e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.124e-24 1.075e-24 + Nat 2.776e-24 3.270e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -189810,8 +189766,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 4.743e-20 - Hto 4.743e-20 4.743e-20 -19.324 -19.324 0.000 (0) +Hto 2.513e-20 + Hto 2.513e-20 2.513e-20 -19.600 -19.600 0.000 (0) I 4.963e-21 I- 4.963e-21 4.963e-21 -20.304 -20.304 -0.000 (0) K 1.540e-03 @@ -189829,8 +189785,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.124e-24 - Nat+ 9.124e-24 9.124e-24 -23.040 -23.040 -0.000 (0) +Nat 2.776e-24 + Nat+ 2.776e-24 2.776e-24 -23.557 -23.557 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 S(-2) 6.561e-08 @@ -189912,7 +189868,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -189923,8 +189879,8 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 4.0256e-22 - I 3.5318e-35 + Hto 2.0401e-22 + I 3.5329e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 @@ -189946,7 +189902,7 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.412e-21 4.019e-22 + Hto 1.729e-21 2.037e-22 I 2.998e-22 3.532e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 @@ -190009,8 +189965,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.088e-11 H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 3.412e-21 - Hto 3.412e-21 3.412e-21 -20.467 -20.467 0.000 (0) +Hto 1.729e-21 + Hto 1.729e-21 1.729e-21 -20.762 -20.762 0.000 (0) I 2.998e-22 I- 2.998e-22 2.998e-22 -21.523 -21.523 -0.000 (0) K 1.540e-03 @@ -190398,30 +190354,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.196e-07 2.598e-07 + Hto 5.250e-07 2.625e-07 I 7.013e-07 3.506e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.889e-07 1.444e-07 + Nat 2.960e-07 1.480e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.053 Adjusted to redox equilibrium + pe = -3.052 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.824e-13 + Electrical balance (eq) = -3.293e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -190435,11 +190391,11 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.210e-12 - CH4 3.210e-12 3.490e-12 -11.493 -11.457 0.036 35.46 +C(-4) 3.148e-12 + CH4 3.148e-12 3.422e-12 -11.502 -11.466 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 - CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 + CO2 2.603e-04 2.751e-04 -3.584 -3.560 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 @@ -190460,10 +190416,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.098e-11 - H2 5.492e-12 5.971e-12 -11.260 -11.224 0.036 28.61 -Hto 5.196e-07 - Hto 5.196e-07 5.196e-07 -6.284 -6.284 0.000 (0) +H(0) 1.093e-11 + H2 5.465e-12 5.942e-12 -11.262 -11.226 0.036 28.61 +Hto 5.250e-07 + Hto 5.250e-07 5.250e-07 -6.280 -6.280 0.000 (0) I 7.013e-07 I- 7.013e-07 7.013e-07 -6.154 -6.154 -0.000 (0) K 1.540e-03 @@ -190481,15 +190437,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.889e-07 - Nat+ 2.889e-07 2.889e-07 -6.539 -6.539 -0.000 (0) +Nat 2.960e-07 + Nat+ 2.960e-07 2.960e-07 -6.529 -6.529 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.977 -69.941 0.036 30.40 -S(-2) 5.032e-09 - HS- 3.518e-09 2.316e-09 -8.454 -8.635 -0.182 21.14 - H2S 1.514e-09 1.646e-09 -8.820 -8.784 0.036 36.27 - S-2 1.428e-14 3.442e-15 -13.845 -14.463 -0.618 (0) - (H2S)2 1.313e-19 1.427e-19 -18.882 -18.845 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.973 -69.937 0.036 30.40 +S(-2) 4.934e-09 + HS- 3.450e-09 2.271e-09 -8.462 -8.644 -0.182 21.14 + H2S 1.484e-09 1.614e-09 -8.828 -8.792 0.036 36.27 + S-2 1.400e-14 3.375e-15 -13.854 -14.472 -0.618 (0) + (H2S)2 1.262e-19 1.372e-19 -18.899 -18.862 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -190516,21 +190472,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.66 -11.46 -2.80 CH4 + CH4(g) -8.66 -11.47 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -8.12 -11.22 -3.10 H2 + H2(g) -8.12 -11.23 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.79 -15.73 -7.94 H2S + H2S(g) -7.80 -15.73 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.05 -69.94 -2.89 O2 + O2(g) -67.04 -69.94 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.59 -0.71 4.88 S + Sulfur -5.60 -0.72 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -190554,7 +190510,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -4.924e-14 Surface + diffuse layer charge, eq + -5.024e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -190564,7 +190520,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -190575,12 +190531,12 @@ Su Ca 7.1884e-02 Cl 4.6650e-10 H 1.2948e-04 - Hto 5.3788e-08 - I 7.2580e-20 + Hto 5.4133e-08 + I 7.2567e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5345e-07 + Nat 1.5632e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -190599,30 +190555,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.558e-07 5.370e-08 + Hto 4.588e-07 5.405e-08 I 6.160e-07 7.257e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.611e-07 3.076e-08 + Nat 2.660e-07 3.134e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.107 Adjusted to redox equilibrium + pe = -3.106 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.678e-09 + Electrical balance (eq) = 1.669e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -190634,10 +190590,10 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 - H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 + H+ 1.048e-07 8.126e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.608e-12 - CH4 8.608e-12 9.359e-12 -11.065 -11.029 0.036 35.46 +C(-4) 8.549e-12 + CH4 8.549e-12 9.294e-12 -11.068 -11.032 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -190647,7 +190603,7 @@ C(4) 2.744e-03 CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.380e-06 8.602e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.379e-06 8.602e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.277e-09 1.389e-09 -8.894 -8.857 0.036 68.87 @@ -190661,10 +190617,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.406e-11 - H2 7.029e-12 7.642e-12 -11.153 -11.117 0.036 28.61 -Hto 4.558e-07 - Hto 4.558e-07 4.558e-07 -6.341 -6.341 0.000 (0) +H(0) 1.403e-11 + H2 7.016e-12 7.628e-12 -11.154 -11.118 0.036 28.61 +Hto 4.588e-07 + Hto 4.588e-07 4.588e-07 -6.338 -6.338 0.000 (0) I 6.160e-07 I- 6.160e-07 6.160e-07 -6.210 -6.210 -0.000 (0) K 1.540e-03 @@ -190682,15 +190638,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.611e-07 - Nat+ 2.611e-07 2.611e-07 -6.583 -6.583 -0.000 (0) +Nat 2.660e-07 + Nat+ 2.660e-07 2.660e-07 -6.575 -6.575 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.191 -70.155 0.036 30.40 -S(-2) 1.349e-08 - HS- 9.435e-09 6.211e-09 -8.025 -8.207 -0.182 21.14 - H2S 4.059e-09 4.413e-09 -8.392 -8.355 0.036 36.27 - S-2 3.830e-14 9.233e-15 -13.417 -14.035 -0.618 (0) - (H2S)2 9.437e-19 1.026e-18 -18.025 -17.989 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.190 -70.154 0.036 30.40 +S(-2) 1.340e-08 + HS- 9.370e-09 6.168e-09 -8.028 -8.210 -0.182 21.14 + H2S 4.030e-09 4.382e-09 -8.395 -8.358 0.036 36.27 + S-2 3.804e-14 9.169e-15 -13.420 -14.038 -0.618 (0) + (H2S)2 9.307e-19 1.012e-18 -18.031 -17.995 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -190729,7 +190685,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.26 -70.16 -2.89 O2 + O2(g) -67.26 -70.15 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.27 -0.39 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -190755,7 +190711,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.516e-11 Surface + diffuse layer charge, eq + -9.514e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -190765,7 +190721,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -190776,12 +190732,12 @@ Su Ca 7.1884e-02 Cl 4.6613e-10 H 1.2949e-04 - Hto 3.4789e-08 - I 4.3311e-20 + Hto 3.4505e-08 + I 4.3305e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.8702e-08 + Nat 8.7285e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -190800,12 +190756,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.948e-07 3.473e-08 + Hto 2.924e-07 3.445e-08 I 3.676e-07 4.331e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.509e-07 1.778e-08 + Nat 1.485e-07 1.750e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -190823,7 +190779,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.570e-09 + Electrical balance (eq) = 2.536e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -190837,8 +190793,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.845e-11 - CH4 2.845e-11 3.093e-11 -10.546 -10.510 0.036 35.46 +C(-4) 2.852e-11 + CH4 2.852e-11 3.101e-11 -10.545 -10.508 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -190862,10 +190818,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.896e-11 - H2 9.478e-12 1.030e-11 -11.023 -10.987 0.036 28.61 -Hto 2.948e-07 - Hto 2.948e-07 2.948e-07 -6.530 -6.530 0.000 (0) +H(0) 1.897e-11 + H2 9.484e-12 1.031e-11 -11.023 -10.987 0.036 28.61 +Hto 2.924e-07 + Hto 2.924e-07 2.924e-07 -6.534 -6.534 0.000 (0) I 3.676e-07 I- 3.676e-07 3.676e-07 -6.435 -6.435 -0.000 (0) K 1.540e-03 @@ -190883,15 +190839,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.509e-07 - Nat+ 1.509e-07 1.509e-07 -6.821 -6.821 -0.000 (0) +Nat 1.485e-07 + Nat+ 1.485e-07 1.485e-07 -6.828 -6.828 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.451 -70.415 0.036 30.40 -S(-2) 4.458e-08 - HS- 3.118e-08 2.052e-08 -7.506 -7.688 -0.182 21.14 - H2S 1.340e-08 1.457e-08 -7.873 -7.837 0.036 36.27 - S-2 1.267e-13 3.053e-14 -12.897 -13.515 -0.618 (0) - (H2S)2 1.029e-17 1.119e-17 -16.988 -16.951 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.452 -70.415 0.036 30.40 +S(-2) 4.469e-08 + HS- 3.126e-08 2.058e-08 -7.505 -7.687 -0.182 21.14 + H2S 1.344e-08 1.461e-08 -7.872 -7.835 0.036 36.27 + S-2 1.270e-13 3.061e-14 -12.896 -13.514 -0.618 (0) + (H2S)2 1.034e-17 1.124e-17 -16.985 -16.949 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -190930,7 +190886,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.52 -70.41 -2.89 O2 + O2(g) -67.52 -70.42 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.88 0.00 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -190966,7 +190922,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -190977,12 +190933,12 @@ Su Ca 7.1884e-02 Cl 4.6597e-10 H 1.2950e-04 - Hto 1.8660e-08 - I 2.1103e-20 + Hto 1.8122e-08 + I 2.1106e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7661e-08 + Nat 3.5325e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -191001,12 +190957,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.581e-07 1.863e-08 + Hto 1.536e-07 1.809e-08 I 1.791e-07 2.110e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.408e-08 7.550e-09 + Nat 6.011e-08 7.082e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -191038,8 +190994,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.720e-11 - CH4 3.720e-11 4.045e-11 -10.429 -10.393 0.036 35.46 +C(-4) 3.727e-11 + CH4 3.727e-11 4.052e-11 -10.429 -10.392 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -191063,10 +191019,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.027e-11 - H2 1.014e-11 1.102e-11 -10.994 -10.958 0.036 28.61 -Hto 1.581e-07 - Hto 1.581e-07 1.581e-07 -6.801 -6.801 0.000 (0) +H(0) 2.028e-11 + H2 1.014e-11 1.103e-11 -10.994 -10.958 0.036 28.61 +Hto 1.536e-07 + Hto 1.536e-07 1.536e-07 -6.814 -6.814 0.000 (0) I 1.791e-07 I- 1.791e-07 1.791e-07 -6.747 -6.747 -0.000 (0) K 1.540e-03 @@ -191084,15 +191040,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.408e-08 - Nat+ 6.408e-08 6.408e-08 -7.193 -7.193 -0.000 (0) +Nat 6.011e-08 + Nat+ 6.011e-08 6.011e-08 -7.221 -7.221 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.510 -70.473 0.036 30.40 -S(-2) 5.829e-08 - HS- 4.077e-08 2.684e-08 -7.390 -7.571 -0.182 21.14 - H2S 1.752e-08 1.905e-08 -7.757 -7.720 0.036 36.27 - S-2 1.657e-13 3.994e-14 -12.781 -13.399 -0.618 (0) - (H2S)2 1.758e-17 1.911e-17 -16.755 -16.719 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.510 -70.474 0.036 30.40 +S(-2) 5.839e-08 + HS- 4.084e-08 2.689e-08 -7.389 -7.570 -0.182 21.14 + H2S 1.755e-08 1.908e-08 -7.756 -7.719 0.036 36.27 + S-2 1.660e-13 4.001e-14 -12.780 -13.398 -0.618 (0) + (H2S)2 1.764e-17 1.918e-17 -16.753 -16.717 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -191126,7 +191082,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.86 -10.96 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.73 -14.66 -7.94 H2S + H2S(g) -6.72 -14.66 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -191167,7 +191123,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -191178,12 +191134,12 @@ Su Ca 7.1884e-02 Cl 4.6591e-10 H 1.2950e-04 - Hto 8.3713e-09 + Hto 7.9207e-09 I 8.4819e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2314e-08 + Nat 1.0931e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -191202,12 +191158,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.094e-08 8.358e-09 + Hto 6.712e-08 7.908e-09 I 7.198e-08 8.480e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.095e-08 2.469e-09 + Nat 1.860e-08 2.191e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -191239,8 +191195,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.084e-11 - CH4 4.084e-11 4.440e-11 -10.389 -10.353 0.036 35.46 +C(-4) 4.088e-11 + CH4 4.088e-11 4.445e-11 -10.388 -10.352 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -191250,7 +191206,7 @@ C(4) 2.744e-03 CaCO3 9.022e-06 9.809e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.633e-06 3.950e-06 -5.440 -5.403 0.036 -17.09 - CO3-2 3.384e-06 8.614e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.384e-06 8.615e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.734e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.540e-08 7.111e-08 -7.184 -7.148 0.036 -14.13 (CO2)2 1.274e-09 1.386e-09 -8.895 -8.858 0.036 68.87 @@ -191264,10 +191220,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.075e-11 +H(0) 2.076e-11 H2 1.038e-11 1.128e-11 -10.984 -10.948 0.036 28.61 -Hto 7.094e-08 - Hto 7.094e-08 7.094e-08 -7.149 -7.149 0.000 (0) +Hto 6.712e-08 + Hto 6.712e-08 6.712e-08 -7.173 -7.173 0.000 (0) I 7.198e-08 I- 7.198e-08 7.198e-08 -7.143 -7.143 -0.000 (0) K 1.540e-03 @@ -191285,15 +191241,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.095e-08 - Nat+ 2.095e-08 2.095e-08 -7.679 -7.679 -0.000 (0) +Nat 1.860e-08 + Nat+ 1.860e-08 1.860e-08 -7.730 -7.730 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.530 -70.493 0.036 30.40 -S(-2) 6.398e-08 - HS- 4.475e-08 2.946e-08 -7.349 -7.531 -0.182 21.14 - H2S 1.923e-08 2.090e-08 -7.716 -7.680 0.036 36.27 - S-2 1.819e-13 4.385e-14 -12.740 -13.358 -0.618 (0) - (H2S)2 2.118e-17 2.303e-17 -16.674 -16.638 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.530 -70.494 0.036 30.40 +S(-2) 6.404e-08 + HS- 4.480e-08 2.949e-08 -7.349 -7.530 -0.182 21.14 + H2S 1.925e-08 2.092e-08 -7.716 -7.679 0.036 36.27 + S-2 1.821e-13 4.389e-14 -12.740 -13.358 -0.618 (0) + (H2S)2 2.122e-17 2.307e-17 -16.673 -16.637 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -191302,7 +191258,7 @@ S(6) 1.260e-02 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - HSO4- 1.307e-08 9.552e-09 -7.884 -8.020 -0.136 40.78 + HSO4- 1.307e-08 9.551e-09 -7.884 -8.020 -0.136 40.78 CaHSO4+ 1.065e-09 7.784e-10 -8.973 -9.109 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 @@ -191327,7 +191283,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.85 -10.95 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.69 -14.62 -7.94 H2S + H2S(g) -6.68 -14.62 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -191368,7 +191324,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -191379,12 +191335,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 3.1765e-09 - I 2.8505e-21 + Hto 2.9171e-09 + I 2.8501e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2202e-09 + Nat 2.6940e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -191403,12 +191359,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.692e-08 3.171e-09 + Hto 2.472e-08 2.912e-09 I 2.419e-08 2.850e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.480e-09 6.455e-10 + Nat 4.584e-09 5.401e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -191440,8 +191396,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.217e-11 - CH4 4.217e-11 4.585e-11 -10.375 -10.339 0.036 35.46 +C(-4) 4.219e-11 + CH4 4.219e-11 4.588e-11 -10.375 -10.338 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -191467,8 +191423,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.092e-11 H2 1.046e-11 1.137e-11 -10.980 -10.944 0.036 28.61 -Hto 2.692e-08 - Hto 2.692e-08 2.692e-08 -7.570 -7.570 0.000 (0) +Hto 2.472e-08 + Hto 2.472e-08 2.472e-08 -7.607 -7.607 0.000 (0) I 2.419e-08 I- 2.419e-08 2.419e-08 -7.616 -7.616 -0.000 (0) K 1.540e-03 @@ -191486,15 +191442,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.480e-09 - Nat+ 5.480e-09 5.480e-09 -8.261 -8.261 -0.000 (0) +Nat 4.584e-09 + Nat+ 4.584e-09 4.584e-09 -8.339 -8.339 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.537 -70.500 0.036 30.40 -S(-2) 6.607e-08 - HS- 4.622e-08 3.042e-08 -7.335 -7.517 -0.182 21.14 - H2S 1.985e-08 2.159e-08 -7.702 -7.666 0.036 36.27 - S-2 1.879e-13 4.528e-14 -12.726 -13.344 -0.618 (0) - (H2S)2 2.258e-17 2.455e-17 -16.646 -16.610 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.537 -70.501 0.036 30.40 +S(-2) 6.610e-08 + HS- 4.624e-08 3.044e-08 -7.335 -7.517 -0.182 21.14 + H2S 1.986e-08 2.160e-08 -7.702 -7.666 0.036 36.27 + S-2 1.879e-13 4.531e-14 -12.726 -13.344 -0.618 (0) + (H2S)2 2.261e-17 2.458e-17 -16.646 -16.609 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -191569,7 +191525,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -191580,12 +191536,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.0311e-09 - I 8.1219e-22 + Hto 9.1651e-10 + I 8.1208e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.9298e-10 + Nat 5.4502e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -191604,12 +191560,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.739e-09 1.029e-09 + Hto 7.767e-09 9.150e-10 I 6.893e-09 8.121e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.179e-09 1.389e-10 + Nat 9.274e-10 1.093e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -191641,8 +191597,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.253e-11 - CH4 4.253e-11 4.624e-11 -10.371 -10.335 0.036 35.46 +C(-4) 4.254e-11 + CH4 4.254e-11 4.625e-11 -10.371 -10.335 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -191652,7 +191608,7 @@ C(4) 2.744e-03 CaCO3 9.023e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.633e-06 3.950e-06 -5.440 -5.403 0.036 -17.09 - CO3-2 3.385e-06 8.615e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.385e-06 8.615e-07 -5.470 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.734e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.541e-08 7.111e-08 -7.184 -7.148 0.036 -14.13 (CO2)2 1.274e-09 1.385e-09 -8.895 -8.858 0.036 68.87 @@ -191666,10 +191622,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.096e-11 +H(0) 2.097e-11 H2 1.048e-11 1.140e-11 -10.980 -10.943 0.036 28.61 -Hto 8.739e-09 - Hto 8.739e-09 8.739e-09 -8.059 -8.059 0.000 (0) +Hto 7.767e-09 + Hto 7.767e-09 7.767e-09 -8.110 -8.110 0.000 (0) I 6.893e-09 I- 6.893e-09 6.893e-09 -8.162 -8.162 -0.000 (0) K 1.540e-03 @@ -191687,15 +191643,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.179e-09 - Nat+ 1.179e-09 1.179e-09 -8.928 -8.928 -0.000 (0) +Nat 9.274e-10 + Nat+ 9.274e-10 9.274e-10 -9.033 -9.033 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.539 -70.502 0.036 30.40 -S(-2) 6.663e-08 - HS- 4.661e-08 3.068e-08 -7.332 -7.513 -0.182 21.14 - H2S 2.002e-08 2.177e-08 -7.698 -7.662 0.036 36.27 - S-2 1.895e-13 4.567e-14 -12.722 -13.340 -0.618 (0) - (H2S)2 2.297e-17 2.497e-17 -16.639 -16.603 0.036 30.09 +S(-2) 6.665e-08 + HS- 4.662e-08 3.069e-08 -7.331 -7.513 -0.182 21.14 + H2S 2.003e-08 2.178e-08 -7.698 -7.662 0.036 36.27 + S-2 1.895e-13 4.568e-14 -12.722 -13.340 -0.618 (0) + (H2S)2 2.298e-17 2.499e-17 -16.639 -16.602 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -191770,7 +191726,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -191781,12 +191737,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 2.8942e-10 - I 1.9873e-22 + Hto 2.4846e-10 + I 1.9876e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2543e-10 + Nat 9.2594e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -191805,12 +191761,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.453e-09 2.889e-10 + Hto 2.106e-09 2.481e-10 I 1.687e-09 1.987e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.134e-10 2.514e-11 + Nat 1.576e-10 1.856e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -191843,7 +191799,7 @@ Su H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.248e-11 - CH4 4.248e-11 4.618e-11 -10.372 -10.336 0.036 35.46 + CH4 4.248e-11 4.619e-11 -10.372 -10.335 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -191869,8 +191825,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.096e-11 H2 1.048e-11 1.139e-11 -10.980 -10.943 0.036 28.61 -Hto 2.453e-09 - Hto 2.453e-09 2.453e-09 -8.610 -8.610 0.000 (0) +Hto 2.106e-09 + Hto 2.106e-09 2.106e-09 -8.677 -8.677 0.000 (0) I 1.687e-09 I- 1.687e-09 1.687e-09 -8.773 -8.773 -0.000 (0) K 1.540e-03 @@ -191888,15 +191844,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.134e-10 - Nat+ 2.134e-10 2.134e-10 -9.671 -9.671 -0.000 (0) +Nat 1.576e-10 + Nat+ 1.576e-10 1.576e-10 -9.803 -9.803 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.538 -70.502 0.036 30.40 -S(-2) 6.654e-08 - HS- 4.655e-08 3.064e-08 -7.332 -7.514 -0.182 21.14 +S(-2) 6.655e-08 + HS- 4.655e-08 3.065e-08 -7.332 -7.514 -0.182 21.14 H2S 2.000e-08 2.174e-08 -7.699 -7.663 0.036 36.27 S-2 1.892e-13 4.561e-14 -12.723 -13.341 -0.618 (0) - (H2S)2 2.291e-17 2.491e-17 -16.640 -16.604 0.036 30.09 + (H2S)2 2.292e-17 2.491e-17 -16.640 -16.604 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -191961,7 +191917,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.843e-11 Surface + diffuse layer charge, eq + -9.847e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -191971,7 +191927,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -191982,12 +191938,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 7.0899e-11 + Hto 5.8695e-11 I 4.2212e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9421e-11 + Nat 1.3442e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -192006,12 +191962,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.008e-10 7.078e-11 + Hto 4.974e-10 5.860e-11 I 3.583e-10 4.221e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.305e-11 3.893e-12 + Nat 2.287e-11 2.695e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -192029,7 +191985,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.576e-09 + Electrical balance (eq) = -1.939e-11 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -192070,8 +192026,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.093e-11 H2 1.047e-11 1.138e-11 -10.980 -10.944 0.036 28.61 -Hto 6.008e-10 - Hto 6.008e-10 6.008e-10 -9.221 -9.221 0.000 (0) +Hto 4.974e-10 + Hto 4.974e-10 4.974e-10 -9.303 -9.303 0.000 (0) I 3.583e-10 I- 3.583e-10 3.583e-10 -9.446 -9.446 -0.000 (0) K 1.540e-03 @@ -192089,12 +192045,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.305e-11 - Nat+ 3.305e-11 3.305e-11 -10.481 -10.481 -0.000 (0) +Nat 2.287e-11 + Nat+ 2.287e-11 2.287e-11 -10.641 -10.641 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.537 -70.501 0.036 30.40 S(-2) 6.622e-08 - HS- 4.632e-08 3.049e-08 -7.334 -7.516 -0.182 21.14 + HS- 4.632e-08 3.050e-08 -7.334 -7.516 -0.182 21.14 H2S 1.990e-08 2.164e-08 -7.701 -7.665 0.036 36.27 S-2 1.883e-13 4.539e-14 -12.725 -13.343 -0.618 (0) (H2S)2 2.269e-17 2.467e-17 -16.644 -16.608 0.036 30.09 @@ -192172,7 +192128,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -192183,12 +192139,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 1.5284e-11 + Hto 1.2187e-11 I 7.8566e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6065e-12 + Nat 1.6903e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -192207,12 +192163,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.295e-10 1.526e-11 + Hto 1.033e-10 1.217e-11 I 6.669e-11 7.856e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.435e-12 5.225e-13 + Nat 2.876e-12 3.389e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -192230,7 +192186,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.524e-09 + Electrical balance (eq) = -1.609e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -192271,8 +192227,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.091e-11 H2 1.045e-11 1.137e-11 -10.981 -10.944 0.036 28.61 -Hto 1.295e-10 - Hto 1.295e-10 1.295e-10 -9.888 -9.888 0.000 (0) +Hto 1.033e-10 + Hto 1.033e-10 1.033e-10 -9.986 -9.986 0.000 (0) I 6.669e-11 I- 6.669e-11 6.669e-11 -10.176 -10.176 -0.000 (0) K 1.540e-03 @@ -192290,8 +192246,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.435e-12 - Nat+ 4.435e-12 4.435e-12 -11.353 -11.353 -0.000 (0) +Nat 2.876e-12 + Nat+ 2.876e-12 2.876e-12 -11.541 -11.541 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.536 -70.500 0.036 30.40 S(-2) 6.593e-08 @@ -192373,7 +192329,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -192384,12 +192340,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 2.9196e-12 + Hto 2.2404e-12 I 1.2917e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0647e-13 + Nat 1.8612e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -192408,12 +192364,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.474e-11 2.915e-12 + Hto 1.899e-11 2.237e-12 I 1.096e-11 1.292e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.215e-13 6.144e-14 + Nat 3.167e-13 3.731e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -192431,7 +192387,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.979e-09 + Electrical balance (eq) = -1.982e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -192472,8 +192428,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.090e-11 H2 1.045e-11 1.136e-11 -10.981 -10.945 0.036 28.61 -Hto 2.474e-11 - Hto 2.474e-11 2.474e-11 -10.607 -10.607 0.000 (0) +Hto 1.899e-11 + Hto 1.899e-11 1.899e-11 -10.722 -10.722 0.000 (0) I 1.096e-11 I- 1.096e-11 1.096e-11 -10.960 -10.960 -0.000 (0) K 1.540e-03 @@ -192491,15 +192447,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.215e-13 - Nat+ 5.215e-13 5.215e-13 -12.283 -12.283 -0.000 (0) +Nat 3.167e-13 + Nat+ 3.167e-13 3.167e-13 -12.499 -12.499 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.536 -70.500 0.036 30.40 S(-2) 6.581e-08 HS- 4.603e-08 3.030e-08 -7.337 -7.519 -0.182 21.14 H2S 1.978e-08 2.150e-08 -7.704 -7.668 0.036 36.27 S-2 1.871e-13 4.510e-14 -12.728 -13.346 -0.618 (0) - (H2S)2 2.241e-17 2.436e-17 -16.650 -16.613 0.036 30.09 + (H2S)2 2.240e-17 2.436e-17 -16.650 -16.613 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -192574,7 +192530,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -192585,12 +192541,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 4.9724e-13 + Hto 3.6690e-13 I 1.8882e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.1838e-14 + Nat 1.8099e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -192609,12 +192565,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.214e-12 4.964e-13 + Hto 3.109e-12 3.663e-13 I 1.603e-12 1.888e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.418e-14 6.382e-15 + Nat 3.080e-14 3.628e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -192673,8 +192629,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.091e-11 H2 1.045e-11 1.136e-11 -10.981 -10.944 0.036 28.61 -Hto 4.214e-12 - Hto 4.214e-12 4.214e-12 -11.375 -11.375 0.000 (0) +Hto 3.109e-12 + Hto 3.109e-12 3.109e-12 -11.507 -11.507 0.000 (0) I 1.603e-12 I- 1.603e-12 1.603e-12 -11.795 -11.795 -0.000 (0) K 1.540e-03 @@ -192692,15 +192648,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.418e-14 - Nat+ 5.418e-14 5.418e-14 -13.266 -13.266 -0.000 (0) +Nat 3.080e-14 + Nat+ 3.080e-14 3.080e-14 -13.511 -13.511 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.536 -70.500 0.036 30.40 S(-2) 6.589e-08 HS- 4.609e-08 3.034e-08 -7.336 -7.518 -0.182 21.14 H2S 1.980e-08 2.153e-08 -7.703 -7.667 0.036 36.27 - S-2 1.874e-13 4.516e-14 -12.727 -13.345 -0.618 (0) - (H2S)2 2.246e-17 2.442e-17 -16.648 -16.612 0.036 30.09 + S-2 1.873e-13 4.516e-14 -12.727 -13.345 -0.618 (0) + (H2S)2 2.246e-17 2.442e-17 -16.649 -16.612 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -192775,7 +192731,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -192786,12 +192742,12 @@ Su Ca 7.1884e-02 Cl 4.6589e-10 H 1.2950e-04 - Hto 7.5883e-14 - I 2.4682e-26 + Hto 5.3810e-14 + I 2.4679e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9428e-15 + Nat 1.5656e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -192810,12 +192766,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.431e-13 7.576e-14 + Hto 4.560e-13 5.372e-14 I 2.095e-13 2.468e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.008e-15 5.899e-16 + Nat 2.664e-15 3.138e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -192833,7 +192789,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -5.026e-10 + Electrical balance (eq) = -6.700e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -192874,8 +192830,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.093e-11 H2 1.046e-11 1.138e-11 -10.980 -10.944 0.036 28.61 -Hto 6.431e-13 - Hto 6.431e-13 6.431e-13 -12.192 -12.192 0.000 (0) +Hto 4.560e-13 + Hto 4.560e-13 4.560e-13 -12.341 -12.341 0.000 (0) I 2.095e-13 I- 2.095e-13 2.095e-13 -12.679 -12.679 -0.000 (0) K 1.540e-03 @@ -192893,15 +192849,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.008e-15 - Nat+ 5.008e-15 5.008e-15 -14.300 -14.300 -0.000 (0) +Nat 2.664e-15 + Nat+ 2.664e-15 2.664e-15 -14.574 -14.574 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.537 -70.501 0.036 30.40 S(-2) 6.619e-08 HS- 4.630e-08 3.048e-08 -7.334 -7.516 -0.182 21.14 H2S 1.989e-08 2.163e-08 -7.701 -7.665 0.036 36.27 - S-2 1.882e-13 4.537e-14 -12.725 -13.343 -0.618 (0) - (H2S)2 2.267e-17 2.465e-17 -16.645 -16.608 0.036 30.09 + S-2 1.882e-13 4.536e-14 -12.725 -13.343 -0.618 (0) + (H2S)2 2.267e-17 2.464e-17 -16.645 -16.608 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -192976,7 +192932,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -192985,14 +192941,14 @@ Su Element Moles C 1.6143e-04 Ca 7.1884e-02 - Cl 4.6589e-10 + Cl 4.6588e-10 H 1.2950e-04 - Hto 1.0422e-14 - I 2.8975e-27 + Hto 7.0992e-15 + I 2.8971e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4341e-16 + Nat 1.2115e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -193011,12 +192967,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.832e-14 1.041e-14 + Hto 6.016e-14 7.088e-15 I 2.459e-14 2.897e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.142e-16 4.880e-17 + Nat 2.062e-16 2.429e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -193075,8 +193031,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.096e-11 H2 1.048e-11 1.140e-11 -10.980 -10.943 0.036 28.61 -Hto 8.832e-14 - Hto 8.832e-14 8.832e-14 -13.054 -13.054 0.000 (0) +Hto 6.016e-14 + Hto 6.016e-14 6.016e-14 -13.221 -13.221 0.000 (0) I 2.459e-14 I- 2.459e-14 2.459e-14 -13.609 -13.609 -0.000 (0) K 1.540e-03 @@ -193094,15 +193050,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.142e-16 - Nat+ 4.142e-16 4.142e-16 -15.383 -15.383 -0.000 (0) +Nat 2.062e-16 + Nat+ 2.062e-16 2.062e-16 -15.686 -15.686 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.539 -70.502 0.036 30.40 S(-2) 6.661e-08 HS- 4.659e-08 3.067e-08 -7.332 -7.513 -0.182 21.14 H2S 2.002e-08 2.176e-08 -7.699 -7.662 0.036 36.27 S-2 1.894e-13 4.565e-14 -12.723 -13.341 -0.618 (0) - (H2S)2 2.295e-17 2.495e-17 -16.639 -16.603 0.036 30.09 + (H2S)2 2.295e-17 2.496e-17 -16.639 -16.603 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -193177,7 +193133,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -193188,12 +193144,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.2929e-15 + Hto 8.4567e-16 I 3.0687e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.8100e-17 + Nat 8.4278e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -193212,12 +193168,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.096e-14 1.291e-15 + Hto 7.167e-15 8.443e-16 I 2.604e-15 3.068e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.080e-17 3.629e-18 + Nat 1.434e-17 1.689e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -193276,8 +193232,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.099e-11 H2 1.049e-11 1.141e-11 -10.979 -10.943 0.036 28.61 -Hto 1.096e-14 - Hto 1.096e-14 1.096e-14 -13.960 -13.960 0.000 (0) +Hto 7.167e-15 + Hto 7.167e-15 7.167e-15 -14.145 -14.145 0.000 (0) I 2.604e-15 I- 2.604e-15 2.604e-15 -14.584 -14.584 -0.000 (0) K 1.540e-03 @@ -193295,15 +193251,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.080e-17 - Nat+ 3.080e-17 3.080e-17 -16.511 -16.511 -0.000 (0) +Nat 1.434e-17 + Nat+ 1.434e-17 1.434e-17 -16.843 -16.843 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.540 -70.503 0.036 30.40 S(-2) 6.694e-08 - HS- 4.682e-08 3.082e-08 -7.330 -7.511 -0.182 21.14 + HS- 4.683e-08 3.083e-08 -7.330 -7.511 -0.182 21.14 H2S 2.012e-08 2.187e-08 -7.696 -7.660 0.036 36.27 S-2 1.903e-13 4.588e-14 -12.720 -13.338 -0.618 (0) - (H2S)2 2.318e-17 2.520e-17 -16.635 -16.599 0.036 30.09 + (H2S)2 2.319e-17 2.521e-17 -16.635 -16.598 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -193378,7 +193334,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -193389,12 +193345,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.4532e-16 - I 2.9404e-29 + Hto 9.1241e-17 + I 2.9410e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2148e-18 + Nat 5.2906e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -193413,12 +193369,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.232e-15 1.451e-16 + Hto 7.732e-16 9.109e-17 I 2.496e-16 2.940e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.067e-18 2.435e-19 + Nat 9.002e-19 1.061e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -193477,8 +193433,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.100e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 1.232e-15 - Hto 1.232e-15 1.232e-15 -14.910 -14.910 0.000 (0) +Hto 7.732e-16 + Hto 7.732e-16 7.732e-16 -15.112 -15.112 0.000 (0) I 2.496e-16 I- 2.496e-16 2.496e-16 -15.603 -15.603 -0.000 (0) K 1.540e-03 @@ -193496,8 +193452,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.067e-18 - Nat+ 2.067e-18 2.067e-18 -17.685 -17.685 -0.000 (0) +Nat 9.002e-19 + Nat+ 9.002e-19 9.002e-19 -18.046 -18.046 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.540 -70.504 0.036 30.40 S(-2) 6.712e-08 @@ -193579,7 +193535,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -193590,12 +193546,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.4837e-17 + Hto 8.9395e-18 I 2.5569e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.3822e-20 + Nat 3.0067e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -193614,12 +193570,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.257e-16 1.481e-17 + Hto 7.576e-17 8.925e-18 I 2.170e-17 2.557e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.256e-19 1.480e-20 + Nat 5.116e-20 6.027e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -193678,8 +193634,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.101e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 1.257e-16 - Hto 1.257e-16 1.257e-16 -15.901 -15.901 0.000 (0) +Hto 7.576e-17 + Hto 7.576e-17 7.576e-17 -16.121 -16.121 0.000 (0) I 2.170e-17 I- 2.170e-17 2.170e-17 -16.664 -16.664 -0.000 (0) K 1.540e-03 @@ -193697,8 +193653,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.256e-19 - Nat+ 1.256e-19 1.256e-19 -18.901 -18.901 -0.000 (0) +Nat 5.116e-20 + Nat+ 5.116e-20 5.116e-20 -19.291 -19.291 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.540 -70.504 0.036 30.40 S(-2) 6.719e-08 @@ -193780,7 +193736,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -193791,12 +193747,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.3787e-18 - I 2.0217e-31 + Hto 7.9704e-19 + I 2.0220e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0719e-21 + Nat 1.5508e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -193815,12 +193771,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.168e-17 1.377e-18 + Hto 6.755e-18 7.958e-19 I 1.716e-18 2.022e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.929e-21 8.163e-22 + Nat 2.639e-21 3.109e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -193879,8 +193835,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.101e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 1.168e-17 - Hto 1.168e-17 1.168e-17 -16.932 -16.932 0.000 (0) +Hto 6.755e-18 + Hto 6.755e-18 6.755e-18 -17.170 -17.170 0.000 (0) I 1.716e-18 I- 1.716e-18 1.716e-18 -17.765 -17.765 -0.000 (0) K 1.540e-03 @@ -193898,11 +193854,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.929e-21 - Nat+ 6.929e-21 6.929e-21 -20.159 -20.159 -0.000 (0) +Nat 2.639e-21 + Nat+ 2.639e-21 2.639e-21 -20.579 -20.579 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.540 -70.504 0.036 30.40 -S(-2) 6.720e-08 +S(-2) 6.721e-08 HS- 4.701e-08 3.095e-08 -7.328 -7.509 -0.182 21.14 H2S 2.020e-08 2.196e-08 -7.695 -7.658 0.036 36.27 S-2 1.911e-13 4.606e-14 -12.719 -13.337 -0.618 (0) @@ -193981,7 +193937,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -193992,12 +193948,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 1.1681e-19 - I 1.4568e-32 + Hto 6.4776e-20 + I 1.4562e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0417e-22 + Nat 7.2599e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -194016,12 +193972,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.899e-19 1.166e-19 + Hto 5.489e-19 6.467e-20 I 1.236e-19 1.456e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.474e-22 4.093e-23 + Nat 1.235e-22 1.455e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -194080,8 +194036,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.101e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 9.899e-19 - Hto 9.899e-19 9.899e-19 -18.004 -18.004 0.000 (0) +Hto 5.489e-19 + Hto 5.489e-19 5.489e-19 -18.260 -18.260 0.000 (0) I 1.236e-19 I- 1.236e-19 1.236e-19 -18.908 -18.908 -0.000 (0) K 1.540e-03 @@ -194099,8 +194055,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.474e-22 - Nat+ 3.474e-22 3.474e-22 -21.459 -21.459 -0.000 (0) +Nat 1.235e-22 + Nat+ 1.235e-22 1.235e-22 -21.908 -21.908 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.541 -70.504 0.036 30.40 S(-2) 6.721e-08 @@ -194182,7 +194138,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -194193,12 +194149,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 9.0362e-21 - I 9.5732e-34 + Hto 4.8058e-21 + I 9.5695e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1328e-24 + Nat 2.8988e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -194217,12 +194173,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.658e-20 9.022e-21 + Hto 4.073e-20 4.798e-21 I 8.124e-21 9.570e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.554e-23 1.831e-24 + Nat 4.933e-24 5.811e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -194281,8 +194237,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.101e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 7.658e-20 - Hto 7.658e-20 7.658e-20 -19.116 -19.116 0.000 (0) +Hto 4.073e-20 + Hto 4.073e-20 4.073e-20 -19.390 -19.390 0.000 (0) I 8.124e-21 I- 8.124e-21 8.124e-21 -20.090 -20.090 -0.000 (0) K 1.540e-03 @@ -194300,8 +194256,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.554e-23 - Nat+ 1.554e-23 1.554e-23 -22.809 -22.809 -0.000 (0) +Nat 4.933e-24 + Nat+ 4.933e-24 4.933e-24 -23.307 -23.307 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.541 -70.504 0.036 30.40 S(-2) 6.721e-08 @@ -194383,7 +194339,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -194394,12 +194350,11 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 6.7946e-22 + Hto 3.4566e-22 I 6.0491e-35 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1083e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -194418,12 +194373,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.758e-21 6.784e-22 + Hto 2.929e-21 3.451e-22 I 5.134e-22 6.049e-23 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.588e-25 4.227e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -194482,8 +194436,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.101e-11 H2 1.050e-11 1.142e-11 -10.979 -10.942 0.036 28.61 -Hto 5.758e-21 - Hto 5.758e-21 5.758e-21 -20.240 -20.240 0.000 (0) +Hto 2.929e-21 + Hto 2.929e-21 2.929e-21 -20.533 -20.533 0.000 (0) I 5.134e-22 I- 5.134e-22 5.134e-22 -21.290 -21.290 -0.000 (0) K 1.540e-03 @@ -194501,8 +194455,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.588e-25 - Nat+ 3.588e-25 3.588e-25 -24.445 -24.445 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.541 -70.504 0.036 30.40 S(-2) 6.721e-08 @@ -194873,30 +194825,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.164e-07 2.582e-07 + Hto 5.218e-07 2.609e-07 I 6.988e-07 3.494e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.863e-07 1.432e-07 + Nat 2.935e-07 1.467e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.056 Adjusted to redox equilibrium + pe = -3.055 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.840e-13 + Electrical balance (eq) = -3.309e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -194910,8 +194862,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.381e-12 - CH4 3.381e-12 3.676e-12 -11.471 -11.435 0.036 35.46 +C(-4) 3.315e-12 + CH4 3.315e-12 3.605e-12 -11.479 -11.443 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -194923,7 +194875,7 @@ C(4) 2.744e-03 MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.600e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -194935,10 +194887,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.113e-11 - H2 5.564e-12 6.049e-12 -11.255 -11.218 0.036 28.61 -Hto 5.164e-07 - Hto 5.164e-07 5.164e-07 -6.287 -6.287 0.000 (0) +H(0) 1.107e-11 + H2 5.537e-12 6.020e-12 -11.257 -11.220 0.036 28.61 +Hto 5.218e-07 + Hto 5.218e-07 5.218e-07 -6.282 -6.282 0.000 (0) I 6.988e-07 I- 6.988e-07 6.988e-07 -6.156 -6.156 -0.000 (0) K 1.540e-03 @@ -194956,15 +194908,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.863e-07 - Nat+ 2.863e-07 2.863e-07 -6.543 -6.543 -0.000 (0) +Nat 2.935e-07 + Nat+ 2.935e-07 2.935e-07 -6.532 -6.532 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.988 -69.952 0.036 30.40 -S(-2) 5.300e-09 - HS- 3.705e-09 2.439e-09 -8.431 -8.613 -0.182 21.14 - H2S 1.594e-09 1.733e-09 -8.797 -8.761 0.036 36.27 - S-2 1.504e-14 3.625e-15 -13.823 -14.441 -0.618 (0) - (H2S)2 1.456e-19 1.583e-19 -18.837 -18.800 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.984 -69.948 0.036 30.40 +S(-2) 5.197e-09 + HS- 3.634e-09 2.392e-09 -8.440 -8.621 -0.182 21.14 + H2S 1.563e-09 1.700e-09 -8.806 -8.770 0.036 36.27 + S-2 1.475e-14 3.555e-15 -13.831 -14.449 -0.618 (0) + (H2S)2 1.400e-19 1.523e-19 -18.854 -18.817 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -194973,13 +194925,13 @@ S(6) 1.260e-02 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - HSO4- 1.309e-08 9.565e-09 -7.883 -8.019 -0.136 40.78 + HSO4- 1.309e-08 9.566e-09 -7.883 -8.019 -0.136 40.78 CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.529e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 SrOH+ 1.153e-10 8.078e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -194991,21 +194943,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.63 -11.43 -2.80 CH4 + CH4(g) -8.64 -11.44 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.12 -11.22 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.77 -15.70 -7.94 H2S + H2S(g) -7.78 -15.71 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.06 -69.95 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.57 -0.69 4.88 S + Sulfur -5.58 -0.70 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -195029,7 +194981,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.079e-14 Surface + diffuse layer charge, eq + -5.013e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -195039,7 +194991,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -195050,12 +195002,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 5.3577e-08 - I 7.2474e-20 + Hto 5.3928e-08 + I 7.2461e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5241e-07 + Nat 1.5529e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -195074,12 +195026,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.540e-07 5.349e-08 + Hto 4.570e-07 5.384e-08 I 6.150e-07 7.246e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.593e-07 3.055e-08 + Nat 2.642e-07 3.113e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -195090,14 +195042,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.678e-09 + Electrical balance (eq) = 1.669e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -195111,8 +195063,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 8.890e-12 - CH4 8.890e-12 9.665e-12 -11.051 -11.015 0.036 35.46 +C(-4) 8.829e-12 + CH4 8.829e-12 9.599e-12 -11.054 -11.018 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.585 -3.561 0.024 34.43 @@ -195136,10 +195088,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.417e-11 - H2 7.085e-12 7.703e-12 -11.150 -11.113 0.036 28.61 -Hto 4.540e-07 - Hto 4.540e-07 4.540e-07 -6.343 -6.343 0.000 (0) +H(0) 1.415e-11 + H2 7.073e-12 7.690e-12 -11.150 -11.114 0.036 28.61 +Hto 4.570e-07 + Hto 4.570e-07 4.570e-07 -6.340 -6.340 0.000 (0) I 6.150e-07 I- 6.150e-07 6.150e-07 -6.211 -6.211 -0.000 (0) K 1.540e-03 @@ -195157,15 +195109,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.593e-07 - Nat+ 2.593e-07 2.593e-07 -6.586 -6.586 -0.000 (0) +Nat 2.642e-07 + Nat+ 2.642e-07 2.642e-07 -6.578 -6.578 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.198 -70.162 0.036 30.40 -S(-2) 1.393e-08 - HS- 9.743e-09 6.414e-09 -8.011 -8.193 -0.182 21.14 - H2S 4.191e-09 4.557e-09 -8.378 -8.341 0.036 36.27 - S-2 3.955e-14 9.534e-15 -13.403 -14.021 -0.618 (0) - (H2S)2 1.006e-18 1.094e-18 -17.997 -17.961 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.197 -70.161 0.036 30.40 +S(-2) 1.384e-08 + HS- 9.676e-09 6.370e-09 -8.014 -8.196 -0.182 21.14 + H2S 4.162e-09 4.525e-09 -8.381 -8.344 0.036 36.27 + S-2 3.928e-14 9.469e-15 -13.406 -14.024 -0.618 (0) + (H2S)2 9.926e-19 1.079e-18 -18.003 -17.967 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -195192,14 +195144,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.21 -11.01 -2.80 CH4 + CH4(g) -8.22 -11.02 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.01 -11.11 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.35 -15.28 -7.94 H2S + H2S(g) -7.35 -15.29 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -195230,7 +195182,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.531e-11 Surface + diffuse layer charge, eq + -9.530e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -195240,7 +195192,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -195251,12 +195203,12 @@ Su Ca 7.1884e-02 Cl 4.6612e-10 H 1.2949e-04 - Hto 3.4942e-08 - I 4.3629e-20 + Hto 3.4672e-08 + I 4.3635e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9147e-08 + Nat 8.7805e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -195275,12 +195227,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.961e-07 3.489e-08 + Hto 2.938e-07 3.462e-08 I 3.703e-07 4.363e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.517e-07 1.787e-08 + Nat 1.494e-07 1.760e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -195298,7 +195250,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.475e-09 + Electrical balance (eq) = 2.441e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -195312,8 +195264,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.902e-11 - CH4 2.902e-11 3.155e-11 -10.537 -10.501 0.036 35.46 +C(-4) 2.910e-11 + CH4 2.910e-11 3.164e-11 -10.536 -10.500 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -195337,10 +195289,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.639e-09 -8.403 -8.249 0.155 (0) -H(0) 1.905e-11 - H2 9.526e-12 1.036e-11 -11.021 -10.985 0.036 28.61 -Hto 2.961e-07 - Hto 2.961e-07 2.961e-07 -6.529 -6.529 0.000 (0) +H(0) 1.906e-11 + H2 9.532e-12 1.036e-11 -11.021 -10.984 0.036 28.61 +Hto 2.938e-07 + Hto 2.938e-07 2.938e-07 -6.532 -6.532 0.000 (0) I 3.703e-07 I- 3.703e-07 3.703e-07 -6.431 -6.431 -0.000 (0) K 1.540e-03 @@ -195358,15 +195310,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.517e-07 - Nat+ 1.517e-07 1.517e-07 -6.819 -6.819 -0.000 (0) +Nat 1.494e-07 + Nat+ 1.494e-07 1.494e-07 -6.826 -6.826 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.456 -70.419 0.036 30.40 -S(-2) 4.548e-08 - HS- 3.180e-08 2.094e-08 -7.498 -7.679 -0.182 21.14 - H2S 1.367e-08 1.486e-08 -7.864 -7.828 0.036 36.27 - S-2 1.292e-13 3.115e-14 -12.889 -13.507 -0.618 (0) - (H2S)2 1.071e-17 1.164e-17 -16.970 -16.934 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.456 -70.420 0.036 30.40 +S(-2) 4.560e-08 + HS- 3.189e-08 2.099e-08 -7.496 -7.678 -0.182 21.14 + H2S 1.371e-08 1.490e-08 -7.863 -7.827 0.036 36.27 + S-2 1.296e-13 3.123e-14 -12.888 -13.505 -0.618 (0) + (H2S)2 1.076e-17 1.170e-17 -16.968 -16.932 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -195407,7 +195359,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.53 -70.42 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.88 0.01 4.88 S + Sulfur -4.87 0.01 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -195431,7 +195383,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.844e-11 Surface + diffuse layer charge, eq + -9.843e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -195441,7 +195393,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -195452,12 +195404,12 @@ Su Ca 7.1884e-02 Cl 4.6596e-10 H 1.2950e-04 - Hto 1.8971e-08 - I 2.1540e-20 + Hto 1.8439e-08 + I 2.1546e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8494e-08 + Nat 3.6165e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -195476,12 +195428,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.608e-07 1.894e-08 + Hto 1.563e-07 1.841e-08 I 1.828e-07 2.154e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.550e-08 7.717e-09 + Nat 6.154e-08 7.250e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -195499,7 +195451,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.189e-09 + Electrical balance (eq) = -2.188e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -195513,8 +195465,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.800e-11 - CH4 3.800e-11 4.131e-11 -10.420 -10.384 0.036 35.46 +C(-4) 3.807e-11 + CH4 3.807e-11 4.139e-11 -10.419 -10.383 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -195537,11 +195489,11 @@ Ca 2.590e-02 CaHSO4+ 1.065e-09 7.785e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 - HCl 3.949e-09 5.637e-09 -8.404 -8.249 0.155 (0) -H(0) 2.038e-11 - H2 1.019e-11 1.108e-11 -10.992 -10.955 0.036 28.61 -Hto 1.608e-07 - Hto 1.608e-07 1.608e-07 -6.794 -6.794 0.000 (0) + HCl 3.948e-09 5.637e-09 -8.404 -8.249 0.155 (0) +H(0) 2.039e-11 + H2 1.020e-11 1.108e-11 -10.992 -10.955 0.036 28.61 +Hto 1.563e-07 + Hto 1.563e-07 1.563e-07 -6.806 -6.806 0.000 (0) I 1.828e-07 I- 1.828e-07 1.828e-07 -6.738 -6.738 -0.000 (0) K 1.540e-03 @@ -195559,15 +195511,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.550e-08 - Nat+ 6.550e-08 6.550e-08 -7.184 -7.184 -0.000 (0) +Nat 6.154e-08 + Nat+ 6.154e-08 6.154e-08 -7.211 -7.211 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.514 -70.478 0.036 30.40 -S(-2) 5.953e-08 - HS- 4.164e-08 2.741e-08 -7.381 -7.562 -0.182 21.14 - H2S 1.789e-08 1.945e-08 -7.747 -7.711 0.036 36.27 - S-2 1.692e-13 4.079e-14 -12.772 -13.389 -0.618 (0) - (H2S)2 1.834e-17 1.994e-17 -16.737 -16.700 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.515 -70.478 0.036 30.40 +S(-2) 5.964e-08 + HS- 4.172e-08 2.746e-08 -7.380 -7.561 -0.182 21.14 + H2S 1.792e-08 1.949e-08 -7.747 -7.710 0.036 36.27 + S-2 1.695e-13 4.087e-14 -12.771 -13.389 -0.618 (0) + (H2S)2 1.841e-17 2.001e-17 -16.735 -16.699 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -195608,7 +195560,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.59 -70.48 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.79 0.09 4.88 S + Sulfur -4.79 0.10 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -195632,7 +195584,7 @@ Kinetics 7. Diffuse Double Layer Surface-Complexation Model Su - -9.909e-11 Surface + diffuse layer charge, eq + -9.910e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -195642,7 +195594,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -195651,14 +195603,14 @@ Su Element Moles C 1.6143e-04 Ca 7.1884e-02 - Cl 4.6590e-10 + Cl 4.6589e-10 H 1.2950e-04 - Hto 8.6428e-09 + Hto 8.1873e-09 I 8.8012e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2842e-08 + Nat 1.1423e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -195677,12 +195629,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.324e-08 8.629e-09 + Hto 6.938e-08 8.174e-09 I 7.470e-08 8.801e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.185e-08 2.574e-09 + Nat 1.944e-08 2.290e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -195714,8 +195666,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.176e-11 - CH4 4.176e-11 4.540e-11 -10.379 -10.343 0.036 35.46 +C(-4) 4.180e-11 + CH4 4.180e-11 4.545e-11 -10.379 -10.342 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -195740,9 +195692,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.087e-11 - H2 1.043e-11 1.134e-11 -10.982 -10.945 0.036 28.61 -Hto 7.324e-08 - Hto 7.324e-08 7.324e-08 -7.135 -7.135 0.000 (0) + H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 +Hto 6.938e-08 + Hto 6.938e-08 6.938e-08 -7.159 -7.159 0.000 (0) I 7.470e-08 I- 7.470e-08 7.470e-08 -7.127 -7.127 -0.000 (0) K 1.540e-03 @@ -195760,15 +195712,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.185e-08 - Nat+ 2.185e-08 2.185e-08 -7.661 -7.661 -0.000 (0) +Nat 1.944e-08 + Nat+ 1.944e-08 1.944e-08 -7.711 -7.711 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.535 -70.498 0.036 30.40 -S(-2) 6.542e-08 - HS- 4.576e-08 3.013e-08 -7.340 -7.521 -0.182 21.14 - H2S 1.966e-08 2.137e-08 -7.706 -7.670 0.036 36.27 - S-2 1.860e-13 4.484e-14 -12.730 -13.348 -0.618 (0) - (H2S)2 2.214e-17 2.407e-17 -16.655 -16.618 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 +S(-2) 6.549e-08 + HS- 4.581e-08 3.016e-08 -7.339 -7.521 -0.182 21.14 + H2S 1.968e-08 2.140e-08 -7.706 -7.670 0.036 36.27 + S-2 1.862e-13 4.488e-14 -12.730 -13.348 -0.618 (0) + (H2S)2 2.219e-17 2.412e-17 -16.654 -16.618 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -195843,7 +195795,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -195854,12 +195806,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 3.3390e-09 + Hto 3.0711e-09 I 3.0147e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.4333e-09 + Nat 2.8794e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -195878,12 +195830,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.830e-08 3.334e-09 + Hto 2.603e-08 3.066e-09 I 2.559e-08 3.014e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.842e-09 6.883e-10 + Nat 4.900e-09 5.772e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -195915,8 +195867,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.315e-11 - CH4 4.315e-11 4.692e-11 -10.365 -10.329 0.036 35.46 +C(-4) 4.317e-11 + CH4 4.317e-11 4.694e-11 -10.365 -10.328 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -195942,8 +195894,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.104e-11 H2 1.052e-11 1.144e-11 -10.978 -10.942 0.036 28.61 -Hto 2.830e-08 - Hto 2.830e-08 2.830e-08 -7.548 -7.548 0.000 (0) +Hto 2.603e-08 + Hto 2.603e-08 2.603e-08 -7.585 -7.585 0.000 (0) I 2.559e-08 I- 2.559e-08 2.559e-08 -7.592 -7.592 -0.000 (0) K 1.540e-03 @@ -195961,15 +195913,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.842e-09 - Nat+ 5.842e-09 5.842e-09 -8.233 -8.233 -0.000 (0) +Nat 4.900e-09 + Nat+ 4.900e-09 4.900e-09 -8.310 -8.310 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.542 -70.505 0.036 30.40 -S(-2) 6.760e-08 - HS- 4.729e-08 3.113e-08 -7.325 -7.507 -0.182 21.14 - H2S 2.031e-08 2.209e-08 -7.692 -7.656 0.036 36.27 - S-2 1.922e-13 4.634e-14 -12.716 -13.334 -0.618 (0) - (H2S)2 2.364e-17 2.571e-17 -16.626 -16.590 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.542 -70.506 0.036 30.40 +S(-2) 6.764e-08 + HS- 4.731e-08 3.115e-08 -7.325 -7.507 -0.182 21.14 + H2S 2.032e-08 2.210e-08 -7.692 -7.656 0.036 36.27 + S-2 1.923e-13 4.636e-14 -12.716 -13.334 -0.618 (0) + (H2S)2 2.367e-17 2.573e-17 -16.626 -16.590 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -196044,7 +195996,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -196055,12 +196007,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 1.1060e-09 - I 8.7743e-22 + Hto 9.8486e-10 + I 8.7754e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5656e-10 + Nat 5.9669e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -196079,12 +196031,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.373e-09 1.104e-09 + Hto 8.346e-09 9.833e-10 I 7.447e-09 8.773e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.287e-09 1.517e-10 + Nat 1.015e-09 1.196e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -196116,8 +196068,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.354e-11 - CH4 4.354e-11 4.733e-11 -10.361 -10.325 0.036 35.46 +C(-4) 4.355e-11 + CH4 4.355e-11 4.735e-11 -10.361 -10.325 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -196143,8 +196095,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.109e-11 H2 1.054e-11 1.146e-11 -10.977 -10.941 0.036 28.61 -Hto 9.373e-09 - Hto 9.373e-09 9.373e-09 -8.028 -8.028 0.000 (0) +Hto 8.346e-09 + Hto 8.346e-09 8.346e-09 -8.079 -8.079 0.000 (0) I 7.447e-09 I- 7.447e-09 7.447e-09 -8.128 -8.128 -0.000 (0) K 1.540e-03 @@ -196162,15 +196114,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.287e-09 - Nat+ 1.287e-09 1.287e-09 -8.890 -8.890 -0.000 (0) +Nat 1.015e-09 + Nat+ 1.015e-09 1.015e-09 -8.993 -8.993 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.544 -70.507 0.036 30.40 -S(-2) 6.820e-08 - HS- 4.771e-08 3.141e-08 -7.321 -7.503 -0.182 21.14 - H2S 2.049e-08 2.228e-08 -7.688 -7.652 0.036 36.27 - S-2 1.939e-13 4.675e-14 -12.712 -13.330 -0.618 (0) - (H2S)2 2.406e-17 2.616e-17 -16.619 -16.582 0.036 30.09 +S(-2) 6.822e-08 + HS- 4.772e-08 3.141e-08 -7.321 -7.503 -0.182 21.14 + H2S 2.050e-08 2.229e-08 -7.688 -7.652 0.036 36.27 + S-2 1.940e-13 4.676e-14 -12.712 -13.330 -0.618 (0) + (H2S)2 2.408e-17 2.618e-17 -16.618 -16.582 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -196245,7 +196197,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -196256,12 +196208,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 3.1731e-10 - I 2.1962e-22 + Hto 2.7299e-10 + I 2.1967e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4041e-10 + Nat 1.0396e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -196280,12 +196232,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.689e-09 3.168e-10 + Hto 2.313e-09 2.726e-10 I 1.864e-09 2.196e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.389e-10 2.815e-11 + Nat 1.769e-10 2.084e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -196317,8 +196269,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.349e-11 - CH4 4.349e-11 4.729e-11 -10.362 -10.325 0.036 35.46 +C(-4) 4.350e-11 + CH4 4.350e-11 4.729e-11 -10.362 -10.325 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -196344,8 +196296,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.108e-11 H2 1.054e-11 1.146e-11 -10.977 -10.941 0.036 28.61 -Hto 2.689e-09 - Hto 2.689e-09 2.689e-09 -8.570 -8.570 0.000 (0) +Hto 2.313e-09 + Hto 2.313e-09 2.313e-09 -8.636 -8.636 0.000 (0) I 1.864e-09 I- 1.864e-09 1.864e-09 -8.729 -8.729 -0.000 (0) K 1.540e-03 @@ -196363,15 +196315,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.389e-10 - Nat+ 2.389e-10 2.389e-10 -9.622 -9.622 -0.000 (0) +Nat 1.769e-10 + Nat+ 1.769e-10 1.769e-10 -9.752 -9.752 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.543 -70.507 0.036 30.40 -S(-2) 6.813e-08 - HS- 4.766e-08 3.137e-08 -7.322 -7.503 -0.182 21.14 - H2S 2.047e-08 2.226e-08 -7.689 -7.652 0.036 36.27 - S-2 1.937e-13 4.670e-14 -12.713 -13.331 -0.618 (0) - (H2S)2 2.402e-17 2.611e-17 -16.620 -16.583 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.544 -70.507 0.036 30.40 +S(-2) 6.814e-08 + HS- 4.767e-08 3.138e-08 -7.322 -7.503 -0.182 21.14 + H2S 2.048e-08 2.226e-08 -7.689 -7.652 0.036 36.27 + S-2 1.938e-13 4.671e-14 -12.713 -13.331 -0.618 (0) + (H2S)2 2.402e-17 2.612e-17 -16.619 -16.583 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -196436,7 +196388,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.872e-11 Surface + diffuse layer charge, eq + -9.876e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -196446,7 +196398,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -196457,12 +196409,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 7.9583e-11 - I 4.7802e-23 + Hto 6.6043e-11 + I 4.7808e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2315e-11 + Nat 1.5495e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -196481,12 +196433,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.744e-10 7.945e-11 + Hto 5.597e-10 6.594e-11 I 4.058e-10 4.780e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.797e-11 4.473e-12 + Nat 2.637e-11 3.106e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -196504,7 +196456,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.674e-09 + Electrical balance (eq) = -1.179e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -196518,8 +196470,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.329e-11 - CH4 4.329e-11 4.707e-11 -10.364 -10.327 0.036 35.46 +C(-4) 4.330e-11 + CH4 4.330e-11 4.707e-11 -10.364 -10.327 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -196545,8 +196497,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.106e-11 H2 1.053e-11 1.145e-11 -10.978 -10.941 0.036 28.61 -Hto 6.744e-10 - Hto 6.744e-10 6.744e-10 -9.171 -9.171 0.000 (0) +Hto 5.597e-10 + Hto 5.597e-10 5.597e-10 -9.252 -9.252 0.000 (0) I 4.058e-10 I- 4.058e-10 4.058e-10 -9.392 -9.392 -0.000 (0) K 1.540e-03 @@ -196564,15 +196516,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.797e-11 - Nat+ 3.797e-11 3.797e-11 -10.421 -10.421 -0.000 (0) +Nat 2.637e-11 + Nat+ 2.637e-11 2.637e-11 -10.579 -10.579 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.542 -70.506 0.036 30.40 -S(-2) 6.782e-08 + O2 0.000e+00 0.000e+00 -70.543 -70.506 0.036 30.40 +S(-2) 6.783e-08 HS- 4.744e-08 3.123e-08 -7.324 -7.505 -0.182 21.14 H2S 2.038e-08 2.216e-08 -7.691 -7.654 0.036 36.27 S-2 1.929e-13 4.649e-14 -12.715 -13.333 -0.618 (0) - (H2S)2 2.380e-17 2.587e-17 -16.623 -16.587 0.036 30.09 + (H2S)2 2.380e-17 2.588e-17 -16.623 -16.587 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -196647,7 +196599,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -196658,12 +196610,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 1.7589e-11 - I 9.1297e-24 + Hto 1.4063e-11 + I 9.1281e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.0774e-12 + Nat 2.0025e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -196682,12 +196634,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.491e-10 1.756e-11 + Hto 1.192e-10 1.404e-11 I 7.749e-11 9.129e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.237e-12 6.169e-13 + Nat 3.407e-12 4.014e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -196705,7 +196657,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.622e-09 + Electrical balance (eq) = -1.707e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -196745,9 +196697,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.104e-11 - H2 1.052e-11 1.144e-11 -10.978 -10.942 0.036 28.61 -Hto 1.491e-10 - Hto 1.491e-10 1.491e-10 -9.827 -9.827 0.000 (0) + H2 1.052e-11 1.143e-11 -10.978 -10.942 0.036 28.61 +Hto 1.192e-10 + Hto 1.192e-10 1.192e-10 -9.924 -9.924 0.000 (0) I 7.749e-11 I- 7.749e-11 7.749e-11 -10.111 -10.111 -0.000 (0) K 1.540e-03 @@ -196765,14 +196717,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.237e-12 - Nat+ 5.237e-12 5.237e-12 -11.281 -11.281 -0.000 (0) +Nat 3.407e-12 + Nat+ 3.407e-12 3.407e-12 -11.468 -11.468 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.542 -70.505 0.036 30.40 S(-2) 6.754e-08 HS- 4.724e-08 3.110e-08 -7.326 -7.507 -0.182 21.14 H2S 2.030e-08 2.207e-08 -7.693 -7.656 0.036 36.27 - S-2 1.920e-13 4.629e-14 -12.717 -13.334 -0.618 (0) + S-2 1.920e-13 4.629e-14 -12.717 -13.335 -0.618 (0) (H2S)2 2.360e-17 2.566e-17 -16.627 -16.591 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -196848,7 +196800,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -196859,12 +196811,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 3.4496e-12 - I 1.5421e-24 + Hto 2.6545e-12 + I 1.5419e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7218e-13 + Nat 2.2681e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -196883,12 +196835,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.923e-11 3.444e-12 + Hto 2.250e-11 2.650e-12 I 1.309e-11 1.542e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.333e-13 7.461e-14 + Nat 3.859e-13 4.547e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -196906,7 +196858,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.077e-09 + Electrical balance (eq) = -2.080e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -196920,8 +196872,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.304e-11 - CH4 4.304e-11 4.679e-11 -10.366 -10.330 0.036 35.46 +C(-4) 4.303e-11 + CH4 4.303e-11 4.679e-11 -10.366 -10.330 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -196947,8 +196899,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.103e-11 H2 1.051e-11 1.143e-11 -10.978 -10.942 0.036 28.61 -Hto 2.923e-11 - Hto 2.923e-11 2.923e-11 -10.534 -10.534 0.000 (0) +Hto 2.250e-11 + Hto 2.250e-11 2.250e-11 -10.648 -10.648 0.000 (0) I 1.309e-11 I- 1.309e-11 1.309e-11 -10.883 -10.883 -0.000 (0) K 1.540e-03 @@ -196966,15 +196918,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.333e-13 - Nat+ 6.333e-13 6.333e-13 -12.198 -12.198 -0.000 (0) +Nat 3.859e-13 + Nat+ 3.859e-13 3.859e-13 -12.413 -12.413 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.541 -70.505 0.036 30.40 -S(-2) 6.742e-08 - HS- 4.716e-08 3.105e-08 -7.326 -7.508 -0.182 21.14 +S(-2) 6.741e-08 + HS- 4.716e-08 3.104e-08 -7.326 -7.508 -0.182 21.14 H2S 2.026e-08 2.203e-08 -7.693 -7.657 0.036 36.27 S-2 1.917e-13 4.621e-14 -12.717 -13.335 -0.618 (0) - (H2S)2 2.351e-17 2.557e-17 -16.629 -16.592 0.036 30.09 + (H2S)2 2.351e-17 2.556e-17 -16.629 -16.592 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -197049,7 +197001,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -197060,12 +197012,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 6.0391e-13 - I 2.3179e-25 + Hto 4.4694e-13 + I 2.3184e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9811e-14 + Nat 2.2713e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -197084,12 +197036,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.118e-12 6.029e-13 + Hto 3.788e-12 4.462e-13 I 1.968e-12 2.318e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.774e-14 7.981e-15 + Nat 3.865e-14 4.553e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -197148,8 +197100,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.103e-11 H2 1.052e-11 1.143e-11 -10.978 -10.942 0.036 28.61 -Hto 5.118e-12 - Hto 5.118e-12 5.118e-12 -11.291 -11.291 0.000 (0) +Hto 3.788e-12 + Hto 3.788e-12 3.788e-12 -11.422 -11.422 0.000 (0) I 1.968e-12 I- 1.968e-12 1.968e-12 -11.706 -11.706 -0.000 (0) K 1.540e-03 @@ -197167,14 +197119,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.774e-14 - Nat+ 6.774e-14 6.774e-14 -13.169 -13.169 -0.000 (0) +Nat 3.865e-14 + Nat+ 3.865e-14 3.865e-14 -13.413 -13.413 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.541 -70.505 0.036 30.40 S(-2) 6.750e-08 HS- 4.722e-08 3.108e-08 -7.326 -7.507 -0.182 21.14 H2S 2.028e-08 2.205e-08 -7.693 -7.657 0.036 36.27 - S-2 1.919e-13 4.627e-14 -12.717 -13.335 -0.618 (0) + S-2 1.919e-13 4.626e-14 -12.717 -13.335 -0.618 (0) (H2S)2 2.357e-17 2.563e-17 -16.628 -16.591 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -197250,7 +197202,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -197261,12 +197213,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 9.4854e-14 - I 3.1195e-26 + Hto 6.7474e-14 + I 3.1201e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7927e-15 + Nat 2.0251e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -197285,12 +197237,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.039e-13 9.470e-14 + Hto 5.718e-13 6.737e-14 I 2.648e-13 3.120e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.454e-15 7.603e-16 + Nat 3.446e-15 4.060e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -197308,7 +197260,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.010e-10 + Electrical balance (eq) = -7.684e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -197349,8 +197301,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.106e-11 H2 1.053e-11 1.145e-11 -10.978 -10.941 0.036 28.61 -Hto 8.039e-13 - Hto 8.039e-13 8.039e-13 -12.095 -12.095 0.000 (0) +Hto 5.718e-13 + Hto 5.718e-13 5.718e-13 -12.243 -12.243 0.000 (0) I 2.648e-13 I- 2.648e-13 2.648e-13 -12.577 -12.577 -0.000 (0) K 1.540e-03 @@ -197368,15 +197320,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.454e-15 - Nat+ 6.454e-15 6.454e-15 -14.190 -14.190 -0.000 (0) +Nat 3.446e-15 + Nat+ 3.446e-15 3.446e-15 -14.463 -14.463 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.542 -70.506 0.036 30.40 -S(-2) 6.780e-08 +S(-2) 6.779e-08 HS- 4.742e-08 3.122e-08 -7.324 -7.506 -0.182 21.14 H2S 2.037e-08 2.215e-08 -7.691 -7.655 0.036 36.27 S-2 1.928e-13 4.647e-14 -12.715 -13.333 -0.618 (0) - (H2S)2 2.378e-17 2.585e-17 -16.624 -16.587 0.036 30.09 + (H2S)2 2.378e-17 2.585e-17 -16.624 -16.588 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -197451,7 +197403,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -197462,12 +197414,12 @@ Su Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 1.3425e-14 - I 3.7771e-27 + Hto 9.1745e-15 + I 3.7763e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2368e-16 + Nat 1.6171e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -197486,12 +197438,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.138e-13 1.340e-14 + Hto 7.775e-14 9.160e-15 I 3.205e-14 3.776e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.508e-16 6.489e-17 + Nat 2.752e-16 3.242e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -197524,7 +197476,7 @@ Su H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.354e-11 - CH4 4.354e-11 4.733e-11 -10.361 -10.325 0.036 35.46 + CH4 4.354e-11 4.734e-11 -10.361 -10.325 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -197550,8 +197502,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) H(0) 2.109e-11 H2 1.054e-11 1.146e-11 -10.977 -10.941 0.036 28.61 -Hto 1.138e-13 - Hto 1.138e-13 1.138e-13 -12.944 -12.944 0.000 (0) +Hto 7.775e-14 + Hto 7.775e-14 7.775e-14 -13.109 -13.109 0.000 (0) I 3.205e-14 I- 3.205e-14 3.205e-14 -13.494 -13.494 -0.000 (0) K 1.540e-03 @@ -197569,15 +197521,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.508e-16 - Nat+ 5.508e-16 5.508e-16 -15.259 -15.259 -0.000 (0) +Nat 2.752e-16 + Nat+ 2.752e-16 2.752e-16 -15.560 -15.560 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.544 -70.507 0.036 30.40 S(-2) 6.820e-08 HS- 4.771e-08 3.141e-08 -7.321 -7.503 -0.182 21.14 - H2S 2.049e-08 2.228e-08 -7.688 -7.652 0.036 36.27 + H2S 2.050e-08 2.228e-08 -7.688 -7.652 0.036 36.27 S-2 1.939e-13 4.675e-14 -12.712 -13.330 -0.618 (0) - (H2S)2 2.406e-17 2.616e-17 -16.619 -16.582 0.036 30.09 + (H2S)2 2.407e-17 2.616e-17 -16.619 -16.582 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -197652,7 +197604,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -197663,12 +197615,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 1.7184e-15 - I 4.1277e-28 + Hto 1.1277e-15 + I 4.1282e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4863e-17 + Nat 1.1621e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -197687,12 +197639,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.456e-14 1.716e-15 + Hto 9.557e-15 1.126e-15 I 3.504e-15 4.128e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.231e-17 4.984e-18 + Nat 1.977e-17 2.330e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -197725,7 +197677,7 @@ Su H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.375e-11 - CH4 4.375e-11 4.756e-11 -10.359 -10.323 0.036 35.46 + CH4 4.375e-11 4.757e-11 -10.359 -10.323 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -197751,8 +197703,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.111e-11 H2 1.056e-11 1.148e-11 -10.976 -10.940 0.036 28.61 -Hto 1.456e-14 - Hto 1.456e-14 1.456e-14 -13.837 -13.837 0.000 (0) +Hto 9.557e-15 + Hto 9.557e-15 9.557e-15 -14.020 -14.020 0.000 (0) I 3.504e-15 I- 3.504e-15 3.504e-15 -14.455 -14.455 -0.000 (0) K 1.540e-03 @@ -197770,14 +197722,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.231e-17 - Nat+ 4.231e-17 4.231e-17 -16.374 -16.374 -0.000 (0) +Nat 1.977e-17 + Nat+ 1.977e-17 1.977e-17 -16.704 -16.704 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.545 -70.508 0.036 30.40 -S(-2) 6.853e-08 +S(-2) 6.854e-08 HS- 4.794e-08 3.156e-08 -7.319 -7.501 -0.182 21.14 H2S 2.059e-08 2.239e-08 -7.686 -7.650 0.036 36.27 - S-2 1.949e-13 4.697e-14 -12.710 -13.328 -0.618 (0) + S-2 1.949e-13 4.698e-14 -12.710 -13.328 -0.618 (0) (H2S)2 2.430e-17 2.642e-17 -16.614 -16.578 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -197853,7 +197805,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -197864,12 +197816,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 1.9954e-16 - I 4.0879e-29 + Hto 1.2572e-16 + I 4.0891e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7257e-18 + Nat 7.5443e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -197888,12 +197840,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.691e-15 1.992e-16 + Hto 1.065e-15 1.255e-16 I 3.470e-16 4.088e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.936e-18 3.459e-19 + Nat 1.284e-18 1.512e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -197952,8 +197904,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.056e-11 1.148e-11 -10.976 -10.940 0.036 28.61 -Hto 1.691e-15 - Hto 1.691e-15 1.691e-15 -14.772 -14.772 0.000 (0) +Hto 1.065e-15 + Hto 1.065e-15 1.065e-15 -14.972 -14.972 0.000 (0) I 3.470e-16 I- 3.470e-16 3.470e-16 -15.460 -15.460 -0.000 (0) K 1.540e-03 @@ -197971,15 +197923,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.936e-18 - Nat+ 2.936e-18 2.936e-18 -17.532 -17.532 -0.000 (0) +Nat 1.284e-18 + Nat+ 1.284e-18 1.284e-18 -17.892 -17.892 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.545 -70.509 0.036 30.40 -S(-2) 6.871e-08 - HS- 4.806e-08 3.164e-08 -7.318 -7.500 -0.182 21.14 +S(-2) 6.872e-08 + HS- 4.807e-08 3.164e-08 -7.318 -7.500 -0.182 21.14 H2S 2.065e-08 2.245e-08 -7.685 -7.649 0.036 36.27 S-2 1.954e-13 4.710e-14 -12.709 -13.327 -0.618 (0) - (H2S)2 2.442e-17 2.656e-17 -16.612 -16.576 0.036 30.09 + (H2S)2 2.443e-17 2.656e-17 -16.612 -16.576 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -198044,7 +197996,7 @@ Kinetics 19. Diffuse Double Layer Surface-Complexation Model Su - -9.885e-11 Surface + diffuse layer charge, eq + -9.886e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -198054,7 +198006,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -198065,12 +198017,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 2.1075e-17 - I 3.6785e-30 + Hto 1.2744e-17 + I 3.6793e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0858e-19 + Nat 4.4396e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -198089,12 +198041,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.786e-16 2.104e-17 + Hto 1.080e-16 1.272e-17 I 3.122e-17 3.678e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.848e-19 2.177e-20 + Nat 7.554e-20 8.900e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -198153,8 +198105,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.057e-11 1.149e-11 -10.976 -10.940 0.036 28.61 -Hto 1.786e-16 - Hto 1.786e-16 1.786e-16 -15.748 -15.748 0.000 (0) +Hto 1.080e-16 + Hto 1.080e-16 1.080e-16 -15.967 -15.967 0.000 (0) I 3.122e-17 I- 3.122e-17 3.122e-17 -16.506 -16.506 -0.000 (0) K 1.540e-03 @@ -198172,15 +198124,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.848e-19 - Nat+ 1.848e-19 1.848e-19 -18.733 -18.733 -0.000 (0) +Nat 7.554e-20 + Nat+ 7.554e-20 7.554e-20 -19.122 -19.122 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.509 0.036 30.40 S(-2) 6.878e-08 - HS- 4.811e-08 3.167e-08 -7.318 -7.499 -0.182 21.14 + HS- 4.812e-08 3.167e-08 -7.318 -7.499 -0.182 21.14 H2S 2.067e-08 2.247e-08 -7.685 -7.648 0.036 36.27 S-2 1.956e-13 4.715e-14 -12.709 -13.327 -0.618 (0) - (H2S)2 2.447e-17 2.661e-17 -16.611 -16.575 0.036 30.09 + (H2S)2 2.448e-17 2.661e-17 -16.611 -16.575 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -198255,7 +198207,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -198266,12 +198218,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 2.0289e-18 - I 3.0136e-31 + Hto 1.1771e-18 + I 3.0141e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2095e-21 + Nat 2.3743e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -198290,12 +198242,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.719e-17 2.026e-18 + Hto 9.976e-18 1.175e-18 I 2.558e-18 3.014e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.057e-20 1.245e-21 + Nat 4.040e-21 4.760e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -198354,8 +198306,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.057e-11 1.149e-11 -10.976 -10.940 0.036 28.61 -Hto 1.719e-17 - Hto 1.719e-17 1.719e-17 -16.765 -16.765 0.000 (0) +Hto 9.976e-18 + Hto 9.976e-18 9.976e-18 -17.001 -17.001 0.000 (0) I 2.558e-18 I- 2.558e-18 2.558e-18 -17.592 -17.592 -0.000 (0) K 1.540e-03 @@ -198373,8 +198325,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.057e-20 - Nat+ 1.057e-20 1.057e-20 -19.976 -19.976 -0.000 (0) +Nat 4.040e-21 + Nat+ 4.040e-21 4.040e-21 -20.394 -20.394 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.509 0.036 30.40 S(-2) 6.880e-08 @@ -198456,7 +198408,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -198467,12 +198419,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 1.7833e-19 - I 2.2536e-32 + Hto 9.9261e-20 + I 2.2533e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2333e-22 + Nat 1.1550e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -198491,12 +198443,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.511e-18 1.780e-19 + Hto 8.412e-19 9.910e-20 I 1.913e-19 2.253e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.502e-22 6.482e-23 + Nat 1.965e-22 2.315e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -198555,8 +198507,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.057e-11 1.149e-11 -10.976 -10.940 0.036 28.61 -Hto 1.511e-18 - Hto 1.511e-18 1.511e-18 -17.821 -17.821 0.000 (0) +Hto 8.412e-19 + Hto 8.412e-19 8.412e-19 -18.075 -18.075 0.000 (0) I 1.913e-19 I- 1.913e-19 1.913e-19 -18.718 -18.718 -0.000 (0) K 1.540e-03 @@ -198574,8 +198526,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.502e-22 - Nat+ 5.502e-22 5.502e-22 -21.259 -21.259 -0.000 (0) +Nat 1.965e-22 + Nat+ 1.965e-22 1.965e-22 -21.707 -21.707 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.509 0.036 30.40 S(-2) 6.881e-08 @@ -198657,7 +198609,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -198668,12 +198620,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 1.4336e-20 - I 1.5392e-33 + Hto 7.6532e-21 + I 1.5394e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5173e-23 + Nat 4.9333e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -198692,12 +198644,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.215e-19 1.431e-20 + Hto 6.486e-20 7.641e-21 I 1.306e-20 1.539e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.582e-23 3.042e-24 + Nat 8.395e-24 9.890e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -198715,7 +198667,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.191e-09 + Electrical balance (eq) = -2.190e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -198756,8 +198708,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.057e-11 1.149e-11 -10.976 -10.940 0.036 28.61 -Hto 1.215e-19 - Hto 1.215e-19 1.215e-19 -18.915 -18.915 0.000 (0) +Hto 6.486e-20 + Hto 6.486e-20 6.486e-20 -19.188 -19.188 0.000 (0) I 1.306e-20 I- 1.306e-20 1.306e-20 -19.884 -19.884 -0.000 (0) K 1.540e-03 @@ -198775,8 +198727,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.582e-23 - Nat+ 2.582e-23 2.582e-23 -22.588 -22.588 -0.000 (0) +Nat 8.395e-24 + Nat+ 8.395e-24 8.395e-24 -23.076 -23.076 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.509 0.036 30.40 S(-2) 6.881e-08 @@ -198858,7 +198810,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -198869,12 +198821,11 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 1.1249e-21 - I 1.0156e-34 + Hto 5.7444e-22 + I 1.0155e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9893e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -198893,12 +198844,11 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.533e-21 1.123e-21 + Hto 4.868e-21 5.735e-22 I 8.620e-22 1.015e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.490e-25 1.000e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -198957,8 +198907,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.113e-11 H2 1.057e-11 1.149e-11 -10.976 -10.940 0.036 28.61 -Hto 9.533e-21 - Hto 9.533e-21 9.533e-21 -20.021 -20.021 0.000 (0) +Hto 4.868e-21 + Hto 4.868e-21 4.868e-21 -20.313 -20.313 0.000 (0) I 8.620e-22 I- 8.620e-22 8.620e-22 -21.065 -21.065 -0.000 (0) K 1.540e-03 @@ -198976,8 +198926,6 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.490e-25 - Nat+ 8.490e-25 8.490e-25 -24.071 -24.071 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.509 0.036 30.40 S(-2) 6.881e-08 @@ -199348,30 +199296,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.133e-07 2.566e-07 + Hto 5.187e-07 2.593e-07 I 6.964e-07 3.482e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.839e-07 1.419e-07 + Nat 2.909e-07 1.455e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.059 Adjusted to redox equilibrium + pe = -3.058 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.856e-13 + Electrical balance (eq) = -3.325e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -199385,8 +199333,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.555e-12 - CH4 3.555e-12 3.865e-12 -11.449 -11.413 0.036 35.46 +C(-4) 3.487e-12 + CH4 3.487e-12 3.791e-12 -11.458 -11.421 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -199395,7 +199343,7 @@ C(4) 2.744e-03 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.600e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 @@ -199410,10 +199358,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.127e-11 - H2 5.634e-12 6.125e-12 -11.249 -11.213 0.036 28.61 -Hto 5.133e-07 - Hto 5.133e-07 5.133e-07 -6.290 -6.290 0.000 (0) +H(0) 1.121e-11 + H2 5.607e-12 6.096e-12 -11.251 -11.215 0.036 28.61 +Hto 5.187e-07 + Hto 5.187e-07 5.187e-07 -6.285 -6.285 0.000 (0) I 6.964e-07 I- 6.964e-07 6.964e-07 -6.157 -6.157 -0.000 (0) K 1.540e-03 @@ -199425,21 +199373,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.627e-06 3.943e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.896e-07 2.125e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.839e-07 - Nat+ 2.839e-07 2.839e-07 -6.547 -6.547 -0.000 (0) +Nat 2.909e-07 + Nat+ 2.909e-07 2.909e-07 -6.536 -6.536 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -69.999 -69.963 0.036 30.40 -S(-2) 5.572e-09 - HS- 3.896e-09 2.565e-09 -8.409 -8.591 -0.182 21.14 - H2S 1.676e-09 1.822e-09 -8.776 -8.739 0.036 36.27 - S-2 1.581e-14 3.812e-15 -13.801 -14.419 -0.618 (0) - (H2S)2 1.610e-19 1.750e-19 -18.793 -18.757 0.036 30.09 + O2 0.000e+00 0.000e+00 -69.995 -69.959 0.036 30.40 +S(-2) 5.466e-09 + HS- 3.821e-09 2.516e-09 -8.418 -8.599 -0.182 21.14 + H2S 1.644e-09 1.788e-09 -8.784 -8.748 0.036 36.27 + S-2 1.551e-14 3.739e-15 -13.809 -14.427 -0.618 (0) + (H2S)2 1.549e-19 1.684e-19 -18.810 -18.774 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -199466,14 +199414,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.61 -11.41 -2.80 CH4 + CH4(g) -8.62 -11.42 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.11 -11.21 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.74 -15.68 -7.94 H2S + H2S(g) -7.75 -15.69 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -199504,7 +199452,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.007e-14 Surface + diffuse layer charge, eq + -5.018e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -199514,7 +199462,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -199525,12 +199473,12 @@ Su Ca 7.1884e-02 Cl 4.6649e-10 H 1.2948e-04 - Hto 5.3368e-08 + Hto 5.3725e-08 I 7.2342e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5139e-07 + Nat 1.5428e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -199549,12 +199497,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.523e-07 5.328e-08 + Hto 4.553e-07 5.364e-08 I 6.141e-07 7.234e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.576e-07 3.035e-08 + Nat 2.625e-07 3.093e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -199565,14 +199513,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.678e-09 + Electrical balance (eq) = 1.669e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -199586,15 +199534,15 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.173e-12 - CH4 9.173e-12 9.973e-12 -11.038 -11.001 0.036 35.46 +C(-4) 9.110e-12 + CH4 9.110e-12 9.905e-12 -11.040 -11.004 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.010e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.380e-06 8.602e-07 -5.471 -6.065 -0.594 -1.53 @@ -199605,16 +199553,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.010e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.009e-06 9.795e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.371e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.793e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.428e-11 - H2 7.141e-12 7.764e-12 -11.146 -11.110 0.036 28.61 -Hto 4.523e-07 - Hto 4.523e-07 4.523e-07 -6.345 -6.345 0.000 (0) +H(0) 1.426e-11 + H2 7.129e-12 7.751e-12 -11.147 -11.111 0.036 28.61 +Hto 4.553e-07 + Hto 4.553e-07 4.553e-07 -6.342 -6.342 0.000 (0) I 6.141e-07 I- 6.141e-07 6.141e-07 -6.212 -6.212 -0.000 (0) K 1.540e-03 @@ -199632,15 +199580,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.576e-07 - Nat+ 2.576e-07 2.576e-07 -6.589 -6.589 -0.000 (0) +Nat 2.625e-07 + Nat+ 2.625e-07 2.625e-07 -6.581 -6.581 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.205 -70.169 0.036 30.40 -S(-2) 1.438e-08 - HS- 1.005e-08 6.618e-09 -7.998 -8.179 -0.182 21.14 - H2S 4.325e-09 4.702e-09 -8.364 -8.328 0.036 36.27 - S-2 4.081e-14 9.838e-15 -13.389 -14.007 -0.618 (0) - (H2S)2 1.071e-18 1.165e-18 -17.970 -17.934 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.204 -70.167 0.036 30.40 +S(-2) 1.428e-08 + HS- 9.985e-09 6.573e-09 -8.001 -8.182 -0.182 21.14 + H2S 4.295e-09 4.670e-09 -8.367 -8.331 0.036 36.27 + S-2 4.053e-14 9.771e-15 -13.392 -14.010 -0.618 (0) + (H2S)2 1.057e-18 1.149e-18 -17.976 -17.940 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -199674,7 +199622,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.01 -11.11 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.33 -15.27 -7.94 H2S + H2S(g) -7.34 -15.27 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -199705,7 +199653,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.547e-11 Surface + diffuse layer charge, eq + -9.546e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -199715,7 +199663,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -199726,12 +199674,12 @@ Su Ca 7.1884e-02 Cl 4.6611e-10 H 1.2950e-04 - Hto 3.5084e-08 - I 4.3940e-20 + Hto 3.4827e-08 + I 4.3946e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9556e-08 + Nat 8.8288e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -199750,12 +199698,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.973e-07 3.503e-08 + Hto 2.951e-07 3.477e-08 I 3.730e-07 4.394e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.524e-07 1.795e-08 + Nat 1.502e-07 1.770e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -199773,7 +199721,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.379e-09 + Electrical balance (eq) = 2.346e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -199787,8 +199735,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.119e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 2.959e-11 - CH4 2.959e-11 3.217e-11 -10.529 -10.492 0.036 35.46 +C(-4) 2.967e-11 + CH4 2.967e-11 3.226e-11 -10.528 -10.491 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -199812,10 +199760,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.914e-11 - H2 9.572e-12 1.041e-11 -11.019 -10.983 0.036 28.61 -Hto 2.973e-07 - Hto 2.973e-07 2.973e-07 -6.527 -6.527 0.000 (0) +H(0) 1.916e-11 + H2 9.579e-12 1.041e-11 -11.019 -10.982 0.036 28.61 +Hto 2.951e-07 + Hto 2.951e-07 2.951e-07 -6.530 -6.530 0.000 (0) I 3.730e-07 I- 3.730e-07 3.730e-07 -6.428 -6.428 -0.000 (0) K 1.540e-03 @@ -199833,15 +199781,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.524e-07 - Nat+ 1.524e-07 1.524e-07 -6.817 -6.817 -0.000 (0) +Nat 1.502e-07 + Nat+ 1.502e-07 1.502e-07 -6.823 -6.823 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.460 -70.423 0.036 30.40 -S(-2) 4.637e-08 - HS- 3.243e-08 2.135e-08 -7.489 -7.671 -0.182 21.14 - H2S 1.394e-08 1.515e-08 -7.856 -7.819 0.036 36.27 - S-2 1.318e-13 3.176e-14 -12.880 -13.498 -0.618 (0) - (H2S)2 1.113e-17 1.210e-17 -16.953 -16.917 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.460 -70.424 0.036 30.40 +S(-2) 4.649e-08 + HS- 3.252e-08 2.141e-08 -7.488 -7.669 -0.182 21.14 + H2S 1.398e-08 1.520e-08 -7.855 -7.818 0.036 36.27 + S-2 1.321e-13 3.185e-14 -12.879 -13.497 -0.618 (0) + (H2S)2 1.119e-17 1.217e-17 -16.951 -16.915 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -199850,7 +199798,7 @@ S(6) 1.260e-02 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - HSO4- 1.308e-08 9.556e-09 -7.884 -8.020 -0.136 40.78 + HSO4- 1.308e-08 9.555e-09 -7.884 -8.020 -0.136 40.78 CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 @@ -199916,7 +199864,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -199927,12 +199875,12 @@ Su Ca 7.1884e-02 Cl 4.6594e-10 H 1.2950e-04 - Hto 1.9272e-08 - I 2.1973e-20 + Hto 1.8746e-08 + I 2.1970e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9305e-08 + Nat 3.6984e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -199951,12 +199899,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.633e-07 1.924e-08 + Hto 1.589e-07 1.872e-08 I 1.865e-07 2.197e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.688e-08 7.879e-09 + Nat 6.293e-08 7.414e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -199988,15 +199936,15 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.879e-11 - CH4 3.879e-11 4.217e-11 -10.411 -10.375 0.036 35.46 +C(-4) 3.886e-11 + CH4 3.886e-11 4.225e-11 -10.410 -10.374 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.021e-06 9.808e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.022e-06 9.809e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.633e-06 3.950e-06 -5.440 -5.403 0.036 -17.09 CO3-2 3.384e-06 8.614e-07 -5.471 -6.065 -0.594 -1.53 @@ -200007,16 +199955,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.021e-06 9.808e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.022e-06 9.809e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.878e-08 1.372e-08 -7.726 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.784e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.049e-11 - H2 1.024e-11 1.114e-11 -10.990 -10.953 0.036 28.61 -Hto 1.633e-07 - Hto 1.633e-07 1.633e-07 -6.787 -6.787 0.000 (0) +H(0) 2.050e-11 + H2 1.025e-11 1.114e-11 -10.989 -10.953 0.036 28.61 +Hto 1.589e-07 + Hto 1.589e-07 1.589e-07 -6.799 -6.799 0.000 (0) I 1.865e-07 I- 1.865e-07 1.865e-07 -6.729 -6.729 -0.000 (0) K 1.540e-03 @@ -200034,15 +199982,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.688e-08 - Nat+ 6.688e-08 6.688e-08 -7.175 -7.175 -0.000 (0) +Nat 6.293e-08 + Nat+ 6.293e-08 6.293e-08 -7.201 -7.201 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.519 -70.482 0.036 30.40 -S(-2) 6.077e-08 - HS- 4.250e-08 2.798e-08 -7.372 -7.553 -0.182 21.14 - H2S 1.826e-08 1.986e-08 -7.738 -7.702 0.036 36.27 - S-2 1.728e-13 4.164e-14 -12.763 -13.380 -0.618 (0) - (H2S)2 1.911e-17 2.077e-17 -16.719 -16.682 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.519 -70.483 0.036 30.40 +S(-2) 6.088e-08 + HS- 4.259e-08 2.804e-08 -7.371 -7.552 -0.182 21.14 + H2S 1.830e-08 1.989e-08 -7.738 -7.701 0.036 36.27 + S-2 1.731e-13 4.172e-14 -12.762 -13.380 -0.618 (0) + (H2S)2 1.918e-17 2.085e-17 -16.717 -16.681 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -200117,7 +200065,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -200128,12 +200076,12 @@ Su Ca 7.1884e-02 Cl 4.6588e-10 H 1.2950e-04 - Hto 8.9106e-09 - I 9.1205e-21 + Hto 8.4508e-09 + I 9.1221e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3369e-08 + Nat 1.1917e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -200152,12 +200100,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.551e-08 8.896e-09 + Hto 7.162e-08 8.437e-09 I 7.740e-08 9.119e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.275e-08 2.680e-09 + Nat 2.028e-08 2.389e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -200189,8 +200137,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.268e-11 - CH4 4.268e-11 4.640e-11 -10.370 -10.333 0.036 35.46 +C(-4) 4.272e-11 + CH4 4.272e-11 4.645e-11 -10.369 -10.333 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -200214,10 +200162,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.098e-11 +H(0) 2.099e-11 H2 1.049e-11 1.141e-11 -10.979 -10.943 0.036 28.61 -Hto 7.551e-08 - Hto 7.551e-08 7.551e-08 -7.122 -7.122 0.000 (0) +Hto 7.162e-08 + Hto 7.162e-08 7.162e-08 -7.145 -7.145 0.000 (0) I 7.740e-08 I- 7.740e-08 7.740e-08 -7.111 -7.111 -0.000 (0) K 1.540e-03 @@ -200235,15 +200183,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.275e-08 - Nat+ 2.275e-08 2.275e-08 -7.643 -7.643 -0.000 (0) +Nat 2.028e-08 + Nat+ 2.028e-08 2.028e-08 -7.693 -7.693 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.539 -70.503 0.036 30.40 -S(-2) 6.686e-08 - HS- 4.677e-08 3.079e-08 -7.330 -7.512 -0.182 21.14 - H2S 2.009e-08 2.184e-08 -7.697 -7.661 0.036 36.27 - S-2 1.901e-13 4.582e-14 -12.721 -13.339 -0.618 (0) - (H2S)2 2.312e-17 2.514e-17 -16.636 -16.600 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.540 -70.503 0.036 30.40 +S(-2) 6.693e-08 + HS- 4.681e-08 3.082e-08 -7.330 -7.511 -0.182 21.14 + H2S 2.011e-08 2.187e-08 -7.697 -7.660 0.036 36.27 + S-2 1.903e-13 4.587e-14 -12.721 -13.338 -0.618 (0) + (H2S)2 2.317e-17 2.519e-17 -16.635 -16.599 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -200318,7 +200266,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -200329,12 +200277,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 3.5027e-09 + Hto 3.2265e-09 I 3.1818e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6517e-09 + Nat 3.0701e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -200353,12 +200301,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.968e-08 3.497e-09 + Hto 2.734e-08 3.221e-09 I 2.701e-08 3.182e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.214e-09 7.320e-10 + Nat 5.224e-09 6.155e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -200390,15 +200338,15 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.413e-11 - CH4 4.413e-11 4.798e-11 -10.355 -10.319 0.036 35.46 +C(-4) 4.415e-11 + CH4 4.415e-11 4.800e-11 -10.355 -10.319 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.023e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.023e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.634e-06 3.951e-06 -5.440 -5.403 0.036 -17.09 CO3-2 3.385e-06 8.616e-07 -5.470 -6.065 -0.594 -1.53 @@ -200409,16 +200357,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.023e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.023e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.878e-08 1.372e-08 -7.726 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.783e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.116e-11 - H2 1.058e-11 1.150e-11 -10.976 -10.939 0.036 28.61 -Hto 2.968e-08 - Hto 2.968e-08 2.968e-08 -7.527 -7.527 0.000 (0) + H2 1.058e-11 1.150e-11 -10.975 -10.939 0.036 28.61 +Hto 2.734e-08 + Hto 2.734e-08 2.734e-08 -7.563 -7.563 0.000 (0) I 2.701e-08 I- 2.701e-08 2.701e-08 -7.569 -7.569 -0.000 (0) K 1.540e-03 @@ -200436,15 +200384,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.214e-09 - Nat+ 6.214e-09 6.214e-09 -8.207 -8.207 -0.000 (0) +Nat 5.224e-09 + Nat+ 5.224e-09 5.224e-09 -8.282 -8.282 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.547 -70.510 0.036 30.40 -S(-2) 6.913e-08 - HS- 4.836e-08 3.184e-08 -7.316 -7.497 -0.182 21.14 - H2S 2.077e-08 2.259e-08 -7.682 -7.646 0.036 36.27 - S-2 1.966e-13 4.739e-14 -12.706 -13.324 -0.618 (0) - (H2S)2 2.472e-17 2.688e-17 -16.607 -16.571 0.036 30.09 +S(-2) 6.917e-08 + HS- 4.838e-08 3.185e-08 -7.315 -7.497 -0.182 21.14 + H2S 2.078e-08 2.260e-08 -7.682 -7.646 0.036 36.27 + S-2 1.967e-13 4.741e-14 -12.706 -13.324 -0.618 (0) + (H2S)2 2.475e-17 2.691e-17 -16.606 -16.570 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -200519,7 +200467,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -200530,12 +200478,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 1.1830e-09 - I 9.4526e-22 + Hto 1.0554e-09 + I 9.4505e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.2342e-10 + Nat 6.5121e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -200554,12 +200502,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.003e-08 1.181e-09 + Hto 8.944e-09 1.054e-09 I 8.022e-09 9.451e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.401e-09 1.651e-10 + Nat 1.108e-09 1.305e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -200591,15 +200539,15 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.454e-11 - CH4 4.454e-11 4.842e-11 -10.351 -10.315 0.036 35.46 +C(-4) 4.455e-11 + CH4 4.455e-11 4.844e-11 -10.351 -10.315 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.023e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.024e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.634e-06 3.951e-06 -5.440 -5.403 0.036 -17.09 CO3-2 3.385e-06 8.616e-07 -5.470 -6.065 -0.594 -1.53 @@ -200610,7 +200558,7 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.023e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.024e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.878e-08 1.372e-08 -7.726 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.783e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 @@ -200618,8 +200566,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.121e-11 H2 1.060e-11 1.153e-11 -10.975 -10.938 0.036 28.61 -Hto 1.003e-08 - Hto 1.003e-08 1.003e-08 -7.999 -7.999 0.000 (0) +Hto 8.944e-09 + Hto 8.944e-09 8.944e-09 -8.048 -8.048 0.000 (0) I 8.022e-09 I- 8.022e-09 8.022e-09 -8.096 -8.096 -0.000 (0) K 1.540e-03 @@ -200637,15 +200585,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.401e-09 - Nat+ 1.401e-09 1.401e-09 -8.854 -8.854 -0.000 (0) +Nat 1.108e-09 + Nat+ 1.108e-09 1.108e-09 -8.955 -8.955 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.549 -70.512 0.036 30.40 -S(-2) 6.977e-08 - HS- 4.881e-08 3.213e-08 -7.312 -7.493 -0.182 21.14 - H2S 2.097e-08 2.279e-08 -7.678 -7.642 0.036 36.27 - S-2 1.984e-13 4.783e-14 -12.702 -13.320 -0.618 (0) - (H2S)2 2.518e-17 2.738e-17 -16.599 -16.563 0.036 30.09 +S(-2) 6.979e-08 + HS- 4.882e-08 3.214e-08 -7.311 -7.493 -0.182 21.14 + H2S 2.097e-08 2.280e-08 -7.678 -7.642 0.036 36.27 + S-2 1.985e-13 4.784e-14 -12.702 -13.320 -0.618 (0) + (H2S)2 2.520e-17 2.740e-17 -16.599 -16.562 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -200720,7 +200668,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -200731,12 +200679,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 3.4668e-10 - I 2.4195e-22 + Hto 2.9889e-10 + I 2.4190e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5657e-10 + Nat 1.1627e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -200755,12 +200703,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.938e-09 3.461e-10 + Hto 2.533e-09 2.984e-10 I 2.053e-09 2.419e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.664e-10 3.139e-11 + Nat 1.979e-10 2.331e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -200778,7 +200726,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.288e-09 + Electrical balance (eq) = -2.289e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -200793,7 +200741,7 @@ Su H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.451e-11 - CH4 4.451e-11 4.839e-11 -10.352 -10.315 0.036 35.46 + CH4 4.451e-11 4.840e-11 -10.352 -10.315 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -200819,8 +200767,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.120e-11 H2 1.060e-11 1.153e-11 -10.975 -10.938 0.036 28.61 -Hto 2.938e-09 - Hto 2.938e-09 2.938e-09 -8.532 -8.532 0.000 (0) +Hto 2.533e-09 + Hto 2.533e-09 2.533e-09 -8.596 -8.596 0.000 (0) I 2.053e-09 I- 2.053e-09 2.053e-09 -8.688 -8.688 -0.000 (0) K 1.540e-03 @@ -200838,15 +200786,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.664e-10 - Nat+ 2.664e-10 2.664e-10 -9.574 -9.574 -0.000 (0) +Nat 1.979e-10 + Nat+ 1.979e-10 1.979e-10 -9.704 -9.704 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.549 -70.512 0.036 30.40 -S(-2) 6.972e-08 - HS- 4.877e-08 3.211e-08 -7.312 -7.493 -0.182 21.14 +S(-2) 6.973e-08 + HS- 4.878e-08 3.211e-08 -7.312 -7.493 -0.182 21.14 H2S 2.095e-08 2.278e-08 -7.679 -7.642 0.036 36.27 - S-2 1.983e-13 4.779e-14 -12.703 -13.321 -0.618 (0) - (H2S)2 2.515e-17 2.734e-17 -16.600 -16.563 0.036 30.09 + S-2 1.983e-13 4.780e-14 -12.703 -13.321 -0.618 (0) + (H2S)2 2.515e-17 2.735e-17 -16.599 -16.563 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -200911,7 +200859,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.901e-11 Surface + diffuse layer charge, eq + -9.905e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -200921,7 +200869,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -200932,12 +200880,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 8.8950e-11 - I 5.3909e-23 + Hto 7.3993e-11 + I 5.3902e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5522e-11 + Nat 1.7779e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -200956,12 +200904,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.538e-10 8.881e-11 + Hto 6.271e-10 7.387e-11 I 4.575e-10 5.390e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.343e-11 5.116e-12 + Nat 3.025e-11 3.564e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -200979,7 +200927,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.773e-09 + Electrical balance (eq) = -2.166e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -201020,8 +200968,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.118e-11 H2 1.059e-11 1.151e-11 -10.975 -10.939 0.036 28.61 -Hto 7.538e-10 - Hto 7.538e-10 7.538e-10 -9.123 -9.123 0.000 (0) +Hto 6.271e-10 + Hto 6.271e-10 6.271e-10 -9.203 -9.203 0.000 (0) I 4.575e-10 I- 4.575e-10 4.575e-10 -9.340 -9.340 -0.000 (0) K 1.540e-03 @@ -201039,15 +200987,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.343e-11 - Nat+ 4.343e-11 4.343e-11 -10.362 -10.362 -0.000 (0) +Nat 3.025e-11 + Nat+ 3.025e-11 3.025e-11 -10.519 -10.519 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.548 -70.511 0.036 30.40 -S(-2) 6.942e-08 - HS- 4.856e-08 3.197e-08 -7.314 -7.495 -0.182 21.14 +S(-2) 6.943e-08 + HS- 4.857e-08 3.197e-08 -7.314 -7.495 -0.182 21.14 H2S 2.086e-08 2.268e-08 -7.681 -7.644 0.036 36.27 - S-2 1.974e-13 4.759e-14 -12.705 -13.323 -0.618 (0) - (H2S)2 2.493e-17 2.711e-17 -16.603 -16.567 0.036 30.09 + S-2 1.974e-13 4.759e-14 -12.705 -13.322 -0.618 (0) + (H2S)2 2.494e-17 2.711e-17 -16.603 -16.567 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -201112,7 +201060,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.892e-11 Surface + diffuse layer charge, eq + -9.893e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -201122,7 +201070,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -201133,12 +201081,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 2.0140e-11 - I 1.0553e-23 + Hto 1.6144e-11 + I 1.0555e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.6138e-12 + Nat 2.3593e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -201157,12 +201105,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.707e-10 2.011e-11 + Hto 1.368e-10 1.612e-11 I 8.958e-11 1.055e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.149e-12 7.244e-13 + Nat 4.015e-12 4.730e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -201180,7 +201128,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.721e-09 + Electrical balance (eq) = -1.806e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -201221,8 +201169,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.116e-11 H2 1.058e-11 1.150e-11 -10.976 -10.939 0.036 28.61 -Hto 1.707e-10 - Hto 1.707e-10 1.707e-10 -9.768 -9.768 0.000 (0) +Hto 1.368e-10 + Hto 1.368e-10 1.368e-10 -9.864 -9.864 0.000 (0) I 8.958e-11 I- 8.958e-11 8.958e-11 -10.048 -10.048 -0.000 (0) K 1.540e-03 @@ -201240,8 +201188,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.149e-12 - Nat+ 6.149e-12 6.149e-12 -11.211 -11.211 -0.000 (0) +Nat 4.015e-12 + Nat+ 4.015e-12 4.015e-12 -11.396 -11.396 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.547 -70.510 0.036 30.40 S(-2) 6.915e-08 @@ -201323,7 +201271,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -201334,12 +201282,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 4.0516e-12 - I 1.8292e-24 + Hto 3.1264e-12 + I 1.8297e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.4917e-13 + Nat 2.7468e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -201358,12 +201306,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.434e-11 4.045e-12 + Hto 2.650e-11 3.121e-12 I 1.553e-11 1.829e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.643e-13 9.004e-14 + Nat 4.674e-13 5.506e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -201381,7 +201329,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.176e-09 + Electrical balance (eq) = -2.178e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -201396,7 +201344,7 @@ Su H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.406e-11 - CH4 4.406e-11 4.791e-11 -10.356 -10.320 0.036 35.46 + CH4 4.406e-11 4.790e-11 -10.356 -10.320 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -201422,8 +201370,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.115e-11 H2 1.058e-11 1.150e-11 -10.976 -10.939 0.036 28.61 -Hto 3.434e-11 - Hto 3.434e-11 3.434e-11 -10.464 -10.464 0.000 (0) +Hto 2.650e-11 + Hto 2.650e-11 2.650e-11 -10.577 -10.577 0.000 (0) I 1.553e-11 I- 1.553e-11 1.553e-11 -10.809 -10.809 -0.000 (0) K 1.540e-03 @@ -201441,12 +201389,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.643e-13 - Nat+ 7.643e-13 7.643e-13 -12.117 -12.117 -0.000 (0) +Nat 4.674e-13 + Nat+ 4.674e-13 4.674e-13 -12.330 -12.330 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.546 -70.510 0.036 30.40 -S(-2) 6.903e-08 - HS- 4.829e-08 3.179e-08 -7.316 -7.498 -0.182 21.14 +S(-2) 6.902e-08 + HS- 4.828e-08 3.178e-08 -7.316 -7.498 -0.182 21.14 H2S 2.074e-08 2.255e-08 -7.683 -7.647 0.036 36.27 S-2 1.963e-13 4.731e-14 -12.707 -13.325 -0.618 (0) (H2S)2 2.465e-17 2.680e-17 -16.608 -16.572 0.036 30.09 @@ -201524,7 +201472,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -201535,12 +201483,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 7.2847e-13 + Hto 5.4071e-13 I 2.8263e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9426e-14 + Nat 2.8299e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -201559,12 +201507,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.173e-12 7.273e-13 + Hto 4.582e-12 5.398e-13 I 2.399e-12 2.826e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.410e-14 9.908e-15 + Nat 4.815e-14 5.673e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -201597,7 +201545,7 @@ Su H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.412e-11 - CH4 4.412e-11 4.797e-11 -10.355 -10.319 0.036 35.46 + CH4 4.412e-11 4.796e-11 -10.355 -10.319 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -201623,8 +201571,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.116e-11 H2 1.058e-11 1.150e-11 -10.976 -10.939 0.036 28.61 -Hto 6.173e-12 - Hto 6.173e-12 6.173e-12 -11.209 -11.209 0.000 (0) +Hto 4.582e-12 + Hto 4.582e-12 4.582e-12 -11.339 -11.339 0.000 (0) I 2.399e-12 I- 2.399e-12 2.399e-12 -11.620 -11.620 -0.000 (0) K 1.540e-03 @@ -201642,15 +201590,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.410e-14 - Nat+ 8.410e-14 8.410e-14 -13.075 -13.075 -0.000 (0) +Nat 4.815e-14 + Nat+ 4.815e-14 4.815e-14 -13.317 -13.317 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.547 -70.510 0.036 30.40 S(-2) 6.911e-08 - HS- 4.835e-08 3.183e-08 -7.316 -7.497 -0.182 21.14 + HS- 4.834e-08 3.182e-08 -7.316 -7.497 -0.182 21.14 H2S 2.077e-08 2.258e-08 -7.683 -7.646 0.036 36.27 S-2 1.965e-13 4.737e-14 -12.707 -13.324 -0.618 (0) - (H2S)2 2.471e-17 2.687e-17 -16.607 -16.571 0.036 30.09 + (H2S)2 2.471e-17 2.686e-17 -16.607 -16.571 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -201725,7 +201673,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -201736,12 +201684,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 1.1765e-13 + Hto 8.3948e-14 I 3.9128e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8488e-15 + Nat 2.5985e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -201760,12 +201708,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.970e-13 1.175e-13 + Hto 7.114e-13 8.381e-14 I 3.321e-13 3.913e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.251e-15 9.720e-16 + Nat 4.422e-15 5.209e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -201783,7 +201731,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -6.997e-10 + Electrical balance (eq) = -8.671e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -201824,8 +201772,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.118e-11 H2 1.059e-11 1.151e-11 -10.975 -10.939 0.036 28.61 -Hto 9.970e-13 - Hto 9.970e-13 9.970e-13 -12.001 -12.001 0.000 (0) +Hto 7.114e-13 + Hto 7.114e-13 7.114e-13 -12.148 -12.148 0.000 (0) I 3.321e-13 I- 3.321e-13 3.321e-13 -12.479 -12.479 -0.000 (0) K 1.540e-03 @@ -201843,14 +201791,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.251e-15 - Nat+ 8.251e-15 8.251e-15 -14.084 -14.084 -0.000 (0) +Nat 4.422e-15 + Nat+ 4.422e-15 4.422e-15 -14.354 -14.354 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.548 -70.511 0.036 30.40 + O2 0.000e+00 0.000e+00 -70.547 -70.511 0.036 30.40 S(-2) 6.940e-08 HS- 4.855e-08 3.196e-08 -7.314 -7.495 -0.182 21.14 H2S 2.085e-08 2.267e-08 -7.681 -7.644 0.036 36.27 - S-2 1.974e-13 4.757e-14 -12.705 -13.323 -0.618 (0) + S-2 1.973e-13 4.757e-14 -12.705 -13.323 -0.618 (0) (H2S)2 2.492e-17 2.709e-17 -16.604 -16.567 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -201926,7 +201874,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -201937,12 +201885,12 @@ Su Ca 7.1884e-02 Cl 4.6585e-10 H 1.2950e-04 - Hto 1.7142e-14 - I 4.8783e-27 + Hto 1.1752e-14 + I 4.8791e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2654e-16 + Nat 2.1390e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -201961,12 +201909,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.453e-13 1.711e-14 + Hto 9.960e-14 1.173e-14 I 4.140e-14 4.878e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.258e-16 8.551e-17 + Nat 3.640e-16 4.288e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -202024,9 +201972,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.121e-11 - H2 1.060e-11 1.153e-11 -10.975 -10.938 0.036 28.61 -Hto 1.453e-13 - Hto 1.453e-13 1.453e-13 -12.838 -12.838 0.000 (0) + H2 1.060e-11 1.153e-11 -10.974 -10.938 0.036 28.61 +Hto 9.960e-14 + Hto 9.960e-14 9.960e-14 -13.002 -13.002 0.000 (0) I 4.140e-14 I- 4.140e-14 4.140e-14 -13.383 -13.383 -0.000 (0) K 1.540e-03 @@ -202044,14 +201992,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.258e-16 - Nat+ 7.258e-16 7.258e-16 -15.139 -15.139 -0.000 (0) +Nat 3.640e-16 + Nat+ 3.640e-16 3.640e-16 -15.439 -15.439 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.549 -70.512 0.036 30.40 S(-2) 6.980e-08 HS- 4.883e-08 3.214e-08 -7.311 -7.493 -0.182 21.14 H2S 2.097e-08 2.280e-08 -7.678 -7.642 0.036 36.27 - S-2 1.985e-13 4.784e-14 -12.702 -13.320 -0.618 (0) + S-2 1.985e-13 4.785e-14 -12.702 -13.320 -0.618 (0) (H2S)2 2.520e-17 2.740e-17 -16.599 -16.562 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -202127,7 +202075,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -202138,12 +202086,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.2615e-15 - I 5.4984e-28 + Hto 1.4891e-15 + I 5.4974e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3807e-17 + Nat 1.5861e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -202162,12 +202110,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.916e-14 2.258e-15 + Hto 1.262e-14 1.487e-15 I 4.667e-15 5.498e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.753e-17 6.777e-18 + Nat 2.699e-17 3.180e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -202226,8 +202174,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.123e-11 H2 1.062e-11 1.154e-11 -10.974 -10.938 0.036 28.61 -Hto 1.916e-14 - Hto 1.916e-14 1.916e-14 -13.717 -13.717 0.000 (0) +Hto 1.262e-14 + Hto 1.262e-14 1.262e-14 -13.899 -13.899 0.000 (0) I 4.667e-15 I- 4.667e-15 4.667e-15 -14.331 -14.331 -0.000 (0) K 1.540e-03 @@ -202245,15 +202193,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.753e-17 - Nat+ 5.753e-17 5.753e-17 -16.240 -16.240 -0.000 (0) +Nat 2.699e-17 + Nat+ 2.699e-17 2.699e-17 -16.569 -16.569 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.550 -70.513 0.036 30.40 S(-2) 7.013e-08 - HS- 4.905e-08 3.229e-08 -7.309 -7.491 -0.182 21.14 + HS- 4.906e-08 3.229e-08 -7.309 -7.491 -0.182 21.14 H2S 2.107e-08 2.291e-08 -7.676 -7.640 0.036 36.27 S-2 1.994e-13 4.807e-14 -12.700 -13.318 -0.618 (0) - (H2S)2 2.544e-17 2.766e-17 -16.595 -16.558 0.036 30.09 + (H2S)2 2.544e-17 2.766e-17 -16.594 -16.558 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -202318,7 +202266,7 @@ Kinetics 18. Diffuse Double Layer Surface-Complexation Model Su - -9.913e-11 Surface + diffuse layer charge, eq + -9.914e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -202328,7 +202276,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -202339,12 +202287,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.7099e-16 - I 5.6206e-29 + Hto 1.7132e-16 + I 5.6219e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4239e-18 + Nat 1.0638e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -202363,12 +202311,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.297e-15 2.706e-16 + Hto 1.452e-15 1.710e-16 I 4.771e-16 5.621e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.124e-18 4.859e-19 + Nat 1.810e-18 2.132e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -202427,8 +202375,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.125e-11 H2 1.062e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 2.297e-15 - Hto 2.297e-15 2.297e-15 -14.639 -14.639 0.000 (0) +Hto 1.452e-15 + Hto 1.452e-15 1.452e-15 -14.838 -14.838 0.000 (0) I 4.771e-16 I- 4.771e-16 4.771e-16 -15.321 -15.321 -0.000 (0) K 1.540e-03 @@ -202446,14 +202394,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.124e-18 - Nat+ 4.124e-18 4.124e-18 -17.385 -17.385 -0.000 (0) +Nat 1.810e-18 + Nat+ 1.810e-18 1.810e-18 -17.742 -17.742 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.550 -70.514 0.036 30.40 S(-2) 7.031e-08 HS- 4.918e-08 3.238e-08 -7.308 -7.490 -0.182 21.14 H2S 2.113e-08 2.297e-08 -7.675 -7.639 0.036 36.27 - S-2 1.999e-13 4.819e-14 -12.699 -13.317 -0.618 (0) + S-2 1.999e-13 4.820e-14 -12.699 -13.317 -0.618 (0) (H2S)2 2.557e-17 2.780e-17 -16.592 -16.556 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -202529,7 +202477,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -202540,12 +202488,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.9573e-17 + Hto 1.7945e-17 I 5.2285e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5772e-19 + Nat 6.4741e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -202564,12 +202512,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.506e-16 2.953e-17 + Hto 1.521e-16 1.792e-17 I 4.437e-17 5.227e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.684e-19 3.162e-20 + Nat 1.102e-19 1.298e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -202628,8 +202576,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.125e-11 H2 1.063e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 2.506e-16 - Hto 2.506e-16 2.506e-16 -15.601 -15.601 0.000 (0) +Hto 1.521e-16 + Hto 1.521e-16 1.521e-16 -15.818 -15.818 0.000 (0) I 4.437e-17 I- 4.437e-17 4.437e-17 -16.353 -16.353 -0.000 (0) K 1.540e-03 @@ -202647,14 +202595,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.684e-19 - Nat+ 2.684e-19 2.684e-19 -18.571 -18.571 -0.000 (0) +Nat 1.102e-19 + Nat+ 1.102e-19 1.102e-19 -18.958 -18.958 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.514 0.036 30.40 S(-2) 7.038e-08 HS- 4.923e-08 3.241e-08 -7.308 -7.489 -0.182 21.14 H2S 2.115e-08 2.299e-08 -7.675 -7.638 0.036 36.27 - S-2 2.001e-13 4.824e-14 -12.699 -13.317 -0.618 (0) + S-2 2.001e-13 4.825e-14 -12.699 -13.317 -0.618 (0) (H2S)2 2.562e-17 2.786e-17 -16.591 -16.555 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -202730,7 +202678,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -202741,12 +202689,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.9455e-18 - I 4.4345e-31 + Hto 1.7152e-18 + I 4.4335e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.3398e-21 + Nat 3.5853e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -202765,12 +202713,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.496e-17 2.941e-18 + Hto 1.454e-17 1.712e-18 I 3.763e-18 4.433e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.589e-20 1.872e-21 + Nat 6.101e-21 7.187e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -202829,8 +202777,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.126e-11 H2 1.063e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 2.496e-17 - Hto 2.496e-17 2.496e-17 -16.603 -16.603 0.000 (0) +Hto 1.454e-17 + Hto 1.454e-17 1.454e-17 -16.838 -16.838 0.000 (0) I 3.763e-18 I- 3.763e-18 3.763e-18 -17.424 -17.424 -0.000 (0) K 1.540e-03 @@ -202848,8 +202796,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.589e-20 - Nat+ 1.589e-20 1.589e-20 -19.799 -19.799 -0.000 (0) +Nat 6.101e-21 + Nat+ 6.101e-21 6.101e-21 -20.215 -20.215 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.514 0.036 30.40 S(-2) 7.040e-08 @@ -202921,7 +202869,7 @@ Kinetics 21. Diffuse Double Layer Surface-Complexation Model Su - -9.915e-11 Surface + diffuse layer charge, eq + -9.914e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -202931,7 +202879,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -202942,12 +202890,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.6824e-19 + Hto 1.4985e-19 I 3.4342e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.0431e-22 + Nat 1.8093e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -202966,12 +202914,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.273e-18 2.678e-19 + Hto 1.270e-18 1.496e-19 I 2.915e-19 3.434e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.581e-22 1.011e-22 + Nat 3.079e-22 3.627e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -203030,8 +202978,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.126e-11 H2 1.063e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 2.273e-18 - Hto 2.273e-18 2.273e-18 -17.643 -17.643 0.000 (0) +Hto 1.270e-18 + Hto 1.270e-18 1.270e-18 -17.896 -17.896 0.000 (0) I 2.915e-19 I- 2.915e-19 2.915e-19 -18.535 -18.535 -0.000 (0) K 1.540e-03 @@ -203049,8 +202997,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.581e-22 - Nat+ 8.581e-22 8.581e-22 -21.066 -21.066 -0.000 (0) +Nat 3.079e-22 + Nat+ 3.079e-22 3.079e-22 -21.512 -21.512 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.514 0.036 30.40 S(-2) 7.041e-08 @@ -203132,7 +203080,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -203143,12 +203091,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.2374e-20 + Hto 1.1989e-20 I 2.4349e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.4695e-23 + Nat 8.1532e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -203167,12 +203115,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.896e-19 2.234e-20 + Hto 1.016e-19 1.197e-20 I 2.067e-20 2.435e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.202e-23 4.950e-24 + Nat 1.387e-23 1.634e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -203231,8 +203179,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.126e-11 H2 1.063e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 1.896e-19 - Hto 1.896e-19 1.896e-19 -18.722 -18.722 0.000 (0) +Hto 1.016e-19 + Hto 1.016e-19 1.016e-19 -18.993 -18.993 0.000 (0) I 2.067e-20 I- 2.067e-20 2.067e-20 -19.685 -19.685 -0.000 (0) K 1.540e-03 @@ -203250,15 +203198,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.202e-23 - Nat+ 4.202e-23 4.202e-23 -22.377 -22.377 -0.000 (0) +Nat 1.387e-23 + Nat+ 1.387e-23 1.387e-23 -22.858 -22.858 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.514 0.036 30.40 S(-2) 7.041e-08 HS- 4.925e-08 3.242e-08 -7.308 -7.489 -0.182 21.14 H2S 2.116e-08 2.300e-08 -7.675 -7.638 0.036 36.27 S-2 2.002e-13 4.826e-14 -12.698 -13.316 -0.618 (0) - (H2S)2 2.564e-17 2.788e-17 -16.591 -16.555 0.036 30.09 + (H2S)2 2.565e-17 2.788e-17 -16.591 -16.555 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -203333,7 +203281,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -203344,12 +203292,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 1.8292e-21 - I 1.6739e-34 + Hto 9.3755e-22 + I 1.6741e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.7502e-25 + Nat 1.8419e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -203368,12 +203316,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.550e-20 1.826e-21 + Hto 7.945e-21 9.360e-22 I 1.421e-21 1.674e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.659e-24 1.955e-25 + Nat 3.134e-25 3.692e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -203432,8 +203380,8 @@ Cl 3.000e-01 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.126e-11 H2 1.063e-11 1.155e-11 -10.974 -10.937 0.036 28.61 -Hto 1.550e-20 - Hto 1.550e-20 1.550e-20 -19.810 -19.810 0.000 (0) +Hto 7.945e-21 + Hto 7.945e-21 7.945e-21 -20.100 -20.100 0.000 (0) I 1.421e-21 I- 1.421e-21 1.421e-21 -20.847 -20.847 -0.000 (0) K 1.540e-03 @@ -203451,8 +203399,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.659e-24 - Nat+ 1.659e-24 1.659e-24 -23.780 -23.780 -0.000 (0) +Nat 3.134e-25 + Nat+ 3.134e-25 3.134e-25 -24.504 -24.504 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.514 0.036 30.40 S(-2) 7.041e-08 @@ -203823,30 +203771,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.102e-07 2.551e-07 + Hto 5.156e-07 2.578e-07 I 6.940e-07 3.470e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.815e-07 1.407e-07 + Nat 2.885e-07 1.443e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.061 Adjusted to redox equilibrium + pe = -3.060 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.870e-13 + Electrical balance (eq) = -3.339e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -203860,8 +203808,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.732e-12 - CH4 3.732e-12 4.058e-12 -11.428 -11.392 0.036 35.46 +C(-4) 3.661e-12 + CH4 3.661e-12 3.980e-12 -11.436 -11.400 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -203885,10 +203833,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.141e-11 - H2 5.703e-12 6.201e-12 -11.244 -11.208 0.036 28.61 -Hto 5.102e-07 - Hto 5.102e-07 5.102e-07 -6.292 -6.292 0.000 (0) +H(0) 1.135e-11 + H2 5.676e-12 6.171e-12 -11.246 -11.210 0.036 28.61 +Hto 5.156e-07 + Hto 5.156e-07 5.156e-07 -6.288 -6.288 0.000 (0) I 6.940e-07 I- 6.940e-07 6.940e-07 -6.159 -6.159 -0.000 (0) K 1.540e-03 @@ -203906,15 +203854,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.815e-07 - Nat+ 2.815e-07 2.815e-07 -6.551 -6.551 -0.000 (0) +Nat 2.885e-07 + Nat+ 2.885e-07 2.885e-07 -6.540 -6.540 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.010 -69.974 0.036 30.40 -S(-2) 5.850e-09 - HS- 4.090e-09 2.693e-09 -8.388 -8.570 -0.182 21.14 - H2S 1.760e-09 1.913e-09 -8.755 -8.718 0.036 36.27 - S-2 1.660e-14 4.002e-15 -13.780 -14.398 -0.618 (0) - (H2S)2 1.774e-19 1.929e-19 -18.751 -18.715 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.006 -69.969 0.036 30.40 +S(-2) 5.739e-09 + HS- 4.013e-09 2.642e-09 -8.397 -8.578 -0.182 21.14 + H2S 1.726e-09 1.877e-09 -8.763 -8.727 0.036 36.27 + S-2 1.629e-14 3.926e-15 -13.788 -14.406 -0.618 (0) + (H2S)2 1.708e-19 1.857e-19 -18.768 -18.731 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -203941,21 +203889,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.59 -11.39 -2.80 CH4 + CH4(g) -8.60 -11.40 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.11 -11.21 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.72 -15.66 -7.94 H2S + H2S(g) -7.73 -15.67 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.08 -69.97 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.54 -0.66 4.88 S + Sulfur -5.55 -0.67 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -203979,7 +203927,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.129e-14 Surface + diffuse layer charge, eq + -5.063e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -203989,7 +203937,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -204000,12 +203948,12 @@ Su Ca 7.1884e-02 Cl 4.6648e-10 H 1.2948e-04 - Hto 5.3161e-08 - I 7.2249e-20 + Hto 5.3523e-08 + I 7.2236e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5038e-07 + Nat 1.5329e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -204024,30 +203972,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.505e-07 5.308e-08 + Hto 4.536e-07 5.344e-08 I 6.131e-07 7.223e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.559e-07 3.015e-08 + Nat 2.608e-07 3.073e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.112 Adjusted to redox equilibrium + pe = -3.111 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.677e-09 + Electrical balance (eq) = 1.668e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -204061,8 +204009,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.457e-12 - CH4 9.457e-12 1.028e-11 -11.024 -10.988 0.036 35.46 +C(-4) 9.393e-12 + CH4 9.393e-12 1.021e-11 -11.027 -10.991 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -204071,7 +204019,7 @@ C(4) 2.744e-03 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.010e-06 9.796e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - MgCO3 3.628e-06 3.945e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.380e-06 8.603e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 @@ -204086,10 +204034,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.439e-11 - H2 7.196e-12 7.824e-12 -11.143 -11.107 0.036 28.61 -Hto 4.505e-07 - Hto 4.505e-07 4.505e-07 -6.346 -6.346 0.000 (0) +H(0) 1.437e-11 + H2 7.184e-12 7.810e-12 -11.144 -11.107 0.036 28.61 +Hto 4.536e-07 + Hto 4.536e-07 4.536e-07 -6.343 -6.343 0.000 (0) I 6.131e-07 I- 6.131e-07 6.131e-07 -6.212 -6.212 -0.000 (0) K 1.540e-03 @@ -204101,21 +204049,21 @@ Mg 1.720e-02 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 - MgCO3 3.628e-06 3.945e-06 -5.440 -5.404 0.036 -17.09 + MgCO3 3.628e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 MgOH+ 2.897e-07 2.126e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.559e-07 - Nat+ 2.559e-07 2.559e-07 -6.592 -6.592 -0.000 (0) +Nat 2.608e-07 + Nat+ 2.608e-07 2.608e-07 -6.584 -6.584 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.212 -70.176 0.036 30.40 -S(-2) 1.482e-08 - HS- 1.037e-08 6.824e-09 -7.984 -8.166 -0.182 21.14 - H2S 4.459e-09 4.848e-09 -8.351 -8.314 0.036 36.27 - S-2 4.208e-14 1.014e-14 -13.376 -13.994 -0.618 (0) - (H2S)2 1.139e-18 1.238e-18 -17.944 -17.907 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.210 -70.174 0.036 30.40 +S(-2) 1.472e-08 + HS- 1.030e-08 6.777e-09 -7.987 -8.169 -0.182 21.14 + H2S 4.428e-09 4.815e-09 -8.354 -8.317 0.036 36.27 + S-2 4.179e-14 1.007e-14 -13.379 -13.997 -0.618 (0) + (H2S)2 1.124e-18 1.222e-18 -17.949 -17.913 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -204154,7 +204102,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.28 -70.18 -2.89 O2 + O2(g) -67.28 -70.17 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.24 -0.36 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -204180,7 +204128,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.562e-11 Surface + diffuse layer charge, eq + -9.561e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -204190,7 +204138,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -204199,14 +204147,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6610e-10 + Cl 4.6609e-10 H 1.2950e-04 - Hto 3.5216e-08 + Hto 3.4971e-08 I 4.4231e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9932e-08 + Nat 8.8735e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -204225,12 +204173,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.984e-07 3.516e-08 + Hto 2.964e-07 3.491e-08 I 3.755e-07 4.423e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.530e-07 1.803e-08 + Nat 1.510e-07 1.779e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -204248,7 +204196,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.284e-09 + Electrical balance (eq) = 2.250e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -204262,8 +204210,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.016e-11 - CH4 3.016e-11 3.279e-11 -10.521 -10.484 0.036 35.46 +C(-4) 3.024e-11 + CH4 3.024e-11 3.288e-11 -10.519 -10.483 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.749e-04 -3.585 -3.561 0.024 34.43 @@ -204287,10 +204235,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.924e-11 - H2 9.618e-12 1.046e-11 -11.017 -10.981 0.036 28.61 -Hto 2.984e-07 - Hto 2.984e-07 2.984e-07 -6.525 -6.525 0.000 (0) +H(0) 1.925e-11 + H2 9.624e-12 1.046e-11 -11.017 -10.980 0.036 28.61 +Hto 2.964e-07 + Hto 2.964e-07 2.964e-07 -6.528 -6.528 0.000 (0) I 3.755e-07 I- 3.755e-07 3.755e-07 -6.425 -6.425 -0.000 (0) K 1.540e-03 @@ -204308,15 +204256,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.530e-07 - Nat+ 1.530e-07 1.530e-07 -6.815 -6.815 -0.000 (0) +Nat 1.510e-07 + Nat+ 1.510e-07 1.510e-07 -6.821 -6.821 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.464 -70.428 0.036 30.40 -S(-2) 4.726e-08 - HS- 3.305e-08 2.176e-08 -7.481 -7.662 -0.182 21.14 - H2S 1.421e-08 1.544e-08 -7.848 -7.811 0.036 36.27 - S-2 1.343e-13 3.237e-14 -12.872 -13.490 -0.618 (0) - (H2S)2 1.156e-17 1.257e-17 -16.937 -16.901 0.036 30.09 +S(-2) 4.739e-08 + HS- 3.314e-08 2.182e-08 -7.480 -7.661 -0.182 21.14 + H2S 1.424e-08 1.549e-08 -7.846 -7.810 0.036 36.27 + S-2 1.347e-13 3.246e-14 -12.871 -13.489 -0.618 (0) + (H2S)2 1.162e-17 1.264e-17 -16.935 -16.898 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -204381,7 +204329,7 @@ Kinetics 6. Diffuse Double Layer Surface-Complexation Model Su - -9.893e-11 Surface + diffuse layer charge, eq + -9.892e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -204391,7 +204339,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -204402,12 +204350,12 @@ Su Ca 7.1884e-02 Cl 4.6593e-10 H 1.2950e-04 - Hto 1.9562e-08 + Hto 1.9043e-08 I 2.2390e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0094e-08 + Nat 3.7783e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -204426,12 +204374,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.658e-07 1.953e-08 + Hto 1.614e-07 1.901e-08 I 1.900e-07 2.239e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.822e-08 8.038e-09 + Nat 6.429e-08 7.574e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -204449,7 +204397,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.386e-09 + Electrical balance (eq) = -2.385e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -204463,8 +204411,8 @@ Su OH- 1.875e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.116e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.957e-11 - CH4 3.957e-11 4.303e-11 -10.403 -10.366 0.036 35.46 +C(-4) 3.965e-11 + CH4 3.965e-11 4.311e-11 -10.402 -10.365 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -204488,10 +204436,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.059e-11 - H2 1.029e-11 1.119e-11 -10.987 -10.951 0.036 28.61 -Hto 1.658e-07 - Hto 1.658e-07 1.658e-07 -6.780 -6.780 0.000 (0) +H(0) 2.060e-11 + H2 1.030e-11 1.120e-11 -10.987 -10.951 0.036 28.61 +Hto 1.614e-07 + Hto 1.614e-07 1.614e-07 -6.792 -6.792 0.000 (0) I 1.900e-07 I- 1.900e-07 1.900e-07 -6.721 -6.721 -0.000 (0) K 1.540e-03 @@ -204509,15 +204457,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.822e-08 - Nat+ 6.822e-08 6.822e-08 -7.166 -7.166 -0.000 (0) +Nat 6.429e-08 + Nat+ 6.429e-08 6.429e-08 -7.192 -7.192 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.523 -70.487 0.036 30.40 -S(-2) 6.200e-08 - HS- 4.337e-08 2.855e-08 -7.363 -7.544 -0.182 21.14 - H2S 1.863e-08 2.026e-08 -7.730 -7.693 0.036 36.27 - S-2 1.763e-13 4.249e-14 -12.754 -13.372 -0.618 (0) - (H2S)2 1.989e-17 2.162e-17 -16.701 -16.665 0.036 30.09 +S(-2) 6.212e-08 + HS- 4.345e-08 2.860e-08 -7.362 -7.544 -0.182 21.14 + H2S 1.867e-08 2.030e-08 -7.729 -7.693 0.036 36.27 + S-2 1.766e-13 4.257e-14 -12.753 -13.371 -0.618 (0) + (H2S)2 1.997e-17 2.171e-17 -16.700 -16.663 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -204551,7 +204499,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.85 -10.95 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.70 -14.64 -7.94 H2S + H2S(g) -6.70 -14.63 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -204592,7 +204540,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -204603,12 +204551,12 @@ Su Ca 7.1884e-02 Cl 4.6586e-10 H 1.2950e-04 - Hto 9.1747e-09 - I 9.4365e-21 + Hto 8.7109e-09 + I 9.4348e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3895e-08 + Nat 1.2411e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -204627,19 +204575,19 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.775e-08 9.160e-09 + Hto 7.382e-08 8.697e-09 I 8.009e-08 9.436e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.364e-08 2.785e-09 + Nat 2.112e-08 2.488e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.091 Charge balance - pe = -3.195 Adjusted to redox equilibrium + pe = -3.196 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 @@ -204664,8 +204612,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.359e-11 - CH4 4.359e-11 4.739e-11 -10.361 -10.324 0.036 35.46 +C(-4) 4.364e-11 + CH4 4.364e-11 4.744e-11 -10.360 -10.324 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -204689,10 +204637,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) -H(0) 2.109e-11 - H2 1.055e-11 1.147e-11 -10.977 -10.941 0.036 28.61 -Hto 7.775e-08 - Hto 7.775e-08 7.775e-08 -7.109 -7.109 0.000 (0) +H(0) 2.110e-11 + H2 1.055e-11 1.147e-11 -10.977 -10.940 0.036 28.61 +Hto 7.382e-08 + Hto 7.382e-08 7.382e-08 -7.132 -7.132 0.000 (0) I 8.009e-08 I- 8.009e-08 8.009e-08 -7.096 -7.096 -0.000 (0) K 1.540e-03 @@ -204710,15 +204658,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.364e-08 - Nat+ 2.364e-08 2.364e-08 -7.626 -7.626 -0.000 (0) +Nat 2.112e-08 + Nat+ 2.112e-08 2.112e-08 -7.675 -7.675 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.544 -70.508 0.036 30.40 -S(-2) 6.829e-08 - HS- 4.777e-08 3.145e-08 -7.321 -7.502 -0.182 21.14 - H2S 2.052e-08 2.231e-08 -7.688 -7.652 0.036 36.27 - S-2 1.942e-13 4.681e-14 -12.712 -13.330 -0.618 (0) - (H2S)2 2.412e-17 2.623e-17 -16.618 -16.581 0.036 30.09 +S(-2) 6.836e-08 + HS- 4.782e-08 3.148e-08 -7.320 -7.502 -0.182 21.14 + H2S 2.054e-08 2.233e-08 -7.687 -7.651 0.036 36.27 + S-2 1.944e-13 4.686e-14 -12.711 -13.329 -0.618 (0) + (H2S)2 2.417e-17 2.628e-17 -16.617 -16.580 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -204793,7 +204741,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -204804,12 +204752,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 3.6673e-09 + Hto 3.3832e-09 I 3.3509e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8752e-09 + Nat 3.2659e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -204828,12 +204776,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.108e-08 3.661e-09 + Hto 2.867e-08 3.378e-09 I 2.844e-08 3.351e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.594e-09 7.768e-10 + Nat 5.557e-09 6.547e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -204865,8 +204813,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.511e-11 - CH4 4.511e-11 4.904e-11 -10.346 -10.309 0.036 35.46 +C(-4) 4.513e-11 + CH4 4.513e-11 4.907e-11 -10.346 -10.309 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -204886,14 +204834,14 @@ Ca 2.590e-02 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.024e-06 9.811e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.878e-08 1.372e-08 -7.726 -7.863 -0.136 (0) - CaHSO4+ 1.065e-09 7.783e-10 -8.973 -9.109 -0.136 (0) + CaHSO4+ 1.065e-09 7.782e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) -H(0) 2.127e-11 +H(0) 2.128e-11 H2 1.064e-11 1.157e-11 -10.973 -10.937 0.036 28.61 -Hto 3.108e-08 - Hto 3.108e-08 3.108e-08 -7.508 -7.508 0.000 (0) +Hto 2.867e-08 + Hto 2.867e-08 2.867e-08 -7.543 -7.543 0.000 (0) I 2.844e-08 I- 2.844e-08 2.844e-08 -7.546 -7.546 -0.000 (0) K 1.540e-03 @@ -204911,15 +204859,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.594e-09 - Nat+ 6.594e-09 6.594e-09 -8.181 -8.181 -0.000 (0) +Nat 5.557e-09 + Nat+ 5.557e-09 5.557e-09 -8.255 -8.255 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.551 -70.515 0.036 30.40 -S(-2) 7.066e-08 - HS- 4.943e-08 3.254e-08 -7.306 -7.488 -0.182 21.14 - H2S 2.123e-08 2.308e-08 -7.673 -7.637 0.036 36.27 - S-2 2.009e-13 4.844e-14 -12.697 -13.315 -0.618 (0) - (H2S)2 2.583e-17 2.808e-17 -16.588 -16.552 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.552 -70.515 0.036 30.40 +S(-2) 7.070e-08 + HS- 4.945e-08 3.256e-08 -7.306 -7.487 -0.182 21.14 + H2S 2.124e-08 2.310e-08 -7.673 -7.636 0.036 36.27 + S-2 2.010e-13 4.846e-14 -12.697 -13.315 -0.618 (0) + (H2S)2 2.585e-17 2.811e-17 -16.587 -16.551 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -204929,7 +204877,7 @@ S(6) 1.260e-02 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 HSO4- 1.307e-08 9.550e-09 -7.884 -8.020 -0.136 40.78 - CaHSO4+ 1.065e-09 7.783e-10 -8.973 -9.109 -0.136 (0) + CaHSO4+ 1.065e-09 7.782e-10 -8.973 -9.109 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 @@ -204984,7 +204932,7 @@ Kinetics 9. Diffuse Double Layer Surface-Complexation Model Su - -9.954e-11 Surface + diffuse layer charge, eq + -9.955e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -204994,7 +204942,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -205005,12 +204953,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 1.2620e-09 - I 1.0156e-21 + Hto 1.1279e-09 + I 1.0154e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.9354e-10 + Nat 7.0858e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -205029,12 +204977,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.070e-08 1.260e-09 + Hto 9.559e-09 1.126e-09 I 8.618e-09 1.015e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.520e-09 1.791e-10 + Nat 1.206e-09 1.420e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -205066,8 +205014,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.554e-11 - CH4 4.554e-11 4.951e-11 -10.342 -10.305 0.036 35.46 +C(-4) 4.555e-11 + CH4 4.555e-11 4.953e-11 -10.341 -10.305 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -205093,8 +205041,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.133e-11 H2 1.066e-11 1.159e-11 -10.972 -10.936 0.036 28.61 -Hto 1.070e-08 - Hto 1.070e-08 1.070e-08 -7.971 -7.971 0.000 (0) +Hto 9.559e-09 + Hto 9.559e-09 9.559e-09 -8.020 -8.020 0.000 (0) I 8.618e-09 I- 8.618e-09 8.618e-09 -8.065 -8.065 -0.000 (0) K 1.540e-03 @@ -205107,20 +205055,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.634e-06 3.951e-06 -5.440 -5.403 0.036 -17.09 - MgOH+ 2.901e-07 2.129e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.901e-07 2.129e-07 -6.537 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.520e-09 - Nat+ 1.520e-09 1.520e-09 -8.818 -8.818 -0.000 (0) +Nat 1.206e-09 + Nat+ 1.206e-09 1.206e-09 -8.919 -8.919 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.554 -70.517 0.036 30.40 -S(-2) 7.134e-08 - HS- 4.991e-08 3.285e-08 -7.302 -7.483 -0.182 21.14 - H2S 2.144e-08 2.331e-08 -7.669 -7.633 0.036 36.27 - S-2 2.029e-13 4.890e-14 -12.693 -13.311 -0.618 (0) - (H2S)2 2.633e-17 2.862e-17 -16.580 -16.543 0.036 30.09 +S(-2) 7.136e-08 + HS- 4.992e-08 3.286e-08 -7.302 -7.483 -0.182 21.14 + H2S 2.144e-08 2.331e-08 -7.669 -7.632 0.036 36.27 + S-2 2.029e-13 4.892e-14 -12.693 -13.311 -0.618 (0) + (H2S)2 2.634e-17 2.864e-17 -16.579 -16.543 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -205195,7 +205143,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -205206,12 +205154,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 3.7752e-10 + Hto 3.2616e-10 I 2.6547e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7395e-10 + Nat 1.2957e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -205230,12 +205178,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.199e-09 3.769e-10 + Hto 2.764e-09 3.256e-10 I 2.253e-09 2.655e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.960e-10 3.487e-11 + Nat 2.205e-10 2.597e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -205267,8 +205215,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.552e-11 - CH4 4.552e-11 4.949e-11 -10.342 -10.305 0.036 35.46 +C(-4) 4.553e-11 + CH4 4.553e-11 4.950e-11 -10.342 -10.305 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -205294,8 +205242,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.132e-11 H2 1.066e-11 1.159e-11 -10.972 -10.936 0.036 28.61 -Hto 3.199e-09 - Hto 3.199e-09 3.199e-09 -8.495 -8.495 0.000 (0) +Hto 2.764e-09 + Hto 2.764e-09 2.764e-09 -8.558 -8.558 0.000 (0) I 2.253e-09 I- 2.253e-09 2.253e-09 -8.647 -8.647 -0.000 (0) K 1.540e-03 @@ -205313,15 +205261,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.960e-10 - Nat+ 2.960e-10 2.960e-10 -9.529 -9.529 -0.000 (0) +Nat 2.205e-10 + Nat+ 2.205e-10 2.205e-10 -9.657 -9.657 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.553 -70.517 0.036 30.40 -S(-2) 7.131e-08 - HS- 4.988e-08 3.284e-08 -7.302 -7.484 -0.182 21.14 +S(-2) 7.132e-08 + HS- 4.989e-08 3.284e-08 -7.302 -7.484 -0.182 21.14 H2S 2.143e-08 2.330e-08 -7.669 -7.633 0.036 36.27 - S-2 2.028e-13 4.888e-14 -12.693 -13.311 -0.618 (0) - (H2S)2 2.631e-17 2.860e-17 -16.580 -16.544 0.036 30.09 + S-2 2.028e-13 4.889e-14 -12.693 -13.311 -0.618 (0) + (H2S)2 2.631e-17 2.861e-17 -16.580 -16.544 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -205386,7 +205334,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.930e-11 Surface + diffuse layer charge, eq + -9.934e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -205396,7 +205344,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -205407,12 +205355,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 9.9021e-11 - I 6.0539e-23 + Hto 8.2562e-11 + I 6.0526e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9063e-11 + Nat 2.0309e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -205431,12 +205379,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.392e-10 9.886e-11 + Hto 6.997e-10 8.243e-11 I 5.138e-10 6.052e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.945e-11 5.826e-12 + Nat 3.456e-11 4.071e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -205454,7 +205402,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.872e-09 + Electrical balance (eq) = -3.157e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -205469,7 +205417,7 @@ Su H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.534e-11 - CH4 4.534e-11 4.929e-11 -10.344 -10.307 0.036 35.46 + CH4 4.534e-11 4.930e-11 -10.344 -10.307 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -205495,8 +205443,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.130e-11 H2 1.065e-11 1.158e-11 -10.973 -10.936 0.036 28.61 -Hto 8.392e-10 - Hto 8.392e-10 8.392e-10 -9.076 -9.076 0.000 (0) +Hto 6.997e-10 + Hto 6.997e-10 6.997e-10 -9.155 -9.155 0.000 (0) I 5.138e-10 I- 5.138e-10 5.138e-10 -9.289 -9.289 -0.000 (0) K 1.540e-03 @@ -205514,15 +205462,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.945e-11 - Nat+ 4.945e-11 4.945e-11 -10.306 -10.306 -0.000 (0) +Nat 3.456e-11 + Nat+ 3.456e-11 3.456e-11 -10.461 -10.461 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.553 -70.516 0.036 30.40 S(-2) 7.103e-08 - HS- 4.968e-08 3.271e-08 -7.304 -7.485 -0.182 21.14 + HS- 4.969e-08 3.271e-08 -7.304 -7.485 -0.182 21.14 H2S 2.134e-08 2.320e-08 -7.671 -7.634 0.036 36.27 S-2 2.020e-13 4.869e-14 -12.695 -13.313 -0.618 (0) - (H2S)2 2.609e-17 2.837e-17 -16.583 -16.547 0.036 30.09 + (H2S)2 2.610e-17 2.837e-17 -16.583 -16.547 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -205597,7 +205545,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -205608,12 +205556,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 2.2951e-11 - I 1.2141e-23 + Hto 1.8443e-11 + I 1.2140e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2219e-12 + Nat 2.7654e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -205632,12 +205580,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.945e-10 2.291e-11 + Hto 1.563e-10 1.841e-11 I 1.030e-10 1.214e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.184e-12 8.464e-13 + Nat 4.706e-12 5.544e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -205655,7 +205603,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.820e-09 + Electrical balance (eq) = -1.905e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -205670,7 +205618,7 @@ Su H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.517e-11 - CH4 4.517e-11 4.911e-11 -10.345 -10.309 0.036 35.46 + CH4 4.517e-11 4.910e-11 -10.345 -10.309 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -205696,8 +205644,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.128e-11 H2 1.064e-11 1.157e-11 -10.973 -10.937 0.036 28.61 -Hto 1.945e-10 - Hto 1.945e-10 1.945e-10 -9.711 -9.711 0.000 (0) +Hto 1.563e-10 + Hto 1.563e-10 1.563e-10 -9.806 -9.806 0.000 (0) I 1.030e-10 I- 1.030e-10 1.030e-10 -9.987 -9.987 -0.000 (0) K 1.540e-03 @@ -205715,15 +205663,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.184e-12 - Nat+ 7.184e-12 7.184e-12 -11.144 -11.144 -0.000 (0) +Nat 4.706e-12 + Nat+ 4.706e-12 4.706e-12 -11.327 -11.327 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.552 -70.515 0.036 30.40 S(-2) 7.075e-08 HS- 4.949e-08 3.258e-08 -7.305 -7.487 -0.182 21.14 H2S 2.126e-08 2.311e-08 -7.672 -7.636 0.036 36.27 S-2 2.012e-13 4.850e-14 -12.696 -13.314 -0.618 (0) - (H2S)2 2.590e-17 2.815e-17 -16.587 -16.550 0.036 30.09 + (H2S)2 2.589e-17 2.815e-17 -16.587 -16.550 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -205798,7 +205746,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -205809,12 +205757,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 4.7321e-12 - I 2.1580e-24 + Hto 3.6615e-12 + I 2.1584e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.3888e-13 + Nat 3.3066e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -205833,12 +205781,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.010e-11 4.724e-12 + Hto 3.103e-11 3.656e-12 I 1.832e-11 2.158e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.170e-13 1.080e-13 + Nat 5.627e-13 6.629e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -205856,7 +205804,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.275e-09 + Electrical balance (eq) = -2.277e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -205897,8 +205845,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.127e-11 H2 1.064e-11 1.156e-11 -10.973 -10.937 0.036 28.61 -Hto 4.010e-11 - Hto 4.010e-11 4.010e-11 -10.397 -10.397 0.000 (0) +Hto 3.103e-11 + Hto 3.103e-11 3.103e-11 -10.508 -10.508 0.000 (0) I 1.832e-11 I- 1.832e-11 1.832e-11 -10.737 -10.737 -0.000 (0) K 1.540e-03 @@ -205916,13 +205864,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.170e-13 - Nat+ 9.170e-13 9.170e-13 -12.038 -12.038 -0.000 (0) +Nat 5.627e-13 + Nat+ 5.627e-13 5.627e-13 -12.250 -12.250 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.551 -70.515 0.036 30.40 -S(-2) 7.064e-08 +S(-2) 7.063e-08 HS- 4.941e-08 3.253e-08 -7.306 -7.488 -0.182 21.14 - H2S 2.123e-08 2.308e-08 -7.673 -7.637 0.036 36.27 + H2S 2.122e-08 2.308e-08 -7.673 -7.637 0.036 36.27 S-2 2.009e-13 4.842e-14 -12.697 -13.315 -0.618 (0) (H2S)2 2.581e-17 2.806e-17 -16.588 -16.552 0.036 30.09 S(6) 1.260e-02 @@ -205989,7 +205937,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -9.916e-11 Surface + diffuse layer charge, eq + -9.917e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -205999,7 +205947,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -206010,12 +205958,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 8.7305e-13 - I 3.4225e-25 + Hto 6.4991e-13 + I 3.4230e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0949e-14 + Nat 3.5020e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -206034,12 +205982,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.399e-12 8.716e-13 + Hto 5.508e-12 6.489e-13 I 2.905e-12 3.423e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.037e-13 1.222e-14 + Nat 5.959e-14 7.020e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -206071,8 +206019,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.515e-11 - CH4 4.515e-11 4.908e-11 -10.345 -10.309 0.036 35.46 +C(-4) 4.514e-11 + CH4 4.514e-11 4.908e-11 -10.345 -10.309 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -206098,8 +206046,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.128e-11 H2 1.064e-11 1.157e-11 -10.973 -10.937 0.036 28.61 -Hto 7.399e-12 - Hto 7.399e-12 7.399e-12 -11.131 -11.131 0.000 (0) +Hto 5.508e-12 + Hto 5.508e-12 5.508e-12 -11.259 -11.259 0.000 (0) I 2.905e-12 I- 2.905e-12 2.905e-12 -11.537 -11.537 -0.000 (0) K 1.540e-03 @@ -206117,8 +206065,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.037e-13 - Nat+ 1.037e-13 1.037e-13 -12.984 -12.984 -0.000 (0) +Nat 5.959e-14 + Nat+ 5.959e-14 5.959e-14 -13.225 -13.225 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.552 -70.515 0.036 30.40 S(-2) 7.072e-08 @@ -206200,7 +206148,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -206211,12 +206159,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 1.4485e-13 + Hto 1.0367e-13 I 4.8714e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.1516e-15 + Nat 3.3086e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -206235,12 +206183,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.228e-12 1.446e-13 + Hto 8.786e-13 1.035e-13 I 4.135e-13 4.871e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.047e-14 1.233e-15 + Nat 5.630e-15 6.633e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -206258,7 +206206,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -7.986e-10 + Electrical balance (eq) = -9.660e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -206299,8 +206247,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.130e-11 H2 1.065e-11 1.158e-11 -10.973 -10.936 0.036 28.61 -Hto 1.228e-12 - Hto 1.228e-12 1.228e-12 -11.911 -11.911 0.000 (0) +Hto 8.786e-13 + Hto 8.786e-13 8.786e-13 -12.056 -12.056 0.000 (0) I 4.135e-13 I- 4.135e-13 4.135e-13 -12.384 -12.384 -0.000 (0) K 1.540e-03 @@ -206318,15 +206266,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.047e-14 - Nat+ 1.047e-14 1.047e-14 -13.980 -13.980 -0.000 (0) +Nat 5.630e-15 + Nat+ 5.630e-15 5.630e-15 -14.249 -14.249 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.552 -70.516 0.036 30.40 -S(-2) 7.101e-08 +S(-2) 7.100e-08 HS- 4.967e-08 3.270e-08 -7.304 -7.485 -0.182 21.14 H2S 2.134e-08 2.320e-08 -7.671 -7.635 0.036 36.27 S-2 2.019e-13 4.867e-14 -12.695 -13.313 -0.618 (0) - (H2S)2 2.608e-17 2.836e-17 -16.584 -16.547 0.036 30.09 + (H2S)2 2.608e-17 2.835e-17 -16.584 -16.547 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -206401,7 +206349,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -206412,12 +206360,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 2.1706e-14 - I 6.2486e-27 + Hto 1.4929e-14 + I 6.2494e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.5727e-16 + Nat 2.8049e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -206436,12 +206384,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.840e-13 2.167e-14 + Hto 1.265e-13 1.491e-14 I 5.304e-14 6.248e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.483e-16 1.117e-16 + Nat 4.773e-16 5.623e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -206499,9 +206447,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.133e-11 - H2 1.066e-11 1.160e-11 -10.972 -10.936 0.036 28.61 -Hto 1.840e-13 - Hto 1.840e-13 1.840e-13 -12.735 -12.735 0.000 (0) + H2 1.067e-11 1.160e-11 -10.972 -10.936 0.036 28.61 +Hto 1.265e-13 + Hto 1.265e-13 1.265e-13 -12.898 -12.898 0.000 (0) I 5.304e-14 I- 5.304e-14 5.304e-14 -13.275 -13.275 -0.000 (0) K 1.540e-03 @@ -206519,13 +206467,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.483e-16 - Nat+ 9.483e-16 9.483e-16 -15.023 -15.023 -0.000 (0) +Nat 4.773e-16 + Nat+ 4.773e-16 4.773e-16 -15.321 -15.321 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.554 -70.517 0.036 30.40 S(-2) 7.140e-08 HS- 4.994e-08 3.288e-08 -7.302 -7.483 -0.182 21.14 - H2S 2.145e-08 2.332e-08 -7.669 -7.632 0.036 36.27 + H2S 2.145e-08 2.333e-08 -7.668 -7.632 0.036 36.27 S-2 2.030e-13 4.894e-14 -12.692 -13.310 -0.618 (0) (H2S)2 2.637e-17 2.867e-17 -16.579 -16.543 0.036 30.09 S(6) 1.260e-02 @@ -206602,7 +206550,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -206613,12 +206561,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2950e-04 - Hto 2.9486e-15 - I 7.2546e-28 + Hto 1.9480e-15 + I 7.2555e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5531e-17 + Nat 2.1442e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -206637,12 +206585,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.499e-14 2.944e-15 + Hto 1.651e-14 1.945e-15 I 6.157e-15 7.254e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.748e-17 9.127e-18 + Nat 3.649e-17 4.298e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -206674,8 +206622,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.578e-11 - CH4 4.578e-11 4.978e-11 -10.339 -10.303 0.036 35.46 +C(-4) 4.579e-11 + CH4 4.579e-11 4.978e-11 -10.339 -10.303 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -206701,8 +206649,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.135e-11 H2 1.068e-11 1.161e-11 -10.972 -10.935 0.036 28.61 -Hto 2.499e-14 - Hto 2.499e-14 2.499e-14 -13.602 -13.602 0.000 (0) +Hto 1.651e-14 + Hto 1.651e-14 1.651e-14 -13.782 -13.782 0.000 (0) I 6.157e-15 I- 6.157e-15 6.157e-15 -14.211 -14.211 -0.000 (0) K 1.540e-03 @@ -206720,14 +206668,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.748e-17 - Nat+ 7.748e-17 7.748e-17 -16.111 -16.111 -0.000 (0) +Nat 3.649e-17 + Nat+ 3.649e-17 3.649e-17 -16.438 -16.438 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.555 -70.518 0.036 30.40 S(-2) 7.172e-08 HS- 5.017e-08 3.303e-08 -7.300 -7.481 -0.182 21.14 H2S 2.155e-08 2.343e-08 -7.667 -7.630 0.036 36.27 - S-2 2.040e-13 4.916e-14 -12.690 -13.308 -0.618 (0) + S-2 2.040e-13 4.917e-14 -12.690 -13.308 -0.618 (0) (H2S)2 2.661e-17 2.893e-17 -16.575 -16.539 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -206769,7 +206717,7 @@ Sr 5.000e-04 Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.63 -70.52 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -4.73 0.15 4.88 S + Sulfur -4.73 0.16 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -206803,7 +206751,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -206814,12 +206762,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 3.6423e-16 + Hto 2.3105e-16 I 7.6483e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.3686e-18 + Nat 1.4840e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -206838,12 +206786,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.087e-15 3.636e-16 + Hto 1.958e-15 2.307e-16 I 6.492e-16 7.648e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.732e-18 6.753e-19 + Nat 2.525e-18 2.975e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -206876,7 +206824,7 @@ Su H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.590e-11 - CH4 4.590e-11 4.990e-11 -10.338 -10.302 0.036 35.46 + CH4 4.590e-11 4.991e-11 -10.338 -10.302 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -206902,8 +206850,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.137e-11 H2 1.068e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 3.087e-15 - Hto 3.087e-15 3.087e-15 -14.511 -14.511 0.000 (0) +Hto 1.958e-15 + Hto 1.958e-15 1.958e-15 -14.708 -14.708 0.000 (0) I 6.492e-16 I- 6.492e-16 6.492e-16 -15.188 -15.188 -0.000 (0) K 1.540e-03 @@ -206921,11 +206869,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.732e-18 - Nat+ 5.732e-18 5.732e-18 -17.242 -17.242 -0.000 (0) +Nat 2.525e-18 + Nat+ 2.525e-18 2.525e-18 -17.598 -17.598 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.555 -70.519 0.036 30.40 -S(-2) 7.190e-08 +S(-2) 7.191e-08 HS- 5.030e-08 3.311e-08 -7.298 -7.480 -0.182 21.14 H2S 2.161e-08 2.349e-08 -7.665 -7.629 0.036 36.27 S-2 2.045e-13 4.929e-14 -12.689 -13.307 -0.618 (0) @@ -207004,7 +206952,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -207015,12 +206963,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 4.1023e-17 - I 7.3447e-30 + Hto 2.4980e-17 + I 7.3432e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2643e-19 + Nat 9.3305e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -207039,12 +206987,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.477e-16 4.096e-17 + Hto 2.117e-16 2.494e-17 I 6.233e-17 7.343e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.853e-19 4.539e-20 + Nat 1.588e-19 1.870e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -207103,8 +207051,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.137e-11 H2 1.069e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 3.477e-16 - Hto 3.477e-16 3.477e-16 -15.459 -15.459 0.000 (0) +Hto 2.117e-16 + Hto 2.117e-16 2.117e-16 -15.674 -15.674 0.000 (0) I 6.233e-17 I- 6.233e-17 6.233e-17 -16.205 -16.205 -0.000 (0) K 1.540e-03 @@ -207122,8 +207070,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.853e-19 - Nat+ 3.853e-19 3.853e-19 -18.414 -18.414 -0.000 (0) +Nat 1.588e-19 + Nat+ 1.588e-19 1.588e-19 -18.799 -18.799 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.555 -70.519 0.036 30.40 S(-2) 7.198e-08 @@ -207205,7 +207153,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -207216,12 +207164,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 4.2223e-18 - I 6.4374e-31 + Hto 2.4674e-18 + I 6.4365e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3867e-20 + Nat 5.3442e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -207240,12 +207188,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.578e-17 4.215e-18 + Hto 2.091e-17 2.463e-18 I 5.464e-18 6.437e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.360e-20 2.780e-21 + Nat 9.094e-21 1.071e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -207304,8 +207252,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.138e-11 H2 1.069e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 3.578e-17 - Hto 3.578e-17 3.578e-17 -16.446 -16.446 0.000 (0) +Hto 2.091e-17 + Hto 2.091e-17 2.091e-17 -16.680 -16.680 0.000 (0) I 5.464e-18 I- 5.464e-18 5.464e-18 -17.263 -17.263 -0.000 (0) K 1.540e-03 @@ -207323,8 +207271,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.360e-20 - Nat+ 2.360e-20 2.360e-20 -19.627 -19.627 -0.000 (0) +Nat 9.094e-21 + Nat+ 9.094e-21 9.094e-21 -20.041 -20.041 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.519 0.036 30.40 S(-2) 7.200e-08 @@ -207406,7 +207354,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -207417,12 +207365,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 3.9785e-19 - I 5.1621e-32 + Hto 2.2307e-19 + I 5.1615e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.7541e-22 + Nat 2.7935e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -207441,12 +207389,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.372e-18 3.972e-19 + Hto 1.890e-18 2.227e-19 I 4.381e-19 5.161e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.319e-21 1.554e-22 + Nat 4.753e-22 5.600e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -207505,8 +207453,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.138e-11 H2 1.069e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 3.372e-18 - Hto 3.372e-18 3.372e-18 -17.472 -17.472 0.000 (0) +Hto 1.890e-18 + Hto 1.890e-18 1.890e-18 -17.723 -17.723 0.000 (0) I 4.381e-19 I- 4.381e-19 4.381e-19 -18.358 -18.358 -0.000 (0) K 1.540e-03 @@ -207524,8 +207472,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.319e-21 - Nat+ 1.319e-21 1.319e-21 -20.880 -20.880 -0.000 (0) +Nat 4.753e-22 + Nat+ 4.753e-22 4.753e-22 -21.323 -21.323 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.519 0.036 30.40 S(-2) 7.201e-08 @@ -207607,7 +207555,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -207618,12 +207566,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 3.4385e-20 - I 3.7924e-33 + Hto 1.8494e-20 + I 3.7932e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.9486e-23 + Nat 1.3174e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -207642,12 +207590,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.914e-19 3.433e-20 + Hto 1.567e-19 1.846e-20 I 3.219e-20 3.792e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.719e-23 7.916e-24 + Nat 2.242e-23 2.641e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -207665,7 +207613,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.389e-09 + Electrical balance (eq) = -2.388e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -207706,8 +207654,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.138e-11 H2 1.069e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 2.914e-19 - Hto 2.914e-19 2.914e-19 -18.536 -18.536 0.000 (0) +Hto 1.567e-19 + Hto 1.567e-19 1.567e-19 -18.805 -18.805 0.000 (0) I 3.219e-20 I- 3.219e-20 3.219e-20 -19.492 -19.492 -0.000 (0) K 1.540e-03 @@ -207725,8 +207673,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.719e-23 - Nat+ 6.719e-23 6.719e-23 -22.173 -22.173 -0.000 (0) +Nat 2.242e-23 + Nat+ 2.242e-23 2.242e-23 -22.649 -22.649 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.519 0.036 30.40 S(-2) 7.201e-08 @@ -207808,7 +207756,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -207819,12 +207767,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 2.9243e-21 - I 2.7121e-34 + Hto 1.5045e-21 + I 2.7126e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7446e-24 + Nat 3.5467e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -207843,12 +207791,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.478e-20 2.920e-21 + Hto 1.275e-20 1.502e-21 I 2.302e-21 2.712e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.969e-24 3.497e-25 + Nat 6.035e-25 7.110e-26 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -207907,8 +207855,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.138e-11 H2 1.069e-11 1.162e-11 -10.971 -10.935 0.036 28.61 -Hto 2.478e-20 - Hto 2.478e-20 2.478e-20 -19.606 -19.606 0.000 (0) +Hto 1.275e-20 + Hto 1.275e-20 1.275e-20 -19.895 -19.895 0.000 (0) I 2.302e-21 I- 2.302e-21 2.302e-21 -20.638 -20.638 -0.000 (0) K 1.540e-03 @@ -207926,8 +207874,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.969e-24 - Nat+ 2.969e-24 2.969e-24 -23.527 -23.527 -0.000 (0) +Nat 6.035e-25 + Nat+ 6.035e-25 6.035e-25 -24.219 -24.219 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.519 0.036 30.40 S(-2) 7.201e-08 @@ -208298,30 +208246,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.072e-07 2.536e-07 + Hto 5.126e-07 2.563e-07 I 6.917e-07 3.458e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.791e-07 1.396e-07 + Nat 2.861e-07 1.431e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.064 Adjusted to redox equilibrium + pe = -3.063 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.883e-13 + Electrical balance (eq) = -3.352e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -208332,21 +208280,21 @@ Kinetics 3. Log Log Log mole V Species Molality Activity Molality Activity Gamma cm³/mol - OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 + OH- 1.873e-07 1.233e-07 -6.728 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.913e-12 - CH4 3.913e-12 4.254e-12 -11.408 -11.371 0.036 35.46 +C(-4) 3.839e-12 + CH4 3.839e-12 4.174e-12 -11.416 -11.379 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.008e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 - CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.379e-06 8.600e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 @@ -208354,16 +208302,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.008e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.007e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.154e-11 - H2 5.771e-12 6.274e-12 -11.239 -11.202 0.036 28.61 -Hto 5.072e-07 - Hto 5.072e-07 5.072e-07 -6.295 -6.295 0.000 (0) +H(0) 1.149e-11 + H2 5.744e-12 6.245e-12 -11.241 -11.205 0.036 28.61 +Hto 5.126e-07 + Hto 5.126e-07 5.126e-07 -6.290 -6.290 0.000 (0) I 6.917e-07 I- 6.917e-07 6.917e-07 -6.160 -6.160 -0.000 (0) K 1.540e-03 @@ -208381,15 +208329,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.791e-07 - Nat+ 2.791e-07 2.791e-07 -6.554 -6.554 -0.000 (0) +Nat 2.861e-07 + Nat+ 2.861e-07 2.861e-07 -6.543 -6.543 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.020 -69.984 0.036 30.40 -S(-2) 6.134e-09 - HS- 4.289e-09 2.823e-09 -8.368 -8.549 -0.182 21.14 - H2S 1.845e-09 2.006e-09 -8.734 -8.698 0.036 36.27 - S-2 1.741e-14 4.196e-15 -13.759 -14.377 -0.618 (0) - (H2S)2 1.951e-19 2.121e-19 -18.710 -18.674 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.016 -69.980 0.036 30.40 +S(-2) 6.018e-09 + HS- 4.208e-09 2.770e-09 -8.376 -8.558 -0.182 21.14 + H2S 1.810e-09 1.968e-09 -8.742 -8.706 0.036 36.27 + S-2 1.708e-14 4.117e-15 -13.768 -14.385 -0.618 (0) + (H2S)2 1.878e-19 2.041e-19 -18.726 -18.690 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -208416,14 +208364,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.57 -11.37 -2.80 CH4 + CH4(g) -8.58 -11.38 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.10 -11.20 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.70 -15.64 -7.94 H2S + H2S(g) -7.71 -15.65 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -208454,7 +208402,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.251e-14 Surface + diffuse layer charge, eq + -5.151e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -208464,7 +208412,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -208473,14 +208421,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6647e-10 + Cl 4.6648e-10 H 1.2948e-04 - Hto 5.2955e-08 + Hto 5.3323e-08 I 7.2117e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4939e-07 + Nat 1.5231e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -208499,12 +208447,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.488e-07 5.287e-08 + Hto 4.519e-07 5.324e-08 I 6.121e-07 7.211e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.542e-07 2.995e-08 + Nat 2.592e-07 3.053e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -208515,14 +208463,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.677e-09 + Electrical balance (eq) = 1.668e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -208536,8 +208484,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 9.743e-12 - CH4 9.743e-12 1.059e-11 -11.011 -10.975 0.036 35.46 +C(-4) 9.678e-12 + CH4 9.678e-12 1.052e-11 -11.014 -10.978 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -208561,10 +208509,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.248 0.155 (0) -H(0) 1.450e-11 - H2 7.250e-12 7.882e-12 -11.140 -11.103 0.036 28.61 -Hto 4.488e-07 - Hto 4.488e-07 4.488e-07 -6.348 -6.348 0.000 (0) +H(0) 1.447e-11 + H2 7.237e-12 7.869e-12 -11.140 -11.104 0.036 28.61 +Hto 4.519e-07 + Hto 4.519e-07 4.519e-07 -6.345 -6.345 0.000 (0) I 6.121e-07 I- 6.121e-07 6.121e-07 -6.213 -6.213 -0.000 (0) K 1.540e-03 @@ -208582,15 +208530,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.542e-07 - Nat+ 2.542e-07 2.542e-07 -6.595 -6.595 -0.000 (0) +Nat 2.592e-07 + Nat+ 2.592e-07 2.592e-07 -6.586 -6.586 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.218 -70.182 0.036 30.40 -S(-2) 1.527e-08 - HS- 1.068e-08 7.030e-09 -7.971 -8.153 -0.182 21.14 - H2S 4.593e-09 4.994e-09 -8.338 -8.302 0.036 36.27 - S-2 4.335e-14 1.045e-14 -13.363 -13.981 -0.618 (0) - (H2S)2 1.209e-18 1.314e-18 -17.918 -17.881 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.217 -70.181 0.036 30.40 +S(-2) 1.517e-08 + HS- 1.061e-08 6.983e-09 -7.974 -8.156 -0.182 21.14 + H2S 4.563e-09 4.961e-09 -8.341 -8.304 0.036 36.27 + S-2 4.306e-14 1.038e-14 -13.366 -13.984 -0.618 (0) + (H2S)2 1.193e-18 1.297e-18 -17.923 -17.887 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -208617,14 +208565,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.17 -10.97 -2.80 CH4 + CH4(g) -8.18 -10.98 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.00 -11.10 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.31 -15.24 -7.94 H2S + H2S(g) -7.31 -15.25 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -208655,7 +208603,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.577e-11 Surface + diffuse layer charge, eq + -9.576e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -208665,7 +208613,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -208674,14 +208622,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6609e-10 + Cl 4.6608e-10 H 1.2950e-04 - Hto 3.5338e-08 - I 4.4522e-20 + Hto 3.5106e-08 + I 4.4516e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.0276e-08 + Nat 8.9149e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -208700,12 +208648,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.995e-07 3.528e-08 + Hto 2.975e-07 3.505e-08 I 3.779e-07 4.451e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.536e-07 1.810e-08 + Nat 1.517e-07 1.787e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -208723,7 +208671,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.188e-09 + Electrical balance (eq) = 2.155e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -208737,15 +208685,15 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.072e-11 - CH4 3.072e-11 3.340e-11 -10.513 -10.476 0.036 35.46 +C(-4) 3.081e-11 + CH4 3.081e-11 3.350e-11 -10.511 -10.475 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.632e-06 3.948e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.611e-07 -5.471 -6.065 -0.594 -1.53 @@ -208756,16 +208704,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.018e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.950e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.933e-11 - H2 9.663e-12 1.051e-11 -11.015 -10.979 0.036 28.61 -Hto 2.995e-07 - Hto 2.995e-07 2.995e-07 -6.524 -6.524 0.000 (0) +H(0) 1.934e-11 + H2 9.669e-12 1.051e-11 -11.015 -10.978 0.036 28.61 +Hto 2.975e-07 + Hto 2.975e-07 2.975e-07 -6.527 -6.527 0.000 (0) I 3.779e-07 I- 3.779e-07 3.779e-07 -6.423 -6.423 -0.000 (0) K 1.540e-03 @@ -208783,15 +208731,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.536e-07 - Nat+ 1.536e-07 1.536e-07 -6.814 -6.814 -0.000 (0) +Nat 1.517e-07 + Nat+ 1.517e-07 1.517e-07 -6.819 -6.819 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.468 -70.432 0.036 30.40 -S(-2) 4.814e-08 - HS- 3.367e-08 2.217e-08 -7.473 -7.654 -0.182 21.14 - H2S 1.447e-08 1.573e-08 -7.840 -7.803 0.036 36.27 - S-2 1.368e-13 3.298e-14 -12.864 -13.482 -0.618 (0) - (H2S)2 1.200e-17 1.304e-17 -16.921 -16.885 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.469 -70.432 0.036 30.40 +S(-2) 4.827e-08 + HS- 3.376e-08 2.223e-08 -7.472 -7.653 -0.182 21.14 + H2S 1.451e-08 1.578e-08 -7.838 -7.802 0.036 36.27 + S-2 1.372e-13 3.307e-14 -12.863 -13.481 -0.618 (0) + (H2S)2 1.206e-17 1.312e-17 -16.919 -16.882 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -208818,7 +208766,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.67 -10.48 -2.80 CH4 + CH4(g) -7.67 -10.47 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -208866,7 +208814,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -208875,14 +208823,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6592e-10 + Cl 4.6591e-10 H 1.2950e-04 - Hto 1.9843e-08 - I 2.2797e-20 + Hto 1.9330e-08 + I 2.2794e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.0861e-08 + Nat 3.8562e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -208901,12 +208849,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.682e-07 1.981e-08 + Hto 1.638e-07 1.930e-08 I 1.935e-07 2.279e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.953e-08 8.191e-09 + Nat 6.562e-08 7.730e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -208938,8 +208886,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.036e-11 - CH4 4.036e-11 4.388e-11 -10.394 -10.358 0.036 35.46 +C(-4) 4.044e-11 + CH4 4.044e-11 4.397e-11 -10.393 -10.357 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -208949,10 +208897,10 @@ C(4) 2.744e-03 CaCO3 9.022e-06 9.809e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.633e-06 3.950e-06 -5.440 -5.403 0.036 -17.09 - CO3-2 3.384e-06 8.614e-07 -5.471 -6.065 -0.594 -1.53 + CO3-2 3.384e-06 8.615e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.734e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.540e-08 7.111e-08 -7.184 -7.148 0.036 -14.13 - (CO2)2 1.275e-09 1.386e-09 -8.895 -8.858 0.036 68.87 + (CO2)2 1.274e-09 1.386e-09 -8.895 -8.858 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 @@ -208963,10 +208911,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.069e-11 +H(0) 2.070e-11 H2 1.035e-11 1.125e-11 -10.985 -10.949 0.036 28.61 -Hto 1.682e-07 - Hto 1.682e-07 1.682e-07 -6.774 -6.774 0.000 (0) +Hto 1.638e-07 + Hto 1.638e-07 1.638e-07 -6.786 -6.786 0.000 (0) I 1.935e-07 I- 1.935e-07 1.935e-07 -6.713 -6.713 -0.000 (0) K 1.540e-03 @@ -208984,15 +208932,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.953e-08 - Nat+ 6.953e-08 6.953e-08 -7.158 -7.158 -0.000 (0) +Nat 6.562e-08 + Nat+ 6.562e-08 6.562e-08 -7.183 -7.183 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.527 -70.491 0.036 30.40 -S(-2) 6.322e-08 - HS- 4.422e-08 2.911e-08 -7.354 -7.536 -0.182 21.14 - H2S 1.900e-08 2.066e-08 -7.721 -7.685 0.036 36.27 - S-2 1.797e-13 4.333e-14 -12.745 -13.363 -0.618 (0) - (H2S)2 2.068e-17 2.249e-17 -16.684 -16.648 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.528 -70.491 0.036 30.40 +S(-2) 6.335e-08 + HS- 4.431e-08 2.917e-08 -7.353 -7.535 -0.182 21.14 + H2S 1.904e-08 2.070e-08 -7.720 -7.684 0.036 36.27 + S-2 1.801e-13 4.342e-14 -12.744 -13.362 -0.618 (0) + (H2S)2 2.076e-17 2.258e-17 -16.683 -16.646 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -209008,7 +208956,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.540e-08 7.111e-08 -7.184 -7.148 0.036 -14.13 - SrOH+ 1.154e-10 8.089e-11 -9.938 -10.092 -0.154 (0) + SrOH+ 1.155e-10 8.090e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -209067,7 +209015,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -209078,12 +209026,12 @@ Su Ca 7.1884e-02 Cl 4.6584e-10 H 1.2950e-04 - Hto 9.4348e-09 + Hto 8.9676e-09 I 9.7508e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4420e-08 + Nat 1.2905e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -209102,12 +209050,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.996e-08 9.420e-09 + Hto 7.600e-08 8.953e-09 I 8.276e-08 9.750e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.454e-08 2.891e-09 + Nat 2.196e-08 2.587e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -209139,8 +209087,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.450e-11 - CH4 4.450e-11 4.838e-11 -10.352 -10.315 0.036 35.46 +C(-4) 4.455e-11 + CH4 4.455e-11 4.844e-11 -10.351 -10.315 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -209164,10 +209112,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.635e-09 -8.404 -8.249 0.155 (0) -H(0) 2.120e-11 +H(0) 2.121e-11 H2 1.060e-11 1.153e-11 -10.975 -10.938 0.036 28.61 -Hto 7.996e-08 - Hto 7.996e-08 7.996e-08 -7.097 -7.097 0.000 (0) +Hto 7.600e-08 + Hto 7.600e-08 7.600e-08 -7.119 -7.119 0.000 (0) I 8.276e-08 I- 8.276e-08 8.276e-08 -7.082 -7.082 -0.000 (0) K 1.540e-03 @@ -209180,20 +209128,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.634e-06 3.951e-06 -5.440 -5.403 0.036 -17.09 - MgOH+ 2.901e-07 2.128e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.901e-07 2.129e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.454e-08 - Nat+ 2.454e-08 2.454e-08 -7.610 -7.610 -0.000 (0) +Nat 2.196e-08 + Nat+ 2.196e-08 2.196e-08 -7.658 -7.658 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.548 -70.512 0.036 30.40 -S(-2) 6.971e-08 - HS- 4.877e-08 3.210e-08 -7.312 -7.493 -0.182 21.14 - H2S 2.095e-08 2.278e-08 -7.679 -7.643 0.036 36.27 - S-2 1.982e-13 4.779e-14 -12.703 -13.321 -0.618 (0) - (H2S)2 2.514e-17 2.733e-17 -16.600 -16.563 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.549 -70.512 0.036 30.40 +S(-2) 6.979e-08 + HS- 4.882e-08 3.214e-08 -7.311 -7.493 -0.182 21.14 + H2S 2.097e-08 2.280e-08 -7.678 -7.642 0.036 36.27 + S-2 1.985e-13 4.784e-14 -12.702 -13.320 -0.618 (0) + (H2S)2 2.520e-17 2.739e-17 -16.599 -16.562 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -209220,7 +209168,7 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -7.51 -10.32 -2.80 CH4 + CH4(g) -7.51 -10.31 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O @@ -209268,7 +209216,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -209279,12 +209227,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2951e-04 - Hto 3.8327e-09 + Hto 3.5408e-09 I 3.5230e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1035e-09 + Nat 3.4665e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -209303,12 +209251,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.248e-08 3.827e-09 + Hto 3.001e-08 3.535e-09 I 2.990e-08 3.523e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.983e-09 8.226e-10 + Nat 5.899e-09 6.949e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -209340,8 +209288,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.608e-11 - CH4 4.608e-11 5.010e-11 -10.336 -10.300 0.036 35.46 +C(-4) 4.611e-11 + CH4 4.611e-11 5.013e-11 -10.336 -10.300 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -209366,9 +209314,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.139e-11 - H2 1.069e-11 1.163e-11 -10.971 -10.935 0.036 28.61 -Hto 3.248e-08 - Hto 3.248e-08 3.248e-08 -7.488 -7.488 0.000 (0) + H2 1.070e-11 1.163e-11 -10.971 -10.934 0.036 28.61 +Hto 3.001e-08 + Hto 3.001e-08 3.001e-08 -7.523 -7.523 0.000 (0) I 2.990e-08 I- 2.990e-08 2.990e-08 -7.524 -7.524 -0.000 (0) K 1.540e-03 @@ -209386,15 +209334,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.983e-09 - Nat+ 6.983e-09 6.983e-09 -8.156 -8.156 -0.000 (0) +Nat 5.899e-09 + Nat+ 5.899e-09 5.899e-09 -8.229 -8.229 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.520 0.036 30.40 -S(-2) 7.219e-08 - HS- 5.050e-08 3.324e-08 -7.297 -7.478 -0.182 21.14 - H2S 2.169e-08 2.358e-08 -7.664 -7.627 0.036 36.27 - S-2 2.053e-13 4.948e-14 -12.688 -13.306 -0.618 (0) - (H2S)2 2.695e-17 2.930e-17 -16.569 -16.533 0.036 30.09 +S(-2) 7.223e-08 + HS- 5.052e-08 3.326e-08 -7.297 -7.478 -0.182 21.14 + H2S 2.170e-08 2.359e-08 -7.664 -7.627 0.036 36.27 + S-2 2.054e-13 4.951e-14 -12.687 -13.305 -0.618 (0) + (H2S)2 2.698e-17 2.934e-17 -16.569 -16.533 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -209469,7 +209417,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -209480,12 +209428,12 @@ Su Ca 7.1884e-02 Cl 4.6581e-10 H 1.2951e-04 - Hto 1.3431e-09 - I 1.0879e-21 + Hto 1.2025e-09 + I 1.0882e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.6693e-10 + Nat 7.6884e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -209504,12 +209452,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.138e-08 1.341e-09 + Hto 1.019e-08 1.201e-09 I 9.235e-09 1.088e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.645e-09 1.938e-10 + Nat 1.308e-09 1.541e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -209541,8 +209489,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.654e-11 - CH4 4.654e-11 5.060e-11 -10.332 -10.296 0.036 35.46 +C(-4) 4.656e-11 + CH4 4.656e-11 5.062e-11 -10.332 -10.296 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -209568,8 +209516,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.144e-11 H2 1.072e-11 1.166e-11 -10.970 -10.933 0.036 28.61 -Hto 1.138e-08 - Hto 1.138e-08 1.138e-08 -7.944 -7.944 0.000 (0) +Hto 1.019e-08 + Hto 1.019e-08 1.019e-08 -7.992 -7.992 0.000 (0) I 9.235e-09 I- 9.235e-09 9.235e-09 -8.035 -8.035 -0.000 (0) K 1.540e-03 @@ -209587,15 +209535,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.645e-09 - Nat+ 1.645e-09 1.645e-09 -8.784 -8.784 -0.000 (0) +Nat 1.308e-09 + Nat+ 1.308e-09 1.308e-09 -8.883 -8.883 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.558 -70.522 0.036 30.40 -S(-2) 7.291e-08 - HS- 5.100e-08 3.358e-08 -7.292 -7.474 -0.182 21.14 - H2S 2.191e-08 2.382e-08 -7.659 -7.623 0.036 36.27 - S-2 2.074e-13 4.998e-14 -12.683 -13.301 -0.618 (0) - (H2S)2 2.750e-17 2.990e-17 -16.561 -16.524 0.036 30.09 +S(-2) 7.293e-08 + HS- 5.102e-08 3.359e-08 -7.292 -7.474 -0.182 21.14 + H2S 2.191e-08 2.383e-08 -7.659 -7.623 0.036 36.27 + S-2 2.074e-13 5.000e-14 -12.683 -13.301 -0.618 (0) + (H2S)2 2.751e-17 2.991e-17 -16.560 -16.524 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -209670,7 +209618,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -209681,12 +209629,12 @@ Su Ca 7.1884e-02 Cl 4.6581e-10 H 1.2951e-04 - Hto 4.0982e-10 + Hto 3.5479e-10 I 2.9044e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.9260e-10 + Nat 1.4387e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -209705,12 +209653,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.473e-09 4.092e-10 + Hto 3.007e-09 3.542e-10 I 2.465e-09 2.904e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.277e-10 3.861e-11 + Nat 2.448e-10 2.884e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -209769,8 +209717,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.144e-11 H2 1.072e-11 1.166e-11 -10.970 -10.933 0.036 28.61 -Hto 3.473e-09 - Hto 3.473e-09 3.473e-09 -8.459 -8.459 0.000 (0) +Hto 3.007e-09 + Hto 3.007e-09 3.007e-09 -8.522 -8.522 0.000 (0) I 2.465e-09 I- 2.465e-09 2.465e-09 -8.608 -8.608 -0.000 (0) K 1.540e-03 @@ -209788,15 +209736,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.277e-10 - Nat+ 3.277e-10 3.277e-10 -9.484 -9.484 -0.000 (0) +Nat 2.448e-10 + Nat+ 2.448e-10 2.448e-10 -9.611 -9.611 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.558 -70.522 0.036 30.40 -S(-2) 7.290e-08 - HS- 5.100e-08 3.357e-08 -7.292 -7.474 -0.182 21.14 - H2S 2.190e-08 2.382e-08 -7.659 -7.623 0.036 36.27 - S-2 2.073e-13 4.998e-14 -12.683 -13.301 -0.618 (0) - (H2S)2 2.749e-17 2.989e-17 -16.561 -16.525 0.036 30.09 +S(-2) 7.291e-08 + HS- 5.100e-08 3.358e-08 -7.292 -7.474 -0.182 21.14 + H2S 2.191e-08 2.382e-08 -7.659 -7.623 0.036 36.27 + S-2 2.074e-13 4.998e-14 -12.683 -13.301 -0.618 (0) + (H2S)2 2.750e-17 2.990e-17 -16.561 -16.524 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -209861,7 +209809,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.959e-11 Surface + diffuse layer charge, eq + -9.963e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -209871,7 +209819,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -209882,12 +209830,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 1.0981e-10 - I 6.7687e-23 + Hto 9.1768e-11 + I 6.7700e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2958e-11 + Nat 2.3102e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -209906,12 +209854,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.306e-10 1.096e-10 + Hto 7.777e-10 9.162e-11 I 5.746e-10 6.770e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.608e-11 6.607e-12 + Nat 3.931e-11 4.631e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -209929,7 +209877,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.971e-09 + Electrical balance (eq) = -4.150e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -209944,7 +209892,7 @@ Su H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.636e-11 - CH4 4.636e-11 5.041e-11 -10.334 -10.298 0.036 35.46 + CH4 4.636e-11 5.041e-11 -10.334 -10.297 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -209969,9 +209917,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.142e-11 - H2 1.071e-11 1.164e-11 -10.970 -10.934 0.036 28.61 -Hto 9.306e-10 - Hto 9.306e-10 9.306e-10 -9.031 -9.031 0.000 (0) + H2 1.071e-11 1.165e-11 -10.970 -10.934 0.036 28.61 +Hto 7.777e-10 + Hto 7.777e-10 7.777e-10 -9.109 -9.109 0.000 (0) I 5.746e-10 I- 5.746e-10 5.746e-10 -9.241 -9.241 -0.000 (0) K 1.540e-03 @@ -209989,15 +209937,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.608e-11 - Nat+ 5.608e-11 5.608e-11 -10.251 -10.251 -0.000 (0) +Nat 3.931e-11 + Nat+ 3.931e-11 3.931e-11 -10.405 -10.405 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.557 -70.521 0.036 30.40 S(-2) 7.263e-08 - HS- 5.080e-08 3.344e-08 -7.294 -7.476 -0.182 21.14 + HS- 5.081e-08 3.345e-08 -7.294 -7.476 -0.182 21.14 H2S 2.182e-08 2.373e-08 -7.661 -7.625 0.036 36.27 - S-2 2.065e-13 4.979e-14 -12.685 -13.303 -0.618 (0) - (H2S)2 2.728e-17 2.966e-17 -16.564 -16.528 0.036 30.09 + S-2 2.066e-13 4.979e-14 -12.685 -13.303 -0.618 (0) + (H2S)2 2.729e-17 2.967e-17 -16.564 -16.528 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -210062,7 +210010,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.950e-11 Surface + diffuse layer charge, eq + -9.951e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -210072,7 +210020,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -210083,12 +210031,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 2.6034e-11 - I 1.3901e-23 + Hto 2.0974e-11 + I 1.3899e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.9084e-12 + Nat 3.2256e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -210107,12 +210055,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.206e-10 2.599e-11 + Hto 1.777e-10 2.094e-11 I 1.180e-10 1.390e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.352e-12 9.840e-13 + Nat 5.489e-12 6.466e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -210130,7 +210078,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.919e-09 + Electrical balance (eq) = -2.004e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -210171,8 +210119,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.140e-11 H2 1.070e-11 1.163e-11 -10.971 -10.934 0.036 28.61 -Hto 2.206e-10 - Hto 2.206e-10 2.206e-10 -9.656 -9.656 0.000 (0) +Hto 1.777e-10 + Hto 1.777e-10 1.777e-10 -9.750 -9.750 0.000 (0) I 1.180e-10 I- 1.180e-10 1.180e-10 -9.928 -9.928 -0.000 (0) K 1.540e-03 @@ -210190,8 +210138,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.352e-12 - Nat+ 8.352e-12 8.352e-12 -11.078 -11.078 -0.000 (0) +Nat 5.489e-12 + Nat+ 5.489e-12 5.489e-12 -11.261 -11.261 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.557 -70.520 0.036 30.40 S(-2) 7.236e-08 @@ -210263,7 +210211,7 @@ Kinetics 13. Diffuse Double Layer Surface-Complexation Model Su - -9.945e-11 Surface + diffuse layer charge, eq + -9.946e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -210273,7 +210221,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -210284,12 +210232,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 5.4976e-12 + Hto 4.2653e-12 I 2.5324e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.4287e-13 + Nat 3.9582e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -210308,12 +210256,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.659e-11 5.489e-12 + Hto 3.615e-11 4.258e-12 I 2.149e-11 2.532e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.094e-12 1.289e-13 + Nat 6.735e-13 7.935e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -210331,7 +210279,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.374e-09 + Electrical balance (eq) = -2.377e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -210372,8 +210320,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.139e-11 H2 1.070e-11 1.163e-11 -10.971 -10.934 0.036 28.61 -Hto 4.659e-11 - Hto 4.659e-11 4.659e-11 -10.332 -10.332 0.000 (0) +Hto 3.615e-11 + Hto 3.615e-11 3.615e-11 -10.442 -10.442 0.000 (0) I 2.149e-11 I- 2.149e-11 2.149e-11 -10.668 -10.668 -0.000 (0) K 1.540e-03 @@ -210391,14 +210339,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.094e-12 - Nat+ 1.094e-12 1.094e-12 -11.961 -11.961 -0.000 (0) +Nat 6.735e-13 + Nat+ 6.735e-13 6.735e-13 -12.172 -12.172 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.520 0.036 30.40 -S(-2) 7.225e-08 +S(-2) 7.224e-08 HS- 5.054e-08 3.327e-08 -7.296 -7.478 -0.182 21.14 H2S 2.171e-08 2.360e-08 -7.663 -7.627 0.036 36.27 - S-2 2.055e-13 4.953e-14 -12.687 -13.305 -0.618 (0) + S-2 2.054e-13 4.952e-14 -12.687 -13.305 -0.618 (0) (H2S)2 2.700e-17 2.935e-17 -16.569 -16.532 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -210464,7 +210412,7 @@ Kinetics 14. Diffuse Double Layer Surface-Complexation Model Su - -9.945e-11 Surface + diffuse layer charge, eq + -9.946e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -210474,7 +210422,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -210485,12 +210433,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 1.0399e-12 + Hto 7.7638e-13 I 4.1203e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.4677e-14 + Nat 4.3059e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -210509,12 +210457,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.813e-12 1.038e-12 + Hto 6.579e-12 7.751e-13 I 3.497e-12 4.120e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.271e-13 1.497e-14 + Nat 7.327e-14 8.632e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -210573,8 +210521,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.140e-11 H2 1.070e-11 1.163e-11 -10.971 -10.934 0.036 28.61 -Hto 8.813e-12 - Hto 8.813e-12 8.813e-12 -11.055 -11.055 0.000 (0) +Hto 6.579e-12 + Hto 6.579e-12 6.579e-12 -11.182 -11.182 0.000 (0) I 3.497e-12 I- 3.497e-12 3.497e-12 -11.456 -11.456 -0.000 (0) K 1.540e-03 @@ -210592,12 +210540,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.271e-13 - Nat+ 1.271e-13 1.271e-13 -12.896 -12.896 -0.000 (0) +Nat 7.327e-14 + Nat+ 7.327e-14 7.327e-14 -13.135 -13.135 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.556 -70.520 0.036 30.40 S(-2) 7.233e-08 - HS- 5.060e-08 3.331e-08 -7.296 -7.477 -0.182 21.14 + HS- 5.059e-08 3.331e-08 -7.296 -7.477 -0.182 21.14 H2S 2.173e-08 2.363e-08 -7.663 -7.627 0.036 36.27 S-2 2.057e-13 4.958e-14 -12.687 -13.305 -0.618 (0) (H2S)2 2.706e-17 2.942e-17 -16.568 -16.531 0.036 30.09 @@ -210675,7 +210623,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -210686,12 +210634,12 @@ Su Ca 7.1884e-02 Cl 4.6582e-10 H 1.2950e-04 - Hto 1.7711e-13 + Hto 1.2714e-13 I 6.0206e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.7480e-15 + Nat 4.1822e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -210710,12 +210658,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.501e-12 1.768e-13 + Hto 1.077e-12 1.269e-13 I 5.111e-13 6.021e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.318e-14 1.553e-15 + Nat 7.116e-15 8.384e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -210733,7 +210681,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -8.979e-10 + Electrical balance (eq) = -1.065e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -210748,7 +210696,7 @@ Su H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.635e-11 - CH4 4.635e-11 5.040e-11 -10.334 -10.298 0.036 35.46 + CH4 4.635e-11 5.039e-11 -10.334 -10.298 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -210774,8 +210722,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.142e-11 H2 1.071e-11 1.164e-11 -10.970 -10.934 0.036 28.61 -Hto 1.501e-12 - Hto 1.501e-12 1.501e-12 -11.824 -11.824 0.000 (0) +Hto 1.077e-12 + Hto 1.077e-12 1.077e-12 -11.968 -11.968 0.000 (0) I 5.111e-13 I- 5.111e-13 5.111e-13 -12.292 -12.292 -0.000 (0) K 1.540e-03 @@ -210793,8 +210741,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.318e-14 - Nat+ 1.318e-14 1.318e-14 -13.880 -13.880 -0.000 (0) +Nat 7.116e-15 + Nat+ 7.116e-15 7.116e-15 -14.148 -14.148 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.557 -70.521 0.036 30.40 S(-2) 7.261e-08 @@ -210876,7 +210824,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -210887,12 +210835,12 @@ Su Ca 7.1884e-02 Cl 4.6581e-10 H 1.2951e-04 - Hto 2.7271e-14 + Hto 1.8815e-14 I 7.9407e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.2218e-16 + Nat 3.6483e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -210911,12 +210859,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.311e-13 2.723e-14 + Hto 1.595e-13 1.879e-14 I 6.740e-14 7.940e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.229e-15 1.448e-16 + Nat 6.208e-16 7.314e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -210975,8 +210923,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.145e-11 H2 1.072e-11 1.166e-11 -10.970 -10.933 0.036 28.61 -Hto 2.311e-13 - Hto 2.311e-13 2.311e-13 -12.636 -12.636 0.000 (0) +Hto 1.595e-13 + Hto 1.595e-13 1.595e-13 -12.797 -12.797 0.000 (0) I 6.740e-14 I- 6.740e-14 6.740e-14 -13.171 -13.171 -0.000 (0) K 1.540e-03 @@ -210994,11 +210942,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.229e-15 - Nat+ 1.229e-15 1.229e-15 -14.910 -14.910 -0.000 (0) +Nat 6.208e-16 + Nat+ 6.208e-16 6.208e-16 -15.207 -15.207 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.558 -70.522 0.036 30.40 -S(-2) 7.299e-08 +S(-2) 7.300e-08 HS- 5.106e-08 3.361e-08 -7.292 -7.473 -0.182 21.14 H2S 2.193e-08 2.385e-08 -7.659 -7.623 0.036 36.27 S-2 2.076e-13 5.004e-14 -12.683 -13.301 -0.618 (0) @@ -211067,7 +211015,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -9.968e-11 Surface + diffuse layer charge, eq + -9.967e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -211077,7 +211025,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -211088,12 +211036,12 @@ Su Ca 7.1884e-02 Cl 4.6581e-10 H 1.2951e-04 - Hto 3.8107e-15 - I 9.4880e-28 + Hto 2.5258e-15 + I 9.4861e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0766e-17 + Nat 2.8724e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -211112,12 +211060,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.229e-14 3.805e-15 + Hto 2.140e-14 2.522e-15 I 8.052e-15 9.486e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.034e-16 1.218e-17 + Nat 4.888e-17 5.758e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -211150,7 +211098,7 @@ Su H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.680e-11 - CH4 4.680e-11 5.088e-11 -10.330 -10.293 0.036 35.46 + CH4 4.680e-11 5.089e-11 -10.330 -10.293 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -211176,8 +211124,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.147e-11 H2 1.074e-11 1.167e-11 -10.969 -10.933 0.036 28.61 -Hto 3.229e-14 - Hto 3.229e-14 3.229e-14 -13.491 -13.491 0.000 (0) +Hto 2.140e-14 + Hto 2.140e-14 2.140e-14 -13.669 -13.669 0.000 (0) I 8.052e-15 I- 8.052e-15 8.052e-15 -14.094 -14.094 -0.000 (0) K 1.540e-03 @@ -211195,11 +211143,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.034e-16 - Nat+ 1.034e-16 1.034e-16 -15.985 -15.985 -0.000 (0) +Nat 4.888e-17 + Nat+ 4.888e-17 4.888e-17 -16.311 -16.311 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.559 -70.523 0.036 30.40 -S(-2) 7.331e-08 +S(-2) 7.332e-08 HS- 5.129e-08 3.376e-08 -7.290 -7.472 -0.182 21.14 H2S 2.203e-08 2.395e-08 -7.657 -7.621 0.036 36.27 S-2 2.085e-13 5.026e-14 -12.681 -13.299 -0.618 (0) @@ -211278,7 +211226,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -211289,12 +211237,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 4.8476e-16 - I 1.0304e-28 + Hto 3.0855e-16 + I 1.0303e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6346e-18 + Nat 2.0495e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -211313,12 +211261,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.108e-15 4.840e-16 + Hto 2.615e-15 3.081e-16 I 8.745e-16 1.030e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.886e-18 9.291e-19 + Nat 3.487e-18 4.109e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -211377,8 +211325,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.074e-11 1.168e-11 -10.969 -10.933 0.036 28.61 -Hto 4.108e-15 - Hto 4.108e-15 4.108e-15 -14.386 -14.386 0.000 (0) +Hto 2.615e-15 + Hto 2.615e-15 2.615e-15 -14.583 -14.583 0.000 (0) I 8.745e-16 I- 8.745e-16 8.745e-16 -15.058 -15.058 -0.000 (0) K 1.540e-03 @@ -211396,12 +211344,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.886e-18 - Nat+ 7.886e-18 7.886e-18 -17.103 -17.103 -0.000 (0) +Nat 3.487e-18 + Nat+ 3.487e-18 3.487e-18 -17.457 -17.457 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.350e-08 - HS- 5.141e-08 3.385e-08 -7.289 -7.470 -0.182 21.14 + HS- 5.142e-08 3.385e-08 -7.289 -7.470 -0.182 21.14 H2S 2.208e-08 2.401e-08 -7.656 -7.620 0.036 36.27 S-2 2.090e-13 5.039e-14 -12.680 -13.298 -0.618 (0) (H2S)2 2.794e-17 3.038e-17 -16.554 -16.517 0.036 30.09 @@ -211479,7 +211427,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -211490,12 +211438,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 5.6291e-17 - I 1.0203e-29 + Hto 3.4396e-17 + I 1.0204e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.2148e-19 + Nat 1.3298e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -211514,12 +211462,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.770e-16 5.620e-17 + Hto 2.915e-16 3.434e-17 I 8.660e-17 1.020e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.470e-19 6.445e-20 + Nat 2.263e-19 2.666e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -211578,8 +211526,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.075e-11 1.168e-11 -10.969 -10.932 0.036 28.61 -Hto 4.770e-16 - Hto 4.770e-16 4.770e-16 -15.321 -15.321 0.000 (0) +Hto 2.915e-16 + Hto 2.915e-16 2.915e-16 -15.535 -15.535 0.000 (0) I 8.660e-17 I- 8.660e-17 8.660e-17 -16.062 -16.062 -0.000 (0) K 1.540e-03 @@ -211597,15 +211545,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.470e-19 - Nat+ 5.470e-19 5.470e-19 -18.262 -18.262 -0.000 (0) +Nat 2.263e-19 + Nat+ 2.263e-19 2.263e-19 -18.645 -18.645 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.358e-08 HS- 5.147e-08 3.388e-08 -7.288 -7.470 -0.182 21.14 H2S 2.211e-08 2.404e-08 -7.655 -7.619 0.036 36.27 S-2 2.093e-13 5.044e-14 -12.679 -13.297 -0.618 (0) - (H2S)2 2.800e-17 3.044e-17 -16.553 -16.517 0.036 30.09 + (H2S)2 2.800e-17 3.044e-17 -16.553 -16.516 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -211680,7 +211628,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -211691,12 +211639,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 5.9801e-18 - I 9.2368e-31 + Hto 3.5071e-18 + I 9.2348e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.0339e-20 + Nat 7.8690e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -211715,12 +211663,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.068e-17 5.970e-18 + Hto 2.972e-17 3.501e-18 I 7.838e-18 9.234e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.461e-20 4.077e-21 + Nat 1.339e-20 1.577e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -211779,8 +211727,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.075e-11 1.168e-11 -10.969 -10.932 0.036 28.61 -Hto 5.068e-17 - Hto 5.068e-17 5.068e-17 -16.295 -16.295 0.000 (0) +Hto 2.972e-17 + Hto 2.972e-17 2.972e-17 -16.527 -16.527 0.000 (0) I 7.838e-18 I- 7.838e-18 7.838e-18 -17.106 -17.106 -0.000 (0) K 1.540e-03 @@ -211798,8 +211746,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.461e-20 - Nat+ 3.461e-20 3.461e-20 -19.461 -19.461 -0.000 (0) +Nat 1.339e-20 + Nat+ 1.339e-20 1.339e-20 -19.873 -19.873 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.360e-08 @@ -211881,7 +211829,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -211892,12 +211840,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 5.8234e-19 + Hto 3.2770e-19 I 7.6544e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1763e-21 + Nat 4.2550e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -211916,12 +211864,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.935e-18 5.814e-19 + Hto 2.777e-18 3.272e-19 I 6.497e-19 7.654e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.002e-21 2.358e-22 + Nat 7.240e-22 8.530e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -211980,8 +211928,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.075e-11 1.168e-11 -10.969 -10.932 0.036 28.61 -Hto 4.935e-18 - Hto 4.935e-18 4.935e-18 -17.307 -17.307 0.000 (0) +Hto 2.777e-18 + Hto 2.777e-18 2.777e-18 -17.556 -17.556 0.000 (0) I 6.497e-19 I- 6.497e-19 6.497e-19 -18.187 -18.187 -0.000 (0) K 1.540e-03 @@ -211999,15 +211947,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.002e-21 - Nat+ 2.002e-21 2.002e-21 -20.699 -20.699 -0.000 (0) +Nat 7.240e-22 + Nat+ 7.240e-22 7.240e-22 -21.140 -21.140 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.361e-08 HS- 5.149e-08 3.390e-08 -7.288 -7.470 -0.182 21.14 H2S 2.212e-08 2.405e-08 -7.655 -7.619 0.036 36.27 S-2 2.093e-13 5.046e-14 -12.679 -13.297 -0.618 (0) - (H2S)2 2.802e-17 3.047e-17 -16.552 -16.516 0.036 30.09 + (H2S)2 2.803e-17 3.047e-17 -16.552 -16.516 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -212082,7 +212030,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -212093,12 +212041,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 5.2083e-20 - I 5.8207e-33 + Hto 2.8117e-20 + I 5.8214e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2139e-23 + Nat 2.0892e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -212117,12 +212065,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.414e-19 5.200e-20 + Hto 2.383e-19 2.807e-20 I 4.941e-20 5.821e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.057e-22 1.246e-23 + Nat 3.555e-23 4.188e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -212181,8 +212129,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.075e-11 1.168e-11 -10.969 -10.932 0.036 28.61 -Hto 4.414e-19 - Hto 4.414e-19 4.414e-19 -18.355 -18.355 0.000 (0) +Hto 2.383e-19 + Hto 2.383e-19 2.383e-19 -18.623 -18.623 0.000 (0) I 4.941e-20 I- 4.941e-20 4.941e-20 -19.306 -19.306 -0.000 (0) K 1.540e-03 @@ -212200,8 +212148,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.057e-22 - Nat+ 1.057e-22 1.057e-22 -21.976 -21.976 -0.000 (0) +Nat 3.555e-23 + Nat+ 3.555e-23 3.555e-23 -22.449 -22.449 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.361e-08 @@ -212283,7 +212231,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -212294,12 +212242,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 4.6014e-21 - I 4.3249e-34 + Hto 2.3759e-21 + I 4.3258e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9691e-24 + Nat 7.4293e-25 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -212318,12 +212266,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.899e-20 4.594e-21 + Hto 2.014e-20 2.372e-21 I 3.671e-21 4.325e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.052e-24 5.952e-25 + Nat 1.264e-24 1.489e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -212382,8 +212330,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.149e-11 H2 1.075e-11 1.168e-11 -10.969 -10.932 0.036 28.61 -Hto 3.899e-20 - Hto 3.899e-20 3.899e-20 -19.409 -19.409 0.000 (0) +Hto 2.014e-20 + Hto 2.014e-20 2.014e-20 -19.696 -19.696 0.000 (0) I 3.671e-21 I- 3.671e-21 3.671e-21 -20.435 -20.435 -0.000 (0) K 1.540e-03 @@ -212401,8 +212349,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.052e-24 - Nat+ 5.052e-24 5.052e-24 -23.297 -23.297 -0.000 (0) +Nat 1.264e-24 + Nat+ 1.264e-24 1.264e-24 -23.898 -23.898 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.560 -70.524 0.036 30.40 S(-2) 7.361e-08 @@ -212773,30 +212721,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.043e-07 2.521e-07 + Hto 5.097e-07 2.548e-07 I 6.894e-07 3.447e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.768e-07 1.384e-07 + Nat 2.838e-07 1.419e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.066 Adjusted to redox equilibrium + pe = -3.065 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.895e-13 + Electrical balance (eq) = -3.364e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -212810,8 +212758,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.097e-12 - CH4 4.097e-12 4.454e-12 -11.388 -11.351 0.036 35.46 +C(-4) 4.020e-12 + CH4 4.020e-12 4.371e-12 -11.396 -11.359 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -212835,10 +212783,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.168e-11 - H2 5.838e-12 6.347e-12 -11.234 -11.197 0.036 28.61 -Hto 5.043e-07 - Hto 5.043e-07 5.043e-07 -6.297 -6.297 0.000 (0) +H(0) 1.162e-11 + H2 5.810e-12 6.317e-12 -11.236 -11.199 0.036 28.61 +Hto 5.097e-07 + Hto 5.097e-07 5.097e-07 -6.293 -6.293 0.000 (0) I 6.894e-07 I- 6.894e-07 6.894e-07 -6.162 -6.162 -0.000 (0) K 1.540e-03 @@ -212856,15 +212804,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.768e-07 - Nat+ 2.768e-07 2.768e-07 -6.558 -6.558 -0.000 (0) +Nat 2.838e-07 + Nat+ 2.838e-07 2.838e-07 -6.547 -6.547 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.030 -69.994 0.036 30.40 -S(-2) 6.422e-09 - HS- 4.490e-09 2.956e-09 -8.348 -8.529 -0.182 21.14 - H2S 1.932e-09 2.100e-09 -8.714 -8.678 0.036 36.27 - S-2 1.823e-14 4.393e-15 -13.739 -14.357 -0.618 (0) - (H2S)2 2.138e-19 2.325e-19 -18.670 -18.634 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.026 -69.990 0.036 30.40 +S(-2) 6.302e-09 + HS- 4.406e-09 2.901e-09 -8.356 -8.537 -0.182 21.14 + H2S 1.896e-09 2.061e-09 -8.722 -8.686 0.036 36.27 + S-2 1.788e-14 4.311e-15 -13.748 -14.365 -0.618 (0) + (H2S)2 2.059e-19 2.239e-19 -18.686 -18.650 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -212891,21 +212839,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.55 -11.35 -2.80 CH4 + CH4(g) -8.56 -11.36 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.10 -11.20 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.68 -15.62 -7.94 H2S + H2S(g) -7.69 -15.63 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.10 -69.99 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.51 -0.63 4.88 S + Sulfur -5.52 -0.64 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -212929,7 +212877,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.135e-14 Surface + diffuse layer charge, eq + -5.290e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -212939,7 +212887,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -212950,12 +212898,12 @@ Su Ca 7.1884e-02 Cl 4.6647e-10 H 1.2948e-04 - Hto 5.2751e-08 + Hto 5.3124e-08 I 7.1998e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4843e-07 + Nat 1.5135e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -212974,12 +212922,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.470e-07 5.267e-08 + Hto 4.502e-07 5.304e-08 I 6.111e-07 7.199e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.526e-07 2.975e-08 + Nat 2.575e-07 3.034e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -212990,14 +212938,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.677e-09 + Electrical balance (eq) = 1.668e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -213011,8 +212959,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.003e-11 - CH4 1.003e-11 1.091e-11 -10.999 -10.962 0.036 35.46 +C(-4) 9.964e-12 + CH4 9.964e-12 1.083e-11 -11.002 -10.965 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -213025,7 +212973,7 @@ C(4) 2.744e-03 CO3-2 3.380e-06 8.603e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 - (CO2)2 1.277e-09 1.388e-09 -8.894 -8.857 0.036 68.87 + (CO2)2 1.277e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 @@ -213036,10 +212984,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.461e-11 - H2 7.303e-12 7.940e-12 -11.137 -11.100 0.036 28.61 -Hto 4.470e-07 - Hto 4.470e-07 4.470e-07 -6.350 -6.350 0.000 (0) +H(0) 1.458e-11 + H2 7.290e-12 7.926e-12 -11.137 -11.101 0.036 28.61 +Hto 4.502e-07 + Hto 4.502e-07 4.502e-07 -6.347 -6.347 0.000 (0) I 6.111e-07 I- 6.111e-07 6.111e-07 -6.214 -6.214 -0.000 (0) K 1.540e-03 @@ -213057,15 +213005,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.526e-07 - Nat+ 2.526e-07 2.526e-07 -6.598 -6.598 -0.000 (0) +Nat 2.575e-07 + Nat+ 2.575e-07 2.575e-07 -6.589 -6.589 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.225 -70.188 0.036 30.40 -S(-2) 1.572e-08 - HS- 1.099e-08 7.238e-09 -7.959 -8.140 -0.182 21.14 - H2S 4.729e-09 5.142e-09 -8.325 -8.289 0.036 36.27 - S-2 4.463e-14 1.076e-14 -13.350 -13.968 -0.618 (0) - (H2S)2 1.281e-18 1.393e-18 -17.892 -17.856 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.223 -70.187 0.036 30.40 +S(-2) 1.562e-08 + HS- 1.092e-08 7.189e-09 -7.962 -8.143 -0.182 21.14 + H2S 4.697e-09 5.107e-09 -8.328 -8.292 0.036 36.27 + S-2 4.433e-14 1.069e-14 -13.353 -13.971 -0.618 (0) + (H2S)2 1.264e-18 1.374e-18 -17.898 -17.862 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -213092,19 +213040,19 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.16 -10.96 -2.80 CH4 + CH4(g) -8.16 -10.97 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.00 -11.10 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.29 -15.23 -7.94 H2S + H2S(g) -7.30 -15.23 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.30 -70.19 -2.89 O2 + O2(g) -67.29 -70.19 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -5.22 -0.34 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -213140,7 +213088,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -213151,12 +213099,12 @@ Su Ca 7.1884e-02 Cl 4.6607e-10 H 1.2950e-04 - Hto 3.5451e-08 + Hto 3.5231e-08 I 4.4793e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.0591e-08 + Nat 8.9532e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -213175,12 +213123,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.004e-07 3.539e-08 + Hto 2.986e-07 3.517e-08 I 3.801e-07 4.478e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.542e-07 1.816e-08 + Nat 1.523e-07 1.795e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -213198,7 +213146,7 @@ Su Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 2.092e-09 + Electrical balance (eq) = 2.059e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -213212,8 +213160,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.129e-11 - CH4 3.129e-11 3.402e-11 -10.505 -10.468 0.036 35.46 +C(-4) 3.137e-11 + CH4 3.137e-11 3.411e-11 -10.503 -10.467 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -213233,14 +213181,14 @@ Ca 2.590e-02 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.019e-06 9.805e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) - CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) + CaHSO4+ 1.066e-09 7.786e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.941e-11 - H2 9.706e-12 1.055e-11 -11.013 -10.977 0.036 28.61 -Hto 3.004e-07 - Hto 3.004e-07 3.004e-07 -6.522 -6.522 0.000 (0) +H(0) 1.943e-11 + H2 9.713e-12 1.056e-11 -11.013 -10.976 0.036 28.61 +Hto 2.986e-07 + Hto 2.986e-07 2.986e-07 -6.525 -6.525 0.000 (0) I 3.801e-07 I- 3.801e-07 3.801e-07 -6.420 -6.420 -0.000 (0) K 1.540e-03 @@ -213258,15 +213206,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.542e-07 - Nat+ 1.542e-07 1.542e-07 -6.812 -6.812 -0.000 (0) +Nat 1.523e-07 + Nat+ 1.523e-07 1.523e-07 -6.817 -6.817 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.472 -70.436 0.036 30.40 -S(-2) 4.902e-08 - HS- 3.429e-08 2.257e-08 -7.465 -7.646 -0.182 21.14 - H2S 1.474e-08 1.602e-08 -7.832 -7.795 0.036 36.27 - S-2 1.393e-13 3.358e-14 -12.856 -13.474 -0.618 (0) - (H2S)2 1.244e-17 1.352e-17 -16.905 -16.869 0.036 30.09 +S(-2) 4.916e-08 + HS- 3.438e-08 2.263e-08 -7.464 -7.645 -0.182 21.14 + H2S 1.478e-08 1.607e-08 -7.830 -7.794 0.036 36.27 + S-2 1.397e-13 3.367e-14 -12.855 -13.473 -0.618 (0) + (H2S)2 1.251e-17 1.360e-17 -16.903 -16.866 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -213276,7 +213224,7 @@ S(6) 1.260e-02 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 HSO4- 1.307e-08 9.555e-09 -7.884 -8.020 -0.136 40.78 - CaHSO4+ 1.066e-09 7.787e-10 -8.972 -9.109 -0.136 (0) + CaHSO4+ 1.066e-09 7.786e-10 -8.972 -9.109 -0.136 (0) Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 @@ -213341,7 +213289,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -213352,12 +213300,12 @@ Su Ca 7.1884e-02 Cl 4.6590e-10 H 1.2950e-04 - Hto 2.0114e-08 + Hto 1.9608e-08 I 2.3194e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1607e-08 + Nat 3.9322e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -213376,12 +213324,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.705e-07 2.008e-08 + Hto 1.662e-07 1.958e-08 I 1.969e-07 2.319e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.080e-08 8.341e-09 + Nat 6.691e-08 7.883e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -213399,7 +213347,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.584e-09 + Electrical balance (eq) = -2.583e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -213413,15 +213361,15 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.113e-11 - CH4 4.113e-11 4.472e-11 -10.386 -10.349 0.036 35.46 +C(-4) 4.122e-11 + CH4 4.122e-11 4.482e-11 -10.385 -10.349 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.748e-04 -3.585 -3.561 0.024 34.43 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.022e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.023e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.633e-06 3.950e-06 -5.440 -5.403 0.036 -17.09 CO3-2 3.384e-06 8.615e-07 -5.471 -6.065 -0.594 -1.53 @@ -213432,16 +213380,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.898e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.022e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 + CaCO3 9.023e-06 9.810e-06 -5.045 -5.008 0.036 -14.60 CaOH+ 1.878e-08 1.372e-08 -7.726 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.784e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.079e-11 - H2 1.039e-11 1.130e-11 -10.983 -10.947 0.036 28.61 -Hto 1.705e-07 - Hto 1.705e-07 1.705e-07 -6.768 -6.768 0.000 (0) +H(0) 2.080e-11 + H2 1.040e-11 1.131e-11 -10.983 -10.947 0.036 28.61 +Hto 1.662e-07 + Hto 1.662e-07 1.662e-07 -6.779 -6.779 0.000 (0) I 1.969e-07 I- 1.969e-07 1.969e-07 -6.706 -6.706 -0.000 (0) K 1.540e-03 @@ -213459,15 +213407,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.080e-08 - Nat+ 7.080e-08 7.080e-08 -7.150 -7.150 -0.000 (0) +Nat 6.691e-08 + Nat+ 6.691e-08 6.691e-08 -7.175 -7.175 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.531 -70.495 0.036 30.40 -S(-2) 6.444e-08 - HS- 4.508e-08 2.967e-08 -7.346 -7.528 -0.182 21.14 - H2S 1.937e-08 2.105e-08 -7.713 -7.677 0.036 36.27 - S-2 1.832e-13 4.417e-14 -12.737 -13.355 -0.618 (0) - (H2S)2 2.149e-17 2.336e-17 -16.668 -16.632 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.532 -70.495 0.036 30.40 +S(-2) 6.457e-08 + HS- 4.517e-08 2.974e-08 -7.345 -7.527 -0.182 21.14 + H2S 1.941e-08 2.110e-08 -7.712 -7.676 0.036 36.27 + S-2 1.836e-13 4.426e-14 -12.736 -13.354 -0.618 (0) + (H2S)2 2.157e-17 2.346e-17 -16.666 -16.630 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -213542,7 +213490,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -213553,12 +213501,12 @@ Su Ca 7.1884e-02 Cl 4.6583e-10 H 1.2951e-04 - Hto 9.6910e-09 - I 1.0062e-20 + Hto 9.2207e-09 + I 1.0063e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4943e-08 + Nat 1.3399e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -213577,12 +213525,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.213e-08 9.675e-09 + Hto 7.814e-08 9.206e-09 I 8.541e-08 1.006e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.543e-08 2.996e-09 + Nat 2.280e-08 2.686e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -213614,8 +213562,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.541e-11 - CH4 4.541e-11 4.937e-11 -10.343 -10.307 0.036 35.46 +C(-4) 4.546e-11 + CH4 4.546e-11 4.943e-11 -10.342 -10.306 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -213639,10 +213587,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) -H(0) 2.131e-11 - H2 1.066e-11 1.158e-11 -10.972 -10.936 0.036 28.61 -Hto 8.213e-08 - Hto 8.213e-08 8.213e-08 -7.086 -7.086 0.000 (0) +H(0) 2.132e-11 + H2 1.066e-11 1.159e-11 -10.972 -10.936 0.036 28.61 +Hto 7.814e-08 + Hto 7.814e-08 7.814e-08 -7.107 -7.107 0.000 (0) I 8.541e-08 I- 8.541e-08 8.541e-08 -7.068 -7.068 -0.000 (0) K 1.540e-03 @@ -213660,15 +213608,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.543e-08 - Nat+ 2.543e-08 2.543e-08 -7.595 -7.595 -0.000 (0) +Nat 2.280e-08 + Nat+ 2.280e-08 2.280e-08 -7.642 -7.642 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.553 -70.517 0.036 30.40 -S(-2) 7.114e-08 - HS- 4.976e-08 3.276e-08 -7.303 -7.485 -0.182 21.14 - H2S 2.137e-08 2.324e-08 -7.670 -7.634 0.036 36.27 - S-2 2.023e-13 4.876e-14 -12.694 -13.312 -0.618 (0) - (H2S)2 2.617e-17 2.846e-17 -16.582 -16.546 0.036 30.09 +S(-2) 7.122e-08 + HS- 4.982e-08 3.280e-08 -7.303 -7.484 -0.182 21.14 + H2S 2.140e-08 2.327e-08 -7.670 -7.633 0.036 36.27 + S-2 2.025e-13 4.882e-14 -12.694 -13.311 -0.618 (0) + (H2S)2 2.623e-17 2.852e-17 -16.581 -16.545 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -213700,9 +213648,9 @@ Sr 5.000e-04 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O - H2(g) -7.84 -10.94 -3.10 H2 + H2(g) -7.83 -10.94 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.64 -14.58 -7.94 H2S + H2S(g) -6.64 -14.57 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -213743,7 +213691,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -213754,12 +213702,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 3.9986e-09 + Hto 3.6992e-09 I 3.6971e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3365e-09 + Nat 3.6718e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -213778,12 +213726,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.389e-08 3.992e-09 + Hto 3.135e-08 3.693e-09 I 3.138e-08 3.696e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.379e-09 8.693e-10 + Nat 6.248e-09 7.361e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -213815,8 +213763,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.705e-11 - CH4 4.705e-11 5.116e-11 -10.327 -10.291 0.036 35.46 +C(-4) 4.708e-11 + CH4 4.708e-11 5.119e-11 -10.327 -10.291 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -213842,8 +213790,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.150e-11 H2 1.075e-11 1.169e-11 -10.969 -10.932 0.036 28.61 -Hto 3.389e-08 - Hto 3.389e-08 3.389e-08 -7.470 -7.470 0.000 (0) +Hto 3.135e-08 + Hto 3.135e-08 3.135e-08 -7.504 -7.504 0.000 (0) I 3.138e-08 I- 3.138e-08 3.138e-08 -7.503 -7.503 -0.000 (0) K 1.540e-03 @@ -213861,15 +213809,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.379e-09 - Nat+ 7.379e-09 7.379e-09 -8.132 -8.132 -0.000 (0) +Nat 6.248e-09 + Nat+ 6.248e-09 6.248e-09 -8.204 -8.204 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.561 -70.524 0.036 30.40 -S(-2) 7.371e-08 - HS- 5.156e-08 3.394e-08 -7.288 -7.469 -0.182 21.14 - H2S 2.215e-08 2.408e-08 -7.655 -7.618 0.036 36.27 - S-2 2.096e-13 5.053e-14 -12.679 -13.296 -0.618 (0) - (H2S)2 2.810e-17 3.055e-17 -16.551 -16.515 0.036 30.09 +S(-2) 7.375e-08 + HS- 5.159e-08 3.396e-08 -7.287 -7.469 -0.182 21.14 + H2S 2.216e-08 2.409e-08 -7.654 -7.618 0.036 36.27 + S-2 2.097e-13 5.056e-14 -12.678 -13.296 -0.618 (0) + (H2S)2 2.813e-17 3.059e-17 -16.551 -16.514 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -213885,7 +213833,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.542e-08 7.113e-08 -7.184 -7.148 0.036 -14.13 - SrOH+ 1.155e-10 8.091e-11 -9.938 -10.092 -0.154 (0) + SrOH+ 1.155e-10 8.091e-11 -9.937 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -213944,7 +213892,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -213955,12 +213903,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 1.4261e-09 - I 1.1628e-21 + Hto 1.2789e-09 + I 1.1632e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0436e-09 + Nat 8.3196e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -213979,12 +213927,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.209e-08 1.424e-09 + Hto 1.084e-08 1.277e-09 I 9.871e-09 1.163e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.776e-09 2.092e-10 + Nat 1.416e-09 1.668e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -214016,8 +213964,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.755e-11 - CH4 4.755e-11 5.169e-11 -10.323 -10.287 0.036 35.46 +C(-4) 4.756e-11 + CH4 4.756e-11 5.171e-11 -10.323 -10.286 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -214043,8 +213991,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.156e-11 H2 1.078e-11 1.172e-11 -10.967 -10.931 0.036 28.61 -Hto 1.209e-08 - Hto 1.209e-08 1.209e-08 -7.918 -7.918 0.000 (0) +Hto 1.084e-08 + Hto 1.084e-08 1.084e-08 -7.965 -7.965 0.000 (0) I 9.871e-09 I- 9.871e-09 9.871e-09 -8.006 -8.006 -0.000 (0) K 1.540e-03 @@ -214062,15 +214010,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.776e-09 - Nat+ 1.776e-09 1.776e-09 -8.751 -8.751 -0.000 (0) +Nat 1.416e-09 + Nat+ 1.416e-09 1.416e-09 -8.849 -8.849 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.563 -70.527 0.036 30.40 -S(-2) 7.448e-08 - HS- 5.210e-08 3.430e-08 -7.283 -7.465 -0.182 21.14 - H2S 2.238e-08 2.433e-08 -7.650 -7.614 0.036 36.27 - S-2 2.118e-13 5.106e-14 -12.674 -13.292 -0.618 (0) - (H2S)2 2.869e-17 3.119e-17 -16.542 -16.506 0.036 30.09 +S(-2) 7.450e-08 + HS- 5.212e-08 3.431e-08 -7.283 -7.465 -0.182 21.14 + H2S 2.238e-08 2.434e-08 -7.650 -7.614 0.036 36.27 + S-2 2.119e-13 5.108e-14 -12.674 -13.292 -0.618 (0) + (H2S)2 2.871e-17 3.121e-17 -16.542 -16.506 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -214145,7 +214093,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -214156,12 +214104,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 4.4358e-10 - I 3.1681e-22 + Hto 3.8478e-10 + I 3.1686e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.1254e-10 + Nat 1.5923e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -214180,12 +214128,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.759e-09 4.429e-10 + Hto 3.261e-09 3.842e-10 I 2.689e-09 3.168e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.617e-10 4.261e-11 + Nat 2.709e-10 3.192e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -214217,8 +214165,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.755e-11 - CH4 4.755e-11 5.170e-11 -10.323 -10.287 0.036 35.46 +C(-4) 4.756e-11 + CH4 4.756e-11 5.171e-11 -10.323 -10.286 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -214244,8 +214192,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.156e-11 H2 1.078e-11 1.172e-11 -10.967 -10.931 0.036 28.61 -Hto 3.759e-09 - Hto 3.759e-09 3.759e-09 -8.425 -8.425 0.000 (0) +Hto 3.261e-09 + Hto 3.261e-09 3.261e-09 -8.487 -8.487 0.000 (0) I 2.689e-09 I- 2.689e-09 2.689e-09 -8.570 -8.570 -0.000 (0) K 1.540e-03 @@ -214263,15 +214211,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.617e-10 - Nat+ 3.617e-10 3.617e-10 -9.442 -9.442 -0.000 (0) +Nat 2.709e-10 + Nat+ 2.709e-10 2.709e-10 -9.567 -9.567 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.563 -70.527 0.036 30.40 -S(-2) 7.449e-08 - HS- 5.211e-08 3.430e-08 -7.283 -7.465 -0.182 21.14 - H2S 2.238e-08 2.433e-08 -7.650 -7.614 0.036 36.27 +S(-2) 7.450e-08 + HS- 5.212e-08 3.431e-08 -7.283 -7.465 -0.182 21.14 + H2S 2.238e-08 2.434e-08 -7.650 -7.614 0.036 36.27 S-2 2.119e-13 5.107e-14 -12.674 -13.292 -0.618 (0) - (H2S)2 2.870e-17 3.120e-17 -16.542 -16.506 0.036 30.09 + (H2S)2 2.871e-17 3.121e-17 -16.542 -16.506 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -214336,7 +214284,7 @@ Kinetics 11. Diffuse Double Layer Surface-Complexation Model Su - -9.988e-11 Surface + diffuse layer charge, eq + -9.992e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -214346,7 +214294,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -214357,12 +214305,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 1.2134e-10 - I 7.5429e-23 + Hto 1.0163e-10 + I 7.5441e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.7227e-11 + Nat 2.6175e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -214381,12 +214329,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.028e-09 1.211e-10 + Hto 8.613e-10 1.015e-10 I 6.403e-10 7.543e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.335e-11 7.463e-12 + Nat 4.454e-11 5.247e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -214404,7 +214352,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.071e-09 + Electrical balance (eq) = -5.146e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -214418,8 +214366,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.738e-11 - CH4 4.738e-11 5.152e-11 -10.324 -10.288 0.036 35.46 +C(-4) 4.739e-11 + CH4 4.739e-11 5.152e-11 -10.324 -10.288 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -214445,8 +214393,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.154e-11 H2 1.077e-11 1.171e-11 -10.968 -10.931 0.036 28.61 -Hto 1.028e-09 - Hto 1.028e-09 1.028e-09 -8.988 -8.988 0.000 (0) +Hto 8.613e-10 + Hto 8.613e-10 8.613e-10 -9.065 -9.065 0.000 (0) I 6.403e-10 I- 6.403e-10 6.403e-10 -9.194 -9.194 -0.000 (0) K 1.540e-03 @@ -214464,15 +214412,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.335e-11 - Nat+ 6.335e-11 6.335e-11 -10.198 -10.198 -0.000 (0) +Nat 4.454e-11 + Nat+ 4.454e-11 4.454e-11 -10.351 -10.351 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.562 -70.526 0.036 30.40 S(-2) 7.423e-08 - HS- 5.192e-08 3.418e-08 -7.285 -7.466 -0.182 21.14 + HS- 5.193e-08 3.418e-08 -7.285 -7.466 -0.182 21.14 H2S 2.230e-08 2.425e-08 -7.652 -7.615 0.036 36.27 - S-2 2.111e-13 5.089e-14 -12.676 -13.293 -0.618 (0) - (H2S)2 2.850e-17 3.098e-17 -16.545 -16.509 0.036 30.09 + S-2 2.111e-13 5.089e-14 -12.675 -13.293 -0.618 (0) + (H2S)2 2.850e-17 3.099e-17 -16.545 -16.509 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -214537,7 +214485,7 @@ Kinetics 12. Diffuse Double Layer Surface-Complexation Model Su - -9.979e-11 Surface + diffuse layer charge, eq + -9.980e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -214547,7 +214495,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -214558,12 +214506,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 2.9406e-11 - I 1.5842e-23 + Hto 2.3748e-11 + I 1.5846e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 5.6801e-12 + Nat 3.7448e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -214582,12 +214530,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.492e-10 2.936e-11 + Hto 2.013e-10 2.371e-11 I 1.345e-10 1.584e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 9.665e-12 1.139e-12 + Nat 6.372e-12 7.507e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -214605,7 +214553,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.018e-09 + Electrical balance (eq) = -2.103e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -214646,8 +214594,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.152e-11 H2 1.076e-11 1.170e-11 -10.968 -10.932 0.036 28.61 -Hto 2.492e-10 - Hto 2.492e-10 2.492e-10 -9.603 -9.603 0.000 (0) +Hto 2.013e-10 + Hto 2.013e-10 2.013e-10 -9.696 -9.696 0.000 (0) I 1.345e-10 I- 1.345e-10 1.345e-10 -9.871 -9.871 -0.000 (0) K 1.540e-03 @@ -214665,8 +214613,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 9.665e-12 - Nat+ 9.665e-12 9.665e-12 -11.015 -11.015 -0.000 (0) +Nat 6.372e-12 + Nat+ 6.372e-12 6.372e-12 -11.196 -11.196 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.561 -70.525 0.036 30.40 S(-2) 7.397e-08 @@ -214748,7 +214696,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -214759,12 +214707,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 6.3547e-12 - I 2.9553e-24 + Hto 4.9434e-12 + I 2.9557e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.6282e-13 + Nat 4.7126e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -214783,12 +214731,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.385e-11 6.344e-12 + Hto 4.189e-11 4.935e-12 I 2.509e-11 2.955e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.298e-12 1.529e-13 + Nat 8.019e-13 9.447e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -214806,7 +214754,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.474e-09 + Electrical balance (eq) = -2.476e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -214820,8 +214768,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.715e-11 - CH4 4.715e-11 5.126e-11 -10.327 -10.290 0.036 35.46 +C(-4) 4.714e-11 + CH4 4.714e-11 5.126e-11 -10.327 -10.290 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -214847,8 +214795,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.151e-11 H2 1.076e-11 1.169e-11 -10.968 -10.932 0.036 28.61 -Hto 5.385e-11 - Hto 5.385e-11 5.385e-11 -10.269 -10.269 0.000 (0) +Hto 4.189e-11 + Hto 4.189e-11 4.189e-11 -10.378 -10.378 0.000 (0) I 2.509e-11 I- 2.509e-11 2.509e-11 -10.601 -10.601 -0.000 (0) K 1.540e-03 @@ -214866,11 +214814,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.298e-12 - Nat+ 1.298e-12 1.298e-12 -11.887 -11.887 -0.000 (0) +Nat 8.019e-13 + Nat+ 8.019e-13 8.019e-13 -12.096 -12.096 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.561 -70.525 0.036 30.40 -S(-2) 7.386e-08 +S(-2) 7.385e-08 HS- 5.166e-08 3.401e-08 -7.287 -7.468 -0.182 21.14 H2S 2.219e-08 2.413e-08 -7.654 -7.618 0.036 36.27 S-2 2.100e-13 5.063e-14 -12.678 -13.296 -0.618 (0) @@ -214949,7 +214897,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -214960,12 +214908,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 1.2316e-12 - I 4.9296e-25 + Hto 9.2204e-13 + I 4.9306e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.0941e-14 + Nat 5.2618e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -214984,12 +214932,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.044e-11 1.230e-12 + Hto 7.814e-12 9.206e-13 I 4.185e-12 4.930e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.547e-13 1.823e-14 + Nat 8.954e-14 1.055e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -215048,8 +214996,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.152e-11 H2 1.076e-11 1.170e-11 -10.968 -10.932 0.036 28.61 -Hto 1.044e-11 - Hto 1.044e-11 1.044e-11 -10.981 -10.981 0.000 (0) +Hto 7.814e-12 + Hto 7.814e-12 7.814e-12 -11.107 -11.107 0.000 (0) I 4.185e-12 I- 4.185e-12 4.185e-12 -11.378 -11.378 -0.000 (0) K 1.540e-03 @@ -215067,15 +215015,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.547e-13 - Nat+ 1.547e-13 1.547e-13 -12.810 -12.810 -0.000 (0) +Nat 8.954e-14 + Nat+ 8.954e-14 8.954e-14 -13.048 -13.048 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.561 -70.525 0.036 30.40 S(-2) 7.394e-08 HS- 5.172e-08 3.405e-08 -7.286 -7.468 -0.182 21.14 H2S 2.222e-08 2.415e-08 -7.653 -7.617 0.036 36.27 S-2 2.103e-13 5.069e-14 -12.677 -13.295 -0.618 (0) - (H2S)2 2.828e-17 3.074e-17 -16.549 -16.512 0.036 30.09 + (H2S)2 2.827e-17 3.074e-17 -16.549 -16.512 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -215091,7 +215039,7 @@ Sr 5.000e-04 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.949e-06 -5.382 -5.530 -0.149 (0) SrCO3 6.542e-08 7.113e-08 -7.184 -7.148 0.036 -14.13 - SrOH+ 1.155e-10 8.091e-11 -9.937 -10.092 -0.154 (0) + SrOH+ 1.155e-10 8.091e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -215150,7 +215098,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -215161,12 +215109,12 @@ Su Ca 7.1884e-02 Cl 4.6580e-10 H 1.2951e-04 - Hto 2.1511e-13 - I 7.3926e-26 + Hto 1.5489e-13 + I 7.3938e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.6915e-15 + Nat 5.2500e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -215185,12 +215133,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.823e-12 2.148e-13 + Hto 1.313e-12 1.546e-13 I 6.275e-13 7.393e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.649e-14 1.943e-15 + Nat 8.933e-15 1.052e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -215208,7 +215156,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.974e-10 + Electrical balance (eq) = -1.165e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -215249,8 +215197,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.154e-11 H2 1.077e-11 1.171e-11 -10.968 -10.932 0.036 28.61 -Hto 1.823e-12 - Hto 1.823e-12 1.823e-12 -11.739 -11.739 0.000 (0) +Hto 1.313e-12 + Hto 1.313e-12 1.313e-12 -11.882 -11.882 0.000 (0) I 6.275e-13 I- 6.275e-13 6.275e-13 -12.202 -12.202 -0.000 (0) K 1.540e-03 @@ -215268,11 +215216,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.649e-14 - Nat+ 1.649e-14 1.649e-14 -13.783 -13.783 -0.000 (0) +Nat 8.933e-15 + Nat+ 8.933e-15 8.933e-15 -14.049 -14.049 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.562 -70.526 0.036 30.40 -S(-2) 7.422e-08 +S(-2) 7.421e-08 HS- 5.192e-08 3.418e-08 -7.285 -7.466 -0.182 21.14 H2S 2.230e-08 2.424e-08 -7.652 -7.615 0.036 36.27 S-2 2.111e-13 5.088e-14 -12.676 -13.293 -0.618 (0) @@ -215351,7 +215299,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -215362,12 +215310,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 3.4007e-14 - I 1.0014e-26 + Hto 2.3537e-14 + I 1.0017e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.2867e-16 + Nat 4.7086e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -215386,12 +215334,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.882e-13 3.395e-14 + Hto 1.995e-13 2.350e-14 I 8.500e-14 1.001e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.580e-15 1.862e-16 + Nat 8.012e-16 9.439e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -215450,8 +215398,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.157e-11 H2 1.078e-11 1.172e-11 -10.967 -10.931 0.036 28.61 -Hto 2.882e-13 - Hto 2.882e-13 2.882e-13 -12.540 -12.540 0.000 (0) +Hto 1.995e-13 + Hto 1.995e-13 1.995e-13 -12.700 -12.700 0.000 (0) I 8.500e-14 I- 8.500e-14 8.500e-14 -13.071 -13.071 -0.000 (0) K 1.540e-03 @@ -215469,12 +215417,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.580e-15 - Nat+ 1.580e-15 1.580e-15 -14.801 -14.801 -0.000 (0) +Nat 8.012e-16 + Nat+ 8.012e-16 8.012e-16 -15.096 -15.096 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.563 -70.527 0.036 30.40 S(-2) 7.459e-08 - HS- 5.218e-08 3.435e-08 -7.283 -7.464 -0.182 21.14 + HS- 5.218e-08 3.435e-08 -7.282 -7.464 -0.182 21.14 H2S 2.241e-08 2.437e-08 -7.650 -7.613 0.036 36.27 S-2 2.121e-13 5.114e-14 -12.673 -13.291 -0.618 (0) (H2S)2 2.878e-17 3.129e-17 -16.541 -16.505 0.036 30.09 @@ -215552,7 +215500,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -215563,12 +215511,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 4.8840e-15 - I 1.2300e-27 + Hto 3.2476e-15 + I 1.2302e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.0404e-17 + Nat 3.8148e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -215587,12 +215535,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.139e-14 4.876e-15 + Hto 2.752e-14 3.242e-15 I 1.044e-14 1.230e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.368e-16 1.612e-17 + Nat 6.491e-17 7.647e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -215651,8 +215599,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.159e-11 H2 1.079e-11 1.174e-11 -10.967 -10.930 0.036 28.61 -Hto 4.139e-14 - Hto 4.139e-14 4.139e-14 -13.383 -13.383 0.000 (0) +Hto 2.752e-14 + Hto 2.752e-14 2.752e-14 -13.560 -13.560 0.000 (0) I 1.044e-14 I- 1.044e-14 1.044e-14 -13.981 -13.981 -0.000 (0) K 1.540e-03 @@ -215670,15 +215618,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.368e-16 - Nat+ 1.368e-16 1.368e-16 -15.864 -15.864 -0.000 (0) +Nat 6.491e-17 + Nat+ 6.491e-17 6.491e-17 -16.188 -16.188 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.564 -70.528 0.036 30.40 S(-2) 7.491e-08 HS- 5.240e-08 3.450e-08 -7.281 -7.462 -0.182 21.14 H2S 2.251e-08 2.447e-08 -7.648 -7.611 0.036 36.27 - S-2 2.130e-13 5.135e-14 -12.672 -13.289 -0.618 (0) - (H2S)2 2.902e-17 3.155e-17 -16.537 -16.501 0.036 30.09 + S-2 2.131e-13 5.136e-14 -12.672 -13.289 -0.618 (0) + (H2S)2 2.902e-17 3.156e-17 -16.537 -16.501 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -215753,7 +215701,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -215764,12 +215712,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 6.3922e-16 - I 1.3753e-28 + Hto 4.0822e-16 + I 1.3751e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.3158e-18 + Nat 2.8035e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -215788,12 +215736,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.417e-15 6.382e-16 + Hto 3.460e-15 4.076e-16 I 1.167e-15 1.375e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.075e-17 1.266e-18 + Nat 4.771e-18 5.620e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -215852,8 +215800,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.160e-11 H2 1.080e-11 1.174e-11 -10.967 -10.930 0.036 28.61 -Hto 5.417e-15 - Hto 5.417e-15 5.417e-15 -14.266 -14.266 0.000 (0) +Hto 3.460e-15 + Hto 3.460e-15 3.460e-15 -14.461 -14.461 0.000 (0) I 1.167e-15 I- 1.167e-15 1.167e-15 -14.933 -14.933 -0.000 (0) K 1.540e-03 @@ -215871,11 +215819,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.075e-17 - Nat+ 1.075e-17 1.075e-17 -16.969 -16.969 -0.000 (0) +Nat 4.771e-18 + Nat+ 4.771e-18 4.771e-18 -17.321 -17.321 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.528 0.036 30.40 -S(-2) 7.509e-08 +S(-2) 7.510e-08 HS- 5.253e-08 3.458e-08 -7.280 -7.461 -0.182 21.14 H2S 2.256e-08 2.453e-08 -7.647 -7.610 0.036 36.27 S-2 2.136e-13 5.148e-14 -12.670 -13.288 -0.618 (0) @@ -215954,7 +215902,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -215965,12 +215913,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 7.6449e-17 - I 1.4033e-29 + Hto 4.6875e-17 + I 1.4030e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5165e-19 + Nat 1.8754e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -215989,12 +215937,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.479e-16 7.633e-17 + Hto 3.972e-16 4.680e-17 I 1.191e-16 1.403e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.685e-19 9.054e-20 + Nat 3.191e-19 3.760e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -216053,8 +216001,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.080e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 6.479e-16 - Hto 6.479e-16 6.479e-16 -15.189 -15.189 0.000 (0) +Hto 3.972e-16 + Hto 3.972e-16 3.972e-16 -15.401 -15.401 0.000 (0) I 1.191e-16 I- 1.191e-16 1.191e-16 -15.924 -15.924 -0.000 (0) K 1.540e-03 @@ -216072,11 +216020,11 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.685e-19 - Nat+ 7.685e-19 7.685e-19 -18.114 -18.114 -0.000 (0) +Nat 3.191e-19 + Nat+ 3.191e-19 3.191e-19 -18.496 -18.496 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 -S(-2) 7.517e-08 +S(-2) 7.518e-08 HS- 5.259e-08 3.462e-08 -7.279 -7.461 -0.182 21.14 H2S 2.259e-08 2.456e-08 -7.646 -7.610 0.036 36.27 S-2 2.138e-13 5.154e-14 -12.670 -13.288 -0.618 (0) @@ -216155,7 +216103,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -216166,12 +216114,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 8.3743e-18 - I 1.3098e-30 + Hto 4.9285e-18 + I 1.3096e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.9488e-20 + Nat 1.1453e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -216190,12 +216138,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.097e-17 8.361e-18 + Hto 4.177e-17 4.921e-18 I 1.112e-17 1.310e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 5.018e-20 5.911e-21 + Nat 1.949e-20 2.296e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -216254,8 +216202,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.080e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 7.097e-17 - Hto 7.097e-17 7.097e-17 -16.149 -16.149 0.000 (0) +Hto 4.177e-17 + Hto 4.177e-17 4.177e-17 -16.379 -16.379 0.000 (0) I 1.112e-17 I- 1.112e-17 1.112e-17 -16.954 -16.954 -0.000 (0) K 1.540e-03 @@ -216273,13 +216221,13 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 5.018e-20 - Nat+ 5.018e-20 5.018e-20 -19.299 -19.299 -0.000 (0) +Nat 1.949e-20 + Nat+ 1.949e-20 1.949e-20 -19.710 -19.710 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 S(-2) 7.520e-08 HS- 5.261e-08 3.463e-08 -7.279 -7.461 -0.182 21.14 - H2S 2.259e-08 2.457e-08 -7.646 -7.610 0.036 36.27 + H2S 2.260e-08 2.457e-08 -7.646 -7.610 0.036 36.27 S-2 2.139e-13 5.156e-14 -12.670 -13.288 -0.618 (0) (H2S)2 2.925e-17 3.180e-17 -16.534 -16.498 0.036 30.09 S(6) 1.260e-02 @@ -216356,7 +216304,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -216367,12 +216315,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 8.4182e-19 + Hto 4.7543e-19 I 1.1209e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.7619e-21 + Nat 6.3988e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -216391,12 +216339,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.134e-18 8.405e-19 + Hto 4.029e-18 4.747e-19 I 9.514e-19 1.121e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.998e-21 3.532e-22 + Nat 1.089e-21 1.283e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -216455,8 +216403,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.080e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 7.134e-18 - Hto 7.134e-18 7.134e-18 -17.147 -17.147 0.000 (0) +Hto 4.029e-18 + Hto 4.029e-18 4.029e-18 -17.395 -17.395 0.000 (0) I 9.514e-19 I- 9.514e-19 9.514e-19 -18.022 -18.022 -0.000 (0) K 1.540e-03 @@ -216474,15 +216422,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.998e-21 - Nat+ 2.998e-21 2.998e-21 -20.523 -20.523 -0.000 (0) +Nat 1.089e-21 + Nat+ 1.089e-21 1.089e-21 -20.963 -20.963 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 S(-2) 7.521e-08 HS- 5.261e-08 3.463e-08 -7.279 -7.460 -0.182 21.14 H2S 2.260e-08 2.457e-08 -7.646 -7.610 0.036 36.27 S-2 2.139e-13 5.156e-14 -12.670 -13.288 -0.618 (0) - (H2S)2 2.925e-17 3.181e-17 -16.534 -16.497 0.036 30.09 + (H2S)2 2.926e-17 3.181e-17 -16.534 -16.497 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -216557,7 +216505,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -216568,12 +216516,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 7.7819e-20 - I 8.8126e-33 + Hto 4.2164e-20 + I 8.8141e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.6368e-23 + Nat 3.2602e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -216592,12 +216540,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.595e-19 7.769e-20 + Hto 3.573e-19 4.210e-20 I 7.481e-20 8.813e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.640e-22 1.932e-23 + Nat 5.548e-23 6.536e-24 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -216656,8 +216604,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.080e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 6.595e-19 - Hto 6.595e-19 6.595e-19 -18.181 -18.181 0.000 (0) +Hto 3.573e-19 + Hto 3.573e-19 3.573e-19 -18.447 -18.447 0.000 (0) I 7.481e-20 I- 7.481e-20 7.481e-20 -19.126 -19.126 -0.000 (0) K 1.540e-03 @@ -216675,8 +216623,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.640e-22 - Nat+ 1.640e-22 1.640e-22 -21.785 -21.785 -0.000 (0) +Nat 5.548e-23 + Nat+ 5.548e-23 5.548e-23 -22.256 -22.256 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 S(-2) 7.521e-08 @@ -216758,7 +216706,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -216769,12 +216717,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 7.1325e-21 - I 6.7934e-34 + Hto 3.6963e-21 + I 6.7944e-34 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8889e-24 + Nat 1.3566e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -216793,12 +216741,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.045e-20 7.121e-21 + Hto 3.132e-20 3.690e-21 I 5.766e-21 6.793e-22 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.319e-24 9.801e-25 + Nat 2.308e-24 2.720e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -216857,8 +216805,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.080e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 6.045e-20 - Hto 6.045e-20 6.045e-20 -19.219 -19.219 0.000 (0) +Hto 3.132e-20 + Hto 3.132e-20 3.132e-20 -19.504 -19.504 0.000 (0) I 5.766e-21 I- 5.766e-21 5.766e-21 -20.239 -20.239 -0.000 (0) K 1.540e-03 @@ -216876,8 +216824,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.319e-24 - Nat+ 8.319e-24 8.319e-24 -23.080 -23.080 -0.000 (0) +Nat 2.308e-24 + Nat+ 2.308e-24 2.308e-24 -23.637 -23.637 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 S(-2) 7.521e-08 @@ -217248,30 +217196,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 5.014e-07 2.507e-07 + Hto 5.068e-07 2.534e-07 I 6.871e-07 3.436e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.746e-07 1.373e-07 + Nat 2.815e-07 1.408e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.069 Adjusted to redox equilibrium + pe = -3.068 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.906e-13 + Electrical balance (eq) = -3.375e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -217285,8 +217233,8 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.284e-12 - CH4 4.284e-12 4.658e-12 -11.368 -11.332 0.036 35.46 +C(-4) 4.205e-12 + CH4 4.205e-12 4.572e-12 -11.376 -11.340 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 @@ -217297,7 +217245,7 @@ C(4) 2.744e-03 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 - KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 + KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 SrCO3 6.530e-08 7.099e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.278e-09 1.389e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 @@ -217310,16 +217258,16 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.181e-11 - H2 5.903e-12 6.418e-12 -11.229 -11.193 0.036 28.61 -Hto 5.014e-07 - Hto 5.014e-07 5.014e-07 -6.300 -6.300 0.000 (0) +H(0) 1.175e-11 + H2 5.876e-12 6.388e-12 -11.231 -11.195 0.036 28.61 +Hto 5.068e-07 + Hto 5.068e-07 5.068e-07 -6.295 -6.295 0.000 (0) I 6.871e-07 I- 6.871e-07 6.871e-07 -6.163 -6.163 -0.000 (0) K 1.540e-03 K+ 1.517e-03 1.011e-03 -2.819 -2.995 -0.176 9.47 KSO4- 2.237e-05 1.863e-05 -4.650 -4.730 -0.080 13.44 - KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 + KHCO3 6.679e-07 6.732e-07 -6.175 -6.172 0.003 41.03 Mg 1.720e-02 Mg+2 1.576e-02 4.805e-03 -1.802 -2.318 -0.516 -20.70 MgSO4 1.288e-03 1.523e-03 -2.890 -2.817 0.073 -7.92 @@ -217331,15 +217279,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.746e-07 - Nat+ 2.746e-07 2.746e-07 -6.561 -6.561 -0.000 (0) +Nat 2.815e-07 + Nat+ 2.815e-07 2.815e-07 -6.550 -6.550 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.040 -70.004 0.036 30.40 -S(-2) 6.716e-09 - HS- 4.696e-09 3.091e-09 -8.328 -8.510 -0.182 21.14 - H2S 2.020e-09 2.197e-09 -8.695 -8.658 0.036 36.27 - S-2 1.906e-14 4.594e-15 -13.720 -14.338 -0.618 (0) - (H2S)2 2.338e-19 2.542e-19 -18.631 -18.595 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.036 -70.000 0.036 30.40 +S(-2) 6.592e-09 + HS- 4.609e-09 3.034e-09 -8.336 -8.518 -0.182 21.14 + H2S 1.983e-09 2.156e-09 -8.703 -8.666 0.036 36.27 + S-2 1.871e-14 4.509e-15 -13.728 -14.346 -0.618 (0) + (H2S)2 2.252e-19 2.449e-19 -18.647 -18.611 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -217366,14 +217314,14 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.53 -11.33 -2.80 CH4 + CH4(g) -8.54 -11.34 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.09 -11.19 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.66 -15.60 -7.94 H2S + H2S(g) -7.67 -15.61 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -217414,7 +217362,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -217425,12 +217373,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 5.2549e-08 + Hto 5.2926e-08 I 7.1879e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4747e-07 + Nat 1.5041e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -217449,30 +217397,30 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.453e-07 5.246e-08 + Hto 4.485e-07 5.284e-08 I 6.101e-07 7.187e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.509e-07 2.956e-08 + Nat 2.559e-07 3.015e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.117 Adjusted to redox equilibrium + pe = -3.116 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.676e-09 + Electrical balance (eq) = 1.667e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -217486,8 +217434,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.032e-11 - CH4 1.032e-11 1.122e-11 -10.986 -10.950 0.036 35.46 +C(-4) 1.025e-11 + CH4 1.025e-11 1.115e-11 -10.989 -10.953 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -217499,7 +217447,7 @@ C(4) 2.744e-03 MgCO3 3.628e-06 3.945e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.380e-06 8.603e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.680e-07 6.732e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.532e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 (CO2)2 1.277e-09 1.388e-09 -8.894 -8.857 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -217511,10 +217459,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.471e-11 - H2 7.355e-12 7.996e-12 -11.133 -11.097 0.036 28.61 -Hto 4.453e-07 - Hto 4.453e-07 4.453e-07 -6.351 -6.351 0.000 (0) +H(0) 1.468e-11 + H2 7.342e-12 7.983e-12 -11.134 -11.098 0.036 28.61 +Hto 4.485e-07 + Hto 4.485e-07 4.485e-07 -6.348 -6.348 0.000 (0) I 6.101e-07 I- 6.101e-07 6.101e-07 -6.215 -6.215 -0.000 (0) K 1.540e-03 @@ -217532,15 +217480,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.509e-07 - Nat+ 2.509e-07 2.509e-07 -6.600 -6.600 -0.000 (0) +Nat 2.559e-07 + Nat+ 2.559e-07 2.559e-07 -6.592 -6.592 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.231 -70.195 0.036 30.40 -S(-2) 1.618e-08 - HS- 1.131e-08 7.446e-09 -7.946 -8.128 -0.182 21.14 - H2S 4.865e-09 5.290e-09 -8.313 -8.277 0.036 36.27 - S-2 4.592e-14 1.107e-14 -13.338 -13.956 -0.618 (0) - (H2S)2 1.356e-18 1.474e-18 -17.868 -17.831 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.229 -70.193 0.036 30.40 +S(-2) 1.607e-08 + HS- 1.124e-08 7.397e-09 -7.949 -8.131 -0.182 21.14 + H2S 4.833e-09 5.255e-09 -8.316 -8.279 0.036 36.27 + S-2 4.562e-14 1.100e-14 -13.341 -13.959 -0.618 (0) + (H2S)2 1.338e-18 1.455e-18 -17.873 -17.837 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -217555,7 +217503,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.532e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 + SrCO3 6.531e-08 7.101e-08 -7.185 -7.149 0.036 -14.13 SrOH+ 1.153e-10 8.080e-11 -9.938 -10.093 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -217605,7 +217553,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.608e-11 Surface + diffuse layer charge, eq + -9.607e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -217615,7 +217563,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -217626,12 +217574,12 @@ Su Ca 7.1884e-02 Cl 4.6606e-10 H 1.2950e-04 - Hto 3.5556e-08 - I 4.5045e-20 + Hto 3.5347e-08 + I 4.5052e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.0878e-08 + Nat 8.9886e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -217650,12 +217598,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.013e-07 3.550e-08 + Hto 2.996e-07 3.529e-08 I 3.823e-07 4.504e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.546e-07 1.822e-08 + Nat 1.530e-07 1.802e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -217673,7 +217621,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.996e-09 + Electrical balance (eq) = 1.963e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -217687,8 +217635,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.185e-11 - CH4 3.185e-11 3.462e-11 -10.497 -10.461 0.036 35.46 +C(-4) 3.194e-11 + CH4 3.194e-11 3.472e-11 -10.496 -10.459 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -217707,15 +217655,15 @@ Ca 2.590e-02 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.386e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 CaCO3 9.019e-06 9.806e-06 -5.045 -5.009 0.036 -14.60 - CaOH+ 1.877e-08 1.372e-08 -7.727 -7.863 -0.136 (0) + CaOH+ 1.877e-08 1.372e-08 -7.726 -7.863 -0.136 (0) CaHSO4+ 1.065e-09 7.786e-10 -8.972 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.950e-11 - H2 9.750e-12 1.060e-11 -11.011 -10.975 0.036 28.61 -Hto 3.013e-07 - Hto 3.013e-07 3.013e-07 -6.521 -6.521 0.000 (0) +H(0) 1.951e-11 + H2 9.756e-12 1.061e-11 -11.011 -10.974 0.036 28.61 +Hto 2.996e-07 + Hto 2.996e-07 2.996e-07 -6.524 -6.524 0.000 (0) I 3.823e-07 I- 3.823e-07 3.823e-07 -6.418 -6.418 -0.000 (0) K 1.540e-03 @@ -217728,20 +217676,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.381e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 - MgOH+ 2.899e-07 2.127e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.899e-07 2.128e-07 -6.538 -6.672 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.546e-07 - Nat+ 1.546e-07 1.546e-07 -6.811 -6.811 -0.000 (0) +Nat 1.530e-07 + Nat+ 1.530e-07 1.530e-07 -6.815 -6.815 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.476 -70.439 0.036 30.40 -S(-2) 4.990e-08 - HS- 3.490e-08 2.297e-08 -7.457 -7.639 -0.182 21.14 - H2S 1.500e-08 1.631e-08 -7.824 -7.788 0.036 36.27 - S-2 1.418e-13 3.418e-14 -12.848 -13.466 -0.618 (0) - (H2S)2 1.289e-17 1.401e-17 -16.890 -16.853 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.476 -70.440 0.036 30.40 +S(-2) 5.004e-08 + HS- 3.500e-08 2.304e-08 -7.456 -7.638 -0.182 21.14 + H2S 1.504e-08 1.635e-08 -7.823 -7.786 0.036 36.27 + S-2 1.422e-13 3.428e-14 -12.847 -13.465 -0.618 (0) + (H2S)2 1.296e-17 1.409e-17 -16.887 -16.851 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -217816,7 +217764,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -217825,14 +217773,14 @@ Su Element Moles C 1.6144e-04 Ca 7.1884e-02 - Cl 4.6589e-10 + Cl 4.6588e-10 H 1.2950e-04 - Hto 2.0376e-08 + Hto 1.9876e-08 I 2.3581e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2331e-08 + Nat 4.0061e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -217851,12 +217799,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.727e-07 2.034e-08 + Hto 1.684e-07 1.984e-08 I 2.001e-07 2.358e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.203e-08 8.486e-09 + Nat 6.817e-08 8.031e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -217888,8 +217836,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.191e-11 - CH4 4.191e-11 4.556e-11 -10.378 -10.341 0.036 35.46 +C(-4) 4.200e-11 + CH4 4.200e-11 4.566e-11 -10.377 -10.340 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -217913,10 +217861,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.089e-11 - H2 1.044e-11 1.135e-11 -10.981 -10.945 0.036 28.61 -Hto 1.727e-07 - Hto 1.727e-07 1.727e-07 -6.763 -6.763 0.000 (0) +H(0) 2.090e-11 + H2 1.045e-11 1.136e-11 -10.981 -10.945 0.036 28.61 +Hto 1.684e-07 + Hto 1.684e-07 1.684e-07 -6.774 -6.774 0.000 (0) I 2.001e-07 I- 2.001e-07 2.001e-07 -6.699 -6.699 -0.000 (0) K 1.540e-03 @@ -217934,15 +217882,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.203e-08 - Nat+ 7.203e-08 7.203e-08 -7.142 -7.142 -0.000 (0) +Nat 6.817e-08 + Nat+ 6.817e-08 6.817e-08 -7.166 -7.166 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.535 -70.499 0.036 30.40 -S(-2) 6.565e-08 - HS- 4.592e-08 3.023e-08 -7.338 -7.520 -0.182 21.14 - H2S 1.973e-08 2.145e-08 -7.705 -7.669 0.036 36.27 - S-2 1.867e-13 4.500e-14 -12.729 -13.347 -0.618 (0) - (H2S)2 2.230e-17 2.425e-17 -16.652 -16.615 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.536 -70.500 0.036 30.40 +S(-2) 6.579e-08 + HS- 4.602e-08 3.030e-08 -7.337 -7.519 -0.182 21.14 + H2S 1.977e-08 2.150e-08 -7.704 -7.668 0.036 36.27 + S-2 1.871e-13 4.509e-14 -12.728 -13.346 -0.618 (0) + (H2S)2 2.239e-17 2.435e-17 -16.650 -16.614 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -218017,7 +217965,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -218028,12 +217976,12 @@ Su Ca 7.1884e-02 Cl 4.6581e-10 H 1.2951e-04 - Hto 9.9432e-09 + Hto 9.4703e-09 I 1.0373e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5464e-08 + Nat 1.3892e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -218052,12 +218000,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.426e-08 9.927e-09 + Hto 8.026e-08 9.455e-09 I 8.804e-08 1.037e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.631e-08 3.100e-09 + Nat 2.364e-08 2.785e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -218087,10 +218035,10 @@ Su Species Molality Activity Molality Activity Gamma cm³/mol OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 - H+ 1.046e-07 8.114e-08 -6.980 -7.091 -0.110 0.00 + H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.632e-11 - CH4 4.632e-11 5.036e-11 -10.334 -10.298 0.036 35.46 +C(-4) 4.637e-11 + CH4 4.637e-11 5.042e-11 -10.334 -10.297 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -218115,9 +218063,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.142e-11 - H2 1.071e-11 1.164e-11 -10.970 -10.934 0.036 28.61 -Hto 8.426e-08 - Hto 8.426e-08 8.426e-08 -7.074 -7.074 0.000 (0) + H2 1.071e-11 1.165e-11 -10.970 -10.934 0.036 28.61 +Hto 8.026e-08 + Hto 8.026e-08 8.026e-08 -7.096 -7.096 0.000 (0) I 8.804e-08 I- 8.804e-08 8.804e-08 -7.055 -7.055 -0.000 (0) K 1.540e-03 @@ -218135,15 +218083,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.631e-08 - Nat+ 2.631e-08 2.631e-08 -7.580 -7.580 -0.000 (0) +Nat 2.364e-08 + Nat+ 2.364e-08 2.364e-08 -7.626 -7.626 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.557 -70.521 0.036 30.40 -S(-2) 7.255e-08 - HS- 5.075e-08 3.341e-08 -7.295 -7.476 -0.182 21.14 - H2S 2.180e-08 2.370e-08 -7.662 -7.625 0.036 36.27 - S-2 2.063e-13 4.974e-14 -12.685 -13.303 -0.618 (0) - (H2S)2 2.723e-17 2.960e-17 -16.565 -16.529 0.036 30.09 +S(-2) 7.264e-08 + HS- 5.081e-08 3.345e-08 -7.294 -7.476 -0.182 21.14 + H2S 2.183e-08 2.373e-08 -7.661 -7.625 0.036 36.27 + S-2 2.066e-13 4.980e-14 -12.685 -13.303 -0.618 (0) + (H2S)2 2.729e-17 2.967e-17 -16.564 -16.528 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -218218,7 +218166,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -218229,12 +218177,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 4.1649e-09 - I 3.8729e-21 + Hto 3.8583e-09 + I 3.8720e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.5738e-09 + Nat 3.8816e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -218253,12 +218201,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.530e-08 4.158e-09 + Hto 3.270e-08 3.852e-09 I 3.287e-08 3.872e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.783e-09 9.169e-10 + Nat 6.605e-09 7.781e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -218290,8 +218238,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.802e-11 - CH4 4.802e-11 5.221e-11 -10.319 -10.282 0.036 35.46 +C(-4) 4.805e-11 + CH4 4.805e-11 5.225e-11 -10.318 -10.282 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -218314,11 +218262,11 @@ Ca 2.590e-02 CaHSO4+ 1.065e-09 7.782e-10 -8.973 -9.109 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 - HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) + HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.161e-11 H2 1.081e-11 1.175e-11 -10.966 -10.930 0.036 28.61 -Hto 3.530e-08 - Hto 3.530e-08 3.530e-08 -7.452 -7.452 0.000 (0) +Hto 3.270e-08 + Hto 3.270e-08 3.270e-08 -7.485 -7.485 0.000 (0) I 3.287e-08 I- 3.287e-08 3.287e-08 -7.483 -7.483 -0.000 (0) K 1.540e-03 @@ -218336,15 +218284,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.783e-09 - Nat+ 7.783e-09 7.783e-09 -8.109 -8.109 -0.000 (0) +Nat 6.605e-09 + Nat+ 6.605e-09 6.605e-09 -8.180 -8.180 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.565 -70.529 0.036 30.40 -S(-2) 7.523e-08 - HS- 5.263e-08 3.464e-08 -7.279 -7.460 -0.182 21.14 - H2S 2.260e-08 2.457e-08 -7.646 -7.610 0.036 36.27 - S-2 2.140e-13 5.158e-14 -12.670 -13.288 -0.618 (0) - (H2S)2 2.927e-17 3.182e-17 -16.534 -16.497 0.036 30.09 +S(-2) 7.527e-08 + HS- 5.266e-08 3.466e-08 -7.279 -7.460 -0.182 21.14 + H2S 2.262e-08 2.459e-08 -7.646 -7.609 0.036 36.27 + S-2 2.141e-13 5.161e-14 -12.669 -13.287 -0.618 (0) + (H2S)2 2.930e-17 3.186e-17 -16.533 -16.497 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -218378,7 +218326,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.83 -10.93 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.62 -14.55 -7.94 H2S + H2S(g) -6.61 -14.55 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -218419,7 +218367,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -218430,12 +218378,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.5108e-09 + Hto 1.3572e-09 I 1.2404e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1235e-09 + Nat 8.9797e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -218454,12 +218402,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.280e-08 1.508e-09 + Hto 1.150e-08 1.355e-09 I 1.053e-08 1.240e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.912e-09 2.252e-10 + Nat 1.528e-09 1.800e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -218491,8 +218439,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.855e-11 - CH4 4.855e-11 5.278e-11 -10.314 -10.278 0.036 35.46 +C(-4) 4.856e-11 + CH4 4.856e-11 5.280e-11 -10.314 -10.277 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -218517,9 +218465,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.167e-11 - H2 1.083e-11 1.178e-11 -10.965 -10.929 0.036 28.61 -Hto 1.280e-08 - Hto 1.280e-08 1.280e-08 -7.893 -7.893 0.000 (0) + H2 1.084e-11 1.178e-11 -10.965 -10.929 0.036 28.61 +Hto 1.150e-08 + Hto 1.150e-08 1.150e-08 -7.939 -7.939 0.000 (0) I 1.053e-08 I- 1.053e-08 1.053e-08 -7.978 -7.978 -0.000 (0) K 1.540e-03 @@ -218537,15 +218485,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.912e-09 - Nat+ 1.912e-09 1.912e-09 -8.719 -8.719 -0.000 (0) +Nat 1.528e-09 + Nat+ 1.528e-09 1.528e-09 -8.816 -8.816 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.567 -70.531 0.036 30.40 -S(-2) 7.605e-08 - HS- 5.320e-08 3.502e-08 -7.274 -7.456 -0.182 21.14 - H2S 2.285e-08 2.484e-08 -7.641 -7.605 0.036 36.27 - S-2 2.163e-13 5.214e-14 -12.665 -13.283 -0.618 (0) - (H2S)2 2.991e-17 3.252e-17 -16.524 -16.488 0.036 30.09 +S(-2) 7.607e-08 + HS- 5.321e-08 3.503e-08 -7.274 -7.456 -0.182 21.14 + H2S 2.285e-08 2.485e-08 -7.641 -7.605 0.036 36.27 + S-2 2.164e-13 5.215e-14 -12.665 -13.283 -0.618 (0) + (H2S)2 2.993e-17 3.254e-17 -16.524 -16.488 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -218620,7 +218568,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -218631,12 +218579,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 4.7878e-10 + Hto 4.1612e-10 I 3.4452e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.3381e-10 + Nat 1.7567e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -218655,12 +218603,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.057e-09 4.780e-10 + Hto 3.526e-09 4.155e-10 I 2.924e-09 3.445e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.979e-10 4.687e-11 + Nat 2.989e-10 3.522e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -218693,7 +218641,7 @@ Su H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.857e-11 - CH4 4.857e-11 5.280e-11 -10.314 -10.277 0.036 35.46 + CH4 4.857e-11 5.281e-11 -10.314 -10.277 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -218719,8 +218667,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.167e-11 H2 1.084e-11 1.178e-11 -10.965 -10.929 0.036 28.61 -Hto 4.057e-09 - Hto 4.057e-09 4.057e-09 -8.392 -8.392 0.000 (0) +Hto 3.526e-09 + Hto 3.526e-09 3.526e-09 -8.453 -8.453 0.000 (0) I 2.924e-09 I- 2.924e-09 2.924e-09 -8.534 -8.534 -0.000 (0) K 1.540e-03 @@ -218738,15 +218686,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.979e-10 - Nat+ 3.979e-10 3.979e-10 -9.400 -9.400 -0.000 (0) +Nat 2.989e-10 + Nat+ 2.989e-10 2.989e-10 -9.524 -9.524 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.567 -70.531 0.036 30.40 -S(-2) 7.608e-08 - HS- 5.322e-08 3.503e-08 -7.274 -7.455 -0.182 21.14 - H2S 2.286e-08 2.485e-08 -7.641 -7.605 0.036 36.27 - S-2 2.164e-13 5.216e-14 -12.665 -13.283 -0.618 (0) - (H2S)2 2.993e-17 3.254e-17 -16.524 -16.488 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.568 -70.531 0.036 30.40 +S(-2) 7.609e-08 + HS- 5.323e-08 3.504e-08 -7.274 -7.455 -0.182 21.14 + H2S 2.286e-08 2.486e-08 -7.641 -7.605 0.036 36.27 + S-2 2.164e-13 5.217e-14 -12.665 -13.283 -0.618 (0) + (H2S)2 2.994e-17 3.255e-17 -16.524 -16.487 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -218821,7 +218769,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -218832,12 +218780,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 1.3362e-10 + Hto 1.1216e-10 I 8.3765e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.1892e-11 + Nat 2.9544e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -218856,12 +218804,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.132e-09 1.334e-10 + Hto 9.505e-10 1.120e-10 I 7.109e-10 8.376e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.128e-11 8.398e-12 + Nat 5.027e-11 5.923e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -218879,7 +218827,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.171e-09 + Electrical balance (eq) = -6.145e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -218920,8 +218868,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.165e-11 H2 1.083e-11 1.177e-11 -10.965 -10.929 0.036 28.61 -Hto 1.132e-09 - Hto 1.132e-09 1.132e-09 -8.946 -8.946 0.000 (0) +Hto 9.505e-10 + Hto 9.505e-10 9.505e-10 -9.022 -9.022 0.000 (0) I 7.109e-10 I- 7.109e-10 7.109e-10 -9.148 -9.148 -0.000 (0) K 1.540e-03 @@ -218939,12 +218887,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.128e-11 - Nat+ 7.128e-11 7.128e-11 -10.147 -10.147 -0.000 (0) +Nat 5.027e-11 + Nat+ 5.027e-11 5.027e-11 -10.299 -10.299 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.567 -70.530 0.036 30.40 S(-2) 7.583e-08 - HS- 5.304e-08 3.492e-08 -7.275 -7.457 -0.182 21.14 + HS- 5.305e-08 3.492e-08 -7.275 -7.457 -0.182 21.14 H2S 2.278e-08 2.477e-08 -7.642 -7.606 0.036 36.27 S-2 2.157e-13 5.199e-14 -12.666 -13.284 -0.618 (0) (H2S)2 2.974e-17 3.233e-17 -16.527 -16.490 0.036 30.09 @@ -219022,7 +218970,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -219033,12 +218981,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 3.3077e-11 + Hto 2.6779e-11 I 1.7981e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.5441e-12 + Nat 4.3282e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -219057,12 +219005,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.803e-10 3.302e-11 + Hto 2.269e-10 2.674e-11 I 1.526e-10 1.798e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.114e-11 1.312e-12 + Nat 7.365e-12 8.677e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -219080,7 +219028,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.118e-09 + Electrical balance (eq) = -2.203e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -219094,8 +219042,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.825e-11 - CH4 4.825e-11 5.245e-11 -10.317 -10.280 0.036 35.46 +C(-4) 4.824e-11 + CH4 4.824e-11 5.245e-11 -10.317 -10.280 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -219121,8 +219069,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.164e-11 H2 1.082e-11 1.176e-11 -10.966 -10.930 0.036 28.61 -Hto 2.803e-10 - Hto 2.803e-10 2.803e-10 -9.552 -9.552 0.000 (0) +Hto 2.269e-10 + Hto 2.269e-10 2.269e-10 -9.644 -9.644 0.000 (0) I 1.526e-10 I- 1.526e-10 1.526e-10 -9.816 -9.816 -0.000 (0) K 1.540e-03 @@ -219140,8 +219088,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.114e-11 - Nat+ 1.114e-11 1.114e-11 -10.953 -10.953 -0.000 (0) +Nat 7.365e-12 + Nat+ 7.365e-12 7.365e-12 -11.133 -11.133 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.566 -70.530 0.036 30.40 S(-2) 7.557e-08 @@ -219223,7 +219171,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -219234,12 +219182,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 7.3104e-12 - I 3.4331e-24 + Hto 5.7017e-12 + I 3.4335e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.0056e-13 + Nat 5.5821e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -219258,12 +219206,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.195e-11 7.299e-12 + Hto 4.832e-11 5.693e-12 I 2.914e-11 3.433e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.532e-12 1.805e-13 + Nat 9.499e-13 1.119e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -219281,7 +219229,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.573e-09 + Electrical balance (eq) = -2.576e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -219295,8 +219243,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.818e-11 - CH4 4.818e-11 5.238e-11 -10.317 -10.281 0.036 35.46 +C(-4) 4.817e-11 + CH4 4.817e-11 5.237e-11 -10.317 -10.281 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -219322,8 +219270,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) H(0) 2.163e-11 H2 1.081e-11 1.176e-11 -10.966 -10.930 0.036 28.61 -Hto 6.195e-11 - Hto 6.195e-11 6.195e-11 -10.208 -10.208 0.000 (0) +Hto 4.832e-11 + Hto 4.832e-11 4.832e-11 -10.316 -10.316 0.000 (0) I 2.914e-11 I- 2.914e-11 2.914e-11 -10.536 -10.536 -0.000 (0) K 1.540e-03 @@ -219341,14 +219289,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.532e-12 - Nat+ 1.532e-12 1.532e-12 -11.815 -11.815 -0.000 (0) +Nat 9.499e-13 + Nat+ 9.499e-13 9.499e-13 -12.022 -12.022 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.566 -70.529 0.036 30.40 S(-2) 7.546e-08 HS- 5.279e-08 3.475e-08 -7.277 -7.459 -0.182 21.14 - H2S 2.267e-08 2.465e-08 -7.644 -7.608 0.036 36.27 - S-2 2.146e-13 5.174e-14 -12.668 -13.286 -0.618 (0) + H2S 2.267e-08 2.465e-08 -7.645 -7.608 0.036 36.27 + S-2 2.146e-13 5.173e-14 -12.668 -13.286 -0.618 (0) (H2S)2 2.945e-17 3.202e-17 -16.531 -16.495 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -219424,7 +219372,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -219435,12 +219383,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 1.4505e-12 + Hto 1.0890e-12 I 5.8666e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1010e-13 + Nat 6.3926e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -219459,12 +219407,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.229e-11 1.448e-12 + Hto 9.229e-12 1.087e-12 I 4.979e-12 5.866e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.874e-13 2.207e-14 + Nat 1.088e-13 1.282e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -219482,7 +219430,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.587e-09 + Electrical balance (eq) = -2.588e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -219497,7 +219445,7 @@ Su H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.823e-11 - CH4 4.823e-11 5.244e-11 -10.317 -10.280 0.036 35.46 + CH4 4.823e-11 5.243e-11 -10.317 -10.280 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -219523,8 +219471,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.163e-11 H2 1.082e-11 1.176e-11 -10.966 -10.930 0.036 28.61 -Hto 1.229e-11 - Hto 1.229e-11 1.229e-11 -10.910 -10.910 0.000 (0) +Hto 9.229e-12 + Hto 9.229e-12 9.229e-12 -11.035 -11.035 0.000 (0) I 4.979e-12 I- 4.979e-12 4.979e-12 -11.303 -11.303 -0.000 (0) K 1.540e-03 @@ -219542,14 +219490,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.874e-13 - Nat+ 1.874e-13 1.874e-13 -12.727 -12.727 -0.000 (0) +Nat 1.088e-13 + Nat+ 1.088e-13 1.088e-13 -12.963 -12.963 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.566 -70.530 0.036 30.40 -S(-2) 7.555e-08 +S(-2) 7.554e-08 HS- 5.285e-08 3.479e-08 -7.277 -7.459 -0.182 21.14 H2S 2.270e-08 2.468e-08 -7.644 -7.608 0.036 36.27 - S-2 2.149e-13 5.180e-14 -12.668 -13.286 -0.618 (0) + S-2 2.149e-13 5.179e-14 -12.668 -13.286 -0.618 (0) (H2S)2 2.952e-17 3.209e-17 -16.530 -16.494 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -219625,7 +219573,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -219636,12 +219584,12 @@ Su Ca 7.1884e-02 Cl 4.6578e-10 H 1.2951e-04 - Hto 2.5964e-13 - I 9.0208e-26 + Hto 1.8750e-13 + I 9.0195e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2043e-14 + Nat 6.5471e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -219660,12 +219608,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.200e-12 2.592e-13 + Hto 1.589e-12 1.872e-13 I 7.656e-13 9.019e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.049e-14 2.414e-15 + Nat 1.114e-14 1.312e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -219683,7 +219631,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.097e-09 + Electrical balance (eq) = -1.265e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -219698,7 +219646,7 @@ Su H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.840e-11 - CH4 4.840e-11 5.263e-11 -10.315 -10.279 0.036 35.46 + CH4 4.840e-11 5.262e-11 -10.315 -10.279 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -219723,9 +219671,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.165e-11 - H2 1.083e-11 1.177e-11 -10.965 -10.929 0.036 28.61 -Hto 2.200e-12 - Hto 2.200e-12 2.200e-12 -11.658 -11.658 0.000 (0) + H2 1.083e-11 1.177e-11 -10.966 -10.929 0.036 28.61 +Hto 1.589e-12 + Hto 1.589e-12 1.589e-12 -11.799 -11.799 0.000 (0) I 7.656e-13 I- 7.656e-13 7.656e-13 -12.116 -12.116 -0.000 (0) K 1.540e-03 @@ -219743,15 +219691,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.049e-14 - Nat+ 2.049e-14 2.049e-14 -13.688 -13.688 -0.000 (0) +Nat 1.114e-14 + Nat+ 1.114e-14 1.114e-14 -13.953 -13.953 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.567 -70.530 0.036 30.40 S(-2) 7.582e-08 HS- 5.304e-08 3.492e-08 -7.275 -7.457 -0.182 21.14 H2S 2.278e-08 2.477e-08 -7.642 -7.606 0.036 36.27 S-2 2.156e-13 5.198e-14 -12.666 -13.284 -0.618 (0) - (H2S)2 2.973e-17 3.233e-17 -16.527 -16.490 0.036 30.09 + (H2S)2 2.973e-17 3.232e-17 -16.527 -16.490 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -219826,7 +219774,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -219837,12 +219785,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 4.2109e-14 - I 1.2540e-26 + Hto 2.9234e-14 + I 1.2541e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1855e-15 + Nat 6.0323e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -219861,12 +219809,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.569e-13 4.204e-14 + Hto 2.477e-13 2.919e-14 I 1.064e-13 1.254e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.017e-15 2.376e-16 + Nat 1.026e-15 1.209e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -219925,8 +219873,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.168e-11 H2 1.084e-11 1.179e-11 -10.965 -10.929 0.036 28.61 -Hto 3.569e-13 - Hto 3.569e-13 3.569e-13 -12.448 -12.448 0.000 (0) +Hto 2.477e-13 + Hto 2.477e-13 2.477e-13 -12.606 -12.606 0.000 (0) I 1.064e-13 I- 1.064e-13 1.064e-13 -12.973 -12.973 -0.000 (0) K 1.540e-03 @@ -219944,8 +219892,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.017e-15 - Nat+ 2.017e-15 2.017e-15 -14.695 -14.695 -0.000 (0) +Nat 1.026e-15 + Nat+ 1.026e-15 1.026e-15 -14.989 -14.989 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.568 -70.531 0.036 30.40 S(-2) 7.619e-08 @@ -220017,7 +219965,7 @@ Kinetics 17. Diffuse Double Layer Surface-Complexation Model Su - -1.002e-10 Surface + diffuse layer charge, eq + -1.003e-10 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -220027,7 +219975,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -220038,12 +219986,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 6.2102e-15 - I 1.5825e-27 + Hto 4.1427e-15 + I 1.5827e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0552e-16 + Nat 5.0250e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -220062,12 +220010,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 5.263e-14 6.200e-15 + Hto 3.511e-14 4.136e-15 I 1.343e-14 1.582e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.796e-16 2.115e-17 + Nat 8.551e-17 1.007e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -220126,8 +220074,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.170e-11 H2 1.085e-11 1.180e-11 -10.965 -10.928 0.036 28.61 -Hto 5.263e-14 - Hto 5.263e-14 5.263e-14 -13.279 -13.279 0.000 (0) +Hto 3.511e-14 + Hto 3.511e-14 3.511e-14 -13.455 -13.455 0.000 (0) I 1.343e-14 I- 1.343e-14 1.343e-14 -13.872 -13.872 -0.000 (0) K 1.540e-03 @@ -220145,12 +220093,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.796e-16 - Nat+ 1.796e-16 1.796e-16 -15.746 -15.746 -0.000 (0) +Nat 8.551e-17 + Nat+ 8.551e-17 8.551e-17 -16.068 -16.068 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.569 -70.532 0.036 30.40 -S(-2) 7.650e-08 - HS- 5.352e-08 3.523e-08 -7.272 -7.453 -0.182 21.14 +S(-2) 7.651e-08 + HS- 5.352e-08 3.523e-08 -7.271 -7.453 -0.182 21.14 H2S 2.299e-08 2.499e-08 -7.639 -7.602 0.036 36.27 S-2 2.176e-13 5.245e-14 -12.662 -13.280 -0.618 (0) (H2S)2 3.027e-17 3.291e-17 -16.519 -16.483 0.036 30.09 @@ -220228,7 +220176,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -220239,12 +220187,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 8.3550e-16 - I 1.8191e-28 + Hto 5.3534e-16 + I 1.8193e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.5293e-18 + Nat 3.8003e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -220263,12 +220211,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.080e-15 8.341e-16 + Hto 4.537e-15 5.345e-16 I 1.544e-15 1.819e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.451e-17 1.710e-18 + Nat 6.467e-18 7.618e-19 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -220326,9 +220274,9 @@ Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 - H2 1.086e-11 1.180e-11 -10.964 -10.928 0.036 28.61 -Hto 7.080e-15 - Hto 7.080e-15 7.080e-15 -14.150 -14.150 0.000 (0) + H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 +Hto 4.537e-15 + Hto 4.537e-15 4.537e-15 -14.343 -14.343 0.000 (0) I 1.544e-15 I- 1.544e-15 1.544e-15 -14.811 -14.811 -0.000 (0) K 1.540e-03 @@ -220346,8 +220294,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.451e-17 - Nat+ 1.451e-17 1.451e-17 -16.838 -16.838 -0.000 (0) +Nat 6.467e-18 + Nat+ 6.467e-18 6.467e-18 -17.189 -17.189 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.569 -70.533 0.036 30.40 S(-2) 7.669e-08 @@ -220429,7 +220377,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -220440,12 +220388,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.0282e-16 - I 1.9102e-29 + Hto 6.3258e-17 + I 1.9105e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.2821e-19 + Nat 2.6185e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -220464,12 +220412,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.714e-16 1.027e-16 + Hto 5.361e-16 6.316e-17 I 1.621e-16 1.910e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.069e-18 1.259e-19 + Nat 4.456e-19 5.249e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -220528,8 +220476,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 8.714e-16 - Hto 8.714e-16 8.714e-16 -15.060 -15.060 0.000 (0) +Hto 5.361e-16 + Hto 5.361e-16 5.361e-16 -15.271 -15.271 0.000 (0) I 1.621e-16 I- 1.621e-16 1.621e-16 -15.790 -15.790 -0.000 (0) K 1.540e-03 @@ -220547,8 +220495,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.069e-18 - Nat+ 1.069e-18 1.069e-18 -17.971 -17.971 -0.000 (0) +Nat 4.456e-19 + Nat+ 4.456e-19 4.456e-19 -18.351 -18.351 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.569 -70.533 0.036 30.40 S(-2) 7.677e-08 @@ -220630,7 +220578,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -220641,12 +220589,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.1602e-17 - I 1.8373e-30 + Hto 6.8517e-18 + I 1.8377e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.2285e-20 + Nat 1.6487e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -220665,12 +220613,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.832e-17 1.158e-17 + Hto 5.807e-17 6.841e-18 I 1.560e-17 1.837e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.195e-20 8.477e-21 + Nat 2.805e-20 3.305e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -220729,8 +220677,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 9.832e-17 - Hto 9.832e-17 9.832e-17 -16.007 -16.007 0.000 (0) +Hto 5.807e-17 + Hto 5.807e-17 5.807e-17 -16.236 -16.236 0.000 (0) I 1.560e-17 I- 1.560e-17 1.560e-17 -16.807 -16.807 -0.000 (0) K 1.540e-03 @@ -220748,15 +220696,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.195e-20 - Nat+ 7.195e-20 7.195e-20 -19.143 -19.143 -0.000 (0) +Nat 2.805e-20 + Nat+ 2.805e-20 2.805e-20 -19.552 -19.552 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.570 -70.533 0.036 30.40 S(-2) 7.680e-08 HS- 5.373e-08 3.537e-08 -7.270 -7.451 -0.182 21.14 - H2S 2.307e-08 2.509e-08 -7.637 -7.601 0.036 36.27 + H2S 2.308e-08 2.509e-08 -7.637 -7.601 0.036 36.27 S-2 2.184e-13 5.266e-14 -12.661 -13.279 -0.618 (0) - (H2S)2 3.050e-17 3.317e-17 -16.516 -16.479 0.036 30.09 + (H2S)2 3.051e-17 3.317e-17 -16.516 -16.479 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -220831,7 +220779,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -220842,12 +220790,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.2026e-18 - I 1.6219e-31 + Hto 6.8162e-19 + I 1.6221e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.6074e-21 + Nat 9.5072e-22 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -220866,12 +220814,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.019e-17 1.201e-18 + Hto 5.776e-18 6.805e-19 I 1.377e-18 1.622e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.437e-21 5.227e-22 + Nat 1.618e-21 1.906e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -220930,8 +220878,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 1.019e-17 - Hto 1.019e-17 1.019e-17 -16.992 -16.992 0.000 (0) +Hto 5.776e-18 + Hto 5.776e-18 5.776e-18 -17.238 -17.238 0.000 (0) I 1.377e-18 I- 1.377e-18 1.377e-18 -17.861 -17.861 -0.000 (0) K 1.540e-03 @@ -220949,8 +220897,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.437e-21 - Nat+ 4.437e-21 4.437e-21 -20.353 -20.353 -0.000 (0) +Nat 1.618e-21 + Nat+ 1.618e-21 1.618e-21 -20.791 -20.791 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.570 -70.533 0.036 30.40 S(-2) 7.681e-08 @@ -221032,7 +220980,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -221043,12 +220991,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.1478e-19 + Hto 6.2415e-20 I 1.3172e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4744e-22 + Nat 5.0146e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -221067,12 +221015,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.727e-19 1.146e-19 + Hto 5.289e-19 6.231e-20 I 1.118e-19 1.317e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.509e-22 2.956e-23 + Nat 8.533e-23 1.005e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -221131,8 +221079,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 9.727e-19 - Hto 9.727e-19 9.727e-19 -18.012 -18.012 0.000 (0) +Hto 5.289e-19 + Hto 5.289e-19 5.289e-19 -18.277 -18.277 0.000 (0) I 1.118e-19 I- 1.118e-19 1.118e-19 -18.952 -18.952 -0.000 (0) K 1.540e-03 @@ -221150,8 +221098,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.509e-22 - Nat+ 2.509e-22 2.509e-22 -21.601 -21.601 -0.000 (0) +Nat 8.533e-23 + Nat+ 8.533e-23 8.533e-23 -22.069 -22.069 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.570 -70.533 0.036 30.40 S(-2) 7.681e-08 @@ -221233,7 +221181,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -221244,12 +221192,12 @@ Su Ca 7.1884e-02 Cl 4.6577e-10 H 1.2951e-04 - Hto 1.0901e-20 - I 1.0517e-33 + Hto 5.6695e-21 + I 1.0519e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.8569e-24 + Nat 2.3082e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -221268,12 +221216,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.238e-20 1.088e-20 + Hto 4.805e-20 5.660e-21 I 8.928e-21 1.052e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.337e-23 1.575e-24 + Nat 3.928e-24 4.627e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -221332,8 +221280,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 9.238e-20 - Hto 9.238e-20 9.238e-20 -19.034 -19.034 0.000 (0) +Hto 4.805e-20 + Hto 4.805e-20 4.805e-20 -19.318 -19.318 0.000 (0) I 8.928e-21 I- 8.928e-21 8.928e-21 -20.049 -20.049 -0.000 (0) K 1.540e-03 @@ -221351,8 +221299,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.337e-23 - Nat+ 1.337e-23 1.337e-23 -22.874 -22.874 -0.000 (0) +Nat 3.928e-24 + Nat+ 3.928e-24 3.928e-24 -23.406 -23.406 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.570 -70.533 0.036 30.40 S(-2) 7.681e-08 @@ -221723,30 +221671,30 @@ Kinetics 3. C 2.744e-03 1.372e-03 Ca 2.590e-02 1.295e-02 Cl 3.000e-01 1.500e-01 - Hto 4.986e-07 2.493e-07 + Hto 5.040e-07 2.520e-07 I 6.849e-07 3.425e-07 K 1.540e-03 7.700e-04 Mg 1.720e-02 8.600e-03 Na 2.390e-01 1.195e-01 - Nat 2.724e-07 1.362e-07 + Nat 2.793e-07 1.397e-07 S 1.260e-02 6.300e-03 Sr 5.000e-04 2.500e-04 ----------------------------Description of solution---------------------------- pH = 7.090 Charge balance - pe = -3.071 Adjusted to redox equilibrium + pe = -3.070 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.50395 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 5.000e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -9.917e-13 + Electrical balance (eq) = -3.385e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 Total H = 5.550745e+01 @@ -221760,15 +221708,15 @@ Kinetics 3. OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.127e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.475e-12 - CH4 4.475e-12 4.865e-12 -11.349 -11.313 0.036 35.46 +C(-4) 4.393e-12 + CH4 4.393e-12 4.776e-12 -11.357 -11.321 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.751e-04 -3.584 -3.561 0.024 34.43 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.008e-06 9.794e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.008e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 SrHCO3+ 4.150e-06 2.948e-06 -5.382 -5.530 -0.149 (0) MgCO3 3.627e-06 3.944e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.379e-06 8.601e-07 -5.471 -6.065 -0.594 -1.53 @@ -221779,16 +221727,16 @@ Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 CaSO4 1.342e-03 1.459e-03 -2.872 -2.836 0.036 7.50 CaHCO3+ 5.385e-05 3.897e-05 -4.269 -4.409 -0.140 122.88 - CaCO3 9.008e-06 9.794e-06 -5.045 -5.009 0.036 -14.60 + CaCO3 9.008e-06 9.793e-06 -5.045 -5.009 0.036 -14.60 CaOH+ 1.875e-08 1.370e-08 -7.727 -7.863 -0.136 (0) CaHSO4+ 1.067e-09 7.795e-10 -8.972 -9.108 -0.136 (0) Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.954e-09 5.644e-09 -8.403 -8.248 0.155 (0) -H(0) 1.194e-11 - H2 5.968e-12 6.488e-12 -11.224 -11.188 0.036 28.61 -Hto 4.986e-07 - Hto 4.986e-07 4.986e-07 -6.302 -6.302 0.000 (0) +H(0) 1.188e-11 + H2 5.940e-12 6.458e-12 -11.226 -11.190 0.036 28.61 +Hto 5.040e-07 + Hto 5.040e-07 5.040e-07 -6.298 -6.298 0.000 (0) I 6.849e-07 I- 6.849e-07 6.849e-07 -6.164 -6.164 -0.000 (0) K 1.540e-03 @@ -221806,15 +221754,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.861e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.724e-07 - Nat+ 2.724e-07 2.724e-07 -6.565 -6.565 -0.000 (0) +Nat 2.793e-07 + Nat+ 2.793e-07 2.793e-07 -6.554 -6.554 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.049 -70.013 0.036 30.40 -S(-2) 7.015e-09 - HS- 4.905e-09 3.229e-09 -8.309 -8.491 -0.182 21.14 - H2S 2.110e-09 2.294e-09 -8.676 -8.639 0.036 36.27 - S-2 1.991e-14 4.799e-15 -13.701 -14.319 -0.618 (0) - (H2S)2 2.551e-19 2.774e-19 -18.593 -18.557 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.045 -70.009 0.036 30.40 +S(-2) 6.886e-09 + HS- 4.814e-09 3.169e-09 -8.317 -8.499 -0.182 21.14 + H2S 2.071e-09 2.252e-09 -8.684 -8.647 0.036 36.27 + S-2 1.954e-14 4.710e-15 -13.709 -14.327 -0.618 (0) + (H2S)2 2.458e-19 2.672e-19 -18.609 -18.573 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -221841,21 +221789,21 @@ Sr 5.000e-04 Arcanite -7.03 -8.91 -1.88 K2SO4 Calcite 0.25 -8.23 -8.48 CaCO3 Celestite -0.15 -6.81 -6.66 SrSO4 - CH4(g) -8.51 -11.31 -2.80 CH4 + CH4(g) -8.52 -11.32 -2.80 CH4 CO2(g) -2.09 -3.56 -1.47 CO2 Dolomite 0.47 -16.62 -17.08 CaMg(CO3)2 Epsomite -3.53 -5.27 -1.74 MgSO4:7H2O Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -8.09 -11.19 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -7.64 -15.58 -7.94 H2S + H2S(g) -7.65 -15.59 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O O2(g) -67.12 -70.01 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 - Sulfur -5.48 -0.60 4.88 S + Sulfur -5.49 -0.61 4.88 S Sylvite -4.59 -3.69 0.90 KCl Thenardite -4.16 -4.46 -0.30 Na2SO4 @@ -221879,7 +221827,7 @@ Kinetics 4. Diffuse Double Layer Surface-Complexation Model Su - -5.224e-14 Surface + diffuse layer charge, eq + -5.113e-14 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -221889,7 +221837,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -221900,12 +221848,12 @@ Su Ca 7.1884e-02 Cl 4.6646e-10 H 1.2948e-04 - Hto 5.2348e-08 - I 7.1760e-20 + Hto 5.2730e-08 + I 7.1746e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4654e-07 + Nat 1.4948e-07 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -221924,12 +221872,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.436e-07 5.226e-08 + Hto 4.469e-07 5.264e-08 I 6.091e-07 7.175e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.494e-07 2.938e-08 + Nat 2.544e-07 2.997e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -221940,14 +221888,14 @@ Su Specific Conductance (µS/cm, 25°C) = 30193 Density (g/cm³) = 1.01108 Volume (L) = 0.11874 - Viscosity (mPa s) = 0.92734 + Viscosity (mPa s) = 0.92733 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.632e-01 Mass of water (kg) = 1.178e-01 Total alkalinity (eq/kg) = 2.500e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.676e-09 + Electrical balance (eq) = 1.667e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (22 overall) Total H = 1.307864e+01 @@ -221961,8 +221909,8 @@ Su OH- 1.873e-07 1.233e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.048e-07 8.125e-08 -6.980 -7.090 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 1.061e-11 - CH4 1.061e-11 1.154e-11 -10.974 -10.938 0.036 35.46 +C(-4) 1.054e-11 + CH4 1.054e-11 1.146e-11 -10.977 -10.941 0.036 35.46 C(4) 2.744e-03 HCO3- 2.098e-03 1.490e-03 -2.678 -2.827 -0.149 25.45 CO2 2.603e-04 2.750e-04 -3.585 -3.561 0.024 34.43 @@ -221986,10 +221934,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.953e-09 5.643e-09 -8.403 -8.249 0.155 (0) -H(0) 1.481e-11 - H2 7.406e-12 8.052e-12 -11.130 -11.094 0.036 28.61 -Hto 4.436e-07 - Hto 4.436e-07 4.436e-07 -6.353 -6.353 0.000 (0) +H(0) 1.479e-11 + H2 7.394e-12 8.039e-12 -11.131 -11.095 0.036 28.61 +Hto 4.469e-07 + Hto 4.469e-07 4.469e-07 -6.350 -6.350 0.000 (0) I 6.091e-07 I- 6.091e-07 6.091e-07 -6.215 -6.215 -0.000 (0) K 1.540e-03 @@ -222002,20 +221950,20 @@ Mg 1.720e-02 MgHCO3+ 1.244e-04 8.380e-05 -3.905 -4.077 -0.172 5.77 Mg(SO4)2-2 1.913e-05 6.073e-06 -4.718 -5.217 -0.498 28.46 MgCO3 3.628e-06 3.945e-06 -5.440 -5.404 0.036 -17.09 - MgOH+ 2.897e-07 2.126e-07 -6.538 -6.672 -0.134 (0) + MgOH+ 2.897e-07 2.126e-07 -6.538 -6.673 -0.134 (0) Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.200e-04 -3.730 -3.657 0.073 31.73 -Nat 2.494e-07 - Nat+ 2.494e-07 2.494e-07 -6.603 -6.603 -0.000 (0) +Nat 2.544e-07 + Nat+ 2.544e-07 2.544e-07 -6.595 -6.595 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.237 -70.201 0.036 30.40 -S(-2) 1.663e-08 - HS- 1.163e-08 7.656e-09 -7.934 -8.116 -0.182 21.14 - H2S 5.002e-09 5.439e-09 -8.301 -8.265 0.036 36.27 - S-2 4.722e-14 1.138e-14 -13.326 -13.944 -0.618 (0) - (H2S)2 1.434e-18 1.559e-18 -17.844 -17.807 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.235 -70.199 0.036 30.40 +S(-2) 1.652e-08 + HS- 1.155e-08 7.605e-09 -7.937 -8.119 -0.182 21.14 + H2S 4.969e-09 5.403e-09 -8.304 -8.267 0.036 36.27 + S-2 4.690e-14 1.131e-14 -13.329 -13.947 -0.618 (0) + (H2S)2 1.415e-18 1.538e-18 -17.849 -17.813 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -222080,7 +222028,7 @@ Kinetics 5. Diffuse Double Layer Surface-Complexation Model Su - -9.623e-11 Surface + diffuse layer charge, eq + -9.622e-11 Surface + diffuse layer charge, eq -3.770e-01 Surface charge, eq -3.638e-01 sigma, C/m² -1.203e-01 psi, V @@ -222090,7 +222038,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -222101,12 +222049,12 @@ Su Ca 7.1884e-02 Cl 4.6605e-10 H 1.2950e-04 - Hto 3.5652e-08 - I 4.5283e-20 + Hto 3.5455e-08 + I 4.5290e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 9.1139e-08 + Nat 9.0212e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -222125,12 +222073,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.021e-07 3.559e-08 + Hto 3.005e-07 3.540e-08 I 3.844e-07 4.529e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.551e-07 1.827e-08 + Nat 1.535e-07 1.808e-08 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -222148,7 +222096,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.900e-09 + Electrical balance (eq) = 1.867e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -222162,8 +222110,8 @@ Su OH- 1.875e-07 1.234e-07 -6.727 -6.909 -0.182 -3.17 H+ 1.047e-07 8.118e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 3.240e-11 - CH4 3.240e-11 3.523e-11 -10.489 -10.453 0.036 35.46 +C(-4) 3.249e-11 + CH4 3.249e-11 3.533e-11 -10.488 -10.452 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.601e-04 2.748e-04 -3.585 -3.561 0.024 34.43 @@ -222175,7 +222123,7 @@ C(4) 2.744e-03 MgCO3 3.632e-06 3.949e-06 -5.440 -5.404 0.036 -17.09 CO3-2 3.383e-06 8.612e-07 -5.471 -6.065 -0.594 -1.53 KHCO3 6.681e-07 6.733e-07 -6.175 -6.172 0.003 41.03 - SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.538e-08 7.109e-08 -7.185 -7.148 0.036 -14.13 (CO2)2 1.275e-09 1.386e-09 -8.894 -8.858 0.036 68.87 Ca 2.590e-02 Ca+2 2.450e-02 6.778e-03 -1.611 -2.169 -0.558 -16.98 @@ -222187,10 +222135,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.949e-09 5.638e-09 -8.403 -8.249 0.155 (0) -H(0) 1.958e-11 - H2 9.792e-12 1.065e-11 -11.009 -10.973 0.036 28.61 -Hto 3.021e-07 - Hto 3.021e-07 3.021e-07 -6.520 -6.520 0.000 (0) +H(0) 1.960e-11 + H2 9.799e-12 1.065e-11 -11.009 -10.972 0.036 28.61 +Hto 3.005e-07 + Hto 3.005e-07 3.005e-07 -6.522 -6.522 0.000 (0) I 3.844e-07 I- 3.844e-07 3.844e-07 -6.415 -6.415 -0.000 (0) K 1.540e-03 @@ -222208,15 +222156,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.551e-07 - Nat+ 1.551e-07 1.551e-07 -6.809 -6.809 -0.000 (0) +Nat 1.535e-07 + Nat+ 1.535e-07 1.535e-07 -6.814 -6.814 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.479 -70.443 0.036 30.40 -S(-2) 5.077e-08 - HS- 3.551e-08 2.338e-08 -7.450 -7.631 -0.182 21.14 - H2S 1.526e-08 1.659e-08 -7.816 -7.780 0.036 36.27 - S-2 1.443e-13 3.478e-14 -12.841 -13.459 -0.618 (0) - (H2S)2 1.334e-17 1.451e-17 -16.875 -16.838 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.480 -70.444 0.036 30.40 +S(-2) 5.091e-08 + HS- 3.561e-08 2.344e-08 -7.448 -7.630 -0.182 21.14 + H2S 1.530e-08 1.664e-08 -7.815 -7.779 0.036 36.27 + S-2 1.447e-13 3.488e-14 -12.840 -13.457 -0.618 (0) + (H2S)2 1.342e-17 1.459e-17 -16.872 -16.836 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -222231,7 +222179,7 @@ Sr 5.000e-04 Sr+2 4.677e-04 1.293e-04 -3.330 -3.888 -0.558 -16.76 SrSO4 2.807e-05 3.052e-05 -4.552 -4.515 0.036 24.24 SrHCO3+ 4.151e-06 2.948e-06 -5.382 -5.530 -0.149 (0) - SrCO3 6.538e-08 7.108e-08 -7.185 -7.148 0.036 -14.13 + SrCO3 6.538e-08 7.109e-08 -7.185 -7.148 0.036 -14.13 SrOH+ 1.154e-10 8.087e-11 -9.938 -10.092 -0.154 (0) ------------------------------Saturation indices------------------------------- @@ -222250,7 +222198,7 @@ Sr 5.000e-04 Gypsum -0.51 -5.09 -4.58 CaSO4:2H2O H2(g) -7.87 -10.97 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -6.79 -14.72 -7.94 H2S + H2S(g) -6.78 -14.72 -7.94 H2S Halite -3.04 -1.47 1.57 NaCl Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O @@ -222291,23 +222239,23 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. Boltzmann factor, exp(-psi_DL * F / RT) = 4.980e+00 (= c_DL / c_free if z is +1). Element Moles - C 1.6144e-04 + C 1.6143e-04 Ca 7.1884e-02 Cl 4.6587e-10 H 1.2950e-04 - Hto 2.0629e-08 + Hto 2.0136e-08 I 2.3958e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.3034e-08 + Nat 4.0782e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -222326,12 +222274,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.748e-07 2.060e-08 + Hto 1.706e-07 2.010e-08 I 2.034e-07 2.396e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.323e-08 8.627e-09 + Nat 6.939e-08 8.175e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -222349,7 +222297,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.783e-09 + Electrical balance (eq) = -2.782e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -222363,8 +222311,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.047e-07 8.115e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.268e-11 - CH4 4.268e-11 4.640e-11 -10.370 -10.333 0.036 35.46 +C(-4) 4.277e-11 + CH4 4.277e-11 4.650e-11 -10.369 -10.333 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.600e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -222388,10 +222336,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.948e-09 5.636e-09 -8.404 -8.249 0.155 (0) -H(0) 2.098e-11 - H2 1.049e-11 1.141e-11 -10.979 -10.943 0.036 28.61 -Hto 1.748e-07 - Hto 1.748e-07 1.748e-07 -6.757 -6.757 0.000 (0) +H(0) 2.099e-11 + H2 1.050e-11 1.141e-11 -10.979 -10.943 0.036 28.61 +Hto 1.706e-07 + Hto 1.706e-07 1.706e-07 -6.768 -6.768 0.000 (0) I 2.034e-07 I- 2.034e-07 2.034e-07 -6.692 -6.692 -0.000 (0) K 1.540e-03 @@ -222409,15 +222357,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.323e-08 - Nat+ 7.323e-08 7.323e-08 -7.135 -7.135 -0.000 (0) +Nat 6.939e-08 + Nat+ 6.939e-08 6.939e-08 -7.159 -7.159 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.539 -70.503 0.036 30.40 -S(-2) 6.686e-08 - HS- 4.677e-08 3.079e-08 -7.330 -7.512 -0.182 21.14 - H2S 2.009e-08 2.184e-08 -7.697 -7.661 0.036 36.27 - S-2 1.901e-13 4.583e-14 -12.721 -13.339 -0.618 (0) - (H2S)2 2.313e-17 2.514e-17 -16.636 -16.600 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.540 -70.504 0.036 30.40 +S(-2) 6.701e-08 + HS- 4.687e-08 3.086e-08 -7.329 -7.511 -0.182 21.14 + H2S 2.013e-08 2.189e-08 -7.696 -7.660 0.036 36.27 + S-2 1.905e-13 4.593e-14 -12.720 -13.338 -0.618 (0) + (H2S)2 2.323e-17 2.525e-17 -16.634 -16.598 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -222492,7 +222440,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -222503,12 +222451,12 @@ Su Ca 7.1884e-02 Cl 4.6579e-10 H 1.2951e-04 - Hto 1.0191e-08 + Hto 9.7162e-09 I 1.0681e-20 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5982e-08 + Nat 1.4384e-08 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -222527,12 +222475,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 8.637e-08 1.017e-08 + Hto 8.234e-08 9.701e-09 I 9.065e-08 1.068e-08 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.720e-08 3.204e-09 + Nat 2.448e-08 2.884e-09 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -222564,8 +222512,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.722e-11 - CH4 4.722e-11 5.134e-11 -10.326 -10.290 0.036 35.46 +C(-4) 4.728e-11 + CH4 4.728e-11 5.140e-11 -10.325 -10.289 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -222589,10 +222537,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.635e-09 -8.404 -8.249 0.155 (0) -H(0) 2.152e-11 +H(0) 2.153e-11 H2 1.076e-11 1.170e-11 -10.968 -10.932 0.036 28.61 -Hto 8.637e-08 - Hto 8.637e-08 8.637e-08 -7.064 -7.064 0.000 (0) +Hto 8.234e-08 + Hto 8.234e-08 8.234e-08 -7.084 -7.084 0.000 (0) I 9.065e-08 I- 9.065e-08 9.065e-08 -7.043 -7.043 -0.000 (0) K 1.540e-03 @@ -222610,15 +222558,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.720e-08 - Nat+ 2.720e-08 2.720e-08 -7.565 -7.565 -0.000 (0) +Nat 2.448e-08 + Nat+ 2.448e-08 2.448e-08 -7.611 -7.611 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.561 -70.525 0.036 30.40 -S(-2) 7.397e-08 - HS- 5.174e-08 3.406e-08 -7.286 -7.468 -0.182 21.14 - H2S 2.222e-08 2.416e-08 -7.653 -7.617 0.036 36.27 - S-2 2.104e-13 5.071e-14 -12.677 -13.295 -0.618 (0) - (H2S)2 2.830e-17 3.076e-17 -16.548 -16.512 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.562 -70.525 0.036 30.40 +S(-2) 7.406e-08 + HS- 5.180e-08 3.410e-08 -7.286 -7.467 -0.182 21.14 + H2S 2.225e-08 2.419e-08 -7.653 -7.616 0.036 36.27 + S-2 2.106e-13 5.077e-14 -12.677 -13.294 -0.618 (0) + (H2S)2 2.836e-17 3.084e-17 -16.547 -16.511 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -222693,7 +222641,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -222704,12 +222652,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 4.3315e-09 + Hto 4.0179e-09 I 4.0499e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.8152e-09 + Nat 4.0956e-09 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -222728,12 +222676,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.671e-08 4.324e-09 + Hto 3.405e-08 4.011e-09 I 3.437e-08 4.049e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 8.194e-09 9.653e-10 + Nat 6.969e-09 8.210e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -222765,8 +222713,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.899e-11 - CH4 4.899e-11 5.327e-11 -10.310 -10.274 0.036 35.46 +C(-4) 4.902e-11 + CH4 4.902e-11 5.330e-11 -10.310 -10.273 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -222792,8 +222740,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.172e-11 H2 1.086e-11 1.181e-11 -10.964 -10.928 0.036 28.61 -Hto 3.671e-08 - Hto 3.671e-08 3.671e-08 -7.435 -7.435 0.000 (0) +Hto 3.405e-08 + Hto 3.405e-08 3.405e-08 -7.468 -7.468 0.000 (0) I 3.437e-08 I- 3.437e-08 3.437e-08 -7.464 -7.464 -0.000 (0) K 1.540e-03 @@ -222811,15 +222759,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 8.194e-09 - Nat+ 8.194e-09 8.194e-09 -8.087 -8.087 -0.000 (0) +Nat 6.969e-09 + Nat+ 6.969e-09 6.969e-09 -8.157 -8.157 -0.000 (0) O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -70.569 -70.533 0.036 30.40 -S(-2) 7.675e-08 - HS- 5.369e-08 3.534e-08 -7.270 -7.452 -0.182 21.14 - H2S 2.306e-08 2.507e-08 -7.637 -7.601 0.036 36.27 - S-2 2.183e-13 5.262e-14 -12.661 -13.279 -0.618 (0) - (H2S)2 3.046e-17 3.312e-17 -16.516 -16.480 0.036 30.09 + O2 0.000e+00 0.000e+00 -70.570 -70.533 0.036 30.40 +S(-2) 7.679e-08 + HS- 5.372e-08 3.536e-08 -7.270 -7.451 -0.182 21.14 + H2S 2.307e-08 2.509e-08 -7.637 -7.601 0.036 36.27 + S-2 2.184e-13 5.265e-14 -12.661 -13.279 -0.618 (0) + (H2S)2 3.050e-17 3.316e-17 -16.516 -16.479 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -222894,7 +222842,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -222905,12 +222853,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 1.5973e-09 - I 1.3200e-21 + Hto 1.4372e-09 + I 1.3196e-21 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2065e-09 + Nat 9.6684e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -222929,12 +222877,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.354e-08 1.595e-09 + Hto 1.218e-08 1.435e-09 I 1.120e-08 1.320e-09 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.053e-09 2.419e-10 + Nat 1.645e-09 1.938e-10 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -222966,8 +222914,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.955e-11 - CH4 4.955e-11 5.387e-11 -10.305 -10.269 0.036 35.46 +C(-4) 4.956e-11 + CH4 4.956e-11 5.389e-11 -10.305 -10.269 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -222993,8 +222941,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.178e-11 H2 1.089e-11 1.184e-11 -10.963 -10.927 0.036 28.61 -Hto 1.354e-08 - Hto 1.354e-08 1.354e-08 -7.868 -7.868 0.000 (0) +Hto 1.218e-08 + Hto 1.218e-08 1.218e-08 -7.914 -7.914 0.000 (0) I 1.120e-08 I- 1.120e-08 1.120e-08 -7.951 -7.951 -0.000 (0) K 1.540e-03 @@ -223012,15 +222960,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.053e-09 - Nat+ 2.053e-09 2.053e-09 -8.688 -8.688 -0.000 (0) +Nat 1.645e-09 + Nat+ 1.645e-09 1.645e-09 -8.784 -8.784 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.572 -70.536 0.036 30.40 -S(-2) 7.761e-08 - HS- 5.429e-08 3.574e-08 -7.265 -7.447 -0.182 21.14 - H2S 2.332e-08 2.535e-08 -7.632 -7.596 0.036 36.27 - S-2 2.208e-13 5.321e-14 -12.656 -13.274 -0.618 (0) - (H2S)2 3.115e-17 3.387e-17 -16.507 -16.470 0.036 30.09 +S(-2) 7.764e-08 + HS- 5.431e-08 3.575e-08 -7.265 -7.447 -0.182 21.14 + H2S 2.333e-08 2.536e-08 -7.632 -7.596 0.036 36.27 + S-2 2.208e-13 5.323e-14 -12.656 -13.274 -0.618 (0) + (H2S)2 3.117e-17 3.389e-17 -16.506 -16.470 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -223095,7 +223043,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -223106,12 +223054,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 5.1539e-10 - I 3.7352e-22 + Hto 4.4881e-10 + I 3.7358e-22 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.5645e-10 + Nat 1.9322e-10 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -223130,12 +223078,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.368e-09 5.146e-10 + Hto 3.803e-09 4.481e-10 I 3.171e-09 3.735e-10 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 4.364e-10 5.141e-11 + Nat 3.288e-10 3.873e-11 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -223167,8 +223115,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.958e-11 - CH4 4.958e-11 5.391e-11 -10.305 -10.268 0.036 35.46 +C(-4) 4.959e-11 + CH4 4.959e-11 5.391e-11 -10.305 -10.268 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -223192,10 +223140,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) -H(0) 2.178e-11 +H(0) 2.179e-11 H2 1.089e-11 1.184e-11 -10.963 -10.927 0.036 28.61 -Hto 4.368e-09 - Hto 4.368e-09 4.368e-09 -8.360 -8.360 0.000 (0) +Hto 3.803e-09 + Hto 3.803e-09 3.803e-09 -8.420 -8.420 0.000 (0) I 3.171e-09 I- 3.171e-09 3.171e-09 -8.499 -8.499 -0.000 (0) K 1.540e-03 @@ -223213,15 +223161,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 4.364e-10 - Nat+ 4.364e-10 4.364e-10 -9.360 -9.360 -0.000 (0) +Nat 3.288e-10 + Nat+ 3.288e-10 3.288e-10 -9.483 -9.483 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.572 -70.536 0.036 30.40 -S(-2) 7.767e-08 - HS- 5.433e-08 3.577e-08 -7.265 -7.447 -0.182 21.14 - H2S 2.333e-08 2.537e-08 -7.632 -7.596 0.036 36.27 - S-2 2.209e-13 5.325e-14 -12.656 -13.274 -0.618 (0) - (H2S)2 3.119e-17 3.392e-17 -16.506 -16.470 0.036 30.09 +S(-2) 7.768e-08 + HS- 5.434e-08 3.577e-08 -7.265 -7.446 -0.182 21.14 + H2S 2.334e-08 2.537e-08 -7.632 -7.596 0.036 36.27 + S-2 2.209e-13 5.326e-14 -12.656 -13.274 -0.618 (0) + (H2S)2 3.120e-17 3.393e-17 -16.506 -16.469 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -223296,7 +223244,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -223307,12 +223255,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 1.4666e-10 - I 9.2709e-23 + Hto 1.2337e-10 + I 9.2696e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 4.6972e-11 + Nat 3.3227e-11 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -223331,12 +223279,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.243e-09 1.464e-10 + Hto 1.046e-09 1.232e-10 I 7.867e-10 9.268e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 7.993e-11 9.416e-12 + Nat 5.654e-11 6.661e-12 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -223354,7 +223302,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.271e-09 + Electrical balance (eq) = -7.148e-10 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -223395,8 +223343,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.177e-11 H2 1.088e-11 1.183e-11 -10.963 -10.927 0.036 28.61 -Hto 1.243e-09 - Hto 1.243e-09 1.243e-09 -8.906 -8.906 0.000 (0) +Hto 1.046e-09 + Hto 1.046e-09 1.046e-09 -8.981 -8.981 0.000 (0) I 7.867e-10 I- 7.867e-10 7.867e-10 -9.104 -9.104 -0.000 (0) K 1.540e-03 @@ -223414,15 +223362,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 7.993e-11 - Nat+ 7.993e-11 7.993e-11 -10.097 -10.097 -0.000 (0) +Nat 5.654e-11 + Nat+ 5.654e-11 5.654e-11 -10.248 -10.248 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.571 -70.535 0.036 30.40 S(-2) 7.743e-08 - HS- 5.416e-08 3.566e-08 -7.266 -7.448 -0.182 21.14 + HS- 5.417e-08 3.566e-08 -7.266 -7.448 -0.182 21.14 H2S 2.326e-08 2.529e-08 -7.633 -7.597 0.036 36.27 S-2 2.202e-13 5.309e-14 -12.657 -13.275 -0.618 (0) - (H2S)2 3.100e-17 3.371e-17 -16.509 -16.472 0.036 30.09 + (H2S)2 3.101e-17 3.371e-17 -16.509 -16.472 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -223461,7 +223409,7 @@ Sr 5.000e-04 Hexahydrite -3.70 -5.26 -1.57 MgSO4:6H2O Kieserite -4.08 -5.24 -1.16 MgSO4:H2O Mirabilite -3.26 -4.50 -1.24 Na2SO4:10H2O - O2(g) -67.64 -70.53 -2.89 O2 + O2(g) -67.64 -70.54 -2.89 O2 Strontianite -0.68 -9.95 -9.27 SrCO3 Sulfur -4.70 0.18 4.88 S Sylvite -4.59 -3.69 0.90 KCl @@ -223497,7 +223445,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -223508,12 +223456,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 3.7063e-11 + Hto 3.0077e-11 I 2.0331e-23 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 7.5078e-12 + Nat 4.9814e-12 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -223532,12 +223480,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 3.141e-10 3.700e-11 + Hto 2.549e-10 3.003e-11 I 1.725e-10 2.033e-11 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.278e-11 1.505e-12 + Nat 8.476e-12 9.986e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -223555,7 +223503,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.218e-09 + Electrical balance (eq) = -2.303e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -223596,8 +223544,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.175e-11 H2 1.088e-11 1.182e-11 -10.964 -10.927 0.036 28.61 -Hto 3.141e-10 - Hto 3.141e-10 3.141e-10 -9.503 -9.503 0.000 (0) +Hto 2.549e-10 + Hto 2.549e-10 2.549e-10 -9.594 -9.594 0.000 (0) I 1.725e-10 I- 1.725e-10 1.725e-10 -9.763 -9.763 -0.000 (0) K 1.540e-03 @@ -223615,8 +223563,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.278e-11 - Nat+ 1.278e-11 1.278e-11 -10.894 -10.894 -0.000 (0) +Nat 8.476e-12 + Nat+ 8.476e-12 8.476e-12 -11.072 -11.072 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.571 -70.534 0.036 30.40 S(-2) 7.718e-08 @@ -223698,7 +223646,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -223709,12 +223657,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 8.3716e-12 + Hto 6.5463e-12 I 3.9687e-24 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.0580e-12 + Nat 6.5798e-13 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -223733,12 +223681,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 7.095e-11 8.358e-12 + Hto 5.548e-11 6.536e-12 I 3.369e-11 3.969e-12 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.800e-12 2.121e-13 + Nat 1.120e-12 1.319e-13 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -223756,7 +223704,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.673e-09 + Electrical balance (eq) = -2.676e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -223771,7 +223719,7 @@ Su H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 C(-4) 4.920e-11 - CH4 4.920e-11 5.350e-11 -10.308 -10.272 0.036 35.46 + CH4 4.920e-11 5.349e-11 -10.308 -10.272 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -223797,8 +223745,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.174e-11 H2 1.087e-11 1.182e-11 -10.964 -10.927 0.036 28.61 -Hto 7.095e-11 - Hto 7.095e-11 7.095e-11 -10.149 -10.149 0.000 (0) +Hto 5.548e-11 + Hto 5.548e-11 5.548e-11 -10.256 -10.256 0.000 (0) I 3.369e-11 I- 3.369e-11 3.369e-11 -10.473 -10.473 -0.000 (0) K 1.540e-03 @@ -223816,12 +223764,12 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.800e-12 - Nat+ 1.800e-12 1.800e-12 -11.745 -11.745 -0.000 (0) +Nat 1.120e-12 + Nat+ 1.120e-12 1.120e-12 -11.951 -11.951 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.570 -70.534 0.036 30.40 S(-2) 7.707e-08 - HS- 5.392e-08 3.549e-08 -7.268 -7.450 -0.182 21.14 + HS- 5.391e-08 3.549e-08 -7.268 -7.450 -0.182 21.14 H2S 2.316e-08 2.518e-08 -7.635 -7.599 0.036 36.27 S-2 2.192e-13 5.284e-14 -12.659 -13.277 -0.618 (0) (H2S)2 3.072e-17 3.340e-17 -16.513 -16.476 0.036 30.09 @@ -223899,7 +223847,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -223910,12 +223858,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 1.6994e-12 - I 6.9420e-25 + Hto 1.2793e-12 + I 6.9430e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3257e-13 + Nat 7.7233e-14 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -223934,12 +223882,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.440e-11 1.697e-12 + Hto 1.084e-11 1.277e-12 I 5.892e-12 6.942e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.256e-13 2.658e-14 + Nat 1.314e-13 1.548e-14 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -223957,7 +223905,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -2.687e-09 + Electrical balance (eq) = -2.688e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -223971,8 +223919,8 @@ Su OH- 1.876e-07 1.235e-07 -6.727 -6.908 -0.182 -3.17 H+ 1.046e-07 8.113e-08 -6.980 -7.091 -0.110 0.00 H2O 5.551e+01 9.899e-01 1.744 -0.004 0.000 18.07 -C(-4) 4.926e-11 - CH4 4.926e-11 5.355e-11 -10.308 -10.271 0.036 35.46 +C(-4) 4.925e-11 + CH4 4.925e-11 5.355e-11 -10.308 -10.271 0.036 35.46 C(4) 2.744e-03 HCO3- 2.099e-03 1.491e-03 -2.678 -2.827 -0.149 25.45 CO2 2.599e-04 2.747e-04 -3.585 -3.561 0.024 34.43 @@ -223998,8 +223946,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.175e-11 H2 1.087e-11 1.182e-11 -10.964 -10.927 0.036 28.61 -Hto 1.440e-11 - Hto 1.440e-11 1.440e-11 -10.842 -10.842 0.000 (0) +Hto 1.084e-11 + Hto 1.084e-11 1.084e-11 -10.965 -10.965 0.000 (0) I 5.892e-12 I- 5.892e-12 5.892e-12 -11.230 -11.230 -0.000 (0) K 1.540e-03 @@ -224017,15 +223965,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.256e-13 - Nat+ 2.256e-13 2.256e-13 -12.647 -12.647 -0.000 (0) +Nat 1.314e-13 + Nat+ 1.314e-13 1.314e-13 -12.881 -12.881 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.571 -70.534 0.036 30.40 -S(-2) 7.716e-08 - HS- 5.398e-08 3.553e-08 -7.268 -7.449 -0.182 21.14 +S(-2) 7.715e-08 + HS- 5.397e-08 3.553e-08 -7.268 -7.449 -0.182 21.14 H2S 2.318e-08 2.520e-08 -7.635 -7.599 0.036 36.27 - S-2 2.195e-13 5.290e-14 -12.659 -13.277 -0.618 (0) - (H2S)2 3.079e-17 3.347e-17 -16.512 -16.475 0.036 30.09 + S-2 2.194e-13 5.290e-14 -12.659 -13.277 -0.618 (0) + (H2S)2 3.078e-17 3.347e-17 -16.512 -16.475 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -224100,7 +224048,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -224111,12 +224059,12 @@ Su Ca 7.1884e-02 Cl 4.6576e-10 H 1.2951e-04 - Hto 3.1153e-13 - I 1.0939e-25 + Hto 2.2562e-13 + I 1.0938e-25 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.4873e-14 + Nat 8.1137e-15 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -224135,12 +224083,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 2.640e-12 3.110e-13 + Hto 1.912e-12 2.253e-13 I 9.284e-13 1.094e-13 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.531e-14 2.981e-15 + Nat 1.381e-14 1.627e-15 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -224158,7 +224106,7 @@ Su Total alkalinity (eq/kg) = 2.501e-03 Total CO2 (mol/kg) = 2.744e-03 Temperature (°C) = 25.00 - Electrical balance (eq) = -1.197e-09 + Electrical balance (eq) = -1.365e-09 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 0 (14 overall) Total H = 1.307863e+01 @@ -224199,8 +224147,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.177e-11 H2 1.088e-11 1.183e-11 -10.963 -10.927 0.036 28.61 -Hto 2.640e-12 - Hto 2.640e-12 2.640e-12 -11.578 -11.578 0.000 (0) +Hto 1.912e-12 + Hto 1.912e-12 1.912e-12 -11.718 -11.718 0.000 (0) I 9.284e-13 I- 9.284e-13 9.284e-13 -12.032 -12.032 -0.000 (0) K 1.540e-03 @@ -224218,15 +224166,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.531e-14 - Nat+ 2.531e-14 2.531e-14 -13.597 -13.597 -0.000 (0) +Nat 1.381e-14 + Nat+ 1.381e-14 1.381e-14 -13.860 -13.860 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.571 -70.535 0.036 30.40 -S(-2) 7.743e-08 +S(-2) 7.742e-08 HS- 5.416e-08 3.566e-08 -7.266 -7.448 -0.182 21.14 H2S 2.326e-08 2.529e-08 -7.633 -7.597 0.036 36.27 - S-2 2.202e-13 5.309e-14 -12.657 -13.275 -0.618 (0) - (H2S)2 3.100e-17 3.371e-17 -16.509 -16.472 0.036 30.09 + S-2 2.202e-13 5.308e-14 -12.657 -13.275 -0.618 (0) + (H2S)2 3.100e-17 3.370e-17 -16.509 -16.472 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -224301,7 +224249,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -224312,12 +224260,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 5.1792e-14 + Hto 3.6065e-14 I 1.5597e-26 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.5027e-15 + Nat 7.6742e-16 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -224336,12 +224284,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 4.389e-13 5.171e-14 + Hto 3.056e-13 3.601e-14 I 1.324e-13 1.559e-14 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.557e-15 3.012e-16 + Nat 1.306e-15 1.538e-16 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -224400,8 +224348,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.179e-11 H2 1.090e-11 1.185e-11 -10.963 -10.926 0.036 28.61 -Hto 4.389e-13 - Hto 4.389e-13 4.389e-13 -12.358 -12.358 0.000 (0) +Hto 3.056e-13 + Hto 3.056e-13 3.056e-13 -12.515 -12.515 0.000 (0) I 1.324e-13 I- 1.324e-13 1.324e-13 -12.878 -12.878 -0.000 (0) K 1.540e-03 @@ -224419,8 +224367,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.557e-15 - Nat+ 2.557e-15 2.557e-15 -14.592 -14.592 -0.000 (0) +Nat 1.306e-15 + Nat+ 1.306e-15 1.306e-15 -14.884 -14.884 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.572 -70.536 0.036 30.40 S(-2) 7.779e-08 @@ -224502,7 +224450,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -224513,12 +224461,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 7.8374e-15 - I 2.0203e-27 + Hto 5.2447e-15 + I 2.0199e-27 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.3741e-16 + Nat 6.5678e-17 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -224537,12 +224485,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 6.642e-14 7.825e-15 + Hto 4.445e-14 5.236e-15 I 1.715e-14 2.020e-15 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.338e-16 2.755e-17 + Nat 1.118e-16 1.317e-17 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -224599,10 +224547,10 @@ Ca 2.590e-02 Cl 3.000e-01 Cl- 3.000e-01 2.016e-01 -0.523 -0.695 -0.173 18.60 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) -H(0) 2.181e-11 +H(0) 2.182e-11 H2 1.091e-11 1.186e-11 -10.962 -10.926 0.036 28.61 -Hto 6.642e-14 - Hto 6.642e-14 6.642e-14 -13.178 -13.178 0.000 (0) +Hto 4.445e-14 + Hto 4.445e-14 4.445e-14 -13.352 -13.352 0.000 (0) I 1.715e-14 I- 1.715e-14 1.715e-14 -13.766 -13.766 -0.000 (0) K 1.540e-03 @@ -224620,15 +224568,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.338e-16 - Nat+ 2.338e-16 2.338e-16 -15.631 -15.631 -0.000 (0) +Nat 1.118e-16 + Nat+ 1.118e-16 1.118e-16 -15.952 -15.952 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.573 -70.537 0.036 30.40 S(-2) 7.810e-08 - HS- 5.463e-08 3.597e-08 -7.263 -7.444 -0.182 21.14 - H2S 2.346e-08 2.551e-08 -7.630 -7.593 0.036 36.27 - S-2 2.221e-13 5.355e-14 -12.653 -13.271 -0.618 (0) - (H2S)2 3.154e-17 3.429e-17 -16.501 -16.465 0.036 30.09 + HS- 5.464e-08 3.597e-08 -7.263 -7.444 -0.182 21.14 + H2S 2.347e-08 2.551e-08 -7.630 -7.593 0.036 36.27 + S-2 2.222e-13 5.355e-14 -12.653 -13.271 -0.618 (0) + (H2S)2 3.155e-17 3.430e-17 -16.501 -16.465 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -224703,7 +224651,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -224714,12 +224662,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.0829e-15 - I 2.3858e-28 + Hto 6.9616e-16 + I 2.3863e-28 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.1420e-17 + Nat 5.1073e-18 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -224738,12 +224686,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 9.178e-15 1.081e-15 + Hto 5.900e-15 6.950e-16 I 2.025e-15 2.386e-16 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.943e-17 2.289e-18 + Nat 8.691e-18 1.024e-18 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -224802,8 +224750,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.183e-11 H2 1.091e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 9.178e-15 - Hto 9.178e-15 9.178e-15 -14.037 -14.037 0.000 (0) +Hto 5.900e-15 + Hto 5.900e-15 5.900e-15 -14.229 -14.229 0.000 (0) I 2.025e-15 I- 2.025e-15 2.025e-15 -14.694 -14.694 -0.000 (0) K 1.540e-03 @@ -224821,15 +224769,15 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.943e-17 - Nat+ 1.943e-17 1.943e-17 -16.711 -16.711 -0.000 (0) +Nat 8.691e-18 + Nat+ 8.691e-18 8.691e-18 -17.061 -17.061 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.537 0.036 30.40 S(-2) 7.829e-08 HS- 5.477e-08 3.605e-08 -7.261 -7.443 -0.182 21.14 H2S 2.352e-08 2.557e-08 -7.629 -7.592 0.036 36.27 S-2 2.227e-13 5.368e-14 -12.652 -13.270 -0.618 (0) - (H2S)2 3.169e-17 3.446e-17 -16.499 -16.463 0.036 30.09 + (H2S)2 3.170e-17 3.446e-17 -16.499 -16.463 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 @@ -224904,7 +224852,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -224915,12 +224863,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.3701e-16 + Hto 8.4581e-17 I 2.5767e-29 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 8.6555e-19 + Nat 3.6215e-19 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -224939,12 +224887,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.161e-15 1.368e-16 + Hto 7.168e-16 8.444e-17 I 2.187e-16 2.577e-17 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.473e-18 1.735e-19 + Nat 6.162e-19 7.260e-20 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -225003,8 +224951,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.183e-11 H2 1.092e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 1.161e-15 - Hto 1.161e-15 1.161e-15 -14.935 -14.935 0.000 (0) +Hto 7.168e-16 + Hto 7.168e-16 7.168e-16 -15.145 -15.145 0.000 (0) I 2.187e-16 I- 2.187e-16 2.187e-16 -15.660 -15.660 -0.000 (0) K 1.540e-03 @@ -225022,14 +224970,14 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.473e-18 - Nat+ 1.473e-18 1.473e-18 -17.832 -17.832 -0.000 (0) +Nat 6.162e-19 + Nat+ 6.162e-19 6.162e-19 -18.210 -18.210 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.538 0.036 30.40 S(-2) 7.837e-08 - HS- 5.482e-08 3.609e-08 -7.261 -7.443 -0.182 21.14 + HS- 5.483e-08 3.609e-08 -7.261 -7.443 -0.182 21.14 H2S 2.355e-08 2.560e-08 -7.628 -7.592 0.036 36.27 - S-2 2.229e-13 5.373e-14 -12.652 -13.270 -0.618 (0) + S-2 2.229e-13 5.374e-14 -12.652 -13.270 -0.618 (0) (H2S)2 3.176e-17 3.453e-17 -16.498 -16.462 0.036 30.09 S(6) 1.260e-02 SO4-2 5.193e-03 1.211e-03 -2.285 -2.917 -0.632 32.55 @@ -225105,7 +225053,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -225116,12 +225064,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.5910e-17 - I 2.5519e-30 + Hto 9.4286e-18 + I 2.5515e-30 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 6.0008e-20 + Nat 2.3487e-20 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -225140,12 +225088,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.348e-16 1.588e-17 + Hto 7.990e-17 9.413e-18 I 2.166e-17 2.551e-18 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 1.021e-19 1.203e-20 + Nat 3.996e-20 4.708e-21 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -225204,8 +225152,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.184e-11 H2 1.092e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 1.348e-16 - Hto 1.348e-16 1.348e-16 -15.870 -15.870 0.000 (0) +Hto 7.990e-17 + Hto 7.990e-17 7.990e-17 -16.097 -16.097 0.000 (0) I 2.166e-17 I- 2.166e-17 2.166e-17 -16.664 -16.664 -0.000 (0) K 1.540e-03 @@ -225223,8 +225171,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 1.021e-19 - Nat+ 1.021e-19 1.021e-19 -18.991 -18.991 -0.000 (0) +Nat 3.996e-20 + Nat+ 3.996e-20 3.996e-20 -19.398 -19.398 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.538 0.036 30.40 S(-2) 7.840e-08 @@ -225306,7 +225254,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -225317,12 +225265,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.6990e-18 + Hto 9.6636e-19 I 2.3212e-31 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 3.8149e-21 + Nat 1.3965e-21 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -225341,12 +225289,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.440e-17 1.696e-18 + Hto 8.189e-18 9.648e-19 I 1.970e-18 2.321e-19 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 6.492e-21 7.648e-22 + Nat 2.376e-21 2.799e-22 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -225405,8 +225353,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.184e-11 H2 1.092e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 1.440e-17 - Hto 1.440e-17 1.440e-17 -16.842 -16.842 0.000 (0) +Hto 8.189e-18 + Hto 8.189e-18 8.189e-18 -17.087 -17.087 0.000 (0) I 1.970e-18 I- 1.970e-18 1.970e-18 -17.706 -17.706 -0.000 (0) K 1.540e-03 @@ -225424,8 +225372,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 6.492e-21 - Nat+ 6.492e-21 6.492e-21 -20.188 -20.188 -0.000 (0) +Nat 2.376e-21 + Nat+ 2.376e-21 2.376e-21 -20.624 -20.624 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.538 0.036 30.40 S(-2) 7.841e-08 @@ -225507,7 +225455,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -225518,12 +225466,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.6723e-19 - I 1.9443e-32 + Hto 9.1267e-20 + I 1.9440e-32 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 2.2272e-22 + Nat 7.6117e-23 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -225542,12 +225490,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.417e-18 1.670e-19 + Hto 7.734e-19 9.112e-20 I 1.650e-19 1.944e-20 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 3.790e-22 4.465e-23 + Nat 1.295e-22 1.526e-23 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -225606,8 +225554,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.184e-11 H2 1.092e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 1.417e-18 - Hto 1.417e-18 1.417e-18 -17.849 -17.849 0.000 (0) +Hto 7.734e-19 + Hto 7.734e-19 7.734e-19 -18.112 -18.112 0.000 (0) I 1.650e-19 I- 1.650e-19 1.650e-19 -18.782 -18.782 -0.000 (0) K 1.540e-03 @@ -225625,8 +225573,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 3.790e-22 - Nat+ 3.790e-22 3.790e-22 -21.421 -21.421 -0.000 (0) +Nat 1.295e-22 + Nat+ 1.295e-22 1.295e-22 -21.888 -21.888 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.538 0.036 30.40 S(-2) 7.841e-08 @@ -225708,7 +225656,7 @@ Su 1.000e+05 m² for 1.000e+00 g Water in diffuse layer: 1.180e-01 kg, 100.0% of total DDL-water. - viscosity: 0.92734 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.125e-02 V. @@ -225719,12 +225667,12 @@ Su Ca 7.1884e-02 Cl 4.6575e-10 H 1.2951e-04 - Hto 1.6438e-20 + Hto 8.5803e-21 I 1.6069e-33 K 8.9156e-04 Mg 4.6365e-02 Na 1.3761e-01 - Nat 1.2386e-23 + Nat 3.7652e-24 O 1.7087e-03 S 3.1372e-04 Sr 1.3747e-03 @@ -225743,12 +225691,12 @@ Su C 2.744e-03 3.233e-04 Ca 2.590e-02 3.051e-03 Cl 3.000e-01 3.535e-02 - Hto 1.393e-19 1.641e-20 + Hto 7.271e-20 8.567e-21 I 1.364e-20 1.607e-21 K 1.540e-03 1.814e-04 Mg 1.720e-02 2.026e-03 Na 2.390e-01 2.816e-02 - Nat 2.108e-23 2.483e-24 + Nat 6.407e-24 7.548e-25 S 1.260e-02 1.484e-03 Sr 5.000e-04 5.891e-05 @@ -225807,8 +225755,8 @@ Cl 3.000e-01 HCl 3.947e-09 5.634e-09 -8.404 -8.249 0.155 (0) H(0) 2.184e-11 H2 1.092e-11 1.187e-11 -10.962 -10.926 0.036 28.61 -Hto 1.393e-19 - Hto 1.393e-19 1.393e-19 -18.856 -18.856 0.000 (0) +Hto 7.271e-20 + Hto 7.271e-20 7.271e-20 -19.138 -19.138 0.000 (0) I 1.364e-20 I- 1.364e-20 1.364e-20 -19.865 -19.865 -0.000 (0) K 1.540e-03 @@ -225826,8 +225774,8 @@ Na 2.390e-01 Na+ 2.341e-01 1.695e-01 -0.631 -0.771 -0.140 -0.75 NaSO4- 4.688e-03 3.340e-03 -2.329 -2.476 -0.147 3.26 NaHCO3 1.862e-04 2.201e-04 -3.730 -3.657 0.073 31.73 -Nat 2.108e-23 - Nat+ 2.108e-23 2.108e-23 -22.676 -22.676 -0.000 (0) +Nat 6.407e-24 + Nat+ 6.407e-24 6.407e-24 -23.193 -23.193 -0.000 (0) O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -70.574 -70.538 0.036 30.40 S(-2) 7.841e-08 diff --git a/mytest/opa_col2.sel b/mytest/opa_col2.sel index f6b03033..3634a2ef 100644 --- a/mytest/opa_col2.sel +++ b/mytest/opa_col2.sel @@ -1,52 +1,52 @@ time/days HTO Nat I 0.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 - 6.9444e+00 9.4972e-01 9.0844e-01 9.7122e-01 - 1.3889e+01 9.0733e-01 8.3121e-01 9.4678e-01 - 2.0833e+01 8.7130e-01 7.6587e-01 9.2586e-01 - 2.7778e+01 8.4043e-01 7.1040e-01 9.0783e-01 - 3.4722e+01 8.1375e-01 6.6316e-01 8.9214e-01 - 4.1667e+01 7.9050e-01 6.2276e-01 8.7837e-01 - 4.8611e+01 7.7007e-01 5.8807e-01 8.6620e-01 - 5.5556e+01 7.5196e-01 5.5815e-01 8.5533e-01 - 6.2500e+01 7.3579e-01 5.3222e-01 8.4556e-01 - 6.9444e+01 7.2122e-01 5.0963e-01 8.3670e-01 - 7.6389e+01 7.0802e-01 4.8986e-01 8.2861e-01 - 8.3333e+01 6.9595e-01 4.7245e-01 8.2116e-01 - 9.0278e+01 6.8487e-01 4.5704e-01 8.1427e-01 - 9.7222e+01 6.7462e-01 4.4332e-01 8.0784e-01 - 1.0417e+02 6.6510e-01 4.3104e-01 8.0183e-01 - 1.1111e+02 6.5620e-01 4.1998e-01 7.9616e-01 - 1.1806e+02 6.4786e-01 4.0996e-01 7.9081e-01 - 1.2500e+02 6.4000e-01 4.0084e-01 7.8572e-01 - 1.3194e+02 6.3257e-01 3.9249e-01 7.8088e-01 - 1.3889e+02 6.2552e-01 3.8480e-01 7.7624e-01 - 1.4583e+02 6.1882e-01 3.7770e-01 7.7180e-01 - 1.5278e+02 6.1242e-01 3.7110e-01 7.6754e-01 - 1.5972e+02 6.0631e-01 3.6495e-01 7.6342e-01 - 1.6667e+02 6.0046e-01 3.5918e-01 7.5946e-01 - 1.7361e+02 5.9484e-01 3.5376e-01 7.5562e-01 - 1.8056e+02 5.8943e-01 3.4864e-01 7.5190e-01 - 1.8750e+02 5.8422e-01 3.4380e-01 7.4830e-01 - 1.9444e+02 5.7920e-01 3.3921e-01 7.4479e-01 - 2.0139e+02 5.7435e-01 3.3484e-01 7.4139e-01 - 2.0833e+02 5.6966e-01 3.3066e-01 7.3808e-01 - 2.1528e+02 5.6512e-01 3.2667e-01 7.3485e-01 - 2.2222e+02 5.6072e-01 3.2285e-01 7.3169e-01 - 2.2917e+02 5.5645e-01 3.1918e-01 7.2862e-01 - 2.3611e+02 5.5231e-01 3.1566e-01 7.2562e-01 - 2.4306e+02 5.4828e-01 3.1226e-01 7.2268e-01 - 2.5000e+02 5.4436e-01 3.0899e-01 7.1981e-01 - 2.5694e+02 5.4055e-01 3.0583e-01 7.1700e-01 - 2.6389e+02 5.3684e-01 3.0277e-01 7.1424e-01 - 2.7083e+02 5.3322e-01 2.9982e-01 7.1154e-01 - 2.7778e+02 5.2969e-01 2.9695e-01 7.0890e-01 - 2.8472e+02 5.2625e-01 2.9418e-01 7.0630e-01 - 2.9167e+02 5.2289e-01 2.9148e-01 7.0376e-01 - 2.9861e+02 5.1961e-01 2.8887e-01 7.0126e-01 - 3.0556e+02 5.1640e-01 2.8633e-01 6.9880e-01 - 3.1250e+02 5.1327e-01 2.8386e-01 6.9639e-01 - 3.1944e+02 5.1020e-01 2.8145e-01 6.9402e-01 - 3.2639e+02 5.0720e-01 2.7911e-01 6.9169e-01 - 3.3333e+02 5.0426e-01 2.7683e-01 6.8940e-01 - 3.4028e+02 5.0139e-01 2.7461e-01 6.8715e-01 - 3.4722e+02 4.9857e-01 2.7244e-01 6.8493e-01 + 6.9444e+00 9.5162e-01 9.1405e-01 9.7122e-01 + 1.3889e+01 9.1054e-01 8.4073e-01 9.4678e-01 + 2.0833e+01 8.7540e-01 7.7801e-01 9.2586e-01 + 2.7778e+01 8.4513e-01 7.2422e-01 9.0783e-01 + 3.4722e+01 8.1885e-01 6.7794e-01 8.9214e-01 + 4.1667e+01 7.9584e-01 6.3800e-01 8.7837e-01 + 4.8611e+01 7.7555e-01 6.0341e-01 8.6620e-01 + 5.5556e+01 7.5752e-01 5.7333e-01 8.5533e-01 + 6.2500e+01 7.4138e-01 5.4707e-01 8.4556e-01 + 6.9444e+01 7.2682e-01 5.2405e-01 8.3670e-01 + 7.6389e+01 7.1361e-01 5.0379e-01 8.2861e-01 + 8.3333e+01 7.0153e-01 4.8586e-01 8.2116e-01 + 9.0278e+01 6.9042e-01 4.6993e-01 8.1427e-01 + 9.7222e+01 6.8015e-01 4.5569e-01 8.0784e-01 + 1.0417e+02 6.7060e-01 4.4292e-01 8.0183e-01 + 1.1111e+02 6.6168e-01 4.3140e-01 7.9616e-01 + 1.1806e+02 6.5332e-01 4.2096e-01 7.9081e-01 + 1.2500e+02 6.4545e-01 4.1144e-01 7.8572e-01 + 1.3194e+02 6.3800e-01 4.0273e-01 7.8088e-01 + 1.3889e+02 6.3095e-01 3.9472e-01 7.7624e-01 + 1.4583e+02 6.2424e-01 3.8733e-01 7.7180e-01 + 1.5278e+02 6.1784e-01 3.8046e-01 7.6754e-01 + 1.5972e+02 6.1172e-01 3.7407e-01 7.6342e-01 + 1.6667e+02 6.0586e-01 3.6809e-01 7.5946e-01 + 1.7361e+02 6.0024e-01 3.6248e-01 7.5562e-01 + 1.8056e+02 5.9484e-01 3.5719e-01 7.5190e-01 + 1.8750e+02 5.8963e-01 3.5220e-01 7.4830e-01 + 1.9444e+02 5.8461e-01 3.4746e-01 7.4479e-01 + 2.0139e+02 5.7976e-01 3.4297e-01 7.4139e-01 + 2.0833e+02 5.7507e-01 3.3868e-01 7.3808e-01 + 2.1528e+02 5.7053e-01 3.3459e-01 7.3485e-01 + 2.2222e+02 5.6614e-01 3.3068e-01 7.3169e-01 + 2.2917e+02 5.6187e-01 3.2692e-01 7.2862e-01 + 2.3611e+02 5.5773e-01 3.2332e-01 7.2562e-01 + 2.4306e+02 5.5370e-01 3.1985e-01 7.2268e-01 + 2.5000e+02 5.4979e-01 3.1651e-01 7.1981e-01 + 2.5694e+02 5.4598e-01 3.1329e-01 7.1700e-01 + 2.6389e+02 5.4226e-01 3.1018e-01 7.1424e-01 + 2.7083e+02 5.3865e-01 3.0717e-01 7.1154e-01 + 2.7778e+02 5.3512e-01 3.0426e-01 7.0890e-01 + 2.8472e+02 5.3168e-01 3.0143e-01 7.0630e-01 + 2.9167e+02 5.2832e-01 2.9869e-01 7.0376e-01 + 2.9861e+02 5.2504e-01 2.9604e-01 7.0126e-01 + 3.0556e+02 5.2183e-01 2.9345e-01 6.9880e-01 + 3.1250e+02 5.1870e-01 2.9094e-01 6.9639e-01 + 3.1944e+02 5.1563e-01 2.8850e-01 6.9402e-01 + 3.2639e+02 5.1263e-01 2.8612e-01 6.9169e-01 + 3.3333e+02 5.0969e-01 2.8381e-01 6.8940e-01 + 3.4028e+02 5.0681e-01 2.8155e-01 6.8715e-01 + 3.4722e+02 5.0399e-01 2.7935e-01 6.8493e-01 diff --git a/mytest/opa_col2_101.sel b/mytest/opa_col2_101.sel index 2c198dac..59adfa3a 100644 --- a/mytest/opa_col2_101.sel +++ b/mytest/opa_col2_101.sel @@ -1,57 +1,57 @@ Mu SC - 0.363222841108 30193.6266056236 - 0.363221826910 30193.5345937233 - 0.363222841108 30193.6266056231 - 0.363221826910 30193.5345937228 - 0.363221826910 30193.5345937227 - 0.363222841108 30193.6266056231 - 0.363222817394 30193.6227255541 - 0.363222799449 30193.6196440236 - 0.363222787619 30193.6172271698 - 0.363222776771 30193.6151787134 - 0.363222767168 30193.6134250638 - 0.363222758393 30193.6119025605 - 0.363222750250 30193.6105675052 - 0.363222742593 30193.6093848316 - 0.363222735323 30193.6083272633 - 0.363222729287 30193.6073979155 - 0.363222723285 30193.6065479057 - 0.363222717426 30193.6057590644 - 0.363222711751 30193.6050378264 - 0.363222706269 30193.6043747307 - 0.363222700986 30193.6037619382 - 0.363222695897 30193.6031927195 - 0.363222691002 30193.6026615594 - 0.363222686297 30193.6021643043 - 0.363222681779 30193.6016962524 - 0.363222677412 30193.6012592386 - 0.363222673232 30193.6008447065 - 0.363222669235 30193.6004508636 - 0.363222665417 30193.6000765387 - 0.363222661782 30193.5997207353 - 0.363222658310 30193.5993813037 - 0.363222654991 30193.5990569198 - 0.363222651820 30193.5987464772 - 0.363222648769 30193.5984482589 - 0.363222645844 30193.5981617941 - 0.363222643045 30193.5978866502 - 0.363222640364 30193.5976221070 - 0.363222637818 30193.5973652899 - 0.363222635385 30193.5971187677 - 0.363222633077 30193.5968826735 - 0.363222630875 30193.5966582956 - 0.363222628794 30193.5964426790 - 0.363222626827 30193.5962351579 - 0.363222624966 30193.5960353957 - 0.363222623205 30193.5958429853 - 0.363222621541 30193.5956575763 - 0.363222619968 30193.5954789342 - 0.363222618406 30193.5953039166 - 0.363222616955 30193.5951360853 - 0.363222615606 30193.5949748827 - 0.363222614388 30193.5948218697 - 0.363222613244 30193.5946739381 - 0.363222612190 30193.5945310775 - 0.363222611202 30193.5943931332 - 0.363222610281 30193.5942600334 - 0.363222609426 30193.5941316898 + 0.363222841108 30193.6291074386 + 0.363221826910 30193.5370955357 + 0.363222841108 30193.6291074381 + 0.363221826910 30193.5370955351 + 0.363221826910 30193.5370955351 + 0.363222841108 30193.6291074381 + 0.363222816227 30193.6252988773 + 0.363222797622 30193.6222690182 + 0.363222785411 30193.6198892088 + 0.363222774930 30193.6178677786 + 0.363222765186 30193.6161250566 + 0.363222756398 30193.6146080390 + 0.363222748321 30193.6132743070 + 0.363222740792 30193.6120909201 + 0.363222733685 30193.6110310919 + 0.363222726933 30193.6100748830 + 0.363222720496 30193.6092064706 + 0.363222715068 30193.6084327549 + 0.363222709763 30193.6077207074 + 0.363222704589 30193.6070626698 + 0.363222699597 30193.6064453176 + 0.363222694750 30193.6058710582 + 0.363222690052 30193.6053346603 + 0.363222685506 30193.6048312868 + 0.363222681117 30193.6043574990 + 0.363222676885 30193.6039102779 + 0.363222672809 30193.6034869443 + 0.363222668892 30193.6030861941 + 0.363222665133 30193.6027058523 + 0.363222661542 30193.6023448125 + 0.363222658101 30193.6020008294 + 0.363222654780 30193.6016713774 + 0.363222651585 30193.6013557568 + 0.363222648520 30193.6010535053 + 0.363222645584 30193.6007638488 + 0.363222642770 30193.6004858589 + 0.363222640077 30193.6002190200 + 0.363222637508 30193.5999659758 + 0.363222635071 30193.5997229663 + 0.363222632764 30193.5994895522 + 0.363222630578 30193.5992649869 + 0.363222628505 30193.5990488835 + 0.363222626539 30193.5988407762 + 0.363222624676 30193.5986402597 + 0.363222622910 30193.5984469812 + 0.363222621238 30193.5982607010 + 0.363222619657 30193.5980810252 + 0.363222618085 30193.5979049300 + 0.363222616623 30193.5977359620 + 0.363222615262 30193.5975735880 + 0.363222614029 30193.5974193567 + 0.363222612868 30193.5972700342 + 0.363222611796 30193.5971257764 + 0.363222610791 30193.5969865031 + 0.363222609853 30193.5968521139 + 0.363222608982 30193.5967225140 diff --git a/mytest/org_gas.out b/mytest/org_gas.out index 91af5dbb..28aed526 100644 --- a/mytest/org_gas.out +++ b/mytest/org_gas.out @@ -9790,7 +9790,7 @@ Calcite -0.00 -8.48 -8.48 1.000e+01 9.997e+00 -3.424e-03 Specific Conductance (µS/cm, 25°C) = 1295 Density (g/cm³) = 0.99803 Volume (L) = 1.00369 - Viscosity (mPa s) = 0.91019 + Viscosity (mPa s) = 0.91018 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.990e-02 Mass of water (kg) = 9.998e-01 diff --git a/mytest/org_gas_101.sel b/mytest/org_gas_101.sel index c15e14d7..6db836ff 100644 --- a/mytest/org_gas_101.sel +++ b/mytest/org_gas_101.sel @@ -1,99 +1,99 @@ Mu SC 0.000000100661 0.0546997340 - 0.007281181403 457.1968451314 - 0.000103009022 12.8893792257 - 0.000203071207 24.5568324821 - 0.000402976646 47.6903966840 - 0.000802281858 93.5350398483 - 0.001001392429 116.2658279680 - 0.001976162676 226.6597089448 - 0.003549508407 402.6295238828 - 0.004858971479 547.5455724180 - 0.005474961679 615.3076784708 - 0.005742880817 644.7035721780 - 0.005865367038 658.1274109783 - 0.005923706585 664.5177523363 - 0.000103009022 12.8893792173 - 0.000203071207 24.5568324821 - 0.000402991468 47.6920759901 - 0.000802685440 93.5808548208 - 0.001002493221 116.3906408089 - 0.002000874852 229.4387381665 - 0.003988950509 451.3996099335 - 0.007857348612 875.5734491593 - 0.014586867934 1597.7073125102 - 0.023603454514 2544.0909480470 - 0.033493487121 3561.2755630197 - 0.044109413722 4631.4423366731 - 0.007384628910 467.2680373797 - 0.007485506562 477.2434699075 - 0.007683288687 497.0647587239 - 0.008067539407 535.9232179514 - 0.008252990184 554.7652666717 - 0.009076564271 638.8413881235 - 0.010088214948 742.6569212163 - 0.010787277943 814.5742923889 - 0.011128985079 849.7475160781 - 0.011286747153 865.9856298924 - 0.011361294491 873.6576800248 - 0.011397390409 877.3721781974 - 0.007384628910 467.2680373798 - 0.007485506562 477.2434699075 - 0.007684653659 497.2045469556 - 0.008080242885 537.2259995929 - 0.008277490802 557.2798084164 - 0.009260040057 657.7389317907 - 0.011201179627 857.7814152452 - 0.014906722817 1241.9266523669 - 0.021170283107 1891.2150068398 - 0.029558143838 2754.3559174992 - 0.039020299475 3716.3649241070 - 0.049395363451 4754.7573141885 - 0.002106178316 141.6199777283 - 0.003812439203 252.9979358217 - 0.006356791828 417.3507304921 - 0.009586373132 625.9658344600 - 0.010724609291 699.9956229864 - 0.014287510515 934.1708613648 - 0.017203855373 1126.3195079185 - 0.018926509055 1236.6892183080 - 0.019770578326 1288.8031547287 - 0.020171969321 1312.9479616938 - 0.020365745859 1324.4336272041 - 0.020460729954 1330.0201861859 - 0.002106178316 141.6199777467 - 0.003812439203 252.9979358217 - 0.006354860750 417.4586028384 - 0.009579700221 627.2520796202 - 0.010716676340 702.5303000393 - 0.014300497620 951.5439224399 - 0.017417597288 1210.3119100469 - 0.019899992735 1510.0537616227 - 0.023036428131 1978.7279723725 - 0.028578855967 2716.1452237624 - 0.036489860357 3639.9880069152 - 0.046065922880 4672.8487437596 - 0.008189210228 515.8197806128 - 0.009003393927 568.4813496440 - 0.010332729212 655.2533923134 - 0.012316998923 786.5785678692 - 0.013087797454 838.2360305120 - 0.015661326192 1013.0326311165 - 0.017873022813 1163.3543954994 - 0.019219888930 1252.1122283490 - 0.019901400167 1295.4070246408 - 0.020232989826 1315.9542748590 - 0.020395133234 1325.8625818419 - 0.020475141574 1330.7162017627 - 0.008189210228 515.8197806125 - 0.009003393927 568.4813496440 - 0.010332348359 655.3540336796 - 0.012315062163 787.7724114616 - 0.013085886436 840.6529124005 - 0.015685518443 1030.6376252737 - 0.018099295240 1248.4909518060 - 0.020193848544 1526.1800299831 - 0.023156056381 1985.2379786659 - 0.028628818520 2719.1639387126 - 0.036514299742 3641.7582126062 - 0.046079393427 4673.9528792858 + 0.007281181403 457.1968547271 + 0.000103009022 12.8893792310 + 0.000203071207 24.5568324910 + 0.000402976646 47.6903966998 + 0.000802281858 93.5350398795 + 0.001001392429 116.2658280078 + 0.001976162676 226.6597090345 + 0.003549508407 402.6295240768 + 0.004858971479 547.5455727176 + 0.005474961679 615.3076788253 + 0.005742880817 644.7035725572 + 0.005865367038 658.1274113692 + 0.005923706585 664.5177527326 + 0.000103009022 12.8893792226 + 0.000203071207 24.5568324910 + 0.000402991468 47.6920760059 + 0.000802685440 93.5808548520 + 0.001002493221 116.3906408487 + 0.002000874852 229.4387382575 + 0.003988950509 451.3996101603 + 0.007857348612 875.5734497475 + 0.014586867934 1597.7073139414 + 0.023603454514 2544.0909509115 + 0.033493487121 3561.2755677572 + 0.044109413722 4631.4423436968 + 0.007384628910 467.2680469169 + 0.007485506562 477.2434793927 + 0.007683288687 497.0647681315 + 0.008067539407 535.9232272793 + 0.008252990184 554.7652759860 + 0.009076564271 638.8413975002 + 0.010088214948 742.6569308208 + 0.010787277943 814.5743021971 + 0.011128985079 849.7475259932 + 0.011286747153 865.9856398579 + 0.011361294491 873.6576900142 + 0.011397390409 877.3721881985 + 0.007384628910 467.2680469170 + 0.007485506562 477.2434793927 + 0.007684653659 497.2045563628 + 0.008080242885 537.2260089199 + 0.008277490802 557.2798177309 + 0.009260040057 657.7389412039 + 0.011201179627 857.7814252047 + 0.014906722817 1241.9266636722 + 0.021170283107 1891.2150204505 + 0.029558143838 2754.3559340425 + 0.039020299475 3716.3649438267 + 0.049395363451 4754.7573373185 + 0.002106178316 141.6199791903 + 0.003812439203 252.9979392557 + 0.006356791828 417.3507375741 + 0.009586373132 625.9658468634 + 0.010724609291 699.9956373619 + 0.014287510515 934.1708820404 + 0.017203855373 1126.3195339109 + 0.018926509055 1236.6892476654 + 0.019770578326 1288.8031858592 + 0.020171969321 1312.9479937076 + 0.020365745859 1324.4336596551 + 0.020460729954 1330.0202188540 + 0.002106178316 141.6199792088 + 0.003812439203 252.9979392557 + 0.006354860750 417.4586099068 + 0.009579700221 627.2520919243 + 0.010716676340 702.5303142413 + 0.014300497620 951.5439422562 + 0.017417597288 1210.3119328699 + 0.019899992735 1510.0537831819 + 0.023036428131 1978.7279900215 + 0.028578855967 2716.1452379656 + 0.036489860357 3639.9880196476 + 0.046065922880 4672.8487566527 + 0.008189210228 515.8197917196 + 0.009003393927 568.4813621355 + 0.010332729212 655.2534070838 + 0.012316998923 786.5785860489 + 0.013087797454 838.2360500069 + 0.015661326192 1013.0326549516 + 0.017873022813 1163.3544231333 + 0.019219888930 1252.1122584795 + 0.019901400167 1295.4070561338 + 0.020232989826 1315.9543070468 + 0.020395133234 1325.8626143779 + 0.020475141574 1330.7162344728 + 0.008189210228 515.8197917193 + 0.009003393927 568.4813621355 + 0.010332348359 655.3540484419 + 0.012315062163 787.7724295589 + 0.013085886436 840.6529317409 + 0.015685518443 1030.6376482407 + 0.018099295240 1248.4909761702 + 0.020193848544 1526.1800521637 + 0.023156056381 1985.2379965421 + 0.028628818520 2719.1639529947 + 0.036514299742 3641.7582253669 + 0.046079393427 4673.9528921900 diff --git a/mytest/osmotic_101.sel b/mytest/osmotic_101.sel index 04264068..003da3b9 100644 --- a/mytest/osmotic_101.sel +++ b/mytest/osmotic_101.sel @@ -1,22 +1,22 @@ Mu SC 0.000000100661 0.0546997340 - 0.100000125507 10609.0359951556 - 0.200000131568 20182.8324128661 - 0.300000135336 29241.1911530190 - 0.400000138094 37919.6846541532 - 0.500000140285 46282.9143024858 - 0.600000142117 54368.2439595313 - 0.700000143701 62199.7900573662 - 0.800000145104 69794.3176592552 - 0.900000146368 77164.1500697531 - 1.000000147520 84318.7639364944 - 1.100000148580 91265.7323527557 - 1.200000149562 98011.3149830049 - 1.300000150476 104560.8435135743 - 1.400000151329 110918.9834486355 - 1.500000152128 117089.9151566559 - 1.600000152878 123077.4634327810 - 1.700000153582 128885.1909821707 - 1.800000154243 134516.4670266897 - 1.900000154865 139974.5181140530 - 2.000000155449 145262.4659866817 + 0.100000125507 10609.0363918567 + 0.200000131568 20182.8334712919 + 0.300000135336 29241.1930154446 + 0.400000138094 37919.6874194033 + 0.500000140285 46282.9180436603 + 0.600000142117 54368.2487318222 + 0.700000143701 62199.7959023911 + 0.800000145104 69794.3246077962 + 0.900000146368 77164.1581436456 + 1.000000147520 84318.7731500155 + 1.100000148580 91265.7427136945 + 1.200000149562 98011.3264935193 + 1.300000150476 104560.8561708975 + 1.400000151329 110918.9972456722 + 1.500000152128 117089.9300824960 + 1.600000152878 123077.4794731481 + 1.700000153582 128885.2081198194 + 1.800000154243 134516.4852417604 + 1.900000154865 139974.5373843914 + 2.000000155449 145262.4862881286 diff --git a/mytest/oxygen_101.sel b/mytest/oxygen_101.sel index 8f5119d3..1fbacb66 100644 --- a/mytest/oxygen_101.sel +++ b/mytest/oxygen_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100643 0.0547802359 - 0.000014756907 5.7705016831 + 0.000014756907 5.7705016867 diff --git a/mytest/oxygenmp_101.sel b/mytest/oxygenmp_101.sel index 8f5119d3..1fbacb66 100644 --- a/mytest/oxygenmp_101.sel +++ b/mytest/oxygenmp_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100643 0.0547802359 - 0.000014756907 5.7705016831 + 0.000014756907 5.7705016867 diff --git a/mytest/pKw.out b/mytest/pKw.out index 882e1636..c18983a4 100644 --- a/mytest/pKw.out +++ b/mytest/pKw.out @@ -246,7 +246,7 @@ Using temperature 1. Specific Conductance (µS/cm, 21°C) = 0 Density (g/cm³) = 0.99801 Volume (L) = 1.00200 - Viscosity (mPa s) = 0.97912 + Viscosity (mPa s) = 0.97911 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.591e-08 Mass of water (kg) = 1.000e+00 @@ -1192,7 +1192,7 @@ Using temperature 1. Specific Conductance (µS/cm, 200°C) = 2 Density (g/cm³) = 0.86428 Volume (L) = 1.15703 - Viscosity (mPa s) = 0.13435 + Viscosity (mPa s) = 0.13436 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.219e-06 Mass of water (kg) = 1.000e+00 @@ -1298,7 +1298,7 @@ Using temperature 1. Specific Conductance (µS/cm, 220°C) = 2 Density (g/cm³) = 0.83991 Volume (L) = 1.19060 - Viscosity (mPa s) = 0.12162 + Viscosity (mPa s) = 0.12163 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.369e-06 Mass of water (kg) = 1.000e+00 @@ -2891,7 +2891,7 @@ Using pressure 1. Specific Conductance (µS/cm, 200°C) = 3 Density (g/cm³) = 0.89686 Volume (L) = 1.11501 - Viscosity (mPa s) = 0.14584 + Viscosity (mPa s) = 0.14585 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.892e-06 Mass of water (kg) = 1.000e+00 @@ -2945,7 +2945,7 @@ Using pressure 1. Specific Conductance (µS/cm, 210°C) = 3 Density (g/cm³) = 0.88674 Volume (L) = 1.12773 - Viscosity (mPa s) = 0.13912 + Viscosity (mPa s) = 0.13913 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.033e-06 Mass of water (kg) = 1.000e+00 @@ -3053,7 +3053,7 @@ Using pressure 1. Specific Conductance (µS/cm, 230°C) = 3 Density (g/cm³) = 0.86552 Volume (L) = 1.15538 - Viscosity (mPa s) = 0.12756 + Viscosity (mPa s) = 0.12757 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.251e-06 Mass of water (kg) = 1.000e+00 @@ -4816,7 +4816,7 @@ Using pressure 1. Specific Conductance (µS/cm, 240°C) = 4 Density (g/cm³) = 0.88712 Volume (L) = 1.12724 - Viscosity (mPa s) = 0.13293 + Viscosity (mPa s) = 0.13294 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.265e-06 Mass of water (kg) = 1.000e+00 @@ -5086,7 +5086,7 @@ Using pressure 1. Specific Conductance (µS/cm, 290°C) = 4 Density (g/cm³) = 0.83537 Volume (L) = 1.19707 - Viscosity (mPa s) = 0.11306 + Viscosity (mPa s) = 0.11307 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.291e-06 Mass of water (kg) = 1.000e+00 diff --git a/mytest/pKw_101.sel b/mytest/pKw_101.sel index 8a42248f..63524f35 100644 --- a/mytest/pKw_101.sel +++ b/mytest/pKw_101.sel @@ -1,95 +1,95 @@ Mu SC 0.000000100644 0.0547821166 - 0.000000035661 0.0123528660 - 0.000000056621 0.0243940019 - 0.000000085908 0.0440017208 - 0.000000125217 0.0738412075 - 0.000000176122 0.1167514261 - 0.000000239956 0.1755197693 - 0.000000317701 0.2526205189 - 0.000000409888 0.3499449562 - 0.000000516524 0.4685527423 - 0.000000637034 0.6084715979 - 0.000000770249 0.7685739030 - 0.000000914539 0.9466620646 - 0.000001067528 1.1391945877 - 0.000001226431 1.3416748006 - 0.000001388060 1.5487834503 - 0.000001548950 1.7546436431 - 0.000001705481 1.9531266208 - 0.000001854033 2.1381770676 - 0.000001991134 2.3041368455 - 0.000002113616 2.4460658505 - 0.000002218769 2.5598646331 - 0.000002304472 2.6428133430 - 0.000002369332 2.6933330617 - 0.000002412787 2.7113003035 - 0.000002435217 2.6980178868 - 0.000002438051 2.6562068969 - 0.000002423901 2.5899846273 - 0.000002396785 2.5048804888 - 0.000002362546 2.4079825440 - 0.000002329711 2.3084027333 - 0.000002311385 2.2184917415 - 0.000000043391 0.0165317466 - 0.000000069311 0.0320213757 - 0.000000105488 0.0569127068 - 0.000000154004 0.0944193072 - 0.000000216803 0.1479472389 - 0.000000295553 0.2208316329 - 0.000000391523 0.3160384571 - 0.000000505476 0.4358643397 - 0.000000637583 0.5816672656 - 0.000000787365 0.7536560314 - 0.000000953673 0.9507583675 - 0.000001134691 1.1705785569 - 0.000001327974 1.4094467129 - 0.000001530518 1.6625544704 - 0.000001738854 1.9241660106 - 0.000001949171 2.1878890326 - 0.000002157453 2.4469873530 - 0.000002359632 2.6947151236 - 0.000002551754 2.9246521671 - 0.000002730136 3.1310207155 - 0.000002891529 3.3089662387 - 0.000003033260 3.4547943329 - 0.000003153369 3.5659829362 - 0.000003250724 3.6418459541 - 0.000003325114 3.6826625714 - 0.000003377337 3.6904002859 - 0.000003409282 3.6683587831 - 0.000003424032 3.6211314712 - 0.000003426022 3.5545502781 - 0.000003421320 3.4757051866 - 0.000003418163 3.3931306096 - 0.000000047578 0.0193513608 - 0.000000079497 0.0385563399 - 0.000000124526 0.0696750771 - 0.000000185346 0.1167600358 - 0.000000264441 0.1840724112 - 0.000000363938 0.2757493557 - 0.000000485451 0.3954368301 - 0.000000629945 0.5459288241 - 0.000000797649 0.7288517833 - 0.000000987981 0.9444254775 - 0.000001199527 1.1913208080 - 0.000001430052 1.4666237127 - 0.000001676545 1.7659042049 - 0.000001935301 2.0833816020 - 0.000002202034 2.4121712892 - 0.000002472015 2.7445946169 - 0.000002740227 3.0725313162 - 0.000003001547 3.3877927729 - 0.000003250919 3.6824944521 - 0.000003483537 3.9494066746 - 0.000003695020 4.1822648548 - 0.000003881567 4.3760232795 - 0.000004040091 4.5270405267 - 0.000004168332 4.6331909508 - 0.000004264929 4.6939311364 - 0.000004329465 4.7098373789 - 0.000004362476 4.6837534912 - 0.000004365432 4.6188336030 - 0.000004340682 4.5196106851 - 0.000004291397 4.3913171799 - 0.000004221493 4.2396639671 + 0.000000035661 0.0123528665 + 0.000000056621 0.0243940026 + 0.000000085908 0.0440017213 + 0.000000125217 0.0738412059 + 0.000000176122 0.1167514171 + 0.000000239956 0.1755197409 + 0.000000317701 0.2526204476 + 0.000000409888 0.3499448000 + 0.000000516524 0.4685524316 + 0.000000637034 0.6084710257 + 0.000000770249 0.7685729141 + 0.000000914539 0.9466604463 + 0.000001067528 1.1391920627 + 0.000001226431 1.3416710252 + 0.000001388060 1.5487780183 + 0.000001548950 1.7546360974 + 0.000001705481 1.9531164723 + 0.000001854033 2.1381638217 + 0.000001991134 2.3041200336 + 0.000002113616 2.4460450640 + 0.000002218769 2.5598395589 + 0.000002304472 2.6427837886 + 0.000002369332 2.6932989781 + 0.000002412787 2.7112617920 + 0.000002435217 2.6979751909 + 0.000002438051 2.6561603767 + 0.000002423901 2.5899347132 + 0.000002396785 2.5048276120 + 0.000002362546 2.4079270363 + 0.000002329711 2.3083446754 + 0.000002311385 2.2184307103 + 0.000000043391 0.0165317473 + 0.000000069311 0.0320213767 + 0.000000105488 0.0569127075 + 0.000000154004 0.0944193049 + 0.000000216803 0.1479472264 + 0.000000295553 0.2208315937 + 0.000000391523 0.3160383594 + 0.000000505476 0.4358641264 + 0.000000637583 0.5816668428 + 0.000000787365 0.7536552546 + 0.000000953673 0.9507570266 + 0.000001134691 1.1705763628 + 0.000001327974 1.4094432861 + 0.000001530518 1.6625493355 + 0.000001738854 1.9241585973 + 0.000001949171 2.1878786859 + 0.000002157453 2.4469733529 + 0.000002359632 2.6946967134 + 0.000002551754 2.9246285898 + 0.000002730136 3.1309912553 + 0.000002891529 3.3089302630 + 0.000003033260 3.4547513315 + 0.000003153369 3.5659325571 + 0.000003250724 3.6417880108 + 0.000003325114 3.6825970606 + 0.000003377337 3.6903273654 + 0.000003409282 3.6682787368 + 0.000003424032 3.6210446513 + 0.000003426022 3.5544570213 + 0.000003421320 3.4756056998 + 0.000003418163 3.3930248098 + 0.000000047578 0.0193513616 + 0.000000079497 0.0385563412 + 0.000000124526 0.0696750781 + 0.000000185346 0.1167600328 + 0.000000264441 0.1840723941 + 0.000000363938 0.2757493021 + 0.000000485451 0.3954366955 + 0.000000629945 0.5459285293 + 0.000000797649 0.7288511979 + 0.000000987981 0.9444244006 + 0.000001199527 1.1913189481 + 0.000001430052 1.4666206684 + 0.000001676545 1.7658994492 + 0.000001935301 2.0833744740 + 0.000002202034 2.4121609947 + 0.000002472015 2.7445802413 + 0.000002740227 3.0725118499 + 0.000003001547 3.3877671497 + 0.000003250919 3.6824615992 + 0.000003483537 3.9493655700 + 0.000003695020 4.1822145891 + 0.000003881567 4.3759631160 + 0.000004040091 4.5269699545 + 0.000004168332 4.6331097254 + 0.000004264929 4.6938393027 + 0.000004329465 4.7097352925 + 0.000004362476 4.6836417633 + 0.000004365432 4.6187131049 + 0.000004340682 4.5194824778 + 0.000004291397 4.3911824495 + 0.000004221493 4.2395239499 diff --git a/mytest/p_dep_species.out b/mytest/p_dep_species.out index 388e2455..1deda2bf 100644 --- a/mytest/p_dep_species.out +++ b/mytest/p_dep_species.out @@ -1120,7 +1120,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 66 Density (g/cm³) = 0.98075 Volume (L) = 1.02075 - Viscosity (mPa s) = 0.43342 + Viscosity (mPa s) = 0.43343 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.133e-04 Mass of water (kg) = 1.000e+00 @@ -1317,7 +1317,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 78 Density (g/cm³) = 0.99446 Volume (L) = 1.00668 - Viscosity (mPa s) = 0.44171 + Viscosity (mPa s) = 0.44172 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.328e-04 Mass of water (kg) = 1.000e+00 @@ -1449,7 +1449,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 86 Density (g/cm³) = 1.00309 Volume (L) = 0.99802 - Viscosity (mPa s) = 0.44737 + Viscosity (mPa s) = 0.44738 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.461e-04 Mass of water (kg) = 1.000e+00 @@ -1581,7 +1581,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 94 Density (g/cm³) = 1.01136 Volume (L) = 0.98986 - Viscosity (mPa s) = 0.45317 + Viscosity (mPa s) = 0.45318 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.595e-04 Mass of water (kg) = 1.000e+00 @@ -1647,7 +1647,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 98 Density (g/cm³) = 1.01537 Volume (L) = 0.98595 - Viscosity (mPa s) = 0.45613 + Viscosity (mPa s) = 0.45614 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.662e-04 Mass of water (kg) = 1.000e+00 @@ -1977,7 +1977,7 @@ Using pressure 1. Specific Conductance (µS/cm, 65°C) = 119 Density (g/cm³) = 1.03425 Volume (L) = 0.96795 - Viscosity (mPa s) = 0.47149 + Viscosity (mPa s) = 0.47150 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.005e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/p_dep_species_101.sel b/mytest/p_dep_species_101.sel index 307c0764..6c2406ac 100644 --- a/mytest/p_dep_species_101.sel +++ b/mytest/p_dep_species_101.sel @@ -1,32 +1,32 @@ Mu SC - 0.000106404734 41.2628537691 - 0.000106404734 41.2628537691 - 0.000113010191 44.3063774975 - 0.000119779480 47.4481594669 - 0.000126712949 50.6833352932 - 0.000133811335 54.0076285644 - 0.000141075657 57.4173275614 - 0.000148507102 60.9092600086 - 0.000156106889 64.4807312594 - 0.000163876112 68.1294137318 - 0.000171815566 71.8531832798 - 0.000179925544 75.6498986031 - 0.000188205621 79.5171167988 - 0.000196654406 83.4517418769 - 0.000205269282 87.4495943981 - 0.000214046123 91.5048920178 - 0.000113280963 66.2779061755 - 0.000119749378 70.2788230238 - 0.000126266024 74.3117400391 - 0.000132827554 78.3723003132 - 0.000139431061 82.4563836058 - 0.000146074035 86.5601069990 - 0.000152754343 90.6798255241 - 0.000159470200 94.8121344667 - 0.000166220155 98.9538793861 - 0.000173003075 103.1021681710 - 0.000179818146 107.2543909535 - 0.000186664863 111.4082426968 - 0.000193543044 115.5617522467 - 0.000200452827 119.7133140399 - 0.000207394694 123.8617258312 + 0.000106404734 41.2628538374 + 0.000106404734 41.2628538374 + 0.000113010191 44.3063775729 + 0.000119779480 47.4481595499 + 0.000126712949 50.6833353841 + 0.000133811335 54.0076286637 + 0.000141075657 57.4173276695 + 0.000148507102 60.9092601261 + 0.000156106889 64.4807313866 + 0.000163876112 68.1294138692 + 0.000171815566 71.8531834278 + 0.000179925544 75.6498987623 + 0.000188205621 79.5171169695 + 0.000196654406 83.4517420597 + 0.000205269282 87.4495945934 + 0.000214046123 91.5048922260 + 0.000113280963 66.2771943824 + 0.000119749378 70.2780492483 + 0.000126266024 74.3109022520 + 0.000132827554 78.3713965610 + 0.000139431061 82.4554120102 + 0.000146074035 86.5590657553 + 0.000152754343 90.6787128992 + 0.000159470200 94.8109487971 + 0.000166220155 98.9526190752 + 0.000173003075 103.1008316856 + 0.000179818146 107.2529768205 + 0.000186664863 111.4067494985 + 0.000193543044 115.5601786157 + 0.000200452827 119.7116586525 + 0.000207394694 123.8599874010 diff --git a/mytest/peng_SO2_101.sel b/mytest/peng_SO2_101.sel index 854dda54..089a8c74 100644 --- a/mytest/peng_SO2_101.sel +++ b/mytest/peng_SO2_101.sel @@ -1,24 +1,24 @@ Mu SC - 0.000000171199 0.1123405815 - 0.000000171639 0.1126294822 - 0.000000172055 0.1130001182 - 0.000000172380 0.1132475228 - 0.000000172619 0.1134297831 - 0.000000172778 0.1135509940 - 0.000000172862 0.1136149788 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000172879 0.1136276434 - 0.000000175723 0.1157965225 - 0.000000179223 0.1184656774 + 0.000000171199 0.1123405756 + 0.000000171639 0.1126294763 + 0.000000172055 0.1130001123 + 0.000000172380 0.1132475169 + 0.000000172619 0.1134297772 + 0.000000172778 0.1135509881 + 0.000000172862 0.1136149729 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000172879 0.1136276375 + 0.000000175723 0.1157965164 + 0.000000179223 0.1184656711 diff --git a/mytest/phase_formula_101.sel b/mytest/phase_formula_101.sel index ad3723cc..838f4ace 100644 --- a/mytest/phase_formula_101.sel +++ b/mytest/phase_formula_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100661 0.0546997340 - 0.000285456946 24.3265250653 + 0.000285456946 24.3265251290 diff --git a/mytest/phase_vm_101.sel b/mytest/phase_vm_101.sel index a23a6863..aae3ea5d 100644 --- a/mytest/phase_vm_101.sel +++ b/mytest/phase_vm_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.005905633221 361.8529555767 + 0.005905633221 361.8529624930 diff --git a/mytest/phi_Angus_101.sel b/mytest/phi_Angus_101.sel index 62506cc8..a1d0e3f5 100644 --- a/mytest/phi_Angus_101.sel +++ b/mytest/phi_Angus_101.sel @@ -1,129 +1,129 @@ Mu SC 0.000000100661 0.0546997340 - 0.000128509220 50.9983256650 - 0.000536353481 186.4272383651 - 0.000704402611 221.7992199642 - 0.000801510345 235.5316114890 - 0.000834245022 239.0304509532 - 0.000854486521 240.9098544902 - 0.000873743153 242.4973538472 - 0.000892516863 243.8579447206 - 0.000910988770 245.0175861333 - 0.000929250298 245.9907714415 - 0.000947404940 246.7890124438 - 0.000965502621 247.4184387993 - 0.000983559170 247.8827484010 - 0.001001616264 248.1855137108 - 0.001019729757 248.3290179756 - 0.001037829601 248.3144010373 - 0.001055996284 248.1433223942 - 0.001074293303 247.8152310500 - 0.001092595717 247.3333883893 - 0.001111010023 246.6964373015 - 0.001129602533 245.9015960021 - 0.001148197176 244.9574590253 - 0.001166876973 243.8621939265 - 0.001185756624 242.6093311834 - 0.001204668375 241.2110958512 - 0.001223749927 239.6589772454 - 0.001242943483 237.9586782657 - 0.001262307404 236.1062822954 - 0.001281664838 234.1214198672 - 0.001301338926 231.9724181329 - 0.001320893453 229.7096980260 + 0.000128509220 50.9983041128 + 0.000536353481 186.4270858566 + 0.000704402611 221.7990205274 + 0.000801510345 235.5313921667 + 0.000834245022 239.0302263396 + 0.000854486521 240.9096269780 + 0.000873743153 242.4971238461 + 0.000892516863 243.8577125474 + 0.000910988770 245.0173520696 + 0.000929250298 245.9905357500 + 0.000947404940 246.7887753722 + 0.000965502621 247.4182005879 + 0.000983559170 247.8825092866 + 0.001001616264 248.1852739262 + 0.001019729757 248.3287777510 + 0.001037829601 248.3141606033 + 0.001055996284 248.1430819790 + 0.001074293303 247.8149908827 + 0.001092595717 247.3331486964 + 0.001111010023 246.6961983105 + 0.001129602533 245.9013579443 + 0.001148197176 244.9572221214 + 0.001166876973 243.8619583987 + 0.001185756624 242.6090972618 + 0.001204668375 241.2108637493 + 0.001223749927 239.6587471871 + 0.001242943483 237.9584504661 + 0.001262307404 236.1060569734 + 0.001281664838 234.1211972140 + 0.001301338926 231.9721983805 + 0.001320893453 229.7094813363 0.000000100661 0.0546997340 - 0.000100049380 54.9714541856 - 0.000424623249 221.6656155076 - 0.000568743803 285.0242346840 - 0.000663694082 321.5878066953 - 0.000730074873 344.3303369086 - 0.000776442364 358.7243457684 - 0.000808926573 368.0408233724 - 0.000834550730 374.9291561231 - 0.000857233234 380.6799500133 - 0.000878383992 385.7436397231 - 0.000898642139 390.3190585748 - 0.000918316770 394.5019274305 - 0.000937568827 398.3430737199 - 0.000956532173 401.8802334571 - 0.000975323951 405.1416343962 - 0.000993913160 408.1268415805 - 0.001012413121 410.8576249965 - 0.001030910161 413.3466202159 - 0.001049295440 415.5797153737 - 0.001067690056 417.5721042818 - 0.001086170381 419.3288237569 - 0.001104570459 420.8328192880 - 0.001122980584 422.0918900115 - 0.001141519586 423.1105717711 - 0.001160027914 423.8775079183 - 0.001178644959 424.3964775366 - 0.001197318001 424.6624457658 - 0.001216107044 424.6727454017 - 0.001234843753 424.4261994687 - 0.001253843342 423.9147701653 - 0.001272687067 423.1482055315 + 0.000100049380 54.9710317035 + 0.000424623249 221.6621605117 + 0.000568743803 285.0191608822 + 0.000663694082 321.5816903234 + 0.000730074873 344.3235288097 + 0.000776442364 358.7170806766 + 0.000808926573 368.0332535612 + 0.000834550730 374.9213559619 + 0.000857233234 380.6719538886 + 0.000878383992 385.7354679882 + 0.000898642139 390.3107254050 + 0.000918316770 394.4934440884 + 0.000937568827 398.3344499853 + 0.000956532173 401.8714779979 + 0.000975323951 405.1327550364 + 0.000993913160 408.1178463431 + 0.001012413121 410.8485212201 + 0.001030910161 413.3374148502 + 0.001049295440 415.5704160586 + 0.001067690056 417.5627181262 + 0.001086170381 419.3193577027 + 0.001104570459 420.8232811246 + 0.001122980584 422.0822872486 + 0.001141519586 423.1009116942 + 0.001160027914 423.8677984641 + 0.001178644959 424.3867264055 + 0.001197318001 424.6526609576 + 0.001216107044 424.6629349848 + 0.001234843753 424.4163718344 + 0.001253843342 423.9049335959 + 0.001272687067 423.1383686049 0.000000100661 0.0546997340 - 0.000083087618 52.7970313884 - 0.000355318487 217.8869116114 - 0.000480062662 286.0862189324 - 0.000565693190 328.8575579603 - 0.000629309841 358.0874225010 - 0.000678180053 378.8930133428 - 0.000716464175 394.1108159851 - 0.000747501212 405.7108765126 - 0.000773840562 415.0150858140 - 0.000797271330 422.8607729549 - 0.000818916752 429.7375838347 - 0.000839391248 435.9061717835 - 0.000859037072 441.5108592425 - 0.000878099808 446.6489407953 - 0.000896767045 451.3883494216 - 0.000915056037 455.7464558942 - 0.000933112415 459.7675416016 - 0.000951044030 463.4796316223 - 0.000968763670 466.8685276209 - 0.000986402364 469.9624073284 - 0.001004043466 472.7741688625 - 0.001021537246 475.2800631605 - 0.001038977099 477.4951932913 - 0.001056480851 479.4313282951 - 0.001073902408 481.0700161402 - 0.001091376904 482.4221455109 - 0.001108857842 483.4802881608 - 0.001126403911 484.2440414540 - 0.001143860391 484.7053870562 - 0.001161522644 484.8674352700 - 0.001179003103 484.7245622234 + 0.000083087618 52.7963605074 + 0.000355318487 217.8812375881 + 0.000480062662 286.0776259919 + 0.000565693190 328.8469072637 + 0.000629309841 358.0752609933 + 0.000678180053 378.8797207108 + 0.000716464175 394.0966638530 + 0.000747501212 405.6960490856 + 0.000773840562 414.9997028471 + 0.000797271330 422.8449109009 + 0.000818916752 429.7212929798 + 0.000839391248 435.8894884178 + 0.000859037072 441.4938119926 + 0.000878099808 446.6315530703 + 0.000896767045 451.3706409386 + 0.000915056037 455.7284458629 + 0.000933112415 459.7492467274 + 0.000951044030 463.4610670293 + 0.000968763670 466.8497098480 + 0.000986402364 469.9433511615 + 0.001004043466 472.7548883011 + 0.001021537246 475.2605743455 + 0.001038977099 477.4755113951 + 0.001056480851 479.4114675715 + 0.001073902408 481.0499926662 + 0.001091376904 482.4019744002 + 0.001108857842 483.4599853190 + 0.001126403911 484.2236227451 + 0.001143860391 484.6848696126 + 0.001161522644 484.8468349837 + 0.001179003103 484.7038970791 0.000000100661 0.0546997340 - 0.000068451861 48.5012043430 - 0.000294428129 202.7244159554 - 0.000400414593 269.4282412849 - 0.000475188897 313.2104108866 - 0.000532670727 344.6188967871 - 0.000578726587 368.1742661988 - 0.000616543951 386.3371211980 - 0.000648455779 400.7736778162 - 0.000676045963 412.5593522973 - 0.000700517128 422.4464838954 - 0.000722813063 430.9724603173 - 0.000743559444 438.4783036780 - 0.000763161525 445.1796180280 - 0.000781928017 451.2297248848 - 0.000800095858 456.7374056569 - 0.000817723168 461.7448391801 - 0.000834982117 466.3195531320 - 0.000851998820 470.5056909712 - 0.000868708958 474.2969378027 - 0.000885250799 477.7325452388 - 0.000901713040 480.8327113870 - 0.000917965046 483.5762312892 - 0.000934101490 485.9839152507 - 0.000950236913 488.0718707669 - 0.000966241399 489.8230780411 - 0.000982243176 491.2517022526 - 0.000998202751 492.3519688856 - 0.001014176274 493.1252502761 - 0.001030025399 493.5651774251 - 0.001046019951 493.6757490928 - 0.001061810618 493.4538489255 + 0.000068451861 48.5003463098 + 0.000294428129 202.7170245268 + 0.000400414593 269.4168464775 + 0.000475188897 313.1960489347 + 0.000532670727 344.6022370456 + 0.000578726587 368.1557845571 + 0.000616543951 386.3171720605 + 0.000648455779 400.7525194474 + 0.000676045963 412.5371755866 + 0.000700517128 422.4234288060 + 0.000722813063 430.9486279964 + 0.000743559444 438.4537700154 + 0.000763161525 445.1544428082 + 0.000781928017 451.2039561375 + 0.000800095858 456.7110828872 + 0.000817723168 461.7179993786 + 0.000834982117 466.2922277369 + 0.000851998820 470.4779077792 + 0.000868708958 474.2687262600 + 0.000885250799 477.7039312224 + 0.000901713040 480.8037189667 + 0.000917965046 483.5468877447 + 0.000934101490 485.9542458922 + 0.000950236913 488.0418990628 + 0.000966241399 489.7928302898 + 0.000982243176 491.2212028952 + 0.000998202751 492.3212435036 + 0.001014176274 493.0943241836 + 0.001030025399 493.5340779679 + 0.001046019951 493.6445012497 + 0.001061810618 493.4224812634 diff --git a/mytest/phi_CO2-CH4_GP.out b/mytest/phi_CO2-CH4_GP.out index b6aff385..ad65b9bd 100644 --- a/mytest/phi_CO2-CH4_GP.out +++ b/mytest/phi_CO2-CH4_GP.out @@ -3693,7 +3693,7 @@ Mtg(g) 2.81 6.494e+02 1.045 1.479e+01 1.479e+01 7.436e-04 Specific Conductance (µS/cm, 50°C) = 467 Density (g/cm³) = 1.03318 Volume (L) = 1.00145 - Viscosity (mPa s) = 0.59125 + Viscosity (mPa s) = 0.59126 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.915e-04 Mass of water (kg) = 1.000e+00 @@ -3802,7 +3802,7 @@ Mtg(g) 2.86 7.187e+02 1.179 1.479e+01 1.479e+01 1.264e-03 Specific Conductance (µS/cm, 50°C) = 509 Density (g/cm³) = 1.03931 Volume (L) = 0.99773 - Viscosity (mPa s) = 0.59756 + Viscosity (mPa s) = 0.59757 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.087e-03 Mass of water (kg) = 1.000e+00 @@ -3911,7 +3911,7 @@ Mtg(g) 2.91 8.042e+02 1.382 1.479e+01 1.480e+01 2.184e-03 Specific Conductance (µS/cm, 50°C) = 559 Density (g/cm³) = 1.04667 Volume (L) = 0.99279 - Viscosity (mPa s) = 0.60547 + Viscosity (mPa s) = 0.60548 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.201e-03 Mass of water (kg) = 1.000e+00 @@ -4544,7 +4544,7 @@ Mtg(g) 2.59 3.932e+02 0.802 1.346e+01 1.346e+01 5.289e-04 Specific Conductance (µS/cm, 75°C) = 110 Density (g/cm³) = 0.98855 Volume (L) = 1.01641 - Viscosity (mPa s) = 0.38898 + Viscosity (mPa s) = 0.38899 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.781e-04 Mass of water (kg) = 1.000e+00 @@ -4973,7 +4973,7 @@ Mtg(g) 2.62 4.143e+02 0.822 1.347e+01 1.347e+01 3.054e-03 Specific Conductance (µS/cm, 75°C) = 291 Density (g/cm³) = 0.99523 Volume (L) = 1.02092 - Viscosity (mPa s) = 0.39488 + Viscosity (mPa s) = 0.39489 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.878e-04 Mass of water (kg) = 1.000e+00 @@ -5094,7 +5094,7 @@ Mtg(g) 2.63 4.270e+02 0.836 1.347e+01 1.348e+01 2.404e-03 Specific Conductance (µS/cm, 75°C) = 326 Density (g/cm³) = 0.99763 Volume (L) = 1.02159 - Viscosity (mPa s) = 0.39688 + Viscosity (mPa s) = 0.39689 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.506e-04 Mass of water (kg) = 1.000e+00 @@ -5203,7 +5203,7 @@ Mtg(g) 2.65 4.433e+02 0.854 1.348e+01 1.348e+01 1.850e-03 Specific Conductance (µS/cm, 75°C) = 358 Density (g/cm³) = 1.00022 Volume (L) = 1.02186 - Viscosity (mPa s) = 0.39902 + Viscosity (mPa s) = 0.39903 Activity of water = 0.990 Ionic strength (mol/kgw) = 6.089e-04 Mass of water (kg) = 1.000e+00 @@ -5312,7 +5312,7 @@ Mtg(g) 2.67 4.637e+02 0.879 1.348e+01 1.348e+01 1.395e-03 Specific Conductance (µS/cm, 75°C) = 388 Density (g/cm³) = 1.00307 Volume (L) = 1.02174 - Viscosity (mPa s) = 0.40136 + Viscosity (mPa s) = 0.40137 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.654e-04 Mass of water (kg) = 1.000e+00 @@ -5639,7 +5639,7 @@ Mtg(g) 2.74 5.559e+02 1.012 1.348e+01 1.348e+01 6.941e-04 Specific Conductance (µS/cm, 75°C) = 483 Density (g/cm³) = 1.01388 Volume (L) = 1.01862 - Viscosity (mPa s) = 0.41031 + Viscosity (mPa s) = 0.41032 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.454e-04 Mass of water (kg) = 1.000e+00 @@ -5748,7 +5748,7 @@ Mtg(g) 2.78 6.003e+02 1.090 1.348e+01 1.348e+01 7.420e-04 Specific Conductance (µS/cm, 75°C) = 519 Density (g/cm³) = 1.01852 Volume (L) = 1.01649 - Viscosity (mPa s) = 0.41424 + Viscosity (mPa s) = 0.41425 Activity of water = 0.985 Ionic strength (mol/kgw) = 9.152e-04 Mass of water (kg) = 1.000e+00 @@ -5857,7 +5857,7 @@ Mtg(g) 2.82 6.539e+02 1.198 1.348e+01 1.348e+01 9.840e-04 Specific Conductance (µS/cm, 75°C) = 559 Density (g/cm³) = 1.02383 Volume (L) = 1.01367 - Viscosity (mPa s) = 0.41885 + Viscosity (mPa s) = 0.41886 Activity of water = 0.984 Ionic strength (mol/kgw) = 9.936e-04 Mass of water (kg) = 1.000e+00 @@ -5966,7 +5966,7 @@ Mtg(g) 2.86 7.189e+02 1.352 1.348e+01 1.348e+01 1.472e-03 Specific Conductance (µS/cm, 75°C) = 605 Density (g/cm³) = 1.02992 Volume (L) = 1.01009 - Viscosity (mPa s) = 0.42430 + Viscosity (mPa s) = 0.42431 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.083e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/phi_CO2-CH4_GP_101.sel b/mytest/phi_CO2-CH4_GP_101.sel index c3949c3c..52046ce0 100644 --- a/mytest/phi_CO2-CH4_GP_101.sel +++ b/mytest/phi_CO2-CH4_GP_101.sel @@ -1,57 +1,57 @@ Mu SC 0.000000100661 0.0546997340 - 0.000065086880 25.9071104865 - 0.000111892563 44.3790674504 - 0.000144117392 56.9840132758 - 0.000170214199 67.1085970501 - 0.000192677931 75.7555535070 - 0.000212659543 83.3888988904 - 0.000351453457 134.6126815230 - 0.000445266083 167.2466739509 - 0.000521388761 192.6202308637 - 0.000589092109 214.5693213422 - 0.000653477590 235.1427074767 - 0.000718207358 255.7489480278 - 0.000786490803 277.5711859989 - 0.000861627646 301.7876133572 - 0.000947460411 329.7432831660 - 0.001048904849 363.1381726355 - 0.001172709919 404.2769511300 - 0.000000234097 0.1697457187 - 0.000062174936 32.4056193619 - 0.000109762463 57.0517492991 - 0.000142132498 73.7167786615 - 0.000168264384 87.0994342924 - 0.000190726754 98.5459142941 - 0.000210692085 108.6716836023 - 0.000349215656 177.4338293578 - 0.000442656861 222.1177799944 - 0.000518061512 257.1512360421 - 0.000584405216 287.3157397097 - 0.000646439563 315.0970073329 - 0.000707378356 342.1263259378 - 0.000769822436 369.6772407100 - 0.000836207945 398.9010943600 - 0.000909105354 430.9753307466 - 0.000991493062 467.2276954810 - 0.001087079536 509.2683978134 - 0.001200746265 559.1507870192 - 0.000001077676 0.7762111840 - 0.000056166739 34.7055929095 - 0.000101659645 62.9744193584 - 0.000132278731 81.9017381644 - 0.000156939798 97.0780324364 - 0.000178121671 110.0591934197 - 0.000196945248 121.5495449258 - 0.000327737137 199.9749435560 - 0.000416279245 251.4124238770 - 0.000487814546 291.9030799675 - 0.000550588635 326.6779552082 - 0.000608867445 358.4007764733 - 0.000665438340 388.7631611215 - 0.000722451804 419.0215263662 - 0.000781806072 450.2382190999 - 0.000845374934 483.4173739407 - 0.000915183964 519.6010868150 - 0.000993587369 559.9563612785 - 0.001083488194 605.8756878808 + 0.000065086880 25.9071105198 + 0.000111892563 44.3790675251 + 0.000144117392 56.9840133845 + 0.000170214199 67.1085971891 + 0.000192677931 75.7555536738 + 0.000212659543 83.3888990830 + 0.000351453457 134.6126819184 + 0.000445266083 167.2466744983 + 0.000521388761 192.6202315398 + 0.000589092109 214.5693221359 + 0.000653477590 235.1427083855 + 0.000718207358 255.7489490560 + 0.000786490803 277.5711871576 + 0.000861627646 301.7876146655 + 0.000947460411 329.7432846530 + 0.001048904849 363.1381743441 + 0.001172709919 404.2769531235 + 0.000000234097 0.1697456998 + 0.000062174936 32.4054724047 + 0.000109762463 57.0514057552 + 0.000142132498 73.7162738670 + 0.000168264384 87.0987857621 + 0.000190726754 98.5451335953 + 0.000210692085 108.6707793223 + 0.000349215656 177.4319399082 + 0.000442656861 222.1151316142 + 0.000518061512 257.1479361027 + 0.000584405216 287.3118429667 + 0.000646439563 315.0925343418 + 0.000707378356 342.1212699343 + 0.000769822436 369.6715694931 + 0.000836207945 398.8947489417 + 0.000909105354 430.9682210486 + 0.000991493062 467.2196925584 + 0.001087079536 509.2593213263 + 0.001200746265 559.1403857201 + 0.000001077676 0.7762111323 + 0.000056166739 34.7052522528 + 0.000101659645 62.9735858584 + 0.000132278731 81.9005012780 + 0.000156939798 97.0764356560 + 0.000178121671 110.0572652365 + 0.000196945248 121.5473063785 + 0.000327737137 199.9702100683 + 0.000416279245 251.4057424335 + 0.000487814546 291.8947134508 + 0.000550588635 326.6680441207 + 0.000608867445 358.3893839047 + 0.000665438340 388.7502905182 + 0.000722451804 419.0071282870 + 0.000781806072 450.2221916595 + 0.000845374934 483.3995583660 + 0.000915183964 519.5812581032 + 0.000993587369 559.9342128947 + 0.001083488194 605.8508080832 diff --git a/mytest/phi_Duan_PR.out b/mytest/phi_Duan_PR.out index b5731b98..0026dc5b 100644 --- a/mytest/phi_Duan_PR.out +++ b/mytest/phi_Duan_PR.out @@ -2574,7 +2574,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 341 Density (g/cm³) = 0.99890 Volume (L) = 1.05878 - Viscosity (mPa s) = 0.57590 + Viscosity (mPa s) = 0.57591 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.058e-04 Mass of water (kg) = 1.000e+00 @@ -2886,7 +2886,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 362 Density (g/cm³) = 1.00171 Volume (L) = 1.07156 - Viscosity (mPa s) = 0.58347 + Viscosity (mPa s) = 0.58348 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.993e-04 Mass of water (kg) = 1.000e+00 @@ -2964,7 +2964,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 366 Density (g/cm³) = 1.00235 Volume (L) = 1.07452 - Viscosity (mPa s) = 0.58521 + Viscosity (mPa s) = 0.58522 Activity of water = 0.972 Ionic strength (mol/kgw) = 9.190e-04 Mass of water (kg) = 1.000e+00 @@ -3042,7 +3042,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 369 Density (g/cm³) = 1.00300 Volume (L) = 1.07752 - Viscosity (mPa s) = 0.58696 + Viscosity (mPa s) = 0.58697 Activity of water = 0.971 Ionic strength (mol/kgw) = 9.384e-04 Mass of water (kg) = 1.000e+00 @@ -3354,7 +3354,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 380 Density (g/cm³) = 1.00566 Volume (L) = 1.09007 - Viscosity (mPa s) = 0.59425 + Viscosity (mPa s) = 0.59426 Activity of water = 0.965 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 1.000e+00 @@ -3432,7 +3432,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 382 Density (g/cm³) = 1.00636 Volume (L) = 1.09340 - Viscosity (mPa s) = 0.59617 + Viscosity (mPa s) = 0.59618 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.032e-03 Mass of water (kg) = 1.000e+00 @@ -3510,7 +3510,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 384 Density (g/cm³) = 1.00707 Volume (L) = 1.09684 - Viscosity (mPa s) = 0.59814 + Viscosity (mPa s) = 0.59815 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.051e-03 Mass of water (kg) = 1.000e+00 @@ -3744,7 +3744,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 389 Density (g/cm³) = 1.00931 Volume (L) = 1.10775 - Viscosity (mPa s) = 0.60436 + Viscosity (mPa s) = 0.60437 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.106e-03 Mass of water (kg) = 1.000e+00 @@ -3900,7 +3900,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 390 Density (g/cm³) = 1.01089 Volume (L) = 1.11558 - Viscosity (mPa s) = 0.60879 + Viscosity (mPa s) = 0.60880 Activity of water = 0.954 Ionic strength (mol/kgw) = 1.144e-03 Mass of water (kg) = 1.000e+00 @@ -3978,7 +3978,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 391 Density (g/cm³) = 1.01171 Volume (L) = 1.11970 - Viscosity (mPa s) = 0.61111 + Viscosity (mPa s) = 0.61112 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.162e-03 Mass of water (kg) = 1.000e+00 @@ -4056,7 +4056,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 391 Density (g/cm³) = 1.01255 Volume (L) = 1.12394 - Viscosity (mPa s) = 0.61349 + Viscosity (mPa s) = 0.61350 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.181e-03 Mass of water (kg) = 1.000e+00 @@ -4226,7 +4226,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 53 Density (g/cm³) = 0.97495 Volume (L) = 1.02636 - Viscosity (mPa s) = 0.37770 + Viscosity (mPa s) = 0.37771 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.456e-05 Mass of water (kg) = 1.000e+00 @@ -4460,7 +4460,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 329 Density (g/cm³) = 0.98021 Volume (L) = 1.05239 - Viscosity (mPa s) = 0.38463 + Viscosity (mPa s) = 0.38464 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.745e-04 Mass of water (kg) = 1.000e+00 @@ -4538,7 +4538,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 358 Density (g/cm³) = 0.98155 Volume (L) = 1.05924 - Viscosity (mPa s) = 0.38628 + Viscosity (mPa s) = 0.38629 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.386e-04 Mass of water (kg) = 1.000e+00 @@ -4616,7 +4616,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 378 Density (g/cm³) = 0.98270 Volume (L) = 1.06516 - Viscosity (mPa s) = 0.38768 + Viscosity (mPa s) = 0.38769 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.875e-04 Mass of water (kg) = 1.000e+00 @@ -4694,7 +4694,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 393 Density (g/cm³) = 0.98366 Volume (L) = 1.07020 - Viscosity (mPa s) = 0.38886 + Viscosity (mPa s) = 0.38887 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.256e-04 Mass of water (kg) = 1.000e+00 @@ -4850,7 +4850,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 413 Density (g/cm³) = 0.98522 Volume (L) = 1.07847 - Viscosity (mPa s) = 0.39076 + Viscosity (mPa s) = 0.39077 Activity of water = 0.977 Ionic strength (mol/kgw) = 7.824e-04 Mass of water (kg) = 1.000e+00 @@ -4928,7 +4928,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 421 Density (g/cm³) = 0.98591 Volume (L) = 1.08214 - Viscosity (mPa s) = 0.39159 + Viscosity (mPa s) = 0.39160 Activity of water = 0.976 Ionic strength (mol/kgw) = 8.057e-04 Mass of water (kg) = 1.000e+00 @@ -5006,7 +5006,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 427 Density (g/cm³) = 0.98657 Volume (L) = 1.08569 - Viscosity (mPa s) = 0.39239 + Viscosity (mPa s) = 0.39240 Activity of water = 0.975 Ionic strength (mol/kgw) = 8.272e-04 Mass of water (kg) = 1.000e+00 @@ -5084,7 +5084,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 433 Density (g/cm³) = 0.98721 Volume (L) = 1.08919 - Viscosity (mPa s) = 0.39318 + Viscosity (mPa s) = 0.39319 Activity of water = 0.973 Ionic strength (mol/kgw) = 8.476e-04 Mass of water (kg) = 1.000e+00 @@ -5162,7 +5162,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 439 Density (g/cm³) = 0.98785 Volume (L) = 1.09269 - Viscosity (mPa s) = 0.39396 + Viscosity (mPa s) = 0.39397 Activity of water = 0.972 Ionic strength (mol/kgw) = 8.673e-04 Mass of water (kg) = 1.000e+00 @@ -5240,7 +5240,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 444 Density (g/cm³) = 0.98849 Volume (L) = 1.09623 - Viscosity (mPa s) = 0.39474 + Viscosity (mPa s) = 0.39475 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.863e-04 Mass of water (kg) = 1.000e+00 @@ -5318,7 +5318,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 448 Density (g/cm³) = 0.98914 Volume (L) = 1.09981 - Viscosity (mPa s) = 0.39553 + Viscosity (mPa s) = 0.39554 Activity of water = 0.969 Ionic strength (mol/kgw) = 9.050e-04 Mass of water (kg) = 1.000e+00 @@ -5396,7 +5396,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.98980 Volume (L) = 1.10346 - Viscosity (mPa s) = 0.39633 + Viscosity (mPa s) = 0.39634 Activity of water = 0.968 Ionic strength (mol/kgw) = 9.234e-04 Mass of water (kg) = 1.000e+00 @@ -5474,7 +5474,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 457 Density (g/cm³) = 0.99046 Volume (L) = 1.10719 - Viscosity (mPa s) = 0.39714 + Viscosity (mPa s) = 0.39715 Activity of water = 0.966 Ionic strength (mol/kgw) = 9.415e-04 Mass of water (kg) = 1.000e+00 @@ -5630,7 +5630,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 464 Density (g/cm³) = 0.99183 Volume (L) = 1.11494 - Viscosity (mPa s) = 0.39881 + Viscosity (mPa s) = 0.39882 Activity of water = 0.963 Ionic strength (mol/kgw) = 9.773e-04 Mass of water (kg) = 1.000e+00 @@ -5708,7 +5708,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 467 Density (g/cm³) = 0.99254 Volume (L) = 1.11898 - Viscosity (mPa s) = 0.39967 + Viscosity (mPa s) = 0.39968 Activity of water = 0.962 Ionic strength (mol/kgw) = 9.950e-04 Mass of water (kg) = 1.000e+00 @@ -5786,7 +5786,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 469 Density (g/cm³) = 0.99326 Volume (L) = 1.12316 - Viscosity (mPa s) = 0.40056 + Viscosity (mPa s) = 0.40057 Activity of water = 0.960 Ionic strength (mol/kgw) = 1.013e-03 Mass of water (kg) = 1.000e+00 @@ -5942,7 +5942,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 474 Density (g/cm³) = 0.99475 Volume (L) = 1.13185 - Viscosity (mPa s) = 0.40239 + Viscosity (mPa s) = 0.40240 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.048e-03 Mass of water (kg) = 1.000e+00 @@ -6020,7 +6020,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 476 Density (g/cm³) = 0.99552 Volume (L) = 1.13643 - Viscosity (mPa s) = 0.40335 + Viscosity (mPa s) = 0.40336 Activity of water = 0.955 Ionic strength (mol/kgw) = 1.065e-03 Mass of water (kg) = 1.000e+00 @@ -6098,7 +6098,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 477 Density (g/cm³) = 0.99631 Volume (L) = 1.14113 - Viscosity (mPa s) = 0.40433 + Viscosity (mPa s) = 0.40434 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.083e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/phi_Duan_PR_101.sel b/mytest/phi_Duan_PR_101.sel index b8310efb..e1d4db30 100644 --- a/mytest/phi_Duan_PR_101.sel +++ b/mytest/phi_Duan_PR_101.sel @@ -1,79 +1,79 @@ Mu SC 0.000000100661 0.0546997340 - 0.000130282981 50.3549219526 - 0.000543023971 181.8777810529 - 0.000712010376 214.5259921073 - 0.000808149399 226.4534900457 - 0.000834754311 228.8953701896 - 0.000854486210 230.4682334067 - 0.000873415621 231.7878964416 - 0.000891943831 232.9015566713 - 0.000910218184 233.8289778120 - 0.000928314126 234.5816909310 - 0.000946325829 235.1690132502 - 0.000964297675 235.5960093740 - 0.000982241929 235.8659549023 - 0.001000197577 235.9818845507 - 0.001018218415 235.9455529237 - 0.001036233403 235.7588878704 - 0.001054321591 235.4229194267 - 0.001072545413 234.9367755570 - 0.001090779760 234.3050314626 - 0.001109130160 233.5256940294 - 0.001127662272 232.5958349693 - 0.001146200197 231.5256240694 - 0.001164826330 230.3128983914 - 0.001183654762 228.9508468789 - 0.001202517933 227.4530044186 + 0.000130282981 50.3549220447 + 0.000543023971 181.8777816934 + 0.000712010376 214.5259929340 + 0.000808149399 226.4534909465 + 0.000834754311 228.8953711063 + 0.000854486210 230.4682343338 + 0.000873415621 231.7878973775 + 0.000891943831 232.9015576149 + 0.000910218184 233.8289787621 + 0.000928314126 234.5816918865 + 0.000946325829 235.1690142102 + 0.000964297675 235.5960103375 + 0.000982241929 235.8659558683 + 0.001000197577 235.9818855182 + 0.001018218415 235.9455538919 + 0.001036233403 235.7588888382 + 0.001054321591 235.4229203933 + 0.001072545413 234.9367765214 + 0.001090779760 234.3050324239 + 0.001109130160 233.5256949867 + 0.001127662272 232.5958359216 + 0.001146200197 231.5256250159 + 0.001164826330 230.3128993312 + 0.001183654762 228.9508478110 + 0.001202517933 227.4530053422 0.000000100661 0.0546997340 - 0.000106328976 54.9811154380 - 0.000449859226 218.9314185880 - 0.000600359693 278.4725358119 - 0.000697613908 311.2992112821 - 0.000763272280 330.6177300939 - 0.000805829020 341.8320599892 - 0.000834041784 348.6786561155 - 0.000857408809 353.9864023067 - 0.000878861638 358.5652665555 - 0.000899262794 362.6551423185 - 0.000919037528 366.3705764198 - 0.000938397456 369.7684157953 - 0.000957451697 372.8790554489 - 0.000976303056 375.7268100124 - 0.000995049050 378.3304819257 - 0.001013645602 380.6872479031 - 0.001032196601 382.8126767327 - 0.001050781997 384.7151616903 - 0.001069287206 386.3830233218 - 0.001087829962 387.8270459873 - 0.001106484296 389.0498142508 - 0.001125080101 390.0389495986 - 0.001143706341 390.7996454686 - 0.001162481638 391.3335442931 - 0.001181242995 391.6338250687 + 0.000106328976 54.9807865105 + 0.000449859226 218.9287777118 + 0.000600359693 278.4687192910 + 0.000697613908 311.2946739780 + 0.000763272280 330.6127418174 + 0.000805829020 341.8267994678 + 0.000834041784 348.6732250565 + 0.000857408809 353.9808364933 + 0.000878861638 358.5595824921 + 0.000899262794 362.6493508719 + 0.000919037528 366.3646857857 + 0.000938397456 369.7624328848 + 0.000957451697 372.8729865279 + 0.000976303056 375.7206608207 + 0.000995049050 378.3242577889 + 0.001013645602 380.6809543326 + 0.001032196601 382.8063188746 + 0.001050781997 384.7087445019 + 0.001069287206 386.3765521913 + 0.001087829962 387.8205260183 + 0.001106484296 389.0432504844 + 0.001125080101 390.0323475591 + 0.001143706341 390.7930105380 + 0.001162481638 391.3268817683 + 0.001181242995 391.6271405831 0.000000100661 0.0546997340 - 0.000084561582 53.1063313308 - 0.000361398912 218.8187932090 - 0.000487935480 286.8892241032 - 0.000574527965 329.3398381631 - 0.000638594496 358.1726264230 - 0.000687540002 378.5536198582 - 0.000725636850 393.3532011616 - 0.000756376132 404.5780171561 - 0.000782449947 413.5767353997 - 0.000805696484 421.1820164020 - 0.000827228966 427.8655842073 - 0.000847642968 433.8736867133 - 0.000867266150 439.3412803631 - 0.000886334146 444.3594325959 - 0.000905027999 448.9919020204 - 0.000923360294 453.2538645651 - 0.000941473608 457.1873381176 - 0.000959473755 460.8188018554 - 0.000977271337 464.1336580666 - 0.000994996504 467.1589233562 - 0.001012731986 469.9067628251 - 0.001030326369 472.3536169036 - 0.001047872816 474.5139638866 - 0.001065489339 476.3990162737 - 0.001083028442 477.9905893809 + 0.000084561582 53.1056812084 + 0.000361398912 218.8133072391 + 0.000487935480 286.8809337913 + 0.000574527965 329.3295830036 + 0.000638594496 358.1609382827 + 0.000687540002 378.5408668933 + 0.000725636850 393.3396454145 + 0.000756376132 404.5638342315 + 0.000782449947 413.5620370837 + 0.000805696484 421.1668728384 + 0.000827228966 427.8500412517 + 0.000847642968 433.8577775113 + 0.000867266150 439.3250311877 + 0.000886334146 444.3428650401 + 0.000905027999 448.9750343587 + 0.000923360294 453.2367146906 + 0.000941473608 457.1699216472 + 0.000959473755 460.8011329761 + 0.000977271337 464.1157523279 + 0.000994996504 467.1407946972 + 0.001012731986 469.8884244752 + 0.001030326369 472.3350841134 + 0.001047872816 474.4952510182 + 0.001065489339 476.3801368488 + 0.001083028442 477.9715586330 diff --git a/mytest/phi_Duan_PR_EQ.out b/mytest/phi_Duan_PR_EQ.out index ed7888d2..ba2ba648 100644 --- a/mytest/phi_Duan_PR_EQ.out +++ b/mytest/phi_Duan_PR_EQ.out @@ -4238,7 +4238,7 @@ CO2(g) 1.28 -0.44 -1.72 1.000e+01 9.625e+00 -3.747e-01 Specific Conductance (µS/cm, 50°C) = 218 Density (g/cm³) = 0.99212 Volume (L) = 1.02456 - Viscosity (mPa s) = 0.55590 + Viscosity (mPa s) = 0.55591 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.486e-04 Mass of water (kg) = 1.000e+00 @@ -4822,7 +4822,7 @@ CO2(g) 1.79 0.02 -1.77 1.000e+01 8.867e+00 -1.133e+00 Specific Conductance (µS/cm, 50°C) = 347 Density (g/cm³) = 1.00182 Volume (L) = 1.04795 - Viscosity (mPa s) = 0.57438 + Viscosity (mPa s) = 0.57439 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.949e-04 Mass of water (kg) = 1.000e+00 @@ -5194,7 +5194,7 @@ Initial solution 1. Specific Conductance (µS/cm, 50°C) = 0 Density (g/cm³) = 0.99491 Volume (L) = 1.00511 - Viscosity (mPa s) = 0.54982 + Viscosity (mPa s) = 0.54983 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.630e-07 Mass of water (kg) = 1.000e+00 @@ -5552,7 +5552,7 @@ CO2(g) 1.91 0.08 -1.83 1.000e+01 8.693e+00 -1.307e+00 Specific Conductance (µS/cm, 50°C) = 382 Density (g/cm³) = 1.00744 Volume (L) = 1.04969 - Viscosity (mPa s) = 0.58047 + Viscosity (mPa s) = 0.58048 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.934e-04 Mass of water (kg) = 1.000e+00 @@ -5844,7 +5844,7 @@ CO2(g) 1.94 0.09 -1.85 1.000e+01 8.650e+00 -1.350e+00 Specific Conductance (µS/cm, 50°C) = 393 Density (g/cm³) = 1.00946 Volume (L) = 1.04949 - Viscosity (mPa s) = 0.58237 + Viscosity (mPa s) = 0.58238 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.250e-04 Mass of water (kg) = 1.000e+00 @@ -6428,7 +6428,7 @@ CO2(g) 2.01 0.11 -1.90 1.000e+01 8.578e+00 -1.422e+00 Specific Conductance (µS/cm, 50°C) = 416 Density (g/cm³) = 1.01333 Volume (L) = 1.04859 - Viscosity (mPa s) = 0.58589 + Viscosity (mPa s) = 0.58590 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.846e-04 Mass of water (kg) = 1.000e+00 @@ -7304,7 +7304,7 @@ CO2(g) 2.10 0.14 -1.96 1.000e+01 8.493e+00 -1.507e+00 Specific Conductance (µS/cm, 50°C) = 448 Density (g/cm³) = 1.01886 Volume (L) = 1.04657 - Viscosity (mPa s) = 0.59080 + Viscosity (mPa s) = 0.59081 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.069e-03 Mass of water (kg) = 1.000e+00 @@ -7596,7 +7596,7 @@ CO2(g) 2.13 0.14 -1.99 1.000e+01 8.469e+00 -1.531e+00 Specific Conductance (µS/cm, 50°C) = 458 Density (g/cm³) = 1.02065 Volume (L) = 1.04579 - Viscosity (mPa s) = 0.59238 + Viscosity (mPa s) = 0.59239 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.097e-03 Mass of water (kg) = 1.000e+00 @@ -8122,7 +8122,7 @@ CO2(g) 1.29 -0.59 -1.88 1.000e+01 9.735e+00 -2.646e-01 Specific Conductance (µS/cm, 75°C) = 218 Density (g/cm³) = 0.97777 Volume (L) = 1.03465 - Viscosity (mPa s) = 0.38094 + Viscosity (mPa s) = 0.38095 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.605e-04 Mass of water (kg) = 1.000e+00 @@ -8560,7 +8560,7 @@ CO2(g) 1.79 -0.13 -1.92 1.000e+01 9.194e+00 -8.057e-01 Specific Conductance (µS/cm, 75°C) = 358 Density (g/cm³) = 0.98447 Volume (L) = 1.05180 - Viscosity (mPa s) = 0.38769 + Viscosity (mPa s) = 0.38770 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.325e-04 Mass of water (kg) = 1.000e+00 @@ -8852,7 +8852,7 @@ CO2(g) 1.90 -0.04 -1.94 1.000e+01 8.992e+00 -1.008e+00 Specific Conductance (µS/cm, 75°C) = 396 Density (g/cm³) = 0.98771 Volume (L) = 1.05737 - Viscosity (mPa s) = 0.39063 + Viscosity (mPa s) = 0.39064 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.153e-04 Mass of water (kg) = 1.000e+00 @@ -8998,7 +8998,7 @@ CO2(g) 1.93 -0.02 -1.95 1.000e+01 8.925e+00 -1.075e+00 Specific Conductance (µS/cm, 75°C) = 409 Density (g/cm³) = 0.98907 Volume (L) = 1.05888 - Viscosity (mPa s) = 0.39179 + Viscosity (mPa s) = 0.39180 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.437e-04 Mass of water (kg) = 1.000e+00 @@ -9144,7 +9144,7 @@ CO2(g) 1.96 -0.00 -1.96 1.000e+01 8.873e+00 -1.127e+00 Specific Conductance (µS/cm, 75°C) = 419 Density (g/cm³) = 0.99032 Volume (L) = 1.05986 - Viscosity (mPa s) = 0.39282 + Viscosity (mPa s) = 0.39283 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.673e-04 Mass of water (kg) = 1.000e+00 @@ -9290,7 +9290,7 @@ CO2(g) 1.99 0.01 -1.97 1.000e+01 8.830e+00 -1.170e+00 Specific Conductance (µS/cm, 75°C) = 429 Density (g/cm³) = 0.99150 Volume (L) = 1.06051 - Viscosity (mPa s) = 0.39377 + Viscosity (mPa s) = 0.39378 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.881e-04 Mass of water (kg) = 1.000e+00 @@ -9728,7 +9728,7 @@ CO2(g) 2.05 0.05 -2.01 1.000e+01 8.731e+00 -1.269e+00 Specific Conductance (µS/cm, 75°C) = 453 Density (g/cm³) = 0.99479 Volume (L) = 1.06139 - Viscosity (mPa s) = 0.39636 + Viscosity (mPa s) = 0.39637 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.414e-04 Mass of water (kg) = 1.000e+00 @@ -9874,7 +9874,7 @@ CO2(g) 2.07 0.05 -2.02 1.000e+01 8.703e+00 -1.297e+00 Specific Conductance (µS/cm, 75°C) = 460 Density (g/cm³) = 0.99584 Volume (L) = 1.06148 - Viscosity (mPa s) = 0.39717 + Viscosity (mPa s) = 0.39718 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.575e-04 Mass of water (kg) = 1.000e+00 @@ -10020,7 +10020,7 @@ CO2(g) 2.09 0.06 -2.03 1.000e+01 8.678e+00 -1.322e+00 Specific Conductance (µS/cm, 75°C) = 467 Density (g/cm³) = 0.99687 Volume (L) = 1.06150 - Viscosity (mPa s) = 0.39797 + Viscosity (mPa s) = 0.39798 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.731e-04 Mass of water (kg) = 1.000e+00 @@ -10166,7 +10166,7 @@ CO2(g) 2.11 0.07 -2.04 1.000e+01 8.655e+00 -1.345e+00 Specific Conductance (µS/cm, 75°C) = 474 Density (g/cm³) = 0.99789 Volume (L) = 1.06145 - Viscosity (mPa s) = 0.39875 + Viscosity (mPa s) = 0.39876 Activity of water = 0.979 Ionic strength (mol/kgw) = 8.882e-04 Mass of water (kg) = 1.000e+00 @@ -10312,7 +10312,7 @@ CO2(g) 2.13 0.07 -2.05 1.000e+01 8.632e+00 -1.368e+00 Specific Conductance (µS/cm, 75°C) = 481 Density (g/cm³) = 0.99889 Volume (L) = 1.06137 - Viscosity (mPa s) = 0.39952 + Viscosity (mPa s) = 0.39953 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.030e-04 Mass of water (kg) = 1.000e+00 @@ -10458,7 +10458,7 @@ CO2(g) 2.14 0.08 -2.06 1.000e+01 8.611e+00 -1.389e+00 Specific Conductance (µS/cm, 75°C) = 488 Density (g/cm³) = 0.99988 Volume (L) = 1.06125 - Viscosity (mPa s) = 0.40028 + Viscosity (mPa s) = 0.40029 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.176e-04 Mass of water (kg) = 1.000e+00 @@ -10604,7 +10604,7 @@ CO2(g) 2.16 0.09 -2.07 1.000e+01 8.591e+00 -1.409e+00 Specific Conductance (µS/cm, 75°C) = 494 Density (g/cm³) = 1.00085 Volume (L) = 1.06109 - Viscosity (mPa s) = 0.40103 + Viscosity (mPa s) = 0.40104 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.318e-04 Mass of water (kg) = 1.000e+00 @@ -10750,7 +10750,7 @@ CO2(g) 2.18 0.09 -2.08 1.000e+01 8.572e+00 -1.428e+00 Specific Conductance (µS/cm, 75°C) = 501 Density (g/cm³) = 1.00182 Volume (L) = 1.06090 - Viscosity (mPa s) = 0.40177 + Viscosity (mPa s) = 0.40178 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.458e-04 Mass of water (kg) = 1.000e+00 @@ -10896,7 +10896,7 @@ CO2(g) 2.19 0.10 -2.09 1.000e+01 8.554e+00 -1.446e+00 Specific Conductance (µS/cm, 75°C) = 507 Density (g/cm³) = 1.00278 Volume (L) = 1.06069 - Viscosity (mPa s) = 0.40251 + Viscosity (mPa s) = 0.40252 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.598e-04 Mass of water (kg) = 1.000e+00 @@ -11188,7 +11188,7 @@ CO2(g) 2.22 0.10 -2.12 1.000e+01 8.520e+00 -1.480e+00 Specific Conductance (µS/cm, 75°C) = 519 Density (g/cm³) = 1.00467 Volume (L) = 1.06019 - Viscosity (mPa s) = 0.40397 + Viscosity (mPa s) = 0.40398 Activity of water = 0.977 Ionic strength (mol/kgw) = 9.869e-04 Mass of water (kg) = 1.000e+00 @@ -11334,7 +11334,7 @@ CO2(g) 2.24 0.11 -2.13 1.000e+01 8.504e+00 -1.496e+00 Specific Conductance (µS/cm, 75°C) = 526 Density (g/cm³) = 1.00560 Volume (L) = 1.05992 - Viscosity (mPa s) = 0.40469 + Viscosity (mPa s) = 0.40470 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.000e-03 Mass of water (kg) = 1.000e+00 @@ -11480,7 +11480,7 @@ CO2(g) 2.25 0.11 -2.14 1.000e+01 8.488e+00 -1.512e+00 Specific Conductance (µS/cm, 75°C) = 532 Density (g/cm³) = 1.00652 Volume (L) = 1.05962 - Viscosity (mPa s) = 0.40541 + Viscosity (mPa s) = 0.40542 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.014e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/phi_Duan_PR_EQ_101.sel b/mytest/phi_Duan_PR_EQ_101.sel index f747401f..a3a69fcd 100644 --- a/mytest/phi_Duan_PR_EQ_101.sel +++ b/mytest/phi_Duan_PR_EQ_101.sel @@ -1,160 +1,160 @@ Mu SC 0.000000100661 0.0546997340 0.000000100665 0.0547021220 - 0.000130281240 50.3546614509 + 0.000130281240 50.3546615431 0.000000101589 0.0551819022 - 0.000541610367 182.5222929760 + 0.000541610367 182.5222936187 0.000000102522 0.0556660055 - 0.000708420426 217.2492368592 + 0.000708420426 217.2492376984 0.000000103464 0.0561544078 - 0.000802150277 232.0248514655 + 0.000802150277 232.0248523942 0.000000104415 0.0566470872 - 0.000826456976 236.8171357250 + 0.000826456976 236.8171366819 0.000000105375 0.0571440238 - 0.000843798628 240.7926754883 + 0.000843798628 240.7926764684 0.000000106345 0.0576451994 - 0.000860217654 244.6589440164 + 0.000860217654 244.6589450191 0.000000107324 0.0581505973 - 0.000876114172 248.4656850490 + 0.000876114172 248.4656860740 0.000000108312 0.0586602021 - 0.000891635179 252.2324700663 + 0.000891635179 252.2324711135 0.000000109309 0.0591739999 - 0.000906855947 255.9700499166 + 0.000906855947 255.9700509860 0.000000110315 0.0596919777 - 0.000921869751 259.6897416862 + 0.000921869751 259.6897427777 0.000000111331 0.0602141239 - 0.000936720457 263.3973804078 + 0.000936720457 263.3973815215 0.000000112357 0.0607404279 - 0.000951420229 267.0955196063 + 0.000951420229 267.0955207422 0.000000113391 0.0612708801 - 0.000966007403 270.7887303653 + 0.000966007403 270.7887315235 0.000000114435 0.0618054723 - 0.000980534649 274.4823952565 + 0.000980534649 274.4823964372 0.000000115489 0.0623441968 - 0.000994932535 278.1714976813 + 0.000994932535 278.1714988845 0.000000116552 0.0628870472 - 0.001009278447 281.8631739812 + 0.001009278447 281.8631752070 0.000000117624 0.0634340180 - 0.001023633273 285.5627044701 + 0.001023633273 285.5627057188 0.000000118706 0.0639851046 - 0.001037875282 289.2609472849 + 0.001037875282 289.2609485565 0.000000119798 0.0645403033 - 0.001052107513 292.9663904558 + 0.001052107513 292.9663917504 0.000000120899 0.0650996113 - 0.001066393943 296.6840036660 + 0.001066393943 296.6840049839 0.000000122009 0.0656630264 - 0.001080564230 300.4014062440 + 0.001080564230 300.4014075853 0.000000123130 0.0662305477 - 0.001094699017 304.1249842162 + 0.001094699017 304.1249855810 0.000000124260 0.0668021746 - 0.001108909432 307.8628085160 + 0.001108909432 307.8628099046 0.000000125399 0.0673779075 - 0.001123034038 311.6036565562 + 0.001123034038 311.6036579686 0.000000126549 0.0679577475 - 0.001137206446 315.3570089642 + 0.001137206446 315.3570104008 0.000000100661 0.0546997340 - 0.000000323930 0.1969840575 - 0.000106327734 54.8977510132 - 0.000000328530 0.1997448255 - 0.000448608608 218.8115249435 - 0.000000333210 0.2025532308 - 0.000597064886 278.9826059952 - 0.000000337971 0.2054099371 - 0.000691918071 313.1252295017 - 0.000000342815 0.2083156203 - 0.000754992829 334.1953832062 - 0.000000347743 0.2112709689 - 0.000794890252 347.2837584995 - 0.000000352755 0.2142766832 - 0.000820394271 355.9739028751 - 0.000000357854 0.2173334757 - 0.000840949404 363.2040882415 - 0.000000363039 0.2204420709 - 0.000859467376 369.8341631002 - 0.000000368314 0.2236032055 - 0.000876805958 376.1176910437 - 0.000000373678 0.2268176286 - 0.000893387788 382.1784355555 - 0.000000379133 0.2300861013 - 0.000909423353 388.0787506357 - 0.000000384681 0.2334093972 - 0.000925021530 393.8520437179 - 0.000000390323 0.2367883025 - 0.000940284265 399.5280251460 - 0.000000396060 0.2402236157 - 0.000955307651 405.1333621723 - 0.000000401894 0.2437161481 - 0.000970049738 410.6606327120 - 0.000000407826 0.2472667237 - 0.000984612269 416.1363752883 - 0.000000413857 0.2508761795 - 0.000999073183 421.5803921130 - 0.000000419990 0.2545453654 - 0.001013322197 426.9684047898 - 0.000000426225 0.2582751442 - 0.001027473734 432.3281794457 - 0.000000432564 0.2620663922 - 0.001041599481 437.6767451773 - 0.000000439009 0.2659199989 - 0.001055536302 442.9780814027 - 0.000000445561 0.2698368671 - 0.001069370632 448.2526550714 - 0.000000452222 0.2738179133 - 0.001083216884 453.5263165155 - 0.000000458994 0.2778640677 - 0.001096919630 458.7653584668 - 0.000000465877 0.2819762740 - 0.001110613862 463.9998074784 + 0.000000323930 0.1969840480 + 0.000106327734 54.8974227836 + 0.000000328530 0.1997448160 + 0.000448608608 218.8088894871 + 0.000000333210 0.2025532212 + 0.000597064886 278.9787898837 + 0.000000337971 0.2054099274 + 0.000691918071 313.1206736813 + 0.000000342815 0.2083156106 + 0.000754992829 334.1903474489 + 0.000000347743 0.2112709591 + 0.000794890252 347.2784180869 + 0.000000352755 0.2142766733 + 0.000820394271 355.9683597087 + 0.000000357854 0.2173334657 + 0.000840949404 363.1983761182 + 0.000000363039 0.2204420608 + 0.000859467376 369.8282954518 + 0.000000368314 0.2236031954 + 0.000876805958 376.1116753288 + 0.000000373678 0.2268176184 + 0.000893387788 382.1722763136 + 0.000000379133 0.2300860910 + 0.000909423353 388.0724509521 + 0.000000384681 0.2334093868 + 0.000925021530 393.8456059196 + 0.000000390323 0.2367882920 + 0.000940284265 399.5214508653 + 0.000000396060 0.2402236051 + 0.000955307651 405.1266523994 + 0.000000401894 0.2437161374 + 0.000970049738 410.6537886882 + 0.000000407826 0.2472667130 + 0.000984612269 416.1293975896 + 0.000000413857 0.2508761687 + 0.000999073183 421.5732808112 + 0.000000419990 0.2545453545 + 0.001013322197 426.9611606496 + 0.000000426225 0.2582751332 + 0.001027473734 432.3208025001 + 0.000000432564 0.2620663812 + 0.001041599481 437.6692350054 + 0.000000439009 0.2659199877 + 0.001055536302 442.9704386073 + 0.000000445561 0.2698368559 + 0.001069370632 448.2448797075 + 0.000000452222 0.2738179020 + 0.001083216884 453.5184079211 + 0.000000458994 0.2778640563 + 0.001096919630 458.7573169511 + 0.000000465877 0.2819762625 + 0.001110613862 463.9916325073 0.000000100661 0.0546997340 - 0.000001077758 0.7762710390 - 0.000084566271 52.7059144515 - 0.000001094463 0.7883664944 - 0.000360538825 218.1816271819 - 0.000001111519 0.8007123139 - 0.000485621108 286.2730118208 - 0.000001128932 0.8133126104 - 0.000570448094 329.1738192423 - 0.000001146707 0.8261715860 - 0.000632547062 358.8526342438 - 0.000001164850 0.8392935330 - 0.000679382542 380.3806014729 - 0.000001183369 0.8526828354 - 0.000715261117 396.5244399830 - 0.000001202268 0.8663439703 - 0.000743685200 409.2273004701 - 0.000001221555 0.8802815089 - 0.000767345086 419.8188148528 - 0.000001241236 0.8945001174 - 0.000788072638 429.1388016025 - 0.000001261317 0.9090045584 - 0.000806975362 437.6734986231 - 0.000001281806 0.9237996921 - 0.000824645723 445.6795992397 - 0.000001302710 0.9388904771 - 0.000841410017 453.2986657379 - 0.000001324036 0.9542819723 - 0.000857502472 460.6300152361 - 0.000001345790 0.9699793376 - 0.000873102583 467.7477052191 - 0.000001367981 0.9859878357 - 0.000888224585 474.6640164021 - 0.000001390616 1.0023128330 - 0.000903009184 481.4341109095 - 0.000001413704 1.0189598018 - 0.000917560583 488.0980440861 - 0.000001437251 1.0359343211 - 0.000931793017 494.6298324333 - 0.000001461266 1.0532420785 - 0.000945834043 501.0759061349 - 0.000001485757 1.0708888717 - 0.000959764717 507.4653760999 - 0.000001510733 1.0888806103 - 0.000973439425 513.7517610747 - 0.000001536203 1.1072233176 - 0.000986949522 519.9673949519 - 0.000001562174 1.1259231322 - 0.001000409992 526.1510395292 - 0.000001588657 1.1449863099 - 0.001013679621 532.2581238282 - 0.000001615660 1.1644192259 - 0.001026890435 538.3322671352 + 0.000001077758 0.7762709873 + 0.000084566271 52.7052718010 + 0.000001094463 0.7883664423 + 0.000360538825 218.1761708113 + 0.000001111519 0.8007122614 + 0.000485621108 286.2647673815 + 0.000001128932 0.8133125575 + 0.000570448094 329.1636114758 + 0.000001146707 0.8261715327 + 0.000632547062 358.8409785533 + 0.000001164850 0.8392934792 + 0.000679382542 380.3678521685 + 0.000001183369 0.8526827812 + 0.000715261117 396.5108493449 + 0.000001202268 0.8663439158 + 0.000743685200 409.2130372282 + 0.000001221555 0.8802814539 + 0.000767345086 419.8039849389 + 0.000001241236 0.8945000620 + 0.000788072638 429.1234690728 + 0.000001261317 0.9090045026 + 0.000806975362 437.6577025772 + 0.000001281806 0.9237996358 + 0.000824645723 445.6633655169 + 0.000001302710 0.9388904204 + 0.000841410017 453.2820129007 + 0.000001324036 0.9542819151 + 0.000857502472 460.6129566690 + 0.000001345790 0.9699792800 + 0.000873102583 467.7302503758 + 0.000001367981 0.9859877775 + 0.000888224585 474.6461743729 + 0.000001390616 1.0023127745 + 0.000903009184 481.4158877463 + 0.000001413704 1.0189597428 + 0.000917560583 488.0794436080 + 0.000001437251 1.0359342616 + 0.000931793017 494.6108602601 + 0.000001461266 1.0532420185 + 0.000945834043 501.0565651765 + 0.000001485757 1.0708888112 + 0.000959764717 507.4456675577 + 0.000001510733 1.0888805493 + 0.000973439425 513.7316892134 + 0.000001536203 1.1072232561 + 0.000986949522 519.9469621114 + 0.000001562174 1.1259230702 + 0.001000409992 526.1302456433 + 0.000001588657 1.1449862474 + 0.001013679621 532.2369717939 + 0.000001615660 1.1644191629 + 0.001026890435 538.3107570931 diff --git a/mytest/phreeqc.test.out b/mytest/phreeqc.test.out index 40b934c6..174d01b8 100644 --- a/mytest/phreeqc.test.out +++ b/mytest/phreeqc.test.out @@ -886,7 +886,7 @@ B 1.294e-04 H3BO3 1.271e-04 1.333e-04 -3.896 -3.875 0.021 39.23 H2BO3- 2.321e-06 1.729e-06 -5.634 -5.762 -0.128 (0) C(-4) 0.000e+00 - CH4 0.000e+00 0.000e+00 -122.034 -122.014 0.021 35.46 + CH4 0.000e+00 0.000e+00 -122.028 -122.008 0.021 35.46 C(4) 3.159e-03 HCO3- 2.610e-03 1.942e-03 -2.583 -2.712 -0.128 25.15 CO2 1.888e-04 1.948e-04 -3.724 -3.710 0.014 34.43 @@ -910,8 +910,8 @@ Ca 4.334e-03 Cl 1.700e-01 Cl- 1.700e-01 1.212e-01 -0.769 -0.916 -0.147 18.47 HCl 1.512e-09 1.852e-09 -8.820 -8.732 0.088 (0) -H(0) 2.855e-39 - H2 1.428e-39 1.497e-39 -38.845 -38.825 0.021 28.61 +H(0) 2.865e-39 + H2 1.433e-39 1.503e-39 -38.844 -38.823 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.984e-05 4.059e-05 -4.302 -4.392 -0.089 14.03 @@ -927,13 +927,13 @@ Na 1.456e-01 Na+ 1.427e-01 1.064e-01 -0.846 -0.973 -0.127 -0.92 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 NaHCO3 1.637e-04 1.801e-04 -3.786 -3.745 0.041 31.73 -O(0) 3.503e-15 - O2 1.752e-15 1.837e-15 -14.757 -14.736 0.021 30.40 +O(0) 3.479e-15 + O2 1.740e-15 1.825e-15 -14.760 -14.739 0.021 30.40 S(-2) 0.000e+00 - HS- 0.000e+00 0.000e+00 -119.158 -119.310 -0.152 21.00 - H2S 0.000e+00 0.000e+00 -119.742 -119.722 0.021 36.27 - S-2 0.000e+00 0.000e+00 -124.344 -124.875 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -240.742 -240.722 0.021 30.09 + HS- 0.000e+00 0.000e+00 -119.152 -119.304 -0.152 21.00 + H2S 0.000e+00 0.000e+00 -119.736 -119.716 0.021 36.27 + S-2 0.000e+00 0.000e+00 -124.338 -124.869 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -240.730 -240.710 0.021 30.09 S(6) 8.778e-03 SO4-2 4.174e-03 1.205e-03 -2.379 -2.919 -0.540 28.43 NaSO4- 2.800e-03 2.088e-03 -2.553 -2.680 -0.127 -0.72 @@ -973,18 +973,18 @@ Sr 2.874e-05 Gypsum -1.23 -5.81 -4.58 CaSO4:2H2O H2(g) -35.72 -38.82 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -118.73 -126.66 -7.94 H2S + H2S(g) -118.72 -126.66 -7.94 H2S Halite -3.46 -1.89 1.57 NaCl Hexahydrite -3.66 -5.23 -1.57 MgSO4:6H2O Kieserite -4.06 -5.22 -1.16 MgSO4:H2O Mirabilite -3.65 -4.89 -1.24 Na2SO4:10H2O - O2(g) -11.84 -14.74 -2.89 O2 + O2(g) -11.85 -14.74 -2.89 O2 Quartz -0.65 -4.63 -3.98 SiO2 Sepiolite -4.85 10.91 15.76 Mg2Si3O7.5OH:3H2O Sepiolite(d) -7.75 10.91 18.66 Mg2Si3O7.5OH:3H2O SiO2(a) -1.92 -4.63 -2.71 SiO2 Strontianite -1.49 -10.76 -9.27 SrCO3 - Sulfur -88.93 -84.05 4.88 S + Sulfur -88.92 -84.04 4.88 S Sylvite -4.47 -3.57 0.90 KCl Talc -2.70 18.70 21.40 Mg3Si4O10(OH)2 Thenardite -4.56 -4.86 -0.30 Na2SO4 @@ -1020,7 +1020,7 @@ Using pure phase assemblage 1. Phase SI log IAP log K(T, P) Initial Final Delta Calcite 0.00 -8.48 -8.48 1.000e+02 9.998e+01 -1.541e-02 -Dolomite 0.00 -17.08 -17.08 1.000e+02 1.000e+02 7.790e-03 +Dolomite -0.00 -17.08 -17.08 1.000e+02 1.000e+02 7.790e-03 -----------------------------Solution composition------------------------------ @@ -1040,7 +1040,7 @@ Dolomite 0.00 -17.08 -17.08 1.000e+02 1.000e+02 7.790e-03 ----------------------------Description of solution---------------------------- pH = 7.051 Charge balance - pe = -1.652 Adjusted to redox equilibrium + pe = -1.651 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18496 Density (g/cm³) = 1.00534 Volume (L) = 1.00583 @@ -1068,8 +1068,8 @@ Dolomite 0.00 -17.08 -17.08 1.000e+02 1.000e+02 7.790e-03 B 1.294e-04 H3BO3 1.283e-04 1.345e-04 -3.892 -3.871 0.021 39.23 H2BO3- 1.168e-06 8.698e-07 -5.933 -6.061 -0.128 (0) -C(-4) 5.478e-23 - CH4 5.478e-23 5.746e-23 -22.261 -22.241 0.021 35.46 +C(-4) 5.399e-23 + CH4 5.399e-23 5.663e-23 -22.268 -22.247 0.021 35.46 C(4) 2.991e-03 HCO3- 2.376e-03 1.767e-03 -2.624 -2.753 -0.128 25.15 CO2 3.447e-04 3.558e-04 -3.463 -3.449 0.014 34.43 @@ -1093,8 +1093,8 @@ Ca 1.196e-02 Cl 1.700e-01 Cl- 1.700e-01 1.212e-01 -0.770 -0.916 -0.147 18.47 HCl 3.033e-09 3.716e-09 -8.518 -8.430 0.088 (0) -H(0) 2.155e-14 - H2 1.078e-14 1.130e-14 -13.968 -13.947 0.021 28.61 +H(0) 2.147e-14 + H2 1.074e-14 1.126e-14 -13.969 -13.948 0.021 28.61 K 3.173e-03 K+ 3.120e-03 2.213e-03 -2.506 -2.655 -0.149 9.35 KSO4- 5.120e-05 4.171e-05 -4.291 -4.380 -0.089 14.03 @@ -1111,12 +1111,12 @@ Na 1.456e-01 NaSO4- 2.877e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 NaHCO3 1.489e-04 1.638e-04 -3.827 -3.786 0.041 31.73 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -64.512 -64.492 0.021 30.40 -S(-2) 7.086e-20 - HS- 4.655e-20 3.277e-20 -19.332 -19.485 -0.152 21.00 - H2S 2.431e-20 2.550e-20 -19.614 -19.593 0.021 36.27 - S-2 1.512e-25 4.447e-26 -24.821 -25.352 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -40.486 -40.465 0.021 30.09 + O2 0.000e+00 0.000e+00 -64.509 -64.488 0.021 30.40 +S(-2) 6.984e-20 + HS- 4.588e-20 3.230e-20 -19.338 -19.491 -0.152 21.00 + H2S 2.396e-20 2.513e-20 -19.620 -19.600 0.021 36.27 + S-2 1.490e-25 4.383e-26 -24.827 -25.358 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -40.498 -40.478 0.021 30.09 S(6) 8.778e-03 SO4-2 4.293e-03 1.239e-03 -2.367 -2.907 -0.540 28.44 NaSO4- 2.877e-03 2.146e-03 -2.541 -2.668 -0.127 -0.71 @@ -1147,16 +1147,16 @@ Sr 2.874e-05 Arcanite -6.34 -8.22 -1.88 K2SO4 Calcite 0.00 -8.48 -8.48 CaCO3 Celestite -1.32 -7.98 -6.66 SrSO4 - CH4(g) -19.44 -22.24 -2.80 CH4 + CH4(g) -19.45 -22.25 -2.80 CH4 Chalcedony -1.08 -4.63 -3.55 SiO2 Chrysotile -6.89 25.31 32.20 Mg3Si2O5(OH)4 CO2(g) -1.98 -3.45 -1.47 CO2 - Dolomite 0.00 -17.08 -17.08 CaMg(CO3)2 + Dolomite -0.00 -17.08 -17.08 CaMg(CO3)2 Epsomite -3.76 -5.50 -1.74 MgSO4:7H2O Gypsum -0.78 -5.36 -4.58 CaSO4:2H2O H2(g) -10.85 -13.95 -3.10 H2 H2O(g) -1.51 -0.00 1.50 H2O - H2S(g) -18.60 -26.54 -7.94 H2S + H2S(g) -18.61 -26.54 -7.94 H2S Halite -3.46 -1.89 1.57 NaCl Hexahydrite -3.93 -5.50 -1.57 MgSO4:6H2O Kieserite -4.32 -5.48 -1.16 MgSO4:H2O @@ -1221,7 +1221,7 @@ Calcite 0.00 -8.48 -8.48 1.000e+02 1.000e+02 -3.584e-05 ----------------------------Description of solution---------------------------- pH = 7.438 Charge balance - pe = -2.039 Adjusted to redox equilibrium + pe = -2.038 Adjusted to redox equilibrium Specific Conductance (µS/cm, 25°C) = 18331 Density (g/cm³) = 1.00528 Volume (L) = 1.00579 @@ -1249,8 +1249,8 @@ Calcite 0.00 -8.48 -8.48 1.000e+02 1.000e+02 -3.584e-05 B 1.294e-04 H3BO3 1.266e-04 1.328e-04 -3.897 -3.877 0.021 39.23 H2BO3- 2.809e-06 2.093e-06 -5.551 -5.679 -0.128 (0) -C(-4) 2.497e-23 - CH4 2.497e-23 2.618e-23 -22.603 -22.582 0.021 35.46 +C(-4) 2.488e-23 + CH4 2.488e-23 2.610e-23 -22.604 -22.583 0.021 35.46 C(4) 3.195e-03 HCO3- 2.664e-03 1.982e-03 -2.574 -2.703 -0.128 25.15 NaHCO3 1.670e-04 1.838e-04 -3.777 -3.736 0.041 31.73 @@ -1274,8 +1274,8 @@ Ca 4.370e-03 Cl 1.700e-01 Cl- 1.700e-01 1.212e-01 -0.769 -0.916 -0.147 18.47 HCl 1.244e-09 1.525e-09 -8.905 -8.817 0.088 (0) -H(0) 2.150e-14 - H2 1.075e-14 1.128e-14 -13.969 -13.948 0.021 28.61 +H(0) 2.148e-14 + H2 1.074e-14 1.127e-14 -13.969 -13.948 0.021 28.61 K 3.173e-03 K+ 3.122e-03 2.214e-03 -2.506 -2.655 -0.149 9.35 KSO4- 4.982e-05 4.058e-05 -4.303 -4.392 -0.089 14.03 @@ -1292,12 +1292,12 @@ Na 1.456e-01 NaSO4- 2.799e-03 2.088e-03 -2.553 -2.680 -0.127 -0.71 NaHCO3 1.670e-04 1.838e-04 -3.777 -3.736 0.041 31.73 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -64.510 -64.489 0.021 30.40 -S(-2) 2.233e-20 - HS- 1.839e-20 1.295e-20 -19.735 -19.888 -0.152 21.00 - H2S 3.941e-21 4.134e-21 -20.404 -20.384 0.021 36.27 - S-2 1.456e-25 4.284e-26 -24.837 -25.368 -0.531 (0) - (H2S)2 0.000e+00 0.000e+00 -42.066 -42.046 0.021 30.09 + O2 0.000e+00 0.000e+00 -64.509 -64.489 0.021 30.40 +S(-2) 2.226e-20 + HS- 1.833e-20 1.291e-20 -19.737 -19.889 -0.152 21.00 + H2S 3.929e-21 4.121e-21 -20.406 -20.385 0.021 36.27 + S-2 1.451e-25 4.270e-26 -24.838 -25.370 -0.531 (0) + (H2S)2 0.000e+00 0.000e+00 -42.069 -42.048 0.021 30.09 S(6) 8.778e-03 SO4-2 4.174e-03 1.205e-03 -2.379 -2.919 -0.540 28.43 NaSO4- 2.799e-03 2.088e-03 -2.553 -2.680 -0.127 -0.71 @@ -2996,7 +2996,7 @@ Dolomite 0.00 -17.28 -17.28 1.000e+02 1.000e+02 -7.885e-04 Specific Conductance (µS/cm, 35°C) = 894 Density (g/cm³) = 0.99451 Volume (L) = 1.00612 - Viscosity (mPa s) = 0.72378 + Viscosity (mPa s) = 0.72382 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.124e-02 Mass of water (kg) = 1.000e+00 @@ -3129,7 +3129,7 @@ Dolomite 0.00 -17.52 -17.52 1.000e+02 1.000e+02 -1.623e-03 Specific Conductance (µS/cm, 45°C) = 1468 Density (g/cm³) = 0.99092 Volume (L) = 1.01009 - Viscosity (mPa s) = 0.60098 + Viscosity (mPa s) = 0.60107 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-02 Mass of water (kg) = 1.000e+00 @@ -3262,7 +3262,7 @@ Dolomite 0.00 -17.80 -17.80 1.000e+02 1.000e+02 -2.532e-03 Specific Conductance (µS/cm, 55°C) = 2094 Density (g/cm³) = 0.98662 Volume (L) = 1.01481 - Viscosity (mPa s) = 0.50899 + Viscosity (mPa s) = 0.50911 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.920e-02 Mass of water (kg) = 1.000e+00 @@ -3395,7 +3395,7 @@ Dolomite 0.00 -18.12 -18.12 1.000e+02 1.000e+02 -3.547e-03 Specific Conductance (µS/cm, 65°C) = 2753 Density (g/cm³) = 0.98169 Volume (L) = 1.02021 - Viscosity (mPa s) = 0.43820 + Viscosity (mPa s) = 0.43836 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.207e-02 Mass of water (kg) = 1.000e+00 @@ -3553,7 +3553,7 @@ Dolomite 0.00 -17.28 -17.28 1.000e+02 1.000e+02 -7.901e-04 Specific Conductance (µS/cm, 35°C) = 901 Density (g/cm³) = 0.99451 Volume (L) = 1.00616 - Viscosity (mPa s) = 0.72404 + Viscosity (mPa s) = 0.72408 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.128e-02 Mass of water (kg) = 1.000e+00 @@ -3688,7 +3688,7 @@ Dolomite 0.00 -17.52 -17.52 1.000e+02 1.000e+02 -1.520e-03 Specific Conductance (µS/cm, 45°C) = 1464 Density (g/cm³) = 0.99089 Volume (L) = 1.01017 - Viscosity (mPa s) = 0.60158 + Viscosity (mPa s) = 0.60166 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.533e-02 Mass of water (kg) = 1.000e+00 @@ -3823,7 +3823,7 @@ Dolomite 0.00 -17.80 -17.80 1.000e+02 1.000e+02 -2.241e-03 Specific Conductance (µS/cm, 55°C) = 2051 Density (g/cm³) = 0.98654 Volume (L) = 1.01494 - Viscosity (mPa s) = 0.50987 + Viscosity (mPa s) = 0.50998 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.839e-02 Mass of water (kg) = 1.000e+00 @@ -3958,7 +3958,7 @@ Dolomite 0.00 -18.12 -18.12 1.000e+02 1.000e+02 -2.997e-03 Specific Conductance (µS/cm, 65°C) = 2644 Density (g/cm³) = 0.98156 Volume (L) = 1.02039 - Viscosity (mPa s) = 0.43927 + Viscosity (mPa s) = 0.43942 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.066e-02 Mass of water (kg) = 1.000e+00 @@ -4121,7 +4121,7 @@ Pyrite 0.00 -18.21 -18.21 1.000e+02 1.000e+02 2.666e-04 Specific Conductance (µS/cm, 35°C) = 838 Density (g/cm³) = 0.99448 Volume (L) = 1.00615 - Viscosity (mPa s) = 0.72380 + Viscosity (mPa s) = 0.72384 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.052e-02 Mass of water (kg) = 1.000e+00 @@ -4298,7 +4298,7 @@ Pyrite 0.00 -17.96 -17.96 1.000e+02 1.000e+02 5.333e-04 Specific Conductance (µS/cm, 45°C) = 1347 Density (g/cm³) = 0.99084 Volume (L) = 1.01015 - Viscosity (mPa s) = 0.60123 + Viscosity (mPa s) = 0.60131 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.417e-02 Mass of water (kg) = 1.000e+00 @@ -4472,10 +4472,10 @@ Pyrite -0.00 -17.72 -17.72 1.000e+02 1.000e+02 7.999e-04 pH = 6.590 Charge balance pe = -2.894 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 1885 + Specific Conductance (µS/cm, 55°C) = 1884 Density (g/cm³) = 0.98649 Volume (L) = 1.01491 - Viscosity (mPa s) = 0.50947 + Viscosity (mPa s) = 0.50959 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.699e-02 Mass of water (kg) = 1.000e+00 @@ -4652,7 +4652,7 @@ Pyrite 0.00 -17.50 -17.50 1.000e+02 1.000e+02 1.067e-03 Specific Conductance (µS/cm, 65°C) = 2434 Density (g/cm³) = 0.98151 Volume (L) = 1.02035 - Viscosity (mPa s) = 0.43888 + Viscosity (mPa s) = 0.43902 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.914e-02 Mass of water (kg) = 1.000e+00 @@ -10352,10 +10352,10 @@ X 3.000e+00 mol pH = 6.805 Charge balance pe = -3.409 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 137120 + Specific Conductance (µS/cm, 35°C) = 137079 Density (g/cm³) = 1.05945 Volume (L) = 0.99516 - Viscosity (mPa s) = 0.91002 + Viscosity (mPa s) = 0.91036 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.140e+00 Mass of water (kg) = 9.663e-01 diff --git a/mytest/phreeqc.test_101.sel b/mytest/phreeqc.test_101.sel index 297da7e8..48889949 100644 --- a/mytest/phreeqc.test_101.sel +++ b/mytest/phreeqc.test_101.sel @@ -1,43 +1,43 @@ Mu SC - 0.671096058174 52908.4021255105 + 0.671096058174 52908.4076035052 0.000000100661 0.0546997340 - 0.004825593442 307.6125352977 - 0.671118165638 52907.2257230945 - 0.207037755769 18328.5449011668 - 0.207294558112 18496.0394831487 - 0.207123389834 18331.8318055594 + 0.004825593442 307.6125405972 + 0.671118165638 52907.2312026946 + 0.207037755769 18328.5460068352 + 0.207294558112 18496.0405969269 + 0.207123389834 18331.8329118193 0.000000100661 0.0546997340 - 0.000386037400 36.1764316546 - 0.003478455093 236.4009547494 - 0.013822097830 898.8913678100 - 0.023658453718 1503.0043087512 - 0.081818621162 4859.5816383848 + 0.000386037400 36.1764317771 + 0.003478455093 236.4009576027 + 0.013822097830 898.8913884097 + 0.023658453718 1503.0043521589 + 0.081818621162 4859.5818687543 0.000000100644 0.0547821292 - 0.005895647403 363.1206305787 - 0.011674625747 748.7066090214 - 0.017018003543 1068.9492589078 - 0.022087930473 1364.3422252415 - 0.026963875335 1644.2710391766 - 0.011236280565 894.3504113414 - 0.015616524725 1468.8446661798 - 0.019195656853 2094.6967865283 - 0.022072072793 2753.9657117635 - 0.011280564723 901.2332131391 - 0.015330544524 1464.2025940244 - 0.018387748626 2051.3076428952 - 0.020655612956 2644.9527485471 - 0.010523812235 838.8762632912 - 0.014165232070 1347.3712507480 - 0.016994682837 1885.1628575377 - 0.019144934665 2434.6658748750 + 0.005895647403 363.1206375197 + 0.011674625747 748.7066252169 + 0.017018003543 1068.9492853799 + 0.022087930473 1364.3422627114 + 0.026963875335 1644.2710882022 + 0.011236280565 894.3262210627 + 0.015616524725 1468.7537018823 + 0.019195656853 2094.4815779848 + 0.022072072793 2753.5580319273 + 0.011280564723 901.2081038652 + 0.015330544524 1464.1105029958 + 0.018387748626 2051.0974868042 + 0.020655612956 2644.5693148783 + 0.010523812235 838.8535591255 + 0.014165232070 1347.2893336317 + 0.016994682837 1884.9760704620 + 0.019144934665 2434.3239072822 0.000000100644 0.0547821292 0.000000100644 0.0547821292 0.000000126671 0.0574612478 0.000002184622 0.4991345759 - 0.000020102076 4.0468376656 - 0.000127310996 14.1617574786 + 0.000020102076 4.0468376657 + 0.000127310996 14.1617574799 0.000003029023 0.6908453956 - 0.000021985904 3.9560065792 + 0.000021985904 3.9560065794 0.000001012956 0.2402986446 0.000002006764 0.4605370739 0.000003004549 0.6852857749 @@ -45,35 +45,35 @@ 0.000005002672 1.1465782554 0.000006002246 1.3690290695 0.000007001956 1.5860126261 - 0.000008001751 1.7977942610 + 0.000008001751 1.7977942611 0.000009001603 2.0046736201 - 0.000010001494 2.2069502291 - 0.000011001414 2.4049096484 + 0.000010001494 2.2069502292 + 0.000011001414 2.4049096485 0.000012001358 2.5988183899 0.000013001321 2.7889225545 - 0.000014001299 2.9754484637 - 0.000015001290 3.1586037299 + 0.000014001299 2.9754484638 + 0.000015001290 3.1586037300 0.000016001293 3.3385788685 - 0.000017001306 3.5155488170 - 0.000018001328 3.6896743915 - 0.000019001358 3.8611036883 - 0.000020001396 4.0299733251 - 0.000020234320 4.0387394508 - 0.000020382014 4.0300580646 - 0.000020530202 4.0217115313 - 0.000020678717 4.0136931724 - 0.000020827424 4.0059957283 - 0.000020976206 3.9986115428 - 0.000021124966 3.9915327099 - 0.000021273620 3.9847511832 - 0.000021422099 3.9782588645 - 0.000021570343 3.9720476703 - 0.000021718300 3.9661095839 - 0.000021865928 3.9604366926 - 0.000022109064 3.9729901665 - 0.000022773162 4.0639739224 - 0.000023437384 4.1540013547 - 0.671228159633 52901.4474035112 - 0.671228159633 52901.4474035112 - 1.430973641074 86881.3479376634 - 2.139845238711 137120.8012706201 + 0.000017001306 3.5155488171 + 0.000018001328 3.6896743916 + 0.000019001358 3.8611036884 + 0.000020001396 4.0299733252 + 0.000020234320 4.0387394509 + 0.000020382014 4.0300580647 + 0.000020530202 4.0217115314 + 0.000020678717 4.0136931725 + 0.000020827424 4.0059957284 + 0.000020976206 3.9986115429 + 0.000021124966 3.9915327100 + 0.000021273620 3.9847511833 + 0.000021422099 3.9782588646 + 0.000021570343 3.9720476704 + 0.000021718300 3.9661095840 + 0.000021865928 3.9604366927 + 0.000022109064 3.9729901666 + 0.000022773162 4.0639739225 + 0.000023437384 4.1540013548 + 0.671228159633 52901.4528817869 + 0.671228159633 52901.4528817869 + 1.430973641074 86881.3644135873 + 2.139845238711 137079.2893740028 diff --git a/mytest/phrqpitz.tst.out b/mytest/phrqpitz.tst.out index 044e2e63..8cad69f9 100644 --- a/mytest/phrqpitz.tst.out +++ b/mytest/phrqpitz.tst.out @@ -75,10 +75,10 @@ Initial solution 1. Canadian Shield Brine T-93. pH = 5.000 pe = 4.000 - Specific Conductance (µS/cm, 18°C) = 197556 + Specific Conductance (µS/cm, 18°C) = 197598 Density (g/cm³) = 1.23165 Volume (L) = 1.11156 - Viscosity (mPa s) = 2.47679 + Viscosity (mPa s) = 2.47615 Activity of water = 0.723 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -232,10 +232,10 @@ Initial solution 1. Canadian Shield Brine T-93. pH = 5.000 pe = 4.000 - Specific Conductance (µS/cm, 18°C) = 197354 + Specific Conductance (µS/cm, 18°C) = 197395 Density (g/cm³) = 1.23166 Volume (L) = 1.11185 - Viscosity (mPa s) = 2.47835 + Viscosity (mPa s) = 2.47770 Activity of water = 0.723 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -394,10 +394,10 @@ Initial solution 1. Canadian Shield Brine T-93. pH = 5.000 pe = 4.000 - Specific Conductance (µS/cm, 18°C) = 197556 + Specific Conductance (µS/cm, 18°C) = 197598 Density (g/cm³) = 1.23165 Volume (L) = 1.11156 - Viscosity (mPa s) = 2.47679 + Viscosity (mPa s) = 2.47615 Activity of water = 0.723 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -551,10 +551,10 @@ Calcite 0.00 -8.35 -8.35 pH = 7.970 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 18°C) = 197677 + Specific Conductance (µS/cm, 18°C) = 197718 Density (g/cm³) = 1.23164 Volume (L) = 1.11141 - Viscosity (mPa s) = 2.47563 + Viscosity (mPa s) = 2.47499 Activity of water = 0.724 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -713,10 +713,10 @@ Initial solution 1. Canadian Shield Brine T-93. pH = 5.000 pe = 4.000 - Specific Conductance (µS/cm, 18°C) = 197354 + Specific Conductance (µS/cm, 18°C) = 197395 Density (g/cm³) = 1.23166 Volume (L) = 1.11185 - Viscosity (mPa s) = 2.47835 + Viscosity (mPa s) = 2.47770 Activity of water = 0.723 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -870,10 +870,10 @@ Calcite 0.00 -8.35 -8.35 pH = 8.448 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 18°C) = 197677 + Specific Conductance (µS/cm, 18°C) = 197718 Density (g/cm³) = 1.23164 Volume (L) = 1.11141 - Viscosity (mPa s) = 2.47563 + Viscosity (mPa s) = 2.47499 Activity of water = 0.724 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 @@ -1476,10 +1476,10 @@ Halite 0.00 1.50 1.50 1.000e+02 9.387e+01 -6.132e+00 pH = 7.063 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 140008 + Specific Conductance (µS/cm, 0°C) = 140065 Density (g/cm³) = 1.21337 Volume (L) = 1.11951 - Viscosity (mPa s) = 3.48076 + Viscosity (mPa s) = 3.47880 Activity of water = 0.756 Ionic strength (mol/kgw) = 6.132e+00 Mass of water (kg) = 1.000e+00 @@ -1608,10 +1608,10 @@ Halite 0.00 1.58 1.58 1.000e+02 9.328e+01 -6.724e+00 pH = 5.710 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 645133 + Specific Conductance (µS/cm, 100°C) = 643848 Density (g/cm³) = 1.16968 Volume (L) = 1.19091 - Viscosity (mPa s) = 0.60193 + Viscosity (mPa s) = 0.60358 Activity of water = 0.740 Ionic strength (mol/kgw) = 6.724e+00 Mass of water (kg) = 1.000e+00 @@ -1674,10 +1674,10 @@ Halite 0.00 1.19 1.19 1.000e+02 9.212e+01 -7.877e+00 pH = 5.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 1124796 + Specific Conductance (µS/cm, 200°C) = 1116694 Density (g/cm³) = 1.11229 Volume (L) = 1.31295 - Viscosity (mPa s) = 0.31008 + Viscosity (mPa s) = 0.31317 Activity of water = 0.742 Ionic strength (mol/kgw) = 7.877e+00 Mass of water (kg) = 1.000e+00 @@ -1741,10 +1741,10 @@ Halite -0.00 0.34 0.34 1.000e+02 8.791e+01 -1.209e+01 pH = 4.151 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 300°C) = 876550 + Specific Conductance (µS/cm, 300°C) = 863158 Density (g/cm³) = 0.85026 Volume (L) = 2.00707 - Viscosity (mPa s) = 0.27632 (solute contributions limited to 200 °C) + Viscosity (mPa s) = 0.28221 (solute contributions limited to 200 °C) Activity of water = 0.736 Ionic strength (mol/kgw) = 1.209e+01 Mass of water (kg) = 1.000e+00 @@ -2541,7 +2541,7 @@ Mixture 1. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Calcite 0.00 -8.41 -8.41 1.000e+01 1.000e+01 -6.072e-05 +Calcite -0.00 -8.41 -8.41 1.000e+01 1.000e+01 -6.072e-05 -----------------------------Solution composition------------------------------ @@ -2559,7 +2559,7 @@ Calcite 0.00 -8.41 -8.41 1.000e+01 1.000e+01 -6.072e-05 Specific Conductance (µS/cm, 25°C) = 245323 Density (g/cm³) = 1.18116 Volume (L) = 1.11976 - Viscosity (mPa s) = 1.63705 + Viscosity (mPa s) = 1.63704 Activity of water = 0.782 Ionic strength (mol/kgw) = 5.522e+00 Mass of water (kg) = 1.000e+00 @@ -2600,7 +2600,7 @@ Na 5.515e+00 Phase SI** log IAP log K(298 K, 1 atm) Aragonite -0.19 -8.41 -8.22 CaCO3 - Calcite 0.00 -8.41 -8.41 CaCO3 + Calcite -0.00 -8.41 -8.41 CaCO3 CO2(g) -2.12 -3.59 -1.47 CO2 Gaylussite -3.85 -13.27 -9.42 CaNa2(CO3)2:5H2O H2O(g) -1.61 -0.11 1.50 H2O diff --git a/mytest/phrqpitz.tst_101.sel b/mytest/phrqpitz.tst_101.sel index 33b4d4e5..7b475c1d 100644 --- a/mytest/phrqpitz.tst_101.sel +++ b/mytest/phrqpitz.tst_101.sel @@ -1,30 +1,30 @@ Mu SC - 8.590228398682 197556.8810649296 - 8.590235730666 197354.4233618494 - 8.590228398682 197556.8810649296 - 8.589566111936 197677.4748990255 - 8.590235730666 197354.4233618494 - 8.589565072691 197677.4762332350 + 8.590228398682 197598.2073128542 + 8.590235730666 197395.6808660543 + 8.590228398682 197598.2073128542 + 8.589566111936 197718.8411461995 + 8.590235730666 197395.6808660543 + 8.589565072691 197718.8424833799 0.000000100645 0.0546913899 - 17.631685962655 82975.0168504009 + 17.631685962655 82975.0241914345 0.000000100645 0.0546913899 - 7.896826750403 252024.9183298373 + 7.896826750403 252024.9532553360 0.000000100645 0.0546913899 - 6.132053767211 140008.3058187940 - 6.129227619863 250788.9042982318 - 6.724229237525 645133.4136236404 - 7.877482760965 1124796.1875213496 - 12.089226305221 876550.8658830508 + 6.132053767211 140065.8722200495 + 6.129227619863 250788.9417575771 + 6.724229237525 643848.5066963829 + 7.877482760965 1116694.1414872622 + 12.089226305221 863158.0382825428 0.000000100645 0.0546913899 - 0.005194305296 329.3285853606 + 0.005194305296 329.3285977221 0.000000100645 0.0546913899 - 6.134557673855 250512.2577736141 - 0.619053387284 55517.5833056215 - 1.845059039274 136565.6017308606 - 3.070764704979 191578.3241483942 - 4.296325341966 226163.8342409307 - 5.521821911657 245323.3386268463 - 0.722376494563 52662.2178871806 - 0.719440607120 52608.6910957837 - 2.492473611857 140266.2387143951 - 7.309596614832 226882.4094273900 + 6.134557673855 250512.2951949511 + 0.619053387284 55517.5882906296 + 1.845059039274 136565.6204033527 + 3.070764704979 191578.3536086713 + 4.296325341966 226163.8697533939 + 5.521821911657 245323.3761505667 + 0.722376494563 52662.2241112904 + 0.719440607120 52608.6972853051 + 2.492473611857 140266.2641043515 + 7.309596614832 226882.4477311831 diff --git a/mytest/pitzalphas.out b/mytest/pitzalphas.out index b4047692..59318090 100644 --- a/mytest/pitzalphas.out +++ b/mytest/pitzalphas.out @@ -84,10 +84,10 @@ Osmotic coefficient: 1.6378e+00 pH = 5.000 pe = 4.000 - Specific Conductance (µS/cm, 18°C) = 197556 + Specific Conductance (µS/cm, 18°C) = 197598 Density (g/cm³) = 1.23165 Volume (L) = 1.11156 - Viscosity (mPa s) = 2.47679 + Viscosity (mPa s) = 2.47615 Activity of water = 0.723 Ionic strength (mol/kgw) = 8.590e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/pitzalphas_101.sel b/mytest/pitzalphas_101.sel index efb2edc5..597908b0 100644 --- a/mytest/pitzalphas_101.sel +++ b/mytest/pitzalphas_101.sel @@ -1,2 +1,2 @@ Mu SC - 8.590228411868 197556.8800993445 + 8.590228411868 197598.2063469598 diff --git a/mytest/pitzer_fail_101.sel b/mytest/pitzer_fail_101.sel index 3024d2d6..77d60f87 100644 --- a/mytest/pitzer_fail_101.sel +++ b/mytest/pitzer_fail_101.sel @@ -1,3 +1,3 @@ Mu SC - 8.931891251108 594677.0372493418 + 8.931891251108 594677.3732202047 1823.726924535165 2148185908.8114023209 diff --git a/mytest/pitzer_redef_101.sel b/mytest/pitzer_redef_101.sel index 421d27b8..03fa341f 100644 --- a/mytest/pitzer_redef_101.sel +++ b/mytest/pitzer_redef_101.sel @@ -1,2 +1,2 @@ Mu SC - 5.809999714942 121002.9269752406 + 5.809999714942 121002.9622995074 diff --git a/mytest/pitzer_redef_2_101.sel b/mytest/pitzer_redef_2_101.sel index da0d23c1..8328f619 100644 --- a/mytest/pitzer_redef_2_101.sel +++ b/mytest/pitzer_redef_2_101.sel @@ -1,5 +1,5 @@ Mu SC 0.000000100645 0.0546913895 - 6.000000289850 174734.5674846183 - 6.000000289850 174734.5674846183 - 6.000000289850 174734.5674846183 + 6.000000289850 174734.7289500512 + 6.000000289850 174734.7289500512 + 6.000000289850 174734.7289500512 diff --git a/mytest/pitzgas_101.sel b/mytest/pitzgas_101.sel index 25240090..0ad6a9c1 100644 --- a/mytest/pitzgas_101.sel +++ b/mytest/pitzgas_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100644 0.0547821166 - 0.000123731111 47.7861300267 + 0.000123731111 47.7861301437 diff --git a/mytest/ppdump.dmp b/mytest/ppdump.dmp index 4815be0a..3b2ffeab 100644 --- a/mytest/ppdump.dmp +++ b/mytest/ppdump.dmp @@ -6,7 +6,8 @@ SOLUTION_RAW 1 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -33,7 +34,8 @@ SOLUTION_RAW 2 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -60,7 +62,8 @@ SOLUTION_RAW 3 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -660,44 +663,45 @@ SOLUTION_RAW 3 Solution after simulation 14. -temp 30 -pressure 300 -potential 0 - -total_h 111.02097669946 - -total_o 55.569362375096 - -cb 0.00018244632275129 - -density 1.0105593314927 - -viscosity 0.8122752878 + -total_h 111.02097669947 + -total_o 55.569362375098 + -cb 0.00018244632289687 + -density 1.0105593314926 + -viscosity 0.81230314564192 + -viscos_0 0.79770975008627 -totals - Ba 9.7854536558955e-07 - C(-4) 1.5355022078563e-14 - C(4) 0.016235677385881 - Ca 1.3566418233355e-05 - Cl 0.002499999999998 - Fe(2) 4.0446464464897e-09 - Fe(3) 3.2267636793227e-11 - H(0) 1.2509162011826e-11 - Na 0.033768689326175 - S(-2) 2.4547588935524e-12 - S(6) 0.0036150000145016 - -pH 9.8611364073805 - -pe -5.9213058990161 - -mu 0.042596931266962 - -ah2o 0.99906312930993 + Ba 9.7854536583022e-07 + C(-4) 1.5325497826068e-14 + C(4) 0.016235677388059 + Ca 1.3566418233477e-05 + Cl 0.002500000000001 + Fe(2) 4.0446464467291e-09 + Fe(3) 3.2275400587155e-11 + H(0) 1.2503144592972e-11 + Na 0.03376868932526 + S(-2) 2.450038942902e-12 + S(6) 0.0036150000132694 + -pH 9.8611364072005 + -pe -5.9212014169945 + -mu 0.042596931264651 + -ah2o 0.99906312930992 -mass_water 0.99999664419201 - -soln_vol 0.99172357056611 - -total_alkalinity 0.023885341023181 + -soln_vol 0.99172357056616 + -total_alkalinity 0.023885341024591 -activities - Ba -6.7128994660371 - C(-4) -13.80965757836 - C(4) -2.4327015402681 - Ca -5.8145726826544 - Cl -2.6852871894892 - E 5.9213058990161 - Fe(2) -10.27946995158 - Fe(3) -29.20396245307 - H(0) -11.199582921359 - Na -1.5653749026866 - O(0) -68.66362006403 - S(-2) -11.696185106463 - S(6) -2.8968859217203 + Ba -6.7128994658949 + C(-4) -13.810192354408 + C(4) -2.4327015403032 + Ca -5.8145726826195 + Cl -2.6852871894869 + E 5.9212014169945 + Fe(2) -10.279469951512 + Fe(3) -29.203895605776 + H(0) -11.199716615453 + Na -1.5653749026934 + O(0) -68.663352675844 + S(-2) -11.6967198828 + S(6) -2.8968859218615 -gammas EQUILIBRIUM_PHASES_RAW 3 Pure-phase assemblage after simulation 14. # EXCHANGE_MODIFY candidates; use new_def=true # @@ -705,7 +709,7 @@ EQUILIBRIUM_PHASES_RAW 3 Pure-phase assemblage after simulation 14. -component Barite # EQUILIBRIUM_PHASES_MODIFY candidate identifiers # -si 0 - -moles 9.9978605940903 + -moles 9.9978605940901 -force_equality 0 -dissolve_only 0 -precipitate_only 0 @@ -726,13 +730,13 @@ EXCHANGE_RAW 3 Exchange assemblage after simulation 14. -component X # EXCHANGE_MODIFY candidate identifiers # -totals - Ba 0.0013807875525697 - Ca 0.0077292399674904 - Fe 1.0371110902359e-07 - Na 0.98177974326096 - X 1.0000000057233 + Ba 0.0013807875532523 + Ca 0.0077292399694158 + Fe 1.0371110905741e-07 + Na 0.98177974340441 + X 1.000000005872 -charge_balance 0 - -la 1.4795779925578 + -la 1.4795779925651 -phase_proportion 0 -formula_z 0 # EXCHANGE_MODIFY candidates with new_def=true # @@ -755,28 +759,28 @@ SURFACE_RAW 3 # SURFACE_MODIFY candidate identifiers # -formula_z 0 -moles 0 - -la -0.73749210708583 - -charge_balance -8.3931202761174e-05 + -la -0.73749210700446 + -charge_balance -8.3931202742801e-05 -phase_proportion 0 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - Ba 0.00075816377399388 - Ca 0.0018078975744196 - Fe 0.00017963772106481 - H 0.0044246706576642 - Hfo_s 0.009999999999382 - O 0.009999999999382 + Ba 0.00075816377415656 + Ca 0.0018078975743612 + Fe 0.00017963772103167 + H 0.0044246706582562 + Hfo_s 0.010000000000098 + O 0.010000000000098 -charge_component Hfo # SURFACE_MODIFY candidate identifiers # -specific_area 600 -grams 1 - -charge_balance -8.3931202761174e-05 + -charge_balance -8.3931202742801e-05 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi -0.23022847104874 + -la_psi -0.23022847100839 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -800,30 +804,30 @@ SOLID_SOLUTIONS_RAW 3 Solid solution assemblage after simulation 14 # SOLID_SOLUTION_MODIFY candidate identifiers # -component calcite # SOLID_SOLUTION_MODIFY candidate identifiers # - -moles 0.090456086594524 + -moles 0.090456086595134 # Solid solution workspace variables # - -initial_moles 0.090456086594524 + -initial_moles 0.090456086595134 -init_moles 0.1 -delta 0 - -fraction_x 0.99101348131156 + -fraction_x 0.99101348131087 -log10_lambda 0 - -log10_fraction_x -0.0039204375234089 - -dn 10.955741273153 + -log10_fraction_x -0.0039204375237076 + -dn 10.955741273072 -dnc 0 - -dnb -0.099346755168912 + -dnb -0.099346755175778 -component siderite # SOLID_SOLUTION_MODIFY candidate identifiers # - -moles 0.00082025656360335 + -moles 0.00082025656367166 # Solid solution workspace variables # - -initial_moles 0.00082025656360335 + -initial_moles 0.00082025656367166 -init_moles 0.001 -delta 0 - -fraction_x 0.0089865186884441 + -fraction_x 0.0089865186891257 -log10_lambda 0 - -log10_fraction_x -2.0464085181904 - -dn 10.955741273153 + -log10_fraction_x -2.0464085181574 + -dn 10.955741273072 -dnc 0 - -dnb -1208.1750092411 + -dnb -1208.1750091397 # SOLID_SOLUTION_MODIFY candidate identifiers with new_def=true # -tk 298.15 -input_case -1 @@ -838,8 +842,8 @@ SOLID_SOLUTIONS_RAW 3 Solid solution assemblage after simulation 14 -miscibility 0 -spinodal 0 -ss_in 1 - -total_moles 0.091276343158127 - -dn 10.955741273153 + -total_moles 0.091276343158805 + -dn 10.955741273072 -totals # SOLID_SOLUTION candidate identifiers with new_def=true # -new_def 0 @@ -852,14 +856,14 @@ GAS_PHASE_RAW 3 Gas phase after simulation 14. -volume 1 -component CO2(g) # GAS_PHASE_MODIFY candidate identifiers # - -moles 1.0451705635491e-31 + -moles 1.0451705643308e-31 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -p_read 0.00035 # GasComp workspace variables # -initial_moles 1.4305536417623e-05 - -p 0.00031355116906472 + -p 0.00031355116929923 -phi 0.24830000182343 - -f 7.7854755850508e-05 + -f 7.7854755908737e-05 # GAS_PHASE_MODIFY candidate identifiers with new_def=true # -new_def 0 -solution_equilibria 0 @@ -888,7 +892,7 @@ KINETICS_RAW 3 -d_params 1 1 1 1 # KineticsComp workspace variables # - -moles 8.8743519199852e-09 + -moles 8.8743515869183e-09 -initial_moles 1 -equal_increments 1 -count 1 @@ -896,9 +900,9 @@ KINETICS_RAW 3 1 # KINETICS workspace variables # -totals - C 8.8743519652914e-09 - Ca 8.8743519652914e-09 - O 2.6623055895874e-08 + C 8.8743516180068e-09 + Ca 8.8743516180068e-09 + O 2.662305485402e-08 MIX_RAW 3 2 0.5 3 0.5 @@ -934,7 +938,8 @@ SOLUTION_RAW 1 -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -1181,7 +1186,8 @@ SOLUTION_RAW 1 New soln description -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0020000000000003 H(0) 1.4155655514601e-25 diff --git a/mytest/ppdump.out b/mytest/ppdump.out index bc874f0b..74a00dc1 100644 --- a/mytest/ppdump.out +++ b/mytest/ppdump.out @@ -439,7 +439,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 2942 Density (g/cm³) = 1.00150 Volume (L) = 1.00018 - Viscosity (mPa s) = 0.80795 + Viscosity (mPa s) = 0.80798 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.389e-02 Mass of water (kg) = 1.000e+00 @@ -691,7 +691,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3059 Density (g/cm³) = 1.00590 Volume (L) = 0.99586 - Viscosity (mPa s) = 0.80862 + Viscosity (mPa s) = 0.80864 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.512e-02 Mass of water (kg) = 1.000e+00 @@ -943,7 +943,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3169 Density (g/cm³) = 1.01024 Volume (L) = 0.99163 - Viscosity (mPa s) = 0.80954 + Viscosity (mPa s) = 0.80956 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.628e-02 Mass of water (kg) = 1.000e+00 @@ -1136,7 +1136,7 @@ Kinetics 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Barite 0.00 -9.73 -9.73 1.000e+01 9.998e+00 -1.956e-03 +Barite -0.00 -9.73 -9.73 1.000e+01 9.998e+00 -1.956e-03 --------------------------------Solid solutions-------------------------------- @@ -1204,7 +1204,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3503 Density (g/cm³) = 1.00182 Volume (L) = 1.00027 - Viscosity (mPa s) = 0.81060 + Viscosity (mPa s) = 0.81063 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.035e-02 Mass of water (kg) = 1.000e+00 @@ -1214,7 +1214,7 @@ X 1.000e+00 mol Pressure (atm) = 100.00 Electrical balance (eq) = 1.887e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.31 - Iterations = 19 + Iterations = 17 Total H = 1.110210e+02 Total O = 5.556647e+01 @@ -1232,8 +1232,8 @@ Ba 6.823e-07 BaSO4 9.764e-08 9.855e-08 -7.010 -7.006 0.004 (0) BaHCO3+ 1.477e-08 1.230e-08 -7.831 -7.910 -0.079 (0) BaOH+ 4.850e-11 4.060e-11 -10.314 -10.392 -0.077 (0) -C(-4) 9.054e-15 - CH4 9.054e-15 9.138e-15 -14.043 -14.039 0.004 35.98 +C(-4) 9.045e-15 + CH4 9.045e-15 9.130e-15 -14.044 -14.040 0.004 35.98 C(4) 1.552e-02 HCO3- 8.577e-03 7.203e-03 -2.067 -2.142 -0.076 25.44 CO3-2 6.753e-03 3.360e-03 -2.171 -2.474 -0.303 -1.95 @@ -1257,9 +1257,9 @@ Cl 2.500e-03 Cl- 2.500e-03 2.069e-03 -2.602 -2.684 -0.082 18.40 FeCl+ 1.316e-13 1.096e-13 -12.881 -12.960 -0.079 (0) HCl 8.804e-14 9.159e-14 -13.055 -13.038 0.017 (0) - FeCl+2 8.603e-31 4.222e-31 -30.065 -30.375 -0.309 (0) - FeCl2+ 4.291e-33 3.592e-33 -32.367 -32.445 -0.077 (0) - FeCl3 7.920e-37 7.994e-37 -36.101 -36.097 0.004 (0) + FeCl+2 8.604e-31 4.222e-31 -30.065 -30.374 -0.309 (0) + FeCl2+ 4.292e-33 3.592e-33 -32.367 -32.445 -0.077 (0) + FeCl3 7.921e-37 7.995e-37 -36.101 -36.097 0.004 (0) Fe(2) 3.139e-09 FeCO3 2.827e-09 2.853e-09 -8.549 -8.545 0.004 (0) FeOH+ 1.696e-10 1.419e-10 -9.771 -9.848 -0.077 (0) @@ -1270,37 +1270,37 @@ Fe(2) 3.139e-09 Fe(OH)3- 6.551e-12 5.483e-12 -11.184 -11.261 -0.077 (0) FeCl+ 1.316e-13 1.096e-13 -12.881 -12.960 -0.079 (0) FeHSO4+ 9.859e-21 8.211e-21 -20.006 -20.086 -0.079 (0) - Fe(HS)2 5.572e-26 5.624e-26 -25.254 -25.250 0.004 (0) - Fe(HS)3- 9.780e-36 8.145e-36 -35.010 -35.089 -0.079 (0) -Fe(3) 2.443e-11 + Fe(HS)2 5.562e-26 5.613e-26 -25.255 -25.251 0.004 (0) + Fe(HS)3- 9.752e-36 8.122e-36 -35.011 -35.090 -0.079 (0) +Fe(3) 2.444e-11 Fe(OH)4- 2.250e-11 1.890e-11 -10.648 -10.724 -0.076 (0) Fe(OH)3 1.934e-12 1.952e-12 -11.714 -11.710 0.004 (0) Fe(OH)2+ 1.671e-15 1.404e-15 -14.777 -14.853 -0.076 (0) - FeOH+2 8.228e-22 4.038e-22 -21.085 -21.394 -0.309 (0) - FeSO4+ 1.122e-28 9.394e-29 -27.950 -28.027 -0.077 (0) - Fe+3 2.044e-29 5.374e-30 -28.689 -29.270 -0.580 (0) - Fe(SO4)2- 3.597e-30 2.996e-30 -29.444 -29.524 -0.079 (0) - FeCl+2 8.603e-31 4.222e-31 -30.065 -30.375 -0.309 (0) - FeCl2+ 4.291e-33 3.592e-33 -32.367 -32.445 -0.077 (0) - FeCl3 7.920e-37 7.994e-37 -36.101 -36.097 0.004 (0) - FeHSO4+2 6.458e-38 3.107e-38 -37.190 -37.508 -0.318 (0) + FeOH+2 8.229e-22 4.038e-22 -21.085 -21.394 -0.309 (0) + FeSO4+ 1.123e-28 9.395e-29 -27.950 -28.027 -0.077 (0) + Fe+3 2.045e-29 5.375e-30 -28.689 -29.270 -0.580 (0) + Fe(SO4)2- 3.597e-30 2.996e-30 -29.444 -29.523 -0.079 (0) + FeCl+2 8.604e-31 4.222e-31 -30.065 -30.374 -0.309 (0) + FeCl2+ 4.292e-33 3.592e-33 -32.367 -32.445 -0.077 (0) + FeCl3 7.921e-37 7.995e-37 -36.101 -36.097 0.004 (0) + FeHSO4+2 6.459e-38 3.107e-38 -37.190 -37.508 -0.318 (0) Fe2(OH)2+4 0.000e+00 0.000e+00 -40.175 -41.446 -1.271 (0) Fe3(OH)4+5 0.000e+00 0.000e+00 -52.190 -54.176 -1.986 (0) H(0) 1.247e-11 - H2 6.235e-12 6.293e-12 -11.205 -11.201 0.004 28.55 + H2 6.234e-12 6.292e-12 -11.205 -11.201 0.004 28.55 Na 3.196e-02 Na+ 3.102e-02 2.594e-02 -1.508 -1.586 -0.078 -0.69 NaSO4- 7.658e-04 6.437e-04 -3.116 -3.191 -0.075 -7.22 NaHCO3 1.787e-04 1.820e-04 -3.748 -3.740 0.008 31.71 O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -68.485 -68.481 0.004 30.61 -S(-2) 1.488e-12 - HS- 1.483e-12 1.223e-12 -11.829 -11.912 -0.084 20.99 - S-2 3.721e-15 1.826e-15 -14.429 -14.739 -0.309 (0) - H2S 1.065e-15 1.075e-15 -14.973 -14.969 0.004 36.27 - Fe(HS)2 5.572e-26 5.624e-26 -25.254 -25.250 0.004 (0) - (H2S)2 7.925e-32 7.999e-32 -31.101 -31.097 0.004 34.33 - Fe(HS)3- 9.780e-36 8.145e-36 -35.010 -35.089 -0.079 (0) +S(-2) 1.486e-12 + HS- 1.481e-12 1.222e-12 -11.829 -11.913 -0.084 20.99 + S-2 3.717e-15 1.824e-15 -14.430 -14.739 -0.309 (0) + H2S 1.064e-15 1.074e-15 -14.973 -14.969 0.004 36.27 + Fe(HS)2 5.562e-26 5.613e-26 -25.255 -25.251 0.004 (0) + (H2S)2 7.911e-32 7.984e-32 -31.102 -31.098 0.004 34.33 + Fe(HS)3- 9.752e-36 8.122e-36 -35.011 -35.090 -0.079 (0) S(6) 3.432e-03 SO4-2 2.666e-03 1.303e-03 -2.574 -2.885 -0.311 23.29 NaSO4- 7.658e-04 6.437e-04 -3.116 -3.191 -0.075 -7.22 @@ -1310,9 +1310,9 @@ S(6) 3.432e-03 FeSO4 9.297e-12 9.383e-12 -11.032 -11.028 0.004 14.09 CaHSO4+ 2.879e-16 2.398e-16 -15.541 -15.620 -0.079 (0) FeHSO4+ 9.859e-21 8.211e-21 -20.006 -20.086 -0.079 (0) - FeSO4+ 1.122e-28 9.394e-29 -27.950 -28.027 -0.077 (0) - Fe(SO4)2- 3.597e-30 2.996e-30 -29.444 -29.524 -0.079 (0) - FeHSO4+2 6.458e-38 3.107e-38 -37.190 -37.508 -0.318 (0) + FeSO4+ 1.123e-28 9.395e-29 -27.950 -28.027 -0.077 (0) + Fe(SO4)2- 3.597e-30 2.996e-30 -29.444 -29.523 -0.079 (0) + FeHSO4+2 6.459e-38 3.107e-38 -37.190 -37.508 -0.318 (0) ------------------------------Saturation indices------------------------------- @@ -1320,7 +1320,7 @@ S(6) 3.432e-03 Anhydrite -4.57 -8.84 -4.27 CaSO4 Aragonite -0.15 -8.43 -8.28 CaCO3 - Barite 0.00 -9.73 -9.73 BaSO4 + Barite -0.00 -9.73 -9.73 BaSO4 Calcite -0.00 -8.43 -8.42 CaCO3 CH4(g) -11.13 -14.04 -2.91 CH4 CO2(g) -4.19 -5.77 -1.58 CO2 @@ -1393,7 +1393,7 @@ Kinetics 3. Moles in assemblage Phase SI log IAP log K(T, P) Initial Final Delta -Barite 0.00 -9.66 -9.66 1.000e+01 9.998e+00 -2.051e-03 +Barite -0.00 -9.66 -9.66 1.000e+01 9.998e+00 -2.051e-03 --------------------------------Solid solutions-------------------------------- @@ -1457,11 +1457,11 @@ X 1.000e+00 mol ----------------------------Description of solution---------------------------- pH = 9.885 Charge balance - pe = -5.962 Adjusted to redox equilibrium + pe = -5.947 Adjusted to redox equilibrium Specific Conductance (µS/cm, 30°C) = 3617 Density (g/cm³) = 1.00623 Volume (L) = 0.99594 - Viscosity (mPa s) = 0.81131 + Viscosity (mPa s) = 0.81134 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.151e-02 Mass of water (kg) = 1.000e+00 @@ -1489,8 +1489,8 @@ Ba 8.204e-07 BaSO4 1.207e-07 1.219e-07 -6.918 -6.914 0.004 (0) BaHCO3+ 1.841e-08 1.532e-08 -7.735 -7.815 -0.080 (0) BaOH+ 5.540e-11 4.632e-11 -10.256 -10.334 -0.078 (0) -C(-4) 2.557e-14 - CH4 2.557e-14 2.582e-14 -13.592 -13.588 0.004 36.09 +C(-4) 1.944e-14 + CH4 1.944e-14 1.962e-14 -13.711 -13.707 0.004 36.09 C(4) 1.588e-02 HCO3- 8.574e-03 7.194e-03 -2.067 -2.143 -0.076 25.76 CO3-2 7.118e-03 3.528e-03 -2.148 -2.452 -0.305 -1.10 @@ -1514,9 +1514,9 @@ Cl 2.500e-03 Cl- 2.500e-03 2.066e-03 -2.602 -2.685 -0.083 18.45 FeCl+ 1.535e-13 1.277e-13 -12.814 -12.894 -0.080 (0) HCl 1.000e-13 1.042e-13 -13.000 -12.982 0.018 (0) - FeCl+2 9.117e-31 4.456e-31 -30.040 -30.351 -0.311 (0) - FeCl2+ 4.877e-33 4.078e-33 -32.312 -32.390 -0.078 (0) - FeCl3 9.673e-37 9.766e-37 -36.014 -36.010 0.004 (0) + FeCl+2 9.435e-31 4.611e-31 -30.025 -30.336 -0.311 (0) + FeCl2+ 5.048e-33 4.220e-33 -32.297 -32.375 -0.078 (0) + FeCl3 1.001e-36 1.011e-36 -36.000 -35.995 0.004 (0) Fe(2) 3.564e-09 FeCO3 3.211e-09 3.242e-09 -8.493 -8.489 0.004 (0) FeOH+ 1.868e-10 1.562e-10 -9.729 -9.806 -0.078 (0) @@ -1527,37 +1527,37 @@ Fe(2) 3.564e-09 Fe(OH)3- 7.449e-12 6.228e-12 -11.128 -11.206 -0.078 (0) FeCl+ 1.535e-13 1.277e-13 -12.814 -12.894 -0.080 (0) FeHSO4+ 1.245e-20 1.036e-20 -19.905 -19.985 -0.080 (0) - Fe(HS)2 5.504e-25 5.556e-25 -24.259 -24.255 0.004 (0) - Fe(HS)3- 2.921e-34 2.430e-34 -33.534 -33.614 -0.080 (0) -Fe(3) 2.553e-11 - Fe(OH)4- 2.354e-11 1.975e-11 -10.628 -10.704 -0.076 (0) - Fe(OH)3 1.989e-12 2.008e-12 -11.701 -11.697 0.004 (0) - Fe(OH)2+ 1.694e-15 1.421e-15 -14.771 -14.847 -0.076 (0) - FeOH+2 8.234e-22 4.024e-22 -21.084 -21.395 -0.311 (0) - FeSO4+ 1.214e-28 1.015e-28 -27.916 -27.994 -0.078 (0) - Fe+3 2.016e-29 5.272e-30 -28.695 -29.278 -0.583 (0) - Fe(SO4)2- 4.284e-30 3.565e-30 -29.368 -29.448 -0.080 (0) - FeCl+2 9.117e-31 4.456e-31 -30.040 -30.351 -0.311 (0) - FeCl2+ 4.877e-33 4.078e-33 -32.312 -32.390 -0.078 (0) - FeCl3 9.673e-37 9.766e-37 -36.014 -36.010 0.004 (0) - FeHSO4+2 7.409e-38 3.550e-38 -37.130 -37.450 -0.320 (0) - Fe2(OH)2+4 0.000e+00 0.000e+00 -40.171 -41.449 -1.278 (0) - Fe3(OH)4+5 0.000e+00 0.000e+00 -52.176 -54.173 -1.997 (0) -H(0) 1.516e-11 - H2 7.580e-12 7.652e-12 -11.120 -11.116 0.004 28.51 + Fe(HS)2 3.179e-25 3.210e-25 -24.498 -24.493 0.004 (0) + Fe(HS)3- 1.283e-34 1.067e-34 -33.892 -33.972 -0.080 (0) +Fe(3) 2.642e-11 + Fe(OH)4- 2.436e-11 2.044e-11 -10.613 -10.690 -0.076 (0) + Fe(OH)3 2.058e-12 2.078e-12 -11.686 -11.682 0.004 (0) + Fe(OH)2+ 1.753e-15 1.471e-15 -14.756 -14.832 -0.076 (0) + FeOH+2 8.521e-22 4.164e-22 -21.069 -21.380 -0.311 (0) + FeSO4+ 1.256e-28 1.050e-28 -27.901 -27.979 -0.078 (0) + Fe+3 2.086e-29 5.455e-30 -28.681 -29.263 -0.583 (0) + Fe(SO4)2- 4.434e-30 3.689e-30 -29.353 -29.433 -0.080 (0) + FeCl+2 9.435e-31 4.611e-31 -30.025 -30.336 -0.311 (0) + FeCl2+ 5.048e-33 4.220e-33 -32.297 -32.375 -0.078 (0) + FeCl3 1.001e-36 1.011e-36 -36.000 -35.995 0.004 (0) + FeHSO4+2 7.667e-38 3.673e-38 -37.115 -37.435 -0.320 (0) + Fe2(OH)2+4 0.000e+00 0.000e+00 -40.141 -41.419 -1.278 (0) + Fe3(OH)4+5 0.000e+00 0.000e+00 -52.131 -54.129 -1.997 (0) +H(0) 1.415e-11 + H2 7.077e-12 7.145e-12 -11.150 -11.146 0.004 28.51 Na 3.288e-02 Na+ 3.183e-02 2.659e-02 -1.497 -1.575 -0.078 -0.40 NaSO4- 8.780e-04 7.373e-04 -3.057 -3.132 -0.076 -5.45 NaHCO3 1.786e-04 1.820e-04 -3.748 -3.740 0.008 31.75 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.745 -68.741 0.004 30.45 -S(-2) 4.134e-12 - HS- 4.120e-12 3.395e-12 -11.385 -11.469 -0.084 21.02 - S-2 1.067e-14 5.215e-15 -13.972 -14.283 -0.311 (0) - H2S 2.965e-15 2.993e-15 -14.528 -14.524 0.004 35.19 - Fe(HS)2 5.504e-25 5.556e-25 -24.259 -24.255 0.004 (0) - (H2S)2 6.808e-31 6.874e-31 -30.167 -30.163 0.004 38.52 - Fe(HS)3- 2.921e-34 2.430e-34 -33.534 -33.614 -0.080 (0) + O2 0.000e+00 0.000e+00 -68.685 -68.681 0.004 30.45 +S(-2) 3.142e-12 + HS- 3.132e-12 2.580e-12 -11.504 -11.588 -0.084 21.02 + S-2 8.110e-15 3.964e-15 -14.091 -14.402 -0.311 (0) + H2S 2.253e-15 2.275e-15 -14.647 -14.643 0.004 35.19 + Fe(HS)2 3.179e-25 3.210e-25 -24.498 -24.493 0.004 (0) + (H2S)2 3.933e-31 3.971e-31 -30.405 -30.401 0.004 38.52 + Fe(HS)3- 1.283e-34 1.067e-34 -33.892 -33.972 -0.080 (0) S(6) 3.527e-03 SO4-2 2.648e-03 1.289e-03 -2.577 -2.890 -0.313 25.01 NaSO4- 8.780e-04 7.373e-04 -3.057 -3.132 -0.076 -5.45 @@ -1567,9 +1567,9 @@ S(6) 3.527e-03 FeSO4 1.048e-11 1.058e-11 -10.980 -10.976 0.004 14.09 CaHSO4+ 3.711e-16 3.088e-16 -15.430 -15.510 -0.080 (0) FeHSO4+ 1.245e-20 1.036e-20 -19.905 -19.985 -0.080 (0) - FeSO4+ 1.214e-28 1.015e-28 -27.916 -27.994 -0.078 (0) - Fe(SO4)2- 4.284e-30 3.565e-30 -29.368 -29.448 -0.080 (0) - FeHSO4+2 7.409e-38 3.550e-38 -37.130 -37.450 -0.320 (0) + FeSO4+ 1.256e-28 1.050e-28 -27.901 -27.979 -0.078 (0) + Fe(SO4)2- 4.434e-30 3.689e-30 -29.353 -29.433 -0.080 (0) + FeHSO4+2 7.667e-38 3.673e-38 -37.115 -37.435 -0.320 (0) ------------------------------Saturation indices------------------------------- @@ -1577,26 +1577,26 @@ S(6) 3.527e-03 Anhydrite -4.57 -8.77 -4.20 CaSO4 Aragonite -0.14 -8.33 -8.19 CaCO3 - Barite 0.00 -9.66 -9.66 BaSO4 + Barite -0.00 -9.66 -9.66 BaSO4 Calcite -0.00 -8.33 -8.33 CaCO3 - CH4(g) -10.62 -13.59 -2.97 CH4 + CH4(g) -10.74 -13.71 -2.97 CH4 CO2(g) -4.15 -5.79 -1.64 CO2 - Fe(OH)3(a) -4.33 0.38 4.70 Fe(OH)3 - FeS(ppt) -8.01 -11.93 -3.92 FeS - Goethite 1.60 0.38 -1.23 FeOOH + Fe(OH)3(a) -4.31 0.39 4.70 Fe(OH)3 + FeS(ppt) -8.13 -12.05 -3.92 FeS + Goethite 1.62 0.39 -1.23 FeOOH Gypsum -4.29 -8.77 -4.48 CaSO4:2H2O - H2(g) -7.91 -11.12 -3.21 H2 + H2(g) -7.94 -11.15 -3.21 H2 H2O(g) -1.31 -0.00 1.31 H2O - H2S(g) -13.35 -21.35 -8.00 H2S + H2S(g) -13.47 -21.47 -8.00 H2S Halite -5.87 -4.26 1.61 NaCl - Hematite 5.22 0.75 -4.46 Fe2O3 - Mackinawite -7.35 -11.93 -4.58 FeS + Hematite 5.25 0.78 -4.46 Fe2O3 + Mackinawite -7.47 -12.05 -4.58 FeS Melanterite -10.63 -13.24 -2.60 FeSO4:7H2O Mirabilite -5.05 -6.04 -0.99 Na2SO4:10H2O - O2(g) -65.71 -68.74 -3.03 O2 - Pyrite -7.10 -25.44 -18.34 FeS2 + O2(g) -65.65 -68.68 -3.03 O2 + Pyrite -7.31 -25.64 -18.34 FeS2 Siderite -2.05 -12.80 -10.75 FeCO3 - Sulfur -11.32 -6.68 4.64 S + Sulfur -11.41 -6.77 4.64 S Thenardite -5.82 -6.04 -0.22 Na2SO4 Witherite -0.87 -9.23 -8.36 BaCO3 @@ -1718,7 +1718,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3724 Density (g/cm³) = 1.01056 Volume (L) = 0.99172 - Viscosity (mPa s) = 0.81228 + Viscosity (mPa s) = 0.81230 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.260e-02 Mass of water (kg) = 1.000e+00 @@ -1728,7 +1728,7 @@ X 1.000e+00 mol Pressure (atm) = 300.00 Electrical balance (eq) = 1.824e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.28 - Iterations = 16 + Iterations = 20 Total H = 1.110210e+02 Total O = 5.556936e+01 @@ -1746,8 +1746,8 @@ Ba 9.785e-07 BaSO4 1.493e-07 1.508e-07 -6.826 -6.822 0.004 (0) BaHCO3+ 2.286e-08 1.900e-08 -7.641 -7.721 -0.080 (0) BaOH+ 6.287e-11 5.252e-11 -10.202 -10.280 -0.078 (0) -C(-4) 1.536e-14 - CH4 1.536e-14 1.551e-14 -13.814 -13.809 0.004 36.19 +C(-4) 1.533e-14 + CH4 1.533e-14 1.548e-14 -13.815 -13.810 0.004 36.19 C(4) 1.624e-02 HCO3- 8.570e-03 7.185e-03 -2.067 -2.144 -0.077 26.06 CO3-2 7.474e-03 3.692e-03 -2.126 -2.433 -0.306 -0.30 @@ -1771,8 +1771,8 @@ Cl 2.500e-03 Cl- 2.500e-03 2.064e-03 -2.602 -2.685 -0.083 18.50 FeCl+ 1.786e-13 1.484e-13 -12.748 -12.828 -0.080 (0) HCl 1.137e-13 1.185e-13 -12.944 -12.926 0.018 (0) - FeCl+2 1.168e-30 5.688e-31 -29.933 -30.245 -0.312 (0) - FeCl2+ 6.709e-33 5.605e-33 -32.173 -32.251 -0.078 (0) + FeCl+2 1.168e-30 5.690e-31 -29.932 -30.245 -0.312 (0) + FeCl2+ 6.711e-33 5.606e-33 -32.173 -32.251 -0.078 (0) FeCl3 1.431e-36 1.445e-36 -35.844 -35.840 0.004 (0) Fe(2) 4.045e-09 FeCO3 3.646e-09 3.682e-09 -8.438 -8.434 0.004 (0) @@ -1784,37 +1784,37 @@ Fe(2) 4.045e-09 Fe(OH)3- 8.445e-12 7.055e-12 -11.073 -11.152 -0.078 (0) FeCl+ 1.786e-13 1.484e-13 -12.748 -12.828 -0.080 (0) FeHSO4+ 1.576e-20 1.310e-20 -19.802 -19.883 -0.080 (0) - Fe(HS)2 2.476e-25 2.501e-25 -24.606 -24.602 0.004 (0) - Fe(HS)3- 8.496e-35 7.062e-35 -34.071 -34.151 -0.080 (0) -Fe(3) 3.227e-11 - Fe(OH)4- 2.979e-11 2.498e-11 -10.526 -10.602 -0.077 (0) - Fe(OH)3 2.474e-12 2.499e-12 -11.607 -11.602 0.004 (0) - Fe(OH)2+ 2.076e-15 1.740e-15 -14.683 -14.759 -0.077 (0) - FeOH+2 9.958e-22 4.850e-22 -21.002 -21.314 -0.312 (0) - FeSO4+ 1.597e-28 1.334e-28 -27.797 -27.875 -0.078 (0) - Fe+3 2.402e-29 6.252e-30 -28.619 -29.204 -0.585 (0) - Fe(SO4)2- 6.251e-30 5.196e-30 -29.204 -29.284 -0.080 (0) - FeCl+2 1.168e-30 5.688e-31 -29.933 -30.245 -0.312 (0) - FeCl2+ 6.709e-33 5.605e-33 -32.173 -32.251 -0.078 (0) + Fe(HS)2 2.467e-25 2.491e-25 -24.608 -24.604 0.004 (0) + Fe(HS)3- 8.447e-35 7.022e-35 -34.073 -34.154 -0.080 (0) +Fe(3) 3.228e-11 + Fe(OH)4- 2.980e-11 2.498e-11 -10.526 -10.602 -0.077 (0) + Fe(OH)3 2.475e-12 2.499e-12 -11.606 -11.602 0.004 (0) + Fe(OH)2+ 2.077e-15 1.741e-15 -14.683 -14.759 -0.077 (0) + FeOH+2 9.961e-22 4.851e-22 -21.002 -21.314 -0.312 (0) + FeSO4+ 1.598e-28 1.335e-28 -27.796 -27.875 -0.078 (0) + Fe+3 2.402e-29 6.253e-30 -28.619 -29.204 -0.585 (0) + Fe(SO4)2- 6.253e-30 5.197e-30 -29.204 -29.284 -0.080 (0) + FeCl+2 1.168e-30 5.690e-31 -29.932 -30.245 -0.312 (0) + FeCl2+ 6.711e-33 5.606e-33 -32.173 -32.251 -0.078 (0) FeCl3 1.431e-36 1.445e-36 -35.844 -35.840 0.004 (0) - FeHSO4+2 1.033e-37 4.932e-38 -36.986 -37.307 -0.321 (0) - Fe2(OH)2+4 0.000e+00 0.000e+00 -40.003 -41.287 -1.284 (0) + FeHSO4+2 1.033e-37 4.933e-38 -36.986 -37.307 -0.321 (0) + Fe2(OH)2+4 0.000e+00 0.000e+00 -40.002 -41.287 -1.284 (0) Fe3(OH)4+5 0.000e+00 0.000e+00 -51.916 -53.923 -2.007 (0) -H(0) 1.251e-11 - H2 6.255e-12 6.316e-12 -11.204 -11.200 0.004 28.47 +H(0) 1.250e-11 + H2 6.252e-12 6.313e-12 -11.204 -11.200 0.004 28.47 Na 3.377e-02 Na+ 3.259e-02 2.720e-02 -1.487 -1.565 -0.078 -0.12 NaSO4- 1.001e-03 8.395e-04 -3.000 -3.076 -0.076 -3.80 NaHCO3 1.789e-04 1.825e-04 -3.747 -3.739 0.009 31.79 O(0) 0.000e+00 - O2 0.000e+00 0.000e+00 -68.668 -68.664 0.004 30.31 -S(-2) 2.455e-12 - HS- 2.446e-12 2.014e-12 -11.611 -11.696 -0.085 21.05 - S-2 6.543e-15 3.186e-15 -14.184 -14.497 -0.312 (0) - H2S 1.777e-15 1.794e-15 -14.750 -14.746 0.004 34.18 - Fe(HS)2 2.476e-25 2.501e-25 -24.606 -24.602 0.004 (0) - (H2S)2 2.590e-31 2.615e-31 -30.587 -30.582 0.004 42.42 - Fe(HS)3- 8.496e-35 7.062e-35 -34.071 -34.151 -0.080 (0) + O2 0.000e+00 0.000e+00 -68.668 -68.663 0.004 30.31 +S(-2) 2.450e-12 + HS- 2.442e-12 2.010e-12 -11.612 -11.697 -0.085 21.05 + S-2 6.531e-15 3.180e-15 -14.185 -14.498 -0.312 (0) + H2S 1.773e-15 1.791e-15 -14.751 -14.747 0.004 34.18 + Fe(HS)2 2.467e-25 2.491e-25 -24.608 -24.604 0.004 (0) + (H2S)2 2.580e-31 2.605e-31 -30.588 -30.584 0.004 42.42 + Fe(HS)3- 8.447e-35 7.022e-35 -34.073 -34.154 -0.080 (0) S(6) 3.615e-03 SO4-2 2.614e-03 1.268e-03 -2.583 -2.897 -0.314 26.61 NaSO4- 1.001e-03 8.395e-04 -3.000 -3.076 -0.076 -3.80 @@ -1824,9 +1824,9 @@ S(6) 3.615e-03 FeSO4 1.185e-11 1.196e-11 -10.926 -10.922 0.004 14.09 CaHSO4+ 4.797e-16 3.988e-16 -15.319 -15.399 -0.080 (0) FeHSO4+ 1.576e-20 1.310e-20 -19.802 -19.883 -0.080 (0) - FeSO4+ 1.597e-28 1.334e-28 -27.797 -27.875 -0.078 (0) - Fe(SO4)2- 6.251e-30 5.196e-30 -29.204 -29.284 -0.080 (0) - FeHSO4+2 1.033e-37 4.932e-38 -36.986 -37.307 -0.321 (0) + FeSO4+ 1.598e-28 1.335e-28 -27.796 -27.875 -0.078 (0) + Fe(SO4)2- 6.253e-30 5.197e-30 -29.204 -29.284 -0.080 (0) + FeHSO4+2 1.033e-37 4.933e-38 -36.986 -37.307 -0.321 (0) ------------------------------Saturation indices------------------------------- @@ -1839,7 +1839,7 @@ S(6) 3.615e-03 CH4(g) -10.78 -13.81 -3.03 CH4 CO2(g) -4.11 -5.81 -1.70 CO2 Fe(OH)3(a) -4.23 0.38 4.61 Fe(OH)3 - FeS(ppt) -8.19 -12.11 -3.92 FeS + FeS(ppt) -8.19 -12.12 -3.92 FeS Goethite 1.63 0.38 -1.25 FeOOH Gypsum -4.27 -8.71 -4.44 CaSO4:2H2O H2(g) -7.94 -11.20 -3.26 H2 @@ -1847,7 +1847,7 @@ S(6) 3.615e-03 H2S(g) -13.52 -21.56 -8.04 H2S Halite -5.87 -4.25 1.62 NaCl Hematite 5.26 0.76 -4.50 Fe2O3 - Mackinawite -7.56 -12.11 -4.55 FeS + Mackinawite -7.56 -12.12 -4.55 FeS Melanterite -10.34 -13.18 -2.84 FeSO4:7H2O Mirabilite -5.06 -6.03 -0.98 Na2SO4:10H2O O2(g) -65.58 -68.66 -3.08 O2 @@ -1902,7 +1902,8 @@ Reading input data for simulation 16. -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -1929,7 +1930,8 @@ Reading input data for simulation 16. -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -1956,7 +1958,8 @@ Reading input data for simulation 16. -total_o 55.506216801175 -cb -1.4173167838645e-09 -density 0.99708478442514 - -viscosity 0.890262715462 + -viscosity 0.89026271084721 + -viscos_0 0.8900239182799 -totals Cl 0.0010000000000003 H(0) 1.4155655512664e-25 @@ -2457,50 +2460,51 @@ Reading input data for simulation 16. -temp 30 -pressure 300 -potential 0 - -total_h 111.02097669946 - -total_o 55.569362375096 - -cb 0.00018244632275129 - -density 1.0105593314927 - -viscosity 0.8122752878 + -total_h 111.02097669947 + -total_o 55.569362375098 + -cb 0.00018244632289687 + -density 1.0105593314926 + -viscosity 0.81230314564192 + -viscos_0 0.79770975008627 -totals - Ba 9.7854536558955e-07 - C(-4) 1.5355022078563e-14 - C(4) 0.016235677385881 - Ca 1.3566418233355e-05 - Cl 0.002499999999998 - Fe(2) 4.0446464464897e-09 - Fe(3) 3.2267636793227e-11 - H(0) 1.2509162011826e-11 - Na 0.033768689326175 - S(-2) 2.4547588935524e-12 - S(6) 0.0036150000145016 - -pH 9.8611364073805 - -pe -5.9213058990161 - -mu 0.042596931266962 - -ah2o 0.99906312930993 + Ba 9.7854536583022e-07 + C(-4) 1.5325497826068e-14 + C(4) 0.016235677388059 + Ca 1.3566418233477e-05 + Cl 0.002500000000001 + Fe(2) 4.0446464467291e-09 + Fe(3) 3.2275400587155e-11 + H(0) 1.2503144592972e-11 + Na 0.03376868932526 + S(-2) 2.450038942902e-12 + S(6) 0.0036150000132694 + -pH 9.8611364072005 + -pe -5.9212014169945 + -mu 0.042596931264651 + -ah2o 0.99906312930992 -mass_water 0.99999664419201 - -soln_vol 0.99172357056611 - -total_alkalinity 0.023885341023181 + -soln_vol 0.99172357056616 + -total_alkalinity 0.023885341024591 -activities - Ba -6.7128994660371 - C(-4) -13.80965757836 - C(4) -2.4327015402681 - Ca -5.8145726826544 - Cl -2.6852871894892 - E 5.9213058990161 - Fe(2) -10.27946995158 - Fe(3) -29.20396245307 - H(0) -11.199582921359 - Na -1.5653749026866 - O(0) -68.66362006403 - S(-2) -11.696185106463 - S(6) -2.8968859217203 + Ba -6.7128994658949 + C(-4) -13.810192354408 + C(4) -2.4327015403032 + Ca -5.8145726826195 + Cl -2.6852871894869 + E 5.9212014169945 + Fe(2) -10.279469951512 + Fe(3) -29.203895605776 + H(0) -11.199716615453 + Na -1.5653749026934 + O(0) -68.663352675844 + S(-2) -11.6967198828 + S(6) -2.8968859218615 -gammas EQUILIBRIUM_PHASES_RAW 3 Pure-phase assemblage after simulation 14. -new_def 0 -component Barite -si 0 - -moles 9.9978605940903 + -moles 9.9978605940901 -force_equality 0 -dissolve_only 0 -precipitate_only 0 @@ -2517,13 +2521,13 @@ Reading input data for simulation 16. -exchange_gammas 1 -component X -totals - Ba 0.0013807875525697 - Ca 0.0077292399674904 - Fe 1.0371110902359e-07 - Na 0.98177974326096 - X 1.0000000057233 + Ba 0.0013807875532523 + Ca 0.0077292399694158 + Fe 1.0371110905741e-07 + Na 0.98177974340441 + X 1.000000005872 -charge_balance 0 - -la 1.4795779925578 + -la 1.4795779925651 -phase_proportion 0 -formula_z 0 -new_def 0 @@ -2542,27 +2546,27 @@ Reading input data for simulation 16. -component Hfo_s -formula_z 0 -moles 0 - -la -0.73749210708583 - -charge_balance -8.3931202761174e-05 + -la -0.73749210700446 + -charge_balance -8.3931202742801e-05 -phase_proportion 0 -Dw 0 -charge_name Hfo -master_element Hfo_s -totals - Ba 0.00075816377399388 - Ca 0.0018078975744196 - Fe 0.00017963772106481 - H 0.0044246706576642 - Hfo_s 0.009999999999382 - O 0.009999999999382 + Ba 0.00075816377415656 + Ca 0.0018078975743612 + Fe 0.00017963772103167 + H 0.0044246706582562 + Hfo_s 0.010000000000098 + O 0.010000000000098 -charge_component Hfo -specific_area 600 -grams 1 - -charge_balance -8.3931202761174e-05 + -charge_balance -8.3931202742801e-05 -mass_water 0 -f_free 0 -ddl_viscosity 0 - -la_psi -0.23022847104874 + -la_psi -0.23022847100839 -capacitance0 1 -capacitance1 5 -diffuse_layer_totals @@ -2580,27 +2584,27 @@ Reading input data for simulation 16. SOLID_SOLUTIONS_RAW 3 Solid solution assemblage after simulation 14 -solid_solution Calcite -component calcite - -moles 0.090456086594524 - -initial_moles 0.090456086594524 + -moles 0.090456086595134 + -initial_moles 0.090456086595134 -init_moles 0.1 -delta 0 - -fraction_x 0.99101348131156 + -fraction_x 0.99101348131087 -log10_lambda 0 - -log10_fraction_x -0.0039204375234089 - -dn 10.955741273153 + -log10_fraction_x -0.0039204375237076 + -dn 10.955741273072 -dnc 0 - -dnb -0.099346755168912 + -dnb -0.099346755175778 -component siderite - -moles 0.00082025656360335 - -initial_moles 0.00082025656360335 + -moles 0.00082025656367166 + -initial_moles 0.00082025656367166 -init_moles 0.001 -delta 0 - -fraction_x 0.0089865186884441 + -fraction_x 0.0089865186891257 -log10_lambda 0 - -log10_fraction_x -2.0464085181904 - -dn 10.955741273153 + -log10_fraction_x -2.0464085181574 + -dn 10.955741273072 -dnc 0 - -dnb -1208.1750092411 + -dnb -1208.1750091397 -tk 298.15 -input_case -1 -p 0 0 0 0 @@ -2613,8 +2617,8 @@ Reading input data for simulation 16. -miscibility 0 -spinodal 0 -ss_in 1 - -total_moles 0.091276343158127 - -dn 10.955741273153 + -total_moles 0.091276343158805 + -dn 10.955741273072 -totals -new_def 0 -SSassemblage_totals @@ -2623,13 +2627,13 @@ Reading input data for simulation 16. -total_p 300 -volume 1 -component CO2(g) - -moles 1.0451705635491e-31 + -moles 1.0451705643308e-31 -p_read 0.00035 -initial_moles 1.4305536417623e-05 - -p 0.00031355116906472 + -p 0.00031355116929923 -phase_name is obsolete. Define with -component -phi 0.24830000182343 - -f 7.7854755850508e-05 + -f 7.7854755908737e-05 -new_def 0 -solution_equilibria 0 -n_solution -99 @@ -2653,16 +2657,16 @@ Reading input data for simulation 16. CaCO3 1 -d_params 1 1 1 1 - -moles 8.8743519199852e-09 + -moles 8.8743515869183e-09 -initial_moles 1 -equal_increments 1 -count 1 -steps 1 -totals - C 8.8743519652914e-09 - Ca 8.8743519652914e-09 - O 2.6623055895874e-08 + C 8.8743516180068e-09 + Ca 8.8743516180068e-09 + O 2.662305485402e-08 MIX_RAW 3 2 0.5 3 0.5 @@ -2857,7 +2861,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3695 Density (g/cm³) = 1.00194 Volume (L) = 0.50017 - Viscosity (mPa s) = 0.81186 + Viscosity (mPa s) = 0.81189 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.199e-02 Mass of water (kg) = 5.000e-01 @@ -3113,7 +3117,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3832 Density (g/cm³) = 1.00636 Volume (L) = 0.49801 - Viscosity (mPa s) = 0.81265 + Viscosity (mPa s) = 0.81268 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.344e-02 Mass of water (kg) = 5.000e-01 @@ -3369,7 +3373,7 @@ X 1.000e+00 mol Specific Conductance (µS/cm, 30°C) = 3962 Density (g/cm³) = 1.01070 Volume (L) = 0.49590 - Viscosity (mPa s) = 0.81371 + Viscosity (mPa s) = 0.81374 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.482e-02 Mass of water (kg) = 5.000e-01 diff --git a/mytest/ppdump_101.sel b/mytest/ppdump_101.sel index 9504cfb3..ef2ef5e6 100644 --- a/mytest/ppdump_101.sel +++ b/mytest/ppdump_101.sel @@ -1,13 +1,13 @@ Mu SC - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087775 - 0.033889225497 2942.8148523125 - 0.035121027341 3059.0610781240 - 0.036284144011 3169.6999191387 - 0.040352058351 3503.9022801857 - 0.041507548720 3617.1319806974 - 0.042596931267 3724.6674904799 - 0.041988701463 3695.8472126935 - 0.043443474363 3832.7539388113 - 0.044816662088 3962.7058177293 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092414 + 0.033889225497 2942.7734327126 + 0.035121027341 3059.0169686509 + 0.036284144011 3169.6531836168 + 0.040352058351 3503.8503570833 + 0.041507548723 3617.0772808343 + 0.042596931265 3724.6100910313 + 0.041988701463 3695.7933980286 + 0.043443474363 3832.6967447962 + 0.044816662088 3962.6453233378 diff --git a/mytest/pr_h2o.out b/mytest/pr_h2o.out index 746a0bab..5bba4e16 100644 --- a/mytest/pr_h2o.out +++ b/mytest/pr_h2o.out @@ -177,10 +177,10 @@ H2O(g) -1.00 1.000e-01 0.999 4.087e-12 5.549e+01 5.549e+01 pH = 6.588 Charge balance pe = 9.120 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 359077 + Specific Conductance (µS/cm, 50°C) = 358882 Density (g/cm³) = 1.15908 Volume (L) = 0.00034 - Viscosity (mPa s) = 0.98199 + Viscosity (mPa s) = 0.98272 Activity of water = 0.823 Ionic strength (mol/kgw) = 5.211e+00 Mass of water (kg) = 2.998e-04 @@ -246,7 +246,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 292 Density (g/cm³) = 0.98829 Volume (L) = 1.01194 - Viscosity (mPa s) = 0.54684 + Viscosity (mPa s) = 0.54685 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -312,7 +312,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 292 Density (g/cm³) = 0.98854 Volume (L) = 1.01169 - Viscosity (mPa s) = 0.54695 + Viscosity (mPa s) = 0.54696 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -378,7 +378,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 292 Density (g/cm³) = 0.98878 Volume (L) = 1.01144 - Viscosity (mPa s) = 0.54706 + Viscosity (mPa s) = 0.54707 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -444,7 +444,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 292 Density (g/cm³) = 0.98902 Volume (L) = 1.01120 - Viscosity (mPa s) = 0.54717 + Viscosity (mPa s) = 0.54719 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -510,7 +510,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 293 Density (g/cm³) = 0.98926 Volume (L) = 1.01095 - Viscosity (mPa s) = 0.54728 + Viscosity (mPa s) = 0.54730 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -576,7 +576,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 293 Density (g/cm³) = 0.98950 Volume (L) = 1.01070 - Viscosity (mPa s) = 0.54740 + Viscosity (mPa s) = 0.54741 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -642,7 +642,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 293 Density (g/cm³) = 0.98974 Volume (L) = 1.01046 - Viscosity (mPa s) = 0.54751 + Viscosity (mPa s) = 0.54752 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -708,7 +708,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 293 Density (g/cm³) = 0.98998 Volume (L) = 1.01021 - Viscosity (mPa s) = 0.54762 + Viscosity (mPa s) = 0.54764 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 @@ -774,7 +774,7 @@ Using pressure 1. Specific Conductance (µS/cm, 50°C) = 293 Density (g/cm³) = 0.99022 Volume (L) = 1.00997 - Viscosity (mPa s) = 0.54774 + Viscosity (mPa s) = 0.54775 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.562e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/pr_h2o_101.sel b/mytest/pr_h2o_101.sel index 7983d7ef..676fa204 100644 --- a/mytest/pr_h2o_101.sel +++ b/mytest/pr_h2o_101.sel @@ -1,12 +1,12 @@ Mu SC - 0.001562126497 210.6759473464 - 5.210645933089 359077.3033037914 - 0.001562245143 292.7458997381 - 0.001562245703 292.8300216947 - 0.001562246265 292.9138999819 - 0.001562246831 292.9975336630 - 0.001562247397 293.0809219107 - 0.001562247965 293.1640638912 - 0.001562248533 293.2469587986 - 0.001562249103 293.3297057809 - 0.001562249662 293.4124076021 + 0.001562126497 210.6753108503 + 5.210645933089 358882.4390935232 + 0.001562245143 292.7409653173 + 0.001562245703 292.8250865498 + 0.001562246265 292.9089641164 + 0.001562246831 292.9925970803 + 0.001562247397 293.0759846144 + 0.001562247965 293.1591258849 + 0.001562248533 293.2420200858 + 0.001562249103 293.3247663635 + 0.001562249662 293.4074674802 diff --git a/mytest/precipitate_only_101.sel b/mytest/precipitate_only_101.sel index 801891da..97738404 100644 --- a/mytest/precipitate_only_101.sel +++ b/mytest/precipitate_only_101.sel @@ -1,4 +1,4 @@ Mu SC 0.000000100661 0.0546997340 - 0.000385530171 36.1571055701 - 0.944667580114 318973.4016694841 + 0.000385530171 36.1571056924 + 0.944667580114 318973.4376455626 diff --git a/mytest/pressure_si.out b/mytest/pressure_si.out index 7fa94e39..637d778b 100644 --- a/mytest/pressure_si.out +++ b/mytest/pressure_si.out @@ -56,7 +56,7 @@ Initial solution 1. Specific Conductance (µS/cm, 75°C) = 484 Density (g/cm³) = 0.97506 Volume (L) = 1.02582 - Viscosity (mPa s) = 0.37797 + Viscosity (mPa s) = 0.37803 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.238e-03 Mass of water (kg) = 1.000e+00 @@ -150,7 +150,7 @@ Calcite -0.00 -8.72 -8.72 1.000e+01 1.000e+01 -2.033e-04 Specific Conductance (µS/cm, 75°C) = 148 Density (g/cm³) = 0.99600 Volume (L) = 1.00404 - Viscosity (mPa s) = 0.39115 + Viscosity (mPa s) = 0.39117 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.972e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/pressure_si_101.sel b/mytest/pressure_si_101.sel index ce1405e8..f9e33145 100644 --- a/mytest/pressure_si_101.sel +++ b/mytest/pressure_si_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.003238405506 484.2027617331 - 0.000697213524 148.5915204459 + 0.003238405506 484.0990294607 + 0.000697213524 148.5861421630 diff --git a/mytest/prob8_101.sel b/mytest/prob8_101.sel index dd260009..ecd862d0 100644 --- a/mytest/prob8_101.sel +++ b/mytest/prob8_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.065753543788 4553.8254662800 - 0.057527812298 4171.3599775319 - 0.048895040023 3739.7792185894 - 0.042564150784 3399.4231689437 + 0.065753543788 4553.8254896893 + 0.057527812298 4171.3599979478 + 0.048895040023 3739.7792353081 + 0.042564150784 3399.4231721168 diff --git a/mytest/rate_parameters_101.sel b/mytest/rate_parameters_101.sel index 84d17d58..2298332a 100644 --- a/mytest/rate_parameters_101.sel +++ b/mytest/rate_parameters_101.sel @@ -1,92 +1,92 @@ Mu SC 0.000000100661 0.0546997340 - 1.360612168973 475717.8607577567 - 0.410098469485 159070.2104846459 - 0.122379599293 49318.4765883482 - 0.036497908572 14982.5910771485 - 0.010985261081 4562.7481727657 - 0.003351280590 1403.7736681296 - 0.001035104259 436.1881441233 - 0.000322626370 136.4966601356 - 0.000101154249 42.9033454158 - 0.000031830147 13.5205746083 - 0.000010037541 4.2674103689 - 0.000003169472 1.3483949577 + 1.360612168973 475717.9255980534 + 0.410098469485 159070.2226335660 + 0.122379599293 49318.4786482129 + 0.036497908572 14982.5914177266 + 0.010985261081 4562.7482294817 + 0.003351280590 1403.7736777468 + 0.001035104259 436.1881457821 + 0.000322626370 136.4966604252 + 0.000101154249 42.9033454668 + 0.000031830147 13.5205746173 + 0.000010037541 4.2674103705 + 0.000003169472 1.3483949580 0.000001001783 0.4272829982 0.000000317047 0.1385586960 0.000000100748 0.0547033129 0.000000319682 0.0850534026 0.000001012756 0.2412979477 0.000003206863 0.7547499196 - 0.000010158839 2.3863149952 - 0.000032219429 7.5581574521 - 0.000102411316 23.9721727650 - 0.000326795636 76.2045367810 - 0.001049944112 243.1821355901 - 0.003412861642 781.0270809968 - 0.011308631154 2533.5152451767 - 0.038583778883 8327.6895101652 - 0.136622804433 27656.5146667779 - 0.497107455063 90420.8287067054 - 1.763786308027 271308.1208578640 - 1.360612168532 475717.8608065663 - 0.410098469224 159070.2105085291 - 0.122379599138 49318.4766001133 - 0.036497908481 14982.5910833036 - 0.010985261027 4562.7481762476 - 0.003351280558 1403.7736702060 - 0.001035104240 436.1881453923 - 0.000322626358 136.4966609158 - 0.000101154241 42.9033458803 - 0.000031830142 13.5205748324 - 0.000010037538 4.2674103764 - 0.000003169470 1.3483948304 + 0.000010158839 2.3863149954 + 0.000032219429 7.5581574534 + 0.000102411316 23.9721727722 + 0.000326795636 76.2045368217 + 0.001049944112 243.1821358212 + 0.003412861642 781.0270823171 + 0.011308631154 2533.5152527842 + 0.038583778883 8327.6895542880 + 0.136622804433 27656.5149175990 + 0.497107455063 90420.8299250421 + 1.763786308027 271308.1240055258 + 1.360612168532 475717.9256468632 + 0.410098469224 159070.2226574492 + 0.122379599138 49318.4786599780 + 0.036497908481 14982.5914238817 + 0.010985261027 4562.7482329636 + 0.003351280558 1403.7736798232 + 0.001035104240 436.1881470511 + 0.000322626358 136.4966612054 + 0.000101154241 42.9033459312 + 0.000031830142 13.5205748415 + 0.000010037538 4.2674103780 + 0.000003169470 1.3483948307 0.000001001781 0.4272828179 - 0.000000317045 0.1385585019 + 0.000000317045 0.1385585020 0.000000100746 0.0547030690 0.000000319677 0.0850529549 0.000001012746 0.2412970798 0.000003206842 0.7547481919 - 0.000010158790 2.3863113262 - 0.000032219294 7.5581488657 - 0.000102410944 23.9721518731 - 0.000326794738 76.2044894535 - 0.001049942179 243.1820367664 - 0.003412857634 781.0268815274 - 0.011308622482 2533.5148388645 - 0.038583757519 8327.6886372249 - 0.136622746703 27656.5127815078 - 0.497107317999 90420.8258097291 - 1.763786035172 271308.1203881076 - 1.360612168860 475717.8607703280 - 0.410098469481 159070.2104850028 - 0.122379599340 49318.4765847635 - 0.036497908640 14982.5910726082 - 0.010985261154 4562.7481681029 - 0.003351280662 1403.7736635820 - 0.001035104327 436.1881398086 - 0.000322626433 136.4966561672 - 0.000101154306 42.9033420365 - 0.000031830197 13.5205724531 - 0.000010037578 4.2674102857 - 0.000003169495 1.3483962724 + 0.000010158790 2.3863113264 + 0.000032219294 7.5581488669 + 0.000102410944 23.9721518803 + 0.000326794738 76.2044894942 + 0.001049942179 243.1820369975 + 0.003412857634 781.0268828477 + 0.011308622482 2533.5148464720 + 0.038583757519 8327.6886813476 + 0.136622746703 27656.5130323289 + 0.497107317999 90420.8270280655 + 1.763786035172 271308.1235357693 + 1.360612168860 475717.9256106249 + 0.410098469481 159070.2226339229 + 0.122379599340 49318.4786446282 + 0.036497908640 14982.5914131863 + 0.010985261154 4562.7482248190 + 0.003351280662 1403.7736731992 + 0.001035104327 436.1881414674 + 0.000322626433 136.4966564568 + 0.000101154306 42.9033420875 + 0.000031830197 13.5205724621 + 0.000010037578 4.2674102873 + 0.000003169495 1.3483962727 0.000001001798 0.4272843888 0.000000317057 0.1385596286 0.000000100755 0.0547039494 0.000000319688 0.0850539411 0.000001012759 0.2412982566 - 0.000003206860 0.7547496647 - 0.000010158817 2.3863133429 - 0.000032219343 7.5581519854 - 0.000102411036 23.9721570041 - 0.000326794890 76.2044974591 - 0.001049942407 243.1820484527 - 0.003412857969 781.0268982032 - 0.011308622998 2533.5148630703 - 0.038583758429 8327.6886743782 - 0.136622748493 27656.5128401901 - 0.497107320996 90420.8258730943 - 1.763786039499 271308.1203974175 + 0.000003206860 0.7547496648 + 0.000010158817 2.3863133431 + 0.000032219343 7.5581519867 + 0.000102411036 23.9721570113 + 0.000326794890 76.2044974998 + 0.001049942407 243.1820486838 + 0.003412857969 781.0268995235 + 0.011308622998 2533.5148706778 + 0.038583758429 8327.6887185009 + 0.136622748493 27656.5130910111 + 0.497107320996 90420.8270914307 + 1.763786039499 271308.1235450791 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 diff --git a/mytest/rate_xmpls_101.sel b/mytest/rate_xmpls_101.sel index fe26ad37..1c477a58 100644 --- a/mytest/rate_xmpls_101.sel +++ b/mytest/rate_xmpls_101.sel @@ -1,121 +1,121 @@ Mu SC 0.000000100661 0.0546997340 - 1.360612168973 475717.8607577567 - 0.410098469539 159070.2104796606 - 0.122379599362 49318.4765830821 - 0.036497908638 14982.5910727191 - 0.010985261137 4562.7481691935 - 0.003351280635 1403.7736653003 - 0.001035104293 436.1881419472 - 0.000322626396 136.4966585398 - 0.000101154267 42.9033443600 - 0.000031830159 13.5205741042 - 0.000010037547 4.2674103552 - 0.000003169474 1.3483950886 + 1.360612168973 475717.9255980534 + 0.410098469539 159070.2226285806 + 0.122379599362 49318.4786429468 + 0.036497908638 14982.5914132972 + 0.010985261137 4562.7482259096 + 0.003351280635 1403.7736749176 + 0.001035104293 436.1881436060 + 0.000322626396 136.4966588294 + 0.000101154267 42.9033444110 + 0.000031830159 13.5205741132 + 0.000010037547 4.2674103568 + 0.000003169474 1.3483950889 0.000001001783 0.4272830394 0.000000317046 0.1385586357 0.000000100747 0.0547031672 0.000000319678 0.0850530727 0.000001012748 0.2412972475 - 0.000003206845 0.7547484590 - 0.000010158796 2.3863118039 - 0.000032219309 7.5581498330 - 0.000102410981 23.9721539385 - 0.000326794816 76.2044935882 - 0.001049942328 243.1820444225 - 0.003412857909 781.0268952494 - 0.011308623011 2533.5148636852 - 0.038583758674 8327.6886844090 - 0.136622749455 27656.5128711669 - 0.497107323763 90420.8259316194 - 1.763786045372 271308.1204100549 - 1.360612170325 475717.8606083016 - 0.410098470223 159070.2104170808 - 0.122379599697 49318.4765575950 - 0.036497908793 14982.5910622665 - 0.010985261203 4562.7481649558 - 0.003351280659 1403.7736637829 - 0.001035104299 436.1881416177 - 0.000322626394 136.4966586614 - 0.000101154263 42.9033445677 - 0.000031830156 13.5205742224 - 0.000010037546 4.2674103579 - 0.000003169474 1.3483950783 - 0.000001001784 0.4272830572 + 0.000003206845 0.7547484591 + 0.000010158796 2.3863118041 + 0.000032219309 7.5581498343 + 0.000102410981 23.9721539457 + 0.000326794816 76.2044936289 + 0.001049942328 243.1820446536 + 0.003412857909 781.0268965698 + 0.011308623011 2533.5148712927 + 0.038583758674 8327.6887285317 + 0.136622749455 27656.5131219879 + 0.497107323763 90420.8271499558 + 1.763786045372 271308.1235577165 + 1.360612170325 475717.9254485985 + 0.410098470223 159070.2225660008 + 0.122379599697 49318.4786174597 + 0.036497908793 14982.5914028446 + 0.010985261203 4562.7482216718 + 0.003351280659 1403.7736734001 + 0.001035104299 436.1881432765 + 0.000322626394 136.4966589510 + 0.000101154263 42.9033446186 + 0.000031830156 13.5205742314 + 0.000010037546 4.2674103595 + 0.000003169474 1.3483950785 + 0.000001001784 0.4272830573 0.000000317047 0.1385586593 0.000000100747 0.0547031838 0.000000319678 0.0850530760 0.000001012747 0.2412972162 0.000003206844 0.7547483531 - 0.000010158793 2.3863115350 - 0.000032219299 7.5581491726 - 0.000102410953 23.9721523554 - 0.000326794751 76.2044901773 - 0.001049942199 243.1820377900 - 0.003412857662 781.0268829522 - 0.011308622525 2533.5148408935 - 0.038583757595 8327.6886402941 - 0.136622746846 27656.5127861844 - 0.497107318241 90420.8258148453 - 1.763786035515 271308.1203888462 - 1.360612170985 475717.8605353117 - 0.410098470589 159070.2103835305 - 0.122379599901 49318.4765420850 - 0.036497908906 14982.5910546686 - 0.010985261265 4562.7481609470 - 0.003351280693 1403.7736615678 - 0.001035104318 436.1881403762 - 0.000322626405 136.4966579721 - 0.000101154269 42.9033442050 - 0.000031830159 13.5205740722 - 0.000010037548 4.2674103537 - 0.000003169475 1.3483951352 - 0.000001001784 0.4272831205 + 0.000010158793 2.3863115353 + 0.000032219299 7.5581491738 + 0.000102410953 23.9721523626 + 0.000326794751 76.2044902180 + 0.001049942199 243.1820380212 + 0.003412857662 781.0268842725 + 0.011308622525 2533.5148485010 + 0.038583757595 8327.6886844168 + 0.136622746846 27656.5130370054 + 0.497107318241 90420.8270331817 + 1.763786035515 271308.1235365079 + 1.360612170985 475717.9253756086 + 0.410098470589 159070.2225324506 + 0.122379599901 49318.4786019497 + 0.036497908906 14982.5913952467 + 0.010985261265 4562.7482176630 + 0.003351280693 1403.7736711850 + 0.001035104318 436.1881420351 + 0.000322626405 136.4966582617 + 0.000101154269 42.9033442560 + 0.000031830159 13.5205740812 + 0.000010037548 4.2674103553 + 0.000003169475 1.3483951355 + 0.000001001784 0.4272831206 0.000000317047 0.1385587117 0.000000100747 0.0547032336 0.000000319679 0.0850531444 0.000001012748 0.2412973145 0.000003206845 0.7547484973 - 0.000010158796 2.3863117600 - 0.000032219305 7.5581495586 - 0.000102410965 23.9721530431 - 0.000326794773 76.2044913172 - 0.001049942233 243.1820395306 - 0.003412857714 781.0268855194 - 0.011308622606 2533.5148447102 - 0.038583757740 8327.6886462531 - 0.136622747131 27656.5127954748 - 0.497107318730 90420.8258251789 - 1.763786036215 271308.1203903531 - 1.360612168860 475717.8607703280 - 0.410098469481 159070.2104850028 - 0.122379599340 49318.4765847635 - 0.036497908640 14982.5910726082 - 0.010985261154 4562.7481681029 - 0.003351280662 1403.7736635820 - 0.001035104327 436.1881398086 - 0.000322626433 136.4966561672 - 0.000101154306 42.9033420365 - 0.000031830197 13.5205724531 - 0.000010037578 4.2674102857 - 0.000003169495 1.3483962724 + 0.000010158796 2.3863117602 + 0.000032219305 7.5581495598 + 0.000102410965 23.9721530503 + 0.000326794773 76.2044913579 + 0.001049942233 243.1820397618 + 0.003412857714 781.0268868397 + 0.011308622606 2533.5148523177 + 0.038583757740 8327.6886903759 + 0.136622747131 27656.5130462958 + 0.497107318730 90420.8270435152 + 1.763786036215 271308.1235380148 + 1.360612168860 475717.9256106249 + 0.410098469481 159070.2226339229 + 0.122379599340 49318.4786446282 + 0.036497908640 14982.5914131863 + 0.010985261154 4562.7482248190 + 0.003351280662 1403.7736731992 + 0.001035104327 436.1881414674 + 0.000322626433 136.4966564568 + 0.000101154306 42.9033420875 + 0.000031830197 13.5205724621 + 0.000010037578 4.2674102873 + 0.000003169495 1.3483962727 0.000001001798 0.4272843888 0.000000317057 0.1385596286 0.000000100755 0.0547039494 0.000000319688 0.0850539411 0.000001012759 0.2412982566 - 0.000003206860 0.7547496647 - 0.000010158817 2.3863133429 - 0.000032219343 7.5581519854 - 0.000102411036 23.9721570041 - 0.000326794890 76.2044974591 - 0.001049942407 243.1820484527 - 0.003412857969 781.0268982032 - 0.011308622998 2533.5148630703 - 0.038583758429 8327.6886743782 - 0.136622748493 27656.5128401901 - 0.497107320996 90420.8258730943 - 1.763786039499 271308.1203974175 + 0.000003206860 0.7547496648 + 0.000010158817 2.3863133431 + 0.000032219343 7.5581519867 + 0.000102411036 23.9721570113 + 0.000326794890 76.2044974998 + 0.001049942407 243.1820486838 + 0.003412857969 781.0268995235 + 0.011308622998 2533.5148706778 + 0.038583758429 8327.6887185009 + 0.136622748493 27656.5130910111 + 0.497107320996 90420.8270914307 + 1.763786039499 271308.1235450791 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 @@ -137,52 +137,52 @@ 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 - 0.000006940132 2.7155621534 - 0.000045001402 3.3354810234 - 0.000286424928 19.3407244205 - 0.000432906104 31.0419789358 - 0.000486143817 35.5094520002 - 0.000501052000 36.7394944605 - 0.000504993293 37.0633040480 - 0.000506022456 37.1477660679 - 0.000506290178 37.1697314476 - 0.000506359754 37.1754393542 - 0.000506384778 37.1774923047 - 0.000506384778 37.1774923074 - 0.000034160599 2.6947099356 - 0.000194228467 13.1701472877 - 0.000325320799 22.0067578675 - 0.000418394423 29.8015891466 - 0.000462968264 33.5798511729 - 0.000484789864 35.3973192337 - 0.000495609524 36.2914162497 - 0.000501000397 36.7352509629 - 0.000503692229 36.9564727596 - 0.000505037726 37.0669511057 - 0.000505710603 37.1221764507 - 0.000021994538 8.5964952475 - 0.000177177963 12.6976298762 - 0.001274189281 84.0382542745 - 0.001996835533 130.3989768375 - 0.002467410241 160.3325692722 - 0.002755004836 178.5637870297 - 0.002912013555 188.5188421188 - 0.002985270191 193.1742557539 - 0.003014837936 195.0574332501 - 0.003025770144 195.7545598705 - 0.003029656323 196.0025010889 - 0.003031017071 196.0893343880 - 0.000090827873 7.6036887319 - 0.000412411019 27.9439484137 - 0.000639785697 42.8271755507 - 0.000840338214 55.9125177410 - 0.001025243617 67.9296788729 - 0.001198771137 79.1664182926 - 0.001362994082 89.7660082946 - 0.001519031296 99.8079748612 - 0.001667504045 109.3382926261 - 0.001808738076 118.3828971076 - 0.001942863843 126.9544593473 + 0.000006940132 2.7155621545 + 0.000045001402 3.3354810299 + 0.000286424928 19.3407245030 + 0.000432906104 31.0419790919 + 0.000486143817 35.5094521869 + 0.000501052000 36.7394946560 + 0.000504993293 37.0633042458 + 0.000506022456 37.1477662664 + 0.000506290178 37.1697316462 + 0.000506359754 37.1754395528 + 0.000506384778 37.1774925034 + 0.000506384778 37.1774925061 + 0.000034160599 2.6947099405 + 0.000194228467 13.1701473342 + 0.000325320799 22.0067579672 + 0.000418394423 29.8015892946 + 0.000462968264 33.5798513461 + 0.000484789864 35.3973194196 + 0.000495609524 36.2914164420 + 0.000501000397 36.7352511583 + 0.000503692229 36.9564729566 + 0.000505037726 37.0669513035 + 0.000505710603 37.1221766490 + 0.000021994538 8.5964952540 + 0.000177177963 12.6976299234 + 0.001274189281 84.0382550279 + 0.001996835533 130.3989782953 + 0.002467410241 160.3325712617 + 0.002755004836 178.5637893695 + 0.002912013555 188.5188446580 + 0.002985270191 193.1742583884 + 0.003014837936 195.0574359235 + 0.003025770144 195.7545625583 + 0.003029656323 196.0025037819 + 0.003031017071 196.0893370828 + 0.000090827873 7.6036887558 + 0.000412411019 27.9439485596 + 0.000639785697 42.8271758254 + 0.000840338214 55.9125181500 + 0.001025243617 67.9296794204 + 0.001198771137 79.1664189814 + 0.001362994082 89.7660091264 + 0.001519031296 99.8079758366 + 0.001667504045 109.3382937448 + 0.001808738076 118.3828983682 + 0.001942863843 126.9544607476 0.000000100644 0.0547821292 0.000000101193 0.0548655725 0.000000106321 0.0556983505 @@ -228,37 +228,37 @@ 0.000000118236 0.0579509411 0.000000119929 0.0583015764 0.000000121542 0.0586415455 - 0.030000116639 3396.0891211971 - 0.030000146351 3396.0875207827 - 0.030000269442 3396.0810637560 - 0.030000291879 3396.0797676921 - 0.030000296176 3396.0795136956 - 0.030000297002 3396.0794646413 - 0.030000297164 3396.0794550343 - 0.030000297196 3396.0794531537 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 - 0.030000297205 3396.0794525891 + 0.030000116639 3396.0891911678 + 0.030000146351 3396.0875907536 + 0.030000269442 3396.0811337277 + 0.030000291879 3396.0798376639 + 0.030000296176 3396.0795836674 + 0.030000297002 3396.0795346132 + 0.030000297164 3396.0795250062 + 0.030000297196 3396.0795231256 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 + 0.030000297205 3396.0795225610 0.000000155027 0.0510773043 0.000000100644 0.0547821292 - 0.000134412912 11.2965460289 - 0.000134412912 11.2965460290 + 0.000134412912 11.2965460392 + 0.000134412912 11.2965460392 0.000000144292 0.0563872146 0.000000174724 0.0591557827 0.000000492366 0.0911384623 - 0.000003228275 0.4496355277 - 0.000010309551 1.4981621697 - 0.000018353005 2.5357657635 - 0.000031356994 3.9564216387 - 0.000044867506 5.2164678304 - 0.000058332023 6.3299971679 - 0.000071215301 7.3021406269 - 0.000104690885 9.5468617118 - 0.000121149482 10.5482632711 - 0.000127138539 10.9003138615 - 0.000129798971 11.0548256038 - 0.000129868897 11.0588717691 - 0.000129865485 11.0586743731 - 0.000129865458 11.0586727999 - 0.000134412912 11.2965460290 + 0.000003228275 0.4496355278 + 0.000010309551 1.4981621700 + 0.000018353005 2.5357657641 + 0.000031356994 3.9564216400 + 0.000044867506 5.2164678325 + 0.000058332023 6.3299971709 + 0.000071215301 7.3021406309 + 0.000104690885 9.5468617189 + 0.000121149482 10.5482632799 + 0.000127138539 10.9003138708 + 0.000129798971 11.0548256135 + 0.000129868897 11.0588717788 + 0.000129865485 11.0586743828 + 0.000129865458 11.0586728096 + 0.000134412912 11.2965460392 diff --git a/mytest/raw_101.sel b/mytest/raw_101.sel index 925b6c79..a5be77cd 100644 --- a/mytest/raw_101.sel +++ b/mytest/raw_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.028844032409 2522.9326085006 + 0.028844032409 2522.9326529751 diff --git a/mytest/reaction_pressure_gas_101.sel b/mytest/reaction_pressure_gas_101.sel index a3cfa984..566ac167 100644 --- a/mytest/reaction_pressure_gas_101.sel +++ b/mytest/reaction_pressure_gas_101.sel @@ -1,11 +1,11 @@ Mu SC - 0.001007257467 92.3291231314 - 0.001003682722 91.8641633998 - 0.001005177505 93.0061269714 - 0.001004749237 93.8679174465 + 0.001007257467 92.3291233718 + 0.001003682722 91.8641636369 + 0.001005177505 93.0061272118 + 0.001004749237 93.8679176883 0.000000100661 0.0546997340 - 0.000001419871 0.5682566744 + 0.000001419871 0.5682566745 0.000000100661 0.0546997340 0.000001303145 0.5165400841 0.000000100661 0.0546997340 - 0.000002612331 1.0387094132 + 0.000002612331 1.0387094135 diff --git a/mytest/rho_CaKMgNaCl.out b/mytest/rho_CaKMgNaCl.out index 1051fa93..331407b7 100644 --- a/mytest/rho_CaKMgNaCl.out +++ b/mytest/rho_CaKMgNaCl.out @@ -176,10 +176,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 164236 + Specific Conductance (µS/cm, 15°C) = 164302 Density (g/cm³) = 1.21113 Volume (L) = 1.09601 - Viscosity (mPa s) = 2.57237 + Viscosity (mPa s) = 2.57106 Activity of water = 0.729 Ionic strength (mol/kgw) = 8.293e+00 Mass of water (kg) = 1.000e+00 @@ -260,10 +260,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157284 + Specific Conductance (µS/cm, 15°C) = 157341 Density (g/cm³) = 1.23092 Volume (L) = 1.10742 - Viscosity (mPa s) = 3.08206 + Viscosity (mPa s) = 3.08065 Activity of water = 0.679 Ionic strength (mol/kgw) = 9.418e+00 Mass of water (kg) = 1.000e+00 @@ -344,10 +344,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 164645 + Specific Conductance (µS/cm, 15°C) = 164711 Density (g/cm³) = 1.21264 Volume (L) = 1.09725 - Viscosity (mPa s) = 2.57954 + Viscosity (mPa s) = 2.57823 Activity of water = 0.726 Ionic strength (mol/kgw) = 8.347e+00 Mass of water (kg) = 1.000e+00 @@ -428,10 +428,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157488 + Specific Conductance (µS/cm, 15°C) = 157545 Density (g/cm³) = 1.23236 Volume (L) = 1.10869 - Viscosity (mPa s) = 3.09250 + Viscosity (mPa s) = 3.09109 Activity of water = 0.676 Ionic strength (mol/kgw) = 9.472e+00 Mass of water (kg) = 1.000e+00 @@ -512,10 +512,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 165100 + Specific Conductance (µS/cm, 15°C) = 165165 Density (g/cm³) = 1.21219 Volume (L) = 1.09732 - Viscosity (mPa s) = 2.57580 + Viscosity (mPa s) = 2.57451 Activity of water = 0.727 Ionic strength (mol/kgw) = 8.330e+00 Mass of water (kg) = 1.000e+00 @@ -596,10 +596,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157934 + Specific Conductance (µS/cm, 15°C) = 157990 Density (g/cm³) = 1.23191 Volume (L) = 1.10876 - Viscosity (mPa s) = 3.08778 + Viscosity (mPa s) = 3.08638 Activity of water = 0.678 Ionic strength (mol/kgw) = 9.455e+00 Mass of water (kg) = 1.000e+00 @@ -680,10 +680,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 165499 + Specific Conductance (µS/cm, 15°C) = 165565 Density (g/cm³) = 1.21370 Volume (L) = 1.09857 - Viscosity (mPa s) = 2.58303 + Viscosity (mPa s) = 2.58173 Activity of water = 0.724 Ionic strength (mol/kgw) = 8.384e+00 Mass of water (kg) = 1.000e+00 @@ -764,10 +764,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 158129 + Specific Conductance (µS/cm, 15°C) = 158185 Density (g/cm³) = 1.23335 Volume (L) = 1.11003 - Viscosity (mPa s) = 3.09829 + Viscosity (mPa s) = 3.09689 Activity of water = 0.675 Ionic strength (mol/kgw) = 9.509e+00 Mass of water (kg) = 1.000e+00 @@ -848,10 +848,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 164428 + Specific Conductance (µS/cm, 15°C) = 164493 Density (g/cm³) = 1.21310 Volume (L) = 1.09698 - Viscosity (mPa s) = 2.59804 + Viscosity (mPa s) = 2.59673 Activity of water = 0.725 Ionic strength (mol/kgw) = 8.383e+00 Mass of water (kg) = 1.000e+00 @@ -932,10 +932,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157189 + Specific Conductance (µS/cm, 15°C) = 157245 Density (g/cm³) = 1.23281 Volume (L) = 1.10842 - Viscosity (mPa s) = 3.11469 + Viscosity (mPa s) = 3.11328 Activity of water = 0.676 Ionic strength (mol/kgw) = 9.508e+00 Mass of water (kg) = 1.000e+00 @@ -1016,10 +1016,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 164819 + Specific Conductance (µS/cm, 15°C) = 164885 Density (g/cm³) = 1.21461 Volume (L) = 1.09822 - Viscosity (mPa s) = 2.60541 + Viscosity (mPa s) = 2.60409 Activity of water = 0.722 Ionic strength (mol/kgw) = 8.437e+00 Mass of water (kg) = 1.000e+00 @@ -1100,10 +1100,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157378 + Specific Conductance (µS/cm, 15°C) = 157434 Density (g/cm³) = 1.23425 Volume (L) = 1.10969 - Viscosity (mPa s) = 3.12538 + Viscosity (mPa s) = 3.12396 Activity of water = 0.673 Ionic strength (mol/kgw) = 9.562e+00 Mass of water (kg) = 1.000e+00 @@ -1184,10 +1184,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 165274 + Specific Conductance (µS/cm, 15°C) = 165340 Density (g/cm³) = 1.21416 Volume (L) = 1.09829 - Viscosity (mPa s) = 2.60161 + Viscosity (mPa s) = 2.60031 Activity of water = 0.724 Ionic strength (mol/kgw) = 8.420e+00 Mass of water (kg) = 1.000e+00 @@ -1268,10 +1268,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 157824 + Specific Conductance (µS/cm, 15°C) = 157880 Density (g/cm³) = 1.23379 Volume (L) = 1.10977 - Viscosity (mPa s) = 3.12059 + Viscosity (mPa s) = 3.11918 Activity of water = 0.674 Ionic strength (mol/kgw) = 9.545e+00 Mass of water (kg) = 1.000e+00 @@ -1352,10 +1352,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 165657 + Specific Conductance (µS/cm, 15°C) = 165722 Density (g/cm³) = 1.21566 Volume (L) = 1.09953 - Viscosity (mPa s) = 2.60903 + Viscosity (mPa s) = 2.60772 Activity of water = 0.721 Ionic strength (mol/kgw) = 8.474e+00 Mass of water (kg) = 1.000e+00 @@ -1436,10 +1436,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 15°C) = 158005 + Specific Conductance (µS/cm, 15°C) = 158061 Density (g/cm³) = 1.23523 Volume (L) = 1.11104 - Viscosity (mPa s) = 3.13134 + Viscosity (mPa s) = 3.12993 Activity of water = 0.671 Ionic strength (mol/kgw) = 9.599e+00 Mass of water (kg) = 1.000e+00 @@ -1594,7 +1594,7 @@ Initial solution 1. Specific Conductance (µS/cm, 25°C) = 202038 Density (g/cm³) = 1.20623 Volume (L) = 1.10046 - Viscosity (mPa s) = 2.01167 + Viscosity (mPa s) = 2.01166 Activity of water = 0.732 Ionic strength (mol/kgw) = 8.292e+00 Mass of water (kg) = 1.000e+00 @@ -2182,7 +2182,7 @@ Initial solution 8. Specific Conductance (µS/cm, 25°C) = 195121 Density (g/cm³) = 1.22849 Volume (L) = 1.11441 - Viscosity (mPa s) = 2.41163 + Viscosity (mPa s) = 2.41162 Activity of water = 0.679 Ionic strength (mol/kgw) = 9.509e+00 Mass of water (kg) = 1.000e+00 @@ -2602,7 +2602,7 @@ Initial solution 13. Specific Conductance (µS/cm, 25°C) = 199252 Density (g/cm³) = 1.21847 Volume (L) = 1.10787 - Viscosity (mPa s) = 2.21053 + Viscosity (mPa s) = 2.21052 Activity of water = 0.704 Ionic strength (mol/kgw) = 8.946e+00 Mass of water (kg) = 1.000e+00 @@ -2686,7 +2686,7 @@ Initial solution 14. Specific Conductance (µS/cm, 25°C) = 199469 Density (g/cm³) = 1.21872 Volume (L) = 1.10820 - Viscosity (mPa s) = 2.21153 + Viscosity (mPa s) = 2.21152 Activity of water = 0.704 Ionic strength (mol/kgw) = 8.955e+00 Mass of water (kg) = 1.000e+00 @@ -3187,7 +3187,7 @@ Initial solution 20. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 202727 + Specific Conductance (µS/cm, 25°C) = 202728 Density (g/cm³) = 1.20965 Volume (L) = 1.10272 Viscosity (mPa s) = 2.03732 @@ -3762,10 +3762,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 242073 + Specific Conductance (µS/cm, 35°C) = 241966 Density (g/cm³) = 1.20150 Volume (L) = 1.10479 - Viscosity (mPa s) = 1.62175 + Viscosity (mPa s) = 1.62266 Activity of water = 0.735 Ionic strength (mol/kgw) = 8.292e+00 Mass of water (kg) = 1.000e+00 @@ -3846,10 +3846,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 233308 + Specific Conductance (µS/cm, 35°C) = 233214 Density (g/cm³) = 1.22146 Volume (L) = 1.11598 - Viscosity (mPa s) = 1.92573 + Viscosity (mPa s) = 1.92671 Activity of water = 0.688 Ionic strength (mol/kgw) = 9.416e+00 Mass of water (kg) = 1.000e+00 @@ -3930,10 +3930,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 242674 + Specific Conductance (µS/cm, 35°C) = 242567 Density (g/cm³) = 1.20297 Volume (L) = 1.10607 - Viscosity (mPa s) = 1.62587 + Viscosity (mPa s) = 1.62678 Activity of water = 0.732 Ionic strength (mol/kgw) = 8.346e+00 Mass of water (kg) = 1.000e+00 @@ -4014,10 +4014,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 233618 + Specific Conductance (µS/cm, 35°C) = 233524 Density (g/cm³) = 1.22287 Volume (L) = 1.11728 - Viscosity (mPa s) = 1.93171 + Viscosity (mPa s) = 1.93270 Activity of water = 0.685 Ionic strength (mol/kgw) = 9.470e+00 Mass of water (kg) = 1.000e+00 @@ -4098,10 +4098,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 243245 + Specific Conductance (µS/cm, 35°C) = 243138 Density (g/cm³) = 1.20257 Volume (L) = 1.10609 - Viscosity (mPa s) = 1.62457 + Viscosity (mPa s) = 1.62547 Activity of water = 0.734 Ionic strength (mol/kgw) = 8.329e+00 Mass of water (kg) = 1.000e+00 @@ -4182,10 +4182,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 234196 + Specific Conductance (µS/cm, 35°C) = 234102 Density (g/cm³) = 1.22247 Volume (L) = 1.11731 - Viscosity (mPa s) = 1.92985 + Viscosity (mPa s) = 1.93083 Activity of water = 0.687 Ionic strength (mol/kgw) = 9.453e+00 Mass of water (kg) = 1.000e+00 @@ -4266,10 +4266,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 243833 + Specific Conductance (µS/cm, 35°C) = 243726 Density (g/cm³) = 1.20404 Volume (L) = 1.10737 - Viscosity (mPa s) = 1.62871 + Viscosity (mPa s) = 1.62962 Activity of water = 0.731 Ionic strength (mol/kgw) = 8.383e+00 Mass of water (kg) = 1.000e+00 @@ -4350,10 +4350,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 234494 + Specific Conductance (µS/cm, 35°C) = 234401 Density (g/cm³) = 1.22388 Volume (L) = 1.11861 - Viscosity (mPa s) = 1.93587 + Viscosity (mPa s) = 1.93685 Activity of water = 0.684 Ionic strength (mol/kgw) = 9.507e+00 Mass of water (kg) = 1.000e+00 @@ -4434,10 +4434,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 239084 + Specific Conductance (µS/cm, 35°C) = 238983 Density (g/cm³) = 1.21330 Volume (L) = 1.11190 - Viscosity (mPa s) = 1.77375 + Viscosity (mPa s) = 1.77470 Activity of water = 0.709 Ionic strength (mol/kgw) = 8.923e+00 Mass of water (kg) = 1.000e+00 @@ -4518,10 +4518,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 241255 + Specific Conductance (µS/cm, 35°C) = 241151 Density (g/cm³) = 1.20878 Volume (L) = 1.10936 - Viscosity (mPa s) = 1.70374 + Viscosity (mPa s) = 1.70467 Activity of water = 0.720 Ionic strength (mol/kgw) = 8.664e+00 Mass of water (kg) = 1.000e+00 @@ -4602,10 +4602,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 238980 + Specific Conductance (µS/cm, 35°C) = 238879 Density (g/cm³) = 1.21342 Volume (L) = 1.11183 - Viscosity (mPa s) = 1.77701 + Viscosity (mPa s) = 1.77796 Activity of water = 0.709 Ionic strength (mol/kgw) = 8.932e+00 Mass of water (kg) = 1.000e+00 @@ -4686,10 +4686,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 238834 + Specific Conductance (µS/cm, 35°C) = 238733 Density (g/cm³) = 1.21351 Volume (L) = 1.11182 - Viscosity (mPa s) = 1.77740 + Viscosity (mPa s) = 1.77835 Activity of water = 0.708 Ionic strength (mol/kgw) = 8.936e+00 Mass of water (kg) = 1.000e+00 @@ -4770,10 +4770,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 239088 + Specific Conductance (µS/cm, 35°C) = 238987 Density (g/cm³) = 1.21377 Volume (L) = 1.11215 - Viscosity (mPa s) = 1.77828 + Viscosity (mPa s) = 1.77922 Activity of water = 0.708 Ionic strength (mol/kgw) = 8.945e+00 Mass of water (kg) = 1.000e+00 @@ -4854,10 +4854,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 239338 + Specific Conductance (µS/cm, 35°C) = 239238 Density (g/cm³) = 1.21403 Volume (L) = 1.11248 - Viscosity (mPa s) = 1.77915 + Viscosity (mPa s) = 1.78009 Activity of water = 0.708 Ionic strength (mol/kgw) = 8.954e+00 Mass of water (kg) = 1.000e+00 @@ -4938,10 +4938,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 239195 + Specific Conductance (µS/cm, 35°C) = 239094 Density (g/cm³) = 1.21413 Volume (L) = 1.11247 - Viscosity (mPa s) = 1.77954 + Viscosity (mPa s) = 1.78049 Activity of water = 0.707 Ionic strength (mol/kgw) = 8.958e+00 Mass of water (kg) = 1.000e+00 @@ -5022,10 +5022,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 236602 + Specific Conductance (µS/cm, 35°C) = 236505 Density (g/cm³) = 1.21871 Volume (L) = 1.11497 - Viscosity (mPa s) = 1.85723 + Viscosity (mPa s) = 1.85820 Activity of water = 0.696 Ionic strength (mol/kgw) = 9.226e+00 Mass of water (kg) = 1.000e+00 @@ -5106,10 +5106,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 239089 + Specific Conductance (µS/cm, 35°C) = 238989 Density (g/cm³) = 1.21424 Volume (L) = 1.11241 - Viscosity (mPa s) = 1.78282 + Viscosity (mPa s) = 1.78377 Activity of water = 0.707 Ionic strength (mol/kgw) = 8.967e+00 Mass of water (kg) = 1.000e+00 @@ -5190,10 +5190,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 242319 + Specific Conductance (µS/cm, 35°C) = 242212 Density (g/cm³) = 1.20342 Volume (L) = 1.10579 - Viscosity (mPa s) = 1.63792 + Viscosity (mPa s) = 1.63884 Activity of water = 0.732 Ionic strength (mol/kgw) = 8.382e+00 Mass of water (kg) = 1.000e+00 @@ -5274,10 +5274,10 @@ Initial solution 19. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 233157 + Specific Conductance (µS/cm, 35°C) = 233063 Density (g/cm³) = 1.22331 Volume (L) = 1.11702 - Viscosity (mPa s) = 1.94583 + Viscosity (mPa s) = 1.94682 Activity of water = 0.685 Ionic strength (mol/kgw) = 9.506e+00 Mass of water (kg) = 1.000e+00 @@ -5358,10 +5358,10 @@ Initial solution 20. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 242896 + Specific Conductance (µS/cm, 35°C) = 242789 Density (g/cm³) = 1.20488 Volume (L) = 1.10708 - Viscosity (mPa s) = 1.64215 + Viscosity (mPa s) = 1.64307 Activity of water = 0.729 Ionic strength (mol/kgw) = 8.436e+00 Mass of water (kg) = 1.000e+00 @@ -5442,10 +5442,10 @@ Initial solution 21. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 233447 + Specific Conductance (µS/cm, 35°C) = 233353 Density (g/cm³) = 1.22471 Volume (L) = 1.11831 - Viscosity (mPa s) = 1.95195 + Viscosity (mPa s) = 1.95294 Activity of water = 0.682 Ionic strength (mol/kgw) = 9.560e+00 Mass of water (kg) = 1.000e+00 @@ -5526,10 +5526,10 @@ Initial solution 22. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 243468 + Specific Conductance (µS/cm, 35°C) = 243361 Density (g/cm³) = 1.20449 Volume (L) = 1.10710 - Viscosity (mPa s) = 1.64081 + Viscosity (mPa s) = 1.64172 Activity of water = 0.730 Ionic strength (mol/kgw) = 8.419e+00 Mass of water (kg) = 1.000e+00 @@ -5610,10 +5610,10 @@ Initial solution 23. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 234026 + Specific Conductance (µS/cm, 35°C) = 233933 Density (g/cm³) = 1.22431 Volume (L) = 1.11834 - Viscosity (mPa s) = 1.95005 + Viscosity (mPa s) = 1.95103 Activity of water = 0.683 Ionic strength (mol/kgw) = 9.543e+00 Mass of water (kg) = 1.000e+00 @@ -5694,10 +5694,10 @@ Initial solution 24. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 244032 + Specific Conductance (µS/cm, 35°C) = 243926 Density (g/cm³) = 1.20595 Volume (L) = 1.10838 - Viscosity (mPa s) = 1.64507 + Viscosity (mPa s) = 1.64598 Activity of water = 0.727 Ionic strength (mol/kgw) = 8.473e+00 Mass of water (kg) = 1.000e+00 @@ -5778,10 +5778,10 @@ Initial solution 25. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 234305 + Specific Conductance (µS/cm, 35°C) = 234212 Density (g/cm³) = 1.22572 Volume (L) = 1.11964 - Viscosity (mPa s) = 1.95620 + Viscosity (mPa s) = 1.95719 Activity of water = 0.680 Ionic strength (mol/kgw) = 9.597e+00 Mass of water (kg) = 1.000e+00 @@ -5933,10 +5933,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 284139 + Specific Conductance (µS/cm, 45°C) = 283872 Density (g/cm³) = 1.19673 Volume (L) = 1.10918 - Viscosity (mPa s) = 1.33903 + Viscosity (mPa s) = 1.34061 Activity of water = 0.739 Ionic strength (mol/kgw) = 8.291e+00 Mass of water (kg) = 1.000e+00 @@ -6017,10 +6017,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 274732 + Specific Conductance (µS/cm, 45°C) = 274496 Density (g/cm³) = 1.21686 Volume (L) = 1.12018 - Viscosity (mPa s) = 1.58364 + Viscosity (mPa s) = 1.58535 Activity of water = 0.693 Ionic strength (mol/kgw) = 9.414e+00 Mass of water (kg) = 1.000e+00 @@ -6101,10 +6101,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 284851 + Specific Conductance (µS/cm, 45°C) = 284584 Density (g/cm³) = 1.19819 Volume (L) = 1.11048 - Viscosity (mPa s) = 1.34227 + Viscosity (mPa s) = 1.34386 Activity of water = 0.736 Ionic strength (mol/kgw) = 8.345e+00 Mass of water (kg) = 1.000e+00 @@ -6185,10 +6185,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 275108 + Specific Conductance (µS/cm, 45°C) = 274872 Density (g/cm³) = 1.21826 Volume (L) = 1.12149 - Viscosity (mPa s) = 1.58835 + Viscosity (mPa s) = 1.59006 Activity of water = 0.690 Ionic strength (mol/kgw) = 9.468e+00 Mass of water (kg) = 1.000e+00 @@ -6269,10 +6269,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 285459 + Specific Conductance (µS/cm, 45°C) = 285194 Density (g/cm³) = 1.19781 Volume (L) = 1.11048 - Viscosity (mPa s) = 1.34156 + Viscosity (mPa s) = 1.34313 Activity of water = 0.737 Ionic strength (mol/kgw) = 8.328e+00 Mass of water (kg) = 1.000e+00 @@ -6353,10 +6353,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 275734 + Specific Conductance (µS/cm, 45°C) = 275501 Density (g/cm³) = 1.21788 Volume (L) = 1.12150 - Viscosity (mPa s) = 1.58720 + Viscosity (mPa s) = 1.58889 Activity of water = 0.692 Ionic strength (mol/kgw) = 9.451e+00 Mass of water (kg) = 1.000e+00 @@ -6437,10 +6437,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 286156 + Specific Conductance (µS/cm, 45°C) = 285891 Density (g/cm³) = 1.19926 Volume (L) = 1.11178 - Viscosity (mPa s) = 1.34483 + Viscosity (mPa s) = 1.34640 Activity of water = 0.734 Ionic strength (mol/kgw) = 8.382e+00 Mass of water (kg) = 1.000e+00 @@ -6521,10 +6521,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 276097 + Specific Conductance (µS/cm, 45°C) = 275864 Density (g/cm³) = 1.21928 Volume (L) = 1.12281 - Viscosity (mPa s) = 1.59193 + Viscosity (mPa s) = 1.59363 Activity of water = 0.689 Ionic strength (mol/kgw) = 9.505e+00 Mass of water (kg) = 1.000e+00 @@ -6605,10 +6605,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 284444 + Specific Conductance (µS/cm, 45°C) = 284178 Density (g/cm³) = 1.19865 Volume (L) = 1.11019 - Viscosity (mPa s) = 1.35223 + Viscosity (mPa s) = 1.35382 Activity of water = 0.735 Ionic strength (mol/kgw) = 8.381e+00 Mass of water (kg) = 1.000e+00 @@ -6689,10 +6689,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 274580 + Specific Conductance (µS/cm, 45°C) = 274346 Density (g/cm³) = 1.21870 Volume (L) = 1.12122 - Viscosity (mPa s) = 1.59991 + Viscosity (mPa s) = 1.60162 Activity of water = 0.690 Ionic strength (mol/kgw) = 9.504e+00 Mass of water (kg) = 1.000e+00 @@ -6773,10 +6773,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 285129 + Specific Conductance (µS/cm, 45°C) = 284862 Density (g/cm³) = 1.20010 Volume (L) = 1.11148 - Viscosity (mPa s) = 1.35556 + Viscosity (mPa s) = 1.35716 Activity of water = 0.733 Ionic strength (mol/kgw) = 8.435e+00 Mass of water (kg) = 1.000e+00 @@ -6857,10 +6857,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 274933 + Specific Conductance (µS/cm, 45°C) = 274699 Density (g/cm³) = 1.22010 Volume (L) = 1.12253 - Viscosity (mPa s) = 1.60472 + Viscosity (mPa s) = 1.60644 Activity of water = 0.687 Ionic strength (mol/kgw) = 9.558e+00 Mass of water (kg) = 1.000e+00 @@ -6941,10 +6941,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 285738 + Specific Conductance (µS/cm, 45°C) = 285474 Density (g/cm³) = 1.19972 Volume (L) = 1.11149 - Viscosity (mPa s) = 1.35482 + Viscosity (mPa s) = 1.35640 Activity of water = 0.734 Ionic strength (mol/kgw) = 8.418e+00 Mass of water (kg) = 1.000e+00 @@ -7025,10 +7025,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 275561 + Specific Conductance (µS/cm, 45°C) = 275329 Density (g/cm³) = 1.21972 Volume (L) = 1.12254 - Viscosity (mPa s) = 1.60354 + Viscosity (mPa s) = 1.60524 Activity of water = 0.688 Ionic strength (mol/kgw) = 9.541e+00 Mass of water (kg) = 1.000e+00 @@ -7109,10 +7109,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 286408 + Specific Conductance (µS/cm, 45°C) = 286144 Density (g/cm³) = 1.20116 Volume (L) = 1.11279 - Viscosity (mPa s) = 1.35817 + Viscosity (mPa s) = 1.35976 Activity of water = 0.731 Ionic strength (mol/kgw) = 8.472e+00 Mass of water (kg) = 1.000e+00 @@ -7193,10 +7193,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 45°C) = 275902 + Specific Conductance (µS/cm, 45°C) = 275670 Density (g/cm³) = 1.22111 Volume (L) = 1.12385 - Viscosity (mPa s) = 1.60837 + Viscosity (mPa s) = 1.61008 Activity of water = 0.685 Ionic strength (mol/kgw) = 9.595e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/rho_CaNaCl.out b/mytest/rho_CaNaCl.out index ab140a6d..7582b37c 100644 --- a/mytest/rho_CaNaCl.out +++ b/mytest/rho_CaNaCl.out @@ -163,10 +163,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 34817 + Specific Conductance (µS/cm, 5°C) = 34835 Density (g/cm³) = 1.03922 Volume (L) = 1.01432 - Viscosity (mPa s) = 1.55755 + Viscosity (mPa s) = 1.55650 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -237,10 +237,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 65568 + Specific Conductance (µS/cm, 5°C) = 65615 Density (g/cm³) = 1.07581 Volume (L) = 1.02995 - Viscosity (mPa s) = 1.58940 + Viscosity (mPa s) = 1.58791 Activity of water = 0.939 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -311,10 +311,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 34929 + Specific Conductance (µS/cm, 5°C) = 34948 Density (g/cm³) = 1.03707 Volume (L) = 1.01223 - Viscosity (mPa s) = 1.58184 + Viscosity (mPa s) = 1.58075 Activity of water = 0.973 Ionic strength (mol/kgw) = 1.000e+00 Mass of water (kg) = 1.000e+00 @@ -385,10 +385,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 35015 + Specific Conductance (µS/cm, 5°C) = 35035 Density (g/cm³) = 1.03493 Volume (L) = 1.01017 - Viscosity (mPa s) = 1.60581 + Viscosity (mPa s) = 1.60470 Activity of water = 0.976 Ionic strength (mol/kgw) = 9.999e-01 Mass of water (kg) = 1.000e+00 @@ -459,10 +459,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 65005 + Specific Conductance (µS/cm, 5°C) = 65053 Density (g/cm³) = 1.07188 Volume (L) = 1.02558 - Viscosity (mPa s) = 1.63871 + Viscosity (mPa s) = 1.63718 Activity of water = 0.946 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -533,10 +533,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 35083 + Specific Conductance (µS/cm, 5°C) = 35104 Density (g/cm³) = 1.03281 Volume (L) = 1.00813 - Viscosity (mPa s) = 1.62961 + Viscosity (mPa s) = 1.62847 Activity of water = 0.980 Ionic strength (mol/kgw) = 9.999e-01 Mass of water (kg) = 1.000e+00 @@ -607,10 +607,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 141640 + Specific Conductance (µS/cm, 5°C) = 141791 Density (g/cm³) = 1.17387 Volume (L) = 1.08153 - Viscosity (mPa s) = 1.69664 + Viscosity (mPa s) = 1.69429 Activity of water = 0.848 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -681,10 +681,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 64407 + Specific Conductance (µS/cm, 5°C) = 64455 Density (g/cm³) = 1.06799 Volume (L) = 1.02129 - Viscosity (mPa s) = 1.68729 + Viscosity (mPa s) = 1.68571 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -755,10 +755,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 63792 + Specific Conductance (µS/cm, 5°C) = 63841 Density (g/cm³) = 1.06418 Volume (L) = 1.01713 - Viscosity (mPa s) = 1.73498 + Viscosity (mPa s) = 1.73336 Activity of water = 0.959 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -829,10 +829,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 135777 + Specific Conductance (µS/cm, 5°C) = 135918 Density (g/cm³) = 1.16615 Volume (L) = 1.06956 - Viscosity (mPa s) = 1.84152 + Viscosity (mPa s) = 1.83909 Activity of water = 0.866 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -903,10 +903,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 130285 + Specific Conductance (µS/cm, 5°C) = 130417 Density (g/cm³) = 1.15851 Volume (L) = 1.05798 - Viscosity (mPa s) = 1.98725 + Viscosity (mPa s) = 1.98475 Activity of water = 0.883 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -977,10 +977,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 5°C) = 125041 + Specific Conductance (µS/cm, 5°C) = 125165 Density (g/cm³) = 1.15104 Volume (L) = 1.04690 - Viscosity (mPa s) = 2.13494 + Viscosity (mPa s) = 2.13238 Activity of water = 0.899 Ionic strength (mol/kgw) = 5.000e+00 Mass of water (kg) = 1.000e+00 @@ -3917,7 +3917,7 @@ Initial solution 37. Specific Conductance (µS/cm, 25°C) = 31781 Density (g/cm³) = 1.01427 Volume (L) = 1.00813 - Viscosity (mPa s) = 0.93400 + Viscosity (mPa s) = 0.93399 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.315e-01 Mass of water (kg) = 1.000e+00 @@ -4879,7 +4879,7 @@ Initial solution 50. Specific Conductance (µS/cm, 25°C) = 67712 Density (g/cm³) = 1.03977 Volume (L) = 1.01943 - Viscosity (mPa s) = 0.95858 + Viscosity (mPa s) = 0.95857 Activity of water = 0.968 Ionic strength (mol/kgw) = 1.256e+00 Mass of water (kg) = 1.000e+00 @@ -5323,7 +5323,7 @@ Initial solution 56. Specific Conductance (µS/cm, 25°C) = 47295 Density (g/cm³) = 1.02274 Volume (L) = 1.01009 - Viscosity (mPa s) = 0.96518 + Viscosity (mPa s) = 0.96517 Activity of water = 0.984 Ionic strength (mol/kgw) = 8.295e-01 Mass of water (kg) = 1.000e+00 @@ -5767,7 +5767,7 @@ Initial solution 62. Specific Conductance (µS/cm, 25°C) = 56316 Density (g/cm³) = 1.02801 Volume (L) = 1.01140 - Viscosity (mPa s) = 0.98399 + Viscosity (mPa s) = 0.98398 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.015e+00 Mass of water (kg) = 1.000e+00 @@ -6282,7 +6282,7 @@ Initial solution 69. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 80060 + Specific Conductance (µS/cm, 25°C) = 80061 Density (g/cm³) = 1.04586 Volume (L) = 1.01950 Viscosity (mPa s) = 1.00232 @@ -6504,7 +6504,7 @@ Initial solution 72. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 182565 + Specific Conductance (µS/cm, 25°C) = 182566 Density (g/cm³) = 1.13157 Volume (L) = 1.07096 Viscosity (mPa s) = 1.02291 @@ -7096,7 +7096,7 @@ Initial solution 80. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 127024 + Specific Conductance (µS/cm, 25°C) = 127025 Density (g/cm³) = 1.08360 Volume (L) = 1.03931 Viscosity (mPa s) = 1.02895 @@ -7987,7 +7987,7 @@ Initial solution 92. Specific Conductance (µS/cm, 25°C) = 110573 Density (g/cm³) = 1.06764 Volume (L) = 1.02720 - Viscosity (mPa s) = 1.06424 + Viscosity (mPa s) = 1.06423 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.282e+00 Mass of water (kg) = 1.000e+00 @@ -8579,7 +8579,7 @@ Initial solution 100. Specific Conductance (µS/cm, 25°C) = 119364 Density (g/cm³) = 1.07451 Volume (L) = 1.02992 - Viscosity (mPa s) = 1.08228 + Viscosity (mPa s) = 1.08227 Activity of water = 0.946 Ionic strength (mol/kgw) = 2.518e+00 Mass of water (kg) = 1.000e+00 @@ -9464,7 +9464,7 @@ Initial solution 112. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 135997 + Specific Conductance (µS/cm, 25°C) = 135998 Density (g/cm³) = 1.08766 Volume (L) = 1.03385 Viscosity (mPa s) = 1.13807 @@ -10500,7 +10500,7 @@ Initial solution 126. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 193668 + Specific Conductance (µS/cm, 25°C) = 193669 Density (g/cm³) = 1.14424 Volume (L) = 1.06719 Viscosity (mPa s) = 1.20449 @@ -11462,7 +11462,7 @@ Initial solution 139. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 182076 + Specific Conductance (µS/cm, 25°C) = 182077 Density (g/cm³) = 1.13315 Volume (L) = 1.05546 Viscosity (mPa s) = 1.26149 @@ -11832,7 +11832,7 @@ Initial solution 144. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 186265 + Specific Conductance (µS/cm, 25°C) = 186266 Density (g/cm³) = 1.13804 Volume (L) = 1.05780 Viscosity (mPa s) = 1.27900 @@ -11980,7 +11980,7 @@ Initial solution 146. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 241960 + Specific Conductance (µS/cm, 25°C) = 241961 Density (g/cm³) = 1.20616 Volume (L) = 1.10814 Viscosity (mPa s) = 1.33871 @@ -12054,10 +12054,10 @@ Initial solution 147. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 196402 + Specific Conductance (µS/cm, 25°C) = 196403 Density (g/cm³) = 1.14970 Volume (L) = 1.06530 - Viscosity (mPa s) = 1.29492 + Viscosity (mPa s) = 1.29491 Activity of water = 0.886 Ionic strength (mol/kgw) = 5.199e+00 Mass of water (kg) = 1.000e+00 @@ -12279,7 +12279,7 @@ Initial solution 150. Specific Conductance (µS/cm, 25°C) = 196132 Density (g/cm³) = 1.15049 Volume (L) = 1.06385 - Viscosity (mPa s) = 1.32753 + Viscosity (mPa s) = 1.32752 Activity of water = 0.888 Ionic strength (mol/kgw) = 5.287e+00 Mass of water (kg) = 1.000e+00 @@ -12353,7 +12353,7 @@ Initial solution 151. Specific Conductance (µS/cm, 25°C) = 196917 Density (g/cm³) = 1.15155 Volume (L) = 1.06437 - Viscosity (mPa s) = 1.33182 + Viscosity (mPa s) = 1.33181 Activity of water = 0.887 Ionic strength (mol/kgw) = 5.328e+00 Mass of water (kg) = 1.000e+00 @@ -12646,7 +12646,7 @@ Initial solution 155. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 181252 + Specific Conductance (µS/cm, 25°C) = 181253 Density (g/cm³) = 1.13446 Volume (L) = 1.04976 Viscosity (mPa s) = 1.36596 @@ -12720,7 +12720,7 @@ Initial solution 156. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 187334 + Specific Conductance (µS/cm, 25°C) = 187335 Density (g/cm³) = 1.14189 Volume (L) = 1.05443 Viscosity (mPa s) = 1.37742 @@ -13315,7 +13315,7 @@ Initial solution 164. Specific Conductance (µS/cm, 25°C) = 201474 Density (g/cm³) = 1.16430 Volume (L) = 1.06469 - Viscosity (mPa s) = 1.49326 + Viscosity (mPa s) = 1.49325 Activity of water = 0.884 Ionic strength (mol/kgw) = 6.013e+00 Mass of water (kg) = 1.000e+00 @@ -13386,7 +13386,7 @@ Initial solution 165. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 25°C) = 220983 + Specific Conductance (µS/cm, 25°C) = 220984 Density (g/cm³) = 1.19325 Volume (L) = 1.08634 Viscosity (mPa s) = 1.53169 @@ -13537,7 +13537,7 @@ Initial solution 167. Specific Conductance (µS/cm, 25°C) = 222504 Density (g/cm³) = 1.19712 Volume (L) = 1.08850 - Viscosity (mPa s) = 1.55399 + Viscosity (mPa s) = 1.55398 Activity of water = 0.848 Ionic strength (mol/kgw) = 7.153e+00 Mass of water (kg) = 1.000e+00 @@ -14721,7 +14721,7 @@ Initial solution 183. Specific Conductance (µS/cm, 25°C) = 214807 Density (g/cm³) = 1.21644 Volume (L) = 1.08884 - Viscosity (mPa s) = 1.92320 + Viscosity (mPa s) = 1.92319 Activity of water = 0.845 Ionic strength (mol/kgw) = 8.291e+00 Mass of water (kg) = 1.000e+00 @@ -15461,7 +15461,7 @@ Initial solution 193. Specific Conductance (µS/cm, 25°C) = 204000 Density (g/cm³) = 1.27772 Volume (L) = 1.12505 - Viscosity (mPa s) = 2.72171 + Viscosity (mPa s) = 2.72170 Activity of water = 0.791 Ionic strength (mol/kgw) = 1.118e+01 Mass of water (kg) = 1.000e+00 @@ -15731,10 +15731,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 213295 + Specific Conductance (µS/cm, 49°C) = 213027 Density (g/cm³) = 1.09047 Volume (L) = 1.06984 - Viscosity (mPa s) = 0.58712 + Viscosity (mPa s) = 0.58809 Activity of water = 0.904 Ionic strength (mol/kgw) = 2.961e+00 Mass of water (kg) = 1.000e+00 @@ -15805,10 +15805,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 325884 + Specific Conductance (µS/cm, 49°C) = 325369 Density (g/cm³) = 1.15225 Volume (L) = 1.11299 - Viscosity (mPa s) = 0.61241 + Viscosity (mPa s) = 0.61369 Activity of water = 0.838 Ionic strength (mol/kgw) = 5.053e+00 Mass of water (kg) = 1.000e+00 @@ -15879,10 +15879,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 213032 + Specific Conductance (µS/cm, 49°C) = 212763 Density (g/cm³) = 1.08948 Volume (L) = 1.06661 - Viscosity (mPa s) = 0.60848 + Viscosity (mPa s) = 0.60948 Activity of water = 0.909 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 1.000e+00 @@ -15953,10 +15953,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 207727 + Specific Conductance (µS/cm, 49°C) = 207467 Density (g/cm³) = 1.08593 Volume (L) = 1.06220 - Viscosity (mPa s) = 0.62504 + Viscosity (mPa s) = 0.62605 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.950e+00 Mass of water (kg) = 1.000e+00 @@ -16027,10 +16027,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 317801 + Specific Conductance (µS/cm, 49°C) = 317311 Density (g/cm³) = 1.14929 Volume (L) = 1.10709 - Viscosity (mPa s) = 0.64333 + Viscosity (mPa s) = 0.64463 Activity of water = 0.846 Ionic strength (mol/kgw) = 5.047e+00 Mass of water (kg) = 1.000e+00 @@ -16101,10 +16101,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 209348 + Specific Conductance (µS/cm, 49°C) = 209084 Density (g/cm³) = 1.08584 Volume (L) = 1.05910 - Viscosity (mPa s) = 0.65085 + Viscosity (mPa s) = 0.65189 Activity of water = 0.918 Ionic strength (mol/kgw) = 3.035e+00 Mass of water (kg) = 1.000e+00 @@ -16175,10 +16175,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 301375 + Specific Conductance (µS/cm, 49°C) = 300925 Density (g/cm³) = 1.14067 Volume (L) = 1.09703 - Viscosity (mPa s) = 0.67180 + Viscosity (mPa s) = 0.67309 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.845e+00 Mass of water (kg) = 1.000e+00 @@ -16249,10 +16249,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 212885 + Specific Conductance (µS/cm, 49°C) = 212614 Density (g/cm³) = 1.08695 Volume (L) = 1.05643 - Viscosity (mPa s) = 0.68010 + Viscosity (mPa s) = 0.68118 Activity of water = 0.921 Ionic strength (mol/kgw) = 3.167e+00 Mass of water (kg) = 1.000e+00 @@ -16323,10 +16323,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 295224 + Specific Conductance (µS/cm, 49°C) = 294793 Density (g/cm³) = 1.13831 Volume (L) = 1.09123 - Viscosity (mPa s) = 0.70689 + Viscosity (mPa s) = 0.70821 Activity of water = 0.868 Ionic strength (mol/kgw) = 4.875e+00 Mass of water (kg) = 1.000e+00 @@ -16397,10 +16397,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 212388 + Specific Conductance (µS/cm, 49°C) = 212117 Density (g/cm³) = 1.08610 Volume (L) = 1.05363 - Viscosity (mPa s) = 0.69920 + Viscosity (mPa s) = 0.70030 Activity of water = 0.925 Ionic strength (mol/kgw) = 3.205e+00 Mass of water (kg) = 1.000e+00 @@ -16471,10 +16471,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 200125 + Specific Conductance (µS/cm, 49°C) = 199875 Density (g/cm³) = 1.07833 Volume (L) = 1.04744 - Viscosity (mPa s) = 0.70696 + Viscosity (mPa s) = 0.70804 Activity of water = 0.934 Ionic strength (mol/kgw) = 2.998e+00 Mass of water (kg) = 1.000e+00 @@ -16545,10 +16545,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 287567 + Specific Conductance (µS/cm, 49°C) = 287155 Density (g/cm³) = 1.13460 Volume (L) = 1.08474 - Viscosity (mPa s) = 0.73934 + Viscosity (mPa s) = 0.74067 Activity of water = 0.877 Ionic strength (mol/kgw) = 4.852e+00 Mass of water (kg) = 1.000e+00 @@ -16619,10 +16619,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 198978 + Specific Conductance (µS/cm, 49°C) = 198730 Density (g/cm³) = 1.07691 Volume (L) = 1.04417 - Viscosity (mPa s) = 0.72705 + Viscosity (mPa s) = 0.72814 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.023e+00 Mass of water (kg) = 1.000e+00 @@ -16693,10 +16693,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 281442 + Specific Conductance (µS/cm, 49°C) = 281045 Density (g/cm³) = 1.13161 Volume (L) = 1.07909 - Viscosity (mPa s) = 0.76970 + Viscosity (mPa s) = 0.77105 Activity of water = 0.884 Ionic strength (mol/kgw) = 4.847e+00 Mass of water (kg) = 1.000e+00 @@ -16767,10 +16767,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 193116 + Specific Conductance (µS/cm, 49°C) = 192877 Density (g/cm³) = 1.07267 Volume (L) = 1.03965 - Viscosity (mPa s) = 0.74180 + Viscosity (mPa s) = 0.74290 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.947e+00 Mass of water (kg) = 1.000e+00 @@ -16841,10 +16841,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 277325 + Specific Conductance (µS/cm, 49°C) = 276941 Density (g/cm³) = 1.13046 Volume (L) = 1.07351 - Viscosity (mPa s) = 0.81366 + Viscosity (mPa s) = 0.81504 Activity of water = 0.892 Ionic strength (mol/kgw) = 4.940e+00 Mass of water (kg) = 1.000e+00 @@ -16915,10 +16915,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 268611 + Specific Conductance (µS/cm, 49°C) = 268247 Density (g/cm³) = 1.12513 Volume (L) = 1.06635 - Viscosity (mPa s) = 0.84265 + Viscosity (mPa s) = 0.84404 Activity of water = 0.901 Ionic strength (mol/kgw) = 4.855e+00 Mass of water (kg) = 1.000e+00 @@ -16989,10 +16989,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 49°C) = 263547 + Specific Conductance (µS/cm, 49°C) = 263195 Density (g/cm³) = 1.12259 Volume (L) = 1.06086 - Viscosity (mPa s) = 0.87738 + Viscosity (mPa s) = 0.87879 Activity of water = 0.909 Ionic strength (mol/kgw) = 4.875e+00 Mass of water (kg) = 1.000e+00 @@ -17262,10 +17262,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 359271 + Specific Conductance (µS/cm, 99°C) = 357535 Density (g/cm³) = 1.05946 Volume (L) = 1.10115 - Viscosity (mPa s) = 0.30264 + Viscosity (mPa s) = 0.30459 Activity of water = 0.904 Ionic strength (mol/kgw) = 2.961e+00 Mass of water (kg) = 1.000e+00 @@ -17336,10 +17336,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 550840 + Specific Conductance (µS/cm, 99°C) = 547501 Density (g/cm³) = 1.11956 Volume (L) = 1.14548 - Viscosity (mPa s) = 0.31616 + Viscosity (mPa s) = 0.31871 Activity of water = 0.838 Ionic strength (mol/kgw) = 5.053e+00 Mass of water (kg) = 1.000e+00 @@ -17410,10 +17410,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 359369 + Specific Conductance (µS/cm, 99°C) = 357626 Density (g/cm³) = 1.05869 Volume (L) = 1.09763 - Viscosity (mPa s) = 0.31409 + Viscosity (mPa s) = 0.31608 Activity of water = 0.909 Ionic strength (mol/kgw) = 3.003e+00 Mass of water (kg) = 1.000e+00 @@ -17484,10 +17484,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 350799 + Specific Conductance (µS/cm, 99°C) = 349113 Density (g/cm³) = 1.05538 Volume (L) = 1.09295 - Viscosity (mPa s) = 0.32295 + Viscosity (mPa s) = 0.32495 Activity of water = 0.915 Ionic strength (mol/kgw) = 2.950e+00 Mass of water (kg) = 1.000e+00 @@ -17558,10 +17558,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 537917 + Specific Conductance (µS/cm, 99°C) = 534730 Density (g/cm³) = 1.11697 Volume (L) = 1.13912 - Viscosity (mPa s) = 0.33240 + Viscosity (mPa s) = 0.33498 Activity of water = 0.846 Ionic strength (mol/kgw) = 5.047e+00 Mass of water (kg) = 1.000e+00 @@ -17632,10 +17632,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 354152 + Specific Conductance (µS/cm, 99°C) = 352437 Density (g/cm³) = 1.05552 Volume (L) = 1.08952 - Viscosity (mPa s) = 0.33675 + Viscosity (mPa s) = 0.33881 Activity of water = 0.918 Ionic strength (mol/kgw) = 3.035e+00 Mass of water (kg) = 1.000e+00 @@ -17706,10 +17706,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 510699 + Specific Conductance (µS/cm, 99°C) = 507780 Density (g/cm³) = 1.10890 Volume (L) = 1.12846 - Viscosity (mPa s) = 0.34741 + Viscosity (mPa s) = 0.34998 Activity of water = 0.860 Ionic strength (mol/kgw) = 4.845e+00 Mass of water (kg) = 1.000e+00 @@ -17780,10 +17780,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 360799 + Specific Conductance (µS/cm, 99°C) = 359035 Density (g/cm³) = 1.05686 Volume (L) = 1.08651 - Viscosity (mPa s) = 0.35233 + Viscosity (mPa s) = 0.35448 Activity of water = 0.921 Ionic strength (mol/kgw) = 3.167e+00 Mass of water (kg) = 1.000e+00 @@ -17854,10 +17854,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 501132 + Specific Conductance (µS/cm, 99°C) = 498323 Density (g/cm³) = 1.10693 Volume (L) = 1.12216 - Viscosity (mPa s) = 0.36580 + Viscosity (mPa s) = 0.36841 Activity of water = 0.868 Ionic strength (mol/kgw) = 4.875e+00 Mass of water (kg) = 1.000e+00 @@ -17928,10 +17928,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 360391 + Specific Conductance (µS/cm, 99°C) = 358629 Density (g/cm³) = 1.05620 Volume (L) = 1.08346 - Viscosity (mPa s) = 0.36248 + Viscosity (mPa s) = 0.36467 Activity of water = 0.925 Ionic strength (mol/kgw) = 3.205e+00 Mass of water (kg) = 1.000e+00 @@ -18002,10 +18002,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 339866 + Specific Conductance (µS/cm, 99°C) = 338239 Density (g/cm³) = 1.04871 Volume (L) = 1.07703 - Viscosity (mPa s) = 0.36665 + Viscosity (mPa s) = 0.36880 Activity of water = 0.934 Ionic strength (mol/kgw) = 2.998e+00 Mass of water (kg) = 1.000e+00 @@ -18076,10 +18076,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 488936 + Specific Conductance (µS/cm, 99°C) = 486250 Density (g/cm³) = 1.10364 Volume (L) = 1.11517 - Viscosity (mPa s) = 0.38277 + Viscosity (mPa s) = 0.38542 Activity of water = 0.877 Ionic strength (mol/kgw) = 4.852e+00 Mass of water (kg) = 1.000e+00 @@ -18150,10 +18150,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 338389 + Specific Conductance (µS/cm, 99°C) = 336771 Density (g/cm³) = 1.04750 Volume (L) = 1.07349 - Viscosity (mPa s) = 0.37730 + Viscosity (mPa s) = 0.37948 Activity of water = 0.939 Ionic strength (mol/kgw) = 3.023e+00 Mass of water (kg) = 1.000e+00 @@ -18224,10 +18224,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 479311 + Specific Conductance (µS/cm, 99°C) = 476723 Density (g/cm³) = 1.10102 Volume (L) = 1.10908 - Viscosity (mPa s) = 0.39859 + Viscosity (mPa s) = 0.40127 Activity of water = 0.884 Ionic strength (mol/kgw) = 4.847e+00 Mass of water (kg) = 1.000e+00 @@ -18298,10 +18298,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 328848 + Specific Conductance (µS/cm, 99°C) = 327288 Density (g/cm³) = 1.04349 Volume (L) = 1.06871 - Viscosity (mPa s) = 0.38513 + Viscosity (mPa s) = 0.38731 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.947e+00 Mass of water (kg) = 1.000e+00 @@ -18372,10 +18372,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 473539 + Specific Conductance (µS/cm, 99°C) = 471025 Density (g/cm³) = 1.10030 Volume (L) = 1.10294 - Viscosity (mPa s) = 0.42124 + Viscosity (mPa s) = 0.42399 Activity of water = 0.892 Ionic strength (mol/kgw) = 4.940e+00 Mass of water (kg) = 1.000e+00 @@ -18446,10 +18446,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 459490 + Specific Conductance (µS/cm, 99°C) = 457096 Density (g/cm³) = 1.09539 Volume (L) = 1.09530 - Viscosity (mPa s) = 0.43626 + Viscosity (mPa s) = 0.43902 Activity of water = 0.901 Ionic strength (mol/kgw) = 4.855e+00 Mass of water (kg) = 1.000e+00 @@ -18520,10 +18520,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 451888 + Specific Conductance (µS/cm, 99°C) = 449569 Density (g/cm³) = 1.09324 Volume (L) = 1.08934 - Viscosity (mPa s) = 0.45399 + Viscosity (mPa s) = 0.45679 Activity of water = 0.909 Ionic strength (mol/kgw) = 4.875e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/rho_H3PO4.out b/mytest/rho_H3PO4.out index 7474df04..ea864889 100644 --- a/mytest/rho_H3PO4.out +++ b/mytest/rho_H3PO4.out @@ -235,10 +235,10 @@ Reaction 1. pH = 1.248 Charge balance pe = 4.332 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 20388 + Specific Conductance (µS/cm, 16°C) = 20389 Density (g/cm³) = 1.02321 Volume (L) = 1.02203 - Viscosity (mPa s) = 1.11469 + Viscosity (mPa s) = 1.11466 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.700e-02 Mass of water (kg) = 1.000e+00 @@ -311,10 +311,10 @@ Reaction 1. pH = 1.061 Charge balance pe = 4.799 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 30263 + Specific Conductance (µS/cm, 16°C) = 30266 Density (g/cm³) = 1.05067 Volume (L) = 1.04798 - Viscosity (mPa s) = 1.11652 + Viscosity (mPa s) = 1.11648 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.053e-01 Mass of water (kg) = 1.000e+00 @@ -387,10 +387,10 @@ Reaction 1. pH = 0.866 Charge balance pe = 5.173 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 42822 + Specific Conductance (µS/cm, 16°C) = 42825 Density (g/cm³) = 1.11059 Volume (L) = 1.11025 - Viscosity (mPa s) = 1.11947 + Viscosity (mPa s) = 1.11943 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.688e-01 Mass of water (kg) = 1.000e+00 @@ -463,10 +463,10 @@ Reaction 1. pH = 0.736 Charge balance pe = 17.903 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 50409 + Specific Conductance (µS/cm, 16°C) = 50414 Density (g/cm³) = 1.17965 Volume (L) = 1.19250 - Viscosity (mPa s) = 1.12232 + Viscosity (mPa s) = 1.12227 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.311e-01 Mass of water (kg) = 1.000e+00 @@ -539,10 +539,10 @@ Reaction 1. pH = 0.634 Charge balance pe = 18.110 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 16°C) = 54031 + Specific Conductance (µS/cm, 16°C) = 54037 Density (g/cm³) = 1.25553 Volume (L) = 1.29868 - Viscosity (mPa s) = 1.12526 + Viscosity (mPa s) = 1.12520 Activity of water = 0.886 Ionic strength (mol/kgw) = 2.960e-01 Mass of water (kg) = 1.000e+00 @@ -4905,7 +4905,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 22090 Density (g/cm³) = 1.02103 Volume (L) = 1.02421 - Viscosity (mPa s) = 0.89356 + Viscosity (mPa s) = 0.89355 Activity of water = 0.991 Ionic strength (mol/kgw) = 6.357e-02 Mass of water (kg) = 1.000e+00 @@ -11315,10 +11315,10 @@ Reaction 1. pH = 1.307 Charge balance pe = 4.209 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 24337 + Specific Conductance (µS/cm, 41°C) = 24334 Density (g/cm³) = 1.01554 Volume (L) = 1.02974 - Viscosity (mPa s) = 0.64601 + Viscosity (mPa s) = 0.64604 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.845e-02 Mass of water (kg) = 1.000e+00 @@ -11391,10 +11391,10 @@ Reaction 1. pH = 1.122 Charge balance pe = 4.828 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 35880 + Specific Conductance (µS/cm, 41°C) = 35875 Density (g/cm³) = 1.04228 Volume (L) = 1.05642 - Viscosity (mPa s) = 0.64751 + Viscosity (mPa s) = 0.64755 Activity of water = 0.981 Ionic strength (mol/kgw) = 9.153e-02 Mass of water (kg) = 1.000e+00 @@ -11467,10 +11467,10 @@ Reaction 1. pH = 0.929 Charge balance pe = 4.449 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 50351 + Specific Conductance (µS/cm, 41°C) = 50342 Density (g/cm³) = 1.10053 Volume (L) = 1.12040 - Viscosity (mPa s) = 0.64994 + Viscosity (mPa s) = 0.64999 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.463e-01 Mass of water (kg) = 1.000e+00 @@ -11543,10 +11543,10 @@ Reaction 1. pH = 0.800 Charge balance pe = 15.887 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 58855 + Specific Conductance (µS/cm, 41°C) = 58843 Density (g/cm³) = 1.16750 Volume (L) = 1.20491 - Viscosity (mPa s) = 0.65229 + Viscosity (mPa s) = 0.65235 Activity of water = 0.926 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -11619,10 +11619,10 @@ Reaction 1. pH = 0.698 Charge balance pe = 16.172 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 62650 + Specific Conductance (µS/cm, 41°C) = 62636 Density (g/cm³) = 1.24090 Volume (L) = 1.31399 - Viscosity (mPa s) = 0.65472 + Viscosity (mPa s) = 0.65478 Activity of water = 0.886 Ionic strength (mol/kgw) = 2.559e-01 Mass of water (kg) = 1.000e+00 @@ -11695,10 +11695,10 @@ Reaction 1. pH = 0.601 Charge balance pe = 4.816 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 62308 + Specific Conductance (µS/cm, 41°C) = 62292 Density (g/cm³) = 1.32788 Volume (L) = 1.47247 - Viscosity (mPa s) = 0.65763 + Viscosity (mPa s) = 0.65771 Activity of water = 0.829 Ionic strength (mol/kgw) = 3.235e-01 Mass of water (kg) = 1.000e+00 @@ -11771,10 +11771,10 @@ Reaction 1. pH = 0.504 Charge balance pe = 16.771 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 41°C) = 57502 + Specific Conductance (µS/cm, 41°C) = 57485 Density (g/cm³) = 1.42788 Volume (L) = 1.71035 - Viscosity (mPa s) = 0.66129 + Viscosity (mPa s) = 0.66137 Activity of water = 0.743 Ionic strength (mol/kgw) = 4.087e-01 Mass of water (kg) = 1.000e+00 @@ -11952,10 +11952,10 @@ Reaction 1. pH = 1.348 Charge balance pe = 4.139 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 26175 + Specific Conductance (µS/cm, 61°C) = 26168 Density (g/cm³) = 1.00611 Volume (L) = 1.03939 - Viscosity (mPa s) = 0.46277 + Viscosity (mPa s) = 0.46283 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.320e-02 Mass of water (kg) = 1.000e+00 @@ -12028,10 +12028,10 @@ Reaction 1. pH = 1.164 Charge balance pe = 4.898 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 38474 + Specific Conductance (µS/cm, 61°C) = 38461 Density (g/cm³) = 1.03251 Volume (L) = 1.06641 - Viscosity (mPa s) = 0.46392 + Viscosity (mPa s) = 0.46400 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.316e-02 Mass of water (kg) = 1.000e+00 @@ -12104,10 +12104,10 @@ Reaction 1. pH = 0.972 Charge balance pe = 4.925 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 53831 + Specific Conductance (µS/cm, 61°C) = 53808 Density (g/cm³) = 1.09002 Volume (L) = 1.13120 - Viscosity (mPa s) = 0.46580 + Viscosity (mPa s) = 0.46589 Activity of water = 0.957 Ionic strength (mol/kgw) = 1.328e-01 Mass of water (kg) = 1.000e+00 @@ -12180,10 +12180,10 @@ Reaction 1. pH = 0.844 Charge balance pe = 14.411 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 62788 + Specific Conductance (µS/cm, 61°C) = 62757 Density (g/cm³) = 1.15613 Volume (L) = 1.21676 - Viscosity (mPa s) = 0.46761 + Viscosity (mPa s) = 0.46771 Activity of water = 0.926 Ionic strength (mol/kgw) = 1.813e-01 Mass of water (kg) = 1.000e+00 @@ -12256,10 +12256,10 @@ Reaction 1. pH = 0.742 Charge balance pe = 14.463 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 66708 + Specific Conductance (µS/cm, 61°C) = 66671 Density (g/cm³) = 1.22855 Volume (L) = 1.32719 - Viscosity (mPa s) = 0.46947 + Viscosity (mPa s) = 0.46959 Activity of water = 0.887 Ionic strength (mol/kgw) = 2.319e-01 Mass of water (kg) = 1.000e+00 @@ -12332,10 +12332,10 @@ Reaction 1. pH = 0.646 Charge balance pe = 4.702 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 66205 + Specific Conductance (µS/cm, 61°C) = 66164 Density (g/cm³) = 1.31433 Volume (L) = 1.48764 - Viscosity (mPa s) = 0.47171 + Viscosity (mPa s) = 0.47185 Activity of water = 0.829 Ionic strength (mol/kgw) = 2.930e-01 Mass of water (kg) = 1.000e+00 @@ -12408,10 +12408,10 @@ Reaction 1. pH = 0.549 Charge balance pe = 15.050 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 61°C) = 60950 + Specific Conductance (µS/cm, 61°C) = 60907 Density (g/cm³) = 1.41292 Volume (L) = 1.72846 - Viscosity (mPa s) = 0.47452 + Viscosity (mPa s) = 0.47467 Activity of water = 0.744 Ionic strength (mol/kgw) = 3.699e-01 Mass of water (kg) = 1.000e+00 @@ -12589,10 +12589,10 @@ Reaction 1. pH = 1.387 Charge balance pe = 4.070 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 27191 + Specific Conductance (µS/cm, 81°C) = 27178 Density (g/cm³) = 0.99403 Volume (L) = 1.05203 - Viscosity (mPa s) = 0.34975 + Viscosity (mPa s) = 0.34983 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.889e-02 Mass of water (kg) = 1.000e+00 @@ -12665,10 +12665,10 @@ Reaction 1. pH = 1.203 Charge balance pe = 4.619 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 39897 + Specific Conductance (µS/cm, 81°C) = 39874 Density (g/cm³) = 1.02019 Volume (L) = 1.07929 - Viscosity (mPa s) = 0.35064 + Viscosity (mPa s) = 0.35073 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.632e-02 Mass of water (kg) = 1.000e+00 @@ -12741,10 +12741,10 @@ Reaction 1. pH = 1.011 Charge balance pe = 4.963 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 55758 + Specific Conductance (µS/cm, 81°C) = 55718 Density (g/cm³) = 1.07722 Volume (L) = 1.14464 - Viscosity (mPa s) = 0.35208 + Viscosity (mPa s) = 0.35220 Activity of water = 0.958 Ionic strength (mol/kgw) = 1.218e-01 Mass of water (kg) = 1.000e+00 @@ -12817,10 +12817,10 @@ Reaction 1. pH = 0.883 Charge balance pe = 13.138 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 65008 + Specific Conductance (µS/cm, 81°C) = 64953 Density (g/cm³) = 1.14282 Volume (L) = 1.23094 - Viscosity (mPa s) = 0.35346 + Viscosity (mPa s) = 0.35360 Activity of water = 0.927 Ionic strength (mol/kgw) = 1.662e-01 Mass of water (kg) = 1.000e+00 @@ -12893,10 +12893,10 @@ Reaction 1. pH = 0.782 Charge balance pe = 13.212 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 69054 + Specific Conductance (µS/cm, 81°C) = 68988 Density (g/cm³) = 1.21471 Volume (L) = 1.34232 - Viscosity (mPa s) = 0.35489 + Viscosity (mPa s) = 0.35504 Activity of water = 0.887 Ionic strength (mol/kgw) = 2.125e-01 Mass of water (kg) = 1.000e+00 @@ -12969,10 +12969,10 @@ Reaction 1. pH = 0.686 Charge balance pe = 4.203 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 68527 + Specific Conductance (µS/cm, 81°C) = 68453 Density (g/cm³) = 1.29992 Volume (L) = 1.50413 - Viscosity (mPa s) = 0.35660 + Viscosity (mPa s) = 0.35677 Activity of water = 0.830 Ionic strength (mol/kgw) = 2.684e-01 Mass of water (kg) = 1.000e+00 @@ -13045,10 +13045,10 @@ Reaction 1. pH = 0.590 Charge balance pe = 12.362 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 81°C) = 63083 + Specific Conductance (µS/cm, 81°C) = 63008 Density (g/cm³) = 1.39792 Volume (L) = 1.74701 - Viscosity (mPa s) = 0.35873 + Viscosity (mPa s) = 0.35893 Activity of water = 0.744 Ionic strength (mol/kgw) = 3.388e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/rho_H3PO4_101.sel b/mytest/rho_H3PO4_101.sel index 536f3624..184e1814 100644 --- a/mytest/rho_H3PO4_101.sel +++ b/mytest/rho_H3PO4_101.sel @@ -1,171 +1,171 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000069970 0.0330119587 - 0.067004115140 20388.6834385699 - 0.105300520277 30263.9277495933 - 0.168800391184 42822.1769244686 - 0.231089577985 50409.1087583769 - 0.296045671695 54031.5649999001 + 0.000000069970 0.0330119592 + 0.067004115140 20389.8193298497 + 0.105300520277 30266.0437235965 + 0.168800391184 42825.9691766502 + 0.231089577985 50414.3295963018 + 0.296045671695 54037.8926738152 0.000000100644 0.0547821292 - 0.005779615638 2145.6959433875 - 0.009343352305 3453.0653059729 - 0.012231865048 4506.3824851236 - 0.014724559679 5410.9305333150 - 0.016701645729 6125.4279212934 - 0.016892461523 6194.2468010126 - 0.016955730922 6217.0598155992 - 0.018997078958 6951.6289520137 - 0.019055307576 6972.5397631322 - 0.020892322469 7631.0090725786 - 0.022670487719 8266.0690224924 - 0.024368250299 8870.2313245142 - 0.024899113830 9058.6967941002 - 0.025765787421 9365.9160451585 - 0.025982961363 9442.8090532901 - 0.026672083305 9686.5571663927 - 0.027526408818 9988.2200195184 - 0.029022050008 10514.9265691973 - 0.029825374128 10797.0758055198 - 0.030448265054 11015.4858346626 - 0.031839139780 11502.0105351985 - 0.033185536389 11971.4112084803 - 0.034491731369 12425.2955506592 - 0.035761350676 12865.0277328356 - 0.037009347414 13295.8604517998 - 0.038225984733 13714.4984768116 - 0.039413668536 14121.8492037771 - 0.040574509042 14518.7092101825 - 0.041721175508 14909.4589199055 - 0.042833494142 15287.2860772798 - 0.043934363354 15660.0272841621 - 0.045014340593 16024.5227046409 - 0.046084661536 16384.5994493252 - 0.046244551284 16438.2894691168 - 0.047126251056 16733.8887373073 - 0.048159978350 17079.4348261544 - 0.049176781494 17418.2361162443 - 0.049309857778 17462.4970256097 - 0.050177524543 17750.6216502734 - 0.051162999699 18076.8934255845 - 0.051227558821 18098.2313398685 - 0.052143028164 18400.3254719427 - 0.053108932183 18718.0749609452 - 0.054061349839 19030.3859271002 - 0.055000872080 19337.4846273977 - 0.055936656071 19642.3816981527 - 0.056851886638 19939.6281958935 - 0.057764156047 20234.9665090050 - 0.058665312247 20525.7718560497 - 0.059563978650 20814.8409165446 - 0.060444068989 21097.0250162140 - 0.061322263957 21377.6975615915 - 0.061346295278 21385.3652569225 - 0.062190729661 21654.3663104464 - 0.063057646136 21929.6484122286 - 0.063565555601 22090.5138592592 - 0.063907575019 22198.6641421750 - 0.064756420503 22466.4694641217 - 0.065596637875 22730.6934530074 - 0.066111851598 22892.2881213369 - 0.066428505417 22991.4442873636 - 0.067259739223 23251.1491982102 - 0.068075613703 23505.2268632741 - 0.068891204554 23758.3911597604 - 0.069445285156 23929.9081892732 - 0.069699290412 24008.4077688180 - 0.070507273036 24257.5738349339 - 0.071308053446 24503.7069362147 - 0.072094779214 24744.7288719195 - 0.072881819155 24985.0583968563 - 0.073669179508 25224.6925682085 - 0.074443103606 25459.4605241858 - 0.075217584496 25693.6227345675 - 0.075985850022 25925.1366257800 - 0.080025770792 27129.8119850333 - 0.083446781254 28132.9438671606 - 0.085039054415 28594.4459981768 - 0.086882799193 29124.5061762448 - 0.090563602643 30168.6656505925 - 0.097409865366 32060.2056021117 - 0.098048745703 32233.3179175584 - 0.098800088193 32436.1532528941 - 0.099196042301 32542.7197310752 - 0.099749390864 32691.2685679768 - 0.104034166216 33826.5194785294 - 0.109196049060 35158.5235589571 - 0.110478160714 35483.2774392220 - 0.116779214795 37043.7832023775 - 0.122958131104 38516.2751862691 - 0.129040640957 39909.4957224782 - 0.135039585969 41228.6094901022 - 0.140969809573 42478.8506695485 - 0.146852000658 43666.1802607532 - 0.152688447233 44792.4507939202 - 0.158496204509 45862.1785922311 - 0.159712715054 46079.8313914735 - 0.164279208794 46877.1216330937 - 0.170051675465 47840.6514657890 - 0.175812259885 48753.3297873820 - 0.181580215945 49618.8389737497 - 0.187349543249 50436.8145608953 - 0.193137596350 51210.1830224785 - 0.198944205023 51939.2466495306 - 0.204775439768 52625.0914340995 - 0.210639885813 53268.9471491258 - 0.216539437786 53871.1899603712 - 0.218496424538 54061.0660298329 - 0.222481680580 54432.7258719124 - 0.228473590032 54954.2551984815 - 0.234515978976 55435.8797792079 - 0.240617859989 55878.3206304406 - 0.246784861952 56281.9128999833 - 0.253019544852 56646.7502483267 - 0.259329483022 56973.1858058612 - 0.265719147637 57261.3306019934 - 0.272195195278 57511.3506041719 - 0.278763808172 57723.3266042449 - 0.279757217877 57751.8371738787 - 0.285433149112 57897.3347469924 - 0.292206054483 58033.2715801274 - 0.299089825790 58131.1313787858 - 0.306093552247 58190.8694630198 - 0.313223436730 58212.3635842512 - 0.320487464748 58195.4814507592 - 0.327893066683 58140.0687367407 - 0.335449298010 58045.9432999111 - 0.343166695054 57912.8720605693 - 0.351052990684 57740.6559955367 - 0.359119448623 57529.0289603955 - 0.367374543417 57277.8030358890 - 0.375834036819 56986.5760664682 - 0.384508722380 56655.1016093441 - 0.393412438715 56283.0552351197 - 0.402558045083 55870.1906554435 - 0.411963016652 55416.1000485637 - 0.421641775223 54920.5733726953 - 0.431616622132 54383.0652511316 - 0.441903004353 53803.4722049248 - 0.000000175740 0.1163263781 - 0.058449850345 24337.2432469434 - 0.091533801905 35880.0055851907 - 0.146325177213 50351.3634881834 - 0.199998644321 58855.6184164509 - 0.255887600070 62650.7313701841 - 0.323491447719 62308.6791122585 - 0.408730139842 57502.0192817753 - 0.000000317701 0.2522519168 - 0.053203422632 26175.4979242417 - 0.083164506512 38474.0182936460 - 0.132769087051 53831.3663461871 - 0.181339247295 62788.4270171369 - 0.231883223978 66708.6762851812 - 0.292970332353 66205.2286436792 - 0.369899220114 60950.2209766636 - 0.000000524161 0.4763225666 - 0.048885965448 27191.0419067454 - 0.076324199034 39897.2099262142 - 0.121759685097 55758.6470859944 - 0.166246870684 65008.2107366173 - 0.212531139360 69054.2975540952 - 0.268445029998 68527.1534668639 - 0.338806899439 63083.6238117697 + 0.005779615638 2145.6959761372 + 0.009343352305 3453.0653730638 + 0.012231865048 4506.3825853791 + 0.014724559679 5410.9306654647 + 0.016701645729 6125.4280806819 + 0.016892461523 6194.2469631156 + 0.016955730922 6217.0599786056 + 0.018997078958 6951.6291450090 + 0.019055307576 6972.5399570063 + 0.020892322469 7631.0092948195 + 0.022670487719 8266.0692733300 + 0.024368250299 8870.2316036480 + 0.024899113830 9058.6970822733 + 0.025765787421 9365.9163482797 + 0.025982961363 9442.8093601936 + 0.026672083305 9686.5574853933 + 0.027526408818 9988.2203537144 + 0.029022050008 10514.9269305106 + 0.029825374128 10797.0761816617 + 0.030448265054 11015.4862224261 + 0.031839139780 11502.0109492934 + 0.033185536389 11971.4116485525 + 0.034491731369 12425.2960163771 + 0.035761350676 12865.0282238873 + 0.037009347414 13295.8609681326 + 0.038225984733 13714.4990181413 + 0.039413668536 14121.8497698339 + 0.040574509042 14518.7098007094 + 0.041721175508 14909.4595348889 + 0.042833494142 15287.2867162507 + 0.043934363354 15660.0279471231 + 0.045014340593 16024.5233913715 + 0.046084661536 16384.6001598369 + 0.046244551284 16438.2901831998 + 0.047126251056 16733.8894711703 + 0.048159978350 17079.4355833913 + 0.049176781494 17418.2368966610 + 0.049309857778 17462.4978090738 + 0.050177524543 17750.6224536821 + 0.051162999699 18076.8942518032 + 0.051227558821 18098.2321675872 + 0.052143028164 18400.3263210077 + 0.053108932183 18718.0758326819 + 0.054061349839 19030.3868213391 + 0.055000872080 19337.4855439738 + 0.055936656071 19642.3826371121 + 0.056851886638 19939.6291568718 + 0.057764156047 20234.9674920533 + 0.058665312247 20525.7728610167 + 0.059563978650 20814.8419434831 + 0.060444068989 21097.0260647772 + 0.061322263957 21377.6986318366 + 0.061346295278 21385.3663277623 + 0.062190729661 21654.3674022325 + 0.063057646136 21929.6495256138 + 0.063565555601 22090.5149853428 + 0.063907575019 22198.6652768275 + 0.064756420503 22466.4706201027 + 0.065596637875 22730.6946301851 + 0.066111851598 22892.2893115532 + 0.066428505417 22991.4454856087 + 0.067259739223 23251.1504175858 + 0.068075613703 23505.2281034648 + 0.068891204554 23758.3924208316 + 0.069445285156 23929.9094645704 + 0.069699290412 24008.4090506475 + 0.070507273036 24257.5751375871 + 0.071308053446 24503.7082595716 + 0.072094779214 24744.7302156786 + 0.072881819155 24985.0597610859 + 0.073669179508 25224.6939529756 + 0.074443103606 25459.4619291958 + 0.075217584496 25693.6241598889 + 0.075985850022 25925.1380713019 + 0.080025770792 27129.8135375828 + 0.083446781254 28132.9455113001 + 0.085039054415 28594.4476852137 + 0.086882799193 29124.5079131477 + 0.090563602643 30168.6674876075 + 0.097409865366 32060.2076269621 + 0.098048745703 32233.3199600243 + 0.098800088193 32436.1553160923 + 0.099196042301 32542.7218052057 + 0.099749390864 32691.2706573926 + 0.104034166216 33826.5216865515 + 0.109196049060 35158.5259102737 + 0.110478160714 35483.2798261692 + 0.116779214795 37043.7857644607 + 0.122958131104 38516.2779198065 + 0.129040640957 39909.4986241101 + 0.135039585969 41228.6125564911 + 0.140969809573 42478.8538974781 + 0.146852000658 43666.1836473161 + 0.152688447233 44792.4543360433 + 0.158496204509 45862.1822870895 + 0.159712715054 46079.8351180431 + 0.164279208794 46877.1254777756 + 0.170051675465 47840.6554575718 + 0.175812259885 48753.3339233423 + 0.181580215945 49618.8432512840 + 0.187349543249 50436.8189770974 + 0.193137596350 51210.1875747095 + 0.198944205023 51939.2513349963 + 0.204775439768 52625.0962500010 + 0.210639885813 53268.9520927103 + 0.216539437786 53871.1950287826 + 0.218496424538 54061.0711388369 + 0.222481680580 54432.7310623112 + 0.228473590032 54954.2605080233 + 0.234515978976 55435.8852049183 + 0.240617859989 55878.3261693711 + 0.246784861952 56281.9185491371 + 0.253019544852 56646.7560046001 + 0.259329483022 56973.1916661271 + 0.265719147637 57261.3365630408 + 0.272195195278 57511.3566627352 + 0.278763808172 57723.3327569878 + 0.279757217877 57751.8433404527 + 0.285433149112 57897.3409905268 + 0.292206054483 58033.2779109333 + 0.299089825790 58131.1377932671 + 0.306093552247 58190.8759575145 + 0.313223436730 58212.3701549880 + 0.320487464748 58195.4880938693 + 0.327893066683 58140.0754482441 + 0.335449298010 58045.9500757236 + 0.343166695054 57912.8788965034 + 0.351052990684 57740.6628872702 + 0.359119448623 57529.0359034899 + 0.367374543417 57277.8100257626 + 0.375834036819 56986.5830984285 + 0.384508722380 56655.1086785485 + 0.393412438715 56283.0623365817 + 0.402558045083 55870.1977840210 + 0.411963016652 55416.1071989647 + 0.421641775223 54920.5805394613 + 0.431616622132 54383.0724286427 + 0.441903004353 53803.4793873827 + 0.000000175740 0.1163263716 + 0.058449850345 24334.6231221998 + 0.091533801905 35875.1678096439 + 0.146325177213 50342.7825110074 + 0.199998644321 58843.9070761323 + 0.255887600070 62636.6571488892 + 0.323491447719 62292.9848836375 + 0.408730139842 57485.8039467367 + 0.000000317701 0.2522518654 + 0.053203422632 26168.5241914245 + 0.083164506512 38461.1905526105 + 0.132769087051 53808.6938562430 + 0.181339247295 62757.5618536758 + 0.231883223978 66671.6689465934 + 0.292970332353 66164.0674055313 + 0.369899220114 60907.8223742178 + 0.000000524161 0.4763223339 + 0.048885965448 27178.5553644343 + 0.076324199034 39874.2879756637 + 0.121759685097 55718.1804349844 + 0.166246870684 64953.1419955984 + 0.212531139360 68988.2795815663 + 0.268445029998 68453.7317030075 + 0.338806899439 63008.0053286611 diff --git a/mytest/rho_MgCaCl.out b/mytest/rho_MgCaCl.out index d641af94..7609fb01 100644 --- a/mytest/rho_MgCaCl.out +++ b/mytest/rho_MgCaCl.out @@ -160,10 +160,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 125711 + Specific Conductance (µS/cm, 24°C) = 125717 Density (g/cm³) = 1.07958 Volume (L) = 1.02501 - Viscosity (mPa s) = 1.22047 + Viscosity (mPa s) = 1.22041 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.922e+00 Mass of water (kg) = 1.000e+00 @@ -235,10 +235,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 125409 + Specific Conductance (µS/cm, 24°C) = 125415 Density (g/cm³) = 1.07957 Volume (L) = 1.02503 - Viscosity (mPa s) = 1.23597 + Viscosity (mPa s) = 1.23590 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.965e+00 Mass of water (kg) = 1.000e+00 @@ -310,10 +310,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 118839 + Specific Conductance (µS/cm, 24°C) = 118845 Density (g/cm³) = 1.07399 Volume (L) = 1.02324 - Viscosity (mPa s) = 1.22566 + Viscosity (mPa s) = 1.22560 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.791e+00 Mass of water (kg) = 1.000e+00 @@ -385,10 +385,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 123763 + Specific Conductance (µS/cm, 24°C) = 123769 Density (g/cm³) = 1.07859 Volume (L) = 1.02475 - Viscosity (mPa s) = 1.26069 + Viscosity (mPa s) = 1.26062 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.007e+00 Mass of water (kg) = 1.000e+00 @@ -460,10 +460,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 117074 + Specific Conductance (µS/cm, 24°C) = 117079 Density (g/cm³) = 1.07292 Volume (L) = 1.02293 - Viscosity (mPa s) = 1.25362 + Viscosity (mPa s) = 1.25355 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.838e+00 Mass of water (kg) = 1.000e+00 @@ -535,10 +535,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 116888 + Specific Conductance (µS/cm, 24°C) = 116894 Density (g/cm³) = 1.07298 Volume (L) = 1.02296 - Viscosity (mPa s) = 1.26890 + Viscosity (mPa s) = 1.26883 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.879e+00 Mass of water (kg) = 1.000e+00 @@ -610,10 +610,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 110934 + Specific Conductance (µS/cm, 24°C) = 110939 Density (g/cm³) = 1.06795 Volume (L) = 1.02137 - Viscosity (mPa s) = 1.26086 + Viscosity (mPa s) = 1.26079 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.722e+00 Mass of water (kg) = 1.000e+00 @@ -685,10 +685,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 110449 + Specific Conductance (µS/cm, 24°C) = 110454 Density (g/cm³) = 1.06776 Volume (L) = 1.02132 - Viscosity (mPa s) = 1.27810 + Viscosity (mPa s) = 1.27803 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.760e+00 Mass of water (kg) = 1.000e+00 @@ -760,10 +760,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 109398 + Specific Conductance (µS/cm, 24°C) = 109403 Density (g/cm³) = 1.06709 Volume (L) = 1.02112 - Viscosity (mPa s) = 1.29335 + Viscosity (mPa s) = 1.29328 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.778e+00 Mass of water (kg) = 1.000e+00 @@ -835,10 +835,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 170687 + Specific Conductance (µS/cm, 24°C) = 170696 Density (g/cm³) = 1.12820 Volume (L) = 1.04207 - Viscosity (mPa s) = 1.45723 + Viscosity (mPa s) = 1.45715 Activity of water = 0.918 Ionic strength (mol/kgw) = 4.816e+00 Mass of water (kg) = 1.000e+00 @@ -910,10 +910,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 165735 + Specific Conductance (µS/cm, 24°C) = 165743 Density (g/cm³) = 1.12259 Volume (L) = 1.04007 - Viscosity (mPa s) = 1.44762 + Viscosity (mPa s) = 1.44754 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.654e+00 Mass of water (kg) = 1.000e+00 @@ -985,10 +985,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 163361 + Specific Conductance (µS/cm, 24°C) = 163369 Density (g/cm³) = 1.12087 Volume (L) = 1.03955 - Viscosity (mPa s) = 1.46602 + Viscosity (mPa s) = 1.46594 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.661e+00 Mass of water (kg) = 1.000e+00 @@ -1060,10 +1060,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 161361 + Specific Conductance (µS/cm, 24°C) = 161369 Density (g/cm³) = 1.11950 Volume (L) = 1.03915 - Viscosity (mPa s) = 1.48312 + Viscosity (mPa s) = 1.48303 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.670e+00 Mass of water (kg) = 1.000e+00 @@ -1135,10 +1135,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 156244 + Specific Conductance (µS/cm, 24°C) = 156251 Density (g/cm³) = 1.11440 Volume (L) = 1.03737 - Viscosity (mPa s) = 1.48444 + Viscosity (mPa s) = 1.48435 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.537e+00 Mass of water (kg) = 1.000e+00 @@ -1210,10 +1210,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 150940 + Specific Conductance (µS/cm, 24°C) = 150947 Density (g/cm³) = 1.10906 Volume (L) = 1.03549 - Viscosity (mPa s) = 1.48147 + Viscosity (mPa s) = 1.48139 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.383e+00 Mass of water (kg) = 1.000e+00 @@ -1285,10 +1285,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 149189 + Specific Conductance (µS/cm, 24°C) = 149196 Density (g/cm³) = 1.10849 Volume (L) = 1.03540 - Viscosity (mPa s) = 1.51204 + Viscosity (mPa s) = 1.51195 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.434e+00 Mass of water (kg) = 1.000e+00 @@ -1360,10 +1360,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 146125 + Specific Conductance (µS/cm, 24°C) = 146132 Density (g/cm³) = 1.10607 Volume (L) = 1.03460 - Viscosity (mPa s) = 1.52770 + Viscosity (mPa s) = 1.52761 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.398e+00 Mass of water (kg) = 1.000e+00 @@ -1435,10 +1435,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 142372 + Specific Conductance (µS/cm, 24°C) = 142379 Density (g/cm³) = 1.10308 Volume (L) = 1.03361 - Viscosity (mPa s) = 1.54575 + Viscosity (mPa s) = 1.54567 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.346e+00 Mass of water (kg) = 1.000e+00 @@ -1709,10 +1709,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 189518 + Specific Conductance (µS/cm, 50°C) = 189278 Density (g/cm³) = 1.06874 Volume (L) = 1.03540 - Viscosity (mPa s) = 0.75628 + Viscosity (mPa s) = 0.75742 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.922e+00 Mass of water (kg) = 1.000e+00 @@ -1784,10 +1784,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 189561 + Specific Conductance (µS/cm, 50°C) = 189320 Density (g/cm³) = 1.06884 Volume (L) = 1.03532 - Viscosity (mPa s) = 0.76393 + Viscosity (mPa s) = 0.76508 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.965e+00 Mass of water (kg) = 1.000e+00 @@ -1859,10 +1859,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 180254 + Specific Conductance (µS/cm, 50°C) = 180028 Density (g/cm³) = 1.06348 Volume (L) = 1.03336 - Viscosity (mPa s) = 0.75517 + Viscosity (mPa s) = 0.75629 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.791e+00 Mass of water (kg) = 1.000e+00 @@ -1934,10 +1934,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 187994 + Specific Conductance (µS/cm, 50°C) = 187755 Density (g/cm³) = 1.06807 Volume (L) = 1.03484 - Viscosity (mPa s) = 0.77552 + Viscosity (mPa s) = 0.77669 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.007e+00 Mass of water (kg) = 1.000e+00 @@ -2009,10 +2009,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 178558 + Specific Conductance (µS/cm, 50°C) = 178334 Density (g/cm³) = 1.06263 Volume (L) = 1.03283 - Viscosity (mPa s) = 0.76829 + Viscosity (mPa s) = 0.76943 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.838e+00 Mass of water (kg) = 1.000e+00 @@ -2084,10 +2084,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 178685 + Specific Conductance (µS/cm, 50°C) = 178460 Density (g/cm³) = 1.06278 Volume (L) = 1.03277 - Viscosity (mPa s) = 0.77590 + Viscosity (mPa s) = 0.77706 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.879e+00 Mass of water (kg) = 1.000e+00 @@ -2159,10 +2159,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 170151 + Specific Conductance (µS/cm, 50°C) = 169939 Density (g/cm³) = 1.05795 Volume (L) = 1.03103 - Viscosity (mPa s) = 0.76863 + Viscosity (mPa s) = 0.76977 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.722e+00 Mass of water (kg) = 1.000e+00 @@ -2234,10 +2234,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 169867 + Specific Conductance (µS/cm, 50°C) = 169656 Density (g/cm³) = 1.05787 Volume (L) = 1.03087 - Viscosity (mPa s) = 0.77708 + Viscosity (mPa s) = 0.77823 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.760e+00 Mass of water (kg) = 1.000e+00 @@ -2309,10 +2309,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 168716 + Specific Conductance (µS/cm, 50°C) = 168507 Density (g/cm³) = 1.05731 Volume (L) = 1.03056 - Viscosity (mPa s) = 0.78424 + Viscosity (mPa s) = 0.78540 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.778e+00 Mass of water (kg) = 1.000e+00 @@ -2384,10 +2384,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 255685 + Specific Conductance (µS/cm, 50°C) = 255341 Density (g/cm³) = 1.11611 Volume (L) = 1.05335 - Viscosity (mPa s) = 0.90626 + Viscosity (mPa s) = 0.90772 Activity of water = 0.918 Ionic strength (mol/kgw) = 4.816e+00 Mass of water (kg) = 1.000e+00 @@ -2459,10 +2459,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 249065 + Specific Conductance (µS/cm, 50°C) = 248731 Density (g/cm³) = 1.11082 Volume (L) = 1.05109 - Viscosity (mPa s) = 0.89781 + Viscosity (mPa s) = 0.89924 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.654e+00 Mass of water (kg) = 1.000e+00 @@ -2534,10 +2534,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 246416 + Specific Conductance (µS/cm, 50°C) = 246086 Density (g/cm³) = 1.10934 Volume (L) = 1.05035 - Viscosity (mPa s) = 0.90596 + Viscosity (mPa s) = 0.90741 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.661e+00 Mass of water (kg) = 1.000e+00 @@ -2609,10 +2609,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 244173 + Specific Conductance (µS/cm, 50°C) = 243847 Density (g/cm³) = 1.10818 Volume (L) = 1.04976 - Viscosity (mPa s) = 0.91370 + Viscosity (mPa s) = 0.91516 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.669e+00 Mass of water (kg) = 1.000e+00 @@ -2684,10 +2684,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 237407 + Specific Conductance (µS/cm, 50°C) = 237092 Density (g/cm³) = 1.10340 Volume (L) = 1.04771 - Viscosity (mPa s) = 0.91103 + Viscosity (mPa s) = 0.91247 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.536e+00 Mass of water (kg) = 1.000e+00 @@ -2759,10 +2759,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 230223 + Specific Conductance (µS/cm, 50°C) = 229918 Density (g/cm³) = 1.09834 Volume (L) = 1.04560 - Viscosity (mPa s) = 0.90603 + Viscosity (mPa s) = 0.90746 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.382e+00 Mass of water (kg) = 1.000e+00 @@ -2834,10 +2834,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 228425 + Specific Conductance (µS/cm, 50°C) = 228125 Density (g/cm³) = 1.09797 Volume (L) = 1.04531 - Viscosity (mPa s) = 0.92115 + Viscosity (mPa s) = 0.92260 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.434e+00 Mass of water (kg) = 1.000e+00 @@ -2909,10 +2909,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 224508 + Specific Conductance (µS/cm, 50°C) = 224215 Density (g/cm³) = 1.09577 Volume (L) = 1.04433 - Viscosity (mPa s) = 0.92754 + Viscosity (mPa s) = 0.92900 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.397e+00 Mass of water (kg) = 1.000e+00 @@ -2984,10 +2984,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 219619 + Specific Conductance (µS/cm, 50°C) = 219335 Density (g/cm³) = 1.09302 Volume (L) = 1.04312 - Viscosity (mPa s) = 0.93483 + Viscosity (mPa s) = 0.93629 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.345e+00 Mass of water (kg) = 1.000e+00 @@ -3258,10 +3258,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 255651 + Specific Conductance (µS/cm, 74°C) = 254924 Density (g/cm³) = 1.05552 Volume (L) = 1.04837 - Viscosity (mPa s) = 0.52700 + Viscosity (mPa s) = 0.52876 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.922e+00 Mass of water (kg) = 1.000e+00 @@ -3333,10 +3333,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 255993 + Specific Conductance (µS/cm, 74°C) = 255263 Density (g/cm³) = 1.05569 Volume (L) = 1.04821 - Viscosity (mPa s) = 0.53190 + Viscosity (mPa s) = 0.53369 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.965e+00 Mass of water (kg) = 1.000e+00 @@ -3408,10 +3408,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 243669 + Specific Conductance (µS/cm, 74°C) = 242983 Density (g/cm³) = 1.05041 Volume (L) = 1.04621 - Viscosity (mPa s) = 0.52532 + Viscosity (mPa s) = 0.52707 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.791e+00 Mass of water (kg) = 1.000e+00 @@ -3483,10 +3483,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 254396 + Specific Conductance (µS/cm, 74°C) = 253670 Density (g/cm³) = 1.05506 Volume (L) = 1.04759 - Viscosity (mPa s) = 0.53913 + Viscosity (mPa s) = 0.54096 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.007e+00 Mass of water (kg) = 1.000e+00 @@ -3558,10 +3558,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 241947 + Specific Conductance (µS/cm, 74°C) = 241264 Density (g/cm³) = 1.04971 Volume (L) = 1.04553 - Viscosity (mPa s) = 0.53349 + Viscosity (mPa s) = 0.53528 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.837e+00 Mass of water (kg) = 1.000e+00 @@ -3633,10 +3633,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 242373 + Specific Conductance (µS/cm, 74°C) = 241688 Density (g/cm³) = 1.04993 Volume (L) = 1.04541 - Viscosity (mPa s) = 0.53835 + Viscosity (mPa s) = 0.54016 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.878e+00 Mass of water (kg) = 1.000e+00 @@ -3708,10 +3708,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 231055 + Specific Conductance (µS/cm, 74°C) = 230409 Density (g/cm³) = 1.04516 Volume (L) = 1.04363 - Viscosity (mPa s) = 0.53278 + Viscosity (mPa s) = 0.53455 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.721e+00 Mass of water (kg) = 1.000e+00 @@ -3783,10 +3783,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 230962 + Specific Conductance (µS/cm, 74°C) = 230315 Density (g/cm³) = 1.04516 Volume (L) = 1.04339 - Viscosity (mPa s) = 0.53811 + Viscosity (mPa s) = 0.53991 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.758e+00 Mass of water (kg) = 1.000e+00 @@ -3858,10 +3858,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 229687 + Specific Conductance (µS/cm, 74°C) = 229044 Density (g/cm³) = 1.04468 Volume (L) = 1.04301 - Viscosity (mPa s) = 0.54253 + Viscosity (mPa s) = 0.54434 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.776e+00 Mass of water (kg) = 1.000e+00 @@ -3933,10 +3933,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 345649 + Specific Conductance (µS/cm, 74°C) = 344603 Density (g/cm³) = 1.10270 Volume (L) = 1.06615 - Viscosity (mPa s) = 0.63062 + Viscosity (mPa s) = 0.63289 Activity of water = 0.918 Ionic strength (mol/kgw) = 4.816e+00 Mass of water (kg) = 1.000e+00 @@ -4008,10 +4008,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 336915 + Specific Conductance (µS/cm, 74°C) = 335897 Density (g/cm³) = 1.09755 Volume (L) = 1.06379 - Viscosity (mPa s) = 0.62450 + Viscosity (mPa s) = 0.62675 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.653e+00 Mass of water (kg) = 1.000e+00 @@ -4083,10 +4083,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 333776 + Specific Conductance (µS/cm, 74°C) = 332770 Density (g/cm³) = 1.09622 Volume (L) = 1.06291 - Viscosity (mPa s) = 0.62952 + Viscosity (mPa s) = 0.63178 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.659e+00 Mass of water (kg) = 1.000e+00 @@ -4158,10 +4158,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 331137 + Specific Conductance (µS/cm, 74°C) = 330141 Density (g/cm³) = 1.09518 Volume (L) = 1.06221 - Viscosity (mPa s) = 0.63428 + Viscosity (mPa s) = 0.63655 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.667e+00 Mass of water (kg) = 1.000e+00 @@ -4233,10 +4233,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 322380 + Specific Conductance (µS/cm, 74°C) = 321416 Density (g/cm³) = 1.09053 Volume (L) = 1.06005 - Viscosity (mPa s) = 0.63175 + Viscosity (mPa s) = 0.63401 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.533e+00 Mass of water (kg) = 1.000e+00 @@ -4308,10 +4308,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 313000 + Specific Conductance (µS/cm, 74°C) = 312069 Density (g/cm³) = 1.08559 Volume (L) = 1.05785 - Viscosity (mPa s) = 0.62766 + Viscosity (mPa s) = 0.62989 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.379e+00 Mass of water (kg) = 1.000e+00 @@ -4383,10 +4383,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 311103 + Specific Conductance (µS/cm, 74°C) = 310183 Density (g/cm³) = 1.08536 Volume (L) = 1.05742 - Viscosity (mPa s) = 0.63714 + Viscosity (mPa s) = 0.63940 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.430e+00 Mass of water (kg) = 1.000e+00 @@ -4458,10 +4458,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 306211 + Specific Conductance (µS/cm, 74°C) = 305310 Density (g/cm³) = 1.08327 Volume (L) = 1.05634 - Viscosity (mPa s) = 0.64075 + Viscosity (mPa s) = 0.64301 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.393e+00 Mass of water (kg) = 1.000e+00 @@ -4533,10 +4533,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 300058 + Specific Conductance (µS/cm, 74°C) = 299182 Density (g/cm³) = 1.08065 Volume (L) = 1.05502 - Viscosity (mPa s) = 0.64478 + Viscosity (mPa s) = 0.64704 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.341e+00 Mass of water (kg) = 1.000e+00 @@ -4807,10 +4807,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 321973 + Specific Conductance (µS/cm, 99°C) = 320441 Density (g/cm³) = 1.03997 Volume (L) = 1.06404 - Viscosity (mPa s) = 0.39472 + Viscosity (mPa s) = 0.39694 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.921e+00 Mass of water (kg) = 1.000e+00 @@ -4882,10 +4882,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 322588 + Specific Conductance (µS/cm, 99°C) = 321050 Density (g/cm³) = 1.04020 Volume (L) = 1.06380 - Viscosity (mPa s) = 0.39825 + Viscosity (mPa s) = 0.40050 Activity of water = 0.950 Ionic strength (mol/kgw) = 2.963e+00 Mass of water (kg) = 1.000e+00 @@ -4957,10 +4957,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 307074 + Specific Conductance (µS/cm, 99°C) = 305627 Density (g/cm³) = 1.03493 Volume (L) = 1.06184 - Viscosity (mPa s) = 0.39322 + Viscosity (mPa s) = 0.39541 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.789e+00 Mass of water (kg) = 1.000e+00 @@ -5032,10 +5032,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 320893 + Specific Conductance (µS/cm, 99°C) = 319359 Density (g/cm³) = 1.03968 Volume (L) = 1.06307 - Viscosity (mPa s) = 0.40339 + Viscosity (mPa s) = 0.40567 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.004e+00 Mass of water (kg) = 1.000e+00 @@ -5107,10 +5107,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 305262 + Specific Conductance (µS/cm, 99°C) = 303822 Density (g/cm³) = 1.03435 Volume (L) = 1.06103 - Viscosity (mPa s) = 0.39900 + Viscosity (mPa s) = 0.40124 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.833e+00 Mass of water (kg) = 1.000e+00 @@ -5182,10 +5182,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 305978 + Specific Conductance (µS/cm, 99°C) = 304531 Density (g/cm³) = 1.03462 Volume (L) = 1.06084 - Viscosity (mPa s) = 0.40247 + Viscosity (mPa s) = 0.40473 Activity of water = 0.951 Ionic strength (mol/kgw) = 2.873e+00 Mass of water (kg) = 1.000e+00 @@ -5257,10 +5257,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 291750 + Specific Conductance (µS/cm, 99°C) = 290387 Density (g/cm³) = 1.02986 Volume (L) = 1.05909 - Viscosity (mPa s) = 0.39817 + Viscosity (mPa s) = 0.40038 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.717e+00 Mass of water (kg) = 1.000e+00 @@ -5332,10 +5332,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 291837 + Specific Conductance (µS/cm, 99°C) = 290471 Density (g/cm³) = 1.02992 Volume (L) = 1.05878 - Viscosity (mPa s) = 0.40194 + Viscosity (mPa s) = 0.40418 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.753e+00 Mass of water (kg) = 1.000e+00 @@ -5407,10 +5407,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 290422 + Specific Conductance (µS/cm, 99°C) = 289063 Density (g/cm³) = 1.02949 Volume (L) = 1.05833 - Viscosity (mPa s) = 0.40502 + Viscosity (mPa s) = 0.40728 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.770e+00 Mass of water (kg) = 1.000e+00 @@ -5482,10 +5482,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 437698 + Specific Conductance (µS/cm, 99°C) = 435477 Density (g/cm³) = 1.08748 Volume (L) = 1.08106 - Viscosity (mPa s) = 0.47105 + Viscosity (mPa s) = 0.47390 Activity of water = 0.918 Ionic strength (mol/kgw) = 4.813e+00 Mass of water (kg) = 1.000e+00 @@ -5557,10 +5557,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 426524 + Specific Conductance (µS/cm, 99°C) = 424366 Density (g/cm³) = 1.08237 Volume (L) = 1.07867 - Viscosity (mPa s) = 0.46652 + Viscosity (mPa s) = 0.46932 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.649e+00 Mass of water (kg) = 1.000e+00 @@ -5632,10 +5632,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 422757 + Specific Conductance (µS/cm, 99°C) = 420624 Density (g/cm³) = 1.08113 Volume (L) = 1.07769 - Viscosity (mPa s) = 0.47001 + Viscosity (mPa s) = 0.47283 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.652e+00 Mass of water (kg) = 1.000e+00 @@ -5707,10 +5707,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 419623 + Specific Conductance (µS/cm, 99°C) = 417510 Density (g/cm³) = 1.08016 Volume (L) = 1.07690 - Viscosity (mPa s) = 0.47329 + Viscosity (mPa s) = 0.47614 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.658e+00 Mass of water (kg) = 1.000e+00 @@ -5782,10 +5782,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 408628 + Specific Conductance (µS/cm, 99°C) = 406582 Density (g/cm³) = 1.07558 Volume (L) = 1.07470 - Viscosity (mPa s) = 0.47122 + Viscosity (mPa s) = 0.47403 Activity of water = 0.923 Ionic strength (mol/kgw) = 4.523e+00 Mass of water (kg) = 1.000e+00 @@ -5857,10 +5857,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 396824 + Specific Conductance (µS/cm, 99°C) = 394848 Density (g/cm³) = 1.07068 Volume (L) = 1.07249 - Viscosity (mPa s) = 0.46799 + Viscosity (mPa s) = 0.47078 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.368e+00 Mass of water (kg) = 1.000e+00 @@ -5932,10 +5932,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 394806 + Specific Conductance (µS/cm, 99°C) = 392849 Density (g/cm³) = 1.07055 Volume (L) = 1.07193 - Viscosity (mPa s) = 0.47455 + Viscosity (mPa s) = 0.47737 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.416e+00 Mass of water (kg) = 1.000e+00 @@ -6007,10 +6007,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 388859 + Specific Conductance (µS/cm, 99°C) = 386941 Density (g/cm³) = 1.06852 Volume (L) = 1.07079 - Viscosity (mPa s) = 0.47686 + Viscosity (mPa s) = 0.47968 Activity of water = 0.925 Ionic strength (mol/kgw) = 4.377e+00 Mass of water (kg) = 1.000e+00 @@ -6082,10 +6082,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 381360 + Specific Conductance (µS/cm, 99°C) = 379492 Density (g/cm³) = 1.06597 Volume (L) = 1.06941 - Viscosity (mPa s) = 0.47940 + Viscosity (mPa s) = 0.48222 Activity of water = 0.926 Ionic strength (mol/kgw) = 4.324e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/rho_MgNaCl.out b/mytest/rho_MgNaCl.out index adf79231..c6e0e1d8 100644 --- a/mytest/rho_MgNaCl.out +++ b/mytest/rho_MgNaCl.out @@ -163,10 +163,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 112401 + Specific Conductance (µS/cm, 24°C) = 112406 Density (g/cm³) = 1.07117 Volume (L) = 1.02503 - Viscosity (mPa s) = 1.27873 + Viscosity (mPa s) = 1.27866 Activity of water = 0.947 Ionic strength (mol/kgw) = 2.854e+00 Mass of water (kg) = 1.000e+00 @@ -238,10 +238,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 114044 + Specific Conductance (µS/cm, 24°C) = 114049 Density (g/cm³) = 1.07376 Volume (L) = 1.02866 - Viscosity (mPa s) = 1.23011 + Viscosity (mPa s) = 1.23004 Activity of water = 0.942 Ionic strength (mol/kgw) = 2.809e+00 Mass of water (kg) = 1.000e+00 @@ -313,10 +313,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 118075 + Specific Conductance (µS/cm, 24°C) = 118081 Density (g/cm³) = 1.07819 Volume (L) = 1.03250 - Viscosity (mPa s) = 1.20379 + Viscosity (mPa s) = 1.20372 Activity of water = 0.937 Ionic strength (mol/kgw) = 2.868e+00 Mass of water (kg) = 1.000e+00 @@ -388,10 +388,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 120081 + Specific Conductance (µS/cm, 24°C) = 120086 Density (g/cm³) = 1.08087 Volume (L) = 1.03594 - Viscosity (mPa s) = 1.16226 + Viscosity (mPa s) = 1.16219 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.842e+00 Mass of water (kg) = 1.000e+00 @@ -463,10 +463,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 123299 + Specific Conductance (µS/cm, 24°C) = 123305 Density (g/cm³) = 1.08464 Volume (L) = 1.04015 - Viscosity (mPa s) = 1.11904 + Viscosity (mPa s) = 1.11898 Activity of water = 0.927 Ionic strength (mol/kgw) = 2.841e+00 Mass of water (kg) = 1.000e+00 @@ -538,10 +538,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 126484 + Specific Conductance (µS/cm, 24°C) = 126490 Density (g/cm³) = 1.08817 Volume (L) = 1.04405 - Viscosity (mPa s) = 1.08038 + Viscosity (mPa s) = 1.08032 Activity of water = 0.922 Ionic strength (mol/kgw) = 2.846e+00 Mass of water (kg) = 1.000e+00 @@ -613,10 +613,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 131111 + Specific Conductance (µS/cm, 24°C) = 131117 Density (g/cm³) = 1.09262 Volume (L) = 1.04804 - Viscosity (mPa s) = 1.05406 + Viscosity (mPa s) = 1.05400 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.909e+00 Mass of water (kg) = 1.000e+00 @@ -688,10 +688,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 134991 + Specific Conductance (µS/cm, 24°C) = 134997 Density (g/cm³) = 1.09656 Volume (L) = 1.05260 - Viscosity (mPa s) = 1.00746 + Viscosity (mPa s) = 1.00740 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.907e+00 Mass of water (kg) = 1.000e+00 @@ -763,10 +763,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 140576 + Specific Conductance (µS/cm, 24°C) = 140583 Density (g/cm³) = 1.10154 Volume (L) = 1.05743 - Viscosity (mPa s) = 0.97140 + Viscosity (mPa s) = 0.97134 Activity of water = 0.905 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -838,10 +838,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 143032 + Specific Conductance (µS/cm, 24°C) = 143039 Density (g/cm³) = 1.10431 Volume (L) = 1.03810 - Viscosity (mPa s) = 1.49006 + Viscosity (mPa s) = 1.48998 Activity of water = 0.920 Ionic strength (mol/kgw) = 4.262e+00 Mass of water (kg) = 1.000e+00 @@ -913,10 +913,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 151258 + Specific Conductance (µS/cm, 24°C) = 151265 Density (g/cm³) = 1.11355 Volume (L) = 1.04577 - Viscosity (mPa s) = 1.45948 + Viscosity (mPa s) = 1.45939 Activity of water = 0.910 Ionic strength (mol/kgw) = 4.468e+00 Mass of water (kg) = 1.000e+00 @@ -988,10 +988,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 155983 + Specific Conductance (µS/cm, 24°C) = 155990 Density (g/cm³) = 1.11766 Volume (L) = 1.05144 - Viscosity (mPa s) = 1.38811 + Viscosity (mPa s) = 1.38803 Activity of water = 0.903 Ionic strength (mol/kgw) = 4.440e+00 Mass of water (kg) = 1.000e+00 @@ -1063,10 +1063,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 163496 + Specific Conductance (µS/cm, 24°C) = 163504 Density (g/cm³) = 1.12445 Volume (L) = 1.05929 - Viscosity (mPa s) = 1.31414 + Viscosity (mPa s) = 1.31406 Activity of water = 0.893 Ionic strength (mol/kgw) = 4.484e+00 Mass of water (kg) = 1.000e+00 @@ -1138,10 +1138,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 171770 + Specific Conductance (µS/cm, 24°C) = 171779 Density (g/cm³) = 1.13200 Volume (L) = 1.06696 - Viscosity (mPa s) = 1.26263 + Viscosity (mPa s) = 1.26255 Activity of water = 0.882 Ionic strength (mol/kgw) = 4.603e+00 Mass of water (kg) = 1.000e+00 @@ -1213,10 +1213,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 179730 + Specific Conductance (µS/cm, 24°C) = 179740 Density (g/cm³) = 1.13838 Volume (L) = 1.07433 - Viscosity (mPa s) = 1.19969 + Viscosity (mPa s) = 1.19960 Activity of water = 0.873 Ionic strength (mol/kgw) = 4.663e+00 Mass of water (kg) = 1.000e+00 @@ -1288,10 +1288,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 187991 + Specific Conductance (µS/cm, 24°C) = 188001 Density (g/cm³) = 1.14426 Volume (L) = 1.08163 - Viscosity (mPa s) = 1.13185 + Viscosity (mPa s) = 1.13176 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.698e+00 Mass of water (kg) = 1.000e+00 @@ -1363,10 +1363,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 199083 + Specific Conductance (µS/cm, 24°C) = 199095 Density (g/cm³) = 1.15293 Volume (L) = 1.09029 - Viscosity (mPa s) = 1.08766 + Viscosity (mPa s) = 1.08758 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.883e+00 Mass of water (kg) = 1.000e+00 @@ -1438,10 +1438,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 24°C) = 211121 + Specific Conductance (µS/cm, 24°C) = 211134 Density (g/cm³) = 1.15997 Volume (L) = 1.09928 - Viscosity (mPa s) = 1.00615 + Viscosity (mPa s) = 1.00607 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.934e+00 Mass of water (kg) = 1.000e+00 @@ -1712,10 +1712,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 173375 + Specific Conductance (µS/cm, 50°C) = 173157 Density (g/cm³) = 1.06124 Volume (L) = 1.03462 - Viscosity (mPa s) = 0.77347 + Viscosity (mPa s) = 0.77464 Activity of water = 0.947 Ionic strength (mol/kgw) = 2.854e+00 Mass of water (kg) = 1.000e+00 @@ -1787,10 +1787,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 175423 + Specific Conductance (µS/cm, 50°C) = 175202 Density (g/cm³) = 1.06357 Volume (L) = 1.03852 - Viscosity (mPa s) = 0.74428 + Viscosity (mPa s) = 0.74543 Activity of water = 0.942 Ionic strength (mol/kgw) = 2.808e+00 Mass of water (kg) = 1.000e+00 @@ -1862,10 +1862,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 181228 + Specific Conductance (µS/cm, 50°C) = 180997 Density (g/cm³) = 1.06777 Volume (L) = 1.04258 - Viscosity (mPa s) = 0.72844 + Viscosity (mPa s) = 0.72959 Activity of water = 0.937 Ionic strength (mol/kgw) = 2.868e+00 Mass of water (kg) = 1.000e+00 @@ -1937,10 +1937,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 183845 + Specific Conductance (µS/cm, 50°C) = 183610 Density (g/cm³) = 1.07020 Volume (L) = 1.04627 - Viscosity (mPa s) = 0.70346 + Viscosity (mPa s) = 0.70458 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.841e+00 Mass of water (kg) = 1.000e+00 @@ -2012,10 +2012,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 188241 + Specific Conductance (µS/cm, 50°C) = 187998 Density (g/cm³) = 1.07369 Volume (L) = 1.05077 - Viscosity (mPa s) = 0.67743 + Viscosity (mPa s) = 0.67854 Activity of water = 0.927 Ionic strength (mol/kgw) = 2.841e+00 Mass of water (kg) = 1.000e+00 @@ -2087,10 +2087,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 192609 + Specific Conductance (µS/cm, 50°C) = 192358 Density (g/cm³) = 1.07696 Volume (L) = 1.05493 - Viscosity (mPa s) = 0.65414 + Viscosity (mPa s) = 0.65523 Activity of water = 0.922 Ionic strength (mol/kgw) = 2.845e+00 Mass of water (kg) = 1.000e+00 @@ -2162,10 +2162,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 199254 + Specific Conductance (µS/cm, 50°C) = 198991 Density (g/cm³) = 1.08117 Volume (L) = 1.05913 - Viscosity (mPa s) = 0.63827 + Viscosity (mPa s) = 0.63936 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.909e+00 Mass of water (kg) = 1.000e+00 @@ -2237,10 +2237,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 204528 + Specific Conductance (µS/cm, 50°C) = 204254 Density (g/cm³) = 1.08481 Volume (L) = 1.06400 - Viscosity (mPa s) = 0.61018 + Viscosity (mPa s) = 0.61125 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.907e+00 Mass of water (kg) = 1.000e+00 @@ -2312,10 +2312,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 212451 + Specific Conductance (µS/cm, 50°C) = 212161 Density (g/cm³) = 1.08952 Volume (L) = 1.06910 - Viscosity (mPa s) = 0.58844 + Viscosity (mPa s) = 0.58950 Activity of water = 0.905 Ionic strength (mol/kgw) = 2.964e+00 Mass of water (kg) = 1.000e+00 @@ -2387,10 +2387,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 220766 + Specific Conductance (µS/cm, 50°C) = 220477 Density (g/cm³) = 1.09416 Volume (L) = 1.04772 - Viscosity (mPa s) = 0.89877 + Viscosity (mPa s) = 0.90020 Activity of water = 0.920 Ionic strength (mol/kgw) = 4.262e+00 Mass of water (kg) = 1.000e+00 @@ -2462,10 +2462,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 232886 + Specific Conductance (µS/cm, 50°C) = 232574 Density (g/cm³) = 1.10311 Volume (L) = 1.05566 - Viscosity (mPa s) = 0.88039 + Viscosity (mPa s) = 0.88184 Activity of water = 0.910 Ionic strength (mol/kgw) = 4.468e+00 Mass of water (kg) = 1.000e+00 @@ -2537,10 +2537,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 239469 + Specific Conductance (µS/cm, 50°C) = 239141 Density (g/cm³) = 1.10692 Volume (L) = 1.06164 - Viscosity (mPa s) = 0.83797 + Viscosity (mPa s) = 0.83940 Activity of water = 0.903 Ionic strength (mol/kgw) = 4.439e+00 Mass of water (kg) = 1.000e+00 @@ -2612,10 +2612,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 250171 + Specific Conductance (µS/cm, 50°C) = 249818 Density (g/cm³) = 1.11335 Volume (L) = 1.06985 - Viscosity (mPa s) = 0.79383 + Viscosity (mPa s) = 0.79524 Activity of water = 0.893 Ionic strength (mol/kgw) = 4.483e+00 Mass of water (kg) = 1.000e+00 @@ -2687,10 +2687,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 262156 + Specific Conductance (µS/cm, 50°C) = 261775 Density (g/cm³) = 1.12060 Volume (L) = 1.07781 - Viscosity (mPa s) = 0.76299 + Viscosity (mPa s) = 0.76439 Activity of water = 0.882 Ionic strength (mol/kgw) = 4.602e+00 Mass of water (kg) = 1.000e+00 @@ -2762,10 +2762,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 273540 + Specific Conductance (µS/cm, 50°C) = 273130 Density (g/cm³) = 1.12667 Volume (L) = 1.08549 - Viscosity (mPa s) = 0.72533 + Viscosity (mPa s) = 0.72673 Activity of water = 0.873 Ionic strength (mol/kgw) = 4.662e+00 Mass of water (kg) = 1.000e+00 @@ -2837,10 +2837,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 285277 + Specific Conductance (µS/cm, 50°C) = 284835 Density (g/cm³) = 1.13224 Volume (L) = 1.09311 - Viscosity (mPa s) = 0.68473 + Viscosity (mPa s) = 0.68612 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.698e+00 Mass of water (kg) = 1.000e+00 @@ -2912,10 +2912,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 301451 + Specific Conductance (µS/cm, 50°C) = 300966 Density (g/cm³) = 1.14068 Volume (L) = 1.10200 - Viscosity (mPa s) = 0.65824 + Viscosity (mPa s) = 0.65963 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.883e+00 Mass of water (kg) = 1.000e+00 @@ -2987,10 +2987,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 318557 + Specific Conductance (µS/cm, 50°C) = 318018 Density (g/cm³) = 1.14737 Volume (L) = 1.11135 - Viscosity (mPa s) = 0.60948 + Viscosity (mPa s) = 0.61085 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.934e+00 Mass of water (kg) = 1.000e+00 @@ -3261,10 +3261,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 235947 + Specific Conductance (µS/cm, 74°C) = 235281 Density (g/cm³) = 1.04856 Volume (L) = 1.04712 - Viscosity (mPa s) = 0.53463 + Viscosity (mPa s) = 0.53645 Activity of water = 0.947 Ionic strength (mol/kgw) = 2.852e+00 Mass of water (kg) = 1.000e+00 @@ -3336,10 +3336,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 238261 + Specific Conductance (µS/cm, 74°C) = 237585 Density (g/cm³) = 1.05073 Volume (L) = 1.05119 - Viscosity (mPa s) = 0.51460 + Viscosity (mPa s) = 0.51639 Activity of water = 0.942 Ionic strength (mol/kgw) = 2.807e+00 Mass of water (kg) = 1.000e+00 @@ -3411,10 +3411,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 245810 + Specific Conductance (µS/cm, 74°C) = 245106 Density (g/cm³) = 1.05482 Volume (L) = 1.05537 - Viscosity (mPa s) = 0.50372 + Viscosity (mPa s) = 0.50550 Activity of water = 0.937 Ionic strength (mol/kgw) = 2.867e+00 Mass of water (kg) = 1.000e+00 @@ -3486,10 +3486,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 248920 + Specific Conductance (µS/cm, 74°C) = 248203 Density (g/cm³) = 1.05711 Volume (L) = 1.05922 - Viscosity (mPa s) = 0.48654 + Viscosity (mPa s) = 0.48829 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.840e+00 Mass of water (kg) = 1.000e+00 @@ -3561,10 +3561,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 254378 + Specific Conductance (µS/cm, 74°C) = 253640 Density (g/cm³) = 1.06044 Volume (L) = 1.06389 - Viscosity (mPa s) = 0.46864 + Viscosity (mPa s) = 0.47036 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.840e+00 Mass of water (kg) = 1.000e+00 @@ -3636,10 +3636,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 259826 + Specific Conductance (µS/cm, 74°C) = 259066 Density (g/cm³) = 1.06357 Volume (L) = 1.06820 - Viscosity (mPa s) = 0.45260 + Viscosity (mPa s) = 0.45430 Activity of water = 0.922 Ionic strength (mol/kgw) = 2.845e+00 Mass of water (kg) = 1.000e+00 @@ -3711,10 +3711,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 268456 + Specific Conductance (µS/cm, 74°C) = 267659 Density (g/cm³) = 1.06767 Volume (L) = 1.07252 - Viscosity (mPa s) = 0.44168 + Viscosity (mPa s) = 0.44338 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.908e+00 Mass of water (kg) = 1.000e+00 @@ -3786,10 +3786,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 274982 + Specific Conductance (µS/cm, 74°C) = 274157 Density (g/cm³) = 1.07115 Volume (L) = 1.07757 - Viscosity (mPa s) = 0.42233 + Viscosity (mPa s) = 0.42399 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.906e+00 Mass of water (kg) = 1.000e+00 @@ -3861,10 +3861,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 285170 + Specific Conductance (µS/cm, 74°C) = 284298 Density (g/cm³) = 1.07571 Volume (L) = 1.08282 - Viscosity (mPa s) = 0.40736 + Viscosity (mPa s) = 0.40902 Activity of water = 0.905 Ionic strength (mol/kgw) = 2.963e+00 Mass of water (kg) = 1.000e+00 @@ -3936,10 +3936,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 301454 + Specific Conductance (µS/cm, 74°C) = 300563 Density (g/cm³) = 1.08172 Volume (L) = 1.05973 - Viscosity (mPa s) = 0.61952 + Viscosity (mPa s) = 0.62175 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.258e+00 Mass of water (kg) = 1.000e+00 @@ -4011,10 +4011,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 317595 + Specific Conductance (µS/cm, 74°C) = 316635 Density (g/cm³) = 1.09054 Volume (L) = 1.06779 - Viscosity (mPa s) = 0.60690 + Viscosity (mPa s) = 0.60915 Activity of water = 0.910 Ionic strength (mol/kgw) = 4.463e+00 Mass of water (kg) = 1.000e+00 @@ -4086,10 +4086,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 325902 + Specific Conductance (µS/cm, 74°C) = 324896 Density (g/cm³) = 1.09417 Volume (L) = 1.07398 - Viscosity (mPa s) = 0.57808 + Viscosity (mPa s) = 0.58029 Activity of water = 0.903 Ionic strength (mol/kgw) = 4.436e+00 Mass of water (kg) = 1.000e+00 @@ -4161,10 +4161,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 339714 + Specific Conductance (µS/cm, 74°C) = 338634 Density (g/cm³) = 1.10040 Volume (L) = 1.08241 - Viscosity (mPa s) = 0.54798 + Viscosity (mPa s) = 0.55017 Activity of water = 0.893 Ionic strength (mol/kgw) = 4.480e+00 Mass of water (kg) = 1.000e+00 @@ -4236,10 +4236,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 355435 + Specific Conductance (µS/cm, 74°C) = 354273 Density (g/cm³) = 1.10751 Volume (L) = 1.09053 - Viscosity (mPa s) = 0.52688 + Viscosity (mPa s) = 0.52907 Activity of water = 0.882 Ionic strength (mol/kgw) = 4.600e+00 Mass of water (kg) = 1.000e+00 @@ -4311,10 +4311,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 370193 + Specific Conductance (µS/cm, 74°C) = 368946 Density (g/cm³) = 1.11341 Volume (L) = 1.09840 - Viscosity (mPa s) = 0.50115 + Viscosity (mPa s) = 0.50332 Activity of water = 0.873 Ionic strength (mol/kgw) = 4.660e+00 Mass of water (kg) = 1.000e+00 @@ -4386,10 +4386,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 385317 + Specific Conductance (µS/cm, 74°C) = 383975 Density (g/cm³) = 1.11881 Volume (L) = 1.10622 - Viscosity (mPa s) = 0.47340 + Viscosity (mPa s) = 0.47554 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.696e+00 Mass of water (kg) = 1.000e+00 @@ -4461,10 +4461,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 406670 + Specific Conductance (µS/cm, 74°C) = 405200 Density (g/cm³) = 1.12714 Volume (L) = 1.11523 - Viscosity (mPa s) = 0.45525 + Viscosity (mPa s) = 0.45742 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.881e+00 Mass of water (kg) = 1.000e+00 @@ -4536,10 +4536,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 74°C) = 428712 + Specific Conductance (µS/cm, 74°C) = 427086 Density (g/cm³) = 1.13363 Volume (L) = 1.12482 - Viscosity (mPa s) = 0.42193 + Viscosity (mPa s) = 0.42407 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.933e+00 Mass of water (kg) = 1.000e+00 @@ -4810,10 +4810,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 298265 + Specific Conductance (µS/cm, 99°C) = 296857 Density (g/cm³) = 1.03337 Volume (L) = 1.06246 - Viscosity (mPa s) = 0.39898 + Viscosity (mPa s) = 0.40125 Activity of water = 0.947 Ionic strength (mol/kgw) = 2.846e+00 Mass of water (kg) = 1.000e+00 @@ -4885,10 +4885,10 @@ Initial solution 2. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 300782 + Specific Conductance (µS/cm, 99°C) = 299358 Density (g/cm³) = 1.03543 Volume (L) = 1.06668 - Viscosity (mPa s) = 0.38418 + Viscosity (mPa s) = 0.38640 Activity of water = 0.943 Ionic strength (mol/kgw) = 2.802e+00 Mass of water (kg) = 1.000e+00 @@ -4960,10 +4960,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 310077 + Specific Conductance (µS/cm, 99°C) = 308593 Density (g/cm³) = 1.03945 Volume (L) = 1.07093 - Viscosity (mPa s) = 0.37612 + Viscosity (mPa s) = 0.37834 Activity of water = 0.937 Ionic strength (mol/kgw) = 2.862e+00 Mass of water (kg) = 1.000e+00 @@ -5035,10 +5035,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 313630 + Specific Conductance (µS/cm, 99°C) = 312122 Density (g/cm³) = 1.04165 Volume (L) = 1.07490 - Viscosity (mPa s) = 0.36340 + Viscosity (mPa s) = 0.36558 Activity of water = 0.933 Ionic strength (mol/kgw) = 2.836e+00 Mass of water (kg) = 1.000e+00 @@ -5110,10 +5110,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 320111 + Specific Conductance (µS/cm, 99°C) = 318561 Density (g/cm³) = 1.04488 Volume (L) = 1.07970 - Viscosity (mPa s) = 0.35012 + Viscosity (mPa s) = 0.35227 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.837e+00 Mass of water (kg) = 1.000e+00 @@ -5185,10 +5185,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 326604 + Specific Conductance (µS/cm, 99°C) = 325009 Density (g/cm³) = 1.04792 Volume (L) = 1.08412 - Viscosity (mPa s) = 0.33823 + Viscosity (mPa s) = 0.34035 Activity of water = 0.923 Ionic strength (mol/kgw) = 2.842e+00 Mass of water (kg) = 1.000e+00 @@ -5260,10 +5260,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 337222 + Specific Conductance (µS/cm, 99°C) = 335553 Density (g/cm³) = 1.05197 Volume (L) = 1.08850 - Viscosity (mPa s) = 0.33013 + Viscosity (mPa s) = 0.33224 Activity of water = 0.917 Ionic strength (mol/kgw) = 2.906e+00 Mass of water (kg) = 1.000e+00 @@ -5335,10 +5335,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 344950 + Specific Conductance (µS/cm, 99°C) = 343225 Density (g/cm³) = 1.05534 Volume (L) = 1.09370 - Viscosity (mPa s) = 0.31576 + Viscosity (mPa s) = 0.31784 Activity of water = 0.911 Ionic strength (mol/kgw) = 2.905e+00 Mass of water (kg) = 1.000e+00 @@ -5410,10 +5410,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 357392 + Specific Conductance (µS/cm, 99°C) = 355572 Density (g/cm³) = 1.05983 Volume (L) = 1.09904 - Viscosity (mPa s) = 0.30466 + Viscosity (mPa s) = 0.30673 Activity of water = 0.905 Ionic strength (mol/kgw) = 2.963e+00 Mass of water (kg) = 1.000e+00 @@ -5485,10 +5485,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 382865 + Specific Conductance (µS/cm, 99°C) = 380968 Density (g/cm³) = 1.06697 Volume (L) = 1.07425 - Viscosity (mPa s) = 0.46066 + Viscosity (mPa s) = 0.46343 Activity of water = 0.921 Ionic strength (mol/kgw) = 4.242e+00 Mass of water (kg) = 1.000e+00 @@ -5560,10 +5560,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 403169 + Specific Conductance (µS/cm, 99°C) = 401128 Density (g/cm³) = 1.07574 Volume (L) = 1.08235 - Viscosity (mPa s) = 0.45127 + Viscosity (mPa s) = 0.45408 Activity of water = 0.910 Ionic strength (mol/kgw) = 4.447e+00 Mass of water (kg) = 1.000e+00 @@ -5635,10 +5635,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 413131 + Specific Conductance (µS/cm, 99°C) = 410996 Density (g/cm³) = 1.07924 Volume (L) = 1.08872 - Viscosity (mPa s) = 0.43025 + Viscosity (mPa s) = 0.43301 Activity of water = 0.903 Ionic strength (mol/kgw) = 4.422e+00 Mass of water (kg) = 1.000e+00 @@ -5710,10 +5710,10 @@ Initial solution 13. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 430046 + Specific Conductance (µS/cm, 99°C) = 427761 Density (g/cm³) = 1.08533 Volume (L) = 1.09734 - Viscosity (mPa s) = 0.40818 + Viscosity (mPa s) = 0.41091 Activity of water = 0.893 Ionic strength (mol/kgw) = 4.469e+00 Mass of water (kg) = 1.000e+00 @@ -5785,10 +5785,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 449575 + Specific Conductance (µS/cm, 99°C) = 447119 Density (g/cm³) = 1.09235 Volume (L) = 1.10558 - Viscosity (mPa s) = 0.39265 + Viscosity (mPa s) = 0.39538 Activity of water = 0.883 Ionic strength (mol/kgw) = 4.589e+00 Mass of water (kg) = 1.000e+00 @@ -5860,10 +5860,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 467722 + Specific Conductance (µS/cm, 99°C) = 465090 Density (g/cm³) = 1.09814 Volume (L) = 1.11360 - Viscosity (mPa s) = 0.37374 + Viscosity (mPa s) = 0.37645 Activity of water = 0.873 Ionic strength (mol/kgw) = 4.651e+00 Mass of water (kg) = 1.000e+00 @@ -5935,10 +5935,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 486216 + Specific Conductance (µS/cm, 99°C) = 483391 Density (g/cm³) = 1.10341 Volume (L) = 1.12160 - Viscosity (mPa s) = 0.35335 + Viscosity (mPa s) = 0.35603 Activity of water = 0.864 Ionic strength (mol/kgw) = 4.689e+00 Mass of water (kg) = 1.000e+00 @@ -6010,10 +6010,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 512874 + Specific Conductance (µS/cm, 99°C) = 509783 Density (g/cm³) = 1.11168 Volume (L) = 1.13069 - Viscosity (mPa s) = 0.33998 + Viscosity (mPa s) = 0.34268 Activity of water = 0.852 Ionic strength (mol/kgw) = 4.876e+00 Mass of water (kg) = 1.000e+00 @@ -6085,10 +6085,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 539807 + Specific Conductance (µS/cm, 99°C) = 536398 Density (g/cm³) = 1.11804 Volume (L) = 1.14048 - Viscosity (mPa s) = 0.31550 + Viscosity (mPa s) = 0.31817 Activity of water = 0.841 Ionic strength (mol/kgw) = 4.931e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/run_cells_101.sel b/mytest/run_cells_101.sel index c33ec907..348546fa 100644 --- a/mytest/run_cells_101.sel +++ b/mytest/run_cells_101.sel @@ -1,18 +1,18 @@ Mu SC - 0.001000104180 148.4095475999 - 0.001273407639 153.7648542600 - 0.001781581292 215.4491698752 - 0.001273407639 153.7648542600 - 0.001781581292 215.4491698752 - 0.002052928455 242.8645235439 - 0.002559572430 303.3971118129 - 0.002052928455 242.8645235439 - 0.002559572430 303.3971118129 - 0.003011722936 355.9004743471 - 0.003484663458 411.1113320580 - 0.003011722936 355.9004743471 - 0.003484663458 411.1113320580 - 0.003970099010 467.8745092375 - 0.004463019926 525.4960156447 - 0.003970099010 467.8745092375 - 0.004463019926 525.4960156447 + 0.001000104180 148.4095478466 + 0.001273407639 153.7648548164 + 0.001781581292 215.4491708410 + 0.001273407639 153.7648548164 + 0.001781581292 215.4491708410 + 0.002052928455 242.8645248329 + 0.002559572430 303.3971136172 + 0.002052928455 242.8645248329 + 0.002559572430 303.3971136172 + 0.003011722936 355.9004766775 + 0.003484663458 411.1113349728 + 0.003011722936 355.9004766775 + 0.003484663458 411.1113349728 + 0.003970099010 467.8745127881 + 0.004463019926 525.4960198765 + 0.003970099010 467.8745127881 + 0.004463019926 525.4960198765 diff --git a/mytest/s1.out b/mytest/s1.out index c69bd0cb..74877145 100644 --- a/mytest/s1.out +++ b/mytest/s1.out @@ -193,7 +193,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 3.037e-03 kg, 100.0% of total DDL-water. - viscosity: 0.97321 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.006e-07 m; of free pore: 2.003e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -237,7 +237,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 3.037e-03 kg, 100.0% of total DDL-water. - viscosity: 0.97321 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.006e-07 m; of free pore: 2.003e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -406,7 +406,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 3.037e-03 kg, 100.0% of total DDL-water. - viscosity: 0.97321 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.006e-07 m; of free pore: 2.003e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -564,7 +564,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 4.331e-01 kg, 100.0% of total DDL-water. - viscosity: 0.89005 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.006e-07 m; of free pore: 1.512e-07 m. Total moles in diffuse layer (excluding water), Donnan calculation. diff --git a/mytest/s1_101.sel b/mytest/s1_101.sel index 651c1a53..532904fb 100644 --- a/mytest/s1_101.sel +++ b/mytest/s1_101.sel @@ -1,9 +1,9 @@ Mu SC 0.000000101254 0.0547518270 - 1.000000134558 84318.7614207328 - 1.000000134558 84318.7614207328 - 1.000000134558 83836.9204916407 + 1.000000134558 84318.7706342525 + 1.000000134558 84318.7706342525 + 1.000000134558 83836.9296525096 0.000000101254 0.0547518270 - 1.000000134558 83836.9204916406 - 1.000000134558 84318.7614207328 - 0.000037876909 2.3742755635 + 1.000000134558 83836.9296525096 + 1.000000134558 84318.7706342525 + 0.000037876909 2.3742755641 diff --git a/mytest/salt_ec.out b/mytest/salt_ec.out index 8f508c0a..c07ef8eb 100644 --- a/mytest/salt_ec.out +++ b/mytest/salt_ec.out @@ -77,7 +77,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 8283 Density (g/cm³) = 1.00150 Volume (L) = 1.00369 - Viscosity (mPa s) = 1.00121 + Viscosity (mPa s) = 1.00118 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.972e-02 Mass of water (kg) = 1.000e+00 @@ -135,7 +135,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 16025 Density (g/cm³) = 1.00478 Volume (L) = 1.00562 - Viscosity (mPa s) = 1.00014 + Viscosity (mPa s) = 1.00011 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.398e-01 Mass of water (kg) = 1.000e+00 @@ -190,10 +190,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23680 + Specific Conductance (µS/cm, 20°C) = 23681 Density (g/cm³) = 1.00811 Volume (L) = 1.00762 - Viscosity (mPa s) = 0.99901 + Viscosity (mPa s) = 0.99897 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.117e-01 Mass of water (kg) = 1.000e+00 @@ -248,10 +248,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31179 + Specific Conductance (µS/cm, 20°C) = 31180 Density (g/cm³) = 1.01143 Volume (L) = 1.00964 - Viscosity (mPa s) = 0.99788 + Viscosity (mPa s) = 0.99784 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.840e-01 Mass of water (kg) = 1.000e+00 @@ -306,10 +306,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38706 + Specific Conductance (µS/cm, 20°C) = 38707 Density (g/cm³) = 1.01481 Volume (L) = 1.01172 - Viscosity (mPa s) = 0.99678 + Viscosity (mPa s) = 0.99673 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.582e-01 Mass of water (kg) = 1.000e+00 @@ -364,10 +364,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 45998 + Specific Conductance (µS/cm, 20°C) = 45999 Density (g/cm³) = 1.01811 Volume (L) = 1.01379 - Viscosity (mPa s) = 0.99574 + Viscosity (mPa s) = 0.99568 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.313e-01 Mass of water (kg) = 1.000e+00 @@ -422,10 +422,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 53354 + Specific Conductance (µS/cm, 20°C) = 53355 Density (g/cm³) = 1.02148 Volume (L) = 1.01593 - Viscosity (mPa s) = 0.99474 + Viscosity (mPa s) = 0.99468 Activity of water = 0.983 Ionic strength (mol/kgw) = 5.063e-01 Mass of water (kg) = 1.000e+00 @@ -480,10 +480,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 60781 + Specific Conductance (µS/cm, 20°C) = 60783 Density (g/cm³) = 1.02490 Volume (L) = 1.01813 - Viscosity (mPa s) = 0.99378 + Viscosity (mPa s) = 0.99372 Activity of water = 0.980 Ionic strength (mol/kgw) = 5.832e-01 Mass of water (kg) = 1.000e+00 @@ -538,10 +538,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 75316 + Specific Conductance (µS/cm, 20°C) = 75318 Density (g/cm³) = 1.03166 Volume (L) = 1.02256 - Viscosity (mPa s) = 0.99208 + Viscosity (mPa s) = 0.99201 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.368e-01 Mass of water (kg) = 1.000e+00 @@ -596,10 +596,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 89911 + Specific Conductance (µS/cm, 20°C) = 89914 Density (g/cm³) = 1.03853 Volume (L) = 1.02717 - Viscosity (mPa s) = 0.99065 + Viscosity (mPa s) = 0.99058 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.953e-01 Mass of water (kg) = 1.000e+00 @@ -654,10 +654,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 104441 + Specific Conductance (µS/cm, 20°C) = 104445 Density (g/cm³) = 1.04544 Volume (L) = 1.03193 - Viscosity (mPa s) = 0.98953 + Viscosity (mPa s) = 0.98945 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.057e+00 Mass of water (kg) = 1.000e+00 @@ -712,10 +712,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 111767 + Specific Conductance (µS/cm, 20°C) = 111772 Density (g/cm³) = 1.04895 Volume (L) = 1.03439 - Viscosity (mPa s) = 0.98909 + Viscosity (mPa s) = 0.98900 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.140e+00 Mass of water (kg) = 1.000e+00 @@ -802,7 +802,7 @@ Initial solution 13. Specific Conductance (µS/cm, 20°C) = 8556 Density (g/cm³) = 1.00190 Volume (L) = 1.00329 - Viscosity (mPa s) = 1.00980 + Viscosity (mPa s) = 1.00977 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.888e-02 Mass of water (kg) = 1.000e+00 @@ -857,10 +857,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16500 + Specific Conductance (µS/cm, 20°C) = 16501 Density (g/cm³) = 1.00562 Volume (L) = 1.00486 - Viscosity (mPa s) = 1.01732 + Viscosity (mPa s) = 1.01728 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.799e-01 Mass of water (kg) = 1.000e+00 @@ -915,10 +915,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23920 + Specific Conductance (µS/cm, 20°C) = 23921 Density (g/cm³) = 1.00925 Volume (L) = 1.00645 - Viscosity (mPa s) = 1.02476 + Viscosity (mPa s) = 1.02471 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.695e-01 Mass of water (kg) = 1.000e+00 @@ -973,10 +973,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31219 + Specific Conductance (µS/cm, 20°C) = 31221 Density (g/cm³) = 1.01292 Volume (L) = 1.00809 - Viscosity (mPa s) = 1.03249 + Viscosity (mPa s) = 1.03243 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.613e-01 Mass of water (kg) = 1.000e+00 @@ -1031,10 +1031,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38435 + Specific Conductance (µS/cm, 20°C) = 38437 Density (g/cm³) = 1.01665 Volume (L) = 1.00979 - Viscosity (mPa s) = 1.04057 + Viscosity (mPa s) = 1.04050 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.553e-01 Mass of water (kg) = 1.000e+00 @@ -1089,10 +1089,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 45452 + Specific Conductance (µS/cm, 20°C) = 45454 Density (g/cm³) = 1.02036 Volume (L) = 1.01153 - Viscosity (mPa s) = 1.04888 + Viscosity (mPa s) = 1.04880 Activity of water = 0.981 Ionic strength (mol/kgw) = 5.497e-01 Mass of water (kg) = 1.000e+00 @@ -1147,10 +1147,10 @@ Initial solution 19. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 52289 + Specific Conductance (µS/cm, 20°C) = 52292 Density (g/cm³) = 1.02406 Volume (L) = 1.01329 - Viscosity (mPa s) = 1.05742 + Viscosity (mPa s) = 1.05734 Activity of water = 0.978 Ionic strength (mol/kgw) = 6.445e-01 Mass of water (kg) = 1.000e+00 @@ -1205,10 +1205,10 @@ Initial solution 20. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57689 + Specific Conductance (µS/cm, 20°C) = 57692 Density (g/cm³) = 1.02704 Volume (L) = 1.01473 - Viscosity (mPa s) = 1.06450 + Viscosity (mPa s) = 1.06442 Activity of water = 0.975 Ionic strength (mol/kgw) = 7.214e-01 Mass of water (kg) = 1.000e+00 @@ -1263,10 +1263,10 @@ Initial solution 21. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70860 + Specific Conductance (µS/cm, 20°C) = 70864 Density (g/cm³) = 1.03451 Volume (L) = 1.01842 - Viscosity (mPa s) = 1.08315 + Viscosity (mPa s) = 1.08305 Activity of water = 0.969 Ionic strength (mol/kgw) = 9.166e-01 Mass of water (kg) = 1.000e+00 @@ -1321,10 +1321,10 @@ Initial solution 22. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 82369 + Specific Conductance (µS/cm, 20°C) = 82375 Density (g/cm³) = 1.04130 Volume (L) = 1.02189 - Viscosity (mPa s) = 1.10121 + Viscosity (mPa s) = 1.10111 Activity of water = 0.963 Ionic strength (mol/kgw) = 1.097e+00 Mass of water (kg) = 1.000e+00 @@ -1379,10 +1379,10 @@ Initial solution 23. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 104225 + Specific Conductance (µS/cm, 20°C) = 104233 Density (g/cm³) = 1.05498 Volume (L) = 1.02916 - Viscosity (mPa s) = 1.14105 + Viscosity (mPa s) = 1.14093 Activity of water = 0.950 Ionic strength (mol/kgw) = 1.467e+00 Mass of water (kg) = 1.000e+00 @@ -1437,10 +1437,10 @@ Initial solution 24. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 122470 + Specific Conductance (µS/cm, 20°C) = 122480 Density (g/cm³) = 1.06735 Volume (L) = 1.03606 - Viscosity (mPa s) = 1.18137 + Viscosity (mPa s) = 1.18124 Activity of water = 0.938 Ionic strength (mol/kgw) = 1.811e+00 Mass of water (kg) = 1.000e+00 @@ -1527,7 +1527,7 @@ Initial solution 25. Specific Conductance (µS/cm, 20°C) = 8751 Density (g/cm³) = 1.00249 Volume (L) = 1.00269 - Viscosity (mPa s) = 1.01990 + Viscosity (mPa s) = 1.01982 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.402e-01 Mass of water (kg) = 1.000e+00 @@ -1582,10 +1582,10 @@ Initial solution 26. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16605 + Specific Conductance (µS/cm, 20°C) = 16607 Density (g/cm³) = 1.00684 Volume (L) = 1.00365 - Viscosity (mPa s) = 1.03585 + Viscosity (mPa s) = 1.03574 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.841e-01 Mass of water (kg) = 1.000e+00 @@ -1640,10 +1640,10 @@ Initial solution 27. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23991 + Specific Conductance (µS/cm, 20°C) = 23994 Density (g/cm³) = 1.01116 Volume (L) = 1.00464 - Viscosity (mPa s) = 1.05142 + Viscosity (mPa s) = 1.05128 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.285e-01 Mass of water (kg) = 1.000e+00 @@ -1698,10 +1698,10 @@ Initial solution 28. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31052 + Specific Conductance (µS/cm, 20°C) = 31056 Density (g/cm³) = 1.01547 Volume (L) = 1.00566 - Viscosity (mPa s) = 1.06682 + Viscosity (mPa s) = 1.06666 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.735e-01 Mass of water (kg) = 1.000e+00 @@ -1756,10 +1756,10 @@ Initial solution 29. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37997 + Specific Conductance (µS/cm, 20°C) = 38002 Density (g/cm³) = 1.01986 Volume (L) = 1.00673 - Viscosity (mPa s) = 1.08249 + Viscosity (mPa s) = 1.08231 Activity of water = 0.988 Ionic strength (mol/kgw) = 7.223e-01 Mass of water (kg) = 1.000e+00 @@ -1814,10 +1814,10 @@ Initial solution 30. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44708 + Specific Conductance (µS/cm, 20°C) = 44715 Density (g/cm³) = 1.02424 Volume (L) = 1.00781 - Viscosity (mPa s) = 1.09816 + Viscosity (mPa s) = 1.09796 Activity of water = 0.985 Ionic strength (mol/kgw) = 8.716e-01 Mass of water (kg) = 1.000e+00 @@ -1872,10 +1872,10 @@ Initial solution 31. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51210 + Specific Conductance (µS/cm, 20°C) = 51218 Density (g/cm³) = 1.02861 Volume (L) = 1.00893 - Viscosity (mPa s) = 1.11386 + Viscosity (mPa s) = 1.11365 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.021e+00 Mass of water (kg) = 1.000e+00 @@ -1930,10 +1930,10 @@ Initial solution 32. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57652 + Specific Conductance (µS/cm, 20°C) = 57662 Density (g/cm³) = 1.03306 Volume (L) = 1.01008 - Viscosity (mPa s) = 1.12997 + Viscosity (mPa s) = 1.12975 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.175e+00 Mass of water (kg) = 1.000e+00 @@ -1988,10 +1988,10 @@ Initial solution 33. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70105 + Specific Conductance (µS/cm, 20°C) = 70119 Density (g/cm³) = 1.04204 Volume (L) = 1.01248 - Viscosity (mPa s) = 1.16287 + Viscosity (mPa s) = 1.16261 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.488e+00 Mass of water (kg) = 1.000e+00 @@ -2046,10 +2046,10 @@ Initial solution 34. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 81977 + Specific Conductance (µS/cm, 20°C) = 81993 Density (g/cm³) = 1.05107 Volume (L) = 1.01498 - Viscosity (mPa s) = 1.19675 + Viscosity (mPa s) = 1.19646 Activity of water = 0.969 Ionic strength (mol/kgw) = 1.806e+00 Mass of water (kg) = 1.000e+00 @@ -2104,10 +2104,10 @@ Initial solution 35. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 93399 + Specific Conductance (µS/cm, 20°C) = 93419 Density (g/cm³) = 1.06026 Volume (L) = 1.01761 - Viscosity (mPa s) = 1.23221 + Viscosity (mPa s) = 1.23191 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.134e+00 Mass of water (kg) = 1.000e+00 @@ -2162,10 +2162,10 @@ Initial solution 36. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 109584 + Specific Conductance (µS/cm, 20°C) = 109608 Density (g/cm³) = 1.07427 Volume (L) = 1.02179 - Viscosity (mPa s) = 1.28876 + Viscosity (mPa s) = 1.28842 Activity of water = 0.955 Ionic strength (mol/kgw) = 2.640e+00 Mass of water (kg) = 1.000e+00 @@ -2247,10 +2247,10 @@ Initial solution 37. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 9447 + Specific Conductance (µS/cm, 20°C) = 9448 Density (g/cm³) = 1.00253 Volume (L) = 1.00265 - Viscosity (mPa s) = 1.03030 + Viscosity (mPa s) = 1.03021 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.635e-01 Mass of water (kg) = 1.000e+00 @@ -2305,10 +2305,10 @@ Initial solution 38. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 17727 + Specific Conductance (µS/cm, 20°C) = 17728 Density (g/cm³) = 1.00689 Volume (L) = 1.00358 - Viscosity (mPa s) = 1.05639 + Viscosity (mPa s) = 1.05626 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.308e-01 Mass of water (kg) = 1.000e+00 @@ -2363,10 +2363,10 @@ Initial solution 39. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32589 + Specific Conductance (µS/cm, 20°C) = 32594 Density (g/cm³) = 1.01551 Volume (L) = 1.00556 - Viscosity (mPa s) = 1.10752 + Viscosity (mPa s) = 1.10733 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.666e-01 Mass of water (kg) = 1.000e+00 @@ -2421,10 +2421,10 @@ Initial solution 40. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46192 + Specific Conductance (µS/cm, 20°C) = 46200 Density (g/cm³) = 1.02421 Volume (L) = 1.00769 - Viscosity (mPa s) = 1.15943 + Viscosity (mPa s) = 1.15920 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 1.000e+00 @@ -2479,10 +2479,10 @@ Initial solution 41. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 58705 + Specific Conductance (µS/cm, 20°C) = 58715 Density (g/cm³) = 1.03291 Volume (L) = 1.00995 - Viscosity (mPa s) = 1.21226 + Viscosity (mPa s) = 1.21200 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.360e+00 Mass of water (kg) = 1.000e+00 @@ -2537,10 +2537,10 @@ Initial solution 42. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70485 + Specific Conductance (µS/cm, 20°C) = 70498 Density (g/cm³) = 1.04178 Volume (L) = 1.01236 - Viscosity (mPa s) = 1.26751 + Viscosity (mPa s) = 1.26721 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.722e+00 Mass of water (kg) = 1.000e+00 @@ -2595,10 +2595,10 @@ Initial solution 43. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 81370 + Specific Conductance (µS/cm, 20°C) = 81387 Density (g/cm³) = 1.05065 Volume (L) = 1.01490 - Viscosity (mPa s) = 1.32468 + Viscosity (mPa s) = 1.32436 Activity of water = 0.964 Ionic strength (mol/kgw) = 2.089e+00 Mass of water (kg) = 1.000e+00 @@ -2653,10 +2653,10 @@ Initial solution 44. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 91498 + Specific Conductance (µS/cm, 20°C) = 91517 Density (g/cm³) = 1.05961 Volume (L) = 1.01758 - Viscosity (mPa s) = 1.38488 + Viscosity (mPa s) = 1.38452 Activity of water = 0.958 Ionic strength (mol/kgw) = 2.465e+00 Mass of water (kg) = 1.000e+00 @@ -2711,10 +2711,10 @@ Initial solution 45. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 100790 + Specific Conductance (µS/cm, 20°C) = 100812 Density (g/cm³) = 1.06858 Volume (L) = 1.02038 - Viscosity (mPa s) = 1.44820 + Viscosity (mPa s) = 1.44781 Activity of water = 0.952 Ionic strength (mol/kgw) = 2.847e+00 Mass of water (kg) = 1.000e+00 @@ -2769,10 +2769,10 @@ Initial solution 46. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 109328 + Specific Conductance (µS/cm, 20°C) = 109353 Density (g/cm³) = 1.07762 Volume (L) = 1.02333 - Viscosity (mPa s) = 1.51596 + Viscosity (mPa s) = 1.51555 Activity of water = 0.945 Ionic strength (mol/kgw) = 3.238e+00 Mass of water (kg) = 1.000e+00 @@ -2859,10 +2859,10 @@ Initial solution 47. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 4763 + Specific Conductance (µS/cm, 20°C) = 4764 Density (g/cm³) = 1.00386 Volume (L) = 1.00167 - Viscosity (mPa s) = 1.03604 + Viscosity (mPa s) = 1.03595 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.932e-02 Mass of water (kg) = 1.000e+00 @@ -2927,7 +2927,7 @@ Initial solution 48. Specific Conductance (µS/cm, 20°C) = 8406 Density (g/cm³) = 1.00953 Volume (L) = 1.00165 - Viscosity (mPa s) = 1.06631 + Viscosity (mPa s) = 1.06619 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.828e-01 Mass of water (kg) = 1.000e+00 @@ -2992,7 +2992,7 @@ Initial solution 49. Specific Conductance (µS/cm, 20°C) = 14744 Density (g/cm³) = 1.02083 Volume (L) = 1.00181 - Viscosity (mPa s) = 1.12933 + Viscosity (mPa s) = 1.12917 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.418e-01 Mass of water (kg) = 1.000e+00 @@ -3054,10 +3054,10 @@ Initial solution 50. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 20355 + Specific Conductance (µS/cm, 20°C) = 20357 Density (g/cm³) = 1.03218 Volume (L) = 1.00217 - Viscosity (mPa s) = 1.19892 + Viscosity (mPa s) = 1.19872 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.997e-01 Mass of water (kg) = 1.000e+00 @@ -3119,10 +3119,10 @@ Initial solution 51. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25408 + Specific Conductance (µS/cm, 20°C) = 25410 Density (g/cm³) = 1.04364 Volume (L) = 1.00270 - Viscosity (mPa s) = 1.27648 + Viscosity (mPa s) = 1.27625 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.597e-01 Mass of water (kg) = 1.000e+00 @@ -3184,10 +3184,10 @@ Initial solution 52. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 29962 + Specific Conductance (µS/cm, 20°C) = 29964 Density (g/cm³) = 1.05521 Volume (L) = 1.00337 - Viscosity (mPa s) = 1.36302 + Viscosity (mPa s) = 1.36276 Activity of water = 0.990 Ionic strength (mol/kgw) = 8.233e-01 Mass of water (kg) = 1.000e+00 @@ -3249,10 +3249,10 @@ Initial solution 53. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 34044 + Specific Conductance (µS/cm, 20°C) = 34047 Density (g/cm³) = 1.06692 Volume (L) = 1.00418 - Viscosity (mPa s) = 1.45957 + Viscosity (mPa s) = 1.45928 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.912e-01 Mass of water (kg) = 1.000e+00 @@ -3314,10 +3314,10 @@ Initial solution 54. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37702 + Specific Conductance (µS/cm, 20°C) = 37706 Density (g/cm³) = 1.07885 Volume (L) = 1.00513 - Viscosity (mPa s) = 1.56830 + Viscosity (mPa s) = 1.56799 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.166e+00 Mass of water (kg) = 1.000e+00 @@ -3379,10 +3379,10 @@ Initial solution 55. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 40885 + Specific Conductance (µS/cm, 20°C) = 40889 Density (g/cm³) = 1.09081 Volume (L) = 1.00621 - Viscosity (mPa s) = 1.68871 + Viscosity (mPa s) = 1.68838 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.344e+00 Mass of water (kg) = 1.000e+00 @@ -3444,10 +3444,10 @@ Initial solution 56. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46003 + Specific Conductance (µS/cm, 20°C) = 46007 Density (g/cm³) = 1.11533 Volume (L) = 1.00877 - Viscosity (mPa s) = 1.97724 + Viscosity (mPa s) = 1.97685 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.722e+00 Mass of water (kg) = 1.000e+00 @@ -3623,7 +3623,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 7965 Density (g/cm³) = 1.00563 Volume (L) = 1.00445 - Viscosity (mPa s) = 1.00709 + Viscosity (mPa s) = 1.00695 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.771e-01 Mass of water (kg) = 1.000e+00 @@ -3708,7 +3708,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 13354 Density (g/cm³) = 1.01318 Volume (L) = 1.00703 - Viscosity (mPa s) = 1.00868 + Viscosity (mPa s) = 1.00848 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.439e-01 Mass of water (kg) = 1.000e+00 @@ -3793,7 +3793,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 17709 Density (g/cm³) = 1.02091 Volume (L) = 1.00960 - Viscosity (mPa s) = 1.00990 + Viscosity (mPa s) = 1.00965 Activity of water = 0.994 Ionic strength (mol/kgw) = 5.052e-01 Mass of water (kg) = 1.000e+00 @@ -3878,7 +3878,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 21377 Density (g/cm³) = 1.02871 Volume (L) = 1.01214 - Viscosity (mPa s) = 1.01096 + Viscosity (mPa s) = 1.01068 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.610e-01 Mass of water (kg) = 1.000e+00 @@ -3963,7 +3963,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 24609 Density (g/cm³) = 1.03674 Volume (L) = 1.01470 - Viscosity (mPa s) = 1.01198 + Viscosity (mPa s) = 1.01166 Activity of water = 0.990 Ionic strength (mol/kgw) = 8.154e-01 Mass of water (kg) = 1.000e+00 @@ -4048,7 +4048,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 27461 Density (g/cm³) = 1.04487 Volume (L) = 1.01726 - Viscosity (mPa s) = 1.01296 + Viscosity (mPa s) = 1.01261 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.665e-01 Mass of water (kg) = 1.000e+00 @@ -4133,7 +4133,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 30014 Density (g/cm³) = 1.05311 Volume (L) = 1.01983 - Viscosity (mPa s) = 1.01394 + Viscosity (mPa s) = 1.01355 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.116e+00 Mass of water (kg) = 1.000e+00 @@ -4218,7 +4218,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 32333 Density (g/cm³) = 1.06150 Volume (L) = 1.02242 - Viscosity (mPa s) = 1.01492 + Viscosity (mPa s) = 1.01451 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.264e+00 Mass of water (kg) = 1.000e+00 @@ -4303,7 +4303,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 34444 Density (g/cm³) = 1.07002 Volume (L) = 1.02503 - Viscosity (mPa s) = 1.01592 + Viscosity (mPa s) = 1.01548 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.411e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/salt_ec.prn b/mytest/salt_ec.prn index ac4d779a..741ce944 100644 --- a/mytest/salt_ec.prn +++ b/mytest/salt_ec.prn @@ -1,60 +1,60 @@ conc_Cl EC_20 I 6.9724e-02 7.4980e+03 6.9724e-02 1.3983e-01 1.4506e+04 1.3983e-01 - 2.1173e-01 2.1435e+04 2.1173e-01 - 2.8404e-01 2.8223e+04 2.8404e-01 - 3.5818e-01 3.5037e+04 3.5818e-01 - 4.3131e-01 4.1637e+04 4.3131e-01 - 5.0630e-01 4.8295e+04 5.0630e-01 - 5.8318e-01 5.5019e+04 5.8318e-01 - 7.3684e-01 6.8175e+04 7.3684e-01 - 8.9529e-01 8.1387e+04 8.9529e-01 - 1.0572e+00 9.4539e+04 1.0572e+00 + 2.1173e-01 2.1436e+04 2.1173e-01 + 2.8404e-01 2.8224e+04 2.8404e-01 + 3.5818e-01 3.5038e+04 3.5818e-01 + 4.3131e-01 4.1638e+04 4.3131e-01 + 5.0630e-01 4.8297e+04 5.0630e-01 + 5.8318e-01 5.5020e+04 5.8318e-01 + 7.3684e-01 6.8178e+04 7.3684e-01 + 8.9529e-01 8.1390e+04 8.9529e-01 + 1.0572e+00 9.4543e+04 1.0572e+00 1.1404e+00 1.0117e+05 1.1404e+00 - 8.8884e-02 7.7451e+03 8.8884e-02 - 1.7992e-01 1.4936e+04 1.7992e-01 + 8.8884e-02 7.7453e+03 8.8884e-02 + 1.7992e-01 1.4937e+04 1.7992e-01 2.6954e-01 2.1653e+04 2.6954e-01 - 3.6134e-01 2.8260e+04 3.6134e-01 - 4.5533e-01 3.4791e+04 4.5533e-01 - 5.4972e-01 4.1143e+04 5.4972e-01 - 6.4452e-01 4.7332e+04 6.4452e-01 - 7.2139e-01 5.2220e+04 7.2139e-01 - 9.1659e-01 6.4142e+04 9.1659e-01 - 1.0967e+00 7.4560e+04 1.0967e+00 - 1.4671e+00 9.4343e+04 1.4671e+00 - 1.8110e+00 1.1086e+05 1.8110e+00 - 9.3483e-02 7.9215e+03 1.4022e-01 - 1.8941e-01 1.5032e+04 2.8411e-01 - 2.8570e-01 2.1717e+04 4.2855e-01 - 3.8236e-01 2.8108e+04 5.7354e-01 - 4.8151e-01 3.4395e+04 7.2226e-01 - 5.8105e-01 4.0470e+04 8.7158e-01 - 6.8099e-01 4.6355e+04 1.0215e+00 - 7.8346e-01 5.2186e+04 1.1752e+00 - 9.9181e-01 6.3459e+04 1.4877e+00 - 1.2040e+00 7.4205e+04 1.8061e+00 - 1.4225e+00 8.4545e+04 2.1337e+00 - 1.7603e+00 9.9194e+04 2.6404e+00 - 1.0901e-01 8.5518e+03 1.6352e-01 - 2.2050e-01 1.6046e+04 3.3075e-01 - 4.4439e-01 2.9500e+04 6.6659e-01 - 6.7393e-01 4.1813e+04 1.0109e+00 - 9.0696e-01 5.3139e+04 1.3604e+00 - 1.1480e+00 6.3802e+04 1.7220e+00 - 1.3927e+00 7.3656e+04 2.0891e+00 - 1.6434e+00 8.2823e+04 2.4651e+00 - 1.8979e+00 9.1235e+04 2.8468e+00 - 2.1585e+00 9.8963e+04 3.2378e+00 - 4.6004e-02 4.3123e+03 9.9315e-02 - 9.3035e-02 7.6092e+03 1.8276e-01 - 1.8835e-01 1.3346e+04 3.4175e-01 - 2.8596e-01 1.8426e+04 4.9967e-01 - 3.8592e-01 2.3000e+04 6.5972e-01 - 4.8823e-01 2.7121e+04 8.2329e-01 - 5.9295e-01 3.0817e+04 9.9122e-01 - 7.0104e-01 3.4128e+04 1.1656e+00 - 8.1066e-01 3.7009e+04 1.3440e+00 - 1.0393e+00 4.1642e+04 1.7217e+00 + 3.6134e-01 2.8261e+04 3.6134e-01 + 4.5533e-01 3.4793e+04 4.5533e-01 + 5.4972e-01 4.1145e+04 5.4972e-01 + 6.4452e-01 4.7334e+04 6.4452e-01 + 7.2139e-01 5.2223e+04 7.2139e-01 + 9.1659e-01 6.4146e+04 9.1659e-01 + 1.0967e+00 7.4565e+04 1.0967e+00 + 1.4671e+00 9.4351e+04 1.4671e+00 + 1.8110e+00 1.1087e+05 1.8110e+00 + 9.3483e-02 7.9220e+03 1.4022e-01 + 1.8941e-01 1.5033e+04 2.8411e-01 + 2.8570e-01 2.1719e+04 4.2855e-01 + 3.8236e-01 2.8112e+04 5.7354e-01 + 4.8151e-01 3.4399e+04 7.2226e-01 + 5.8105e-01 4.0476e+04 8.7158e-01 + 6.8099e-01 4.6363e+04 1.0215e+00 + 7.8346e-01 5.2195e+04 1.1752e+00 + 9.9181e-01 6.3471e+04 1.4877e+00 + 1.2040e+00 7.4220e+04 1.8061e+00 + 1.4225e+00 8.4562e+04 2.1337e+00 + 1.7603e+00 9.9217e+04 2.6404e+00 + 1.0901e-01 8.5525e+03 1.6352e-01 + 2.2050e-01 1.6048e+04 3.3075e-01 + 4.4439e-01 2.9504e+04 6.6659e-01 + 6.7393e-01 4.1820e+04 1.0109e+00 + 9.0696e-01 5.3149e+04 1.3604e+00 + 1.1480e+00 6.3815e+04 1.7220e+00 + 1.3927e+00 7.3671e+04 2.0891e+00 + 1.6434e+00 8.2841e+04 2.4651e+00 + 1.8979e+00 9.1255e+04 2.8468e+00 + 2.1585e+00 9.8985e+04 3.2378e+00 + 4.6004e-02 4.3124e+03 9.9315e-02 + 9.3035e-02 7.6095e+03 1.8276e-01 + 1.8835e-01 1.3347e+04 3.4175e-01 + 2.8596e-01 1.8427e+04 4.9967e-01 + 3.8592e-01 2.3002e+04 6.5972e-01 + 4.8823e-01 2.7124e+04 8.2329e-01 + 5.9295e-01 3.0820e+04 9.9122e-01 + 7.0104e-01 3.4132e+04 1.1656e+00 + 8.1066e-01 3.7013e+04 1.3440e+00 + 1.0393e+00 4.1646e+04 1.7217e+00 9.3300e-02 7.2099e+03 1.7709e-01 1.8750e-01 1.2088e+04 3.4391e-01 diff --git a/mytest/salt_ec_101.sel b/mytest/salt_ec_101.sel index 28bc806b..17ad79fa 100644 --- a/mytest/salt_ec_101.sel +++ b/mytest/salt_ec_101.sel @@ -1,67 +1,67 @@ Mu SC - 0.069723973062 8283.3282692750 - 0.139829052894 16025.1137798486 - 0.211732218922 23680.6585672123 - 0.284038632915 31179.4257201554 - 0.358181530717 38706.9779710887 - 0.431312760863 45998.0079841082 - 0.506303843183 53354.1065895597 - 0.583183428516 60781.6816752931 - 0.736838352469 75316.3517344499 - 0.895288343449 89911.2206168906 - 1.057166282450 104441.6738813325 - 1.140367409263 111767.4929638094 - 0.088883988009 8556.3558019750 - 0.179920544073 16500.6404650725 - 0.269541999286 23920.4727020471 - 0.361335572034 31219.8803886990 - 0.455326306730 38435.5217729415 - 0.549720756553 45452.4180387300 - 0.644521527217 52289.5103137353 - 0.721389801776 57689.1907303870 - 0.916586387966 70860.3675446569 - 1.096725856978 82369.8062160986 - 1.467110926277 104225.3100405603 - 1.810954059212 122470.8229252981 - 0.140224330776 8751.2280157887 - 0.284108733067 16605.9592707648 - 0.428546343007 23991.7449906861 - 0.573540355572 31052.2176949206 - 0.722264440096 37997.1824577014 - 0.871576206138 44708.4815385122 - 1.021479143648 51210.5099273848 - 1.175185334512 57652.2269015418 - 1.487708646467 70105.9322738017 - 1.806074025136 81977.4662530062 - 2.133685665902 93399.9859685085 - 2.640386939480 109584.1800096612 - 0.163518331425 9447.5470721749 - 0.330754206724 17727.1388907013 - 0.666587644492 32589.6514940783 - 1.010887966980 46192.6918829331 - 1.360442416686 58705.1244312505 - 1.722038629854 70485.0035313566 - 2.089113506428 81370.5689966540 - 2.465142550371 91498.4196170626 - 2.846848664178 100790.8714406529 - 3.237753792845 109328.8425220723 - 0.099315043955 4763.9580511633 - 0.182762927573 8406.1940092472 - 0.341750014126 14744.0644148706 - 0.499674251515 20355.8167200868 - 0.659723091971 25408.7458737511 - 0.823292991537 29962.2468292382 - 0.991220941422 34044.6844540887 - 1.165643574883 37702.9404823262 - 1.343977782662 40885.4657593772 - 1.721741652470 46003.2304666604 - 0.000000084272 0.0448299058 - 0.177090864857 7965.0987298852 - 0.343905258736 13354.5850794320 - 0.505188147451 17709.1796413018 - 0.661036835898 21377.2555726755 - 0.815357189624 24609.5923446585 - 0.966529035636 27461.2553978796 - 1.115621632014 30014.9252366789 - 1.263944923664 32333.4850801720 - 1.411408021857 34444.2229508067 + 0.069723973062 8283.4137637970 + 0.139829052894 16025.3483439516 + 0.211732218922 23681.0857679828 + 0.284038632915 31180.0782370553 + 0.358181530717 38707.8890748496 + 0.431312760863 45999.1979097708 + 0.506303843183 53355.6042087719 + 0.583183428516 60783.5153682612 + 0.736838352469 75318.9124140607 + 0.895288343449 89914.5979032375 + 1.057166282450 104445.9450682178 + 1.140367409263 111772.2440750597 + 0.088883988009 8556.5392984752 + 0.179920544073 16501.1403085169 + 0.269541999286 23921.3532978313 + 0.361335572034 31221.2012782380 + 0.455326306730 38437.3332458225 + 0.549720756553 45454.7533864882 + 0.644521527217 52292.3961201271 + 0.721389801776 57692.5368254620 + 0.916586387966 70864.9212336498 + 1.096725856978 82375.5019388577 + 1.467110926277 104233.3559247686 + 1.810954059212 122480.9696893153 + 0.140224330776 8751.8119971651 + 0.284108733067 16607.5077037144 + 0.428546343007 23994.4461222389 + 0.573540355572 31056.1968233834 + 0.722264440096 38002.5591176580 + 0.871576206138 44715.3225794028 + 1.021479143648 51218.8630473454 + 1.175185334512 57662.1581073047 + 1.487708646467 70119.1076370423 + 1.806074025136 81993.9292128847 + 2.133685665902 93419.7511450364 + 2.640386939480 109608.7839155739 + 0.163518331425 9448.2627965912 + 0.330754206724 17728.9942730999 + 0.666587644492 32594.2464515785 + 1.010887966980 46200.3241398551 + 1.360442416686 58715.8530234256 + 1.722038629854 70498.8264587777 + 2.089113506428 81387.3457837990 + 2.465142550371 91517.9773219265 + 2.846848664178 100812.9646846402 + 3.237753792845 109353.2085397368 + 0.099315043955 4764.1158112632 + 0.182762927573 8406.5727554908 + 0.341750014126 14744.9841541734 + 0.499674251515 20357.3467667277 + 0.659723091971 25410.8989942121 + 0.823292991537 29964.9948472980 + 0.991220941422 34047.9700343368 + 1.165643574883 37706.6901973601 + 1.343977782662 40889.5857844745 + 1.721741652470 46007.8052632066 + 0.000000084272 0.0448299063 + 0.177090864857 7965.0987340795 + 0.343905258736 13354.5850852010 + 0.505188147451 17709.1796482536 + 0.661036835898 21377.2555806049 + 0.815357189624 24609.5923534550 + 0.966529035636 27461.2554074587 + 1.115621632014 30014.9252469837 + 1.263944923664 32333.4850911654 + 1.411408021857 34444.2229623684 diff --git a/mytest/salt_ec_chart.out b/mytest/salt_ec_chart.out index 5272a2f2..f010e136 100644 --- a/mytest/salt_ec_chart.out +++ b/mytest/salt_ec_chart.out @@ -2486,7 +2486,7 @@ Reaction 1. pH = 6.810 Charge balance pe = 11.401 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 54310 + Specific Conductance (µS/cm, 25°C) = 54311 Density (g/cm³) = 1.02581 Volume (L) = 1.00989 Viscosity (mPa s) = 0.98918 diff --git a/mytest/salt_ec_chart_101.sel b/mytest/salt_ec_chart_101.sel index 70df13e9..01b592df 100644 --- a/mytest/salt_ec_chart_101.sel +++ b/mytest/salt_ec_chart_101.sel @@ -1,58 +1,58 @@ Mu SC 0.000000100661 0.0546997340 - 0.067069203303 8825.4120593645 - 0.134138290007 17022.1546620126 - 0.202548756683 25077.5697842508 - 0.270959222377 32919.7198816064 - 0.340711068548 40744.0357904738 - 0.409121533313 48276.9624332768 - 0.478873378857 55832.0262670986 - 0.549966606237 63414.9473549112 - 0.690811679564 78122.9842670336 - 0.834339515552 92721.3967507031 - 0.979208732289 107090.2168229962 - 1.052984722092 114273.6657941439 - 0.085557961228 9166.9388536402 - 0.172826961247 17641.2802573432 - 0.258384801932 25522.9664797095 - 0.345653798685 33245.5716273921 - 0.434633950903 40849.5995708651 - 0.523614103745 48216.1895393308 - 0.612594256329 55368.1242738116 - 0.684462840468 60998.8926867209 - 0.865845456950 74671.6368383332 - 1.031827662867 86552.0178977150 - 1.368925545070 108963.4524855574 - 1.676933760423 127561.3341158216 - 0.135000084379 9390.4143669407 - 0.273000064923 17780.9613272513 - 0.411000048333 25636.9572581484 - 0.549000033679 33116.5815719232 - 0.690000020205 40445.1354129760 - 0.831000007934 47500.3888118682 - 0.971999996651 54310.9886480247 - 1.115999985983 61034.9781720104 - 1.406999966557 73970.7108597345 - 1.700999949204 86228.7253627504 - 2.000999933285 97963.8336808917 - 2.459999911540 114514.8602476307 - 0.157513119606 10157.5741116120 - 0.318176633014 19042.9436778670 - 0.639503732876 34954.5068652333 - 0.967131397635 49477.2462576900 - 1.297909338270 62805.6424846092 - 1.638138079669 75333.8783267327 - 1.981517082611 86903.3253597327 - 2.331196611410 97674.1162172200 - 2.684026390502 107579.8602466426 - 3.043156691338 116724.4990756082 - 0.090197254732 4925.9067802673 - 0.164374873814 8680.6540707511 - 0.301689279063 15239.9893479561 - 0.433369559716 21154.8171239310 - 0.562503733623 26650.3268312064 - 0.690376398234 31818.7204900573 - 0.817679607586 36704.9206534422 - 0.945954412927 41370.0324935833 - 1.073235674651 45740.2313455752 - 1.331101026602 53774.4133864326 + 0.067069203303 8825.4122071186 + 0.134138290007 17022.1550652737 + 0.202548756683 25077.5705148100 + 0.270959222377 32919.7209916315 + 0.340711068548 40744.0373321726 + 0.409121533313 48276.9644363802 + 0.478873378857 55832.0287749951 + 0.549966606237 63414.9504093653 + 0.690811679564 78122.9884884545 + 0.834339515552 92721.4022608511 + 0.979208732289 107090.2237203915 + 1.052984722092 114273.6734272134 + 0.085557961228 9166.9391710849 + 0.172826961247 17641.2811192957 + 0.258384801932 25522.9679936434 + 0.345653798685 33245.5738915263 + 0.434633950903 40849.6026668675 + 0.523614103745 48216.1935195751 + 0.612594256329 55368.1291791591 + 0.684462840468 60998.8983628034 + 0.865845456950 74671.6445259048 + 1.031827662867 86552.0274758696 + 1.368925545070 108963.4659294319 + 1.676933760423 127561.3510020394 + 0.135000084379 9390.4153773038 + 0.273000064923 17780.9639979274 + 0.411000048333 25636.9619031705 + 0.549000033679 33116.5883953569 + 0.690000020205 40445.1446075494 + 0.831000007934 47500.4004799948 + 0.971999996651 54311.0028596059 + 1.115999985983 61034.9950275865 + 1.406999966557 73970.7331212203 + 1.700999949204 86228.7530689813 + 2.000999933285 97963.8668311788 + 2.459999911540 114514.9013541620 + 0.157513119606 10157.5753524664 + 0.318176633014 19042.9468924817 + 0.639503732876 34954.5148181527 + 0.967131397635 49477.2594580064 + 1.297909338270 62805.6610330968 + 1.638138079669 75333.9022253118 + 1.981517082611 86903.3543797525 + 2.331196611410 97674.1500846476 + 2.684026390502 107579.8985738468 + 3.043156691338 116724.5414585408 + 0.090197254732 4925.9070345696 + 0.164374873814 8680.6546845505 + 0.301689279063 15239.9908803570 + 0.433369559716 21154.8197863756 + 0.562503733623 26650.3307870606 + 0.690376398234 31818.7258641026 + 0.817679607586 36704.9275354837 + 0.945954412927 41370.0409533481 + 1.073235674651 45740.2413906905 + 1.331101026602 53774.4265510278 diff --git a/mytest/salt_sc.out b/mytest/salt_sc.out index e7d98db2..dd2b52fd 100644 --- a/mytest/salt_sc.out +++ b/mytest/salt_sc.out @@ -102,7 +102,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 8002 Density (g/cm³) = 1.00138 (Iterated) Volume (L) = 1.00362 - Viscosity (mPa s) = 1.00124 + Viscosity (mPa s) = 1.00122 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.724e-02 Mass of water (kg) = 1.000e+00 @@ -169,7 +169,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 15473 Density (g/cm³) = 1.00454 (Iterated) Volume (L) = 1.00548 - Viscosity (mPa s) = 1.00022 + Viscosity (mPa s) = 1.00019 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.347e-01 Mass of water (kg) = 1.000e+00 @@ -236,7 +236,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 22814 Density (g/cm³) = 1.00773 (Iterated) Volume (L) = 1.00739 - Viscosity (mPa s) = 0.99914 + Viscosity (mPa s) = 0.99910 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.035e-01 Mass of water (kg) = 1.000e+00 @@ -300,10 +300,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 29995 + Specific Conductance (µS/cm, 20°C) = 29996 Density (g/cm³) = 1.01090 (Iterated) Volume (L) = 1.00931 - Viscosity (mPa s) = 0.99806 + Viscosity (mPa s) = 0.99802 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.725e-01 Mass of water (kg) = 1.000e+00 @@ -370,7 +370,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 37263 Density (g/cm³) = 1.01416 (Iterated) Volume (L) = 1.01132 - Viscosity (mPa s) = 0.99699 + Viscosity (mPa s) = 0.99694 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.438e-01 Mass of water (kg) = 1.000e+00 @@ -434,10 +434,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44327 + Specific Conductance (µS/cm, 20°C) = 44328 Density (g/cm³) = 1.01735 (Iterated) Volume (L) = 1.01331 - Viscosity (mPa s) = 0.99597 + Viscosity (mPa s) = 0.99592 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.144e-01 Mass of water (kg) = 1.000e+00 @@ -501,10 +501,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51307 + Specific Conductance (µS/cm, 20°C) = 51309 Density (g/cm³) = 1.02054 (Iterated) Volume (L) = 1.01533 - Viscosity (mPa s) = 0.99501 + Viscosity (mPa s) = 0.99495 Activity of water = 0.983 Ionic strength (mol/kgw) = 4.853e-01 Mass of water (kg) = 1.000e+00 @@ -568,10 +568,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 58415 + Specific Conductance (µS/cm, 20°C) = 58416 Density (g/cm³) = 1.02381 (Iterated) Volume (L) = 1.01742 - Viscosity (mPa s) = 0.99408 + Viscosity (mPa s) = 0.99402 Activity of water = 0.981 Ionic strength (mol/kgw) = 5.586e-01 Mass of water (kg) = 1.000e+00 @@ -635,10 +635,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 72329 + Specific Conductance (µS/cm, 20°C) = 72332 Density (g/cm³) = 1.03027 (Iterated) Volume (L) = 1.02163 - Viscosity (mPa s) = 0.99241 + Viscosity (mPa s) = 0.99234 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.049e-01 Mass of water (kg) = 1.000e+00 @@ -702,10 +702,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 86299 + Specific Conductance (µS/cm, 20°C) = 86302 Density (g/cm³) = 1.03682 (Iterated) Volume (L) = 1.02601 - Viscosity (mPa s) = 0.99098 + Viscosity (mPa s) = 0.99091 Activity of water = 0.971 Ionic strength (mol/kgw) = 8.557e-01 Mass of water (kg) = 1.000e+00 @@ -769,10 +769,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 100144 + Specific Conductance (µS/cm, 20°C) = 100148 Density (g/cm³) = 1.04339 (Iterated) Volume (L) = 1.03050 - Viscosity (mPa s) = 0.98983 + Viscosity (mPa s) = 0.98975 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.009e+00 Mass of water (kg) = 1.000e+00 @@ -836,10 +836,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 107035 + Specific Conductance (µS/cm, 20°C) = 107039 Density (g/cm³) = 1.04668 (Iterated) Volume (L) = 1.03279 - Viscosity (mPa s) = 0.98937 + Viscosity (mPa s) = 0.98928 Activity of water = 0.963 Ionic strength (mol/kgw) = 1.086e+00 Mass of water (kg) = 1.000e+00 @@ -947,7 +947,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 8229 Density (g/cm³) = 1.00175 (Iterated) Volume (L) = 1.00323 - Viscosity (mPa s) = 1.00950 + Viscosity (mPa s) = 1.00947 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.527e-02 Mass of water (kg) = 1.000e+00 @@ -1014,7 +1014,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 15897 Density (g/cm³) = 1.00533 (Iterated) Volume (L) = 1.00474 - Viscosity (mPa s) = 1.01674 + Viscosity (mPa s) = 1.01670 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.728e-01 Mass of water (kg) = 1.000e+00 @@ -1078,10 +1078,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23114 + Specific Conductance (µS/cm, 20°C) = 23115 Density (g/cm³) = 1.00885 (Iterated) Volume (L) = 1.00627 - Viscosity (mPa s) = 1.02393 + Viscosity (mPa s) = 1.02388 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.596e-01 Mass of water (kg) = 1.000e+00 @@ -1145,10 +1145,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 30152 + Specific Conductance (µS/cm, 20°C) = 30154 Density (g/cm³) = 1.01238 (Iterated) Volume (L) = 1.00784 - Viscosity (mPa s) = 1.03133 + Viscosity (mPa s) = 1.03127 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.477e-01 Mass of water (kg) = 1.000e+00 @@ -1212,10 +1212,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37132 + Specific Conductance (µS/cm, 20°C) = 37133 Density (g/cm³) = 1.01597 (Iterated) Volume (L) = 1.00948 - Viscosity (mPa s) = 1.03908 + Viscosity (mPa s) = 1.03901 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.381e-01 Mass of water (kg) = 1.000e+00 @@ -1279,10 +1279,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 43917 + Specific Conductance (µS/cm, 20°C) = 43920 Density (g/cm³) = 1.01955 (Iterated) Volume (L) = 1.01114 - Viscosity (mPa s) = 1.04702 + Viscosity (mPa s) = 1.04695 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.288e-01 Mass of water (kg) = 1.000e+00 @@ -1346,10 +1346,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 50529 + Specific Conductance (µS/cm, 20°C) = 50532 Density (g/cm³) = 1.02310 (Iterated) Volume (L) = 1.01283 - Viscosity (mPa s) = 1.05518 + Viscosity (mPa s) = 1.05510 Activity of water = 0.979 Ionic strength (mol/kgw) = 6.199e-01 Mass of water (kg) = 1.000e+00 @@ -1413,10 +1413,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 55759 + Specific Conductance (µS/cm, 20°C) = 55762 Density (g/cm³) = 1.02597 (Iterated) Volume (L) = 1.01421 - Viscosity (mPa s) = 1.06194 + Viscosity (mPa s) = 1.06185 Activity of water = 0.976 Ionic strength (mol/kgw) = 6.937e-01 Mass of water (kg) = 1.000e+00 @@ -1480,10 +1480,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 68539 + Specific Conductance (µS/cm, 20°C) = 68543 Density (g/cm³) = 1.03317 (Iterated) Volume (L) = 1.01775 - Viscosity (mPa s) = 1.07971 + Viscosity (mPa s) = 1.07962 Activity of water = 0.970 Ionic strength (mol/kgw) = 8.814e-01 Mass of water (kg) = 1.000e+00 @@ -1547,10 +1547,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 79677 + Specific Conductance (µS/cm, 20°C) = 79682 Density (g/cm³) = 1.03969 (Iterated) Volume (L) = 1.02106 - Viscosity (mPa s) = 1.09683 + Viscosity (mPa s) = 1.09672 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.054e+00 Mass of water (kg) = 1.000e+00 @@ -1614,10 +1614,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 100854 + Specific Conductance (µS/cm, 20°C) = 100862 Density (g/cm³) = 1.05280 (Iterated) Volume (L) = 1.02797 - Viscosity (mPa s) = 1.13437 + Viscosity (mPa s) = 1.13425 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.407e+00 Mass of water (kg) = 1.000e+00 @@ -1681,10 +1681,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 118597 + Specific Conductance (µS/cm, 20°C) = 118607 Density (g/cm³) = 1.06464 (Iterated) Volume (L) = 1.03452 - Viscosity (mPa s) = 1.17217 + Viscosity (mPa s) = 1.17204 Activity of water = 0.941 Ionic strength (mol/kgw) = 1.735e+00 Mass of water (kg) = 1.000e+00 @@ -1792,7 +1792,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 8473 Density (g/cm³) = 1.00235 (Iterated) Volume (L) = 1.00266 - Viscosity (mPa s) = 1.01934 + Viscosity (mPa s) = 1.01926 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.354e-01 Mass of water (kg) = 1.000e+00 @@ -1856,10 +1856,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16071 + Specific Conductance (µS/cm, 20°C) = 16073 Density (g/cm³) = 1.00653 (Iterated) Volume (L) = 1.00358 - Viscosity (mPa s) = 1.03475 + Viscosity (mPa s) = 1.03464 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.740e-01 Mass of water (kg) = 1.000e+00 @@ -1923,10 +1923,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23208 + Specific Conductance (µS/cm, 20°C) = 23210 Density (g/cm³) = 1.01069 (Iterated) Volume (L) = 1.00453 - Viscosity (mPa s) = 1.04974 + Viscosity (mPa s) = 1.04960 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.129e-01 Mass of water (kg) = 1.000e+00 @@ -1990,10 +1990,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 30023 + Specific Conductance (µS/cm, 20°C) = 30027 Density (g/cm³) = 1.01483 (Iterated) Volume (L) = 1.00551 - Viscosity (mPa s) = 1.06454 + Viscosity (mPa s) = 1.06439 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.520e-01 Mass of water (kg) = 1.000e+00 @@ -2057,10 +2057,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 36721 + Specific Conductance (µS/cm, 20°C) = 36726 Density (g/cm³) = 1.01904 (Iterated) Volume (L) = 1.00653 - Viscosity (mPa s) = 1.07957 + Viscosity (mPa s) = 1.07940 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.945e-01 Mass of water (kg) = 1.000e+00 @@ -2124,10 +2124,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 43188 + Specific Conductance (µS/cm, 20°C) = 43195 Density (g/cm³) = 1.02324 (Iterated) Volume (L) = 1.00756 - Viscosity (mPa s) = 1.09457 + Viscosity (mPa s) = 1.09437 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.373e-01 Mass of water (kg) = 1.000e+00 @@ -2191,10 +2191,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 49450 + Specific Conductance (µS/cm, 20°C) = 49457 Density (g/cm³) = 1.02741 (Iterated) Volume (L) = 1.00862 - Viscosity (mPa s) = 1.10956 + Viscosity (mPa s) = 1.10935 Activity of water = 0.983 Ionic strength (mol/kgw) = 9.804e-01 Mass of water (kg) = 1.000e+00 @@ -2258,10 +2258,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 55649 + Specific Conductance (µS/cm, 20°C) = 55659 Density (g/cm³) = 1.03167 (Iterated) Volume (L) = 1.00971 - Viscosity (mPa s) = 1.12490 + Viscosity (mPa s) = 1.12468 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.127e+00 Mass of water (kg) = 1.000e+00 @@ -2325,10 +2325,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 67628 + Specific Conductance (µS/cm, 20°C) = 67640 Density (g/cm³) = 1.04021 (Iterated) Volume (L) = 1.01198 - Viscosity (mPa s) = 1.15612 + Viscosity (mPa s) = 1.15587 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.424e+00 Mass of water (kg) = 1.000e+00 @@ -2392,10 +2392,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 79042 + Specific Conductance (µS/cm, 20°C) = 79058 Density (g/cm³) = 1.04879 (Iterated) Volume (L) = 1.01434 - Viscosity (mPa s) = 1.18811 + Viscosity (mPa s) = 1.18784 Activity of water = 0.971 Ionic strength (mol/kgw) = 1.725e+00 Mass of water (kg) = 1.000e+00 @@ -2459,10 +2459,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 90028 + Specific Conductance (µS/cm, 20°C) = 90047 Density (g/cm³) = 1.05750 (Iterated) Volume (L) = 1.01681 - Viscosity (mPa s) = 1.22141 + Viscosity (mPa s) = 1.22111 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.035e+00 Mass of water (kg) = 1.000e+00 @@ -2526,10 +2526,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 105615 + Specific Conductance (µS/cm, 20°C) = 105639 Density (g/cm³) = 1.07072 (Iterated) Volume (L) = 1.02071 - Viscosity (mPa s) = 1.27409 + Viscosity (mPa s) = 1.27375 Activity of water = 0.957 Ionic strength (mol/kgw) = 2.511e+00 Mass of water (kg) = 1.000e+00 @@ -2632,10 +2632,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 9075 + Specific Conductance (µS/cm, 20°C) = 9076 Density (g/cm³) = 1.00234 (Iterated) Volume (L) = 1.00261 - Viscosity (mPa s) = 1.02917 + Viscosity (mPa s) = 1.02908 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.564e-01 Mass of water (kg) = 1.000e+00 @@ -2699,10 +2699,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 17174 + Specific Conductance (µS/cm, 20°C) = 17176 Density (g/cm³) = 1.00659 (Iterated) Volume (L) = 1.00352 - Viscosity (mPa s) = 1.05460 + Viscosity (mPa s) = 1.05447 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.191e-01 Mass of water (kg) = 1.000e+00 @@ -2766,10 +2766,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31580 + Specific Conductance (µS/cm, 20°C) = 31585 Density (g/cm³) = 1.01490 (Iterated) Volume (L) = 1.00541 - Viscosity (mPa s) = 1.10387 + Viscosity (mPa s) = 1.10369 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.425e-01 Mass of water (kg) = 1.000e+00 @@ -2833,10 +2833,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44769 + Specific Conductance (µS/cm, 20°C) = 44777 Density (g/cm³) = 1.02326 (Iterated) Volume (L) = 1.00745 - Viscosity (mPa s) = 1.15375 + Viscosity (mPa s) = 1.15353 Activity of water = 0.983 Ionic strength (mol/kgw) = 9.732e-01 Mass of water (kg) = 1.000e+00 @@ -2900,10 +2900,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 56917 + Specific Conductance (µS/cm, 20°C) = 56927 Density (g/cm³) = 1.03162 (Iterated) Volume (L) = 1.00960 - Viscosity (mPa s) = 1.20437 + Viscosity (mPa s) = 1.20411 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.308e+00 Mass of water (kg) = 1.000e+00 @@ -2967,10 +2967,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 68463 + Specific Conductance (µS/cm, 20°C) = 68476 Density (g/cm³) = 1.04020 (Iterated) Volume (L) = 1.01193 - Viscosity (mPa s) = 1.25759 + Viscosity (mPa s) = 1.25730 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.658e+00 Mass of water (kg) = 1.000e+00 @@ -3034,10 +3034,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 79063 + Specific Conductance (µS/cm, 20°C) = 79079 Density (g/cm³) = 1.04871 (Iterated) Volume (L) = 1.01434 - Viscosity (mPa s) = 1.31199 + Viscosity (mPa s) = 1.31167 Activity of water = 0.966 Ionic strength (mol/kgw) = 2.008e+00 Mass of water (kg) = 1.000e+00 @@ -3101,10 +3101,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 89039 + Specific Conductance (µS/cm, 20°C) = 89058 Density (g/cm³) = 1.05736 (Iterated) Volume (L) = 1.01690 - Viscosity (mPa s) = 1.36952 + Viscosity (mPa s) = 1.36917 Activity of water = 0.960 Ionic strength (mol/kgw) = 2.370e+00 Mass of water (kg) = 1.000e+00 @@ -3168,10 +3168,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 98153 + Specific Conductance (µS/cm, 20°C) = 98175 Density (g/cm³) = 1.06595 (Iterated) Volume (L) = 1.01955 - Viscosity (mPa s) = 1.42928 + Viscosity (mPa s) = 1.42890 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.734e+00 Mass of water (kg) = 1.000e+00 @@ -3235,10 +3235,10 @@ SO4, mol/L: 0 pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 106644 + Specific Conductance (µS/cm, 20°C) = 106667 Density (g/cm³) = 1.07468 (Iterated) Volume (L) = 1.02236 - Viscosity (mPa s) = 1.49345 + Viscosity (mPa s) = 1.49305 Activity of water = 0.947 Ionic strength (mol/kgw) = 3.110e+00 Mass of water (kg) = 1.000e+00 @@ -3356,7 +3356,7 @@ SO4, mol/L: 4.2000e-02 Specific Conductance (µS/cm, 20°C) = 4432 Density (g/cm³) = 1.00338 (Iterated) Volume (L) = 1.00167 - Viscosity (mPa s) = 1.03347 + Viscosity (mPa s) = 1.03339 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.199e-02 Mass of water (kg) = 1.000e+00 @@ -3430,7 +3430,7 @@ SO4, mol/L: 8.4000e-02 Specific Conductance (µS/cm, 20°C) = 7753 Density (g/cm³) = 1.00847 (Iterated) Volume (L) = 1.00165 - Viscosity (mPa s) = 1.06059 + Viscosity (mPa s) = 1.06048 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.674e-01 Mass of water (kg) = 1.000e+00 @@ -3501,10 +3501,10 @@ SO4, mol/L: 1.6900e-01 pH = 6.782 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 13556 + Specific Conductance (µS/cm, 20°C) = 13557 Density (g/cm³) = 1.01859 (Iterated) Volume (L) = 1.00176 - Viscosity (mPa s) = 1.11640 + Viscosity (mPa s) = 1.11625 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.105e-01 Mass of water (kg) = 1.000e+00 @@ -3575,10 +3575,10 @@ SO4, mol/L: 2.5600e-01 pH = 6.735 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 18740 + Specific Conductance (µS/cm, 20°C) = 18741 Density (g/cm³) = 1.02878 (Iterated) Volume (L) = 1.00204 - Viscosity (mPa s) = 1.17732 + Viscosity (mPa s) = 1.17713 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.523e-01 Mass of water (kg) = 1.000e+00 @@ -3649,10 +3649,10 @@ SO4, mol/L: 3.4500e-01 pH = 6.691 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23459 + Specific Conductance (µS/cm, 20°C) = 23461 Density (g/cm³) = 1.03907 (Iterated) Volume (L) = 1.00247 - Viscosity (mPa s) = 1.24459 + Viscosity (mPa s) = 1.24437 Activity of water = 0.992 Ionic strength (mol/kgw) = 5.957e-01 Mass of water (kg) = 1.000e+00 @@ -3723,10 +3723,10 @@ SO4, mol/L: 4.3600e-01 pH = 6.650 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 27769 + Specific Conductance (µS/cm, 20°C) = 27772 Density (g/cm³) = 1.04947 (Iterated) Volume (L) = 1.00302 - Viscosity (mPa s) = 1.31902 + Viscosity (mPa s) = 1.31878 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.419e-01 Mass of water (kg) = 1.000e+00 @@ -3797,10 +3797,10 @@ SO4, mol/L: 5.2800e-01 pH = 6.609 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31655 + Specific Conductance (µS/cm, 20°C) = 31658 Density (g/cm³) = 1.05989 (Iterated) Volume (L) = 1.00368 - Viscosity (mPa s) = 1.40048 + Viscosity (mPa s) = 1.40021 Activity of water = 0.989 Ionic strength (mol/kgw) = 8.901e-01 Mass of water (kg) = 1.000e+00 @@ -3871,10 +3871,10 @@ SO4, mol/L: 6.2300e-01 pH = 6.569 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 35213 + Specific Conductance (µS/cm, 20°C) = 35216 Density (g/cm³) = 1.07056 (Iterated) Volume (L) = 1.00446 - Viscosity (mPa s) = 1.49159 + Viscosity (mPa s) = 1.49129 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.044e+00 Mass of water (kg) = 1.000e+00 @@ -3945,10 +3945,10 @@ SO4, mol/L: 7.1900e-01 pH = 6.530 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38376 + Specific Conductance (µS/cm, 20°C) = 38380 Density (g/cm³) = 1.08124 (Iterated) Volume (L) = 1.00534 - Viscosity (mPa s) = 1.59140 + Viscosity (mPa s) = 1.59108 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.201e+00 Mass of water (kg) = 1.000e+00 @@ -4019,10 +4019,10 @@ SO4, mol/L: 8.1700e-01 pH = 6.490 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 41190 + Specific Conductance (µS/cm, 20°C) = 41194 Density (g/cm³) = 1.09206 (Iterated) Volume (L) = 1.00633 - Viscosity (mPa s) = 1.70199 + Viscosity (mPa s) = 1.70166 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.363e+00 Mass of water (kg) = 1.000e+00 @@ -4093,10 +4093,10 @@ SO4, mol/L: 9.1700e-01 pH = 6.450 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 43660 + Specific Conductance (µS/cm, 20°C) = 43664 Density (g/cm³) = 1.10302 (Iterated) Volume (L) = 1.00742 - Viscosity (mPa s) = 1.82475 + Viscosity (mPa s) = 1.82439 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.530e+00 Mass of water (kg) = 1.000e+00 @@ -4167,10 +4167,10 @@ SO4, mol/L: 1.1220e+00 pH = 6.370 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 47569 + Specific Conductance (µS/cm, 20°C) = 47573 Density (g/cm³) = 1.12523 (Iterated) Volume (L) = 1.00993 - Viscosity (mPa s) = 2.11221 + Viscosity (mPa s) = 2.11180 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.879e+00 Mass of water (kg) = 1.000e+00 @@ -4241,10 +4241,10 @@ SO4, mol/L: 1.3350e+00 pH = 6.288 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 50173 + Specific Conductance (µS/cm, 20°C) = 50177 Density (g/cm³) = 1.14796 (Iterated) Volume (L) = 1.01290 - Viscosity (mPa s) = 2.47221 + Viscosity (mPa s) = 2.47177 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.253e+00 Mass of water (kg) = 1.000e+00 @@ -4315,10 +4315,10 @@ SO4, mol/L: 1.5570e+00 pH = 6.204 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51532 + Specific Conductance (µS/cm, 20°C) = 51537 Density (g/cm³) = 1.17131 (Iterated) Volume (L) = 1.01638 - Viscosity (mPa s) = 2.93173 + Viscosity (mPa s) = 2.93125 Activity of water = 0.969 Ionic strength (mol/kgw) = 2.655e+00 Mass of water (kg) = 1.000e+00 @@ -4389,10 +4389,10 @@ SO4, mol/L: 1.7870e+00 pH = 6.118 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51721 + Specific Conductance (µS/cm, 20°C) = 51724 Density (g/cm³) = 1.19514 (Iterated) Volume (L) = 1.02037 - Viscosity (mPa s) = 3.52420 + Viscosity (mPa s) = 3.52368 Activity of water = 0.965 Ionic strength (mol/kgw) = 3.085e+00 Mass of water (kg) = 1.000e+00 @@ -4463,10 +4463,10 @@ SO4, mol/L: 2.0260e+00 pH = 6.029 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 50861 + Specific Conductance (µS/cm, 20°C) = 50864 Density (g/cm³) = 1.21954 (Iterated) Volume (L) = 1.02495 - Viscosity (mPa s) = 4.30164 + Viscosity (mPa s) = 4.30108 Activity of water = 0.961 Ionic strength (mol/kgw) = 3.549e+00 Mass of water (kg) = 1.000e+00 @@ -4537,10 +4537,10 @@ SO4, mol/L: 2.2750e+00 pH = 5.938 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 49105 + Specific Conductance (µS/cm, 20°C) = 49107 Density (g/cm³) = 1.24456 (Iterated) Volume (L) = 1.03018 - Viscosity (mPa s) = 5.33780 + Viscosity (mPa s) = 5.33720 Activity of water = 0.956 Ionic strength (mol/kgw) = 4.050e+00 Mass of water (kg) = 1.000e+00 @@ -4611,10 +4611,10 @@ SO4, mol/L: 2.5320e+00 pH = 5.846 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46664 + Specific Conductance (µS/cm, 20°C) = 46666 Density (g/cm³) = 1.26998 (Iterated) Volume (L) = 1.03607 - Viscosity (mPa s) = 6.71836 + Viscosity (mPa s) = 6.71771 Activity of water = 0.951 Ionic strength (mol/kgw) = 4.586e+00 Mass of water (kg) = 1.000e+00 @@ -4685,10 +4685,10 @@ SO4, mol/L: 2.7990e+00 pH = 5.752 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 43731 + Specific Conductance (µS/cm, 20°C) = 43732 Density (g/cm³) = 1.29596 (Iterated) Volume (L) = 1.04272 - Viscosity (mPa s) = 8.58022 + Viscosity (mPa s) = 8.57953 Activity of water = 0.946 Ionic strength (mol/kgw) = 5.164e+00 Mass of water (kg) = 1.000e+00 @@ -4882,7 +4882,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 8581 Density (g/cm³) = 1.00554 Volume (L) = 1.00454 - Viscosity (mPa s) = 1.00719 + Viscosity (mPa s) = 1.00704 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.866e-01 Mass of water (kg) = 1.000e+00 @@ -4974,7 +4974,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 15185 Density (g/cm³) = 1.01287 Volume (L) = 1.00734 - Viscosity (mPa s) = 1.00877 + Viscosity (mPa s) = 1.00857 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.750e-01 Mass of water (kg) = 1.000e+00 @@ -5066,7 +5066,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 21059 Density (g/cm³) = 1.02027 Volume (L) = 1.01022 - Viscosity (mPa s) = 1.00998 + Viscosity (mPa s) = 1.00973 Activity of water = 0.994 Ionic strength (mol/kgw) = 5.670e-01 Mass of water (kg) = 1.000e+00 @@ -5158,7 +5158,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 26444 Density (g/cm³) = 1.02768 Volume (L) = 1.01315 - Viscosity (mPa s) = 1.01106 + Viscosity (mPa s) = 1.01077 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.608e-01 Mass of water (kg) = 1.000e+00 @@ -5250,7 +5250,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 31576 Density (g/cm³) = 1.03523 Volume (L) = 1.01619 - Viscosity (mPa s) = 1.01212 + Viscosity (mPa s) = 1.01179 Activity of water = 0.989 Ionic strength (mol/kgw) = 9.600e-01 Mass of water (kg) = 1.000e+00 @@ -5342,7 +5342,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 36454 Density (g/cm³) = 1.04280 Volume (L) = 1.01928 - Viscosity (mPa s) = 1.01319 + Viscosity (mPa s) = 1.01282 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.162e+00 Mass of water (kg) = 1.000e+00 @@ -5434,7 +5434,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 41146 Density (g/cm³) = 1.05042 Volume (L) = 1.02243 - Viscosity (mPa s) = 1.01428 + Viscosity (mPa s) = 1.01388 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.366e+00 Mass of water (kg) = 1.000e+00 @@ -5526,7 +5526,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 45715 Density (g/cm³) = 1.05813 Volume (L) = 1.02567 - Viscosity (mPa s) = 1.01541 + Viscosity (mPa s) = 1.01499 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.575e+00 Mass of water (kg) = 1.000e+00 @@ -5618,7 +5618,7 @@ SO4, mol/L: 0 Specific Conductance (µS/cm, 20°C) = 50169 Density (g/cm³) = 1.06590 Volume (L) = 1.02898 - Viscosity (mPa s) = 1.01660 + Viscosity (mPa s) = 1.01614 Activity of water = 0.980 Ionic strength (mol/kgw) = 1.787e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/salt_sc1.out b/mytest/salt_sc1.out index 9a826c0b..6acf5d41 100644 --- a/mytest/salt_sc1.out +++ b/mytest/salt_sc1.out @@ -79,7 +79,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 8283 Density (g/cm³) = 1.00150 Volume (L) = 1.00369 - Viscosity (mPa s) = 1.00121 + Viscosity (mPa s) = 1.00118 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.972e-02 Mass of water (kg) = 1.000e+00 @@ -134,7 +134,7 @@ Initial solution 2. Specific Conductance (µS/cm, 20°C) = 16025 Density (g/cm³) = 1.00478 Volume (L) = 1.00562 - Viscosity (mPa s) = 1.00014 + Viscosity (mPa s) = 1.00011 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.398e-01 Mass of water (kg) = 1.000e+00 @@ -186,10 +186,10 @@ Initial solution 3. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23680 + Specific Conductance (µS/cm, 20°C) = 23681 Density (g/cm³) = 1.00811 Volume (L) = 1.00762 - Viscosity (mPa s) = 0.99901 + Viscosity (mPa s) = 0.99897 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.117e-01 Mass of water (kg) = 1.000e+00 @@ -241,10 +241,10 @@ Initial solution 4. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31179 + Specific Conductance (µS/cm, 20°C) = 31180 Density (g/cm³) = 1.01143 Volume (L) = 1.00964 - Viscosity (mPa s) = 0.99788 + Viscosity (mPa s) = 0.99784 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.840e-01 Mass of water (kg) = 1.000e+00 @@ -296,10 +296,10 @@ Initial solution 5. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38706 + Specific Conductance (µS/cm, 20°C) = 38707 Density (g/cm³) = 1.01481 Volume (L) = 1.01172 - Viscosity (mPa s) = 0.99678 + Viscosity (mPa s) = 0.99673 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.582e-01 Mass of water (kg) = 1.000e+00 @@ -351,10 +351,10 @@ Initial solution 6. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 45997 + Specific Conductance (µS/cm, 20°C) = 45999 Density (g/cm³) = 1.01811 Volume (L) = 1.01379 - Viscosity (mPa s) = 0.99574 + Viscosity (mPa s) = 0.99568 Activity of water = 0.986 Ionic strength (mol/kgw) = 4.313e-01 Mass of water (kg) = 1.000e+00 @@ -406,10 +406,10 @@ Initial solution 7. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 53354 + Specific Conductance (µS/cm, 20°C) = 53355 Density (g/cm³) = 1.02148 Volume (L) = 1.01593 - Viscosity (mPa s) = 0.99474 + Viscosity (mPa s) = 0.99468 Activity of water = 0.984 Ionic strength (mol/kgw) = 5.063e-01 Mass of water (kg) = 1.000e+00 @@ -461,10 +461,10 @@ Initial solution 8. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 60781 + Specific Conductance (µS/cm, 20°C) = 60783 Density (g/cm³) = 1.02490 Volume (L) = 1.01813 - Viscosity (mPa s) = 0.99378 + Viscosity (mPa s) = 0.99372 Activity of water = 0.981 Ionic strength (mol/kgw) = 5.832e-01 Mass of water (kg) = 1.000e+00 @@ -516,10 +516,10 @@ Initial solution 9. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 75316 + Specific Conductance (µS/cm, 20°C) = 75318 Density (g/cm³) = 1.03166 Volume (L) = 1.02256 - Viscosity (mPa s) = 0.99208 + Viscosity (mPa s) = 0.99201 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.368e-01 Mass of water (kg) = 1.000e+00 @@ -571,10 +571,10 @@ Initial solution 10. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 89910 + Specific Conductance (µS/cm, 20°C) = 89914 Density (g/cm³) = 1.03853 Volume (L) = 1.02717 - Viscosity (mPa s) = 0.99065 + Viscosity (mPa s) = 0.99058 Activity of water = 0.972 Ionic strength (mol/kgw) = 8.953e-01 Mass of water (kg) = 1.000e+00 @@ -626,10 +626,10 @@ Initial solution 11. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 104441 + Specific Conductance (µS/cm, 20°C) = 104445 Density (g/cm³) = 1.04544 Volume (L) = 1.03193 - Viscosity (mPa s) = 0.98953 + Viscosity (mPa s) = 0.98945 Activity of water = 0.966 Ionic strength (mol/kgw) = 1.057e+00 Mass of water (kg) = 1.000e+00 @@ -681,10 +681,10 @@ Initial solution 12. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 111767 + Specific Conductance (µS/cm, 20°C) = 111771 Density (g/cm³) = 1.04894 Volume (L) = 1.03439 - Viscosity (mPa s) = 0.98909 + Viscosity (mPa s) = 0.98900 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.140e+00 Mass of water (kg) = 1.000e+00 @@ -776,7 +776,7 @@ Initial solution 13. Specific Conductance (µS/cm, 20°C) = 8556 Density (g/cm³) = 1.00190 Volume (L) = 1.00329 - Viscosity (mPa s) = 1.00980 + Viscosity (mPa s) = 1.00977 Activity of water = 0.997 Ionic strength (mol/kgw) = 8.888e-02 Mass of water (kg) = 1.000e+00 @@ -828,10 +828,10 @@ Initial solution 14. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16500 + Specific Conductance (µS/cm, 20°C) = 16501 Density (g/cm³) = 1.00562 Volume (L) = 1.00486 - Viscosity (mPa s) = 1.01732 + Viscosity (mPa s) = 1.01728 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.799e-01 Mass of water (kg) = 1.000e+00 @@ -883,10 +883,10 @@ Initial solution 15. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23920 + Specific Conductance (µS/cm, 20°C) = 23921 Density (g/cm³) = 1.00925 Volume (L) = 1.00645 - Viscosity (mPa s) = 1.02476 + Viscosity (mPa s) = 1.02471 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.695e-01 Mass of water (kg) = 1.000e+00 @@ -938,10 +938,10 @@ Initial solution 16. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31219 + Specific Conductance (µS/cm, 20°C) = 31221 Density (g/cm³) = 1.01292 Volume (L) = 1.00809 - Viscosity (mPa s) = 1.03249 + Viscosity (mPa s) = 1.03243 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.613e-01 Mass of water (kg) = 1.000e+00 @@ -993,10 +993,10 @@ Initial solution 17. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38435 + Specific Conductance (µS/cm, 20°C) = 38437 Density (g/cm³) = 1.01665 Volume (L) = 1.00979 - Viscosity (mPa s) = 1.04057 + Viscosity (mPa s) = 1.04050 Activity of water = 0.985 Ionic strength (mol/kgw) = 4.553e-01 Mass of water (kg) = 1.000e+00 @@ -1048,10 +1048,10 @@ Initial solution 18. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 45452 + Specific Conductance (µS/cm, 20°C) = 45454 Density (g/cm³) = 1.02036 Volume (L) = 1.01153 - Viscosity (mPa s) = 1.04888 + Viscosity (mPa s) = 1.04880 Activity of water = 0.982 Ionic strength (mol/kgw) = 5.497e-01 Mass of water (kg) = 1.000e+00 @@ -1103,10 +1103,10 @@ Initial solution 19. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 52289 + Specific Conductance (µS/cm, 20°C) = 52292 Density (g/cm³) = 1.02406 Volume (L) = 1.01329 - Viscosity (mPa s) = 1.05742 + Viscosity (mPa s) = 1.05734 Activity of water = 0.979 Ionic strength (mol/kgw) = 6.445e-01 Mass of water (kg) = 1.000e+00 @@ -1158,10 +1158,10 @@ Initial solution 20. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57689 + Specific Conductance (µS/cm, 20°C) = 57692 Density (g/cm³) = 1.02704 Volume (L) = 1.01473 - Viscosity (mPa s) = 1.06450 + Viscosity (mPa s) = 1.06442 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.214e-01 Mass of water (kg) = 1.000e+00 @@ -1213,10 +1213,10 @@ Initial solution 21. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70860 + Specific Conductance (µS/cm, 20°C) = 70864 Density (g/cm³) = 1.03451 Volume (L) = 1.01842 - Viscosity (mPa s) = 1.08315 + Viscosity (mPa s) = 1.08305 Activity of water = 0.970 Ionic strength (mol/kgw) = 9.166e-01 Mass of water (kg) = 1.000e+00 @@ -1268,10 +1268,10 @@ Initial solution 22. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 82369 + Specific Conductance (µS/cm, 20°C) = 82375 Density (g/cm³) = 1.04130 Volume (L) = 1.02189 - Viscosity (mPa s) = 1.10121 + Viscosity (mPa s) = 1.10111 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.097e+00 Mass of water (kg) = 1.000e+00 @@ -1323,10 +1323,10 @@ Initial solution 23. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 104225 + Specific Conductance (µS/cm, 20°C) = 104233 Density (g/cm³) = 1.05498 Volume (L) = 1.02916 - Viscosity (mPa s) = 1.14105 + Viscosity (mPa s) = 1.14093 Activity of water = 0.951 Ionic strength (mol/kgw) = 1.467e+00 Mass of water (kg) = 1.000e+00 @@ -1378,10 +1378,10 @@ Initial solution 24. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 122470 + Specific Conductance (µS/cm, 20°C) = 122480 Density (g/cm³) = 1.06735 Volume (L) = 1.03606 - Viscosity (mPa s) = 1.18137 + Viscosity (mPa s) = 1.18124 Activity of water = 0.939 Ionic strength (mol/kgw) = 1.811e+00 Mass of water (kg) = 1.000e+00 @@ -1473,7 +1473,7 @@ Initial solution 25. Specific Conductance (µS/cm, 20°C) = 8751 Density (g/cm³) = 1.00249 Volume (L) = 1.00269 - Viscosity (mPa s) = 1.01990 + Viscosity (mPa s) = 1.01982 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.402e-01 Mass of water (kg) = 1.000e+00 @@ -1525,10 +1525,10 @@ Initial solution 26. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16605 + Specific Conductance (µS/cm, 20°C) = 16607 Density (g/cm³) = 1.00684 Volume (L) = 1.00365 - Viscosity (mPa s) = 1.03585 + Viscosity (mPa s) = 1.03574 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.841e-01 Mass of water (kg) = 1.000e+00 @@ -1580,10 +1580,10 @@ Initial solution 27. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23991 + Specific Conductance (µS/cm, 20°C) = 23994 Density (g/cm³) = 1.01116 Volume (L) = 1.00464 - Viscosity (mPa s) = 1.05142 + Viscosity (mPa s) = 1.05128 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.285e-01 Mass of water (kg) = 1.000e+00 @@ -1635,10 +1635,10 @@ Initial solution 28. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 31052 + Specific Conductance (µS/cm, 20°C) = 31056 Density (g/cm³) = 1.01547 Volume (L) = 1.00566 - Viscosity (mPa s) = 1.06682 + Viscosity (mPa s) = 1.06666 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.735e-01 Mass of water (kg) = 1.000e+00 @@ -1690,10 +1690,10 @@ Initial solution 29. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37997 + Specific Conductance (µS/cm, 20°C) = 38002 Density (g/cm³) = 1.01986 Volume (L) = 1.00673 - Viscosity (mPa s) = 1.08249 + Viscosity (mPa s) = 1.08231 Activity of water = 0.989 Ionic strength (mol/kgw) = 7.223e-01 Mass of water (kg) = 1.000e+00 @@ -1745,10 +1745,10 @@ Initial solution 30. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 44708 + Specific Conductance (µS/cm, 20°C) = 44715 Density (g/cm³) = 1.02424 Volume (L) = 1.00781 - Viscosity (mPa s) = 1.09816 + Viscosity (mPa s) = 1.09796 Activity of water = 0.986 Ionic strength (mol/kgw) = 8.716e-01 Mass of water (kg) = 1.000e+00 @@ -1800,10 +1800,10 @@ Initial solution 31. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 51210 + Specific Conductance (µS/cm, 20°C) = 51218 Density (g/cm³) = 1.02861 Volume (L) = 1.00893 - Viscosity (mPa s) = 1.11386 + Viscosity (mPa s) = 1.11365 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.021e+00 Mass of water (kg) = 1.000e+00 @@ -1855,10 +1855,10 @@ Initial solution 32. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57652 + Specific Conductance (µS/cm, 20°C) = 57662 Density (g/cm³) = 1.03306 Volume (L) = 1.01008 - Viscosity (mPa s) = 1.12997 + Viscosity (mPa s) = 1.12975 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.175e+00 Mass of water (kg) = 1.000e+00 @@ -1910,10 +1910,10 @@ Initial solution 33. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70105 + Specific Conductance (µS/cm, 20°C) = 70119 Density (g/cm³) = 1.04204 Volume (L) = 1.01248 - Viscosity (mPa s) = 1.16287 + Viscosity (mPa s) = 1.16261 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.488e+00 Mass of water (kg) = 1.000e+00 @@ -1965,10 +1965,10 @@ Initial solution 34. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 81977 + Specific Conductance (µS/cm, 20°C) = 81993 Density (g/cm³) = 1.05107 Volume (L) = 1.01498 - Viscosity (mPa s) = 1.19675 + Viscosity (mPa s) = 1.19646 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.806e+00 Mass of water (kg) = 1.000e+00 @@ -2020,10 +2020,10 @@ Initial solution 35. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 93400 + Specific Conductance (µS/cm, 20°C) = 93419 Density (g/cm³) = 1.06026 Volume (L) = 1.01761 - Viscosity (mPa s) = 1.23221 + Viscosity (mPa s) = 1.23191 Activity of water = 0.963 Ionic strength (mol/kgw) = 2.134e+00 Mass of water (kg) = 1.000e+00 @@ -2075,10 +2075,10 @@ Initial solution 36. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 109584 + Specific Conductance (µS/cm, 20°C) = 109608 Density (g/cm³) = 1.07427 Volume (L) = 1.02179 - Viscosity (mPa s) = 1.28876 + Viscosity (mPa s) = 1.28842 Activity of water = 0.953 Ionic strength (mol/kgw) = 2.640e+00 Mass of water (kg) = 1.000e+00 @@ -2165,10 +2165,10 @@ Initial solution 37. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 9447 + Specific Conductance (µS/cm, 20°C) = 9448 Density (g/cm³) = 1.00253 Volume (L) = 1.00265 - Viscosity (mPa s) = 1.03030 + Viscosity (mPa s) = 1.03021 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.635e-01 Mass of water (kg) = 1.000e+00 @@ -2224,10 +2224,10 @@ Initial solution 38. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 17727 + Specific Conductance (µS/cm, 20°C) = 17729 Density (g/cm³) = 1.00689 Volume (L) = 1.00358 - Viscosity (mPa s) = 1.05639 + Viscosity (mPa s) = 1.05626 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.308e-01 Mass of water (kg) = 1.000e+00 @@ -2283,10 +2283,10 @@ Initial solution 39. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32589 + Specific Conductance (µS/cm, 20°C) = 32594 Density (g/cm³) = 1.01551 Volume (L) = 1.00556 - Viscosity (mPa s) = 1.10752 + Viscosity (mPa s) = 1.10733 Activity of water = 0.989 Ionic strength (mol/kgw) = 6.666e-01 Mass of water (kg) = 1.000e+00 @@ -2342,10 +2342,10 @@ Initial solution 40. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46192 + Specific Conductance (µS/cm, 20°C) = 46200 Density (g/cm³) = 1.02421 Volume (L) = 1.00769 - Viscosity (mPa s) = 1.15943 + Viscosity (mPa s) = 1.15920 Activity of water = 0.984 Ionic strength (mol/kgw) = 1.011e+00 Mass of water (kg) = 1.000e+00 @@ -2401,10 +2401,10 @@ Initial solution 41. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 58705 + Specific Conductance (µS/cm, 20°C) = 58715 Density (g/cm³) = 1.03290 Volume (L) = 1.00995 - Viscosity (mPa s) = 1.21226 + Viscosity (mPa s) = 1.21200 Activity of water = 0.977 Ionic strength (mol/kgw) = 1.360e+00 Mass of water (kg) = 1.000e+00 @@ -2460,10 +2460,10 @@ Initial solution 42. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 70485 + Specific Conductance (µS/cm, 20°C) = 70498 Density (g/cm³) = 1.04177 Volume (L) = 1.01236 - Viscosity (mPa s) = 1.26751 + Viscosity (mPa s) = 1.26721 Activity of water = 0.970 Ionic strength (mol/kgw) = 1.722e+00 Mass of water (kg) = 1.000e+00 @@ -2519,10 +2519,10 @@ Initial solution 43. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 81370 + Specific Conductance (µS/cm, 20°C) = 81387 Density (g/cm³) = 1.05064 Volume (L) = 1.01490 - Viscosity (mPa s) = 1.32468 + Viscosity (mPa s) = 1.32436 Activity of water = 0.963 Ionic strength (mol/kgw) = 2.089e+00 Mass of water (kg) = 1.000e+00 @@ -2578,10 +2578,10 @@ Initial solution 44. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 91498 + Specific Conductance (µS/cm, 20°C) = 91518 Density (g/cm³) = 1.05960 Volume (L) = 1.01758 - Viscosity (mPa s) = 1.38488 + Viscosity (mPa s) = 1.38452 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.465e+00 Mass of water (kg) = 1.000e+00 @@ -2637,10 +2637,10 @@ Initial solution 45. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 100790 + Specific Conductance (µS/cm, 20°C) = 100812 Density (g/cm³) = 1.06857 Volume (L) = 1.02038 - Viscosity (mPa s) = 1.44820 + Viscosity (mPa s) = 1.44782 Activity of water = 0.945 Ionic strength (mol/kgw) = 2.847e+00 Mass of water (kg) = 1.000e+00 @@ -2696,10 +2696,10 @@ Initial solution 46. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 109328 + Specific Conductance (µS/cm, 20°C) = 109353 Density (g/cm³) = 1.07761 Volume (L) = 1.02333 - Viscosity (mPa s) = 1.51596 + Viscosity (mPa s) = 1.51556 Activity of water = 0.935 Ionic strength (mol/kgw) = 3.238e+00 Mass of water (kg) = 1.000e+00 @@ -2790,10 +2790,10 @@ Initial solution 47. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 5533 + Specific Conductance (µS/cm, 20°C) = 5534 Density (g/cm³) = 1.00396 Volume (L) = 1.00158 - Viscosity (mPa s) = 1.05191 + Viscosity (mPa s) = 1.05180 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.840e-01 Mass of water (kg) = 1.000e+00 @@ -2852,10 +2852,10 @@ Initial solution 48. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 8986 + Specific Conductance (µS/cm, 20°C) = 8987 Density (g/cm³) = 1.00973 Volume (L) = 1.00145 - Viscosity (mPa s) = 1.09880 + Viscosity (mPa s) = 1.09863 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.721e-01 Mass of water (kg) = 1.000e+00 @@ -2914,10 +2914,10 @@ Initial solution 49. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 14395 + Specific Conductance (µS/cm, 20°C) = 14398 Density (g/cm³) = 1.02124 Volume (L) = 1.00141 - Viscosity (mPa s) = 1.19144 + Viscosity (mPa s) = 1.19121 Activity of water = 0.996 Ionic strength (mol/kgw) = 7.534e-01 Mass of water (kg) = 1.000e+00 @@ -2976,10 +2976,10 @@ Initial solution 50. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 19189 + Specific Conductance (µS/cm, 20°C) = 19193 Density (g/cm³) = 1.03281 Volume (L) = 1.00156 - Viscosity (mPa s) = 1.28504 + Viscosity (mPa s) = 1.28475 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.144e+00 Mass of water (kg) = 1.000e+00 @@ -3038,10 +3038,10 @@ Initial solution 51. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23743 + Specific Conductance (µS/cm, 20°C) = 23749 Density (g/cm³) = 1.04447 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.38071 + Viscosity (mPa s) = 1.38037 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.544e+00 Mass of water (kg) = 1.000e+00 @@ -3100,10 +3100,10 @@ Initial solution 52. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 28137 + Specific Conductance (µS/cm, 20°C) = 28144 Density (g/cm³) = 1.05623 Volume (L) = 1.00240 - Viscosity (mPa s) = 1.47941 + Viscosity (mPa s) = 1.47903 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.953e+00 Mass of water (kg) = 1.000e+00 @@ -3162,10 +3162,10 @@ Initial solution 53. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32370 + Specific Conductance (µS/cm, 20°C) = 32378 Density (g/cm³) = 1.06810 Volume (L) = 1.00307 - Viscosity (mPa s) = 1.58226 + Viscosity (mPa s) = 1.58184 Activity of water = 0.989 Ionic strength (mol/kgw) = 2.372e+00 Mass of water (kg) = 1.000e+00 @@ -3224,10 +3224,10 @@ Initial solution 54. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 36443 + Specific Conductance (µS/cm, 20°C) = 36453 Density (g/cm³) = 1.08016 Volume (L) = 1.00391 - Viscosity (mPa s) = 1.69156 + Viscosity (mPa s) = 1.69111 Activity of water = 0.987 Ionic strength (mol/kgw) = 2.804e+00 Mass of water (kg) = 1.000e+00 @@ -3286,10 +3286,10 @@ Initial solution 55. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 40234 + Specific Conductance (µS/cm, 20°C) = 40245 Density (g/cm³) = 1.09222 Volume (L) = 1.00490 - Viscosity (mPa s) = 1.80704 + Viscosity (mPa s) = 1.80655 Activity of water = 0.985 Ionic strength (mol/kgw) = 3.243e+00 Mass of water (kg) = 1.000e+00 @@ -3348,10 +3348,10 @@ Initial solution 56. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 46885 + Specific Conductance (µS/cm, 20°C) = 46898 Density (g/cm³) = 1.11682 Volume (L) = 1.00742 - Viscosity (mPa s) = 2.07017 + Viscosity (mPa s) = 2.06962 Activity of water = 0.980 Ionic strength (mol/kgw) = 4.157e+00 Mass of water (kg) = 1.000e+00 @@ -3523,7 +3523,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 7807 Density (g/cm³) = 1.00829 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.01020 + Viscosity (mPa s) = 1.01005 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.866e-01 Mass of water (kg) = 1.000e+00 @@ -3595,7 +3595,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 12797 Density (g/cm³) = 1.01847 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.01379 + Viscosity (mPa s) = 1.01358 Activity of water = 0.997 Ionic strength (mol/kgw) = 3.750e-01 Mass of water (kg) = 1.000e+00 @@ -3667,7 +3667,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 16601 Density (g/cm³) = 1.02885 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.01658 + Viscosity (mPa s) = 1.01633 Activity of water = 0.996 Ionic strength (mol/kgw) = 5.670e-01 Mass of water (kg) = 1.000e+00 @@ -3739,7 +3739,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 19598 Density (g/cm³) = 1.03933 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.01896 + Viscosity (mPa s) = 1.01867 Activity of water = 0.995 Ionic strength (mol/kgw) = 7.608e-01 Mass of water (kg) = 1.000e+00 @@ -3811,7 +3811,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 22038 Density (g/cm³) = 1.05010 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.02110 + Viscosity (mPa s) = 1.02077 Activity of water = 0.995 Ionic strength (mol/kgw) = 9.600e-01 Mass of water (kg) = 1.000e+00 @@ -3883,7 +3883,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 23991 Density (g/cm³) = 1.06100 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.02305 + Viscosity (mPa s) = 1.02269 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.162e+00 Mass of water (kg) = 1.000e+00 @@ -3955,7 +3955,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 25540 Density (g/cm³) = 1.07206 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.02486 + Viscosity (mPa s) = 1.02447 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.366e+00 Mass of water (kg) = 1.000e+00 @@ -4027,7 +4027,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 26743 Density (g/cm³) = 1.08334 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.02657 + Viscosity (mPa s) = 1.02616 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.575e+00 Mass of water (kg) = 1.000e+00 @@ -4099,7 +4099,7 @@ Reaction 1. Specific Conductance (µS/cm, 20°C) = 27630 Density (g/cm³) = 1.09482 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.02821 + Viscosity (mPa s) = 1.02776 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.787e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/salt_sc1_101.sel b/mytest/salt_sc1_101.sel index d07a3bce..f9b8ef38 100644 --- a/mytest/salt_sc1_101.sel +++ b/mytest/salt_sc1_101.sel @@ -1,67 +1,67 @@ Mu SC - 0.069723958711 8283.3266160133 - 0.139828984955 16025.1063635164 - 0.211732057212 23680.6413132967 - 0.284038337761 31179.3948800145 - 0.358181058185 38706.9294999003 - 0.431312073282 45997.9386371503 - 0.506302893810 53354.0123459197 - 0.583182167429 60781.5582852715 - 0.736836337063 75316.1601908355 - 0.895285367014 89910.9453441232 - 1.057162132255 104441.3001674759 - 1.140362580334 111767.0639461192 - 0.088883989974 8556.3555135534 - 0.179920544532 16500.6393830372 - 0.269541997243 23920.4706497852 - 0.361335566925 31219.8772528427 - 0.455326298199 38435.5175550067 - 0.549720744425 45452.4127137443 - 0.644521511397 52289.5039585848 - 0.721389782936 57689.1835605542 - 0.916586361476 70860.3584940089 - 1.096725823565 82369.7956842141 - 1.467110879352 104225.2972693509 - 1.810954000804 122470.8086157252 - 0.140224407149 8751.2344455196 - 0.284108860269 16605.9692522617 - 0.428546514470 23991.7578551466 - 0.573540568124 31052.2330908724 - 0.722264692737 37997.2002922685 - 0.871576497670 44708.5016275919 - 1.021479473293 51210.5322536478 - 1.175185702558 57652.2514140108 - 1.487709091243 70105.9611643830 - 1.806074547057 81977.4995557988 - 2.133686266797 93400.0238697535 - 2.640387662596 109584.2247098655 - 0.163518993740 9447.5832554381 - 0.330755332751 17727.1938239596 - 0.666589457640 32589.7264679582 - 1.010890267773 46192.7729422356 - 1.360445086087 58705.2026195806 - 1.722041651122 70485.0732127630 - 2.089116978133 81370.6272967271 - 2.465146732692 91498.4655300974 - 2.846854009979 100790.9049780092 - 3.237761017640 109328.8639021751 - 0.184017269619 5533.7642188060 - 0.372139310966 8986.0128005917 - 0.753385080406 14395.1169944335 - 1.143851996103 19189.1498092689 - 1.543658359832 23743.6670885021 - 1.952926141114 28137.4913725305 - 2.371781077026 32370.2197406869 - 2.804155258043 36443.1693103076 - 3.242597240653 40234.2402458317 - 4.157316912590 46885.2361358103 - 0.000000084257 0.0448030269 - 0.186600129626 7807.2474468016 - 0.375000148952 12797.6239052039 - 0.567000164278 16601.3190307520 - 0.760800177512 19598.8523707599 - 0.960000189674 22038.5977235882 - 1.161600200964 23991.4877714592 - 1.366200211658 25540.6402997611 - 1.575000221968 26743.5525587742 - 1.787400231964 27630.0864337424 + 0.069723958711 8283.4121111943 + 0.139828984955 16025.3409284575 + 0.211732057212 23681.0685148341 + 0.284038337761 31180.0473973515 + 0.358181058185 38707.8406034786 + 0.431312073282 45999.1285617280 + 0.506302893810 53355.5099628066 + 0.583182167429 60783.3919742928 + 0.736836337063 75318.7208621876 + 0.895285367014 89914.3226161749 + 1.057162132255 104445.5713321855 + 1.140362580334 111771.8150304608 + 0.088883989974 8556.5390109088 + 0.179920544532 16501.1392275965 + 0.269541997243 23921.3512467677 + 0.361335566925 31221.1981435529 + 0.455326298199 38437.3290289532 + 0.549720744425 45454.7480624007 + 0.644521511397 52292.3897656676 + 0.721389782936 57692.5296561288 + 0.916586361476 70864.9121829636 + 1.096725823565 82375.4914064132 + 1.467110879352 104233.3431519837 + 1.810954000804 122480.9553773499 + 0.140224407149 8751.8184285708 + 0.284108860269 16607.5176877101 + 0.428546514470 23994.4589897675 + 0.573540568124 31056.2122228030 + 0.722264692737 38002.5769559820 + 0.871576497670 44715.3426724138 + 1.021479473293 51218.8853776379 + 1.175185702558 57662.1826238129 + 1.487709091243 70119.1365314633 + 1.806074547057 81993.9625190207 + 2.133686266797 93419.7890488144 + 2.640387662596 109608.8286162611 + 0.163518993740 9448.2989855061 + 0.330755332751 17729.0492169434 + 0.666589457640 32594.3214431978 + 1.010890267773 46200.4052204088 + 1.360445086087 58715.9312332312 + 1.722041651122 70498.8961591722 + 2.089116978133 81387.4040982286 + 2.465146732692 91518.0232428086 + 2.846854009979 100812.9982213318 + 3.237761017640 109353.2299079154 + 0.184017269619 5534.3903986010 + 0.372139310966 8987.3994707598 + 0.753385080406 14398.0360989014 + 1.143851996103 19193.5961597156 + 1.543658359832 23749.6134853243 + 1.952926141114 28144.8844593516 + 2.371781077026 32378.9778449784 + 2.804155258043 36453.1910533964 + 3.242597240653 40245.3705476555 + 4.157316912590 46898.0402701757 + 0.000000084257 0.0448030276 + 0.186600129626 7807.2474554155 + 0.375000148952 12797.6239187530 + 0.567000164278 16601.3190487238 + 0.760800177512 19598.8523928802 + 0.960000189674 22038.5977497654 + 1.161600200964 23991.4878015932 + 1.366200211658 25540.6403337969 + 1.575000221968 26743.5525967004 + 1.787400231964 27630.0864755501 diff --git a/mytest/salt_sc_101.sel b/mytest/salt_sc_101.sel index 3bb390cb..2b176d57 100644 --- a/mytest/salt_sc_101.sel +++ b/mytest/salt_sc_101.sel @@ -1,76 +1,76 @@ Mu SC - 0.067242968112 8002.2059117633 - 0.134734412116 15473.2984025096 - 0.203492115993 22814.5009570567 - 0.272514771146 29995.6036992415 - 0.343848314494 37263.0774241433 - 0.414445499838 44327.1745830612 - 0.485327132942 51307.9369130926 - 0.558564160396 58415.0517272068 - 0.704927166334 72329.9516747186 - 0.855695327572 86299.7856740014 - 1.008862623604 100144.6813951437 - 1.086498876136 107035.2348642314 - 0.085274504564 8229.7728915904 - 0.172815447083 15897.5167556854 - 0.259617486259 23114.3583435395 - 0.347706178216 30152.8369109194 - 0.438114846865 37132.0585059448 - 0.528827733737 43917.9238909093 - 0.619850432623 50529.5535760897 - 0.693717131404 55759.7012258011 - 0.881373572703 68539.5753694061 - 1.053733017675 79677.1064552583 - 1.407296446004 100854.4191062892 - 1.734892997813 118597.7039595897 - 0.135358661530 8473.2193131816 - 0.273977170797 16071.7545824953 - 0.412862453920 23208.4299381035 - 0.552023473126 30023.7550832476 - 0.694502516214 36721.4841460384 - 0.837284871197 43188.7110441077 - 0.980377469911 49450.0325556484 - 1.126841655058 55649.7686918026 - 1.423857429815 67628.3581582845 - 1.725387989874 79042.7890019870 - 2.034632392984 90028.2695781052 - 2.510951207302 105615.6473219838 - 0.156406850076 9075.6432690527 - 0.319117051770 17174.8995191395 - 0.642455222370 31580.6879797475 - 0.973192294744 44769.8764514133 - 1.308437873585 56917.4583807300 - 1.657523155073 68463.3290896600 - 2.008371395579 79063.6175998921 - 2.370372762781 89039.3497035990 - 2.734407014424 98153.6520907682 - 3.109979325214 106644.2845717749 - 0.091989164211 4432.0156081117 - 0.167393720872 7753.2659048776 - 0.310529660532 13556.4643985904 - 0.452306296347 18740.1697243416 - 0.595659650021 23459.7278666689 - 0.741870745299 27769.7860733896 - 0.890085760629 31655.1362283703 - 1.044062229965 35213.1342284014 - 1.200978508659 38376.5940348733 - 1.362807072436 41190.8112972383 - 1.529870627745 43660.5046207578 - 1.879168455496 47569.2776075732 - 2.252776987933 50173.3772596451 - 2.654712070764 51532.8413486715 - 3.085399623882 51721.0444462215 - 3.548935252243 50861.1760289565 - 4.049662411167 49105.2358167756 - 4.585808558780 46664.1573170461 - 5.163712927069 43731.1975448414 - 0.000000084272 0.0448299058 - 0.186600076458 8581.0154471588 - 0.375000074468 15185.6212965677 - 0.567000073352 21059.7300363077 - 0.760800072923 26444.3549319134 - 0.960000072859 31576.2031378422 - 1.161600073063 36454.3142931920 - 1.366200073657 41146.9098165043 - 1.575000074378 45715.2469603876 - 1.787400074682 50169.3129518883 + 0.067242968112 8002.2870182673 + 0.134734412116 15473.5207009842 + 0.203492115993 22814.9043707222 + 0.272514771146 29996.2184205440 + 0.343848314494 37263.9365506741 + 0.414445499838 44328.2982542360 + 0.485327132942 51309.3463746154 + 0.558564160396 58416.7756472627 + 0.704927166334 72332.3557552957 + 0.855695327572 86302.9531281740 + 1.008862623604 100148.6800940513 + 1.086498876136 107039.6737607159 + 0.085274504564 8229.9458132911 + 0.172815447083 15897.9889904820 + 0.259617486259 23115.1941144529 + 0.347706178216 30154.0897475436 + 0.438114846865 37133.7775891341 + 0.528827733737 43920.1409804559 + 0.619850432623 50532.2941208590 + 0.693717131404 55762.8803700650 + 0.881373572703 68543.9081293029 + 1.053733017675 79682.5284005967 + 1.407296446004 100862.0891469829 + 1.734892997813 118607.3965133881 + 0.135358661530 8473.7752206672 + 0.273977170797 16073.2280637408 + 0.412862453920 23210.9992507506 + 0.552023473126 30027.5385438360 + 0.694502516214 36726.5946151434 + 0.837284871197 43195.2114569051 + 0.980377469911 49457.9678437088 + 1.126841655058 55659.2013709215 + 1.423857429815 67640.8698275848 + 1.725387989874 79058.4239979206 + 2.034632392984 90047.0480560143 + 2.510951207302 105639.0523005016 + 0.156406850076 9076.3165901148 + 0.319117051770 17176.6686046188 + 0.642455222370 31585.0751319915 + 0.973192294744 44777.1728494455 + 1.308437873585 56927.7307152894 + 1.657523155073 68476.6116863664 + 2.008371395579 79079.7635578265 + 2.370372762781 89058.2319323203 + 2.734407014424 98175.0300283486 + 3.109979325214 106667.9448470001 + 0.091989164211 4432.1569840985 + 0.167393720872 7753.5997458919 + 0.310529660532 13557.2694124983 + 0.452306296347 18741.5136797398 + 0.595659650021 23461.6343864007 + 0.741870745299 27772.2453845758 + 0.890085760629 31658.1080460439 + 1.044062229965 35216.5709625694 + 1.200978508659 38380.4255059428 + 1.362807072436 41194.9643391391 + 1.529870627745 43664.9015163276 + 1.879168455496 47573.9252156025 + 2.252776987933 50177.9804789486 + 2.654712070764 51537.1486621466 + 3.085399623882 51724.8707895906 + 3.548935252243 50864.4114189307 + 4.049662411167 49107.8445411678 + 4.585808558780 46666.1737839166 + 5.163712927069 43732.6958271719 + 0.000000084272 0.0448299063 + 0.186600076458 8581.0154513987 + 0.375000074468 15185.6213023900 + 0.567000073352 21059.7300433049 + 0.760800072923 26444.3549398952 + 0.960000072859 31576.2031467032 + 1.161600073063 36454.3143028506 + 1.366200073657 41146.9098269305 + 1.575000074378 45715.2469715396 + 1.787400074682 50169.3129636468 diff --git a/mytest/samemodel_101.sel b/mytest/samemodel_101.sel index e0cbb057..3dfcc6dc 100644 --- a/mytest/samemodel_101.sel +++ b/mytest/samemodel_101.sel @@ -1,13 +1,13 @@ Mu SC 0.000000100661 0.0546997340 - 0.000003900693 1.5267846719 - 0.000003900693 1.5267846719 - 0.000012352848 4.8310701627 - 0.000039174182 15.2928425280 + 0.000003900693 1.5267846724 + 0.000003900693 1.5267846724 + 0.000012352848 4.8310701655 + 0.000039174182 15.2928425434 0.000000100661 0.0546997700 - 0.000003900693 1.5267845497 - 0.000012352848 4.8310700389 - 0.000039174182 15.2928424043 + 0.000003900693 1.5267845502 + 0.000012352848 4.8310700416 + 0.000039174182 15.2928424197 0.000000100686 0.0547010456 0.000000100650 0.0546923836 0.000000101053 0.0547880047 diff --git a/mytest/sar.dmp b/mytest/sar.dmp index 856dbc6c..d9494183 100644 --- a/mytest/sar.dmp +++ b/mytest/sar.dmp @@ -7,6 +7,7 @@ SOLUTION_RAW 1 Solution after simulation 6. -cb 0.00012677966383095 -density 0.99765606723292 -viscosity 1.3059056246007 + -viscos_0 1.3059056246007 -totals As_five 9.1873546741726e-07 As_three 1.3746390603556e-05 diff --git a/mytest/sar.out b/mytest/sar.out index 34ce4d37..520f7361 100644 --- a/mytest/sar.out +++ b/mytest/sar.out @@ -949,6 +949,7 @@ Reading input data for simulation 9. -cb 0.00012677966383095 -density 0.99765606723292 -viscosity 1.3059056246007 + -viscos_0 1.3059056246007 -totals As_five 9.1873546741726e-07 As_three 1.3746390603556e-05 diff --git a/mytest/saver.out b/mytest/saver.out index 7b6375c0..f6fa1386 100644 --- a/mytest/saver.out +++ b/mytest/saver.out @@ -1133,10 +1133,10 @@ X 3.000e+00 mol pH = 5.623 Charge balance pe = -1.963 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 134357 + Specific Conductance (µS/cm, 35°C) = 134317 Density (g/cm³) = 1.05811 Volume (L) = 1.02160 - Viscosity (mPa s) = 0.90578 + Viscosity (mPa s) = 0.90611 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.083e+00 Mass of water (kg) = 9.923e-01 @@ -2089,10 +2089,10 @@ X 3.000e+00 mol pH = 5.623 Charge balance pe = -1.963 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 134357 + Specific Conductance (µS/cm, 35°C) = 134317 Density (g/cm³) = 1.05811 Volume (L) = 1.02160 - Viscosity (mPa s) = 0.90578 + Viscosity (mPa s) = 0.90611 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.083e+00 Mass of water (kg) = 9.923e-01 @@ -2559,10 +2559,10 @@ X 3.000e+00 mol pH = 5.623 Charge balance pe = -1.963 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 134357 + Specific Conductance (µS/cm, 35°C) = 134317 Density (g/cm³) = 1.05811 Volume (L) = 1.02160 - Viscosity (mPa s) = 0.90578 + Viscosity (mPa s) = 0.90611 Activity of water = 0.954 Ionic strength (mol/kgw) = 2.083e+00 Mass of water (kg) = 9.923e-01 diff --git a/mytest/saver_101.sel b/mytest/saver_101.sel index 84baacf6..9bac56ea 100644 --- a/mytest/saver_101.sel +++ b/mytest/saver_101.sel @@ -1,8 +1,8 @@ Mu SC - 0.671228159633 52901.4474035112 - 0.671228159633 52901.4474035112 - 1.396394877341 85125.3439917529 - 2.083235515104 134357.8774263212 - 1.396394877341 85125.3439917519 - 2.083235515104 134357.8774263212 - 2.083235515104 134357.8774263212 + 0.671228159633 52901.4528817869 + 0.671228159633 52901.4528817869 + 1.396394877341 85125.3599107344 + 2.083235515104 134317.7147133759 + 1.396394877341 85125.3599107335 + 2.083235515104 134317.7147133759 + 2.083235515104 134317.7147133759 diff --git a/mytest/sc1.out b/mytest/sc1.out index 9504f676..0922b111 100644 --- a/mytest/sc1.out +++ b/mytest/sc1.out @@ -184,7 +184,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-02 kg, 5.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.065e-01 V. @@ -223,7 +223,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 94.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.552e-04 V. @@ -271,7 +271,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-02 kg, 5.7% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 9.226e-04 V. @@ -312,7 +312,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 94.3% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -0.000e+00 V. @@ -508,7 +508,7 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-02 kg, 5.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.065e-01 V. @@ -547,7 +547,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 94.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.553e-04 V. @@ -812,7 +812,7 @@ Hfo 6.000e-28 m² for 1.000e-30 g Water in diffuse layer: 6.000e-32 kg, 0.0% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.120e-02 V. @@ -853,7 +853,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -0.000e+00 V. @@ -949,7 +949,7 @@ Mixture 2. Diffuse Double Layer Surface-Complexation Model Hfo - -1.530e-19 Surface + diffuse layer charge, eq + -1.533e-19 Surface + diffuse layer charge, eq 3.829e-07 Surface charge, eq 6.158e-05 sigma, C/m² 6.564e-02 psi, V @@ -959,16 +959,16 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.065e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.586e-02 (= c_DL / c_free if z is +1). Element Moles - Cl 9.4053e-21 + Cl 9.0129e-21 H 3.8309e-07 - Na 1.1300e-23 + Na 1.0829e-23 O 3.8300e-07 Hfo_s @@ -993,8 +993,8 @@ Hfo_w Elements Molality Moles - Cl 2.486e-21 2.486e-21 - Na 1.187e-20 1.187e-20 + Cl 2.383e-21 2.383e-21 + Na 1.138e-20 1.138e-20 ----------------------------Description of solution---------------------------- @@ -1023,13 +1023,13 @@ Hfo_w OH- 1.013e-07 1.012e-07 -6.995 -6.995 -0.000 -4.14 H+ 1.000e-07 1.000e-07 -7.000 -7.000 -0.000 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 2.486e-21 - Cl- 2.486e-21 2.486e-21 -20.604 -20.605 -0.000 18.05 - HCl 8.562e-29 8.562e-29 -28.067 -28.067 0.000 (0) +Cl 2.383e-21 + Cl- 2.383e-21 2.382e-21 -20.623 -20.623 -0.000 18.05 + HCl 8.205e-29 8.205e-29 -28.086 -28.086 0.000 (0) H(0) 1.935e-14 H2 9.676e-15 9.676e-15 -14.014 -14.014 0.000 28.61 -Na 1.187e-20 - Na+ 1.187e-20 1.187e-20 -19.925 -19.926 -0.000 -1.52 +Na 1.138e-20 + Na+ 1.138e-20 1.137e-20 -19.944 -19.944 -0.000 -1.52 O(0) 0.000e+00 O2 0.000e+00 0.000e+00 -64.351 -64.351 0.000 30.40 @@ -1039,7 +1039,7 @@ O(0) 0.000e+00 H2(g) -10.91 -14.01 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -42.10 -40.53 1.57 NaCl + Halite -42.14 -40.57 1.57 NaCl O2(g) -61.46 -64.35 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. @@ -1182,7 +1182,7 @@ Hfo 6.000e-58 m² for 1.000e-60 g Water in diffuse layer: 6.000e-62 kg, 0.0% of total DDL-water. - viscosity: 0.89022 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 9.235e-03 V. @@ -1223,7 +1223,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e+00 kg, 100.0% of total DDL-water. - viscosity: 0.89022 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -9.128e-11 V. @@ -1329,7 +1329,7 @@ Hfo 6.000e-28 m² for 1.000e-30 g Water in diffuse layer: 6.000e-32 kg, 100.0% of total DDL-water. - viscosity: 0.89018 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.120e-02 V. @@ -1423,7 +1423,7 @@ Using surface 3. Surface defined in simulation 2. Diffuse Double Layer Surface-Complexation Model Hfo - -5.534e-19 Surface + diffuse layer charge, eq + -5.261e-19 Surface + diffuse layer charge, eq 3.829e-07 Surface charge, eq 6.158e-05 sigma, C/m² 6.564e-02 psi, V @@ -1433,16 +1433,16 @@ Hfo 6.000e+02 m² for 1.000e+00 g Water in diffuse layer: 6.000e-02 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.065e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.586e-02 (= c_DL / c_free if z is +1). Element Moles - Cl 7.4387e-21 + Cl 7.1283e-21 H 3.8309e-07 - Na 1.1132e-26 + Na 1.0667e-26 O 3.8300e-07 Hfo_s @@ -1467,8 +1467,8 @@ Hfo_w Elements Molality Moles - Cl 1.967e-21 1.967e-21 - Na 1.170e-23 1.170e-23 + Cl 1.885e-21 1.885e-21 + Na 1.121e-23 1.121e-23 ----------------------------Description of solution---------------------------- @@ -1497,13 +1497,13 @@ Hfo_w OH- 1.013e-07 1.012e-07 -6.995 -6.995 -0.000 -4.14 H+ 1.000e-07 1.000e-07 -7.000 -7.000 -0.000 0.00 H2O 5.551e+01 1.000e+00 1.744 -0.000 0.000 18.07 -Cl 1.967e-21 - Cl- 1.967e-21 1.966e-21 -20.706 -20.706 -0.000 18.05 - HCl 6.772e-29 6.772e-29 -28.169 -28.169 0.000 (0) +Cl 1.885e-21 + Cl- 1.885e-21 1.884e-21 -20.725 -20.725 -0.000 18.05 + HCl 6.489e-29 6.489e-29 -28.188 -28.188 0.000 (0) H(0) 0.000e+00 H2 0.000e+00 0.000e+00 -40.520 -40.520 0.000 28.61 -Na 1.170e-23 - Na+ 1.170e-23 1.169e-23 -22.932 -22.932 -0.000 -1.52 +Na 1.121e-23 + Na+ 1.121e-23 1.120e-23 -22.950 -22.951 -0.000 -1.52 O(0) 9.145e-12 O2 4.572e-12 4.572e-12 -11.340 -11.340 0.000 30.40 @@ -1513,7 +1513,7 @@ O(0) 9.145e-12 H2(g) -37.42 -40.52 -3.10 H2 H2O(g) -1.50 -0.00 1.50 H2O - Halite -45.21 -43.64 1.57 NaCl + Halite -45.25 -43.68 1.57 NaCl O2(g) -8.45 -11.34 -2.89 O2 **For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm. diff --git a/mytest/sc1.prn b/mytest/sc1.prn index fa5a902c..73e8461a 100644 --- a/mytest/sc1.prn +++ b/mytest/sc1.prn @@ -5,9 +5,9 @@ 2.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 5.0000e-01 5.0000e-01 1.0000e+00 1.0000e+00 1.0000e-22 1.0000e-22 - 1.5000e+00 2.4865e-18 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 + 1.5000e+00 2.3827e-18 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 2.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 5.0000e-01 7.5000e-01 1.0000e+00 1.0000e+00 1.0000e-22 1.0000e-22 1.5000e+00 5.0000e-01 0.0000e+00 0.0000e+00 1.0000e-22 1.0000e-22 - 2.0000e+00 1.9666e-18 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 + 2.0000e+00 1.8845e-18 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 diff --git a/mytest/sc1_101.sel b/mytest/sc1_101.sel index 5b0280fd..7728a603 100644 --- a/mytest/sc1_101.sel +++ b/mytest/sc1_101.sel @@ -1,17 +1,17 @@ Mu SC - 0.001000103455 122.9170042359 + 0.001000103455 122.9170046997 0.000000100661 0.0546997340 0.000000100645 0.0546914008 - 0.000485946492 60.2158796047 - 0.001000103455 122.9170042352 + 0.000485946492 60.2158797625 + 0.001000103455 122.9170046991 0.000000100645 0.0546913856 0.000000100645 0.0546913856 0.000000100645 0.0546913856 - 0.001000103455 122.9170042363 - 0.000500102802 61.8694130177 + 0.001000103455 122.9170047001 + 0.000500102802 61.8694131828 0.000000100645 0.0546913744 0.000000100645 0.0546913856 - 0.001000103455 122.9170042363 - 0.000750103175 92.4626761359 - 0.000500102802 61.8694130177 + 0.001000103455 122.9170047001 + 0.000750103175 92.4626764381 + 0.000500102802 61.8694131828 0.000000100645 0.0546913856 diff --git a/mytest/sc2.out b/mytest/sc2.out index 7faa0ea8..ee6ee618 100644 --- a/mytest/sc2.out +++ b/mytest/sc2.out @@ -257,7 +257,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. @@ -311,7 +311,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. diff --git a/mytest/sc3.out b/mytest/sc3.out index 9b06f428..69365d04 100644 --- a/mytest/sc3.out +++ b/mytest/sc3.out @@ -202,7 +202,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. diff --git a/mytest/sc4.out b/mytest/sc4.out index 59c6cdcb..cca35d43 100644 --- a/mytest/sc4.out +++ b/mytest/sc4.out @@ -256,7 +256,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. diff --git a/mytest/sc5.out b/mytest/sc5.out index 4fa2bd1a..e6436615 100644 --- a/mytest/sc5.out +++ b/mytest/sc5.out @@ -363,7 +363,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. @@ -413,7 +413,7 @@ Su 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-10 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.876e-10 V. diff --git a/mytest/sc5_101.sel b/mytest/sc5_101.sel index aac7cde1..db5abb60 100644 --- a/mytest/sc5_101.sel +++ b/mytest/sc5_101.sel @@ -29,5 +29,5 @@ 0.000137280754 0.0553327642 0.000129892502 0.0552719255 0.000011590958 0.0549560194 - 0.000009220450 0.0549324634 + 0.000009220450 0.0549324635 0.000017931739 0.0550347251 diff --git a/mytest/sc6.out b/mytest/sc6.out index a600acc1..8f2b2a24 100644 --- a/mytest/sc6.out +++ b/mytest/sc6.out @@ -243,7 +243,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -287,7 +287,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -318,7 +318,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -362,7 +362,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -406,7 +406,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -437,7 +437,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -549,7 +549,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -593,7 +593,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -624,7 +624,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -679,7 +679,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -723,7 +723,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -754,7 +754,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -793,7 +793,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -837,7 +837,7 @@ Sua 9.997e+03 m² for 9.997e-01 g Water in diffuse layer: 9.997e-06 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -868,7 +868,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -907,7 +907,7 @@ Hfo 1.584e-05 m² for 2.640e-08 g Water in diffuse layer: 1.584e-14 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.846e-01 V. @@ -941,17 +941,17 @@ Hfo_w Hfo_wOCa+ 7.373e-20 0.000 7.373e-20 -19.132 Sua - -7.396e-31 Surface + diffuse layer charge, eq + -4.930e-31 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 1.487e-23 psi, V - -5.788e-22 -F*psi/RT + 1.257e-23 psi, V + -4.891e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.000e+00 m² for 3.000e-04 g Water in diffuse layer: 3.000e-09 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.923e-05 V. @@ -972,17 +972,17 @@ Sua Sua 3.000e-07 1.000 3.000e-07 -6.523 Sub - -1.156e-33 Surface + diffuse layer charge, eq + -1.107e-33 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 2.510e-23 psi, V - -9.770e-22 -F*psi/RT + 1.921e-23 psi, V + -7.478e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.000e-03 m² for 3.000e-07 g Water in diffuse layer: 3.000e-12 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.923e-05 V. @@ -1029,7 +1029,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1073,7 +1073,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1104,7 +1104,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1143,7 +1143,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1187,7 +1187,7 @@ Sorbedhfo 2.640e+01 m² for 4.400e-02 g Water in diffuse layer: 2.640e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1231,7 +1231,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1262,7 +1262,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1301,7 +1301,7 @@ Hfo 2.640e+01 m² for 4.400e-02 g Water in diffuse layer: 2.640e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1345,7 +1345,7 @@ Sorbedhfo 7.920e-06 m² for 1.320e-08 g Water in diffuse layer: 7.920e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1389,7 +1389,7 @@ Sua 9.994e+03 m² for 9.994e-01 g Water in diffuse layer: 9.994e-06 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -1420,7 +1420,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -1459,7 +1459,7 @@ Hfo 1.584e-05 m² for 2.640e-08 g Water in diffuse layer: 1.584e-14 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.774e-01 V. @@ -1503,7 +1503,7 @@ Sua 5.998e+00 m² for 5.998e-04 g Water in diffuse layer: 5.998e-09 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.262e-05 V. @@ -1534,7 +1534,7 @@ Sub 6.000e-03 m² for 6.000e-07 g Water in diffuse layer: 6.000e-12 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.262e-05 V. @@ -1577,7 +1577,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1621,7 +1621,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1652,7 +1652,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1691,7 +1691,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1735,7 +1735,7 @@ Sorbedhfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1779,7 +1779,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1810,7 +1810,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1849,7 +1849,7 @@ Hfo 2.640e+01 m² for 4.400e-02 g Water in diffuse layer: 2.640e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1893,7 +1893,7 @@ Sorbedhfo 1.320e+01 m² for 2.200e-02 g Water in diffuse layer: 1.320e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1937,7 +1937,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1968,7 +1968,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -2007,7 +2007,7 @@ Hfo 1.320e+01 m² for 2.200e-02 g Water in diffuse layer: 1.320e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -2041,7 +2041,7 @@ Hfo_w Hfo_wOCa+ 2.078e-10 0.000 2.078e-10 -9.682 Sorbedhfo - -6.737e-22 Surface + diffuse layer charge, eq + -6.738e-22 Surface + diffuse layer charge, eq 5.004e-13 Surface charge, eq 6.096e-03 sigma, C/m² 6.531e-02 psi, V @@ -2051,7 +2051,7 @@ Sorbedhfo 7.920e-06 m² for 1.320e-08 g Water in diffuse layer: 7.920e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -2095,7 +2095,7 @@ Sua 9.994e+03 m² for 9.994e-01 g Water in diffuse layer: 9.994e-06 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -2126,7 +2126,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.563e-05 V. @@ -2155,7 +2155,7 @@ Adapting surface in 4 Diffuse Double Layer Surface-Complexation Model Hfo - 3.986e-22 Surface + diffuse layer charge, eq + 3.987e-22 Surface + diffuse layer charge, eq 5.056e-15 Surface charge, eq 6.160e-05 sigma, C/m² 6.566e-02 psi, V @@ -2165,7 +2165,7 @@ Hfo 7.920e-06 m² for 1.320e-08 g Water in diffuse layer: 7.920e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.022e-01 V. @@ -2202,14 +2202,14 @@ Sua 7.889e-31 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.023e-23 psi, V - 7.873e-22 -F*psi/RT + -1.765e-23 psi, V + 6.871e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.998e+00 m² for 5.998e-04 g Water in diffuse layer: 5.998e-09 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.564e-04 V. @@ -2233,14 +2233,14 @@ Sub 8.667e-34 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.608e-23 psi, V - 6.259e-22 -F*psi/RT + -1.914e-23 psi, V + 7.448e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 6.000e-03 m² for 6.000e-07 g Water in diffuse layer: 6.000e-12 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.564e-04 V. diff --git a/mytest/sc6a.out b/mytest/sc6a.out index 4866fb51..e67ce8dc 100644 --- a/mytest/sc6a.out +++ b/mytest/sc6a.out @@ -243,7 +243,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -287,7 +287,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -318,7 +318,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -362,7 +362,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -406,7 +406,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -437,7 +437,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -549,7 +549,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -593,7 +593,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -624,7 +624,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -690,7 +690,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -734,7 +734,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -765,7 +765,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -804,7 +804,7 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.007e-01 V. @@ -848,7 +848,7 @@ Sua 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 33.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.123e-05 V. @@ -879,7 +879,7 @@ Sub 9.995e+03 m² for 9.995e-01 g Water in diffuse layer: 9.995e-06 kg, 66.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.123e-05 V. @@ -918,7 +918,7 @@ Hfo 1.583e-05 m² for 2.639e-08 g Water in diffuse layer: 1.583e-14 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. @@ -962,7 +962,7 @@ Sua 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 99.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.360e-05 V. @@ -993,7 +993,7 @@ Sub 2.999e-03 m² for 2.999e-07 g Water in diffuse layer: 2.999e-12 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.360e-05 V. @@ -1040,7 +1040,7 @@ Hfo 2.640e-02 m² for 4.400e-05 g Water in diffuse layer: 2.640e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.933e-01 V. @@ -1074,17 +1074,17 @@ Hfo_w Hfo_wOCa+ 1.960e-13 0.000 1.960e-13 -12.708 Sua - -6.312e-21 Surface + diffuse layer charge, eq + -6.310e-21 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.770e-19 psi, V - 1.467e-17 -F*psi/RT + -3.773e-19 psi, V + 1.469e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.143e-08 V. @@ -1105,17 +1105,17 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - -7.312e-24 Surface + diffuse layer charge, eq + -7.310e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 3.529e-23 psi, V - -1.374e-21 -F*psi/RT + -1.243e-22 psi, V + 4.840e-21 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.000e+00 m² for 5.000e-04 g Water in diffuse layer: 5.000e-09 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.143e-08 V. @@ -1154,14 +1154,14 @@ Hfo 7.920e-09 m² for 1.320e-11 g Water in diffuse layer: 7.920e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.494e-07 (= c_DL / c_free if z is +1). Element Moles - Ca 5.6460e-40 + Ca 5.6478e-40 Cl 4.7682e-18 H 3.2158e-18 Na 2.9594e-31 @@ -1191,14 +1191,14 @@ Sua -1.838e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.329e-23 psi, V - 9.064e-22 -F*psi/RT + 1.452e-23 psi, V + -5.653e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.273e-05 V. @@ -1222,14 +1222,14 @@ Sub -1.838e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.858e-23 psi, V - 7.233e-22 -F*psi/RT + 1.169e-23 psi, V + -4.550e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-06 m² for 1.500e-10 g Water in diffuse layer: 1.500e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.273e-05 V. @@ -1272,7 +1272,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1316,7 +1316,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1347,7 +1347,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1376,7 +1376,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -6.612e-14 Surface + diffuse layer charge, eq + -6.504e-14 Surface + diffuse layer charge, eq 3.303e-06 Surface charge, eq 6.040e-03 sigma, C/m² 7.131e-02 psi, V @@ -1386,17 +1386,17 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.911e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.198e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 6.3999e-24 + Ca 6.4002e-24 Cl 3.3030e-06 H 3.6419e-10 - Na 4.7404e-16 + Na 4.7405e-16 O 3.6419e-10 Hfo_s @@ -1420,7 +1420,7 @@ Hfo_w Hfo_wOCa+ 3.959e-10 0.000 3.959e-10 -9.402 Sorbedhfo - -3.306e-14 Surface + diffuse layer charge, eq + -3.252e-14 Surface + diffuse layer charge, eq 1.652e-06 Surface charge, eq 6.040e-03 sigma, C/m² 7.131e-02 psi, V @@ -1430,17 +1430,17 @@ Sorbedhfo 2.639e+01 m² for 4.398e-02 g Water in diffuse layer: 2.639e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.911e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.198e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 3.2000e-24 + Ca 3.2001e-24 Cl 1.6515e-06 H 1.8209e-10 - Na 2.3702e-16 + Na 2.3703e-16 O 1.8209e-10 Sorbedhfo_s @@ -1464,27 +1464,27 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.979e-10 0.000 1.979e-10 -9.703 Sua - 1.714e-17 Surface + diffuse layer charge, eq + 1.670e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -5.282e-15 psi, V - 2.056e-13 -F*psi/RT + -5.149e-15 psi, V + 2.004e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 16.6% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = 3.417e-05 V. + Donnan Layer potential, psi_DL = 3.416e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.987e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 3.7867e-12 - Cl 3.7519e-09 + Ca 3.7868e-12 + Cl 3.7520e-09 H 1.0728e-12 - Na 3.7441e-09 + Na 3.7442e-09 O 4.1826e-13 Sua @@ -1495,24 +1495,24 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 8.568e-17 Surface + diffuse layer charge, eq + 8.352e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -5.282e-15 psi, V - 2.056e-13 -F*psi/RT + -5.149e-15 psi, V + 2.004e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 2.499e+04 m² for 2.499e+00 g Water in diffuse layer: 2.499e-05 kg, 83.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = 3.417e-05 V. + Donnan Layer potential, psi_DL = 3.416e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.987e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 1.8933e-11 + Ca 1.8934e-11 Cl 1.8760e-08 H 5.3639e-12 Na 1.8721e-08 @@ -1534,7 +1534,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -1.025e-15 Surface + diffuse layer charge, eq + -1.039e-15 Surface + diffuse layer charge, eq 1.153e-06 Surface charge, eq 4.219e-03 sigma, C/m² 8.006e-02 psi, V @@ -1544,7 +1544,7 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 89.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.102e-01 V. @@ -1578,7 +1578,7 @@ Hfo_w Hfo_wOCa+ 3.438e-11 0.000 3.438e-11 -10.464 Sorbedhfo - -3.076e-22 Surface + diffuse layer charge, eq + -3.120e-22 Surface + diffuse layer charge, eq 3.461e-13 Surface charge, eq 4.219e-03 sigma, C/m² 8.006e-02 psi, V @@ -1588,7 +1588,7 @@ Sorbedhfo 7.916e-06 m² for 1.319e-08 g Water in diffuse layer: 7.916e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.102e-01 V. @@ -1622,17 +1622,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.032e-17 0.000 1.032e-17 -16.986 Sua - 9.468e-22 Surface + diffuse layer charge, eq + 8.451e-22 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.672e-15 psi, V - 6.507e-14 -F*psi/RT + -1.491e-15 psi, V + 5.805e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 5.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.023e-04 V. @@ -1643,7 +1643,7 @@ Sua Cl 3.7597e-13 H 3.5948e-16 Na 3.7501e-13 - O 8.9074e-17 + O 8.9077e-17 Sua 1.500e-07 moles @@ -1653,17 +1653,17 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 9.487e-22 Surface + diffuse layer charge, eq + 8.468e-22 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.672e-15 psi, V - 6.507e-14 -F*psi/RT + -1.491e-15 psi, V + 5.805e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.503e+00 m² for 1.503e-04 g Water in diffuse layer: 1.503e-09 kg, 5.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.023e-04 V. @@ -1672,9 +1672,9 @@ Sub Element Moles Ca 3.8751e-16 Cl 3.7671e-13 - H 3.6019e-16 + H 3.6020e-16 Na 3.7576e-13 - O 8.9250e-17 + O 8.9253e-17 Sub 1.503e-07 moles @@ -1702,7 +1702,7 @@ Hfo 1.582e-05 m² for 2.637e-08 g Water in diffuse layer: 1.582e-14 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. @@ -1746,7 +1746,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.782e-05 V. @@ -1779,7 +1779,7 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 8.893e-21 Surface + diffuse layer charge, eq + 9.849e-21 Surface + diffuse layer charge, eq 2.077e-09 Surface charge, eq 5.062e-03 sigma, C/m² 6.346e-02 psi, V @@ -1789,18 +1789,18 @@ Hfo 3.959e-02 m² for 6.599e-05 g Water in diffuse layer: 3.959e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.866e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.431e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 6.8511e-27 - Cl 2.0767e-09 - H 3.1102e-13 - Na 4.2448e-19 - O 3.1102e-13 + Ca 6.8515e-27 + Cl 2.0766e-09 + H 3.1103e-13 + Na 4.2449e-19 + O 3.1103e-13 Hfo_s 1.875e-08 moles @@ -1810,7 +1810,7 @@ Hfo_s Hfo_sOH 1.438e-08 0.767 1.438e-08 -7.842 Hfo_sOH2+ 2.203e-09 0.118 2.203e-09 -8.657 Hfo_sO- 2.152e-09 0.115 2.152e-09 -8.667 - Hfo_sOHCa+2 7.186e-12 0.000 7.186e-12 -11.143 + Hfo_sOHCa+2 7.187e-12 0.000 7.187e-12 -11.143 Hfo_w 7.311e-07 moles @@ -1820,10 +1820,10 @@ Hfo_w Hfo_wOH 5.612e-07 0.768 5.612e-07 -6.251 Hfo_wOH2+ 8.595e-08 0.118 8.595e-08 -7.066 Hfo_wO- 8.394e-08 0.115 8.394e-08 -7.076 - Hfo_wOCa+ 5.402e-13 0.000 5.402e-13 -12.267 + Hfo_wOCa+ 5.403e-13 0.000 5.403e-13 -12.267 Sorbedhfo - 2.941e-21 Surface + diffuse layer charge, eq + 2.958e-21 Surface + diffuse layer charge, eq 6.924e-10 Surface charge, eq 5.062e-03 sigma, C/m² 6.346e-02 psi, V @@ -1833,18 +1833,18 @@ Sorbedhfo 1.320e-02 m² for 2.200e-05 g Water in diffuse layer: 1.320e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.866e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.431e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 2.2841e-27 - Cl 6.9235e-10 - H 1.0369e-13 + Ca 2.2842e-27 + Cl 6.9231e-10 + H 1.0370e-13 Na 1.4152e-19 - O 1.0369e-13 + O 1.0370e-13 Sorbedhfo_s 6.250e-09 moles @@ -1854,7 +1854,7 @@ Sorbedhfo_s Sorbedhfo_sOH 4.796e-09 0.767 4.796e-09 -8.319 Sorbedhfo_sOH2+ 7.345e-10 0.118 7.345e-10 -9.134 Sorbedhfo_sO- 7.173e-10 0.115 7.173e-10 -9.144 - Sorbedhfo_sOHCa+2 2.396e-12 0.000 2.396e-12 -11.621 + Sorbedhfo_sOHCa+2 2.396e-12 0.000 2.396e-12 -11.620 Sorbedhfo_w 2.437e-07 moles @@ -1867,28 +1867,28 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.801e-13 0.000 1.801e-13 -12.744 Sua - 1.062e-23 Surface + diffuse layer charge, eq + 2.707e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.876e-21 psi, V - 1.119e-19 -F*psi/RT + -2.624e-21 psi, V + 1.022e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.095e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 3.7413e-12 - Cl 3.7520e-09 + Ca 3.7412e-12 + Cl 3.7519e-09 H 1.0494e-12 - Na 3.7446e-09 - O 5.6648e-13 + Na 3.7445e-09 + O 5.6652e-13 Sua 4.998e-04 moles @@ -1898,28 +1898,28 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 1.149e-23 Surface + diffuse layer charge, eq + 5.691e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.289e-21 psi, V - 1.280e-19 -F*psi/RT + -2.806e-21 psi, V + 1.092e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.003e+03 m² for 5.003e-01 g Water in diffuse layer: 5.003e-06 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.095e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 3.7451e-12 + Ca 3.7450e-12 Cl 3.7557e-09 H 1.0505e-12 Na 3.7483e-09 - O 5.6705e-13 + O 5.6709e-13 Sub 5.003e-04 moles @@ -1947,7 +1947,7 @@ Hfo 1.319e-02 m² for 2.199e-05 g Water in diffuse layer: 1.319e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.242e-01 V. @@ -1991,7 +1991,7 @@ Sorbedhfo 3.960e-09 m² for 6.600e-12 g Water in diffuse layer: 3.960e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.242e-01 V. @@ -2035,7 +2035,7 @@ Sua 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.277e-08 V. @@ -2046,7 +2046,7 @@ Sua Cl 3.7581e-13 H 8.0380e-16 Na 3.7430e-13 - O 3.2016e-17 + O 3.2014e-17 Sua 1.500e-07 moles @@ -2060,13 +2060,13 @@ Sub 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² -1.114e-18 psi, V - 4.337e-17 -F*psi/RT + 4.336e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.277e-08 V. @@ -2077,7 +2077,7 @@ Sub Cl 3.7580e-13 H 8.0379e-16 Na 3.7429e-13 - O 3.2015e-17 + O 3.2013e-17 Sub 1.500e-07 moles @@ -2105,14 +2105,14 @@ Hfo 7.916e-09 m² for 1.319e-11 g Water in diffuse layer: 7.916e-18 kg, 34.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.492e-07 (= c_DL / c_free if z is +1). Element Moles - Ca 5.7024e-40 + Ca 5.7042e-40 Cl 4.7736e-18 H 3.2125e-18 Na 2.9521e-31 @@ -2142,14 +2142,14 @@ Sua -1.838e-26 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.872e-23 psi, V - 7.288e-22 -F*psi/RT + 4.099e-24 psi, V + -1.596e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 65.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.274e-05 V. @@ -2188,7 +2188,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -2232,7 +2232,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -2263,7 +2263,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -2292,9 +2292,9 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -1.426e-12 Surface + diffuse layer charge, eq + -2.061e-13 Surface + diffuse layer charge, eq 3.291e-06 Surface charge, eq - 6.018e-03 sigma, C/m² + 6.017e-03 sigma, C/m² 6.767e-02 psi, V -2.634e+00 -F*psi/RT 7.178e-02 exp(-F*psi/RT) @@ -2302,17 +2302,17 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.871e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.403e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 1.0176e-23 + Ca 1.0177e-23 Cl 3.2907e-06 H 3.5903e-10 - Na 6.4780e-16 + Na 6.4781e-16 O 3.5903e-10 Hfo_s @@ -2336,9 +2336,9 @@ Hfo_w Hfo_wOCa+ 6.096e-10 0.000 6.096e-10 -9.215 Sorbedhfo - -1.426e-12 Surface + diffuse layer charge, eq + -2.061e-13 Surface + diffuse layer charge, eq 3.291e-06 Surface charge, eq - 6.018e-03 sigma, C/m² + 6.017e-03 sigma, C/m² 6.767e-02 psi, V -2.634e+00 -F*psi/RT 7.178e-02 exp(-F*psi/RT) @@ -2346,17 +2346,17 @@ Sorbedhfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.871e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.403e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 1.0176e-23 + Ca 1.0177e-23 Cl 3.2907e-06 H 3.5903e-10 - Na 6.4780e-16 + Na 6.4781e-16 O 3.5903e-10 Sorbedhfo_s @@ -2380,17 +2380,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 6.096e-10 0.000 6.096e-10 -9.215 Sua - 1.958e-16 Surface + diffuse layer charge, eq + 3.520e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -5.594e-14 psi, V - 2.178e-12 -F*psi/RT + -1.005e-14 psi, V + 3.910e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 11.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.928e-05 V. @@ -2398,10 +2398,10 @@ Sua Element Moles Ca 4.3962e-12 - Cl 4.3777e-09 - H 1.0523e-12 - Na 4.3688e-09 - O 4.8217e-13 + Cl 4.3778e-09 + H 1.0522e-12 + Na 4.3689e-09 + O 4.8213e-13 Sua 4.999e-04 moles @@ -2411,17 +2411,17 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 1.566e-15 Surface + diffuse layer charge, eq + 2.816e-16 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -5.594e-14 psi, V - 2.178e-12 -F*psi/RT + -1.005e-14 psi, V + 3.910e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.999e+04 m² for 3.999e+00 g Water in diffuse layer: 3.999e-05 kg, 88.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.928e-05 V. @@ -2430,9 +2430,9 @@ Sub Element Moles Ca 3.5172e-11 Cl 3.5024e-08 - H 8.4187e-12 + H 8.4179e-12 Na 3.4953e-08 - O 3.8576e-12 + O 3.8573e-12 Sub 3.999e-03 moles @@ -2450,7 +2450,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -5.601e-13 Surface + diffuse layer charge, eq + -5.600e-13 Surface + diffuse layer charge, eq 2.686e-06 Surface charge, eq 9.828e-03 sigma, C/m² 1.044e-01 psi, V @@ -2460,17 +2460,17 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 59.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.141e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 4.898e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 3.4856e-25 + Ca 3.4857e-25 Cl 2.6860e-06 H 1.2118e-10 - Na 6.4507e-17 + Na 6.4509e-17 O 1.2118e-10 Hfo_s @@ -2491,10 +2491,10 @@ Hfo_w Hfo_wOH 3.738e-04 0.768 3.738e-04 -3.427 Hfo_wOH2+ 5.790e-05 0.119 5.790e-05 -4.237 Hfo_wO- 5.529e-05 0.114 5.529e-05 -4.257 - Hfo_wOCa+ 1.009e-11 0.000 1.009e-11 -10.996 + Hfo_wOCa+ 1.010e-11 0.000 1.010e-11 -10.996 Sorbedhfo - -2.801e-13 Surface + diffuse layer charge, eq + -2.800e-13 Surface + diffuse layer charge, eq 1.343e-06 Surface charge, eq 9.828e-03 sigma, C/m² 1.044e-01 psi, V @@ -2504,14 +2504,14 @@ Sorbedhfo 1.319e+01 m² for 2.198e-02 g Water in diffuse layer: 1.319e-08 kg, 29.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.141e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 4.898e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 1.7428e-25 + Ca 1.7429e-25 Cl 1.3430e-06 H 6.0592e-11 Na 3.2254e-17 @@ -2535,31 +2535,31 @@ Sorbedhfo_w Sorbedhfo_wOH 1.869e-04 0.768 1.869e-04 -3.728 Sorbedhfo_wOH2+ 2.895e-05 0.119 2.895e-05 -4.538 Sorbedhfo_wO- 2.764e-05 0.114 2.764e-05 -4.558 - Sorbedhfo_wOCa+ 5.047e-12 0.000 5.047e-12 -11.297 + Sorbedhfo_wOCa+ 5.048e-12 0.000 5.048e-12 -11.297 Sua - 6.073e-19 Surface + diffuse layer charge, eq + 5.537e-19 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.653e-13 psi, V - 2.979e-11 -F*psi/RT + -6.978e-13 psi, V + 2.716e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 3.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.130e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.980e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 7.6540e-16 - Cl 7.4979e-13 - H 7.4457e-16 - Na 7.4759e-13 - O 3.5159e-17 + Ca 7.6543e-16 + Cl 7.4981e-13 + H 7.4458e-16 + Na 7.4760e-13 + O 3.5164e-17 Sua 1.500e-07 moles @@ -2569,28 +2569,28 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 1.216e-18 Surface + diffuse layer charge, eq + 1.109e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.653e-13 psi, V - 2.979e-11 -F*psi/RT + -6.978e-13 psi, V + 2.716e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.003e+00 m² for 3.003e-04 g Water in diffuse layer: 3.003e-09 kg, 6.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.130e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.980e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 1.5323e-15 + Ca 1.5324e-15 Cl 1.5011e-12 H 1.4906e-15 Na 1.4967e-12 - O 7.0389e-17 + O 7.0397e-17 Sub 3.003e-07 moles @@ -2618,7 +2618,7 @@ Hfo 1.318e+01 m² for 2.197e-02 g Water in diffuse layer: 1.318e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.993e-01 V. @@ -2652,7 +2652,7 @@ Hfo_w Hfo_wOCa+ 1.139e-10 0.000 1.139e-10 -9.944 Sorbedhfo - 5.710e-21 Surface + diffuse layer charge, eq + 5.709e-21 Surface + diffuse layer charge, eq 1.132e-13 Surface charge, eq 1.380e-03 sigma, C/m² 4.702e-02 psi, V @@ -2662,7 +2662,7 @@ Sorbedhfo 7.912e-06 m² for 1.319e-08 g Water in diffuse layer: 7.912e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.993e-01 V. @@ -2706,7 +2706,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.038e-04 V. @@ -2715,7 +2715,7 @@ Sua Element Moles Ca 1.9284e-24 Cl 1.8843e-21 - H 3.9505e-24 + H 3.9506e-24 Na 1.8829e-21 O 3.2055e-24 @@ -2737,7 +2737,7 @@ Sub 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.038e-04 V. @@ -2766,7 +2766,7 @@ Adapting surface in 4 Diffuse Double Layer Surface-Complexation Model Hfo - 2.277e-22 Surface + diffuse layer charge, eq + 2.276e-22 Surface + diffuse layer charge, eq 5.051e-15 Surface charge, eq 6.160e-05 sigma, C/m² 6.566e-02 psi, V @@ -2776,7 +2776,7 @@ Hfo 7.912e-06 m² for 1.319e-08 g Water in diffuse layer: 7.912e-15 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.022e-01 V. @@ -2809,17 +2809,17 @@ Hfo_w Hfo_wOCa+ 6.481e-29 0.000 6.481e-29 -28.188 Sua - 3.558e-47 Surface + diffuse layer charge, eq + 2.737e-47 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.812e-23 psi, V - 1.095e-21 -F*psi/RT + -3.091e-23 psi, V + 1.203e-21 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-16 m² for 1.500e-20 g Water in diffuse layer: 1.500e-25 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.564e-04 V. @@ -2847,28 +2847,28 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 4.857e-20 Surface + diffuse layer charge, eq + 4.755e-20 Surface + diffuse layer charge, eq 3.036e-09 Surface charge, eq 6.343e-03 sigma, C/m² 7.003e-02 psi, V -2.726e+00 -F*psi/RT - 6.549e-02 exp(-F*psi/RT) + 6.548e-02 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 4.618e-02 m² for 7.697e-05 g Water in diffuse layer: 4.618e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.884e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.333e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 1.332e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 7.9295e-27 - Cl 3.0357e-09 - H 3.0155e-13 - Na 5.3797e-19 - O 3.0155e-13 + Ca 7.9280e-27 + Cl 3.0359e-09 + H 3.0154e-13 + Na 5.3792e-19 + O 3.0154e-13 Hfo_s 2.187e-08 moles @@ -2878,7 +2878,7 @@ Hfo_s Hfo_sOH 1.678e-08 0.767 1.678e-08 -7.775 Hfo_sOH2+ 2.578e-09 0.118 2.578e-09 -8.589 Hfo_sO- 2.502e-09 0.114 2.502e-09 -8.602 - Hfo_sOHCa+2 5.866e-12 0.000 5.866e-12 -11.232 + Hfo_sOHCa+2 5.865e-12 0.000 5.865e-12 -11.232 Hfo_w 8.528e-07 moles @@ -2888,31 +2888,31 @@ Hfo_w Hfo_wOH 6.546e-07 0.768 6.546e-07 -6.184 Hfo_wOH2+ 1.006e-07 0.118 1.006e-07 -6.998 Hfo_wO- 9.762e-08 0.114 9.762e-08 -7.010 - Hfo_wOCa+ 4.396e-13 0.000 4.396e-13 -12.357 + Hfo_wOCa+ 4.395e-13 0.000 4.395e-13 -12.357 Sorbedhfo - 3.321e-20 Surface + diffuse layer charge, eq + 3.367e-20 Surface + diffuse layer charge, eq 2.169e-09 Surface charge, eq 6.343e-03 sigma, C/m² 7.003e-02 psi, V -2.726e+00 -F*psi/RT - 6.549e-02 exp(-F*psi/RT) + 6.548e-02 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 3.300e-02 m² for 5.499e-05 g Water in diffuse layer: 3.300e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.884e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 1.333e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 1.332e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 5.6650e-27 - Cl 2.1688e-09 - H 2.1543e-13 - Na 3.8434e-19 - O 2.1543e-13 + Ca 5.6639e-27 + Cl 2.1689e-09 + H 2.1542e-13 + Na 3.8430e-19 + O 2.1542e-13 Sorbedhfo_s 1.562e-08 moles @@ -2922,7 +2922,7 @@ Sorbedhfo_s Sorbedhfo_sOH 1.199e-08 0.767 1.199e-08 -7.921 Sorbedhfo_sOH2+ 1.842e-09 0.118 1.842e-09 -8.735 Sorbedhfo_sO- 1.788e-09 0.114 1.788e-09 -8.748 - Sorbedhfo_sOHCa+2 4.191e-12 0.000 4.191e-12 -11.378 + Sorbedhfo_sOHCa+2 4.190e-12 0.000 4.190e-12 -11.378 Sorbedhfo_w 6.093e-07 moles @@ -2932,31 +2932,31 @@ Sorbedhfo_w Sorbedhfo_wOH 4.677e-07 0.768 4.677e-07 -6.330 Sorbedhfo_wOH2+ 7.185e-08 0.118 7.185e-08 -7.144 Sorbedhfo_wO- 6.974e-08 0.114 6.974e-08 -7.156 - Sorbedhfo_wOCa+ 3.141e-13 0.000 3.141e-13 -12.503 + Sorbedhfo_wOCa+ 3.140e-13 0.000 3.140e-13 -12.503 Sua - 2.524e-23 Surface + diffuse layer charge, eq + 3.928e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.559e-21 psi, V - 2.942e-19 -F*psi/RT + -1.047e-20 psi, V + 4.077e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 33.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.796e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 4.3653e-12 - Cl 4.3780e-09 + Ca 4.3652e-12 + Cl 4.3779e-09 H 1.0650e-12 - Na 4.3691e-09 - O 4.3944e-13 + Na 4.3690e-09 + O 4.3939e-13 Sua 4.998e-04 moles @@ -2966,28 +2966,28 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 5.244e-23 Surface + diffuse layer charge, eq + 7.725e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.708e-21 psi, V - 3.000e-19 -F*psi/RT + -1.034e-20 psi, V + 4.027e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 66.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.796e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 8.7350e-12 - Cl 8.7603e-09 - H 2.1311e-12 - Na 8.7425e-09 - O 8.7932e-13 + Ca 8.7347e-12 + Cl 8.7602e-09 + H 2.1312e-12 + Na 8.7423e-09 + O 8.7922e-13 Sub 1.000e-03 moles @@ -3005,28 +3005,28 @@ Adapting surface in 6 Diffuse Double Layer Surface-Complexation Model Hfo - 1.825e-21 Surface + diffuse layer charge, eq - -2.237e-11 Surface charge, eq + 1.815e-21 Surface + diffuse layer charge, eq + -2.238e-11 Surface charge, eq -1.091e-04 sigma, C/m² -2.133e-03 psi, V - 8.302e-02 -F*psi/RT + 8.303e-02 -F*psi/RT 1.087e+00 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 1.979e-02 m² for 3.298e-05 g Water in diffuse layer: 1.979e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.729e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 8.363e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 8.364e+02 (= c_DL / c_free if z is +1). Element Moles - Ca 7.0480e-12 - Cl 1.1822e-17 - H 1.2029e-16 - Na 8.2758e-12 - O 2.5410e-19 + Ca 7.0496e-12 + Cl 1.1820e-17 + H 1.2031e-16 + Na 8.2768e-12 + O 2.5419e-19 Hfo_s 9.368e-09 moles @@ -3049,28 +3049,28 @@ Hfo_w Hfo_wOCa+ 3.098e-11 0.000 3.098e-11 -10.509 Sorbedhfo - 5.972e-22 Surface + diffuse layer charge, eq - -7.459e-12 Surface charge, eq + 5.823e-22 Surface + diffuse layer charge, eq + -7.460e-12 Surface charge, eq -1.091e-04 sigma, C/m² -2.133e-03 psi, V - 8.302e-02 -F*psi/RT + 8.303e-02 -F*psi/RT 1.087e+00 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 6.596e-03 m² for 1.099e-05 g Water in diffuse layer: 6.596e-12 kg, 0.1% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.729e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 8.363e+02 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 8.364e+02 (= c_DL / c_free if z is +1). Element Moles - Ca 2.3497e-12 - Cl 3.9412e-18 - H 4.0105e-17 - Na 2.7591e-12 - O 8.4714e-20 + Ca 2.3503e-12 + Cl 3.9407e-18 + H 4.0108e-17 + Na 2.7594e-12 + O 8.4745e-20 Sorbedhfo_s 3.123e-09 moles @@ -3093,27 +3093,27 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.033e-11 0.000 1.033e-11 -10.986 Sua - 2.580e-25 Surface + diffuse layer charge, eq + 2.578e-25 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.245e-19 psi, V - 1.263e-17 -F*psi/RT + -3.237e-19 psi, V + 1.260e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 33.1% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -3.140e-08 V. + Donnan Layer potential, psi_DL = -3.138e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 7.6391e-16 + Ca 7.6392e-16 Cl 7.4950e-13 H 2.2147e-15 - Na 7.5016e-13 + Na 7.5017e-13 O 2.2025e-15 Sua @@ -3124,28 +3124,28 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 5.159e-25 Surface + diffuse layer charge, eq + 5.156e-25 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.246e-19 psi, V - 1.263e-17 -F*psi/RT + -3.235e-19 psi, V + 1.259e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.000e+00 m² for 3.000e-04 g Water in diffuse layer: 3.000e-09 kg, 66.3% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -3.140e-08 V. + Donnan Layer potential, psi_DL = -3.138e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles Ca 1.5278e-15 Cl 1.4990e-12 - H 4.4294e-15 + H 4.4295e-15 Na 1.5003e-12 - O 4.4049e-15 + O 4.4050e-15 Sub 3.000e-07 moles @@ -3173,14 +3173,14 @@ Hfo 6.593e-03 m² for 1.099e-05 g Water in diffuse layer: 6.593e-12 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.409e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.727e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 2.7919e-30 + Ca 2.7920e-30 Cl 4.8077e-10 H 4.2709e-14 Na 1.4201e-21 @@ -3207,7 +3207,7 @@ Hfo_w Hfo_wOCa+ 1.592e-16 0.000 1.592e-16 -15.798 Sorbedhfo - 1.488e-19 Surface + diffuse layer charge, eq + 1.481e-19 Surface + diffuse layer charge, eq 2.888e-16 Surface charge, eq 7.041e-03 sigma, C/m² 1.222e-01 psi, V @@ -3217,7 +3217,7 @@ Sorbedhfo 3.958e-09 m² for 6.596e-12 g Water in diffuse layer: 3.958e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.409e-01 V. @@ -3251,17 +3251,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 9.559e-23 0.000 9.559e-23 -22.020 Sua - 4.263e-32 Surface + diffuse layer charge, eq + 8.208e-31 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.953e-17 psi, V - 7.600e-16 -F*psi/RT + -2.147e-16 psi, V + 8.357e-15 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.249e-07 V. @@ -3270,9 +3270,9 @@ Sua Element Moles Ca 1.9254e-24 Cl 1.8881e-21 - H 1.4118e-23 + H 1.4119e-23 Na 1.8705e-21 - O 1.8093e-25 + O 1.8100e-25 Sua 1.500e-15 moles @@ -3282,17 +3282,17 @@ Sua Sua 1.500e-15 1.000 1.500e-15 -14.824 Sub - 4.263e-32 Surface + diffuse layer charge, eq + 8.208e-31 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.952e-17 psi, V - 7.600e-16 -F*psi/RT + -2.147e-16 psi, V + 8.357e-15 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.249e-07 V. @@ -3301,9 +3301,9 @@ Sub Element Moles Ca 1.9253e-24 Cl 1.8881e-21 - H 1.4118e-23 + H 1.4119e-23 Na 1.8705e-21 - O 1.8093e-25 + O 1.8100e-25 Sub 1.500e-15 moles @@ -3331,7 +3331,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -3375,7 +3375,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -3406,7 +3406,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -3435,7 +3435,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -7.644e-13 Surface + diffuse layer charge, eq + -3.231e-14 Surface + diffuse layer charge, eq 3.381e-06 Surface charge, eq 6.182e-03 sigma, C/m² 6.734e-02 psi, V @@ -3445,7 +3445,7 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.860e-01 V. @@ -3454,9 +3454,9 @@ Hfo Element Moles Ca 1.1812e-23 Cl 3.3807e-06 - H 3.4901e-10 + H 3.4900e-10 Na 7.2383e-16 - O 3.4901e-10 + O 3.4900e-10 Hfo_s 2.499e-05 moles @@ -3466,7 +3466,7 @@ Hfo_s Hfo_sOH 1.917e-05 0.767 1.917e-05 -4.717 Hfo_sOH2+ 2.944e-06 0.118 2.944e-06 -5.531 Hfo_sO- 2.860e-06 0.114 2.860e-06 -5.544 - Hfo_sOHCa+2 8.926e-09 0.000 8.926e-09 -8.049 + Hfo_sOHCa+2 8.925e-09 0.000 8.925e-09 -8.049 Hfo_w 9.745e-04 moles @@ -3479,7 +3479,7 @@ Hfo_w Hfo_wOCa+ 6.692e-10 0.000 6.692e-10 -9.174 Sorbedhfo - -1.147e-12 Surface + diffuse layer charge, eq + -4.846e-14 Surface + diffuse layer charge, eq 5.072e-06 Surface charge, eq 6.182e-03 sigma, C/m² 6.734e-02 psi, V @@ -3489,15 +3489,15 @@ Sorbedhfo 7.916e+01 m² for 1.319e-01 g Water in diffuse layer: 7.916e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.860e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.463e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 1.7718e-23 - Cl 5.0710e-06 + Ca 1.7717e-23 + Cl 5.0711e-06 H 5.2351e-10 Na 1.0857e-15 O 5.2351e-10 @@ -3523,17 +3523,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.004e-09 0.000 1.004e-09 -8.998 Sua - 6.964e-17 Surface + diffuse layer charge, eq + 2.402e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.921e-14 psi, V - 7.479e-13 -F*psi/RT + -6.606e-16 psi, V + 2.572e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 8.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.733e-05 V. @@ -3542,9 +3542,9 @@ Sua Element Moles Ca 4.7049e-12 Cl 4.6903e-09 - H 1.0524e-12 + H 1.0522e-12 Na 4.6809e-09 - O 4.8873e-13 + O 4.8863e-13 Sua 4.999e-04 moles @@ -3554,17 +3554,17 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 7.661e-16 Surface + diffuse layer charge, eq + 2.642e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.921e-14 psi, V - 7.479e-13 -F*psi/RT + -6.606e-16 psi, V + 2.572e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.499e+04 m² for 5.499e+00 g Water in diffuse layer: 5.499e-05 kg, 91.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.733e-05 V. @@ -3573,9 +3573,9 @@ Sub Element Moles Ca 5.1758e-11 Cl 5.1599e-08 - H 1.1577e-11 + H 1.1575e-11 Na 5.1494e-08 - O 5.3766e-12 + O 5.3754e-12 Sub 5.499e-03 moles @@ -3593,9 +3593,9 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -1.346e-13 Surface + diffuse layer charge, eq + -2.481e-13 Surface + diffuse layer charge, eq 2.436e-07 Surface charge, eq - 8.911e-04 sigma, C/m² + 8.913e-04 sigma, C/m² 1.466e-02 psi, V -5.706e-01 -F*psi/RT 5.652e-01 exp(-F*psi/RT) @@ -3603,18 +3603,18 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 44.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.442e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 7.456e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 7.455e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 7.5300e-23 - Cl 2.4329e-07 - H 2.6864e-10 - Na 1.3561e-15 - O 2.6864e-10 + Ca 7.5285e-23 + Cl 2.4333e-07 + H 2.6866e-10 + Na 1.3560e-15 + O 2.6866e-10 Hfo_s 1.249e-05 moles @@ -3634,12 +3634,12 @@ Hfo_w Hfo_wOH 3.738e-04 0.768 3.738e-04 -3.427 Hfo_wO- 5.659e-05 0.116 5.659e-05 -4.247 Hfo_wOH2+ 5.658e-05 0.116 5.658e-05 -4.247 - Hfo_wOCa+ 9.566e-09 0.000 9.566e-09 -8.019 + Hfo_wOCa+ 9.565e-09 0.000 9.565e-09 -8.019 Sorbedhfo - -1.346e-13 Surface + diffuse layer charge, eq + -2.481e-13 Surface + diffuse layer charge, eq 2.436e-07 Surface charge, eq - 8.911e-04 sigma, C/m² + 8.913e-04 sigma, C/m² 1.466e-02 psi, V -5.706e-01 -F*psi/RT 5.652e-01 exp(-F*psi/RT) @@ -3647,18 +3647,18 @@ Sorbedhfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 44.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.442e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 7.456e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 7.455e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 7.5300e-23 - Cl 2.4329e-07 - H 2.6864e-10 - Na 1.3561e-15 - O 2.6864e-10 + Ca 7.5285e-23 + Cl 2.4333e-07 + H 2.6866e-10 + Na 1.3560e-15 + O 2.6866e-10 Sorbedhfo_s 1.249e-05 moles @@ -3678,31 +3678,31 @@ Sorbedhfo_w Sorbedhfo_wOH 3.738e-04 0.768 3.738e-04 -3.427 Sorbedhfo_wO- 5.659e-05 0.116 5.659e-05 -4.247 Sorbedhfo_wOH2+ 5.658e-05 0.116 5.658e-05 -4.247 - Sorbedhfo_wOCa+ 9.566e-09 0.000 9.566e-09 -8.019 + Sorbedhfo_wOCa+ 9.565e-09 0.000 9.565e-09 -8.019 Sua - 7.036e-19 Surface + diffuse layer charge, eq + 1.907e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.549e-13 psi, V - 2.938e-11 -F*psi/RT + -2.047e-12 psi, V + 7.967e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 2.6% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = 3.720e-05 V. + Donnan Layer potential, psi_DL = 3.718e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.986e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 6.5829e-16 + Ca 6.5835e-16 Cl 1.0333e-12 - H 1.1648e-15 + H 1.1647e-15 Na 1.0331e-12 - O 1.1423e-15 + O 1.1422e-15 Sua 1.500e-07 moles @@ -3712,28 +3712,28 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 2.112e-18 Surface + diffuse layer charge, eq + 5.724e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.549e-13 psi, V - 2.938e-11 -F*psi/RT + -2.047e-12 psi, V + 7.967e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.503e+00 m² for 4.503e-04 g Water in diffuse layer: 4.503e-09 kg, 7.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = 3.720e-05 V. + Donnan Layer potential, psi_DL = 3.718e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.986e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 1.9762e-15 + Ca 1.9764e-15 Cl 3.1018e-12 - H 3.4966e-15 - Na 3.1012e-12 - O 3.4291e-15 + H 3.4964e-15 + Na 3.1013e-12 + O 3.4288e-15 Sub 4.503e-07 moles @@ -3761,17 +3761,17 @@ Hfo 1.318e+01 m² for 2.197e-02 g Water in diffuse layer: 1.318e-08 kg, 66.7% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.375e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.971e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 1.7156e-26 + Ca 1.7157e-26 Cl 2.0831e-06 H 3.9368e-11 - Na 8.0842e-18 + Na 8.0844e-18 O 3.9368e-11 Hfo_s @@ -3805,17 +3805,17 @@ Sorbedhfo 6.590e+00 m² for 1.098e-02 g Water in diffuse layer: 6.590e-09 kg, 33.3% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.375e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.971e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 8.5782e-27 - Cl 1.0415e-06 + Ca 8.5786e-27 + Cl 1.0416e-06 H 1.9684e-11 - Na 4.0421e-18 + Na 4.0422e-18 O 1.9684e-11 Sorbedhfo_s @@ -3836,7 +3836,7 @@ Sorbedhfo_w Sorbedhfo_wOH 9.340e-05 0.768 9.340e-05 -4.030 Sorbedhfo_wOH2+ 1.465e-05 0.120 1.465e-05 -4.834 Sorbedhfo_wO- 1.364e-05 0.112 1.364e-05 -4.865 - Sorbedhfo_wOCa+ 1.101e-13 0.000 1.101e-13 -12.958 + Sorbedhfo_wOCa+ 1.102e-13 0.000 1.102e-13 -12.958 Sua 1.548e-29 Surface + diffuse layer charge, eq @@ -3849,18 +3849,18 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 8.205e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.968e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 4.7584e-24 - Cl 4.6874e-21 + Ca 4.7586e-24 + Cl 4.6875e-21 H 2.6866e-23 - Na 4.6513e-21 - O 1.0183e-25 + Na 4.6514e-21 + O 1.0187e-25 Sua 1.500e-15 moles @@ -3880,18 +3880,18 @@ Sub 2.999e-08 m² for 2.999e-12 g Water in diffuse layer: 2.999e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 8.205e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 9.968e-01 (= c_DL / c_free if z is +1). Element Moles - Ca 9.5168e-24 - Cl 9.3749e-21 + Ca 9.5172e-24 + Cl 9.3750e-21 H 5.3732e-23 - Na 9.3025e-21 - O 2.0366e-25 + Na 9.3027e-21 + O 2.0373e-25 Sub 2.999e-15 moles @@ -3909,7 +3909,7 @@ Adapting surface in 4 Diffuse Double Layer Surface-Complexation Model Hfo - 7.577e-16 Surface + diffuse layer charge, eq + 6.500e-16 Surface + diffuse layer charge, eq 1.637e-08 Surface charge, eq 2.396e-04 sigma, C/m² 9.907e-02 psi, V @@ -3919,7 +3919,7 @@ Hfo 6.590e+00 m² for 1.098e-02 g Water in diffuse layer: 6.590e-09 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.039e-01 V. @@ -3953,20 +3953,20 @@ Hfo_w Hfo_wOCa+ 4.238e-16 0.000 4.238e-16 -15.373 Sua - -6.967e-42 Surface + diffuse layer charge, eq + -5.788e-42 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 1.792e-18 psi, V - -6.974e-17 -F*psi/RT + 1.274e-18 psi, V + -4.958e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-16 m² for 1.500e-20 g Water in diffuse layer: 1.500e-25 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -4.275e-05 V. + Donnan Layer potential, psi_DL = -4.274e-05 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.002e+00 (= c_DL / c_free if z is +1). Element Moles @@ -3974,7 +3974,7 @@ Sua Cl 5.1099e-32 H 5.9615e-32 Na 1.1487e-42 - O 4.2657e-33 + O 4.2658e-33 Sua 1.500e-23 moles @@ -3992,28 +3992,28 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 8.833e-21 Surface + diffuse layer charge, eq - 2.261e-09 Surface charge, eq + 9.112e-21 Surface + diffuse layer charge, eq + 2.260e-09 Surface charge, eq 4.408e-03 sigma, C/m² - 5.305e-02 psi, V + 5.304e-02 psi, V -2.065e+00 -F*psi/RT - 1.268e-01 exp(-F*psi/RT) + 1.269e-01 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 4.948e-02 m² for 8.247e-05 g Water in diffuse layer: 4.948e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.773e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 2.054e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 2.055e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 2.2189e-26 - Cl 2.2602e-09 - H 4.0821e-13 - Na 9.5215e-19 - O 4.0821e-13 + Ca 2.2196e-26 + Cl 2.2597e-09 + H 4.0825e-13 + Na 9.5230e-19 + O 4.0825e-13 Hfo_s 2.343e-08 moles @@ -4023,7 +4023,7 @@ Hfo_s Hfo_sOH 1.796e-08 0.767 1.796e-08 -7.746 Hfo_sOH2+ 2.747e-09 0.117 2.747e-09 -8.561 Hfo_sO- 2.692e-09 0.115 2.692e-09 -8.570 - Hfo_sOHCa+2 2.524e-11 0.001 2.524e-11 -10.598 + Hfo_sOHCa+2 2.525e-11 0.001 2.525e-11 -10.598 Hfo_w 9.137e-07 moles @@ -4033,31 +4033,31 @@ Hfo_w Hfo_wOH 7.014e-07 0.768 7.014e-07 -6.154 Hfo_wOH2+ 1.072e-07 0.117 1.072e-07 -6.970 Hfo_wO- 1.051e-07 0.115 1.051e-07 -6.978 - Hfo_wOCa+ 1.902e-12 0.000 1.902e-12 -11.721 + Hfo_wOCa+ 1.903e-12 0.000 1.903e-12 -11.721 Sorbedhfo - 9.092e-21 Surface + diffuse layer charge, eq + 9.476e-21 Surface + diffuse layer charge, eq 2.562e-09 Surface charge, eq 4.408e-03 sigma, C/m² - 5.305e-02 psi, V + 5.304e-02 psi, V -2.065e+00 -F*psi/RT - 1.268e-01 exp(-F*psi/RT) + 1.269e-01 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 5.609e-02 m² for 9.348e-05 g Water in diffuse layer: 5.609e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.773e-01 V. - Boltzmann factor, exp(-psi_DL * F / RT) = 2.054e-05 (= c_DL / c_free if z is +1). + Boltzmann factor, exp(-psi_DL * F / RT) = 2.055e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 2.5152e-26 - Cl 2.5620e-09 - H 4.6272e-13 - Na 1.0793e-18 - O 4.6272e-13 + Ca 2.5160e-26 + Cl 2.5615e-09 + H 4.6278e-13 + Na 1.0795e-18 + O 4.6278e-13 Sorbedhfo_s 2.656e-08 moles @@ -4067,7 +4067,7 @@ Sorbedhfo_s Sorbedhfo_sOH 2.036e-08 0.767 2.036e-08 -7.691 Sorbedhfo_sOH2+ 3.114e-09 0.117 3.114e-09 -8.507 Sorbedhfo_sO- 3.051e-09 0.115 3.051e-09 -8.516 - Sorbedhfo_sOHCa+2 2.861e-11 0.001 2.861e-11 -10.543 + Sorbedhfo_sOHCa+2 2.862e-11 0.001 2.862e-11 -10.543 Sorbedhfo_w 1.036e-06 moles @@ -4077,31 +4077,31 @@ Sorbedhfo_w Sorbedhfo_wOH 7.950e-07 0.768 7.950e-07 -6.100 Sorbedhfo_wOH2+ 1.216e-07 0.117 1.216e-07 -6.915 Sorbedhfo_wO- 1.191e-07 0.115 1.191e-07 -6.924 - Sorbedhfo_wOCa+ 2.156e-12 0.000 2.156e-12 -11.666 + Sorbedhfo_wOCa+ 2.157e-12 0.000 2.157e-12 -11.666 Sua - 1.591e-23 Surface + diffuse layer charge, eq + 1.800e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.187e-21 psi, V - 1.241e-19 -F*psi/RT + -4.832e-21 psi, V + 1.881e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 25.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.676e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 4.6779e-12 - Cl 4.6906e-09 - H 1.1758e-12 + Ca 4.6777e-12 + Cl 4.6905e-09 + H 1.1759e-12 Na 4.6817e-09 - O 8.5171e-13 + O 8.5197e-13 Sua 4.998e-04 moles @@ -4111,17 +4111,17 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 5.109e-23 Surface + diffuse layer charge, eq + 5.329e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.356e-21 psi, V - 1.306e-19 -F*psi/RT + -4.763e-21 psi, V + 1.854e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 75.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.676e-08 V. @@ -4130,9 +4130,9 @@ Sub Element Moles Ca 1.4038e-11 Cl 1.4076e-08 - H 3.5284e-12 + H 3.5290e-12 Na 1.4050e-08 - O 2.5560e-12 + O 2.5568e-12 Sub 1.500e-03 moles @@ -4155,23 +4155,23 @@ Hfo 2.709e-02 sigma, C/m² 1.475e-01 psi, V -5.740e+00 -F*psi/RT - 3.214e-03 exp(-F*psi/RT) + 3.215e-03 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 2.308e-02 m² for 3.847e-05 g Water in diffuse layer: 2.308e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.319e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.455e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 9.8863e-29 - Cl 6.4805e-09 - H 3.8086e-14 - Na 3.8842e-20 - O 3.8085e-14 + Ca 9.8867e-29 + Cl 6.4802e-09 + H 3.8087e-14 + Na 3.8843e-20 + O 3.8087e-14 Hfo_s 1.093e-08 moles @@ -4191,31 +4191,31 @@ Hfo_w Hfo_wOH 3.270e-07 0.767 3.270e-07 -6.485 Hfo_wOH2+ 5.276e-08 0.124 5.276e-08 -7.278 Hfo_wO- 4.644e-08 0.109 4.644e-08 -7.333 - Hfo_wOCa+ 3.990e-16 0.000 3.990e-16 -15.399 + Hfo_wOCa+ 3.991e-16 0.000 3.991e-16 -15.399 Sorbedhfo - 1.000e-18 Surface + diffuse layer charge, eq + 9.997e-19 Surface + diffuse layer charge, eq 4.630e-09 Surface charge, eq 2.709e-02 sigma, C/m² 1.475e-01 psi, V -5.740e+00 -F*psi/RT - 3.214e-03 exp(-F*psi/RT) + 3.215e-03 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 1.649e-02 m² for 2.748e-05 g Water in diffuse layer: 1.649e-11 kg, 0.3% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.319e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.455e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 7.0628e-29 - Cl 4.6298e-09 - H 2.7209e-14 - Na 2.7749e-20 - O 2.7209e-14 + Ca 7.0632e-29 + Cl 4.6296e-09 + H 2.7210e-14 + Na 2.7750e-20 + O 2.7210e-14 Sorbedhfo_s 7.807e-09 moles @@ -4225,7 +4225,7 @@ Sorbedhfo_s Sorbedhfo_sOH 5.990e-09 0.767 5.990e-09 -8.223 Sorbedhfo_sOH2+ 9.664e-10 0.124 9.664e-10 -9.015 Sorbedhfo_sO- 8.507e-10 0.109 8.507e-10 -9.070 - Sorbedhfo_sOHCa+2 3.995e-15 0.000 3.995e-15 -14.398 + Sorbedhfo_sOHCa+2 3.996e-15 0.000 3.996e-15 -14.398 Sorbedhfo_w 3.045e-07 moles @@ -4238,28 +4238,28 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 2.851e-16 0.000 2.851e-16 -15.545 Sua - -7.389e-28 Surface + diffuse layer charge, eq + 1.874e-28 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 3.894e-22 psi, V - -1.516e-20 -F*psi/RT + -3.305e-22 psi, V + 1.287e-20 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 24.8% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -2.282e-08 V. + Donnan Layer potential, psi_DL = -2.281e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles Ca 1.0376e-15 Cl 1.0341e-12 - H 3.9828e-15 + H 3.9824e-15 Na 1.0280e-12 - O 7.4179e-18 + O 7.4224e-18 Sua 1.500e-07 moles @@ -4269,28 +4269,28 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - -3.111e-27 Surface + diffuse layer charge, eq + 3.361e-28 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 9.134e-22 psi, V - -3.555e-20 -F*psi/RT + -1.600e-22 psi, V + 6.229e-21 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.500e+00 m² for 4.500e-04 g Water in diffuse layer: 4.500e-09 kg, 74.5% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -2.282e-08 V. + Donnan Layer potential, psi_DL = -2.281e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles Ca 3.1127e-15 Cl 3.1022e-12 - H 1.1948e-14 + H 1.1947e-14 Na 3.0841e-12 - O 2.2254e-17 + O 2.2267e-17 Sub 4.500e-07 moles @@ -4308,7 +4308,7 @@ Adapting surface in 7 Diffuse Double Layer Surface-Complexation Model Hfo - -1.438e-19 Surface + diffuse layer charge, eq + -1.440e-19 Surface + diffuse layer charge, eq -6.021e-11 Surface charge, eq -5.875e-04 sigma, C/m² -1.433e-02 psi, V @@ -4318,18 +4318,18 @@ Hfo 9.888e-03 m² for 1.648e-05 g Water in diffuse layer: 9.888e-12 kg, 75.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.043e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.840e+03 (= c_DL / c_free if z is +1). Element Moles - Ca 2.5707e-11 + Ca 2.5708e-11 Cl 1.0842e-18 H 1.2558e-16 - Na 8.7904e-12 - O 3.6704e-19 + Na 8.7906e-12 + O 3.6702e-19 Hfo_s 4.682e-09 moles @@ -4349,7 +4349,7 @@ Hfo_w Hfo_wOH 1.401e-07 0.767 1.401e-07 -6.853 Hfo_wO- 2.156e-08 0.118 2.156e-08 -7.666 Hfo_wOH2+ 2.087e-08 0.114 2.087e-08 -7.680 - Hfo_wOCa+ 2.550e-11 0.000 2.550e-11 -10.593 + Hfo_wOCa+ 2.551e-11 0.000 2.551e-11 -10.593 Sorbedhfo -4.762e-20 Surface + diffuse layer charge, eq @@ -4362,18 +4362,18 @@ Sorbedhfo 3.297e-03 m² for 5.494e-06 g Water in diffuse layer: 3.297e-12 kg, 25.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.043e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.840e+03 (= c_DL / c_free if z is +1). Element Moles - Ca 8.5706e-12 + Ca 8.5709e-12 Cl 3.6146e-19 H 4.1868e-17 - Na 2.9306e-12 - O 1.2237e-19 + Na 2.9307e-12 + O 1.2236e-19 Sorbedhfo_s 1.561e-09 moles @@ -4406,7 +4406,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.013e-08 V. @@ -4415,7 +4415,7 @@ Sua Element Moles Ca 4.8352e-24 Cl 4.6690e-21 - H 3.5525e-23 + H 3.5526e-23 Na 4.6947e-21 O 3.5445e-23 @@ -4437,18 +4437,18 @@ Sub 2.999e-08 m² for 2.999e-12 g Water in diffuse layer: 2.999e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.013e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles - Ca 9.6703e-24 + Ca 9.6704e-24 Cl 9.3380e-21 - H 7.1050e-23 - Na 9.3893e-21 - O 7.0889e-23 + H 7.1051e-23 + Na 9.3894e-21 + O 7.0891e-23 Sub 2.999e-15 moles diff --git a/mytest/sc6a.prn b/mytest/sc6a.prn index 245b1eb0..b5fbae1c 100644 --- a/mytest/sc6a.prn +++ b/mytest/sc6a.prn @@ -16,26 +16,26 @@ 6.0000e+00 1.5015e-04 1.4999e-04 1.5001e-10 1.4999e-10 0.0000e+00 7.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 0.0000e+00 - 1.0000e+00 7.4958e-01 4.9987e-01 9.9950e-01 2.4994e+00 4.9975e-01 + 1.0000e+00 7.4959e-01 4.9987e-01 9.9950e-01 2.4994e+00 4.9975e-01 2.0000e+00 2.4963e-01 1.5001e-04 4.9950e-01 1.5031e-04 1.4993e-07 3.0000e+00 1.5013e-04 1.4997e-12 2.9970e-07 0.0000e+00 0.0000e+00 4.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 - 5.0000e+00 7.5065e-01 4.9983e-01 7.4984e-04 5.0033e-01 2.4999e-04 + 5.0000e+00 7.5064e-01 4.9983e-01 7.4984e-04 5.0033e-01 2.4999e-04 6.0000e+00 2.5055e-01 1.5000e-04 2.4986e-04 1.4999e-04 7.5039e-11 7.0000e+00 1.5027e-04 1.4996e-12 1.4993e-10 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 0.0000e+00 - 1.0000e+00 8.7477e-01 4.9987e-01 9.9950e-01 3.9992e+00 9.9950e-01 - 2.0000e+00 4.9883e-01 1.5001e-04 4.9950e-01 3.0032e-04 2.4975e-01 + 1.0000e+00 8.7478e-01 4.9987e-01 9.9950e-01 3.9992e+00 9.9950e-01 + 2.0000e+00 4.9884e-01 1.5001e-04 4.9950e-01 3.0032e-04 2.4975e-01 3.0000e+00 1.2465e-01 1.4997e-12 2.4963e-01 1.4997e-12 1.4985e-07 4.0000e+00 7.5508e-12 1.4997e-20 1.4985e-07 0.0000e+00 0.0000e+00 - 5.0000e+00 8.7590e-01 4.9983e-01 8.7471e-04 1.0002e+00 6.2491e-04 + 5.0000e+00 8.7588e-01 4.9983e-01 8.7471e-04 1.0002e+00 6.2491e-04 6.0000e+00 4.9968e-01 1.5000e-04 3.7473e-04 2.9999e-04 1.2493e-04 7.0000e+00 1.2591e-01 1.4996e-12 1.2487e-04 1.4995e-12 7.5001e-11 0.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 1.0000e+00 0.0000e+00 1.0000e+00 9.3731e-01 4.9987e-01 9.9950e-01 5.4991e+00 1.4992e+00 2.0000e+00 6.8780e-01 1.5001e-04 4.9950e-01 4.5033e-04 4.9950e-01 - 3.0000e+00 3.1156e-01 1.4997e-12 2.4963e-01 2.9994e-12 1.2481e-01 + 3.0000e+00 3.1157e-01 1.4997e-12 2.4963e-01 2.9994e-12 1.2481e-01 4.0000e+00 3.4129e-04 1.4997e-20 1.2481e-01 0.0000e+00 0.0000e+00 - 5.0000e+00 9.3844e-01 4.9983e-01 9.3711e-04 1.5000e+00 1.0623e-03 - 6.0000e+00 6.8941e-01 1.5000e-04 4.3714e-04 4.4998e-04 3.1230e-04 + 5.0000e+00 9.3842e-01 4.9983e-01 9.3711e-04 1.5000e+00 1.0623e-03 + 6.0000e+00 6.8940e-01 1.5000e-04 4.3714e-04 4.4998e-04 3.1230e-04 7.0000e+00 3.1136e-01 1.4996e-12 1.8727e-04 2.9991e-12 6.2435e-05 diff --git a/mytest/sc6a_101.sel b/mytest/sc6a_101.sel index 84b3fc96..d88bfb75 100644 --- a/mytest/sc6a_101.sel +++ b/mytest/sc6a_101.sel @@ -20,26 +20,26 @@ 0.000000250961 0.0547010257 0.000000100645 0.0546913856 0.001002104164 0.0560854657 - 0.000751424995 0.0610310961 - 0.000250952008 0.0737220769 + 0.000751434493 0.0610309835 + 0.000250952005 0.0737220781 0.000000250954 0.0546990452 0.000000100645 0.0546913856 - 0.000751512301 0.0549283484 - 0.000250824020 0.1817461196 + 0.000751502799 0.0549273880 + 0.000250824017 0.1817461150 0.000000250939 0.0547215807 0.001002104164 0.0560854580 - 0.000876746748 0.0576472465 - 0.000500368754 0.1678170312 - 0.000125995188 0.0584165074 + 0.000876752603 0.0576469154 + 0.000500376511 0.1678165694 + 0.000125995187 0.0584165065 0.000000100645 0.0546913885 - 0.000876856833 0.0597941958 - 0.000501658528 0.2888099424 - 0.000126052119 0.3239181577 + 0.000876841505 0.0597971503 + 0.000501660254 0.2888144425 + 0.000126052118 0.3239181531 0.001002104164 0.0560854581 - 0.000939348500 0.0574394082 - 0.000689994166 0.1528395190 - 0.000312886824 0.6201442823 - 0.000000368320 0.1331625287 - 0.000939543441 0.0550139413 - 0.000690101492 0.9154433424 - 0.000314042545 0.4633428606 + 0.000939349147 0.0574397449 + 0.000690003630 0.1528267458 + 0.000312892517 0.6201473566 + 0.000000368320 0.1331625331 + 0.000939527446 0.0550170457 + 0.000690099457 0.9153673501 + 0.000314044613 0.4633516973 diff --git a/mytest/sc6b.out b/mytest/sc6b.out index ac682f52..0359c245 100644 --- a/mytest/sc6b.out +++ b/mytest/sc6b.out @@ -243,7 +243,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -287,7 +287,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -318,7 +318,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -362,7 +362,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -406,7 +406,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -437,7 +437,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -549,7 +549,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -593,7 +593,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -624,7 +624,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -690,7 +690,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -734,7 +734,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -765,7 +765,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -804,7 +804,7 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.007e-01 V. @@ -848,7 +848,7 @@ Sua 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 33.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.123e-05 V. @@ -879,7 +879,7 @@ Sub 9.995e+03 m² for 9.995e-01 g Water in diffuse layer: 9.995e-06 kg, 66.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.123e-05 V. @@ -918,7 +918,7 @@ Hfo 1.583e-05 m² for 2.639e-08 g Water in diffuse layer: 1.583e-14 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. @@ -962,7 +962,7 @@ Sua 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 99.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.360e-05 V. @@ -993,7 +993,7 @@ Sub 2.999e-03 m² for 2.999e-07 g Water in diffuse layer: 2.999e-12 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.360e-05 V. @@ -1040,7 +1040,7 @@ Hfo 2.640e-02 m² for 4.400e-05 g Water in diffuse layer: 2.640e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.933e-01 V. @@ -1074,17 +1074,17 @@ Hfo_w Hfo_wOCa+ 1.960e-13 0.000 1.960e-13 -12.708 Sua - -6.312e-21 Surface + diffuse layer charge, eq + -6.310e-21 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.770e-19 psi, V - 1.467e-17 -F*psi/RT + -3.773e-19 psi, V + 1.469e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.143e-08 V. @@ -1105,17 +1105,17 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - -7.312e-24 Surface + diffuse layer charge, eq + -7.310e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 3.529e-23 psi, V - -1.374e-21 -F*psi/RT + -1.243e-22 psi, V + 4.840e-21 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.000e+00 m² for 5.000e-04 g Water in diffuse layer: 5.000e-09 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.143e-08 V. @@ -1154,14 +1154,14 @@ Hfo 7.920e-09 m² for 1.320e-11 g Water in diffuse layer: 7.920e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.494e-07 (= c_DL / c_free if z is +1). Element Moles - Ca 5.6460e-40 + Ca 5.6478e-40 Cl 4.7682e-18 H 3.2158e-18 Na 2.9594e-31 @@ -1191,14 +1191,14 @@ Sua -1.838e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.329e-23 psi, V - 9.064e-22 -F*psi/RT + 1.452e-23 psi, V + -5.653e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.273e-05 V. @@ -1222,14 +1222,14 @@ Sub -1.838e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.858e-23 psi, V - 7.233e-22 -F*psi/RT + 1.169e-23 psi, V + -4.550e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-06 m² for 1.500e-10 g Water in diffuse layer: 1.500e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.273e-05 V. @@ -1272,7 +1272,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -1316,7 +1316,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1347,7 +1347,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -1376,7 +1376,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -4.175e-14 Surface + diffuse layer charge, eq + -5.124e-14 Surface + diffuse layer charge, eq 3.303e-06 Surface charge, eq 6.040e-03 sigma, C/m² 7.131e-02 psi, V @@ -1386,7 +1386,7 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.911e-01 V. @@ -1420,7 +1420,7 @@ Hfo_w Hfo_wOCa+ 3.960e-10 0.000 3.960e-10 -9.402 Sorbedhfo - -2.087e-14 Surface + diffuse layer charge, eq + -2.562e-14 Surface + diffuse layer charge, eq 1.652e-06 Surface charge, eq 6.040e-03 sigma, C/m² 7.131e-02 psi, V @@ -1430,7 +1430,7 @@ Sorbedhfo 2.639e+01 m² for 4.398e-02 g Water in diffuse layer: 2.639e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.911e-01 V. @@ -1464,17 +1464,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.980e-10 0.000 1.980e-10 -9.703 Sua - 8.076e-18 Surface + diffuse layer charge, eq + 1.142e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.489e-15 psi, V - 9.688e-14 -F*psi/RT + -3.521e-15 psi, V + 1.370e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 33.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.416e-05 V. @@ -1495,17 +1495,17 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 1.616e-17 Surface + diffuse layer charge, eq + 2.285e-17 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.489e-15 psi, V - 9.688e-14 -F*psi/RT + -3.521e-15 psi, V + 1.370e-13 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 66.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.416e-05 V. @@ -1516,7 +1516,7 @@ Sub Cl 7.5066e-09 H 2.1461e-12 Na 7.4910e-09 - O 8.3675e-13 + O 8.3676e-13 Sub 1.000e-03 moles @@ -1534,7 +1534,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -1.717e-15 Surface + diffuse layer charge, eq + -1.716e-15 Surface + diffuse layer charge, eq 1.153e-06 Surface charge, eq 4.219e-03 sigma, C/m² 8.006e-02 psi, V @@ -1544,7 +1544,7 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.102e-01 V. @@ -1578,7 +1578,7 @@ Hfo_w Hfo_wOCa+ 3.438e-11 0.000 3.438e-11 -10.464 Sorbedhfo - -5.154e-22 Surface + diffuse layer charge, eq + -5.151e-22 Surface + diffuse layer charge, eq 3.461e-13 Surface charge, eq 4.219e-03 sigma, C/m² 8.006e-02 psi, V @@ -1588,7 +1588,7 @@ Sorbedhfo 7.916e-06 m² for 1.319e-08 g Water in diffuse layer: 7.916e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.102e-01 V. @@ -1626,13 +1626,13 @@ Sua 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² -1.772e-15 psi, V - 6.897e-14 -F*psi/RT + 6.896e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.023e-04 V. @@ -1657,13 +1657,13 @@ Sub 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² -1.772e-15 psi, V - 6.897e-14 -F*psi/RT + 6.896e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.499e+04 m² for 1.499e+00 g Water in diffuse layer: 1.499e-05 kg, 99.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.023e-04 V. @@ -1702,7 +1702,7 @@ Hfo 1.582e-05 m² for 2.637e-08 g Water in diffuse layer: 1.582e-14 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. @@ -1746,7 +1746,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.782e-05 V. @@ -1777,7 +1777,7 @@ Sub 1.503e+00 m² for 1.503e-04 g Water in diffuse layer: 1.503e-09 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -7.782e-05 V. @@ -1810,7 +1810,7 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 9.060e-21 Surface + diffuse layer charge, eq + 1.002e-20 Surface + diffuse layer charge, eq 2.076e-09 Surface charge, eq 5.060e-03 sigma, C/m² 6.344e-02 psi, V @@ -1820,7 +1820,7 @@ Hfo 3.959e-02 m² for 6.599e-05 g Water in diffuse layer: 3.959e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.866e-01 V. @@ -1854,7 +1854,7 @@ Hfo_w Hfo_wOCa+ 5.410e-13 0.000 5.410e-13 -12.267 Sorbedhfo - 2.885e-21 Surface + diffuse layer charge, eq + 3.080e-21 Surface + diffuse layer charge, eq 6.921e-10 Surface charge, eq 5.060e-03 sigma, C/m² 6.344e-02 psi, V @@ -1864,7 +1864,7 @@ Sorbedhfo 1.320e-02 m² for 2.200e-05 g Water in diffuse layer: 1.320e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.866e-01 V. @@ -1898,20 +1898,20 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.804e-13 0.000 1.804e-13 -12.744 Sua - 6.192e-24 Surface + diffuse layer charge, eq + 6.407e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.114e-21 psi, V - 8.229e-20 -F*psi/RT + -1.790e-21 psi, V + 6.967e-20 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -2.095e-08 V. + Donnan Layer potential, psi_DL = -2.096e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -1919,7 +1919,7 @@ Sua Cl 3.7515e-09 H 1.0495e-12 Na 3.7442e-09 - O 5.6692e-13 + O 5.6693e-13 Sua 4.998e-04 moles @@ -1929,20 +1929,20 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 8.827e-24 Surface + diffuse layer charge, eq + 5.992e-24 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -2.833e-21 psi, V - 1.103e-19 -F*psi/RT + -9.987e-22 psi, V + 3.887e-20 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 5.003e+03 m² for 5.003e-01 g Water in diffuse layer: 5.003e-06 kg, 50.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -2.095e-08 V. + Donnan Layer potential, psi_DL = -2.096e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -1978,7 +1978,7 @@ Hfo 1.319e-02 m² for 2.199e-05 g Water in diffuse layer: 1.319e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.242e-01 V. @@ -2022,7 +2022,7 @@ Sorbedhfo 3.960e-09 m² for 6.600e-12 g Water in diffuse layer: 3.960e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.242e-01 V. @@ -2066,7 +2066,7 @@ Sua 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.277e-08 V. @@ -2097,7 +2097,7 @@ Sub 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 49.8% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.277e-08 V. @@ -2136,7 +2136,7 @@ Hfo 7.916e-09 m² for 1.319e-11 g Water in diffuse layer: 7.916e-18 kg, 34.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.906e-01 V. @@ -2173,14 +2173,14 @@ Sua -1.838e-26 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.280e-23 psi, V - 4.980e-22 -F*psi/RT + 1.845e-23 psi, V + -7.180e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 65.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -6.274e-05 V. @@ -2238,7 +2238,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -2282,7 +2282,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -2313,7 +2313,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -2342,7 +2342,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -9.491e-13 Surface + diffuse layer charge, eq + -7.859e-13 Surface + diffuse layer charge, eq 3.291e-06 Surface charge, eq 6.017e-03 sigma, C/m² 6.767e-02 psi, V @@ -2352,14 +2352,14 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.871e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.403e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 1.0179e-23 + Ca 1.0180e-23 Cl 3.2905e-06 H 3.5904e-10 Na 6.4791e-16 @@ -2386,7 +2386,7 @@ Hfo_w Hfo_wOCa+ 6.098e-10 0.000 6.098e-10 -9.215 Sorbedhfo - -9.491e-13 Surface + diffuse layer charge, eq + -7.859e-13 Surface + diffuse layer charge, eq 3.291e-06 Surface charge, eq 6.017e-03 sigma, C/m² 6.767e-02 psi, V @@ -2396,7 +2396,7 @@ Sorbedhfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.871e-01 V. @@ -2430,17 +2430,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 6.098e-10 0.000 6.098e-10 -9.215 Sua - 1.301e-16 Surface + diffuse layer charge, eq + 1.086e-16 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.715e-14 psi, V - 1.446e-12 -F*psi/RT + -3.102e-14 psi, V + 1.207e-12 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 33.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.928e-05 V. @@ -2461,17 +2461,17 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 2.602e-16 Surface + diffuse layer charge, eq + 2.173e-16 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.715e-14 psi, V - 1.446e-12 -F*psi/RT + -3.102e-14 psi, V + 1.207e-12 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 66.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.928e-05 V. @@ -2482,7 +2482,7 @@ Sub Cl 8.7582e-09 H 2.1050e-12 Na 8.7404e-09 - O 9.6471e-13 + O 9.6470e-13 Sub 1.000e-03 moles @@ -2500,7 +2500,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -5.976e-13 Surface + diffuse layer charge, eq + -5.977e-13 Surface + diffuse layer charge, eq 2.686e-06 Surface charge, eq 9.828e-03 sigma, C/m² 1.044e-01 psi, V @@ -2510,7 +2510,7 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.141e-01 V. @@ -2554,7 +2554,7 @@ Sorbedhfo 1.319e+01 m² for 2.198e-02 g Water in diffuse layer: 1.319e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.141e-01 V. @@ -2588,17 +2588,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 5.049e-12 0.000 5.049e-12 -11.297 Sua - 5.863e-19 Surface + diffuse layer charge, eq + 5.888e-19 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.388e-13 psi, V - 2.876e-11 -F*psi/RT + -7.420e-13 psi, V + 2.888e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.129e-05 V. @@ -2609,7 +2609,7 @@ Sua Cl 7.4991e-13 H 7.4453e-16 Na 7.4770e-13 - O 3.5157e-17 + O 3.5160e-17 Sua 1.500e-07 moles @@ -2619,17 +2619,17 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 5.862e-15 Surface + diffuse layer charge, eq + 5.888e-15 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.388e-13 psi, V - 2.876e-11 -F*psi/RT + -7.420e-13 psi, V + 2.888e-11 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 99.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 5.129e-05 V. @@ -2640,7 +2640,7 @@ Sub Cl 7.4980e-09 H 7.4442e-12 Na 7.4759e-09 - O 3.5151e-13 + O 3.5155e-13 Sub 1.500e-03 moles @@ -2668,7 +2668,7 @@ Hfo 1.318e+01 m² for 2.197e-02 g Water in diffuse layer: 1.318e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.993e-01 V. @@ -2702,7 +2702,7 @@ Hfo_w Hfo_wOCa+ 1.139e-10 0.000 1.139e-10 -9.944 Sorbedhfo - 5.296e-21 Surface + diffuse layer charge, eq + 5.295e-21 Surface + diffuse layer charge, eq 1.132e-13 Surface charge, eq 1.381e-03 sigma, C/m² 4.702e-02 psi, V @@ -2712,7 +2712,7 @@ Sorbedhfo 7.912e-06 m² for 1.319e-08 g Water in diffuse layer: 7.912e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.993e-01 V. @@ -2756,7 +2756,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.038e-04 V. @@ -2787,7 +2787,7 @@ Sub 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 99.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.038e-04 V. @@ -2816,7 +2816,7 @@ Adapting surface in 4 Diffuse Double Layer Surface-Complexation Model Hfo - 2.276e-22 Surface + diffuse layer charge, eq + 2.277e-22 Surface + diffuse layer charge, eq 5.051e-15 Surface charge, eq 6.160e-05 sigma, C/m² 6.566e-02 psi, V @@ -2826,14 +2826,14 @@ Hfo 7.912e-06 m² for 1.319e-08 g Water in diffuse layer: 7.912e-15 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.022e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.586e-07 (= c_DL / c_free if z is +1). Element Moles - Ca 2.2468e-45 + Ca 2.2455e-45 Cl 3.9918e-22 H 5.0513e-15 Na 5.6577e-37 @@ -2860,17 +2860,17 @@ Hfo_w Hfo_wOCa+ 1.211e-28 0.000 1.211e-28 -27.917 Sua - -1.095e-47 Surface + diffuse layer charge, eq + -1.368e-47 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 4.846e-24 psi, V - -1.886e-22 -F*psi/RT + 7.760e-24 psi, V + -3.020e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-16 m² for 1.500e-20 g Water in diffuse layer: 1.500e-25 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.564e-04 V. @@ -2891,17 +2891,17 @@ Sua Sua 1.500e-23 1.000 1.500e-23 -22.824 Sub - -7.396e-32 Surface + diffuse layer charge, eq + -9.861e-32 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 9.174e-24 psi, V - -3.571e-22 -F*psi/RT + 1.015e-23 psi, V + -3.952e-22 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.503e+00 m² for 1.503e-04 g Water in diffuse layer: 1.503e-09 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.564e-04 V. @@ -2930,7 +2930,7 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 4.793e-20 Surface + diffuse layer charge, eq + 4.777e-20 Surface + diffuse layer charge, eq 3.038e-09 Surface charge, eq 6.346e-03 sigma, C/m² 7.006e-02 psi, V @@ -2940,15 +2940,15 @@ Hfo 4.618e-02 m² for 7.697e-05 g Water in diffuse layer: 4.618e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.884e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.332e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 7.9161e-27 - Cl 3.0373e-09 + Ca 7.9162e-27 + Cl 3.0372e-09 H 3.0144e-13 Na 5.3753e-19 O 3.0144e-13 @@ -2961,7 +2961,7 @@ Hfo_s Hfo_sOH 1.678e-08 0.767 1.678e-08 -7.775 Hfo_sOH2+ 2.578e-09 0.118 2.578e-09 -8.589 Hfo_sO- 2.502e-09 0.114 2.502e-09 -8.602 - Hfo_sOHCa+2 5.852e-12 0.000 5.852e-12 -11.233 + Hfo_sOHCa+2 5.853e-12 0.000 5.853e-12 -11.233 Hfo_w 8.528e-07 moles @@ -2974,7 +2974,7 @@ Hfo_w Hfo_wOCa+ 4.386e-13 0.000 4.386e-13 -12.358 Sorbedhfo - 3.356e-20 Surface + diffuse layer charge, eq + 3.368e-20 Surface + diffuse layer charge, eq 2.170e-09 Surface charge, eq 6.346e-03 sigma, C/m² 7.006e-02 psi, V @@ -2984,14 +2984,14 @@ Sorbedhfo 3.300e-02 m² for 5.499e-05 g Water in diffuse layer: 3.300e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.884e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.332e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 5.6554e-27 + Ca 5.6555e-27 Cl 2.1699e-09 H 2.1535e-13 Na 3.8402e-19 @@ -3018,20 +3018,20 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 3.133e-13 0.000 3.133e-13 -12.504 Sua - 3.027e-23 Surface + diffuse layer charge, eq + 4.032e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -7.741e-21 psi, V - 3.013e-19 -F*psi/RT + -9.429e-21 psi, V + 3.670e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 33.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.796e-08 V. + Donnan Layer potential, psi_DL = -1.797e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -3049,20 +3049,20 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 6.545e-23 Surface + diffuse layer charge, eq + 8.214e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -8.180e-21 psi, V - 3.184e-19 -F*psi/RT + -9.202e-21 psi, V + 3.582e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 66.7% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.796e-08 V. + Donnan Layer potential, psi_DL = -1.797e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -3070,7 +3070,7 @@ Sub Cl 8.7590e-09 H 2.1314e-12 Na 8.7411e-09 - O 8.7838e-13 + O 8.7837e-13 Sub 1.000e-03 moles @@ -3088,7 +3088,7 @@ Adapting surface in 6 Diffuse Double Layer Surface-Complexation Model Hfo - 1.961e-21 Surface + diffuse layer charge, eq + 1.644e-21 Surface + diffuse layer charge, eq -2.240e-11 Surface charge, eq -1.093e-04 sigma, C/m² -2.136e-03 psi, V @@ -3098,7 +3098,7 @@ Hfo 1.979e-02 m² for 3.298e-05 g Water in diffuse layer: 1.979e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.729e-01 V. @@ -3109,7 +3109,7 @@ Hfo Cl 1.1812e-17 H 1.2038e-16 Na 8.2828e-12 - O 2.5424e-19 + O 2.5425e-19 Hfo_s 9.368e-09 moles @@ -3132,7 +3132,7 @@ Hfo_w Hfo_wOCa+ 3.098e-11 0.000 3.098e-11 -10.509 Sorbedhfo - 5.790e-22 Surface + diffuse layer charge, eq + 5.823e-22 Surface + diffuse layer charge, eq -7.469e-12 Surface charge, eq -1.093e-04 sigma, C/m² -2.136e-03 psi, V @@ -3142,18 +3142,18 @@ Sorbedhfo 6.596e-03 m² for 1.099e-05 g Water in diffuse layer: 6.596e-12 kg, 0.1% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.729e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 8.370e+02 (= c_DL / c_free if z is +1). Element Moles - Ca 2.3536e-12 + Ca 2.3537e-12 Cl 3.9381e-18 H 4.0132e-17 Na 2.7614e-12 - O 8.4761e-20 + O 8.4765e-20 Sorbedhfo_s 3.123e-09 moles @@ -3176,17 +3176,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.033e-11 0.000 1.033e-11 -10.986 Sua - 2.577e-25 Surface + diffuse layer charge, eq + 2.585e-25 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.243e-19 psi, V - 1.262e-17 -F*psi/RT + -3.251e-19 psi, V + 1.265e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 33.1% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.138e-08 V. @@ -3207,17 +3207,17 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - 5.157e-25 Surface + diffuse layer charge, eq + 5.167e-25 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.243e-19 psi, V - 1.262e-17 -F*psi/RT + -3.248e-19 psi, V + 1.264e-17 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 3.000e+00 m² for 3.000e-04 g Water in diffuse layer: 3.000e-09 kg, 66.3% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -3.138e-08 V. @@ -3256,14 +3256,14 @@ Hfo 6.593e-03 m² for 1.099e-05 g Water in diffuse layer: 6.593e-12 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.409e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.727e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 2.7922e-30 + Ca 2.7924e-30 Cl 4.8077e-10 H 4.2709e-14 Na 1.4202e-21 @@ -3300,14 +3300,14 @@ Sorbedhfo 3.958e-09 m² for 6.596e-12 g Water in diffuse layer: 3.958e-18 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.409e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.727e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 1.6762e-36 + Ca 1.6763e-36 Cl 2.8861e-16 H 2.5638e-20 Na 8.5254e-28 @@ -3344,7 +3344,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.249e-07 V. @@ -3355,7 +3355,7 @@ Sua Cl 1.8882e-21 H 1.4118e-23 Na 1.8706e-21 - O 1.8101e-25 + O 1.8102e-25 Sua 1.500e-15 moles @@ -3375,7 +3375,7 @@ Sub 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.249e-07 V. @@ -3386,7 +3386,7 @@ Sub Cl 1.8882e-21 H 1.4118e-23 Na 1.8706e-21 - O 1.8101e-25 + O 1.8102e-25 Sub 1.500e-15 moles @@ -3414,7 +3414,7 @@ Hfo 5.280e+01 m² for 8.800e-02 g Water in diffuse layer: 5.280e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.840e-01 V. @@ -3448,7 +3448,7 @@ Hfo_w Hfo_wOCa+ 8.324e-10 0.000 8.324e-10 -9.080 Sua - -8.057e-19 Surface + diffuse layer charge, eq + -8.056e-19 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² 1.672e-16 psi, V @@ -3458,7 +3458,7 @@ Sua 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -3479,7 +3479,7 @@ Sua Sua 1.000e-03 1.000 1.000e-03 -3.000 Sub - -8.057e-19 Surface + diffuse layer charge, eq + -8.056e-19 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² 1.672e-16 psi, V @@ -3489,7 +3489,7 @@ Sub 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 49.9% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.562e-05 V. @@ -3518,7 +3518,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -3.210e-14 Surface + diffuse layer charge, eq + -3.209e-14 Surface + diffuse layer charge, eq 3.381e-06 Surface charge, eq 6.183e-03 sigma, C/m² 6.734e-02 psi, V @@ -3528,7 +3528,7 @@ Hfo 5.277e+01 m² for 8.796e-02 g Water in diffuse layer: 5.277e-08 kg, 0.3% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.860e-01 V. @@ -3572,7 +3572,7 @@ Sorbedhfo 7.916e+01 m² for 1.319e-01 g Water in diffuse layer: 7.916e-08 kg, 0.5% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.860e-01 V. @@ -3606,17 +3606,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 1.004e-09 0.000 1.004e-09 -8.998 Sua - 2.376e-18 Surface + diffuse layer charge, eq + 2.375e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -6.535e-16 psi, V - 2.544e-14 -F*psi/RT + -6.534e-16 psi, V + 2.543e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.999e+03 m² for 4.999e-01 g Water in diffuse layer: 4.999e-06 kg, 33.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.733e-05 V. @@ -3637,17 +3637,17 @@ Sua Sua 4.999e-04 1.000 4.999e-04 -3.301 Sub - 4.753e-18 Surface + diffuse layer charge, eq + 4.752e-18 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -6.535e-16 psi, V - 2.544e-14 -F*psi/RT + -6.534e-16 psi, V + 2.543e-14 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.000e+04 m² for 1.000e+00 g Water in diffuse layer: 1.000e-05 kg, 66.1% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.733e-05 V. @@ -3658,7 +3658,7 @@ Sub Cl 9.3831e-09 H 2.1051e-12 Na 9.3641e-09 - O 9.7746e-13 + O 9.7747e-13 Sub 1.000e-03 moles @@ -3686,7 +3686,7 @@ Hfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.442e-01 V. @@ -3730,7 +3730,7 @@ Sorbedhfo 2.637e+01 m² for 4.396e-02 g Water in diffuse layer: 2.637e-08 kg, 0.2% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.442e-01 V. @@ -3774,7 +3774,7 @@ Sua 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.711e-05 V. @@ -3805,7 +3805,7 @@ Sub 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 99.6% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.711e-05 V. @@ -3814,7 +3814,7 @@ Sub Element Moles Ca 6.5879e-12 Cl 1.0332e-08 - H 1.1635e-11 + H 1.1636e-11 Na 1.0330e-08 O 1.1411e-11 @@ -3844,7 +3844,7 @@ Hfo 1.318e+01 m² for 2.197e-02 g Water in diffuse layer: 1.318e-08 kg, 0.1% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.375e-01 V. @@ -3888,14 +3888,14 @@ Sorbedhfo 6.590e+00 m² for 1.098e-02 g Water in diffuse layer: 6.590e-09 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.375e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.972e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 8.5832e-27 + Ca 8.5835e-27 Cl 1.0416e-06 H 1.9682e-11 Na 4.0434e-18 @@ -3932,7 +3932,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 8.204e-05 V. @@ -3943,7 +3943,7 @@ Sua Cl 4.6884e-21 H 2.6865e-23 Na 4.6522e-21 - O 1.0187e-25 + O 1.0188e-25 Sua 1.500e-15 moles @@ -3963,7 +3963,7 @@ Sub 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 99.9% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 8.204e-05 V. @@ -3974,7 +3974,7 @@ Sub Cl 4.6894e-09 H 2.6871e-11 Na 4.6532e-09 - O 1.0189e-13 + O 1.0190e-13 Sub 1.500e-03 moles @@ -3992,7 +3992,7 @@ Adapting surface in 4 Diffuse Double Layer Surface-Complexation Model Hfo - 3.287e-16 Surface + diffuse layer charge, eq + 3.143e-16 Surface + diffuse layer charge, eq 1.645e-08 Surface charge, eq 2.408e-04 sigma, C/m² 9.907e-02 psi, V @@ -4002,7 +4002,7 @@ Hfo 6.590e+00 m² for 1.098e-02 g Water in diffuse layer: 6.590e-09 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.038e-01 V. @@ -4036,17 +4036,17 @@ Hfo_w Hfo_wOCa+ 4.534e-16 0.000 4.534e-16 -15.344 Sua - -2.372e-42 Surface + diffuse layer charge, eq + -2.221e-42 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.074e-19 psi, V - 4.182e-18 -F*psi/RT + -1.680e-19 psi, V + 6.541e-18 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e-16 m² for 1.500e-20 g Water in diffuse layer: 1.500e-25 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.228e-05 V. @@ -4067,17 +4067,17 @@ Sua Sua 1.500e-23 1.000 1.500e-23 -22.824 Sub - -2.372e-22 Surface + diffuse layer charge, eq + -2.221e-22 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -1.074e-19 psi, V - 4.182e-18 -F*psi/RT + -1.680e-19 psi, V + 6.541e-18 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -4.228e-05 V. @@ -4106,7 +4106,7 @@ Adapting surface in 5 Diffuse Double Layer Surface-Complexation Model Hfo - 8.865e-21 Surface + diffuse layer charge, eq + 8.986e-21 Surface + diffuse layer charge, eq 2.257e-09 Surface charge, eq 4.401e-03 sigma, C/m² 5.298e-02 psi, V @@ -4116,17 +4116,17 @@ Hfo 4.948e-02 m² for 8.247e-05 g Water in diffuse layer: 4.948e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.772e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.058e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 2.2258e-26 - Cl 2.2561e-09 + Ca 2.2257e-26 + Cl 2.2562e-09 H 4.0863e-13 - Na 9.5357e-19 + Na 9.5356e-19 O 4.0863e-13 Hfo_s @@ -4137,7 +4137,7 @@ Hfo_s Hfo_sOH 1.796e-08 0.767 1.796e-08 -7.746 Hfo_sOH2+ 2.747e-09 0.117 2.747e-09 -8.561 Hfo_sO- 2.692e-09 0.115 2.692e-09 -8.570 - Hfo_sOHCa+2 2.537e-11 0.001 2.537e-11 -10.596 + Hfo_sOHCa+2 2.536e-11 0.001 2.536e-11 -10.596 Hfo_w 9.137e-07 moles @@ -4147,10 +4147,10 @@ Hfo_w Hfo_wOH 7.014e-07 0.768 7.014e-07 -6.154 Hfo_wOH2+ 1.072e-07 0.117 1.072e-07 -6.970 Hfo_wO- 1.051e-07 0.115 1.051e-07 -6.978 - Hfo_wOCa+ 1.912e-12 0.000 1.912e-12 -11.719 + Hfo_wOCa+ 1.911e-12 0.000 1.911e-12 -11.719 Sorbedhfo - 8.907e-21 Surface + diffuse layer charge, eq + 9.450e-21 Surface + diffuse layer charge, eq 2.558e-09 Surface charge, eq 4.401e-03 sigma, C/m² 5.298e-02 psi, V @@ -4160,15 +4160,15 @@ Sorbedhfo 5.609e-02 m² for 9.348e-05 g Water in diffuse layer: 5.609e-11 kg, 0.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 2.772e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.058e-05 (= c_DL / c_free if z is +1). Element Moles - Ca 2.5230e-26 - Cl 2.5574e-09 + Ca 2.5229e-26 + Cl 2.5575e-09 H 4.6320e-13 Na 1.0809e-18 O 4.6320e-13 @@ -4194,20 +4194,20 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 2.167e-12 0.000 2.167e-12 -11.664 Sua - 9.446e-24 Surface + diffuse layer charge, eq + 1.551e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.287e-21 psi, V - 1.279e-19 -F*psi/RT + -3.330e-21 psi, V + 1.296e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.998e+03 m² for 4.998e-01 g Water in diffuse layer: 4.998e-06 kg, 25.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.676e-08 V. + Donnan Layer potential, psi_DL = -1.677e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -4215,7 +4215,7 @@ Sua Cl 4.6899e-09 H 1.1772e-12 Na 4.6810e-09 - O 8.5398e-13 + O 8.5396e-13 Sua 4.998e-04 moles @@ -4225,20 +4225,20 @@ Sua Sua 4.998e-04 1.000 4.998e-04 -3.301 Sub - 3.458e-23 Surface + diffuse layer charge, eq + 3.665e-23 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - -3.633e-21 psi, V - 1.414e-19 -F*psi/RT + -3.344e-21 psi, V + 1.302e-19 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+04 m² for 1.500e+00 g Water in diffuse layer: 1.500e-05 kg, 75.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. - Donnan Layer potential, psi_DL = -1.676e-08 V. + Donnan Layer potential, psi_DL = -1.677e-08 V. Boltzmann factor, exp(-psi_DL * F / RT) = 1.000e+00 (= c_DL / c_free if z is +1). Element Moles @@ -4246,7 +4246,7 @@ Sub Cl 1.4074e-08 H 3.5326e-12 Na 1.4048e-08 - O 2.5628e-12 + O 2.5627e-12 Sub 1.500e-03 moles @@ -4274,7 +4274,7 @@ Hfo 2.308e-02 m² for 3.847e-05 g Water in diffuse layer: 2.308e-11 kg, 0.4% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.318e-01 V. @@ -4308,7 +4308,7 @@ Hfo_w Hfo_wOCa+ 3.996e-16 0.000 3.996e-16 -15.398 Sorbedhfo - 9.993e-19 Surface + diffuse layer charge, eq + 9.991e-19 Surface + diffuse layer charge, eq 4.628e-09 Surface charge, eq 2.708e-02 sigma, C/m² 1.475e-01 psi, V @@ -4318,14 +4318,14 @@ Sorbedhfo 1.649e-02 m² for 2.748e-05 g Water in diffuse layer: 1.649e-11 kg, 0.3% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 3.318e-01 V. Boltzmann factor, exp(-psi_DL * F / RT) = 2.456e-06 (= c_DL / c_free if z is +1). Element Moles - Ca 7.0673e-29 + Ca 7.0677e-29 Cl 4.6279e-09 H 2.7220e-14 Na 2.7759e-20 @@ -4352,17 +4352,17 @@ Sorbedhfo_w Sorbedhfo_wOCa+ 2.855e-16 0.000 2.855e-16 -15.544 Sua - -2.557e-27 Surface + diffuse layer charge, eq + -1.398e-27 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 1.863e-21 psi, V - -7.251e-20 -F*psi/RT + 1.413e-21 psi, V + -5.499e-20 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 1.500e+00 m² for 1.500e-04 g Water in diffuse layer: 1.500e-09 kg, 24.8% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.281e-08 V. @@ -4373,7 +4373,7 @@ Sua Cl 1.0340e-12 H 3.9796e-15 Na 1.0280e-12 - O 7.4148e-18 + O 7.4162e-18 Sua 1.500e-07 moles @@ -4383,17 +4383,17 @@ Sua Sua 1.500e-07 1.000 1.500e-07 -6.824 Sub - -8.480e-27 Surface + diffuse layer charge, eq + -1.924e-27 Surface + diffuse layer charge, eq 0.000e+00 Surface charge, eq 0.000e+00 sigma, C/m² - 2.246e-21 psi, V - -8.743e-20 -F*psi/RT + 1.231e-21 psi, V + -4.791e-20 -F*psi/RT 1.000e+00 exp(-F*psi/RT) 1.000e+04 specific area, m²/g 4.500e+00 m² for 4.500e-04 g Water in diffuse layer: 4.500e-09 kg, 74.5% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.281e-08 V. @@ -4404,7 +4404,7 @@ Sub Cl 3.1021e-12 H 1.1939e-14 Na 3.0840e-12 - O 2.2244e-17 + O 2.2248e-17 Sub 4.500e-07 moles @@ -4432,7 +4432,7 @@ Hfo 9.888e-03 m² for 1.648e-05 g Water in diffuse layer: 9.888e-12 kg, 75.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.043e-01 V. @@ -4476,7 +4476,7 @@ Sorbedhfo 3.297e-03 m² for 5.494e-06 g Water in diffuse layer: 3.297e-12 kg, 25.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -2.043e-01 V. @@ -4520,7 +4520,7 @@ Sua 1.500e-08 m² for 1.500e-12 g Water in diffuse layer: 1.500e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.013e-08 V. @@ -4551,7 +4551,7 @@ Sub 2.999e-08 m² for 2.999e-12 g Water in diffuse layer: 2.999e-17 kg, 0.0% of total DDL-water. - viscosity: 0.89003 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -5.013e-08 V. diff --git a/mytest/sc6b_101.sel b/mytest/sc6b_101.sel index 3f144780..d527055b 100644 --- a/mytest/sc6b_101.sel +++ b/mytest/sc6b_101.sel @@ -20,26 +20,26 @@ 0.000000250961 0.0547010257 0.000000100645 0.0546913856 0.001002104164 0.0560854657 - 0.000751503770 0.0610303080 + 0.000751503787 0.0610303080 0.000250959478 0.0737216964 0.000000250955 0.0546990453 0.000000100645 0.0546913856 - 0.000751429740 0.0549196330 + 0.000751429723 0.0549196318 0.000250827741 0.1817421330 0.000000250940 0.0547215808 0.001002104164 0.0560854580 - 0.000876794928 0.0576444288 - 0.000500442977 0.1678079318 - 0.000126002661 0.0584141959 + 0.000876794952 0.0576444361 + 0.000500442993 0.1678079314 + 0.000126002661 0.0584141968 0.000000100645 0.0546913885 - 0.000876722598 0.0598212919 - 0.000501674219 0.2888425724 - 0.000126057710 0.3239044411 + 0.000876722555 0.0598210593 + 0.000501674220 0.2888425834 + 0.000126057710 0.3239044459 0.001002104164 0.0560854581 - 0.000939351895 0.0574426535 - 0.000690081297 0.1527159525 - 0.000312947907 0.6201279003 + 0.000939351916 0.0574426215 + 0.000690081329 0.1527158974 + 0.000312947918 0.6201279147 0.000000372004 0.1331364779 - 0.000939402801 0.0550433085 - 0.000690081520 0.9147314983 - 0.000314067846 0.4634003601 + 0.000939402740 0.0550430118 + 0.000690081513 0.9147311761 + 0.000314067852 0.4634003877 diff --git a/mytest/sc7.out b/mytest/sc7.out index 4c0b1b73..d9bae606 100644 --- a/mytest/sc7.out +++ b/mytest/sc7.out @@ -2072,7 +2072,7 @@ Adapting surface in 8 Diffuse Double Layer Surface-Complexation Model Hfo - 5.739e-17 Surface + diffuse layer charge, eq + 5.740e-17 Surface + diffuse layer charge, eq 6.740e-08 Surface charge, eq 2.075e-02 sigma, C/m² 8.952e-02 psi, V @@ -4254,7 +4254,7 @@ Adapting surface in 11 Diffuse Double Layer Surface-Complexation Model Hfo - -3.072e-16 Surface + diffuse layer charge, eq + -3.071e-16 Surface + diffuse layer charge, eq 3.015e-08 Surface charge, eq 1.733e-02 sigma, C/m² 8.140e-02 psi, V @@ -13064,7 +13064,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 7.510e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 1.6522e-17 + Ca 1.6521e-17 Cl 7.5949e-07 H 5.8813e-11 Na 3.8411e-13 @@ -16350,7 +16350,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.699e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 5.3974e-19 + Ca 5.3973e-19 Cl 1.6475e-07 H 1.1246e-11 Na 3.4015e-14 @@ -16396,7 +16396,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.862e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 8.9810e-17 + Ca 8.9809e-17 Cl 2.4745e-05 H 1.6891e-09 Na 5.4702e-12 @@ -17458,7 +17458,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.447e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 4.5333e-17 + Ca 4.5332e-17 Cl 2.3386e-05 H 1.7346e-09 Na 4.4120e-12 @@ -18377,7 +18377,7 @@ Hfo Ca 8.3361e-21 Cl 1.0860e-08 H 1.3562e-12 - Na 2.5194e-15 + Na 2.5193e-15 O 5.3768e-12 U 3.6702e-13 @@ -18420,7 +18420,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 5.025e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 1.6440e-17 + Ca 1.6439e-17 Cl 1.9281e-05 H 2.4077e-09 Na 4.7974e-12 @@ -19482,7 +19482,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.751e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 8.8018e-26 + Ca 8.8017e-26 Cl 1.9795e-13 H 2.1141e-17 Na 4.4255e-20 @@ -19625,7 +19625,7 @@ Hfo 2.888e-02 sigma, C/m² 1.346e-01 psi, V -5.238e+00 -F*psi/RT - 5.314e-03 exp(-F*psi/RT) + 5.313e-03 exp(-F*psi/RT) 6.000e+02 specific area, m²/g 2.026e+01 m² for 3.376e-02 g @@ -20598,7 +20598,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.421e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 2.2145e-18 + Ca 2.2144e-18 Cl 4.1569e-06 H 4.1069e-10 Na 8.0122e-13 @@ -22844,7 +22844,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.377e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 9.7139e-18 + Ca 9.7138e-18 Cl 1.9810e-05 H 1.7668e-09 Na 3.7446e-12 @@ -23414,7 +23414,7 @@ Hfo_s Hfo_sOH 1.145e-08 0.010 1.145e-08 -7.941 Hfo_sO- 5.046e-09 0.005 5.046e-09 -8.297 Hfo_sOH2+ 5.956e-10 0.001 5.956e-10 -9.225 - Hfo_sOHCa+2 8.113e-12 0.000 8.114e-12 -11.091 + Hfo_sOHCa+2 8.113e-12 0.000 8.113e-12 -11.091 Hfo_w 4.361e-05 moles @@ -24920,7 +24920,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.503e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 4.1039e-34 + Ca 4.1038e-34 Cl 1.8518e-21 H 1.7380e-25 Na 3.7305e-28 @@ -25420,7 +25420,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.834e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 3.8012e-17 + Ca 3.8011e-17 Cl 9.2259e-06 H 5.9874e-10 Na 1.9942e-12 @@ -27360,7 +27360,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.295e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 1.4833e-17 + Ca 1.4832e-17 Cl 1.3074e-05 H 9.7626e-10 Na 2.3381e-12 @@ -27792,7 +27792,7 @@ Hfo_s Hfo_sOH 6.007e-09 0.015 6.007e-09 -8.221 Hfo_sO- 2.142e-09 0.005 2.142e-09 -8.669 Hfo_sOH2+ 3.860e-10 0.001 3.860e-10 -9.413 - Hfo_sOHCa+2 3.160e-14 0.000 3.160e-14 -13.500 + Hfo_sOHCa+2 3.159e-14 0.000 3.159e-14 -13.500 Hfo_w 1.570e-05 moles @@ -28428,7 +28428,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.179e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 1.6878e-17 + Ca 1.6877e-17 Cl 1.4655e-05 H 1.0688e-09 Na 2.4735e-12 @@ -29103,7 +29103,7 @@ Sfo_s Sfo_sOH 6.255e-26 0.000 6.255e-26 -25.204 Sfo_sO- 3.136e-26 0.000 3.136e-26 -25.504 Sfo_sOH2+ 2.858e-27 0.000 2.858e-27 -26.544 - Sfo_sOHCa+2 2.551e-31 0.000 2.551e-31 -30.593 + Sfo_sOHCa+2 2.550e-31 0.000 2.550e-31 -30.593 Sfo_sOHUO2+2 8.287e-33 0.000 8.287e-33 -32.082 Sfo_w @@ -29630,7 +29630,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.098e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 1.3446e-17 + Ca 1.3445e-17 Cl 1.0587e-05 H 7.9210e-10 Na 1.7082e-12 @@ -30420,7 +30420,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.020e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 7.9065e-18 + Ca 7.9064e-18 Cl 1.5504e-05 H 1.1501e-09 Na 2.4618e-12 @@ -30704,7 +30704,7 @@ Adapting surface in 11 Diffuse Double Layer Surface-Complexation Model Hfo - 2.360e-11 Surface + diffuse layer charge, eq + 2.361e-11 Surface + diffuse layer charge, eq 8.373e-06 Surface charge, eq 2.916e-02 sigma, C/m² 1.068e-01 psi, V @@ -31658,7 +31658,7 @@ Sfo Element Moles Ca 7.9385e-18 Cl 1.2066e-05 - H 9.0424e-10 + H 9.0425e-10 Na 2.0056e-12 O 4.3903e-09 U 2.4191e-10 @@ -31833,7 +31833,7 @@ Sfo_w Sfo_wOH 4.699e-26 0.000 4.699e-26 -25.328 Sfo_wOUO2+ 2.644e-27 0.000 2.644e-27 -26.578 Sfo_wOH2+ 1.020e-27 0.000 1.020e-27 -26.991 - Sfo_wOCa+ 9.485e-35 0.000 9.485e-35 -34.023 + Sfo_wOCa+ 9.484e-35 0.000 9.484e-35 -34.023 ----------------------------------User print----------------------------------- @@ -32124,7 +32124,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 5.545e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 9.0896e-20 + Ca 9.0895e-20 Cl 9.5529e-07 H 1.4182e-10 Na 2.9312e-13 @@ -32634,7 +32634,7 @@ Sfo Boltzmann factor, exp(-psi_DL * F / RT) = 4.098e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 6.8144e-18 + Ca 6.8143e-18 Cl 1.5202e-05 H 1.0958e-09 Na 2.5147e-12 @@ -34654,7 +34654,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -3.427e-17 Surface + diffuse layer charge, eq + -3.428e-17 Surface + diffuse layer charge, eq 2.952e-09 Surface charge, eq 8.313e-03 sigma, C/m² 7.945e-02 psi, V @@ -34670,7 +34670,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 1.161e-03 (= c_DL / c_free if z is +1). Element Moles - Ca 1.7130e-23 + Ca 1.7129e-23 Cl 2.9511e-09 H 5.5861e-13 Na 3.9780e-15 @@ -36420,7 +36420,7 @@ Hfo_s Hfo_sOH 8.797e-08 0.013 8.797e-08 -7.056 Hfo_sO- 3.355e-08 0.005 3.355e-08 -7.474 Hfo_sOH2+ 5.284e-09 0.001 5.284e-09 -8.277 - Hfo_sOHCa+2 5.893e-13 0.000 5.893e-13 -12.230 + Hfo_sOHCa+2 5.892e-13 0.000 5.892e-13 -12.230 Hfo_w 2.627e-04 moles @@ -36626,7 +36626,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -4.852e-20 Surface + diffuse layer charge, eq + -4.805e-20 Surface + diffuse layer charge, eq 3.451e-09 Surface charge, eq 8.453e-03 sigma, C/m² 8.024e-02 psi, V @@ -37568,7 +37568,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -7.610e-20 Surface + diffuse layer charge, eq + -7.674e-20 Surface + diffuse layer charge, eq 2.133e-09 Surface charge, eq 8.134e-03 sigma, C/m² 7.843e-02 psi, V @@ -37584,7 +37584,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 1.187e-03 (= c_DL / c_free if z is +1). Element Moles - Ca 9.7172e-24 + Ca 9.7171e-24 Cl 2.1328e-09 H 3.8290e-13 Na 3.0027e-15 @@ -38422,7 +38422,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -4.273e-20 Surface + diffuse layer charge, eq + -4.287e-20 Surface + diffuse layer charge, eq 4.264e-10 Surface charge, eq 7.170e-03 sigma, C/m² 7.261e-02 psi, V @@ -38510,7 +38510,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -9.415e-20 Surface + diffuse layer charge, eq + -9.407e-20 Surface + diffuse layer charge, eq 1.320e-09 Surface charge, eq 7.826e-03 sigma, C/m² 7.663e-02 psi, V @@ -38790,7 +38790,7 @@ Hfo Boltzmann factor, exp(-psi_DL * F / RT) = 9.645e-04 (= c_DL / c_free if z is +1). Element Moles - Ca 6.6455e-22 + Ca 6.6454e-22 Cl 2.7090e-08 H 7.6824e-12 Na 2.5198e-14 @@ -39364,7 +39364,7 @@ Adapting surface in 1 Diffuse Double Layer Surface-Complexation Model Hfo - -4.313e-21 Surface + diffuse layer charge, eq + -4.307e-21 Surface + diffuse layer charge, eq 2.661e-10 Surface charge, eq 6.969e-03 sigma, C/m² 7.131e-02 psi, V @@ -39452,7 +39452,7 @@ Adapting surface in 2 Diffuse Double Layer Surface-Complexation Model Hfo - -7.180e-19 Surface + diffuse layer charge, eq + -7.176e-19 Surface + diffuse layer charge, eq 8.186e-10 Surface charge, eq 7.539e-03 sigma, C/m² 7.490e-02 psi, V diff --git a/mytest/sc7_101.sel b/mytest/sc7_101.sel index 209f7bfe..e46c82f7 100644 --- a/mytest/sc7_101.sel +++ b/mytest/sc7_101.sel @@ -8,40 +8,40 @@ 0.004000102909 0.0000000000 0.004000138020 0.0000000000 0.004070649113 0.0000000000 - 0.004432108830 0.0000000000 - 0.005188359816 0.0000000000 - 0.006248589893 0.0000000000 - 0.007437947864 0.0000000000 - 0.008598628797 0.0000000000 - 0.009630088781 0.0000000000 - 0.009630059558 0.0000000000 - 0.010488030777 0.0000000000 - 0.011167859004 0.0000000000 - 0.011687137158 0.0000000000 - 0.011979272783 0.0000000000 - 0.011778861547 0.0000000000 - 0.010972264699 0.0000000000 - 0.009700673520 0.0000000000 - 0.008213263254 0.0000000000 - 0.006732925292 0.0000000000 - 0.005403140317 0.0000000000 - 0.004289837945 0.0000000000 - 0.003403997976 0.0000000000 - 0.002725396797 0.0000000000 - 0.002220375614 0.0000000000 - 0.001852868783 0.0000000000 - 0.001590075966 0.0000000000 - 0.001404984240 0.0000000000 - 0.001275989983 0.0000000000 - 0.001187242330 0.0000000000 - 0.001126415778 0.0000000000 - 0.001085163423 0.0000000000 - 0.001057393620 0.0000000000 - 0.001038674956 0.0000000000 - 0.001026067790 0.0000000000 - 0.001017575990 0.0000000000 - 0.001011852356 0.0000000000 - 0.001007993076 0.0000000000 - 0.001005392823 0.0000000000 - 0.001003645112 0.0000000000 - 0.001002475138 0.0000000000 + 0.004432108829 0.0000000000 + 0.005188359814 0.0000000000 + 0.006248589887 0.0000000000 + 0.007437947854 0.0000000000 + 0.008598628784 0.0000000000 + 0.009630088768 0.0000000000 + 0.009630059544 0.0000000000 + 0.010488030766 0.0000000000 + 0.011167858996 0.0000000000 + 0.011687137162 0.0000000000 + 0.011979272901 0.0000000000 + 0.011778861855 0.0000000000 + 0.010972265169 0.0000000000 + 0.009700674063 0.0000000000 + 0.008213263771 0.0000000000 + 0.006732925705 0.0000000000 + 0.005403140580 0.0000000000 + 0.004289838040 0.0000000000 + 0.003403997900 0.0000000000 + 0.002725396581 0.0000000000 + 0.002220375312 0.0000000000 + 0.001852868445 0.0000000000 + 0.001590075635 0.0000000000 + 0.001404983941 0.0000000000 + 0.001275989727 0.0000000000 + 0.001187242120 0.0000000000 + 0.001126415606 0.0000000000 + 0.001085163288 0.0000000000 + 0.001057393519 0.0000000000 + 0.001038674885 0.0000000000 + 0.001026067740 0.0000000000 + 0.001017575955 0.0000000000 + 0.001011852333 0.0000000000 + 0.001007993060 0.0000000000 + 0.001005392813 0.0000000000 + 0.001003645105 0.0000000000 + 0.001002475133 0.0000000000 diff --git a/mytest/seaw.out b/mytest/seaw.out index 199c175e..c34f411f 100644 --- a/mytest/seaw.out +++ b/mytest/seaw.out @@ -186,10 +186,10 @@ Using temperature 1. pH = 9.275 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 28148 + Specific Conductance (µS/cm, 0°C) = 28158 Density (g/cm³) = 1.02810 Volume (L) = 1.00802 - Viscosity (mPa s) = 1.91035 + Viscosity (mPa s) = 1.90956 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -286,10 +286,10 @@ Using temperature 1. pH = 9.062 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 32729 + Specific Conductance (µS/cm, 5°C) = 32737 Density (g/cm³) = 1.02763 Volume (L) = 1.00847 - Viscosity (mPa s) = 1.62280 + Viscosity (mPa s) = 1.62225 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -386,10 +386,10 @@ Using temperature 1. pH = 8.859 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 37488 + Specific Conductance (µS/cm, 10°C) = 37496 Density (g/cm³) = 1.02689 Volume (L) = 1.00920 - Viscosity (mPa s) = 1.39921 + Viscosity (mPa s) = 1.39884 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -486,10 +486,10 @@ Using temperature 1. pH = 8.665 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 42405 + Specific Conductance (µS/cm, 15°C) = 42411 Density (g/cm³) = 1.02591 Volume (L) = 1.01017 - Viscosity (mPa s) = 1.22153 + Viscosity (mPa s) = 1.22131 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -586,10 +586,10 @@ Using temperature 1. pH = 8.479 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 47461 + Specific Conductance (µS/cm, 20°C) = 47464 Density (g/cm³) = 1.02470 Volume (L) = 1.01136 - Viscosity (mPa s) = 1.07772 + Viscosity (mPa s) = 1.07762 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -786,10 +786,10 @@ Using temperature 1. pH = 8.129 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 57918 + Specific Conductance (µS/cm, 30°C) = 57913 Density (g/cm³) = 1.02167 Volume (L) = 1.01435 - Viscosity (mPa s) = 0.86098 + Viscosity (mPa s) = 0.86106 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -886,10 +886,10 @@ Using temperature 1. pH = 7.964 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 63287 + Specific Conductance (µS/cm, 35°C) = 63278 Density (g/cm³) = 1.01989 Volume (L) = 1.01613 - Viscosity (mPa s) = 0.77793 + Viscosity (mPa s) = 0.77808 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -986,10 +986,10 @@ Using temperature 1. pH = 7.806 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 68732 + Specific Conductance (µS/cm, 40°C) = 68715 Density (g/cm³) = 1.01793 Volume (L) = 1.01809 - Viscosity (mPa s) = 0.70720 + Viscosity (mPa s) = 0.70742 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -1086,10 +1086,10 @@ Using temperature 1. pH = 7.654 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 45°C) = 74236 + Specific Conductance (µS/cm, 45°C) = 74212 Density (g/cm³) = 1.01581 Volume (L) = 1.02020 - Viscosity (mPa s) = 0.64643 + Viscosity (mPa s) = 0.64670 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 @@ -1186,10 +1186,10 @@ Using temperature 1. pH = 7.508 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 79786 + Specific Conductance (µS/cm, 50°C) = 79753 Density (g/cm³) = 1.01355 Volume (L) = 1.02248 - Viscosity (mPa s) = 0.59381 + Viscosity (mPa s) = 0.59412 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.236e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/seaw_0_200C.out b/mytest/seaw_0_200C.out index 31c8a900..f412ff85 100644 --- a/mytest/seaw_0_200C.out +++ b/mytest/seaw_0_200C.out @@ -197,10 +197,10 @@ Using temperature 1. pH = 8.604 Charge balance pe = 11.651 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 28405 + Specific Conductance (µS/cm, 0°C) = 28413 Density (g/cm³) = 1.02805 Volume (L) = 1.00807 - Viscosity (mPa s) = 1.91064 + Viscosity (mPa s) = 1.90988 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.774e-01 Mass of water (kg) = 1.000e+00 @@ -327,10 +327,10 @@ Using temperature 1. pH = 8.288 Charge balance pe = 10.133 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 47711 + Specific Conductance (µS/cm, 20°C) = 47714 Density (g/cm³) = 1.02469 Volume (L) = 1.01138 - Viscosity (mPa s) = 1.07846 + Viscosity (mPa s) = 1.07837 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.718e-01 Mass of water (kg) = 1.000e+00 @@ -457,10 +457,10 @@ Using temperature 1. pH = 8.029 Charge balance pe = 8.785 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 68828 + Specific Conductance (µS/cm, 40°C) = 68813 Density (g/cm³) = 1.01792 Volume (L) = 1.01811 - Viscosity (mPa s) = 0.70810 + Viscosity (mPa s) = 0.70830 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.667e-01 Mass of water (kg) = 1.000e+00 @@ -587,10 +587,10 @@ Using temperature 1. pH = 7.776 Charge balance pe = 7.797 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 90662 + Specific Conductance (µS/cm, 60°C) = 90614 Density (g/cm³) = 1.00857 Volume (L) = 1.02754 - Viscosity (mPa s) = 0.50851 + Viscosity (mPa s) = 0.50888 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.615e-01 Mass of water (kg) = 1.000e+00 @@ -717,10 +717,10 @@ Using temperature 1. pH = 7.502 Charge balance pe = 6.648 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 80°C) = 112200 + Specific Conductance (µS/cm, 80°C) = 112098 Density (g/cm³) = 0.99712 Volume (L) = 1.03934 - Viscosity (mPa s) = 0.38806 + Viscosity (mPa s) = 0.38854 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.560e-01 Mass of water (kg) = 1.000e+00 @@ -847,10 +847,10 @@ Using temperature 1. pH = 7.224 Charge balance pe = 5.806 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 132559 + Specific Conductance (µS/cm, 100°C) = 132380 Density (g/cm³) = 0.98386 Volume (L) = 1.05335 - Viscosity (mPa s) = 0.30970 + Viscosity (mPa s) = 0.31027 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.507e-01 Mass of water (kg) = 1.000e+00 @@ -977,10 +977,10 @@ Using temperature 1. pH = 6.968 Charge balance pe = 5.058 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 120°C) = 151076 + Specific Conductance (µS/cm, 120°C) = 150795 Density (g/cm³) = 0.96899 Volume (L) = 1.06951 - Viscosity (mPa s) = 0.25587 + Viscosity (mPa s) = 0.25652 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.458e-01 Mass of water (kg) = 1.000e+00 @@ -1108,10 +1108,10 @@ Using temperature 1. pH = 6.743 Charge balance pe = 4.718 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 140°C) = 167360 + Specific Conductance (µS/cm, 140°C) = 166950 Density (g/cm³) = 0.95261 Volume (L) = 1.08790 - Viscosity (mPa s) = 0.21725 + Viscosity (mPa s) = 0.21797 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.420e-01 Mass of water (kg) = 1.000e+00 @@ -1239,10 +1239,10 @@ Using temperature 1. pH = 6.545 Charge balance pe = 4.912 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 160°C) = 181269 + Specific Conductance (µS/cm, 160°C) = 180701 Density (g/cm³) = 0.93477 Volume (L) = 1.10867 - Viscosity (mPa s) = 0.18848 + Viscosity (mPa s) = 0.18928 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.395e-01 Mass of water (kg) = 1.000e+00 @@ -1370,10 +1370,10 @@ Using temperature 1. pH = 6.363 Charge balance pe = 4.549 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 180°C) = 192881 + Specific Conductance (µS/cm, 180°C) = 192122 Density (g/cm³) = 0.91551 Volume (L) = 1.13200 - Viscosity (mPa s) = 0.16631 + Viscosity (mPa s) = 0.16719 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.387e-01 Mass of water (kg) = 1.000e+00 @@ -1501,10 +1501,10 @@ Using temperature 1. pH = 6.190 Charge balance pe = 3.984 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 202492 + Specific Conductance (µS/cm, 200°C) = 201505 Density (g/cm³) = 0.89483 Volume (L) = 1.15815 - Viscosity (mPa s) = 0.14860 + Viscosity (mPa s) = 0.14957 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.397e-01 Mass of water (kg) = 1.000e+00 @@ -2381,7 +2381,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 81937 Density (g/cm³) = 1.04058 Volume (L) = 0.60245 - Viscosity (mPa s) = 1.01200 + Viscosity (mPa s) = 1.01199 Activity of water = 0.967 Ionic strength (mol/kgw) = 1.129e+00 Mass of water (kg) = 5.905e-01 @@ -2954,7 +2954,7 @@ Reaction 1. pH = 8.005 Charge balance pe = 10.309 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 147829 + Specific Conductance (µS/cm, 25°C) = 147830 Density (g/cm³) = 1.08996 Volume (L) = 0.27463 Viscosity (mPa s) = 1.19726 diff --git a/mytest/seaw_0_200C_101.sel b/mytest/seaw_0_200C_101.sel index d03e2dc7..e98e4cc2 100644 --- a/mytest/seaw_0_200C_101.sel +++ b/mytest/seaw_0_200C_101.sel @@ -1,25 +1,25 @@ Mu SC Viscosity - 0.670495522551 52865.2999119983 0.9602954574 - 0.677353513645 28405.5504098810 1.9106407735 - 0.671763868589 47711.1509200573 1.0784591504 - 0.666720247041 68828.0350347581 0.7080984306 - 0.661483324182 90662.6513536985 0.5085060221 - 0.656014700548 112200.5483308057 0.3880581039 - 0.650650370079 132559.1330432295 0.3097022126 - 0.645836512417 151076.4527019899 0.2558745230 - 0.642003235938 167360.2401454106 0.2172467348 - 0.639516246476 181269.8369217539 0.1884793930 - 0.638683325573 192881.7679109774 0.1663135270 - 0.639718273383 202492.2353410581 0.1486045760 - 0.670495522551 52865.2999119983 0.9602954574 - 0.729658113503 56857.0330923923 0.9667283570 - 0.800353635274 61527.0470908322 0.9745020215 - 0.886327193359 67065.3449655410 0.9840861855 - 0.993144514881 73739.4667878066 0.9961988956 - 1.129452339081 81937.4244789575 1.0119951358 - 1.309454834421 92240.9744468947 1.0334574889 - 1.558237903120 105553.7846401287 1.0642947169 - 1.924671658869 123322.0021542150 1.1123253606 - 2.518409508871 147829.9889081669 1.1972574622 - 3.647424103741 181619.4914714939 1.3862882549 - 6.640474167972 211395.0420629759 2.1205960347 + 0.670495522551 52865.3053855995 0.9602953204 + 0.677353513645 28413.6749406185 1.9098842602 + 0.671763868589 47714.1662244219 1.0783651819 + 0.666720247041 68813.7473872407 0.7083006976 + 0.661483324182 90614.6536163078 0.5088759374 + 0.656014700548 112098.7948451235 0.3885407201 + 0.650650370079 132380.6192745020 0.3102724894 + 0.645836512417 150795.8449063483 0.2565218896 + 0.642003235938 166950.2451311794 0.2179684646 + 0.639516246476 180701.1346195056 0.1892774855 + 0.638683325573 192122.2809197285 0.1671931284 + 0.639718273383 201505.0683642970 0.1495730682 + 0.670495522551 52865.3053855995 0.9602953204 + 0.729658113503 56857.0391972263 0.9667282141 + 0.800353635274 61527.0539601786 0.9745018718 + 0.886327193359 67065.3527754746 0.9840860280 + 0.993144514881 73739.4757762451 0.9961987288 + 1.129452339081 81937.4349757008 1.0119949579 + 1.309454834421 92240.9869222024 1.0334572973 + 1.558237903120 105553.7997841360 1.0642945078 + 1.924671658869 123322.0210006752 1.1123251282 + 2.518409508871 147830.0129632451 1.1972571961 + 3.647424103741 181619.5222472733 1.3862879344 + 6.640474167972 211395.0736582234 2.1205956012 diff --git a/mytest/seaw_101.sel b/mytest/seaw_101.sel index 08e04456..fe37ebf0 100644 --- a/mytest/seaw_101.sel +++ b/mytest/seaw_101.sel @@ -1,25 +1,25 @@ Mu SC Viscosity - 0.723595449677 52637.4271723948 0.9594925709 - 0.723596012037 28148.9565268622 1.9103511986 - 0.723595945297 32729.1780670401 1.6228000899 - 0.723595853232 37488.7955129980 1.3992064526 - 0.723595738466 42405.9330592037 1.2215281742 - 0.723595603292 47461.3025718983 1.0777210313 - 0.723595449675 52637.4271724099 0.9594925709 - 0.723595279239 57918.0738333466 0.8609776288 - 0.723595093210 63287.8645333244 0.7779284166 - 0.723594892304 68732.0328001631 0.7072032698 - 0.723594676572 74236.2935820867 0.6464347422 - 0.723594445155 79786.7974684045 0.5938086847 + 0.723595449677 52637.4334074594 0.9594924265 + 0.723596012037 28158.1214438236 1.9095588778 + 0.723595945297 32737.9267039579 1.6222478378 + 0.723595853232 37496.5072879121 1.3988402207 + 0.723595738466 42411.8998819764 1.2213095970 + 0.723595603292 47464.7296286293 1.0776221201 + 0.723595449675 52637.4334074745 0.9594924265 + 0.723595279239 57913.6923489111 0.8610603325 + 0.723595093210 63278.0430675584 0.7780816371 + 0.723594892304 68715.6343893522 0.7074173169 + 0.723594676572 74212.0974616919 0.6467019092 + 0.723594445155 79753.5002257744 0.5941227808 0.000000100645 0.0546913895 0.8900243330 - 0.000000033957 0.0114043751 1.7917700371 - 0.000000043187 0.0163633726 1.5181812299 - 0.000000054255 0.0228582750 1.3059059967 - 0.000000067376 0.0311913481 1.1375723549 - 0.000000082768 0.0416878475 1.0015994024 + 0.000000033957 0.0114043755 1.7917700081 + 0.000000043187 0.0163633731 1.5181812062 + 0.000000054255 0.0228582757 1.3059059785 + 0.000000067376 0.0311913488 1.1375723424 + 0.000000082768 0.0416878480 1.0015993959 0.000000100645 0.0546913895 0.8900243330 - 0.000000121215 0.0705582403 0.7972224561 - 0.000000144672 0.0896506289 0.7191253193 - 0.000000171200 0.1123292367 0.6527276553 - 0.000000200961 0.1389450524 0.5957676009 - 0.000000234097 0.1698308096 0.5465140424 + 0.000000121215 0.0705582390 0.7972224631 + 0.000000144672 0.0896506252 0.7191253339 + 0.000000171200 0.1123292287 0.6527276781 + 0.000000200961 0.1389450373 0.5957676327 + 0.000000234097 0.1698307836 0.5465140839 diff --git a/mytest/seaw_Fabuss.out b/mytest/seaw_Fabuss.out index ddaf77c6..0f1977ac 100644 --- a/mytest/seaw_Fabuss.out +++ b/mytest/seaw_Fabuss.out @@ -522,10 +522,10 @@ Initial solution 1. pH = 6.345 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 67480 + Specific Conductance (µS/cm, 40°C) = 67466 Density (g/cm³) = 1.01735 Volume (L) = 1.01782 - Viscosity (mPa s) = 0.70744 + Viscosity (mPa s) = 0.70764 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.537e-01 Mass of water (kg) = 1.000e+00 @@ -606,10 +606,10 @@ Initial solution 2. pH = 6.261 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 94595 + Specific Conductance (µS/cm, 40°C) = 94572 Density (g/cm³) = 1.02939 Volume (L) = 1.02316 - Viscosity (mPa s) = 0.73629 + Viscosity (mPa s) = 0.73653 Activity of water = 0.972 Ionic strength (mol/kgw) = 9.776e-01 Mass of water (kg) = 1.000e+00 @@ -690,10 +690,10 @@ Initial solution 3. pH = 6.188 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 118877 + Specific Conductance (µS/cm, 40°C) = 118845 Density (g/cm³) = 1.04115 Volume (L) = 1.02865 - Viscosity (mPa s) = 0.76666 + Viscosity (mPa s) = 0.76695 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.301e+00 Mass of water (kg) = 1.000e+00 @@ -774,10 +774,10 @@ Initial solution 4. pH = 6.121 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 140670 + Specific Conductance (µS/cm, 40°C) = 140629 Density (g/cm³) = 1.05264 Volume (L) = 1.03427 - Viscosity (mPa s) = 0.79864 + Viscosity (mPa s) = 0.79895 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.624e+00 Mass of water (kg) = 1.000e+00 @@ -858,10 +858,10 @@ Initial solution 5. pH = 6.059 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 40°C) = 160211 + Specific Conductance (µS/cm, 40°C) = 160162 Density (g/cm³) = 1.06390 Volume (L) = 1.04000 - Viscosity (mPa s) = 0.83227 + Viscosity (mPa s) = 0.83262 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.948e+00 Mass of water (kg) = 1.000e+00 @@ -969,10 +969,10 @@ Initial solution 1. pH = 5.859 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 104941 + Specific Conductance (µS/cm, 75°C) = 104857 Density (g/cm³) = 0.99966 Volume (L) = 1.03590 - Viscosity (mPa s) = 0.41264 + Viscosity (mPa s) = 0.41309 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.446e-01 Mass of water (kg) = 1.000e+00 @@ -1053,10 +1053,10 @@ Initial solution 2. pH = 5.772 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 146750 + Specific Conductance (µS/cm, 75°C) = 146612 Density (g/cm³) = 1.01155 Volume (L) = 1.04130 - Viscosity (mPa s) = 0.43096 + Viscosity (mPa s) = 0.43151 Activity of water = 0.972 Ionic strength (mol/kgw) = 9.655e-01 Mass of water (kg) = 1.000e+00 @@ -1137,10 +1137,10 @@ Initial solution 3. pH = 5.696 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 184067 + Specific Conductance (µS/cm, 75°C) = 183875 Density (g/cm³) = 1.02317 Volume (L) = 1.04685 - Viscosity (mPa s) = 0.45004 + Viscosity (mPa s) = 0.45068 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.286e+00 Mass of water (kg) = 1.000e+00 @@ -1221,10 +1221,10 @@ Initial solution 4. pH = 5.627 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 217488 + Specific Conductance (µS/cm, 75°C) = 217245 Density (g/cm³) = 1.03454 Volume (L) = 1.05253 - Viscosity (mPa s) = 0.46990 + Viscosity (mPa s) = 0.47062 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.607e+00 Mass of water (kg) = 1.000e+00 @@ -1305,10 +1305,10 @@ Initial solution 5. pH = 5.562 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 247450 + Specific Conductance (µS/cm, 75°C) = 247159 Density (g/cm³) = 1.04568 Volume (L) = 1.05831 - Viscosity (mPa s) = 0.49055 + Viscosity (mPa s) = 0.49133 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.929e+00 Mass of water (kg) = 1.000e+00 @@ -1416,10 +1416,10 @@ Initial solution 1. pH = 5.588 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 130420 + Specific Conductance (µS/cm, 100°C) = 130246 Density (g/cm³) = 0.98344 Volume (L) = 1.05310 - Viscosity (mPa s) = 0.30923 + Viscosity (mPa s) = 0.30980 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.393e-01 Mass of water (kg) = 1.000e+00 @@ -1500,10 +1500,10 @@ Initial solution 2. pH = 5.500 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 182367 + Specific Conductance (µS/cm, 100°C) = 182081 Density (g/cm³) = 0.99543 Volume (L) = 1.05832 - Viscosity (mPa s) = 0.32351 + Viscosity (mPa s) = 0.32420 Activity of water = 0.972 Ionic strength (mol/kgw) = 9.585e-01 Mass of water (kg) = 1.000e+00 @@ -1584,10 +1584,10 @@ Initial solution 3. pH = 5.423 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 228751 + Specific Conductance (µS/cm, 100°C) = 228353 Density (g/cm³) = 1.00715 Volume (L) = 1.06371 - Viscosity (mPa s) = 0.33831 + Viscosity (mPa s) = 0.33911 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.278e+00 Mass of water (kg) = 1.000e+00 @@ -1668,10 +1668,10 @@ Initial solution 4. pH = 5.351 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 270336 + Specific Conductance (µS/cm, 100°C) = 269833 Density (g/cm³) = 1.01861 Volume (L) = 1.06924 - Viscosity (mPa s) = 0.35363 + Viscosity (mPa s) = 0.35453 Activity of water = 0.953 Ionic strength (mol/kgw) = 1.598e+00 Mass of water (kg) = 1.000e+00 @@ -1752,10 +1752,10 @@ Initial solution 5. pH = 5.284 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 307663 + Specific Conductance (µS/cm, 100°C) = 307062 Density (g/cm³) = 1.02985 Volume (L) = 1.07489 - Viscosity (mPa s) = 0.36949 + Viscosity (mPa s) = 0.37047 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.918e+00 Mass of water (kg) = 1.000e+00 @@ -1863,10 +1863,10 @@ Initial solution 1. pH = 5.367 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 153583 + Specific Conductance (µS/cm, 125°C) = 153278 Density (g/cm³) = 0.96476 Volume (L) = 1.07369 - Viscosity (mPa s) = 0.24476 + Viscosity (mPa s) = 0.24542 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.369e-01 Mass of water (kg) = 1.000e+00 @@ -1948,10 +1948,10 @@ Initial solution 2. pH = 5.277 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 214980 + Specific Conductance (µS/cm, 125°C) = 214479 Density (g/cm³) = 0.97702 Volume (L) = 1.07857 - Viscosity (mPa s) = 0.25636 + Viscosity (mPa s) = 0.25717 Activity of water = 0.971 Ionic strength (mol/kgw) = 9.559e-01 Mass of water (kg) = 1.000e+00 @@ -2033,10 +2033,10 @@ Initial solution 3. pH = 5.198 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 269917 + Specific Conductance (µS/cm, 125°C) = 269221 Density (g/cm³) = 0.98897 Volume (L) = 1.08366 - Viscosity (mPa s) = 0.26835 + Viscosity (mPa s) = 0.26929 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.275e+00 Mass of water (kg) = 1.000e+00 @@ -2118,10 +2118,10 @@ Initial solution 4. pH = 5.123 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 319279 + Specific Conductance (µS/cm, 125°C) = 318398 Density (g/cm³) = 1.00066 Volume (L) = 1.08892 - Viscosity (mPa s) = 0.28071 + Viscosity (mPa s) = 0.28176 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.596e+00 Mass of water (kg) = 1.000e+00 @@ -2203,10 +2203,10 @@ Initial solution 5. pH = 5.053 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 125°C) = 363697 + Specific Conductance (µS/cm, 125°C) = 362644 Density (g/cm³) = 1.01210 Volume (L) = 1.09432 - Viscosity (mPa s) = 0.29345 + Viscosity (mPa s) = 0.29460 Activity of water = 0.943 Ionic strength (mol/kgw) = 1.916e+00 Mass of water (kg) = 1.000e+00 @@ -2316,10 +2316,10 @@ Initial solution 1. pH = 5.183 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 174176 + Specific Conductance (µS/cm, 150°C) = 173691 Density (g/cm³) = 0.94387 Volume (L) = 1.09785 - Viscosity (mPa s) = 0.20180 + Viscosity (mPa s) = 0.20256 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.394e-01 Mass of water (kg) = 1.000e+00 @@ -2401,10 +2401,10 @@ Initial solution 2. pH = 5.091 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 244283 + Specific Conductance (µS/cm, 150°C) = 243487 Density (g/cm³) = 0.95658 Volume (L) = 1.10219 - Viscosity (mPa s) = 0.21155 + Viscosity (mPa s) = 0.21248 Activity of water = 0.971 Ionic strength (mol/kgw) = 9.607e-01 Mass of water (kg) = 1.000e+00 @@ -2486,10 +2486,10 @@ Initial solution 3. pH = 5.009 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 307237 + Specific Conductance (µS/cm, 150°C) = 306131 Density (g/cm³) = 0.96895 Volume (L) = 1.10681 - Viscosity (mPa s) = 0.22158 + Viscosity (mPa s) = 0.22266 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.283e+00 Mass of water (kg) = 1.000e+00 @@ -2571,10 +2571,10 @@ Initial solution 4. pH = 4.931 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 363982 + Specific Conductance (µS/cm, 150°C) = 362580 Density (g/cm³) = 0.98101 Volume (L) = 1.11166 - Viscosity (mPa s) = 0.23190 + Viscosity (mPa s) = 0.23311 Activity of water = 0.952 Ionic strength (mol/kgw) = 1.606e+00 Mass of water (kg) = 1.000e+00 @@ -2656,10 +2656,10 @@ Initial solution 5. pH = 4.858 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 415196 + Specific Conductance (µS/cm, 150°C) = 413518 Density (g/cm³) = 0.99280 Volume (L) = 1.11670 - Viscosity (mPa s) = 0.24249 + Viscosity (mPa s) = 0.24382 Activity of water = 0.942 Ionic strength (mol/kgw) = 1.929e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/seaw_Fabuss_101.sel b/mytest/seaw_Fabuss_101.sel index e6cc327d..79cfcc08 100644 --- a/mytest/seaw_Fabuss_101.sel +++ b/mytest/seaw_Fabuss_101.sel @@ -1,31 +1,31 @@ Mu SC Viscosity - 0.657933320178 51824.2884695218 0.9598900791 - 0.983303242063 72806.5682624390 0.9971052340 - 1.308070439671 91656.0595006341 1.0366223768 - 1.632517550082 108609.4585251589 1.0785718954 - 1.956801368341 123826.7492376256 1.1230818384 - 0.653692706111 67480.8333469706 0.7074387254 - 0.977599136550 94595.1519727377 0.7362863612 - 1.301118520228 118877.1306209378 0.7666634413 - 1.624485966374 140670.3780133176 0.7986361345 - 1.947830712474 160211.1863097137 0.8322734221 - 0.644586304919 104941.8217884897 0.4126353012 - 0.965462419513 146750.1094409317 0.4309564299 - 1.286391146199 184067.0001146057 0.4500413872 - 1.607450162403 217488.5040283924 0.4698972661 - 1.928846667784 247450.6859465766 0.4905468070 - 0.639265980150 130420.9003738580 0.3092319361 - 0.958489786124 182367.2713323217 0.3235067677 - 1.278038921054 228751.1293835888 0.3383067609 - 1.597993170291 270336.4151664317 0.3536329547 - 1.918399457162 307663.6586420263 0.3694886516 - 0.636860320157 153583.7007006242 0.2447552408 - 0.955884896262 214980.9704766828 0.2563610804 - 1.275480663059 269917.4243000601 0.2683455404 - 1.595665256698 319279.2080350320 0.2807075944 - 1.916452340167 363697.0769391553 0.2934472156 - 0.639412707503 174176.3044901812 0.2017981128 - 0.960652175335 244283.3738018791 0.2115489167 - 1.282755649128 307237.3668072572 0.2215826410 - 1.605613435933 363982.7338576193 0.2318970295 - 1.929139070913 415196.5145887309 0.2424898949 + 0.657933320178 51824.2937903548 0.9598899431 + 0.983303242063 72806.5770940934 0.9971050676 + 1.308070439671 91656.0718697034 1.0366221848 + 1.632517550082 108609.4742959652 1.0785716808 + 1.956801368341 123826.7681747906 1.1230816033 + 0.653692706111 67466.9440064880 0.7076393074 + 0.977599136550 94572.1863731618 0.7365318761 + 1.301118520228 118845.0660110407 0.7669469227 + 1.624485966374 140629.5923772144 0.7989531425 + 1.947830712474 160162.2945956435 0.8326208102 + 0.644586304919 104857.8256972246 0.4130885598 + 0.965462419513 146612.0073167802 0.4315119200 + 1.286391146199 183875.0672376230 0.4506833707 + 1.607450162403 217245.2462150549 0.4706156995 + 1.928846667784 247159.8146838201 0.4913346018 + 0.639265980150 130246.5060937452 0.3097970944 + 0.958489786124 182081.0467155533 0.3241999343 + 1.278038921054 228353.8794451419 0.3391082978 + 1.597993170291 269833.3954988792 0.3545303478 + 1.918399457162 307062.5108968540 0.3704730393 + 0.636860320157 153278.3449941358 0.2454168905 + 0.955884896262 214479.8702049609 0.2571732137 + 1.275480663059 269221.9541916631 0.2692851279 + 1.595665256698 318398.4068708377 0.2817599579 + 1.916452340167 362644.0350403844 0.2946019606 + 0.639412707503 173691.9499863673 0.2025567226 + 0.960652175335 243487.5878937142 0.2124807533 + 1.282755649128 306131.6577462030 0.2226612756 + 1.605613435933 362580.8266349427 0.2331055849 + 1.929139070913 413518.6085179285 0.2438163929 diff --git a/mytest/seaw_SC.out b/mytest/seaw_SC.out index 99802ae7..711c66d3 100644 --- a/mytest/seaw_SC.out +++ b/mytest/seaw_SC.out @@ -350,10 +350,10 @@ Using temperature 1. pH = 8.605 Charge balance pe = 12.489 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 28400 + Specific Conductance (µS/cm, 0°C) = 28409 Density (g/cm³) = 1.02806 Volume (L) = 1.00807 - Viscosity (mPa s) = 1.91063 + Viscosity (mPa s) = 1.90987 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.773e-01 Mass of water (kg) = 1.000e+00 @@ -582,10 +582,10 @@ Using temperature 1. pH = 8.519 Charge balance pe = 12.129 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 32989 + Specific Conductance (µS/cm, 5°C) = 32997 Density (g/cm³) = 1.02760 Volume (L) = 1.00851 - Viscosity (mPa s) = 1.62321 + Viscosity (mPa s) = 1.62269 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.757e-01 Mass of water (kg) = 1.000e+00 @@ -814,10 +814,10 @@ Using temperature 1. pH = 8.437 Charge balance pe = 11.779 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 37750 + Specific Conductance (µS/cm, 10°C) = 37757 Density (g/cm³) = 1.02687 Volume (L) = 1.00923 - Viscosity (mPa s) = 1.39975 + Viscosity (mPa s) = 1.39940 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.743e-01 Mass of water (kg) = 1.000e+00 @@ -1046,10 +1046,10 @@ Using temperature 1. pH = 8.361 Charge balance pe = 11.438 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 42662 + Specific Conductance (µS/cm, 15°C) = 42667 Density (g/cm³) = 1.02589 Volume (L) = 1.01019 - Viscosity (mPa s) = 1.22218 + Viscosity (mPa s) = 1.22197 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.730e-01 Mass of water (kg) = 1.000e+00 @@ -1278,10 +1278,10 @@ Using temperature 1. pH = 8.289 Charge balance pe = 11.108 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 47703 + Specific Conductance (µS/cm, 20°C) = 47706 Density (g/cm³) = 1.02469 Volume (L) = 1.01138 - Viscosity (mPa s) = 1.07846 + Viscosity (mPa s) = 1.07836 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.717e-01 Mass of water (kg) = 1.000e+00 @@ -1742,10 +1742,10 @@ Using temperature 1. pH = 8.154 Charge balance pe = 10.476 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 58104 + Specific Conductance (µS/cm, 30°C) = 58101 Density (g/cm³) = 1.02167 Volume (L) = 1.01437 - Viscosity (mPa s) = 0.86183 + Viscosity (mPa s) = 0.86191 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.692e-01 Mass of water (kg) = 1.000e+00 @@ -1974,10 +1974,10 @@ Using temperature 1. pH = 8.091 Charge balance pe = 10.175 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 63430 + Specific Conductance (µS/cm, 35°C) = 63422 Density (g/cm³) = 1.01988 Volume (L) = 1.01615 - Viscosity (mPa s) = 0.77881 + Viscosity (mPa s) = 0.77895 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.679e-01 Mass of water (kg) = 1.000e+00 @@ -2206,10 +2206,10 @@ Using temperature 1. pH = 8.028 Charge balance pe = 9.884 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 68817 + Specific Conductance (µS/cm, 40°C) = 68803 Density (g/cm³) = 1.01792 Volume (L) = 1.01811 - Viscosity (mPa s) = 0.70810 + Viscosity (mPa s) = 0.70830 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.666e-01 Mass of water (kg) = 1.000e+00 @@ -2458,10 +2458,10 @@ Using pressure 1. pH = 8.167 Charge balance pe = 12.872 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 0°C) = 32754 + Specific Conductance (µS/cm, 0°C) = 32763 Density (g/cm³) = 1.07174 Volume (L) = 0.96697 - Viscosity (mPa s) = 1.77022 + Viscosity (mPa s) = 1.76955 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.518e-01 Mass of water (kg) = 1.000e+00 @@ -2692,10 +2692,10 @@ Using pressure 1. pH = 8.081 Charge balance pe = 12.516 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 5°C) = 37117 + Specific Conductance (µS/cm, 5°C) = 37126 Density (g/cm³) = 1.07036 Volume (L) = 0.96823 - Viscosity (mPa s) = 1.53706 + Viscosity (mPa s) = 1.53658 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.530e-01 Mass of water (kg) = 1.000e+00 @@ -2926,10 +2926,10 @@ Using pressure 1. pH = 8.001 Charge balance pe = 12.168 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 10°C) = 41594 + Specific Conductance (µS/cm, 10°C) = 41601 Density (g/cm³) = 1.06880 Volume (L) = 0.96964 - Viscosity (mPa s) = 1.34969 + Viscosity (mPa s) = 1.34937 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.538e-01 Mass of water (kg) = 1.000e+00 @@ -3160,10 +3160,10 @@ Using pressure 1. pH = 7.928 Charge balance pe = 11.827 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 46170 + Specific Conductance (µS/cm, 15°C) = 46175 Density (g/cm³) = 1.06710 Volume (L) = 0.97118 - Viscosity (mPa s) = 1.19659 + Viscosity (mPa s) = 1.19639 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.543e-01 Mass of water (kg) = 1.000e+00 @@ -3394,10 +3394,10 @@ Using pressure 1. pH = 7.860 Charge balance pe = 11.494 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 50832 + Specific Conductance (µS/cm, 20°C) = 50835 Density (g/cm³) = 1.06527 Volume (L) = 0.97286 - Viscosity (mPa s) = 1.06970 + Viscosity (mPa s) = 1.06961 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.547e-01 Mass of water (kg) = 1.000e+00 @@ -3862,10 +3862,10 @@ Using pressure 1. pH = 7.740 Charge balance pe = 10.851 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 30°C) = 60364 + Specific Conductance (µS/cm, 30°C) = 60360 Density (g/cm³) = 1.06127 Volume (L) = 0.97652 - Viscosity (mPa s) = 0.87303 + Viscosity (mPa s) = 0.87310 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.548e-01 Mass of water (kg) = 1.000e+00 @@ -4096,10 +4096,10 @@ Using pressure 1. pH = 7.686 Charge balance pe = 10.542 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 65209 + Specific Conductance (µS/cm, 35°C) = 65200 Density (g/cm³) = 1.05913 Volume (L) = 0.97850 - Viscosity (mPa s) = 0.79582 + Viscosity (mPa s) = 0.79596 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.548e-01 Mass of water (kg) = 1.000e+00 @@ -4330,10 +4330,10 @@ Using pressure 1. pH = 7.635 Charge balance pe = 10.240 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 70134 + Specific Conductance (µS/cm, 40°C) = 70120 Density (g/cm³) = 1.05690 Volume (L) = 0.98056 - Viscosity (mPa s) = 0.72923 + Viscosity (mPa s) = 0.72943 Activity of water = 0.981 Ionic strength (mol/kgw) = 6.546e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/seaw_SC_101.sel b/mytest/seaw_SC_101.sel index 23bb3ec0..8d300ca2 100644 --- a/mytest/seaw_SC_101.sel +++ b/mytest/seaw_SC_101.sel @@ -1,20 +1,20 @@ Mu SC - 0.670406016800 52856.9574346298 - 0.677252033803 28400.8808299929 - 0.675731648428 32989.7693129306 - 0.674312648115 37750.9144128268 - 0.672967489774 42662.1193398943 - 0.671672052513 47703.5639538750 - 0.670406016716 52856.9574312087 - 0.669152890828 58104.9278991802 - 0.667899853705 63430.6131234078 - 0.666637502641 68817.4142575469 - 0.651827792366 32754.2835352145 - 0.653005421729 37117.4370392826 - 0.653808001509 41594.0629639499 - 0.654336282253 46170.0762703070 - 0.654656420877 50832.2323221771 - 0.654813035554 55567.7966257538 - 0.654837082498 60364.3471292531 - 0.654750729857 65209.6717100375 - 0.654570446938 70134.9098819479 + 0.670406016800 52856.9629060677 + 0.677252033803 28409.0020027214 + 0.675731648428 32997.5089826631 + 0.674312648115 37757.7245380075 + 0.672967489774 42667.3782308098 + 0.671672052513 47706.5780551577 + 0.670406016716 52856.9629026465 + 0.669152890828 58101.0921769095 + 0.667899853705 63422.0365894487 + 0.666637502641 68803.1320952665 + 0.651827792366 32763.5131165636 + 0.653005421729 37126.0383566968 + 0.653808001509 41601.4864226125 + 0.654336282253 46175.7132653564 + 0.654656420877 50835.4158974530 + 0.654813035554 55567.8023301501 + 0.654837082498 60360.3940964491 + 0.654750729857 65200.9239561159 + 0.654570446938 70120.4689303007 diff --git a/mytest/seaw_anhyd_101.sel b/mytest/seaw_anhyd_101.sel index 5ac03309..816913f0 100644 --- a/mytest/seaw_anhyd_101.sel +++ b/mytest/seaw_anhyd_101.sel @@ -1,22 +1,22 @@ Mu SC - 0.670036490590 52927.8725746925 - 0.673894374874 37850.4317554616 - 0.668526198503 59340.4225956831 - 0.663204881681 82152.3952660733 - 0.657578513384 105063.7274882563 - 0.651917461432 126970.7714855769 - 0.646725084060 147016.7806638837 - 0.642508176693 164663.1961108651 - 0.639703659767 179694.9350048120 - 0.638678298181 192169.7310750142 - 0.639692626787 202411.2661004596 - 0.662884049176 40004.1401771706 - 0.660726650833 60596.6905600667 - 0.657654598100 82322.7624188693 - 0.653918631327 104123.2713113049 - 0.649923082300 125004.9319871464 - 0.646159356888 144180.8681193562 - 0.643099842731 161143.7912913284 - 0.641158168162 175672.8912550519 - 0.640684216537 187786.3291696963 - 0.641920625389 197678.6727733082 + 0.670036490590 52927.8780527109 + 0.673894374874 37857.2585281505 + 0.668526198503 59335.6093374436 + 0.663204881681 82119.7151913659 + 0.657578513384 104982.3861787579 + 0.651917461432 126816.2169517211 + 0.646725084060 146761.5092064712 + 0.642508176693 164277.3214079542 + 0.639703659767 179146.1998234625 + 0.638678298181 191422.7221506891 + 0.639692626787 201425.0248824924 + 0.662884049176 40011.3236922972 + 0.660726650833 60591.7919910019 + 0.657654598100 82290.1365164492 + 0.653918631327 104043.0485488048 + 0.649923082300 124853.7597729037 + 0.646159356888 143932.6682151418 + 0.643099842731 160770.3377432334 + 0.641158168162 175143.9697702211 + 0.640684216537 187069.3575665502 + 0.641920625389 196737.8254453281 diff --git a/mytest/solid_solution_101.sel b/mytest/solid_solution_101.sel index 9e4a1ad6..da514c51 100644 --- a/mytest/solid_solution_101.sel +++ b/mytest/solid_solution_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000056470449 3.6822273950 - 0.000056470449 3.6822273950 - 0.000393664806 34.1439017295 + 0.000056470449 3.6822274026 + 0.000056470449 3.6822274026 + 0.000393664806 34.1439018608 diff --git a/mytest/solid_solution_pz_101.sel b/mytest/solid_solution_pz_101.sel index 1a7fe295..04f9c60a 100644 --- a/mytest/solid_solution_pz_101.sel +++ b/mytest/solid_solution_pz_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000056551190 3.6886055503 - 0.000056551190 3.6886055502 - 0.000424600212 36.7990893132 + 0.000056551190 3.6886055649 + 0.000056551190 3.6886055648 + 0.000424600212 36.7990895344 diff --git a/mytest/soln_vol_101.sel b/mytest/soln_vol_101.sel index 83f310a1..9b867695 100644 --- a/mytest/soln_vol_101.sel +++ b/mytest/soln_vol_101.sel @@ -1,3 +1,3 @@ Mu SC - 2.134508957470 142851.8598961883 - 2.132848722230 142761.3185712278 + 2.134508957470 142851.8627111442 + 2.132848722230 142761.3213887444 diff --git a/mytest/solution_s_101.sel b/mytest/solution_s_101.sel index 17af36fd..ed098064 100644 --- a/mytest/solution_s_101.sel +++ b/mytest/solution_s_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.008743104657 652.7687689659 - 0.008743104657 652.7687689659 + 0.008743104657 652.7687769507 + 0.008743104657 652.7687769507 diff --git a/mytest/spec_cond.out b/mytest/spec_cond.out index 9899c37b..89bbbda7 100644 --- a/mytest/spec_cond.out +++ b/mytest/spec_cond.out @@ -65,7 +65,7 @@ Initial solution 1. ----------------------------------User print----------------------------------- - 1.2985e+05 1.9580e+05 -6.5955e+04 + 1.2965e+05 1.9555e+05 -6.5899e+04 -----------------------------Solution composition------------------------------ @@ -78,10 +78,10 @@ Initial solution 1. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 195800 + Specific Conductance (µS/cm, 50°C) = 195546 Density (g/cm³) = 1.07139 Volume (L) = 1.03696 - Viscosity (mPa s) = 0.75274 + Viscosity (mPa s) = 0.75389 Activity of water = 0.949 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/spec_cond_101.sel b/mytest/spec_cond_101.sel index dc78d51c..c082cf79 100644 --- a/mytest/spec_cond_101.sel +++ b/mytest/spec_cond_101.sel @@ -1,2 +1,2 @@ Mu SC - 3.000000004899 195800.2855262051 + 3.000000004899 195546.2241878269 diff --git a/mytest/species_equation_101.sel b/mytest/species_equation_101.sel index 991c1276..26091418 100644 --- a/mytest/species_equation_101.sel +++ b/mytest/species_equation_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.007892373609 662.2063829000 - 6.737868056109 244858.3196829336 + 0.007892373609 662.2063848515 + 6.737868056109 244858.3608057537 diff --git a/mytest/species_formula_101.sel b/mytest/species_formula_101.sel index e49341d8..3543abe4 100644 --- a/mytest/species_formula_101.sel +++ b/mytest/species_formula_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.007892373609 662.2063829000 - 0.007552726458 616.5115437967 + 0.007892373609 662.2063848515 + 0.007552726458 616.5115469138 diff --git a/mytest/spread_solution.out b/mytest/spread_solution.out index 2e48ac6e..f3e508c3 100644 --- a/mytest/spread_solution.out +++ b/mytest/spread_solution.out @@ -74,7 +74,7 @@ Initial solution 1. soln 1 Specific Conductance (µS/cm, 15°C) = 520 Density (g/cm³) = 1.00039 Volume (L) = 1.00013 - Viscosity (mPa s) = 1.14080 + Viscosity (mPa s) = 1.14076 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.888e-03 Mass of water (kg) = 1.000e+00 @@ -192,7 +192,7 @@ Initial solution 10. soln 10-11 Specific Conductance (µS/cm, 20°C) = 585 Density (g/cm³) = 0.99899 Volume (L) = 1.00144 - Viscosity (mPa s) = 1.00461 + Viscosity (mPa s) = 1.00459 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.817e-03 Mass of water (kg) = 1.000e+00 @@ -362,7 +362,7 @@ Initial solution 52. soln 1 Specific Conductance (µS/cm, 15°C) = 518 Density (g/cm³) = 0.99959 Volume (L) = 1.00093 - Viscosity (mPa s) = 1.14176 + Viscosity (mPa s) = 1.14172 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.889e-03 Mass of water (kg) = 1.000e+00 diff --git a/mytest/spread_solution_101.sel b/mytest/spread_solution_101.sel index 385bc20f..331f63db 100644 --- a/mytest/spread_solution_101.sel +++ b/mytest/spread_solution_101.sel @@ -1,5 +1,5 @@ Mu SC - 0.008888336143 520.0038063215 - 0.008816877560 585.3848011794 + 0.008888336143 520.0116222677 + 0.008816877560 585.3892398142 0.000000102987 0.0559072288 - 0.008889385311 518.6531252165 + 0.008889385311 518.6609247040 diff --git a/mytest/ss_kinetics_101.sel b/mytest/ss_kinetics_101.sel index 12b293db..fb6c644f 100644 --- a/mytest/ss_kinetics_101.sel +++ b/mytest/ss_kinetics_101.sel @@ -9,20 +9,20 @@ 0.000001690726 0.2307952114 0.000002704716 0.3938296993 0.000003777400 0.5741835076 - 0.000004897279 0.7635455346 - 0.000006058203 0.9575923852 - 0.000010171166 1.6108676379 - 0.000014588973 2.2496490722 - 0.000019243782 2.8627297951 - 0.000034204543 4.5430359911 - 0.000066627626 7.3683350116 - 0.000121428867 11.0746574224 - 0.000211633079 16.0828053151 - 0.000220947994 16.5612476439 - 0.000221431225 16.5859320592 - 0.000221420241 16.5853711154 - 0.000221311192 16.5798017605 - 0.000221459856 16.5873941965 + 0.000004897279 0.7635455347 + 0.000006058203 0.9575923853 + 0.000010171166 1.6108676381 + 0.000014588973 2.2496490725 + 0.000019243782 2.8627297956 + 0.000034204543 4.5430359922 + 0.000066627626 7.3683350146 + 0.000121428867 11.0746574295 + 0.000211633079 16.0828053309 + 0.000220947994 16.5612476608 + 0.000221431225 16.5859320762 + 0.000221420241 16.5853711323 + 0.000221311192 16.5798017775 + 0.000221459856 16.5873942134 0.000000154409 0.0607998002 0.000000158966 0.0613920717 0.000000204900 0.0674383243 @@ -30,18 +30,18 @@ 0.000001038047 0.1418585362 0.000001650983 0.2328091279 0.000002644058 0.3973920287 - 0.000003694177 0.5768124216 - 0.000004790197 0.7626987133 - 0.000005926015 0.9508576611 - 0.000009944571 1.5697651160 - 0.000014255579 2.1582948683 - 0.000018794563 2.7116438039 - 0.000033356240 4.1882850735 - 0.000064769488 6.6045464626 - 0.000116252607 9.6923242874 - 0.000182554891 13.0886740501 - 0.000186264494 13.2688980423 - 0.000186367922 13.2739121622 - 0.000186365014 13.2737712005 - 0.000186365207 13.2737805574 - 0.000186365207 13.2737805599 + 0.000003694177 0.5768124217 + 0.000004790197 0.7626987134 + 0.000005926015 0.9508576612 + 0.000009944571 1.5697651162 + 0.000014255579 2.1582948686 + 0.000018794563 2.7116438044 + 0.000033356240 4.1882850746 + 0.000064769488 6.6045464653 + 0.000116252607 9.6923242937 + 0.000182554891 13.0886740624 + 0.000186264494 13.2688980550 + 0.000186367922 13.2739121748 + 0.000186365014 13.2737712131 + 0.000186365207 13.2737805701 + 0.000186365207 13.2737805725 diff --git a/mytest/ss_r_101.sel b/mytest/ss_r_101.sel index 691537fb..460bd59d 100644 --- a/mytest/ss_r_101.sel +++ b/mytest/ss_r_101.sel @@ -1,35 +1,35 @@ Mu SC - 0.004464478449 285.3140117052 - 0.001462858895 96.7834657332 - 0.004464478449 285.3140117052 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462858891 96.7834657380 - 0.004191830853 268.4428844200 - 0.003420089707 220.4299424335 - 0.002963540885 191.8346508901 - 0.002570343471 167.0853790207 - 0.002249485419 146.8028009295 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.001462860905 96.7837171036 - 0.004191830919 268.4428162502 - 0.003420090122 220.4299683719 - 0.002963541480 191.8346882657 - 0.002570344153 167.0854220763 - 0.002249486073 146.8028423537 - 0.002002073697 131.1096911159 - 0.001821400553 119.6215311743 - 0.001695613720 111.6104093785 - 0.001611335557 106.2376427952 - 0.001556459287 102.7372956354 + 0.004464478449 285.3140164365 + 0.001462858895 96.7834666635 + 0.004464478449 285.3140164365 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462858891 96.7834666683 + 0.004191830853 268.4428887375 + 0.003420089707 220.4299456447 + 0.002963540885 191.8346534960 + 0.002570343471 167.0853811378 + 0.002249485419 146.8028026720 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.001462860905 96.7837180338 + 0.004191830919 268.4428205677 + 0.003420090122 220.4299715831 + 0.002963541480 191.8346908716 + 0.002570344153 167.0854241935 + 0.002249486073 146.8028440963 + 0.002002073697 131.1096925857 + 0.001821400553 119.6215324544 + 0.001695613720 111.6104105315 + 0.001611335557 106.2376438655 + 0.001556459287 102.7372966529 diff --git a/mytest/stag_diss_only_101.sel b/mytest/stag_diss_only_101.sel index 99879673..104a380b 100644 --- a/mytest/stag_diss_only_101.sel +++ b/mytest/stag_diss_only_101.sel @@ -5,22 +5,22 @@ 0.045748289647 0.0000000000 0.015096522223 0.0000000000 0.015096522223 0.0000000000 - 0.036152715989 0.0000000000 - 0.055541955497 0.0000000000 - 0.081337512581 0.0000000000 - 0.088059111475 0.0000000000 - 0.095199466842 0.0000000000 - 0.104253797750 0.0000000000 - 0.111936088363 0.0000000000 - 0.117814272412 0.0000000000 - 0.122135373499 0.0000000000 - 0.125251293974 0.0000000000 - 0.127474772740 0.0000000000 - 0.129023322486 0.0000000000 - 0.128657313158 0.0000000000 - 0.128106660425 0.0000000000 - 0.127626310936 0.0000000000 - 0.127282545836 0.0000000000 - 0.127053472573 0.0000000000 - 0.126905135097 0.0000000000 - 0.126810386887 0.0000000000 + 0.036152716049 0.0000000000 + 0.055541955531 0.0000000000 + 0.081337512995 0.0000000000 + 0.088059111701 0.0000000000 + 0.095199467270 0.0000000000 + 0.104253798058 0.0000000000 + 0.111936088574 0.0000000000 + 0.117814272594 0.0000000000 + 0.122135373588 0.0000000000 + 0.125251295195 0.0000000000 + 0.127474773630 0.0000000000 + 0.129023323056 0.0000000000 + 0.128657313454 0.0000000000 + 0.128106660599 0.0000000000 + 0.127626310627 0.0000000000 + 0.127282545657 0.0000000000 + 0.127053471942 0.0000000000 + 0.126905134676 0.0000000000 + 0.126810386608 0.0000000000 diff --git a/mytest/str_f_101.sel b/mytest/str_f_101.sel index 7a7447f3..f166407a 100644 --- a/mytest/str_f_101.sel +++ b/mytest/str_f_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.010000110789 1177.7202259049 + 0.010000110789 1177.7202399401 diff --git a/mytest/stuyfz.out b/mytest/stuyfz.out index 0e4a394e..a7e3e66d 100644 --- a/mytest/stuyfz.out +++ b/mytest/stuyfz.out @@ -336,7 +336,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 63 Density (g/cm³) = 0.99823 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.00178 + Viscosity (mPa s) = 1.00177 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.723e-04 Mass of water (kg) = 1.000e+00 @@ -1040,7 +1040,7 @@ Initial solution 8. Specific Conductance (µS/cm, 20°C) = 265 Density (g/cm³) = 0.99835 Volume (L) = 1.00182 - Viscosity (mPa s) = 1.00220 + Viscosity (mPa s) = 1.00219 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.729e-03 Mass of water (kg) = 1.000e+00 @@ -1144,7 +1144,7 @@ Initial solution 9. Specific Conductance (µS/cm, 20°C) = 274 Density (g/cm³) = 0.99834 Volume (L) = 1.00182 - Viscosity (mPa s) = 1.00218 + Viscosity (mPa s) = 1.00217 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.711e-03 Mass of water (kg) = 1.000e+00 @@ -1457,7 +1457,7 @@ Initial solution 12. Specific Conductance (µS/cm, 20°C) = 317 Density (g/cm³) = 0.99834 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00236 + Viscosity (mPa s) = 1.00235 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.391e-03 Mass of water (kg) = 1.000e+00 @@ -1584,7 +1584,7 @@ Initial solution 13. Specific Conductance (µS/cm, 20°C) = 385 Density (g/cm³) = 0.99839 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00243 + Viscosity (mPa s) = 1.00242 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.998e-03 Mass of water (kg) = 1.000e+00 @@ -1710,7 +1710,7 @@ Initial solution 14. Specific Conductance (µS/cm, 20°C) = 397 Density (g/cm³) = 0.99839 Volume (L) = 1.00183 - Viscosity (mPa s) = 1.00237 + Viscosity (mPa s) = 1.00236 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.927e-03 Mass of water (kg) = 1.000e+00 @@ -2461,7 +2461,7 @@ Initial solution 21. Specific Conductance (µS/cm, 20°C) = 78 Density (g/cm³) = 0.99823 Volume (L) = 1.00181 - Viscosity (mPa s) = 1.00182 + Viscosity (mPa s) = 1.00181 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.380e-04 Mass of water (kg) = 1.000e+00 @@ -2566,7 +2566,7 @@ Initial solution 22. Specific Conductance (µS/cm, 20°C) = 176 Density (g/cm³) = 0.99830 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00270 + Viscosity (mPa s) = 1.00269 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.097e-03 Mass of water (kg) = 1.000e+00 @@ -2693,7 +2693,7 @@ Initial solution 23. Specific Conductance (µS/cm, 20°C) = 259 Density (g/cm³) = 0.99833 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00277 + Viscosity (mPa s) = 1.00276 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.124e-03 Mass of water (kg) = 1.000e+00 @@ -2820,7 +2820,7 @@ Initial solution 24. Specific Conductance (µS/cm, 20°C) = 309 Density (g/cm³) = 0.99839 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00354 + Viscosity (mPa s) = 1.00353 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.516e-03 Mass of water (kg) = 1.000e+00 @@ -2947,7 +2947,7 @@ Initial solution 25. Specific Conductance (µS/cm, 20°C) = 275 Density (g/cm³) = 0.99837 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00331 + Viscosity (mPa s) = 1.00329 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.921e-03 Mass of water (kg) = 1.000e+00 @@ -3074,7 +3074,7 @@ Initial solution 26. Specific Conductance (µS/cm, 20°C) = 280 Density (g/cm³) = 0.99839 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00356 + Viscosity (mPa s) = 1.00354 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.303e-03 Mass of water (kg) = 1.000e+00 @@ -3200,7 +3200,7 @@ Initial solution 27. Specific Conductance (µS/cm, 20°C) = 329 Density (g/cm³) = 0.99842 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00378 + Viscosity (mPa s) = 1.00377 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.938e-03 Mass of water (kg) = 1.000e+00 @@ -3302,7 +3302,7 @@ Initial solution 28. Specific Conductance (µS/cm, 20°C) = 326 Density (g/cm³) = 0.99841 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00387 + Viscosity (mPa s) = 1.00386 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.102e-03 Mass of water (kg) = 1.000e+00 @@ -3429,7 +3429,7 @@ Initial solution 29. Specific Conductance (µS/cm, 20°C) = 414 Density (g/cm³) = 0.99845 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00398 + Viscosity (mPa s) = 1.00397 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.132e-03 Mass of water (kg) = 1.000e+00 @@ -3556,7 +3556,7 @@ Initial solution 30. Specific Conductance (µS/cm, 20°C) = 409 Density (g/cm³) = 0.99846 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00400 + Viscosity (mPa s) = 1.00399 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.012e-03 Mass of water (kg) = 1.000e+00 @@ -3683,7 +3683,7 @@ Initial solution 31. Specific Conductance (µS/cm, 20°C) = 446 Density (g/cm³) = 0.99851 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00463 + Viscosity (mPa s) = 1.00461 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.248e-03 Mass of water (kg) = 1.000e+00 @@ -3809,7 +3809,7 @@ Initial solution 32. Specific Conductance (µS/cm, 20°C) = 462 Density (g/cm³) = 0.99852 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00462 + Viscosity (mPa s) = 1.00460 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.316e-03 Mass of water (kg) = 1.000e+00 @@ -3934,7 +3934,7 @@ Initial solution 33. Specific Conductance (µS/cm, 20°C) = 511 Density (g/cm³) = 0.99857 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00517 + Viscosity (mPa s) = 1.00515 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.193e-03 Mass of water (kg) = 1.000e+00 @@ -4060,7 +4060,7 @@ Initial solution 34. Specific Conductance (µS/cm, 20°C) = 535 Density (g/cm³) = 0.99847 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00338 + Viscosity (mPa s) = 1.00337 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.762e-03 Mass of water (kg) = 1.000e+00 @@ -4185,7 +4185,7 @@ Initial solution 35. Specific Conductance (µS/cm, 20°C) = 597 Density (g/cm³) = 0.99858 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00505 + Viscosity (mPa s) = 1.00503 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.861e-03 Mass of water (kg) = 1.000e+00 @@ -4312,7 +4312,7 @@ Initial solution 36. Specific Conductance (µS/cm, 20°C) = 607 Density (g/cm³) = 0.99849 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00336 + Viscosity (mPa s) = 1.00335 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.458e-03 Mass of water (kg) = 1.000e+00 @@ -4438,7 +4438,7 @@ Initial solution 37. Specific Conductance (µS/cm, 20°C) = 615 Density (g/cm³) = 0.99865 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00600 + Viscosity (mPa s) = 1.00598 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.035e-02 Mass of water (kg) = 1.000e+00 @@ -4562,7 +4562,7 @@ Initial solution 38. Specific Conductance (µS/cm, 20°C) = 672 Density (g/cm³) = 0.99860 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.00502 + Viscosity (mPa s) = 1.00500 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.722e-03 Mass of water (kg) = 1.000e+00 @@ -4687,7 +4687,7 @@ Initial solution 39. Specific Conductance (µS/cm, 20°C) = 718 Density (g/cm³) = 0.99872 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00650 + Viscosity (mPa s) = 1.00647 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.209e-02 Mass of water (kg) = 1.000e+00 @@ -4813,7 +4813,7 @@ Initial solution 40. Specific Conductance (µS/cm, 20°C) = 689 Density (g/cm³) = 0.99869 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00624 + Viscosity (mPa s) = 1.00622 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.111e-02 Mass of water (kg) = 1.000e+00 @@ -4937,7 +4937,7 @@ Initial solution 41. Specific Conductance (µS/cm, 20°C) = 565 Density (g/cm³) = 0.99860 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00541 + Viscosity (mPa s) = 1.00539 Activity of water = 1.000 Ionic strength (mol/kgw) = 9.096e-03 Mass of water (kg) = 1.000e+00 @@ -5061,7 +5061,7 @@ Initial solution 42. Specific Conductance (µS/cm, 20°C) = 740 Density (g/cm³) = 0.99871 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00626 + Viscosity (mPa s) = 1.00624 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.168e-02 Mass of water (kg) = 1.000e+00 @@ -5186,7 +5186,7 @@ Initial solution 43. Specific Conductance (µS/cm, 20°C) = 833 Density (g/cm³) = 0.99871 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00578 + Viscosity (mPa s) = 1.00576 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.244e-02 Mass of water (kg) = 1.000e+00 @@ -5312,7 +5312,7 @@ Initial solution 44. Specific Conductance (µS/cm, 20°C) = 803 Density (g/cm³) = 0.99870 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00635 + Viscosity (mPa s) = 1.00633 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.244e-02 Mass of water (kg) = 1.000e+00 @@ -5436,7 +5436,7 @@ Initial solution 45. Specific Conductance (µS/cm, 20°C) = 847 Density (g/cm³) = 0.99874 Volume (L) = 1.00197 - Viscosity (mPa s) = 1.00651 + Viscosity (mPa s) = 1.00649 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.293e-02 Mass of water (kg) = 1.000e+00 @@ -5560,7 +5560,7 @@ Initial solution 46. Specific Conductance (µS/cm, 20°C) = 931 Density (g/cm³) = 0.99879 Volume (L) = 1.00201 - Viscosity (mPa s) = 1.00602 + Viscosity (mPa s) = 1.00601 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.190e-02 Mass of water (kg) = 1.000e+00 @@ -5685,7 +5685,7 @@ Initial solution 47. Specific Conductance (µS/cm, 20°C) = 977 Density (g/cm³) = 0.99893 Volume (L) = 1.00202 - Viscosity (mPa s) = 1.00759 + Viscosity (mPa s) = 1.00757 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.527e-02 Mass of water (kg) = 1.000e+00 @@ -5812,7 +5812,7 @@ Initial solution 48. Specific Conductance (µS/cm, 20°C) = 1043 Density (g/cm³) = 0.99883 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00588 + Viscosity (mPa s) = 1.00586 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.452e-02 Mass of water (kg) = 1.000e+00 @@ -5939,7 +5939,7 @@ Initial solution 49. Specific Conductance (µS/cm, 20°C) = 1139 Density (g/cm³) = 0.99899 Volume (L) = 1.00199 - Viscosity (mPa s) = 1.00858 + Viscosity (mPa s) = 1.00855 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.896e-02 Mass of water (kg) = 1.000e+00 @@ -6066,7 +6066,7 @@ Initial solution 50. Specific Conductance (µS/cm, 20°C) = 1078 Density (g/cm³) = 0.99886 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00671 + Viscosity (mPa s) = 1.00669 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.604e-02 Mass of water (kg) = 1.000e+00 @@ -6192,7 +6192,7 @@ Initial solution 51. Specific Conductance (µS/cm, 20°C) = 1082 Density (g/cm³) = 0.99883 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.00671 + Viscosity (mPa s) = 1.00668 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.607e-02 Mass of water (kg) = 1.000e+00 @@ -6317,7 +6317,7 @@ Initial solution 52. Specific Conductance (µS/cm, 20°C) = 759 Density (g/cm³) = 0.99871 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00438 + Viscosity (mPa s) = 1.00436 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.009e-02 Mass of water (kg) = 1.000e+00 @@ -6444,7 +6444,7 @@ Initial solution 53. Specific Conductance (µS/cm, 20°C) = 317 Density (g/cm³) = 0.99841 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00371 + Viscosity (mPa s) = 1.00369 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.801e-03 Mass of water (kg) = 1.000e+00 @@ -6571,7 +6571,7 @@ Initial solution 54. Specific Conductance (µS/cm, 20°C) = 389 Density (g/cm³) = 0.99850 Volume (L) = 1.00183 - Viscosity (mPa s) = 1.00374 + Viscosity (mPa s) = 1.00373 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.539e-03 Mass of water (kg) = 1.000e+00 @@ -6698,7 +6698,7 @@ Initial solution 55. Specific Conductance (µS/cm, 20°C) = 432 Density (g/cm³) = 0.99852 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00412 + Viscosity (mPa s) = 1.00411 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.462e-03 Mass of water (kg) = 1.000e+00 @@ -6825,7 +6825,7 @@ Initial solution 56. Specific Conductance (µS/cm, 20°C) = 624 Density (g/cm³) = 0.99871 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00448 + Viscosity (mPa s) = 1.00446 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.645e-03 Mass of water (kg) = 1.000e+00 @@ -6952,7 +6952,7 @@ Initial solution 57. Specific Conductance (µS/cm, 20°C) = 786 Density (g/cm³) = 0.99879 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00463 + Viscosity (mPa s) = 1.00461 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.028e-02 Mass of water (kg) = 1.000e+00 @@ -7079,7 +7079,7 @@ Initial solution 58. Specific Conductance (µS/cm, 20°C) = 869 Density (g/cm³) = 0.99888 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00516 + Viscosity (mPa s) = 1.00513 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.196e-02 Mass of water (kg) = 1.000e+00 @@ -7205,7 +7205,7 @@ Initial solution 59. Specific Conductance (µS/cm, 20°C) = 817 Density (g/cm³) = 0.99874 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.00646 + Viscosity (mPa s) = 1.00644 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.332e-02 Mass of water (kg) = 1.000e+00 @@ -7327,10 +7327,10 @@ Initial solution 60. pH = 7.190 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 1230 + Specific Conductance (µS/cm, 20°C) = 1231 Density (g/cm³) = 0.99919 Volume (L) = 1.00189 - Viscosity (mPa s) = 1.00652 + Viscosity (mPa s) = 1.00649 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.727e-02 Mass of water (kg) = 1.000e+00 @@ -7456,7 +7456,7 @@ Initial solution 61. Specific Conductance (µS/cm, 20°C) = 922 Density (g/cm³) = 0.99883 Volume (L) = 1.00194 - Viscosity (mPa s) = 1.00726 + Viscosity (mPa s) = 1.00723 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.522e-02 Mass of water (kg) = 1.000e+00 @@ -7581,7 +7581,7 @@ Initial solution 62. Specific Conductance (µS/cm, 20°C) = 1059 Density (g/cm³) = 0.99891 Volume (L) = 1.00189 - Viscosity (mPa s) = 1.00505 + Viscosity (mPa s) = 1.00503 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.369e-02 Mass of water (kg) = 1.000e+00 @@ -7707,7 +7707,7 @@ Initial solution 63. Specific Conductance (µS/cm, 20°C) = 959 Density (g/cm³) = 0.99884 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00709 + Viscosity (mPa s) = 1.00707 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.558e-02 Mass of water (kg) = 1.000e+00 @@ -7832,7 +7832,7 @@ Initial solution 64. Specific Conductance (µS/cm, 20°C) = 1272 Density (g/cm³) = 0.99910 Volume (L) = 1.00194 - Viscosity (mPa s) = 1.00762 + Viscosity (mPa s) = 1.00760 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.955e-02 Mass of water (kg) = 1.000e+00 @@ -7959,7 +7959,7 @@ Initial solution 65. Specific Conductance (µS/cm, 20°C) = 1357 Density (g/cm³) = 0.99911 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00845 + Viscosity (mPa s) = 1.00842 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.206e-02 Mass of water (kg) = 1.000e+00 @@ -8086,7 +8086,7 @@ Initial solution 66. Specific Conductance (µS/cm, 20°C) = 1479 Density (g/cm³) = 0.99919 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00905 + Viscosity (mPa s) = 1.00902 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.476e-02 Mass of water (kg) = 1.000e+00 @@ -8210,10 +8210,10 @@ Initial solution 67. pH = 7.050 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 1540 + Specific Conductance (µS/cm, 20°C) = 1541 Density (g/cm³) = 0.99922 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.00928 + Viscosity (mPa s) = 1.00925 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.574e-02 Mass of water (kg) = 1.000e+00 @@ -8340,7 +8340,7 @@ Initial solution 68. Specific Conductance (µS/cm, 20°C) = 1365 Density (g/cm³) = 0.99899 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00723 + Viscosity (mPa s) = 1.00721 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.077e-02 Mass of water (kg) = 1.000e+00 @@ -8467,7 +8467,7 @@ Initial solution 69. Specific Conductance (µS/cm, 20°C) = 2572 Density (g/cm³) = 1.00065 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00912 + Viscosity (mPa s) = 1.00908 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.462e-02 Mass of water (kg) = 1.000e+00 @@ -8594,7 +8594,7 @@ Initial solution 70. Specific Conductance (µS/cm, 20°C) = 1645 Density (g/cm³) = 0.99926 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00927 + Viscosity (mPa s) = 1.00923 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.849e-02 Mass of water (kg) = 1.000e+00 @@ -8721,7 +8721,7 @@ Initial solution 71. Specific Conductance (µS/cm, 20°C) = 3051 Density (g/cm³) = 1.00115 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00960 + Viscosity (mPa s) = 1.00956 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.065e-02 Mass of water (kg) = 1.000e+00 @@ -8848,7 +8848,7 @@ Initial solution 72. Specific Conductance (µS/cm, 20°C) = 1671 Density (g/cm³) = 0.99937 Volume (L) = 1.00213 - Viscosity (mPa s) = 1.01095 + Viscosity (mPa s) = 1.01092 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.657e-02 Mass of water (kg) = 1.000e+00 @@ -8975,7 +8975,7 @@ Initial solution 73. Specific Conductance (µS/cm, 20°C) = 1698 Density (g/cm³) = 0.99929 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00938 + Viscosity (mPa s) = 1.00935 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.849e-02 Mass of water (kg) = 1.000e+00 @@ -9102,7 +9102,7 @@ Initial solution 74. Specific Conductance (µS/cm, 20°C) = 1913 Density (g/cm³) = 0.99944 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.01031 + Viscosity (mPa s) = 1.01028 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.401e-02 Mass of water (kg) = 1.000e+00 @@ -9229,7 +9229,7 @@ Initial solution 75. Specific Conductance (µS/cm, 20°C) = 2385 Density (g/cm³) = 0.99985 Volume (L) = 1.00227 - Viscosity (mPa s) = 1.01437 + Viscosity (mPa s) = 1.01433 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.873e-02 Mass of water (kg) = 1.000e+00 @@ -9355,7 +9355,7 @@ Initial solution 76. Specific Conductance (µS/cm, 20°C) = 754 Density (g/cm³) = 0.99865 Volume (L) = 1.00189 - Viscosity (mPa s) = 1.00564 + Viscosity (mPa s) = 1.00562 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.177e-02 Mass of water (kg) = 1.000e+00 @@ -9480,7 +9480,7 @@ Initial solution 77. Specific Conductance (µS/cm, 20°C) = 846 Density (g/cm³) = 0.99868 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00517 + Viscosity (mPa s) = 1.00515 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.169e-02 Mass of water (kg) = 1.000e+00 @@ -9606,7 +9606,7 @@ Initial solution 78. Specific Conductance (µS/cm, 20°C) = 851 Density (g/cm³) = 0.99867 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00503 + Viscosity (mPa s) = 1.00502 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.156e-02 Mass of water (kg) = 1.000e+00 @@ -9730,7 +9730,7 @@ Initial solution 79. Specific Conductance (µS/cm, 20°C) = 915 Density (g/cm³) = 0.99873 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00595 + Viscosity (mPa s) = 1.00592 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.379e-02 Mass of water (kg) = 1.000e+00 @@ -9854,7 +9854,7 @@ Initial solution 80. Specific Conductance (µS/cm, 20°C) = 960 Density (g/cm³) = 0.99871 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00526 + Viscosity (mPa s) = 1.00524 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.317e-02 Mass of water (kg) = 1.000e+00 @@ -9978,7 +9978,7 @@ Initial solution 81. Specific Conductance (µS/cm, 20°C) = 997 Density (g/cm³) = 0.99876 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00579 + Viscosity (mPa s) = 1.00577 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.421e-02 Mass of water (kg) = 1.000e+00 @@ -10102,7 +10102,7 @@ Initial solution 82. Specific Conductance (µS/cm, 20°C) = 1039 Density (g/cm³) = 0.99878 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00570 + Viscosity (mPa s) = 1.00569 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.442e-02 Mass of water (kg) = 1.000e+00 @@ -10227,7 +10227,7 @@ Initial solution 83. Specific Conductance (µS/cm, 20°C) = 1130 Density (g/cm³) = 0.99886 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00555 + Viscosity (mPa s) = 1.00553 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.534e-02 Mass of water (kg) = 1.000e+00 @@ -10353,7 +10353,7 @@ Initial solution 84. Specific Conductance (µS/cm, 20°C) = 1088 Density (g/cm³) = 0.99880 Volume (L) = 1.00194 - Viscosity (mPa s) = 1.00582 + Viscosity (mPa s) = 1.00581 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.495e-02 Mass of water (kg) = 1.000e+00 @@ -10477,7 +10477,7 @@ Initial solution 85. Specific Conductance (µS/cm, 20°C) = 1102 Density (g/cm³) = 0.99883 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.00622 + Viscosity (mPa s) = 1.00620 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.542e-02 Mass of water (kg) = 1.000e+00 @@ -10601,7 +10601,7 @@ Initial solution 86. Specific Conductance (µS/cm, 20°C) = 1115 Density (g/cm³) = 0.99882 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00591 + Viscosity (mPa s) = 1.00589 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.545e-02 Mass of water (kg) = 1.000e+00 @@ -10725,7 +10725,7 @@ Initial solution 87. Specific Conductance (µS/cm, 20°C) = 1070 Density (g/cm³) = 0.99895 Volume (L) = 1.00205 - Viscosity (mPa s) = 1.00775 + Viscosity (mPa s) = 1.00773 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.590e-02 Mass of water (kg) = 1.000e+00 @@ -10850,7 +10850,7 @@ Initial solution 88. Specific Conductance (µS/cm, 20°C) = 1097 Density (g/cm³) = 0.99886 Volume (L) = 1.00202 - Viscosity (mPa s) = 1.00658 + Viscosity (mPa s) = 1.00656 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.457e-02 Mass of water (kg) = 1.000e+00 @@ -10976,7 +10976,7 @@ Initial solution 89. Specific Conductance (µS/cm, 20°C) = 1266 Density (g/cm³) = 0.99914 Volume (L) = 1.00212 - Viscosity (mPa s) = 1.00990 + Viscosity (mPa s) = 1.00987 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.102e-02 Mass of water (kg) = 1.000e+00 @@ -11100,7 +11100,7 @@ Initial solution 90. Specific Conductance (µS/cm, 20°C) = 1391 Density (g/cm³) = 0.99895 Volume (L) = 1.00206 - Viscosity (mPa s) = 1.00629 + Viscosity (mPa s) = 1.00628 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.615e-02 Mass of water (kg) = 1.000e+00 @@ -11224,7 +11224,7 @@ Initial solution 91. Specific Conductance (µS/cm, 20°C) = 1268 Density (g/cm³) = 0.99897 Volume (L) = 1.00208 - Viscosity (mPa s) = 1.00676 + Viscosity (mPa s) = 1.00674 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.494e-02 Mass of water (kg) = 1.000e+00 @@ -11348,7 +11348,7 @@ Initial solution 92. Specific Conductance (µS/cm, 20°C) = 1515 Density (g/cm³) = 0.99918 Volume (L) = 1.00215 - Viscosity (mPa s) = 1.00832 + Viscosity (mPa s) = 1.00830 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.889e-02 Mass of water (kg) = 1.000e+00 @@ -11473,7 +11473,7 @@ Initial solution 93. Specific Conductance (µS/cm, 20°C) = 2445 Density (g/cm³) = 1.00017 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.01032 + Viscosity (mPa s) = 1.01028 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.719e-02 Mass of water (kg) = 1.000e+00 @@ -11599,7 +11599,7 @@ Initial solution 94. Specific Conductance (µS/cm, 20°C) = 1747 Density (g/cm³) = 0.99940 Volume (L) = 1.00221 - Viscosity (mPa s) = 1.01090 + Viscosity (mPa s) = 1.01087 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.596e-02 Mass of water (kg) = 1.000e+00 @@ -11723,7 +11723,7 @@ Initial solution 95. Specific Conductance (µS/cm, 20°C) = 2003 Density (g/cm³) = 0.99928 Volume (L) = 1.00217 - Viscosity (mPa s) = 1.00841 + Viscosity (mPa s) = 1.00839 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.454e-02 Mass of water (kg) = 1.000e+00 @@ -11847,7 +11847,7 @@ Initial solution 96. Specific Conductance (µS/cm, 20°C) = 2126 Density (g/cm³) = 0.99946 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.01050 + Viscosity (mPa s) = 1.01048 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.951e-02 Mass of water (kg) = 1.000e+00 @@ -11971,7 +11971,7 @@ Initial solution 97. Specific Conductance (µS/cm, 20°C) = 1973 Density (g/cm³) = 0.99919 Volume (L) = 1.00212 - Viscosity (mPa s) = 1.00663 + Viscosity (mPa s) = 1.00661 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.252e-02 Mass of water (kg) = 1.000e+00 @@ -12095,7 +12095,7 @@ Initial solution 98. Specific Conductance (µS/cm, 20°C) = 2157 Density (g/cm³) = 0.99926 Volume (L) = 1.00214 - Viscosity (mPa s) = 1.00736 + Viscosity (mPa s) = 1.00734 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.581e-02 Mass of water (kg) = 1.000e+00 @@ -12219,7 +12219,7 @@ Initial solution 99. Specific Conductance (µS/cm, 20°C) = 2242 Density (g/cm³) = 0.99931 Volume (L) = 1.00213 - Viscosity (mPa s) = 1.00730 + Viscosity (mPa s) = 1.00728 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.735e-02 Mass of water (kg) = 1.000e+00 @@ -12344,7 +12344,7 @@ Initial solution 100. Specific Conductance (µS/cm, 20°C) = 2421 Density (g/cm³) = 0.99940 Volume (L) = 1.00224 - Viscosity (mPa s) = 1.00770 + Viscosity (mPa s) = 1.00768 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.688e-02 Mass of water (kg) = 1.000e+00 @@ -12470,7 +12470,7 @@ Initial solution 101. Specific Conductance (µS/cm, 20°C) = 2385 Density (g/cm³) = 0.99932 Volume (L) = 1.00215 - Viscosity (mPa s) = 1.00785 + Viscosity (mPa s) = 1.00783 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.970e-02 Mass of water (kg) = 1.000e+00 @@ -12594,7 +12594,7 @@ Initial solution 102. Specific Conductance (µS/cm, 20°C) = 2367 Density (g/cm³) = 0.99942 Volume (L) = 1.00224 - Viscosity (mPa s) = 1.00886 + Viscosity (mPa s) = 1.00884 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.844e-02 Mass of water (kg) = 1.000e+00 @@ -12718,7 +12718,7 @@ Initial solution 103. Specific Conductance (µS/cm, 20°C) = 2563 Density (g/cm³) = 0.99990 Volume (L) = 1.00245 - Viscosity (mPa s) = 1.01419 + Viscosity (mPa s) = 1.01416 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.547e-02 Mass of water (kg) = 1.000e+00 @@ -12843,7 +12843,7 @@ Initial solution 104. Specific Conductance (µS/cm, 20°C) = 3058 Density (g/cm³) = 0.99966 Volume (L) = 1.00218 - Viscosity (mPa s) = 1.01038 + Viscosity (mPa s) = 1.01034 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.330e-02 Mass of water (kg) = 1.000e+00 @@ -12970,7 +12970,7 @@ Initial solution 105. Specific Conductance (µS/cm, 20°C) = 3204 Density (g/cm³) = 0.99972 Volume (L) = 1.00233 - Viscosity (mPa s) = 1.00890 + Viscosity (mPa s) = 1.00888 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.764e-02 Mass of water (kg) = 1.000e+00 @@ -13096,7 +13096,7 @@ Initial solution 106. Specific Conductance (µS/cm, 20°C) = 3256 Density (g/cm³) = 1.00026 Volume (L) = 1.00258 - Viscosity (mPa s) = 1.01616 + Viscosity (mPa s) = 1.01613 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.442e-02 Mass of water (kg) = 1.000e+00 @@ -13220,7 +13220,7 @@ Initial solution 107. Specific Conductance (µS/cm, 20°C) = 3827 Density (g/cm³) = 1.00079 Volume (L) = 1.00285 - Viscosity (mPa s) = 1.02002 + Viscosity (mPa s) = 1.01999 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.247e-02 Mass of water (kg) = 1.000e+00 @@ -13344,7 +13344,7 @@ Initial solution 108. Specific Conductance (µS/cm, 20°C) = 4250 Density (g/cm³) = 1.00025 Volume (L) = 1.00229 - Viscosity (mPa s) = 1.01179 + Viscosity (mPa s) = 1.01175 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.143e-02 Mass of water (kg) = 1.000e+00 @@ -13468,7 +13468,7 @@ Initial solution 109. Specific Conductance (µS/cm, 20°C) = 4552 Density (g/cm³) = 1.00060 Volume (L) = 1.00259 - Viscosity (mPa s) = 1.01486 + Viscosity (mPa s) = 1.01483 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.886e-02 Mass of water (kg) = 1.000e+00 @@ -13592,7 +13592,7 @@ Initial solution 110. Specific Conductance (µS/cm, 20°C) = 4685 Density (g/cm³) = 1.00041 Volume (L) = 1.00253 - Viscosity (mPa s) = 1.01183 + Viscosity (mPa s) = 1.01180 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.789e-02 Mass of water (kg) = 1.000e+00 @@ -13716,7 +13716,7 @@ Initial solution 111. Specific Conductance (µS/cm, 20°C) = 4913 Density (g/cm³) = 1.00052 Volume (L) = 1.00262 - Viscosity (mPa s) = 1.01069 + Viscosity (mPa s) = 1.01067 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.622e-02 Mass of water (kg) = 1.000e+00 @@ -13840,7 +13840,7 @@ Initial solution 112. Specific Conductance (µS/cm, 20°C) = 5774 Density (g/cm³) = 1.00103 Volume (L) = 1.00274 - Viscosity (mPa s) = 1.01211 + Viscosity (mPa s) = 1.01208 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.868e-02 Mass of water (kg) = 1.000e+00 @@ -13964,7 +13964,7 @@ Initial solution 113. Specific Conductance (µS/cm, 20°C) = 6070 Density (g/cm³) = 1.00126 Volume (L) = 1.00286 - Viscosity (mPa s) = 1.01452 + Viscosity (mPa s) = 1.01448 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.248e-02 Mass of water (kg) = 1.000e+00 @@ -14088,7 +14088,7 @@ Initial solution 114. Specific Conductance (µS/cm, 20°C) = 6966 Density (g/cm³) = 1.00159 Volume (L) = 1.00295 - Viscosity (mPa s) = 1.01586 + Viscosity (mPa s) = 1.01583 Activity of water = 0.998 Ionic strength (mol/kgw) = 8.646e-02 Mass of water (kg) = 1.000e+00 @@ -14212,7 +14212,7 @@ Initial solution 115. Specific Conductance (µS/cm, 20°C) = 7953 Density (g/cm³) = 1.00231 Volume (L) = 1.00336 - Viscosity (mPa s) = 1.02054 + Viscosity (mPa s) = 1.02050 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.714e-02 Mass of water (kg) = 1.000e+00 @@ -14333,10 +14333,10 @@ Initial solution 116. pH = 7.410 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 8662 + Specific Conductance (µS/cm, 20°C) = 8663 Density (g/cm³) = 1.00248 Volume (L) = 1.00321 - Viscosity (mPa s) = 1.01863 + Viscosity (mPa s) = 1.01859 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.113e-01 Mass of water (kg) = 1.000e+00 @@ -14460,7 +14460,7 @@ Initial solution 117. Specific Conductance (µS/cm, 20°C) = 10103 Density (g/cm³) = 1.00319 Volume (L) = 1.00329 - Viscosity (mPa s) = 1.02181 + Viscosity (mPa s) = 1.02175 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.406e-01 Mass of water (kg) = 1.000e+00 @@ -14581,10 +14581,10 @@ Initial solution 118. pH = 7.240 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 10156 + Specific Conductance (µS/cm, 20°C) = 10157 Density (g/cm³) = 1.00328 Volume (L) = 1.00335 - Viscosity (mPa s) = 1.01831 + Viscosity (mPa s) = 1.01827 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.335e-01 Mass of water (kg) = 1.000e+00 @@ -14708,7 +14708,7 @@ Initial solution 119. Specific Conductance (µS/cm, 20°C) = 11900 Density (g/cm³) = 1.00419 Volume (L) = 1.00356 - Viscosity (mPa s) = 1.02530 + Viscosity (mPa s) = 1.02524 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.704e-01 Mass of water (kg) = 1.000e+00 @@ -14832,7 +14832,7 @@ Initial solution 120. Specific Conductance (µS/cm, 20°C) = 13041 Density (g/cm³) = 1.00466 Volume (L) = 1.00388 - Viscosity (mPa s) = 1.02335 + Viscosity (mPa s) = 1.02330 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.731e-01 Mass of water (kg) = 1.000e+00 @@ -14953,10 +14953,10 @@ Initial solution 121. pH = 7.080 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 13326 + Specific Conductance (µS/cm, 20°C) = 13327 Density (g/cm³) = 1.00484 Volume (L) = 1.00385 - Viscosity (mPa s) = 1.02461 + Viscosity (mPa s) = 1.02456 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.829e-01 Mass of water (kg) = 1.000e+00 @@ -15080,7 +15080,7 @@ Initial solution 122. Specific Conductance (µS/cm, 20°C) = 14194 Density (g/cm³) = 1.00538 Volume (L) = 1.00393 - Viscosity (mPa s) = 1.02694 + Viscosity (mPa s) = 1.02688 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.014e-01 Mass of water (kg) = 1.000e+00 @@ -15204,7 +15204,7 @@ Initial solution 123. Specific Conductance (µS/cm, 20°C) = 15517 Density (g/cm³) = 1.00602 Volume (L) = 1.00413 - Viscosity (mPa s) = 1.03003 + Viscosity (mPa s) = 1.02997 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.237e-01 Mass of water (kg) = 1.000e+00 @@ -15325,10 +15325,10 @@ Initial solution 124. pH = 7.140 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16859 + Specific Conductance (µS/cm, 20°C) = 16860 Density (g/cm³) = 1.00680 Volume (L) = 1.00438 - Viscosity (mPa s) = 1.02962 + Viscosity (mPa s) = 1.02956 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.390e-01 Mass of water (kg) = 1.000e+00 @@ -15449,10 +15449,10 @@ Initial solution 125. pH = 7.170 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 18292 + Specific Conductance (µS/cm, 20°C) = 18293 Density (g/cm³) = 1.00767 Volume (L) = 1.00483 - Viscosity (mPa s) = 1.03488 + Viscosity (mPa s) = 1.03482 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.636e-01 Mass of water (kg) = 1.000e+00 @@ -15573,10 +15573,10 @@ Initial solution 126. pH = 7.190 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 19951 + Specific Conductance (µS/cm, 20°C) = 19952 Density (g/cm³) = 1.00851 Volume (L) = 1.00510 - Viscosity (mPa s) = 1.03325 + Viscosity (mPa s) = 1.03319 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.769e-01 Mass of water (kg) = 1.000e+00 @@ -15697,10 +15697,10 @@ Initial solution 127. pH = 6.580 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 19714 + Specific Conductance (µS/cm, 20°C) = 19716 Density (g/cm³) = 1.00866 Volume (L) = 1.00470 - Viscosity (mPa s) = 1.04030 + Viscosity (mPa s) = 1.04022 Activity of water = 0.994 Ionic strength (mol/kgw) = 3.100e-01 Mass of water (kg) = 1.000e+00 @@ -15821,10 +15821,10 @@ Initial solution 128. pH = 7.100 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 22198 + Specific Conductance (µS/cm, 20°C) = 22200 Density (g/cm³) = 1.00991 Volume (L) = 1.00543 - Viscosity (mPa s) = 1.04233 + Viscosity (mPa s) = 1.04226 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.298e-01 Mass of water (kg) = 1.000e+00 @@ -15945,10 +15945,10 @@ Initial solution 129. pH = 6.960 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 23596 + Specific Conductance (µS/cm, 20°C) = 23597 Density (g/cm³) = 1.01067 Volume (L) = 1.00590 - Viscosity (mPa s) = 1.04197 + Viscosity (mPa s) = 1.04190 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.396e-01 Mass of water (kg) = 1.000e+00 @@ -16069,10 +16069,10 @@ Initial solution 130. pH = 7.460 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 24053 + Specific Conductance (µS/cm, 20°C) = 24055 Density (g/cm³) = 1.01082 Volume (L) = 1.00598 - Viscosity (mPa s) = 1.04246 + Viscosity (mPa s) = 1.04239 Activity of water = 0.992 Ionic strength (mol/kgw) = 3.472e-01 Mass of water (kg) = 1.000e+00 @@ -16193,10 +16193,10 @@ Initial solution 131. pH = 7.060 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25480 + Specific Conductance (µS/cm, 20°C) = 25482 Density (g/cm³) = 1.01146 Volume (L) = 1.00633 - Viscosity (mPa s) = 1.04230 + Viscosity (mPa s) = 1.04223 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.562e-01 Mass of water (kg) = 1.000e+00 @@ -16317,10 +16317,10 @@ Initial solution 132. pH = 7.010 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 26017 + Specific Conductance (µS/cm, 20°C) = 26019 Density (g/cm³) = 1.01228 Volume (L) = 1.00608 - Viscosity (mPa s) = 1.04878 + Viscosity (mPa s) = 1.04869 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.020e-01 Mass of water (kg) = 1.000e+00 @@ -16441,10 +16441,10 @@ Initial solution 133. pH = 7.220 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 27842 + Specific Conductance (µS/cm, 20°C) = 27843 Density (g/cm³) = 1.01281 Volume (L) = 1.00684 - Viscosity (mPa s) = 1.04489 + Viscosity (mPa s) = 1.04482 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.930e-01 Mass of water (kg) = 1.000e+00 @@ -16565,10 +16565,10 @@ Initial solution 134. pH = 6.990 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 29955 + Specific Conductance (µS/cm, 20°C) = 29957 Density (g/cm³) = 1.01398 Volume (L) = 1.00733 - Viscosity (mPa s) = 1.04898 + Viscosity (mPa s) = 1.04891 Activity of water = 0.989 Ionic strength (mol/kgw) = 4.252e-01 Mass of water (kg) = 1.000e+00 @@ -16689,10 +16689,10 @@ Initial solution 135. pH = 7.250 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 30589 + Specific Conductance (µS/cm, 20°C) = 30591 Density (g/cm³) = 1.01437 Volume (L) = 1.00752 - Viscosity (mPa s) = 1.04977 + Viscosity (mPa s) = 1.04969 Activity of water = 0.989 Ionic strength (mol/kgw) = 4.340e-01 Mass of water (kg) = 1.000e+00 @@ -16813,10 +16813,10 @@ Initial solution 136. pH = 7.040 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 35154 + Specific Conductance (µS/cm, 20°C) = 35156 Density (g/cm³) = 1.01763 Volume (L) = 1.00827 - Viscosity (mPa s) = 1.06127 + Viscosity (mPa s) = 1.06118 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.347e-01 Mass of water (kg) = 1.000e+00 @@ -16937,10 +16937,10 @@ Initial solution 137. pH = 7.020 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 35580 + Specific Conductance (µS/cm, 20°C) = 35582 Density (g/cm³) = 1.01762 Volume (L) = 1.00839 - Viscosity (mPa s) = 1.06113 + Viscosity (mPa s) = 1.06104 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.341e-01 Mass of water (kg) = 1.000e+00 @@ -17061,10 +17061,10 @@ Initial solution 138. pH = 7.220 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 32793 + Specific Conductance (µS/cm, 20°C) = 32795 Density (g/cm³) = 1.01581 Volume (L) = 1.00789 - Viscosity (mPa s) = 1.05604 + Viscosity (mPa s) = 1.05595 Activity of water = 0.988 Ionic strength (mol/kgw) = 4.823e-01 Mass of water (kg) = 1.000e+00 @@ -17185,10 +17185,10 @@ Initial solution 139. pH = 7.250 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38646 + Specific Conductance (µS/cm, 20°C) = 38648 Density (g/cm³) = 1.01952 Volume (L) = 1.00917 - Viscosity (mPa s) = 1.06598 + Viscosity (mPa s) = 1.06589 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.807e-01 Mass of water (kg) = 1.000e+00 @@ -17310,10 +17310,10 @@ Initial solution 140. pH = 7.110 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38038 + Specific Conductance (µS/cm, 20°C) = 38041 Density (g/cm³) = 1.01893 Volume (L) = 1.00900 - Viscosity (mPa s) = 1.06504 + Viscosity (mPa s) = 1.06495 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.696e-01 Mass of water (kg) = 1.000e+00 @@ -17436,10 +17436,10 @@ Initial solution 141. pH = 7.180 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 38085 + Specific Conductance (µS/cm, 20°C) = 38088 Density (g/cm³) = 1.01892 Volume (L) = 1.00913 - Viscosity (mPa s) = 1.06373 + Viscosity (mPa s) = 1.06365 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.659e-01 Mass of water (kg) = 1.000e+00 @@ -17560,10 +17560,10 @@ Initial solution 142. pH = 7.070 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 37997 + Specific Conductance (µS/cm, 20°C) = 37999 Density (g/cm³) = 1.01877 Volume (L) = 1.00916 - Viscosity (mPa s) = 1.06253 + Viscosity (mPa s) = 1.06245 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.605e-01 Mass of water (kg) = 1.000e+00 @@ -17684,10 +17684,10 @@ Initial solution 143. pH = 7.390 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 40217 + Specific Conductance (µS/cm, 20°C) = 40220 Density (g/cm³) = 1.02009 Volume (L) = 1.00967 - Viscosity (mPa s) = 1.06702 + Viscosity (mPa s) = 1.06693 Activity of water = 0.985 Ionic strength (mol/kgw) = 5.954e-01 Mass of water (kg) = 1.000e+00 @@ -17808,10 +17808,10 @@ Initial solution 144. pH = 7.230 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 40910 + Specific Conductance (µS/cm, 20°C) = 40913 Density (g/cm³) = 1.02074 Volume (L) = 1.00973 - Viscosity (mPa s) = 1.06878 + Viscosity (mPa s) = 1.06869 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.151e-01 Mass of water (kg) = 1.000e+00 @@ -17932,10 +17932,10 @@ Initial solution 145. pH = 7.340 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 41018 + Specific Conductance (µS/cm, 20°C) = 41021 Density (g/cm³) = 1.02067 Volume (L) = 1.00983 - Viscosity (mPa s) = 1.06787 + Viscosity (mPa s) = 1.06778 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.109e-01 Mass of water (kg) = 1.000e+00 @@ -18057,10 +18057,10 @@ Initial solution 146. pH = 7.130 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 42241 + Specific Conductance (µS/cm, 20°C) = 42244 Density (g/cm³) = 1.02112 Volume (L) = 1.01010 - Viscosity (mPa s) = 1.06927 + Viscosity (mPa s) = 1.06918 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.243e-01 Mass of water (kg) = 1.000e+00 @@ -18185,7 +18185,7 @@ Initial solution 147. Specific Conductance (µS/cm, 20°C) = 229 Density (g/cm³) = 0.99834 Volume (L) = 1.00183 - Viscosity (mPa s) = 1.00305 + Viscosity (mPa s) = 1.00304 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.307e-03 Mass of water (kg) = 1.000e+00 @@ -18305,7 +18305,7 @@ Initial solution 148. Specific Conductance (µS/cm, 20°C) = 428 Density (g/cm³) = 0.99849 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00479 + Viscosity (mPa s) = 1.00477 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.115e-03 Mass of water (kg) = 1.000e+00 @@ -18425,7 +18425,7 @@ Initial solution 149. Specific Conductance (µS/cm, 20°C) = 544 Density (g/cm³) = 0.99852 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00447 + Viscosity (mPa s) = 1.00446 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.011e-03 Mass of water (kg) = 1.000e+00 @@ -18544,7 +18544,7 @@ Initial solution 150. Specific Conductance (µS/cm, 20°C) = 570 Density (g/cm³) = 0.99858 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.00479 + Viscosity (mPa s) = 1.00478 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.827e-03 Mass of water (kg) = 1.000e+00 @@ -18648,7 +18648,7 @@ Initial solution 151. Specific Conductance (µS/cm, 20°C) = 764 Density (g/cm³) = 0.99863 Volume (L) = 1.00196 - Viscosity (mPa s) = 1.00461 + Viscosity (mPa s) = 1.00460 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.870e-03 Mass of water (kg) = 1.000e+00 @@ -18734,7 +18734,7 @@ Initial solution 152. Specific Conductance (µS/cm, 20°C) = 1202 Density (g/cm³) = 0.99900 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00789 + Viscosity (mPa s) = 1.00786 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.203e-02 Mass of water (kg) = 1.000e+00 @@ -18854,7 +18854,7 @@ Initial solution 153. Specific Conductance (µS/cm, 20°C) = 1507 Density (g/cm³) = 0.99924 Volume (L) = 1.00203 - Viscosity (mPa s) = 1.00946 + Viscosity (mPa s) = 1.00944 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.240e-02 Mass of water (kg) = 1.000e+00 @@ -18974,7 +18974,7 @@ Initial solution 154. Specific Conductance (µS/cm, 20°C) = 1789 Density (g/cm³) = 0.99952 Volume (L) = 1.00211 - Viscosity (mPa s) = 1.01263 + Viscosity (mPa s) = 1.01259 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.159e-02 Mass of water (kg) = 1.000e+00 @@ -19094,7 +19094,7 @@ Initial solution 155. Specific Conductance (µS/cm, 20°C) = 2017 Density (g/cm³) = 0.99960 Volume (L) = 1.00229 - Viscosity (mPa s) = 1.01180 + Viscosity (mPa s) = 1.01177 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.722e-02 Mass of water (kg) = 1.000e+00 @@ -19214,7 +19214,7 @@ Initial solution 156. Specific Conductance (µS/cm, 20°C) = 2449 Density (g/cm³) = 0.99963 Volume (L) = 1.00199 - Viscosity (mPa s) = 1.00844 + Viscosity (mPa s) = 1.00841 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.740e-02 Mass of water (kg) = 1.000e+00 @@ -19331,10 +19331,10 @@ Initial solution 157. pH = 8.220 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 2984 + Specific Conductance (µS/cm, 20°C) = 2985 Density (g/cm³) = 1.00027 Volume (L) = 1.00221 - Viscosity (mPa s) = 1.01451 + Viscosity (mPa s) = 1.01447 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.372e-02 Mass of water (kg) = 1.000e+00 @@ -19454,7 +19454,7 @@ Initial solution 158. Specific Conductance (µS/cm, 20°C) = 3686 Density (g/cm³) = 1.00096 Volume (L) = 1.00208 - Viscosity (mPa s) = 1.01902 + Viscosity (mPa s) = 1.01897 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.661e-02 Mass of water (kg) = 1.000e+00 @@ -19574,7 +19574,7 @@ Initial solution 159. Specific Conductance (µS/cm, 20°C) = 4195 Density (g/cm³) = 1.00145 Volume (L) = 1.00206 - Viscosity (mPa s) = 1.02187 + Viscosity (mPa s) = 1.02181 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.239e-02 Mass of water (kg) = 1.000e+00 @@ -19694,7 +19694,7 @@ Initial solution 160. Specific Conductance (µS/cm, 20°C) = 4897 Density (g/cm³) = 1.00058 Volume (L) = 1.00238 - Viscosity (mPa s) = 1.01217 + Viscosity (mPa s) = 1.01213 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.911e-02 Mass of water (kg) = 1.000e+00 @@ -19814,7 +19814,7 @@ Initial solution 161. Specific Conductance (µS/cm, 20°C) = 6504 Density (g/cm³) = 1.00375 Volume (L) = 1.00211 - Viscosity (mPa s) = 1.03254 + Viscosity (mPa s) = 1.03246 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.452e-01 Mass of water (kg) = 1.000e+00 @@ -19931,10 +19931,10 @@ Initial solution 162. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 8167 + Specific Conductance (µS/cm, 20°C) = 8168 Density (g/cm³) = 1.00554 Volume (L) = 1.00224 - Viscosity (mPa s) = 1.04319 + Viscosity (mPa s) = 1.04309 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.933e-01 Mass of water (kg) = 1.000e+00 @@ -20054,7 +20054,7 @@ Initial solution 163. Specific Conductance (µS/cm, 20°C) = 8928 Density (g/cm³) = 1.00557 Volume (L) = 1.00251 - Viscosity (mPa s) = 1.03542 + Viscosity (mPa s) = 1.03533 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.858e-01 Mass of water (kg) = 1.000e+00 @@ -20171,10 +20171,10 @@ Initial solution 164. pH = 8.660 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 10492 + Specific Conductance (µS/cm, 20°C) = 10493 Density (g/cm³) = 1.00341 Volume (L) = 1.00342 - Viscosity (mPa s) = 1.01807 + Viscosity (mPa s) = 1.01803 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.363e-01 Mass of water (kg) = 1.000e+00 @@ -20291,10 +20291,10 @@ Initial solution 165. pH = 8.640 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 11880 + Specific Conductance (µS/cm, 20°C) = 11881 Density (g/cm³) = 1.00530 Volume (L) = 1.00342 - Viscosity (mPa s) = 1.02522 + Viscosity (mPa s) = 1.02517 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.840e-01 Mass of water (kg) = 1.000e+00 @@ -20414,7 +20414,7 @@ Initial solution 166. Specific Conductance (µS/cm, 20°C) = 15047 Density (g/cm³) = 1.00601 Volume (L) = 1.00420 - Viscosity (mPa s) = 1.02617 + Viscosity (mPa s) = 1.02612 Activity of water = 0.995 Ionic strength (mol/kgw) = 2.082e-01 Mass of water (kg) = 1.000e+00 @@ -20531,10 +20531,10 @@ Initial solution 167. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 21094 + Specific Conductance (µS/cm, 20°C) = 21095 Density (g/cm³) = 1.00931 Volume (L) = 1.00508 - Viscosity (mPa s) = 1.03899 + Viscosity (mPa s) = 1.03892 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.181e-01 Mass of water (kg) = 1.000e+00 @@ -20651,10 +20651,10 @@ Initial solution 168. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 25998 + Specific Conductance (µS/cm, 20°C) = 26000 Density (g/cm³) = 1.01207 Volume (L) = 1.00577 - Viscosity (mPa s) = 1.05196 + Viscosity (mPa s) = 1.05187 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.184e-01 Mass of water (kg) = 1.000e+00 @@ -20771,10 +20771,10 @@ Initial solution 169. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 45239 + Specific Conductance (µS/cm, 20°C) = 45243 Density (g/cm³) = 1.02423 Volume (L) = 1.01018 - Viscosity (mPa s) = 1.08470 + Viscosity (mPa s) = 1.08459 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.544e-01 Mass of water (kg) = 1.000e+00 @@ -20891,10 +20891,10 @@ Initial solution 170. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 66420 + Specific Conductance (µS/cm, 20°C) = 66426 Density (g/cm³) = 1.04190 Volume (L) = 1.01707 - Viscosity (mPa s) = 1.11687 + Viscosity (mPa s) = 1.11674 Activity of water = 0.972 Ionic strength (mol/kgw) = 1.118e+00 Mass of water (kg) = 1.000e+00 @@ -21014,7 +21014,7 @@ Initial solution 171. Specific Conductance (µS/cm, 20°C) = 40 Density (g/cm³) = 0.99823 Volume (L) = 1.00181 - Viscosity (mPa s) = 1.00215 + Viscosity (mPa s) = 1.00214 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.942e-04 Mass of water (kg) = 1.000e+00 @@ -21123,7 +21123,7 @@ Initial solution 172. Specific Conductance (µS/cm, 20°C) = 80 Density (g/cm³) = 0.99826 Volume (L) = 1.00181 - Viscosity (mPa s) = 1.00229 + Viscosity (mPa s) = 1.00228 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.134e-03 Mass of water (kg) = 1.000e+00 @@ -21369,7 +21369,7 @@ Initial solution 174. Specific Conductance (µS/cm, 20°C) = 136 Density (g/cm³) = 0.99830 Volume (L) = 1.00182 - Viscosity (mPa s) = 1.00279 + Viscosity (mPa s) = 1.00278 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.157e-03 Mass of water (kg) = 1.000e+00 @@ -21492,7 +21492,7 @@ Initial solution 175. Specific Conductance (µS/cm, 20°C) = 133 Density (g/cm³) = 0.99830 Volume (L) = 1.00183 - Viscosity (mPa s) = 1.00294 + Viscosity (mPa s) = 1.00293 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.154e-03 Mass of water (kg) = 1.000e+00 @@ -21615,7 +21615,7 @@ Initial solution 176. Specific Conductance (µS/cm, 20°C) = 258 Density (g/cm³) = 0.99840 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00384 + Viscosity (mPa s) = 1.00382 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.451e-03 Mass of water (kg) = 1.000e+00 @@ -21738,7 +21738,7 @@ Initial solution 177. Specific Conductance (µS/cm, 20°C) = 1173 Density (g/cm³) = 0.99891 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00604 + Viscosity (mPa s) = 1.00602 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.628e-02 Mass of water (kg) = 1.000e+00 @@ -21858,10 +21858,10 @@ Initial solution 178. pH = 6.500 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 2312 + Specific Conductance (µS/cm, 20°C) = 2313 Density (g/cm³) = 0.99996 Volume (L) = 1.00267 - Viscosity (mPa s) = 1.02022 + Viscosity (mPa s) = 1.02018 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.044e-02 Mass of water (kg) = 1.000e+00 @@ -21983,7 +21983,7 @@ Initial solution 179. Specific Conductance (µS/cm, 20°C) = 3026 Density (g/cm³) = 1.00072 Volume (L) = 1.00181 - Viscosity (mPa s) = 1.01905 + Viscosity (mPa s) = 1.01899 Activity of water = 0.999 Ionic strength (mol/kgw) = 7.062e-02 Mass of water (kg) = 1.000e+00 @@ -22090,7 +22090,7 @@ Initial solution 180. Specific Conductance (µS/cm, 20°C) = 2665 Density (g/cm³) = 0.99990 Volume (L) = 1.00236 - Viscosity (mPa s) = 1.01232 + Viscosity (mPa s) = 1.01230 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.428e-02 Mass of water (kg) = 1.000e+00 @@ -22196,7 +22196,7 @@ Initial solution 181. Specific Conductance (µS/cm, 20°C) = 3776 Density (g/cm³) = 1.00065 Volume (L) = 1.00206 - Viscosity (mPa s) = 1.01484 + Viscosity (mPa s) = 1.01479 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.769e-02 Mass of water (kg) = 1.000e+00 @@ -22304,7 +22304,7 @@ Initial solution 182. Specific Conductance (µS/cm, 20°C) = 4839 Density (g/cm³) = 1.00185 Volume (L) = 1.00201 - Viscosity (mPa s) = 1.02141 + Viscosity (mPa s) = 1.02135 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.023e-01 Mass of water (kg) = 1.000e+00 @@ -22403,7 +22403,7 @@ Initial solution 183. Specific Conductance (µS/cm, 20°C) = 6809 Density (g/cm³) = 1.00226 Volume (L) = 1.00296 - Viscosity (mPa s) = 1.01942 + Viscosity (mPa s) = 1.01938 Activity of water = 0.998 Ionic strength (mol/kgw) = 9.337e-02 Mass of water (kg) = 1.000e+00 @@ -22505,10 +22505,10 @@ Initial solution 184. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 9269 + Specific Conductance (µS/cm, 20°C) = 9270 Density (g/cm³) = 1.00339 Volume (L) = 1.00325 - Viscosity (mPa s) = 1.01771 + Viscosity (mPa s) = 1.01767 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.259e-01 Mass of water (kg) = 1.000e+00 @@ -22613,7 +22613,7 @@ Initial solution 185. Specific Conductance (µS/cm, 20°C) = 15433 Density (g/cm³) = 1.00610 Volume (L) = 1.00448 - Viscosity (mPa s) = 1.02322 + Viscosity (mPa s) = 1.02317 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.973e-01 Mass of water (kg) = 1.000e+00 @@ -22720,7 +22720,7 @@ Initial solution 186. Specific Conductance (µS/cm, 20°C) = 15397 Density (g/cm³) = 1.00547 Volume (L) = 1.00437 - Viscosity (mPa s) = 1.02131 + Viscosity (mPa s) = 1.02126 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.932e-01 Mass of water (kg) = 1.000e+00 @@ -22838,10 +22838,10 @@ Initial solution 187. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 27949 + Specific Conductance (µS/cm, 20°C) = 27950 Density (g/cm³) = 1.01293 Volume (L) = 1.00736 - Viscosity (mPa s) = 1.05403 + Viscosity (mPa s) = 1.05395 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.939e-01 Mass of water (kg) = 1.000e+00 @@ -22943,10 +22943,10 @@ Initial solution 188. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 82036 + Specific Conductance (µS/cm, 20°C) = 82043 Density (g/cm³) = 1.04355 Volume (L) = 1.02148 - Viscosity (mPa s) = 1.12673 + Viscosity (mPa s) = 1.12661 Activity of water = 0.964 Ionic strength (mol/kgw) = 1.212e+00 Mass of water (kg) = 1.000e+00 @@ -23048,10 +23048,10 @@ Initial solution 189. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 86437 + Specific Conductance (µS/cm, 20°C) = 86444 Density (g/cm³) = 1.04605 Volume (L) = 1.02278 - Viscosity (mPa s) = 1.13999 + Viscosity (mPa s) = 1.13987 Activity of water = 0.961 Ionic strength (mol/kgw) = 1.303e+00 Mass of water (kg) = 1.000e+00 @@ -23153,10 +23153,10 @@ Initial solution 190. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 147767 + Specific Conductance (µS/cm, 20°C) = 147782 Density (g/cm³) = 1.08877 Volume (L) = 1.04754 - Viscosity (mPa s) = 1.28068 + Viscosity (mPa s) = 1.28050 Activity of water = 0.918 Ionic strength (mol/kgw) = 2.569e+00 Mass of water (kg) = 1.000e+00 @@ -23259,10 +23259,10 @@ Initial solution 191. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 148589 + Specific Conductance (µS/cm, 20°C) = 148605 Density (g/cm³) = 1.09277 Volume (L) = 1.04589 - Viscosity (mPa s) = 1.30407 + Viscosity (mPa s) = 1.30389 Activity of water = 0.916 Ionic strength (mol/kgw) = 2.740e+00 Mass of water (kg) = 1.000e+00 @@ -23379,10 +23379,10 @@ Initial solution 192. pH = 6.900 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 57144 + Specific Conductance (µS/cm, 20°C) = 57148 Density (g/cm³) = 1.02845 Volume (L) = 1.01412 - Viscosity (mPa s) = 1.08036 + Viscosity (mPa s) = 1.08026 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.014e-01 Mass of water (kg) = 1.000e+00 @@ -23501,7 +23501,7 @@ Initial solution 193. Specific Conductance (µS/cm, 20°C) = 2767 Density (g/cm³) = 1.00011 Volume (L) = 1.00212 - Viscosity (mPa s) = 1.01329 + Viscosity (mPa s) = 1.01325 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.291e-02 Mass of water (kg) = 1.000e+00 @@ -23608,7 +23608,7 @@ Initial solution 194. Specific Conductance (µS/cm, 20°C) = 2875 Density (g/cm³) = 1.00049 Volume (L) = 1.00263 - Viscosity (mPa s) = 1.01612 + Viscosity (mPa s) = 1.01609 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.912e-02 Mass of water (kg) = 1.000e+00 @@ -23729,10 +23729,10 @@ Initial solution 195. pH = 6.840 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 3895 + Specific Conductance (µS/cm, 20°C) = 3896 Density (g/cm³) = 1.00130 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.02005 + Viscosity (mPa s) = 1.01999 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.733e-02 Mass of water (kg) = 1.000e+00 @@ -23858,7 +23858,7 @@ Initial solution 196. Specific Conductance (µS/cm, 20°C) = 1939 Density (g/cm³) = 0.99958 Volume (L) = 1.00194 - Viscosity (mPa s) = 1.00945 + Viscosity (mPa s) = 1.00942 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.112e-02 Mass of water (kg) = 1.000e+00 @@ -23981,7 +23981,7 @@ Initial solution 197. Specific Conductance (µS/cm, 20°C) = 1928 Density (g/cm³) = 0.99965 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00924 + Viscosity (mPa s) = 1.00920 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.000e-02 Mass of water (kg) = 1.000e+00 @@ -24104,7 +24104,7 @@ Initial solution 198. Specific Conductance (µS/cm, 20°C) = 1691 Density (g/cm³) = 0.99947 Volume (L) = 1.00193 - Viscosity (mPa s) = 1.00874 + Viscosity (mPa s) = 1.00871 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.606e-02 Mass of water (kg) = 1.000e+00 @@ -24226,7 +24226,7 @@ Initial solution 199. Specific Conductance (µS/cm, 20°C) = 928 Density (g/cm³) = 0.99879 Volume (L) = 1.00190 - Viscosity (mPa s) = 1.00664 + Viscosity (mPa s) = 1.00662 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.507e-02 Mass of water (kg) = 1.000e+00 @@ -24346,7 +24346,7 @@ Initial solution 200. Specific Conductance (µS/cm, 20°C) = 1139 Density (g/cm³) = 0.99894 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.00778 + Viscosity (mPa s) = 1.00775 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.921e-02 Mass of water (kg) = 1.000e+00 @@ -24466,7 +24466,7 @@ Initial solution 201. Specific Conductance (µS/cm, 20°C) = 1051 Density (g/cm³) = 0.99887 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00697 + Viscosity (mPa s) = 1.00694 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.657e-02 Mass of water (kg) = 1.000e+00 @@ -24587,7 +24587,7 @@ Initial solution 202. Specific Conductance (µS/cm, 20°C) = 1413 Density (g/cm³) = 0.99913 Volume (L) = 1.00198 - Viscosity (mPa s) = 1.00904 + Viscosity (mPa s) = 1.00901 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.344e-02 Mass of water (kg) = 1.000e+00 @@ -24709,7 +24709,7 @@ Initial solution 203. Specific Conductance (µS/cm, 20°C) = 1656 Density (g/cm³) = 0.99939 Volume (L) = 1.00183 - Viscosity (mPa s) = 1.00999 + Viscosity (mPa s) = 1.00995 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.276e-02 Mass of water (kg) = 1.000e+00 @@ -24829,7 +24829,7 @@ Initial solution 204. Specific Conductance (µS/cm, 20°C) = 270 Density (g/cm³) = 0.99838 Volume (L) = 1.00186 - Viscosity (mPa s) = 1.00350 + Viscosity (mPa s) = 1.00349 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.954e-03 Mass of water (kg) = 1.000e+00 @@ -24950,7 +24950,7 @@ Initial solution 205. Specific Conductance (µS/cm, 20°C) = 721 Density (g/cm³) = 0.99867 Volume (L) = 1.00184 - Viscosity (mPa s) = 1.00600 + Viscosity (mPa s) = 1.00598 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.258e-02 Mass of water (kg) = 1.000e+00 @@ -25072,7 +25072,7 @@ Initial solution 206. Specific Conductance (µS/cm, 20°C) = 1100 Density (g/cm³) = 0.99895 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00838 + Viscosity (mPa s) = 1.00834 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.998e-02 Mass of water (kg) = 1.000e+00 @@ -25181,7 +25181,7 @@ Initial solution 207. Specific Conductance (µS/cm, 20°C) = 3243 Density (g/cm³) = 1.00055 Volume (L) = 1.00211 - Viscosity (mPa s) = 1.01627 + Viscosity (mPa s) = 1.01623 Activity of water = 0.999 Ionic strength (mol/kgw) = 5.361e-02 Mass of water (kg) = 1.000e+00 @@ -25303,7 +25303,7 @@ Initial solution 208. Specific Conductance (µS/cm, 20°C) = 1546 Density (g/cm³) = 0.99926 Volume (L) = 1.00206 - Viscosity (mPa s) = 1.00896 + Viscosity (mPa s) = 1.00894 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.185e-02 Mass of water (kg) = 1.000e+00 @@ -25412,7 +25412,7 @@ Initial solution 209. Specific Conductance (µS/cm, 20°C) = 525 Density (g/cm³) = 0.99852 Volume (L) = 1.00185 - Viscosity (mPa s) = 1.00464 + Viscosity (mPa s) = 1.00462 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.330e-03 Mass of water (kg) = 1.000e+00 @@ -25534,7 +25534,7 @@ Initial solution 210. Specific Conductance (µS/cm, 20°C) = 428 Density (g/cm³) = 0.99846 Volume (L) = 1.00180 - Viscosity (mPa s) = 1.00375 + Viscosity (mPa s) = 1.00373 Activity of water = 1.000 Ionic strength (mol/kgw) = 6.702e-03 Mass of water (kg) = 1.000e+00 @@ -25634,7 +25634,7 @@ Initial solution 211. Specific Conductance (µS/cm, 20°C) = 589 Density (g/cm³) = 0.99861 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00588 + Viscosity (mPa s) = 1.00586 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.033e-02 Mass of water (kg) = 1.000e+00 @@ -25751,10 +25751,10 @@ Initial solution 212. pH = 7.300 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 5835 + Specific Conductance (µS/cm, 20°C) = 5836 Density (g/cm³) = 1.00232 Volume (L) = 1.00211 - Viscosity (mPa s) = 1.02304 + Viscosity (mPa s) = 1.02298 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.189e-01 Mass of water (kg) = 1.000e+00 @@ -25870,10 +25870,10 @@ Initial solution 213. pH = 7.530 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 14385 + Specific Conductance (µS/cm, 20°C) = 14386 Density (g/cm³) = 1.00603 Volume (L) = 1.00470 - Viscosity (mPa s) = 1.03909 + Viscosity (mPa s) = 1.03903 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.906e-01 Mass of water (kg) = 1.000e+00 @@ -25962,10 +25962,10 @@ Initial solution 214. pH = 7.650 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 24543 + Specific Conductance (µS/cm, 20°C) = 24544 Density (g/cm³) = 1.01109 Volume (L) = 1.00683 - Viscosity (mPa s) = 1.05200 + Viscosity (mPa s) = 1.05193 Activity of water = 0.991 Ionic strength (mol/kgw) = 3.258e-01 Mass of water (kg) = 1.000e+00 @@ -26058,7 +26058,7 @@ Initial solution 215. Specific Conductance (µS/cm, 20°C) = 6680 Density (g/cm³) = 1.00378 Volume (L) = 1.00433 - Viscosity (mPa s) = 1.04181 + Viscosity (mPa s) = 1.04177 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.704e-02 Mass of water (kg) = 1.000e+00 @@ -26177,7 +26177,7 @@ Initial solution 216. Specific Conductance (µS/cm, 20°C) = 6863 Density (g/cm³) = 1.00395 Volume (L) = 1.00439 - Viscosity (mPa s) = 1.04284 + Viscosity (mPa s) = 1.04280 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.005e-01 Mass of water (kg) = 1.000e+00 @@ -26269,10 +26269,10 @@ Initial solution 217. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 8687 + Specific Conductance (µS/cm, 20°C) = 8688 Density (g/cm³) = 1.00354 Volume (L) = 1.00344 - Viscosity (mPa s) = 1.03562 + Viscosity (mPa s) = 1.03556 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.409e-01 Mass of water (kg) = 1.000e+00 @@ -26392,7 +26392,7 @@ Initial solution 218. Specific Conductance (µS/cm, 20°C) = 5404 Density (g/cm³) = 1.00186 Volume (L) = 1.00323 - Viscosity (mPa s) = 1.02701 + Viscosity (mPa s) = 1.02697 Activity of water = 0.998 Ionic strength (mol/kgw) = 7.823e-02 Mass of water (kg) = 1.000e+00 @@ -26509,10 +26509,10 @@ Initial solution 219. pH = 6.940 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 10469 + Specific Conductance (µS/cm, 20°C) = 10470 Density (g/cm³) = 1.00386 Volume (L) = 1.00396 - Viscosity (mPa s) = 1.03091 + Viscosity (mPa s) = 1.03086 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.402e-01 Mass of water (kg) = 1.000e+00 @@ -26633,7 +26633,7 @@ Initial solution 220. Specific Conductance (µS/cm, 20°C) = 7231 Density (g/cm³) = 1.00227 Volume (L) = 1.00328 - Viscosity (mPa s) = 1.02512 + Viscosity (mPa s) = 1.02508 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.571e-02 Mass of water (kg) = 1.000e+00 @@ -26755,7 +26755,7 @@ Initial solution 221. Specific Conductance (µS/cm, 20°C) = 4897 Density (g/cm³) = 1.00169 Volume (L) = 1.00339 - Viscosity (mPa s) = 1.02647 + Viscosity (mPa s) = 1.02644 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.465e-02 Mass of water (kg) = 1.000e+00 @@ -26849,7 +26849,7 @@ Initial solution 222. Specific Conductance (µS/cm, 20°C) = 7680 Density (g/cm³) = 1.00256 Volume (L) = 1.00360 - Viscosity (mPa s) = 1.02671 + Viscosity (mPa s) = 1.02667 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.829e-02 Mass of water (kg) = 1.000e+00 @@ -26970,10 +26970,10 @@ Initial solution 223. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 16090 + Specific Conductance (µS/cm, 20°C) = 16091 Density (g/cm³) = 1.00704 Volume (L) = 1.00533 - Viscosity (mPa s) = 1.04425 + Viscosity (mPa s) = 1.04419 Activity of water = 0.994 Ionic strength (mol/kgw) = 2.139e-01 Mass of water (kg) = 1.000e+00 @@ -27094,10 +27094,10 @@ Initial solution 224. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 19653 + Specific Conductance (µS/cm, 20°C) = 19654 Density (g/cm³) = 1.00843 Volume (L) = 1.00589 - Viscosity (mPa s) = 1.04404 + Viscosity (mPa s) = 1.04398 Activity of water = 0.993 Ionic strength (mol/kgw) = 2.588e-01 Mass of water (kg) = 1.000e+00 @@ -27218,10 +27218,10 @@ Initial solution 225. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 14206 + Specific Conductance (µS/cm, 20°C) = 14207 Density (g/cm³) = 1.00594 Volume (L) = 1.00490 - Viscosity (mPa s) = 1.03842 + Viscosity (mPa s) = 1.03837 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.835e-01 Mass of water (kg) = 1.000e+00 @@ -27341,10 +27341,10 @@ Initial solution 226. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 26399 + Specific Conductance (µS/cm, 20°C) = 26400 Density (g/cm³) = 1.01210 Volume (L) = 1.00734 - Viscosity (mPa s) = 1.05620 + Viscosity (mPa s) = 1.05613 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.556e-01 Mass of water (kg) = 1.000e+00 @@ -27450,10 +27450,10 @@ Initial solution 227. pH = 7.000 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 220901 + Specific Conductance (µS/cm, 20°C) = 220921 Density (g/cm³) = 1.21114 Volume (L) = 1.13348 - Viscosity (mPa s) = 2.08790 + Viscosity (mPa s) = 2.08763 Activity of water = 0.749 Ionic strength (mol/kgw) = 6.611e+00 Mass of water (kg) = 1.000e+00 @@ -27574,7 +27574,7 @@ Initial solution 228. Specific Conductance (µS/cm, 20°C) = 5335 Density (g/cm³) = 1.00113 Volume (L) = 1.00291 - Viscosity (mPa s) = 1.01680 + Viscosity (mPa s) = 1.01677 Activity of water = 0.998 Ionic strength (mol/kgw) = 6.263e-02 Mass of water (kg) = 1.000e+00 @@ -27697,7 +27697,7 @@ Initial solution 229. Specific Conductance (µS/cm, 20°C) = 1855 Density (g/cm³) = 0.99942 Volume (L) = 1.00219 - Viscosity (mPa s) = 1.00969 + Viscosity (mPa s) = 1.00967 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.350e-02 Mass of water (kg) = 1.000e+00 @@ -27820,7 +27820,7 @@ Initial solution 230. Specific Conductance (µS/cm, 20°C) = 3599 Density (g/cm³) = 1.00005 Volume (L) = 1.00247 - Viscosity (mPa s) = 1.01135 + Viscosity (mPa s) = 1.01132 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.251e-02 Mass of water (kg) = 1.000e+00 @@ -27944,7 +27944,7 @@ Initial solution 231. Specific Conductance (µS/cm, 20°C) = 1881 Density (g/cm³) = 0.99946 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.01077 + Viscosity (mPa s) = 1.01075 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.740e-02 Mass of water (kg) = 1.000e+00 @@ -28068,7 +28068,7 @@ Initial solution 232. Specific Conductance (µS/cm, 20°C) = 4551 Density (g/cm³) = 1.00054 Volume (L) = 1.00262 - Viscosity (mPa s) = 1.01237 + Viscosity (mPa s) = 1.01235 Activity of water = 0.998 Ionic strength (mol/kgw) = 5.221e-02 Mass of water (kg) = 1.000e+00 @@ -28192,7 +28192,7 @@ Initial solution 233. Specific Conductance (µS/cm, 20°C) = 2051 Density (g/cm³) = 0.99937 Volume (L) = 1.00223 - Viscosity (mPa s) = 1.00888 + Viscosity (mPa s) = 1.00886 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.414e-02 Mass of water (kg) = 1.000e+00 @@ -28316,7 +28316,7 @@ Initial solution 234. Specific Conductance (µS/cm, 20°C) = 1738 Density (g/cm³) = 0.99904 Volume (L) = 1.00203 - Viscosity (mPa s) = 1.00685 + Viscosity (mPa s) = 1.00683 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.274e-02 Mass of water (kg) = 1.000e+00 @@ -28440,7 +28440,7 @@ Initial solution 235. Specific Conductance (µS/cm, 20°C) = 607 Density (g/cm³) = 0.99849 Volume (L) = 1.00187 - Viscosity (mPa s) = 1.00336 + Viscosity (mPa s) = 1.00335 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.458e-03 Mass of water (kg) = 1.000e+00 @@ -28564,7 +28564,7 @@ Initial solution 236. Specific Conductance (µS/cm, 20°C) = 1249 Density (g/cm³) = 0.99881 Volume (L) = 1.00195 - Viscosity (mPa s) = 1.00585 + Viscosity (mPa s) = 1.00582 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.717e-02 Mass of water (kg) = 1.000e+00 @@ -28812,10 +28812,10 @@ Initial solution 238. pH = 6.510 pe = 4.000 - Specific Conductance (µS/cm, 20°C) = 134836 + Specific Conductance (µS/cm, 20°C) = 134849 Density (g/cm³) = 1.08016 Volume (L) = 1.04115 - Viscosity (mPa s) = 1.24259 + Viscosity (mPa s) = 1.24243 Activity of water = 0.928 Ionic strength (mol/kgw) = 2.252e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/stuyfz_101.sel b/mytest/stuyfz_101.sel index cc5faec1..b2c05a1b 100644 --- a/mytest/stuyfz_101.sel +++ b/mytest/stuyfz_101.sel @@ -1,239 +1,239 @@ Mu SC - 0.000472268583 63.8406213887 - 0.001213962578 120.8442283465 - 0.001066615271 143.5909778310 - 0.001339268436 141.4816450099 - 0.001693139004 173.9963312646 - 0.002415527263 228.8468665850 - 0.002012725689 200.9778380894 - 0.002728879038 265.5686164865 - 0.002710775207 274.1250627710 - 0.002481683750 242.6948729359 - 0.003043372423 296.9322167539 - 0.003390796836 317.6589903216 - 0.003998246728 385.1105957935 - 0.003927420878 397.2305544606 - 0.004989258290 467.0062015115 - 0.000155578364 19.4450823460 - 0.000292136202 29.5996109998 - 0.000276337785 28.4764664036 - 0.000446878655 47.0331119932 - 0.000413985220 53.5257907249 - 0.000638046397 78.8652054216 - 0.002096562442 176.4339405560 - 0.003124233457 259.2619837133 - 0.004516351758 309.5572316553 - 0.003921292423 275.3735884039 - 0.004303216303 280.1242033532 - 0.004937895439 329.9270988672 - 0.005102148596 326.0896632336 - 0.006131587143 414.7106458278 - 0.006012046859 409.7674879594 - 0.007248445947 446.3662781628 - 0.007315555050 462.2817455595 - 0.008193340431 511.9748207534 - 0.006761722124 535.9670322852 - 0.008860686566 597.1218399898 - 0.007457543474 607.6538904174 - 0.010349887200 615.9619701770 - 0.009722373735 672.3093583935 - 0.012088972526 718.4675148134 - 0.011110682053 689.1345252802 - 0.009095706883 565.2936542572 - 0.011684825945 740.0305956379 - 0.012438716612 833.6626877355 - 0.012437053425 803.2884576547 - 0.012928395749 847.1018478239 - 0.011904357345 931.3445742180 - 0.015270437777 977.2316385857 - 0.014515942373 1043.9513024633 - 0.018957467290 1139.3071584224 - 0.016037722719 1078.3236367910 - 0.016072170813 1082.6962122161 - 0.010088215944 759.0996300523 - 0.004801001263 317.1509744030 - 0.005538524339 389.2660808057 - 0.006462332757 432.5225451055 - 0.008644678756 624.1255531709 - 0.010279421166 786.3724551383 - 0.011963672200 869.9089392500 - 0.013322473478 817.9668024619 - 0.017269097957 1230.9764483811 - 0.015217632265 922.5488901543 - 0.013694015405 1059.5506110389 - 0.015577141675 959.4588008350 - 0.019546984955 1272.9661903423 - 0.022057242417 1357.0480813730 - 0.024759015064 1479.5095850956 - 0.025740836712 1540.9936757455 - 0.020769488728 1365.1797749378 - 0.034618196100 2572.8170639741 - 0.028486260209 1645.7705275925 - 0.040647464870 3051.0215671856 - 0.026574990047 1671.0602844375 - 0.028492010887 1698.1070189785 - 0.034007107129 1913.6645376837 - 0.038729151922 2385.4317543319 - 0.011770482882 754.6947042909 - 0.011687582682 846.0898189883 - 0.011561580424 851.0972604082 - 0.013788688018 915.3608239799 - 0.013173120936 960.6860606929 - 0.014212183268 997.2073825924 - 0.014421058068 1039.8190397999 - 0.015340908535 1130.5368216795 - 0.014952297803 1088.4088991741 - 0.015416544208 1102.5413253510 - 0.015451386929 1115.6204568380 - 0.015897064885 1070.6277132682 - 0.014571550476 1097.5931413413 - 0.021020083316 1266.7244087523 - 0.016146435817 1391.3196330064 - 0.014944797503 1268.3770973543 - 0.018889553167 1515.9676142474 - 0.037192817799 2445.7047144578 - 0.025963694505 1747.9253090304 - 0.024544227802 2003.0926129467 - 0.029506336978 2126.5651720086 - 0.022521511259 1973.4227739019 - 0.025807784873 2157.2745765457 - 0.027346644601 2242.2394303102 - 0.026879939317 2421.3175797436 - 0.029704345112 2385.5907329926 - 0.028436046198 2367.9143430919 - 0.035467420398 2563.2116278934 - 0.043298368519 3058.2698965568 - 0.037644255601 3204.1183458023 - 0.044419885485 3256.0153558886 - 0.052469762185 3827.4044165833 - 0.061425539545 4250.3619828720 - 0.058855602852 4552.3816340636 - 0.057893489650 4685.2821162627 - 0.056215433579 4913.4336756820 - 0.068683723333 5774.7518707659 - 0.072480303924 6070.5928462359 - 0.086456211810 6966.6231233360 - 0.097144446747 7953.2941166962 - 0.111289785865 8662.8153600928 - 0.140591978635 10103.5382865505 - 0.133498084409 10156.7137467460 - 0.170354370891 11900.0800855174 - 0.173089853388 13041.2002160491 - 0.182894071635 13326.8110728688 - 0.201399206479 14194.0815552988 - 0.223691874600 15517.0624418216 - 0.239002400835 16859.9631341451 - 0.263599345145 18292.4811613045 - 0.276872172728 19951.9271930692 - 0.310041179142 19714.7795057863 - 0.329831775407 22198.7359002590 - 0.339626079513 23596.2372332783 - 0.347178516747 24053.6730835250 - 0.356175853881 25480.6987696289 - 0.402021334762 26017.2793461474 - 0.393023131510 27842.1489305481 - 0.425234870517 29955.9133284902 - 0.434019468030 30589.2673477399 - 0.534657983314 35154.4078749830 - 0.534119449857 35580.0516037530 - 0.482257838097 32793.1884535699 - 0.580655629666 38646.0541322822 - 0.569621480748 38038.7932241320 - 0.565897736724 38085.5288196940 - 0.560512253282 37997.3737453076 - 0.595358226137 40217.6138240615 - 0.615086049202 40910.6251016418 - 0.610897407614 41018.5459837242 - 0.624300479013 42241.6112318157 - 0.003307446412 229.4124024638 - 0.007114515732 428.9715266415 - 0.008011185123 544.1314555232 - 0.007827249255 570.9161644780 - 0.008870385956 764.9030347672 - 0.022031819690 1202.3018468875 - 0.022397948341 1507.1530221087 - 0.031585665883 1789.2826991675 - 0.027220320360 2017.3193787780 - 0.037399992484 2449.1506874795 - 0.043720408295 2984.9513386749 - 0.066608637506 3686.7822385278 - 0.082394303470 4195.6995492735 - 0.069108812367 4897.2780729158 - 0.145200021051 6504.3371870454 - 0.193302831783 8167.7343884876 - 0.185771829048 8928.0573671013 - 0.136314989694 10492.8984846567 - 0.184006112610 11880.9439716537 - 0.208195773845 15047.1079570072 - 0.318112058930 21094.3352286230 - 0.418431868003 25998.7120286132 - 0.754441266621 45239.4714232580 - 1.118037838267 66420.7616167301 - 0.000594182446 40.2226980589 - 0.001134030725 80.3075075122 - 0.001141434573 81.0200214383 - 0.002157295391 136.2755997992 - 0.002154153727 133.1086037509 - 0.004450883989 258.5960607623 - 0.016284061381 1173.9701106659 - 0.040439232104 2312.9098332374 - 0.070615543989 3026.6508998070 - 0.034282802223 2665.1771521112 - 0.067689987989 3776.6316763584 - 0.102317587483 4839.3003325103 - 0.093370383389 6809.1338762168 - 0.125940666172 9269.7031520499 - 0.197268569605 15433.3712157319 - 0.193166579485 15397.2022312415 - 0.393932425230 27949.3204964987 - 1.212254977627 82036.8220931132 - 1.303038993778 86437.2367018235 - 2.569346609896 147767.4033876559 - 2.740043139534 148589.2623630893 - 0.801405308867 57144.1696297938 - 0.042905538931 2767.6604398398 - 0.039124341173 2875.0929153506 - 0.087327107866 3895.9625788131 - 0.031121886261 1939.3647023634 - 0.030003520060 1928.8164151331 - 0.026063816555 1691.7416673410 - 0.015069145190 928.6624338964 - 0.019206599395 1139.1258093249 - 0.016567467923 1051.6912964557 - 0.023437453583 1413.4777663773 - 0.032760081084 1656.4061185239 - 0.003953533254 270.5382962395 - 0.012577181588 721.1056934172 - 0.019981786853 1100.0640076509 - 0.053613848461 3243.4593948387 - 0.021850391381 1546.4538150820 - 0.008329856469 525.6843371585 - 0.006702155729 428.4442583578 - 0.010333383942 589.2544031458 - 0.118854445798 5835.9138250616 - 0.190646142663 14385.9291385086 - 0.325837372653 24543.4306978098 - 0.097038260101 6680.6539881536 - 0.100455407186 6863.1766164326 - 0.140860536674 8687.7993981706 - 0.078226091817 5404.1609804378 - 0.140174993921 10469.7790772942 - 0.095713537467 7231.6097565461 - 0.064646074356 4897.4842957786 - 0.098290483619 7680.5914509801 - 0.213910587764 16090.9884414105 - 0.258772507350 19653.9067333347 - 0.183549028247 14206.5393644507 - 0.355647727342 26399.6005667244 - 6.611049310220 220901.0073587242 - 0.062632307493 5335.1456644211 - 0.023502287788 1855.1296751256 - 0.042508259900 3599.6177747975 - 0.027400522165 1881.5907168680 - 0.052213718982 4551.1580660692 - 0.024141484769 2051.3641877617 - 0.022737845277 1738.2699062551 - 0.007458039749 607.6509882900 - 0.017169241434 1249.1153092710 - 0.004991758223 467.1276067091 - 2.252201044759 134836.8474025618 + 0.000472268583 63.8408433940 + 0.001213962578 120.8446133914 + 0.001066615271 143.5916292499 + 0.001339268436 141.4822451056 + 0.001693139004 173.9970985564 + 0.002415527263 228.8479140426 + 0.002012725689 200.9787708775 + 0.002728879038 265.5699092918 + 0.002710775207 274.1263632788 + 0.002481683750 242.6960994149 + 0.003043372423 296.9338625681 + 0.003390796836 317.6607332217 + 0.003998246728 385.1126856803 + 0.003927420878 397.2331543398 + 0.004989258290 467.0092744546 + 0.000155578364 19.4451178193 + 0.000292136202 29.5996434674 + 0.000276337785 28.4765214198 + 0.000446878655 47.0332394240 + 0.000413985220 53.5259483710 + 0.000638046397 78.8654778091 + 0.002096562442 176.4350265003 + 0.003124233457 259.2638330978 + 0.004516351758 309.5614311970 + 0.003921292423 275.3769226168 + 0.004303216303 280.1283769746 + 0.004937895439 329.9317491010 + 0.005102148596 326.0948272946 + 0.006131587143 414.7170749799 + 0.006012046859 409.7737443226 + 0.007248445947 446.3756837168 + 0.007315555050 462.2909765365 + 0.008193340431 511.9858610556 + 0.006761722124 535.9726934728 + 0.008860686566 597.1326204465 + 0.007457543474 607.6602528762 + 0.010349887200 615.9773975558 + 0.009722373735 672.3214465137 + 0.012088972526 718.4877701858 + 0.011110682053 689.1507489132 + 0.009095706883 565.3061670820 + 0.011684825945 740.0477970298 + 0.012438716612 833.6801262441 + 0.012437053425 803.3077116172 + 0.012928395749 847.1220167487 + 0.011904357345 931.3584080435 + 0.015270437777 977.2567877280 + 0.014515942373 1043.9707338774 + 0.018957467290 1139.3418250125 + 0.016037722719 1078.3481829074 + 0.016072170813 1082.7224433754 + 0.010088215944 759.1105430063 + 0.004801001263 317.1557603362 + 0.005538524339 389.2713762763 + 0.006462332757 432.5295419867 + 0.008644678756 624.1349224649 + 0.010279421166 786.3829756706 + 0.011963672200 869.9231269346 + 0.013322473478 817.9877945962 + 0.017269097957 1231.0007019820 + 0.015217632265 922.5751970842 + 0.013694015405 1059.5662169269 + 0.015577141675 959.4843676033 + 0.019546984955 1272.9982819147 + 0.022057242417 1357.0877900641 + 0.024759015064 1479.5569137097 + 0.025740836712 1541.0428178173 + 0.020769488728 1365.2149731121 + 0.034618196100 2572.8717084045 + 0.028486260209 1645.8277051411 + 0.040647464870 3051.0866209438 + 0.026574990047 1671.1151920131 + 0.028492010887 1698.1619049414 + 0.034007107129 1913.7367510577 + 0.038729151922 2385.5251621386 + 0.011770482882 754.7126396976 + 0.011687582682 846.1042067676 + 0.011561580424 851.1112839824 + 0.013788688018 915.3817556586 + 0.013173120936 960.7031170027 + 0.014212183268 997.2274228205 + 0.014421058068 1039.8385721680 + 0.015340908535 1130.5571850631 + 0.014952297803 1088.4292514772 + 0.015416544208 1102.5632020172 + 0.015451386929 1115.6420267155 + 0.015897064885 1070.6516211006 + 0.014571550476 1097.6120842334 + 0.021020083316 1266.7657738279 + 0.016146435817 1391.3389491453 + 0.014944797503 1268.3948048760 + 0.018889553167 1515.9936939714 + 0.037192817799 2445.7760088038 + 0.025963694505 1747.9743282366 + 0.024544227802 2003.1287752447 + 0.029506336978 2126.6181879409 + 0.022521511259 1973.4517173743 + 0.025807784873 2157.3126781755 + 0.027346644601 2242.2791544214 + 0.026879939317 2421.3552733687 + 0.029704345112 2385.6391333651 + 0.028436046198 2367.9583332041 + 0.035467420398 2563.2798777341 + 0.043298368519 3058.3654786455 + 0.037644255601 3204.1811227210 + 0.044419885485 3256.1085774444 + 0.052469762185 3827.5220995350 + 0.061425539545 4250.5212893606 + 0.058855602852 4552.5065689272 + 0.057893489650 4685.4001529219 + 0.056215433579 4913.5384066331 + 0.068683723333 5774.8894623757 + 0.072480303924 6070.7454131435 + 0.086456211810 6966.8298039057 + 0.097144446747 7953.5328212121 + 0.111289785865 8663.1054822816 + 0.140591978635 10103.9601171037 + 0.133498084409 10157.0835000832 + 0.170354370891 11900.6535673922 + 0.173089853388 13041.7164259560 + 0.182894071635 13327.3893031673 + 0.201399206479 14194.7554233921 + 0.223691874600 15517.8526396079 + 0.239002400835 16860.8095265655 + 0.263599345145 18293.4403543024 + 0.276872172728 19952.9106169984 + 0.310041179142 19716.0770032935 + 0.329831775407 22200.0277131141 + 0.339626079513 23597.5384107744 + 0.347178516747 24055.0227482429 + 0.356175853881 25482.0599218893 + 0.402021334762 26019.0029115868 + 0.393023131510 27843.6995694716 + 0.425234870517 29957.6549749685 + 0.434019468030 30591.0394368861 + 0.534657983314 35156.7787100230 + 0.534119449857 35582.4230508174 + 0.482257838097 32795.2427947687 + 0.580655629666 38648.6437359151 + 0.569621480748 38041.3675907422 + 0.565897736724 38088.0473769166 + 0.560512253282 37999.8590952539 + 0.595358226137 40220.2937131782 + 0.615086049202 40913.4142113105 + 0.610897407614 41021.3127472088 + 0.624300479013 42244.4693985950 + 0.003307446412 229.4147980606 + 0.007114515732 428.9803564070 + 0.008011185123 544.1404364981 + 0.007827249255 570.9239169595 + 0.008870385956 764.9111855587 + 0.022031819690 1202.3401287813 + 0.022397948341 1507.1889699452 + 0.031585665883 1789.3539977805 + 0.027220320360 2017.3643011039 + 0.037399992484 2449.2172468792 + 0.043720408295 2985.0404098638 + 0.066608637506 3686.9546086588 + 0.082394303470 4195.9342241829 + 0.069108812367 4897.4425021415 + 0.145200021051 6504.8420942229 + 0.193302831783 8168.4584438755 + 0.185771829048 8928.7299348152 + 0.136314989694 10493.2617557272 + 0.184006112610 11881.5084062574 + 0.208195773845 15047.7746408875 + 0.318112058930 21095.5898451829 + 0.418431868003 26000.6233581446 + 0.754441266621 45243.3460131993 + 1.118037838267 66426.5485358135 + 0.000594182446 40.2229288113 + 0.001134030725 80.3080218506 + 0.001141434573 81.0205337798 + 0.002157295391 136.2771137233 + 0.002154153727 133.1102026702 + 0.004450883989 258.6010326015 + 0.016284061381 1173.9915481792 + 0.040439232104 2313.0106053909 + 0.070615543989 3026.8498737005 + 0.034282802223 2665.2362568881 + 0.067689987989 3776.7966936251 + 0.102317587483 4839.6029294677 + 0.093370383389 6809.3618834169 + 0.125940666172 9270.0362006005 + 0.197268569605 15433.9625600764 + 0.193166579485 15397.8141763907 + 0.393932425230 27950.9508943901 + 1.212254977627 82043.4679891267 + 1.303038993778 86444.4280191634 + 2.569346609896 147782.4079857919 + 2.740043139534 148605.3872707816 + 0.801405308867 57148.1562398363 + 0.042905538931 2767.7500307566 + 0.039124341173 2875.1687916584 + 0.087327107866 3896.2103486728 + 0.031121886261 1939.4252957205 + 0.030003520060 1928.8722103319 + 0.026063816555 1691.7883381099 + 0.015069145190 928.6866779275 + 0.019206599395 1139.1604677735 + 0.016567467923 1051.7172719503 + 0.023437453583 1413.5220855723 + 0.032760081084 1656.4734515400 + 0.003953533254 270.5412768453 + 0.012577181588 721.1244831465 + 0.019981786853 1100.1014239867 + 0.053613848461 3243.5843126311 + 0.021850391381 1546.4859932310 + 0.008329856469 525.6942036894 + 0.006702155729 428.4525876678 + 0.010333383942 589.2698225439 + 0.118854445798 5836.2699505812 + 0.190646142663 14386.5479717630 + 0.325837372653 24544.6733681457 + 0.097038260101 6680.9259985631 + 0.100455407186 6863.4633403275 + 0.140860536674 8688.2885925726 + 0.078226091817 5404.3679403685 + 0.140174993921 10470.1986645431 + 0.095713537467 7231.8578934255 + 0.064646074356 4897.6326875406 + 0.098290483619 7680.8464277763 + 0.213910587764 16091.7043045098 + 0.258772507350 19654.8298854857 + 0.183549028247 14207.1154917054 + 0.355647727342 26400.9916295045 + 6.611049310220 220921.8215162650 + 0.062632307493 5335.2737477707 + 0.023502287788 1855.1644863657 + 0.042508259900 3599.6936467145 + 0.027400522165 1881.6418276513 + 0.052213718982 4551.2516430580 + 0.024141484769 2051.3990204751 + 0.022737845277 1738.3049688864 + 0.007458039749 607.6573536744 + 0.017169241434 1249.1417111285 + 0.004991758223 467.1306824061 + 2.252201044759 134849.6941882503 diff --git a/mytest/surf3.out b/mytest/surf3.out index 79f2b235..c1b0c0b1 100644 --- a/mytest/surf3.out +++ b/mytest/surf3.out @@ -155,7 +155,7 @@ Surf 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -186,7 +186,7 @@ Surfa 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -230,7 +230,7 @@ Surf 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -261,7 +261,7 @@ Surfa 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) diff --git a/mytest/surf3_101.sel b/mytest/surf3_101.sel index 993c2e1f..7e8c7476 100644 --- a/mytest/surf3_101.sel +++ b/mytest/surf3_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000399272713 44.6038635464 - 0.000399272713 44.6038635461 - 0.000399273898 44.6038811394 + 0.000399272713 44.6038635688 + 0.000399272713 44.6038635686 + 0.000399273898 44.6038811618 diff --git a/mytest/surf3_density.out b/mytest/surf3_density.out index e74eb031..84f49493 100644 --- a/mytest/surf3_density.out +++ b/mytest/surf3_density.out @@ -156,7 +156,7 @@ Surf 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -187,7 +187,7 @@ Surfa 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -231,7 +231,7 @@ Surf 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -262,7 +262,7 @@ Surfa 1.058e+03 m² for 1.000e+00 g Water in diffuse layer: 1.058e-03 kg, 50.0% of total DDL-water. - viscosity: 0.89017 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) diff --git a/mytest/surf3_density_101.sel b/mytest/surf3_density_101.sel index 993c2e1f..e0bdb2b3 100644 --- a/mytest/surf3_density_101.sel +++ b/mytest/surf3_density_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000399272713 44.6038635464 - 0.000399272713 44.6038635461 - 0.000399273898 44.6038811394 + 0.000399272713 44.6038635688 + 0.000399272713 44.6038635686 + 0.000399273898 44.6038811619 diff --git a/mytest/surf_check_101.sel b/mytest/surf_check_101.sel index 2a050016..81c53f8b 100644 --- a/mytest/surf_check_101.sel +++ b/mytest/surf_check_101.sel @@ -1,3 +1,3 @@ Mu SC - 0.101051005856 10606.4997093937 - 0.100000953795 10609.3452477973 + 0.101051005856 10606.5001061926 + 0.100000953795 10609.3456444876 diff --git a/mytest/surf_kin_related.out b/mytest/surf_kin_related.out index 9b5423be..7803db3d 100644 --- a/mytest/surf_kin_related.out +++ b/mytest/surf_kin_related.out @@ -88,7 +88,7 @@ Initial solution 0. Specific Conductance (µS/cm, 20°C) = 2950 Density (g/cm³) = 0.99994 Volume (L) = 1.00202 - Viscosity (mPa s) = 1.00444 + Viscosity (mPa s) = 1.00439 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.586e-02 Mass of water (kg) = 1.000e+00 @@ -191,7 +191,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 981 Density (g/cm³) = 0.99862 Volume (L) = 1.00188 - Viscosity (mPa s) = 1.00436 + Viscosity (mPa s) = 1.00434 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.350e-02 Mass of water (kg) = 1.000e+00 @@ -306,10 +306,10 @@ Hfo_w pH = 12.067 Charge balance pe = 9.747 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 32956 + Specific Conductance (µS/cm, 20°C) = 32957 Density (g/cm³) = 1.06355 Volume (L) = 1.00978 - Viscosity (mPa s) = 1.12330 + Viscosity (mPa s) = 1.12321 Activity of water = 0.971 Ionic strength (mol/kgw) = 7.573e-01 Mass of water (kg) = 1.001e+00 diff --git a/mytest/surf_kin_related_101.sel b/mytest/surf_kin_related_101.sel index 727140f3..207d6578 100644 --- a/mytest/surf_kin_related_101.sel +++ b/mytest/surf_kin_related_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.045864721837 2950.4341788592 - 0.013500099900 981.5745624908 - 0.757268641952 32956.7409937620 + 0.045864721837 2950.4992950570 + 0.013500099900 981.5953312626 + 0.757268641952 32957.4982893612 diff --git a/mytest/surf_kin_related_pz.out b/mytest/surf_kin_related_pz.out index a79933b5..4da8a2e0 100644 --- a/mytest/surf_kin_related_pz.out +++ b/mytest/surf_kin_related_pz.out @@ -78,10 +78,10 @@ Initial solution 0. pH = 6.000 pe = 0.000 - Specific Conductance (µS/cm, 20°C) = 3061 + Specific Conductance (µS/cm, 20°C) = 3062 Density (g/cm³) = 0.99959 Volume (L) = 1.00208 - Viscosity (mPa s) = 1.00862 + Viscosity (mPa s) = 1.00858 Activity of water = 0.999 Ionic strength (mol/kgw) = 4.500e-02 Mass of water (kg) = 1.000e+00 @@ -136,7 +136,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 2480 Density (g/cm³) = 1.00025 Volume (L) = 1.00176 - Viscosity (mPa s) = 1.01565 + Viscosity (mPa s) = 1.01559 Activity of water = 1.000 Ionic strength (mol/kgw) = 5.906e-02 Mass of water (kg) = 1.000e+00 @@ -244,10 +244,10 @@ Hfo_w pH = 7.266 Charge balance pe = -0.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 20°C) = 35072 + Specific Conductance (µS/cm, 20°C) = 35081 Density (g/cm³) = 1.06198 Volume (L) = 1.02246 - Viscosity (mPa s) = 1.35097 + Viscosity (mPa s) = 1.35062 Activity of water = 0.991 Ionic strength (mol/kgw) = 1.952e+00 Mass of water (kg) = 1.018e+00 diff --git a/mytest/surf_kin_related_pz_101.sel b/mytest/surf_kin_related_pz_101.sel index 9c168350..739445ec 100644 --- a/mytest/surf_kin_related_pz_101.sel +++ b/mytest/surf_kin_related_pz_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.045001198815 3061.8922311230 - 0.059064578924 2480.7446920265 - 1.951906230724 35072.0529213232 + 0.045001198815 3062.0097040878 + 0.059064578924 2480.9003512265 + 1.951906230724 35081.4804513790 diff --git a/mytest/surf_related.out b/mytest/surf_related.out index 913c52fc..01421338 100644 --- a/mytest/surf_related.out +++ b/mytest/surf_related.out @@ -966,7 +966,7 @@ Hfo 5.000e+02 m² for 1.000e-02 moles of Goethite Water in diffuse layer: 5.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89002 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1445,7 +1445,7 @@ Hfo 5.963e+03 m² for 1.193e-01 moles of Goethite Water in diffuse layer: 5.963e-02 kg, 100.0% of total DDL-water. - viscosity: 0.90883 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) diff --git a/mytest/surf_related_101.sel b/mytest/surf_related_101.sel index eda8d913..7da37d24 100644 --- a/mytest/surf_related_101.sel +++ b/mytest/surf_related_101.sel @@ -2,24 +2,24 @@ 0.000000100661 0.0546997340 0.000000100645 0.0546913819 0.000000100645 0.0546913819 - 0.247338814117 83990.4594957968 - 0.247338814149 83990.4594963241 + 0.247338814117 83990.4642859922 + 0.247338814149 83990.4642865195 0.000000100661 0.0546997340 0.000000100645 0.0546914008 - 0.707886152580 133596.5936718101 + 0.707886152580 133596.6037283328 0.000000100661 0.0546997340 0.000000100645 0.0546913819 0.000000100645 0.0546913819 - 0.247338660356 83990.3618161675 - 0.247338660392 83990.3618162426 + 0.247338660356 83990.3666063549 + 0.247338660392 83990.3666064301 0.000000100661 0.0546997340 0.000000100645 0.0546914008 - 0.670516353244 131243.6629663480 + 0.670516353244 131243.6727220021 0.000000100661 0.0546997340 0.000000100645 0.0546913819 0.000000100645 0.0546913819 - 0.247683249019 84209.9752525938 - 0.247683249081 84209.9752536030 + 0.247683249019 84209.9800605799 + 0.247683249081 84209.9800615890 0.000000100661 0.0546997340 0.000000100645 0.0546914008 - 0.707886123544 133596.5904218185 + 0.707886123544 133596.6004783410 diff --git a/mytest/surf_related_pz_101.sel b/mytest/surf_related_pz_101.sel index 513350b9..b81034dd 100644 --- a/mytest/surf_related_pz_101.sel +++ b/mytest/surf_related_pz_101.sel @@ -1,25 +1,25 @@ Mu SC 0.000000100645 0.0546913895 - 0.060214569457 2826.4184692076 - 0.060214569458 2826.4184692070 - 0.392249089231 66312.7444861853 - 0.392249089231 66312.7444861783 + 0.060214569457 2826.4187610444 + 0.060214569458 2826.4187610439 + 0.392249089231 66312.7597315835 + 0.392249089231 66312.7597315765 0.000000100645 0.0546913895 0.000000100645 0.0546913895 - 0.060259435956 2835.3329609021 + 0.060259435956 2835.3332536682 0.000000100645 0.0546913895 - 0.060214569457 2826.4184692076 - 0.060214569458 2826.4184692070 - 0.341438955072 75033.6847951203 - 0.341438955076 75033.6847951007 + 0.060214569457 2826.4187610444 + 0.060214569458 2826.4187610439 + 0.341438955072 75033.6986119155 + 0.341438955076 75033.6986118959 0.000000100645 0.0546913895 0.000000100645 0.0546913895 - 0.060259435956 2835.3329609021 + 0.060259435956 2835.3332536682 0.000000100645 0.0546913895 - 0.060214569457 2826.4184692076 - 0.060214569458 2826.4184692070 - 0.341571314964 75244.7219155475 - 0.341571314968 75244.7219155284 + 0.060214569457 2826.4187610444 + 0.060214569458 2826.4187610439 + 0.341571314964 75244.7357623951 + 0.341571314968 75244.7357623759 0.000000100645 0.0546913895 0.000000100645 0.0546913895 - 0.062301509041 2954.9946352375 + 0.062301509041 2954.9949448295 diff --git a/mytest/surf_related_warnings.out b/mytest/surf_related_warnings.out index 9eedc21f..a6d16195 100644 --- a/mytest/surf_related_warnings.out +++ b/mytest/surf_related_warnings.out @@ -239,7 +239,7 @@ Hfo 2.000e+02 m² for 1.000e-01 moles of Goethite Water in diffuse layer: 2.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.740e-02 V. @@ -643,7 +643,7 @@ Hfo 2.000e+02 m² for 1.000e-01 moles of Goethite Water in diffuse layer: 2.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.740e-02 V. @@ -1062,7 +1062,7 @@ Hfo 2.000e+02 m² for 1.000e-01 moles of Hematite Water in diffuse layer: 2.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.740e-02 V. @@ -1493,7 +1493,7 @@ Hfo 2.000e+02 m² for 1.000e-01 moles of Goethite Water in diffuse layer: 2.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89026 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = -1.597e-01 V. @@ -1918,7 +1918,7 @@ Hfo 2.000e+02 m² for 1.000e-01 moles of Goethite Water in diffuse layer: 2.000e-03 kg, 100.0% of total DDL-water. - viscosity: 0.89023 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 4.740e-02 V. @@ -2118,7 +2118,7 @@ Hfo 1.999e+02 m² for 9.997e-02 moles of Goethite Water in diffuse layer: 1.999e-03 kg, 100.0% of total DDL-water. - viscosity: 1.02010 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water), Donnan calculation. Donnan Layer potential, psi_DL = 1.126e-03 V. @@ -2156,7 +2156,7 @@ Hfo_w pH = -0.548 Charge balance pe = 20.205 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 1170156 + Specific Conductance (µS/cm, 25°C) = 1170157 Density (g/cm³) = 1.23869 Volume (L) = 1.13331 Viscosity (mPa s) = 1.02010 diff --git a/mytest/surf_related_warnings_101.sel b/mytest/surf_related_warnings_101.sel index 40521bc2..ddbcc70f 100644 --- a/mytest/surf_related_warnings_101.sel +++ b/mytest/surf_related_warnings_101.sel @@ -1,20 +1,20 @@ Mu SC - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087757 - 0.001000104163 122.9171087757 - 4.812045300474 936454.2868959778 - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087757 - 0.001000104163 122.9171087757 - 4.812001557388 936438.1033070500 - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087774 - 0.001000104163 122.9171087774 - 4.663852652614 912464.3332680428 - 0.001000104163 122.9171087775 - 0.001000104163 122.9171087757 - 0.001000104163 122.9171087757 - 4.812545790006 936291.2341940234 - 0.001000104680 125.0412657315 - 0.001000104680 125.0412657298 - 0.001000104680 125.0412657298 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092395 + 0.001000104163 122.9171092395 + 4.812045300474 936454.4782104818 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092395 + 0.001000104163 122.9171092395 + 4.812001557388 936438.2946178212 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092412 + 0.001000104163 122.9171092412 + 4.663852652614 912464.5172849048 + 0.001000104163 122.9171092414 + 0.001000104163 122.9171092395 + 0.001000104163 122.9171092395 + 4.812545790006 936291.4255930048 + 0.001000104680 125.0412661303 + 0.001000104680 125.0412661286 + 0.001000104680 125.0412661286 diff --git a/mytest/surf_total.out b/mytest/surf_total.out index 15198416..209c0549 100644 --- a/mytest/surf_total.out +++ b/mytest/surf_total.out @@ -87,10 +87,10 @@ Initial solution 0. pH = 8.500 pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 36876 + Specific Conductance (µS/cm, 100°C) = 36841 Density (g/cm³) = 0.96656 Volume (L) = 1.04515 - Viscosity (mPa s) = 0.29236 + Viscosity (mPa s) = 0.29274 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.820e-01 Mass of water (kg) = 1.000e+00 @@ -236,10 +236,10 @@ Initial solution 1. pH = 8.500 pe = 4.000 - Specific Conductance (µS/cm, 100°C) = 231978 + Specific Conductance (µS/cm, 100°C) = 231602 Density (g/cm³) = 1.00197 Volume (L) = 1.06518 - Viscosity (mPa s) = 0.32507 + Viscosity (mPa s) = 0.32578 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.179e+00 Mass of water (kg) = 1.000e+00 @@ -523,10 +523,10 @@ X 6.000e-04 mol pH = 6.027 Charge balance pe = -0.833 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 231741 + Specific Conductance (µS/cm, 100°C) = 231366 Density (g/cm³) = 1.00151 Volume (L) = 1.06516 - Viscosity (mPa s) = 0.32479 + Viscosity (mPa s) = 0.32550 Activity of water = 0.962 Ionic strength (mol/kgw) = 1.175e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/surf_total_101.sel b/mytest/surf_total_101.sel index d0de4311..d01e5d97 100644 --- a/mytest/surf_total_101.sel +++ b/mytest/surf_total_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.181980658675 36876.0861430298 - 1.179249293263 231978.0600050748 - 1.179249293272 231978.0600049583 - 1.179249293272 231978.0600049583 - 1.175053863748 231741.6124863747 + 0.181980658675 36841.0631147127 + 1.179249293263 231602.3035970435 + 1.179249293272 231602.3035969272 + 1.179249293272 231602.3035969272 + 1.175053863748 231366.9805847565 diff --git a/mytest/surface_mix_101.sel b/mytest/surface_mix_101.sel index 7cf8a1e7..9135ea9b 100644 --- a/mytest/surface_mix_101.sel +++ b/mytest/surface_mix_101.sel @@ -1,6 +1,6 @@ Mu SC - 0.005568312749 479.6710506176 - 0.005568312749 479.6710506176 - 0.005568312749 479.6710506175 - 0.005568312749 479.6710506176 - 0.005568312749 479.6710506176 + 0.005568312749 479.6710582742 + 0.005568312749 479.6710582742 + 0.005568312749 479.6710582741 + 0.005568312749 479.6710582742 + 0.005568312749 479.6710582742 diff --git a/mytest/surface_punch_all.out b/mytest/surface_punch_all.out index 1962922b..c2db53ec 100644 --- a/mytest/surface_punch_all.out +++ b/mytest/surface_punch_all.out @@ -5761,7 +5761,7 @@ Hfo_w Temperature (°C) = 25.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 - Iterations = 19 + Iterations = 20 Total H = 1.110188e+02 Total O = 5.551360e+01 @@ -5951,7 +5951,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.806e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 3.848e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -5.347e-13 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -5.365e-13 ThO2(OECDAged) -4.80 3.70 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -6023,9 +6023,10 @@ Hfo_w Total alkalinity (eq/kg) = 1.333e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.54 - Iterations = 16 + Iterations = 15 Total H = 1.110188e+02 Total O = 5.551359e+01 @@ -6473,7 +6474,7 @@ Th 230 plus 232 mol/L : 2.3292e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.001e+01 1.001e+01 3.633e-03 -Calcite -0.00 -8.48 -8.48 1.000e+01 1.001e+01 2.220e-03 +Calcite 0.00 -8.48 -8.48 1.000e+01 1.001e+01 2.220e-03 O2(g) -0.70 -3.66 -2.96 1.000e+01 9.999e+00 -2.186e-04 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 3.933e-09 @@ -7304,7 +7305,7 @@ Th 230 plus 232 mol/L : 2.0636e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 6.005e-08 -Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.474e-08 +Calcite -0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.474e-08 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -6.242e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.511e-10 @@ -7389,6 +7390,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 7 @@ -8413,7 +8415,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.260e-10 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.399e-10 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.203e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.197e-12 ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 -1.170e-10 --------------------------------Solid solutions-------------------------------- @@ -8764,6 +8766,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -8956,7 +8959,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.710e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 5.530e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -8.280e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -8.276e-12 ThO2(OECDAged) -3.48 5.02 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -9494,6 +9497,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.552e-03 Total CO2 (mol/kg) = 1.520e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.809e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.53 Iterations = 6 @@ -10325,6 +10329,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.352e-03 Total CO2 (mol/kg) = 1.331e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.768e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.43 Iterations = 6 @@ -10602,6 +10607,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.335e-03 Total CO2 (mol/kg) = 1.314e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 6 @@ -10795,7 +10801,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.671e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -7.017e-10 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.624e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.620e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.132e-11 --------------------------------Solid solutions-------------------------------- @@ -11433,6 +11439,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 8 @@ -11625,7 +11632,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 -2.998e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 3.129e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.723e-13 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.688e-13 ThO2(OECDAged) -1.29 7.21 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -11700,6 +11707,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -11967,6 +11975,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -12347,7 +12356,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.001e+01 1.002e+01 3.630e-03 Calcite 0.00 -8.48 -8.48 1.001e+01 1.001e+01 2.220e-03 O2(g) -0.70 -3.66 -2.96 9.999e+00 9.999e+00 -2.186e-04 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 -2.146e-09 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 -2.146e-09 --------------------------------Solid solutions-------------------------------- @@ -12430,6 +12439,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.553e-03 Total CO2 (mol/kg) = 1.521e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.810e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.53 Iterations = 6 @@ -12622,9 +12632,9 @@ Th 230 plus 232 mol/L : 2.3333e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.232e-06 -Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.778e-07 +Calcite -0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.778e-07 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.070e-10 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.323e-09 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 2.323e-09 --------------------------------Solid solutions-------------------------------- @@ -13538,6 +13548,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.354e-03 Total CO2 (mol/kg) = 1.333e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.767e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.42 Iterations = 6 @@ -13815,6 +13826,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.335e-03 Total CO2 (mol/kg) = 1.314e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.51 Iterations = 6 @@ -14008,7 +14020,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 8.574e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.250e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.133e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.128e-12 ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 3.631e-11 --------------------------------Solid solutions-------------------------------- @@ -14092,6 +14104,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 6 @@ -14285,7 +14298,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.187e-10 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -6.075e-11 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.419e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.423e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 -1.133e-10 --------------------------------Solid solutions-------------------------------- @@ -14636,6 +14649,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -14903,6 +14917,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -15283,7 +15298,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.002e+01 1.002e+01 3.630e-03 Calcite 0.00 -8.48 -8.48 1.001e+01 1.001e+01 2.220e-03 O2(g) -0.70 -3.66 -2.96 9.999e+00 9.999e+00 -2.186e-04 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 -2.299e-09 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 -2.299e-09 --------------------------------Solid solutions-------------------------------- @@ -15559,7 +15574,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.862e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -4.181e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.588e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.590e-11 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 5.279e-10 --------------------------------Solid solutions-------------------------------- @@ -15643,6 +15658,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.552e-03 Total CO2 (mol/kg) = 1.521e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.809e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.53 Iterations = 6 @@ -15837,7 +15853,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.950e-06 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.821e-07 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.685e-10 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 3.759e-09 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 3.759e-09 --------------------------------Solid solutions-------------------------------- @@ -16197,6 +16213,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.516e-03 Total CO2 (mol/kg) = 1.486e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.798e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.68 Iterations = 6 @@ -16474,6 +16491,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.440e-03 Total CO2 (mol/kg) = 1.414e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.778e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.01 Iterations = 6 @@ -16751,6 +16769,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.355e-03 Total CO2 (mol/kg) = 1.334e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.767e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.41 Iterations = 6 @@ -16943,7 +16962,7 @@ Th 230 plus 232 mol/L : 2.0657e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 3.131e-07 -Calcite -0.00 -8.48 -8.48 1.000e+01 1.000e+01 -7.742e-08 +Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -7.742e-08 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.657e-11 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.306e-09 @@ -17030,7 +17049,7 @@ Hfo_w Temperature (°C) = 25.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.51 - Iterations = 7 + Iterations = 6 Total H = 1.110188e+02 Total O = 5.551360e+01 @@ -17221,7 +17240,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.717e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -4.528e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.760e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.752e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 -3.917e-11 --------------------------------Solid solutions-------------------------------- @@ -17305,6 +17324,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 8 @@ -17497,7 +17517,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 -3.971e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 1.892e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 6.395e-14 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 6.040e-14 ThO2(OECDAged) -1.08 7.42 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -17839,6 +17859,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -18302,6 +18323,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.553e-03 Total CO2 (mol/kg) = 1.522e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.810e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.52 Iterations = 5 @@ -18496,7 +18518,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 6.643e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -9.744e-09 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -7.098e-12 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 1.219e-10 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.219e-10 --------------------------------Solid solutions-------------------------------- @@ -18772,8 +18794,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 5.359e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -7.822e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.729e-11 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 9.954e-10 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.728e-11 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 9.954e-10 --------------------------------Solid solutions-------------------------------- @@ -18856,6 +18878,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.551e-03 Total CO2 (mol/kg) = 1.520e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.809e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.53 Iterations = 6 @@ -19133,6 +19156,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.542e-03 Total CO2 (mol/kg) = 1.511e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.806e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.57 Iterations = 6 @@ -19410,6 +19434,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.505e-03 Total CO2 (mol/kg) = 1.476e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.795e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.72 Iterations = 6 @@ -19687,6 +19712,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.429e-03 Total CO2 (mol/kg) = 1.404e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.776e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.05 Iterations = 6 @@ -19964,6 +19990,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.356e-03 Total CO2 (mol/kg) = 1.334e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.766e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.41 Iterations = 6 @@ -20241,6 +20268,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.336e-03 Total CO2 (mol/kg) = 1.315e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.51 Iterations = 8 @@ -20433,7 +20461,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.291e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.184e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.061e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.055e-12 ThO2(OECDAged) -1.00 7.50 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -20508,6 +20536,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -20700,7 +20729,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.084e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -4.871e-11 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.243e-13 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.226e-13 ThO2(OECDAged) -2.36 6.14 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -21431,7 +21460,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.551e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.277e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.743e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.750e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.845e-11 --------------------------------Solid solutions-------------------------------- @@ -21515,6 +21544,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.553e-03 Total CO2 (mol/kg) = 1.522e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.810e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.52 Iterations = 5 @@ -21708,7 +21738,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.408e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.065e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.345e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.346e-11 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.590e-10 --------------------------------Solid solutions-------------------------------- @@ -21985,8 +22015,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 8.365e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.221e-07 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -7.297e-11 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 1.568e-09 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -7.299e-11 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.568e-09 --------------------------------Solid solutions-------------------------------- @@ -22069,6 +22099,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.550e-03 Total CO2 (mol/kg) = 1.518e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.809e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.54 Iterations = 6 @@ -22346,6 +22377,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.536e-03 Total CO2 (mol/kg) = 1.506e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.804e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.59 Iterations = 6 @@ -22623,6 +22655,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.495e-03 Total CO2 (mol/kg) = 1.466e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.791e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.77 Iterations = 6 @@ -22900,6 +22933,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.421e-03 Total CO2 (mol/kg) = 1.396e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.773e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.09 Iterations = 6 @@ -23177,6 +23211,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.356e-03 Total CO2 (mol/kg) = 1.334e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.766e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.41 Iterations = 8 @@ -23369,7 +23404,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 4.252e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.052e-07 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.447e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.446e-11 ThO2(OECDAged) -0.93 7.57 8.50 0.000e+00 0.000e+00 ------------------------------Surface composition------------------------------ @@ -23444,6 +23479,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.337e-03 Total CO2 (mol/kg) = 1.316e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.50 Iterations = 5 @@ -23711,6 +23747,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.334e-03 Total CO2 (mol/kg) = 1.313e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.52 Iterations = 5 @@ -24366,8 +24403,8 @@ Th 230 plus 232 mol/L : 2.3383e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 3.651e-09 -Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.350e-10 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.744e-12 +Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.349e-10 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.736e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 6.695e-12 --------------------------------Solid solutions-------------------------------- @@ -24644,8 +24681,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 3.619e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.313e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.485e-12 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 6.639e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.334e-12 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 6.639e-11 --------------------------------Solid solutions-------------------------------- @@ -25198,8 +25235,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.170e-06 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.710e-07 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.015e-10 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.218e-09 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.009e-10 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 2.218e-09 --------------------------------Solid solutions-------------------------------- @@ -25282,6 +25319,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.548e-03 Total CO2 (mol/kg) = 1.517e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.808e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.55 Iterations = 6 @@ -25476,7 +25514,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 3.785e-06 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.632e-07 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.252e-10 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 7.891e-09 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 7.891e-09 --------------------------------Solid solutions-------------------------------- @@ -25559,6 +25597,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.530e-03 Total CO2 (mol/kg) = 1.500e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.802e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.62 Iterations = 6 @@ -25836,6 +25875,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.485e-03 Total CO2 (mol/kg) = 1.457e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.788e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.81 Iterations = 6 @@ -26113,6 +26153,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.413e-03 Total CO2 (mol/kg) = 1.389e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.771e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.13 Iterations = 8 @@ -26380,6 +26421,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.356e-03 Total CO2 (mol/kg) = 1.334e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.41 Iterations = 5 @@ -26647,6 +26689,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.337e-03 Total CO2 (mol/kg) = 1.316e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.50 Iterations = 5 @@ -27110,6 +27153,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.553e-03 Total CO2 (mol/kg) = 1.522e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.810e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.52 Iterations = 5 @@ -27303,7 +27347,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 8.652e-10 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.256e-10 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.503e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.496e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.588e-12 --------------------------------Solid solutions-------------------------------- @@ -27580,8 +27624,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 9.188e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.348e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.201e-12 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 1.685e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -2.206e-12 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.685e-11 --------------------------------Solid solutions-------------------------------- @@ -27664,6 +27708,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.553e-03 Total CO2 (mol/kg) = 1.522e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.810e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.52 Iterations = 5 @@ -27857,8 +27902,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 6.912e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.015e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -7.308e-12 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 1.269e-10 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -7.319e-12 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.269e-10 --------------------------------Solid solutions-------------------------------- @@ -28134,7 +28179,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 3.803e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -5.572e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.395e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.393e-11 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 7.044e-10 --------------------------------Solid solutions-------------------------------- @@ -28410,7 +28455,7 @@ Th 230 plus 232 mol/L : 2.3276e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.519e-06 -Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.228e-07 +Calcite -0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.228e-07 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.314e-10 ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 2.919e-09 @@ -28495,6 +28540,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.545e-03 Total CO2 (mol/kg) = 1.514e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.807e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.56 Iterations = 6 @@ -28772,6 +28818,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.524e-03 Total CO2 (mol/kg) = 1.494e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.800e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.64 Iterations = 6 @@ -28964,7 +29011,7 @@ Th 230 plus 232 mol/L : 2.2366e-09 Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 7.429e-06 -Calcite -0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.252e-06 +Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.252e-06 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -6.307e-10 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.962e-08 @@ -29049,6 +29096,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.475e-03 Total CO2 (mol/kg) = 1.448e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.786e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.85 Iterations = 8 @@ -29316,6 +29364,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.407e-03 Total CO2 (mol/kg) = 1.383e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.769e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.15 Iterations = 5 @@ -29583,6 +29632,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.355e-03 Total CO2 (mol/kg) = 1.333e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.765e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.41 Iterations = 5 @@ -30240,7 +30290,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.057e-10 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.873e-11 O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.464e-12 -ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 3.791e-13 +ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 3.791e-13 --------------------------------Solid solutions-------------------------------- @@ -30516,7 +30566,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 2.318e-09 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -3.391e-10 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.657e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.629e-12 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 4.251e-12 --------------------------------Solid solutions-------------------------------- @@ -30793,7 +30843,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.890e-08 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.775e-09 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.030e-12 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -3.048e-12 ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 3.466e-11 --------------------------------Solid solutions-------------------------------- @@ -31070,8 +31120,8 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.162e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -1.706e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.138e-11 -ThO2(OECDAged) -0.00 8.50 8.50 2.934e-03 2.934e-03 2.137e-10 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.136e-11 +ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 2.137e-10 --------------------------------Solid solutions-------------------------------- @@ -31347,7 +31397,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 5.410e-07 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -7.929e-08 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.773e-11 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -4.774e-11 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 1.007e-09 --------------------------------Solid solutions-------------------------------- @@ -31431,6 +31481,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.551e-03 Total CO2 (mol/kg) = 1.519e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.809e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.54 Iterations = 6 @@ -31624,7 +31675,7 @@ Phase SI log IAP log K(T, P) Initial Final Delta CO2(g) -3.50 -4.97 -1.47 1.000e+01 1.000e+01 1.871e-06 Calcite 0.00 -8.48 -8.48 1.000e+01 1.000e+01 -2.756e-07 -O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.614e-10 +O2(g) -0.70 -3.66 -2.96 1.000e+01 1.000e+01 -1.613e-10 ThO2(OECDAged) 0.00 8.50 8.50 2.934e-03 2.934e-03 3.649e-09 --------------------------------Solid solutions-------------------------------- @@ -31708,6 +31759,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.542e-03 Total CO2 (mol/kg) = 1.511e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.806e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.57 Iterations = 6 @@ -31985,6 +32037,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.517e-03 Total CO2 (mol/kg) = 1.488e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.798e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.67 Iterations = 8 @@ -32252,6 +32305,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.467e-03 Total CO2 (mol/kg) = 1.440e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.783e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 14.88 Iterations = 5 @@ -32519,6 +32573,7 @@ Hfo_w Total alkalinity (eq/kg) = 1.402e-03 Total CO2 (mol/kg) = 1.378e-03 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.768e-04 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 15.18 Iterations = 5 diff --git a/mytest/surface_punch_all.sel b/mytest/surface_punch_all.sel index 7e315573..f61040e0 100644 --- a/mytest/surface_punch_all.sel +++ b/mytest/surface_punch_all.sel @@ -129,7 +129,7 @@ 1 transp 11 4.2 9.4608e+07 3 8.39306 12.212 3.8995e-13 1.2377e-06 1.1583e-04 0.0000e+00 0.0000e+00 1.0002e+01 4.6942e-08 -6.3776 0.0000e+00 1.5768e+07 3.0000e+00 1.1120e+01 1.3926e-14 3.8995e-13 1.2377e-06 3.1507e-07 8.8129e+01 8.7043e+01 8.0738e-05 0.0000e+00 0.0000e+00 8.3898e-13 6.0247e+01 2.9867e-14 1 transp 12 4.6 9.4608e+07 3 8.39308 12.2119 6.1564e-14 1.9014e-07 1.1444e-04 0.0000e+00 0.0000e+00 1.0002e+01 8.2644e-09 -7.1841 0.0000e+00 1.5768e+07 3.0000e+00 1.0986e+01 3.0556e-17 6.1564e-14 1.9014e-07 3.2378e-07 1.3914e+01 1.3742e+01 1.7715e-07 0.0000e+00 0.0000e+00 1.8413e-15 6.0261e+01 4.7535e-15 1 transp 13 5 9.4608e+07 3 8.3931 12.2119 3.5971e-15 1.0829e-08 1.1416e-04 0.0000e+00 0.0000e+00 1.0002e+01 4.9169e-10 -8.4184 0.0000e+00 1.5768e+07 3.0000e+00 1.0960e+01 2.6520e-20 3.5971e-15 1.0829e-08 3.3218e-07 8.1296e-01 8.0294e-01 1.5376e-10 0.0000e+00 0.0000e+00 1.5981e-18 6.0261e+01 2.7814e-16 - 1 transp 14 5.4 9.4608e+07 3 8.3931 12.2119 7.2079e-17 2.1163e-10 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 9.7842e-12 -10.1167 0.0000e+00 1.5768e+07 3.0000e+00 1.0958e+01 8.0753e-24 7.2079e-17 2.1163e-10 3.4059e-07 1.6290e-02 1.6089e-02 4.6819e-14 0.0000e+00 0.0000e+00 4.8662e-22 6.0261e+01 5.5739e-18 + 1 transp 14 5.4 9.4608e+07 3 8.3931 12.2119 7.2079e-17 2.1163e-10 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 9.7806e-12 -10.1167 0.0000e+00 1.5768e+07 3.0000e+00 1.0958e+01 8.0753e-24 7.2079e-17 2.1163e-10 3.4059e-07 1.6290e-02 1.6089e-02 4.6819e-14 0.0000e+00 0.0000e+00 4.8662e-22 6.0261e+01 5.5739e-18 1 transp 15 5.8 9.4608e+07 3 8.3931 12.2119 0.0000e+00 0.0000e+00 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 0.0000e+00 -999.9990 0.0000e+00 1.5768e+07 3.0000e+00 1.0958e+01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e-99 0.0000e+00 2.0000e-99 1 transp 16 6.2 9.4608e+07 3 8.3931 12.2119 0.0000e+00 0.0000e+00 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 0.0000e+00 -999.9990 0.0000e+00 1.5768e+07 3.0000e+00 1.0958e+01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e-99 0.0000e+00 2.0000e-99 1 transp 17 6.6 9.4608e+07 3 8.3931 12.2119 0.0000e+00 0.0000e+00 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 0.0000e+00 -999.9990 0.0000e+00 1.5768e+07 3.0000e+00 1.0958e+01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e-99 0.0000e+00 2.0000e-99 @@ -307,7 +307,7 @@ 1 transp 37 14.6 2.20752e+08 7 8.3931 12.2119 0.0000e+00 0.0000e+00 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 0.0000e+00 -999.9990 0.0000e+00 1.5768e+07 7.0000e+00 1.0958e+01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e-99 0.0000e+00 2.0000e-99 1 transp 38 15 2.20752e+08 7 8.3931 12.2119 0.0000e+00 0.0000e+00 1.1415e-04 0.0000e+00 0.0000e+00 1.0002e+01 0.0000e+00 -999.9990 0.0000e+00 1.5768e+07 7.0000e+00 1.0958e+01 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 0.0000e+00 1.0000e-99 0.0000e+00 2.0000e-99 1 transp 1 0.2 2.52288e+08 8 8.45477 12.1502 5.6011e-13 1.8784e-06 1.1638e-04 2.9339e-03 -2.3380e-09 1.0020e+01 2.2203e-03 -6.2324 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3383e-09 5.6011e-13 1.8784e-06 2.9819e-07 1.2659e+02 1.2502e+02 1.3557e+01 6.6120e-09 1.6183e-02 4.8861e-08 2.0896e+01 4.6279e-14 - 1 transp 2 0.6 2.52288e+08 8 8.45477 12.1503 5.5997e-13 1.8784e-06 1.1638e-04 2.9339e-03 6.6945e-12 1.0002e+01 -5.3495e-10 -6.2325 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3383e-09 5.5997e-13 1.8784e-06 2.9811e-07 1.2655e+02 1.2499e+02 1.3557e+01 6.6165e-09 1.6198e-02 4.8863e-08 2.0897e+01 4.6267e-14 + 1 transp 2 0.6 2.52288e+08 8 8.45477 12.1503 5.5997e-13 1.8784e-06 1.1638e-04 2.9339e-03 6.6945e-12 1.0002e+01 -5.3492e-10 -6.2325 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3383e-09 5.5997e-13 1.8784e-06 2.9811e-07 1.2655e+02 1.2499e+02 1.3557e+01 6.6165e-09 1.6198e-02 4.8863e-08 2.0897e+01 4.6267e-14 1 transp 3 1 2.52288e+08 8 8.45474 12.1503 5.5996e-13 1.8784e-06 1.1638e-04 2.9339e-03 6.6386e-11 1.0002e+01 -5.3127e-09 -6.2325 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3381e-09 5.5996e-13 1.8784e-06 2.9811e-07 1.2655e+02 1.2499e+02 1.3556e+01 6.6165e-09 1.6198e-02 4.8883e-08 2.0907e+01 4.6265e-14 1 transp 4 1.4 2.52288e+08 8 8.45452 12.1505 5.5989e-13 1.8781e-06 1.1638e-04 2.9339e-03 4.5354e-10 1.0002e+01 -3.6030e-08 -6.2325 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3370e-09 5.5989e-13 1.8781e-06 2.9811e-07 1.2654e+02 1.2498e+02 1.3550e+01 6.6165e-09 1.6198e-02 4.9035e-08 2.0982e+01 4.6252e-14 1 transp 5 1.8 2.52288e+08 8 8.45336 12.1517 5.5952e-13 1.8768e-06 1.1639e-04 2.9339e-03 2.2178e-09 1.0002e+01 -1.7101e-07 -6.2325 0.0000e+00 1.5768e+07 8.0000e+00 1.1173e+01 2.3310e-09 5.5952e-13 1.8768e-06 2.9813e-07 1.2645e+02 1.2489e+02 1.3515e+01 6.6165e-09 1.6198e-02 4.9865e-08 2.1392e+01 4.6177e-14 @@ -388,7 +388,7 @@ 1 transp 4 1.4 3.1536e+08 10 8.45475 12.1503 5.5948e-13 1.8784e-06 1.1638e-04 2.9339e-03 3.4656e-11 1.0002e+01 -2.7747e-09 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 2.3382e-09 5.5948e-13 1.8784e-06 2.9785e-07 1.2644e+02 1.2488e+02 1.3556e+01 6.6108e-09 1.6198e-02 4.8874e-08 2.0902e+01 4.6226e-14 1 transp 5 1.8 3.1536e+08 10 8.45465 12.1504 5.5945e-13 1.8783e-06 1.1638e-04 2.9339e-03 2.1370e-10 1.0002e+01 -1.7058e-08 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 2.3377e-09 5.5945e-13 1.8783e-06 2.9785e-07 1.2644e+02 1.2488e+02 1.3553e+01 6.6108e-09 1.6198e-02 4.8948e-08 2.0939e+01 4.6219e-14 1 transp 6 2.2 3.1536e+08 10 8.4541 12.1509 5.5927e-13 1.8776e-06 1.1639e-04 2.9339e-03 1.0075e-09 1.0002e+01 -7.9295e-08 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 2.3348e-09 5.5927e-13 1.8776e-06 2.9786e-07 1.2640e+02 1.2484e+02 1.3537e+01 6.6108e-09 1.6198e-02 4.9336e-08 2.1130e+01 4.6184e-14 - 1 transp 7 2.6 3.1536e+08 10 8.4519 12.1531 5.5858e-13 1.8752e-06 1.1639e-04 2.9339e-03 3.6493e-09 1.0002e+01 -2.7559e-07 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 2.3236e-09 5.5858e-13 1.8752e-06 2.9788e-07 1.2624e+02 1.2468e+02 1.3472e+01 6.6108e-09 1.6198e-02 5.0920e-08 2.1914e+01 4.6043e-14 + 1 transp 7 2.6 3.1536e+08 10 8.4519 12.1531 5.5858e-13 1.8752e-06 1.1639e-04 2.9339e-03 3.6493e-09 1.0002e+01 -2.7560e-07 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 2.3236e-09 5.5858e-13 1.8752e-06 2.9788e-07 1.2624e+02 1.2468e+02 1.3472e+01 6.6108e-09 1.6198e-02 5.0920e-08 2.1914e+01 4.6043e-14 1 transp 8 3 3.1536e+08 10 8.44536 12.1597 5.5656e-13 1.8680e-06 1.1639e-04 2.9339e-03 1.0007e-08 1.0002e+01 -7.0341e-07 -6.2329 0.0000e+00 1.5768e+07 1.0000e+01 1.1174e+01 2.2908e-09 5.5656e-13 1.8680e-06 2.9795e-07 1.2578e+02 1.2423e+02 1.3282e+01 6.6108e-09 1.6198e-02 5.5979e-08 2.4436e+01 4.5607e-14 1 transp 9 3.4 3.1536e+08 10 8.43167 12.1733 5.5209e-13 1.8502e-06 1.1638e-04 0.0000e+00 0.0000e+00 1.0002e+01 -1.2337e-06 -6.2332 0.0000e+00 1.5768e+07 1.0000e+01 1.1173e+01 6.3570e-10 5.5209e-13 1.8502e-06 2.9840e-07 1.2477e+02 1.2323e+02 3.6856e+00 0.0000e+00 0.0000e+00 1.9573e-08 3.0790e+01 4.4591e-14 1 transp 10 3.8 3.1536e+08 10 8.41333 12.1917 5.4664e-13 1.8302e-06 1.1632e-04 0.0000e+00 0.0000e+00 1.0002e+01 -1.2665e-06 -6.2336 0.0000e+00 1.5768e+07 1.0000e+01 1.1167e+01 4.0619e-11 5.4664e-13 1.8302e-06 2.9869e-07 1.2354e+02 1.2202e+02 2.3550e-01 0.0000e+00 0.0000e+00 1.7135e-09 4.2185e+01 4.3096e-14 diff --git a/mytest/surface_punch_all_101.sel b/mytest/surface_punch_all_101.sel index 8ab1c5d8..6a0c0c0b 100644 --- a/mytest/surface_punch_all_101.sel +++ b/mytest/surface_punch_all_101.sel @@ -154,7 +154,7 @@ 0.003745435424 0.0000000000 0.003745435424 0.0000000000 0.003745435424 0.0000000000 - 0.004070475761 0.0000000000 + 0.004070475762 0.0000000000 0.004065427273 0.0000000000 0.004032612340 0.0000000000 0.003924489538 0.0000000000 @@ -310,7 +310,7 @@ 0.004070855707 0.0000000000 0.004070692290 0.0000000000 0.004069482237 0.0000000000 - 0.004062936912 0.0000000000 + 0.004062936913 0.0000000000 0.004037572814 0.0000000000 0.003971436862 0.0000000000 0.003867765920 0.0000000000 @@ -349,7 +349,7 @@ 0.004070826987 0.0000000000 0.004070494334 0.0000000000 0.004068475133 0.0000000000 - 0.004059237056 0.0000000000 + 0.004059237053 0.0000000000 0.004028354578 0.0000000000 0.003957794875 0.0000000000 0.003858662693 0.0000000000 @@ -388,7 +388,7 @@ 0.004070771301 0.0000000000 0.004070175544 0.0000000000 0.004067091841 0.0000000000 - 0.004054826254 0.0000000000 + 0.004054826255 0.0000000000 0.004018698047 0.0000000000 0.003945067628 0.0000000000 0.003850718550 0.0000000000 diff --git a/mytest/sys_equi_101.sel b/mytest/sys_equi_101.sel index 22f6c161..27eb772d 100644 --- a/mytest/sys_equi_101.sel +++ b/mytest/sys_equi_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100661 0.0546997340 - 0.005895646756 363.1206051312 + 0.005895646756 363.1206120722 diff --git a/mytest/sys_equi_fix_101.sel b/mytest/sys_equi_fix_101.sel index 3624efa8..558c0ac6 100644 --- a/mytest/sys_equi_fix_101.sel +++ b/mytest/sys_equi_fix_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.300000039210 19352.9823936194 - 0.570718966011 35155.3846830719 - 0.570718966147 35155.3846827554 + 0.300000039210 19352.9854303844 + 0.570718966011 35155.3877926921 + 0.570718966147 35155.3877923756 diff --git a/mytest/sys_ex_101.sel b/mytest/sys_ex_101.sel index ef7f0856..48e525fd 100644 --- a/mytest/sys_ex_101.sel +++ b/mytest/sys_ex_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.363093656168 30272.1971210850 - 0.363093656174 30272.1971210592 - 0.363093656174 30272.1971210693 + 0.363093656168 30272.1996168197 + 0.363093656174 30272.1996167939 + 0.363093656174 30272.1996168039 diff --git a/mytest/sys_gas.out b/mytest/sys_gas.out index 4497b5f8..409aa66b 100644 --- a/mytest/sys_gas.out +++ b/mytest/sys_gas.out @@ -196,7 +196,7 @@ CO2(g) 2.40 2.498e+02 0.488 8.170e+01 8.163e+01 -6.501e-02 Specific Conductance (µS/cm, 102°C) = 428 Density (g/cm³) = 0.98180 Volume (L) = 0.00343 - Viscosity (mPa s) = 0.29381 + Viscosity (mPa s) = 0.29382 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.537e-04 Mass of water (kg) = 3.252e-03 @@ -296,7 +296,7 @@ CO2(g) 2.40 2.497e+02 0.488 8.163e+01 8.157e+01 -6.424e-02 Specific Conductance (µS/cm, 102°C) = 428 Density (g/cm³) = 0.98180 Volume (L) = 0.00581 - Viscosity (mPa s) = 0.29381 + Viscosity (mPa s) = 0.29382 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.535e-04 Mass of water (kg) = 5.504e-03 diff --git a/mytest/sys_gas_101.sel b/mytest/sys_gas_101.sel index 2d655700..acb35531 100644 --- a/mytest/sys_gas_101.sel +++ b/mytest/sys_gas_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.000000977083 0.9766998773 - 0.000653736114 428.2845237945 - 0.000653542545 428.1800538335 + 0.000000977083 0.9766988529 + 0.000653736114 428.2597066039 + 0.000653542545 428.1552460951 diff --git a/mytest/sys_kin_101.sel b/mytest/sys_kin_101.sel index 2e3296a2..a73743fd 100644 --- a/mytest/sys_kin_101.sel +++ b/mytest/sys_kin_101.sel @@ -1,3 +1,3 @@ Mu SC 0.000000100661 0.0546997340 - 0.000755215446 67.0399832941 + 0.000755215446 67.0399836677 diff --git a/mytest/sys_sort_101.sel b/mytest/sys_sort_101.sel index a23a6863..aae3ea5d 100644 --- a/mytest/sys_sort_101.sel +++ b/mytest/sys_sort_101.sel @@ -1,2 +1,2 @@ Mu SC - 0.005905633221 361.8529555767 + 0.005905633221 361.8529624930 diff --git a/mytest/t2.out b/mytest/t2.out index d51c4c4d..95193713 100644 --- a/mytest/t2.out +++ b/mytest/t2.out @@ -146,7 +146,7 @@ Reaction 1. Specific Conductance (µS/cm, 0°C) = 4788 Density (g/cm³) = 1.00626 Volume (L) = 0.99962 - Viscosity (mPa s) = 1.82507 + Viscosity (mPa s) = 1.82442 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.587e-01 Mass of water (kg) = 1.000e+00 @@ -236,7 +236,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 9624 Density (g/cm³) = 1.00294 Volume (L) = 1.00293 - Viscosity (mPa s) = 0.91419 + Viscosity (mPa s) = 0.91418 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.573e-01 Mass of water (kg) = 1.000e+00 @@ -323,10 +323,10 @@ Reaction 1. pH = 10.809 Charge balance pe = -5.250 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 15517 + Specific Conductance (µS/cm, 50°C) = 15514 Density (g/cm³) = 0.99371 Volume (L) = 1.01225 - Viscosity (mPa s) = 0.56442 + Viscosity (mPa s) = 0.56464 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.547e-01 Mass of water (kg) = 9.999e-01 @@ -413,10 +413,10 @@ Reaction 1. pH = 10.481 Charge balance pe = -4.966 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 22041 + Specific Conductance (µS/cm, 75°C) = 22032 Density (g/cm³) = 0.98043 Volume (L) = 1.02596 - Viscosity (mPa s) = 0.39335 + Viscosity (mPa s) = 0.39366 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 9.998e-01 @@ -503,10 +503,10 @@ Reaction 1. pH = 10.244 Charge balance pe = -4.765 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 28696 + Specific Conductance (µS/cm, 100°C) = 28680 Density (g/cm³) = 0.96393 Volume (L) = 1.04352 - Viscosity (mPa s) = 0.29690 + Viscosity (mPa s) = 0.29724 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.426e-01 Mass of water (kg) = 9.997e-01 @@ -593,10 +593,10 @@ Reaction 1. pH = 10.072 Charge balance pe = -4.625 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 35081 + Specific Conductance (µS/cm, 125°C) = 35059 Density (g/cm³) = 0.94466 Volume (L) = 1.06481 - Viscosity (mPa s) = 0.23424 + Viscosity (mPa s) = 0.23459 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.320e-01 Mass of water (kg) = 9.996e-01 @@ -684,10 +684,10 @@ Reaction 1. pH = 9.944 Charge balance pe = 0.284 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 41449 + Specific Conductance (µS/cm, 150°C) = 41418 Density (g/cm³) = 0.92277 Volume (L) = 1.09007 - Viscosity (mPa s) = 0.18072 + Viscosity (mPa s) = 0.18105 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.194e-01 Mass of water (kg) = 9.995e-01 @@ -775,10 +775,10 @@ Reaction 1. pH = 9.843 Charge balance pe = 0.604 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 55593 + Specific Conductance (µS/cm, 175°C) = 55511 Density (g/cm³) = 0.89825 Volume (L) = 1.11982 - Viscosity (mPa s) = 0.08971 + Viscosity (mPa s) = 0.09003 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.072e-01 Mass of water (kg) = 9.993e-01 @@ -866,10 +866,10 @@ Reaction 1. pH = 9.767 Charge balance pe = 0.447 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 200°C) = 25467 + Specific Conductance (µS/cm, 200°C) = 25466 Density (g/cm³) = 0.87099 Volume (L) = 1.15488 - Viscosity (mPa s) = 3.91356 + Viscosity (mPa s) = 3.91389 Activity of water = 0.997 Ionic strength (mol/kgw) = 9.758e-02 Mass of water (kg) = 9.992e-01 diff --git a/mytest/t2_101.sel b/mytest/t2_101.sel index ea6f401e..0d95cc17 100644 --- a/mytest/t2_101.sel +++ b/mytest/t2_101.sel @@ -1,11 +1,11 @@ Mu SC - 0.010000110800 1177.7200325803 - 0.158749197022 4788.0849578332 - 0.157331069278 9624.0352552419 - 0.154682114036 15517.4744442654 - 0.150046389721 22041.0427743565 - 0.142602929646 28696.1881844901 - 0.132041491096 35081.7681964765 - 0.119407539569 41449.2365104175 - 0.107169005002 55593.4520260722 - 0.097577510750 25467.0782592591 + 0.010000110800 1177.7200466154 + 0.158749197022 4788.9839832968 + 0.157331069278 9624.0358545437 + 0.154682114036 15514.4241800217 + 0.150046389721 22032.6175949561 + 0.142602929646 28680.9548647384 + 0.132041491096 35059.6072623766 + 0.119407539569 41418.8361395843 + 0.107169005002 55511.3796362593 + 0.097577510750 25466.9186863058 diff --git a/mytest/t922.out b/mytest/t922.out index 0a519387..2f8e9a39 100644 --- a/mytest/t922.out +++ b/mytest/t922.out @@ -74,7 +74,7 @@ Initial solution 1. Specific Conductance (µS/cm, 20°C) = 1128 Density (g/cm³) = 0.99871 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00757 + Viscosity (mPa s) = 1.00754 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.668e-02 Mass of water (kg) = 1.000e+00 @@ -170,7 +170,7 @@ Goethite 3.00 2.18 -0.82 1.000e-01 1.000e-01 -6.065e-11 Specific Conductance (µS/cm, 20°C) = 1128 Density (g/cm³) = 0.99871 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00757 + Viscosity (mPa s) = 1.00754 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.668e-02 Mass of water (kg) = 1.000e+00 @@ -398,7 +398,7 @@ X 1.250e-01 mol Specific Conductance (µS/cm, 20°C) = 1128 Density (g/cm³) = 0.99871 Volume (L) = 1.00192 - Viscosity (mPa s) = 1.00757 + Viscosity (mPa s) = 1.00754 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.668e-02 Mass of water (kg) = 1.000e+00 @@ -570,7 +570,7 @@ Initial solution 0. 5 mmol/l MgCl2 + 25 mmol/l O2 Specific Conductance (µS/cm, 20°C) = 1027 Density (g/cm³) = 0.99866 Volume (L) = 1.00262 - Viscosity (mPa s) = 1.00538 + Viscosity (mPa s) = 1.00535 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.500e-02 Mass of water (kg) = 1.000e+00 @@ -782,7 +782,7 @@ X 1.250e-01 mol Specific Conductance (µS/cm, 20°C) = 1082 Density (g/cm³) = 0.99871 Volume (L) = 1.00262 - Viscosity (mPa s) = 1.00629 + Viscosity (mPa s) = 1.00626 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.609e-02 Mass of water (kg) = 1.000e+00 @@ -962,7 +962,7 @@ Hfo_w Specific Conductance (µS/cm, 20°C) = 1125 Density (g/cm³) = 0.99872 Volume (L) = 1.00199 - Viscosity (mPa s) = 1.00748 + Viscosity (mPa s) = 1.00745 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.667e-02 Mass of water (kg) = 1.000e+00 diff --git a/mytest/t922_101.sel b/mytest/t922_101.sel index 80e341d9..127cdf29 100644 --- a/mytest/t922_101.sel +++ b/mytest/t922_101.sel @@ -1,9 +1,9 @@ Mu SC - 0.016678590471 1128.0429614028 - 0.016678590482 1128.0429614798 - 0.016678590482 1128.0429614827 - 0.016678590482 1128.0429614798 - 0.016678590482 1128.0429614798 - 0.015000023116 1027.2969330813 - 0.016085179182 1082.5192941895 - 0.016665946250 1125.7013031632 + 0.016678590471 1128.0706275961 + 0.016678590482 1128.0706276730 + 0.016678590482 1128.0706276759 + 0.016678590482 1128.0706276730 + 0.016678590482 1128.0706276730 + 0.015000023116 1027.3212955671 + 0.016085179182 1082.5457100288 + 0.016665946250 1125.7289395693 diff --git a/mytest/ternary.out b/mytest/ternary.out index e4e03380..a765a21c 100644 --- a/mytest/ternary.out +++ b/mytest/ternary.out @@ -123,7 +123,7 @@ Initial solution 1. Specific Conductance (µS/cm, 102°C) = 372 Density (g/cm³) = 0.96688 Volume (L) = 0.05351 - Viscosity (mPa s) = 0.27878 + Viscosity (mPa s) = 0.27879 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.472e-04 Mass of water (kg) = 5.000e-02 @@ -222,7 +222,7 @@ Mtg(g) 0.82 6.680e+00 0.973 0.000e+00 2.997e-01 2.997e-01 Specific Conductance (µS/cm, 102°C) = 364 Density (g/cm³) = 0.96652 Volume (L) = 0.05170 - Viscosity (mPa s) = 0.27878 + Viscosity (mPa s) = 0.27879 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.347e-04 Mass of water (kg) = 4.836e-02 @@ -323,7 +323,7 @@ Mtg(g) 1.13 1.336e+01 0.964 0.000e+00 5.995e-01 5.995e-01 Specific Conductance (µS/cm, 102°C) = 353 Density (g/cm³) = 0.96605 Volume (L) = 0.05166 - Viscosity (mPa s) = 0.27877 + Viscosity (mPa s) = 0.27878 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.162e-04 Mass of water (kg) = 4.841e-02 @@ -424,7 +424,7 @@ Mtg(g) 1.30 2.004e+01 0.956 0.000e+00 8.992e-01 8.992e-01 Specific Conductance (µS/cm, 102°C) = 341 Density (g/cm³) = 0.96558 Volume (L) = 0.05161 - Viscosity (mPa s) = 0.27877 + Viscosity (mPa s) = 0.27878 Activity of water = 0.989 Ionic strength (mol/kgw) = 4.970e-04 Mass of water (kg) = 4.846e-02 @@ -626,7 +626,7 @@ Mtg(g) 1.52 3.340e+01 0.943 0.000e+00 1.499e+00 1.499e+00 Specific Conductance (µS/cm, 102°C) = 316 Density (g/cm³) = 0.96467 Volume (L) = 0.05153 - Viscosity (mPa s) = 0.27876 + Viscosity (mPa s) = 0.27877 Activity of water = 0.991 Ionic strength (mol/kgw) = 4.565e-04 Mass of water (kg) = 4.855e-02 @@ -727,7 +727,7 @@ Mtg(g) 1.60 4.009e+01 0.938 0.000e+00 1.798e+00 1.798e+00 Specific Conductance (µS/cm, 102°C) = 302 Density (g/cm³) = 0.96422 Volume (L) = 0.05148 - Viscosity (mPa s) = 0.27876 + Viscosity (mPa s) = 0.27877 Activity of water = 0.992 Ionic strength (mol/kgw) = 4.348e-04 Mass of water (kg) = 4.859e-02 @@ -929,7 +929,7 @@ Mtg(g) 1.73 5.344e+01 0.931 0.000e+00 2.398e+00 2.398e+00 Specific Conductance (µS/cm, 102°C) = 271 Density (g/cm³) = 0.96333 Volume (L) = 0.05139 - Viscosity (mPa s) = 0.27875 + Viscosity (mPa s) = 0.27876 Activity of water = 0.993 Ionic strength (mol/kgw) = 3.877e-04 Mass of water (kg) = 4.866e-02 @@ -1131,7 +1131,7 @@ Mtg(g) 1.82 6.680e+01 0.925 0.000e+00 2.997e+00 2.997e+00 Specific Conductance (µS/cm, 102°C) = 235 Density (g/cm³) = 0.96244 Volume (L) = 0.05129 - Viscosity (mPa s) = 0.27874 + Viscosity (mPa s) = 0.27875 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.336e-04 Mass of water (kg) = 4.873e-02 @@ -1259,7 +1259,7 @@ Mtg(g) 1.05 1.131e+01 1.012 0.000e+00 5.996e-01 5.996e-01 Specific Conductance (µS/cm, 102°C) = 438 Density (g/cm³) = 0.97286 Volume (L) = 0.04990 - Viscosity (mPa s) = 0.28134 + Viscosity (mPa s) = 0.28135 Activity of water = 0.983 Ionic strength (mol/kgw) = 6.576e-04 Mass of water (kg) = 4.635e-02 @@ -1463,7 +1463,7 @@ Mtg(g) 1.53 3.399e+01 0.968 0.000e+00 1.799e+00 1.799e+00 Specific Conductance (µS/cm, 102°C) = 415 Density (g/cm³) = 0.97162 Volume (L) = 0.05019 - Viscosity (mPa s) = 0.28133 + Viscosity (mPa s) = 0.28134 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.178e-04 Mass of water (kg) = 4.683e-02 @@ -1565,7 +1565,7 @@ Mtg(g) 1.66 4.535e+01 0.951 0.000e+00 2.398e+00 2.398e+00 Specific Conductance (µS/cm, 102°C) = 403 Density (g/cm³) = 0.97102 Volume (L) = 0.05029 - Viscosity (mPa s) = 0.28133 + Viscosity (mPa s) = 0.28134 Activity of water = 0.986 Ionic strength (mol/kgw) = 5.971e-04 Mass of water (kg) = 4.702e-02 @@ -1769,7 +1769,7 @@ Mtg(g) 1.83 6.811e+01 0.926 0.000e+00 3.598e+00 3.598e+00 Specific Conductance (µS/cm, 102°C) = 377 Density (g/cm³) = 0.96983 Volume (L) = 0.05042 - Viscosity (mPa s) = 0.28132 + Viscosity (mPa s) = 0.28133 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.533e-04 Mass of water (kg) = 4.735e-02 @@ -1871,7 +1871,7 @@ Mtg(g) 1.90 7.950e+01 0.916 0.000e+00 4.197e+00 4.197e+00 Specific Conductance (µS/cm, 102°C) = 362 Density (g/cm³) = 0.96925 Volume (L) = 0.05047 - Viscosity (mPa s) = 0.28132 + Viscosity (mPa s) = 0.28133 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.300e-04 Mass of water (kg) = 4.749e-02 @@ -2075,7 +2075,7 @@ Mtg(g) 2.01 1.023e+02 0.901 0.000e+00 5.397e+00 5.397e+00 Specific Conductance (µS/cm, 102°C) = 330 Density (g/cm³) = 0.96809 Volume (L) = 0.05052 - Viscosity (mPa s) = 0.28131 + Viscosity (mPa s) = 0.28132 Activity of water = 0.990 Ionic strength (mol/kgw) = 4.792e-04 Mass of water (kg) = 4.773e-02 @@ -2305,7 +2305,7 @@ Mtg(g) 1.21 1.613e+01 1.033 0.000e+00 7.995e-01 7.995e-01 Specific Conductance (µS/cm, 102°C) = 485 Density (g/cm³) = 0.97852 Volume (L) = 0.04796 - Viscosity (mPa s) = 0.28400 + Viscosity (mPa s) = 0.28401 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.395e-04 Mass of water (kg) = 4.446e-02 @@ -2407,7 +2407,7 @@ Mtg(g) 1.51 3.231e+01 1.005 0.000e+00 1.599e+00 1.599e+00 Specific Conductance (µS/cm, 102°C) = 474 Density (g/cm³) = 0.97778 Volume (L) = 0.04835 - Viscosity (mPa s) = 0.28400 + Viscosity (mPa s) = 0.28401 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.185e-04 Mass of water (kg) = 4.493e-02 @@ -2509,7 +2509,7 @@ Mtg(g) 1.69 4.853e+01 0.981 0.000e+00 2.399e+00 2.399e+00 Specific Conductance (µS/cm, 102°C) = 462 Density (g/cm³) = 0.97707 Volume (L) = 0.04868 - Viscosity (mPa s) = 0.28400 + Viscosity (mPa s) = 0.28401 Activity of water = 0.982 Ionic strength (mol/kgw) = 6.973e-04 Mass of water (kg) = 4.535e-02 @@ -2713,7 +2713,7 @@ Mtg(g) 1.91 8.106e+01 0.943 0.000e+00 3.998e+00 3.998e+00 Specific Conductance (µS/cm, 102°C) = 437 Density (g/cm³) = 0.97568 Volume (L) = 0.04920 - Viscosity (mPa s) = 0.28399 + Viscosity (mPa s) = 0.28400 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.532e-04 Mass of water (kg) = 4.605e-02 @@ -2815,7 +2815,7 @@ Mtg(g) 1.99 9.736e+01 0.928 0.000e+00 4.797e+00 4.797e+00 Specific Conductance (µS/cm, 102°C) = 424 Density (g/cm³) = 0.97500 Volume (L) = 0.04939 - Viscosity (mPa s) = 0.28399 + Viscosity (mPa s) = 0.28400 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.301e-04 Mass of water (kg) = 4.633e-02 @@ -2917,7 +2917,7 @@ Mtg(g) 2.06 1.137e+02 0.915 0.000e+00 5.597e+00 5.597e+00 Specific Conductance (µS/cm, 102°C) = 409 Density (g/cm³) = 0.97433 Volume (L) = 0.04956 - Viscosity (mPa s) = 0.28399 + Viscosity (mPa s) = 0.28400 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.059e-04 Mass of water (kg) = 4.659e-02 @@ -3019,7 +3019,7 @@ Mtg(g) 2.11 1.300e+02 0.904 0.000e+00 6.396e+00 6.396e+00 Specific Conductance (µS/cm, 102°C) = 394 Density (g/cm³) = 0.97366 Volume (L) = 0.04969 - Viscosity (mPa s) = 0.28398 + Viscosity (mPa s) = 0.28399 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.806e-04 Mass of water (kg) = 4.683e-02 @@ -3121,7 +3121,7 @@ Mtg(g) 2.17 1.463e+02 0.895 0.000e+00 7.196e+00 7.196e+00 Specific Conductance (µS/cm, 102°C) = 378 Density (g/cm³) = 0.97300 Volume (L) = 0.04980 - Viscosity (mPa s) = 0.28398 + Viscosity (mPa s) = 0.28399 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.538e-04 Mass of water (kg) = 4.703e-02 @@ -3223,7 +3223,7 @@ Mtg(g) 2.21 1.627e+02 0.887 0.000e+00 7.995e+00 7.995e+00 Specific Conductance (µS/cm, 102°C) = 360 Density (g/cm³) = 0.97233 Volume (L) = 0.04989 - Viscosity (mPa s) = 0.28398 + Viscosity (mPa s) = 0.28399 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.252e-04 Mass of water (kg) = 4.722e-02 @@ -3351,7 +3351,7 @@ Mtg(g) 1.36 2.275e+01 1.044 0.000e+00 9.994e-01 9.994e-01 Specific Conductance (µS/cm, 102°C) = 523 Density (g/cm³) = 0.98351 Volume (L) = 0.04673 - Viscosity (mPa s) = 0.28656 + Viscosity (mPa s) = 0.28657 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.036e-04 Mass of water (kg) = 4.333e-02 @@ -3453,7 +3453,7 @@ Mtg(g) 1.66 4.559e+01 1.014 0.000e+00 1.999e+00 1.999e+00 Specific Conductance (µS/cm, 102°C) = 510 Density (g/cm³) = 0.98262 Volume (L) = 0.04731 - Viscosity (mPa s) = 0.28656 + Viscosity (mPa s) = 0.28657 Activity of water = 0.980 Ionic strength (mol/kgw) = 7.793e-04 Mass of water (kg) = 4.399e-02 @@ -3555,7 +3555,7 @@ Mtg(g) 1.84 6.850e+01 0.989 0.000e+00 2.998e+00 2.998e+00 Specific Conductance (µS/cm, 102°C) = 497 Density (g/cm³) = 0.98175 Volume (L) = 0.04780 - Viscosity (mPa s) = 0.28655 + Viscosity (mPa s) = 0.28656 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.546e-04 Mass of water (kg) = 4.457e-02 @@ -3657,7 +3657,7 @@ Mtg(g) 1.96 9.146e+01 0.967 0.000e+00 3.998e+00 3.998e+00 Specific Conductance (µS/cm, 102°C) = 483 Density (g/cm³) = 0.98091 Volume (L) = 0.04821 - Viscosity (mPa s) = 0.28655 + Viscosity (mPa s) = 0.28656 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.293e-04 Mass of water (kg) = 4.507e-02 @@ -3759,7 +3759,7 @@ Mtg(g) 2.06 1.145e+02 0.948 0.000e+00 4.997e+00 4.997e+00 Specific Conductance (µS/cm, 102°C) = 468 Density (g/cm³) = 0.98008 Volume (L) = 0.04855 - Viscosity (mPa s) = 0.28655 + Viscosity (mPa s) = 0.28656 Activity of water = 0.983 Ionic strength (mol/kgw) = 7.032e-04 Mass of water (kg) = 4.552e-02 @@ -3861,7 +3861,7 @@ Mtg(g) 2.14 1.375e+02 0.932 0.000e+00 5.996e+00 5.996e+00 Specific Conductance (µS/cm, 102°C) = 452 Density (g/cm³) = 0.97927 Volume (L) = 0.04884 - Viscosity (mPa s) = 0.28655 + Viscosity (mPa s) = 0.28656 Activity of water = 0.984 Ionic strength (mol/kgw) = 6.760e-04 Mass of water (kg) = 4.591e-02 @@ -3963,7 +3963,7 @@ Mtg(g) 2.21 1.606e+02 0.918 0.000e+00 6.996e+00 6.996e+00 Specific Conductance (µS/cm, 102°C) = 436 Density (g/cm³) = 0.97847 Volume (L) = 0.04909 - Viscosity (mPa s) = 0.28654 + Viscosity (mPa s) = 0.28655 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.476e-04 Mass of water (kg) = 4.626e-02 @@ -4065,7 +4065,7 @@ Mtg(g) 2.26 1.837e+02 0.906 0.000e+00 7.995e+00 7.995e+00 Specific Conductance (µS/cm, 102°C) = 418 Density (g/cm³) = 0.97767 Volume (L) = 0.04929 - Viscosity (mPa s) = 0.28654 + Viscosity (mPa s) = 0.28655 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.176e-04 Mass of water (kg) = 4.657e-02 @@ -4167,7 +4167,7 @@ Mtg(g) 2.32 2.068e+02 0.896 0.000e+00 8.995e+00 8.995e+00 Specific Conductance (µS/cm, 102°C) = 398 Density (g/cm³) = 0.97687 Volume (L) = 0.04945 - Viscosity (mPa s) = 0.28654 + Viscosity (mPa s) = 0.28655 Activity of water = 0.987 Ionic strength (mol/kgw) = 5.856e-04 Mass of water (kg) = 4.684e-02 @@ -4269,7 +4269,7 @@ Mtg(g) 2.36 2.299e+02 0.887 0.000e+00 9.994e+00 9.994e+00 Specific Conductance (µS/cm, 102°C) = 377 Density (g/cm³) = 0.97607 Volume (L) = 0.04959 - Viscosity (mPa s) = 0.28653 + Viscosity (mPa s) = 0.28654 Activity of water = 0.988 Ionic strength (mol/kgw) = 5.511e-04 Mass of water (kg) = 4.709e-02 @@ -4397,7 +4397,7 @@ Mtg(g) 1.49 3.074e+01 1.063 0.000e+00 1.199e+00 1.199e+00 Specific Conductance (µS/cm, 102°C) = 556 Density (g/cm³) = 0.98818 Volume (L) = 0.04595 - Viscosity (mPa s) = 0.28907 + Viscosity (mPa s) = 0.28908 Activity of water = 0.977 Ionic strength (mol/kgw) = 8.608e-04 Mass of water (kg) = 4.264e-02 @@ -4499,7 +4499,7 @@ Mtg(g) 1.79 6.162e+01 1.031 0.000e+00 2.399e+00 2.399e+00 Specific Conductance (µS/cm, 102°C) = 541 Density (g/cm³) = 0.98711 Volume (L) = 0.04668 - Viscosity (mPa s) = 0.28907 + Viscosity (mPa s) = 0.28908 Activity of water = 0.978 Ionic strength (mol/kgw) = 8.324e-04 Mass of water (kg) = 4.347e-02 @@ -4601,7 +4601,7 @@ Mtg(g) 1.97 9.261e+01 1.004 0.000e+00 3.598e+00 3.598e+00 Specific Conductance (µS/cm, 102°C) = 526 Density (g/cm³) = 0.98608 Volume (L) = 0.04729 - Viscosity (mPa s) = 0.28907 + Viscosity (mPa s) = 0.28908 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.033e-04 Mass of water (kg) = 4.418e-02 @@ -4703,7 +4703,7 @@ Mtg(g) 2.09 1.237e+02 0.980 0.000e+00 4.797e+00 4.797e+00 Specific Conductance (µS/cm, 102°C) = 510 Density (g/cm³) = 0.98508 Volume (L) = 0.04781 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.28907 Activity of water = 0.981 Ionic strength (mol/kgw) = 7.735e-04 Mass of water (kg) = 4.480e-02 @@ -4805,7 +4805,7 @@ Mtg(g) 2.19 1.548e+02 0.960 0.000e+00 5.996e+00 5.996e+00 Specific Conductance (µS/cm, 102°C) = 492 Density (g/cm³) = 0.98410 Volume (L) = 0.04823 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.28907 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.426e-04 Mass of water (kg) = 4.534e-02 @@ -4907,7 +4907,7 @@ Mtg(g) 2.27 1.860e+02 0.943 0.000e+00 7.196e+00 7.196e+00 Specific Conductance (µS/cm, 102°C) = 474 Density (g/cm³) = 0.98314 Volume (L) = 0.04859 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.28907 Activity of water = 0.984 Ionic strength (mol/kgw) = 7.103e-04 Mass of water (kg) = 4.581e-02 @@ -5009,7 +5009,7 @@ Mtg(g) 2.34 2.172e+02 0.928 0.000e+00 8.395e+00 8.395e+00 Specific Conductance (µS/cm, 102°C) = 454 Density (g/cm³) = 0.98218 Volume (L) = 0.04888 - Viscosity (mPa s) = 0.28906 + Viscosity (mPa s) = 0.28907 Activity of water = 0.985 Ionic strength (mol/kgw) = 6.761e-04 Mass of water (kg) = 4.622e-02 @@ -5111,7 +5111,7 @@ Mtg(g) 2.40 2.485e+02 0.916 0.000e+00 9.594e+00 9.594e+00 Specific Conductance (µS/cm, 102°C) = 432 Density (g/cm³) = 0.98123 Volume (L) = 0.04911 - Viscosity (mPa s) = 0.28905 + Viscosity (mPa s) = 0.28906 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.396e-04 Mass of water (kg) = 4.658e-02 @@ -5213,7 +5213,7 @@ Mtg(g) 2.45 2.797e+02 0.905 0.000e+00 1.079e+01 1.079e+01 Specific Conductance (µS/cm, 102°C) = 408 Density (g/cm³) = 0.98028 Volume (L) = 0.04931 - Viscosity (mPa s) = 0.28905 + Viscosity (mPa s) = 0.28906 Activity of water = 0.987 Ionic strength (mol/kgw) = 6.003e-04 Mass of water (kg) = 4.690e-02 @@ -5315,7 +5315,7 @@ Mtg(g) 2.49 3.110e+02 0.897 0.000e+00 1.199e+01 1.199e+01 Specific Conductance (µS/cm, 102°C) = 381 Density (g/cm³) = 0.97933 Volume (L) = 0.04946 - Viscosity (mPa s) = 0.28905 + Viscosity (mPa s) = 0.28906 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.573e-04 Mass of water (kg) = 4.719e-02 diff --git a/mytest/ternary_101.sel b/mytest/ternary_101.sel index e96478b2..180d7abd 100644 --- a/mytest/ternary_101.sel +++ b/mytest/ternary_101.sel @@ -1,52 +1,52 @@ Mu SC - 0.000547168350 372.5297811015 - 0.000534719193 364.9763017758 - 0.000516160605 353.6629759061 - 0.000497012699 341.8325532332 - 0.000477158385 329.4045013439 - 0.000456466811 316.2866610181 - 0.000434785319 302.3697389256 - 0.000411928742 287.5197495502 - 0.000387663809 271.5668133087 - 0.000361684619 254.2874085055 - 0.000333571146 235.3742476786 - 0.000657631318 438.0784449309 - 0.000637887083 426.9237251631 - 0.000617750253 415.3476648214 - 0.000597053949 403.2481411518 - 0.000575636727 390.5207584366 - 0.000553333194 377.0536602405 - 0.000529964255 362.7215827834 - 0.000505325786 347.3784179745 - 0.000479173931 330.8470686006 - 0.000451203985 312.9044843410 - 0.000739495954 485.8449476206 - 0.000718546222 474.5015992508 - 0.000697297791 462.7695548677 - 0.000675584219 450.5531257105 - 0.000653236982 437.7492911305 - 0.000630080639 424.2450703749 - 0.000605926618 409.9137512635 - 0.000580565005 394.6095482244 - 0.000553753279 378.1599368639 - 0.000525200145 360.3543237875 - 0.000803626541 523.2521226818 - 0.000779293948 510.4178875366 - 0.000754582362 497.0796108938 - 0.000729284483 483.1200625199 - 0.000703182821 468.4075079647 - 0.000676042583 452.7915048385 - 0.000647602259 436.0968324596 - 0.000617560475 418.1145752306 - 0.000585556756 398.5886653372 - 0.000551141854 377.1947837327 - 0.000860845410 556.6371526841 - 0.000832361075 541.9011313088 - 0.000803349787 526.4814881079 - 0.000773533468 510.2211068144 - 0.000742612650 492.9375725966 - 0.000710253604 474.4151972404 - 0.000676070702 454.3932348074 - 0.000639600492 432.5478571489 - 0.000600261138 408.4633567161 - 0.000557284550 381.5834796565 + 0.000547168350 372.5093367607 + 0.000534719193 364.9565013568 + 0.000516160605 353.6441254672 + 0.000497012699 341.8146748319 + 0.000477158385 329.3876209034 + 0.000456466811 316.2708084678 + 0.000434785319 302.3549485499 + 0.000411928742 287.5060605775 + 0.000387663809 271.5542708188 + 0.000361684619 254.2760648018 + 0.000333571146 235.3641644073 + 0.000657631318 438.0521602421 + 0.000637887083 426.8984976544 + 0.000617750253 415.3235122999 + 0.000597053949 403.2250888138 + 0.000575636727 390.4988382030 + 0.000553333194 377.0329104556 + 0.000529964255 362.7020482442 + 0.000505325786 347.3601502939 + 0.000479173931 330.8301269467 + 0.000451203985 312.8889366592 + 0.000739495954 485.8141234104 + 0.000718546222 474.4719247834 + 0.000697297791 462.7410458005 + 0.000675584219 450.5258054028 + 0.000653236982 437.7231905076 + 0.000630080639 424.2202279230 + 0.000605926618 409.8902131943 + 0.000580565005 394.5873688586 + 0.000553753279 378.1391793008 + 0.000525200145 360.3350609625 + 0.000803626541 523.2176082344 + 0.000779293948 510.3847340837 + 0.000754582362 497.0478406528 + 0.000729284483 483.0897073098 + 0.000703182821 468.3786094573 + 0.000676042583 452.7641149903 + 0.000647602259 436.0710141820 + 0.000617560475 418.0904033900 + 0.000585556756 398.5662282239 + 0.000551141854 377.1741852273 + 0.000860845410 556.5992492680 + 0.000832361075 541.8648480504 + 0.000803349787 526.4468581494 + 0.000773533468 510.1881761930 + 0.000742612650 492.9064009670 + 0.000710253604 474.3858589381 + 0.000676070702 454.3658203722 + 0.000639600492 432.5224755056 + 0.000600261138 408.4401383478 + 0.000557284550 381.5625813749 diff --git a/mytest/tn_KBr.out b/mytest/tn_KBr.out index b2cad48d..e2076233 100644 --- a/mytest/tn_KBr.out +++ b/mytest/tn_KBr.out @@ -580,7 +580,7 @@ Using temperature 1. Specific Conductance (µS/cm, 55°C) = 24 Density (g/cm³) = 0.98570 Volume (L) = 1.01452 - Viscosity (mPa s) = 0.50365 + Viscosity (mPa s) = 0.50366 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.003e-04 Mass of water (kg) = 1.000e+00 diff --git a/mytest/tn_KBr_101.sel b/mytest/tn_KBr_101.sel index 25ce90be..348d4703 100644 --- a/mytest/tn_KBr_101.sel +++ b/mytest/tn_KBr_101.sel @@ -1,10 +1,10 @@ Mu SC - 0.000100101771 15.0831308860 - 0.000100034323 8.0716072229 - 0.000100043658 9.3875094334 - 0.000100068121 12.1604805154 - 0.000100077172 13.0234381457 - 0.000100101772 15.0831308856 - 0.000100146311 18.1169119001 - 0.000100203266 21.2275419710 - 0.000100273871 24.3824061393 + 0.000100101771 15.0831308940 + 0.000100034323 8.0716183757 + 0.000100043658 9.3875202051 + 0.000100068121 12.1604880227 + 0.000100077172 13.0234438979 + 0.000100101772 15.0831308936 + 0.000100146311 18.1168990542 + 0.000100203266 21.2275097488 + 0.000100273871 24.3823468135 diff --git a/mytest/transport.dl.out b/mytest/transport.dl.out index 9f834b55..ccef0854 100644 --- a/mytest/transport.dl.out +++ b/mytest/transport.dl.out @@ -738,7 +738,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91361 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1087,7 +1087,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.92890 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1436,7 +1436,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.93641 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -1785,7 +1785,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91706 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2134,7 +2134,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.90817 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2488,7 +2488,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91267 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -2837,7 +2837,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91489 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -3186,7 +3186,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91780 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -3535,7 +3535,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.93260 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -3884,7 +3884,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.93745 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -4238,7 +4238,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91269 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -4587,7 +4587,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91390 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -4936,7 +4936,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91475 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -5285,7 +5285,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91594 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -5634,7 +5634,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91875 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -5988,7 +5988,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91335 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -6337,7 +6337,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91329 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -6686,7 +6686,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91458 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -7035,7 +7035,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91446 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -7384,7 +7384,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91516 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -7738,7 +7738,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91341 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -8087,7 +8087,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91324 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -8436,7 +8436,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91600 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -8785,7 +8785,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91622 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) @@ -9134,7 +9134,7 @@ Surf 3.900e+04 m² for 6.500e+01 g Water in diffuse layer: 3.900e-02 kg, 100.0% of total DDL-water. - viscosity: 0.91517 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Total moles in diffuse layer (excluding water) diff --git a/mytest/transport.dl_101.sel b/mytest/transport.dl_101.sel index 3622366d..58b930a4 100644 --- a/mytest/transport.dl_101.sel +++ b/mytest/transport.dl_101.sel @@ -1,128 +1,128 @@ Mu SC - 0.208365983949 11289.9820991617 - 0.006051493731 441.8364648484 - 0.099853200052 6069.8699145660 - 0.004835314485 361.6665457970 - 0.004835314485 361.6665457970 - 0.004835314485 361.6665457970 - 0.004835314485 361.6665457971 - 0.136247478778 7895.0412033688 - 0.062608289017 4041.9112827130 - 0.004835314485 361.6665458004 - 0.004835314485 361.6665458004 - 0.004835314485 361.6665458005 - 0.182617898706 10177.0592350842 - 0.100591221585 6101.9762213698 - 0.052339368853 3439.3556184862 - 0.004835314485 361.6665458004 - 0.004835314485 361.6665458005 - 0.196563622913 10809.2256362303 - 0.123613634394 7260.0264156003 - 0.067073735099 4283.9388024143 - 0.049835819566 3281.9823911585 - 0.004835314485 361.6665458005 - 0.206413052449 11268.0123689291 - 0.158270754708 8997.4038569163 - 0.098395795658 5963.0837577417 - 0.054885477653 3562.1045761182 - 0.048290512610 3182.3755023082 - 0.200033139390 10961.5276321569 - 0.185083983998 10304.5404639913 - 0.119126926914 7049.0421325418 - 0.070497769561 4437.5724131113 - 0.053539038281 3470.8718666057 - 0.191539519920 10561.0184146981 - 0.184947469487 10281.0109643822 - 0.125756114490 7368.0892895332 - 0.097225165253 5918.9390832948 - 0.056794101711 3607.8159437452 - 0.189297015123 10455.4341245055 - 0.184303844221 10237.0272509645 - 0.178978112287 10021.9697919149 - 0.116288688195 6913.6372833477 - 0.071917084451 4528.1422813775 - 0.188717375034 10428.0339965821 - 0.183931968214 10211.5649564638 - 0.183220007378 10213.3822639442 - 0.125111594583 7340.7550024135 - 0.096842044819 5910.4012819975 - 0.188559521661 10420.2467882743 - 0.183831720937 10203.9733330872 - 0.182925657369 10185.5726576351 - 0.137280570405 7952.8579841443 - 0.115601013900 6880.2658956149 - 0.188510406747 10417.4127942187 - 0.183834700197 10203.4655467645 - 0.182813032688 10169.6625365163 - 0.183567626640 10244.7454050204 - 0.120288614386 7110.8223227928 - 0.188491174573 10415.8873382438 - 0.183856013321 10203.9810114594 - 0.182793736441 10161.0815436853 - 0.183114472096 10206.1900927634 - 0.126545181467 7411.7768389130 - 0.188481154880 10414.7357110329 - 0.183870635946 10203.6763282223 - 0.182818869189 10157.3694243636 - 0.182856244467 10182.1447319801 - 0.153941505906 8788.1388250479 - 0.188919581632 10435.6463017927 - 0.183877738883 10202.5871988914 - 0.182866309714 10156.7743101162 - 0.182761509808 10168.2524746429 - 0.183484810388 10236.8252286772 - 0.190335108984 10504.5695061947 - 0.183795989624 10195.3623753615 - 0.182919383599 10157.6173239499 - 0.182718096705 10158.5878679833 - 0.183159701493 10206.5985323481 - 0.195339813693 10749.1413593742 - 0.183069427292 10131.4669833686 - 0.182884510007 10153.7642025278 - 0.182703744715 10152.1850045027 - 0.182922485838 10184.7562707911 - 0.201019267882 11025.0745770965 - 0.182476869687 10017.4105342810 - 0.182427511984 10117.1991131274 - 0.182642703039 10144.6944973236 - 0.182813000856 10170.7440322243 - 0.202732771686 11106.4380528792 - 0.187705525901 10262.0369787980 - 0.181185734658 10011.9347972316 - 0.182352037169 10122.2767473851 - 0.182682651545 10156.5441623976 - 0.203062858529 11119.9035355956 - 0.194496914958 10607.7145129638 - 0.180862803351 9972.7148235427 - 0.181613675361 10063.5816264898 - 0.182400547912 10134.3297361126 - 0.203145795630 11120.6432419654 - 0.199682248124 10867.5794837614 - 0.181375684478 10003.5864364034 - 0.181277152129 10024.5702474787 - 0.181867348359 10094.6621500148 - 0.203208291923 11119.1691527700 - 0.202353893685 11003.0570016587 - 0.182243294943 10058.2438607709 - 0.181338708284 10019.2194426447 - 0.181663448425 10067.7131026117 - 0.203305459924 11117.1861922949 - 0.203366706570 11059.1309176072 - 0.183503242045 10127.0944430265 - 0.181472501031 10030.0941725702 - 0.181664285909 10054.1826568468 - 0.203494138443 11115.2917790260 - 0.203478330665 11073.1998282289 - 0.185001043920 10202.1900229833 - 0.181636311823 10047.5011889230 - 0.181671927167 10049.2200126755 - 0.203913392469 11115.3674591561 - 0.202927874839 11056.3181798138 - 0.186487219540 10275.3276461551 - 0.181820960459 10064.9527674513 - 0.181738454461 10055.0439940109 - 0.204742574931 11122.4520004984 - 0.201296229396 10986.4617826791 - 0.187783053904 10342.4508290291 - 0.182060650839 10081.7580277303 - 0.181831291480 10066.5660093451 + 0.208365983949 11289.9824653931 + 0.006051493731 441.8364706970 + 0.099853200052 6069.8701630234 + 0.004835314485 361.6665498218 + 0.004835314485 361.6665498217 + 0.004835314485 361.6665498218 + 0.004835314485 361.6665498218 + 0.136247478778 7895.0414756997 + 0.062608289017 4041.9114328332 + 0.004835314485 361.6665498252 + 0.004835314485 361.6665498252 + 0.004835314485 361.6665498253 + 0.182617898706 10177.0595311524 + 0.100591221585 6101.9764659328 + 0.052339368853 3439.3557363148 + 0.004835314485 361.6665498252 + 0.004835314485 361.6665498252 + 0.196563622913 10809.2259435360 + 0.123613634394 7260.0266903939 + 0.067073735099 4283.9389689492 + 0.049835819566 3281.9825008667 + 0.004835314485 361.6665498252 + 0.206413052449 11268.0126864808 + 0.158270754708 8997.4041393366 + 0.098395795658 5963.0839901257 + 0.054885477653 3562.1047104401 + 0.048290512610 3182.3756073296 + 0.200033139390 10961.5279449755 + 0.185083983998 10304.5407629360 + 0.119126926914 7049.0424048714 + 0.070497769561 4437.5725889905 + 0.053539038281 3470.8719964694 + 0.191539519920 10561.0187210325 + 0.184947469487 10281.0112631700 + 0.125756114490 7368.0895634688 + 0.097225165253 5918.9393172713 + 0.056794101711 3607.8160886732 + 0.189297015123 10455.4344289534 + 0.184303844221 10237.0275498701 + 0.178978112287 10021.9700881445 + 0.116288688195 6913.6375549830 + 0.071917084451 4528.1424630963 + 0.188717375034 10428.0343004975 + 0.183931968214 10211.5652549847 + 0.183220007378 10213.3825636416 + 0.125111594583 7340.7552784805 + 0.096842044819 5910.4015189959 + 0.188559521661 10420.2470920022 + 0.183831720937 10203.9736315486 + 0.182925657369 10185.5729565441 + 0.137280570405 7952.8582609697 + 0.115601013900 6880.2661673317 + 0.188510406747 10417.4130978460 + 0.183834700197 10203.4658453244 + 0.182813032688 10169.6628347532 + 0.183567626640 10244.7457061694 + 0.120288614386 7110.8225984179 + 0.188491174573 10415.8876417928 + 0.183856013321 10203.9813100914 + 0.182793736441 10161.0818414618 + 0.183114472096 10206.1903927542 + 0.126545181467 7411.7771161372 + 0.188481154880 10414.7360145092 + 0.183870635946 10203.6766268475 + 0.182818869189 10157.3697218926 + 0.182856244467 10182.1450310017 + 0.153941505906 8788.1391083877 + 0.188919581632 10435.6466054401 + 0.183877738883 10202.5874974487 + 0.182866309714 10156.7746075552 + 0.182761509808 10168.2527729741 + 0.183484810388 10236.8255298022 + 0.190335108984 10504.5698110519 + 0.183795989624 10195.3626732007 + 0.182919383599 10157.6176213784 + 0.182718096705 10158.5881657756 + 0.183159701493 10206.5988323308 + 0.195339813693 10749.1416696114 + 0.183069427292 10131.4672773307 + 0.182884510007 10153.7644994343 + 0.182703744715 10152.1853019099 + 0.182922485838 10184.7565698723 + 0.201019267882 11025.0748932314 + 0.182476869687 10017.4108203242 + 0.182427511984 10117.1994077221 + 0.182642703039 10144.6947940257 + 0.182813000856 10170.7443306188 + 0.202732771686 11106.4383709721 + 0.187705525901 10262.0372697306 + 0.181185734658 10011.9350865853 + 0.182352037169 10122.2770425083 + 0.182682651545 10156.5444597840 + 0.203062858529 11119.9038543177 + 0.194496914958 10607.7148122830 + 0.180862803351 9972.7151104824 + 0.181613675361 10063.5819187426 + 0.182400547912 10134.3300319543 + 0.203145795630 11120.6435611529 + 0.199682248124 10867.5797892666 + 0.181375684478 10003.5867242041 + 0.181277152129 10024.5705373816 + 0.181867348359 10094.6624439605 + 0.203208291923 11119.1694725379 + 0.202353893685 11003.0573105998 + 0.182243294943 10058.2441502619 + 0.181338708284 10019.2197318922 + 0.181663448425 10067.7133948120 + 0.203305459924 11117.1865129168 + 0.203366706570 11059.1312283861 + 0.183503242045 10127.0947342186 + 0.181472501031 10030.0944622173 + 0.181664285909 10054.1829479412 + 0.203494138443 11115.2921010633 + 0.203478330665 11073.2001401175 + 0.185001043920 10202.1903157336 + 0.181636311823 10047.5014793584 + 0.181671927167 10049.2203033244 + 0.203913392469 11115.3677838083 + 0.202927874839 11056.3184923572 + 0.186487219540 10275.3279404071 + 0.181820960459 10064.9530585879 + 0.181738454461 10055.0442848760 + 0.204742574931 11122.4523294152 + 0.201296229396 10986.4620949682 + 0.187783053904 10342.4511249244 + 0.182060650839 10081.7583193509 + 0.181831291480 10066.5663007658 diff --git a/mytest/transport.out b/mytest/transport.out index d8b76b86..a5f02a0a 100644 --- a/mytest/transport.out +++ b/mytest/transport.out @@ -2697,7 +2697,7 @@ Surf Specific Conductance (µS/cm, 25°C) = 10171 Density (g/cm³) = 1.00836 Volume (L) = 1.00371 - Viscosity (mPa s) = 0.91429 + Viscosity (mPa s) = 0.91428 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.835e-01 Mass of water (kg) = 9.999e-01 @@ -3025,7 +3025,7 @@ Surf Specific Conductance (µS/cm, 25°C) = 9954 Density (g/cm³) = 1.00829 Volume (L) = 1.00356 - Viscosity (mPa s) = 0.91574 + Viscosity (mPa s) = 0.91573 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.809e-01 Mass of water (kg) = 9.998e-01 @@ -3353,7 +3353,7 @@ Surf Specific Conductance (µS/cm, 25°C) = 7698 Density (g/cm³) = 1.00554 Volume (L) = 1.00177 - Viscosity (mPa s) = 0.92817 + Viscosity (mPa s) = 0.92816 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.370e-01 Mass of water (kg) = 9.975e-01 diff --git a/mytest/transport_101.sel b/mytest/transport_101.sel index bfc4cd72..553a2231 100644 --- a/mytest/transport_101.sel +++ b/mytest/transport_101.sel @@ -1,128 +1,128 @@ Mu SC - 0.208365983949 11289.9820991617 - 0.006051493731 441.8364648484 - 0.122609889963 8139.3768130937 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.141398205452 8247.4995884374 - 0.115414945214 8404.5537119449 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.182997368778 10062.5694264960 - 0.118998515729 7432.3287889884 - 0.116866353467 8821.1813862398 - 0.004964530950 381.7536747088 - 0.004964530950 381.7536747088 - 0.214266683657 12023.5789642756 - 0.128450266967 7468.6349656862 - 0.108979472718 7392.5701713844 - 0.118575178066 9013.5557321638 - 0.004964530950 381.7536747088 - 0.208172442826 11622.0645805699 - 0.166650194206 9663.7766386514 - 0.119865373200 7211.9400566772 - 0.104344223778 7642.3770923424 - 0.119063433181 9049.9142103855 - 0.191231680750 10543.0316082460 - 0.188773190153 10594.7787590715 - 0.126309954180 7657.6186524995 - 0.111881068313 7110.3470008841 - 0.106775369191 8100.6555601881 - 0.189180507009 10457.8956281399 - 0.182185569408 10006.2908687476 - 0.130163384185 7726.2226230175 - 0.118978142452 7341.9844363329 - 0.103270751357 7086.6623191039 - 0.188827547114 10444.7561257667 - 0.182571769869 10071.9780635313 - 0.175024830946 9448.0949413445 - 0.122765541908 7390.8949441800 - 0.113362127492 7195.3858258896 - 0.188756214189 10441.5276854231 - 0.183111930093 10132.6397148074 - 0.179620537734 9812.3343177757 - 0.125654101597 7064.2621798148 - 0.116686896622 7128.4550349701 - 0.188737885943 10440.0176321251 - 0.183494293478 10171.6436061667 - 0.180865728435 9954.4669643412 - 0.137044598448 7698.3640299866 - 0.119917431336 6835.5188071984 - 0.188730657052 10438.8203106691 - 0.183735276866 10194.8274929700 - 0.181642193669 10032.6473153452 - 0.177964990929 9579.6917636247 - 0.121777276241 6946.8639350771 - 0.191713714001 10710.8146845867 - 0.183884348943 10208.2195909925 - 0.182171579337 10082.8569177945 - 0.179851725978 9848.1146497663 - 0.126558652661 7084.5558148627 - 0.195983946812 11068.9364198294 - 0.186524247504 10471.8723521608 - 0.182548870393 10117.5053498723 - 0.180908957306 9964.1047115671 - 0.152188681108 8406.7251734266 - 0.197302315566 11081.2685929089 - 0.189650488050 10770.5613800736 - 0.185359575241 10400.0409714959 - 0.181543765301 10027.4410336120 - 0.178438097173 9651.7291830705 - 0.199430334196 11099.0654628644 - 0.188361702402 10636.4662444511 - 0.188916136344 10744.5318520784 - 0.184484139774 10325.7237784033 - 0.180085425014 9872.6960183643 - 0.201235194932 11115.5960108272 - 0.191268774579 10740.8094500731 - 0.188450284595 10702.0110595358 - 0.188343656686 10699.7774579728 - 0.183365535898 10220.5357865809 - 0.202199030014 11125.1427906828 - 0.197707486531 11001.2571377341 - 0.188128899673 10670.3219860815 - 0.188507146133 10713.7329501526 - 0.187467475583 10623.2749827370 - 0.202591618306 11129.2549732797 - 0.201125023096 11062.4617522210 - 0.187933663444 10641.1449710214 - 0.188529575591 10715.5556316359 - 0.188044328526 10674.8563884143 - 0.202723591566 11130.7501096578 - 0.203042670252 11110.1429711154 - 0.187714661485 10578.3586005673 - 0.188397001168 10704.7711768898 - 0.188425026312 10708.5278692001 - 0.202759045826 11131.2369859417 - 0.203869254793 11151.6287390140 - 0.188193555806 10538.3663487352 - 0.187893283436 10661.4202494006 - 0.188599613293 10724.2295487211 - 0.202777186157 11131.4894207731 - 0.204087454498 11194.5805397138 - 0.189343354626 10551.0679300130 - 0.187122476080 10587.0437590558 - 0.188509476282 10718.0128924085 - 0.202841236552 11132.0545963084 - 0.203800846177 11242.9546732772 - 0.190778630078 10612.6919330770 - 0.186545340572 10517.2467457095 - 0.188090628762 10683.1754511435 - 0.203059542035 11133.7011247906 - 0.202746202404 11299.2677648758 - 0.192280626850 10719.8750988222 - 0.186480962944 10486.1565868854 - 0.187447852524 10625.5253625905 - 0.203612904275 11137.3670330603 - 0.195680753343 10922.3311670878 - 0.197787544891 11108.0475849139 - 0.186953814905 10507.3761976097 - 0.186901041022 10571.9082273904 - 0.204523785223 11142.4807546035 - 0.190494392541 10564.6502316663 - 0.196161104455 10928.4388974409 - 0.188325013300 10629.9204590341 - 0.186743897792 10551.8329918805 + 0.208365983949 11289.9824653931 + 0.006051493731 441.8364706970 + 0.122609889963 8139.3770446202 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.141398205452 8247.4998603269 + 0.115414945214 8404.5538888745 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.182997368778 10062.5697241874 + 0.118998515729 7432.3290393654 + 0.116866353467 8821.1815395106 + 0.004964530950 381.7536785147 + 0.004964530950 381.7536785147 + 0.214266683657 12023.5792853538 + 0.128450266967 7468.6352425733 + 0.108979472718 7392.5703816828 + 0.118575178066 9013.5558818550 + 0.004964530950 381.7536785147 + 0.208172442826 11622.0648976342 + 0.166650194206 9663.7769191298 + 0.119865373200 7211.9403221635 + 0.104344223778 7642.3772583983 + 0.119063433181 9049.9143600173 + 0.191231680750 10543.0319144674 + 0.188773190153 10594.7790585491 + 0.126309954180 7657.6189123703 + 0.111881068313 7110.3472437518 + 0.106775369191 8100.6557077546 + 0.189180507009 10457.8959322950 + 0.182185569408 10006.2911680232 + 0.130163384185 7726.2228894008 + 0.118978142452 7341.9846913648 + 0.103270751357 7086.6625200604 + 0.188827547114 10444.7564294561 + 0.182571769869 10071.9783617471 + 0.175024830946 9448.0952441444 + 0.122765541908 7390.8952069514 + 0.113362127492 7195.3860719706 + 0.188756214189 10441.5279889454 + 0.183111930093 10132.6400129198 + 0.179620537734 9812.3346178948 + 0.125654101597 7064.2624727731 + 0.116686896622 7128.4552942504 + 0.188737885943 10440.0179355348 + 0.183494293478 10171.6439043735 + 0.180865728435 9954.4672623818 + 0.137044598448 7698.3643155526 + 0.119917431336 6835.5190977956 + 0.188730657052 10438.8206139752 + 0.183735276866 10194.8277911705 + 0.181642193669 10032.6476125963 + 0.177964990929 9579.6920681580 + 0.121777276241 6946.8642224806 + 0.191713714001 10710.8149884442 + 0.183884348943 10208.2198890836 + 0.182171579337 10082.8572148098 + 0.179851725978 9848.1149492234 + 0.126558652661 7084.5561092848 + 0.195983946812 11068.9367257346 + 0.186524247504 10471.8726494091 + 0.182548870393 10117.5056468576 + 0.180908957306 9964.1050092988 + 0.152188681108 8406.7254638315 + 0.197302315566 11081.2689013005 + 0.189650488050 10770.5616747387 + 0.185359575241 10400.0412677617 + 0.181543765301 10027.4413305347 + 0.178438097173 9651.7294861022 + 0.199430334196 11099.0657749163 + 0.188361702402 10636.4665328491 + 0.188916136344 10744.5321470863 + 0.184484139774 10325.7240741466 + 0.180085425014 9872.6963173979 + 0.201235194932 11115.5963259541 + 0.191268774579 10740.8097386697 + 0.188450284595 10702.0113511445 + 0.188343656686 10699.7777530702 + 0.183365535898 10220.5360828770 + 0.202199030014 11125.1431075618 + 0.197707486531 11001.2574348757 + 0.188128899673 10670.3222747717 + 0.188507146133 10713.7332436163 + 0.187467475583 10623.2752779023 + 0.202591618306 11129.2552910551 + 0.201125023096 11062.4620551813 + 0.187933663444 10641.1452588348 + 0.188529575591 10715.5559230989 + 0.188044328526 10674.8566826362 + 0.202723591566 11130.7504279878 + 0.203042670252 11110.1432776837 + 0.187714661485 10578.3588893107 + 0.188397001168 10704.7714671334 + 0.188425026312 10708.5281621224 + 0.202759045826 11131.2373047795 + 0.203869254793 11151.6290476637 + 0.188193555806 10538.3666388946 + 0.187893283436 10661.4205396215 + 0.188599613293 10724.2298405579 + 0.202777186157 11131.4897402614 + 0.204087454498 11194.5808497084 + 0.189343354626 10551.0682216862 + 0.187122476080 10587.0440495512 + 0.188509476282 10718.0131839929 + 0.202841236552 11132.0549168060 + 0.203800846177 11242.9549840110 + 0.190778630078 10612.6922264879 + 0.186545340572 10517.2470363400 + 0.188090628762 10683.1757430361 + 0.203059542035 11133.7014470172 + 0.202746202404 11299.2680751570 + 0.192280626850 10719.8753945372 + 0.186480962944 10486.1568774864 + 0.187447852524 10625.5256547956 + 0.203612904275 11137.3673581720 + 0.195680753343 10922.3314724754 + 0.197787544891 11108.0478871793 + 0.186953814905 10507.3764881373 + 0.186901041022 10571.9085196582 + 0.204523785223 11142.4810834274 + 0.190494392541 10564.6505343679 + 0.196161104455 10928.4392014576 + 0.188325013300 10629.9207490073 + 0.186743897792 10551.8332839173 diff --git a/mytest/uphill_NP.out b/mytest/uphill_NP.out index b80371a5..3eb4104e 100644 --- a/mytest/uphill_NP.out +++ b/mytest/uphill_NP.out @@ -1517,6 +1517,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.887e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.320e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 6 @@ -1712,7 +1713,7 @@ Fix_Na -3.95 -3.95 0.00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -6.730e-05 Temperature (°C) = 25.00 - Electrical balance (eq) = 1.992e-14 + Electrical balance (eq) = 1.993e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 Total H = 1.110125e+02 @@ -1805,6 +1806,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -8.494e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 3.200e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -1991,6 +1993,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.778e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -4.566e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -2084,6 +2087,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.926e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.049e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -2177,6 +2181,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.973e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -3.866e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 1 @@ -2561,6 +2566,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -1.274e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 9.743e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 5 @@ -2654,6 +2660,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -3.431e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 7.030e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2756,6 +2763,7 @@ Fix_Na -3.95 -3.95 0.00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -5.093e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 1.384e-12 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 3 @@ -2849,6 +2857,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -7.066e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = 8.493e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 2 @@ -3035,6 +3044,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.199e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -1.274e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 @@ -3128,6 +3138,7 @@ NH3 0.00e+00 0.00e+00 Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.631e-05 Temperature (°C) = 25.00 + Pressure (atm) = 1.00 Electrical balance (eq) = -2.615e-13 Percent error, 100*(Cat-|An|)/(Cat+|An|) = -0.00 Iterations = 2 diff --git a/mytest/uphill_NP_101.sel b/mytest/uphill_NP_101.sel index 4fde5db0..302961d7 100644 --- a/mytest/uphill_NP_101.sel +++ b/mytest/uphill_NP_101.sel @@ -1,73 +1,73 @@ Mu SC - 0.000101010220 12.8904393498 - 0.000199996770 54.0785516255 - 0.000199997255 49.9068033019 - 0.000199877276 49.8570860586 - 0.000101009541 12.8901574807 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199877276 49.8570860586 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000101009541 12.8901574819 - 0.000121445237 20.6355207822 - 0.000157246575 33.9161737557 - 0.000181250594 42.1379791082 - 0.000193500621 48.8324759875 - 0.000198212677 52.0466559535 - 0.000199552696 53.3668649481 - 0.000199825358 53.8379272712 - 0.000199862785 53.9812578904 - 0.000199865856 54.0166209964 - 0.000199865960 54.0231653873 - 0.000101009541 12.8901574819 - 0.000115506934 18.1034547336 - 0.000142631353 27.7457452557 - 0.000164801565 35.3202452506 - 0.000180623784 43.0627492269 - 0.000190477917 48.1862893739 - 0.000195821575 51.2020812552 - 0.000198337921 52.7864670082 - 0.000199363130 53.5313295115 - 0.000199721925 53.8430545475 - 0.000199824116 53.9502921786 - 0.000199996770 54.0785516255 - 0.000199997255 49.9068033019 - 0.000101009541 12.8901574819 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199877276 49.8570860586 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000101009541 12.8901574819 - 0.000127737788 20.3783315983 - 0.000164885387 34.8375490334 - 0.000189414397 45.4978496587 - 0.000195576218 50.5394009982 - 0.000197850040 52.7364140837 - 0.000199117066 53.6121466647 - 0.000199653218 53.9142657646 - 0.000199818738 54.0003219350 - 0.000199857670 54.0200165789 - 0.000199864688 54.0235363469 - 0.000101009541 12.8901574819 - 0.000120168889 18.1652139800 - 0.000151827297 28.9921529900 - 0.000173107507 38.7102196775 - 0.000186147781 45.5909248952 - 0.000192875936 49.8767784525 - 0.000196584300 52.2020445096 - 0.000198500923 53.3042770673 - 0.000199362805 53.7665836377 - 0.000199697722 53.9392840611 - 0.000199804314 53.9932680540 + 0.000101010220 12.8904393660 + 0.000199996770 54.0785517894 + 0.000199997255 49.9068034535 + 0.000199877276 49.8570862100 + 0.000101009541 12.8901574969 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199877276 49.8570862100 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000101009541 12.8901574981 + 0.000121445237 20.6355208234 + 0.000157246575 33.9161738435 + 0.000181250594 42.1379792285 + 0.000193500621 48.8324761337 + 0.000198212677 52.0466561110 + 0.000199552696 53.3668651098 + 0.000199825358 53.8379274344 + 0.000199862785 53.9812580540 + 0.000199865856 54.0166211601 + 0.000199865960 54.0231655510 + 0.000101009541 12.8901574981 + 0.000115506934 18.1034547660 + 0.000142631353 27.7457453182 + 0.000164801565 35.3202453404 + 0.000180623784 43.0627493477 + 0.000190477917 48.1862895172 + 0.000195821575 51.2020814111 + 0.000198337921 52.7864671703 + 0.000199363130 53.5313296745 + 0.000199721925 53.8430547115 + 0.000199824116 53.9502923421 + 0.000199996770 54.0785517894 + 0.000199997255 49.9068034535 + 0.000101009541 12.8901574981 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199877276 49.8570862100 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000101009541 12.8901574981 + 0.000127737788 20.3783316369 + 0.000164885387 34.8375491256 + 0.000189414397 45.4978497926 + 0.000195576218 50.5394011502 + 0.000197850040 52.7364142429 + 0.000199117066 53.6121468270 + 0.000199653218 53.9142659278 + 0.000199818738 54.0003220986 + 0.000199857670 54.0200167425 + 0.000199864688 54.0235365106 + 0.000101009541 12.8901574981 + 0.000120168889 18.1652140116 + 0.000151827297 28.9921530597 + 0.000173107507 38.7102197846 + 0.000186147781 45.5909250285 + 0.000192875936 49.8767786014 + 0.000196584300 52.2020446667 + 0.000198500923 53.3042772284 + 0.000199362805 53.7665838005 + 0.000199697722 53.9392842245 + 0.000199804314 53.9932682175 diff --git a/mytest/uphill_NPa.out b/mytest/uphill_NPa.out index 65dcd566..d7dce9ec 100644 --- a/mytest/uphill_NPa.out +++ b/mytest/uphill_NPa.out @@ -3856,7 +3856,7 @@ Mixture 10. Total alkalinity (eq/kg) = -9.987e-05 Temperature (°C) = 25.00 Electrical Potential (Volt) = 0.00 - Electrical balance (eq) = 6.844e-14 + Electrical balance (eq) = 6.581e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 Total H = 1.110125e+02 @@ -3879,7 +3879,7 @@ N(-3) 0.000e+00 NH4+ 0.000e+00 0.000e+00 -51.526 -51.533 -0.007 17.87 NH3 0.000e+00 0.000e+00 -56.769 -56.769 0.000 24.42 N(0) 1.309e-07 - N2 6.543e-08 6.543e-08 -7.184 -7.184 0.000 29.29 + N2 6.545e-08 6.545e-08 -7.184 -7.184 0.000 29.29 N(3) 8.369e-16 NO2- 8.369e-16 8.233e-16 -15.077 -15.084 -0.007 24.95 N(5) 9.987e-05 @@ -3887,7 +3887,7 @@ N(5) 9.987e-05 Na 1.000e-04 Na+ 1.000e-04 9.839e-05 -4.000 -4.007 -0.007 -1.50 O(0) 3.270e-07 - O2 1.635e-07 1.635e-07 -6.786 -6.786 0.000 30.40 + O2 1.635e-07 1.635e-07 -6.787 -6.787 0.000 30.40 ------------------------------Saturation indices------------------------------- @@ -3926,7 +3926,7 @@ Using solution 11. Solution after simulation 3. Mass of water (kg) = 1.000e+00 Total alkalinity (eq/kg) = -9.987e-05 Temperature (°C) = 25.00 - Electrical balance (eq) = 6.833e-14 + Electrical balance (eq) = 6.580e-14 Percent error, 100*(Cat-|An|)/(Cat+|An|) = 0.00 Iterations = 1 Total H = 1.110125e+02 @@ -3948,16 +3948,16 @@ H(0) 0.000e+00 N(-3) 0.000e+00 NH4+ 0.000e+00 0.000e+00 -51.526 -51.533 -0.007 17.87 NH3 0.000e+00 0.000e+00 -56.770 -56.770 0.000 24.42 -N(0) 1.308e-07 - N2 6.539e-08 6.539e-08 -7.184 -7.184 0.000 29.29 -N(3) 8.368e-16 - NO2- 8.368e-16 8.232e-16 -15.077 -15.084 -0.007 24.95 +N(0) 1.307e-07 + N2 6.537e-08 6.537e-08 -7.185 -7.185 0.000 29.29 +N(3) 8.367e-16 + NO2- 8.367e-16 8.231e-16 -15.077 -15.085 -0.007 24.95 N(5) 9.987e-05 NO3- 9.987e-05 9.825e-05 -4.001 -4.008 -0.007 29.47 Na 1.000e-04 Na+ 1.000e-04 9.839e-05 -4.000 -4.007 -0.007 -1.50 O(0) 3.271e-07 - O2 1.635e-07 1.635e-07 -6.786 -6.786 0.000 30.40 + O2 1.636e-07 1.636e-07 -6.786 -6.786 0.000 30.40 ------------------------------Saturation indices------------------------------- diff --git a/mytest/uphill_NPa_101.sel b/mytest/uphill_NPa_101.sel index d6edeef6..dbbba699 100644 --- a/mytest/uphill_NPa_101.sel +++ b/mytest/uphill_NPa_101.sel @@ -1,54 +1,54 @@ Mu SC - 0.000101010220 12.8904393498 - 0.000199996770 54.0785516255 - 0.000101009541 12.8901574807 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000101009541 12.8901574819 - 0.000115238248 16.9437150010 - 0.000140565087 25.4567495339 - 0.000160011545 33.6178976604 - 0.000174331450 40.6797199476 - 0.000184647300 46.1092100570 - 0.000191592257 49.7757660856 - 0.000195788473 51.9543189791 - 0.000198035546 53.1020854391 - 0.000199093914 53.6369495791 - 0.000199494550 53.8383080967 - 0.000199865957 54.0241714979 - 0.000101010220 12.8904393498 - 0.000199996770 54.0785516255 - 0.000199996770 54.0785516255 - 0.000101009541 12.8901574811 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000199865957 54.0241714934 - 0.000101011668 12.8911788257 - 0.000116921696 17.4288811490 - 0.000144348327 26.9002278000 - 0.000164516700 35.7646663490 - 0.000178841548 43.0481577614 - 0.000188559270 48.1832169081 - 0.000194443380 51.2605586221 - 0.000197487496 52.8240088967 - 0.000198706239 53.4423816347 - 0.000199865958 54.0241714979 - 0.000199865997 54.0241985441 - 0.000199865923 54.0241465922 + 0.000101010220 12.8904393660 + 0.000199996770 54.0785517894 + 0.000101009541 12.8901574969 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000101009541 12.8901574981 + 0.000115238248 16.9437150276 + 0.000140565087 25.4567495913 + 0.000160011545 33.6178977474 + 0.000174331450 40.6797200623 + 0.000184647300 46.1092101914 + 0.000191592257 49.7757662329 + 0.000195788473 51.9543191352 + 0.000198035546 53.1020855994 + 0.000199093914 53.6369497414 + 0.000199494550 53.8383082597 + 0.000199865957 54.0241716615 + 0.000101010220 12.8904393660 + 0.000199996770 54.0785517894 + 0.000199996770 54.0785517894 + 0.000101009541 12.8901574973 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000199865957 54.0241716571 + 0.000101011668 12.8911788420 + 0.000116921696 17.4288811786 + 0.000144348327 26.9002278622 + 0.000164516700 35.7646664446 + 0.000178841548 43.0481578846 + 0.000188559270 48.1832170503 + 0.000194443380 51.2605587753 + 0.000197487496 52.8240090529 + 0.000198706239 53.4423817973 + 0.000199865958 54.0241716616 + 0.000199865717 54.0240570049 + 0.000199866203 54.0242882421 diff --git a/mytest/user_print_101.sel b/mytest/user_print_101.sel index 354f176a..086b524e 100644 --- a/mytest/user_print_101.sel +++ b/mytest/user_print_101.sel @@ -1,7 +1,7 @@ Mu SC 0.000000100661 0.0546997340 - 0.250000133625 24765.3564679868 - 0.750000144583 66025.8297964774 - 1.500000152289 117089.9151689541 - 2.500000158035 169255.6035200313 + 0.250000133625 24765.3579139667 + 0.750000144583 66025.8361900090 + 1.500000152289 117089.9300947942 + 2.500000158035 169255.6285617110 0.000000100661 0.0546997340 diff --git a/mytest/v_TP_K2SO4.out b/mytest/v_TP_K2SO4.out index 02e457ec..1785473f 100644 --- a/mytest/v_TP_K2SO4.out +++ b/mytest/v_TP_K2SO4.out @@ -230,10 +230,10 @@ Reaction 1. pH = 7.041 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 40°C) = 18668 + Specific Conductance (µS/cm, 40°C) = 18665 Density (g/cm³) = 1.00100 Volume (L) = 1.01045 - Viscosity (mPa s) = 0.65795 + Viscosity (mPa s) = 0.65812 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -306,10 +306,10 @@ Reaction 1. pH = 6.944 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 21607 + Specific Conductance (µS/cm, 50°C) = 21601 Density (g/cm³) = 0.99687 Volume (L) = 1.01465 - Viscosity (mPa s) = 0.55524 + Viscosity (mPa s) = 0.55549 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -382,10 +382,10 @@ Reaction 1. pH = 6.760 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 29325 + Specific Conductance (µS/cm, 75°C) = 29308 Density (g/cm³) = 0.98346 Volume (L) = 1.02847 - Viscosity (mPa s) = 0.38420 + Viscosity (mPa s) = 0.38458 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -458,10 +458,10 @@ Reaction 1. pH = 6.649 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 104°C) = 37707 + Specific Conductance (µS/cm, 104°C) = 37668 Density (g/cm³) = 0.96463 Volume (L) = 1.04855 - Viscosity (mPa s) = 0.27851 + Viscosity (mPa s) = 0.27899 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -535,10 +535,10 @@ Reaction 1. pH = 6.617 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 125°C) = 43829 + Specific Conductance (µS/cm, 125°C) = 43764 Density (g/cm³) = 0.94759 Volume (L) = 1.06741 - Viscosity (mPa s) = 0.22750 + Viscosity (mPa s) = 0.22804 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -612,10 +612,10 @@ Reaction 1. pH = 6.626 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 151°C) = 50468 + Specific Conductance (µS/cm, 151°C) = 50361 Density (g/cm³) = 0.92541 Volume (L) = 1.09300 - Viscosity (mPa s) = 0.18724 + Viscosity (mPa s) = 0.18786 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -689,10 +689,10 @@ Reaction 1. pH = 6.670 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 174°C) = 56293 + Specific Conductance (µS/cm, 174°C) = 56135 Density (g/cm³) = 0.90240 Volume (L) = 1.12086 - Viscosity (mPa s) = 0.16101 + Viscosity (mPa s) = 0.16170 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -766,10 +766,10 @@ Reaction 1. pH = 6.746 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 199°C) = 60581 + Specific Conductance (µS/cm, 199°C) = 60368 Density (g/cm³) = 0.87561 Volume (L) = 1.15516 - Viscosity (mPa s) = 0.14606 + Viscosity (mPa s) = 0.14682 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.974e-01 Mass of water (kg) = 1.000e+00 @@ -949,10 +949,10 @@ Reaction 1. pH = 7.173 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 38°C) = 48430 + Specific Conductance (µS/cm, 38°C) = 48420 Density (g/cm³) = 1.02018 Volume (L) = 1.01532 - Viscosity (mPa s) = 0.69931 + Viscosity (mPa s) = 0.69958 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1025,10 +1025,10 @@ Reaction 1. pH = 7.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 57262 + Specific Conductance (µS/cm, 50°C) = 57238 Density (g/cm³) = 1.01521 Volume (L) = 1.02030 - Viscosity (mPa s) = 0.57299 + Viscosity (mPa s) = 0.57342 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1101,10 +1101,10 @@ Reaction 1. pH = 6.881 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 76°C) = 77337 + Specific Conductance (µS/cm, 76°C) = 77263 Density (g/cm³) = 1.00131 Volume (L) = 1.03446 - Viscosity (mPa s) = 0.39623 + Viscosity (mPa s) = 0.39690 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1177,10 +1177,10 @@ Reaction 1. pH = 6.807 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 92°C) = 90317 + Specific Conductance (µS/cm, 92°C) = 90193 Density (g/cm³) = 0.99068 Volume (L) = 1.04556 - Viscosity (mPa s) = 0.32658 + Viscosity (mPa s) = 0.32736 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1253,10 +1253,10 @@ Reaction 1. pH = 6.738 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 124°C) = 115855 + Specific Conductance (µS/cm, 124°C) = 115581 Density (g/cm³) = 0.96736 Volume (L) = 1.07076 - Viscosity (mPa s) = 0.24207 + Viscosity (mPa s) = 0.24302 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1330,10 +1330,10 @@ Reaction 1. pH = 6.739 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 152°C) = 141723 + Specific Conductance (µS/cm, 152°C) = 141212 Density (g/cm³) = 0.94232 Volume (L) = 1.09921 - Viscosity (mPa s) = 0.19460 + Viscosity (mPa s) = 0.19569 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1407,10 +1407,10 @@ Reaction 1. pH = 6.774 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 163538 + Specific Conductance (µS/cm, 175°C) = 162748 Density (g/cm³) = 0.92003 Volume (L) = 1.12584 - Viscosity (mPa s) = 0.16877 + Viscosity (mPa s) = 0.16998 Activity of water = 0.993 Ionic strength (mol/kgw) = 6.165e-01 Mass of water (kg) = 1.000e+00 @@ -1590,10 +1590,10 @@ Reaction 1. pH = 7.205 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 69446 + Specific Conductance (µS/cm, 39°C) = 69427 Density (g/cm³) = 1.03258 Volume (L) = 1.01992 - Viscosity (mPa s) = 0.70026 + Viscosity (mPa s) = 0.70061 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -1666,10 +1666,10 @@ Reaction 1. pH = 7.105 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 80724 + Specific Conductance (µS/cm, 50°C) = 80684 Density (g/cm³) = 1.02789 Volume (L) = 1.02458 - Viscosity (mPa s) = 0.58478 + Viscosity (mPa s) = 0.58531 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -1742,10 +1742,10 @@ Reaction 1. pH = 6.930 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 107888 + Specific Conductance (µS/cm, 75°C) = 107770 Density (g/cm³) = 1.01431 Volume (L) = 1.03829 - Viscosity (mPa s) = 0.40982 + Viscosity (mPa s) = 0.41063 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -1818,10 +1818,10 @@ Reaction 1. pH = 6.851 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 93°C) = 127661 + Specific Conductance (µS/cm, 93°C) = 127454 Density (g/cm³) = 1.00291 Volume (L) = 1.05009 - Viscosity (mPa s) = 0.33377 + Viscosity (mPa s) = 0.33473 Activity of water = 0.989 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -1894,10 +1894,10 @@ Reaction 1. pH = 6.782 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 124°C) = 165707 + Specific Conductance (µS/cm, 124°C) = 165240 Density (g/cm³) = 0.97947 Volume (L) = 1.07522 - Viscosity (mPa s) = 0.24824 + Viscosity (mPa s) = 0.24940 Activity of water = 0.989 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -1971,10 +1971,10 @@ Reaction 1. pH = 6.778 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 202123 + Specific Conductance (µS/cm, 150°C) = 201280 Density (g/cm³) = 0.95672 Volume (L) = 1.10079 - Viscosity (mPa s) = 0.20356 + Viscosity (mPa s) = 0.20488 Activity of water = 0.989 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -2048,10 +2048,10 @@ Reaction 1. pH = 6.811 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 175°C) = 238778 + Specific Conductance (µS/cm, 175°C) = 237400 Density (g/cm³) = 0.93254 Volume (L) = 1.12933 - Viscosity (mPa s) = 0.17428 + Viscosity (mPa s) = 0.17577 Activity of water = 0.990 Ionic strength (mol/kgw) = 9.150e-01 Mass of water (kg) = 1.000e+00 @@ -2232,10 +2232,10 @@ Reaction 1. pH = 7.241 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 39°C) = 89306 + Specific Conductance (µS/cm, 39°C) = 89280 Density (g/cm³) = 1.04552 Volume (L) = 1.02430 - Viscosity (mPa s) = 0.71705 + Viscosity (mPa s) = 0.71744 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2308,10 +2308,10 @@ Reaction 1. pH = 7.137 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 104333 + Specific Conductance (µS/cm, 50°C) = 104275 Density (g/cm³) = 1.04052 Volume (L) = 1.02922 - Viscosity (mPa s) = 0.59506 + Viscosity (mPa s) = 0.59567 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2384,10 +2384,10 @@ Reaction 1. pH = 6.966 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 75°C) = 138654 + Specific Conductance (µS/cm, 75°C) = 138483 Density (g/cm³) = 1.02702 Volume (L) = 1.04275 - Viscosity (mPa s) = 0.42059 + Viscosity (mPa s) = 0.42153 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2460,10 +2460,10 @@ Reaction 1. pH = 6.866 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 99°C) = 174537 + Specific Conductance (µS/cm, 99°C) = 174176 Density (g/cm³) = 1.01093 Volume (L) = 1.05935 - Viscosity (mPa s) = 0.32024 + Viscosity (mPa s) = 0.32140 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2536,10 +2536,10 @@ Reaction 1. pH = 6.817 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 123°C) = 213727 + Specific Conductance (µS/cm, 123°C) = 213059 Density (g/cm³) = 0.99283 Volume (L) = 1.07865 - Viscosity (mPa s) = 0.25759 + Viscosity (mPa s) = 0.25893 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2613,10 +2613,10 @@ Reaction 1. pH = 6.810 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 149°C) = 261749 + Specific Conductance (µS/cm, 149°C) = 260542 Density (g/cm³) = 0.97073 Volume (L) = 1.10322 - Viscosity (mPa s) = 0.21213 + Viscosity (mPa s) = 0.21366 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2690,10 +2690,10 @@ Reaction 1. pH = 6.837 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 174°C) = 310421 + Specific Conductance (µS/cm, 174°C) = 308442 Density (g/cm³) = 0.94689 Volume (L) = 1.13099 - Viscosity (mPa s) = 0.18165 + Viscosity (mPa s) = 0.18335 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 @@ -2767,10 +2767,10 @@ Reaction 1. pH = 6.889 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 198°C) = 351886 + Specific Conductance (µS/cm, 198°C) = 348968 Density (g/cm³) = 0.92153 Volume (L) = 1.16211 - Viscosity (mPa s) = 0.16121 + Viscosity (mPa s) = 0.16309 Activity of water = 0.987 Ionic strength (mol/kgw) = 1.221e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/v_TP_K2SO4_101.sel b/mytest/v_TP_K2SO4_101.sel index ecadb561..5808d0fa 100644 --- a/mytest/v_TP_K2SO4_101.sel +++ b/mytest/v_TP_K2SO4_101.sel @@ -1,36 +1,36 @@ Mu SC Viscosity 0.000000100644 0.0547821166 0.8900243330 - 0.197399953734 14144.0177148621 0.9003657417 - 0.197399842056 18668.5503335192 0.6579504666 - 0.197399705810 21607.1218280062 0.5552408481 - 0.197398908247 29325.4831265161 0.3841993565 - 0.197396584215 37707.6864099374 0.2785079917 - 0.197392902022 43829.5999029187 0.2274979816 - 0.197385361591 50468.2985579841 0.1872388693 - 0.197373876454 56293.7799186452 0.1610096102 - 0.197355811602 60581.9208584770 0.1460597219 - 0.616499871796 38284.8837516595 0.9178330964 - 0.616499701285 48430.7705834363 0.6993092386 - 0.616499437858 57262.6556032241 0.5729910462 - 0.616498130916 77337.0627903151 0.3962289522 - 0.616496420745 90317.0374763942 0.3265802777 - 0.616489816126 115855.5719988311 0.2420706602 - 0.616477263366 141723.4500110998 0.1945962887 - 0.616460631204 163538.4990499844 0.1687667628 - 0.914999839183 54410.1522257518 0.9306207898 - 0.914999618574 69446.1019738295 0.7002559889 - 0.914999329995 80724.1777784533 0.5847847241 - 0.914997888739 107888.5806060204 0.4098196725 - 0.914995799257 127661.0702015376 0.3337700123 - 0.914988161542 165707.8450964521 0.2482393686 - 0.914975375996 202123.7843071232 0.2035570636 - 0.914955117142 238778.8526039816 0.1742835785 - 1.220999812643 70554.6430226799 0.9443644184 - 1.220999571892 89306.8393908547 0.7170451819 - 1.220999235937 104333.6245810946 0.5950610107 - 1.220997662133 138654.0876185454 0.4205890501 - 1.220994131022 174537.0654740986 0.3202404578 - 1.220987334464 213727.6704562525 0.2575949308 - 1.220974013279 261749.2485591270 0.2121335334 - 1.220952635925 310421.2492670274 0.1816483328 - 1.220921910983 351886.3110090775 0.1612081229 + 0.197399953734 14144.0187338533 0.9003656272 + 0.197399842056 18665.7444373188 0.6581221660 + 0.197399705810 21601.5534051779 0.5554868785 + 0.197398908247 29308.2870495112 0.3845777703 + 0.197396584215 37668.1088124670 0.2789868659 + 0.197392902022 43764.2404368762 0.2280423871 + 0.197385361591 50361.8283874077 0.1878558031 + 0.197373876454 56135.7642348390 0.1616953972 + 0.197355811602 60368.3121071281 0.1468219833 + 0.616499871796 38284.8882982809 0.9178328940 + 0.616499701285 48420.4682614629 0.6995826252 + 0.616499437858 57238.8657755970 0.5734246454 + 0.616498130916 77263.3497336082 0.3969013759 + 0.616496420745 90193.3349490787 0.3273618394 + 0.616489816126 115581.4698504658 0.2430230410 + 0.616477263366 141212.8777830306 0.1956947038 + 0.616460631204 162748.1096134593 0.1699839783 + 0.914999839183 54410.1599150546 0.9306205432 + 0.914999618574 69427.3964134981 0.7006066370 + 0.914999329995 80684.6813273669 0.5853129660 + 0.914997888739 107770.1175415656 0.4106325944 + 0.914995799257 127454.0041829943 0.3347258429 + 0.914988161542 165240.4974321685 0.2494033793 + 0.914975375996 201280.3380847019 0.2048834636 + 0.914955117142 237400.7599610172 0.1757677637 + 1.220999812643 70554.6543487852 0.9443641335 + 1.220999571892 89280.2640973161 0.7174435277 + 1.220999235937 104275.6383275177 0.5956745819 + 1.220997662133 138483.8054642525 0.4215270757 + 1.220994131022 174176.2569876852 0.3213989894 + 1.220987334464 213059.0288467302 0.2589330734 + 1.220974013279 260542.6540984125 0.2136550427 + 1.220952635925 308442.5000583098 0.1833501399 + 1.220921910983 348968.1369557843 0.1630932846 diff --git a/mytest/v_TP_MgSO4.out b/mytest/v_TP_MgSO4.out index 4bb39aba..13405c0d 100644 --- a/mytest/v_TP_MgSO4.out +++ b/mytest/v_TP_MgSO4.out @@ -152,10 +152,10 @@ Initial solution 2. pH = 6.721 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 11560 + Specific Conductance (µS/cm, 35°C) = 11556 Density (g/cm³) = 1.00445 Volume (L) = 1.00576 - Viscosity (mPa s) = 0.78061 + Viscosity (mPa s) = 0.78085 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -214,10 +214,10 @@ Initial solution 3. pH = 6.532 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 14853 + Specific Conductance (µS/cm, 50°C) = 14841 Density (g/cm³) = 0.99839 Volume (L) = 1.01186 - Viscosity (mPa s) = 0.59182 + Viscosity (mPa s) = 0.59230 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -276,10 +276,10 @@ Initial solution 4. pH = 6.281 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 20577 + Specific Conductance (µS/cm, 75°C) = 20539 Density (g/cm³) = 0.98509 Volume (L) = 1.02552 - Viscosity (mPa s) = 0.40677 + Viscosity (mPa s) = 0.40749 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -338,10 +338,10 @@ Initial solution 5. pH = 6.116 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 25666 + Specific Conductance (µS/cm, 97°C) = 25593 Density (g/cm³) = 0.97070 Volume (L) = 1.04072 - Viscosity (mPa s) = 0.31268 + Viscosity (mPa s) = 0.31354 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -463,10 +463,10 @@ Initial solution 7. pH = 6.707 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 12212 + Specific Conductance (µS/cm, 35°C) = 12208 Density (g/cm³) = 1.00850 Volume (L) = 1.00171 - Viscosity (mPa s) = 0.78089 + Viscosity (mPa s) = 0.78113 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -526,10 +526,10 @@ Initial solution 8. pH = 6.518 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 15312 + Specific Conductance (µS/cm, 50°C) = 15299 Density (g/cm³) = 1.00245 Volume (L) = 1.00777 - Viscosity (mPa s) = 0.59372 + Viscosity (mPa s) = 0.59420 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -589,10 +589,10 @@ Initial solution 9. pH = 6.266 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 20559 + Specific Conductance (µS/cm, 75°C) = 20522 Density (g/cm³) = 0.98933 Volume (L) = 1.02113 - Viscosity (mPa s) = 0.40950 + Viscosity (mPa s) = 0.41022 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -652,10 +652,10 @@ Initial solution 10. pH = 6.100 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 25077 + Specific Conductance (µS/cm, 97°C) = 25006 Density (g/cm³) = 0.97522 Volume (L) = 1.03591 - Viscosity (mPa s) = 0.31554 + Viscosity (mPa s) = 0.31640 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -715,10 +715,10 @@ Initial solution 11. pH = 5.954 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 124°C) = 30512 + Specific Conductance (µS/cm, 124°C) = 30383 Density (g/cm³) = 0.95534 Volume (L) = 1.05746 - Viscosity (mPa s) = 0.24453 + Viscosity (mPa s) = 0.24553 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -778,10 +778,10 @@ Initial solution 12. pH = 5.854 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 36337 + Specific Conductance (µS/cm, 150°C) = 36128 Density (g/cm³) = 0.93354 Volume (L) = 1.08215 - Viscosity (mPa s) = 0.20059 + Viscosity (mPa s) = 0.20172 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.399e-01 Mass of water (kg) = 1.000e+00 @@ -841,10 +841,10 @@ Initial solution 13. pH = 5.783 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 175°C) = 43887 + Specific Conductance (µS/cm, 175°C) = 43558 Density (g/cm³) = 0.90909 Volume (L) = 1.11126 - Viscosity (mPa s) = 0.17057 + Viscosity (mPa s) = 0.17183 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.398e-01 Mass of water (kg) = 1.000e+00 @@ -967,10 +967,10 @@ Initial solution 15. pH = 6.680 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 13368 + Specific Conductance (µS/cm, 35°C) = 13364 Density (g/cm³) = 1.01656 Volume (L) = 0.99378 - Viscosity (mPa s) = 0.78210 + Viscosity (mPa s) = 0.78234 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -1030,10 +1030,10 @@ Initial solution 16. pH = 6.489 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 16144 + Specific Conductance (µS/cm, 50°C) = 16131 Density (g/cm³) = 1.01045 Volume (L) = 0.99978 - Viscosity (mPa s) = 0.59783 + Viscosity (mPa s) = 0.59831 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -1093,10 +1093,10 @@ Initial solution 17. pH = 6.235 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 20520 + Specific Conductance (µS/cm, 75°C) = 20483 Density (g/cm³) = 0.99757 Volume (L) = 1.01270 - Viscosity (mPa s) = 0.41499 + Viscosity (mPa s) = 0.41572 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -1156,10 +1156,10 @@ Initial solution 18. pH = 6.067 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 24004 + Specific Conductance (µS/cm, 97°C) = 23936 Density (g/cm³) = 0.98389 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.32117 + Viscosity (mPa s) = 0.32205 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -1219,10 +1219,10 @@ Initial solution 19. pH = 5.918 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 124°C) = 27839 + Specific Conductance (µS/cm, 124°C) = 27722 Density (g/cm³) = 0.96476 Volume (L) = 1.04713 - Viscosity (mPa s) = 0.25000 + Viscosity (mPa s) = 0.25102 Activity of water = 0.998 Ionic strength (mol/kgw) = 3.400e-01 Mass of water (kg) = 1.000e+00 @@ -1282,10 +1282,10 @@ Initial solution 20. pH = 5.816 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 150°C) = 31594 + Specific Conductance (µS/cm, 150°C) = 31412 Density (g/cm³) = 0.94391 Volume (L) = 1.07027 - Viscosity (mPa s) = 0.20582 + Viscosity (mPa s) = 0.20697 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.399e-01 Mass of water (kg) = 1.000e+00 @@ -1345,10 +1345,10 @@ Initial solution 21. pH = 5.743 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 175°C) = 36610 + Specific Conductance (µS/cm, 175°C) = 36337 Density (g/cm³) = 0.92069 Volume (L) = 1.09725 - Viscosity (mPa s) = 0.17550 + Viscosity (mPa s) = 0.17677 Activity of water = 0.999 Ionic strength (mol/kgw) = 3.398e-01 Mass of water (kg) = 1.000e+00 @@ -1520,10 +1520,10 @@ Initial solution 44. pH = 6.557 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 34983 + Specific Conductance (µS/cm, 35°C) = 34964 Density (g/cm³) = 1.04561 Volume (L) = 1.00669 - Viscosity (mPa s) = 1.01266 + Viscosity (mPa s) = 1.01320 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1582,10 +1582,10 @@ Initial solution 45. pH = 6.380 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 44565 + Specific Conductance (µS/cm, 50°C) = 44500 Density (g/cm³) = 1.03938 Volume (L) = 1.01272 - Viscosity (mPa s) = 0.76171 + Viscosity (mPa s) = 0.76279 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1644,10 +1644,10 @@ Initial solution 46. pH = 6.143 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 62399 + Specific Conductance (µS/cm, 75°C) = 62198 Density (g/cm³) = 1.02625 Volume (L) = 1.02568 - Viscosity (mPa s) = 0.51980 + Viscosity (mPa s) = 0.52143 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1706,10 +1706,10 @@ Initial solution 47. pH = 5.972 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 84185 + Specific Conductance (µS/cm, 99°C) = 83749 Density (g/cm³) = 1.01100 Volume (L) = 1.04115 - Viscosity (mPa s) = 0.39028 + Viscosity (mPa s) = 0.39225 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1831,10 +1831,10 @@ Initial solution 49. pH = 6.544 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 38493 + Specific Conductance (µS/cm, 35°C) = 38472 Density (g/cm³) = 1.04909 Volume (L) = 1.00335 - Viscosity (mPa s) = 1.01138 + Viscosity (mPa s) = 1.01192 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1894,10 +1894,10 @@ Initial solution 50. pH = 6.366 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 46748 + Specific Conductance (µS/cm, 50°C) = 46679 Density (g/cm³) = 1.04308 Volume (L) = 1.00913 - Viscosity (mPa s) = 0.76346 + Viscosity (mPa s) = 0.76454 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -1957,10 +1957,10 @@ Initial solution 51. pH = 6.129 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 61142 + Specific Conductance (µS/cm, 75°C) = 60945 Density (g/cm³) = 1.03036 Volume (L) = 1.02159 - Viscosity (mPa s) = 0.52318 + Viscosity (mPa s) = 0.52481 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2020,10 +2020,10 @@ Initial solution 52. pH = 5.958 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 78327 + Specific Conductance (µS/cm, 99°C) = 77922 Density (g/cm³) = 1.01554 Volume (L) = 1.03649 - Viscosity (mPa s) = 0.39399 + Viscosity (mPa s) = 0.39597 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2083,10 +2083,10 @@ Initial solution 53. pH = 5.815 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 126°C) = 108941 + Specific Conductance (µS/cm, 126°C) = 108102 Density (g/cm³) = 0.99590 Volume (L) = 1.05694 - Viscosity (mPa s) = 0.30473 + Viscosity (mPa s) = 0.30703 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2146,10 +2146,10 @@ Initial solution 54. pH = 5.716 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 151°C) = 156457 + Specific Conductance (µS/cm, 151°C) = 154824 Density (g/cm³) = 0.97465 Volume (L) = 1.07998 - Viscosity (mPa s) = 0.25046 + Viscosity (mPa s) = 0.25303 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2209,10 +2209,10 @@ Initial solution 55. pH = 5.650 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 174°C) = 214360 + Specific Conductance (µS/cm, 174°C) = 211522 Density (g/cm³) = 0.95292 Volume (L) = 1.10461 - Viscosity (mPa s) = 0.21584 + Viscosity (mPa s) = 0.21867 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2335,10 +2335,10 @@ Initial solution 57. pH = 6.521 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 44464 + Specific Conductance (µS/cm, 35°C) = 44439 Density (g/cm³) = 1.05607 Volume (L) = 0.99672 - Viscosity (mPa s) = 1.00994 + Viscosity (mPa s) = 1.01048 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2398,10 +2398,10 @@ Initial solution 58. pH = 6.341 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 50643 + Specific Conductance (µS/cm, 50°C) = 50569 Density (g/cm³) = 1.05043 Volume (L) = 1.00207 - Viscosity (mPa s) = 0.76745 + Viscosity (mPa s) = 0.76853 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2461,10 +2461,10 @@ Initial solution 59. pH = 6.100 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 58645 + Specific Conductance (µS/cm, 75°C) = 58457 Density (g/cm³) = 1.03838 Volume (L) = 1.01370 - Viscosity (mPa s) = 0.53000 + Viscosity (mPa s) = 0.53165 Activity of water = 0.992 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2524,10 +2524,10 @@ Initial solution 60. pH = 5.927 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 99°C) = 67040 + Specific Conductance (µS/cm, 99°C) = 66694 Density (g/cm³) = 1.02430 Volume (L) = 1.02763 - Viscosity (mPa s) = 0.40132 + Viscosity (mPa s) = 0.40333 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2587,10 +2587,10 @@ Initial solution 61. pH = 5.782 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 126°C) = 84291 + Specific Conductance (µS/cm, 126°C) = 83643 Density (g/cm³) = 1.00561 Volume (L) = 1.04673 - Viscosity (mPa s) = 0.31200 + Viscosity (mPa s) = 0.31433 Activity of water = 0.993 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2650,10 +2650,10 @@ Initial solution 62. pH = 5.681 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 151°C) = 118467 + Specific Conductance (µS/cm, 151°C) = 117237 Density (g/cm³) = 0.98542 Volume (L) = 1.06818 - Viscosity (mPa s) = 0.25753 + Viscosity (mPa s) = 0.26015 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2713,10 +2713,10 @@ Initial solution 63. pH = 5.614 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 174°C) = 171840 + Specific Conductance (µS/cm, 174°C) = 169584 Density (g/cm³) = 0.96486 Volume (L) = 1.09094 - Viscosity (mPa s) = 0.22274 + Viscosity (mPa s) = 0.22563 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.748e+00 Mass of water (kg) = 1.000e+00 @@ -2886,10 +2886,10 @@ Initial solution 84. pH = 6.395 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 59430 + Specific Conductance (µS/cm, 35°C) = 59395 Density (g/cm³) = 1.09911 Volume (L) = 1.01090 - Viscosity (mPa s) = 1.35345 + Viscosity (mPa s) = 1.35424 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -2948,10 +2948,10 @@ Initial solution 85. pH = 6.229 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 76537 + Specific Conductance (µS/cm, 50°C) = 76414 Density (g/cm³) = 1.09280 Volume (L) = 1.01675 - Viscosity (mPa s) = 1.00937 + Viscosity (mPa s) = 1.01094 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3010,10 +3010,10 @@ Initial solution 86. pH = 6.002 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 76°C) = 111346 + Specific Conductance (µS/cm, 76°C) = 110944 Density (g/cm³) = 1.07961 Volume (L) = 1.02917 - Viscosity (mPa s) = 0.67580 + Viscosity (mPa s) = 0.67818 Activity of water = 0.985 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3072,10 +3072,10 @@ Initial solution 87. pH = 5.856 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 152240 + Specific Conductance (µS/cm, 97°C) = 151385 Density (g/cm³) = 1.06611 Volume (L) = 1.04220 - Viscosity (mPa s) = 0.51627 + Viscosity (mPa s) = 0.51911 Activity of water = 0.986 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3197,10 +3197,10 @@ Initial solution 89. pH = 6.383 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 64440 + Specific Conductance (µS/cm, 35°C) = 64402 Density (g/cm³) = 1.10175 Volume (L) = 1.00849 - Viscosity (mPa s) = 1.35003 + Viscosity (mPa s) = 1.35081 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3260,10 +3260,10 @@ Initial solution 90. pH = 6.217 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 79394 + Specific Conductance (µS/cm, 50°C) = 79267 Density (g/cm³) = 1.09599 Volume (L) = 1.01379 - Viscosity (mPa s) = 1.01102 + Viscosity (mPa s) = 1.01259 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3323,10 +3323,10 @@ Initial solution 91. pH = 5.989 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 76°C) = 108009 + Specific Conductance (µS/cm, 76°C) = 107619 Density (g/cm³) = 1.08359 Volume (L) = 1.02539 - Viscosity (mPa s) = 0.68026 + Viscosity (mPa s) = 0.68265 Activity of water = 0.985 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3386,10 +3386,10 @@ Initial solution 92. pH = 5.842 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 141685 + Specific Conductance (µS/cm, 97°C) = 140891 Density (g/cm³) = 1.07070 Volume (L) = 1.03774 - Viscosity (mPa s) = 0.52132 + Viscosity (mPa s) = 0.52417 Activity of water = 0.986 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3449,10 +3449,10 @@ Initial solution 93. pH = 5.710 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 123°C) = 205965 + Specific Conductance (µS/cm, 123°C) = 204248 Density (g/cm³) = 1.05248 Volume (L) = 1.05570 - Viscosity (mPa s) = 0.40271 + Viscosity (mPa s) = 0.40601 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3512,10 +3512,10 @@ Initial solution 94. pH = 5.613 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 149°C) = 303292 + Specific Conductance (µS/cm, 149°C) = 299797 Density (g/cm³) = 1.03094 Volume (L) = 1.07775 - Viscosity (mPa s) = 0.32579 + Viscosity (mPa s) = 0.32951 Activity of water = 0.989 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3638,10 +3638,10 @@ Initial solution 96. pH = 6.362 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 72769 + Specific Conductance (µS/cm, 35°C) = 72726 Density (g/cm³) = 1.10716 Volume (L) = 1.00356 - Viscosity (mPa s) = 1.34493 + Viscosity (mPa s) = 1.34571 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3701,10 +3701,10 @@ Initial solution 97. pH = 6.193 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 84430 + Specific Conductance (µS/cm, 50°C) = 84295 Density (g/cm³) = 1.10240 Volume (L) = 1.00789 - Viscosity (mPa s) = 1.01507 + Viscosity (mPa s) = 1.01664 Activity of water = 0.983 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3764,10 +3764,10 @@ Initial solution 98. pH = 5.963 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 76°C) = 101218 + Specific Conductance (µS/cm, 76°C) = 100854 Density (g/cm³) = 1.09140 Volume (L) = 1.01805 - Viscosity (mPa s) = 0.68927 + Viscosity (mPa s) = 0.69168 Activity of water = 0.984 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3827,10 +3827,10 @@ Initial solution 99. pH = 5.814 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 119732 + Specific Conductance (µS/cm, 97°C) = 119064 Density (g/cm³) = 1.07960 Volume (L) = 1.02918 - Viscosity (mPa s) = 0.53130 + Viscosity (mPa s) = 0.53419 Activity of water = 0.985 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3890,10 +3890,10 @@ Initial solution 100. pH = 5.679 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 123°C) = 162739 + Specific Conductance (µS/cm, 123°C) = 161390 Density (g/cm³) = 1.06269 Volume (L) = 1.04555 - Viscosity (mPa s) = 0.41285 + Viscosity (mPa s) = 0.41620 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -3953,10 +3953,10 @@ Initial solution 101. pH = 5.582 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 149°C) = 246384 + Specific Conductance (µS/cm, 149°C) = 243573 Density (g/cm³) = 1.04261 Volume (L) = 1.06569 - Viscosity (mPa s) = 0.33588 + Viscosity (mPa s) = 0.33966 Activity of water = 0.988 Ionic strength (mol/kgw) = 3.692e+00 Mass of water (kg) = 1.000e+00 @@ -4126,10 +4126,10 @@ Initial solution 103. pH = 6.102 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 77322 + Specific Conductance (µS/cm, 35°C) = 77284 Density (g/cm³) = 1.18958 Volume (L) = 1.02520 - Viscosity (mPa s) = 2.33157 + Viscosity (mPa s) = 2.33267 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4188,10 +4188,10 @@ Initial solution 104. pH = 5.955 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 103391 + Specific Conductance (µS/cm, 50°C) = 103253 Density (g/cm³) = 1.18346 Volume (L) = 1.03050 - Viscosity (mPa s) = 1.69378 + Viscosity (mPa s) = 1.69599 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4250,10 +4250,10 @@ Initial solution 105. pH = 5.760 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 157235 + Specific Conductance (µS/cm, 75°C) = 156751 Density (g/cm³) = 1.17174 Volume (L) = 1.04081 - Viscosity (mPa s) = 1.10590 + Viscosity (mPa s) = 1.10923 Activity of water = 0.966 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4312,10 +4312,10 @@ Initial solution 106. pH = 5.625 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 98°C) = 227251 + Specific Conductance (µS/cm, 98°C) = 226104 Density (g/cm³) = 1.15820 Volume (L) = 1.05298 - Viscosity (mPa s) = 0.80987 + Viscosity (mPa s) = 0.81389 Activity of water = 0.970 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4437,10 +4437,10 @@ Initial solution 108. pH = 6.091 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 81394 + Specific Conductance (µS/cm, 35°C) = 81355 Density (g/cm³) = 1.19051 Volume (L) = 1.02439 - Viscosity (mPa s) = 2.32225 + Viscosity (mPa s) = 2.32335 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4500,10 +4500,10 @@ Initial solution 109. pH = 5.944 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 105382 + Specific Conductance (µS/cm, 50°C) = 105242 Density (g/cm³) = 1.18566 Volume (L) = 1.02859 - Viscosity (mPa s) = 1.69539 + Viscosity (mPa s) = 1.69760 Activity of water = 0.962 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4563,10 +4563,10 @@ Initial solution 110. pH = 5.749 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 152817 + Specific Conductance (µS/cm, 75°C) = 152348 Density (g/cm³) = 1.17549 Volume (L) = 1.03749 - Viscosity (mPa s) = 1.11331 + Viscosity (mPa s) = 1.11666 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4626,10 +4626,10 @@ Initial solution 111. pH = 5.613 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 98°C) = 214841 + Specific Conductance (µS/cm, 98°C) = 213761 Density (g/cm³) = 1.16313 Volume (L) = 1.04851 - Viscosity (mPa s) = 0.81858 + Viscosity (mPa s) = 0.82262 Activity of water = 0.969 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4689,10 +4689,10 @@ Initial solution 112. pH = 5.504 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 124°C) = 316763 + Specific Conductance (µS/cm, 124°C) = 314355 Density (g/cm³) = 1.14553 Volume (L) = 1.06462 - Viscosity (mPa s) = 0.62156 + Viscosity (mPa s) = 0.62622 Activity of water = 0.974 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4752,10 +4752,10 @@ Initial solution 113. pH = 5.432 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 149°C) = 446055 + Specific Conductance (µS/cm, 149°C) = 441335 Density (g/cm³) = 1.12368 Volume (L) = 1.08533 - Viscosity (mPa s) = 0.49740 + Viscosity (mPa s) = 0.50261 Activity of water = 0.978 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4878,10 +4878,10 @@ Initial solution 115. pH = 6.071 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 88154 + Specific Conductance (µS/cm, 35°C) = 88111 Density (g/cm³) = 1.19280 Volume (L) = 1.02243 - Viscosity (mPa s) = 2.30710 + Viscosity (mPa s) = 2.30820 Activity of water = 0.960 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -4941,10 +4941,10 @@ Initial solution 116. pH = 5.922 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 108885 + Specific Conductance (µS/cm, 50°C) = 108739 Density (g/cm³) = 1.19026 Volume (L) = 1.02461 - Viscosity (mPa s) = 1.70002 + Viscosity (mPa s) = 1.70224 Activity of water = 0.961 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -5004,10 +5004,10 @@ Initial solution 117. pH = 5.724 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 143528 + Specific Conductance (µS/cm, 75°C) = 143089 Density (g/cm³) = 1.18298 Volume (L) = 1.03092 - Viscosity (mPa s) = 1.12837 + Viscosity (mPa s) = 1.13174 Activity of water = 0.965 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -5067,10 +5067,10 @@ Initial solution 118. pH = 5.587 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 98°C) = 187018 + Specific Conductance (µS/cm, 98°C) = 186084 Density (g/cm³) = 1.17283 Volume (L) = 1.03984 - Viscosity (mPa s) = 0.83586 + Viscosity (mPa s) = 0.83995 Activity of water = 0.968 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -5130,10 +5130,10 @@ Initial solution 119. pH = 5.477 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 124°C) = 269718 + Specific Conductance (µS/cm, 124°C) = 267690 Density (g/cm³) = 1.15761 Volume (L) = 1.05351 - Viscosity (mPa s) = 0.63928 + Viscosity (mPa s) = 0.64401 Activity of water = 0.972 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -5193,10 +5193,10 @@ Initial solution 120. pH = 5.405 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 149°C) = 393292 + Specific Conductance (µS/cm, 149°C) = 389196 Density (g/cm³) = 1.13834 Volume (L) = 1.07135 - Viscosity (mPa s) = 0.51530 + Viscosity (mPa s) = 0.52061 Activity of water = 0.976 Ionic strength (mol/kgw) = 7.296e+00 Mass of water (kg) = 1.000e+00 @@ -5364,10 +5364,10 @@ Initial solution 122. pH = 5.942 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 72180 + Specific Conductance (µS/cm, 35°C) = 72151 Density (g/cm³) = 1.23214 Volume (L) = 1.03541 - Viscosity (mPa s) = 3.23989 + Viscosity (mPa s) = 3.24112 Activity of water = 0.943 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5426,10 +5426,10 @@ Initial solution 123. pH = 5.804 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 99117 + Specific Conductance (µS/cm, 50°C) = 99008 Density (g/cm³) = 1.22630 Volume (L) = 1.04034 - Viscosity (mPa s) = 2.30376 + Viscosity (mPa s) = 2.30623 Activity of water = 0.946 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5488,10 +5488,10 @@ Initial solution 124. pH = 5.623 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 155630 + Specific Conductance (µS/cm, 75°C) = 155226 Density (g/cm³) = 1.21552 Volume (L) = 1.04957 - Viscosity (mPa s) = 1.46583 + Viscosity (mPa s) = 1.46956 Activity of water = 0.952 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5550,10 +5550,10 @@ Initial solution 125. pH = 5.506 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 224085 + Specific Conductance (µS/cm, 97°C) = 223135 Density (g/cm³) = 1.20346 Volume (L) = 1.06008 - Viscosity (mPa s) = 1.07139 + Viscosity (mPa s) = 1.07585 Activity of water = 0.957 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5615,7 +5615,7 @@ Initial solution 126. Specific Conductance (µS/cm, 25°C) = 59977 Density (g/cm³) = 1.23480 Volume (L) = 1.03317 - Viscosity (mPa s) = 4.19540 + Viscosity (mPa s) = 4.19539 Activity of water = 0.941 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5675,10 +5675,10 @@ Initial solution 127. pH = 5.931 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 75219 + Specific Conductance (µS/cm, 35°C) = 75190 Density (g/cm³) = 1.23216 Volume (L) = 1.03539 - Viscosity (mPa s) = 3.22519 + Viscosity (mPa s) = 3.22643 Activity of water = 0.943 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5738,10 +5738,10 @@ Initial solution 128. pH = 5.793 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 100470 + Specific Conductance (µS/cm, 50°C) = 100360 Density (g/cm³) = 1.22798 Volume (L) = 1.03892 - Viscosity (mPa s) = 2.30543 + Viscosity (mPa s) = 2.30791 Activity of water = 0.946 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5801,10 +5801,10 @@ Initial solution 129. pH = 5.612 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 151536 + Specific Conductance (µS/cm, 75°C) = 151144 Density (g/cm³) = 1.21918 Volume (L) = 1.04641 - Viscosity (mPa s) = 1.47584 + Viscosity (mPa s) = 1.47959 Activity of water = 0.951 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5864,10 +5864,10 @@ Initial solution 130. pH = 5.495 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 213518 + Specific Conductance (µS/cm, 97°C) = 212617 Density (g/cm³) = 1.20855 Volume (L) = 1.05562 - Viscosity (mPa s) = 1.08312 + Viscosity (mPa s) = 1.08761 Activity of water = 0.957 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -5927,10 +5927,10 @@ Initial solution 131. pH = 5.388 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 126°C) = 331373 + Specific Conductance (µS/cm, 126°C) = 329113 Density (g/cm³) = 1.18914 Volume (L) = 1.07285 - Viscosity (mPa s) = 0.78250 + Viscosity (mPa s) = 0.78776 Activity of water = 0.964 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -6053,10 +6053,10 @@ Initial solution 133. pH = 5.912 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 35°C) = 80289 + Specific Conductance (µS/cm, 35°C) = 80257 Density (g/cm³) = 1.23275 Volume (L) = 1.03490 - Viscosity (mPa s) = 3.20087 + Viscosity (mPa s) = 3.20210 Activity of water = 0.942 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -6116,10 +6116,10 @@ Initial solution 134. pH = 5.772 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 50°C) = 102852 + Specific Conductance (µS/cm, 50°C) = 102739 Density (g/cm³) = 1.23162 Volume (L) = 1.03585 - Viscosity (mPa s) = 2.31074 + Viscosity (mPa s) = 2.31322 Activity of water = 0.945 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -6179,10 +6179,10 @@ Initial solution 135. pH = 5.588 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 75°C) = 142866 + Specific Conductance (µS/cm, 75°C) = 142498 Density (g/cm³) = 1.22657 Volume (L) = 1.04011 - Viscosity (mPa s) = 1.49622 + Viscosity (mPa s) = 1.50000 Activity of water = 0.950 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -6242,10 +6242,10 @@ Initial solution 136. pH = 5.469 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 97°C) = 189594 + Specific Conductance (µS/cm, 97°C) = 188800 Density (g/cm³) = 1.21863 Volume (L) = 1.04688 - Viscosity (mPa s) = 1.10644 + Viscosity (mPa s) = 1.11098 Activity of water = 0.955 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 @@ -6305,10 +6305,10 @@ Initial solution 137. pH = 5.362 Charge balance pe = 4.000 - Specific Conductance (µS/cm, 126°C) = 289858 + Specific Conductance (µS/cm, 126°C) = 287907 Density (g/cm³) = 1.20269 Volume (L) = 1.06076 - Viscosity (mPa s) = 0.80639 + Viscosity (mPa s) = 0.81173 Activity of water = 0.962 Ionic strength (mol/kgw) = 9.164e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/v_TP_MgSO4_101.sel b/mytest/v_TP_MgSO4_101.sel index a60bc905..c81c88a2 100644 --- a/mytest/v_TP_MgSO4_101.sel +++ b/mytest/v_TP_MgSO4_101.sel @@ -1,98 +1,98 @@ Mu SC Viscosity - 0.339999317224 9464.7720636502 0.9681498294 - 0.339998831989 11560.6195428171 0.7806106730 - 0.339997510131 14853.7552568996 0.5918226056 - 0.339992192030 20577.2258675025 0.4067701817 - 0.339981162722 25666.2720692602 0.3126827110 - 0.339999355387 10203.7100836120 0.9660264730 - 0.339998892851 12212.1737341233 0.7808874758 - 0.339997629162 15312.4432667221 0.5937237580 - 0.339992533187 20559.9051508184 0.4095005694 - 0.339981967328 25077.4711551397 0.3155373229 - 0.339954867511 30512.4928485805 0.2445277991 - 0.339905607151 36337.8644799583 0.2005932608 - 0.339827298932 43887.7915243160 0.1705744174 - 0.339999406441 11477.4615981214 0.9629323754 - 0.339998980750 13368.2186069229 0.7821011946 - 0.339997814386 16144.8514352484 0.5978279780 - 0.339993097700 20520.8767746686 0.4149937590 - 0.339983314360 24004.0824809699 0.3211742228 - 0.339958292340 27839.4864053987 0.2499993373 - 0.339913108437 31594.0243415084 0.2058249857 - 0.339842079730 36610.1404783225 0.1754963522 - 1.747997867491 28908.8480182210 1.2642102591 - 1.747996402455 34983.9225021527 1.0126608961 - 1.747992525833 44565.6052736221 0.7617079913 - 1.747977789813 62399.2582557826 0.5198016204 - 1.747945360161 84185.1005367117 0.3902777201 - 1.747997934301 32962.7863246950 1.2585225440 - 1.747996510728 38493.5611714496 1.0113795250 - 1.747992742988 46748.0816765647 0.7634578618 - 1.747978439116 61142.3436804599 0.5231779159 - 1.747947088496 78327.6127092037 0.3939908021 - 1.747873599921 108941.7224011651 0.3047348189 - 1.747747323390 156457.5311809851 0.2504600000 - 1.747571761687 214360.0873349669 0.2158405102 - 1.747998000095 39489.5014399203 1.2491879075 - 1.747996637290 44464.1226633721 1.0099401453 - 1.747993037776 50643.0078611542 0.7674478562 - 1.747979410365 58645.7834248095 0.5299960881 - 1.747949647428 67040.2780729008 0.4013222751 - 1.747880260217 84291.4939414276 0.3119984890 - 1.747762037207 118467.5658887000 0.2575279657 - 1.747599612197 171840.1025022293 0.2227435393 - 3.691996746935 48817.6250037732 1.7014264923 - 3.691994524436 59430.5765035900 1.3534524410 - 3.691988713465 76537.2443410162 1.0093656849 - 3.691966316629 111346.5037411854 0.6758010128 - 3.691924709633 152240.1597239266 0.5162741268 - 3.691996809136 54620.2199099363 1.6906482599 - 3.691994626775 64440.7138050996 1.3500254993 - 3.691988926147 79394.1288602570 1.0110185770 - 3.691967026595 108009.0187188197 0.6802556795 - 3.691926593900 141685.2081510429 0.5213174034 - 3.691832083757 205965.2000064059 0.4027144348 - 3.691659378886 303292.1606971458 0.3257939962 - 3.691996834085 63691.3955235901 1.6723747221 - 3.691994700374 72769.9082237616 1.3449294211 - 3.691989149103 84430.5214382265 1.0150664647 - 3.691967938718 101218.0063745866 0.6892668056 - 3.691928994557 119732.2656954905 0.5312973773 - 3.691838596218 162739.2507044181 0.4128470375 - 3.691675096394 246384.3145917794 0.3358843976 - 7.295995276830 61740.7525229681 2.9949246879 - 7.295992113015 77322.3492707750 2.3315658175 - 7.295984009420 103391.8225570940 1.6937772165 - 7.295954859505 157235.0772610964 1.1058972759 - 7.295896480235 227251.7929747464 0.8098728452 - 7.295995298478 66473.5179170651 2.9694324563 - 7.295992151943 81394.9819814754 2.3222461821 - 7.295984111365 105382.8572061196 1.6953934355 - 7.295955349132 152817.4921630511 1.1133116178 - 7.295898288211 214841.3773705866 0.8185830444 - 7.295777653079 316763.6094200413 0.6215614653 - 7.295574391444 446055.9018219465 0.4974002131 - 7.295995199642 73868.3764207518 2.9252637879 - 7.295992044752 88154.9072260463 2.3070968974 - 7.295984033297 108885.1091584191 1.7000237087 - 7.295955620930 143528.0413277960 1.1283707545 - 7.295899753136 187018.6732038179 0.8358575364 - 7.295782820623 269718.6386033354 0.6392765755 - 7.295588332841 393292.2659875901 0.5153022456 - 9.163994460660 56447.5059275345 4.2348486056 - 9.163990812250 72180.1046075054 3.2398882616 - 9.163981582751 99117.6460092811 2.3037590914 - 9.163949153958 155630.5444617829 1.4658259755 - 9.163890241450 224085.5666631171 1.0713895252 - 9.163994453208 59977.1542407179 4.1953951052 - 9.163990805522 75219.4095524007 3.2251946575 - 9.163981604482 100470.8138704596 2.3054288385 - 9.163949486800 151536.9138169232 1.4758444048 - 9.163891735031 213518.0907813961 1.0831191613 - 9.163746956176 331373.1580616682 0.7824988303 - 9.163994271160 65525.5162511111 4.1266294980 - 9.163990576128 80289.1333873029 3.2008706352 - 9.163981322236 102852.4773250975 2.3107362286 - 9.163949340158 142866.5779183190 1.4962192412 - 9.163892401752 189594.4876287711 1.1064350636 - 9.163751358700 289858.5494546745 0.8063880054 + 0.339999317224 9464.7743562083 0.9681496015 + 0.339998831989 11556.9942468673 0.7808486085 + 0.339997510131 14841.4463703345 0.5922994462 + 0.339992192030 20539.8010668327 0.4074900062 + 0.339981162722 25593.6859017738 0.3135438965 + 0.339999355387 10203.7125488346 0.9660262459 + 0.339998892851 12208.3538760603 0.7811250891 + 0.339997629162 15299.7861525200 0.5942011464 + 0.339992533187 20522.6042215477 0.4102233810 + 0.339981967328 25006.7264621705 0.3164037917 + 0.339954867511 30383.7266913020 0.2455335580 + 0.339905607151 36128.5597402828 0.2017218684 + 0.339827298932 43558.9573515108 0.1718271359 + 0.339999406441 11477.4643586127 0.9629321497 + 0.339998980750 13364.0568115975 0.7823383607 + 0.339997814386 16131.5705474214 0.5983067126 + 0.339993097700 20483.8259994241 0.4157226330 + 0.339983314360 23936.6911173030 0.3220511127 + 0.339958292340 27722.5701878800 0.2510206515 + 0.339913108437 31412.9469982632 0.2069739601 + 0.339842079730 36337.1876305626 0.1767743546 + 1.747997867491 28908.8601933634 1.2642097423 + 1.747996402455 34964.7199511911 1.0132003961 + 1.747992525833 44500.4510711510 0.7627891910 + 1.747977789813 62198.0977289471 0.5214309003 + 1.747945360161 83749.1216374891 0.3922486886 + 1.747997934301 32962.8001886913 1.2585220292 + 1.747996510728 38472.4696755190 1.0119182943 + 1.747992742988 46679.8736945626 0.7645403036 + 1.747978439116 60945.6014576508 0.5248139292 + 1.747947088496 77922.6636347202 0.3959740883 + 1.747873599921 108102.0735480040 0.3070330978 + 1.747747323390 154824.7816129337 0.2530343328 + 1.747571761687 211522.6348963373 0.2186711350 + 1.747998000095 39489.5180281571 1.2491873958 + 1.747996637290 44439.8253485703 1.0104779009 + 1.747993037776 50569.3927465248 0.7685333506 + 1.747979410365 58457.7534795401 0.5316457717 + 1.747949647428 66694.5871548018 0.4033298339 + 1.747880260217 83643.4177804146 0.3143327350 + 1.747762037207 117237.2495104853 0.2601491079 + 1.747599612197 169584.4841961015 0.2256311700 + 3.691996746935 48817.6471408773 1.7014257413 + 3.691994524436 59395.2111337422 1.3542365055 + 3.691988713465 76414.9149251488 1.0109370113 + 3.691966316629 110944.2866218090 0.6781835432 + 3.691924709633 151385.7684650225 0.5191110542 + 3.691996809136 54620.2447059419 1.6906475117 + 3.691994626775 64402.3686108981 1.3508085020 + 3.691988926147 79267.3658261202 1.0125917085 + 3.691967026595 107619.5602440120 0.6826482004 + 3.691926593900 140891.9327731703 0.5241717246 + 3.691832083757 204248.5537249850 0.4060142339 + 3.691659378886 299797.9655483388 0.3295071924 + 3.691996834085 63691.4245200144 1.6723739784 + 3.691994700374 72726.5953728697 1.3457109504 + 3.691989149103 84295.9948986096 1.0166440327 + 3.691967938718 100854.2866559477 0.6916795839 + 3.691928994557 119064.4143155504 0.5341860095 + 3.691838596218 161390.4174131048 0.4161975485 + 3.691675096394 243573.3856532854 0.3396645221 + 7.295995276830 61740.7748065386 2.9949236322 + 7.295992113015 77284.9306295824 2.3326680253 + 7.295984009420 103253.8705311972 1.6959861276 + 7.295954859505 156751.5532102786 1.1092276544 + 7.295896480235 226104.8810938027 0.8138877659 + 7.295995298478 66473.5420070114 2.9694314044 + 7.295992151943 81355.5121124122 2.3233468973 + 7.295984111365 105242.2523351130 1.6976048842 + 7.295955349132 152348.5575381280 1.1166557770 + 7.295898288211 213761.1727783981 0.8226229121 + 7.295777653079 314355.8193975927 0.6262194999 + 7.295574391444 441335.4646203375 0.5026144901 + 7.295995199642 73868.4033999973 2.9252627425 + 7.295992044752 88111.9972074427 2.3081955413 + 7.295984033297 108739.8716011923 1.7022413940 + 7.295955620930 143089.4411046093 1.1317428884 + 7.295899753136 186084.7151385479 0.8399465786 + 7.295782820623 267690.2827355194 0.6440066479 + 7.295588332841 389196.6535689916 0.5206103957 + 9.163994460660 56447.5220582848 4.2348474225 + 9.163990812250 72151.9606391364 3.2411235365 + 9.163981582751 99008.7747502303 2.3062346799 + 9.163949153958 155226.3687858668 1.4695564909 + 9.163890241450 223135.8924042649 1.0758503057 + 9.163994453208 59977.1714678144 4.1953939263 + 9.163990805522 75190.0001314541 3.2264282597 + 9.163981604482 100360.4252809780 2.3079072710 + 9.163949486800 151144.2892068029 1.4795903376 + 9.163891735031 212617.0093920515 1.0876071853 + 9.163746956176 329113.8428545392 0.7877598226 + 9.163994271160 65525.5352527242 4.1266283263 + 9.163990576128 80257.5838428081 3.2021019161 + 9.163981322236 102739.4406501727 2.3132216506 + 9.163949340158 142498.1136630213 1.4999964748 + 9.163892401752 188800.6153996671 1.1109768398 + 9.163751358700 287907.8012218470 0.8117313073 diff --git a/mytest/v_TP_Na2SO4_101.sel b/mytest/v_TP_Na2SO4_101.sel index 82d014f5..efefd8fc 100644 --- a/mytest/v_TP_Na2SO4_101.sel +++ b/mytest/v_TP_Na2SO4_101.sel @@ -1,66 +1,66 @@ Mu SC Viscosity 0.000000100644 0.0547821166 0.8900243330 - 0.320663000257 16483.1544441156 0.9376292879 - 0.320662673127 26108.2939192289 0.5705099514 - 0.320661731988 35982.8428898240 0.3978681691 - 0.320659358224 46605.3916779709 0.2951409255 - 0.320654538356 57204.9948236360 0.2330194366 - 0.320646477546 67424.9268415160 0.1941790798 - 0.320632632560 78595.8381883929 0.1654663192 - 0.320613779154 87167.1210807054 0.1494729704 - 1.108133884431 44857.0616355461 1.0527637883 - 1.108133346061 70270.1888924255 0.6380591570 - 1.108132006023 95603.2730130803 0.4508908674 - 1.108128825702 125426.0823201470 0.3367216269 - 1.108122864458 158637.0757149241 0.2685232433 - 1.108109320244 206813.5992566320 0.2144821426 - 1.108093109377 245287.6201030634 0.1871104209 - 1.108067734767 283226.4247587882 0.1660992880 - 1.584644567297 59380.5145914319 1.1283112420 - 1.584643991468 92212.3953651077 0.6885538600 - 1.584642467553 127484.8282336584 0.4788629022 - 1.584638673265 171466.0962499435 0.3518531929 - 1.584632132582 218169.8496494371 0.2825441820 - 1.584617656712 285777.4241306076 0.2269266765 - 1.584600457340 338867.0473022405 0.1981426887 - 1.584571999537 393342.6353582394 0.1741795025 - 2.338989453945 79099.0574554510 1.2596237411 - 2.338988829142 122901.0750966032 0.7672811846 - 2.338987086101 173242.0118200407 0.5241726978 - 2.338983432930 229290.6617024068 0.3944360505 - 2.338975555252 304709.3343288808 0.3067726529 - 2.338963849983 380096.4284687146 0.2567056493 - 2.338943034012 467848.3333242432 0.2166512304 - 2.338915204622 540204.3569618806 0.1896706904 - 3.714148127009 104922.9875526244 1.5459890898 - 3.714147427481 166319.0965188042 0.9221835616 - 3.714145540561 237332.0538324486 0.6248364216 - 3.714141624468 318432.1165520625 0.4663286512 - 3.714134852374 410162.3088200997 0.3725715534 - 3.714121562064 529567.8109253333 0.3010243915 - 3.714099952342 651178.5754648934 0.2510116137 - 3.714070044651 756252.6487469793 0.2148356844 - 5.260566708056 119439.7200561684 1.9702325133 - 5.260565982855 193649.1810120071 1.1490414565 - 5.260564102659 279963.6744071566 0.7696822260 - 5.260559601166 392552.8477057990 0.5501236453 - 5.260552386698 508004.4380907001 0.4361768373 - 5.260540352520 637378.0329754063 0.3575649738 - 5.260520753681 773303.6538665529 0.2980530710 - 5.260489096148 910686.6257421505 0.2474640268 - 6.284448037437 136678.0397490642 2.0555349652 - 6.284447386481 202190.1045249212 1.3295457015 - 6.284445386552 300366.4195423737 0.8661635900 - 6.284441861684 400009.0660502205 0.6496191976 - 6.284432995430 556112.7249602904 0.4795131517 - 6.284420081473 699824.7972286514 0.3891692557 - 6.284398754915 849167.9217622913 0.3204901619 - 6.284370281988 976301.4816435336 0.2699235830 - 7.391015480592 134721.3572517674 2.4784561941 - 7.391014820044 204051.1583530522 1.5632977273 - 7.391012808832 309073.4881307220 0.9979299181 - 7.391008123259 442995.9245529653 0.6955924702 - 7.391000017648 587254.3020088761 0.5345740037 - 7.390986310783 743471.1045287957 0.4279581375 - 7.390965852263 889560.7722289739 0.3538950036 - 7.390935013399 1027606.4414793608 0.2922440687 + 0.320663000257 16483.1570231874 0.9376291198 + 0.320662673127 26093.9400134066 0.5708687426 + 0.320661731988 35940.4588052208 0.3984034432 + 0.320659358224 46514.2107749462 0.2957988429 + 0.320654538356 57041.5380237176 0.2337750147 + 0.320646477546 67166.0067848968 0.1950204484 + 0.320632632560 78199.7653566720 0.1663999130 + 0.320613779154 86630.1294710746 0.1504963217 + 1.108133884431 44857.0731800814 1.0527634758 + 1.108133346061 70206.3522641509 0.6387278833 + 1.108132006023 95422.0083108749 0.4518758853 + 1.108128825702 125033.3953614031 0.3379302593 + 1.108122864458 157918.9279948091 0.2699045416 + 1.108109320244 205455.6403863542 0.2160601334 + 1.108093109377 243248.5308218795 0.1888363614 + 1.108067734767 280285.2934617181 0.1679974454 + 1.584644567297 59380.5316643737 1.1283108684 + 1.584643991468 92120.8175695059 0.6893420132 + 1.584642467553 127211.1504862899 0.4800458995 + 1.584638673265 170842.2448582309 0.3533166952 + 1.584632132582 217034.5255758794 0.2842081879 + 1.584617656712 283639.1602984275 0.2288212064 + 1.584600457340 335665.1484436789 0.2002129765 + 1.584571999537 388635.6192081283 0.1764675029 + 2.338989453945 79099.0822746437 1.2596232871 + 2.338988829142 122768.3370568430 0.7682335857 + 2.338987086101 172824.2019311406 0.5256224776 + 2.338983432930 228391.9916033465 0.3961971371 + 2.338975555252 302911.2384390201 0.3088104560 + 2.338963849983 377090.5414118900 0.2589661684 + 2.338943034012 462918.7341106160 0.2191684993 + 2.338915204622 533008.7436422212 0.1924407619 + 3.714148127009 104923.0214781500 1.5459885178 + 3.714147427481 166128.1354456375 0.9233950328 + 3.714145540561 236722.0288696160 0.6266686790 + 3.714141624468 317090.7379494254 0.4685535799 + 3.714134852374 407682.9467068285 0.3750976268 + 3.714121562064 525052.3851652227 0.3038717151 + 3.714099952342 643688.2812894303 0.2541888398 + 3.714070044651 744961.5570982988 0.2183500960 + 5.260566708056 119439.7561642758 1.9702318326 + 5.260565982855 193437.7076041416 1.1504736280 + 5.260564102659 279272.0845932617 0.7718445674 + 5.260559601166 390859.6043716634 0.5528002684 + 5.260552386698 504843.0444912706 0.4392103410 + 5.260540352520 631949.0072288876 0.3609389283 + 5.260520753681 764488.8938280507 0.3017918222 + 5.260489096148 896685.6020136526 0.2516343671 + 6.284448037437 136653.4229973500 2.0559581562 + 6.284447386481 201981.4451719236 1.3311110549 + 6.284445386552 299638.7916764249 0.8685469578 + 6.284441861684 398454.3191125133 0.6524682982 + 6.284432995430 552639.7562697376 0.4828547487 + 6.284420081473 693774.3559305100 0.3928924457 + 6.284398754915 839199.4841273212 0.3246280775 + 6.284370281988 961284.6034448268 0.2744764250 + 7.391015480592 134699.5625423435 2.4789151330 + 7.391014820044 203857.0114588720 1.5649953101 + 7.391012808832 308369.2247968608 1.0005119276 + 7.391008123259 441193.1807102576 0.6987790172 + 7.391000017648 583674.0926142690 0.5382084881 + 7.390986310783 737094.2353418099 0.4320183246 + 7.390965852263 879320.6534085728 0.3583770372 + 7.390935013399 1011715.8369324303 0.2972017812 diff --git a/mytest/variable_cell_diffusion_101.sel b/mytest/variable_cell_diffusion_101.sel index 0ae57db8..8b67fa01 100644 --- a/mytest/variable_cell_diffusion_101.sel +++ b/mytest/variable_cell_diffusion_101.sel @@ -13,15 +13,15 @@ 0.000000100091 0.0000000000 0.000000100091 0.0000000000 0.024000115010 0.0000000000 - 0.020916918092 0.0000000000 - 0.017256692355 0.0000000000 - 0.015832398997 0.0000000000 - 0.014455356130 0.0000000000 - 0.013132192300 0.0000000000 - 0.012374053136 0.0000000000 + 0.020916918095 0.0000000000 + 0.017256692357 0.0000000000 + 0.015832398998 0.0000000000 + 0.014455356131 0.0000000000 + 0.013132192301 0.0000000000 + 0.012374053137 0.0000000000 0.007870182433 0.0000000000 - 0.002976593516 0.0000000000 - 0.000941701729 0.0000000000 + 0.002976593515 0.0000000000 + 0.000941701728 0.0000000000 0.000491739359 0.0000000000 0.000000100107 0.0000000000 0.000000100107 0.0000000000 @@ -40,13 +40,13 @@ 0.000000100091 0.0000000000 0.000000100091 0.0000000000 0.024000115010 0.0000000000 - 0.020808561439 0.0000000000 - 0.017045673342 0.0000000000 - 0.015587914539 0.0000000000 - 0.014183608905 0.0000000000 - 0.012839528495 0.0000000000 - 0.012072304890 0.0000000000 - 0.007538584835 0.0000000000 - 0.002780983285 0.0000000000 + 0.020808561440 0.0000000000 + 0.017045673343 0.0000000000 + 0.015587914540 0.0000000000 + 0.014183608907 0.0000000000 + 0.012839528497 0.0000000000 + 0.012072304892 0.0000000000 + 0.007538584836 0.0000000000 + 0.002780983286 0.0000000000 0.000863659078 0.0000000000 0.000446545606 0.0000000000 diff --git a/mytest/visc_MgSO4.out b/mytest/visc_MgSO4.out index 9b88939e..42ed3e42 100644 --- a/mytest/visc_MgSO4.out +++ b/mytest/visc_MgSO4.out @@ -158,7 +158,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 95 Density (g/cm³) = 0.99916 Volume (L) = 1.00090 - Viscosity (mPa s) = 1.13893 + Viscosity (mPa s) = 1.13890 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.000e-03 Mass of water (kg) = 1.000e+00 @@ -239,7 +239,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 185 Density (g/cm³) = 0.99923 Volume (L) = 1.00089 - Viscosity (mPa s) = 1.13981 + Viscosity (mPa s) = 1.13978 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.000e-03 Mass of water (kg) = 1.000e+00 @@ -320,7 +320,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 435 Density (g/cm³) = 0.99942 Volume (L) = 1.00088 - Viscosity (mPa s) = 1.14213 + Viscosity (mPa s) = 1.14207 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-02 Mass of water (kg) = 1.000e+00 @@ -401,7 +401,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 813 Density (g/cm³) = 0.99974 Volume (L) = 1.00086 - Viscosity (mPa s) = 1.14563 + Viscosity (mPa s) = 1.14554 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.000e-02 Mass of water (kg) = 1.000e+00 @@ -482,7 +482,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1482 Density (g/cm³) = 1.00037 Volume (L) = 1.00083 - Viscosity (mPa s) = 1.15218 + Viscosity (mPa s) = 1.15206 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -563,7 +563,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 2621 Density (g/cm³) = 1.00165 Volume (L) = 1.00077 - Viscosity (mPa s) = 1.16476 + Viscosity (mPa s) = 1.16459 Activity of water = 0.999 Ionic strength (mol/kgw) = 8.040e-02 Mass of water (kg) = 1.000e+00 @@ -641,10 +641,10 @@ Reaction 1. pH = 7.072 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 4425 + Specific Conductance (µS/cm, 15°C) = 4426 Density (g/cm³) = 1.00415 Volume (L) = 1.00067 - Viscosity (mPa s) = 1.18869 + Viscosity (mPa s) = 1.18845 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.604e-01 Mass of water (kg) = 1.000e+00 @@ -722,10 +722,10 @@ Reaction 1. pH = 7.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 5185 + Specific Conductance (µS/cm, 15°C) = 5186 Density (g/cm³) = 1.00538 Volume (L) = 1.00063 - Viscosity (mPa s) = 1.20030 + Viscosity (mPa s) = 1.20004 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -803,10 +803,10 @@ Reaction 1. pH = 7.061 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 5192 + Specific Conductance (µS/cm, 15°C) = 5194 Density (g/cm³) = 1.00540 Volume (L) = 1.00063 - Viscosity (mPa s) = 1.20042 + Viscosity (mPa s) = 1.20015 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.004e-01 Mass of water (kg) = 1.000e+00 @@ -884,10 +884,10 @@ Reaction 1. pH = 7.017 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8348 + Specific Conductance (µS/cm, 15°C) = 8350 Density (g/cm³) = 1.01155 Volume (L) = 1.00048 - Viscosity (mPa s) = 1.25779 + Viscosity (mPa s) = 1.25741 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -965,10 +965,10 @@ Reaction 1. pH = 7.017 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8365 + Specific Conductance (µS/cm, 15°C) = 8367 Density (g/cm³) = 1.01159 Volume (L) = 1.00048 - Viscosity (mPa s) = 1.25813 + Viscosity (mPa s) = 1.25775 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.012e-01 Mass of water (kg) = 1.000e+00 @@ -1046,10 +1046,10 @@ Reaction 1. pH = 6.954 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 13338 + Specific Conductance (µS/cm, 15°C) = 13344 Density (g/cm³) = 1.02375 Volume (L) = 1.00039 - Viscosity (mPa s) = 1.37070 + Viscosity (mPa s) = 1.37016 Activity of water = 0.996 Ionic strength (mol/kgw) = 8.024e-01 Mass of water (kg) = 1.000e+00 @@ -1127,10 +1127,10 @@ Reaction 1. pH = 6.818 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 25467 + Specific Conductance (µS/cm, 15°C) = 25480 Density (g/cm³) = 1.05883 Volume (L) = 1.00128 - Viscosity (mPa s) = 1.70365 + Viscosity (mPa s) = 1.70280 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -1208,10 +1208,10 @@ Reaction 1. pH = 6.633 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 40655 + Specific Conductance (µS/cm, 15°C) = 40676 Density (g/cm³) = 1.11425 Volume (L) = 1.00549 - Viscosity (mPa s) = 2.32135 + Viscosity (mPa s) = 2.32014 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -1289,10 +1289,10 @@ Reaction 1. pH = 6.455 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 47688 + Specific Conductance (µS/cm, 15°C) = 47711 Density (g/cm³) = 1.16609 Volume (L) = 1.01240 - Viscosity (mPa s) = 3.18413 + Viscosity (mPa s) = 3.18266 Activity of water = 0.969 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -1370,10 +1370,10 @@ Reaction 1. pH = 6.274 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 46152 + Specific Conductance (µS/cm, 15°C) = 46169 Density (g/cm³) = 1.21447 Volume (L) = 1.02163 - Viscosity (mPa s) = 4.57440 + Viscosity (mPa s) = 4.57269 Activity of water = 0.953 Ionic strength (mol/kgw) = 8.000e+00 Mass of water (kg) = 1.000e+00 @@ -1451,10 +1451,10 @@ Reaction 1. pH = 6.089 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 39117 + Specific Conductance (µS/cm, 15°C) = 39128 Density (g/cm³) = 1.25943 Volume (L) = 1.03295 - Viscosity (mPa s) = 6.88487 + Viscosity (mPa s) = 6.88296 Activity of water = 0.930 Ionic strength (mol/kgw) = 1.000e+01 Mass of water (kg) = 1.000e+00 @@ -2378,7 +2378,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 168 Density (g/cm³) = 0.99713 Volume (L) = 1.00296 - Viscosity (mPa s) = 0.89138 + Viscosity (mPa s) = 0.89137 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.800e-03 Mass of water (kg) = 1.000e+00 @@ -4970,7 +4970,7 @@ Reaction 1. Specific Conductance (µS/cm, 25°C) = 51256 Density (g/cm³) = 1.11095 Volume (L) = 1.00847 - Viscosity (mPa s) = 1.77976 + Viscosity (mPa s) = 1.77975 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -5975,7 +5975,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 151 Density (g/cm³) = 0.99409 Volume (L) = 1.00600 - Viscosity (mPa s) = 0.71999 + Viscosity (mPa s) = 0.72001 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.000e-03 Mass of water (kg) = 1.000e+00 @@ -6056,7 +6056,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 292 Density (g/cm³) = 0.99415 Volume (L) = 1.00600 - Viscosity (mPa s) = 0.72054 + Viscosity (mPa s) = 0.72057 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.000e-03 Mass of water (kg) = 1.000e+00 @@ -6137,7 +6137,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 686 Density (g/cm³) = 0.99434 Volume (L) = 1.00599 - Viscosity (mPa s) = 0.72196 + Viscosity (mPa s) = 0.72200 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.000e-02 Mass of water (kg) = 1.000e+00 @@ -6218,7 +6218,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 1280 Density (g/cm³) = 0.99466 Volume (L) = 1.00598 - Viscosity (mPa s) = 0.72408 + Viscosity (mPa s) = 0.72414 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.000e-02 Mass of water (kg) = 1.000e+00 @@ -6299,7 +6299,7 @@ Reaction 1. Specific Conductance (µS/cm, 35°C) = 2327 Density (g/cm³) = 0.99528 Volume (L) = 1.00595 - Viscosity (mPa s) = 0.72802 + Viscosity (mPa s) = 0.72810 Activity of water = 1.000 Ionic strength (mol/kgw) = 4.000e-02 Mass of water (kg) = 1.000e+00 @@ -6377,10 +6377,10 @@ Reaction 1. pH = 6.783 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 4105 + Specific Conductance (µS/cm, 35°C) = 4104 Density (g/cm³) = 0.99653 Volume (L) = 1.00591 - Viscosity (mPa s) = 0.73553 + Viscosity (mPa s) = 0.73564 Activity of water = 1.000 Ionic strength (mol/kgw) = 8.040e-02 Mass of water (kg) = 1.000e+00 @@ -6458,10 +6458,10 @@ Reaction 1. pH = 6.759 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 6896 + Specific Conductance (µS/cm, 35°C) = 6895 Density (g/cm³) = 0.99899 Volume (L) = 1.00584 - Viscosity (mPa s) = 0.74977 + Viscosity (mPa s) = 0.74993 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.604e-01 Mass of water (kg) = 1.000e+00 @@ -6539,10 +6539,10 @@ Reaction 1. pH = 6.749 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 8064 + Specific Conductance (µS/cm, 35°C) = 8062 Density (g/cm³) = 1.00020 Volume (L) = 1.00582 - Viscosity (mPa s) = 0.75666 + Viscosity (mPa s) = 0.75684 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.000e-01 Mass of water (kg) = 1.000e+00 @@ -6620,10 +6620,10 @@ Reaction 1. pH = 6.749 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 8075 + Specific Conductance (µS/cm, 35°C) = 8073 Density (g/cm³) = 1.00021 Volume (L) = 1.00582 - Viscosity (mPa s) = 0.75673 + Viscosity (mPa s) = 0.75691 Activity of water = 0.999 Ionic strength (mol/kgw) = 2.004e-01 Mass of water (kg) = 1.000e+00 @@ -6701,10 +6701,10 @@ Reaction 1. pH = 6.711 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12867 + Specific Conductance (µS/cm, 35°C) = 12863 Density (g/cm³) = 1.00626 Volume (L) = 1.00575 - Viscosity (mPa s) = 0.79074 + Viscosity (mPa s) = 0.79100 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.000e-01 Mass of water (kg) = 1.000e+00 @@ -6782,10 +6782,10 @@ Reaction 1. pH = 6.711 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 12892 + Specific Conductance (µS/cm, 35°C) = 12888 Density (g/cm³) = 1.00629 Volume (L) = 1.00575 - Viscosity (mPa s) = 0.79094 + Viscosity (mPa s) = 0.79120 Activity of water = 0.998 Ionic strength (mol/kgw) = 4.012e-01 Mass of water (kg) = 1.000e+00 @@ -6863,10 +6863,10 @@ Reaction 1. pH = 6.655 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 20336 + Specific Conductance (µS/cm, 35°C) = 20327 Density (g/cm³) = 1.01824 Volume (L) = 1.00580 - Viscosity (mPa s) = 0.85759 + Viscosity (mPa s) = 0.85796 Activity of water = 0.996 Ionic strength (mol/kgw) = 8.024e-01 Mass of water (kg) = 1.000e+00 @@ -6944,10 +6944,10 @@ Reaction 1. pH = 6.535 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 38571 + Specific Conductance (µS/cm, 35°C) = 38549 Density (g/cm³) = 1.05274 Volume (L) = 1.00707 - Viscosity (mPa s) = 1.05435 + Viscosity (mPa s) = 1.05493 Activity of water = 0.991 Ionic strength (mol/kgw) = 2.000e+00 Mass of water (kg) = 1.000e+00 @@ -7025,10 +7025,10 @@ Reaction 1. pH = 6.370 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 62503 + Specific Conductance (µS/cm, 35°C) = 62466 Density (g/cm³) = 1.10728 Volume (L) = 1.01182 - Viscosity (mPa s) = 1.41402 + Viscosity (mPa s) = 1.41484 Activity of water = 0.981 Ionic strength (mol/kgw) = 4.000e+00 Mass of water (kg) = 1.000e+00 @@ -7106,10 +7106,10 @@ Reaction 1. pH = 6.209 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 75563 + Specific Conductance (µS/cm, 35°C) = 75522 Density (g/cm³) = 1.15832 Volume (L) = 1.01920 - Viscosity (mPa s) = 1.89498 + Viscosity (mPa s) = 1.89598 Activity of water = 0.970 Ionic strength (mol/kgw) = 6.000e+00 Mass of water (kg) = 1.000e+00 @@ -7187,10 +7187,10 @@ Reaction 1. pH = 6.042 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 76289 + Specific Conductance (µS/cm, 35°C) = 76254 Density (g/cm³) = 1.20596 Volume (L) = 1.02884 - Viscosity (mPa s) = 2.62872 + Viscosity (mPa s) = 2.62988 Activity of water = 0.954 Ionic strength (mol/kgw) = 8.000e+00 Mass of water (kg) = 1.000e+00 @@ -7268,10 +7268,10 @@ Reaction 1. pH = 5.869 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 35°C) = 67910 + Specific Conductance (µS/cm, 35°C) = 67887 Density (g/cm³) = 1.25024 Volume (L) = 1.04054 - Viscosity (mPa s) = 3.79105 + Viscosity (mPa s) = 3.79234 Activity of water = 0.934 Ionic strength (mol/kgw) = 1.000e+01 Mass of water (kg) = 1.000e+00 @@ -7382,10 +7382,10 @@ Reaction 1. pH = 6.140 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 11321 + Specific Conductance (µS/cm, 100°C) = 11301 Density (g/cm³) = 0.96148 Volume (L) = 1.04321 - Viscosity (mPa s) = 0.28905 + Viscosity (mPa s) = 0.28952 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.004e-01 Mass of water (kg) = 1.000e+00 @@ -7463,10 +7463,10 @@ Reaction 1. pH = 6.053 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 43052 + Specific Conductance (µS/cm, 100°C) = 42880 Density (g/cm³) = 0.97992 Volume (L) = 1.04233 - Viscosity (mPa s) = 0.32567 + Viscosity (mPa s) = 0.32694 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.112e-01 Mass of water (kg) = 1.000e+00 @@ -7544,10 +7544,10 @@ Reaction 1. pH = 5.989 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 72354 + Specific Conductance (µS/cm, 100°C) = 71991 Density (g/cm³) = 1.00076 Volume (L) = 1.04201 - Viscosity (mPa s) = 0.36648 + Viscosity (mPa s) = 0.36827 Activity of water = 0.994 Ionic strength (mol/kgw) = 1.422e+00 Mass of water (kg) = 1.000e+00 @@ -7625,10 +7625,10 @@ Reaction 1. pH = 5.848 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 154017 + Specific Conductance (µS/cm, 100°C) = 153112 Density (g/cm³) = 1.06055 Volume (L) = 1.04380 - Viscosity (mPa s) = 0.49214 + Viscosity (mPa s) = 0.49497 Activity of water = 0.987 Ionic strength (mol/kgw) = 3.556e+00 Mass of water (kg) = 1.000e+00 @@ -7739,10 +7739,10 @@ Reaction 1. pH = 5.919 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 15856 + Specific Conductance (µS/cm, 150°C) = 15803 Density (g/cm³) = 0.92035 Volume (L) = 1.08988 - Viscosity (mPa s) = 0.18778 + Viscosity (mPa s) = 0.18839 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.020e-01 Mass of water (kg) = 1.000e+00 @@ -7821,10 +7821,10 @@ Reaction 1. pH = 5.820 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 73399 + Specific Conductance (µS/cm, 150°C) = 72822 Density (g/cm³) = 0.93970 Volume (L) = 1.08730 - Viscosity (mPa s) = 0.21184 + Viscosity (mPa s) = 0.21347 Activity of water = 0.997 Ionic strength (mol/kgw) = 7.222e-01 Mass of water (kg) = 1.000e+00 @@ -7903,10 +7903,10 @@ Reaction 1. pH = 5.756 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 141962 + Specific Conductance (µS/cm, 150°C) = 140562 Density (g/cm³) = 0.96132 Volume (L) = 1.08550 - Viscosity (mPa s) = 0.23798 + Viscosity (mPa s) = 0.24029 Activity of water = 0.995 Ionic strength (mol/kgw) = 1.446e+00 Mass of water (kg) = 1.000e+00 @@ -7985,10 +7985,10 @@ Reaction 1. pH = 5.628 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 323725 + Specific Conductance (µS/cm, 150°C) = 319944 Density (g/cm³) = 1.02222 Volume (L) = 1.08462 - Viscosity (mPa s) = 0.31591 + Viscosity (mPa s) = 0.31956 Activity of water = 0.990 Ionic strength (mol/kgw) = 3.612e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/visc_MgSO4_101.sel b/mytest/visc_MgSO4_101.sel index ff875dd3..5bbcbbea 100644 --- a/mytest/visc_MgSO4_101.sel +++ b/mytest/visc_MgSO4_101.sel @@ -1,98 +1,98 @@ Mu SC Viscosity 0.000000100644 0.0547821166 0.8900243330 - 0.002000061598 95.7372490911 1.1389277376 - 0.004000055036 185.4287839651 1.1398130951 - 0.010000037386 435.6368472237 1.1421293945 - 0.020000012422 813.8609663471 1.1456291522 - 0.039999971010 1482.3411588359 1.1521808760 - 0.080399903269 2621.5998964485 1.1647562181 - 0.160399796515 4425.4970046997 1.1886925747 - 0.199999751030 5185.5151392749 1.2003049093 - 0.200399750588 5192.8678952291 1.2004216565 - 0.399999559624 8348.3752601415 1.2577866833 - 0.401199558608 8365.1815166517 1.2581275952 - 0.802399268522 13338.6539798049 1.3707023306 - 1.999998691525 25467.7285457190 1.7036491563 - 3.999998113204 40655.1848924127 2.3213458985 - 5.999997692291 47688.7906597425 3.1841331305 - 7.999997277586 46152.0571561898 4.5743975009 - 9.999996788319 39117.0879460585 6.8848652902 - 0.000400099498 25.5960703602 0.8903977561 - 0.000400099498 25.5960703602 0.8903977561 - 0.000800097208 50.4048945022 0.8906014212 - 0.001200094825 74.7412263306 0.8907769958 - 0.001600092430 98.7045586352 0.8909380285 - 0.002000090049 122.3521093265 0.8910897653 - 0.002000090049 122.3521093265 0.8910897653 - 0.002400087692 145.7223123804 0.8912348966 - 0.002400087692 145.7223123804 0.8912348966 - 0.002400087692 145.7223123804 0.8912348966 - 0.002800085364 168.8432660270 0.8913750204 - 0.004000078560 236.9072148753 0.8917742925 - 0.004000078560 236.9072148753 0.8917742925 - 0.004000078560 236.9072148753 0.8917742925 - 0.005600069890 325.1157190754 0.8922746981 - 0.005600069890 325.1157190754 0.8922746981 - 0.008000057626 453.0306066263 0.8929847171 - 0.008000057626 453.0306066263 0.8929847171 - 0.010000047971 556.2846510636 0.8935526616 - 0.010400046093 576.6134874705 0.8936643231 - 0.010400046093 576.6134874705 0.8936643231 - 0.013600031623 735.8068780644 0.8945398667 - 0.013600031623 735.8068780644 0.8945398667 - 0.016800017984 889.5766341691 0.8953911430 - 0.016800017984 889.5766341691 0.8953911430 - 0.020000005021 1038.6586449679 0.8962247896 - 0.020800001872 1075.2632175702 0.8964309574 - 0.020800001872 1075.2632175702 0.8964309574 - 0.039999934078 1890.1787711552 0.9012076969 - 0.080399818241 3338.3257329743 0.9107435156 - 0.099999769276 3954.3913367483 0.9152467007 - 0.160399635609 5622.3398327319 0.9288563135 - 0.199999557713 6580.9563331482 0.9376353216 - 0.200399556957 6590.2193111002 0.9377235666 - 0.399999229274 10546.9044991122 0.9810611331 - 0.401199227528 10567.8890882671 0.9813185965 - 0.707998833142 15402.7243287616 1.0464612947 - 0.802398727448 16755.5868538540 1.0663161466 - 1.415598151983 24846.7214293263 1.1945306969 - 1.999997724734 31867.9215217250 1.3174763008 - 2.457197445283 36972.6569340032 1.4157821199 - 3.539196908426 47525.2298762284 1.6638342338 - 3.999996715188 51256.6562808602 1.7797552461 - 4.947196356334 57258.6841414742 2.0474893994 - 5.955996003926 60986.2897028797 2.3935618434 - 5.999995988846 61085.2243197535 2.4104626558 - 7.489995473317 61490.5320808447 3.0990993104 - 7.999995289069 60459.0839179702 3.3976177165 - 8.307195174781 59601.6228806152 3.5961713218 - 9.999994482532 52587.4249789654 4.9975718343 - 10.037594465687 52401.4044488159 5.0355207741 - 10.121594427787 51982.8877520230 5.1215069545 - 11.135193938761 46717.9002445637 6.3004506830 - 12.227593335681 40950.3034666266 7.9053588002 - 0.002000125645 151.0654140828 0.7199933624 - 0.004000105900 292.4036383133 0.7205427067 - 0.010000053886 686.1817246521 0.7219605114 - 0.019999981451 1280.3521968048 0.7240796395 - 0.039999862465 2327.7948361891 0.7280164733 - 0.080399668811 4105.0871031922 0.7355284758 - 0.160399363840 6896.9833749831 0.7497670556 - 0.199999233780 8064.3389416806 0.7566616678 - 0.200399232517 8075.6059242561 0.7567309572 - 0.399998685187 12867.3399669968 0.7907396636 - 0.401198682269 12892.6565051380 0.7909416276 - 0.802397845535 20336.6835322652 0.8575949881 - 1.999996162246 38571.6550380435 1.0543534189 - 3.999994470511 62503.5403253590 1.4140227911 - 5.999993272437 75563.4443704212 1.8949824691 - 7.999992144801 76289.1745700973 2.6287219475 - 9.999990874297 67910.9066451382 3.7910495541 - 0.100391003806 11321.0517082656 0.2890472626 - 0.711166731140 43052.2073107413 0.3256699520 - 1.422349670282 72354.8374221369 0.3664767845 - 3.555920533199 154017.6985483626 0.4921372576 - 0.101952448998 15856.7625073433 0.1877757122 - 0.722243804571 73399.2148114203 0.2118410172 - 1.445769708523 141962.1961960941 0.2379804633 - 3.612450051560 323725.0040774596 0.3159083510 + 0.002000061598 95.7395682799 1.1389008177 + 0.004000055036 185.4351314764 1.1397750227 + 0.010000037386 435.6603800237 1.1420691951 + 0.020000012422 813.9229627202 1.1455440164 + 0.039999971010 1482.5000022197 1.1520604751 + 0.080399903269 2621.9941542004 1.1645855200 + 0.160399796515 4426.4191930581 1.1884514711 + 0.199999751030 5186.7106306477 1.2000356835 + 0.200399750588 5194.0661671757 1.2001521617 + 0.399999559624 8350.9771335627 1.2574059403 + 0.401199558608 8367.7918470817 1.2577462815 + 0.802399268522 13344.0638441408 1.3701630712 + 1.999998691525 25480.8371267629 1.7027977882 + 3.999998113204 40676.8416623883 2.3201418819 + 5.999997692291 47711.4277284009 3.1826585172 + 7.999997277586 46169.6410817683 4.5726947640 + 9.999996788319 39128.1474428278 6.8829615725 + 0.000400099498 25.5960705905 0.8903977483 + 0.000400099498 25.5960705905 0.8903977483 + 0.000800097208 50.4048951434 0.8906014101 + 0.001200094825 74.7412274948 0.8907769823 + 0.001600092430 98.7045604100 0.8909380129 + 0.002000090049 122.3521117857 0.8910897479 + 0.002000090049 122.3521117857 0.8910897479 + 0.002400087692 145.7223155884 0.8912348774 + 0.002400087692 145.7223155884 0.8912348774 + 0.002400087692 145.7223155884 0.8912348774 + 0.002800085364 168.8432700412 0.8913749997 + 0.004000078560 236.9072216041 0.8917742678 + 0.004000078560 236.9072216041 0.8917742678 + 0.004000078560 236.9072216041 0.8917742678 + 0.005600069890 325.1157299954 0.8922746689 + 0.005600069890 325.1157299954 0.8922746689 + 0.008000057626 453.0306247994 0.8929846821 + 0.008000057626 453.0306247994 0.8929846821 + 0.010000047971 556.2846759975 0.8935526225 + 0.010400046093 576.6135138243 0.8936642832 + 0.010400046093 576.6135138243 0.8936642832 + 0.013600031623 735.8069164855 0.8945398211 + 0.013600031623 735.8069164855 0.8945398211 + 0.016800017984 889.5766857496 0.8953910924 + 0.016800017984 889.5766857496 0.8953910924 + 0.020000005021 1038.6587106211 0.8962247343 + 0.020800001872 1075.2632868682 0.8964309010 + 0.020800001872 1075.2632868682 0.8964309010 + 0.039999934078 1890.1789392481 0.9012076188 + 0.080399818241 3338.3261497489 0.9107434048 + 0.099999769276 3954.3918847922 0.9152465771 + 0.160399635609 5622.3408059498 0.9288561570 + 0.199999557713 6580.9575938615 0.9376351468 + 0.200399556957 6590.2205747366 0.9377233916 + 0.399999229274 10546.9072347082 0.9810608859 + 0.401199227528 10567.8918327150 0.9813183489 + 0.707998833142 15402.7293177483 1.0464609658 + 0.802398727448 16755.5925248783 1.0663157965 + 1.415598151983 24846.7313996855 1.1945302319 + 1.999997724734 31867.9352924480 1.3174757481 + 2.457197445283 36972.6734013389 1.4157815073 + 3.539196908426 47525.2514577906 1.6638334985 + 3.999996715188 51256.6794001185 1.7797544644 + 4.947196356334 57258.7090809392 2.0474885301 + 5.955996003926 60986.3146114110 2.3935608896 + 5.999995988846 61085.2491841995 2.4104616984 + 7.489995473317 61490.5538086791 3.0990982408 + 7.999995289069 60459.1040506758 3.3976166111 + 8.307195174781 59601.6419853259 3.5961701953 + 9.999994482532 52587.4382762867 4.9975705983 + 10.037594465687 52401.4176237318 5.0355195359 + 10.121594427787 51982.9006554848 5.1215057111 + 11.135193938761 46717.9101279835 6.3004493788 + 12.227593335681 40950.3106991457 7.9053574335 + 0.002000125645 151.0614908705 0.7200116074 + 0.004000105900 292.3929076978 0.7205685116 + 0.010000053886 686.1419859944 0.7220013151 + 0.019999981451 1280.2476263068 0.7241373460 + 0.039999862465 2327.5273319086 0.7280980835 + 0.080399668811 4104.4246788675 0.7356441790 + 0.160399363840 6895.4395012097 0.7499304816 + 0.199999233780 8062.3406193756 0.7568441558 + 0.200399232517 8073.6029842057 0.7569136275 + 0.399998685187 12863.0175475432 0.7909977410 + 0.401198682269 12888.3201637268 0.7912000918 + 0.802397845535 20327.7491877224 0.8579605121 + 1.999996162246 38549.9121682135 1.0549304985 + 3.999994470511 62466.4995392078 1.4148389053 + 5.999993272437 75522.6050869130 1.8959820009 + 7.999992144801 76254.9000946656 2.6298761076 + 9.999990874297 67887.2756495430 3.7923399445 + 0.100391003806 11301.9449549376 0.2895233557 + 0.711166731140 42880.0782305710 0.3269370950 + 1.422349670282 71991.7655323695 0.3682687961 + 3.555920533199 153112.3194324035 0.4949706777 + 0.101952448998 15803.7325927436 0.1883896213 + 0.722243804571 72822.0101849312 0.2134745664 + 1.445769708523 140562.4107203877 0.2402915373 + 3.612450051560 319944.8089023037 0.3195612454 diff --git a/mytest/visc_NaK2SO4.out b/mytest/visc_NaK2SO4.out index eccad33a..1a523cd1 100644 --- a/mytest/visc_NaK2SO4.out +++ b/mytest/visc_NaK2SO4.out @@ -161,7 +161,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 191 Density (g/cm³) = 0.99923 Volume (L) = 1.00091 - Viscosity (mPa s) = 1.13881 + Viscosity (mPa s) = 1.13879 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.000e-03 Mass of water (kg) = 1.000e+00 @@ -237,7 +237,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 888 Density (g/cm³) = 0.99976 Volume (L) = 1.00095 - Viscosity (mPa s) = 1.14170 + Viscosity (mPa s) = 1.14165 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.500e-02 Mass of water (kg) = 1.000e+00 @@ -313,7 +313,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1686 Density (g/cm³) = 1.00042 Volume (L) = 1.00100 - Viscosity (mPa s) = 1.14486 + Viscosity (mPa s) = 1.14478 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.000e-02 Mass of water (kg) = 1.000e+00 @@ -386,10 +386,10 @@ Reaction 1. pH = 7.287 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 3143 + Specific Conductance (µS/cm, 15°C) = 3144 Density (g/cm³) = 1.00173 Volume (L) = 1.00111 - Viscosity (mPa s) = 1.15077 + Viscosity (mPa s) = 1.15066 Activity of water = 0.999 Ionic strength (mol/kgw) = 6.000e-02 Mass of water (kg) = 1.000e+00 @@ -462,10 +462,10 @@ Reaction 1. pH = 7.345 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 6938 + Specific Conductance (µS/cm, 15°C) = 6939 Density (g/cm³) = 1.00561 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.16758 + Viscosity (mPa s) = 1.16741 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -538,10 +538,10 @@ Reaction 1. pH = 7.345 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 6950 + Specific Conductance (µS/cm, 15°C) = 6951 Density (g/cm³) = 1.00562 Volume (L) = 1.00149 - Viscosity (mPa s) = 1.16764 + Viscosity (mPa s) = 1.16746 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.503e-01 Mass of water (kg) = 1.000e+00 @@ -614,10 +614,10 @@ Reaction 1. pH = 7.357 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 8110 + Specific Conductance (µS/cm, 15°C) = 8111 Density (g/cm³) = 1.00692 Volume (L) = 1.00162 - Viscosity (mPa s) = 1.17319 + Viscosity (mPa s) = 1.17300 Activity of water = 0.997 Ionic strength (mol/kgw) = 1.806e-01 Mass of water (kg) = 1.000e+00 @@ -690,10 +690,10 @@ Reaction 1. pH = 7.376 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 10308 + Specific Conductance (µS/cm, 15°C) = 10310 Density (g/cm³) = 1.00948 Volume (L) = 1.00191 - Viscosity (mPa s) = 1.18419 + Viscosity (mPa s) = 1.18396 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.409e-01 Mass of water (kg) = 1.000e+00 @@ -766,10 +766,10 @@ Reaction 1. pH = 7.390 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12354 + Specific Conductance (µS/cm, 15°C) = 12356 Density (g/cm³) = 1.01198 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.19494 + Viscosity (mPa s) = 1.19469 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -842,10 +842,10 @@ Reaction 1. pH = 7.391 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 12394 + Specific Conductance (µS/cm, 15°C) = 12396 Density (g/cm³) = 1.01203 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.19516 + Viscosity (mPa s) = 1.19491 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.012e-01 Mass of water (kg) = 1.000e+00 @@ -918,10 +918,10 @@ Reaction 1. pH = 7.412 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 16332 + Specific Conductance (µS/cm, 15°C) = 16336 Density (g/cm³) = 1.01709 Volume (L) = 1.00284 - Viscosity (mPa s) = 1.21716 + Viscosity (mPa s) = 1.21686 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.218e-01 Mass of water (kg) = 1.000e+00 @@ -994,10 +994,10 @@ Reaction 1. pH = 7.477 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 45403 + Specific Conductance (µS/cm, 15°C) = 45418 Density (g/cm³) = 1.06045 Volume (L) = 1.00997 - Viscosity (mPa s) = 1.42847 + Viscosity (mPa s) = 1.42791 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -3003,7 +3003,7 @@ Reaction 1. pH = 7.388 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 115585 + Specific Conductance (µS/cm, 25°C) = 115586 Density (g/cm³) = 1.16889 Volume (L) = 1.04473 Viscosity (mPa s) = 1.79286 @@ -3340,10 +3340,10 @@ Reaction 1. pH = 6.862 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 14992 + Specific Conductance (µS/cm, 55°C) = 14985 Density (g/cm³) = 0.99183 Volume (L) = 1.01540 - Viscosity (mPa s) = 0.51704 + Viscosity (mPa s) = 0.51731 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.500e-01 Mass of water (kg) = 1.000e+00 @@ -3416,10 +3416,10 @@ Reaction 1. pH = 6.924 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 26418 + Specific Conductance (µS/cm, 55°C) = 26402 Density (g/cm³) = 0.99785 Volume (L) = 1.01638 - Viscosity (mPa s) = 0.52900 + Viscosity (mPa s) = 0.52939 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -3492,10 +3492,10 @@ Reaction 1. pH = 7.050 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 94896 + Specific Conductance (µS/cm, 55°C) = 94783 Density (g/cm³) = 1.04398 Volume (L) = 1.02590 - Viscosity (mPa s) = 0.62781 + Viscosity (mPa s) = 0.62867 Activity of water = 0.981 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -3568,10 +3568,10 @@ Reaction 1. pH = 7.073 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 122519 + Specific Conductance (µS/cm, 55°C) = 122360 Density (g/cm³) = 1.06597 Volume (L) = 1.03139 - Viscosity (mPa s) = 0.68213 + Viscosity (mPa s) = 0.68315 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -3644,10 +3644,10 @@ Reaction 1. pH = 7.098 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 157101 + Specific Conductance (µS/cm, 55°C) = 156884 Density (g/cm³) = 1.09781 Volume (L) = 1.04029 - Viscosity (mPa s) = 0.77155 + Viscosity (mPa s) = 0.77277 Activity of water = 0.965 Ionic strength (mol/kgw) = 3.000e+00 Mass of water (kg) = 1.000e+00 @@ -3720,10 +3720,10 @@ Reaction 1. pH = 7.111 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 175691 + Specific Conductance (µS/cm, 55°C) = 175446 Density (g/cm³) = 1.11832 Volume (L) = 1.04662 - Viscosity (mPa s) = 0.83725 + Viscosity (mPa s) = 0.83859 Activity of water = 0.958 Ionic strength (mol/kgw) = 3.600e+00 Mass of water (kg) = 1.000e+00 @@ -3796,10 +3796,10 @@ Reaction 1. pH = 7.127 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 55°C) = 197237 + Specific Conductance (µS/cm, 55°C) = 196965 Density (g/cm³) = 1.14806 Volume (L) = 1.05662 - Viscosity (mPa s) = 0.94651 + Viscosity (mPa s) = 0.94801 Activity of water = 0.948 Ionic strength (mol/kgw) = 4.500e+00 Mass of water (kg) = 1.000e+00 @@ -3905,10 +3905,10 @@ Reaction 1. pH = 6.577 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 17753 + Specific Conductance (µS/cm, 100°C) = 17733 Density (g/cm³) = 0.96241 Volume (L) = 1.04397 - Viscosity (mPa s) = 0.28705 + Viscosity (mPa s) = 0.28742 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.990e-02 Mass of water (kg) = 1.000e+00 @@ -3981,10 +3981,10 @@ Reaction 1. pH = 6.766 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 87846 + Specific Conductance (µS/cm, 100°C) = 87609 Density (g/cm³) = 0.98624 Volume (L) = 1.04788 - Viscosity (mPa s) = 0.31438 + Viscosity (mPa s) = 0.31536 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.068e-01 Mass of water (kg) = 1.000e+00 @@ -4057,10 +4057,10 @@ Reaction 1. pH = 6.824 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 155014 + Specific Conductance (µS/cm, 100°C) = 154477 Density (g/cm³) = 1.01293 Volume (L) = 1.05332 - Viscosity (mPa s) = 0.34660 + Viscosity (mPa s) = 0.34797 Activity of water = 0.983 Ionic strength (mol/kgw) = 1.414e+00 Mass of water (kg) = 1.000e+00 @@ -4133,10 +4133,10 @@ Reaction 1. pH = 6.903 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 100°C) = 309782 + Specific Conductance (µS/cm, 100°C) = 308473 Density (g/cm³) = 1.08785 Volume (L) = 1.07304 - Viscosity (mPa s) = 0.45443 + Viscosity (mPa s) = 0.45661 Activity of water = 0.960 Ionic strength (mol/kgw) = 3.534e+00 Mass of water (kg) = 1.000e+00 @@ -4242,10 +4242,10 @@ Reaction 1. pH = 6.550 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 24900 + Specific Conductance (µS/cm, 150°C) = 24844 Density (g/cm³) = 0.92119 Volume (L) = 1.09068 - Viscosity (mPa s) = 0.18651 + Viscosity (mPa s) = 0.18698 Activity of water = 0.999 Ionic strength (mol/kgw) = 9.989e-02 Mass of water (kg) = 1.000e+00 @@ -4319,10 +4319,10 @@ Reaction 1. pH = 6.728 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 150°C) = 136223 + Specific Conductance (µS/cm, 150°C) = 135484 Density (g/cm³) = 0.94538 Volume (L) = 1.09317 - Viscosity (mPa s) = 0.20496 + Viscosity (mPa s) = 0.20621 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.068e-01 Mass of water (kg) = 1.000e+00 @@ -4432,7 +4432,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 559 Density (g/cm³) = 0.99946 Volume (L) = 1.00098 - Viscosity (mPa s) = 1.13874 + Viscosity (mPa s) = 1.13871 Activity of water = 1.000 Ionic strength (mol/kgw) = 7.500e-03 Mass of water (kg) = 1.000e+00 @@ -4508,7 +4508,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 1083 Density (g/cm³) = 0.99982 Volume (L) = 1.00106 - Viscosity (mPa s) = 1.13932 + Viscosity (mPa s) = 1.13927 Activity of water = 1.000 Ionic strength (mol/kgw) = 1.500e-02 Mass of water (kg) = 1.000e+00 @@ -4584,7 +4584,7 @@ Reaction 1. Specific Conductance (µS/cm, 15°C) = 2074 Density (g/cm³) = 1.00053 Volume (L) = 1.00121 - Viscosity (mPa s) = 1.14023 + Viscosity (mPa s) = 1.14016 Activity of water = 1.000 Ionic strength (mol/kgw) = 3.000e-02 Mass of water (kg) = 1.000e+00 @@ -4657,10 +4657,10 @@ Reaction 1. pH = 7.340 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 7325 + Specific Conductance (µS/cm, 15°C) = 7326 Density (g/cm³) = 1.00478 Volume (L) = 1.00220 - Viscosity (mPa s) = 1.14426 + Viscosity (mPa s) = 1.14412 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.203e-01 Mass of water (kg) = 1.000e+00 @@ -4733,10 +4733,10 @@ Reaction 1. pH = 7.392 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 13287 + Specific Conductance (µS/cm, 15°C) = 13288 Density (g/cm³) = 1.01015 Volume (L) = 1.00353 - Viscosity (mPa s) = 1.14867 + Viscosity (mPa s) = 1.14848 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.361e-01 Mass of water (kg) = 1.000e+00 @@ -4809,10 +4809,10 @@ Reaction 1. pH = 7.403 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 15°C) = 15008 + Specific Conductance (µS/cm, 15°C) = 15009 Density (g/cm³) = 1.01177 Volume (L) = 1.00394 - Viscosity (mPa s) = 1.14997 + Viscosity (mPa s) = 1.14977 Activity of water = 0.996 Ionic strength (mol/kgw) = 2.712e-01 Mass of water (kg) = 1.000e+00 @@ -7307,10 +7307,10 @@ Reaction 1. pH = 6.918 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 17081 + Specific Conductance (µS/cm, 50°C) = 17077 Density (g/cm³) = 0.99483 Volume (L) = 1.01399 - Viscosity (mPa s) = 0.55419 + Viscosity (mPa s) = 0.55441 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.506e-01 Mass of water (kg) = 1.000e+00 @@ -7383,10 +7383,10 @@ Reaction 1. pH = 6.986 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 30883 + Specific Conductance (µS/cm, 50°C) = 30874 Density (g/cm³) = 1.00145 Volume (L) = 1.01595 - Viscosity (mPa s) = 0.56037 + Viscosity (mPa s) = 0.56068 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -7459,10 +7459,10 @@ Reaction 1. pH = 6.987 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 31068 + Specific Conductance (µS/cm, 50°C) = 31058 Density (g/cm³) = 1.00154 Volume (L) = 1.01598 - Viscosity (mPa s) = 0.56046 + Viscosity (mPa s) = 0.56076 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.021e-01 Mass of water (kg) = 1.000e+00 @@ -7535,10 +7535,10 @@ Reaction 1. pH = 7.027 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 43457 + Specific Conductance (µS/cm, 50°C) = 43442 Density (g/cm³) = 1.00790 Volume (L) = 1.01794 - Viscosity (mPa s) = 0.56628 + Viscosity (mPa s) = 0.56665 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.473e-01 Mass of water (kg) = 1.000e+00 @@ -7611,10 +7611,10 @@ Reaction 1. pH = 7.029 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 44006 + Specific Conductance (µS/cm, 50°C) = 43990 Density (g/cm³) = 1.00818 Volume (L) = 1.01804 - Viscosity (mPa s) = 0.56655 + Viscosity (mPa s) = 0.56692 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.539e-01 Mass of water (kg) = 1.000e+00 @@ -7687,10 +7687,10 @@ Reaction 1. pH = 7.058 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 55937 + Specific Conductance (µS/cm, 50°C) = 55914 Density (g/cm³) = 1.01450 Volume (L) = 1.02006 - Viscosity (mPa s) = 0.57234 + Viscosity (mPa s) = 0.57277 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -7763,10 +7763,10 @@ Reaction 1. pH = 7.103 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 79564 + Specific Conductance (µS/cm, 50°C) = 79525 Density (g/cm³) = 1.02725 Volume (L) = 1.02436 - Viscosity (mPa s) = 0.58419 + Viscosity (mPa s) = 0.58472 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.000e-01 Mass of water (kg) = 1.000e+00 @@ -7839,10 +7839,10 @@ Reaction 1. pH = 7.137 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 102478 + Specific Conductance (µS/cm, 50°C) = 102421 Density (g/cm³) = 1.03975 Volume (L) = 1.02881 - Viscosity (mPa s) = 0.59611 + Viscosity (mPa s) = 0.59671 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -7915,10 +7915,10 @@ Reaction 1. pH = 7.165 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 124858 + Specific Conductance (µS/cm, 50°C) = 124784 Density (g/cm³) = 1.05200 Volume (L) = 1.03340 - Viscosity (mPa s) = 0.60817 + Viscosity (mPa s) = 0.60884 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -7991,10 +7991,10 @@ Reaction 1. pH = 7.190 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 146733 + Specific Conductance (µS/cm, 50°C) = 146638 Density (g/cm³) = 1.06401 Volume (L) = 1.03811 - Viscosity (mPa s) = 0.62043 + Viscosity (mPa s) = 0.62117 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.800e+00 Mass of water (kg) = 1.000e+00 @@ -8067,10 +8067,10 @@ Reaction 1. pH = 7.213 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 168076 + Specific Conductance (µS/cm, 50°C) = 167962 Density (g/cm³) = 1.07579 Volume (L) = 1.04294 - Viscosity (mPa s) = 0.63293 + Viscosity (mPa s) = 0.63373 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -8143,10 +8143,10 @@ Reaction 1. pH = 7.217 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 171083 + Specific Conductance (µS/cm, 50°C) = 170965 Density (g/cm³) = 1.07746 Volume (L) = 1.04364 - Viscosity (mPa s) = 0.63474 + Viscosity (mPa s) = 0.63555 Activity of water = 0.974 Ionic strength (mol/kgw) = 2.143e+00 Mass of water (kg) = 1.000e+00 @@ -8219,10 +8219,10 @@ Reaction 1. pH = 7.232 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 186181 + Specific Conductance (µS/cm, 50°C) = 186048 Density (g/cm³) = 1.08586 Volume (L) = 1.04723 - Viscosity (mPa s) = 0.64405 + Viscosity (mPa s) = 0.64490 Activity of water = 0.972 Ionic strength (mol/kgw) = 2.361e+00 Mass of water (kg) = 1.000e+00 @@ -8295,10 +8295,10 @@ Reaction 1. pH = 7.235 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 188847 + Specific Conductance (µS/cm, 50°C) = 188712 Density (g/cm³) = 1.08735 Volume (L) = 1.04788 - Viscosity (mPa s) = 0.64573 + Viscosity (mPa s) = 0.64659 Activity of water = 0.972 Ionic strength (mol/kgw) = 2.400e+00 Mass of water (kg) = 1.000e+00 @@ -8371,10 +8371,10 @@ Reaction 1. pH = 7.256 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 208999 + Specific Conductance (µS/cm, 50°C) = 208842 Density (g/cm³) = 1.09869 Volume (L) = 1.05292 - Viscosity (mPa s) = 0.65889 + Viscosity (mPa s) = 0.65979 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.700e+00 Mass of water (kg) = 1.000e+00 @@ -8447,10 +8447,10 @@ Reaction 1. pH = 7.265 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 217091 + Specific Conductance (µS/cm, 50°C) = 216926 Density (g/cm³) = 1.10329 Volume (L) = 1.05502 - Viscosity (mPa s) = 0.66441 + Viscosity (mPa s) = 0.66534 Activity of water = 0.967 Ionic strength (mol/kgw) = 2.823e+00 Mass of water (kg) = 1.000e+00 @@ -8523,10 +8523,10 @@ Reaction 1. pH = 7.268 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 219996 + Specific Conductance (µS/cm, 50°C) = 219828 Density (g/cm³) = 1.10495 Volume (L) = 1.05579 - Viscosity (mPa s) = 0.66643 + Viscosity (mPa s) = 0.66736 Activity of water = 0.966 Ionic strength (mol/kgw) = 2.868e+00 Mass of water (kg) = 1.000e+00 @@ -8599,10 +8599,10 @@ Reaction 1. pH = 7.273 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 50°C) = 224894 + Specific Conductance (µS/cm, 50°C) = 224721 Density (g/cm³) = 1.10775 Volume (L) = 1.05710 - Viscosity (mPa s) = 0.66988 + Viscosity (mPa s) = 0.67083 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.944e+00 Mass of water (kg) = 1.000e+00 @@ -8708,10 +8708,10 @@ Reaction 1. pH = 6.833 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 19528 + Specific Conductance (µS/cm, 60°C) = 19522 Density (g/cm³) = 0.98995 Volume (L) = 1.01898 - Viscosity (mPa s) = 0.47326 + Viscosity (mPa s) = 0.47353 Activity of water = 0.998 Ionic strength (mol/kgw) = 1.506e-01 Mass of water (kg) = 1.000e+00 @@ -8784,10 +8784,10 @@ Reaction 1. pH = 6.904 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 35198 + Specific Conductance (µS/cm, 60°C) = 35182 Density (g/cm³) = 0.99655 Volume (L) = 1.02095 - Viscosity (mPa s) = 0.47914 + Viscosity (mPa s) = 0.47951 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.000e-01 Mass of water (kg) = 1.000e+00 @@ -8860,10 +8860,10 @@ Reaction 1. pH = 6.905 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 35407 + Specific Conductance (µS/cm, 60°C) = 35391 Density (g/cm³) = 0.99664 Volume (L) = 1.02098 - Viscosity (mPa s) = 0.47922 + Viscosity (mPa s) = 0.47959 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.021e-01 Mass of water (kg) = 1.000e+00 @@ -8936,10 +8936,10 @@ Reaction 1. pH = 6.948 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 50046 + Specific Conductance (µS/cm, 60°C) = 50019 Density (g/cm³) = 1.00325 Volume (L) = 1.02304 - Viscosity (mPa s) = 0.48499 + Viscosity (mPa s) = 0.48546 Activity of water = 0.994 Ionic strength (mol/kgw) = 4.539e-01 Mass of water (kg) = 1.000e+00 @@ -9012,10 +9012,10 @@ Reaction 1. pH = 6.978 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 63520 + Specific Conductance (µS/cm, 60°C) = 63482 Density (g/cm³) = 1.00954 Volume (L) = 1.02508 - Viscosity (mPa s) = 0.49048 + Viscosity (mPa s) = 0.49101 Activity of water = 0.992 Ionic strength (mol/kgw) = 6.000e-01 Mass of water (kg) = 1.000e+00 @@ -9088,10 +9088,10 @@ Reaction 1. pH = 6.998 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 74253 + Specific Conductance (µS/cm, 60°C) = 74205 Density (g/cm³) = 1.01462 Volume (L) = 1.02677 - Viscosity (mPa s) = 0.49493 + Viscosity (mPa s) = 0.49551 Activity of water = 0.991 Ionic strength (mol/kgw) = 7.194e-01 Mass of water (kg) = 1.000e+00 @@ -9164,10 +9164,10 @@ Reaction 1. pH = 7.024 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 90162 + Specific Conductance (µS/cm, 60°C) = 90098 Density (g/cm³) = 1.02224 Volume (L) = 1.02938 - Viscosity (mPa s) = 0.50164 + Viscosity (mPa s) = 0.50230 Activity of water = 0.988 Ionic strength (mol/kgw) = 9.000e-01 Mass of water (kg) = 1.000e+00 @@ -9240,10 +9240,10 @@ Reaction 1. pH = 7.047 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 106858 + Specific Conductance (µS/cm, 60°C) = 106776 Density (g/cm³) = 1.03029 Volume (L) = 1.03224 - Viscosity (mPa s) = 0.50882 + Viscosity (mPa s) = 0.50954 Activity of water = 0.986 Ionic strength (mol/kgw) = 1.093e+00 Mass of water (kg) = 1.000e+00 @@ -9316,10 +9316,10 @@ Reaction 1. pH = 7.058 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 115970 + Specific Conductance (µS/cm, 60°C) = 115878 Density (g/cm³) = 1.03469 Volume (L) = 1.03384 - Viscosity (mPa s) = 0.51280 + Viscosity (mPa s) = 0.51355 Activity of water = 0.985 Ionic strength (mol/kgw) = 1.200e+00 Mass of water (kg) = 1.000e+00 @@ -9392,10 +9392,10 @@ Reaction 1. pH = 7.087 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 141165 + Specific Conductance (µS/cm, 60°C) = 141041 Density (g/cm³) = 1.04690 Volume (L) = 1.03843 - Viscosity (mPa s) = 0.52400 + Viscosity (mPa s) = 0.52485 Activity of water = 0.982 Ionic strength (mol/kgw) = 1.500e+00 Mass of water (kg) = 1.000e+00 @@ -9468,10 +9468,10 @@ Reaction 1. pH = 7.106 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 158385 + Specific Conductance (µS/cm, 60°C) = 158240 Density (g/cm³) = 1.05527 Volume (L) = 1.04170 - Viscosity (mPa s) = 0.53187 + Viscosity (mPa s) = 0.53277 Activity of water = 0.979 Ionic strength (mol/kgw) = 1.709e+00 Mass of water (kg) = 1.000e+00 @@ -9544,10 +9544,10 @@ Reaction 1. pH = 7.113 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 165783 + Specific Conductance (µS/cm, 60°C) = 165628 Density (g/cm³) = 1.05887 Volume (L) = 1.04314 - Viscosity (mPa s) = 0.53531 + Viscosity (mPa s) = 0.53624 Activity of water = 0.978 Ionic strength (mol/kgw) = 1.800e+00 Mass of water (kg) = 1.000e+00 @@ -9620,10 +9620,10 @@ Reaction 1. pH = 7.137 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 189805 + Specific Conductance (µS/cm, 60°C) = 189617 Density (g/cm³) = 1.07063 Volume (L) = 1.04797 - Viscosity (mPa s) = 0.54676 + Viscosity (mPa s) = 0.54775 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.100e+00 Mass of water (kg) = 1.000e+00 @@ -9696,10 +9696,10 @@ Reaction 1. pH = 7.138 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 190303 + Specific Conductance (µS/cm, 60°C) = 190114 Density (g/cm³) = 1.07087 Volume (L) = 1.04807 - Viscosity (mPa s) = 0.54700 + Viscosity (mPa s) = 0.54800 Activity of water = 0.975 Ionic strength (mol/kgw) = 2.106e+00 Mass of water (kg) = 1.000e+00 @@ -9772,10 +9772,10 @@ Reaction 1. pH = 7.160 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 213189 + Specific Conductance (µS/cm, 60°C) = 212967 Density (g/cm³) = 1.08216 Volume (L) = 1.05290 - Viscosity (mPa s) = 0.55837 + Viscosity (mPa s) = 0.55944 Activity of water = 0.972 Ionic strength (mol/kgw) = 2.400e+00 Mass of water (kg) = 1.000e+00 @@ -9848,10 +9848,10 @@ Reaction 1. pH = 7.167 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 220713 + Specific Conductance (µS/cm, 60°C) = 220480 Density (g/cm³) = 1.08590 Volume (L) = 1.05454 - Viscosity (mPa s) = 0.56223 + Viscosity (mPa s) = 0.56331 Activity of water = 0.970 Ionic strength (mol/kgw) = 2.498e+00 Mass of water (kg) = 1.000e+00 @@ -9924,10 +9924,10 @@ Reaction 1. pH = 7.181 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 235890 + Specific Conductance (µS/cm, 60°C) = 235635 Density (g/cm³) = 1.09348 Volume (L) = 1.05794 - Viscosity (mPa s) = 0.57020 + Viscosity (mPa s) = 0.57133 Activity of water = 0.968 Ionic strength (mol/kgw) = 2.700e+00 Mass of water (kg) = 1.000e+00 @@ -10000,10 +10000,10 @@ Reaction 1. pH = 7.199 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 253812 + Specific Conductance (µS/cm, 60°C) = 253530 Density (g/cm³) = 1.10253 Volume (L) = 1.06210 - Viscosity (mPa s) = 0.58000 + Viscosity (mPa s) = 0.58118 Activity of water = 0.965 Ionic strength (mol/kgw) = 2.944e+00 Mass of water (kg) = 1.000e+00 @@ -10076,10 +10076,10 @@ Reaction 1. pH = 7.206 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 261203 + Specific Conductance (µS/cm, 60°C) = 260909 Density (g/cm³) = 1.10630 Volume (L) = 1.06387 - Viscosity (mPa s) = 0.58418 + Viscosity (mPa s) = 0.58538 Activity of water = 0.964 Ionic strength (mol/kgw) = 3.046e+00 Mass of water (kg) = 1.000e+00 @@ -10152,10 +10152,10 @@ Reaction 1. pH = 7.213 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 60°C) = 268566 + Specific Conductance (µS/cm, 60°C) = 268261 Density (g/cm³) = 1.11007 Volume (L) = 1.06567 - Viscosity (mPa s) = 0.58843 + Viscosity (mPa s) = 0.58965 Activity of water = 0.963 Ionic strength (mol/kgw) = 3.150e+00 Mass of water (kg) = 1.000e+00 diff --git a/mytest/visc_NaK2SO4_101.sel b/mytest/visc_NaK2SO4_101.sel index 0671006c..a695d955 100644 --- a/mytest/visc_NaK2SO4_101.sel +++ b/mytest/visc_NaK2SO4_101.sel @@ -1,131 +1,131 @@ Mu SC Viscosity 0.000000100644 0.0547821166 0.8900243330 - 0.003000065168 191.2292557606 1.1388102351 - 0.015000052421 888.6317133909 1.1417033672 - 0.030000040727 1686.4632045931 1.1448579329 - 0.060000024306 3143.9452468095 1.1507675039 - 0.149999995736 6938.4380059750 1.1675849464 - 0.150299995666 6950.1519997580 1.1676400648 - 0.180599989158 8110.4789367817 1.1731918820 - 0.240899978564 10308.5124186244 1.1841859048 - 0.299999970260 12354.0651656271 1.1949386241 - 0.301199970108 12394.6896763048 1.1951569889 - 0.421799957168 16332.8211917493 1.2171596935 - 1.499999912736 45403.5041664586 1.4284698581 - 0.001500098906 124.0129064237 0.8906429483 - 0.003000095339 243.5559154475 0.8910113200 - 0.007500085303 587.7824190245 0.8919360393 - 0.015000071434 1130.8488122247 0.8932869477 - 0.030000050436 2144.7467800628 0.8957563548 - 0.053400027014 3602.8692076779 0.8993758601 - 0.075300010521 4874.6802808584 0.9026477644 - 0.099899995623 6225.6758643912 0.9062519425 - 0.149999972283 8793.8435930671 0.9134659074 - 0.214499950124 11848.9835759241 0.9226324769 - 0.284399931802 14943.5056289611 0.9325096739 - 0.299999928268 15610.6562422004 0.9347119224 - 0.569999885041 26285.0272599756 0.9730743516 - 0.706799870667 31269.7535956155 0.9928499405 - 1.143899839990 46004.5247218461 1.0582581188 - 1.413599827501 54354.5680768595 1.1005918133 - 1.499999824131 56919.1628013765 1.1145060749 - 2.099999806048 73282.3748858297 1.2163209344 - 2.303399801335 78258.1178536072 1.2530687628 - 2.999999788108 93119.8046294418 1.3887096118 - 3.479099780568 101413.5835757528 1.4919604201 - 3.533699779758 102261.2167045801 1.5043029820 - 3.599999778786 103264.0264548881 1.5194577156 - 3.921599774218 107721.4768476226 1.5956833457 - 4.499999766460 114090.7936253855 1.7451937006 - 4.671299764247 115585.9932634467 1.7928600268 - 4.970099760459 117784.3968373489 1.8800900513 - 5.880299749422 121482.0777637110 2.1822687983 - 5.904899749133 121523.5572405356 2.1912882808 - 0.149999683323 14992.8559582912 0.5170351119 - 0.299999504884 26418.8768412503 0.5290014565 - 1.499999053569 94896.1801801985 0.6278118369 - 2.099998968492 122519.2134961779 0.6821272296 - 2.999998886332 157101.2817373543 0.7715478943 - 3.599998847426 175691.1475003534 0.8372523934 - 4.499998802374 197237.8767505086 0.9465130550 - 0.099897834284 17753.1218770361 0.2870531253 - 0.706795216121 87846.2094206853 0.3143837677 - 1.413594227330 155014.5658505899 0.3465966221 - 3.533693235070 309782.1091166059 0.4544304137 - 0.099889008190 24900.4247774101 0.1865097078 - 0.706778655224 136223.5138601151 0.2049555825 - 0.007500059903 559.3278414216 1.1387408819 - 0.015000052368 1083.2365452412 1.1393172234 - 0.030000040623 2074.8147672026 1.1402274722 - 0.120300002774 7325.9508711301 1.1442591865 - 0.236099978144 13287.1151962843 1.1486735581 - 0.271199972665 15008.4424317067 1.1499737756 - 0.007500085260 703.3750021517 0.8910783906 - 0.015000071344 1361.1665576503 0.8916467128 - 0.024300057484 2140.9550452186 0.8922459995 - 0.029700050608 2580.0334737125 0.8925661080 - 0.030000050246 2604.1731561488 0.8925834612 - 0.060300020983 4935.8188672756 0.8941938934 - 0.120299984316 9153.8986877395 0.8970083357 - 0.120599984171 9174.0806802517 0.8970217900 - 0.150599970860 11158.3641531608 0.8983486484 - 0.179699959790 13028.3387219331 0.8996086708 - 0.236099941882 16536.1548605065 0.9020035408 - 0.240599940609 16810.6139152419 0.9021927615 - 0.271199932434 18659.3006383300 0.9034744556 - 0.299999925410 20374.2649962203 0.9046746257 - 0.299999925410 20374.2649962203 0.9046746257 - 0.302099924920 20498.4670505758 0.9047619631 - 0.302099924920 20498.4670505758 0.9047619631 - 0.453899895350 29246.2247216164 0.9110529858 - 0.599999873934 37378.3187966572 0.9171405238 - 0.606299873112 37724.7016450478 0.9174048157 - 0.720899859240 43978.4692126011 0.9222463307 - 0.899999840618 53609.9265478826 0.9299648648 - 0.913199839355 54314.1727322337 0.9305419969 - 1.098899822712 64152.0188750164 0.9387941100 - 1.199999814336 69457.0371012558 0.9433977858 - 1.499999791210 84995.7381358510 0.9575681369 - 1.535399788596 86808.8222982007 0.9592939801 - 1.717199775392 96047.9660877179 0.9683498779 - 1.799999769467 100214.1583752977 0.9725859673 - 2.090999748840 114631.1308540663 0.9880744253 - 2.112599747314 115686.4399676413 0.9892635896 - 0.150599763419 17081.6291235342 0.5541907239 - 0.299999614914 30883.8640078344 0.5603726638 - 0.302099613306 31068.5398099803 0.5604577749 - 0.447299519513 43457.8964223721 0.5662830123 - 0.453899515886 44006.7504053387 0.5665457731 - 0.599999444948 55937.2216121944 0.5723387021 - 0.899999334715 79564.1311315727 0.5841912705 - 1.199999248965 102478.0394484350 0.5961075950 - 1.499999175221 124858.8151002669 0.6081673387 - 1.799999107616 146733.3499170326 0.6204252758 - 2.099999043017 168076.8873967321 0.6329301833 - 2.142899033910 171083.2554332626 0.6347414383 - 2.360998987857 186181.3278091601 0.6440491186 - 2.399998979647 188847.4836188528 0.6457320106 - 2.699998916472 208999.0077408346 0.6588852784 - 2.823298890410 217091.1301329358 0.6644071331 - 2.867998880938 219996.4497115585 0.6664270439 - 2.943898864820 224894.5290896480 0.6698797901 - 0.150599570091 19528.9120517826 0.4732614058 - 0.299999345280 35198.0310434934 0.4791356975 - 0.302099342840 35407.2659975756 0.4792165415 - 0.453899194768 50046.5744186132 0.4849933589 - 0.599999086672 63520.3758309171 0.4904762984 - 0.719399013232 74253.2531495637 0.4949292664 - 0.899998918564 90162.1881779585 0.5016438021 - 1.093198831755 106858.8808369827 0.5088229033 - 1.199998788169 115970.8565621600 0.5127969020 - 1.499998676706 141165.0513644148 0.5240047426 - 1.709098605277 158385.7175936608 0.5318731339 - 1.799998575254 165783.7281933246 0.5353120168 - 2.099998478979 189805.5824198054 0.5467558771 - 2.106298476990 190303.3611435835 0.5469979206 - 2.399998385066 213189.6605962442 0.5583723156 - 2.498398354467 220713.0681573548 0.5622263985 - 2.699998291807 235890.6741960724 0.5701991517 - 2.943898215711 253812.8127108734 0.5799978132 - 3.046498183515 261203.0981504312 0.5841752284 - 3.149998150889 268566.5483770011 0.5884253836 + 0.003000065168 191.2329916715 1.1387852567 + 0.015000052421 888.6703451619 1.1416475118 + 0.030000040727 1686.5663929438 1.1447789411 + 0.060000024306 3144.2150305640 1.1506557923 + 0.149999995736 6939.3597877694 1.1674083145 + 0.150299995666 6951.0762012840 1.1674632563 + 0.180599989158 8111.6536786682 1.1729980692 + 0.240899978564 10310.2164103617 1.1839620625 + 0.299999970260 12356.3190706302 1.1946888286 + 0.301199970108 12396.9550166050 1.1949066944 + 0.421799957168 16336.2800988465 1.2168634987 + 1.499999912736 45418.9211497163 1.4279112979 + 0.001500098906 124.0129078522 0.8906429368 + 0.003000095339 243.5559194110 0.8910113038 + 0.007500085303 587.7824341166 0.8919360136 + 0.015000071434 1130.8488531730 0.8932869114 + 0.030000050436 2144.7468893656 0.8957563034 + 0.053400027014 3602.8694510284 0.8993757916 + 0.075300010521 4874.6806696267 0.9026476829 + 0.099899995623 6225.6764328782 0.9062518487 + 0.149999972283 8793.8445659940 0.9134657925 + 0.214499950124 11848.9851228676 0.9226323394 + 0.284399931802 14943.5078455768 0.9325095156 + 0.299999928268 15610.6586136192 0.9347117598 + 0.569999885041 26285.0325187020 0.9730741275 + 0.706799870667 31269.7604154156 0.9928496910 + 1.143899839990 46004.5366893655 1.0582578013 + 1.413599827501 54354.5832004101 1.1005914604 + 1.499999824131 56919.1789160947 1.1145057113 + 2.099999806048 73282.3974295171 1.2163205043 + 2.303399801335 78258.1423457691 1.2530683123 + 2.999999788108 93119.8347066629 1.3887090977 + 3.479099780568 101413.6164467441 1.4919598665 + 3.533699779758 102261.2498389368 1.5043024241 + 3.599999778786 103264.0598940297 1.5194571524 + 3.921599774218 107721.5115343317 1.5956827579 + 4.499999766460 114090.8296304586 1.7451930710 + 4.671299764247 115586.0294440891 1.7928593853 + 4.970099760459 117784.4331067221 1.8800893896 + 5.880299749422 121482.1128112972 2.1822680786 + 5.904899749133 121523.5922281496 2.1912875596 + 0.149999683323 14985.8919062907 0.5173075428 + 0.299999504884 26402.0395341255 0.5293867335 + 1.499999053569 94783.2220037592 0.6286733465 + 2.099998968492 122360.0408331051 0.6831465820 + 2.999998886332 156884.8686532869 0.7727662541 + 3.599998847426 175446.3850353627 0.8385870400 + 4.499998802374 196965.5906004312 0.9480052355 + 0.099897834284 17733.0424758460 0.2874188251 + 0.706795216121 87609.0526918393 0.3153565227 + 1.413594227330 154477.0004513770 0.3479723123 + 3.533693235070 308473.5851782977 0.4566054909 + 0.099889008190 24844.4105572828 0.1869804163 + 0.706778655224 135484.2720002023 0.2062076333 + 0.007500059903 559.3379581721 1.1387068603 + 0.015000052368 1083.2640446868 1.1392691092 + 0.030000040623 2074.8883939023 1.1401594281 + 0.120300002774 7326.4493557628 1.1441229278 + 0.236099978144 13288.3410371970 1.1484826695 + 0.271199972665 15009.9155070463 1.1497691891 + 0.007500085260 703.3750129558 0.8910783683 + 0.015000071344 1361.1665869952 0.8916466812 + 0.024300057484 2140.9551035188 0.8922459594 + 0.029700050608 2580.0335510792 0.8925660636 + 0.030000050246 2604.1732346162 0.8925834165 + 0.060300020983 4935.8190743038 0.8941938301 + 0.120299984316 9153.8992157137 0.8970082463 + 0.120599984171 9174.0812099888 0.8970217004 + 0.150599970860 11158.3648654935 0.8983485483 + 0.179699959790 13028.3396221010 0.8996085615 + 0.236099941882 16536.1561501324 0.9020034155 + 0.240599940609 16810.6152372419 0.9021926350 + 0.271199932434 18659.3021851517 0.9034743213 + 0.299999925410 20374.2667617380 0.9046744845 + 0.299999925410 20374.2667617380 0.9046744845 + 0.302099924920 20498.4688322981 0.9047618214 + 0.302099924920 20498.4688322981 0.9047618214 + 0.453899895350 29246.2277591574 0.9110528121 + 0.599999873934 37378.3231831030 0.9171403242 + 0.606299873112 37724.7060924714 0.9174046149 + 0.720899859240 43978.4748071107 0.9222461119 + 0.899999840618 53609.9340689533 0.9299646202 + 0.913199839355 54314.1804012951 0.9305417506 + 1.098899822712 64152.0287055501 0.9387938397 + 1.199999814336 69457.0481662614 0.9433975034 + 1.499999791210 84995.7530660108 0.9575678212 + 1.535399788596 86808.8377016771 0.9592936607 + 1.717199775392 96047.9839687265 0.9683495401 + 1.799999769467 100214.1774072916 0.9725856215 + 2.090999748840 114631.1540130353 0.9880740525 + 2.112599747314 115686.4634366972 0.9892632150 + 0.150599763419 17077.7378943805 0.5544050286 + 0.299999614914 30874.3775474601 0.5606751332 + 0.302099613306 31058.9682823464 0.5607613011 + 0.447299519513 43442.1004883004 0.5666523476 + 0.453899515886 43990.6567099332 0.5669178233 + 0.599999444948 55914.2428357827 0.5727664594 + 0.899999334715 79525.4671902961 0.5847151646 + 1.199999248965 102421.9814901899 0.5967125362 + 1.499999175221 124784.0422307069 0.6088436837 + 1.799999107616 146638.8986971949 0.6211661748 + 2.099999043017 167962.1270593129 0.6337304458 + 2.142899033910 170965.5576295597 0.6355498337 + 2.360998987857 186048.6257587328 0.6448976558 + 2.399998979647 188712.0914220465 0.6465875274 + 2.699998916472 208842.9451397891 0.6597926911 + 2.823298890410 216926.6226090312 0.6653350338 + 2.867998880938 219828.8933919213 0.6673622613 + 2.943898864820 224721.8148398458 0.6708273017 + 0.150599570091 19522.3535687454 0.4735285982 + 0.299999345280 35182.1203161577 0.4795128130 + 0.302099342840 35391.2135498216 0.4795949747 + 0.453899194768 50019.6863875378 0.4854572273 + 0.599999086672 63482.0991146414 0.4910096220 + 0.719399013232 74205.0637999019 0.4955132500 + 0.899998918564 90098.0905718860 0.5022969884 + 1.093198831755 106776.6951563092 0.5095427928 + 1.199998788169 115878.2570417272 0.5135511371 + 1.499998676706 141041.8873854807 0.5248480035 + 1.709098605277 158240.3332639097 0.5327732535 + 1.799998575254 165628.5034711136 0.5362357632 + 2.099998478979 189617.3217109500 0.5477536376 + 2.106298476990 190114.3997363846 0.5479971766 + 2.399998385066 212967.8638714784 0.5594389666 + 2.498398354467 220480.2367164519 0.5633146963 + 2.699998291807 235635.2721243383 0.5713305062 + 2.943898215711 253530.3087753347 0.5811791627 + 3.046498183515 260909.3034685082 0.5853769877 + 3.149998150889 268261.4500590136 0.5896473863 diff --git a/mytest/visc_NaKCl.out b/mytest/visc_NaKCl.out index 0e01d4f2..575f5b99 100644 --- a/mytest/visc_NaKCl.out +++ b/mytest/visc_NaKCl.out @@ -8596,7 +8596,7 @@ Reaction 1. pH = 11.043 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 260629 + Specific Conductance (µS/cm, 25°C) = 260630 Density (g/cm³) = 1.12813 Volume (L) = 1.09158 Viscosity (mPa s) = 1.07253 @@ -8750,7 +8750,7 @@ Reaction 1. pH = 11.158 Charge balance pe = 4.000 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 25°C) = 298573 + Specific Conductance (µS/cm, 25°C) = 298574 Density (g/cm³) = 1.15577 Volume (L) = 1.11612 Viscosity (mPa s) = 1.14455 diff --git a/mytest/volume-zero.out b/mytest/volume-zero.out index 689ad2e4..7b2e78e4 100644 --- a/mytest/volume-zero.out +++ b/mytest/volume-zero.out @@ -77,10 +77,10 @@ Initial solution 1. (SampleID 20120312 PN1) pH = 6.680 pe = 0.851 - Specific Conductance (µS/cm, 58°C) = 38971 + Specific Conductance (µS/cm, 58°C) = 38960 Density (g/cm³) = 0.99391 Volume (L) = 1.02047 - Viscosity (mPa s) = 0.50301 + Viscosity (mPa s) = 0.50320 Activity of water = 0.992 Ionic strength (mol/kgw) = 2.424e-01 Mass of water (kg) = 1.000e+00 @@ -338,10 +338,10 @@ CO2(g) -0.75 1.789e-01 0.648 6.756e-03 7.196e-03 4.403e-04 pH = 6.739 Charge balance pe = -4.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 38857 + Specific Conductance (µS/cm, 58°C) = 38847 Density (g/cm³) = 0.99746 Volume (L) = 1.01825 - Viscosity (mPa s) = 0.50630 + Viscosity (mPa s) = 0.50649 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.425e-01 Mass of water (kg) = 1.000e+00 @@ -592,10 +592,10 @@ Using gas phase 1. pH = 6.739 Charge balance pe = -4.439 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 58°C) = 38857 + Specific Conductance (µS/cm, 58°C) = 38847 Density (g/cm³) = 0.99746 Volume (L) = 1.01825 - Viscosity (mPa s) = 0.50630 + Viscosity (mPa s) = 0.50649 Activity of water = 0.990 Ionic strength (mol/kgw) = 2.425e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/volume-zero_101.sel b/mytest/volume-zero_101.sel index 2baeca26..21e203e5 100644 --- a/mytest/volume-zero_101.sel +++ b/mytest/volume-zero_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.242393001823 38971.4565397655 - 0.242472947624 38857.8828097054 - 0.242472947624 38857.8828097055 + 0.242393001823 38960.5076272173 + 0.242472947624 38847.0006710602 + 0.242472947624 38847.0006710603 diff --git a/mytest/water_vp.out b/mytest/water_vp.out index d979df19..28d2acb4 100644 --- a/mytest/water_vp.out +++ b/mytest/water_vp.out @@ -773,7 +773,7 @@ H2O(g) 1.35 2.247e+01 0.914 0.000e+00 6.065e-01 6.065e-01 Specific Conductance (µS/cm, 225°C) = 2 Density (g/cm³) = 0.83379 Volume (L) = 1.18624 - Viscosity (mPa s) = 0.11893 + Viscosity (mPa s) = 0.11894 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.388e-06 Mass of water (kg) = 9.891e-01 @@ -1744,7 +1744,7 @@ H2O(g) 1.40 2.520e+01 0.903 0.000e+00 6.898e-01 6.898e-01 Specific Conductance (µS/cm, 225°C) = 2 Density (g/cm³) = 0.83379 Volume (L) = 1.18444 - Viscosity (mPa s) = 0.11893 + Viscosity (mPa s) = 0.11894 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.393e-06 Mass of water (kg) = 9.876e-01 diff --git a/mytest/water_vp1.out b/mytest/water_vp1.out index ba5d6b08..fcfb70be 100644 --- a/mytest/water_vp1.out +++ b/mytest/water_vp1.out @@ -773,7 +773,7 @@ H2O(g) 1.35 2.247e+01 0.914 0.000e+00 6.065e-01 6.065e-01 Specific Conductance (µS/cm, 225°C) = 2 Density (g/cm³) = 0.83379 Volume (L) = 1.18624 - Viscosity (mPa s) = 0.11893 + Viscosity (mPa s) = 0.11894 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.388e-06 Mass of water (kg) = 9.891e-01 @@ -1727,7 +1727,7 @@ H2O(g) 1.40 2.520e+01 0.903 0.000e+00 6.898e-01 6.898e-01 Specific Conductance (µS/cm, 225°C) = 2 Density (g/cm³) = 0.83379 Volume (L) = 1.18444 - Viscosity (mPa s) = 0.11893 + Viscosity (mPa s) = 0.11894 Activity of water = 1.000 Ionic strength (mol/kgw) = 2.393e-06 Mass of water (kg) = 9.876e-01 diff --git a/mytest/water_vp1_101.sel b/mytest/water_vp1_101.sel index 3c9a0362..37e8db82 100644 --- a/mytest/water_vp1_101.sel +++ b/mytest/water_vp1_101.sel @@ -1,28 +1,28 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000033952 0.0114859182 + 0.000000033952 0.0114859185 0.000000100644 0.0547765032 - 0.000000234097 0.1697380513 - 0.000000453436 0.3969680129 - 0.000000760967 0.7555719697 - 0.000001136903 1.2243871432 - 0.000001540282 1.7392442357 - 0.000001916867 2.2094502377 - 0.000002212387 2.5466581147 - 0.000002387753 2.6941314504 - 0.000002434028 2.6469654154 - 0.000002389197 2.4625104606 - 0.000002381989 2.2822798843 - 0.000000033952 0.0114859160 + 0.000000234097 0.1697380324 + 0.000000453436 0.3969678610 + 0.000000760967 0.7555712883 + 0.000001136903 1.2243849949 + 0.000001540282 1.7392390026 + 0.000001916867 2.2094398553 + 0.000002212387 2.5466407569 + 0.000002387753 2.6941063725 + 0.000002434028 2.6469333568 + 0.000002389197 2.4624729293 + 0.000002381989 2.2822362342 + 0.000000033952 0.0114859163 0.000000100644 0.0547765045 - 0.000000234097 0.1697380512 - 0.000000453436 0.3969680115 - 0.000000760967 0.7555719569 - 0.000001137128 1.2246294617 - 0.000001540948 1.7399961414 - 0.000001918470 2.2112970825 - 0.000002215548 2.5502965566 - 0.000002392611 2.6996118171 - 0.000002438126 2.6514207504 - 0.000002380661 2.4537153854 - 0.000002313614 2.2167873018 + 0.000000234097 0.1697380323 + 0.000000453436 0.3969678596 + 0.000000760967 0.7555712754 + 0.000001137128 1.2246273128 + 0.000001540948 1.7399909052 + 0.000001918470 2.2112866880 + 0.000002215548 2.5502791644 + 0.000002392611 2.6995866685 + 0.000002438126 2.6513886172 + 0.000002380661 2.4536780386 + 0.000002313614 2.2167453526 diff --git a/mytest/water_vp_101.sel b/mytest/water_vp_101.sel index 3c9a0362..37e8db82 100644 --- a/mytest/water_vp_101.sel +++ b/mytest/water_vp_101.sel @@ -1,28 +1,28 @@ Mu SC 0.000000100644 0.0547821292 - 0.000000033952 0.0114859182 + 0.000000033952 0.0114859185 0.000000100644 0.0547765032 - 0.000000234097 0.1697380513 - 0.000000453436 0.3969680129 - 0.000000760967 0.7555719697 - 0.000001136903 1.2243871432 - 0.000001540282 1.7392442357 - 0.000001916867 2.2094502377 - 0.000002212387 2.5466581147 - 0.000002387753 2.6941314504 - 0.000002434028 2.6469654154 - 0.000002389197 2.4625104606 - 0.000002381989 2.2822798843 - 0.000000033952 0.0114859160 + 0.000000234097 0.1697380324 + 0.000000453436 0.3969678610 + 0.000000760967 0.7555712883 + 0.000001136903 1.2243849949 + 0.000001540282 1.7392390026 + 0.000001916867 2.2094398553 + 0.000002212387 2.5466407569 + 0.000002387753 2.6941063725 + 0.000002434028 2.6469333568 + 0.000002389197 2.4624729293 + 0.000002381989 2.2822362342 + 0.000000033952 0.0114859163 0.000000100644 0.0547765045 - 0.000000234097 0.1697380512 - 0.000000453436 0.3969680115 - 0.000000760967 0.7555719569 - 0.000001137128 1.2246294617 - 0.000001540948 1.7399961414 - 0.000001918470 2.2112970825 - 0.000002215548 2.5502965566 - 0.000002392611 2.6996118171 - 0.000002438126 2.6514207504 - 0.000002380661 2.4537153854 - 0.000002313614 2.2167873018 + 0.000000234097 0.1697380323 + 0.000000453436 0.3969678596 + 0.000000760967 0.7555712754 + 0.000001137128 1.2246273128 + 0.000001540948 1.7399909052 + 0.000001918470 2.2112866880 + 0.000002215548 2.5502791644 + 0.000002392611 2.6995866685 + 0.000002438126 2.6513886172 + 0.000002380661 2.4536780386 + 0.000002313614 2.2167453526 diff --git a/mytest/xsoln_visc.out b/mytest/xsoln_visc.out index d087f1f5..db3cbb15 100644 --- a/mytest/xsoln_visc.out +++ b/mytest/xsoln_visc.out @@ -138,10 +138,10 @@ Reaction 1. pH = 6.527 Charge balance pe = 3.712 Adjusted to redox equilibrium - Specific Conductance (µS/cm, 198°C) = 57405 + Specific Conductance (µS/cm, 198°C) = 57326 Density (g/cm³) = 0.88135 Volume (L) = 1.15164 - Viscosity (mPa s) = 0.14157 + Viscosity (mPa s) = 0.14207 Activity of water = 0.996 Ionic strength (mol/kgw) = 1.424e-01 Mass of water (kg) = 1.000e+00 diff --git a/mytest/xsoln_visc_101.sel b/mytest/xsoln_visc_101.sel index 06e61a96..927db6c2 100644 --- a/mytest/xsoln_visc_101.sel +++ b/mytest/xsoln_visc_101.sel @@ -1,4 +1,4 @@ Mu SC 0.000000100644 0.8900243330 - 0.142396361632 0.1415710219 + 0.142396361632 0.1420703699 0.000000100644 0.8900243330 diff --git a/mytest/y_H2O.out b/mytest/y_H2O.out index 922497e3..60339495 100644 --- a/mytest/y_H2O.out +++ b/mytest/y_H2O.out @@ -2931,7 +2931,7 @@ H2O(g) -0.90 1.268e-01 0.959 4.791e-03 4.896e-03 1.054e-04 Specific Conductance (µS/cm, 50°C) = 117 Density (g/cm³) = 0.98908 Volume (L) = 1.01537 - Viscosity (mPa s) = 0.54920 + Viscosity (mPa s) = 0.54921 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.300e-04 Mass of water (kg) = 9.999e-01 @@ -3026,7 +3026,7 @@ H2O(g) -0.89 1.286e-01 0.946 4.896e-03 5.005e-03 1.082e-04 Specific Conductance (µS/cm, 50°C) = 134 Density (g/cm³) = 0.98943 Volume (L) = 1.01642 - Viscosity (mPa s) = 0.54999 + Viscosity (mPa s) = 0.55000 Activity of water = 0.998 Ionic strength (mol/kgw) = 2.645e-04 Mass of water (kg) = 9.999e-01 @@ -3311,7 +3311,7 @@ H2O(g) -0.87 1.341e-01 0.908 5.230e-03 5.347e-03 1.171e-04 Specific Conductance (µS/cm, 50°C) = 172 Density (g/cm³) = 0.99043 Volume (L) = 1.01943 - Viscosity (mPa s) = 0.55222 + Viscosity (mPa s) = 0.55223 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.449e-04 Mass of water (kg) = 9.999e-01 @@ -3501,7 +3501,7 @@ H2O(g) -0.86 1.380e-01 0.884 5.467e-03 5.590e-03 1.234e-04 Specific Conductance (µS/cm, 50°C) = 191 Density (g/cm³) = 0.99107 Volume (L) = 1.02131 - Viscosity (mPa s) = 0.55361 + Viscosity (mPa s) = 0.55362 Activity of water = 0.995 Ionic strength (mol/kgw) = 3.871e-04 Mass of water (kg) = 9.999e-01 @@ -3786,7 +3786,7 @@ H2O(g) -0.79 1.615e-01 0.761 6.401e-03 7.178e-03 7.764e-04 Specific Conductance (µS/cm, 50°C) = 258 Density (g/cm³) = 0.99409 Volume (L) = 1.03007 - Viscosity (mPa s) = 0.56004 + Viscosity (mPa s) = 0.56005 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.432e-04 Mass of water (kg) = 9.999e-01 @@ -3881,7 +3881,7 @@ H2O(g) -0.76 1.734e-01 0.711 7.178e-03 8.055e-03 8.777e-04 Specific Conductance (µS/cm, 50°C) = 276 Density (g/cm³) = 0.99521 Volume (L) = 1.03319 - Viscosity (mPa s) = 0.56236 + Viscosity (mPa s) = 0.56237 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.900e-04 Mass of water (kg) = 9.998e-01 @@ -3976,7 +3976,7 @@ H2O(g) -0.73 1.861e-01 0.665 8.055e-03 9.044e-03 9.881e-04 Specific Conductance (µS/cm, 50°C) = 290 Density (g/cm³) = 0.99620 Volume (L) = 1.03584 - Viscosity (mPa s) = 0.56435 + Viscosity (mPa s) = 0.56436 Activity of water = 0.988 Ionic strength (mol/kgw) = 6.276e-04 Mass of water (kg) = 9.998e-01 @@ -4356,7 +4356,7 @@ H2O(g) -0.39 4.078e-01 0.312 2.417e-02 3.520e-02 1.103e-02 Specific Conductance (µS/cm, 50°C) = 345 Density (g/cm³) = 1.00152 Volume (L) = 1.04681 - Viscosity (mPa s) = 0.57391 + Viscosity (mPa s) = 0.57392 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.876e-04 Mass of water (kg) = 9.994e-01 @@ -4546,7 +4546,7 @@ H2O(g) -0.20 6.326e-01 0.204 4.918e-02 6.610e-02 1.692e-02 Specific Conductance (µS/cm, 50°C) = 354 Density (g/cm³) = 1.00289 Volume (L) = 1.04738 - Viscosity (mPa s) = 0.57567 + Viscosity (mPa s) = 0.57568 Activity of water = 0.981 Ionic strength (mol/kgw) = 8.155e-04 Mass of water (kg) = 9.988e-01 @@ -4641,7 +4641,7 @@ H2O(g) -0.08 8.227e-01 0.159 6.610e-02 8.574e-02 1.964e-02 Specific Conductance (µS/cm, 50°C) = 361 Density (g/cm³) = 1.00401 Volume (L) = 1.04745 - Viscosity (mPa s) = 0.57691 + Viscosity (mPa s) = 0.57692 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.354e-04 Mass of water (kg) = 9.984e-01 @@ -4838,7 +4838,7 @@ H2O(g) 0.20 1.580e+00 0.087 1.076e-01 1.308e-01 2.317e-02 Specific Conductance (µS/cm, 50°C) = 387 Density (g/cm³) = 1.00839 Volume (L) = 1.04679 - Viscosity (mPa s) = 0.58123 + Viscosity (mPa s) = 0.58124 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.064e-04 Mass of water (kg) = 9.976e-01 @@ -5042,7 +5042,7 @@ H2O(g) 0.53 3.361e+00 0.047 1.539e-01 1.753e-01 2.135e-02 Specific Conductance (µS/cm, 50°C) = 443 Density (g/cm³) = 1.01807 Volume (L) = 1.04312 - Viscosity (mPa s) = 0.58991 + Viscosity (mPa s) = 0.58992 Activity of water = 0.976 Ionic strength (mol/kgw) = 1.055e-03 Mass of water (kg) = 9.968e-01 @@ -5447,7 +5447,7 @@ H2O(g) -0.40 3.956e-01 0.957 1.389e-02 1.418e-02 2.935e-04 Specific Conductance (µS/cm, 75°C) = 123 Density (g/cm³) = 0.97571 Volume (L) = 1.02827 - Viscosity (mPa s) = 0.37864 + Viscosity (mPa s) = 0.37865 Activity of water = 0.999 Ionic strength (mol/kgw) = 1.986e-04 Mass of water (kg) = 9.997e-01 @@ -5732,7 +5732,7 @@ H2O(g) -0.38 4.123e-01 0.920 1.479e-02 1.510e-02 3.134e-04 Specific Conductance (µS/cm, 75°C) = 170 Density (g/cm³) = 0.97656 Volume (L) = 1.03077 - Viscosity (mPa s) = 0.37961 + Viscosity (mPa s) = 0.37962 Activity of water = 0.997 Ionic strength (mol/kgw) = 2.770e-04 Mass of water (kg) = 9.997e-01 @@ -6112,7 +6112,7 @@ H2O(g) -0.36 4.356e-01 0.874 1.608e-02 1.642e-02 3.416e-04 Specific Conductance (µS/cm, 75°C) = 212 Density (g/cm³) = 0.97762 Volume (L) = 1.03384 - Viscosity (mPa s) = 0.38077 + Viscosity (mPa s) = 0.38078 Activity of water = 0.996 Ionic strength (mol/kgw) = 3.505e-04 Mass of water (kg) = 9.997e-01 @@ -6302,7 +6302,7 @@ H2O(g) -0.30 4.993e-01 0.769 1.824e-02 2.026e-02 2.018e-03 Specific Conductance (µS/cm, 75°C) = 278 Density (g/cm³) = 0.97995 Volume (L) = 1.04028 - Viscosity (mPa s) = 0.38321 + Viscosity (mPa s) = 0.38322 Activity of water = 0.993 Ionic strength (mol/kgw) = 4.703e-04 Mass of water (kg) = 9.996e-01 @@ -6397,7 +6397,7 @@ H2O(g) -0.27 5.340e-01 0.722 2.026e-02 2.249e-02 2.228e-03 Specific Conductance (µS/cm, 75°C) = 300 Density (g/cm³) = 0.98095 Volume (L) = 1.04289 - Viscosity (mPa s) = 0.38423 + Viscosity (mPa s) = 0.38424 Activity of water = 0.991 Ionic strength (mol/kgw) = 5.120e-04 Mass of water (kg) = 9.996e-01 @@ -6492,7 +6492,7 @@ H2O(g) -0.24 5.707e-01 0.679 2.249e-02 2.494e-02 2.451e-03 Specific Conductance (µS/cm, 75°C) = 317 Density (g/cm³) = 0.98185 Volume (L) = 1.04514 - Viscosity (mPa s) = 0.38513 + Viscosity (mPa s) = 0.38514 Activity of water = 0.990 Ionic strength (mol/kgw) = 5.462e-04 Mass of water (kg) = 9.995e-01 @@ -6587,7 +6587,7 @@ H2O(g) -0.22 6.092e-01 0.638 2.494e-02 2.763e-02 2.685e-03 Specific Conductance (µS/cm, 75°C) = 331 Density (g/cm³) = 0.98266 Volume (L) = 1.04706 - Viscosity (mPa s) = 0.38593 + Viscosity (mPa s) = 0.38594 Activity of water = 0.989 Ionic strength (mol/kgw) = 5.746e-04 Mass of water (kg) = 9.995e-01 @@ -6682,7 +6682,7 @@ H2O(g) -0.11 7.826e-01 0.504 2.763e-02 4.089e-02 1.327e-02 Specific Conductance (µS/cm, 75°C) = 368 Density (g/cm³) = 0.98518 Volume (L) = 1.05228 - Viscosity (mPa s) = 0.38834 + Viscosity (mPa s) = 0.38835 Activity of water = 0.986 Ionic strength (mol/kgw) = 6.516e-04 Mass of water (kg) = 9.993e-01 @@ -6967,7 +6967,7 @@ H2O(g) 0.19 1.548e+00 0.264 8.075e-02 1.075e-01 2.676e-02 Specific Conductance (µS/cm, 75°C) = 413 Density (g/cm³) = 0.98964 Volume (L) = 1.05694 - Viscosity (mPa s) = 0.39223 + Viscosity (mPa s) = 0.39224 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.527e-04 Mass of water (kg) = 9.980e-01 @@ -7062,7 +7062,7 @@ H2O(g) 0.29 1.961e+00 0.212 1.075e-01 1.384e-01 3.093e-02 Specific Conductance (µS/cm, 75°C) = 426 Density (g/cm³) = 0.99116 Volume (L) = 1.05724 - Viscosity (mPa s) = 0.39345 + Viscosity (mPa s) = 0.39346 Activity of water = 0.982 Ionic strength (mol/kgw) = 7.797e-04 Mass of water (kg) = 9.975e-01 @@ -7252,7 +7252,7 @@ H2O(g) 0.52 3.331e+00 0.131 1.728e-01 2.093e-01 3.654e-02 Specific Conductance (µS/cm, 75°C) = 459 Density (g/cm³) = 0.99574 Volume (L) = 1.05682 - Viscosity (mPa s) = 0.39703 + Viscosity (mPa s) = 0.39704 Activity of water = 0.980 Ionic strength (mol/kgw) = 8.526e-04 Mass of water (kg) = 9.962e-01 @@ -7347,7 +7347,7 @@ H2O(g) 0.65 4.469e+00 0.102 2.093e-01 2.463e-01 3.695e-02 Specific Conductance (µS/cm, 75°C) = 484 Density (g/cm³) = 0.99937 Volume (L) = 1.05585 - Viscosity (mPa s) = 0.39982 + Viscosity (mPa s) = 0.39983 Activity of water = 0.978 Ionic strength (mol/kgw) = 9.063e-04 Mass of water (kg) = 9.955e-01 @@ -7551,7 +7551,7 @@ H2O(g) 0.92 8.257e+00 0.065 2.812e-01 3.110e-01 2.980e-02 Specific Conductance (µS/cm, 75°C) = 563 Density (g/cm³) = 1.01129 Volume (L) = 1.05096 - Viscosity (mPa s) = 0.40907 + Viscosity (mPa s) = 0.40908 Activity of water = 0.975 Ionic strength (mol/kgw) = 1.078e-03 Mass of water (kg) = 9.944e-01 @@ -7653,7 +7653,7 @@ H2O(g) 1.05 1.117e+01 0.055 3.110e-01 3.317e-01 2.071e-02 Specific Conductance (µS/cm, 75°C) = 627 Density (g/cm³) = 1.02077 Volume (L) = 1.04599 - Viscosity (mPa s) = 0.41672 + Viscosity (mPa s) = 0.41673 Activity of water = 0.974 Ionic strength (mol/kgw) = 1.216e-03 Mass of water (kg) = 9.940e-01 diff --git a/mytest/y_H2O_101.sel b/mytest/y_H2O_101.sel index c1c2125c..ea35bd3e 100644 --- a/mytest/y_H2O_101.sel +++ b/mytest/y_H2O_101.sel @@ -1,81 +1,81 @@ Mu SC 0.000000100661 0.0546997340 - 0.000143303089 55.2767878048 - 0.000202273236 77.1667360577 - 0.000247007738 93.2476905988 - 0.000284248757 106.2233939851 - 0.000316622796 117.1629140290 - 0.000345483723 126.6256300007 - 0.000371639593 134.9504658748 - 0.000395619260 142.3625758239 - 0.000417791652 149.0213411938 - 0.000438426517 155.0449557978 - 0.000524362608 178.2465886275 - 0.000590127358 193.8641517428 - 0.000641983282 204.8490259889 - 0.000683291823 212.7759458147 - 0.000716196444 218.5906184415 - 0.000790160449 230.2677431960 - 0.000811747583 233.4713173392 - 0.000813370655 233.7230887126 - 0.000812606496 233.6343019238 - 0.000811296468 233.4831045804 - 0.000810301334 233.3662596673 - 0.000819509829 235.3981599633 - 0.000844428167 241.1197907309 - 0.000886830766 251.2989333727 - 0.000954203238 268.1103028514 - 0.001059153643 295.2060167481 - 0.001224591573 339.2236084748 - 0.000133711704 68.9692881541 - 0.000188553728 96.6687152082 - 0.000230037393 117.2793316938 - 0.000264476331 134.1238132751 - 0.000294334216 148.5079435674 - 0.000320883319 161.1109324388 - 0.000344884513 172.3419570178 - 0.000366836898 182.4713760162 - 0.000387089495 191.6896048036 - 0.000405898182 200.1371998156 - 0.000483837326 233.8998435232 - 0.000543169031 258.1649281768 - 0.000589991972 276.3882128981 - 0.000627617947 290.4305626351 - 0.000658150898 301.4365142751 - 0.000733977596 327.3881826316 - 0.000769159391 338.9466703123 - 0.000787582139 345.0104120805 - 0.000800910798 349.4850182226 - 0.000815479856 354.4988318160 - 0.000835447525 361.5395244219 - 0.000864412896 371.9824446495 - 0.000906449473 387.4409537003 - 0.000967074725 410.1242234806 - 0.001054578462 443.3502196583 - 0.001182329988 492.4365656643 - 0.000115484747 72.3526423586 - 0.000162823080 101.5647727589 - 0.000198623457 123.4118774796 - 0.000228342808 141.3592090066 - 0.000254111588 156.7653766503 - 0.000277030613 170.3354259167 - 0.000297758648 182.4931332892 - 0.000316728094 193.5178720650 - 0.000334241535 203.6059791512 - 0.000350520948 212.9020805935 - 0.000418230759 250.6653320579 - 0.000470282987 278.6263895685 - 0.000511971261 300.3007020847 - 0.000546150664 317.5776690423 - 0.000574610378 331.6220519364 - 0.000651566474 368.1143895821 - 0.000696043395 388.3831198200 - 0.000726614816 402.1295812759 - 0.000752654493 413.8326083596 - 0.000779701219 426.0495585829 - 0.000811766189 440.6321944538 - 0.000852556683 459.3084563155 - 0.000906322647 484.0654282926 - 0.000978693048 517.5181309982 - 0.001077804904 563.3908926344 - 0.001216154077 627.2638729602 + 0.000143303089 55.2767879108 + 0.000202273236 77.1667362328 + 0.000247007738 93.2476908315 + 0.000284248757 106.2233942684 + 0.000316622796 117.1629143573 + 0.000345483723 126.6256303699 + 0.000371639593 134.9504662813 + 0.000395619260 142.3625762646 + 0.000417791652 149.0213416661 + 0.000438426517 155.0449562993 + 0.000524362608 178.2465892475 + 0.000590127358 193.8641524475 + 0.000641983282 204.8490267557 + 0.000683291823 212.7759466275 + 0.000716196444 218.5906192887 + 0.000790160449 230.2677441139 + 0.000811747583 233.4713182767 + 0.000813370655 233.7230896516 + 0.000812606496 233.6343028623 + 0.000811296468 233.4831055179 + 0.000810301334 233.3662606040 + 0.000819509829 235.3981609119 + 0.000844428167 241.1197917128 + 0.000886830766 251.2989344143 + 0.000954203238 268.1103039933 + 0.001059153643 295.2060180566 + 0.001224591573 339.2236100669 + 0.000133711704 68.9688257816 + 0.000188553728 96.6679470820 + 0.000230037393 117.2783042757 + 0.000264476331 134.1225556725 + 0.000294334216 148.5064771705 + 0.000320883319 161.1092742398 + 0.000344884513 172.3401211504 + 0.000366836898 182.4693745948 + 0.000387089495 191.6874484327 + 0.000405898182 200.1348979217 + 0.000483837326 233.8969272073 + 0.000543169031 258.1615387144 + 0.000589991972 276.3844511318 + 0.000627617947 290.4265041883 + 0.000658150898 301.4322174197 + 0.000733977596 327.3833039557 + 0.000769159391 338.9415246817 + 0.000787582139 345.0051252329 + 0.000800910798 349.4796270914 + 0.000815479856 354.4933239066 + 0.000835447525 361.5338523269 + 0.000864412896 371.9765278407 + 0.000906449473 387.4346709803 + 0.000967074725 410.1173946996 + 0.001054578462 443.3425702631 + 0.001182329988 492.4276583871 + 0.000115484747 72.3516078171 + 0.000162823080 101.5630502605 + 0.000198623457 123.4095682166 + 0.000228342808 141.3563758049 + 0.000254111588 156.7620653855 + 0.000277030613 170.3316728652 + 0.000297758648 182.4889685285 + 0.000316728094 193.5133213219 + 0.000334241535 203.6010649182 + 0.000350520948 212.8968228545 + 0.000418230759 250.6585970199 + 0.000470282987 278.6184786520 + 0.000511971261 300.2918330149 + 0.000546150664 317.5680075401 + 0.000574610378 331.6117277932 + 0.000651566474 368.1022684312 + 0.000696043395 388.3699568365 + 0.000726614816 402.1156968144 + 0.000752654493 413.8181021023 + 0.000779701219 426.0343968745 + 0.000811766189 440.6162421179 + 0.000852556683 459.2914778191 + 0.000906322647 484.0470651184 + 0.000978693048 517.4978517359 + 0.001077804904 563.3679018767 + 0.001216154077 627.2369481303 diff --git a/mytest/zero_modify_101.sel b/mytest/zero_modify_101.sel index c752e5cd..3a9f3e47 100644 --- a/mytest/zero_modify_101.sel +++ b/mytest/zero_modify_101.sel @@ -1,4 +1,4 @@ Mu SC - 0.010000110789 1177.7202259049 - 0.014606537240 1209.2176946675 - 0.001070096396 195.2030477552 + 0.010000110789 1177.7202399401 + 0.014606537240 1209.2177345336 + 0.001070096396 195.2030480039 diff --git a/mytest/zeta.out b/mytest/zeta.out index 1d44c5f6..44f48bb1 100644 --- a/mytest/zeta.out +++ b/mytest/zeta.out @@ -263,7 +263,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.823e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89049 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -406,7 +406,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.888e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89042 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -549,7 +549,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.926e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89039 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -692,7 +692,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.948e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89037 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -835,7 +835,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.961e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89036 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -978,7 +978,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.968e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1121,7 +1121,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.972e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1264,7 +1264,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.975e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1407,7 +1407,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.976e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1550,7 +1550,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1693,7 +1693,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1836,7 +1836,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -1979,7 +1979,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2122,7 +2122,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2265,7 +2265,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2408,7 +2408,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2551,7 +2551,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2694,7 +2694,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2837,7 +2837,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -2980,7 +2980,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3123,7 +3123,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.978e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3266,7 +3266,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3409,7 +3409,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3552,7 +3552,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.977e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3695,7 +3695,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.976e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3838,7 +3838,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.975e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -3981,7 +3981,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.973e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4124,7 +4124,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.969e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4267,7 +4267,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.962e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4410,7 +4410,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.949e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89035 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4553,7 +4553,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.927e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89036 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4696,7 +4696,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.890e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89036 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4839,7 +4839,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.826e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89038 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -4982,7 +4982,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.723e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89040 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5125,7 +5125,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.563e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89044 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5268,7 +5268,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.335e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89051 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5411,7 +5411,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.042e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89062 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.857e-02 m; of free pore: 2.857e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5554,7 +5554,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 1.709e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89084 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.856e-02 m; of free pore: 2.856e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5697,7 +5697,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 1.375e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89121 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.855e-02 m; of free pore: 2.855e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5840,7 +5840,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 1.071e-07 kg, 100.0% of total DDL-water. - viscosity: 0.89188 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.854e-02 m; of free pore: 2.854e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -5983,7 +5983,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 8.171e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89309 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.851e-02 m; of free pore: 2.851e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -6126,7 +6126,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 6.148e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89527 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.846e-02 m; of free pore: 2.846e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -6269,7 +6269,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 4.593e-08 kg, 100.0% of total DDL-water. - viscosity: 0.89920 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.836e-02 m; of free pore: 2.836e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -6412,7 +6412,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 3.420e-08 kg, 100.0% of total DDL-water. - viscosity: 0.90639 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.819e-02 m; of free pore: 2.819e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. @@ -6555,7 +6555,7 @@ Q 7.000e-02 m² for 5.000e-02 g Water in diffuse layer: 2.544e-08 kg, 100.0% of total DDL-water. - viscosity: 0.91987 mPa s for DDL water. + viscosity: 0.00000 mPa s for DDL water. Radius of total pore: 2.789e-02 m; of free pore: 2.789e-02 m. Total moles in diffuse layer (excluding water), Donnan calculation. diff --git a/mytest/zeta_101.sel b/mytest/zeta_101.sel index 9e1495ee..b3251b91 100644 --- a/mytest/zeta_101.sel +++ b/mytest/zeta_101.sel @@ -1,47 +1,47 @@ Mu SC - 0.010007571873 1409.9995617206 - 0.011137480561 1671.6945213505 - 0.010641517332 1556.9214362180 - 0.010363567575 1492.5214067050 - 0.010207571788 1456.3527317549 - 0.010119947091 1436.0286428752 - 0.010070703364 1424.6046728064 - 0.010043021514 1418.1824668812 - 0.010027458030 1414.5719813536 - 0.010018707067 1412.5423492686 - 0.010013786408 1411.4016387375 - 0.010011019507 1410.7608687412 - 0.010009463747 1410.4014259931 - 0.010008589138 1410.2005737864 - 0.010008097724 1410.0896354781 - 0.010007822093 1410.0305992184 - 0.010007668568 1410.0031921596 - 0.010007587613 1409.9982405297 - 0.010007598540 1410.0193796583 - 0.010007750825 1410.0790218056 - 0.010008028628 1410.1895077109 - 0.010008515988 1410.3871611912 - 0.010009375417 1410.7388353271 - 0.010010897184 1411.3639774535 - 0.010013597666 1412.4752568955 - 0.010018395151 1414.4510037912 - 0.010026922712 1417.9641198781 - 0.010042084888 1424.2114432489 - 0.010069048509 1435.3219392315 - 0.010117007368 1455.0835292303 - 0.010202328765 1490.2385509383 - 0.010354175251 1552.7966064801 - 0.010624582206 1664.1754559818 - 0.011106619435 1862.6482167483 - 0.011967379411 2216.8254088675 - 0.013508501679 2850.2666263450 - 0.016278339088 3986.7670989001 - 0.021281036099 6033.9577508310 - 0.030365469739 9736.7570301246 - 0.046942281894 16454.6402783680 - 0.077290338423 28650.3561976951 - 0.132911556729 50720.6132198028 - 0.234741581482 90325.9051212939 - 0.420647246877 160275.1923453393 - 0.758763646331 280398.5422353934 - 1.371230852839 476514.3378043122 + 0.010007571873 1409.9995708386 + 0.011137480561 1671.6945313674 + 0.010641517332 1556.9214458421 + 0.010363567575 1492.5214161076 + 0.010207571788 1456.3527410327 + 0.010119947091 1436.0286520827 + 0.010070703364 1424.6046819742 + 0.010043021514 1418.1824760268 + 0.010027458030 1414.5719904867 + 0.010018707067 1412.5423583946 + 0.010013786408 1411.4016478595 + 0.010011019507 1410.7608778610 + 0.010009463747 1410.4014351117 + 0.010008589138 1410.2005829042 + 0.010008097724 1410.0896445957 + 0.010007822093 1410.0306083359 + 0.010007668568 1410.0032012772 + 0.010007587613 1409.9982496477 + 0.010007598540 1410.0193887772 + 0.010007750825 1410.0790309263 + 0.010008028628 1410.1895168348 + 0.010008515988 1410.3871703208 + 0.010009375417 1410.7388444666 + 0.010010897184 1411.3639866107 + 0.010013597666 1412.4752660843 + 0.010018395151 1414.4510130360 + 0.010026922712 1417.9641292227 + 0.010042084888 1424.2114527708 + 0.010069048509 1435.3219490690 + 0.010117007368 1455.0835396296 + 0.010202328765 1490.2385623380 + 0.010354175251 1552.7966196641 + 0.010624582206 1664.1754723544 + 0.011106619435 1862.6482388404 + 0.011967379411 2216.8254412824 + 0.013508501679 2850.2666775808 + 0.016278339088 3986.7671850077 + 0.021281036099 6033.9579031800 + 0.030365469739 9736.7573130461 + 0.046942281894 16454.6408316228 + 0.077290338423 28650.3573409058 + 0.132911556729 50720.6157062009 + 0.234741581482 90325.9107373485 + 0.420647246877 160275.2052685684 + 0.758763646331 280398.5718817053 + 1.371230852839 476514.4038797339 diff --git a/src/Solution.cxx b/src/Solution.cxx index 9bf4a56e..231db416 100644 --- a/src/Solution.cxx +++ b/src/Solution.cxx @@ -48,6 +48,7 @@ cxxSolution::cxxSolution(PHRQ_io * io) this->cb = 0.0; this->density = 1.0; this->viscosity = 1.0; + this->viscos_0 = 1.0; this->mass_water = 1.0; this->soln_vol = 1.0; this->total_alkalinity = 0.0; @@ -82,6 +83,7 @@ cxxSolution::operator =(const cxxSolution &rhs) this->total_o = rhs.total_o; this->density = rhs.density; this->viscosity = rhs.viscosity; + this->viscos_0 = rhs.viscos_0; this->cb = rhs.cb; this->mass_water = rhs.mass_water; this->soln_vol = rhs.soln_vol; @@ -274,6 +276,8 @@ cxxSolution::dump_raw(std::ostream & s_oss, unsigned int indent, int *n_out) con // new identifier s_oss << indent1; s_oss << "-viscosity " << this->viscosity << "\n"; + s_oss << indent1; + s_oss << "-viscos_0 " << this->viscos_0 << "\n"; // soln_total conc structures s_oss << indent1; @@ -1086,6 +1090,16 @@ cxxSolution::read_raw(CParser & parser, bool check) } opt_save = CParser::OPT_DEFAULT; break; + case 29: // viscos_0 + if (!(parser.get_iss() >> this->viscos_0)) + { + this->viscos_0 = 1.0; + parser.incr_input_error(); + parser.error_msg("Expected numeric value for viscos_0.", + PHRQ_io::OT_CONTINUE); + } + opt_save = CParser::OPT_DEFAULT; + break; } if (opt == CParser::OPT_EOF || opt == CParser::OPT_KEYWORD) break; @@ -1415,6 +1429,7 @@ cxxSolution::add(const cxxSolution & addee, LDBLE extensive) this->cb += addee.cb * extensive; this->density = f1 * this->density + f2 * addee.density; this->viscosity = f1 * this->viscosity + f2 * addee.viscosity; + this->viscos_0 = f1 * this->viscos_0 + f2 * addee.viscos_0; this->patm = f1 * this->patm + f2 * addee.patm; // this->potV = f1 * this->potV + f2 * addee.potV; // appt this->mass_water += addee.mass_water * extensive; @@ -1773,6 +1788,7 @@ const std::vector< std::string >::value_type temp_vopts[] = { std::vector< std::string >::value_type("log_gamma_map"), // 25 std::vector< std::string >::value_type("potential"), // 26 std::vector< std::string >::value_type("log_molalities_map"), // 27 - std::vector< std::string >::value_type("viscosity") // 28 + std::vector< std::string >::value_type("viscosity"), // 28 + std::vector< std::string >::value_type("viscos_0") // 29 }; const std::vector< std::string > cxxSolution::vopts(temp_vopts, temp_vopts + sizeof temp_vopts / sizeof temp_vopts[0]); diff --git a/src/Solution.h b/src/Solution.h index c4326a8a..3e16e289 100644 --- a/src/Solution.h +++ b/src/Solution.h @@ -51,6 +51,8 @@ class cxxSolution:public cxxNumKeyword void Set_density(LDBLE l_density) {this->density = l_density;} LDBLE Get_viscosity() const { return this->viscosity; } void Set_viscosity(LDBLE l_viscos) { this->viscosity = l_viscos; } + LDBLE Get_viscos_0() const { return this->viscos_0; } + void Set_viscos_0(LDBLE l_viscos_0) { this->viscos_0 = l_viscos_0; } LDBLE Get_mass_water() const {return this->mass_water;} void Set_mass_water(LDBLE l_mass_water) {this->mass_water = l_mass_water;} LDBLE Get_total_alkalinity() const {return this->total_alkalinity;} @@ -134,6 +136,7 @@ class cxxSolution:public cxxNumKeyword LDBLE mass_water; LDBLE density; LDBLE viscosity; + LDBLE viscos_0; LDBLE soln_vol; LDBLE total_alkalinity; cxxNameDouble totals; diff --git a/src/global_structures.h b/src/global_structures.h index 69a7748f..3e7cc701 100644 --- a/src/global_structures.h +++ b/src/global_structures.h @@ -109,7 +109,7 @@ #define TRANSPORT 8 #define PHAST 9 -/* constants in mass balance */ +/* constraints in mass balance */ #define EITHER 0 #define DISSOLVE 1 #define PRECIPITATE -1 @@ -1486,7 +1486,9 @@ class spec c = 0; // charge number z = 0; - // temperature corrected free water diffusion coefficient, m2/s + // free water diffusion coefficient, m2/s + Dw = 0; + // temperature and viscosity corrected free water diffusion coefficient, m2/s Dwt = 0; // temperature factor for Dw dw_t = 0; @@ -1503,6 +1505,7 @@ class spec LDBLE lg; LDBLE c; LDBLE z; + LDBLE Dw; LDBLE Dwt; LDBLE dw_t; LDBLE dw_a_v_dif; @@ -1521,17 +1524,17 @@ class sol_D count_exch_spec = 0; // total moles of X-, max X- in transport step in sol_D[1], tk exch_total = 0, x_max = 0, tk_x = 0; - // (tk_x * viscos_0_25) / (298 * viscos_0) - viscos_f0 = 0; - // (viscos_0) / (298 * viscos) - viscos_f = 0; + // viscos_0 at I = 0 + viscos_0 = 0; + // viscosity of solution + viscos = 0; spec = NULL; spec_size = 0; } int count_spec; int count_exch_spec; LDBLE exch_total, x_max, tk_x; - LDBLE viscos_f0, viscos_f; + LDBLE viscos_0, viscos; class spec* spec; int spec_size; }; diff --git a/src/kinetics.cpp b/src/kinetics.cpp index d1158e2f..2f6f6592 100644 --- a/src/kinetics.cpp +++ b/src/kinetics.cpp @@ -1581,7 +1581,8 @@ set_and_run(int i, int use_mix, int use_kinetics, int nsaver, sum_species(); viscos = viscosity(NULL); use.Get_solution_ptr()->Set_viscosity(viscos); - if (use.Get_surface_ptr() != NULL && dl_type_x != cxxSurface::NO_DL) + use.Get_solution_ptr()->Set_viscos_0(viscos_0); + if (use.Get_surface_ptr() != NULL && dl_type_x != cxxSurface::NO_DL && use.Get_surface_ptr()->Get_calc_viscosity()) use.Get_surface_ptr()->Set_DDL_viscosity(viscosity(use.Get_surface_ptr())); return (converge); } diff --git a/src/mainsubs.cpp b/src/mainsubs.cpp index 64d65549..27cb9ad2 100644 --- a/src/mainsubs.cpp +++ b/src/mainsubs.cpp @@ -438,6 +438,7 @@ initial_solutions(int print) sum_species(); viscos = viscosity(NULL); use.Get_solution_ptr()->Set_viscosity(viscos); + use.Get_solution_ptr()->Set_viscos_0(viscos_0); if (use.Get_surface_ptr() != NULL && dl_type_x != cxxSurface::NO_DL) use.Get_surface_ptr()->Set_DDL_viscosity(viscosity(use.Get_surface_ptr())); add_isotopes(solution_ref); @@ -1267,6 +1268,7 @@ xsolution_save(int n_user) // the subroutine is called at the start of a new simulation, and the following 2 go wrong since s_x is not updated temp_solution.Set_density(density_x); temp_solution.Set_viscosity(viscos); + temp_solution.Set_viscos_0(viscos_0); temp_solution.Set_total_h(total_h_x); temp_solution.Set_total_o(total_o_x); temp_solution.Set_cb(cb_x); /* cb_x does not include surface charge after sum_species */ diff --git a/src/step.cpp b/src/step.cpp index 7d3dc148..131aec3a 100644 --- a/src/step.cpp +++ b/src/step.cpp @@ -328,6 +328,7 @@ xsolution_zero(void) mu_x = 0.0; ah2o_x = 0.0; viscos = 0.0; + viscos_0 = 0.0; density_x = 0.0; total_h_x = 0.0; total_o_x = 0.0; @@ -381,6 +382,7 @@ add_solution(cxxSolution *solution_ptr, LDBLE extensive, LDBLE intensive) mu_x += solution_ptr->Get_mu() * intensive; ah2o_x += solution_ptr->Get_ah2o() * intensive; viscos += solution_ptr->Get_viscosity() * intensive; + viscos_0 += solution_ptr->Get_viscos_0() * intensive; density_x += solution_ptr->Get_density() * intensive; total_h_x += solution_ptr->Get_total_h() * extensive; diff --git a/src/transport.cpp b/src/transport.cpp index 4f84778c..7bde99d4 100644 --- a/src/transport.cpp +++ b/src/transport.cpp @@ -52,6 +52,7 @@ struct MOLES_ADDED /* total moles added to balance negative conc's */ } *moles_added; int count_moles_added; +#if !defined(NPP) #if defined(_MSC_VER) && (_MSC_VER <= 1400) // VS2005 # define nullptr NULL #endif @@ -61,7 +62,7 @@ int count_moles_added; # define nullptr NULL # endif #endif - +#endif #if defined(PHREEQCI_GUI) #ifdef _DEBUG #define new DEBUG_NEW @@ -125,8 +126,8 @@ transport(void) sol_D[i].count_exch_spec = 0; sol_D[i].exch_total = 0; sol_D[i].x_max = 0; - sol_D[i].viscos_f0 = 1.0; - sol_D[i].viscos_f = 1.0; + sol_D[i].viscos_0 = viscos_0_25; + sol_D[i].viscos = viscos_0_25; sol_D[i].tk_x = 298.15; sol_D[i].spec = NULL; sol_D[i].spec_size = 0; @@ -1544,13 +1545,13 @@ init_heat_mix(int l_nmix) /* * Check for need to model thermal diffusion... */ - if (heat_diffc <= diffc && !implicit) + if (heat_diffc <= diffc && !multi_Dflag) return (0); if (count_cells < 2) return (0); l_heat_nmix = 0; - if (implicit) + if (multi_Dflag) l_diffc = heat_diffc; else l_diffc = heat_diffc - diffc_tr; @@ -1653,24 +1654,21 @@ init_heat_mix(int l_nmix) { if (implicit) { - LDBLE viscos_f; - l_heat_nmix = l_nmix; for (i = 1; i <= count_cells + 1; i++) { - heat_mix_array[i - 1] = heat_mix_array[i] / l_heat_nmix; /* for implicit, m[i] has mixf with higher cell */ - if (print_viscosity) - { - viscos_f = sol_D[i - 1].viscos_f * exp(heat_diffc / sol_D[i - 1].tk_x - heat_diffc / 298.15); - viscos_f += sol_D[i].viscos_f * exp(heat_diffc / sol_D[i].tk_x - heat_diffc / 298.15); - heat_mix_array[i - 1] *= (viscos_f / 2); - } + heat_mix_array[i - 1] = heat_mix_array[i] / l_nmix; /* for implicit, m[i] has mixf with higher cell */ + //heat_mix_array[i - 1] *= viscos_0_25 / ((sol_D[i - 1].viscos_0 + sol_D[i].viscos_0) / 2); // 10/14/24: done in diffuse implicit } } else { l_heat_nmix = 1 + (int)floor(3.0 * maxmix); for (i = 1; i <= count_cells + 1; i++) + { heat_mix_array[i] /= l_heat_nmix; + if (multi_Dflag && nmix >= 2) // apptxx + heat_mix_array[i] /= l_nmix; + } } } @@ -1683,6 +1681,7 @@ heat_mix(int l_heat_nmix) /* ---------------------------------------------------------------------- */ { int i, j; + LDBLE viscos_f = 1, viscos_f1 = 1; for (i = 1; i <= count_cells; i++) temp1[i] = Utilities::Rxn_find(Rxn_solution_map, i)->Get_tc(); @@ -1693,9 +1692,16 @@ heat_mix(int l_heat_nmix) for (i = 1; i <= l_heat_nmix; i++) { for (j = 1; j <= count_cells; j++) + { + if (multi_Dflag) + { + viscos_f = viscos_0_25 / sol_D[j].viscos_0; + viscos_f1 = viscos_0_25 / sol_D[j + 1].viscos_0; + } temp2[j] = - heat_mix_array[j] * temp1[j - 1] + heat_mix_array[j + 1] * temp1[j + 1] + - (1 - heat_mix_array[j] - heat_mix_array[j + 1]) * temp1[j]; + heat_mix_array[j] * viscos_f * temp1[j - 1] + heat_mix_array[j + 1] * viscos_f1 * temp1[j + 1] + + (1 - heat_mix_array[j] * viscos_f - heat_mix_array[j + 1] * viscos_f1) * temp1[j]; + } for (j = 1; j <= count_cells; j++) temp1[j] = temp2[j]; } @@ -1835,9 +1841,9 @@ fill_spec(int l_cell_no, int ref_cell) const char * name; class species *s_ptr, *s_ptr2; class master *master_ptr; - LDBLE dum, dum2; + LDBLE dum, dum2, l_tk_x; LDBLE lm; - LDBLE por, por_il, viscos_f0, viscos_f, viscos_il_f0, viscos_il_f, viscos; + LDBLE por, por_il, viscos_f0, viscos_f, viscos_il_f0, viscos, viscos0; bool x_max_done = false; std::set loc_spec_names; @@ -1874,6 +1880,7 @@ fill_spec(int l_cell_no, int ref_cell) sol_D[l_cell_no].spec[i].lg = -0.04; sol_D[l_cell_no].spec[i].c = 0.0; sol_D[l_cell_no].spec[i].z = 0.0; + sol_D[l_cell_no].spec[i].Dw = 0.0; sol_D[l_cell_no].spec[i].Dwt = 0.0; sol_D[l_cell_no].spec[i].dw_t = 0.0; sol_D[l_cell_no].spec[i].dw_a_v_dif = 0.0; @@ -1881,9 +1888,9 @@ fill_spec(int l_cell_no, int ref_cell) sol_D[l_cell_no].count_exch_spec = sol_D[l_cell_no].count_spec = 0; } - sol_D[l_cell_no].tk_x = tk_x; + sol_D[l_cell_no].tk_x = l_tk_x = Utilities::Rxn_find(Rxn_solution_map, l_cell_no)->Get_tc() + 273.15; - viscos_f0 = viscos_il_f0 = viscos_f = viscos_il_f = 1.0; + viscos_f0 = viscos_il_f0 = viscos_f = 1.0; if (l_cell_no == 0) { por = cell_data[1].por; @@ -1903,26 +1910,23 @@ fill_spec(int l_cell_no, int ref_cell) por = viscos_f0 = viscos_f = 0.0; if (por_il < interlayer_Dpor_lim) - por_il = viscos_il_f0 = viscos_il_f = 0.0; + por_il = viscos_il_f0 = 0.0; /* - * correct diffusion coefficient for temperature and viscosity, D_T = D_298 * viscos_298 / viscos - * modify viscosity effect: Dw(TK) = Dw(298.15) * exp(dw_t / TK - dw_t / 298.15), SC data from Robinson and Stokes, 1959 + * correct diffusion coefficient for temperature Dw(TK) = Dw(298.15) * exp(dw_t / TK - dw_t / 298.15), SC data from Robinson and Stokes, 1959 + * and viscosity, D_T = D_298 * viscos_0_298 / viscos_0_tk */ - if (print_viscosity) - viscos = Utilities::Rxn_find(Rxn_solution_map, l_cell_no)->Get_viscosity(); - else - viscos = viscos_0; + sol_D[l_cell_no].viscos = viscos = Utilities::Rxn_find(Rxn_solution_map, l_cell_no)->Get_viscosity(); + sol_D[l_cell_no].viscos_0 = viscos0 = Utilities::Rxn_find(Rxn_solution_map, l_cell_no)->Get_viscos_0(); + if (!sol_D[l_cell_no].viscos_0) + sol_D[l_cell_no].viscos_0 = viscos0 = viscos; /* * put temperature factor in por_factor which corrects for porous medium... */ - dum = viscos_0_25 / viscos_0; - dum2 = viscos_0 / viscos; + dum = viscos_0_25 / viscos0; + dum2 = viscos0 / viscos; viscos_f0 *= dum; viscos_il_f0 *= dum; - sol_D[l_cell_no].viscos_f0 = dum; viscos_f *= dum2; - viscos_il_f *= dum2; - sol_D[l_cell_no].viscos_f = dum2; count_spec = count_exch_spec = 0; /* @@ -1945,14 +1949,8 @@ fill_spec(int l_cell_no, int ref_cell) if (s_ptr->type > HPLUS && !(s_ptr->type == EX && interlayer_Dflag)) continue; - //if (s_ptr->type == EX && !interlayer_Dflag) - // continue; - //if (s_ptr->type == SURF) - // continue; if (i > 0 && strcmp(s_ptr->name, species_list[(size_t)i - 1].s->name) == 0) continue; - //if (s_ptr == s_h2o) - // continue; if (s_ptr->type == EX) { @@ -2011,17 +2009,19 @@ fill_spec(int l_cell_no, int ref_cell) //string_hsave(s_ptr2->name); sol_D[l_cell_no].spec[count_spec].z = s_ptr2->z; if (s_ptr2->dw == 0) - sol_D[l_cell_no].spec[count_spec].Dwt = default_Dw * viscos_il_f; + { + sol_D[l_cell_no].spec[count_spec].Dw = default_Dw; + sol_D[l_cell_no].spec[count_spec].Dwt = default_Dw * viscos_il_f0; + } else { + sol_D[l_cell_no].spec[count_spec].Dw = s_ptr2->dw; + sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr2->dw * viscos_il_f0; if (s_ptr2->dw_t) { - sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr2->dw * - exp(s_ptr2->dw_t / 298.15 - s_ptr2->dw_t / tk_x) * viscos_il_f; + sol_D[l_cell_no].spec[count_spec].Dwt *= exp(s_ptr2->dw_t / l_tk_x - s_ptr2->dw_t / 298.15); sol_D[l_cell_no].spec[count_spec].dw_t = s_ptr2->dw_t; } - else - sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr2->dw * viscos_il_f; } if (s_ptr2->dw_a_v_dif) sol_D[l_cell_no].spec[count_spec].dw_a_v_dif = s_ptr2->dw_a_v_dif; @@ -2114,22 +2114,25 @@ fill_spec(int l_cell_no, int ref_cell) sol_D[l_cell_no].spec[count_spec].lg = s_ptr->lg; sol_D[l_cell_no].spec[count_spec].z = s_ptr->z; if (s_ptr->dw == 0) - sol_D[l_cell_no].spec[count_spec].Dwt = default_Dw; + { + sol_D[l_cell_no].spec[count_spec].Dw = default_Dw; + sol_D[l_cell_no].spec[count_spec].Dwt = default_Dw * viscos_f0; + } else { + sol_D[l_cell_no].spec[count_spec].Dw = s_ptr->dw; + sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr->dw * viscos_f0; if (s_ptr->dw_t) { - sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr->dw * - exp(s_ptr->dw_t / tk_x - s_ptr->dw_t / 298.15); + + sol_D[l_cell_no].spec[count_spec].Dwt *= exp(s_ptr->dw_t / l_tk_x - s_ptr->dw_t / 298.15); sol_D[l_cell_no].spec[count_spec].dw_t = s_ptr->dw_t; } - else - sol_D[l_cell_no].spec[count_spec].Dwt = s_ptr->dw; } if (s_ptr->dw_a_v_dif) { sol_D[l_cell_no].spec[count_spec].dw_a_v_dif = s_ptr->dw_a_v_dif; - sol_D[l_cell_no].spec[count_spec].Dwt *= pow(viscos_0 / viscos, s_ptr->dw_a_v_dif); + sol_D[l_cell_no].spec[count_spec].Dwt *= pow(viscos0 / viscos, s_ptr->dw_a_v_dif); } else sol_D[l_cell_no].spec[count_spec].dw_a_v_dif = 0.0; @@ -2465,8 +2468,8 @@ diffuse_implicit(LDBLE DDt, int stagnant) // boundary cells ... if (heat_nmix && cp == comp - 1) { - mfr = mixf[0][cp] = heat_mix_array[0]; - mfr1 = mixf[1][cp] = heat_mix_array[1]; + mfr = mixf[0][cp] = heat_mix_array[0] * viscos_0_25 / sol_D[1].viscos_0; + mfr1 = mixf[1][cp] = heat_mix_array[1] * viscos_0_25 / ((sol_D[1].viscos_0 + sol_D[2].viscos_0) / 2); } else { @@ -2533,8 +2536,8 @@ diffuse_implicit(LDBLE DDt, int stagnant) } if (heat_nmix && cp == comp - 1) { - mfr = mixf[c_1][cp] = heat_mix_array[c_1]; - mfr1 = mixf[count_cells][cp] = heat_mix_array[count_cells]; + mfr = mixf[c_1][cp] = heat_mix_array[c_1] * viscos_0_25 / ((sol_D[c_1].viscos_0 + sol_D[c].viscos_0) / 2); + mfr1 = mixf[count_cells][cp] = heat_mix_array[count_cells] * viscos_0_25 / sol_D[c].viscos_0; } else { @@ -2607,8 +2610,8 @@ diffuse_implicit(LDBLE DDt, int stagnant) { if (heat_nmix && cp == comp - 1) { - mfr = mixf[i - 1][cp] = heat_mix_array[i - 1]; - mfr1 = mixf[i][cp] = heat_mix_array[i]; + mfr = mixf[i - 1][cp] = heat_mix_array[i - 1] * viscos_0_25 / ((sol_D[i - 1].viscos_0 + sol_D[i].viscos_0) / 2); + mfr1 = mixf[i][cp] = heat_mix_array[i] * viscos_0_25 / ((sol_D[i].viscos_0 + sol_D[i + 1].viscos_0) / 2); } else { @@ -3952,21 +3955,26 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { if (s_ptr1->Get_dl_type() != cxxSurface::NO_DL) { - if (s_ptr1->Get_calc_viscosity()) + if (s_ptr1->Get_only_counter_ions()) + only_counter = TRUE; + + if (print_viscosity) { - viscosity(s_ptr1); - ct[icell].visc1 = s_ptr1->Get_DDL_viscosity(); + if (s_ptr1->Get_calc_viscosity()) + { + viscosity(s_ptr1); // calculate DDL_viscosity() + ct[icell].visc1 = viscos_0 / s_ptr1->Get_DDL_viscosity(); // ratio for visc1^a_v_dif + } + else + { + viscos_0 = Utilities::Rxn_find(Rxn_solution_map, icell)->Get_viscos_0(); + ct[icell].visc1 = viscos_0 / (s_ptr1->Get_DDL_viscosity() * Utilities::Rxn_find(Rxn_solution_map, icell)->Get_viscosity()); + } } - else - ct[icell].visc1 = s_ptr1->Get_DDL_viscosity() * Utilities::Rxn_find(Rxn_solution_map, icell)->Get_viscosity(); - + /* find the immobile surface charges with DL... */ s_charge_p.assign(s_ptr1->Get_surface_charges().begin(), s_ptr1->Get_surface_charges().end()); s_com_p.assign(s_ptr1->Get_surface_comps().begin(), s_ptr1->Get_surface_comps().end()); - if (s_ptr1->Get_only_counter_ions()) - only_counter = TRUE; - - /* find the immobile surface charges with DL... */ for (i = 0; i < (int)s_charge_p.size(); i++) { for (i1 = 0; i1 < (int)s_com_p.size(); i1++) @@ -3986,20 +3994,24 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { if (s_ptr2->Get_dl_type() != cxxSurface::NO_DL) { - if (s_ptr2->Get_calc_viscosity()) + if (s_ptr2->Get_only_counter_ions()) + only_counter = TRUE; + + if (print_viscosity) { - viscosity(s_ptr2); - ct[icell].visc2 = s_ptr2->Get_DDL_viscosity(); + if (s_ptr2->Get_calc_viscosity()) + { + viscosity(s_ptr2); + ct[icell].visc2 = viscos_0 / s_ptr2->Get_DDL_viscosity(); + } + else + { + viscos_0 = Utilities::Rxn_find(Rxn_solution_map, jcell)->Get_viscos_0(); + ct[icell].visc2 = viscos_0 / (s_ptr2->Get_DDL_viscosity() * Utilities::Rxn_find(Rxn_solution_map, jcell)->Get_viscosity()); + } } - else - ct[icell].visc2 = s_ptr2->Get_DDL_viscosity() * Utilities::Rxn_find(Rxn_solution_map, jcell)->Get_viscosity(); - s_charge_p.assign(s_ptr2->Get_surface_charges().begin(), s_ptr2->Get_surface_charges().end()); s_com_p.assign(s_ptr2->Get_surface_comps().begin(), s_ptr2->Get_surface_comps().end()); - - if (s_ptr2->Get_only_counter_ions()) - only_counter = TRUE; - for (i = 0; i < (int)s_charge_p.size(); i++) { for (i1 = 0; i1 < (int)s_com_p.size(); i1++) @@ -4014,7 +4026,6 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) } } } - viscosity(nullptr); if (!stagnant) { if (icell == 0) @@ -4266,7 +4277,7 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) if (il_calcs && sol_D[icell].spec[i].type == EX) { ct[icell].J_ij_il[k_il].name = sol_D[icell].spec[i].name; - ct[icell].v_m_il[k_il].D = sol_D[icell].spec[i].Dwt; + ct[icell].v_m_il[k_il].D = sol_D[icell].spec[i].Dwt; // .Dwt = dw * tk_corr * (visc_0_25/visc_0) ct[icell].v_m_il[k_il].z = sol_D[icell].spec[i].z; ct[icell].v_m_il[k_il].Dz = ct[icell].v_m_il[k_il].D * ct[icell].v_m_il[k_il].z; dum = sol_D[icell].spec[i].c * cec12 / (2 * ct[icell].v_m_il[k_il].z); @@ -4314,11 +4325,9 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { g_i += it_sc->Get_z_gMCD_map()[ct[icell].v_m[k].z]; } - dum = ct[icell].visc1; + g_i *= sol_D[icell].spec[i].erm_ddl; if (sol_D[icell].spec[i].dw_a_v_dif) - dum = pow(dum, sol_D[icell].spec[i].dw_a_v_dif); - g_i *= sol_D[icell].spec[i].erm_ddl / dum; - //g_i *= sol_D[icell].spec[i].erm_ddl / ct[icell].visc1; + g_i *= pow(ct[icell].visc1, sol_D[icell].spec[i].dw_a_v_dif); // .visc1 = viscos_0 / DDL_visc } if (dl_aq2) { @@ -4341,27 +4350,25 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) } } } - dum = ct[icell].visc2; + g_j *= sol_D[icell].spec[i].erm_ddl; if (sol_D[icell].spec[i].dw_a_v_dif) - dum = pow(dum, sol_D[icell].spec[i].dw_a_v_dif); - g_j *= sol_D[icell].spec[i].erm_ddl / dum; - //g_j *= sol_D[icell].spec[i].erm_ddl / ct[icell].visc2; + g_j *= pow(ct[icell].visc2, sol_D[icell].spec[i].dw_a_v_dif); } } - b_i = A1 * sol_D[icell].spec[i].Dwt; + b_i = A1 * sol_D[icell].spec[i].Dwt; // .Dwt = dw * tk_corr * (visc_0_25/visc_0) * (visc_0 / visc)**dw_a_v_dif b_j = A2; if (sol_D[icell].tk_x == sol_D[jcell].tk_x) b_j *= sol_D[icell].spec[i].Dwt; else { - dum2 = sol_D[icell].spec[i].Dwt / sol_D[icell].viscos_f; - dum2 *= exp(sol_D[icell].spec[i].dw_t / sol_D[jcell].tk_x - sol_D[icell].spec[i].dw_t / sol_D[icell].tk_x); - dum2 *= sol_D[jcell].viscos_f; - b_j *= dum2; + dum2 = viscos_0_25 / sol_D[jcell].viscos_0; + if (sol_D[icell].spec[i].dw_t) + dum2 *= exp(sol_D[icell].spec[i].dw_t / sol_D[jcell].tk_x - sol_D[icell].spec[i].dw_t / 298.15); + if (sol_D[icell].spec[i].dw_a_v_dif) + dum2 *= pow(sol_D[jcell].viscos_0 / sol_D[jcell].viscos, sol_D[icell].spec[i].dw_a_v_dif); + b_j *= sol_D[icell].spec[i].Dw * dum2; } - if (sol_D[icell].spec[i].dw_a_v_dif) - b_j *= pow(sol_D[jcell].viscos_f / sol_D[icell].viscos_f, sol_D[icell].spec[i].dw_a_v_dif); calc_b_ij(icell, jcell, k, b_i, b_j, g_i, g_j, f_free_i, f_free_j, stagnant); k++; @@ -4440,11 +4447,9 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) } } } - dum = ct[icell].visc1; + g_i *= sol_D[jcell].spec[j].erm_ddl; if (sol_D[jcell].spec[j].dw_a_v_dif) - dum = pow(dum, sol_D[icell].spec[j].dw_a_v_dif); - g_i *= sol_D[jcell].spec[j].erm_ddl / dum; - //g_i *= sol_D[jcell].spec[j].erm_ddl / ct[icell].visc1; + g_i *= pow(ct[icell].visc1, sol_D[jcell].spec[j].dw_a_v_dif); } if (dl_aq2) { @@ -4452,12 +4457,9 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { g_j += it_sc->Get_z_gMCD_map()[ct[icell].v_m[k].z]; } - - dum = ct[icell].visc2; + g_j *= sol_D[jcell].spec[j].erm_ddl; if (sol_D[jcell].spec[j].dw_a_v_dif) - dum = pow(dum, sol_D[jcell].spec[j].dw_a_v_dif); - g_j *= sol_D[jcell].spec[j].erm_ddl / dum; - //g_j *= sol_D[jcell].spec[j].erm_ddl / ct[icell].visc2; + g_j *= pow(ct[jcell].visc2, sol_D[jcell].spec[j].dw_a_v_dif); } } b_i = A1; @@ -4466,14 +4468,13 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) b_i *= sol_D[jcell].spec[j].Dwt; else { - dum2 = sol_D[jcell].spec[j].Dwt / sol_D[jcell].viscos_f; - dum2 *= exp(sol_D[jcell].spec[j].dw_t / sol_D[icell].tk_x - sol_D[jcell].spec[j].dw_t / sol_D[jcell].tk_x); - dum2 *= sol_D[icell].viscos_f; - b_i *= dum2; + dum2 = viscos_0_25 / sol_D[icell].viscos_0; + if (sol_D[jcell].spec[j].dw_t) + dum2 *= exp(sol_D[jcell].spec[j].dw_t / sol_D[icell].tk_x - sol_D[jcell].spec[j].dw_t / 298.15); + if (sol_D[jcell].spec[j].dw_a_v_dif) + dum2 *= pow(sol_D[icell].viscos_0 / sol_D[icell].viscos, sol_D[jcell].spec[j].dw_a_v_dif); + b_i *= sol_D[jcell].spec[j].Dw * dum2; } - if (sol_D[icell].spec[i].dw_a_v_dif) - b_i *= pow(sol_D[icell].viscos_f / sol_D[jcell].viscos_f, sol_D[icell].spec[i].dw_a_v_dif); - calc_b_ij(icell, jcell, k, b_i, b_j, g_i, g_j, f_free_i, f_free_j, stagnant); k++; @@ -4546,11 +4547,9 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { g_i += it_sc->Get_z_gMCD_map()[ct[icell].v_m[k].z]; } - dum = ct[icell].visc1; + g_i *= sol_D[icell].spec[i].erm_ddl; if (sol_D[icell].spec[i].dw_a_v_dif) - dum = pow(dum, sol_D[icell].spec[i].dw_a_v_dif); - g_i *= sol_D[icell].spec[i].erm_ddl / dum; - //g_i *= sol_D[icell].spec[i].erm_ddl / ct[icell].visc1; + g_i *= pow(ct[icell].visc1, sol_D[icell].spec[i].dw_a_v_dif); } if (dl_aq2) { @@ -4558,11 +4557,9 @@ find_J(int icell, int jcell, LDBLE mixf, LDBLE DDt, int stagnant) { g_j += it_sc->Get_z_gMCD_map()[ct[icell].v_m[k].z]; } - dum = ct[icell].visc2; + g_j *= sol_D[jcell].spec[j].erm_ddl; if (sol_D[jcell].spec[j].dw_a_v_dif) - dum = pow(dum, sol_D[jcell].spec[j].dw_a_v_dif); - g_j *= sol_D[jcell].spec[j].erm_ddl / dum; - //g_j *= sol_D[jcell].spec[j].erm_ddl / ct[icell].visc2; + g_j *= pow(ct[jcell].visc2, sol_D[jcell].spec[j].dw_a_v_dif); } } b_i = A1 * sol_D[icell].spec[i].Dwt; @@ -6006,11 +6003,6 @@ viscosity(cxxSurface *surf_ptr) return surf_ptr->Get_DDL_viscosity(); } - /* from Atkins, 1994. Physical Chemistry, 5th ed. */ - //viscos = - // pow((LDBLE) 10., - // -(1.37023 * (tc_x - 20) + - // 0.000836 * (tc_x - 20) * (tc_x - 20)) / (109 + tc_x)); /* Huber et al., 2009, J. Phys. Chem. Ref. Data, Vol. 38, 101-125 */ LDBLE H[4] = { 1.67752, 2.20462, 0.6366564, -0.241605 }; LDBLE Tb = (tc_x + 273.15) / 647.096, denom = H[0], mu0; @@ -6204,17 +6196,17 @@ viscosity(cxxSurface *surf_ptr) } // parms for A and V_an. 7/26/24: added V_an calculation for gases z = 0 if ((l_z = s_x[i]->z) == 0) - { - if (s_x[i]->Jones_Dole[6]) { - V_an += s_x[i]->logk[vm_tc] * s_x[i]->Jones_Dole[6] * l_moles; - m_an += l_moles; + if (s_x[i]->Jones_Dole[6]) + { + V_an += s_x[i]->logk[vm_tc] * s_x[i]->Jones_Dole[6] * l_moles; + m_an += l_moles; + } + continue; } - continue; - } if ((Dw = s_x[i]->dw) == 0) continue; - Dw *= (0.89 / viscos_0 * tk_x / 298.15); + Dw *= viscos_0_25 / viscos_0; if (s_x[i]->dw_t) Dw *= exp(s_x[i]->dw_t / tk_x - s_x[i]->dw_t / 298.15); if (l_z < 0)